"study_id","site_id","sampling_method","pollinator","identified_to","guild","abundance","total_sampled_area","total_sampled_time","total_sampled_flowers","description","notes"
"Agustin_Saez_Rubus_idaeus_Argentina_2014","Arroyo Claro","transects (in each transect I observed the number and identity of pollinatior visiting 200 flowers).","Bombus terrestris","specie","bumblebees",67,NA,NA,1600,"8 observation transects per plot",NA
"Agustin_Saez_Rubus_idaeus_Argentina_2014","Arroyo Claro","transects (in each transect I observed the number and identity of pollinatior visiting 200 flowers).","Apis mellifera","specie","honeybees",107,NA,NA,1600,"8 observation transects per plot",NA
"Agustin_Saez_Rubus_idaeus_Argentina_2014","Arroyo Claro","transects (in each transect I observed the number and identity of pollinatior visiting 200 flowers).","Ruizanthedella mutabilis","specie","other_wild_bees",14,NA,NA,1600,"8 observation transects per plot",NA
"Agustin_Saez_Rubus_idaeus_Argentina_2014","Arroyo Claro","transects (in each transect I observed the number and identity of pollinatior visiting 200 flowers).","Ruizantheda proxima","specie","other_wild_bees",6,NA,NA,1600,"8 observation transects per plot",NA
"Agustin_Saez_Rubus_idaeus_Argentina_2014","Silva","transects (in each transect I observed the number and identity of pollinatior visiting 200 flowers).","Bombus terrestris","specie","bumblebees",40,NA,NA,1600,"8 observation transects per plot",NA
"Agustin_Saez_Rubus_idaeus_Argentina_2014","Silva","transects (in each transect I observed the number and identity of pollinatior visiting 200 flowers).","Apis mellifera","specie","honeybees",164,NA,NA,1600,"8 observation transects per plot",NA
"Agustin_Saez_Rubus_idaeus_Argentina_2014","Silva","transects (in each transect I observed the number and identity of pollinatior visiting 200 flowers).","Ruizantheda proxima","specie","other_wild_bees",5,NA,NA,1600,"8 observation transects per plot",NA
"Agustin_Saez_Rubus_idaeus_Argentina_2014","Silva","transects (in each transect I observed the number and identity of pollinatior visiting 200 flowers).","Ruizanthedella mutabilis","specie","other_wild_bees",4,NA,NA,1600,"8 observation transects per plot",NA
"Agustin_Saez_Rubus_idaeus_Argentina_2014","Ines","transects (in each transect I observed the number and identity of pollinatior visiting 200 flowers).","Bombus terrestris","specie","bumblebees",15,NA,NA,1600,"8 observation transects per plot",NA
"Agustin_Saez_Rubus_idaeus_Argentina_2014","Ines","transects (in each transect I observed the number and identity of pollinatior visiting 200 flowers).","Apis mellifera","specie","honeybees",130,NA,NA,1600,"8 observation transects per plot",NA
"Agustin_Saez_Rubus_idaeus_Argentina_2014","Ines","transects (in each transect I observed the number and identity of pollinatior visiting 200 flowers).","Ruizantheda proxima","specie","other_wild_bees",1,NA,NA,1600,"8 observation transects per plot",NA
"Agustin_Saez_Rubus_idaeus_Argentina_2014","Ines","transects (in each transect I observed the number and identity of pollinatior visiting 200 flowers).","Manuelia gayi","specie","other_wild_bees",1,NA,NA,1600,"8 observation transects per plot",NA
"Agustin_Saez_Rubus_idaeus_Argentina_2014","El Inca","transects (in each transect I observed the number and identity of pollinatior visiting 200 flowers).","Bombus terrestris","specie","bumblebees",178,NA,NA,1600,"8 observation transects per plot",NA
"Agustin_Saez_Rubus_idaeus_Argentina_2014","El Inca","transects (in each transect I observed the number and identity of pollinatior visiting 200 flowers).","Apis mellifera","specie","honeybees",24,NA,NA,1600,"8 observation transects per plot",NA
"Agustin_Saez_Rubus_idaeus_Argentina_2014","El Inca","transects (in each transect I observed the number and identity of pollinatior visiting 200 flowers).","Manuelia gayatina","specie","other_wild_bees",10,NA,NA,1600,"8 observation transects per plot",NA
"Agustin_Saez_Rubus_idaeus_Argentina_2014","El Inca","transects (in each transect I observed the number and identity of pollinatior visiting 200 flowers).","Ruizanthedella mutabilis","specie","other_wild_bees",1,NA,NA,1600,"8 observation transects per plot",NA
"Agustin_Saez_Rubus_idaeus_Argentina_2014","El Inca","transects (in each transect I observed the number and identity of pollinatior visiting 200 flowers).","Ruizantheda proxima","specie","other_wild_bees",5,NA,NA,1600,"8 observation transects per plot",NA
"Agustin_Saez_Rubus_idaeus_Argentina_2014","Omar","transects (in each transect I observed the number and identity of pollinatior visiting 200 flowers).","Bombus terrestris","specie","bumblebees",77,NA,NA,1600,"8 observation transects per plot",NA
"Agustin_Saez_Rubus_idaeus_Argentina_2014","Omar","transects (in each transect I observed the number and identity of pollinatior visiting 200 flowers).","Apis mellifera","specie","honeybees",15,NA,NA,1600,"8 observation transects per plot",NA
"Agustin_Saez_Rubus_idaeus_Argentina_2014","Omar","transects (in each transect I observed the number and identity of pollinatior visiting 200 flowers).","Ruizantheda proxima","specie","other_wild_bees",19,NA,NA,1600,"8 observation transects per plot",NA
"Agustin_Saez_Rubus_idaeus_Argentina_2014","Omar","transects (in each transect I observed the number and identity of pollinatior visiting 200 flowers).","Ruizanthedella mutabilis","specie","other_wild_bees",12,NA,NA,1600,"8 observation transects per plot",NA
"Agustin_Saez_Rubus_idaeus_Argentina_2014","Nelson","transects (in each transect I observed the number and identity of pollinatior visiting 200 flowers).","Bombus terrestris","specie","bumblebees",141,NA,NA,1600,"8 observation transects per plot",NA
"Agustin_Saez_Rubus_idaeus_Argentina_2014","Nelson","transects (in each transect I observed the number and identity of pollinatior visiting 200 flowers).","Apis mellifera","specie","honeybees",102,NA,NA,1600,"8 observation transects per plot",NA
"Agustin_Saez_Rubus_idaeus_Argentina_2014","Nelson","transects (in each transect I observed the number and identity of pollinatior visiting 200 flowers).","Ruizantheda proxima","specie","other_wild_bees",13,NA,NA,1600,"8 observation transects per plot",NA
"Agustin_Saez_Rubus_idaeus_Argentina_2014","Nelson","transects (in each transect I observed the number and identity of pollinatior visiting 200 flowers).","Ruizanthedella mutabilis","specie","other_wild_bees",7,NA,NA,1600,"8 observation transects per plot",NA
"Agustin_Saez_Rubus_idaeus_Argentina_2014","Nelson","transects (in each transect I observed the number and identity of pollinatior visiting 200 flowers).","Manuelia gayatina","specie","other_wild_bees",1,NA,NA,1600,"8 observation transects per plot",NA
"Agustin_Saez_Rubus_idaeus_Argentina_2014","Nelson","transects (in each transect I observed the number and identity of pollinatior visiting 200 flowers).","Halictidae sp.1","family","other_wild_bees",1,NA,NA,1600,"8 observation transects per plot",NA
"Agustin_Saez_Rubus_idaeus_Argentina_2014","Hernan","transects (in each transect I observed the number and identity of pollinatior visiting 200 flowers).","Bombus terrestris","specie","bumblebees",156,NA,NA,1600,"8 observation transects per plot",NA
"Agustin_Saez_Rubus_idaeus_Argentina_2014","Hernan","transects (in each transect I observed the number and identity of pollinatior visiting 200 flowers).","Apis mellifera","specie","honeybees",85,NA,NA,1600,"8 observation transects per plot",NA
"Agustin_Saez_Rubus_idaeus_Argentina_2014","Hernan","transects (in each transect I observed the number and identity of pollinatior visiting 200 flowers).","Ruizantheda proxima","specie","other_wild_bees",19,NA,NA,1600,"8 observation transects per plot",NA
"Agustin_Saez_Rubus_idaeus_Argentina_2014","Hernan","transects (in each transect I observed the number and identity of pollinatior visiting 200 flowers).","Ruizanthedella mutabilis","specie","other_wild_bees",3,NA,NA,1600,"8 observation transects per plot",NA
"Agustin_Saez_Rubus_idaeus_Argentina_2014","Valle del Medio","transects (in each transect I observed the number and identity of pollinatior visiting 200 flowers).","Bombus terrestris","specie","bumblebees",47,NA,NA,1600,"8 observation transects per plot",NA
"Agustin_Saez_Rubus_idaeus_Argentina_2014","Valle del Medio","transects (in each transect I observed the number and identity of pollinatior visiting 200 flowers).","Apis mellifera","specie","honeybees",136,NA,NA,1600,"8 observation transects per plot",NA
"Agustin_Saez_Rubus_idaeus_Argentina_2014","Valle del Medio","transects (in each transect I observed the number and identity of pollinatior visiting 200 flowers).","Ruizantheda proxima","specie","other_wild_bees",2,NA,NA,1600,"8 observation transects per plot",NA
"Agustin_Saez_Rubus_idaeus_Argentina_2014","El Chucao","transects (in each transect I observed the number and identity of pollinatior visiting 200 flowers).","Bombus terrestris","specie","bumblebees",96,NA,NA,1600,"8 observation transects per plot",NA
"Agustin_Saez_Rubus_idaeus_Argentina_2014","El Chucao","transects (in each transect I observed the number and identity of pollinatior visiting 200 flowers).","Apis mellifera","specie","honeybees",62,NA,NA,1600,"8 observation transects per plot",NA
"Agustin_Saez_Rubus_idaeus_Argentina_2014","El Chucao","transects (in each transect I observed the number and identity of pollinatior visiting 200 flowers).","Ruizanthedella mutabilis","specie","other_wild_bees",3,NA,NA,1600,"8 observation transects per plot",NA
"Agustin_Saez_Rubus_idaeus_Argentina_2014","Miguel","transects (in each transect I observed the number and identity of pollinatior visiting 200 flowers).","Bombus terrestris","specie","bumblebees",104,NA,NA,1600,"8 observation transects per plot",NA
"Agustin_Saez_Rubus_idaeus_Argentina_2014","Miguel","transects (in each transect I observed the number and identity of pollinatior visiting 200 flowers).","Apis mellifera","specie","honeybees",231,NA,NA,1600,"8 observation transects per plot",NA
"Agustin_Saez_Rubus_idaeus_Argentina_2014","Miguel","transects (in each transect I observed the number and identity of pollinatior visiting 200 flowers).","Ruizanthedella mutabilis","specie","other_wild_bees",5,NA,NA,1600,"8 observation transects per plot",NA
"Agustin_Saez_Rubus_idaeus_Argentina_2014","Miguel","transects (in each transect I observed the number and identity of pollinatior visiting 200 flowers).","Ruizantheda proxima","specie","other_wild_bees",5,NA,NA,1600,"8 observation transects per plot",NA
"Agustin_Saez_Rubus_idaeus_Argentina_2014","Marcelino","transects (in each transect I observed the number and identity of pollinatior visiting 200 flowers).","Bombus terrestris","specie","bumblebees",42,NA,NA,1600,"8 observation transects per plot",NA
"Agustin_Saez_Rubus_idaeus_Argentina_2014","Marcelino","transects (in each transect I observed the number and identity of pollinatior visiting 200 flowers).","Apis mellifera","specie","honeybees",19,NA,NA,1600,"8 observation transects per plot",NA
"Agustin_Saez_Rubus_idaeus_Argentina_2014","Marcelino","transects (in each transect I observed the number and identity of pollinatior visiting 200 flowers).","Ruizanthedella mutabilis","specie","other_wild_bees",1,NA,NA,1600,"8 observation transects per plot",NA
"Agustin_Saez_Rubus_idaeus_Argentina_2014","Marcelino","transects (in each transect I observed the number and identity of pollinatior visiting 200 flowers).","Ruizantheda proxima","specie","other_wild_bees",4,NA,NA,1600,"8 observation transects per plot",NA
"Agustin_Saez_Rubus_idaeus_Argentina_2014","El Monje","transects (in each transect I observed the number and identity of pollinatior visiting 200 flowers).","Bombus terrestris","specie","bumblebees",26,NA,NA,1600,"8 observation transects per plot",NA
"Agustin_Saez_Rubus_idaeus_Argentina_2014","El Monje","transects (in each transect I observed the number and identity of pollinatior visiting 200 flowers).","Apis mellifera","specie","honeybees",97,NA,NA,1600,"8 observation transects per plot",NA
"Agustin_Saez_Rubus_idaeus_Argentina_2014","El Monje","transects (in each transect I observed the number and identity of pollinatior visiting 200 flowers).","Ruizantheda proxima","specie","other_wild_bees",5,NA,NA,1600,"8 observation transects per plot",NA
"Agustin_Saez_Rubus_idaeus_Argentina_2014","CEPA","transects (in each transect I observed the number and identity of pollinatior visiting 200 flowers).","Bombus terrestris","specie","bumblebees",80,NA,NA,1600,"8 observation transects per plot",NA
"Agustin_Saez_Rubus_idaeus_Argentina_2014","CEPA","transects (in each transect I observed the number and identity of pollinatior visiting 200 flowers).","Apis mellifera","specie","honeybees",53,NA,NA,1600,"8 observation transects per plot",NA
"Agustin_Saez_Rubus_idaeus_Argentina_2014","CEPA","transects (in each transect I observed the number and identity of pollinatior visiting 200 flowers).","Ruizantheda proxima","specie","other_wild_bees",2,NA,NA,1600,"8 observation transects per plot",NA
"Agustin_Saez_Rubus_idaeus_Argentina_2014","CEPA","transects (in each transect I observed the number and identity of pollinatior visiting 200 flowers).","Bombus dahlbomii","specie","bumblebees",1,NA,NA,1600,"8 observation transects per plot",NA
"Agustin_Saez_Rubus_idaeus_Argentina_2014","Andrea","transects (in each transect I observed the number and identity of pollinatior visiting 200 flowers).","Bombus terrestris","specie","bumblebees",88,NA,NA,1600,"8 observation transects per plot",NA
"Agustin_Saez_Rubus_idaeus_Argentina_2014","Andrea","transects (in each transect I observed the number and identity of pollinatior visiting 200 flowers).","Apis mellifera","specie","honeybees",6,NA,NA,1600,"8 observation transects per plot",NA
"Agustin_Saez_Rubus_idaeus_Argentina_2014","Andrea","transects (in each transect I observed the number and identity of pollinatior visiting 200 flowers).","Ruizantheda proxima","specie","other_wild_bees",2,NA,NA,1600,"8 observation transects per plot",NA
"Agustin_Saez_Rubus_idaeus_Argentina_2014","Tranquerita","transects (in each transect I observed the number and identity of pollinatior visiting 200 flowers).","Bombus terrestris","specie","bumblebees",43,NA,NA,1600,"8 observation transects per plot",NA
"Agustin_Saez_Rubus_idaeus_Argentina_2014","Tranquerita","transects (in each transect I observed the number and identity of pollinatior visiting 200 flowers).","Apis mellifera","specie","honeybees",52,NA,NA,1600,"8 observation transects per plot",NA
"Agustin_Saez_Rubus_idaeus_Argentina_2014","Tranquerita","transects (in each transect I observed the number and identity of pollinatior visiting 200 flowers).","Ruizantheda proxima","specie","other_wild_bees",3,NA,NA,1600,"8 observation transects per plot",NA
"Agustin_Saez_Rubus_idaeus_Argentina_2014","Tranquerita","transects (in each transect I observed the number and identity of pollinatior visiting 200 flowers).","Ruizanthedella mutabilis","specie","other_wild_bees",2,NA,NA,1600,"8 observation transects per plot",NA
"Agustin_Saez_Rubus_idaeus_Argentina_2014","Las Acacias","transects (in each transect I observed the number and identity of pollinatior visiting 200 flowers).","Bombus terrestris","specie","bumblebees",37,NA,NA,1600,"8 observation transects per plot",NA
"Agustin_Saez_Rubus_idaeus_Argentina_2014","Las Acacias","transects (in each transect I observed the number and identity of pollinatior visiting 200 flowers).","Apis mellifera","specie","honeybees",60,NA,NA,1600,"8 observation transects per plot",NA
"Alejandro_Trillo_Fragaria_ananassa_Spain_2016","Angel","transects","Bombus terrestris terrestris","species","bumblebees",12,800,240,241,"Data is pooled from 4 sampling rounds performed in winter and in spring. Note that bumblebees and honeybees are managed species but there were not colonies within our sampling plots",NA
"Alejandro_Trillo_Fragaria_ananassa_Spain_2016","Angel","transects","Apis mellifera","species","honeybees",41,800,240,241,"Data is pooled from 4 sampling rounds performed in winter and in spring. Note that bumblebees and honeybees are managed species but there were not colonies within our sampling plots",NA
"Alejandro_Trillo_Fragaria_ananassa_Spain_2016","Angel","transects","Diptera sp1","morphospecies","other_flies",1,400,240,241,"Data is pooled from 4 sampling rounds performed in winter and in spring. Note that bumblebees and honeybees are managed species but there were not colonies within our sampling plots",NA
"Alejandro_Trillo_Fragaria_ananassa_Spain_2016","Angel","transects","Episyrphus balteatus","species","syrphids",1,400,240,241,"Data is pooled from 4 sampling rounds performed in winter and in spring. Note that bumblebees and honeybees are managed species but there were not colonies within our sampling plots",NA
"Alejandro_Trillo_Fragaria_ananassa_Spain_2016","Angel","transects","Eristalinus taeniops","species","syrphids",1,400,240,241,"Data is pooled from 4 sampling rounds performed in winter and in spring. Note that bumblebees and honeybees are managed species but there were not colonies within our sampling plots",NA
"Alejandro_Trillo_Fragaria_ananassa_Spain_2016","Angel","transects","Eupeodes corollae","species","syrphids",2,400,240,241,"Data is pooled from 4 sampling rounds performed in winter and in spring. Note that bumblebees and honeybees are managed species but there were not colonies within our sampling plots",NA
"Alejandro_Trillo_Fragaria_ananassa_Spain_2016","Francisco1","transects","Apis mellifera","species","honeybees",69,800,240,436,"Data is pooled from 4 sampling rounds performed in winter and in spring. Note that bumblebees and honeybees are managed species but there were not colonies within our sampling plots",NA
"Alejandro_Trillo_Fragaria_ananassa_Spain_2016","Francisco1","transects","Lepidoptera sp1","morphospecies","lepidoptera",1,400,240,436,"Data is pooled from 4 sampling rounds performed in winter and in spring. Note that bumblebees and honeybees are managed species but there were not colonies within our sampling plots",NA
"Alejandro_Trillo_Fragaria_ananassa_Spain_2016","Francisco1","transects","Diptera sp1","morphospecies","other_flies",1,400,240,436,"Data is pooled from 4 sampling rounds performed in winter and in spring. Note that bumblebees and honeybees are managed species but there were not colonies within our sampling plots",NA
"Alejandro_Trillo_Fragaria_ananassa_Spain_2016","Francisco1","transects","Diptera sp2","morphospecies","other_flies",1,400,240,436,"Data is pooled from 4 sampling rounds performed in winter and in spring. Note that bumblebees and honeybees are managed species but there were not colonies within our sampling plots",NA
"Alejandro_Trillo_Fragaria_ananassa_Spain_2016","Francisco1","transects","Diptera sp3","morphospecies","other_flies",1,400,240,436,"Data is pooled from 4 sampling rounds performed in winter and in spring. Note that bumblebees and honeybees are managed species but there were not colonies within our sampling plots",NA
"Alejandro_Trillo_Fragaria_ananassa_Spain_2016","Francisco1","transects","Diptera sp4","morphospecies","other_flies",1,400,240,436,"Data is pooled from 4 sampling rounds performed in winter and in spring. Note that bumblebees and honeybees are managed species but there were not colonies within our sampling plots",NA
"Alejandro_Trillo_Fragaria_ananassa_Spain_2016","Francisco1","transects","Wild bee sp1","morphospecies","other_wild_bees",2,400,240,436,"Data is pooled from 4 sampling rounds performed in winter and in spring. Note that bumblebees and honeybees are managed species but there were not colonies within our sampling plots",NA
"Alejandro_Trillo_Fragaria_ananassa_Spain_2016","Francisco1","transects","Eristalinus taeniops","species","syrphids",2,400,240,436,"Data is pooled from 4 sampling rounds performed in winter and in spring. Note that bumblebees and honeybees are managed species but there were not colonies within our sampling plots",NA
"Alejandro_Trillo_Fragaria_ananassa_Spain_2016","Francisco1","transects","Eristalis sp1","morphospecies","syrphids",2,400,240,436,"Data is pooled from 4 sampling rounds performed in winter and in spring. Note that bumblebees and honeybees are managed species but there were not colonies within our sampling plots",NA
"Alejandro_Trillo_Fragaria_ananassa_Spain_2016","Francisco1","transects","Eupeodes corollae","species","syrphids",9,400,240,436,"Data is pooled from 4 sampling rounds performed in winter and in spring. Note that bumblebees and honeybees are managed species but there were not colonies within our sampling plots",NA
"Alejandro_Trillo_Fragaria_ananassa_Spain_2016","Francisco2","transects","Bombus terrestris terrestris","species","bumblebees",1,800,240,175,"Data is pooled from 4 sampling rounds performed in winter and in spring. Note that bumblebees and honeybees are managed species but there were not colonies within our sampling plots",NA
"Alejandro_Trillo_Fragaria_ananassa_Spain_2016","Francisco2","transects","Apis mellifera","species","honeybees",80,800,240,175,"Data is pooled from 4 sampling rounds performed in winter and in spring. Note that bumblebees and honeybees are managed species but there were not colonies within our sampling plots",NA
"Alejandro_Trillo_Fragaria_ananassa_Spain_2016","Francisco2","transects","Diptera sp1","morphospecies","other_flies",2,400,240,175,"Data is pooled from 4 sampling rounds performed in winter and in spring. Note that bumblebees and honeybees are managed species but there were not colonies within our sampling plots",NA
"Alejandro_Trillo_Fragaria_ananassa_Spain_2016","Francisco2","transects","Episyrphus balteatus","species","syrphids",3,400,240,175,"Data is pooled from 4 sampling rounds performed in winter and in spring. Note that bumblebees and honeybees are managed species but there were not colonies within our sampling plots",NA
"Alejandro_Trillo_Fragaria_ananassa_Spain_2016","Francisco2","transects","Eristalinus taeniops","species","syrphids",1,400,240,175,"Data is pooled from 4 sampling rounds performed in winter and in spring. Note that bumblebees and honeybees are managed species but there were not colonies within our sampling plots",NA
"Alejandro_Trillo_Fragaria_ananassa_Spain_2016","Francisco2","transects","Eristalis similis","species","syrphids",1,400,240,175,"Data is pooled from 4 sampling rounds performed in winter and in spring. Note that bumblebees and honeybees are managed species but there were not colonies within our sampling plots",NA
"Alejandro_Trillo_Fragaria_ananassa_Spain_2016","Francisco2","transects","Eristalis sp1","morphospecies","syrphids",1,400,240,175,"Data is pooled from 4 sampling rounds performed in winter and in spring. Note that bumblebees and honeybees are managed species but there were not colonies within our sampling plots",NA
"Alejandro_Trillo_Fragaria_ananassa_Spain_2016","Francisco2","transects","Eristalis tenax","species","syrphids",1,400,240,175,"Data is pooled from 4 sampling rounds performed in winter and in spring. Note that bumblebees and honeybees are managed species but there were not colonies within our sampling plots",NA
"Alejandro_Trillo_Fragaria_ananassa_Spain_2016","Francisco2","transects","Eupeodes corollae","species","syrphids",3,400,240,175,"Data is pooled from 4 sampling rounds performed in winter and in spring. Note that bumblebees and honeybees are managed species but there were not colonies within our sampling plots",NA
"Alejandro_Trillo_Fragaria_ananassa_Spain_2016","Francisco2","transects","Sphaerophoria rueppellii","species","syrphids",5,400,240,175,"Data is pooled from 4 sampling rounds performed in winter and in spring. Note that bumblebees and honeybees are managed species but there were not colonies within our sampling plots",NA
"Alejandro_Trillo_Fragaria_ananassa_Spain_2016","Francisco2","transects","Sphaerophoria sp1","morphospecies","syrphids",1,400,240,175,"Data is pooled from 4 sampling rounds performed in winter and in spring. Note that bumblebees and honeybees are managed species but there were not colonies within our sampling plots",NA
"Alejandro_Trillo_Fragaria_ananassa_Spain_2016","Juanantonio","transects","Bombus terrestris terrestris","species","bumblebees",2,800,240,126,"Data is pooled from 4 sampling rounds performed in winter and in spring. Note that bumblebees and honeybees are managed species but there were not colonies within our sampling plots",NA
"Alejandro_Trillo_Fragaria_ananassa_Spain_2016","Juanantonio","transects","Apis mellifera","species","honeybees",11,800,240,126,"Data is pooled from 4 sampling rounds performed in winter and in spring. Note that bumblebees and honeybees are managed species but there were not colonies within our sampling plots",NA
"Alejandro_Trillo_Fragaria_ananassa_Spain_2016","Juanantonio","transects","Eupeodes corollae","species","syrphids",2,400,240,126,"Data is pooled from 4 sampling rounds performed in winter and in spring. Note that bumblebees and honeybees are managed species but there were not colonies within our sampling plots",NA
"Alejandro_Trillo_Fragaria_ananassa_Spain_2016","Manoli","transects","Apis mellifera","species","honeybees",169,800,240,174,"Data is pooled from 4 sampling rounds performed in winter and in spring. Note that bumblebees and honeybees are managed species but there were not colonies within our sampling plots",NA
"Alejandro_Trillo_Fragaria_ananassa_Spain_2016","Manoli","transects","Diptera sp1","morphospecies","other_flies",1,400,240,174,"Data is pooled from 4 sampling rounds performed in winter and in spring. Note that bumblebees and honeybees are managed species but there were not colonies within our sampling plots",NA
"Alejandro_Trillo_Fragaria_ananassa_Spain_2016","Manoli","transects","Diptera sp4","morphospecies","other_flies",1,400,240,174,"Data is pooled from 4 sampling rounds performed in winter and in spring. Note that bumblebees and honeybees are managed species but there were not colonies within our sampling plots",NA
"Alejandro_Trillo_Fragaria_ananassa_Spain_2016","Manoli","transects","Episyrphus balteatus","species","syrphids",1,400,240,174,"Data is pooled from 4 sampling rounds performed in winter and in spring. Note that bumblebees and honeybees are managed species but there were not colonies within our sampling plots",NA
"Alejandro_Trillo_Fragaria_ananassa_Spain_2016","Manoli","transects","Eupeodes corollae","species","syrphids",7,400,240,174,"Data is pooled from 4 sampling rounds performed in winter and in spring. Note that bumblebees and honeybees are managed species but there were not colonies within our sampling plots",NA
"Alejandro_Trillo_Fragaria_ananassa_Spain_2016","Manoli","transects","Sphaerophoria sp1","morphospecies","syrphids",1,400,240,174,"Data is pooled from 4 sampling rounds performed in winter and in spring. Note that bumblebees and honeybees are managed species but there were not colonies within our sampling plots",NA
"Alejandro_Trillo_Fragaria_ananassa_Spain_2016","Manoli","transects","Syritta pipiens","species","syrphids",1,400,240,174,"Data is pooled from 4 sampling rounds performed in winter and in spring. Note that bumblebees and honeybees are managed species but there were not colonies within our sampling plots",NA
"Alejandro_Trillo_Fragaria_ananassa_Spain_2016","Manolo","transects","Beetle sp1","morphospecies","beetles",1,400,240,219,"Data is pooled from 4 sampling rounds performed in winter and in spring. Note that bumblebees and honeybees are managed species but there were not colonies within our sampling plots",NA
"Alejandro_Trillo_Fragaria_ananassa_Spain_2016","Manolo","transects","Apis mellifera","species","honeybees",19,800,240,219,"Data is pooled from 4 sampling rounds performed in winter and in spring. Note that bumblebees and honeybees are managed species but there were not colonies within our sampling plots",NA
"Alejandro_Trillo_Fragaria_ananassa_Spain_2016","Manolo","transects","Diptera sp1","morphospecies","other_flies",1,400,240,219,"Data is pooled from 4 sampling rounds performed in winter and in spring. Note that bumblebees and honeybees are managed species but there were not colonies within our sampling plots",NA
"Alejandro_Trillo_Fragaria_ananassa_Spain_2016","Manolo","transects","Eupeodes corollae","species","syrphids",4,400,240,219,"Data is pooled from 4 sampling rounds performed in winter and in spring. Note that bumblebees and honeybees are managed species but there were not colonies within our sampling plots",NA
"Alejandro_Trillo_Fragaria_ananassa_Spain_2016","Manolo","transects","Sphaerophoria rueppellii","species","syrphids",1,400,240,219,"Data is pooled from 4 sampling rounds performed in winter and in spring. Note that bumblebees and honeybees are managed species but there were not colonies within our sampling plots",NA
"Alejandro_Trillo_Fragaria_ananassa_Spain_2016","Maria","transects","Bombus terrestris terrestris","species","bumblebees",1,800,240,197,"Data is pooled from 4 sampling rounds performed in winter and in spring. Note that bumblebees and honeybees are managed species but there were not colonies within our sampling plots",NA
"Alejandro_Trillo_Fragaria_ananassa_Spain_2016","Maria","transects","Apis mellifera","species","honeybees",77,800,240,197,"Data is pooled from 4 sampling rounds performed in winter and in spring. Note that bumblebees and honeybees are managed species but there were not colonies within our sampling plots",NA
"Alejandro_Trillo_Fragaria_ananassa_Spain_2016","Maria","transects","Eupeodes corollae","species","syrphids",5,400,240,197,"Data is pooled from 4 sampling rounds performed in winter and in spring. Note that bumblebees and honeybees are managed species but there were not colonies within our sampling plots",NA
"Alejandro_Trillo_Fragaria_ananassa_Spain_2016","Maria","transects","Sphaerophoria sp1","morphospecies","syrphids",1,400,240,197,"Data is pooled from 4 sampling rounds performed in winter and in spring. Note that bumblebees and honeybees are managed species but there were not colonies within our sampling plots",NA
"Alejandro_Trillo_Fragaria_ananassa_Spain_2016","Mariadonana","transects","Apis mellifera","species","honeybees",43,800,240,165,"Data is pooled from 4 sampling rounds performed in winter and in spring. Note that bumblebees and honeybees are managed species but there were not colonies within our sampling plots",NA
"Alejandro_Trillo_Fragaria_ananassa_Spain_2016","Mariadonana","transects","Eupeodes corollae","species","syrphids",3,400,240,165,"Data is pooled from 4 sampling rounds performed in winter and in spring. Note that bumblebees and honeybees are managed species but there were not colonies within our sampling plots",NA
"Alejandro_Trillo_Fragaria_ananassa_Spain_2016","Mazagon1","transects","Bombus terrestris terrestris","species","bumblebees",7,800,240,175,"Data is pooled from 4 sampling rounds performed in winter and in spring. Note that bumblebees and honeybees are managed species but there were not colonies within our sampling plots",NA
"Alejandro_Trillo_Fragaria_ananassa_Spain_2016","Mazagon1","transects","Apis mellifera","species","honeybees",11,800,240,175,"Data is pooled from 4 sampling rounds performed in winter and in spring. Note that bumblebees and honeybees are managed species but there were not colonies within our sampling plots",NA
"Alejandro_Trillo_Fragaria_ananassa_Spain_2016","Mazagon1","transects","Diptera sp1","morphospecies","other_flies",1,400,240,175,"Data is pooled from 4 sampling rounds performed in winter and in spring. Note that bumblebees and honeybees are managed species but there were not colonies within our sampling plots",NA
"Alejandro_Trillo_Fragaria_ananassa_Spain_2016","Mazagon1","transects","Diptera sp4","morphospecies","other_flies",1,400,240,175,"Data is pooled from 4 sampling rounds performed in winter and in spring. Note that bumblebees and honeybees are managed species but there were not colonies within our sampling plots",NA
"Alejandro_Trillo_Fragaria_ananassa_Spain_2016","Mazagon1","transects","Eristalinus taeniops","species","syrphids",1,400,240,175,"Data is pooled from 4 sampling rounds performed in winter and in spring. Note that bumblebees and honeybees are managed species but there were not colonies within our sampling plots",NA
"Alejandro_Trillo_Fragaria_ananassa_Spain_2016","Mazagon1","transects","Eupeodes corollae","species","syrphids",2,400,240,175,"Data is pooled from 4 sampling rounds performed in winter and in spring. Note that bumblebees and honeybees are managed species but there were not colonies within our sampling plots",NA
"Alejandro_Trillo_Fragaria_ananassa_Spain_2016","Mazagon1","transects","Syritta pipiens","species","syrphids",1,400,240,175,"Data is pooled from 4 sampling rounds performed in winter and in spring. Note that bumblebees and honeybees are managed species but there were not colonies within our sampling plots",NA
"Alejandro_Trillo_Fragaria_ananassa_Spain_2016","Miguel","transects","Apis mellifera","species","honeybees",41,800,240,147,"Data is pooled from 4 sampling rounds performed in winter and in spring. Note that bumblebees and honeybees are managed species but there were not colonies within our sampling plots",NA
"Alejandro_Trillo_Fragaria_ananassa_Spain_2016","Miguel","transects","Lepidoptera sp1","morphospecies","lepidoptera",1,400,240,147,"Data is pooled from 4 sampling rounds performed in winter and in spring. Note that bumblebees and honeybees are managed species but there were not colonies within our sampling plots",NA
"Alejandro_Trillo_Fragaria_ananassa_Spain_2016","Miguel","transects","Diptera sp1","morphospecies","other_flies",1,400,240,147,"Data is pooled from 4 sampling rounds performed in winter and in spring. Note that bumblebees and honeybees are managed species but there were not colonies within our sampling plots",NA
"Alejandro_Trillo_Fragaria_ananassa_Spain_2016","Miguel","transects","Eristalis tenax","species","syrphids",1,400,240,147,"Data is pooled from 4 sampling rounds performed in winter and in spring. Note that bumblebees and honeybees are managed species but there were not colonies within our sampling plots",NA
"Alejandro_Trillo_Fragaria_ananassa_Spain_2016","Miguel","transects","Eupeodes corollae","species","syrphids",1,400,240,147,"Data is pooled from 4 sampling rounds performed in winter and in spring. Note that bumblebees and honeybees are managed species but there were not colonies within our sampling plots",NA
"Alejandro_Trillo_Fragaria_ananassa_Spain_2016","Miguel","transects","Sphaerophoria rueppellii","species","syrphids",1,400,240,147,"Data is pooled from 4 sampling rounds performed in winter and in spring. Note that bumblebees and honeybees are managed species but there were not colonies within our sampling plots",NA
"Alejandro_Trillo_Fragaria_ananassa_Spain_2016","Pepeluis","transects","Apis mellifera","species","honeybees",113,800,240,187,"Data is pooled from 4 sampling rounds performed in winter and in spring. Note that bumblebees and honeybees are managed species but there were not colonies within our sampling plots",NA
"Alejandro_Trillo_Fragaria_ananassa_Spain_2016","Pepeluis","transects","Diptera sp1","morphospecies","other_flies",1,400,240,187,"Data is pooled from 4 sampling rounds performed in winter and in spring. Note that bumblebees and honeybees are managed species but there were not colonies within our sampling plots",NA
"Alejandro_Trillo_Fragaria_ananassa_Spain_2016","Pepeluis","transects","Diptera sp2","morphospecies","other_flies",4,400,240,187,"Data is pooled from 4 sampling rounds performed in winter and in spring. Note that bumblebees and honeybees are managed species but there were not colonies within our sampling plots",NA
"Alejandro_Trillo_Fragaria_ananassa_Spain_2016","Pepeluis","transects","Diptera sp4","morphospecies","other_flies",1,400,240,187,"Data is pooled from 4 sampling rounds performed in winter and in spring. Note that bumblebees and honeybees are managed species but there were not colonies within our sampling plots",NA
"Alejandro_Trillo_Fragaria_ananassa_Spain_2016","Pepeluis","transects","Eristalinus taeniops","species","syrphids",1,400,240,187,"Data is pooled from 4 sampling rounds performed in winter and in spring. Note that bumblebees and honeybees are managed species but there were not colonies within our sampling plots",NA
"Alejandro_Trillo_Fragaria_ananassa_Spain_2016","Pepeluis","transects","Eristalis sp1","morphospecies","syrphids",1,400,240,187,"Data is pooled from 4 sampling rounds performed in winter and in spring. Note that bumblebees and honeybees are managed species but there were not colonies within our sampling plots",NA
"Alejandro_Trillo_Fragaria_ananassa_Spain_2016","Pepeluis","transects","Eupeodes corollae","species","syrphids",1,400,240,187,"Data is pooled from 4 sampling rounds performed in winter and in spring. Note that bumblebees and honeybees are managed species but there were not colonies within our sampling plots",NA
"Alejandro_Trillo_Fragaria_ananassa_Spain_2016","Pepeluis","transects","Sphaerophoria rueppellii","species","syrphids",3,400,240,187,"Data is pooled from 4 sampling rounds performed in winter and in spring. Note that bumblebees and honeybees are managed species but there were not colonies within our sampling plots",NA
"Alejandro_Trillo_Fragaria_ananassa_Spain_2016","Regidor","transects","Apis mellifera","species","honeybees",3,800,240,197,"Data is pooled from 4 sampling rounds performed in winter and in spring. Note that bumblebees and honeybees are managed species but there were not colonies within our sampling plots",NA
"Alejandro_Trillo_Fragaria_ananassa_Spain_2016","Regidor","transects","Diptera sp1","morphospecies","other_flies",5,400,240,197,"Data is pooled from 4 sampling rounds performed in winter and in spring. Note that bumblebees and honeybees are managed species but there were not colonies within our sampling plots",NA
"Alejandro_Trillo_Fragaria_ananassa_Spain_2016","Regidor","transects","Diptera sp2","morphospecies","other_flies",1,400,240,197,"Data is pooled from 4 sampling rounds performed in winter and in spring. Note that bumblebees and honeybees are managed species but there were not colonies within our sampling plots",NA
"Alejandro_Trillo_Fragaria_ananassa_Spain_2016","Regidor","transects","Eupeodes corollae","species","syrphids",1,400,240,197,"Data is pooled from 4 sampling rounds performed in winter and in spring. Note that bumblebees and honeybees are managed species but there were not colonies within our sampling plots",NA
"Alejandro_Trillo_Fragaria_ananassa_Spain_2016","Regidor","transects","Sphaerophoria rueppellii","species","syrphids",1,400,240,197,"Data is pooled from 4 sampling rounds performed in winter and in spring. Note that bumblebees and honeybees are managed species but there were not colonies within our sampling plots",NA
"Alexandra_Maria_Klein_Coffea_arabica_Indonesia_2000_2001","1","observation","Trigona (Lepidotrigona) terminata","species","other_wild_bees",3,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_arabica_Indonesia_2000_2001","1","observation","Trigona (Lepidotrigona) terminata","species","other_wild_bees",5,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_arabica_Indonesia_2000_2001","6","observation","Trigona (Lepidotrigona) terminata","species","other_wild_bees",2,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_arabica_Indonesia_2000_2001","6","observation","Trigona (Lepidotrigona) terminata","species","other_wild_bees",1,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_arabica_Indonesia_2000_2001","6","observation","Trigona (Lepidotrigona) terminata","species","other_wild_bees",3,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_arabica_Indonesia_2000_2001","7","observation","Trigona (Lepidotrigona) terminata","species","other_wild_bees",7,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_arabica_Indonesia_2000_2001","7","observation","Trigona (Lepidotrigona) terminata","species","other_wild_bees",4,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_arabica_Indonesia_2000_2001","7","observation","Trigona (Lepidotrigona) terminata","species","other_wild_bees",4,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_arabica_Indonesia_2000_2001","9","observation","Trigona (Lepidotrigona) terminata","species","other_wild_bees",8,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_arabica_Indonesia_2000_2001","9","observation","Trigona (Lepidotrigona) terminata","species","other_wild_bees",4,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_arabica_Indonesia_2000_2001","9","observation","Trigona (Lepidotrigona) terminata","species","other_wild_bees",4,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_arabica_Indonesia_2000_2001","10","observation","Trigona (Lepidotrigona) terminata","species","other_wild_bees",3,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_arabica_Indonesia_2000_2001","10","observation","Trigona (Lepidotrigona) terminata","species","other_wild_bees",3,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_arabica_Indonesia_2000_2001","10","observation","Trigona (Lepidotrigona) terminata","species","other_wild_bees",4,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_arabica_Indonesia_2000_2001","11","observation","Trigona (Lepidotrigona) terminata","species","other_wild_bees",5,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_arabica_Indonesia_2000_2001","11","observation","Trigona (Lepidotrigona) terminata","species","other_wild_bees",2,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_arabica_Indonesia_2000_2001","11","observation","Trigona (Lepidotrigona) terminata","species","other_wild_bees",2,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_arabica_Indonesia_2000_2001","16","observation","Trigona (Lepidotrigona) terminata","species","other_wild_bees",3,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_arabica_Indonesia_2000_2001","16","observation","Trigona (Lepidotrigona) terminata","species","other_wild_bees",3,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_arabica_Indonesia_2000_2001","17","observation","Trigona (Lepidotrigona) terminata","species","other_wild_bees",4,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_arabica_Indonesia_2000_2001","17","observation","Trigona (Lepidotrigona) terminata","species","other_wild_bees",3,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_arabica_Indonesia_2000_2001","17","observation","Trigona (Lepidotrigona) terminata","species","other_wild_bees",4,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_arabica_Indonesia_2000_2001","18","observation","Trigona (Lepidotrigona) terminata","species","other_wild_bees",2,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_arabica_Indonesia_2000_2001","19","observation","Trigona (Lepidotrigona) terminata","species","other_wild_bees",4,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_arabica_Indonesia_2000_2001","21","observation","Trigona (Lepidotrigona) terminata","species","other_wild_bees",6,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_arabica_Indonesia_2000_2001","21","observation","Trigona (Lepidotrigona) terminata","species","other_wild_bees",4,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_arabica_Indonesia_2000_2001","21","observation","Trigona (Lepidotrigona) terminata","species","other_wild_bees",4,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_arabica_Indonesia_2000_2001","23","observation","Trigona (Lepidotrigona) terminata","species","other_wild_bees",5,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_arabica_Indonesia_2000_2001","1","observation","Trigona (Heterotrigona, Sulawesi) sp. 1","morphospecies","other_wild_bees",3,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_arabica_Indonesia_2000_2001","9","observation","Trigona (Heterotrigona, Sulawesi) sp. 1","morphospecies","other_wild_bees",3,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_arabica_Indonesia_2000_2001","10","observation","Trigona (Heterotrigona, Sulawesi) sp. 1","morphospecies","other_wild_bees",4,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_arabica_Indonesia_2000_2001","10","observation","Trigona (Heterotrigona, Sulawesi) sp. 1","morphospecies","other_wild_bees",4,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_arabica_Indonesia_2000_2001","16","observation","Trigona (Heterotrigona, Sulawesi) sp. 1","morphospecies","other_wild_bees",3,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_arabica_Indonesia_2000_2001","23","observation","Trigona (Heterotrigona, Sulawesi) sp. 1","morphospecies","other_wild_bees",2,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_arabica_Indonesia_2000_2001","5","observation","Trigona (Sulawesi) sp.","genus","other_wild_bees",3,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_arabica_Indonesia_2000_2001","5","observation","Trigona (Sulawesi) sp.","genus","other_wild_bees",3,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_arabica_Indonesia_2000_2001","9","observation","Trigona (Sulawesi) sp.","genus","other_wild_bees",2,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_arabica_Indonesia_2000_2001","10","observation","Trigona (Sulawesi) sp.","genus","other_wild_bees",3,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_arabica_Indonesia_2000_2001","10","observation","Trigona (Sulawesi) sp.","genus","other_wild_bees",6,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_arabica_Indonesia_2000_2001","21","observation","Trigona (Sulawesi) sp.","genus","other_wild_bees",4,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_arabica_Indonesia_2000_2001","21","observation","Trigona (Sulawesi) sp.","genus","other_wild_bees",2,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_arabica_Indonesia_2000_2001","1","observation","Trigona (Heterotrigona, Sulawesi) sp. 2","morphospecies","other_wild_bees",6,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_arabica_Indonesia_2000_2001","1","observation","Trigona (Heterotrigona, Sulawesi) sp. 2","morphospecies","other_wild_bees",7,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_arabica_Indonesia_2000_2001","1","observation","Trigona (Heterotrigona, Sulawesi) sp. 2","morphospecies","other_wild_bees",8,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_arabica_Indonesia_2000_2001","7","observation","Trigona (Heterotrigona, Sulawesi) sp. 2","morphospecies","other_wild_bees",5,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_arabica_Indonesia_2000_2001","7","observation","Trigona (Heterotrigona, Sulawesi) sp. 2","morphospecies","other_wild_bees",5,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_arabica_Indonesia_2000_2001","9","observation","Trigona (Heterotrigona, Sulawesi) sp. 2","morphospecies","other_wild_bees",9,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_arabica_Indonesia_2000_2001","9","observation","Trigona (Heterotrigona, Sulawesi) sp. 2","morphospecies","other_wild_bees",6,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_arabica_Indonesia_2000_2001","9","observation","Trigona (Heterotrigona, Sulawesi) sp. 2","morphospecies","other_wild_bees",6,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_arabica_Indonesia_2000_2001","10","observation","Trigona (Heterotrigona, Sulawesi) sp. 2","morphospecies","other_wild_bees",11,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_arabica_Indonesia_2000_2001","10","observation","Trigona (Heterotrigona, Sulawesi) sp. 2","morphospecies","other_wild_bees",10,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_arabica_Indonesia_2000_2001","10","observation","Trigona (Heterotrigona, Sulawesi) sp. 2","morphospecies","other_wild_bees",7,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_arabica_Indonesia_2000_2001","11","observation","Trigona (Heterotrigona, Sulawesi) sp. 2","morphospecies","other_wild_bees",10,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_arabica_Indonesia_2000_2001","11","observation","Trigona (Heterotrigona, Sulawesi) sp. 2","morphospecies","other_wild_bees",11,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_arabica_Indonesia_2000_2001","11","observation","Trigona (Heterotrigona, Sulawesi) sp. 2","morphospecies","other_wild_bees",3,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_arabica_Indonesia_2000_2001","16","observation","Trigona (Heterotrigona, Sulawesi) sp. 2","morphospecies","other_wild_bees",6,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_arabica_Indonesia_2000_2001","16","observation","Trigona (Heterotrigona, Sulawesi) sp. 2","morphospecies","other_wild_bees",5,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_arabica_Indonesia_2000_2001","16","observation","Trigona (Heterotrigona, Sulawesi) sp. 2","morphospecies","other_wild_bees",5,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_arabica_Indonesia_2000_2001","19","observation","Trigona (Heterotrigona, Sulawesi) sp. 2","morphospecies","other_wild_bees",6,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_arabica_Indonesia_2000_2001","19","observation","Trigona (Heterotrigona, Sulawesi) sp. 2","morphospecies","other_wild_bees",6,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_arabica_Indonesia_2000_2001","19","observation","Trigona (Heterotrigona, Sulawesi) sp. 2","morphospecies","other_wild_bees",6,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_arabica_Indonesia_2000_2001","21","observation","Trigona (Heterotrigona, Sulawesi) sp. 2","morphospecies","other_wild_bees",6,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_arabica_Indonesia_2000_2001","21","observation","Trigona (Heterotrigona, Sulawesi) sp. 2","morphospecies","other_wild_bees",6,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_arabica_Indonesia_2000_2001","21","observation","Trigona (Heterotrigona, Sulawesi) sp. 2","morphospecies","other_wild_bees",4,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_arabica_Indonesia_2000_2001","2","observation","Apis cerana","species","honeybees",8,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_arabica_Indonesia_2000_2001","2","observation","Apis cerana","species","honeybees",9,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_arabica_Indonesia_2000_2001","2","observation","Apis cerana","species","honeybees",7,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_arabica_Indonesia_2000_2001","4","observation","Apis cerana","species","honeybees",11,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_arabica_Indonesia_2000_2001","4","observation","Apis cerana","species","honeybees",10,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_arabica_Indonesia_2000_2001","4","observation","Apis cerana","species","honeybees",11,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_arabica_Indonesia_2000_2001","5","observation","Apis cerana","species","honeybees",13,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_arabica_Indonesia_2000_2001","5","observation","Apis cerana","species","honeybees",8,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_arabica_Indonesia_2000_2001","5","observation","Apis cerana","species","honeybees",11,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_arabica_Indonesia_2000_2001","6","observation","Apis cerana","species","honeybees",5,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_arabica_Indonesia_2000_2001","6","observation","Apis cerana","species","honeybees",4,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_arabica_Indonesia_2000_2001","6","observation","Apis cerana","species","honeybees",3,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_arabica_Indonesia_2000_2001","8","observation","Apis cerana","species","honeybees",8,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_arabica_Indonesia_2000_2001","8","observation","Apis cerana","species","honeybees",8,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_arabica_Indonesia_2000_2001","8","observation","Apis cerana","species","honeybees",10,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_arabica_Indonesia_2000_2001","11","observation","Apis cerana","species","honeybees",5,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_arabica_Indonesia_2000_2001","11","observation","Apis cerana","species","honeybees",2,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_arabica_Indonesia_2000_2001","12","observation","Apis cerana","species","honeybees",8,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_arabica_Indonesia_2000_2001","12","observation","Apis cerana","species","honeybees",11,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_arabica_Indonesia_2000_2001","12","observation","Apis cerana","species","honeybees",8,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_arabica_Indonesia_2000_2001","13","observation","Apis cerana","species","honeybees",7,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_arabica_Indonesia_2000_2001","13","observation","Apis cerana","species","honeybees",6,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_arabica_Indonesia_2000_2001","13","observation","Apis cerana","species","honeybees",6,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_arabica_Indonesia_2000_2001","15","observation","Apis cerana","species","honeybees",8,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_arabica_Indonesia_2000_2001","15","observation","Apis cerana","species","honeybees",11,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_arabica_Indonesia_2000_2001","15","observation","Apis cerana","species","honeybees",8,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_arabica_Indonesia_2000_2001","20","observation","Apis cerana","species","honeybees",6,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_arabica_Indonesia_2000_2001","20","observation","Apis cerana","species","honeybees",6,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_arabica_Indonesia_2000_2001","20","observation","Apis cerana","species","honeybees",6,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_arabica_Indonesia_2000_2001","22","observation","Apis cerana","species","honeybees",5,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_arabica_Indonesia_2000_2001","22","observation","Apis cerana","species","honeybees",6,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_arabica_Indonesia_2000_2001","22","observation","Apis cerana","species","honeybees",9,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_arabica_Indonesia_2000_2001","24","observation","Apis cerana","species","honeybees",6,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_arabica_Indonesia_2000_2001","24","observation","Apis cerana","species","honeybees",10,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_arabica_Indonesia_2000_2001","24","observation","Apis cerana","species","honeybees",9,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_arabica_Indonesia_2000_2001","1","observation","Apis nigrocinta binghami","species","honeybees",8,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_arabica_Indonesia_2000_2001","1","observation","Apis nigrocinta binghami","species","honeybees",7,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_arabica_Indonesia_2000_2001","1","observation","Apis nigrocinta binghami","species","honeybees",8,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_arabica_Indonesia_2000_2001","6","observation","Apis nigrocinta binghami","species","honeybees",4,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_arabica_Indonesia_2000_2001","6","observation","Apis nigrocinta binghami","species","honeybees",8,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_arabica_Indonesia_2000_2001","6","observation","Apis nigrocinta binghami","species","honeybees",7,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_arabica_Indonesia_2000_2001","7","observation","Apis nigrocinta binghami","species","honeybees",7,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_arabica_Indonesia_2000_2001","7","observation","Apis nigrocinta binghami","species","honeybees",7,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_arabica_Indonesia_2000_2001","7","observation","Apis nigrocinta binghami","species","honeybees",7,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_arabica_Indonesia_2000_2001","9","observation","Apis nigrocinta binghami","species","honeybees",7,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_arabica_Indonesia_2000_2001","9","observation","Apis nigrocinta binghami","species","honeybees",5,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_arabica_Indonesia_2000_2001","9","observation","Apis nigrocinta binghami","species","honeybees",5,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_arabica_Indonesia_2000_2001","10","observation","Apis nigrocinta binghami","species","honeybees",6,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_arabica_Indonesia_2000_2001","10","observation","Apis nigrocinta binghami","species","honeybees",6,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_arabica_Indonesia_2000_2001","10","observation","Apis nigrocinta binghami","species","honeybees",6,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_arabica_Indonesia_2000_2001","11","observation","Apis nigrocinta binghami","species","honeybees",14,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_arabica_Indonesia_2000_2001","11","observation","Apis nigrocinta binghami","species","honeybees",15,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_arabica_Indonesia_2000_2001","11","observation","Apis nigrocinta binghami","species","honeybees",5,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_arabica_Indonesia_2000_2001","12","observation","Apis nigrocinta binghami","species","honeybees",4,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_arabica_Indonesia_2000_2001","12","observation","Apis nigrocinta binghami","species","honeybees",5,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_arabica_Indonesia_2000_2001","13","observation","Apis nigrocinta binghami","species","honeybees",2,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_arabica_Indonesia_2000_2001","13","observation","Apis nigrocinta binghami","species","honeybees",6,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_arabica_Indonesia_2000_2001","13","observation","Apis nigrocinta binghami","species","honeybees",4,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_arabica_Indonesia_2000_2001","16","observation","Apis nigrocinta binghami","species","honeybees",6,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_arabica_Indonesia_2000_2001","16","observation","Apis nigrocinta binghami","species","honeybees",4,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_arabica_Indonesia_2000_2001","16","observation","Apis nigrocinta binghami","species","honeybees",4,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_arabica_Indonesia_2000_2001","17","observation","Apis nigrocinta binghami","species","honeybees",7,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_arabica_Indonesia_2000_2001","17","observation","Apis nigrocinta binghami","species","honeybees",8,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_arabica_Indonesia_2000_2001","17","observation","Apis nigrocinta binghami","species","honeybees",8,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_arabica_Indonesia_2000_2001","18","observation","Apis nigrocinta binghami","species","honeybees",15,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_arabica_Indonesia_2000_2001","18","observation","Apis nigrocinta binghami","species","honeybees",15,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_arabica_Indonesia_2000_2001","18","observation","Apis nigrocinta binghami","species","honeybees",9,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_arabica_Indonesia_2000_2001","19","observation","Apis nigrocinta binghami","species","honeybees",10,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_arabica_Indonesia_2000_2001","19","observation","Apis nigrocinta binghami","species","honeybees",15,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_arabica_Indonesia_2000_2001","19","observation","Apis nigrocinta binghami","species","honeybees",9,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_arabica_Indonesia_2000_2001","20","observation","Apis nigrocinta binghami","species","honeybees",7,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_arabica_Indonesia_2000_2001","20","observation","Apis nigrocinta binghami","species","honeybees",9,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_arabica_Indonesia_2000_2001","20","observation","Apis nigrocinta binghami","species","honeybees",7,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_arabica_Indonesia_2000_2001","21","observation","Apis nigrocinta binghami","species","honeybees",6,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_arabica_Indonesia_2000_2001","21","observation","Apis nigrocinta binghami","species","honeybees",7,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_arabica_Indonesia_2000_2001","21","observation","Apis nigrocinta binghami","species","honeybees",6,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_arabica_Indonesia_2000_2001","23","observation","Apis nigrocinta binghami","species","honeybees",7,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_arabica_Indonesia_2000_2001","23","observation","Apis nigrocinta binghami","species","honeybees",7,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_arabica_Indonesia_2000_2001","23","observation","Apis nigrocinta binghami","species","honeybees",11,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_arabica_Indonesia_2000_2001","24","observation","Apis nigrocinta binghami","species","honeybees",2,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_arabica_Indonesia_2000_2001","24","observation","Apis nigrocinta binghami","species","honeybees",7,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_arabica_Indonesia_2000_2001","24","observation","Apis nigrocinta binghami","species","honeybees",4,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_arabica_Indonesia_2000_2001","1","observation","Apis dorsata","species","honeybees",5,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_arabica_Indonesia_2000_2001","1","observation","Apis dorsata","species","honeybees",4,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_arabica_Indonesia_2000_2001","1","observation","Apis dorsata","species","honeybees",3,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_arabica_Indonesia_2000_2001","6","observation","Apis dorsata","species","honeybees",11,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_arabica_Indonesia_2000_2001","6","observation","Apis dorsata","species","honeybees",13,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_arabica_Indonesia_2000_2001","6","observation","Apis dorsata","species","honeybees",8,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_arabica_Indonesia_2000_2001","7","observation","Apis dorsata","species","honeybees",5,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_arabica_Indonesia_2000_2001","7","observation","Apis dorsata","species","honeybees",3,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_arabica_Indonesia_2000_2001","7","observation","Apis dorsata","species","honeybees",4,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_arabica_Indonesia_2000_2001","9","observation","Apis dorsata","species","honeybees",17,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_arabica_Indonesia_2000_2001","9","observation","Apis dorsata","species","honeybees",9,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_arabica_Indonesia_2000_2001","9","observation","Apis dorsata","species","honeybees",8,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_arabica_Indonesia_2000_2001","10","observation","Apis dorsata","species","honeybees",5,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_arabica_Indonesia_2000_2001","10","observation","Apis dorsata","species","honeybees",7,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_arabica_Indonesia_2000_2001","10","observation","Apis dorsata","species","honeybees",6,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_arabica_Indonesia_2000_2001","11","observation","Apis dorsata","species","honeybees",10,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_arabica_Indonesia_2000_2001","11","observation","Apis dorsata","species","honeybees",15,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_arabica_Indonesia_2000_2001","11","observation","Apis dorsata","species","honeybees",10,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_arabica_Indonesia_2000_2001","16","observation","Apis dorsata","species","honeybees",3,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_arabica_Indonesia_2000_2001","16","observation","Apis dorsata","species","honeybees",4,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_arabica_Indonesia_2000_2001","16","observation","Apis dorsata","species","honeybees",5,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_arabica_Indonesia_2000_2001","17","observation","Apis dorsata","species","honeybees",6,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_arabica_Indonesia_2000_2001","17","observation","Apis dorsata","species","honeybees",3,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_arabica_Indonesia_2000_2001","17","observation","Apis dorsata","species","honeybees",8,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_arabica_Indonesia_2000_2001","18","observation","Apis dorsata","species","honeybees",1,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_arabica_Indonesia_2000_2001","18","observation","Apis dorsata","species","honeybees",1,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_arabica_Indonesia_2000_2001","19","observation","Apis dorsata","species","honeybees",1,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_arabica_Indonesia_2000_2001","19","observation","Apis dorsata","species","honeybees",1,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_arabica_Indonesia_2000_2001","20","observation","Apis dorsata","species","honeybees",5,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_arabica_Indonesia_2000_2001","20","observation","Apis dorsata","species","honeybees",3,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_arabica_Indonesia_2000_2001","20","observation","Apis dorsata","species","honeybees",4,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_arabica_Indonesia_2000_2001","21","observation","Apis dorsata","species","honeybees",10,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_arabica_Indonesia_2000_2001","21","observation","Apis dorsata","species","honeybees",7,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_arabica_Indonesia_2000_2001","21","observation","Apis dorsata","species","honeybees",4,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_arabica_Indonesia_2000_2001","23","observation","Apis dorsata","species","honeybees",6,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_arabica_Indonesia_2000_2001","23","observation","Apis dorsata","species","honeybees",7,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_arabica_Indonesia_2000_2001","23","observation","Apis dorsata","species","honeybees",7,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_arabica_Indonesia_2000_2001","1","observation","Heriades (Sulawesi) sp. 1","morphospecies","other_wild_bees",5,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_arabica_Indonesia_2000_2001","5","observation","Heriades (Sulawesi) sp. 1","morphospecies","other_wild_bees",6,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_arabica_Indonesia_2000_2001","5","observation","Heriades (Sulawesi) sp. 1","morphospecies","other_wild_bees",2,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_arabica_Indonesia_2000_2001","6","observation","Heriades (Sulawesi) sp. 1","morphospecies","other_wild_bees",6,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_arabica_Indonesia_2000_2001","6","observation","Heriades (Sulawesi) sp. 1","morphospecies","other_wild_bees",6,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_arabica_Indonesia_2000_2001","6","observation","Heriades (Sulawesi) sp. 1","morphospecies","other_wild_bees",3,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_arabica_Indonesia_2000_2001","7","observation","Heriades (Sulawesi) sp. 1","morphospecies","other_wild_bees",3,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_arabica_Indonesia_2000_2001","8","observation","Heriades (Sulawesi) sp. 1","morphospecies","other_wild_bees",11,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_arabica_Indonesia_2000_2001","8","observation","Heriades (Sulawesi) sp. 1","morphospecies","other_wild_bees",13,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_arabica_Indonesia_2000_2001","8","observation","Heriades (Sulawesi) sp. 1","morphospecies","other_wild_bees",10,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_arabica_Indonesia_2000_2001","11","observation","Heriades (Sulawesi) sp. 1","morphospecies","other_wild_bees",4,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_arabica_Indonesia_2000_2001","14","observation","Heriades (Sulawesi) sp. 1","morphospecies","other_wild_bees",5,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_arabica_Indonesia_2000_2001","14","observation","Heriades (Sulawesi) sp. 1","morphospecies","other_wild_bees",2,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_arabica_Indonesia_2000_2001","14","observation","Heriades (Sulawesi) sp. 1","morphospecies","other_wild_bees",2,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_arabica_Indonesia_2000_2001","18","observation","Heriades (Sulawesi) sp. 1","morphospecies","other_wild_bees",7,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_arabica_Indonesia_2000_2001","18","observation","Heriades (Sulawesi) sp. 1","morphospecies","other_wild_bees",6,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_arabica_Indonesia_2000_2001","18","observation","Heriades (Sulawesi) sp. 1","morphospecies","other_wild_bees",5,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_arabica_Indonesia_2000_2001","19","observation","Heriades (Sulawesi) sp. 1","morphospecies","other_wild_bees",6,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_arabica_Indonesia_2000_2001","19","observation","Heriades (Sulawesi) sp. 1","morphospecies","other_wild_bees",6,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_arabica_Indonesia_2000_2001","19","observation","Heriades (Sulawesi) sp. 1","morphospecies","other_wild_bees",5,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_arabica_Indonesia_2000_2001","1","observation","Xylocopa (Zonohirsuta) dejeanii","species","other_wild_bees",2,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_arabica_Indonesia_2000_2001","1","observation","Xylocopa (Zonohirsuta) dejeanii","species","other_wild_bees",2,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_arabica_Indonesia_2000_2001","1","observation","Xylocopa (Zonohirsuta) dejeanii","species","other_wild_bees",1,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_arabica_Indonesia_2000_2001","2","observation","Xylocopa (Zonohirsuta) dejeanii","species","other_wild_bees",2,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_arabica_Indonesia_2000_2001","2","observation","Xylocopa (Zonohirsuta) dejeanii","species","other_wild_bees",3,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_arabica_Indonesia_2000_2001","2","observation","Xylocopa (Zonohirsuta) dejeanii","species","other_wild_bees",2,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_arabica_Indonesia_2000_2001","3","observation","Xylocopa (Zonohirsuta) dejeanii","species","other_wild_bees",2,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_arabica_Indonesia_2000_2001","3","observation","Xylocopa (Zonohirsuta) dejeanii","species","other_wild_bees",4,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_arabica_Indonesia_2000_2001","7","observation","Xylocopa (Zonohirsuta) dejeanii","species","other_wild_bees",3,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_arabica_Indonesia_2000_2001","7","observation","Xylocopa (Zonohirsuta) dejeanii","species","other_wild_bees",2,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_arabica_Indonesia_2000_2001","10","observation","Xylocopa (Zonohirsuta) dejeanii","species","other_wild_bees",3,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_arabica_Indonesia_2000_2001","10","observation","Xylocopa (Zonohirsuta) dejeanii","species","other_wild_bees",2,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_arabica_Indonesia_2000_2001","12","observation","Xylocopa (Zonohirsuta) dejeanii","species","other_wild_bees",3,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_arabica_Indonesia_2000_2001","12","observation","Xylocopa (Zonohirsuta) dejeanii","species","other_wild_bees",2,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_arabica_Indonesia_2000_2001","12","observation","Xylocopa (Zonohirsuta) dejeanii","species","other_wild_bees",2,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_arabica_Indonesia_2000_2001","13","observation","Xylocopa (Zonohirsuta) dejeanii","species","other_wild_bees",2,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_arabica_Indonesia_2000_2001","13","observation","Xylocopa (Zonohirsuta) dejeanii","species","other_wild_bees",1,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_arabica_Indonesia_2000_2001","15","observation","Xylocopa (Zonohirsuta) dejeanii","species","other_wild_bees",3,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_arabica_Indonesia_2000_2001","15","observation","Xylocopa (Zonohirsuta) dejeanii","species","other_wild_bees",2,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_arabica_Indonesia_2000_2001","15","observation","Xylocopa (Zonohirsuta) dejeanii","species","other_wild_bees",2,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_arabica_Indonesia_2000_2001","16","observation","Xylocopa (Zonohirsuta) dejeanii","species","other_wild_bees",1,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_arabica_Indonesia_2000_2001","21","observation","Xylocopa (Zonohirsuta) dejeanii","species","other_wild_bees",3,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_arabica_Indonesia_2000_2001","21","observation","Xylocopa (Zonohirsuta) dejeanii","species","other_wild_bees",2,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_arabica_Indonesia_2000_2001","21","observation","Xylocopa (Zonohirsuta) dejeanii","species","other_wild_bees",1,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_arabica_Indonesia_2000_2001","24","observation","Xylocopa (Zonohirsuta) dejeanii","species","other_wild_bees",1,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_arabica_Indonesia_2000_2001","1","observation","Xylocopa (Koptortosoma) smithii","species","other_wild_bees",2,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_arabica_Indonesia_2000_2001","1","observation","Xylocopa (Koptortosoma) smithii","species","other_wild_bees",3,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_arabica_Indonesia_2000_2001","1","observation","Xylocopa (Koptortosoma) smithii","species","other_wild_bees",1,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_arabica_Indonesia_2000_2001","7","observation","Xylocopa (Koptortosoma) smithii","species","other_wild_bees",2,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_arabica_Indonesia_2000_2001","7","observation","Xylocopa (Koptortosoma) smithii","species","other_wild_bees",2,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_arabica_Indonesia_2000_2001","10","observation","Xylocopa (Koptortosoma) smithii","species","other_wild_bees",2,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_arabica_Indonesia_2000_2001","2","observation","Xylocopa (Koptortosoma) aestuans","species","other_wild_bees",3,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_arabica_Indonesia_2000_2001","3","observation","Xylocopa (Koptortosoma) aestuans","species","other_wild_bees",5,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_arabica_Indonesia_2000_2001","3","observation","Xylocopa (Koptortosoma) aestuans","species","other_wild_bees",1,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_arabica_Indonesia_2000_2001","7","observation","Xylocopa (Koptortosoma) aestuans","species","other_wild_bees",1,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_arabica_Indonesia_2000_2001","12","observation","Xylocopa (Koptortosoma) aestuans","species","other_wild_bees",3,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_arabica_Indonesia_2000_2001","12","observation","Xylocopa (Koptortosoma) aestuans","species","other_wild_bees",3,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_arabica_Indonesia_2000_2001","14","observation","Xylocopa (Koptortosoma) aestuans","species","other_wild_bees",3,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_arabica_Indonesia_2000_2001","14","observation","Xylocopa (Koptortosoma) aestuans","species","other_wild_bees",2,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_arabica_Indonesia_2000_2001","14","observation","Xylocopa (Koptortosoma) aestuans","species","other_wild_bees",1,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_arabica_Indonesia_2000_2001","15","observation","Xylocopa (Koptortosoma) aestuans","species","other_wild_bees",3,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_arabica_Indonesia_2000_2001","18","observation","Xylocopa (Koptortosoma) aestuans","species","other_wild_bees",1,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_arabica_Indonesia_2000_2001","22","observation","Xylocopa (Koptortosoma) aestuans","species","other_wild_bees",3,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_arabica_Indonesia_2000_2001","22","observation","Xylocopa (Koptortosoma) aestuans","species","other_wild_bees",2,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_arabica_Indonesia_2000_2001","22","observation","Xylocopa (Koptortosoma) aestuans","species","other_wild_bees",2,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_arabica_Indonesia_2000_2001","3","observation","Amegilla whiteheadi","species","other_wild_bees",2,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_arabica_Indonesia_2000_2001","4","observation","Amegilla whiteheadi","species","other_wild_bees",1,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_arabica_Indonesia_2000_2001","4","observation","Amegilla whiteheadi","species","other_wild_bees",1,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_arabica_Indonesia_2000_2001","5","observation","Amegilla whiteheadi","species","other_wild_bees",2,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_arabica_Indonesia_2000_2001","5","observation","Amegilla whiteheadi","species","other_wild_bees",2,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_arabica_Indonesia_2000_2001","6","observation","Amegilla whiteheadi","species","other_wild_bees",2,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_arabica_Indonesia_2000_2001","8","observation","Amegilla whiteheadi","species","other_wild_bees",2,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_arabica_Indonesia_2000_2001","8","observation","Amegilla whiteheadi","species","other_wild_bees",2,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_arabica_Indonesia_2000_2001","8","observation","Amegilla whiteheadi","species","other_wild_bees",4,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_arabica_Indonesia_2000_2001","9","observation","Amegilla whiteheadi","species","other_wild_bees",3,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_arabica_Indonesia_2000_2001","10","observation","Amegilla whiteheadi","species","other_wild_bees",4,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_arabica_Indonesia_2000_2001","10","observation","Amegilla whiteheadi","species","other_wild_bees",1,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_arabica_Indonesia_2000_2001","10","observation","Amegilla whiteheadi","species","other_wild_bees",1,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_arabica_Indonesia_2000_2001","14","observation","Amegilla whiteheadi","species","other_wild_bees",1,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_arabica_Indonesia_2000_2001","21","observation","Amegilla whiteheadi","species","other_wild_bees",2,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_arabica_Indonesia_2000_2001","22","observation","Amegilla whiteheadi","species","other_wild_bees",1,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_arabica_Indonesia_2000_2001","22","observation","Amegilla whiteheadi","species","other_wild_bees",5,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_arabica_Indonesia_2000_2001","22","observation","Amegilla whiteheadi","species","other_wild_bees",1,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_arabica_Indonesia_2000_2001","9","observation","Amegilla (Sulawesi) sp. aff. samarensis","species","other_wild_bees",2,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_arabica_Indonesia_2000_2001","9","observation","Amegilla (Sulawesi) sp. aff. samarensis","species","other_wild_bees",1,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_arabica_Indonesia_2000_2001","10","observation","Amegilla (Sulawesi) sp. aff. samarensis","species","other_wild_bees",3,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_arabica_Indonesia_2000_2001","11","observation","Amegilla (Sulawesi) sp. aff. samarensis","species","other_wild_bees",3,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_arabica_Indonesia_2000_2001","17","observation","Amegilla (Sulawesi) sp. aff. samarensis","species","other_wild_bees",2,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_arabica_Indonesia_2000_2001","17","observation","Amegilla (Sulawesi) sp. aff. samarensis","species","other_wild_bees",1,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_arabica_Indonesia_2000_2001","20","observation","Amegilla (Sulawesi) sp. aff. samarensis","species","other_wild_bees",3,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_arabica_Indonesia_2000_2001","21","observation","Amegilla (Sulawesi) sp. aff. samarensis","species","other_wild_bees",2,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_arabica_Indonesia_2000_2001","21","observation","Amegilla (Sulawesi) sp. aff. samarensis","species","other_wild_bees",1,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_arabica_Indonesia_2000_2001","23","observation","Amegilla (Sulawesi) sp. aff. samarensis","species","other_wild_bees",2,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_arabica_Indonesia_2000_2001","10","observation","Heriades (Sulawesi) sp. 2","morphospecies","other_wild_bees",4,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_arabica_Indonesia_2000_2001","12","observation","Heriades (Sulawesi) sp. 2","morphospecies","other_wild_bees",5,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_arabica_Indonesia_2000_2001","12","observation","Heriades (Sulawesi) sp. 2","morphospecies","other_wild_bees",8,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_arabica_Indonesia_2000_2001","12","observation","Heriades (Sulawesi) sp. 2","morphospecies","other_wild_bees",7,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_arabica_Indonesia_2000_2001","15","observation","Heriades (Sulawesi) sp. 2","morphospecies","other_wild_bees",4,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_arabica_Indonesia_2000_2001","15","observation","Heriades (Sulawesi) sp. 2","morphospecies","other_wild_bees",6,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_arabica_Indonesia_2000_2001","15","observation","Heriades (Sulawesi) sp. 2","morphospecies","other_wild_bees",4,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_arabica_Indonesia_2000_2001","20","observation","Heriades (Sulawesi) sp. 2","morphospecies","other_wild_bees",5,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_arabica_Indonesia_2000_2001","20","observation","Heriades (Sulawesi) sp. 2","morphospecies","other_wild_bees",4,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_arabica_Indonesia_2000_2001","5","observation","Patellapis (Pachyhalictus, Sulawesi) sp.","genus","other_wild_bees",5,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_arabica_Indonesia_2000_2001","5","observation","Patellapis (Pachyhalictus, Sulawesi) sp.","genus","other_wild_bees",5,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_arabica_Indonesia_2000_2001","5","observation","Patellapis (Pachyhalictus, Sulawesi) sp.","genus","other_wild_bees",5,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_arabica_Indonesia_2000_2001","1","observation","Creightonella frontalis atrata","species","other_wild_bees",2,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_arabica_Indonesia_2000_2001","1","observation","Creightonella frontalis atrata","species","other_wild_bees",2,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_arabica_Indonesia_2000_2001","1","observation","Creightonella frontalis atrata","species","other_wild_bees",2,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_arabica_Indonesia_2000_2001","4","observation","Creightonella frontalis atrata","species","other_wild_bees",3,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_arabica_Indonesia_2000_2001","4","observation","Creightonella frontalis atrata","species","other_wild_bees",3,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_arabica_Indonesia_2000_2001","6","observation","Creightonella frontalis atrata","species","other_wild_bees",3,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_arabica_Indonesia_2000_2001","7","observation","Creightonella frontalis atrata","species","other_wild_bees",4,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_arabica_Indonesia_2000_2001","7","observation","Creightonella frontalis atrata","species","other_wild_bees",1,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_arabica_Indonesia_2000_2001","7","observation","Creightonella frontalis atrata","species","other_wild_bees",2,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_arabica_Indonesia_2000_2001","8","observation","Creightonella frontalis atrata","species","other_wild_bees",8,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_arabica_Indonesia_2000_2001","8","observation","Creightonella frontalis atrata","species","other_wild_bees",10,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_arabica_Indonesia_2000_2001","8","observation","Creightonella frontalis atrata","species","other_wild_bees",11,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_arabica_Indonesia_2000_2001","9","observation","Creightonella frontalis atrata","species","other_wild_bees",5,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_arabica_Indonesia_2000_2001","10","observation","Creightonella frontalis atrata","species","other_wild_bees",1,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_arabica_Indonesia_2000_2001","10","observation","Creightonella frontalis atrata","species","other_wild_bees",8,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_arabica_Indonesia_2000_2001","10","observation","Creightonella frontalis atrata","species","other_wild_bees",2,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_arabica_Indonesia_2000_2001","11","observation","Creightonella frontalis atrata","species","other_wild_bees",3,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_arabica_Indonesia_2000_2001","11","observation","Creightonella frontalis atrata","species","other_wild_bees",2,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_arabica_Indonesia_2000_2001","11","observation","Creightonella frontalis atrata","species","other_wild_bees",2,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_arabica_Indonesia_2000_2001","12","observation","Creightonella frontalis atrata","species","other_wild_bees",1,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_arabica_Indonesia_2000_2001","15","observation","Creightonella frontalis atrata","species","other_wild_bees",1,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_arabica_Indonesia_2000_2001","16","observation","Creightonella frontalis atrata","species","other_wild_bees",2,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_arabica_Indonesia_2000_2001","19","observation","Creightonella frontalis atrata","species","other_wild_bees",3,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_arabica_Indonesia_2000_2001","19","observation","Creightonella frontalis atrata","species","other_wild_bees",2,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_arabica_Indonesia_2000_2001","21","observation","Creightonella frontalis atrata","species","other_wild_bees",2,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_arabica_Indonesia_2000_2001","21","observation","Creightonella frontalis atrata","species","other_wild_bees",2,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_arabica_Indonesia_2000_2001","21","observation","Creightonella frontalis atrata","species","other_wild_bees",2,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_arabica_Indonesia_2000_2001","22","observation","Creightonella frontalis atrata","species","other_wild_bees",5,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_arabica_Indonesia_2000_2001","22","observation","Creightonella frontalis atrata","species","other_wild_bees",4,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_arabica_Indonesia_2000_2001","22","observation","Creightonella frontalis atrata","species","other_wild_bees",3,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_arabica_Indonesia_2000_2001","1","observation","Chalicodoma (Eumegachinana) tub. tuberculatum","species","other_wild_bees",2,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_arabica_Indonesia_2000_2001","1","observation","Chalicodoma (Eumegachinana) tub. tuberculatum","species","other_wild_bees",4,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_arabica_Indonesia_2000_2001","18","observation","Chalicodoma (Eumegachinana) tub. tuberculatum","species","other_wild_bees",2,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_arabica_Indonesia_2000_2001","19","observation","Chalicodoma (Eumegachinana) tub. tuberculatum","species","other_wild_bees",2,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_arabica_Indonesia_2000_2001","19","observation","Chalicodoma (Eumegachinana) tub. tuberculatum","species","other_wild_bees",2,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_arabica_Indonesia_2000_2001","19","observation","Chalicodoma (Eumegachinana) tub. tuberculatum","species","other_wild_bees",2,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_arabica_Indonesia_2000_2001","20","observation","Chalicodoma (Eumegachinana) tub. tuberculatum","species","other_wild_bees",5,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_arabica_Indonesia_2000_2001","22","observation","Chalicodoma (Eumegachinana) tub. tuberculatum","species","other_wild_bees",4,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_arabica_Indonesia_2000_2001","22","observation","Chalicodoma (Eumegachinana) tub. tuberculatum","species","other_wild_bees",5,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_arabica_Indonesia_2000_2001","5","observation","Chalicodoma (Callomegachile) terminale","species","other_wild_bees",2,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_arabica_Indonesia_2000_2001","16","observation","Chalicodoma (Callomegachile) terminale","species","other_wild_bees",3,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_arabica_Indonesia_2000_2001","19","observation","Paracella (Sulawesi) sp. 1","morphospecies","other_wild_bees",4,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_arabica_Indonesia_2000_2001","19","observation","Paracella (Sulawesi) sp. 1","morphospecies","other_wild_bees",4,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_arabica_Indonesia_2000_2001","22","observation","Paracella (Sulawesi) sp. 1","morphospecies","other_wild_bees",5,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_arabica_Indonesia_2000_2001","22","observation","Paracella (Sulawesi) sp. 1","morphospecies","other_wild_bees",4,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_arabica_Indonesia_2000_2001","23","observation","Paracella (Sulawesi) sp. 1","morphospecies","other_wild_bees",4,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_arabica_Indonesia_2000_2001","2","observation","Torridapis ducalis","species","other_wild_bees",2,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_arabica_Indonesia_2000_2001","9","observation","Torridapis ducalis","species","other_wild_bees",3,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_arabica_Indonesia_2000_2001","11","observation","Torridapis ducalis","species","other_wild_bees",6,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_arabica_Indonesia_2000_2001","11","observation","Torridapis ducalis","species","other_wild_bees",3,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_arabica_Indonesia_2000_2001","11","observation","Torridapis ducalis","species","other_wild_bees",1,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_arabica_Indonesia_2000_2001","16","observation","Torridapis ducalis","species","other_wild_bees",2,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_arabica_Indonesia_2000_2001","21","observation","Torridapis ducalis","species","other_wild_bees",2,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_arabica_Indonesia_2000_2001","21","observation","Torridapis ducalis","species","other_wild_bees",4,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_arabica_Indonesia_2000_2001","21","observation","Torridapis ducalis","species","other_wild_bees",1,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_arabica_Indonesia_2000_2001","5","observation","Megachile (Sulawesi) sp. aff. bakeri","morphospecies","other_wild_bees",4,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_arabica_Indonesia_2000_2001","9","observation","Megachile (Sulawesi) sp. aff. bakeri","morphospecies","other_wild_bees",3,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_arabica_Indonesia_2000_2001","9","observation","Megachile (Sulawesi) sp. aff. bakeri","morphospecies","other_wild_bees",1,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_arabica_Indonesia_2000_2001","11","observation","Megachile (Sulawesi) sp. aff. bakeri","morphospecies","other_wild_bees",2,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_arabica_Indonesia_2000_2001","12","observation","Megachile (Sulawesi) sp. aff. bakeri","morphospecies","other_wild_bees",3,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_arabica_Indonesia_2000_2001","12","observation","Megachile (Sulawesi) sp. aff. bakeri","morphospecies","other_wild_bees",1,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_arabica_Indonesia_2000_2001","13","observation","Megachile (Sulawesi) sp. aff. bakeri","morphospecies","other_wild_bees",1,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_arabica_Indonesia_2000_2001","15","observation","Megachile (Sulawesi) sp. aff. bakeri","morphospecies","other_wild_bees",2,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_arabica_Indonesia_2000_2001","1","observation","Paracella (Sulawesi) sp. 2","morphospecies","other_wild_bees",1,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_arabica_Indonesia_2000_2001","7","observation","Paracella (Sulawesi) sp. 2","morphospecies","other_wild_bees",1,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_arabica_Indonesia_2000_2001","20","observation","Paracella (Sulawesi) sp. 2","morphospecies","other_wild_bees",3,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_arabica_Indonesia_2000_2001","20","observation","Paracella (Sulawesi) sp. 2","morphospecies","other_wild_bees",3,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_arabica_Indonesia_2000_2001","23","observation","Paracella (Sulawesi) sp. 2","morphospecies","other_wild_bees",2,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_arabica_Indonesia_2000_2001","8","observation","Coelioxys smithii","species","other_wild_bees",3,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_arabica_Indonesia_2000_2001","10","observation","Coelioxys smithii","species","other_wild_bees",2,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_arabica_Indonesia_2000_2001","2","observation","Nomia (Thoraconomia) thoracica","species","other_wild_bees",4,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_arabica_Indonesia_2000_2001","2","observation","Nomia (Thoraconomia) thoracica","species","other_wild_bees",6,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_arabica_Indonesia_2000_2001","2","observation","Nomia (Thoraconomia) thoracica","species","other_wild_bees",7,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_arabica_Indonesia_2000_2001","3","observation","Nomia (Thoraconomia) thoracica","species","other_wild_bees",6,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_arabica_Indonesia_2000_2001","3","observation","Nomia (Thoraconomia) thoracica","species","other_wild_bees",6,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_arabica_Indonesia_2000_2001","3","observation","Nomia (Thoraconomia) thoracica","species","other_wild_bees",6,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_arabica_Indonesia_2000_2001","8","observation","Nomia (Thoraconomia) thoracica","species","other_wild_bees",4,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_arabica_Indonesia_2000_2001","12","observation","Nomia (Thoraconomia) thoracica","species","other_wild_bees",7,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_arabica_Indonesia_2000_2001","12","observation","Nomia (Thoraconomia) thoracica","species","other_wild_bees",8,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_arabica_Indonesia_2000_2001","12","observation","Nomia (Thoraconomia) thoracica","species","other_wild_bees",10,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_arabica_Indonesia_2000_2001","14","observation","Nomia (Thoraconomia) thoracica","species","other_wild_bees",7,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_arabica_Indonesia_2000_2001","14","observation","Nomia (Thoraconomia) thoracica","species","other_wild_bees",5,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_arabica_Indonesia_2000_2001","14","observation","Nomia (Thoraconomia) thoracica","species","other_wild_bees",5,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_arabica_Indonesia_2000_2001","15","observation","Nomia (Thoraconomia) thoracica","species","other_wild_bees",7,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_arabica_Indonesia_2000_2001","15","observation","Nomia (Thoraconomia) thoracica","species","other_wild_bees",7,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_arabica_Indonesia_2000_2001","15","observation","Nomia (Thoraconomia) thoracica","species","other_wild_bees",10,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_arabica_Indonesia_2000_2001","18","observation","Ceratina (Ceratinidia) rugifrons","species","other_wild_bees",5,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_arabica_Indonesia_2000_2001","18","observation","Ceratina (Ceratinidia) rugifrons","species","other_wild_bees",5,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_arabica_Indonesia_2000_2001","18","observation","Ceratina (Ceratinidia) rugifrons","species","other_wild_bees",5,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_arabica_Indonesia_2000_2001","19","observation","Ceratina (Ceratinidia) rugifrons","species","other_wild_bees",5,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_arabica_Indonesia_2000_2001","19","observation","Ceratina (Ceratinidia) rugifrons","species","other_wild_bees",5,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_arabica_Indonesia_2000_2001","19","observation","Ceratina (Ceratinidia) rugifrons","species","other_wild_bees",1,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_arabica_Indonesia_2000_2001","1","observation","Lipotriches (Sulawesi) sp.","genus","other_wild_bees",2,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_arabica_Indonesia_2000_2001","1","observation","Lipotriches (Sulawesi) sp.","genus","other_wild_bees",1,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_arabica_Indonesia_2000_2001","2","observation","Lipotriches (Sulawesi) sp.","genus","other_wild_bees",4,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_arabica_Indonesia_2000_2001","7","observation","Lipotriches (Sulawesi) sp.","genus","other_wild_bees",3,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_arabica_Indonesia_2000_2001","7","observation","Lipotriches (Sulawesi) sp.","genus","other_wild_bees",4,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_arabica_Indonesia_2000_2001","11","observation","Lipotriches (Sulawesi) sp.","genus","other_wild_bees",2,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_arabica_Indonesia_2000_2001","11","observation","Lipotriches (Sulawesi) sp.","genus","other_wild_bees",5,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_arabica_Indonesia_2000_2001","12","observation","Lipotriches (Sulawesi) sp.","genus","other_wild_bees",2,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_arabica_Indonesia_2000_2001","15","observation","Lipotriches (Sulawesi) sp.","genus","other_wild_bees",3,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_arabica_Indonesia_2000_2001","17","observation","Lipotriches (Sulawesi) sp.","genus","other_wild_bees",3,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_arabica_Indonesia_2000_2001","18","observation","Lipotriches (Sulawesi) sp.","genus","other_wild_bees",3,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_arabica_Indonesia_2000_2001","18","observation","Lipotriches (Sulawesi) sp.","genus","other_wild_bees",4,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_arabica_Indonesia_2000_2001","18","observation","Lipotriches (Sulawesi) sp.","genus","other_wild_bees",2,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_arabica_Indonesia_2000_2001","19","observation","Lipotriches (Sulawesi) sp.","genus","other_wild_bees",1,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_arabica_Indonesia_2000_2001","19","observation","Lipotriches (Sulawesi) sp.","genus","other_wild_bees",2,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_arabica_Indonesia_2000_2001","19","observation","Lipotriches (Sulawesi) sp.","genus","other_wild_bees",2,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_arabica_Indonesia_2000_2001","22","observation","Lipotriches (Sulawesi) sp.","genus","other_wild_bees",4,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_arabica_Indonesia_2000_2001","22","observation","Lipotriches (Sulawesi) sp.","genus","other_wild_bees",10,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_arabica_Indonesia_2000_2001","22","observation","Lipotriches (Sulawesi) sp.","genus","other_wild_bees",10,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_arabica_Indonesia_2000_2001","1","observation","Halictidae (Sulawesi) sp. 21","morphospecies","other_wild_bees",4,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_arabica_Indonesia_2000_2001","1","observation","Halictidae (Sulawesi) sp. 21","morphospecies","other_wild_bees",3,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_arabica_Indonesia_2000_2001","1","observation","Halictidae (Sulawesi) sp. 21","morphospecies","other_wild_bees",4,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_arabica_Indonesia_2000_2001","2","observation","Halictidae (Sulawesi) sp. 21","morphospecies","other_wild_bees",4,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_arabica_Indonesia_2000_2001","2","observation","Halictidae (Sulawesi) sp. 21","morphospecies","other_wild_bees",6,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_arabica_Indonesia_2000_2001","2","observation","Halictidae (Sulawesi) sp. 21","morphospecies","other_wild_bees",4,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_arabica_Indonesia_2000_2001","3","observation","Halictidae (Sulawesi) sp. 21","morphospecies","other_wild_bees",4,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_arabica_Indonesia_2000_2001","3","observation","Halictidae (Sulawesi) sp. 21","morphospecies","other_wild_bees",3,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_arabica_Indonesia_2000_2001","7","observation","Halictidae (Sulawesi) sp. 21","morphospecies","other_wild_bees",3,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_arabica_Indonesia_2000_2001","7","observation","Halictidae (Sulawesi) sp. 21","morphospecies","other_wild_bees",3,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_arabica_Indonesia_2000_2001","10","observation","Halictidae (Sulawesi) sp. 21","morphospecies","other_wild_bees",4,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_arabica_Indonesia_2000_2001","11","observation","Halictidae (Sulawesi) sp. 21","morphospecies","other_wild_bees",2,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_arabica_Indonesia_2000_2001","11","observation","Halictidae (Sulawesi) sp. 21","morphospecies","other_wild_bees",5,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_arabica_Indonesia_2000_2001","11","observation","Halictidae (Sulawesi) sp. 21","morphospecies","other_wild_bees",5,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_arabica_Indonesia_2000_2001","18","observation","Halictidae (Sulawesi) sp. 21","morphospecies","other_wild_bees",7,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_arabica_Indonesia_2000_2001","21","observation","Halictidae (Sulawesi) sp. 21","morphospecies","other_wild_bees",4,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_arabica_Indonesia_2000_2001","21","observation","Halictidae (Sulawesi) sp. 21","morphospecies","other_wild_bees",3,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_arabica_Indonesia_2000_2001","21","observation","Halictidae (Sulawesi) sp. 21","morphospecies","other_wild_bees",4,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_arabica_Indonesia_2000_2001","1","observation","Halictidae (Sulawesi) sp. 22","morphospecies","other_wild_bees",2,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_arabica_Indonesia_2000_2001","1","observation","Halictidae (Sulawesi) sp. 22","morphospecies","other_wild_bees",4,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_arabica_Indonesia_2000_2001","2","observation","Halictidae (Sulawesi) sp. 22","morphospecies","other_wild_bees",4,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_arabica_Indonesia_2000_2001","2","observation","Halictidae (Sulawesi) sp. 22","morphospecies","other_wild_bees",7,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_arabica_Indonesia_2000_2001","2","observation","Halictidae (Sulawesi) sp. 22","morphospecies","other_wild_bees",5,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_arabica_Indonesia_2000_2001","7","observation","Halictidae (Sulawesi) sp. 22","morphospecies","other_wild_bees",6,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_arabica_Indonesia_2000_2001","7","observation","Halictidae (Sulawesi) sp. 22","morphospecies","other_wild_bees",3,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_arabica_Indonesia_2000_2001","7","observation","Halictidae (Sulawesi) sp. 22","morphospecies","other_wild_bees",3,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_arabica_Indonesia_2000_2001","9","observation","Halictidae (Sulawesi) sp. 22","morphospecies","other_wild_bees",4,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_arabica_Indonesia_2000_2001","9","observation","Halictidae (Sulawesi) sp. 22","morphospecies","other_wild_bees",4,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_arabica_Indonesia_2000_2001","9","observation","Halictidae (Sulawesi) sp. 22","morphospecies","other_wild_bees",2,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_arabica_Indonesia_2000_2001","10","observation","Halictidae (Sulawesi) sp. 22","morphospecies","other_wild_bees",3,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_arabica_Indonesia_2000_2001","11","observation","Halictidae (Sulawesi) sp. 22","morphospecies","other_wild_bees",4,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_arabica_Indonesia_2000_2001","11","observation","Halictidae (Sulawesi) sp. 22","morphospecies","other_wild_bees",2,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_arabica_Indonesia_2000_2001","11","observation","Halictidae (Sulawesi) sp. 22","morphospecies","other_wild_bees",2,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_arabica_Indonesia_2000_2001","20","observation","Halictidae (Sulawesi) sp. 22","morphospecies","other_wild_bees",7,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_arabica_Indonesia_2000_2001","21","observation","Halictidae (Sulawesi) sp. 22","morphospecies","other_wild_bees",3,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_arabica_Indonesia_2000_2001","21","observation","Halictidae (Sulawesi) sp. 22","morphospecies","other_wild_bees",4,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_arabica_Indonesia_2000_2001","21","observation","Halictidae (Sulawesi) sp. 22","morphospecies","other_wild_bees",5,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_arabica_Indonesia_2000_2001","9","observation","Thyreus nitidus quartinae","species","other_wild_bees",2,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_arabica_Indonesia_2000_2001","10","observation","Thyreus nitidus quartinae","species","other_wild_bees",2,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_arabica_Indonesia_2000_2001","14","observation","Thyreus nitidus quartinae","species","other_wild_bees",1,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_arabica_Indonesia_2000_2001","21","observation","Thyreus nitidus quartinae","species","other_wild_bees",1,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_arabica_Indonesia_2000_2001","21","observation","Thyreus nitidus quartinae","species","other_wild_bees",1,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_arabica_Indonesia_2000_2001","23","observation","Thyreus nitidus quartinae","species","other_wild_bees",2,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_arabica_Indonesia_2000_2001","24","observation","Thyreus nitidus quartinae","species","other_wild_bees",1,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_canephora_Indonesia_2000_2001","1","observation","Trigona (Lepidotrigona) terminata","species","other_wild_bees",4,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_canephora_Indonesia_2000_2001","1","observation","Trigona (Lepidotrigona) terminata","species","other_wild_bees",2,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_canephora_Indonesia_2000_2001","6","observation","Trigona (Lepidotrigona) terminata","species","other_wild_bees",6,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_canephora_Indonesia_2000_2001","6","observation","Trigona (Lepidotrigona) terminata","species","other_wild_bees",3,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_canephora_Indonesia_2000_2001","6","observation","Trigona (Lepidotrigona) terminata","species","other_wild_bees",3,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_canephora_Indonesia_2000_2001","7","observation","Trigona (Lepidotrigona) terminata","species","other_wild_bees",15,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_canephora_Indonesia_2000_2001","7","observation","Trigona (Lepidotrigona) terminata","species","other_wild_bees",9,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_canephora_Indonesia_2000_2001","7","observation","Trigona (Lepidotrigona) terminata","species","other_wild_bees",7,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_canephora_Indonesia_2000_2001","8","observation","Trigona (Lepidotrigona) terminata","species","other_wild_bees",2,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_canephora_Indonesia_2000_2001","9","observation","Trigona (Lepidotrigona) terminata","species","other_wild_bees",10,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_canephora_Indonesia_2000_2001","9","observation","Trigona (Lepidotrigona) terminata","species","other_wild_bees",8,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_canephora_Indonesia_2000_2001","9","observation","Trigona (Lepidotrigona) terminata","species","other_wild_bees",4,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_canephora_Indonesia_2000_2001","10","observation","Trigona (Lepidotrigona) terminata","species","other_wild_bees",4,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_canephora_Indonesia_2000_2001","12","observation","Trigona (Lepidotrigona) terminata","species","other_wild_bees",8,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_canephora_Indonesia_2000_2001","12","observation","Trigona (Lepidotrigona) terminata","species","other_wild_bees",5,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_canephora_Indonesia_2000_2001","12","observation","Trigona (Lepidotrigona) terminata","species","other_wild_bees",6,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_canephora_Indonesia_2000_2001","16","observation","Trigona (Lepidotrigona) terminata","species","other_wild_bees",13,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_canephora_Indonesia_2000_2001","16","observation","Trigona (Lepidotrigona) terminata","species","other_wild_bees",1,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_canephora_Indonesia_2000_2001","16","observation","Trigona (Lepidotrigona) terminata","species","other_wild_bees",1,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_canephora_Indonesia_2000_2001","18","observation","Trigona (Lepidotrigona) terminata","species","other_wild_bees",6,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_canephora_Indonesia_2000_2001","19","observation","Trigona (Lepidotrigona) terminata","species","other_wild_bees",8,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_canephora_Indonesia_2000_2001","19","observation","Trigona (Lepidotrigona) terminata","species","other_wild_bees",4,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_canephora_Indonesia_2000_2001","19","observation","Trigona (Lepidotrigona) terminata","species","other_wild_bees",3,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_canephora_Indonesia_2000_2001","21","observation","Trigona (Lepidotrigona) terminata","species","other_wild_bees",12,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_canephora_Indonesia_2000_2001","21","observation","Trigona (Lepidotrigona) terminata","species","other_wild_bees",14,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_canephora_Indonesia_2000_2001","21","observation","Trigona (Lepidotrigona) terminata","species","other_wild_bees",9,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_canephora_Indonesia_2000_2001","23","observation","Trigona (Lepidotrigona) terminata","species","other_wild_bees",14,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_canephora_Indonesia_2000_2001","23","observation","Trigona (Lepidotrigona) terminata","species","other_wild_bees",10,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_canephora_Indonesia_2000_2001","23","observation","Trigona (Lepidotrigona) terminata","species","other_wild_bees",9,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_canephora_Indonesia_2000_2001","24","observation","Trigona (Lepidotrigona) terminata","species","other_wild_bees",6,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_canephora_Indonesia_2000_2001","24","observation","Trigona (Lepidotrigona) terminata","species","other_wild_bees",12,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_canephora_Indonesia_2000_2001","24","observation","Trigona (Lepidotrigona) terminata","species","other_wild_bees",6,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_canephora_Indonesia_2000_2001","1","observation","Trigona (Heterotrigona, Sulawesi) sp. 1","morphospecies","other_wild_bees",30,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_canephora_Indonesia_2000_2001","1","observation","Trigona (Heterotrigona, Sulawesi) sp. 1","morphospecies","other_wild_bees",16,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_canephora_Indonesia_2000_2001","1","observation","Trigona (Heterotrigona, Sulawesi) sp. 1","morphospecies","other_wild_bees",14,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_canephora_Indonesia_2000_2001","6","observation","Trigona (Heterotrigona, Sulawesi) sp. 1","morphospecies","other_wild_bees",4,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_canephora_Indonesia_2000_2001","9","observation","Trigona (Heterotrigona, Sulawesi) sp. 1","morphospecies","other_wild_bees",5,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_canephora_Indonesia_2000_2001","9","observation","Trigona (Heterotrigona, Sulawesi) sp. 1","morphospecies","other_wild_bees",2,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_canephora_Indonesia_2000_2001","10","observation","Trigona (Heterotrigona, Sulawesi) sp. 1","morphospecies","other_wild_bees",2,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_canephora_Indonesia_2000_2001","16","observation","Trigona (Heterotrigona, Sulawesi) sp. 1","morphospecies","other_wild_bees",3,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_canephora_Indonesia_2000_2001","16","observation","Trigona (Heterotrigona, Sulawesi) sp. 1","morphospecies","other_wild_bees",2,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_canephora_Indonesia_2000_2001","16","observation","Trigona (Heterotrigona, Sulawesi) sp. 1","morphospecies","other_wild_bees",2,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_canephora_Indonesia_2000_2001","18","observation","Trigona (Heterotrigona, Sulawesi) sp. 1","morphospecies","other_wild_bees",3,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_canephora_Indonesia_2000_2001","9","observation","Trigona (Sulawesi) sp.","genus","other_wild_bees",14,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_canephora_Indonesia_2000_2001","10","observation","Trigona (Sulawesi) sp.","genus","other_wild_bees",1,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_canephora_Indonesia_2000_2001","21","observation","Trigona (Sulawesi) sp.","genus","other_wild_bees",7,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_canephora_Indonesia_2000_2001","21","observation","Trigona (Sulawesi) sp.","genus","other_wild_bees",5,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_canephora_Indonesia_2000_2001","1","observation","Trigona (Heterotrigona, Sulawesi) sp. 2","morphospecies","other_wild_bees",12,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_canephora_Indonesia_2000_2001","1","observation","Trigona (Heterotrigona, Sulawesi) sp. 2","morphospecies","other_wild_bees",11,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_canephora_Indonesia_2000_2001","1","observation","Trigona (Heterotrigona, Sulawesi) sp. 2","morphospecies","other_wild_bees",10,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_canephora_Indonesia_2000_2001","7","observation","Trigona (Heterotrigona, Sulawesi) sp. 2","morphospecies","other_wild_bees",10,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_canephora_Indonesia_2000_2001","7","observation","Trigona (Heterotrigona, Sulawesi) sp. 2","morphospecies","other_wild_bees",7,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_canephora_Indonesia_2000_2001","7","observation","Trigona (Heterotrigona, Sulawesi) sp. 2","morphospecies","other_wild_bees",4,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_canephora_Indonesia_2000_2001","9","observation","Trigona (Heterotrigona, Sulawesi) sp. 2","morphospecies","other_wild_bees",12,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_canephora_Indonesia_2000_2001","9","observation","Trigona (Heterotrigona, Sulawesi) sp. 2","morphospecies","other_wild_bees",9,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_canephora_Indonesia_2000_2001","9","observation","Trigona (Heterotrigona, Sulawesi) sp. 2","morphospecies","other_wild_bees",6,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_canephora_Indonesia_2000_2001","10","observation","Trigona (Heterotrigona, Sulawesi) sp. 2","morphospecies","other_wild_bees",20,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_canephora_Indonesia_2000_2001","10","observation","Trigona (Heterotrigona, Sulawesi) sp. 2","morphospecies","other_wild_bees",9,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_canephora_Indonesia_2000_2001","10","observation","Trigona (Heterotrigona, Sulawesi) sp. 2","morphospecies","other_wild_bees",9,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_canephora_Indonesia_2000_2001","16","observation","Trigona (Heterotrigona, Sulawesi) sp. 2","morphospecies","other_wild_bees",10,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_canephora_Indonesia_2000_2001","16","observation","Trigona (Heterotrigona, Sulawesi) sp. 2","morphospecies","other_wild_bees",7,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_canephora_Indonesia_2000_2001","16","observation","Trigona (Heterotrigona, Sulawesi) sp. 2","morphospecies","other_wild_bees",7,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_canephora_Indonesia_2000_2001","19","observation","Trigona (Heterotrigona, Sulawesi) sp. 2","morphospecies","other_wild_bees",8,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_canephora_Indonesia_2000_2001","19","observation","Trigona (Heterotrigona, Sulawesi) sp. 2","morphospecies","other_wild_bees",8,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_canephora_Indonesia_2000_2001","19","observation","Trigona (Heterotrigona, Sulawesi) sp. 2","morphospecies","other_wild_bees",6,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_canephora_Indonesia_2000_2001","21","observation","Trigona (Heterotrigona, Sulawesi) sp. 2","morphospecies","other_wild_bees",9,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_canephora_Indonesia_2000_2001","21","observation","Trigona (Heterotrigona, Sulawesi) sp. 2","morphospecies","other_wild_bees",8,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_canephora_Indonesia_2000_2001","21","observation","Trigona (Heterotrigona, Sulawesi) sp. 2","morphospecies","other_wild_bees",9,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_canephora_Indonesia_2000_2001","23","observation","Trigona (Heterotrigona, Sulawesi) sp. 2","morphospecies","other_wild_bees",7,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_canephora_Indonesia_2000_2001","6","observation","Apis cerana","species","honeybees",6,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_canephora_Indonesia_2000_2001","6","observation","Apis cerana","species","honeybees",11,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_canephora_Indonesia_2000_2001","6","observation","Apis cerana","species","honeybees",6,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_canephora_Indonesia_2000_2001","8","observation","Apis cerana","species","honeybees",12,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_canephora_Indonesia_2000_2001","8","observation","Apis cerana","species","honeybees",10,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_canephora_Indonesia_2000_2001","8","observation","Apis cerana","species","honeybees",10,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_canephora_Indonesia_2000_2001","12","observation","Apis cerana","species","honeybees",10,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_canephora_Indonesia_2000_2001","12","observation","Apis cerana","species","honeybees",13,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_canephora_Indonesia_2000_2001","12","observation","Apis cerana","species","honeybees",10,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_canephora_Indonesia_2000_2001","14","observation","Apis cerana","species","honeybees",6,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_canephora_Indonesia_2000_2001","14","observation","Apis cerana","species","honeybees",4,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_canephora_Indonesia_2000_2001","20","observation","Apis cerana","species","honeybees",10,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_canephora_Indonesia_2000_2001","20","observation","Apis cerana","species","honeybees",6,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_canephora_Indonesia_2000_2001","20","observation","Apis cerana","species","honeybees",9,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_canephora_Indonesia_2000_2001","24","observation","Apis cerana","species","honeybees",10,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_canephora_Indonesia_2000_2001","24","observation","Apis cerana","species","honeybees",12,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_canephora_Indonesia_2000_2001","24","observation","Apis cerana","species","honeybees",11,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_canephora_Indonesia_2000_2001","1","observation","Apis nigrocinta binghami","species","honeybees",29,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_canephora_Indonesia_2000_2001","1","observation","Apis nigrocinta binghami","species","honeybees",14,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_canephora_Indonesia_2000_2001","1","observation","Apis nigrocinta binghami","species","honeybees",18,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_canephora_Indonesia_2000_2001","6","observation","Apis nigrocinta binghami","species","honeybees",6,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_canephora_Indonesia_2000_2001","6","observation","Apis nigrocinta binghami","species","honeybees",8,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_canephora_Indonesia_2000_2001","6","observation","Apis nigrocinta binghami","species","honeybees",8,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_canephora_Indonesia_2000_2001","7","observation","Apis nigrocinta binghami","species","honeybees",10,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_canephora_Indonesia_2000_2001","7","observation","Apis nigrocinta binghami","species","honeybees",9,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_canephora_Indonesia_2000_2001","7","observation","Apis nigrocinta binghami","species","honeybees",9,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_canephora_Indonesia_2000_2001","9","observation","Apis nigrocinta binghami","species","honeybees",11,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_canephora_Indonesia_2000_2001","9","observation","Apis nigrocinta binghami","species","honeybees",8,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_canephora_Indonesia_2000_2001","9","observation","Apis nigrocinta binghami","species","honeybees",8,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_canephora_Indonesia_2000_2001","10","observation","Apis nigrocinta binghami","species","honeybees",8,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_canephora_Indonesia_2000_2001","10","observation","Apis nigrocinta binghami","species","honeybees",4,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_canephora_Indonesia_2000_2001","10","observation","Apis nigrocinta binghami","species","honeybees",11,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_canephora_Indonesia_2000_2001","12","observation","Apis nigrocinta binghami","species","honeybees",4,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_canephora_Indonesia_2000_2001","12","observation","Apis nigrocinta binghami","species","honeybees",4,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_canephora_Indonesia_2000_2001","12","observation","Apis nigrocinta binghami","species","honeybees",7,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_canephora_Indonesia_2000_2001","16","observation","Apis nigrocinta binghami","species","honeybees",12,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_canephora_Indonesia_2000_2001","16","observation","Apis nigrocinta binghami","species","honeybees",12,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_canephora_Indonesia_2000_2001","16","observation","Apis nigrocinta binghami","species","honeybees",12,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_canephora_Indonesia_2000_2001","18","observation","Apis nigrocinta binghami","species","honeybees",17,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_canephora_Indonesia_2000_2001","18","observation","Apis nigrocinta binghami","species","honeybees",18,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_canephora_Indonesia_2000_2001","18","observation","Apis nigrocinta binghami","species","honeybees",12,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_canephora_Indonesia_2000_2001","19","observation","Apis nigrocinta binghami","species","honeybees",10,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_canephora_Indonesia_2000_2001","19","observation","Apis nigrocinta binghami","species","honeybees",15,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_canephora_Indonesia_2000_2001","19","observation","Apis nigrocinta binghami","species","honeybees",11,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_canephora_Indonesia_2000_2001","20","observation","Apis nigrocinta binghami","species","honeybees",10,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_canephora_Indonesia_2000_2001","20","observation","Apis nigrocinta binghami","species","honeybees",9,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_canephora_Indonesia_2000_2001","20","observation","Apis nigrocinta binghami","species","honeybees",8,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_canephora_Indonesia_2000_2001","21","observation","Apis nigrocinta binghami","species","honeybees",12,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_canephora_Indonesia_2000_2001","21","observation","Apis nigrocinta binghami","species","honeybees",11,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_canephora_Indonesia_2000_2001","21","observation","Apis nigrocinta binghami","species","honeybees",9,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_canephora_Indonesia_2000_2001","23","observation","Apis nigrocinta binghami","species","honeybees",9,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_canephora_Indonesia_2000_2001","23","observation","Apis nigrocinta binghami","species","honeybees",9,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_canephora_Indonesia_2000_2001","23","observation","Apis nigrocinta binghami","species","honeybees",10,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_canephora_Indonesia_2000_2001","24","observation","Apis nigrocinta binghami","species","honeybees",6,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_canephora_Indonesia_2000_2001","24","observation","Apis nigrocinta binghami","species","honeybees",10,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_canephora_Indonesia_2000_2001","24","observation","Apis nigrocinta binghami","species","honeybees",6,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_canephora_Indonesia_2000_2001","1","observation","Apis dorsata","species","honeybees",7,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_canephora_Indonesia_2000_2001","1","observation","Apis dorsata","species","honeybees",4,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_canephora_Indonesia_2000_2001","1","observation","Apis dorsata","species","honeybees",7,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_canephora_Indonesia_2000_2001","6","observation","Apis dorsata","species","honeybees",11,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_canephora_Indonesia_2000_2001","6","observation","Apis dorsata","species","honeybees",15,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_canephora_Indonesia_2000_2001","6","observation","Apis dorsata","species","honeybees",10,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_canephora_Indonesia_2000_2001","7","observation","Apis dorsata","species","honeybees",7,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_canephora_Indonesia_2000_2001","7","observation","Apis dorsata","species","honeybees",3,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_canephora_Indonesia_2000_2001","7","observation","Apis dorsata","species","honeybees",6,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_canephora_Indonesia_2000_2001","9","observation","Apis dorsata","species","honeybees",19,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_canephora_Indonesia_2000_2001","9","observation","Apis dorsata","species","honeybees",16,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_canephora_Indonesia_2000_2001","9","observation","Apis dorsata","species","honeybees",11,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_canephora_Indonesia_2000_2001","10","observation","Apis dorsata","species","honeybees",11,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_canephora_Indonesia_2000_2001","10","observation","Apis dorsata","species","honeybees",10,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_canephora_Indonesia_2000_2001","10","observation","Apis dorsata","species","honeybees",8,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_canephora_Indonesia_2000_2001","16","observation","Apis dorsata","species","honeybees",9,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_canephora_Indonesia_2000_2001","16","observation","Apis dorsata","species","honeybees",6,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_canephora_Indonesia_2000_2001","16","observation","Apis dorsata","species","honeybees",6,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_canephora_Indonesia_2000_2001","18","observation","Apis dorsata","species","honeybees",11,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_canephora_Indonesia_2000_2001","18","observation","Apis dorsata","species","honeybees",3,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_canephora_Indonesia_2000_2001","18","observation","Apis dorsata","species","honeybees",6,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_canephora_Indonesia_2000_2001","19","observation","Apis dorsata","species","honeybees",4,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_canephora_Indonesia_2000_2001","19","observation","Apis dorsata","species","honeybees",5,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_canephora_Indonesia_2000_2001","19","observation","Apis dorsata","species","honeybees",1,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_canephora_Indonesia_2000_2001","20","observation","Apis dorsata","species","honeybees",8,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_canephora_Indonesia_2000_2001","20","observation","Apis dorsata","species","honeybees",8,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_canephora_Indonesia_2000_2001","20","observation","Apis dorsata","species","honeybees",7,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_canephora_Indonesia_2000_2001","21","observation","Apis dorsata","species","honeybees",14,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_canephora_Indonesia_2000_2001","21","observation","Apis dorsata","species","honeybees",8,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_canephora_Indonesia_2000_2001","21","observation","Apis dorsata","species","honeybees",9,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_canephora_Indonesia_2000_2001","23","observation","Apis dorsata","species","honeybees",6,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_canephora_Indonesia_2000_2001","23","observation","Apis dorsata","species","honeybees",7,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_canephora_Indonesia_2000_2001","23","observation","Apis dorsata","species","honeybees",8,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_canephora_Indonesia_2000_2001","1","observation","Heriades (Sulawesi) sp. 1","morphospecies","other_wild_bees",18,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_canephora_Indonesia_2000_2001","1","observation","Heriades (Sulawesi) sp. 1","morphospecies","other_wild_bees",2,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_canephora_Indonesia_2000_2001","1","observation","Heriades (Sulawesi) sp. 1","morphospecies","other_wild_bees",5,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_canephora_Indonesia_2000_2001","6","observation","Heriades (Sulawesi) sp. 1","morphospecies","other_wild_bees",7,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_canephora_Indonesia_2000_2001","6","observation","Heriades (Sulawesi) sp. 1","morphospecies","other_wild_bees",8,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_canephora_Indonesia_2000_2001","6","observation","Heriades (Sulawesi) sp. 1","morphospecies","other_wild_bees",8,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_canephora_Indonesia_2000_2001","7","observation","Heriades (Sulawesi) sp. 1","morphospecies","other_wild_bees",6,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_canephora_Indonesia_2000_2001","8","observation","Heriades (Sulawesi) sp. 1","morphospecies","other_wild_bees",12,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_canephora_Indonesia_2000_2001","8","observation","Heriades (Sulawesi) sp. 1","morphospecies","other_wild_bees",15,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_canephora_Indonesia_2000_2001","8","observation","Heriades (Sulawesi) sp. 1","morphospecies","other_wild_bees",10,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_canephora_Indonesia_2000_2001","14","observation","Heriades (Sulawesi) sp. 1","morphospecies","other_wild_bees",10,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_canephora_Indonesia_2000_2001","14","observation","Heriades (Sulawesi) sp. 1","morphospecies","other_wild_bees",6,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_canephora_Indonesia_2000_2001","14","observation","Heriades (Sulawesi) sp. 1","morphospecies","other_wild_bees",6,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_canephora_Indonesia_2000_2001","18","observation","Heriades (Sulawesi) sp. 1","morphospecies","other_wild_bees",10,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_canephora_Indonesia_2000_2001","18","observation","Heriades (Sulawesi) sp. 1","morphospecies","other_wild_bees",8,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_canephora_Indonesia_2000_2001","18","observation","Heriades (Sulawesi) sp. 1","morphospecies","other_wild_bees",8,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_canephora_Indonesia_2000_2001","19","observation","Heriades (Sulawesi) sp. 1","morphospecies","other_wild_bees",8,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_canephora_Indonesia_2000_2001","19","observation","Heriades (Sulawesi) sp. 1","morphospecies","other_wild_bees",9,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_canephora_Indonesia_2000_2001","19","observation","Heriades (Sulawesi) sp. 1","morphospecies","other_wild_bees",5,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_canephora_Indonesia_2000_2001","1","observation","Xylocopa (Zonohirsuta) dejeanii","species","other_wild_bees",4,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_canephora_Indonesia_2000_2001","1","observation","Xylocopa (Zonohirsuta) dejeanii","species","other_wild_bees",2,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_canephora_Indonesia_2000_2001","1","observation","Xylocopa (Zonohirsuta) dejeanii","species","other_wild_bees",3,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_canephora_Indonesia_2000_2001","6","observation","Xylocopa (Zonohirsuta) dejeanii","species","other_wild_bees",1,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_canephora_Indonesia_2000_2001","6","observation","Xylocopa (Zonohirsuta) dejeanii","species","other_wild_bees",3,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_canephora_Indonesia_2000_2001","7","observation","Xylocopa (Zonohirsuta) dejeanii","species","other_wild_bees",2,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_canephora_Indonesia_2000_2001","10","observation","Xylocopa (Zonohirsuta) dejeanii","species","other_wild_bees",3,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_canephora_Indonesia_2000_2001","10","observation","Xylocopa (Zonohirsuta) dejeanii","species","other_wild_bees",4,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_canephora_Indonesia_2000_2001","10","observation","Xylocopa (Zonohirsuta) dejeanii","species","other_wild_bees",3,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_canephora_Indonesia_2000_2001","12","observation","Xylocopa (Zonohirsuta) dejeanii","species","other_wild_bees",4,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_canephora_Indonesia_2000_2001","12","observation","Xylocopa (Zonohirsuta) dejeanii","species","other_wild_bees",1,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_canephora_Indonesia_2000_2001","12","observation","Xylocopa (Zonohirsuta) dejeanii","species","other_wild_bees",2,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_canephora_Indonesia_2000_2001","16","observation","Xylocopa (Zonohirsuta) dejeanii","species","other_wild_bees",2,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_canephora_Indonesia_2000_2001","16","observation","Xylocopa (Zonohirsuta) dejeanii","species","other_wild_bees",2,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_canephora_Indonesia_2000_2001","21","observation","Xylocopa (Zonohirsuta) dejeanii","species","other_wild_bees",4,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_canephora_Indonesia_2000_2001","21","observation","Xylocopa (Zonohirsuta) dejeanii","species","other_wild_bees",2,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_canephora_Indonesia_2000_2001","21","observation","Xylocopa (Zonohirsuta) dejeanii","species","other_wild_bees",3,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_canephora_Indonesia_2000_2001","7","observation","Xylocopa (Koptortosoma) smithii","species","other_wild_bees",5,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_canephora_Indonesia_2000_2001","7","observation","Xylocopa (Koptortosoma) smithii","species","other_wild_bees",2,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_canephora_Indonesia_2000_2001","7","observation","Xylocopa (Koptortosoma) smithii","species","other_wild_bees",2,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_canephora_Indonesia_2000_2001","10","observation","Xylocopa (Koptortosoma) smithii","species","other_wild_bees",4,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_canephora_Indonesia_2000_2001","7","observation","Xylocopa (Koptortosoma) aestuans","species","other_wild_bees",3,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_canephora_Indonesia_2000_2001","7","observation","Xylocopa (Koptortosoma) aestuans","species","other_wild_bees",2,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_canephora_Indonesia_2000_2001","7","observation","Xylocopa (Koptortosoma) aestuans","species","other_wild_bees",2,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_canephora_Indonesia_2000_2001","12","observation","Xylocopa (Koptortosoma) aestuans","species","other_wild_bees",5,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_canephora_Indonesia_2000_2001","12","observation","Xylocopa (Koptortosoma) aestuans","species","other_wild_bees",4,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_canephora_Indonesia_2000_2001","14","observation","Xylocopa (Koptortosoma) aestuans","species","other_wild_bees",3,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_canephora_Indonesia_2000_2001","14","observation","Xylocopa (Koptortosoma) aestuans","species","other_wild_bees",2,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_canephora_Indonesia_2000_2001","14","observation","Xylocopa (Koptortosoma) aestuans","species","other_wild_bees",1,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_canephora_Indonesia_2000_2001","6","observation","Amegilla (Sulawesi) sp. aff. samarensis","species","other_wild_bees",1,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_canephora_Indonesia_2000_2001","7","observation","Amegilla (Sulawesi) sp. aff. samarensis","species","other_wild_bees",1,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_canephora_Indonesia_2000_2001","10","observation","Amegilla (Sulawesi) sp. aff. samarensis","species","other_wild_bees",6,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_canephora_Indonesia_2000_2001","12","observation","Amegilla (Sulawesi) sp. aff. samarensis","species","other_wild_bees",1,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_canephora_Indonesia_2000_2001","12","observation","Amegilla (Sulawesi) sp. aff. samarensis","species","other_wild_bees",2,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_canephora_Indonesia_2000_2001","14","observation","Amegilla (Sulawesi) sp. aff. samarensis","species","other_wild_bees",4,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_canephora_Indonesia_2000_2001","24","observation","Amegilla (Sulawesi) sp. aff. samarensis","species","other_wild_bees",2,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_canephora_Indonesia_2000_2001","8","observation","Amegilla (Sulawesi) sp. zonata-group","morphospecies","other_wild_bees",3,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_canephora_Indonesia_2000_2001","8","observation","Amegilla (Sulawesi) sp. zonata-group","morphospecies","other_wild_bees",4,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_canephora_Indonesia_2000_2001","8","observation","Amegilla (Sulawesi) sp. zonata-group","morphospecies","other_wild_bees",3,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_canephora_Indonesia_2000_2001","10","observation","Amegilla (Sulawesi) sp. zonata-group","morphospecies","other_wild_bees",2,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_canephora_Indonesia_2000_2001","10","observation","Amegilla (Sulawesi) sp. zonata-group","morphospecies","other_wild_bees",3,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_canephora_Indonesia_2000_2001","1","observation","Amegilla whiteheadi","species","other_wild_bees",6,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_canephora_Indonesia_2000_2001","1","observation","Amegilla whiteheadi","species","other_wild_bees",2,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_canephora_Indonesia_2000_2001","1","observation","Amegilla whiteheadi","species","other_wild_bees",8,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_canephora_Indonesia_2000_2001","9","observation","Amegilla whiteheadi","species","other_wild_bees",4,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_canephora_Indonesia_2000_2001","9","observation","Amegilla whiteheadi","species","other_wild_bees",4,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_canephora_Indonesia_2000_2001","10","observation","Amegilla whiteheadi","species","other_wild_bees",5,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_canephora_Indonesia_2000_2001","10","observation","Amegilla whiteheadi","species","other_wild_bees",2,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_canephora_Indonesia_2000_2001","19","observation","Amegilla whiteheadi","species","other_wild_bees",3,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_canephora_Indonesia_2000_2001","20","observation","Amegilla whiteheadi","species","other_wild_bees",3,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_canephora_Indonesia_2000_2001","21","observation","Amegilla whiteheadi","species","other_wild_bees",3,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_canephora_Indonesia_2000_2001","21","observation","Amegilla whiteheadi","species","other_wild_bees",2,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_canephora_Indonesia_2000_2001","21","observation","Amegilla whiteheadi","species","other_wild_bees",1,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_canephora_Indonesia_2000_2001","23","observation","Amegilla whiteheadi","species","other_wild_bees",3,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_canephora_Indonesia_2000_2001","23","observation","Amegilla whiteheadi","species","other_wild_bees",1,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_canephora_Indonesia_2000_2001","10","observation","Heriades (Sulawesi) sp. 2","morphospecies","other_wild_bees",4,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_canephora_Indonesia_2000_2001","12","observation","Heriades (Sulawesi) sp. 2","morphospecies","other_wild_bees",8,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_canephora_Indonesia_2000_2001","12","observation","Heriades (Sulawesi) sp. 2","morphospecies","other_wild_bees",10,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_canephora_Indonesia_2000_2001","12","observation","Heriades (Sulawesi) sp. 2","morphospecies","other_wild_bees",10,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_canephora_Indonesia_2000_2001","20","observation","Heriades (Sulawesi) sp. 2","morphospecies","other_wild_bees",11,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_canephora_Indonesia_2000_2001","20","observation","Heriades (Sulawesi) sp. 2","morphospecies","other_wild_bees",7,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_canephora_Indonesia_2000_2001","6","observation","Lipotriches (Sulawesi) sp.","genus","other_wild_bees",4,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_canephora_Indonesia_2000_2001","23","observation","Lipotriches (Sulawesi) sp.","genus","other_wild_bees",4,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_canephora_Indonesia_2000_2001","23","observation","Lipotriches (Sulawesi) sp.","genus","other_wild_bees",5,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_canephora_Indonesia_2000_2001","1","observation","Patellapis (Pachyhalictus, Sulawesi) sp.","genus","other_wild_bees",3,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_canephora_Indonesia_2000_2001","6","observation","Creightonella frontalis atrata","species","other_wild_bees",5,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_canephora_Indonesia_2000_2001","7","observation","Creightonella frontalis atrata","species","other_wild_bees",5,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_canephora_Indonesia_2000_2001","7","observation","Creightonella frontalis atrata","species","other_wild_bees",5,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_canephora_Indonesia_2000_2001","7","observation","Creightonella frontalis atrata","species","other_wild_bees",3,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_canephora_Indonesia_2000_2001","8","observation","Creightonella frontalis atrata","species","other_wild_bees",6,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_canephora_Indonesia_2000_2001","8","observation","Creightonella frontalis atrata","species","other_wild_bees",6,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_canephora_Indonesia_2000_2001","8","observation","Creightonella frontalis atrata","species","other_wild_bees",7,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_canephora_Indonesia_2000_2001","9","observation","Creightonella frontalis atrata","species","other_wild_bees",6,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_canephora_Indonesia_2000_2001","10","observation","Creightonella frontalis atrata","species","other_wild_bees",1,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_canephora_Indonesia_2000_2001","10","observation","Creightonella frontalis atrata","species","other_wild_bees",2,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_canephora_Indonesia_2000_2001","12","observation","Creightonella frontalis atrata","species","other_wild_bees",6,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_canephora_Indonesia_2000_2001","19","observation","Creightonella frontalis atrata","species","other_wild_bees",4,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_canephora_Indonesia_2000_2001","19","observation","Creightonella frontalis atrata","species","other_wild_bees",5,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_canephora_Indonesia_2000_2001","19","observation","Creightonella frontalis atrata","species","other_wild_bees",5,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_canephora_Indonesia_2000_2001","20","observation","Creightonella frontalis atrata","species","other_wild_bees",5,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_canephora_Indonesia_2000_2001","21","observation","Creightonella frontalis atrata","species","other_wild_bees",9,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_canephora_Indonesia_2000_2001","21","observation","Creightonella frontalis atrata","species","other_wild_bees",8,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_canephora_Indonesia_2000_2001","21","observation","Creightonella frontalis atrata","species","other_wild_bees",24,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_canephora_Indonesia_2000_2001","24","observation","Creightonella frontalis atrata","species","other_wild_bees",3,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_canephora_Indonesia_2000_2001","6","observation","Chalicodoma (Callomegachile) terminale","species","other_wild_bees",2,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_canephora_Indonesia_2000_2001","16","observation","Chalicodoma (Callomegachile) terminale","species","other_wild_bees",6,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_canephora_Indonesia_2000_2001","6","observation","Chalicodoma (Callomegachile) incisum","species","other_wild_bees",2,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_canephora_Indonesia_2000_2001","7","observation","Chalicodoma (Callomegachile) incisum","species","other_wild_bees",1,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_canephora_Indonesia_2000_2001","7","observation","Chalicodoma (Callomegachile) incisum","species","other_wild_bees",1,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_canephora_Indonesia_2000_2001","8","observation","Chalicodoma (Callomegachile) incisum","species","other_wild_bees",2,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_canephora_Indonesia_2000_2001","9","observation","Chalicodoma (Callomegachile) incisum","species","other_wild_bees",2,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_canephora_Indonesia_2000_2001","10","observation","Chalicodoma (Callomegachile) incisum","species","other_wild_bees",2,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_canephora_Indonesia_2000_2001","1","observation","Chalicodoma (Eumegachinana) tub. tuberculatum","species","other_wild_bees",2,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_canephora_Indonesia_2000_2001","1","observation","Chalicodoma (Eumegachinana) tub. tuberculatum","species","other_wild_bees",1,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_canephora_Indonesia_2000_2001","8","observation","Chalicodoma (Eumegachinana) tub. tuberculatum","species","other_wild_bees",4,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_canephora_Indonesia_2000_2001","8","observation","Chalicodoma (Eumegachinana) tub. tuberculatum","species","other_wild_bees",7,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_canephora_Indonesia_2000_2001","8","observation","Chalicodoma (Eumegachinana) tub. tuberculatum","species","other_wild_bees",8,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_canephora_Indonesia_2000_2001","9","observation","Chalicodoma (Eumegachinana) tub. tuberculatum","species","other_wild_bees",2,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_canephora_Indonesia_2000_2001","9","observation","Chalicodoma (Eumegachinana) tub. tuberculatum","species","other_wild_bees",3,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_canephora_Indonesia_2000_2001","10","observation","Chalicodoma (Eumegachinana) tub. tuberculatum","species","other_wild_bees",2,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_canephora_Indonesia_2000_2001","10","observation","Chalicodoma (Eumegachinana) tub. tuberculatum","species","other_wild_bees",3,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_canephora_Indonesia_2000_2001","10","observation","Chalicodoma (Eumegachinana) tub. tuberculatum","species","other_wild_bees",2,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_canephora_Indonesia_2000_2001","16","observation","Chalicodoma (Eumegachinana) tub. tuberculatum","species","other_wild_bees",1,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_canephora_Indonesia_2000_2001","9","observation","Torridapis ducalis","species","other_wild_bees",6,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_canephora_Indonesia_2000_2001","9","observation","Torridapis ducalis","species","other_wild_bees",1,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_canephora_Indonesia_2000_2001","10","observation","Torridapis ducalis","species","other_wild_bees",1,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_canephora_Indonesia_2000_2001","21","observation","Torridapis ducalis","species","other_wild_bees",5,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_canephora_Indonesia_2000_2001","21","observation","Torridapis ducalis","species","other_wild_bees",3,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_canephora_Indonesia_2000_2001","21","observation","Torridapis ducalis","species","other_wild_bees",1,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_canephora_Indonesia_2000_2001","9","observation","Megachile (Sulawesi) sp. aff. bakeri","morphospecies","other_wild_bees",6,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_canephora_Indonesia_2000_2001","9","observation","Megachile (Sulawesi) sp. aff. bakeri","morphospecies","other_wild_bees",2,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_canephora_Indonesia_2000_2001","12","observation","Megachile (Sulawesi) sp. aff. bakeri","morphospecies","other_wild_bees",5,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_canephora_Indonesia_2000_2001","12","observation","Megachile (Sulawesi) sp. aff. bakeri","morphospecies","other_wild_bees",2,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_canephora_Indonesia_2000_2001","12","observation","Megachile (Sulawesi) sp. aff. bakeri","morphospecies","other_wild_bees",3,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_canephora_Indonesia_2000_2001","10","observation","Paracella (Sulawesi) sp. 1","morphospecies","other_wild_bees",2,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_canephora_Indonesia_2000_2001","10","observation","Paracella (Sulawesi) sp. 1","morphospecies","other_wild_bees",1,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_canephora_Indonesia_2000_2001","19","observation","Paracella (Sulawesi) sp. 1","morphospecies","other_wild_bees",4,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_canephora_Indonesia_2000_2001","19","observation","Paracella (Sulawesi) sp. 1","morphospecies","other_wild_bees",6,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_canephora_Indonesia_2000_2001","20","observation","Paracella (Sulawesi) sp. 1","morphospecies","other_wild_bees",1,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_canephora_Indonesia_2000_2001","21","observation","Paracella (Sulawesi) sp. 1","morphospecies","other_wild_bees",4,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_canephora_Indonesia_2000_2001","21","observation","Paracella (Sulawesi) sp. 1","morphospecies","other_wild_bees",4,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_canephora_Indonesia_2000_2001","23","observation","Paracella (Sulawesi) sp. 1","morphospecies","other_wild_bees",5,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_canephora_Indonesia_2000_2001","1","observation","Paracella (Sulawesi) sp. 2","morphospecies","other_wild_bees",2,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_canephora_Indonesia_2000_2001","7","observation","Paracella (Sulawesi) sp. 2","morphospecies","other_wild_bees",1,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_canephora_Indonesia_2000_2001","20","observation","Paracella (Sulawesi) sp. 2","morphospecies","other_wild_bees",8,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_canephora_Indonesia_2000_2001","20","observation","Paracella (Sulawesi) sp. 2","morphospecies","other_wild_bees",5,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_canephora_Indonesia_2000_2001","20","observation","Paracella (Sulawesi) sp. 2","morphospecies","other_wild_bees",4,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_canephora_Indonesia_2000_2001","23","observation","Paracella (Sulawesi) sp. 2","morphospecies","other_wild_bees",5,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_canephora_Indonesia_2000_2001","23","observation","Paracella (Sulawesi) sp. 2","morphospecies","other_wild_bees",7,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_canephora_Indonesia_2000_2001","23","observation","Paracella (Sulawesi) sp. 2","morphospecies","other_wild_bees",3,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_canephora_Indonesia_2000_2001","8","observation","Coelioxys smithii","species","other_wild_bees",2,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_canephora_Indonesia_2000_2001","8","observation","Coelioxys smithii","species","other_wild_bees",6,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_canephora_Indonesia_2000_2001","10","observation","Coelioxys smithii","species","other_wild_bees",1,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_canephora_Indonesia_2000_2001","12","observation","Coelioxys smithii","species","other_wild_bees",1,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_canephora_Indonesia_2000_2001","12","observation","Coelioxys smithii","species","other_wild_bees",1,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_canephora_Indonesia_2000_2001","21","observation","Coelioxys smithii","species","other_wild_bees",2,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_canephora_Indonesia_2000_2001","8","observation","Nomia (Thoraconomia) thoracica","species","other_wild_bees",5,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_canephora_Indonesia_2000_2001","12","observation","Nomia (Thoraconomia) thoracica","species","other_wild_bees",6,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_canephora_Indonesia_2000_2001","12","observation","Nomia (Thoraconomia) thoracica","species","other_wild_bees",9,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_canephora_Indonesia_2000_2001","12","observation","Nomia (Thoraconomia) thoracica","species","other_wild_bees",12,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_canephora_Indonesia_2000_2001","14","observation","Nomia (Thoraconomia) thoracica","species","other_wild_bees",10,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_canephora_Indonesia_2000_2001","14","observation","Nomia (Thoraconomia) thoracica","species","other_wild_bees",6,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_canephora_Indonesia_2000_2001","14","observation","Nomia (Thoraconomia) thoracica","species","other_wild_bees",8,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_canephora_Indonesia_2000_2001","18","observation","Ceratina (Ceratinidia) rugifrons","species","other_wild_bees",5,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_canephora_Indonesia_2000_2001","18","observation","Ceratina (Ceratinidia) rugifrons","species","other_wild_bees",5,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_canephora_Indonesia_2000_2001","18","observation","Ceratina (Ceratinidia) rugifrons","species","other_wild_bees",7,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_canephora_Indonesia_2000_2001","19","observation","Ceratina (Ceratinidia) rugifrons","species","other_wild_bees",2,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_canephora_Indonesia_2000_2001","19","observation","Ceratina (Ceratinidia) rugifrons","species","other_wild_bees",1,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_canephora_Indonesia_2000_2001","1","observation","Halictidae (Sulawesi) sp. 9","morphospecies","other_wild_bees",2,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_canephora_Indonesia_2000_2001","1","observation","Halictidae (Sulawesi) sp. 9","morphospecies","other_wild_bees",3,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_canephora_Indonesia_2000_2001","7","observation","Halictidae (Sulawesi) sp. 9","morphospecies","other_wild_bees",6,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_canephora_Indonesia_2000_2001","7","observation","Halictidae (Sulawesi) sp. 9","morphospecies","other_wild_bees",3,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_canephora_Indonesia_2000_2001","18","observation","Halictidae (Sulawesi) sp. 9","morphospecies","other_wild_bees",3,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_canephora_Indonesia_2000_2001","18","observation","Halictidae (Sulawesi) sp. 9","morphospecies","other_wild_bees",8,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_canephora_Indonesia_2000_2001","18","observation","Halictidae (Sulawesi) sp. 9","morphospecies","other_wild_bees",7,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_canephora_Indonesia_2000_2001","19","observation","Halictidae (Sulawesi) sp. 9","morphospecies","other_wild_bees",7,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_canephora_Indonesia_2000_2001","19","observation","Halictidae (Sulawesi) sp. 9","morphospecies","other_wild_bees",6,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_canephora_Indonesia_2000_2001","19","observation","Halictidae (Sulawesi) sp. 9","morphospecies","other_wild_bees",6,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_canephora_Indonesia_2000_2001","18","observation","Halictidae (Sulawesi) sp. 18","morphospecies","other_wild_bees",7,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_canephora_Indonesia_2000_2001","6","observation","Halictidae (Sulawesi) sp. 21","morphospecies","other_wild_bees",2,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_canephora_Indonesia_2000_2001","6","observation","Halictidae (Sulawesi) sp. 21","morphospecies","other_wild_bees",4,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_canephora_Indonesia_2000_2001","7","observation","Halictidae (Sulawesi) sp. 21","morphospecies","other_wild_bees",5,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_canephora_Indonesia_2000_2001","7","observation","Halictidae (Sulawesi) sp. 21","morphospecies","other_wild_bees",5,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_canephora_Indonesia_2000_2001","10","observation","Halictidae (Sulawesi) sp. 21","morphospecies","other_wild_bees",5,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_canephora_Indonesia_2000_2001","21","observation","Halictidae (Sulawesi) sp. 21","morphospecies","other_wild_bees",7,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_canephora_Indonesia_2000_2001","21","observation","Halictidae (Sulawesi) sp. 21","morphospecies","other_wild_bees",5,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_canephora_Indonesia_2000_2001","21","observation","Halictidae (Sulawesi) sp. 21","morphospecies","other_wild_bees",5,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_canephora_Indonesia_2000_2001","7","observation","Halictidae (Sulawesi) sp. 22","morphospecies","other_wild_bees",7,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_canephora_Indonesia_2000_2001","7","observation","Halictidae (Sulawesi) sp. 22","morphospecies","other_wild_bees",7,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_canephora_Indonesia_2000_2001","7","observation","Halictidae (Sulawesi) sp. 22","morphospecies","other_wild_bees",5,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_canephora_Indonesia_2000_2001","9","observation","Halictidae (Sulawesi) sp. 22","morphospecies","other_wild_bees",7,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_canephora_Indonesia_2000_2001","9","observation","Halictidae (Sulawesi) sp. 22","morphospecies","other_wild_bees",9,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_canephora_Indonesia_2000_2001","9","observation","Halictidae (Sulawesi) sp. 22","morphospecies","other_wild_bees",4,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_canephora_Indonesia_2000_2001","21","observation","Halictidae (Sulawesi) sp. 22","morphospecies","other_wild_bees",5,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_canephora_Indonesia_2000_2001","21","observation","Halictidae (Sulawesi) sp. 22","morphospecies","other_wild_bees",9,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_canephora_Indonesia_2000_2001","21","observation","Halictidae (Sulawesi) sp. 22","morphospecies","other_wild_bees",8,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_canephora_Indonesia_2000_2001","9","observation","Thyreus nitidus quartinae","species","other_wild_bees",1,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_canephora_Indonesia_2000_2001","10","observation","Thyreus nitidus quartinae","species","other_wild_bees",2,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_canephora_Indonesia_2000_2001","12","observation","Thyreus nitidus quartinae","species","other_wild_bees",2,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_canephora_Indonesia_2000_2001","14","observation","Thyreus nitidus quartinae","species","other_wild_bees",1,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_canephora_Indonesia_2000_2001","21","observation","Thyreus nitidus quartinae","species","other_wild_bees",1,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Coffea_canephora_Indonesia_2000_2001","24","observation","Thyreus nitidus quartinae","species","other_wild_bees",2,NA,75,NA,"In each agroforestry system, bee flower visitation was observed for 25 minutes on a full-blooming coffee plant. This was repeated three times for a total of 75 minutes of observation time for each of the 24 agroforestry systems",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2008","TNP 3","observation","Andrena_2_brittaindataset","morphospecies","other_wild_bees",0.000137531,NA,80,4560,"Visitation rates: 3 surveys per field, 10 trees per survey, 4 sections per tree, 2 observations per section, and 20 seconds per observation and group of flowers (mean 19 flowers).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2008","Bramlett","observation","Andrena_3_brittaindataset","morphospecies","other_wild_bees",0.00039557,NA,80,4560,"Visitation rates: 3 surveys per field, 10 trees per survey, 4 sections per tree, 2 observations per section, and 20 seconds per observation and group of flowers (mean 19 flowers).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2008","Bramlett","observation","Andrena_3_brittaindataset","morphospecies","other_wild_bees",0.000129983,NA,80,4560,"Visitation rates: 3 surveys per field, 10 trees per survey, 4 sections per tree, 2 observations per section, and 20 seconds per observation and group of flowers (mean 19 flowers).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2008","Etters","observation","Andrena_3_brittaindataset","morphospecies","other_wild_bees",0.000702576,NA,80,4560,"Visitation rates: 3 surveys per field, 10 trees per survey, 4 sections per tree, 2 observations per section, and 20 seconds per observation and group of flowers (mean 19 flowers).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2008","Etters","observation","Andrena_3_brittaindataset","morphospecies","other_wild_bees",0.000163755,NA,80,4560,"Visitation rates: 3 surveys per field, 10 trees per survey, 4 sections per tree, 2 observations per section, and 20 seconds per observation and group of flowers (mean 19 flowers).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2008","Fullbelly","observation","Andrena_3_brittaindataset","morphospecies","other_wild_bees",9.42211e-05,NA,80,4560,"Visitation rates: 3 surveys per field, 10 trees per survey, 4 sections per tree, 2 observations per section, and 20 seconds per observation and group of flowers (mean 19 flowers).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2008","Lowrey","observation","Andrena_3_brittaindataset","morphospecies","other_wild_bees",0.000679348,NA,80,4560,"Visitation rates: 3 surveys per field, 10 trees per survey, 4 sections per tree, 2 observations per section, and 20 seconds per observation and group of flowers (mean 19 flowers).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2008","Taber","observation","Andrena_3_brittaindataset","morphospecies","other_wild_bees",0.001099349,NA,80,4560,"Visitation rates: 3 surveys per field, 10 trees per survey, 4 sections per tree, 2 observations per section, and 20 seconds per observation and group of flowers (mean 19 flowers).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2008","Taber","observation","Andrena_3_brittaindataset","morphospecies","other_wild_bees",0.00010981,NA,80,4560,"Visitation rates: 3 surveys per field, 10 trees per survey, 4 sections per tree, 2 observations per section, and 20 seconds per observation and group of flowers (mean 19 flowers).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2008","TMueller 1","observation","Andrena_3_brittaindataset","morphospecies","other_wild_bees",0.00059727,NA,80,4560,"Visitation rates: 3 surveys per field, 10 trees per survey, 4 sections per tree, 2 observations per section, and 20 seconds per observation and group of flowers (mean 19 flowers).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2008","TMueller 1","observation","Andrena_3_brittaindataset","morphospecies","other_wild_bees",0.000401499,NA,80,4560,"Visitation rates: 3 surveys per field, 10 trees per survey, 4 sections per tree, 2 observations per section, and 20 seconds per observation and group of flowers (mean 19 flowers).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2008","TMueller 2","observation","Andrena_3_brittaindataset","morphospecies","other_wild_bees",0.000221022,NA,80,4560,"Visitation rates: 3 surveys per field, 10 trees per survey, 4 sections per tree, 2 observations per section, and 20 seconds per observation and group of flowers (mean 19 flowers).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2008","TMueller 2","observation","Andrena_3_brittaindataset","morphospecies","other_wild_bees",0.00013089,NA,80,4560,"Visitation rates: 3 surveys per field, 10 trees per survey, 4 sections per tree, 2 observations per section, and 20 seconds per observation and group of flowers (mean 19 flowers).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2008","TMueller 2","observation","Andrena_3_brittaindataset","morphospecies","other_wild_bees",0.000527108,NA,80,4560,"Visitation rates: 3 surveys per field, 10 trees per survey, 4 sections per tree, 2 observations per section, and 20 seconds per observation and group of flowers (mean 19 flowers).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2008","TNP 1","observation","Andrena_3_brittaindataset","morphospecies","other_wild_bees",0.000117005,NA,80,4560,"Visitation rates: 3 surveys per field, 10 trees per survey, 4 sections per tree, 2 observations per section, and 20 seconds per observation and group of flowers (mean 19 flowers).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2008","TNP 3","observation","Andrena_3_brittaindataset","morphospecies","other_wild_bees",6.41026e-05,NA,80,4560,"Visitation rates: 3 surveys per field, 10 trees per survey, 4 sections per tree, 2 observations per section, and 20 seconds per observation and group of flowers (mean 19 flowers).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2008","TNP 3","observation","Andrena_3_brittaindataset","morphospecies","other_wild_bees",0.000491803,NA,80,4560,"Visitation rates: 3 surveys per field, 10 trees per survey, 4 sections per tree, 2 observations per section, and 20 seconds per observation and group of flowers (mean 19 flowers).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2008","Scofield 1","observation","Andrena_4_brittaindataset","morphospecies","other_wild_bees",0.000103591,NA,80,4560,"Visitation rates: 3 surveys per field, 10 trees per survey, 4 sections per tree, 2 observations per section, and 20 seconds per observation and group of flowers (mean 19 flowers).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2008","Scofield 2","observation","Andrena_4_brittaindataset","morphospecies","other_wild_bees",0.000182039,NA,80,4560,"Visitation rates: 3 surveys per field, 10 trees per survey, 4 sections per tree, 2 observations per section, and 20 seconds per observation and group of flowers (mean 19 flowers).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2008","Scofield 2","observation","Andrena_4_brittaindataset","morphospecies","other_wild_bees",5.46249e-05,NA,80,4560,"Visitation rates: 3 surveys per field, 10 trees per survey, 4 sections per tree, 2 observations per section, and 20 seconds per observation and group of flowers (mean 19 flowers).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2008","TNP 3","observation","Andrena_4_brittaindataset","morphospecies","other_wild_bees",0.000448718,NA,80,4560,"Visitation rates: 3 surveys per field, 10 trees per survey, 4 sections per tree, 2 observations per section, and 20 seconds per observation and group of flowers (mean 19 flowers).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2008","TNP 3","observation","Andrena_4_brittaindataset","morphospecies","other_wild_bees",4.58435e-05,NA,80,4560,"Visitation rates: 3 surveys per field, 10 trees per survey, 4 sections per tree, 2 observations per section, and 20 seconds per observation and group of flowers (mean 19 flowers).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2008","Bramlett","observation","Anthophora_5","morphospecies","other_wild_bees",7.91139e-05,NA,80,4560,"Visitation rates: 3 surveys per field, 10 trees per survey, 4 sections per tree, 2 observations per section, and 20 seconds per observation and group of flowers (mean 19 flowers).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2008","Etters","observation","Anthophora_5","morphospecies","other_wild_bees",0.000137112,NA,80,4560,"Visitation rates: 3 surveys per field, 10 trees per survey, 4 sections per tree, 2 observations per section, and 20 seconds per observation and group of flowers (mean 19 flowers).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2008","Abele","observation","Apis_mellifera","species","honeybees",0.003940887,NA,80,4560,"Visitation rates: 3 surveys per field, 10 trees per survey, 4 sections per tree, 2 observations per section, and 20 seconds per observation and group of flowers (mean 19 flowers).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2008","Abele","observation","Apis_mellifera","species","honeybees",0.00057629,NA,80,4560,"Visitation rates: 3 surveys per field, 10 trees per survey, 4 sections per tree, 2 observations per section, and 20 seconds per observation and group of flowers (mean 19 flowers).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2008","Abele","observation","Apis_mellifera","species","honeybees",0.008653846,NA,80,4560,"Visitation rates: 3 surveys per field, 10 trees per survey, 4 sections per tree, 2 observations per section, and 20 seconds per observation and group of flowers (mean 19 flowers).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2008","Banes","observation","Apis_mellifera","species","honeybees",0.002272727,NA,80,4560,"Visitation rates: 3 surveys per field, 10 trees per survey, 4 sections per tree, 2 observations per section, and 20 seconds per observation and group of flowers (mean 19 flowers).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2008","Banes","observation","Apis_mellifera","species","honeybees",0.007281553,NA,80,4560,"Visitation rates: 3 surveys per field, 10 trees per survey, 4 sections per tree, 2 observations per section, and 20 seconds per observation and group of flowers (mean 19 flowers).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2008","Banes","observation","Apis_mellifera","species","honeybees",0.001719198,NA,80,4560,"Visitation rates: 3 surveys per field, 10 trees per survey, 4 sections per tree, 2 observations per section, and 20 seconds per observation and group of flowers (mean 19 flowers).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2008","Barth","observation","Apis_mellifera","species","honeybees",0.001996528,NA,80,4560,"Visitation rates: 3 surveys per field, 10 trees per survey, 4 sections per tree, 2 observations per section, and 20 seconds per observation and group of flowers (mean 19 flowers).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2008","Barth","observation","Apis_mellifera","species","honeybees",0.000929368,NA,80,4560,"Visitation rates: 3 surveys per field, 10 trees per survey, 4 sections per tree, 2 observations per section, and 20 seconds per observation and group of flowers (mean 19 flowers).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2008","Barth","observation","Apis_mellifera","species","honeybees",0.018114875,NA,80,4560,"Visitation rates: 3 surveys per field, 10 trees per survey, 4 sections per tree, 2 observations per section, and 20 seconds per observation and group of flowers (mean 19 flowers).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2008","Bramlett","observation","Apis_mellifera","species","honeybees",0.001977848,NA,80,4560,"Visitation rates: 3 surveys per field, 10 trees per survey, 4 sections per tree, 2 observations per section, and 20 seconds per observation and group of flowers (mean 19 flowers).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2008","Bramlett","observation","Apis_mellifera","species","honeybees",0.000737101,NA,80,4560,"Visitation rates: 3 surveys per field, 10 trees per survey, 4 sections per tree, 2 observations per section, and 20 seconds per observation and group of flowers (mean 19 flowers).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2008","Bramlett","observation","Apis_mellifera","species","honeybees",0.000779896,NA,80,4560,"Visitation rates: 3 surveys per field, 10 trees per survey, 4 sections per tree, 2 observations per section, and 20 seconds per observation and group of flowers (mean 19 flowers).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2008","Cotters","observation","Apis_mellifera","species","honeybees",0.002579853,NA,80,4560,"Visitation rates: 3 surveys per field, 10 trees per survey, 4 sections per tree, 2 observations per section, and 20 seconds per observation and group of flowers (mean 19 flowers).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2008","Cotters","observation","Apis_mellifera","species","honeybees",0.002385892,NA,80,4560,"Visitation rates: 3 surveys per field, 10 trees per survey, 4 sections per tree, 2 observations per section, and 20 seconds per observation and group of flowers (mean 19 flowers).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2008","Cotters","observation","Apis_mellifera","species","honeybees",0.004046763,NA,80,4560,"Visitation rates: 3 surveys per field, 10 trees per survey, 4 sections per tree, 2 observations per section, and 20 seconds per observation and group of flowers (mean 19 flowers).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2008","Etters","observation","Apis_mellifera","species","honeybees",0.000351288,NA,80,4560,"Visitation rates: 3 surveys per field, 10 trees per survey, 4 sections per tree, 2 observations per section, and 20 seconds per observation and group of flowers (mean 19 flowers).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2008","Etters","observation","Apis_mellifera","species","honeybees",0.000163755,NA,80,4560,"Visitation rates: 3 surveys per field, 10 trees per survey, 4 sections per tree, 2 observations per section, and 20 seconds per observation and group of flowers (mean 19 flowers).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2008","Etters","observation","Apis_mellifera","species","honeybees",0.000137112,NA,80,4560,"Visitation rates: 3 surveys per field, 10 trees per survey, 4 sections per tree, 2 observations per section, and 20 seconds per observation and group of flowers (mean 19 flowers).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2008","Fullbelly","observation","Apis_mellifera","species","honeybees",0.000216763,NA,80,4560,"Visitation rates: 3 surveys per field, 10 trees per survey, 4 sections per tree, 2 observations per section, and 20 seconds per observation and group of flowers (mean 19 flowers).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2008","Fullbelly","observation","Apis_mellifera","species","honeybees",0.000253807,NA,80,4560,"Visitation rates: 3 surveys per field, 10 trees per survey, 4 sections per tree, 2 observations per section, and 20 seconds per observation and group of flowers (mean 19 flowers).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2008","Fullbelly","observation","Apis_mellifera","species","honeybees",0.000565327,NA,80,4560,"Visitation rates: 3 surveys per field, 10 trees per survey, 4 sections per tree, 2 observations per section, and 20 seconds per observation and group of flowers (mean 19 flowers).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2008","KB 1","observation","Apis_mellifera","species","honeybees",0.001565217,NA,80,4560,"Visitation rates: 3 surveys per field, 10 trees per survey, 4 sections per tree, 2 observations per section, and 20 seconds per observation and group of flowers (mean 19 flowers).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2008","KB 1","observation","Apis_mellifera","species","honeybees",0.000854701,NA,80,4560,"Visitation rates: 3 surveys per field, 10 trees per survey, 4 sections per tree, 2 observations per section, and 20 seconds per observation and group of flowers (mean 19 flowers).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2008","KB 1","observation","Apis_mellifera","species","honeybees",0.007035398,NA,80,4560,"Visitation rates: 3 surveys per field, 10 trees per survey, 4 sections per tree, 2 observations per section, and 20 seconds per observation and group of flowers (mean 19 flowers).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2008","KB 2","observation","Apis_mellifera","species","honeybees",0.001664355,NA,80,4560,"Visitation rates: 3 surveys per field, 10 trees per survey, 4 sections per tree, 2 observations per section, and 20 seconds per observation and group of flowers (mean 19 flowers).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2008","KB 2","observation","Apis_mellifera","species","honeybees",0.000679348,NA,80,4560,"Visitation rates: 3 surveys per field, 10 trees per survey, 4 sections per tree, 2 observations per section, and 20 seconds per observation and group of flowers (mean 19 flowers).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2008","KB 2","observation","Apis_mellifera","species","honeybees",0.001375,NA,80,4560,"Visitation rates: 3 surveys per field, 10 trees per survey, 4 sections per tree, 2 observations per section, and 20 seconds per observation and group of flowers (mean 19 flowers).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2008","Lauwerijssen","observation","Apis_mellifera","species","honeybees",0.00032967,NA,80,4560,"Visitation rates: 3 surveys per field, 10 trees per survey, 4 sections per tree, 2 observations per section, and 20 seconds per observation and group of flowers (mean 19 flowers).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2008","Lauwerijssen","observation","Apis_mellifera","species","honeybees",0.00678392,NA,80,4560,"Visitation rates: 3 surveys per field, 10 trees per survey, 4 sections per tree, 2 observations per section, and 20 seconds per observation and group of flowers (mean 19 flowers).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2008","Lauwerijssen","observation","Apis_mellifera","species","honeybees",0.001122754,NA,80,4560,"Visitation rates: 3 surveys per field, 10 trees per survey, 4 sections per tree, 2 observations per section, and 20 seconds per observation and group of flowers (mean 19 flowers).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2008","Lowrey","observation","Apis_mellifera","species","honeybees",0.00326087,NA,80,4560,"Visitation rates: 3 surveys per field, 10 trees per survey, 4 sections per tree, 2 observations per section, and 20 seconds per observation and group of flowers (mean 19 flowers).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2008","Lowrey","observation","Apis_mellifera","species","honeybees",0.001276596,NA,80,4560,"Visitation rates: 3 surveys per field, 10 trees per survey, 4 sections per tree, 2 observations per section, and 20 seconds per observation and group of flowers (mean 19 flowers).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2008","Lowrey","observation","Apis_mellifera","species","honeybees",0.001353093,NA,80,4560,"Visitation rates: 3 surveys per field, 10 trees per survey, 4 sections per tree, 2 observations per section, and 20 seconds per observation and group of flowers (mean 19 flowers).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2008","Miller","observation","Apis_mellifera","species","honeybees",0.000913242,NA,80,4560,"Visitation rates: 3 surveys per field, 10 trees per survey, 4 sections per tree, 2 observations per section, and 20 seconds per observation and group of flowers (mean 19 flowers).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2008","Miller","observation","Apis_mellifera","species","honeybees",0.00260574,NA,80,4560,"Visitation rates: 3 surveys per field, 10 trees per survey, 4 sections per tree, 2 observations per section, and 20 seconds per observation and group of flowers (mean 19 flowers).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2008","Miller","observation","Apis_mellifera","species","honeybees",0.000352113,NA,80,4560,"Visitation rates: 3 surveys per field, 10 trees per survey, 4 sections per tree, 2 observations per section, and 20 seconds per observation and group of flowers (mean 19 flowers).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2008","Nickels","observation","Apis_mellifera","species","honeybees",0.001033465,NA,80,4560,"Visitation rates: 3 surveys per field, 10 trees per survey, 4 sections per tree, 2 observations per section, and 20 seconds per observation and group of flowers (mean 19 flowers).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2008","Nickels","observation","Apis_mellifera","species","honeybees",0.000721154,NA,80,4560,"Visitation rates: 3 surveys per field, 10 trees per survey, 4 sections per tree, 2 observations per section, and 20 seconds per observation and group of flowers (mean 19 flowers).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2008","Nickels","observation","Apis_mellifera","species","honeybees",0.001445783,NA,80,4560,"Visitation rates: 3 surveys per field, 10 trees per survey, 4 sections per tree, 2 observations per section, and 20 seconds per observation and group of flowers (mean 19 flowers).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2008","Peart","observation","Apis_mellifera","species","honeybees",0.001587302,NA,80,4560,"Visitation rates: 3 surveys per field, 10 trees per survey, 4 sections per tree, 2 observations per section, and 20 seconds per observation and group of flowers (mean 19 flowers).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2008","Peart","observation","Apis_mellifera","species","honeybees",0.005071174,NA,80,4560,"Visitation rates: 3 surveys per field, 10 trees per survey, 4 sections per tree, 2 observations per section, and 20 seconds per observation and group of flowers (mean 19 flowers).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2008","Peart","observation","Apis_mellifera","species","honeybees",0.001293103,NA,80,4560,"Visitation rates: 3 surveys per field, 10 trees per survey, 4 sections per tree, 2 observations per section, and 20 seconds per observation and group of flowers (mean 19 flowers).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2008","Scheuring","observation","Apis_mellifera","species","honeybees",0.001581028,NA,80,4560,"Visitation rates: 3 surveys per field, 10 trees per survey, 4 sections per tree, 2 observations per section, and 20 seconds per observation and group of flowers (mean 19 flowers).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2008","Scheuring","observation","Apis_mellifera","species","honeybees",0.000818182,NA,80,4560,"Visitation rates: 3 surveys per field, 10 trees per survey, 4 sections per tree, 2 observations per section, and 20 seconds per observation and group of flowers (mean 19 flowers).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2008","Scheuring","observation","Apis_mellifera","species","honeybees",0.001683029,NA,80,4560,"Visitation rates: 3 surveys per field, 10 trees per survey, 4 sections per tree, 2 observations per section, and 20 seconds per observation and group of flowers (mean 19 flowers).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2008","Scofield 1","observation","Apis_mellifera","species","honeybees",0.001243094,NA,80,4560,"Visitation rates: 3 surveys per field, 10 trees per survey, 4 sections per tree, 2 observations per section, and 20 seconds per observation and group of flowers (mean 19 flowers).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2008","Scofield 1","observation","Apis_mellifera","species","honeybees",0.0117737,NA,80,4560,"Visitation rates: 3 surveys per field, 10 trees per survey, 4 sections per tree, 2 observations per section, and 20 seconds per observation and group of flowers (mean 19 flowers).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2008","Scofield 1","observation","Apis_mellifera","species","honeybees",0.004814189,NA,80,4560,"Visitation rates: 3 surveys per field, 10 trees per survey, 4 sections per tree, 2 observations per section, and 20 seconds per observation and group of flowers (mean 19 flowers).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2008","Scofield 2","observation","Apis_mellifera","species","honeybees",0.002366505,NA,80,4560,"Visitation rates: 3 surveys per field, 10 trees per survey, 4 sections per tree, 2 observations per section, and 20 seconds per observation and group of flowers (mean 19 flowers).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2008","Scofield 2","observation","Apis_mellifera","species","honeybees",0.001037873,NA,80,4560,"Visitation rates: 3 surveys per field, 10 trees per survey, 4 sections per tree, 2 observations per section, and 20 seconds per observation and group of flowers (mean 19 flowers).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2008","Scofield 2","observation","Apis_mellifera","species","honeybees",0.002208707,NA,80,4560,"Visitation rates: 3 surveys per field, 10 trees per survey, 4 sections per tree, 2 observations per section, and 20 seconds per observation and group of flowers (mean 19 flowers).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2008","Taber","observation","Apis_mellifera","species","honeybees",0.003542345,NA,80,4560,"Visitation rates: 3 surveys per field, 10 trees per survey, 4 sections per tree, 2 observations per section, and 20 seconds per observation and group of flowers (mean 19 flowers).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2008","Taber","observation","Apis_mellifera","species","honeybees",0.002508803,NA,80,4560,"Visitation rates: 3 surveys per field, 10 trees per survey, 4 sections per tree, 2 observations per section, and 20 seconds per observation and group of flowers (mean 19 flowers).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2008","Taber","observation","Apis_mellifera","species","honeybees",0.001976574,NA,80,4560,"Visitation rates: 3 surveys per field, 10 trees per survey, 4 sections per tree, 2 observations per section, and 20 seconds per observation and group of flowers (mean 19 flowers).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2008","TMueller 1","observation","Apis_mellifera","species","honeybees",0.001109215,NA,80,4560,"Visitation rates: 3 surveys per field, 10 trees per survey, 4 sections per tree, 2 observations per section, and 20 seconds per observation and group of flowers (mean 19 flowers).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2008","TMueller 1","observation","Apis_mellifera","species","honeybees",0.000710419,NA,80,4560,"Visitation rates: 3 surveys per field, 10 trees per survey, 4 sections per tree, 2 observations per section, and 20 seconds per observation and group of flowers (mean 19 flowers).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2008","TMueller 1","observation","Apis_mellifera","species","honeybees",0.000802998,NA,80,4560,"Visitation rates: 3 surveys per field, 10 trees per survey, 4 sections per tree, 2 observations per section, and 20 seconds per observation and group of flowers (mean 19 flowers).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2008","TMueller 2","observation","Apis_mellifera","species","honeybees",0.001031434,NA,80,4560,"Visitation rates: 3 surveys per field, 10 trees per survey, 4 sections per tree, 2 observations per section, and 20 seconds per observation and group of flowers (mean 19 flowers).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2008","TMueller 2","observation","Apis_mellifera","species","honeybees",0.00091623,NA,80,4560,"Visitation rates: 3 surveys per field, 10 trees per survey, 4 sections per tree, 2 observations per section, and 20 seconds per observation and group of flowers (mean 19 flowers).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2008","TMueller 2","observation","Apis_mellifera","species","honeybees",0.000376506,NA,80,4560,"Visitation rates: 3 surveys per field, 10 trees per survey, 4 sections per tree, 2 observations per section, and 20 seconds per observation and group of flowers (mean 19 flowers).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2008","TNP 1","observation","Apis_mellifera","species","honeybees",0.000909704,NA,80,4560,"Visitation rates: 3 surveys per field, 10 trees per survey, 4 sections per tree, 2 observations per section, and 20 seconds per observation and group of flowers (mean 19 flowers).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2008","TNP 1","observation","Apis_mellifera","species","honeybees",0.005031201,NA,80,4560,"Visitation rates: 3 surveys per field, 10 trees per survey, 4 sections per tree, 2 observations per section, and 20 seconds per observation and group of flowers (mean 19 flowers).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2008","TNP 1","observation","Apis_mellifera","species","honeybees",0.001970634,NA,80,4560,"Visitation rates: 3 surveys per field, 10 trees per survey, 4 sections per tree, 2 observations per section, and 20 seconds per observation and group of flowers (mean 19 flowers).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2008","TNP 2","observation","Apis_mellifera","species","honeybees",0.003543307,NA,80,4560,"Visitation rates: 3 surveys per field, 10 trees per survey, 4 sections per tree, 2 observations per section, and 20 seconds per observation and group of flowers (mean 19 flowers).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2008","TNP 2","observation","Apis_mellifera","species","honeybees",0.001155031,NA,80,4560,"Visitation rates: 3 surveys per field, 10 trees per survey, 4 sections per tree, 2 observations per section, and 20 seconds per observation and group of flowers (mean 19 flowers).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2008","TNP 2","observation","Apis_mellifera","species","honeybees",0.000253093,NA,80,4560,"Visitation rates: 3 surveys per field, 10 trees per survey, 4 sections per tree, 2 observations per section, and 20 seconds per observation and group of flowers (mean 19 flowers).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2008","TNP 3","observation","Apis_mellifera","species","honeybees",0.001794872,NA,80,4560,"Visitation rates: 3 surveys per field, 10 trees per survey, 4 sections per tree, 2 observations per section, and 20 seconds per observation and group of flowers (mean 19 flowers).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2008","TNP 3","observation","Apis_mellifera","species","honeybees",0.000825183,NA,80,4560,"Visitation rates: 3 surveys per field, 10 trees per survey, 4 sections per tree, 2 observations per section, and 20 seconds per observation and group of flowers (mean 19 flowers).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2008","TNP 3","observation","Apis_mellifera","species","honeybees",0.005040984,NA,80,4560,"Visitation rates: 3 surveys per field, 10 trees per survey, 4 sections per tree, 2 observations per section, and 20 seconds per observation and group of flowers (mean 19 flowers).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2008","Fullbelly","observation","Bird","order","other",0.000188442,NA,80,4560,"Visitation rates: 3 surveys per field, 10 trees per survey, 4 sections per tree, 2 observations per section, and 20 seconds per observation and group of flowers (mean 19 flowers).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2008","TMueller 1","observation","Bird","order","other",0.000170648,NA,80,4560,"Visitation rates: 3 surveys per field, 10 trees per survey, 4 sections per tree, 2 observations per section, and 20 seconds per observation and group of flowers (mean 19 flowers).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2008","Bramlett","observation","Bombylidae","family","humbleflies",0.000316456,NA,80,4560,"Visitation rates: 3 surveys per field, 10 trees per survey, 4 sections per tree, 2 observations per section, and 20 seconds per observation and group of flowers (mean 19 flowers).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2008","Bramlett","observation","Bombylidae","family","humbleflies",0.000552826,NA,80,4560,"Visitation rates: 3 surveys per field, 10 trees per survey, 4 sections per tree, 2 observations per section, and 20 seconds per observation and group of flowers (mean 19 flowers).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2008","Bramlett","observation","Bombylidae","family","humbleflies",0.000779896,NA,80,4560,"Visitation rates: 3 surveys per field, 10 trees per survey, 4 sections per tree, 2 observations per section, and 20 seconds per observation and group of flowers (mean 19 flowers).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2008","Cotters","observation","Bombylidae","family","humbleflies",0.000103734,NA,80,4560,"Visitation rates: 3 surveys per field, 10 trees per survey, 4 sections per tree, 2 observations per section, and 20 seconds per observation and group of flowers (mean 19 flowers).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2008","Etters","observation","Bombylidae","family","humbleflies",0.000274223,NA,80,4560,"Visitation rates: 3 surveys per field, 10 trees per survey, 4 sections per tree, 2 observations per section, and 20 seconds per observation and group of flowers (mean 19 flowers).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2008","Fullbelly","observation","Bombylidae","family","humbleflies",0.000253807,NA,80,4560,"Visitation rates: 3 surveys per field, 10 trees per survey, 4 sections per tree, 2 observations per section, and 20 seconds per observation and group of flowers (mean 19 flowers).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2008","Fullbelly","observation","Bombylidae","family","humbleflies",9.42211e-05,NA,80,4560,"Visitation rates: 3 surveys per field, 10 trees per survey, 4 sections per tree, 2 observations per section, and 20 seconds per observation and group of flowers (mean 19 flowers).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2008","Lowrey","observation","Bombylidae","family","humbleflies",0.000815217,NA,80,4560,"Visitation rates: 3 surveys per field, 10 trees per survey, 4 sections per tree, 2 observations per section, and 20 seconds per observation and group of flowers (mean 19 flowers).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2008","Scofield 2","observation","Bombylidae","family","humbleflies",9.10194e-05,NA,80,4560,"Visitation rates: 3 surveys per field, 10 trees per survey, 4 sections per tree, 2 observations per section, and 20 seconds per observation and group of flowers (mean 19 flowers).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2008","Taber","observation","Bombylidae","family","humbleflies",0.000329429,NA,80,4560,"Visitation rates: 3 surveys per field, 10 trees per survey, 4 sections per tree, 2 observations per section, and 20 seconds per observation and group of flowers (mean 19 flowers).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2008","TMueller 2","observation","Bombylidae","family","humbleflies",7.53012e-05,NA,80,4560,"Visitation rates: 3 surveys per field, 10 trees per survey, 4 sections per tree, 2 observations per section, and 20 seconds per observation and group of flowers (mean 19 flowers).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2008","TNP 1","observation","Bombylidae","family","humbleflies",0.000117005,NA,80,4560,"Visitation rates: 3 surveys per field, 10 trees per survey, 4 sections per tree, 2 observations per section, and 20 seconds per observation and group of flowers (mean 19 flowers).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2008","Bramlett","observation","Bombus_6","morphospecies","bumblebees",0.000184275,NA,80,4560,"Visitation rates: 3 surveys per field, 10 trees per survey, 4 sections per tree, 2 observations per section, and 20 seconds per observation and group of flowers (mean 19 flowers).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2008","Bramlett","observation","Bombus_6","morphospecies","bumblebees",0.000259965,NA,80,4560,"Visitation rates: 3 surveys per field, 10 trees per survey, 4 sections per tree, 2 observations per section, and 20 seconds per observation and group of flowers (mean 19 flowers).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2008","Scofield 2","observation","Bombus_6","morphospecies","bumblebees",0.000192061,NA,80,4560,"Visitation rates: 3 surveys per field, 10 trees per survey, 4 sections per tree, 2 observations per section, and 20 seconds per observation and group of flowers (mean 19 flowers).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2008","Taber","observation","Bombus_6","morphospecies","bumblebees",0.00010981,NA,80,4560,"Visitation rates: 3 surveys per field, 10 trees per survey, 4 sections per tree, 2 observations per section, and 20 seconds per observation and group of flowers (mean 19 flowers).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2008","TMueller 2","observation","Bombus_6","morphospecies","bumblebees",0.000294695,NA,80,4560,"Visitation rates: 3 surveys per field, 10 trees per survey, 4 sections per tree, 2 observations per section, and 20 seconds per observation and group of flowers (mean 19 flowers).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2008","TMueller 2","observation","Bombus_6","morphospecies","bumblebees",0.000225904,NA,80,4560,"Visitation rates: 3 surveys per field, 10 trees per survey, 4 sections per tree, 2 observations per section, and 20 seconds per observation and group of flowers (mean 19 flowers).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2008","Bramlett","observation","Bombus_7","morphospecies","bumblebees",7.91139e-05,NA,80,4560,"Visitation rates: 3 surveys per field, 10 trees per survey, 4 sections per tree, 2 observations per section, and 20 seconds per observation and group of flowers (mean 19 flowers).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2008","Etters","observation","Bombus_7","morphospecies","bumblebees",0.000526932,NA,80,4560,"Visitation rates: 3 surveys per field, 10 trees per survey, 4 sections per tree, 2 observations per section, and 20 seconds per observation and group of flowers (mean 19 flowers).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2008","Fullbelly","observation","Bombus_7","morphospecies","bumblebees",0.000565327,NA,80,4560,"Visitation rates: 3 surveys per field, 10 trees per survey, 4 sections per tree, 2 observations per section, and 20 seconds per observation and group of flowers (mean 19 flowers).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2008","Taber","observation","Bombus_7","morphospecies","bumblebees",0.000732899,NA,80,4560,"Visitation rates: 3 surveys per field, 10 trees per survey, 4 sections per tree, 2 observations per section, and 20 seconds per observation and group of flowers (mean 19 flowers).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2008","TMueller 1","observation","Bombus_7","morphospecies","bumblebees",0.000426621,NA,80,4560,"Visitation rates: 3 surveys per field, 10 trees per survey, 4 sections per tree, 2 observations per section, and 20 seconds per observation and group of flowers (mean 19 flowers).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2008","TMueller 1","observation","Bombus_7","morphospecies","bumblebees",0.000304465,NA,80,4560,"Visitation rates: 3 surveys per field, 10 trees per survey, 4 sections per tree, 2 observations per section, and 20 seconds per observation and group of flowers (mean 19 flowers).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2008","TMueller 1","observation","Bombus_7","morphospecies","bumblebees",8.02998e-05,NA,80,4560,"Visitation rates: 3 surveys per field, 10 trees per survey, 4 sections per tree, 2 observations per section, and 20 seconds per observation and group of flowers (mean 19 flowers).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2008","TNP 3","observation","Bombus_7","morphospecies","bumblebees",0.000192308,NA,80,4560,"Visitation rates: 3 surveys per field, 10 trees per survey, 4 sections per tree, 2 observations per section, and 20 seconds per observation and group of flowers (mean 19 flowers).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2008","TNP 3","observation","Bombus_7","morphospecies","bumblebees",0.000183374,NA,80,4560,"Visitation rates: 3 surveys per field, 10 trees per survey, 4 sections per tree, 2 observations per section, and 20 seconds per observation and group of flowers (mean 19 flowers).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2008","Scofield 2","observation","Coccinellidae_sp.","family","beetles",5.46249e-05,NA,80,4560,"Visitation rates: 3 surveys per field, 10 trees per survey, 4 sections per tree, 2 observations per section, and 20 seconds per observation and group of flowers (mean 19 flowers).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2008","Lowrey","observation","Coleoptera_sp.","order","beetles",0.000319149,NA,80,4560,"Visitation rates: 3 surveys per field, 10 trees per survey, 4 sections per tree, 2 observations per section, and 20 seconds per observation and group of flowers (mean 19 flowers).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2008","TNP 3","observation","Curculionoidea","superfamily","beetles",0.000122951,NA,80,4560,"Visitation rates: 3 surveys per field, 10 trees per survey, 4 sections per tree, 2 observations per section, and 20 seconds per observation and group of flowers (mean 19 flowers).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2008","Cotters","observation","Dialictus_12","morphospecies","other_wild_bees",0.000207469,NA,80,4560,"Visitation rates: 3 surveys per field, 10 trees per survey, 4 sections per tree, 2 observations per section, and 20 seconds per observation and group of flowers (mean 19 flowers).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2008","Abele","observation","Diptera_2","morphospecies","other_flies",8.23271e-05,NA,80,4560,"Visitation rates: 3 surveys per field, 10 trees per survey, 4 sections per tree, 2 observations per section, and 20 seconds per observation and group of flowers (mean 19 flowers).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2008","Cotters","observation","Diptera_2","morphospecies","other_flies",9.21376e-05,NA,80,4560,"Visitation rates: 3 surveys per field, 10 trees per survey, 4 sections per tree, 2 observations per section, and 20 seconds per observation and group of flowers (mean 19 flowers).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2008","Lauwerijssen","observation","Diptera_2","morphospecies","other_flies",0.000224551,NA,80,4560,"Visitation rates: 3 surveys per field, 10 trees per survey, 4 sections per tree, 2 observations per section, and 20 seconds per observation and group of flowers (mean 19 flowers).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2008","Peart","observation","Diptera_2","morphospecies","other_flies",0.000266904,NA,80,4560,"Visitation rates: 3 surveys per field, 10 trees per survey, 4 sections per tree, 2 observations per section, and 20 seconds per observation and group of flowers (mean 19 flowers).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2008","TNP 1","observation","Diptera_2","morphospecies","other_flies",0.000101078,NA,80,4560,"Visitation rates: 3 surveys per field, 10 trees per survey, 4 sections per tree, 2 observations per section, and 20 seconds per observation and group of flowers (mean 19 flowers).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2008","Lowrey","observation","Diptera_3","morphospecies","other_flies",0.000193299,NA,80,4560,"Visitation rates: 3 surveys per field, 10 trees per survey, 4 sections per tree, 2 observations per section, and 20 seconds per observation and group of flowers (mean 19 flowers).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2008","Peart","observation","Diptera_3","morphospecies","other_flies",0.000533808,NA,80,4560,"Visitation rates: 3 surveys per field, 10 trees per survey, 4 sections per tree, 2 observations per section, and 20 seconds per observation and group of flowers (mean 19 flowers).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2008","Scheuring","observation","Diptera_3","morphospecies","other_flies",6.81818e-05,NA,80,4560,"Visitation rates: 3 surveys per field, 10 trees per survey, 4 sections per tree, 2 observations per section, and 20 seconds per observation and group of flowers (mean 19 flowers).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2008","Scofield 2","observation","Diptera_3","morphospecies","other_flies",0.000288092,NA,80,4560,"Visitation rates: 3 surveys per field, 10 trees per survey, 4 sections per tree, 2 observations per section, and 20 seconds per observation and group of flowers (mean 19 flowers).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2008","TMueller 1","observation","Diptera_3","morphospecies","other_flies",8.53242e-05,NA,80,4560,"Visitation rates: 3 surveys per field, 10 trees per survey, 4 sections per tree, 2 observations per section, and 20 seconds per observation and group of flowers (mean 19 flowers).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2008","TNP 3","observation","Diptera_3","morphospecies","other_flies",9.1687e-05,NA,80,4560,"Visitation rates: 3 surveys per field, 10 trees per survey, 4 sections per tree, 2 observations per section, and 20 seconds per observation and group of flowers (mean 19 flowers).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2008","Bramlett","observation","Diptera_4","morphospecies","other_flies",0.00036855,NA,80,4560,"Visitation rates: 3 surveys per field, 10 trees per survey, 4 sections per tree, 2 observations per section, and 20 seconds per observation and group of flowers (mean 19 flowers).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2008","Bramlett","observation","Diptera_4","morphospecies","other_flies",0.000519931,NA,80,4560,"Visitation rates: 3 surveys per field, 10 trees per survey, 4 sections per tree, 2 observations per section, and 20 seconds per observation and group of flowers (mean 19 flowers).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2008","Etters","observation","Diptera_4","morphospecies","other_flies",0.000175644,NA,80,4560,"Visitation rates: 3 surveys per field, 10 trees per survey, 4 sections per tree, 2 observations per section, and 20 seconds per observation and group of flowers (mean 19 flowers).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2008","Fullbelly","observation","Diptera_4","morphospecies","other_flies",0.000282663,NA,80,4560,"Visitation rates: 3 surveys per field, 10 trees per survey, 4 sections per tree, 2 observations per section, and 20 seconds per observation and group of flowers (mean 19 flowers).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2008","KB 1","observation","Diptera_4","morphospecies","other_flies",0.000265487,NA,80,4560,"Visitation rates: 3 surveys per field, 10 trees per survey, 4 sections per tree, 2 observations per section, and 20 seconds per observation and group of flowers (mean 19 flowers).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2008","Lauwerijssen","observation","Diptera_4","morphospecies","other_flies",0.000301508,NA,80,4560,"Visitation rates: 3 surveys per field, 10 trees per survey, 4 sections per tree, 2 observations per section, and 20 seconds per observation and group of flowers (mean 19 flowers).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2008","Lowrey","observation","Diptera_4","morphospecies","other_flies",0.001222826,NA,80,4560,"Visitation rates: 3 surveys per field, 10 trees per survey, 4 sections per tree, 2 observations per section, and 20 seconds per observation and group of flowers (mean 19 flowers).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2008","Scofield 2","observation","Diptera_4","morphospecies","other_flies",9.10194e-05,NA,80,4560,"Visitation rates: 3 surveys per field, 10 trees per survey, 4 sections per tree, 2 observations per section, and 20 seconds per observation and group of flowers (mean 19 flowers).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2008","Scofield 2","observation","Diptera_4","morphospecies","other_flies",0.00010925,NA,80,4560,"Visitation rates: 3 surveys per field, 10 trees per survey, 4 sections per tree, 2 observations per section, and 20 seconds per observation and group of flowers (mean 19 flowers).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2008","TNP 1","observation","Diptera_4","morphospecies","other_flies",0.000351014,NA,80,4560,"Visitation rates: 3 surveys per field, 10 trees per survey, 4 sections per tree, 2 observations per section, and 20 seconds per observation and group of flowers (mean 19 flowers).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2008","Cotters","observation","Drosophila_5","morphospecies","other_flies",8.99281e-05,NA,80,4560,"Visitation rates: 3 surveys per field, 10 trees per survey, 4 sections per tree, 2 observations per section, and 20 seconds per observation and group of flowers (mean 19 flowers).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2008","Fullbelly","observation","Drosophila_5","morphospecies","other_flies",0.000253807,NA,80,4560,"Visitation rates: 3 surveys per field, 10 trees per survey, 4 sections per tree, 2 observations per section, and 20 seconds per observation and group of flowers (mean 19 flowers).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2008","Scheuring","observation","Drosophila_5","morphospecies","other_flies",0.000210379,NA,80,4560,"Visitation rates: 3 surveys per field, 10 trees per survey, 4 sections per tree, 2 observations per section, and 20 seconds per observation and group of flowers (mean 19 flowers).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2008","Bramlett","observation","Eucera_16","morphospecies","other_wild_bees",7.91139e-05,NA,80,4560,"Visitation rates: 3 surveys per field, 10 trees per survey, 4 sections per tree, 2 observations per section, and 20 seconds per observation and group of flowers (mean 19 flowers).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2008","Bramlett","observation","Eucera_16","morphospecies","other_wild_bees",0.000259965,NA,80,4560,"Visitation rates: 3 surveys per field, 10 trees per survey, 4 sections per tree, 2 observations per section, and 20 seconds per observation and group of flowers (mean 19 flowers).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2008","Taber","observation","Eucera_16","morphospecies","other_wild_bees",0.000219619,NA,80,4560,"Visitation rates: 3 surveys per field, 10 trees per survey, 4 sections per tree, 2 observations per section, and 20 seconds per observation and group of flowers (mean 19 flowers).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2008","Bramlett","observation","Evylaeus_13","morphospecies","other_wild_bees",0.000474684,NA,80,4560,"Visitation rates: 3 surveys per field, 10 trees per survey, 4 sections per tree, 2 observations per section, and 20 seconds per observation and group of flowers (mean 19 flowers).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2008","Etters","observation","Evylaeus_13","morphospecies","other_wild_bees",0.000175644,NA,80,4560,"Visitation rates: 3 surveys per field, 10 trees per survey, 4 sections per tree, 2 observations per section, and 20 seconds per observation and group of flowers (mean 19 flowers).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2008","Etters","observation","Evylaeus_13","morphospecies","other_wild_bees",0.000491266,NA,80,4560,"Visitation rates: 3 surveys per field, 10 trees per survey, 4 sections per tree, 2 observations per section, and 20 seconds per observation and group of flowers (mean 19 flowers).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2008","Etters","observation","Evylaeus_13","morphospecies","other_wild_bees",0.000137112,NA,80,4560,"Visitation rates: 3 surveys per field, 10 trees per survey, 4 sections per tree, 2 observations per section, and 20 seconds per observation and group of flowers (mean 19 flowers).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2008","Scofield 1","observation","Evylaeus_13","morphospecies","other_wild_bees",0.000506757,NA,80,4560,"Visitation rates: 3 surveys per field, 10 trees per survey, 4 sections per tree, 2 observations per section, and 20 seconds per observation and group of flowers (mean 19 flowers).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2008","Scofield 2","observation","Evylaeus_13","morphospecies","other_wild_bees",0.000182039,NA,80,4560,"Visitation rates: 3 surveys per field, 10 trees per survey, 4 sections per tree, 2 observations per section, and 20 seconds per observation and group of flowers (mean 19 flowers).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2008","Scofield 2","observation","Evylaeus_13","morphospecies","other_wild_bees",5.46249e-05,NA,80,4560,"Visitation rates: 3 surveys per field, 10 trees per survey, 4 sections per tree, 2 observations per section, and 20 seconds per observation and group of flowers (mean 19 flowers).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2008","Taber","observation","Evylaeus_13","morphospecies","other_wild_bees",0.000329429,NA,80,4560,"Visitation rates: 3 surveys per field, 10 trees per survey, 4 sections per tree, 2 observations per section, and 20 seconds per observation and group of flowers (mean 19 flowers).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2008","TMueller 2","observation","Evylaeus_13","morphospecies","other_wild_bees",0.000150602,NA,80,4560,"Visitation rates: 3 surveys per field, 10 trees per survey, 4 sections per tree, 2 observations per section, and 20 seconds per observation and group of flowers (mean 19 flowers).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2008","TNP 1","observation","Evylaeus_13","morphospecies","other_wild_bees",0.000468019,NA,80,4560,"Visitation rates: 3 surveys per field, 10 trees per survey, 4 sections per tree, 2 observations per section, and 20 seconds per observation and group of flowers (mean 19 flowers).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2008","Cotters","observation","formicidae","family","non_bee_hymenoptera",0.000414938,NA,80,4560,"Visitation rates: 3 surveys per field, 10 trees per survey, 4 sections per tree, 2 observations per section, and 20 seconds per observation and group of flowers (mean 19 flowers).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2008","Etters","observation","formicidae","family","non_bee_hymenoptera",0.003702011,NA,80,4560,"Visitation rates: 3 surveys per field, 10 trees per survey, 4 sections per tree, 2 observations per section, and 20 seconds per observation and group of flowers (mean 19 flowers).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2008","Lauwerijssen","observation","formicidae","family","non_bee_hymenoptera",0.000412088,NA,80,4560,"Visitation rates: 3 surveys per field, 10 trees per survey, 4 sections per tree, 2 observations per section, and 20 seconds per observation and group of flowers (mean 19 flowers).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2008","Lauwerijssen","observation","formicidae","family","non_bee_hymenoptera",0.001356784,NA,80,4560,"Visitation rates: 3 surveys per field, 10 trees per survey, 4 sections per tree, 2 observations per section, and 20 seconds per observation and group of flowers (mean 19 flowers).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2008","Lauwerijssen","observation","formicidae","family","non_bee_hymenoptera",0.001571856,NA,80,4560,"Visitation rates: 3 surveys per field, 10 trees per survey, 4 sections per tree, 2 observations per section, and 20 seconds per observation and group of flowers (mean 19 flowers).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2008","Lowrey","observation","formicidae","family","non_bee_hymenoptera",0.00013587,NA,80,4560,"Visitation rates: 3 surveys per field, 10 trees per survey, 4 sections per tree, 2 observations per section, and 20 seconds per observation and group of flowers (mean 19 flowers).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2008","Lowrey","observation","formicidae","family","non_bee_hymenoptera",0.002234043,NA,80,4560,"Visitation rates: 3 surveys per field, 10 trees per survey, 4 sections per tree, 2 observations per section, and 20 seconds per observation and group of flowers (mean 19 flowers).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2008","Peart","observation","formicidae","family","non_bee_hymenoptera",0.000992063,NA,80,4560,"Visitation rates: 3 surveys per field, 10 trees per survey, 4 sections per tree, 2 observations per section, and 20 seconds per observation and group of flowers (mean 19 flowers).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2008","Peart","observation","formicidae","family","non_bee_hymenoptera",0.000533808,NA,80,4560,"Visitation rates: 3 surveys per field, 10 trees per survey, 4 sections per tree, 2 observations per section, and 20 seconds per observation and group of flowers (mean 19 flowers).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2008","Peart","observation","formicidae","family","non_bee_hymenoptera",0.000117555,NA,80,4560,"Visitation rates: 3 surveys per field, 10 trees per survey, 4 sections per tree, 2 observations per section, and 20 seconds per observation and group of flowers (mean 19 flowers).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2008","Taber","observation","formicidae","family","non_bee_hymenoptera",0.000792254,NA,80,4560,"Visitation rates: 3 surveys per field, 10 trees per survey, 4 sections per tree, 2 observations per section, and 20 seconds per observation and group of flowers (mean 19 flowers).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2008","TNP 1","observation","formicidae","family","non_bee_hymenoptera",0.001404056,NA,80,4560,"Visitation rates: 3 surveys per field, 10 trees per survey, 4 sections per tree, 2 observations per section, and 20 seconds per observation and group of flowers (mean 19 flowers).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2008","TNP 1","observation","formicidae","family","non_bee_hymenoptera",0.00011592,NA,80,4560,"Visitation rates: 3 surveys per field, 10 trees per survey, 4 sections per tree, 2 observations per section, and 20 seconds per observation and group of flowers (mean 19 flowers).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2008","Bramlett","observation","Habropoda_17","morphospecies","other_wild_bees",7.91139e-05,NA,80,4560,"Visitation rates: 3 surveys per field, 10 trees per survey, 4 sections per tree, 2 observations per section, and 20 seconds per observation and group of flowers (mean 19 flowers).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2008","Bramlett","observation","Habropoda_17","morphospecies","other_wild_bees",0.000129983,NA,80,4560,"Visitation rates: 3 surveys per field, 10 trees per survey, 4 sections per tree, 2 observations per section, and 20 seconds per observation and group of flowers (mean 19 flowers).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2008","Lowrey","observation","Habropoda_17","morphospecies","other_wild_bees",0.000543478,NA,80,4560,"Visitation rates: 3 surveys per field, 10 trees per survey, 4 sections per tree, 2 observations per section, and 20 seconds per observation and group of flowers (mean 19 flowers).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2008","Lowrey","observation","Habropoda_17","morphospecies","other_wild_bees",0.000386598,NA,80,4560,"Visitation rates: 3 surveys per field, 10 trees per survey, 4 sections per tree, 2 observations per section, and 20 seconds per observation and group of flowers (mean 19 flowers).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2008","Taber","observation","Habropoda_17","morphospecies","other_wild_bees",0.000132042,NA,80,4560,"Visitation rates: 3 surveys per field, 10 trees per survey, 4 sections per tree, 2 observations per section, and 20 seconds per observation and group of flowers (mean 19 flowers).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2008","Fullbelly","observation","Heteroptera_sp.","suborder","other",0.000126904,NA,80,4560,"Visitation rates: 3 surveys per field, 10 trees per survey, 4 sections per tree, 2 observations per section, and 20 seconds per observation and group of flowers (mean 19 flowers).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2008","Etters","observation","Lasioglossum_8","morphospecies","other_wild_bees",0.000274223,NA,80,4560,"Visitation rates: 3 surveys per field, 10 trees per survey, 4 sections per tree, 2 observations per section, and 20 seconds per observation and group of flowers (mean 19 flowers).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2008","Bramlett","observation","Lasioglossum_9","morphospecies","other_wild_bees",0.001105651,NA,80,4560,"Visitation rates: 3 surveys per field, 10 trees per survey, 4 sections per tree, 2 observations per section, and 20 seconds per observation and group of flowers (mean 19 flowers).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2008","Bramlett","observation","Lasioglossum_9","morphospecies","other_wild_bees",0.001169844,NA,80,4560,"Visitation rates: 3 surveys per field, 10 trees per survey, 4 sections per tree, 2 observations per section, and 20 seconds per observation and group of flowers (mean 19 flowers).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2008","Fullbelly","observation","Lasioglossum_9","morphospecies","other_wild_bees",0.000380711,NA,80,4560,"Visitation rates: 3 surveys per field, 10 trees per survey, 4 sections per tree, 2 observations per section, and 20 seconds per observation and group of flowers (mean 19 flowers).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2008","Lowrey","observation","Lasioglossum_9","morphospecies","other_wild_bees",0.002309783,NA,80,4560,"Visitation rates: 3 surveys per field, 10 trees per survey, 4 sections per tree, 2 observations per section, and 20 seconds per observation and group of flowers (mean 19 flowers).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2008","Etters","observation","Lasioglossum_10","morphospecies","other_wild_bees",0.000274223,NA,80,4560,"Visitation rates: 3 surveys per field, 10 trees per survey, 4 sections per tree, 2 observations per section, and 20 seconds per observation and group of flowers (mean 19 flowers).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2008","Lowrey","observation","Lasioglossum_11","morphospecies","other_wild_bees",0.004787234,NA,80,4560,"Visitation rates: 3 surveys per field, 10 trees per survey, 4 sections per tree, 2 observations per section, and 20 seconds per observation and group of flowers (mean 19 flowers).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2008","Lowrey","observation","Lasioglossum_11","morphospecies","other_wild_bees",0.000386598,NA,80,4560,"Visitation rates: 3 surveys per field, 10 trees per survey, 4 sections per tree, 2 observations per section, and 20 seconds per observation and group of flowers (mean 19 flowers).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2008","TMueller 1","observation","Lasioglossum_11","morphospecies","other_wild_bees",8.53242e-05,NA,80,4560,"Visitation rates: 3 surveys per field, 10 trees per survey, 4 sections per tree, 2 observations per section, and 20 seconds per observation and group of flowers (mean 19 flowers).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2008","TNP 1","observation","Lasioglossum_11","morphospecies","other_wild_bees",0.000117005,NA,80,4560,"Visitation rates: 3 surveys per field, 10 trees per survey, 4 sections per tree, 2 observations per section, and 20 seconds per observation and group of flowers (mean 19 flowers).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2008","TNP 3","observation","Lasioglossum_11","morphospecies","other_wild_bees",9.1687e-05,NA,80,4560,"Visitation rates: 3 surveys per field, 10 trees per survey, 4 sections per tree, 2 observations per section, and 20 seconds per observation and group of flowers (mean 19 flowers).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2008","TNP 3","observation","Lasioglossum_11","morphospecies","other_wild_bees",0.001229508,NA,80,4560,"Visitation rates: 3 surveys per field, 10 trees per survey, 4 sections per tree, 2 observations per section, and 20 seconds per observation and group of flowers (mean 19 flowers).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2008","Taber","observation","Lasioglossum_14","morphospecies","other_wild_bees",0.00012215,NA,80,4560,"Visitation rates: 3 surveys per field, 10 trees per survey, 4 sections per tree, 2 observations per section, and 20 seconds per observation and group of flowers (mean 19 flowers).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2008","TNP 3","observation","Lasioglossum_14","morphospecies","other_wild_bees",0.00025641,NA,80,4560,"Visitation rates: 3 surveys per field, 10 trees per survey, 4 sections per tree, 2 observations per section, and 20 seconds per observation and group of flowers (mean 19 flowers).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2008","TNP 3","observation","Lasioglossum_14","morphospecies","other_wild_bees",0.001229508,NA,80,4560,"Visitation rates: 3 surveys per field, 10 trees per survey, 4 sections per tree, 2 observations per section, and 20 seconds per observation and group of flowers (mean 19 flowers).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2008","Bramlett","observation","Lepidoptera","order","lepidoptera",0.000129983,NA,80,4560,"Visitation rates: 3 surveys per field, 10 trees per survey, 4 sections per tree, 2 observations per section, and 20 seconds per observation and group of flowers (mean 19 flowers).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2008","Fullbelly","observation","Lepidoptera","order","lepidoptera",0.000126904,NA,80,4560,"Visitation rates: 3 surveys per field, 10 trees per survey, 4 sections per tree, 2 observations per section, and 20 seconds per observation and group of flowers (mean 19 flowers).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2008","Fullbelly","observation","Lepidoptera","order","lepidoptera",0.000282663,NA,80,4560,"Visitation rates: 3 surveys per field, 10 trees per survey, 4 sections per tree, 2 observations per section, and 20 seconds per observation and group of flowers (mean 19 flowers).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2008","Lowrey","observation","Lepidoptera","order","lepidoptera",0.000638298,NA,80,4560,"Visitation rates: 3 surveys per field, 10 trees per survey, 4 sections per tree, 2 observations per section, and 20 seconds per observation and group of flowers (mean 19 flowers).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2008","Fullbelly","observation","Muscidae_6","morphospecies","other_flies",0.000216763,NA,80,4560,"Visitation rates: 3 surveys per field, 10 trees per survey, 4 sections per tree, 2 observations per section, and 20 seconds per observation and group of flowers (mean 19 flowers).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2008","Fullbelly","observation","Muscidae_6","morphospecies","other_flies",0.000253807,NA,80,4560,"Visitation rates: 3 surveys per field, 10 trees per survey, 4 sections per tree, 2 observations per section, and 20 seconds per observation and group of flowers (mean 19 flowers).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2008","KB 1","observation","Muscidae_6","morphospecies","other_flies",0.00039823,NA,80,4560,"Visitation rates: 3 surveys per field, 10 trees per survey, 4 sections per tree, 2 observations per section, and 20 seconds per observation and group of flowers (mean 19 flowers).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2008","KB 2","observation","Muscidae_6","morphospecies","other_flies",0.000104022,NA,80,4560,"Visitation rates: 3 surveys per field, 10 trees per survey, 4 sections per tree, 2 observations per section, and 20 seconds per observation and group of flowers (mean 19 flowers).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2008","Lowrey","observation","Muscidae_6","morphospecies","other_flies",0.000271739,NA,80,4560,"Visitation rates: 3 surveys per field, 10 trees per survey, 4 sections per tree, 2 observations per section, and 20 seconds per observation and group of flowers (mean 19 flowers).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2008","Peart","observation","Muscidae_6","morphospecies","other_flies",0.00023511,NA,80,4560,"Visitation rates: 3 surveys per field, 10 trees per survey, 4 sections per tree, 2 observations per section, and 20 seconds per observation and group of flowers (mean 19 flowers).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2008","Scofield 1","observation","Muscidae_6","morphospecies","other_flies",0.000458716,NA,80,4560,"Visitation rates: 3 surveys per field, 10 trees per survey, 4 sections per tree, 2 observations per section, and 20 seconds per observation and group of flowers (mean 19 flowers).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2008","Scofield 1","observation","Muscidae_6","morphospecies","other_flies",0.000126689,NA,80,4560,"Visitation rates: 3 surveys per field, 10 trees per survey, 4 sections per tree, 2 observations per section, and 20 seconds per observation and group of flowers (mean 19 flowers).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2008","Taber","observation","Muscidae_6","morphospecies","other_flies",0.00012215,NA,80,4560,"Visitation rates: 3 surveys per field, 10 trees per survey, 4 sections per tree, 2 observations per section, and 20 seconds per observation and group of flowers (mean 19 flowers).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2008","TMueller 1","observation","Muscidae_6","morphospecies","other_flies",8.02998e-05,NA,80,4560,"Visitation rates: 3 surveys per field, 10 trees per survey, 4 sections per tree, 2 observations per section, and 20 seconds per observation and group of flowers (mean 19 flowers).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2008","TMueller 1","observation","Muscidae_7","morphospecies","other_flies",0.000255973,NA,80,4560,"Visitation rates: 3 surveys per field, 10 trees per survey, 4 sections per tree, 2 observations per section, and 20 seconds per observation and group of flowers (mean 19 flowers).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2008","TMueller 1","observation","Muscidae_7","morphospecies","other_flies",0.000202977,NA,80,4560,"Visitation rates: 3 surveys per field, 10 trees per survey, 4 sections per tree, 2 observations per section, and 20 seconds per observation and group of flowers (mean 19 flowers).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2008","TMueller 2","observation","Osmia_18","morphospecies","other_wild_bees",7.36739e-05,NA,80,4560,"Visitation rates: 3 surveys per field, 10 trees per survey, 4 sections per tree, 2 observations per section, and 20 seconds per observation and group of flowers (mean 19 flowers).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2008","Bramlett","observation","Osmia_19","morphospecies","other_wild_bees",0.000129983,NA,80,4560,"Visitation rates: 3 surveys per field, 10 trees per survey, 4 sections per tree, 2 observations per section, and 20 seconds per observation and group of flowers (mean 19 flowers).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2008","Fullbelly","observation","Osmia_19","morphospecies","other_wild_bees",9.42211e-05,NA,80,4560,"Visitation rates: 3 surveys per field, 10 trees per survey, 4 sections per tree, 2 observations per section, and 20 seconds per observation and group of flowers (mean 19 flowers).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2008","Taber","observation","Osmia_19","morphospecies","other_wild_bees",0.00010981,NA,80,4560,"Visitation rates: 3 surveys per field, 10 trees per survey, 4 sections per tree, 2 observations per section, and 20 seconds per observation and group of flowers (mean 19 flowers).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2008","Lowrey","observation","Panurginus_15","morphospecies","other_wild_bees",0.002717391,NA,80,4560,"Visitation rates: 3 surveys per field, 10 trees per survey, 4 sections per tree, 2 observations per section, and 20 seconds per observation and group of flowers (mean 19 flowers).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2008","TNP 3","observation","Panurginus_15","morphospecies","other_wild_bees",0.000491803,NA,80,4560,"Visitation rates: 3 surveys per field, 10 trees per survey, 4 sections per tree, 2 observations per section, and 20 seconds per observation and group of flowers (mean 19 flowers).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2008","Bramlett","observation","spider","order","other",0.000184275,NA,80,4560,"Visitation rates: 3 surveys per field, 10 trees per survey, 4 sections per tree, 2 observations per section, and 20 seconds per observation and group of flowers (mean 19 flowers).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2008","Etters","observation","spider","order","other",0.000274223,NA,80,4560,"Visitation rates: 3 surveys per field, 10 trees per survey, 4 sections per tree, 2 observations per section, and 20 seconds per observation and group of flowers (mean 19 flowers).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2008","Peart","observation","spider","order","other",9.92063e-05,NA,80,4560,"Visitation rates: 3 surveys per field, 10 trees per survey, 4 sections per tree, 2 observations per section, and 20 seconds per observation and group of flowers (mean 19 flowers).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2008","Scheuring","observation","spider","order","other",6.81818e-05,NA,80,4560,"Visitation rates: 3 surveys per field, 10 trees per survey, 4 sections per tree, 2 observations per section, and 20 seconds per observation and group of flowers (mean 19 flowers).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2008","Scheuring","observation","spider","order","other",0.000210379,NA,80,4560,"Visitation rates: 3 surveys per field, 10 trees per survey, 4 sections per tree, 2 observations per section, and 20 seconds per observation and group of flowers (mean 19 flowers).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2008","Scofield 1","observation","spider","order","other",0.000253378,NA,80,4560,"Visitation rates: 3 surveys per field, 10 trees per survey, 4 sections per tree, 2 observations per section, and 20 seconds per observation and group of flowers (mean 19 flowers).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2008","TMueller 1","observation","spider","order","other",8.02998e-05,NA,80,4560,"Visitation rates: 3 surveys per field, 10 trees per survey, 4 sections per tree, 2 observations per section, and 20 seconds per observation and group of flowers (mean 19 flowers).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2008","Banes","observation","Syrphid_1","morphospecies","syrphids",0.00010745,NA,80,4560,"Visitation rates: 3 surveys per field, 10 trees per survey, 4 sections per tree, 2 observations per section, and 20 seconds per observation and group of flowers (mean 19 flowers).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2008","Bramlett","observation","Syrphid_1","morphospecies","syrphids",0.000158228,NA,80,4560,"Visitation rates: 3 surveys per field, 10 trees per survey, 4 sections per tree, 2 observations per section, and 20 seconds per observation and group of flowers (mean 19 flowers).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2008","Bramlett","observation","Syrphid_1","morphospecies","syrphids",0.000129983,NA,80,4560,"Visitation rates: 3 surveys per field, 10 trees per survey, 4 sections per tree, 2 observations per section, and 20 seconds per observation and group of flowers (mean 19 flowers).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2008","Cotters","observation","Syrphid_1","morphospecies","syrphids",0.000103734,NA,80,4560,"Visitation rates: 3 surveys per field, 10 trees per survey, 4 sections per tree, 2 observations per section, and 20 seconds per observation and group of flowers (mean 19 flowers).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2008","Etters","observation","Syrphid_1","morphospecies","syrphids",0.000175644,NA,80,4560,"Visitation rates: 3 surveys per field, 10 trees per survey, 4 sections per tree, 2 observations per section, and 20 seconds per observation and group of flowers (mean 19 flowers).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2008","Etters","observation","Syrphid_1","morphospecies","syrphids",0.000327511,NA,80,4560,"Visitation rates: 3 surveys per field, 10 trees per survey, 4 sections per tree, 2 observations per section, and 20 seconds per observation and group of flowers (mean 19 flowers).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2008","Fullbelly","observation","Syrphid_1","morphospecies","syrphids",0.000380711,NA,80,4560,"Visitation rates: 3 surveys per field, 10 trees per survey, 4 sections per tree, 2 observations per section, and 20 seconds per observation and group of flowers (mean 19 flowers).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2008","Fullbelly","observation","Syrphid_1","morphospecies","syrphids",9.42211e-05,NA,80,4560,"Visitation rates: 3 surveys per field, 10 trees per survey, 4 sections per tree, 2 observations per section, and 20 seconds per observation and group of flowers (mean 19 flowers).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2008","KB 1","observation","Syrphid_1","morphospecies","syrphids",0.000132743,NA,80,4560,"Visitation rates: 3 surveys per field, 10 trees per survey, 4 sections per tree, 2 observations per section, and 20 seconds per observation and group of flowers (mean 19 flowers).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2008","KB 2","observation","Syrphid_1","morphospecies","syrphids",0.000208044,NA,80,4560,"Visitation rates: 3 surveys per field, 10 trees per survey, 4 sections per tree, 2 observations per section, and 20 seconds per observation and group of flowers (mean 19 flowers).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2008","KB 2","observation","Syrphid_1","morphospecies","syrphids",0.000271739,NA,80,4560,"Visitation rates: 3 surveys per field, 10 trees per survey, 4 sections per tree, 2 observations per section, and 20 seconds per observation and group of flowers (mean 19 flowers).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2008","KB 2","observation","Syrphid_1","morphospecies","syrphids",0.000125,NA,80,4560,"Visitation rates: 3 surveys per field, 10 trees per survey, 4 sections per tree, 2 observations per section, and 20 seconds per observation and group of flowers (mean 19 flowers).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2008","Lauwerijssen","observation","Syrphid_1","morphospecies","syrphids",0.000150754,NA,80,4560,"Visitation rates: 3 surveys per field, 10 trees per survey, 4 sections per tree, 2 observations per section, and 20 seconds per observation and group of flowers (mean 19 flowers).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2008","Lowrey","observation","Syrphid_1","morphospecies","syrphids",0.001222826,NA,80,4560,"Visitation rates: 3 surveys per field, 10 trees per survey, 4 sections per tree, 2 observations per section, and 20 seconds per observation and group of flowers (mean 19 flowers).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2008","Lowrey","observation","Syrphid_1","morphospecies","syrphids",0.001276596,NA,80,4560,"Visitation rates: 3 surveys per field, 10 trees per survey, 4 sections per tree, 2 observations per section, and 20 seconds per observation and group of flowers (mean 19 flowers).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2008","Scofield 1","observation","Syrphid_1","morphospecies","syrphids",0.00030581,NA,80,4560,"Visitation rates: 3 surveys per field, 10 trees per survey, 4 sections per tree, 2 observations per section, and 20 seconds per observation and group of flowers (mean 19 flowers).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2008","Scofield 2","observation","Syrphid_1","morphospecies","syrphids",0.000455097,NA,80,4560,"Visitation rates: 3 surveys per field, 10 trees per survey, 4 sections per tree, 2 observations per section, and 20 seconds per observation and group of flowers (mean 19 flowers).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2008","Scofield 2","observation","Syrphid_1","morphospecies","syrphids",0.0002185,NA,80,4560,"Visitation rates: 3 surveys per field, 10 trees per survey, 4 sections per tree, 2 observations per section, and 20 seconds per observation and group of flowers (mean 19 flowers).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2008","Scofield 2","observation","Syrphid_1","morphospecies","syrphids",9.60307e-05,NA,80,4560,"Visitation rates: 3 surveys per field, 10 trees per survey, 4 sections per tree, 2 observations per section, and 20 seconds per observation and group of flowers (mean 19 flowers).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2008","Taber","observation","Syrphid_1","morphospecies","syrphids",0.001099349,NA,80,4560,"Visitation rates: 3 surveys per field, 10 trees per survey, 4 sections per tree, 2 observations per section, and 20 seconds per observation and group of flowers (mean 19 flowers).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2008","Taber","observation","Syrphid_1","morphospecies","syrphids",0.000660211,NA,80,4560,"Visitation rates: 3 surveys per field, 10 trees per survey, 4 sections per tree, 2 observations per section, and 20 seconds per observation and group of flowers (mean 19 flowers).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2008","Taber","observation","Syrphid_1","morphospecies","syrphids",0.000439239,NA,80,4560,"Visitation rates: 3 surveys per field, 10 trees per survey, 4 sections per tree, 2 observations per section, and 20 seconds per observation and group of flowers (mean 19 flowers).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2008","TMueller 1","observation","Syrphid_1","morphospecies","syrphids",0.001014885,NA,80,4560,"Visitation rates: 3 surveys per field, 10 trees per survey, 4 sections per tree, 2 observations per section, and 20 seconds per observation and group of flowers (mean 19 flowers).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2008","TMueller 1","observation","Syrphid_1","morphospecies","syrphids",0.000642398,NA,80,4560,"Visitation rates: 3 surveys per field, 10 trees per survey, 4 sections per tree, 2 observations per section, and 20 seconds per observation and group of flowers (mean 19 flowers).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2008","TMueller 2","observation","Syrphid_1","morphospecies","syrphids",0.000147348,NA,80,4560,"Visitation rates: 3 surveys per field, 10 trees per survey, 4 sections per tree, 2 observations per section, and 20 seconds per observation and group of flowers (mean 19 flowers).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2008","TMueller 2","observation","Syrphid_1","morphospecies","syrphids",0.00039267,NA,80,4560,"Visitation rates: 3 surveys per field, 10 trees per survey, 4 sections per tree, 2 observations per section, and 20 seconds per observation and group of flowers (mean 19 flowers).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2008","TMueller 2","observation","Syrphid_1","morphospecies","syrphids",7.53012e-05,NA,80,4560,"Visitation rates: 3 surveys per field, 10 trees per survey, 4 sections per tree, 2 observations per section, and 20 seconds per observation and group of flowers (mean 19 flowers).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2008","TNP 3","observation","Syrphid_1","morphospecies","syrphids",0.000128205,NA,80,4560,"Visitation rates: 3 surveys per field, 10 trees per survey, 4 sections per tree, 2 observations per section, and 20 seconds per observation and group of flowers (mean 19 flowers).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2008","TNP 3","observation","Syrphid_1","morphospecies","syrphids",0.000229218,NA,80,4560,"Visitation rates: 3 surveys per field, 10 trees per survey, 4 sections per tree, 2 observations per section, and 20 seconds per observation and group of flowers (mean 19 flowers).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2008","TNP 3","observation","Syrphid_1","morphospecies","syrphids",0.000245902,NA,80,4560,"Visitation rates: 3 surveys per field, 10 trees per survey, 4 sections per tree, 2 observations per section, and 20 seconds per observation and group of flowers (mean 19 flowers).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2008","Banes","observation","Syrphid_2","morphospecies","syrphids",0.000485437,NA,80,4560,"Visitation rates: 3 surveys per field, 10 trees per survey, 4 sections per tree, 2 observations per section, and 20 seconds per observation and group of flowers (mean 19 flowers).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2008","Banes","observation","Syrphid_2","morphospecies","syrphids",0.00010745,NA,80,4560,"Visitation rates: 3 surveys per field, 10 trees per survey, 4 sections per tree, 2 observations per section, and 20 seconds per observation and group of flowers (mean 19 flowers).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2008","Bramlett","observation","Syrphid_2","morphospecies","syrphids",0.000184275,NA,80,4560,"Visitation rates: 3 surveys per field, 10 trees per survey, 4 sections per tree, 2 observations per section, and 20 seconds per observation and group of flowers (mean 19 flowers).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2008","Bramlett","observation","Syrphid_2","morphospecies","syrphids",0.000909879,NA,80,4560,"Visitation rates: 3 surveys per field, 10 trees per survey, 4 sections per tree, 2 observations per section, and 20 seconds per observation and group of flowers (mean 19 flowers).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2008","Cotters","observation","Syrphid_2","morphospecies","syrphids",0.000103734,NA,80,4560,"Visitation rates: 3 surveys per field, 10 trees per survey, 4 sections per tree, 2 observations per section, and 20 seconds per observation and group of flowers (mean 19 flowers).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2008","Fullbelly","observation","Syrphid_2","morphospecies","syrphids",0.000433526,NA,80,4560,"Visitation rates: 3 surveys per field, 10 trees per survey, 4 sections per tree, 2 observations per section, and 20 seconds per observation and group of flowers (mean 19 flowers).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2008","Fullbelly","observation","Syrphid_2","morphospecies","syrphids",0.000253807,NA,80,4560,"Visitation rates: 3 surveys per field, 10 trees per survey, 4 sections per tree, 2 observations per section, and 20 seconds per observation and group of flowers (mean 19 flowers).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2008","Fullbelly","observation","Syrphid_2","morphospecies","syrphids",0.000282663,NA,80,4560,"Visitation rates: 3 surveys per field, 10 trees per survey, 4 sections per tree, 2 observations per section, and 20 seconds per observation and group of flowers (mean 19 flowers).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2008","KB 1","observation","Syrphid_2","morphospecies","syrphids",0.000106838,NA,80,4560,"Visitation rates: 3 surveys per field, 10 trees per survey, 4 sections per tree, 2 observations per section, and 20 seconds per observation and group of flowers (mean 19 flowers).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2008","KB 2","observation","Syrphid_2","morphospecies","syrphids",0.000208044,NA,80,4560,"Visitation rates: 3 surveys per field, 10 trees per survey, 4 sections per tree, 2 observations per section, and 20 seconds per observation and group of flowers (mean 19 flowers).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2008","KB 2","observation","Syrphid_2","morphospecies","syrphids",0.00013587,NA,80,4560,"Visitation rates: 3 surveys per field, 10 trees per survey, 4 sections per tree, 2 observations per section, and 20 seconds per observation and group of flowers (mean 19 flowers).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2008","KB 2","observation","Syrphid_2","morphospecies","syrphids",0.000125,NA,80,4560,"Visitation rates: 3 surveys per field, 10 trees per survey, 4 sections per tree, 2 observations per section, and 20 seconds per observation and group of flowers (mean 19 flowers).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2008","Lowrey","observation","Syrphid_2","morphospecies","syrphids",0.000815217,NA,80,4560,"Visitation rates: 3 surveys per field, 10 trees per survey, 4 sections per tree, 2 observations per section, and 20 seconds per observation and group of flowers (mean 19 flowers).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2008","Lowrey","observation","Syrphid_2","morphospecies","syrphids",0.001276596,NA,80,4560,"Visitation rates: 3 surveys per field, 10 trees per survey, 4 sections per tree, 2 observations per section, and 20 seconds per observation and group of flowers (mean 19 flowers).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2008","Nickels","observation","Syrphid_2","morphospecies","syrphids",0.000240385,NA,80,4560,"Visitation rates: 3 surveys per field, 10 trees per survey, 4 sections per tree, 2 observations per section, and 20 seconds per observation and group of flowers (mean 19 flowers).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2008","Peart","observation","Syrphid_2","morphospecies","syrphids",0.00023511,NA,80,4560,"Visitation rates: 3 surveys per field, 10 trees per survey, 4 sections per tree, 2 observations per section, and 20 seconds per observation and group of flowers (mean 19 flowers).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2008","Scofield 1","observation","Syrphid_2","morphospecies","syrphids",0.00030581,NA,80,4560,"Visitation rates: 3 surveys per field, 10 trees per survey, 4 sections per tree, 2 observations per section, and 20 seconds per observation and group of flowers (mean 19 flowers).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2008","Scofield 1","observation","Syrphid_2","morphospecies","syrphids",0.000380068,NA,80,4560,"Visitation rates: 3 surveys per field, 10 trees per survey, 4 sections per tree, 2 observations per section, and 20 seconds per observation and group of flowers (mean 19 flowers).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2008","Scofield 2","observation","Syrphid_2","morphospecies","syrphids",9.10194e-05,NA,80,4560,"Visitation rates: 3 surveys per field, 10 trees per survey, 4 sections per tree, 2 observations per section, and 20 seconds per observation and group of flowers (mean 19 flowers).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2008","Scofield 2","observation","Syrphid_2","morphospecies","syrphids",5.46249e-05,NA,80,4560,"Visitation rates: 3 surveys per field, 10 trees per survey, 4 sections per tree, 2 observations per section, and 20 seconds per observation and group of flowers (mean 19 flowers).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2008","Scofield 2","observation","Syrphid_2","morphospecies","syrphids",0.000192061,NA,80,4560,"Visitation rates: 3 surveys per field, 10 trees per survey, 4 sections per tree, 2 observations per section, and 20 seconds per observation and group of flowers (mean 19 flowers).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2008","Taber","observation","Syrphid_2","morphospecies","syrphids",0.00012215,NA,80,4560,"Visitation rates: 3 surveys per field, 10 trees per survey, 4 sections per tree, 2 observations per section, and 20 seconds per observation and group of flowers (mean 19 flowers).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2008","Taber","observation","Syrphid_2","morphospecies","syrphids",0.000528169,NA,80,4560,"Visitation rates: 3 surveys per field, 10 trees per survey, 4 sections per tree, 2 observations per section, and 20 seconds per observation and group of flowers (mean 19 flowers).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2008","Taber","observation","Syrphid_2","morphospecies","syrphids",0.000768668,NA,80,4560,"Visitation rates: 3 surveys per field, 10 trees per survey, 4 sections per tree, 2 observations per section, and 20 seconds per observation and group of flowers (mean 19 flowers).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2008","TMueller 1","observation","Syrphid_2","morphospecies","syrphids",0.000682594,NA,80,4560,"Visitation rates: 3 surveys per field, 10 trees per survey, 4 sections per tree, 2 observations per section, and 20 seconds per observation and group of flowers (mean 19 flowers).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2008","TMueller 1","observation","Syrphid_2","morphospecies","syrphids",0.0001606,NA,80,4560,"Visitation rates: 3 surveys per field, 10 trees per survey, 4 sections per tree, 2 observations per section, and 20 seconds per observation and group of flowers (mean 19 flowers).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2008","TMueller 2","observation","Syrphid_2","morphospecies","syrphids",7.53012e-05,NA,80,4560,"Visitation rates: 3 surveys per field, 10 trees per survey, 4 sections per tree, 2 observations per section, and 20 seconds per observation and group of flowers (mean 19 flowers).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2008","TNP 1","observation","Syrphid_2","morphospecies","syrphids",0.000101078,NA,80,4560,"Visitation rates: 3 surveys per field, 10 trees per survey, 4 sections per tree, 2 observations per section, and 20 seconds per observation and group of flowers (mean 19 flowers).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2008","TNP 1","observation","Syrphid_2","morphospecies","syrphids",0.000117005,NA,80,4560,"Visitation rates: 3 surveys per field, 10 trees per survey, 4 sections per tree, 2 observations per section, and 20 seconds per observation and group of flowers (mean 19 flowers).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2008","Cotters","observation","Syrphid_3","morphospecies","syrphids",0.000179856,NA,80,4560,"Visitation rates: 3 surveys per field, 10 trees per survey, 4 sections per tree, 2 observations per section, and 20 seconds per observation and group of flowers (mean 19 flowers).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2008","Etters","observation","Syrphid_3","morphospecies","syrphids",0.000175644,NA,80,4560,"Visitation rates: 3 surveys per field, 10 trees per survey, 4 sections per tree, 2 observations per section, and 20 seconds per observation and group of flowers (mean 19 flowers).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2008","Fullbelly","observation","Syrphid_3","morphospecies","syrphids",0.000650289,NA,80,4560,"Visitation rates: 3 surveys per field, 10 trees per survey, 4 sections per tree, 2 observations per section, and 20 seconds per observation and group of flowers (mean 19 flowers).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2008","Fullbelly","observation","Syrphid_3","morphospecies","syrphids",0.000126904,NA,80,4560,"Visitation rates: 3 surveys per field, 10 trees per survey, 4 sections per tree, 2 observations per section, and 20 seconds per observation and group of flowers (mean 19 flowers).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2008","Fullbelly","observation","Syrphid_3","morphospecies","syrphids",0.000188442,NA,80,4560,"Visitation rates: 3 surveys per field, 10 trees per survey, 4 sections per tree, 2 observations per section, and 20 seconds per observation and group of flowers (mean 19 flowers).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2008","Lowrey","observation","Syrphid_3","morphospecies","syrphids",0.000271739,NA,80,4560,"Visitation rates: 3 surveys per field, 10 trees per survey, 4 sections per tree, 2 observations per section, and 20 seconds per observation and group of flowers (mean 19 flowers).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2008","Lowrey","observation","Syrphid_3","morphospecies","syrphids",0.000638298,NA,80,4560,"Visitation rates: 3 surveys per field, 10 trees per survey, 4 sections per tree, 2 observations per section, and 20 seconds per observation and group of flowers (mean 19 flowers).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2008","Peart","observation","Syrphid_3","morphospecies","syrphids",0.00023511,NA,80,4560,"Visitation rates: 3 surveys per field, 10 trees per survey, 4 sections per tree, 2 observations per section, and 20 seconds per observation and group of flowers (mean 19 flowers).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2008","Scofield 1","observation","Syrphid_3","morphospecies","syrphids",0.000152905,NA,80,4560,"Visitation rates: 3 surveys per field, 10 trees per survey, 4 sections per tree, 2 observations per section, and 20 seconds per observation and group of flowers (mean 19 flowers).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2008","Scofield 1","observation","Syrphid_3","morphospecies","syrphids",0.000126689,NA,80,4560,"Visitation rates: 3 surveys per field, 10 trees per survey, 4 sections per tree, 2 observations per section, and 20 seconds per observation and group of flowers (mean 19 flowers).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2008","Scofield 2","observation","Syrphid_3","morphospecies","syrphids",0.000182039,NA,80,4560,"Visitation rates: 3 surveys per field, 10 trees per survey, 4 sections per tree, 2 observations per section, and 20 seconds per observation and group of flowers (mean 19 flowers).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2008","Scofield 2","observation","Syrphid_3","morphospecies","syrphids",9.60307e-05,NA,80,4560,"Visitation rates: 3 surveys per field, 10 trees per survey, 4 sections per tree, 2 observations per section, and 20 seconds per observation and group of flowers (mean 19 flowers).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2008","Taber","observation","Syrphid_3","morphospecies","syrphids",0.000732899,NA,80,4560,"Visitation rates: 3 surveys per field, 10 trees per survey, 4 sections per tree, 2 observations per section, and 20 seconds per observation and group of flowers (mean 19 flowers).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2008","Taber","observation","Syrphid_3","morphospecies","syrphids",0.000549048,NA,80,4560,"Visitation rates: 3 surveys per field, 10 trees per survey, 4 sections per tree, 2 observations per section, and 20 seconds per observation and group of flowers (mean 19 flowers).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2008","TMueller 1","observation","Syrphid_3","morphospecies","syrphids",0.000170648,NA,80,4560,"Visitation rates: 3 surveys per field, 10 trees per survey, 4 sections per tree, 2 observations per section, and 20 seconds per observation and group of flowers (mean 19 flowers).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2008","TMueller 1","observation","Syrphid_3","morphospecies","syrphids",0.000642398,NA,80,4560,"Visitation rates: 3 surveys per field, 10 trees per survey, 4 sections per tree, 2 observations per section, and 20 seconds per observation and group of flowers (mean 19 flowers).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2008","TMueller 2","observation","Syrphid_3","morphospecies","syrphids",7.36739e-05,NA,80,4560,"Visitation rates: 3 surveys per field, 10 trees per survey, 4 sections per tree, 2 observations per section, and 20 seconds per observation and group of flowers (mean 19 flowers).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2008","TMueller 2","observation","Syrphid_3","morphospecies","syrphids",7.53012e-05,NA,80,4560,"Visitation rates: 3 surveys per field, 10 trees per survey, 4 sections per tree, 2 observations per section, and 20 seconds per observation and group of flowers (mean 19 flowers).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2008","TNP 3","observation","Syrphid_3","morphospecies","syrphids",0.000245902,NA,80,4560,"Visitation rates: 3 surveys per field, 10 trees per survey, 4 sections per tree, 2 observations per section, and 20 seconds per observation and group of flowers (mean 19 flowers).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2009","Tim Mueller 1","observation","Apis mellifera","species","honeybees",1,NA,13.3333333333333,NA,"On each orchard, 5 trees were observed. At each tree, eight groups of flowers were observed for 20 seconds each (total of around 13 min per orchard).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2009","Tim Mueller 1","observation","Apis mellifera","species","honeybees",1,NA,13.3333333333333,NA,"On each orchard, 5 trees were observed. At each tree, eight groups of flowers were observed for 20 seconds each (total of around 13 min per orchard).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2009","Tim Mueller 1","observation","Apis mellifera","species","honeybees",1,NA,13.3333333333333,NA,"On each orchard, 5 trees were observed. At each tree, eight groups of flowers were observed for 20 seconds each (total of around 13 min per orchard).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2009","Tim Mueller 1","observation","Apis mellifera","species","honeybees",1,NA,13.3333333333333,NA,"On each orchard, 5 trees were observed. At each tree, eight groups of flowers were observed for 20 seconds each (total of around 13 min per orchard).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2009","Tim Mueller 1","observation","Apis mellifera","species","honeybees",1,NA,13.3333333333333,NA,"On each orchard, 5 trees were observed. At each tree, eight groups of flowers were observed for 20 seconds each (total of around 13 min per orchard).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2009","Tim Mueller 1","observation","Apis mellifera","species","honeybees",1,NA,13.3333333333333,NA,"On each orchard, 5 trees were observed. At each tree, eight groups of flowers were observed for 20 seconds each (total of around 13 min per orchard).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2009","Tim Mueller 1","observation","Apis mellifera","species","honeybees",1,NA,13.3333333333333,NA,"On each orchard, 5 trees were observed. At each tree, eight groups of flowers were observed for 20 seconds each (total of around 13 min per orchard).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2009","Tim Mueller 1","observation","Apis mellifera","species","honeybees",1,NA,13.3333333333333,NA,"On each orchard, 5 trees were observed. At each tree, eight groups of flowers were observed for 20 seconds each (total of around 13 min per orchard).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2009","Tim Mueller 1","observation","Apis mellifera","species","honeybees",1,NA,13.3333333333333,NA,"On each orchard, 5 trees were observed. At each tree, eight groups of flowers were observed for 20 seconds each (total of around 13 min per orchard).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2009","Tim Mueller 1","observation","Apis mellifera","species","honeybees",1,NA,13.3333333333333,NA,"On each orchard, 5 trees were observed. At each tree, eight groups of flowers were observed for 20 seconds each (total of around 13 min per orchard).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2009","Tim Mueller 1","observation","Andrena cerasifolii","species","other_wild_bees",1,NA,13.3333333333333,NA,"On each orchard, 5 trees were observed. At each tree, eight groups of flowers were observed for 20 seconds each (total of around 13 min per orchard).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2009","Tim Mueller 1","observation","Apis mellifera","species","honeybees",1,NA,13.3333333333333,NA,"On each orchard, 5 trees were observed. At each tree, eight groups of flowers were observed for 20 seconds each (total of around 13 min per orchard).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2009","Tim Mueller 1","observation","Andrena cerasifolii","species","other_wild_bees",1,NA,13.3333333333333,NA,"On each orchard, 5 trees were observed. At each tree, eight groups of flowers were observed for 20 seconds each (total of around 13 min per orchard).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2009","Scofield 1","observation","Apis mellifera","species","honeybees",1,NA,13.3333333333333,NA,"On each orchard, 5 trees were observed. At each tree, eight groups of flowers were observed for 20 seconds each (total of around 13 min per orchard).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2009","Scofield 1","observation","Apis mellifera","species","honeybees",1,NA,13.3333333333333,NA,"On each orchard, 5 trees were observed. At each tree, eight groups of flowers were observed for 20 seconds each (total of around 13 min per orchard).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2009","Scofield 1","observation","Apis mellifera","species","honeybees",1,NA,13.3333333333333,NA,"On each orchard, 5 trees were observed. At each tree, eight groups of flowers were observed for 20 seconds each (total of around 13 min per orchard).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2009","Full Belly","observation","Apis mellifera","species","honeybees",2,NA,13.3333333333333,NA,"On each orchard, 5 trees were observed. At each tree, eight groups of flowers were observed for 20 seconds each (total of around 13 min per orchard).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2009","Full Belly","observation","Apis mellifera","species","honeybees",1,NA,13.3333333333333,NA,"On each orchard, 5 trees were observed. At each tree, eight groups of flowers were observed for 20 seconds each (total of around 13 min per orchard).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2009","Full Belly","observation","Apis mellifera","species","honeybees",1,NA,13.3333333333333,NA,"On each orchard, 5 trees were observed. At each tree, eight groups of flowers were observed for 20 seconds each (total of around 13 min per orchard).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2009","Full Belly","observation","Apis mellifera","species","honeybees",1,NA,13.3333333333333,NA,"On each orchard, 5 trees were observed. At each tree, eight groups of flowers were observed for 20 seconds each (total of around 13 min per orchard).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2009","Full Belly","observation","Apis mellifera","species","honeybees",1,NA,13.3333333333333,NA,"On each orchard, 5 trees were observed. At each tree, eight groups of flowers were observed for 20 seconds each (total of around 13 min per orchard).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2009","Full Belly","observation","Apis mellifera","species","honeybees",3,NA,13.3333333333333,NA,"On each orchard, 5 trees were observed. At each tree, eight groups of flowers were observed for 20 seconds each (total of around 13 min per orchard).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2009","Full Belly","observation","Apis mellifera","species","honeybees",2,NA,13.3333333333333,NA,"On each orchard, 5 trees were observed. At each tree, eight groups of flowers were observed for 20 seconds each (total of around 13 min per orchard).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2009","Full Belly","observation","Apis mellifera","species","honeybees",2,NA,13.3333333333333,NA,"On each orchard, 5 trees were observed. At each tree, eight groups of flowers were observed for 20 seconds each (total of around 13 min per orchard).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2009","Full Belly","observation","Apis mellifera","species","honeybees",2,NA,13.3333333333333,NA,"On each orchard, 5 trees were observed. At each tree, eight groups of flowers were observed for 20 seconds each (total of around 13 min per orchard).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2009","Full Belly","observation","Apis mellifera","species","honeybees",2,NA,13.3333333333333,NA,"On each orchard, 5 trees were observed. At each tree, eight groups of flowers were observed for 20 seconds each (total of around 13 min per orchard).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2009","Full Belly","observation","Apis mellifera","species","honeybees",1,NA,13.3333333333333,NA,"On each orchard, 5 trees were observed. At each tree, eight groups of flowers were observed for 20 seconds each (total of around 13 min per orchard).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2009","Full Belly","observation","Apis mellifera","species","honeybees",1,NA,13.3333333333333,NA,"On each orchard, 5 trees were observed. At each tree, eight groups of flowers were observed for 20 seconds each (total of around 13 min per orchard).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2009","Full Belly","observation","Apis mellifera","species","honeybees",1,NA,13.3333333333333,NA,"On each orchard, 5 trees were observed. At each tree, eight groups of flowers were observed for 20 seconds each (total of around 13 min per orchard).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2009","Full Belly","observation","Apis mellifera","species","honeybees",1,NA,13.3333333333333,NA,"On each orchard, 5 trees were observed. At each tree, eight groups of flowers were observed for 20 seconds each (total of around 13 min per orchard).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2009","Full Belly","observation","Apis mellifera","species","honeybees",1,NA,13.3333333333333,NA,"On each orchard, 5 trees were observed. At each tree, eight groups of flowers were observed for 20 seconds each (total of around 13 min per orchard).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2009","Full Belly","observation","Apis mellifera","species","honeybees",1,NA,13.3333333333333,NA,"On each orchard, 5 trees were observed. At each tree, eight groups of flowers were observed for 20 seconds each (total of around 13 min per orchard).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2009","Full Belly","observation","Apis mellifera","species","honeybees",1,NA,13.3333333333333,NA,"On each orchard, 5 trees were observed. At each tree, eight groups of flowers were observed for 20 seconds each (total of around 13 min per orchard).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2009","Full Belly","observation","Apis mellifera","species","honeybees",2,NA,13.3333333333333,NA,"On each orchard, 5 trees were observed. At each tree, eight groups of flowers were observed for 20 seconds each (total of around 13 min per orchard).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2009","Full Belly","observation","Apis mellifera","species","honeybees",1,NA,13.3333333333333,NA,"On each orchard, 5 trees were observed. At each tree, eight groups of flowers were observed for 20 seconds each (total of around 13 min per orchard).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2009","Full Belly","observation","Apis mellifera","species","honeybees",1,NA,13.3333333333333,NA,"On each orchard, 5 trees were observed. At each tree, eight groups of flowers were observed for 20 seconds each (total of around 13 min per orchard).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2009","Full Belly","observation","Apis mellifera","species","honeybees",2,NA,13.3333333333333,NA,"On each orchard, 5 trees were observed. At each tree, eight groups of flowers were observed for 20 seconds each (total of around 13 min per orchard).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2009","Full Belly","observation","Apis mellifera","species","honeybees",3,NA,13.3333333333333,NA,"On each orchard, 5 trees were observed. At each tree, eight groups of flowers were observed for 20 seconds each (total of around 13 min per orchard).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2009","Full Belly","observation","Apis mellifera","species","honeybees",2,NA,13.3333333333333,NA,"On each orchard, 5 trees were observed. At each tree, eight groups of flowers were observed for 20 seconds each (total of around 13 min per orchard).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2009","Full Belly","observation","Apis mellifera","species","honeybees",3,NA,13.3333333333333,NA,"On each orchard, 5 trees were observed. At each tree, eight groups of flowers were observed for 20 seconds each (total of around 13 min per orchard).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2009","Full Belly","observation","Apis mellifera","species","honeybees",2,NA,13.3333333333333,NA,"On each orchard, 5 trees were observed. At each tree, eight groups of flowers were observed for 20 seconds each (total of around 13 min per orchard).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2009","Full Belly","observation","Apis mellifera","species","honeybees",1,NA,13.3333333333333,NA,"On each orchard, 5 trees were observed. At each tree, eight groups of flowers were observed for 20 seconds each (total of around 13 min per orchard).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2009","Full Belly","observation","Apis mellifera","species","honeybees",3,NA,13.3333333333333,NA,"On each orchard, 5 trees were observed. At each tree, eight groups of flowers were observed for 20 seconds each (total of around 13 min per orchard).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2009","Full Belly","observation","Apis mellifera","species","honeybees",1,NA,13.3333333333333,NA,"On each orchard, 5 trees were observed. At each tree, eight groups of flowers were observed for 20 seconds each (total of around 13 min per orchard).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2009","Full Belly","observation","Apis mellifera","species","honeybees",1,NA,13.3333333333333,NA,"On each orchard, 5 trees were observed. At each tree, eight groups of flowers were observed for 20 seconds each (total of around 13 min per orchard).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2009","Full Belly","observation","Apis mellifera","species","honeybees",2,NA,13.3333333333333,NA,"On each orchard, 5 trees were observed. At each tree, eight groups of flowers were observed for 20 seconds each (total of around 13 min per orchard).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2009","Full Belly","observation","Apis mellifera","species","honeybees",1,NA,13.3333333333333,NA,"On each orchard, 5 trees were observed. At each tree, eight groups of flowers were observed for 20 seconds each (total of around 13 min per orchard).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2009","Full Belly","observation","Apis mellifera","species","honeybees",1,NA,13.3333333333333,NA,"On each orchard, 5 trees were observed. At each tree, eight groups of flowers were observed for 20 seconds each (total of around 13 min per orchard).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2009","Full Belly","observation","Apis mellifera","species","honeybees",1,NA,13.3333333333333,NA,"On each orchard, 5 trees were observed. At each tree, eight groups of flowers were observed for 20 seconds each (total of around 13 min per orchard).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2009","Full Belly","observation","Bombus","genus","bumblebees",1,NA,13.3333333333333,NA,"On each orchard, 5 trees were observed. At each tree, eight groups of flowers were observed for 20 seconds each (total of around 13 min per orchard).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2009","Full Belly","observation","Apis mellifera","species","honeybees",2,NA,13.3333333333333,NA,"On each orchard, 5 trees were observed. At each tree, eight groups of flowers were observed for 20 seconds each (total of around 13 min per orchard).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2009","Full Belly","observation","Apis mellifera","species","honeybees",2,NA,13.3333333333333,NA,"On each orchard, 5 trees were observed. At each tree, eight groups of flowers were observed for 20 seconds each (total of around 13 min per orchard).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2009","Full Belly","observation","Apis mellifera","species","honeybees",2,NA,13.3333333333333,NA,"On each orchard, 5 trees were observed. At each tree, eight groups of flowers were observed for 20 seconds each (total of around 13 min per orchard).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2009","Full Belly","observation","Apis mellifera","species","honeybees",2,NA,13.3333333333333,NA,"On each orchard, 5 trees were observed. At each tree, eight groups of flowers were observed for 20 seconds each (total of around 13 min per orchard).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2009","Full Belly","observation","Apis mellifera","species","honeybees",3,NA,13.3333333333333,NA,"On each orchard, 5 trees were observed. At each tree, eight groups of flowers were observed for 20 seconds each (total of around 13 min per orchard).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2009","Full Belly","observation","Apis mellifera","species","honeybees",1,NA,13.3333333333333,NA,"On each orchard, 5 trees were observed. At each tree, eight groups of flowers were observed for 20 seconds each (total of around 13 min per orchard).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2009","Full Belly","observation","Apis mellifera","species","honeybees",3,NA,13.3333333333333,NA,"On each orchard, 5 trees were observed. At each tree, eight groups of flowers were observed for 20 seconds each (total of around 13 min per orchard).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2009","Full Belly","observation","Apis mellifera","species","honeybees",3,NA,13.3333333333333,NA,"On each orchard, 5 trees were observed. At each tree, eight groups of flowers were observed for 20 seconds each (total of around 13 min per orchard).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2009","Full Belly","observation","Apis mellifera","species","honeybees",1,NA,13.3333333333333,NA,"On each orchard, 5 trees were observed. At each tree, eight groups of flowers were observed for 20 seconds each (total of around 13 min per orchard).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2009","Full Belly","observation","Apis mellifera","species","honeybees",2,NA,13.3333333333333,NA,"On each orchard, 5 trees were observed. At each tree, eight groups of flowers were observed for 20 seconds each (total of around 13 min per orchard).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2009","Full Belly","observation","Apis mellifera","species","honeybees",1,NA,13.3333333333333,NA,"On each orchard, 5 trees were observed. At each tree, eight groups of flowers were observed for 20 seconds each (total of around 13 min per orchard).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2009","Full Belly","observation","Apis mellifera","species","honeybees",1,NA,13.3333333333333,NA,"On each orchard, 5 trees were observed. At each tree, eight groups of flowers were observed for 20 seconds each (total of around 13 min per orchard).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2009","Full Belly","observation","Apis mellifera","species","honeybees",1,NA,13.3333333333333,NA,"On each orchard, 5 trees were observed. At each tree, eight groups of flowers were observed for 20 seconds each (total of around 13 min per orchard).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2009","Full Belly","observation","Apis mellifera","species","honeybees",2,NA,13.3333333333333,NA,"On each orchard, 5 trees were observed. At each tree, eight groups of flowers were observed for 20 seconds each (total of around 13 min per orchard).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2009","Full Belly","observation","Apis mellifera","species","honeybees",3,NA,13.3333333333333,NA,"On each orchard, 5 trees were observed. At each tree, eight groups of flowers were observed for 20 seconds each (total of around 13 min per orchard).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2009","Full Belly","observation","Bombus","genus","bumblebees",1,NA,13.3333333333333,NA,"On each orchard, 5 trees were observed. At each tree, eight groups of flowers were observed for 20 seconds each (total of around 13 min per orchard).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2009","Full Belly","observation","Apis mellifera","species","honeybees",1,NA,13.3333333333333,NA,"On each orchard, 5 trees were observed. At each tree, eight groups of flowers were observed for 20 seconds each (total of around 13 min per orchard).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2009","Full Belly","observation","Apis mellifera","species","honeybees",1,NA,13.3333333333333,NA,"On each orchard, 5 trees were observed. At each tree, eight groups of flowers were observed for 20 seconds each (total of around 13 min per orchard).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2009","Laury","observation","Apis mellifera","species","honeybees",1,NA,13.3333333333333,NA,"On each orchard, 5 trees were observed. At each tree, eight groups of flowers were observed for 20 seconds each (total of around 13 min per orchard).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2009","Laury","observation","Apis mellifera","species","honeybees",2,NA,13.3333333333333,NA,"On each orchard, 5 trees were observed. At each tree, eight groups of flowers were observed for 20 seconds each (total of around 13 min per orchard).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2009","Laury","observation","Panurginus gracilis","species","other_wild_bees",1,NA,13.3333333333333,NA,"On each orchard, 5 trees were observed. At each tree, eight groups of flowers were observed for 20 seconds each (total of around 13 min per orchard).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2009","Laury","observation","Lasioglossum Evylaeus sp. E","morphospecies","other_wild_bees",1,NA,13.3333333333333,NA,"On each orchard, 5 trees were observed. At each tree, eight groups of flowers were observed for 20 seconds each (total of around 13 min per orchard).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2009","Laury","observation","Panurginus gracilis","species","other_wild_bees",5,NA,13.3333333333333,NA,"On each orchard, 5 trees were observed. At each tree, eight groups of flowers were observed for 20 seconds each (total of around 13 min per orchard).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2009","Laury","observation","Andrena cerasifolii","species","other_wild_bees",1,NA,13.3333333333333,NA,"On each orchard, 5 trees were observed. At each tree, eight groups of flowers were observed for 20 seconds each (total of around 13 min per orchard).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2009","Laury","observation","Panurginus gracilis","species","other_wild_bees",1,NA,13.3333333333333,NA,"On each orchard, 5 trees were observed. At each tree, eight groups of flowers were observed for 20 seconds each (total of around 13 min per orchard).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2009","Laury","observation","Apis mellifera","species","honeybees",2,NA,13.3333333333333,NA,"On each orchard, 5 trees were observed. At each tree, eight groups of flowers were observed for 20 seconds each (total of around 13 min per orchard).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2009","Laury","observation","Panurginus gracilis","species","other_wild_bees",1,NA,13.3333333333333,NA,"On each orchard, 5 trees were observed. At each tree, eight groups of flowers were observed for 20 seconds each (total of around 13 min per orchard).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2009","Laury","observation","Panurginus gracilis","species","other_wild_bees",1,NA,13.3333333333333,NA,"On each orchard, 5 trees were observed. At each tree, eight groups of flowers were observed for 20 seconds each (total of around 13 min per orchard).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2009","Laury","observation","Lasioglossum Evylaeus sp. E","morphospecies","other_wild_bees",1,NA,13.3333333333333,NA,"On each orchard, 5 trees were observed. At each tree, eight groups of flowers were observed for 20 seconds each (total of around 13 min per orchard).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2009","Laury","observation","Apis mellifera","species","honeybees",3,NA,13.3333333333333,NA,"On each orchard, 5 trees were observed. At each tree, eight groups of flowers were observed for 20 seconds each (total of around 13 min per orchard).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2009","Laury","observation","Andrena cerasifolii","species","other_wild_bees",1,NA,13.3333333333333,NA,"On each orchard, 5 trees were observed. At each tree, eight groups of flowers were observed for 20 seconds each (total of around 13 min per orchard).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2009","Laury","observation","Panurginus gracilis","species","other_wild_bees",1,NA,13.3333333333333,NA,"On each orchard, 5 trees were observed. At each tree, eight groups of flowers were observed for 20 seconds each (total of around 13 min per orchard).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2009","Laury","observation","Lasioglossum Evylaeus sp. F","morphospecies","other_wild_bees",1,NA,13.3333333333333,NA,"On each orchard, 5 trees were observed. At each tree, eight groups of flowers were observed for 20 seconds each (total of around 13 min per orchard).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2009","Laury","observation","Panurginus gracilis","species","other_wild_bees",1,NA,13.3333333333333,NA,"On each orchard, 5 trees were observed. At each tree, eight groups of flowers were observed for 20 seconds each (total of around 13 min per orchard).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2009","Laury","observation","Apis mellifera","species","honeybees",1,NA,13.3333333333333,NA,"On each orchard, 5 trees were observed. At each tree, eight groups of flowers were observed for 20 seconds each (total of around 13 min per orchard).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2009","Laury","observation","Apis mellifera","species","honeybees",3,NA,13.3333333333333,NA,"On each orchard, 5 trees were observed. At each tree, eight groups of flowers were observed for 20 seconds each (total of around 13 min per orchard).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2009","Laury","observation","Lasioglossum Evylaeus sp. E","morphospecies","other_wild_bees",1,NA,13.3333333333333,NA,"On each orchard, 5 trees were observed. At each tree, eight groups of flowers were observed for 20 seconds each (total of around 13 min per orchard).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2009","Laury","observation","Apis mellifera","species","honeybees",1,NA,13.3333333333333,NA,"On each orchard, 5 trees were observed. At each tree, eight groups of flowers were observed for 20 seconds each (total of around 13 min per orchard).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2009","Laury","observation","Apis mellifera","species","honeybees",1,NA,13.3333333333333,NA,"On each orchard, 5 trees were observed. At each tree, eight groups of flowers were observed for 20 seconds each (total of around 13 min per orchard).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2009","Laury","observation","Lasioglossum Evylaeus sp. E","morphospecies","other_wild_bees",1,NA,13.3333333333333,NA,"On each orchard, 5 trees were observed. At each tree, eight groups of flowers were observed for 20 seconds each (total of around 13 min per orchard).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2009","Laury","observation","Apis mellifera","species","honeybees",1,NA,13.3333333333333,NA,"On each orchard, 5 trees were observed. At each tree, eight groups of flowers were observed for 20 seconds each (total of around 13 min per orchard).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2009","Laury","observation","Andrena cerasifolii","species","other_wild_bees",1,NA,13.3333333333333,NA,"On each orchard, 5 trees were observed. At each tree, eight groups of flowers were observed for 20 seconds each (total of around 13 min per orchard).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2009","Laury","observation","Bombus melanopygus","species","bumblebees",1,NA,13.3333333333333,NA,"On each orchard, 5 trees were observed. At each tree, eight groups of flowers were observed for 20 seconds each (total of around 13 min per orchard).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2009","Laury","observation","Apis mellifera","species","honeybees",1,NA,13.3333333333333,NA,"On each orchard, 5 trees were observed. At each tree, eight groups of flowers were observed for 20 seconds each (total of around 13 min per orchard).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2009","Laury","observation","Bombus melanopygus","species","bumblebees",1,NA,13.3333333333333,NA,"On each orchard, 5 trees were observed. At each tree, eight groups of flowers were observed for 20 seconds each (total of around 13 min per orchard).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2009","Laury","observation","Bombus melanopygus","species","bumblebees",1,NA,13.3333333333333,NA,"On each orchard, 5 trees were observed. At each tree, eight groups of flowers were observed for 20 seconds each (total of around 13 min per orchard).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2009","Laury","observation","Panurginus gracilis","species","other_wild_bees",1,NA,13.3333333333333,NA,"On each orchard, 5 trees were observed. At each tree, eight groups of flowers were observed for 20 seconds each (total of around 13 min per orchard).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2009","Laury","observation","Lasioglossum Evylaeus sp. E","morphospecies","other_wild_bees",1,NA,13.3333333333333,NA,"On each orchard, 5 trees were observed. At each tree, eight groups of flowers were observed for 20 seconds each (total of around 13 min per orchard).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2009","Laury","observation","Andrena cerasifolii","species","other_wild_bees",1,NA,13.3333333333333,NA,"On each orchard, 5 trees were observed. At each tree, eight groups of flowers were observed for 20 seconds each (total of around 13 min per orchard).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2009","Bramlett","observation","Apis mellifera","species","honeybees",1,NA,13.3333333333333,NA,"On each orchard, 5 trees were observed. At each tree, eight groups of flowers were observed for 20 seconds each (total of around 13 min per orchard).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2009","Bramlett","observation","Apis mellifera","species","honeybees",1,NA,13.3333333333333,NA,"On each orchard, 5 trees were observed. At each tree, eight groups of flowers were observed for 20 seconds each (total of around 13 min per orchard).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2009","Bramlett","observation","Apis mellifera","species","honeybees",1,NA,13.3333333333333,NA,"On each orchard, 5 trees were observed. At each tree, eight groups of flowers were observed for 20 seconds each (total of around 13 min per orchard).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2009","Bramlett","observation","Apis mellifera","species","honeybees",2,NA,13.3333333333333,NA,"On each orchard, 5 trees were observed. At each tree, eight groups of flowers were observed for 20 seconds each (total of around 13 min per orchard).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2009","Bramlett","observation","Bombus vosnesenskii","species","bumblebees",1,NA,13.3333333333333,NA,"On each orchard, 5 trees were observed. At each tree, eight groups of flowers were observed for 20 seconds each (total of around 13 min per orchard).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2009","Bramlett","observation","Apis mellifera","species","honeybees",1,NA,13.3333333333333,NA,"On each orchard, 5 trees were observed. At each tree, eight groups of flowers were observed for 20 seconds each (total of around 13 min per orchard).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2009","Bramlett","observation","Panurginus gracilis","species","other_wild_bees",1,NA,13.3333333333333,NA,"On each orchard, 5 trees were observed. At each tree, eight groups of flowers were observed for 20 seconds each (total of around 13 min per orchard).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2009","Bramlett","observation","Apis mellifera","species","honeybees",1,NA,13.3333333333333,NA,"On each orchard, 5 trees were observed. At each tree, eight groups of flowers were observed for 20 seconds each (total of around 13 min per orchard).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2009","Bramlett","observation","Apis mellifera","species","honeybees",1,NA,13.3333333333333,NA,"On each orchard, 5 trees were observed. At each tree, eight groups of flowers were observed for 20 seconds each (total of around 13 min per orchard).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2009","Bramlett","observation","Apis mellifera","species","honeybees",1,NA,13.3333333333333,NA,"On each orchard, 5 trees were observed. At each tree, eight groups of flowers were observed for 20 seconds each (total of around 13 min per orchard).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2009","Bramlett","observation","Apis mellifera","species","honeybees",1,NA,13.3333333333333,NA,"On each orchard, 5 trees were observed. At each tree, eight groups of flowers were observed for 20 seconds each (total of around 13 min per orchard).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2009","Bramlett","observation","Halictidae","family","other_wild_bees",1,NA,13.3333333333333,NA,"On each orchard, 5 trees were observed. At each tree, eight groups of flowers were observed for 20 seconds each (total of around 13 min per orchard).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2009","Bramlett","observation","Bombus melanopygus","species","bumblebees",1,NA,13.3333333333333,NA,"On each orchard, 5 trees were observed. At each tree, eight groups of flowers were observed for 20 seconds each (total of around 13 min per orchard).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2009","Bramlett","observation","Bombus melanopygus","species","bumblebees",1,NA,13.3333333333333,NA,"On each orchard, 5 trees were observed. At each tree, eight groups of flowers were observed for 20 seconds each (total of around 13 min per orchard).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2009","Bramlett","observation","Andrena cerasifolii","species","other_wild_bees",1,NA,13.3333333333333,NA,"On each orchard, 5 trees were observed. At each tree, eight groups of flowers were observed for 20 seconds each (total of around 13 min per orchard).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2009","Etters","observation","Apis mellifera","species","honeybees",1,NA,13.3333333333333,NA,"On each orchard, 5 trees were observed. At each tree, eight groups of flowers were observed for 20 seconds each (total of around 13 min per orchard).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2009","Etters","observation","Andrena cerasifolii","species","other_wild_bees",1,NA,13.3333333333333,NA,"On each orchard, 5 trees were observed. At each tree, eight groups of flowers were observed for 20 seconds each (total of around 13 min per orchard).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2009","Etters","observation","Apis mellifera","species","honeybees",1,NA,13.3333333333333,NA,"On each orchard, 5 trees were observed. At each tree, eight groups of flowers were observed for 20 seconds each (total of around 13 min per orchard).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2009","Etters","observation","Apis mellifera","species","honeybees",1,NA,13.3333333333333,NA,"On each orchard, 5 trees were observed. At each tree, eight groups of flowers were observed for 20 seconds each (total of around 13 min per orchard).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2009","Etters","observation","Apis mellifera","species","honeybees",1,NA,13.3333333333333,NA,"On each orchard, 5 trees were observed. At each tree, eight groups of flowers were observed for 20 seconds each (total of around 13 min per orchard).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2009","Etters","observation","Apis mellifera","species","honeybees",1,NA,13.3333333333333,NA,"On each orchard, 5 trees were observed. At each tree, eight groups of flowers were observed for 20 seconds each (total of around 13 min per orchard).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2009","Etters","observation","Lasioglossum Evylaeus sp. E","morphospecies","other_wild_bees",1,NA,13.3333333333333,NA,"On each orchard, 5 trees were observed. At each tree, eight groups of flowers were observed for 20 seconds each (total of around 13 min per orchard).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2009","Etters","observation","Apis mellifera","species","honeybees",1,NA,13.3333333333333,NA,"On each orchard, 5 trees were observed. At each tree, eight groups of flowers were observed for 20 seconds each (total of around 13 min per orchard).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2009","Etters","observation","Apis mellifera","species","honeybees",1,NA,13.3333333333333,NA,"On each orchard, 5 trees were observed. At each tree, eight groups of flowers were observed for 20 seconds each (total of around 13 min per orchard).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2009","Etters","observation","Apis mellifera","species","honeybees",1,NA,13.3333333333333,NA,"On each orchard, 5 trees were observed. At each tree, eight groups of flowers were observed for 20 seconds each (total of around 13 min per orchard).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2009","Etters","observation","Apis mellifera","species","honeybees",1,NA,13.3333333333333,NA,"On each orchard, 5 trees were observed. At each tree, eight groups of flowers were observed for 20 seconds each (total of around 13 min per orchard).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2009","Etters","observation","Apis mellifera","species","honeybees",1,NA,13.3333333333333,NA,"On each orchard, 5 trees were observed. At each tree, eight groups of flowers were observed for 20 seconds each (total of around 13 min per orchard).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2009","Etters","observation","Apis mellifera","species","honeybees",1,NA,13.3333333333333,NA,"On each orchard, 5 trees were observed. At each tree, eight groups of flowers were observed for 20 seconds each (total of around 13 min per orchard).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2009","Etters","observation","Andrena cerasifolii","species","other_wild_bees",1,NA,13.3333333333333,NA,"On each orchard, 5 trees were observed. At each tree, eight groups of flowers were observed for 20 seconds each (total of around 13 min per orchard).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2009","Etters","observation","Apis mellifera","species","honeybees",2,NA,13.3333333333333,NA,"On each orchard, 5 trees were observed. At each tree, eight groups of flowers were observed for 20 seconds each (total of around 13 min per orchard).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2009","Etters","observation","Apis mellifera","species","honeybees",1,NA,13.3333333333333,NA,"On each orchard, 5 trees were observed. At each tree, eight groups of flowers were observed for 20 seconds each (total of around 13 min per orchard).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2009","Etters","observation","Apis mellifera","species","honeybees",2,NA,13.3333333333333,NA,"On each orchard, 5 trees were observed. At each tree, eight groups of flowers were observed for 20 seconds each (total of around 13 min per orchard).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2009","Etters","observation","Andrena caerulea","species","other_wild_bees",1,NA,13.3333333333333,NA,"On each orchard, 5 trees were observed. At each tree, eight groups of flowers were observed for 20 seconds each (total of around 13 min per orchard).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2009","Etters","observation","Apis mellifera","species","honeybees",1,NA,13.3333333333333,NA,"On each orchard, 5 trees were observed. At each tree, eight groups of flowers were observed for 20 seconds each (total of around 13 min per orchard).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2009","Etters","observation","Apis mellifera","species","honeybees",1,NA,13.3333333333333,NA,"On each orchard, 5 trees were observed. At each tree, eight groups of flowers were observed for 20 seconds each (total of around 13 min per orchard).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2009","Etters","observation","Lasioglossum Evylaeus sp. E","morphospecies","other_wild_bees",1,NA,13.3333333333333,NA,"On each orchard, 5 trees were observed. At each tree, eight groups of flowers were observed for 20 seconds each (total of around 13 min per orchard).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2009","Etters","observation","Andrena cerasifolii","species","other_wild_bees",1,NA,13.3333333333333,NA,"On each orchard, 5 trees were observed. At each tree, eight groups of flowers were observed for 20 seconds each (total of around 13 min per orchard).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2009","Taber","observation","Apis mellifera","species","honeybees",1,NA,13.3333333333333,NA,"On each orchard, 5 trees were observed. At each tree, eight groups of flowers were observed for 20 seconds each (total of around 13 min per orchard).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2009","Taber","observation","Apis mellifera","species","honeybees",1,NA,13.3333333333333,NA,"On each orchard, 5 trees were observed. At each tree, eight groups of flowers were observed for 20 seconds each (total of around 13 min per orchard).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2009","Taber","observation","Apis mellifera","species","honeybees",1,NA,13.3333333333333,NA,"On each orchard, 5 trees were observed. At each tree, eight groups of flowers were observed for 20 seconds each (total of around 13 min per orchard).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2009","Taber","observation","Apis mellifera","species","honeybees",1,NA,13.3333333333333,NA,"On each orchard, 5 trees were observed. At each tree, eight groups of flowers were observed for 20 seconds each (total of around 13 min per orchard).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2009","Taber","observation","Apis mellifera","species","honeybees",1,NA,13.3333333333333,NA,"On each orchard, 5 trees were observed. At each tree, eight groups of flowers were observed for 20 seconds each (total of around 13 min per orchard).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2009","Taber","observation","Apis mellifera","species","honeybees",1,NA,13.3333333333333,NA,"On each orchard, 5 trees were observed. At each tree, eight groups of flowers were observed for 20 seconds each (total of around 13 min per orchard).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2009","Taber","observation","Apis mellifera","species","honeybees",1,NA,13.3333333333333,NA,"On each orchard, 5 trees were observed. At each tree, eight groups of flowers were observed for 20 seconds each (total of around 13 min per orchard).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2009","Taber","observation","Apis mellifera","species","honeybees",1,NA,13.3333333333333,NA,"On each orchard, 5 trees were observed. At each tree, eight groups of flowers were observed for 20 seconds each (total of around 13 min per orchard).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2009","Taber","observation","Apis mellifera","species","honeybees",1,NA,13.3333333333333,NA,"On each orchard, 5 trees were observed. At each tree, eight groups of flowers were observed for 20 seconds each (total of around 13 min per orchard).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2009","Taber","observation","Apis mellifera","species","honeybees",1,NA,13.3333333333333,NA,"On each orchard, 5 trees were observed. At each tree, eight groups of flowers were observed for 20 seconds each (total of around 13 min per orchard).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2009","Taber","observation","Apis mellifera","species","honeybees",1,NA,13.3333333333333,NA,"On each orchard, 5 trees were observed. At each tree, eight groups of flowers were observed for 20 seconds each (total of around 13 min per orchard).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2009","Taber","observation","Apis mellifera","species","honeybees",1,NA,13.3333333333333,NA,"On each orchard, 5 trees were observed. At each tree, eight groups of flowers were observed for 20 seconds each (total of around 13 min per orchard).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2009","Taber","observation","Apis mellifera","species","honeybees",2,NA,13.3333333333333,NA,"On each orchard, 5 trees were observed. At each tree, eight groups of flowers were observed for 20 seconds each (total of around 13 min per orchard).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2009","Taber","observation","Apis mellifera","species","honeybees",1,NA,13.3333333333333,NA,"On each orchard, 5 trees were observed. At each tree, eight groups of flowers were observed for 20 seconds each (total of around 13 min per orchard).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2009","Taber","observation","Apis mellifera","species","honeybees",1,NA,13.3333333333333,NA,"On each orchard, 5 trees were observed. At each tree, eight groups of flowers were observed for 20 seconds each (total of around 13 min per orchard).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2009","Taber","observation","Apis mellifera","species","honeybees",2,NA,13.3333333333333,NA,"On each orchard, 5 trees were observed. At each tree, eight groups of flowers were observed for 20 seconds each (total of around 13 min per orchard).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2009","Taber","observation","Apis mellifera","species","honeybees",1,NA,13.3333333333333,NA,"On each orchard, 5 trees were observed. At each tree, eight groups of flowers were observed for 20 seconds each (total of around 13 min per orchard).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2009","Taber","observation","Apis mellifera","species","honeybees",1,NA,13.3333333333333,NA,"On each orchard, 5 trees were observed. At each tree, eight groups of flowers were observed for 20 seconds each (total of around 13 min per orchard).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2009","Tim Mueller 1","observation","Bombus melanopygus","species","bumblebees",1,NA,13.3333333333333,NA,"On each orchard, 5 trees were observed. At each tree, eight groups of flowers were observed for 20 seconds each (total of around 13 min per orchard).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2009","Tim Mueller 1","observation","Apis mellifera","species","honeybees",1,NA,13.3333333333333,NA,"On each orchard, 5 trees were observed. At each tree, eight groups of flowers were observed for 20 seconds each (total of around 13 min per orchard).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2009","Tim Mueller 1","observation","Apis mellifera","species","honeybees",1,NA,13.3333333333333,NA,"On each orchard, 5 trees were observed. At each tree, eight groups of flowers were observed for 20 seconds each (total of around 13 min per orchard).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2009","Tim Mueller 1","observation","Apis mellifera","species","honeybees",2,NA,13.3333333333333,NA,"On each orchard, 5 trees were observed. At each tree, eight groups of flowers were observed for 20 seconds each (total of around 13 min per orchard).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2009","Tim Mueller 1","observation","Apis mellifera","species","honeybees",1,NA,13.3333333333333,NA,"On each orchard, 5 trees were observed. At each tree, eight groups of flowers were observed for 20 seconds each (total of around 13 min per orchard).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2009","Tim Mueller 1","observation","Apis mellifera","species","honeybees",1,NA,13.3333333333333,NA,"On each orchard, 5 trees were observed. At each tree, eight groups of flowers were observed for 20 seconds each (total of around 13 min per orchard).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2009","Tim Mueller 1","observation","Apis mellifera","species","honeybees",2,NA,13.3333333333333,NA,"On each orchard, 5 trees were observed. At each tree, eight groups of flowers were observed for 20 seconds each (total of around 13 min per orchard).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2009","Tim Mueller 1","observation","Andrena cerasifolii","species","other_wild_bees",1,NA,13.3333333333333,NA,"On each orchard, 5 trees were observed. At each tree, eight groups of flowers were observed for 20 seconds each (total of around 13 min per orchard).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2009","Tim Mueller 1","observation","Apis mellifera","species","honeybees",1,NA,13.3333333333333,NA,"On each orchard, 5 trees were observed. At each tree, eight groups of flowers were observed for 20 seconds each (total of around 13 min per orchard).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2009","Tim Mueller 1","observation","Andrena cerasifolii","species","other_wild_bees",1,NA,13.3333333333333,NA,"On each orchard, 5 trees were observed. At each tree, eight groups of flowers were observed for 20 seconds each (total of around 13 min per orchard).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2009","Tim Mueller 1","observation","Apis mellifera","species","honeybees",1,NA,13.3333333333333,NA,"On each orchard, 5 trees were observed. At each tree, eight groups of flowers were observed for 20 seconds each (total of around 13 min per orchard).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2009","Tim Mueller 1","observation","Apis mellifera","species","honeybees",1,NA,13.3333333333333,NA,"On each orchard, 5 trees were observed. At each tree, eight groups of flowers were observed for 20 seconds each (total of around 13 min per orchard).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2009","Tim Mueller 1","observation","Apis mellifera","species","honeybees",1,NA,13.3333333333333,NA,"On each orchard, 5 trees were observed. At each tree, eight groups of flowers were observed for 20 seconds each (total of around 13 min per orchard).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2009","Tim Mueller 1","observation","Apis mellifera","species","honeybees",1,NA,13.3333333333333,NA,"On each orchard, 5 trees were observed. At each tree, eight groups of flowers were observed for 20 seconds each (total of around 13 min per orchard).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2009","Tim Mueller 1","observation","Apis mellifera","species","honeybees",1,NA,13.3333333333333,NA,"On each orchard, 5 trees were observed. At each tree, eight groups of flowers were observed for 20 seconds each (total of around 13 min per orchard).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2009","Tim Mueller 1","observation","Apis mellifera","species","honeybees",2,NA,13.3333333333333,NA,"On each orchard, 5 trees were observed. At each tree, eight groups of flowers were observed for 20 seconds each (total of around 13 min per orchard).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2009","Tim Mueller 1","observation","Apis mellifera","species","honeybees",1,NA,13.3333333333333,NA,"On each orchard, 5 trees were observed. At each tree, eight groups of flowers were observed for 20 seconds each (total of around 13 min per orchard).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2009","Tim Mueller 1","observation","Bombus melanopygus","species","bumblebees",1,NA,13.3333333333333,NA,"On each orchard, 5 trees were observed. At each tree, eight groups of flowers were observed for 20 seconds each (total of around 13 min per orchard).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2009","Tim Mueller 1","observation","Andrena cerasifolii","species","other_wild_bees",1,NA,13.3333333333333,NA,"On each orchard, 5 trees were observed. At each tree, eight groups of flowers were observed for 20 seconds each (total of around 13 min per orchard).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2009","Tim Mueller 1","observation","Andrena cerasifolii","species","other_wild_bees",1,NA,13.3333333333333,NA,"On each orchard, 5 trees were observed. At each tree, eight groups of flowers were observed for 20 seconds each (total of around 13 min per orchard).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2009","Tim Mueller 1","observation","Andrena cerasifolii","species","other_wild_bees",4,NA,13.3333333333333,NA,"On each orchard, 5 trees were observed. At each tree, eight groups of flowers were observed for 20 seconds each (total of around 13 min per orchard).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2009","Tim Mueller 1","observation","Andrena cerasifolii","species","other_wild_bees",2,NA,13.3333333333333,NA,"On each orchard, 5 trees were observed. At each tree, eight groups of flowers were observed for 20 seconds each (total of around 13 min per orchard).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2009","Tim Mueller 1","observation","Bombus melanopygus","species","bumblebees",1,NA,13.3333333333333,NA,"On each orchard, 5 trees were observed. At each tree, eight groups of flowers were observed for 20 seconds each (total of around 13 min per orchard).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2009","Tim Mueller 2","observation","Apis mellifera","species","honeybees",1,NA,13.3333333333333,NA,"On each orchard, 5 trees were observed. At each tree, eight groups of flowers were observed for 20 seconds each (total of around 13 min per orchard).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2009","Tim Mueller 2","observation","Apis mellifera","species","honeybees",2,NA,13.3333333333333,NA,"On each orchard, 5 trees were observed. At each tree, eight groups of flowers were observed for 20 seconds each (total of around 13 min per orchard).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2009","Tim Mueller 2","observation","Apis mellifera","species","honeybees",1,NA,13.3333333333333,NA,"On each orchard, 5 trees were observed. At each tree, eight groups of flowers were observed for 20 seconds each (total of around 13 min per orchard).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2009","Tim Mueller 2","observation","Apis mellifera","species","honeybees",1,NA,13.3333333333333,NA,"On each orchard, 5 trees were observed. At each tree, eight groups of flowers were observed for 20 seconds each (total of around 13 min per orchard).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2009","Tim Mueller 2","observation","Apis mellifera","species","honeybees",1,NA,13.3333333333333,NA,"On each orchard, 5 trees were observed. At each tree, eight groups of flowers were observed for 20 seconds each (total of around 13 min per orchard).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2009","Tim Mueller 2","observation","Apis mellifera","species","honeybees",1,NA,13.3333333333333,NA,"On each orchard, 5 trees were observed. At each tree, eight groups of flowers were observed for 20 seconds each (total of around 13 min per orchard).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2009","Tim Mueller 2","observation","Apis mellifera","species","honeybees",1,NA,13.3333333333333,NA,"On each orchard, 5 trees were observed. At each tree, eight groups of flowers were observed for 20 seconds each (total of around 13 min per orchard).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2009","Tim Mueller 2","observation","Apis mellifera","species","honeybees",1,NA,13.3333333333333,NA,"On each orchard, 5 trees were observed. At each tree, eight groups of flowers were observed for 20 seconds each (total of around 13 min per orchard).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2009","Tim Mueller 2","observation","Andrena cerasifolii","species","other_wild_bees",1,NA,13.3333333333333,NA,"On each orchard, 5 trees were observed. At each tree, eight groups of flowers were observed for 20 seconds each (total of around 13 min per orchard).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2009","Tim Mueller 2","observation","Apis mellifera","species","honeybees",1,NA,13.3333333333333,NA,"On each orchard, 5 trees were observed. At each tree, eight groups of flowers were observed for 20 seconds each (total of around 13 min per orchard).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2009","Tim Mueller 2","observation","Apis mellifera","species","honeybees",1,NA,13.3333333333333,NA,"On each orchard, 5 trees were observed. At each tree, eight groups of flowers were observed for 20 seconds each (total of around 13 min per orchard).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2009","Tim Mueller 2","observation","Apis mellifera","species","honeybees",1,NA,13.3333333333333,NA,"On each orchard, 5 trees were observed. At each tree, eight groups of flowers were observed for 20 seconds each (total of around 13 min per orchard).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2009","Tim Mueller 2","observation","Apis mellifera","species","honeybees",1,NA,13.3333333333333,NA,"On each orchard, 5 trees were observed. At each tree, eight groups of flowers were observed for 20 seconds each (total of around 13 min per orchard).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2009","Tim Mueller 2","observation","Apis mellifera","species","honeybees",1,NA,13.3333333333333,NA,"On each orchard, 5 trees were observed. At each tree, eight groups of flowers were observed for 20 seconds each (total of around 13 min per orchard).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2009","Tim Mueller 2","observation","Apis mellifera","species","honeybees",1,NA,13.3333333333333,NA,"On each orchard, 5 trees were observed. At each tree, eight groups of flowers were observed for 20 seconds each (total of around 13 min per orchard).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2009","Tim Mueller 2","observation","Apis mellifera","species","honeybees",1,NA,13.3333333333333,NA,"On each orchard, 5 trees were observed. At each tree, eight groups of flowers were observed for 20 seconds each (total of around 13 min per orchard).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2009","Tim Mueller 2","observation","Apis mellifera","species","honeybees",1,NA,13.3333333333333,NA,"On each orchard, 5 trees were observed. At each tree, eight groups of flowers were observed for 20 seconds each (total of around 13 min per orchard).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2009","Tim Mueller 2","observation","Apis mellifera","species","honeybees",1,NA,13.3333333333333,NA,"On each orchard, 5 trees were observed. At each tree, eight groups of flowers were observed for 20 seconds each (total of around 13 min per orchard).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2009","Tim Mueller 2","observation","Apis mellifera","species","honeybees",1,NA,13.3333333333333,NA,"On each orchard, 5 trees were observed. At each tree, eight groups of flowers were observed for 20 seconds each (total of around 13 min per orchard).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2009","Tim Mueller 2","observation","Apis mellifera","species","honeybees",1,NA,13.3333333333333,NA,"On each orchard, 5 trees were observed. At each tree, eight groups of flowers were observed for 20 seconds each (total of around 13 min per orchard).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2009","Tim Mueller 2","observation","Andrena cerasifolii","species","other_wild_bees",1,NA,13.3333333333333,NA,"On each orchard, 5 trees were observed. At each tree, eight groups of flowers were observed for 20 seconds each (total of around 13 min per orchard).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2009","Tim Mueller 2","observation","Apis mellifera","species","honeybees",1,NA,13.3333333333333,NA,"On each orchard, 5 trees were observed. At each tree, eight groups of flowers were observed for 20 seconds each (total of around 13 min per orchard).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2009","Tim Mueller 2","observation","Andrena cerasifolii","species","other_wild_bees",1,NA,13.3333333333333,NA,"On each orchard, 5 trees were observed. At each tree, eight groups of flowers were observed for 20 seconds each (total of around 13 min per orchard).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2009","Tim Mueller 2","observation","Andrena cerasifolii","species","other_wild_bees",1,NA,13.3333333333333,NA,"On each orchard, 5 trees were observed. At each tree, eight groups of flowers were observed for 20 seconds each (total of around 13 min per orchard).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2009","Bramlett","observation","Apis mellifera","species","honeybees",2,NA,13.3333333333333,NA,"On each orchard, 5 trees were observed. At each tree, eight groups of flowers were observed for 20 seconds each (total of around 13 min per orchard).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2009","Bramlett","observation","Apis mellifera","species","honeybees",2,NA,13.3333333333333,NA,"On each orchard, 5 trees were observed. At each tree, eight groups of flowers were observed for 20 seconds each (total of around 13 min per orchard).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2009","Bramlett","observation","Apis mellifera","species","honeybees",1,NA,13.3333333333333,NA,"On each orchard, 5 trees were observed. At each tree, eight groups of flowers were observed for 20 seconds each (total of around 13 min per orchard).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2009","Bramlett","observation","Andrena cerasifolii","species","other_wild_bees",1,NA,13.3333333333333,NA,"On each orchard, 5 trees were observed. At each tree, eight groups of flowers were observed for 20 seconds each (total of around 13 min per orchard).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2009","Bramlett","observation","Apis mellifera","species","honeybees",1,NA,13.3333333333333,NA,"On each orchard, 5 trees were observed. At each tree, eight groups of flowers were observed for 20 seconds each (total of around 13 min per orchard).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2009","Bramlett","observation","Apis mellifera","species","honeybees",1,NA,13.3333333333333,NA,"On each orchard, 5 trees were observed. At each tree, eight groups of flowers were observed for 20 seconds each (total of around 13 min per orchard).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2009","Bramlett","observation","Andrena cerasifolii","species","other_wild_bees",2,NA,13.3333333333333,NA,"On each orchard, 5 trees were observed. At each tree, eight groups of flowers were observed for 20 seconds each (total of around 13 min per orchard).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2009","Bramlett","observation","Apis mellifera","species","honeybees",1,NA,13.3333333333333,NA,"On each orchard, 5 trees were observed. At each tree, eight groups of flowers were observed for 20 seconds each (total of around 13 min per orchard).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2009","Bramlett","observation","Apis mellifera","species","honeybees",1,NA,13.3333333333333,NA,"On each orchard, 5 trees were observed. At each tree, eight groups of flowers were observed for 20 seconds each (total of around 13 min per orchard).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2009","Bramlett","observation","Apis mellifera","species","honeybees",1,NA,13.3333333333333,NA,"On each orchard, 5 trees were observed. At each tree, eight groups of flowers were observed for 20 seconds each (total of around 13 min per orchard).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2009","Bramlett","observation","Andrena cerasifolii","species","other_wild_bees",1,NA,13.3333333333333,NA,"On each orchard, 5 trees were observed. At each tree, eight groups of flowers were observed for 20 seconds each (total of around 13 min per orchard).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2009","Bramlett","observation","Halictidae","family","other_wild_bees",1,NA,13.3333333333333,NA,"On each orchard, 5 trees were observed. At each tree, eight groups of flowers were observed for 20 seconds each (total of around 13 min per orchard).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2009","Bramlett","observation","Andrena sp","genus","other_wild_bees",1,NA,13.3333333333333,NA,"On each orchard, 5 trees were observed. At each tree, eight groups of flowers were observed for 20 seconds each (total of around 13 min per orchard).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2009","Bramlett","observation","Apis mellifera","species","honeybees",1,NA,13.3333333333333,NA,"On each orchard, 5 trees were observed. At each tree, eight groups of flowers were observed for 20 seconds each (total of around 13 min per orchard).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2009","Bramlett","observation","Lasioglossum Evylaeus sp. E","morphospecies","other_wild_bees",1,NA,13.3333333333333,NA,"On each orchard, 5 trees were observed. At each tree, eight groups of flowers were observed for 20 seconds each (total of around 13 min per orchard).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2009","Bramlett","observation","Apis mellifera","species","honeybees",1,NA,13.3333333333333,NA,"On each orchard, 5 trees were observed. At each tree, eight groups of flowers were observed for 20 seconds each (total of around 13 min per orchard).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2009","Bramlett","observation","Apis mellifera","species","honeybees",1,NA,13.3333333333333,NA,"On each orchard, 5 trees were observed. At each tree, eight groups of flowers were observed for 20 seconds each (total of around 13 min per orchard).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2009","Bramlett","observation","Andrena cerasifolii","species","other_wild_bees",1,NA,13.3333333333333,NA,"On each orchard, 5 trees were observed. At each tree, eight groups of flowers were observed for 20 seconds each (total of around 13 min per orchard).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2009","Bramlett","observation","Andrena cerasifolii","species","other_wild_bees",2,NA,13.3333333333333,NA,"On each orchard, 5 trees were observed. At each tree, eight groups of flowers were observed for 20 seconds each (total of around 13 min per orchard).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2009","Bramlett","observation","Andrena cerasifolii","species","other_wild_bees",4,NA,13.3333333333333,NA,"On each orchard, 5 trees were observed. At each tree, eight groups of flowers were observed for 20 seconds each (total of around 13 min per orchard).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2009","Bramlett","observation","Lasioglossum Evylaeus sp. E","morphospecies","other_wild_bees",2,NA,13.3333333333333,NA,"On each orchard, 5 trees were observed. At each tree, eight groups of flowers were observed for 20 seconds each (total of around 13 min per orchard).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2009","Bramlett","observation","Bombus melanopygus","species","bumblebees",1,NA,13.3333333333333,NA,"On each orchard, 5 trees were observed. At each tree, eight groups of flowers were observed for 20 seconds each (total of around 13 min per orchard).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2009","Bramlett","observation","Andrena sp","genus","other_wild_bees",1,NA,13.3333333333333,NA,"On each orchard, 5 trees were observed. At each tree, eight groups of flowers were observed for 20 seconds each (total of around 13 min per orchard).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2009","Lauwerjissen","observation","Apis mellifera","species","honeybees",1,NA,13.3333333333333,NA,"On each orchard, 5 trees were observed. At each tree, eight groups of flowers were observed for 20 seconds each (total of around 13 min per orchard).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2009","Lauwerjissen","observation","Apis mellifera","species","honeybees",1,NA,13.3333333333333,NA,"On each orchard, 5 trees were observed. At each tree, eight groups of flowers were observed for 20 seconds each (total of around 13 min per orchard).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2009","Lauwerjissen","observation","Apis mellifera","species","honeybees",1,NA,13.3333333333333,NA,"On each orchard, 5 trees were observed. At each tree, eight groups of flowers were observed for 20 seconds each (total of around 13 min per orchard).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2009","Lauwerjissen","observation","Apis mellifera","species","honeybees",1,NA,13.3333333333333,NA,"On each orchard, 5 trees were observed. At each tree, eight groups of flowers were observed for 20 seconds each (total of around 13 min per orchard).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2009","Lauwerjissen","observation","Apis mellifera","species","honeybees",1,NA,13.3333333333333,NA,"On each orchard, 5 trees were observed. At each tree, eight groups of flowers were observed for 20 seconds each (total of around 13 min per orchard).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2009","Lauwerjissen","observation","Apis mellifera","species","honeybees",2,NA,13.3333333333333,NA,"On each orchard, 5 trees were observed. At each tree, eight groups of flowers were observed for 20 seconds each (total of around 13 min per orchard).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2009","Lauwerjissen","observation","Apis mellifera","species","honeybees",1,NA,13.3333333333333,NA,"On each orchard, 5 trees were observed. At each tree, eight groups of flowers were observed for 20 seconds each (total of around 13 min per orchard).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2009","Lauwerjissen","observation","Apis mellifera","species","honeybees",2,NA,13.3333333333333,NA,"On each orchard, 5 trees were observed. At each tree, eight groups of flowers were observed for 20 seconds each (total of around 13 min per orchard).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2009","Lauwerjissen","observation","Apis mellifera","species","honeybees",1,NA,13.3333333333333,NA,"On each orchard, 5 trees were observed. At each tree, eight groups of flowers were observed for 20 seconds each (total of around 13 min per orchard).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2009","Lauwerjissen","observation","Apis mellifera","species","honeybees",1,NA,13.3333333333333,NA,"On each orchard, 5 trees were observed. At each tree, eight groups of flowers were observed for 20 seconds each (total of around 13 min per orchard).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2009","Lauwerjissen","observation","Apis mellifera","species","honeybees",3,NA,13.3333333333333,NA,"On each orchard, 5 trees were observed. At each tree, eight groups of flowers were observed for 20 seconds each (total of around 13 min per orchard).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2009","Lauwerjissen","observation","Apis mellifera","species","honeybees",1,NA,13.3333333333333,NA,"On each orchard, 5 trees were observed. At each tree, eight groups of flowers were observed for 20 seconds each (total of around 13 min per orchard).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2009","Lauwerjissen","observation","Apis mellifera","species","honeybees",1,NA,13.3333333333333,NA,"On each orchard, 5 trees were observed. At each tree, eight groups of flowers were observed for 20 seconds each (total of around 13 min per orchard).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2009","Lauwerjissen","observation","Apis mellifera","species","honeybees",1,NA,13.3333333333333,NA,"On each orchard, 5 trees were observed. At each tree, eight groups of flowers were observed for 20 seconds each (total of around 13 min per orchard).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2009","Lauwerjissen","observation","Apis mellifera","species","honeybees",1,NA,13.3333333333333,NA,"On each orchard, 5 trees were observed. At each tree, eight groups of flowers were observed for 20 seconds each (total of around 13 min per orchard).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2009","Lauwerjissen","observation","Apis mellifera","species","honeybees",1,NA,13.3333333333333,NA,"On each orchard, 5 trees were observed. At each tree, eight groups of flowers were observed for 20 seconds each (total of around 13 min per orchard).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2009","Lauwerjissen","observation","Apis mellifera","species","honeybees",1,NA,13.3333333333333,NA,"On each orchard, 5 trees were observed. At each tree, eight groups of flowers were observed for 20 seconds each (total of around 13 min per orchard).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2009","Lauwerjissen","observation","Apis mellifera","species","honeybees",1,NA,13.3333333333333,NA,"On each orchard, 5 trees were observed. At each tree, eight groups of flowers were observed for 20 seconds each (total of around 13 min per orchard).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2009","Lauwerjissen","observation","Apis mellifera","species","honeybees",1,NA,13.3333333333333,NA,"On each orchard, 5 trees were observed. At each tree, eight groups of flowers were observed for 20 seconds each (total of around 13 min per orchard).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2009","Lauwerjissen","observation","Apis mellifera","species","honeybees",1,NA,13.3333333333333,NA,"On each orchard, 5 trees were observed. At each tree, eight groups of flowers were observed for 20 seconds each (total of around 13 min per orchard).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2009","Lauwerjissen","observation","Apis mellifera","species","honeybees",1,NA,13.3333333333333,NA,"On each orchard, 5 trees were observed. At each tree, eight groups of flowers were observed for 20 seconds each (total of around 13 min per orchard).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2009","Lauwerjissen","observation","Apis mellifera","species","honeybees",1,NA,13.3333333333333,NA,"On each orchard, 5 trees were observed. At each tree, eight groups of flowers were observed for 20 seconds each (total of around 13 min per orchard).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2009","Lauwerjissen","observation","Apis mellifera","species","honeybees",2,NA,13.3333333333333,NA,"On each orchard, 5 trees were observed. At each tree, eight groups of flowers were observed for 20 seconds each (total of around 13 min per orchard).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2009","Lauwerjissen","observation","Apis mellifera","species","honeybees",1,NA,13.3333333333333,NA,"On each orchard, 5 trees were observed. At each tree, eight groups of flowers were observed for 20 seconds each (total of around 13 min per orchard).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2009","Lauwerjissen","observation","Apis mellifera","species","honeybees",1,NA,13.3333333333333,NA,"On each orchard, 5 trees were observed. At each tree, eight groups of flowers were observed for 20 seconds each (total of around 13 min per orchard).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2009","Lauwerjissen","observation","Apis mellifera","species","honeybees",1,NA,13.3333333333333,NA,"On each orchard, 5 trees were observed. At each tree, eight groups of flowers were observed for 20 seconds each (total of around 13 min per orchard).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2009","Lauwerjissen","observation","Apis mellifera","species","honeybees",1,NA,13.3333333333333,NA,"On each orchard, 5 trees were observed. At each tree, eight groups of flowers were observed for 20 seconds each (total of around 13 min per orchard).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2009","Lauwerjissen","observation","Apis mellifera","species","honeybees",1,NA,13.3333333333333,NA,"On each orchard, 5 trees were observed. At each tree, eight groups of flowers were observed for 20 seconds each (total of around 13 min per orchard).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2009","Lauwerjissen","observation","Apis mellifera","species","honeybees",1,NA,13.3333333333333,NA,"On each orchard, 5 trees were observed. At each tree, eight groups of flowers were observed for 20 seconds each (total of around 13 min per orchard).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2009","Scofield 2","observation","Apis mellifera","species","honeybees",1,NA,13.3333333333333,NA,"On each orchard, 5 trees were observed. At each tree, eight groups of flowers were observed for 20 seconds each (total of around 13 min per orchard).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2009","Scofield 2","observation","Apis mellifera","species","honeybees",1,NA,13.3333333333333,NA,"On each orchard, 5 trees were observed. At each tree, eight groups of flowers were observed for 20 seconds each (total of around 13 min per orchard).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2009","Scofield 2","observation","Apis mellifera","species","honeybees",2,NA,13.3333333333333,NA,"On each orchard, 5 trees were observed. At each tree, eight groups of flowers were observed for 20 seconds each (total of around 13 min per orchard).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2009","Scofield 2","observation","Apis mellifera","species","honeybees",1,NA,13.3333333333333,NA,"On each orchard, 5 trees were observed. At each tree, eight groups of flowers were observed for 20 seconds each (total of around 13 min per orchard).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2009","Scofield 2","observation","Apis mellifera","species","honeybees",1,NA,13.3333333333333,NA,"On each orchard, 5 trees were observed. At each tree, eight groups of flowers were observed for 20 seconds each (total of around 13 min per orchard).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2009","Scofield 2","observation","Apis mellifera","species","honeybees",1,NA,13.3333333333333,NA,"On each orchard, 5 trees were observed. At each tree, eight groups of flowers were observed for 20 seconds each (total of around 13 min per orchard).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2009","Scofield 2","observation","Apis mellifera","species","honeybees",1,NA,13.3333333333333,NA,"On each orchard, 5 trees were observed. At each tree, eight groups of flowers were observed for 20 seconds each (total of around 13 min per orchard).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2009","Scofield 2","observation","Apis mellifera","species","honeybees",1,NA,13.3333333333333,NA,"On each orchard, 5 trees were observed. At each tree, eight groups of flowers were observed for 20 seconds each (total of around 13 min per orchard).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2009","Scofield 2","observation","Apis mellifera","species","honeybees",1,NA,13.3333333333333,NA,"On each orchard, 5 trees were observed. At each tree, eight groups of flowers were observed for 20 seconds each (total of around 13 min per orchard).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2009","Scofield 2","observation","Apis mellifera","species","honeybees",1,NA,13.3333333333333,NA,"On each orchard, 5 trees were observed. At each tree, eight groups of flowers were observed for 20 seconds each (total of around 13 min per orchard).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2009","Scofield 2","observation","Apis mellifera","species","honeybees",1,NA,13.3333333333333,NA,"On each orchard, 5 trees were observed. At each tree, eight groups of flowers were observed for 20 seconds each (total of around 13 min per orchard).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2009","Scofield 2","observation","Apis mellifera","species","honeybees",1,NA,13.3333333333333,NA,"On each orchard, 5 trees were observed. At each tree, eight groups of flowers were observed for 20 seconds each (total of around 13 min per orchard).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2009","Scofield 2","observation","Apis mellifera","species","honeybees",1,NA,13.3333333333333,NA,"On each orchard, 5 trees were observed. At each tree, eight groups of flowers were observed for 20 seconds each (total of around 13 min per orchard).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2009","Scofield 2","observation","Apis mellifera","species","honeybees",1,NA,13.3333333333333,NA,"On each orchard, 5 trees were observed. At each tree, eight groups of flowers were observed for 20 seconds each (total of around 13 min per orchard).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2009","Scofield 2","observation","Apis mellifera","species","honeybees",1,NA,13.3333333333333,NA,"On each orchard, 5 trees were observed. At each tree, eight groups of flowers were observed for 20 seconds each (total of around 13 min per orchard).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2009","Scofield 2","observation","Apis mellifera","species","honeybees",1,NA,13.3333333333333,NA,"On each orchard, 5 trees were observed. At each tree, eight groups of flowers were observed for 20 seconds each (total of around 13 min per orchard).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2009","Scofield 2","observation","Apis mellifera","species","honeybees",2,NA,13.3333333333333,NA,"On each orchard, 5 trees were observed. At each tree, eight groups of flowers were observed for 20 seconds each (total of around 13 min per orchard).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2009","Scofield 2","observation","Apis mellifera","species","honeybees",2,NA,13.3333333333333,NA,"On each orchard, 5 trees were observed. At each tree, eight groups of flowers were observed for 20 seconds each (total of around 13 min per orchard).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2009","Scofield 2","observation","Apis mellifera","species","honeybees",1,NA,13.3333333333333,NA,"On each orchard, 5 trees were observed. At each tree, eight groups of flowers were observed for 20 seconds each (total of around 13 min per orchard).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2009","Scofield 2","observation","Apis mellifera","species","honeybees",1,NA,13.3333333333333,NA,"On each orchard, 5 trees were observed. At each tree, eight groups of flowers were observed for 20 seconds each (total of around 13 min per orchard).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2009","Scofield 2","observation","Apis mellifera","species","honeybees",2,NA,13.3333333333333,NA,"On each orchard, 5 trees were observed. At each tree, eight groups of flowers were observed for 20 seconds each (total of around 13 min per orchard).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2009","Scofield 2","observation","Apis mellifera","species","honeybees",1,NA,13.3333333333333,NA,"On each orchard, 5 trees were observed. At each tree, eight groups of flowers were observed for 20 seconds each (total of around 13 min per orchard).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2009","Scofield 2","observation","Apis mellifera","species","honeybees",1,NA,13.3333333333333,NA,"On each orchard, 5 trees were observed. At each tree, eight groups of flowers were observed for 20 seconds each (total of around 13 min per orchard).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2009","Scofield 2","observation","Apis mellifera","species","honeybees",1,NA,13.3333333333333,NA,"On each orchard, 5 trees were observed. At each tree, eight groups of flowers were observed for 20 seconds each (total of around 13 min per orchard).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2009","Scofield 2","observation","Apis mellifera","species","honeybees",1,NA,13.3333333333333,NA,"On each orchard, 5 trees were observed. At each tree, eight groups of flowers were observed for 20 seconds each (total of around 13 min per orchard).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2009","Scofield 2","observation","Apis mellifera","species","honeybees",1,NA,13.3333333333333,NA,"On each orchard, 5 trees were observed. At each tree, eight groups of flowers were observed for 20 seconds each (total of around 13 min per orchard).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2009","Scofield 2","observation","Apis mellifera","species","honeybees",1,NA,13.3333333333333,NA,"On each orchard, 5 trees were observed. At each tree, eight groups of flowers were observed for 20 seconds each (total of around 13 min per orchard).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2009","Scofield 2","observation","Apis mellifera","species","honeybees",1,NA,13.3333333333333,NA,"On each orchard, 5 trees were observed. At each tree, eight groups of flowers were observed for 20 seconds each (total of around 13 min per orchard).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2009","Scofield 2","observation","Apis mellifera","species","honeybees",1,NA,13.3333333333333,NA,"On each orchard, 5 trees were observed. At each tree, eight groups of flowers were observed for 20 seconds each (total of around 13 min per orchard).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2009","Scofield 2","observation","Apis mellifera","species","honeybees",1,NA,13.3333333333333,NA,"On each orchard, 5 trees were observed. At each tree, eight groups of flowers were observed for 20 seconds each (total of around 13 min per orchard).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2009","Scofield 2","observation","Apis mellifera","species","honeybees",1,NA,13.3333333333333,NA,"On each orchard, 5 trees were observed. At each tree, eight groups of flowers were observed for 20 seconds each (total of around 13 min per orchard).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2009","Barth","observation","Apis mellifera","species","honeybees",3,NA,13.3333333333333,NA,"On each orchard, 5 trees were observed. At each tree, eight groups of flowers were observed for 20 seconds each (total of around 13 min per orchard).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2009","Barth","observation","Apis mellifera","species","honeybees",2,NA,13.3333333333333,NA,"On each orchard, 5 trees were observed. At each tree, eight groups of flowers were observed for 20 seconds each (total of around 13 min per orchard).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2009","Barth","observation","Apis mellifera","species","honeybees",4,NA,13.3333333333333,NA,"On each orchard, 5 trees were observed. At each tree, eight groups of flowers were observed for 20 seconds each (total of around 13 min per orchard).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2009","Barth","observation","Apis mellifera","species","honeybees",1,NA,13.3333333333333,NA,"On each orchard, 5 trees were observed. At each tree, eight groups of flowers were observed for 20 seconds each (total of around 13 min per orchard).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2009","Barth","observation","Apis mellifera","species","honeybees",1,NA,13.3333333333333,NA,"On each orchard, 5 trees were observed. At each tree, eight groups of flowers were observed for 20 seconds each (total of around 13 min per orchard).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2009","Barth","observation","Apis mellifera","species","honeybees",3,NA,13.3333333333333,NA,"On each orchard, 5 trees were observed. At each tree, eight groups of flowers were observed for 20 seconds each (total of around 13 min per orchard).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2009","Barth","observation","Apis mellifera","species","honeybees",1,NA,13.3333333333333,NA,"On each orchard, 5 trees were observed. At each tree, eight groups of flowers were observed for 20 seconds each (total of around 13 min per orchard).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2009","Barth","observation","Apis mellifera","species","honeybees",1,NA,13.3333333333333,NA,"On each orchard, 5 trees were observed. At each tree, eight groups of flowers were observed for 20 seconds each (total of around 13 min per orchard).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2009","Barth","observation","Apis mellifera","species","honeybees",3,NA,13.3333333333333,NA,"On each orchard, 5 trees were observed. At each tree, eight groups of flowers were observed for 20 seconds each (total of around 13 min per orchard).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2009","Barth","observation","Apis mellifera","species","honeybees",1,NA,13.3333333333333,NA,"On each orchard, 5 trees were observed. At each tree, eight groups of flowers were observed for 20 seconds each (total of around 13 min per orchard).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2009","Barth","observation","Apis mellifera","species","honeybees",2,NA,13.3333333333333,NA,"On each orchard, 5 trees were observed. At each tree, eight groups of flowers were observed for 20 seconds each (total of around 13 min per orchard).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2009","Barth","observation","Apis mellifera","species","honeybees",2,NA,13.3333333333333,NA,"On each orchard, 5 trees were observed. At each tree, eight groups of flowers were observed for 20 seconds each (total of around 13 min per orchard).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2009","Barth","observation","Apis mellifera","species","honeybees",1,NA,13.3333333333333,NA,"On each orchard, 5 trees were observed. At each tree, eight groups of flowers were observed for 20 seconds each (total of around 13 min per orchard).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2009","Barth","observation","Apis mellifera","species","honeybees",3,NA,13.3333333333333,NA,"On each orchard, 5 trees were observed. At each tree, eight groups of flowers were observed for 20 seconds each (total of around 13 min per orchard).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2009","Barth","observation","Apis mellifera","species","honeybees",1,NA,13.3333333333333,NA,"On each orchard, 5 trees were observed. At each tree, eight groups of flowers were observed for 20 seconds each (total of around 13 min per orchard).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2009","Barth","observation","Apis mellifera","species","honeybees",1,NA,13.3333333333333,NA,"On each orchard, 5 trees were observed. At each tree, eight groups of flowers were observed for 20 seconds each (total of around 13 min per orchard).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2009","Barth","observation","Apis mellifera","species","honeybees",1,NA,13.3333333333333,NA,"On each orchard, 5 trees were observed. At each tree, eight groups of flowers were observed for 20 seconds each (total of around 13 min per orchard).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2009","Barth","observation","Apis mellifera","species","honeybees",1,NA,13.3333333333333,NA,"On each orchard, 5 trees were observed. At each tree, eight groups of flowers were observed for 20 seconds each (total of around 13 min per orchard).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2009","Barth","observation","Apis mellifera","species","honeybees",1,NA,13.3333333333333,NA,"On each orchard, 5 trees were observed. At each tree, eight groups of flowers were observed for 20 seconds each (total of around 13 min per orchard).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2009","Barth","observation","Apis mellifera","species","honeybees",1,NA,13.3333333333333,NA,"On each orchard, 5 trees were observed. At each tree, eight groups of flowers were observed for 20 seconds each (total of around 13 min per orchard).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2009","Barth","observation","Apis mellifera","species","honeybees",1,NA,13.3333333333333,NA,"On each orchard, 5 trees were observed. At each tree, eight groups of flowers were observed for 20 seconds each (total of around 13 min per orchard).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2009","Barth","observation","Apis mellifera","species","honeybees",4,NA,13.3333333333333,NA,"On each orchard, 5 trees were observed. At each tree, eight groups of flowers were observed for 20 seconds each (total of around 13 min per orchard).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2009","Barth","observation","Apis mellifera","species","honeybees",1,NA,13.3333333333333,NA,"On each orchard, 5 trees were observed. At each tree, eight groups of flowers were observed for 20 seconds each (total of around 13 min per orchard).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2009","Barth","observation","Apis mellifera","species","honeybees",2,NA,13.3333333333333,NA,"On each orchard, 5 trees were observed. At each tree, eight groups of flowers were observed for 20 seconds each (total of around 13 min per orchard).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2009","Barth","observation","Apis mellifera","species","honeybees",1,NA,13.3333333333333,NA,"On each orchard, 5 trees were observed. At each tree, eight groups of flowers were observed for 20 seconds each (total of around 13 min per orchard).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2009","Barth","observation","Apis mellifera","species","honeybees",1,NA,13.3333333333333,NA,"On each orchard, 5 trees were observed. At each tree, eight groups of flowers were observed for 20 seconds each (total of around 13 min per orchard).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2009","Barth","observation","Apis mellifera","species","honeybees",1,NA,13.3333333333333,NA,"On each orchard, 5 trees were observed. At each tree, eight groups of flowers were observed for 20 seconds each (total of around 13 min per orchard).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2009","Barth","observation","Apis mellifera","species","honeybees",1,NA,13.3333333333333,NA,"On each orchard, 5 trees were observed. At each tree, eight groups of flowers were observed for 20 seconds each (total of around 13 min per orchard).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2009","Barth","observation","Apis mellifera","species","honeybees",1,NA,13.3333333333333,NA,"On each orchard, 5 trees were observed. At each tree, eight groups of flowers were observed for 20 seconds each (total of around 13 min per orchard).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2009","Barth","observation","Apis mellifera","species","honeybees",1,NA,13.3333333333333,NA,"On each orchard, 5 trees were observed. At each tree, eight groups of flowers were observed for 20 seconds each (total of around 13 min per orchard).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2009","Barth","observation","Apis mellifera","species","honeybees",1,NA,13.3333333333333,NA,"On each orchard, 5 trees were observed. At each tree, eight groups of flowers were observed for 20 seconds each (total of around 13 min per orchard).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2009","Barth","observation","Apis mellifera","species","honeybees",1,NA,13.3333333333333,NA,"On each orchard, 5 trees were observed. At each tree, eight groups of flowers were observed for 20 seconds each (total of around 13 min per orchard).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2009","Barth","observation","Apis mellifera","species","honeybees",1,NA,13.3333333333333,NA,"On each orchard, 5 trees were observed. At each tree, eight groups of flowers were observed for 20 seconds each (total of around 13 min per orchard).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2009","Barth","observation","Apis mellifera","species","honeybees",1,NA,13.3333333333333,NA,"On each orchard, 5 trees were observed. At each tree, eight groups of flowers were observed for 20 seconds each (total of around 13 min per orchard).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2009","Scheuring","observation","Apis mellifera","species","honeybees",1,NA,13.3333333333333,NA,"On each orchard, 5 trees were observed. At each tree, eight groups of flowers were observed for 20 seconds each (total of around 13 min per orchard).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2009","Scheuring","observation","Apis mellifera","species","honeybees",2,NA,13.3333333333333,NA,"On each orchard, 5 trees were observed. At each tree, eight groups of flowers were observed for 20 seconds each (total of around 13 min per orchard).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2009","Scheuring","observation","Apis mellifera","species","honeybees",1,NA,13.3333333333333,NA,"On each orchard, 5 trees were observed. At each tree, eight groups of flowers were observed for 20 seconds each (total of around 13 min per orchard).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2009","Scheuring","observation","Apis mellifera","species","honeybees",1,NA,13.3333333333333,NA,"On each orchard, 5 trees were observed. At each tree, eight groups of flowers were observed for 20 seconds each (total of around 13 min per orchard).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2009","Scheuring","observation","Apis mellifera","species","honeybees",1,NA,13.3333333333333,NA,"On each orchard, 5 trees were observed. At each tree, eight groups of flowers were observed for 20 seconds each (total of around 13 min per orchard).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2009","Scheuring","observation","Apis mellifera","species","honeybees",1,NA,13.3333333333333,NA,"On each orchard, 5 trees were observed. At each tree, eight groups of flowers were observed for 20 seconds each (total of around 13 min per orchard).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2009","Scheuring","observation","Apis mellifera","species","honeybees",2,NA,13.3333333333333,NA,"On each orchard, 5 trees were observed. At each tree, eight groups of flowers were observed for 20 seconds each (total of around 13 min per orchard).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2009","Scheuring","observation","Apis mellifera","species","honeybees",1,NA,13.3333333333333,NA,"On each orchard, 5 trees were observed. At each tree, eight groups of flowers were observed for 20 seconds each (total of around 13 min per orchard).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2009","Scheuring","observation","Apis mellifera","species","honeybees",1,NA,13.3333333333333,NA,"On each orchard, 5 trees were observed. At each tree, eight groups of flowers were observed for 20 seconds each (total of around 13 min per orchard).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2009","Scheuring","observation","Apis mellifera","species","honeybees",1,NA,13.3333333333333,NA,"On each orchard, 5 trees were observed. At each tree, eight groups of flowers were observed for 20 seconds each (total of around 13 min per orchard).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2009","Scheuring","observation","Apis mellifera","species","honeybees",1,NA,13.3333333333333,NA,"On each orchard, 5 trees were observed. At each tree, eight groups of flowers were observed for 20 seconds each (total of around 13 min per orchard).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2009","Scheuring","observation","Apis mellifera","species","honeybees",1,NA,13.3333333333333,NA,"On each orchard, 5 trees were observed. At each tree, eight groups of flowers were observed for 20 seconds each (total of around 13 min per orchard).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2009","Scheuring","observation","Apis mellifera","species","honeybees",1,NA,13.3333333333333,NA,"On each orchard, 5 trees were observed. At each tree, eight groups of flowers were observed for 20 seconds each (total of around 13 min per orchard).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2009","Scheuring","observation","Apis mellifera","species","honeybees",1,NA,13.3333333333333,NA,"On each orchard, 5 trees were observed. At each tree, eight groups of flowers were observed for 20 seconds each (total of around 13 min per orchard).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2009","Scheuring","observation","Apis mellifera","species","honeybees",2,NA,13.3333333333333,NA,"On each orchard, 5 trees were observed. At each tree, eight groups of flowers were observed for 20 seconds each (total of around 13 min per orchard).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2009","Scheuring","observation","Apis mellifera","species","honeybees",1,NA,13.3333333333333,NA,"On each orchard, 5 trees were observed. At each tree, eight groups of flowers were observed for 20 seconds each (total of around 13 min per orchard).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2009","Scofield 2","observation","Apis mellifera","species","honeybees",1,NA,13.3333333333333,NA,"On each orchard, 5 trees were observed. At each tree, eight groups of flowers were observed for 20 seconds each (total of around 13 min per orchard).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2009","Scofield 2","observation","Apis mellifera","species","honeybees",1,NA,13.3333333333333,NA,"On each orchard, 5 trees were observed. At each tree, eight groups of flowers were observed for 20 seconds each (total of around 13 min per orchard).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2009","Scofield 2","observation","Apis mellifera","species","honeybees",1,NA,13.3333333333333,NA,"On each orchard, 5 trees were observed. At each tree, eight groups of flowers were observed for 20 seconds each (total of around 13 min per orchard).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2009","Scofield 2","observation","Apis mellifera","species","honeybees",1,NA,13.3333333333333,NA,"On each orchard, 5 trees were observed. At each tree, eight groups of flowers were observed for 20 seconds each (total of around 13 min per orchard).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2009","Scofield 2","observation","Apis mellifera","species","honeybees",1,NA,13.3333333333333,NA,"On each orchard, 5 trees were observed. At each tree, eight groups of flowers were observed for 20 seconds each (total of around 13 min per orchard).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2009","Scofield 2","observation","Apis mellifera","species","honeybees",1,NA,13.3333333333333,NA,"On each orchard, 5 trees were observed. At each tree, eight groups of flowers were observed for 20 seconds each (total of around 13 min per orchard).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2009","Scofield 2","observation","Apis mellifera","species","honeybees",1,NA,13.3333333333333,NA,"On each orchard, 5 trees were observed. At each tree, eight groups of flowers were observed for 20 seconds each (total of around 13 min per orchard).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2009","Scofield 2","observation","Apis mellifera","species","honeybees",1,NA,13.3333333333333,NA,"On each orchard, 5 trees were observed. At each tree, eight groups of flowers were observed for 20 seconds each (total of around 13 min per orchard).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2009","Scofield 2","observation","Apis mellifera","species","honeybees",1,NA,13.3333333333333,NA,"On each orchard, 5 trees were observed. At each tree, eight groups of flowers were observed for 20 seconds each (total of around 13 min per orchard).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2009","Scofield 2","observation","Apis mellifera","species","honeybees",1,NA,13.3333333333333,NA,"On each orchard, 5 trees were observed. At each tree, eight groups of flowers were observed for 20 seconds each (total of around 13 min per orchard).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2009","Scofield 2","observation","Apis mellifera","species","honeybees",1,NA,13.3333333333333,NA,"On each orchard, 5 trees were observed. At each tree, eight groups of flowers were observed for 20 seconds each (total of around 13 min per orchard).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2009","Scofield 2","observation","Apis mellifera","species","honeybees",1,NA,13.3333333333333,NA,"On each orchard, 5 trees were observed. At each tree, eight groups of flowers were observed for 20 seconds each (total of around 13 min per orchard).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2009","Scofield 2","observation","Apis mellifera","species","honeybees",1,NA,13.3333333333333,NA,"On each orchard, 5 trees were observed. At each tree, eight groups of flowers were observed for 20 seconds each (total of around 13 min per orchard).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2009","Full Belly","observation","Apis mellifera","species","honeybees",2,NA,13.3333333333333,NA,"On each orchard, 5 trees were observed. At each tree, eight groups of flowers were observed for 20 seconds each (total of around 13 min per orchard).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2009","Full Belly","observation","Andrena cerasifolii","species","other_wild_bees",1,NA,13.3333333333333,NA,"On each orchard, 5 trees were observed. At each tree, eight groups of flowers were observed for 20 seconds each (total of around 13 min per orchard).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2009","Full Belly","observation","Bombus melanopygus","species","bumblebees",2,NA,13.3333333333333,NA,"On each orchard, 5 trees were observed. At each tree, eight groups of flowers were observed for 20 seconds each (total of around 13 min per orchard).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2009","Full Belly","observation","Apis mellifera","species","honeybees",1,NA,13.3333333333333,NA,"On each orchard, 5 trees were observed. At each tree, eight groups of flowers were observed for 20 seconds each (total of around 13 min per orchard).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2009","Full Belly","observation","Bombus vosnesenskii","species","bumblebees",1,NA,13.3333333333333,NA,"On each orchard, 5 trees were observed. At each tree, eight groups of flowers were observed for 20 seconds each (total of around 13 min per orchard).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2009","Full Belly","observation","Bombus vosnesenskii","species","bumblebees",1,NA,13.3333333333333,NA,"On each orchard, 5 trees were observed. At each tree, eight groups of flowers were observed for 20 seconds each (total of around 13 min per orchard).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2009","Full Belly","observation","Apis mellifera","species","honeybees",2,NA,13.3333333333333,NA,"On each orchard, 5 trees were observed. At each tree, eight groups of flowers were observed for 20 seconds each (total of around 13 min per orchard).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2009","Full Belly","observation","Andrena cerasifolii","species","other_wild_bees",2,NA,13.3333333333333,NA,"On each orchard, 5 trees were observed. At each tree, eight groups of flowers were observed for 20 seconds each (total of around 13 min per orchard).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2009","Full Belly","observation","Panurginus gracilis","species","other_wild_bees",1,NA,13.3333333333333,NA,"On each orchard, 5 trees were observed. At each tree, eight groups of flowers were observed for 20 seconds each (total of around 13 min per orchard).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2009","Full Belly","observation","Andrena cerasifolii","species","other_wild_bees",1,NA,13.3333333333333,NA,"On each orchard, 5 trees were observed. At each tree, eight groups of flowers were observed for 20 seconds each (total of around 13 min per orchard).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2009","Full Belly","observation","Apis mellifera","species","honeybees",2,NA,13.3333333333333,NA,"On each orchard, 5 trees were observed. At each tree, eight groups of flowers were observed for 20 seconds each (total of around 13 min per orchard).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2009","Full Belly","observation","Bombus vosnesenskii","species","bumblebees",1,NA,13.3333333333333,NA,"On each orchard, 5 trees were observed. At each tree, eight groups of flowers were observed for 20 seconds each (total of around 13 min per orchard).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2009","Full Belly","observation","Andrena cerasifolii","species","other_wild_bees",2,NA,13.3333333333333,NA,"On each orchard, 5 trees were observed. At each tree, eight groups of flowers were observed for 20 seconds each (total of around 13 min per orchard).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2009","Full Belly","observation","Apis mellifera","species","honeybees",1,NA,13.3333333333333,NA,"On each orchard, 5 trees were observed. At each tree, eight groups of flowers were observed for 20 seconds each (total of around 13 min per orchard).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2009","Full Belly","observation","Apis mellifera","species","honeybees",1,NA,13.3333333333333,NA,"On each orchard, 5 trees were observed. At each tree, eight groups of flowers were observed for 20 seconds each (total of around 13 min per orchard).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2009","Full Belly","observation","Andrena cerasifolii","species","other_wild_bees",1,NA,13.3333333333333,NA,"On each orchard, 5 trees were observed. At each tree, eight groups of flowers were observed for 20 seconds each (total of around 13 min per orchard).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2009","Full Belly","observation","Lasioglossum Evylaeus sp. E","morphospecies","other_wild_bees",1,NA,13.3333333333333,NA,"On each orchard, 5 trees were observed. At each tree, eight groups of flowers were observed for 20 seconds each (total of around 13 min per orchard).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2009","Full Belly","observation","Lasioglossum Evylaeus sp. E","morphospecies","other_wild_bees",1,NA,13.3333333333333,NA,"On each orchard, 5 trees were observed. At each tree, eight groups of flowers were observed for 20 seconds each (total of around 13 min per orchard).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2009","Full Belly","observation","Andrena cerasifolii","species","other_wild_bees",2,NA,13.3333333333333,NA,"On each orchard, 5 trees were observed. At each tree, eight groups of flowers were observed for 20 seconds each (total of around 13 min per orchard).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2009","Full Belly","observation","Lasioglossum Evylaeus sp. E","morphospecies","other_wild_bees",1,NA,13.3333333333333,NA,"On each orchard, 5 trees were observed. At each tree, eight groups of flowers were observed for 20 seconds each (total of around 13 min per orchard).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2009","Full Belly","observation","Bombus melanopygus","species","bumblebees",1,NA,13.3333333333333,NA,"On each orchard, 5 trees were observed. At each tree, eight groups of flowers were observed for 20 seconds each (total of around 13 min per orchard).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2009","T&P3","observation","Apis mellifera","species","honeybees",1,NA,13.3333333333333,NA,"On each orchard, 5 trees were observed. At each tree, eight groups of flowers were observed for 20 seconds each (total of around 13 min per orchard).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2009","T&P3","observation","Lasioglossum Evylaeus sp. E","morphospecies","other_wild_bees",1,NA,13.3333333333333,NA,"On each orchard, 5 trees were observed. At each tree, eight groups of flowers were observed for 20 seconds each (total of around 13 min per orchard).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2009","T&P3","observation","Andrena sp","genus","other_wild_bees",2,NA,13.3333333333333,NA,"On each orchard, 5 trees were observed. At each tree, eight groups of flowers were observed for 20 seconds each (total of around 13 min per orchard).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2009","T&P3","observation","Apis mellifera","species","honeybees",1,NA,13.3333333333333,NA,"On each orchard, 5 trees were observed. At each tree, eight groups of flowers were observed for 20 seconds each (total of around 13 min per orchard).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2009","T&P3","observation","Andrena sp","genus","other_wild_bees",1,NA,13.3333333333333,NA,"On each orchard, 5 trees were observed. At each tree, eight groups of flowers were observed for 20 seconds each (total of around 13 min per orchard).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2009","T&P3","observation","Andrena sp","genus","other_wild_bees",1,NA,13.3333333333333,NA,"On each orchard, 5 trees were observed. At each tree, eight groups of flowers were observed for 20 seconds each (total of around 13 min per orchard).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2009","T&P3","observation","Apis mellifera","species","honeybees",1,NA,13.3333333333333,NA,"On each orchard, 5 trees were observed. At each tree, eight groups of flowers were observed for 20 seconds each (total of around 13 min per orchard).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2009","T&P3","observation","Apis mellifera","species","honeybees",1,NA,13.3333333333333,NA,"On each orchard, 5 trees were observed. At each tree, eight groups of flowers were observed for 20 seconds each (total of around 13 min per orchard).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2009","T&P3","observation","Apis mellifera","species","honeybees",1,NA,13.3333333333333,NA,"On each orchard, 5 trees were observed. At each tree, eight groups of flowers were observed for 20 seconds each (total of around 13 min per orchard).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2009","T&P3","observation","Apis mellifera","species","honeybees",1,NA,13.3333333333333,NA,"On each orchard, 5 trees were observed. At each tree, eight groups of flowers were observed for 20 seconds each (total of around 13 min per orchard).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2009","T&P3","observation","Apis mellifera","species","honeybees",1,NA,13.3333333333333,NA,"On each orchard, 5 trees were observed. At each tree, eight groups of flowers were observed for 20 seconds each (total of around 13 min per orchard).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2009","T&P3","observation","Apis mellifera","species","honeybees",1,NA,13.3333333333333,NA,"On each orchard, 5 trees were observed. At each tree, eight groups of flowers were observed for 20 seconds each (total of around 13 min per orchard).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2009","T&P3","observation","Apis mellifera","species","honeybees",1,NA,13.3333333333333,NA,"On each orchard, 5 trees were observed. At each tree, eight groups of flowers were observed for 20 seconds each (total of around 13 min per orchard).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2009","T&P3","observation","Apis mellifera","species","honeybees",2,NA,13.3333333333333,NA,"On each orchard, 5 trees were observed. At each tree, eight groups of flowers were observed for 20 seconds each (total of around 13 min per orchard).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2009","Taber","observation","Apis mellifera","species","honeybees",2,NA,13.3333333333333,NA,"On each orchard, 5 trees were observed. At each tree, eight groups of flowers were observed for 20 seconds each (total of around 13 min per orchard).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2009","Taber","observation","Apis mellifera","species","honeybees",1,NA,13.3333333333333,NA,"On each orchard, 5 trees were observed. At each tree, eight groups of flowers were observed for 20 seconds each (total of around 13 min per orchard).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2009","Taber","observation","Apis mellifera","species","honeybees",1,NA,13.3333333333333,NA,"On each orchard, 5 trees were observed. At each tree, eight groups of flowers were observed for 20 seconds each (total of around 13 min per orchard).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2009","Taber","observation","Apis mellifera","species","honeybees",1,NA,13.3333333333333,NA,"On each orchard, 5 trees were observed. At each tree, eight groups of flowers were observed for 20 seconds each (total of around 13 min per orchard).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2009","Taber","observation","Apis mellifera","species","honeybees",1,NA,13.3333333333333,NA,"On each orchard, 5 trees were observed. At each tree, eight groups of flowers were observed for 20 seconds each (total of around 13 min per orchard).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2009","Taber","observation","Andrena cerasifolii","species","other_wild_bees",1,NA,13.3333333333333,NA,"On each orchard, 5 trees were observed. At each tree, eight groups of flowers were observed for 20 seconds each (total of around 13 min per orchard).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2009","Taber","observation","Panurginus gracilis","species","other_wild_bees",1,NA,13.3333333333333,NA,"On each orchard, 5 trees were observed. At each tree, eight groups of flowers were observed for 20 seconds each (total of around 13 min per orchard).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2009","Taber","observation","Apis mellifera","species","honeybees",1,NA,13.3333333333333,NA,"On each orchard, 5 trees were observed. At each tree, eight groups of flowers were observed for 20 seconds each (total of around 13 min per orchard).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2009","Taber","observation","Apis mellifera","species","honeybees",1,NA,13.3333333333333,NA,"On each orchard, 5 trees were observed. At each tree, eight groups of flowers were observed for 20 seconds each (total of around 13 min per orchard).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2009","Taber","observation","Apis mellifera","species","honeybees",3,NA,13.3333333333333,NA,"On each orchard, 5 trees were observed. At each tree, eight groups of flowers were observed for 20 seconds each (total of around 13 min per orchard).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2009","Taber","observation","Apis mellifera","species","honeybees",2,NA,13.3333333333333,NA,"On each orchard, 5 trees were observed. At each tree, eight groups of flowers were observed for 20 seconds each (total of around 13 min per orchard).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2009","Taber","observation","Apis mellifera","species","honeybees",1,NA,13.3333333333333,NA,"On each orchard, 5 trees were observed. At each tree, eight groups of flowers were observed for 20 seconds each (total of around 13 min per orchard).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2009","Taber","observation","Bombus vosnesenskii","species","bumblebees",1,NA,13.3333333333333,NA,"On each orchard, 5 trees were observed. At each tree, eight groups of flowers were observed for 20 seconds each (total of around 13 min per orchard).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2009","Taber","observation","Apis mellifera","species","honeybees",1,NA,13.3333333333333,NA,"On each orchard, 5 trees were observed. At each tree, eight groups of flowers were observed for 20 seconds each (total of around 13 min per orchard).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2009","Taber","observation","Apis mellifera","species","honeybees",4,NA,13.3333333333333,NA,"On each orchard, 5 trees were observed. At each tree, eight groups of flowers were observed for 20 seconds each (total of around 13 min per orchard).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2009","Taber","observation","Panurginus gracilis","species","other_wild_bees",1,NA,13.3333333333333,NA,"On each orchard, 5 trees were observed. At each tree, eight groups of flowers were observed for 20 seconds each (total of around 13 min per orchard).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2009","Taber","observation","Apis mellifera","species","honeybees",2,NA,13.3333333333333,NA,"On each orchard, 5 trees were observed. At each tree, eight groups of flowers were observed for 20 seconds each (total of around 13 min per orchard).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2009","Taber","observation","Apis mellifera","species","honeybees",3,NA,13.3333333333333,NA,"On each orchard, 5 trees were observed. At each tree, eight groups of flowers were observed for 20 seconds each (total of around 13 min per orchard).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2009","Taber","observation","Apis mellifera","species","honeybees",1,NA,13.3333333333333,NA,"On each orchard, 5 trees were observed. At each tree, eight groups of flowers were observed for 20 seconds each (total of around 13 min per orchard).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2009","Taber","observation","Apis mellifera","species","honeybees",1,NA,13.3333333333333,NA,"On each orchard, 5 trees were observed. At each tree, eight groups of flowers were observed for 20 seconds each (total of around 13 min per orchard).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2009","Taber","observation","Lasioglossum Evylaeus sp. E","morphospecies","other_wild_bees",1,NA,13.3333333333333,NA,"On each orchard, 5 trees were observed. At each tree, eight groups of flowers were observed for 20 seconds each (total of around 13 min per orchard).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2009","Taber","observation","Apis mellifera","species","honeybees",3,NA,13.3333333333333,NA,"On each orchard, 5 trees were observed. At each tree, eight groups of flowers were observed for 20 seconds each (total of around 13 min per orchard).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2009","Taber","observation","Andrena cerasifolii","species","other_wild_bees",2,NA,13.3333333333333,NA,"On each orchard, 5 trees were observed. At each tree, eight groups of flowers were observed for 20 seconds each (total of around 13 min per orchard).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2009","Taber","observation","Andrena sp","genus","other_wild_bees",1,NA,13.3333333333333,NA,"On each orchard, 5 trees were observed. At each tree, eight groups of flowers were observed for 20 seconds each (total of around 13 min per orchard).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2009","Taber","observation","Apis mellifera","species","honeybees",1,NA,13.3333333333333,NA,"On each orchard, 5 trees were observed. At each tree, eight groups of flowers were observed for 20 seconds each (total of around 13 min per orchard).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2009","Taber","observation","Apis mellifera","species","honeybees",3,NA,13.3333333333333,NA,"On each orchard, 5 trees were observed. At each tree, eight groups of flowers were observed for 20 seconds each (total of around 13 min per orchard).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2009","Taber","observation","Apis mellifera","species","honeybees",1,NA,13.3333333333333,NA,"On each orchard, 5 trees were observed. At each tree, eight groups of flowers were observed for 20 seconds each (total of around 13 min per orchard).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2009","Taber","observation","Eucera lunata","species","other_wild_bees",1,NA,13.3333333333333,NA,"On each orchard, 5 trees were observed. At each tree, eight groups of flowers were observed for 20 seconds each (total of around 13 min per orchard).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2009","Bramlett","observation","Apis mellifera","species","honeybees",2,NA,13.3333333333333,NA,"On each orchard, 5 trees were observed. At each tree, eight groups of flowers were observed for 20 seconds each (total of around 13 min per orchard).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2009","Bramlett","observation","Apis mellifera","species","honeybees",2,NA,13.3333333333333,NA,"On each orchard, 5 trees were observed. At each tree, eight groups of flowers were observed for 20 seconds each (total of around 13 min per orchard).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2009","Bramlett","observation","Apis mellifera","species","honeybees",1,NA,13.3333333333333,NA,"On each orchard, 5 trees were observed. At each tree, eight groups of flowers were observed for 20 seconds each (total of around 13 min per orchard).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2009","Bramlett","observation","Apis mellifera","species","honeybees",1,NA,13.3333333333333,NA,"On each orchard, 5 trees were observed. At each tree, eight groups of flowers were observed for 20 seconds each (total of around 13 min per orchard).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2009","Bramlett","observation","Apis mellifera","species","honeybees",1,NA,13.3333333333333,NA,"On each orchard, 5 trees were observed. At each tree, eight groups of flowers were observed for 20 seconds each (total of around 13 min per orchard).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2009","Bramlett","observation","Apis mellifera","species","honeybees",1,NA,13.3333333333333,NA,"On each orchard, 5 trees were observed. At each tree, eight groups of flowers were observed for 20 seconds each (total of around 13 min per orchard).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2009","Bramlett","observation","Apis mellifera","species","honeybees",2,NA,13.3333333333333,NA,"On each orchard, 5 trees were observed. At each tree, eight groups of flowers were observed for 20 seconds each (total of around 13 min per orchard).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2009","Bramlett","observation","Apis mellifera","species","honeybees",1,NA,13.3333333333333,NA,"On each orchard, 5 trees were observed. At each tree, eight groups of flowers were observed for 20 seconds each (total of around 13 min per orchard).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2009","Bramlett","observation","Apis mellifera","species","honeybees",4,NA,13.3333333333333,NA,"On each orchard, 5 trees were observed. At each tree, eight groups of flowers were observed for 20 seconds each (total of around 13 min per orchard).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2009","Bramlett","observation","Apis mellifera","species","honeybees",1,NA,13.3333333333333,NA,"On each orchard, 5 trees were observed. At each tree, eight groups of flowers were observed for 20 seconds each (total of around 13 min per orchard).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2009","Bramlett","observation","Lasioglossum Evylaeus sp. E","morphospecies","other_wild_bees",1,NA,13.3333333333333,NA,"On each orchard, 5 trees were observed. At each tree, eight groups of flowers were observed for 20 seconds each (total of around 13 min per orchard).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2009","Bramlett","observation","Apis mellifera","species","honeybees",2,NA,13.3333333333333,NA,"On each orchard, 5 trees were observed. At each tree, eight groups of flowers were observed for 20 seconds each (total of around 13 min per orchard).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2009","Bramlett","observation","Bombus melanopygus","species","bumblebees",1,NA,13.3333333333333,NA,"On each orchard, 5 trees were observed. At each tree, eight groups of flowers were observed for 20 seconds each (total of around 13 min per orchard).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2009","Bramlett","observation","Lasioglossum Evylaeus sp. F","morphospecies","other_wild_bees",1,NA,13.3333333333333,NA,"On each orchard, 5 trees were observed. At each tree, eight groups of flowers were observed for 20 seconds each (total of around 13 min per orchard).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2009","Bramlett","observation","Apis mellifera","species","honeybees",1,NA,13.3333333333333,NA,"On each orchard, 5 trees were observed. At each tree, eight groups of flowers were observed for 20 seconds each (total of around 13 min per orchard).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2009","Bramlett","observation","Panurginus gracilis","species","other_wild_bees",1,NA,13.3333333333333,NA,"On each orchard, 5 trees were observed. At each tree, eight groups of flowers were observed for 20 seconds each (total of around 13 min per orchard).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2009","Bramlett","observation","Panurginus gracilis","species","other_wild_bees",1,NA,13.3333333333333,NA,"On each orchard, 5 trees were observed. At each tree, eight groups of flowers were observed for 20 seconds each (total of around 13 min per orchard).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2009","Bramlett","observation","Apis mellifera","species","honeybees",1,NA,13.3333333333333,NA,"On each orchard, 5 trees were observed. At each tree, eight groups of flowers were observed for 20 seconds each (total of around 13 min per orchard).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2009","Bramlett","observation","Halictidae","family","other_wild_bees",1,NA,13.3333333333333,NA,"On each orchard, 5 trees were observed. At each tree, eight groups of flowers were observed for 20 seconds each (total of around 13 min per orchard).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2009","Bramlett","observation","Lasioglossum Evylaeus sp. E","morphospecies","other_wild_bees",1,NA,13.3333333333333,NA,"On each orchard, 5 trees were observed. At each tree, eight groups of flowers were observed for 20 seconds each (total of around 13 min per orchard).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2009","Bramlett","observation","Eucera lunata","species","other_wild_bees",1,NA,13.3333333333333,NA,"On each orchard, 5 trees were observed. At each tree, eight groups of flowers were observed for 20 seconds each (total of around 13 min per orchard).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2009","Bramlett","observation","Lasioglossum Evylaeus sp. F","morphospecies","other_wild_bees",1,NA,13.3333333333333,NA,"On each orchard, 5 trees were observed. At each tree, eight groups of flowers were observed for 20 seconds each (total of around 13 min per orchard).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2009","Bramlett","observation","Bombus melanopygus","species","bumblebees",1,NA,13.3333333333333,NA,"On each orchard, 5 trees were observed. At each tree, eight groups of flowers were observed for 20 seconds each (total of around 13 min per orchard).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2009","Bramlett","observation","Apis mellifera","species","honeybees",2,NA,13.3333333333333,NA,"On each orchard, 5 trees were observed. At each tree, eight groups of flowers were observed for 20 seconds each (total of around 13 min per orchard).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2009","Bramlett","observation","Apis mellifera","species","honeybees",1,NA,13.3333333333333,NA,"On each orchard, 5 trees were observed. At each tree, eight groups of flowers were observed for 20 seconds each (total of around 13 min per orchard).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2009","Bramlett","observation","Bombus melanopygus","species","bumblebees",1,NA,13.3333333333333,NA,"On each orchard, 5 trees were observed. At each tree, eight groups of flowers were observed for 20 seconds each (total of around 13 min per orchard).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2009","Bramlett","observation","Lasioglossum Evylaeus sp. E","morphospecies","other_wild_bees",1,NA,13.3333333333333,NA,"On each orchard, 5 trees were observed. At each tree, eight groups of flowers were observed for 20 seconds each (total of around 13 min per orchard).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2009","Bramlett","observation","Lasioglossum Evylaeus sp. E","morphospecies","other_wild_bees",2,NA,13.3333333333333,NA,"On each orchard, 5 trees were observed. At each tree, eight groups of flowers were observed for 20 seconds each (total of around 13 min per orchard).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2009","Bramlett","observation","Apis mellifera","species","honeybees",1,NA,13.3333333333333,NA,"On each orchard, 5 trees were observed. At each tree, eight groups of flowers were observed for 20 seconds each (total of around 13 min per orchard).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2009","Bramlett","observation","Eucera lunata","species","other_wild_bees",1,NA,13.3333333333333,NA,"On each orchard, 5 trees were observed. At each tree, eight groups of flowers were observed for 20 seconds each (total of around 13 min per orchard).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2009","Bramlett","observation","Eucera lunata","species","other_wild_bees",1,NA,13.3333333333333,NA,"On each orchard, 5 trees were observed. At each tree, eight groups of flowers were observed for 20 seconds each (total of around 13 min per orchard).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2009","Bramlett","observation","Apis mellifera","species","honeybees",1,NA,13.3333333333333,NA,"On each orchard, 5 trees were observed. At each tree, eight groups of flowers were observed for 20 seconds each (total of around 13 min per orchard).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2009","Bramlett","observation","Lasioglossum Evylaeus sp. E","morphospecies","other_wild_bees",1,NA,13.3333333333333,NA,"On each orchard, 5 trees were observed. At each tree, eight groups of flowers were observed for 20 seconds each (total of around 13 min per orchard).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2009","Bramlett","observation","Apis mellifera","species","honeybees",3,NA,13.3333333333333,NA,"On each orchard, 5 trees were observed. At each tree, eight groups of flowers were observed for 20 seconds each (total of around 13 min per orchard).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2009","Bramlett","observation","Bombus melanopygus","species","bumblebees",1,NA,13.3333333333333,NA,"On each orchard, 5 trees were observed. At each tree, eight groups of flowers were observed for 20 seconds each (total of around 13 min per orchard).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2009","Bramlett","observation","Lasioglossum Evylaeus sp. E","morphospecies","other_wild_bees",1,NA,13.3333333333333,NA,"On each orchard, 5 trees were observed. At each tree, eight groups of flowers were observed for 20 seconds each (total of around 13 min per orchard).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2009","Bramlett","observation","Halictidae","family","other_wild_bees",1,NA,13.3333333333333,NA,"On each orchard, 5 trees were observed. At each tree, eight groups of flowers were observed for 20 seconds each (total of around 13 min per orchard).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2009","Bramlett","observation","Panurginus gracilis","species","other_wild_bees",1,NA,13.3333333333333,NA,"On each orchard, 5 trees were observed. At each tree, eight groups of flowers were observed for 20 seconds each (total of around 13 min per orchard).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2009","T&P1","observation","Apis mellifera","species","honeybees",1,NA,13.3333333333333,NA,"On each orchard, 5 trees were observed. At each tree, eight groups of flowers were observed for 20 seconds each (total of around 13 min per orchard).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2009","T&P1","observation","Apis mellifera","species","honeybees",1,NA,13.3333333333333,NA,"On each orchard, 5 trees were observed. At each tree, eight groups of flowers were observed for 20 seconds each (total of around 13 min per orchard).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2009","T&P1","observation","Apis mellifera","species","honeybees",1,NA,13.3333333333333,NA,"On each orchard, 5 trees were observed. At each tree, eight groups of flowers were observed for 20 seconds each (total of around 13 min per orchard).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2009","T&P1","observation","Apis mellifera","species","honeybees",1,NA,13.3333333333333,NA,"On each orchard, 5 trees were observed. At each tree, eight groups of flowers were observed for 20 seconds each (total of around 13 min per orchard).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2009","T&P1","observation","Apis mellifera","species","honeybees",2,NA,13.3333333333333,NA,"On each orchard, 5 trees were observed. At each tree, eight groups of flowers were observed for 20 seconds each (total of around 13 min per orchard).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2009","T&P1","observation","Fruit fly","genus","other_flies",1,NA,13.3333333333333,NA,"On each orchard, 5 trees were observed. At each tree, eight groups of flowers were observed for 20 seconds each (total of around 13 min per orchard).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2009","T&P1","observation","Apis mellifera","species","honeybees",1,NA,13.3333333333333,NA,"On each orchard, 5 trees were observed. At each tree, eight groups of flowers were observed for 20 seconds each (total of around 13 min per orchard).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2009","T&P1","observation","Apis mellifera","species","honeybees",1,NA,13.3333333333333,NA,"On each orchard, 5 trees were observed. At each tree, eight groups of flowers were observed for 20 seconds each (total of around 13 min per orchard).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2009","T&P1","observation","Apis mellifera","species","honeybees",1,NA,13.3333333333333,NA,"On each orchard, 5 trees were observed. At each tree, eight groups of flowers were observed for 20 seconds each (total of around 13 min per orchard).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2009","T&P2","observation","Apis mellifera","species","honeybees",1,NA,13.3333333333333,NA,"On each orchard, 5 trees were observed. At each tree, eight groups of flowers were observed for 20 seconds each (total of around 13 min per orchard).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2009","T&P2","observation","Apis mellifera","species","honeybees",1,NA,13.3333333333333,NA,"On each orchard, 5 trees were observed. At each tree, eight groups of flowers were observed for 20 seconds each (total of around 13 min per orchard).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2009","T&P2","observation","Apis mellifera","species","honeybees",1,NA,13.3333333333333,NA,"On each orchard, 5 trees were observed. At each tree, eight groups of flowers were observed for 20 seconds each (total of around 13 min per orchard).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2009","T&P2","observation","Apis mellifera","species","honeybees",1,NA,13.3333333333333,NA,"On each orchard, 5 trees were observed. At each tree, eight groups of flowers were observed for 20 seconds each (total of around 13 min per orchard).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2009","T&P2","observation","Apis mellifera","species","honeybees",2,NA,13.3333333333333,NA,"On each orchard, 5 trees were observed. At each tree, eight groups of flowers were observed for 20 seconds each (total of around 13 min per orchard).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2009","T&P2","observation","Apis mellifera","species","honeybees",1,NA,13.3333333333333,NA,"On each orchard, 5 trees were observed. At each tree, eight groups of flowers were observed for 20 seconds each (total of around 13 min per orchard).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2009","T&P2","observation","Apis mellifera","species","honeybees",1,NA,13.3333333333333,NA,"On each orchard, 5 trees were observed. At each tree, eight groups of flowers were observed for 20 seconds each (total of around 13 min per orchard).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2009","T&P2","observation","Apis mellifera","species","honeybees",1,NA,13.3333333333333,NA,"On each orchard, 5 trees were observed. At each tree, eight groups of flowers were observed for 20 seconds each (total of around 13 min per orchard).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2009","T&P2","observation","Apis mellifera","species","honeybees",1,NA,13.3333333333333,NA,"On each orchard, 5 trees were observed. At each tree, eight groups of flowers were observed for 20 seconds each (total of around 13 min per orchard).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2009","T&P2","observation","Apis mellifera","species","honeybees",1,NA,13.3333333333333,NA,"On each orchard, 5 trees were observed. At each tree, eight groups of flowers were observed for 20 seconds each (total of around 13 min per orchard).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2009","T&P2","observation","Apis mellifera","species","honeybees",1,NA,13.3333333333333,NA,"On each orchard, 5 trees were observed. At each tree, eight groups of flowers were observed for 20 seconds each (total of around 13 min per orchard).",NA
"Alexandra_Maria_Klein_Prunus_dulcis_USA_2009","T&P2","observation","Apis mellifera","species","honeybees",1,NA,13.3333333333333,NA,"On each orchard, 5 trees were observed. At each tree, eight groups of flowers were observed for 20 seconds each (total of around 13 min per orchard).",NA
"Alice_Classen_Coffea_arabica_Tanzania_2011_2012","HOM1","Pantrap","Lasioglossum sp. 2","morphospecies","other_wild_bees",3,NA,NA,NA,"8 trap clusters per site and season (cluster = white + yellow + blue trap)/10-min observations on 17 flowering coffee bushes",NA
"Alice_Classen_Coffea_arabica_Tanzania_2011_2012","HOM1","Pantrap","Lasioglossum sp. 1","morphospecies","other_wild_bees",1,NA,NA,NA,"8 trap clusters per site and season (cluster = white + yellow + blue trap)/10-min observations on 17 flowering coffee bushes",NA
"Alice_Classen_Coffea_arabica_Tanzania_2011_2012","HOM1","Pantrap","Lasioglossum sp. 26f","morphospecies","other_wild_bees",1,NA,NA,NA,"8 trap clusters per site and season (cluster = white + yellow + blue trap)/10-min observations on 17 flowering coffee bushes",NA
"Alice_Classen_Coffea_arabica_Tanzania_2011_2012","HOM1","Pantrap","Lasioglossum sp. 36f","morphospecies","other_wild_bees",1,NA,NA,NA,"8 trap clusters per site and season (cluster = white + yellow + blue trap)/10-min observations on 17 flowering coffee bushes",NA
"Alice_Classen_Coffea_arabica_Tanzania_2011_2012","HOM1","Pantrap","Halictus sp. 6f","morphospecies","other_wild_bees",1,NA,NA,NA,"8 trap clusters per site and season (cluster = white + yellow + blue trap)/10-min observations on 17 flowering coffee bushes",NA
"Alice_Classen_Coffea_arabica_Tanzania_2011_2012","HOM1","Pantrap","Lasioglossum sp. 2","morphospecies","other_wild_bees",3,NA,NA,NA,"8 trap clusters per site and season (cluster = white + yellow + blue trap)/10-min observations on 17 flowering coffee bushes",NA
"Alice_Classen_Coffea_arabica_Tanzania_2011_2012","HOM2","Pantrap","Apis mellifera","species","honeybees",7,NA,NA,NA,"8 trap clusters per site and season (cluster = white + yellow + blue trap)/10-min observations on 17 flowering coffee bushes",NA
"Alice_Classen_Coffea_arabica_Tanzania_2011_2012","HOM2","Pantrap","Lasioglossum sp. 10f","morphospecies","other_wild_bees",1,NA,NA,NA,"8 trap clusters per site and season (cluster = white + yellow + blue trap)/10-min observations on 17 flowering coffee bushes",NA
"Alice_Classen_Coffea_arabica_Tanzania_2011_2012","HOM2","Pantrap","Apis mellifera","species","honeybees",3,NA,NA,NA,"8 trap clusters per site and season (cluster = white + yellow + blue trap)/10-min observations on 17 flowering coffee bushes",NA
"Alice_Classen_Coffea_arabica_Tanzania_2011_2012","HOM2","Pantrap","Lipotriches sp. 8","morphospecies","other_wild_bees",1,NA,NA,NA,"8 trap clusters per site and season (cluster = white + yellow + blue trap)/10-min observations on 17 flowering coffee bushes",NA
"Alice_Classen_Coffea_arabica_Tanzania_2011_2012","HOM4","Pantrap","Apis mellifera","species","honeybees",13,NA,NA,NA,"8 trap clusters per site and season (cluster = white + yellow + blue trap)/10-min observations on 17 flowering coffee bushes",NA
"Alice_Classen_Coffea_arabica_Tanzania_2011_2012","HOM4","Pantrap","Lasioglossum sp. 14","morphospecies","other_wild_bees",2,NA,NA,NA,"8 trap clusters per site and season (cluster = white + yellow + blue trap)/10-min observations on 17 flowering coffee bushes",NA
"Alice_Classen_Coffea_arabica_Tanzania_2011_2012","HOM4","Pantrap","Lasioglossum sp. 1","morphospecies","other_wild_bees",2,NA,NA,NA,"8 trap clusters per site and season (cluster = white + yellow + blue trap)/10-min observations on 17 flowering coffee bushes",NA
"Alice_Classen_Coffea_arabica_Tanzania_2011_2012","HOM4","Pantrap","Hypotrigona sp. 1","morphospecies","other_wild_bees",1,NA,NA,NA,"8 trap clusters per site and season (cluster = white + yellow + blue trap)/10-min observations on 17 flowering coffee bushes",NA
"Alice_Classen_Coffea_arabica_Tanzania_2011_2012","HOM4","Pantrap","Apis mellifera","species","honeybees",1,NA,NA,NA,"8 trap clusters per site and season (cluster = white + yellow + blue trap)/10-min observations on 17 flowering coffee bushes",NA
"Alice_Classen_Coffea_arabica_Tanzania_2011_2012","HOM5","Pantrap","Apis mellifera","species","honeybees",3,NA,NA,NA,"8 trap clusters per site and season (cluster = white + yellow + blue trap)/10-min observations on 17 flowering coffee bushes",NA
"Alice_Classen_Coffea_arabica_Tanzania_2011_2012","COF2","Pantrap","Apis mellifera","species","honeybees",25,NA,NA,NA,"8 trap clusters per site and season (cluster = white + yellow + blue trap)/10-min observations on 17 flowering coffee bushes",NA
"Alice_Classen_Coffea_arabica_Tanzania_2011_2012","COF2","Pantrap","Lasioglossum sp. 1","morphospecies","other_wild_bees",3,NA,NA,NA,"8 trap clusters per site and season (cluster = white + yellow + blue trap)/10-min observations on 17 flowering coffee bushes",NA
"Alice_Classen_Coffea_arabica_Tanzania_2011_2012","COF2","Pantrap","Lasioglossum sp. 3","morphospecies","other_wild_bees",1,NA,NA,NA,"8 trap clusters per site and season (cluster = white + yellow + blue trap)/10-min observations on 17 flowering coffee bushes",NA
"Alice_Classen_Coffea_arabica_Tanzania_2011_2012","COF2","Pantrap","Meliponula ferruginea","species","other_wild_bees",1,NA,NA,NA,"8 trap clusters per site and season (cluster = white + yellow + blue trap)/10-min observations on 17 flowering coffee bushes",NA
"Alice_Classen_Coffea_arabica_Tanzania_2011_2012","COF2","Pantrap","Apis mellifera","species","honeybees",7,NA,NA,NA,"8 trap clusters per site and season (cluster = white + yellow + blue trap)/10-min observations on 17 flowering coffee bushes",NA
"Alice_Classen_Coffea_arabica_Tanzania_2011_2012","COF2","Pantrap","Pseudapis sp. 1","morphospecies","other_wild_bees",1,NA,NA,NA,"8 trap clusters per site and season (cluster = white + yellow + blue trap)/10-min observations on 17 flowering coffee bushes",NA
"Alice_Classen_Coffea_arabica_Tanzania_2011_2012","COF3","Pantrap","Apis mellifera","species","honeybees",12,NA,NA,NA,"8 trap clusters per site and season (cluster = white + yellow + blue trap)/10-min observations on 17 flowering coffee bushes",NA
"Alice_Classen_Coffea_arabica_Tanzania_2011_2012","COF3","Pantrap","Apis mellifera","species","honeybees",3,NA,NA,NA,"8 trap clusters per site and season (cluster = white + yellow + blue trap)/10-min observations on 17 flowering coffee bushes",NA
"Alice_Classen_Coffea_arabica_Tanzania_2011_2012","COF3","Pantrap","Lasioglossum sp. 1","morphospecies","other_wild_bees",1,NA,NA,NA,"8 trap clusters per site and season (cluster = white + yellow + blue trap)/10-min observations on 17 flowering coffee bushes",NA
"Alice_Classen_Coffea_arabica_Tanzania_2011_2012","COF3","Pantrap","Lasioglossum sp. 4","morphospecies","other_wild_bees",1,NA,NA,NA,"8 trap clusters per site and season (cluster = white + yellow + blue trap)/10-min observations on 17 flowering coffee bushes",NA
"Alice_Classen_Coffea_arabica_Tanzania_2011_2012","COF4","Pantrap","Apis mellifera","species","honeybees",54,NA,NA,NA,"8 trap clusters per site and season (cluster = white + yellow + blue trap)/10-min observations on 17 flowering coffee bushes",NA
"Alice_Classen_Coffea_arabica_Tanzania_2011_2012","COF4","Pantrap","Lasioglossum sp. 1","morphospecies","other_wild_bees",5,NA,NA,NA,"8 trap clusters per site and season (cluster = white + yellow + blue trap)/10-min observations on 17 flowering coffee bushes",NA
"Alice_Classen_Coffea_arabica_Tanzania_2011_2012","COF4","Pantrap","Lasioglossum sp. 11","morphospecies","other_wild_bees",1,NA,NA,NA,"8 trap clusters per site and season (cluster = white + yellow + blue trap)/10-min observations on 17 flowering coffee bushes",NA
"Alice_Classen_Coffea_arabica_Tanzania_2011_2012","COF4","Pantrap","Apis mellifera","species","honeybees",2,NA,NA,NA,"8 trap clusters per site and season (cluster = white + yellow + blue trap)/10-min observations on 17 flowering coffee bushes",NA
"Alice_Classen_Coffea_arabica_Tanzania_2011_2012","COF4","Pantrap","Lithurgus pullatus (Vachal)","species","other_wild_bees",1,NA,NA,NA,"8 trap clusters per site and season (cluster = white + yellow + blue trap)/10-min observations on 17 flowering coffee bushes",NA
"Alice_Classen_Coffea_arabica_Tanzania_2011_2012","COF5","Pantrap","Apis mellifera","species","honeybees",5,NA,NA,NA,"8 trap clusters per site and season (cluster = white + yellow + blue trap)/10-min observations on 17 flowering coffee bushes",NA
"Alice_Classen_Coffea_arabica_Tanzania_2011_2012","COF5","Pantrap","Halictus sp. 1","morphospecies","other_wild_bees",7,NA,NA,NA,"8 trap clusters per site and season (cluster = white + yellow + blue trap)/10-min observations on 17 flowering coffee bushes",NA
"Alice_Classen_Coffea_arabica_Tanzania_2011_2012","COF5","Pantrap","Patellapis sp. 4","morphospecies","other_wild_bees",1,NA,NA,NA,"8 trap clusters per site and season (cluster = white + yellow + blue trap)/10-min observations on 17 flowering coffee bushes",NA
"Alice_Classen_Coffea_arabica_Tanzania_2011_2012","COF5","Pantrap","Meliponula ferruginea","species","other_wild_bees",2,NA,NA,NA,"8 trap clusters per site and season (cluster = white + yellow + blue trap)/10-min observations on 17 flowering coffee bushes",NA
"Alice_Classen_Coffea_arabica_Tanzania_2011_2012","COF5","Pantrap","Lasioglossum sp. 1","morphospecies","other_wild_bees",2,NA,NA,NA,"8 trap clusters per site and season (cluster = white + yellow + blue trap)/10-min observations on 17 flowering coffee bushes",NA
"Alice_Classen_Coffea_arabica_Tanzania_2011_2012","COF5","Pantrap","Lasioglossum sp. 14","morphospecies","other_wild_bees",1,NA,NA,NA,"8 trap clusters per site and season (cluster = white + yellow + blue trap)/10-min observations on 17 flowering coffee bushes",NA
"Alice_Classen_Coffea_arabica_Tanzania_2011_2012","COF5","Pantrap","Lasioglossum sp. 13","morphospecies","other_wild_bees",1,NA,NA,NA,"8 trap clusters per site and season (cluster = white + yellow + blue trap)/10-min observations on 17 flowering coffee bushes",NA
"Alice_Classen_Coffea_arabica_Tanzania_2011_2012","COF5","Pantrap","Lasioglossum sp. 2","morphospecies","other_wild_bees",2,NA,NA,NA,"8 trap clusters per site and season (cluster = white + yellow + blue trap)/10-min observations on 17 flowering coffee bushes",NA
"Alice_Classen_Coffea_arabica_Tanzania_2011_2012","COF5","Pantrap","Apis mellifera","species","honeybees",9,NA,NA,NA,"8 trap clusters per site and season (cluster = white + yellow + blue trap)/10-min observations on 17 flowering coffee bushes",NA
"Alice_Classen_Coffea_arabica_Tanzania_2011_2012","COF5","Pantrap","Hylaeus sp. 1","morphospecies","other_wild_bees",1,NA,NA,NA,"8 trap clusters per site and season (cluster = white + yellow + blue trap)/10-min observations on 17 flowering coffee bushes",NA
"Alice_Classen_Coffea_arabica_Tanzania_2011_2012","SUN1","Pantrap","Apis mellifera","species","honeybees",43,NA,NA,NA,"8 trap clusters per site and season (cluster = white + yellow + blue trap)/10-min observations on 17 flowering coffee bushes",NA
"Alice_Classen_Coffea_arabica_Tanzania_2011_2012","SUN1","Pantrap","Macrogalea candida","species","other_wild_bees",11,NA,NA,NA,"8 trap clusters per site and season (cluster = white + yellow + blue trap)/10-min observations on 17 flowering coffee bushes",NA
"Alice_Classen_Coffea_arabica_Tanzania_2011_2012","SUN1","Pantrap","Lasioglossum sp. 11","morphospecies","other_wild_bees",1,NA,NA,NA,"8 trap clusters per site and season (cluster = white + yellow + blue trap)/10-min observations on 17 flowering coffee bushes",NA
"Alice_Classen_Coffea_arabica_Tanzania_2011_2012","SUN1","Pantrap","Lasioglossum sp. 14","morphospecies","other_wild_bees",1,NA,NA,NA,"8 trap clusters per site and season (cluster = white + yellow + blue trap)/10-min observations on 17 flowering coffee bushes",NA
"Alice_Classen_Coffea_arabica_Tanzania_2011_2012","SUN1","Pantrap","Lasioglossum sp. 1","morphospecies","other_wild_bees",3,NA,NA,NA,"8 trap clusters per site and season (cluster = white + yellow + blue trap)/10-min observations on 17 flowering coffee bushes",NA
"Alice_Classen_Coffea_arabica_Tanzania_2011_2012","SUN1","Pantrap","Lasioglossum sp. 18f","morphospecies","other_wild_bees",1,NA,NA,NA,"8 trap clusters per site and season (cluster = white + yellow + blue trap)/10-min observations on 17 flowering coffee bushes",NA
"Alice_Classen_Coffea_arabica_Tanzania_2011_2012","SUN1","Pantrap","Lasioglossum sp. 16f","morphospecies","other_wild_bees",1,NA,NA,NA,"8 trap clusters per site and season (cluster = white + yellow + blue trap)/10-min observations on 17 flowering coffee bushes",NA
"Alice_Classen_Coffea_arabica_Tanzania_2011_2012","SUN1","Pantrap","Tetralonia sp. 1f","morphospecies","other_wild_bees",1,NA,NA,NA,"8 trap clusters per site and season (cluster = white + yellow + blue trap)/10-min observations on 17 flowering coffee bushes",NA
"Alice_Classen_Coffea_arabica_Tanzania_2011_2012","SUN1","Pantrap","Apis mellifera","species","honeybees",47,NA,NA,NA,"8 trap clusters per site and season (cluster = white + yellow + blue trap)/10-min observations on 17 flowering coffee bushes",NA
"Alice_Classen_Coffea_arabica_Tanzania_2011_2012","SUN1","Pantrap","Lithurgus pullatus (Vachal)","species","other_wild_bees",1,NA,NA,NA,"8 trap clusters per site and season (cluster = white + yellow + blue trap)/10-min observations on 17 flowering coffee bushes",NA
"Alice_Classen_Coffea_arabica_Tanzania_2011_2012","SUN1","Pantrap","Macrogalea candida (Smith)","species","other_wild_bees",5,NA,NA,NA,"8 trap clusters per site and season (cluster = white + yellow + blue trap)/10-min observations on 17 flowering coffee bushes",NA
"Alice_Classen_Coffea_arabica_Tanzania_2011_2012","SUN1","Pantrap","Braunsapis sp.1","morphospecies","other_wild_bees",1,NA,NA,NA,"8 trap clusters per site and season (cluster = white + yellow + blue trap)/10-min observations on 17 flowering coffee bushes",NA
"Alice_Classen_Coffea_arabica_Tanzania_2011_2012","SUN2","Pantrap","Apis mellifera","species","honeybees",2,NA,NA,NA,"8 trap clusters per site and season (cluster = white + yellow + blue trap)/10-min observations on 17 flowering coffee bushes",NA
"Alice_Classen_Coffea_arabica_Tanzania_2011_2012","SUN2","Pantrap","Lasiolgossum sp. 3","morphospecies","other_wild_bees",2,NA,NA,NA,"8 trap clusters per site and season (cluster = white + yellow + blue trap)/10-min observations on 17 flowering coffee bushes",NA
"Alice_Classen_Coffea_arabica_Tanzania_2011_2012","SUN2","Pantrap","Lasioglossum sp. 13","morphospecies","other_wild_bees",1,NA,NA,NA,"8 trap clusters per site and season (cluster = white + yellow + blue trap)/10-min observations on 17 flowering coffee bushes",NA
"Alice_Classen_Coffea_arabica_Tanzania_2011_2012","SUN2","Pantrap","Megachile sp. 1f","morphospecies","other_wild_bees",1,NA,NA,NA,"8 trap clusters per site and season (cluster = white + yellow + blue trap)/10-min observations on 17 flowering coffee bushes",NA
"Alice_Classen_Coffea_arabica_Tanzania_2011_2012","SUN2","Pantrap","Xylocopa flavorufa (DeGeer)","species","other_wild_bees",1,NA,NA,NA,"8 trap clusters per site and season (cluster = white + yellow + blue trap)/10-min observations on 17 flowering coffee bushes",NA
"Alice_Classen_Coffea_arabica_Tanzania_2011_2012","SUN2","Pantrap","Apis mellifera","species","honeybees",6,NA,NA,NA,"8 trap clusters per site and season (cluster = white + yellow + blue trap)/10-min observations on 17 flowering coffee bushes",NA
"Alice_Classen_Coffea_arabica_Tanzania_2011_2012","SUN2","Pantrap","Halictus sp.1","morphospecies","other_wild_bees",1,NA,NA,NA,"8 trap clusters per site and season (cluster = white + yellow + blue trap)/10-min observations on 17 flowering coffee bushes",NA
"Alice_Classen_Coffea_arabica_Tanzania_2011_2012","SUN3","Pantrap","Apis mellifera","species","honeybees",36,NA,NA,NA,"8 trap clusters per site and season (cluster = white + yellow + blue trap)/10-min observations on 17 flowering coffee bushes",NA
"Alice_Classen_Coffea_arabica_Tanzania_2011_2012","SUN3","Pantrap","Lasioglossum sp. 3","morphospecies","other_wild_bees",1,NA,NA,NA,"8 trap clusters per site and season (cluster = white + yellow + blue trap)/10-min observations on 17 flowering coffee bushes",NA
"Alice_Classen_Coffea_arabica_Tanzania_2011_2012","SUN3","Pantrap","Lasioglossum sp. 14","morphospecies","other_wild_bees",1,NA,NA,NA,"8 trap clusters per site and season (cluster = white + yellow + blue trap)/10-min observations on 17 flowering coffee bushes",NA
"Alice_Classen_Coffea_arabica_Tanzania_2011_2012","SUN3","Pantrap","Lasioglossum sp. 1","morphospecies","other_wild_bees",1,NA,NA,NA,"8 trap clusters per site and season (cluster = white + yellow + blue trap)/10-min observations on 17 flowering coffee bushes",NA
"Alice_Classen_Coffea_arabica_Tanzania_2011_2012","SUN3","Pantrap","Lasioglossum sp. 14f","morphospecies","other_wild_bees",1,NA,NA,NA,"8 trap clusters per site and season (cluster = white + yellow + blue trap)/10-min observations on 17 flowering coffee bushes",NA
"Alice_Classen_Coffea_arabica_Tanzania_2011_2012","SUN3","Pantrap","Apis mellifera","species","honeybees",9,NA,NA,NA,"8 trap clusters per site and season (cluster = white + yellow + blue trap)/10-min observations on 17 flowering coffee bushes",NA
"Alice_Classen_Coffea_arabica_Tanzania_2011_2012","SUN3","Pantrap","Ceratina sp. 1","morphospecies","other_wild_bees",1,NA,NA,NA,"8 trap clusters per site and season (cluster = white + yellow + blue trap)/10-min observations on 17 flowering coffee bushes",NA
"Alice_Classen_Coffea_arabica_Tanzania_2011_2012","SUN4","Pantrap","Apis mellifera","species","honeybees",218,NA,NA,NA,"8 trap clusters per site and season (cluster = white + yellow + blue trap)/10-min observations on 17 flowering coffee bushes",NA
"Alice_Classen_Coffea_arabica_Tanzania_2011_2012","SUN4","Pantrap","Macrogalea candida","species","other_wild_bees",1,NA,NA,NA,"8 trap clusters per site and season (cluster = white + yellow + blue trap)/10-min observations on 17 flowering coffee bushes",NA
"Alice_Classen_Coffea_arabica_Tanzania_2011_2012","SUN4","Pantrap","Meliponini sp. 1","morphospecies","other_wild_bees",1,NA,NA,NA,"8 trap clusters per site and season (cluster = white + yellow + blue trap)/10-min observations on 17 flowering coffee bushes",NA
"Alice_Classen_Coffea_arabica_Tanzania_2011_2012","SUN4","Pantrap","Lasioglossum sp. 1","morphospecies","other_wild_bees",3,NA,NA,NA,"8 trap clusters per site and season (cluster = white + yellow + blue trap)/10-min observations on 17 flowering coffee bushes",NA
"Alice_Classen_Coffea_arabica_Tanzania_2011_2012","SUN4","Pantrap","Lasioglossum sp. 11","morphospecies","other_wild_bees",1,NA,NA,NA,"8 trap clusters per site and season (cluster = white + yellow + blue trap)/10-min observations on 17 flowering coffee bushes",NA
"Alice_Classen_Coffea_arabica_Tanzania_2011_2012","SUN4","Pantrap","Lasioglossum sp. 14","morphospecies","other_wild_bees",1,NA,NA,NA,"8 trap clusters per site and season (cluster = white + yellow + blue trap)/10-min observations on 17 flowering coffee bushes",NA
"Alice_Classen_Coffea_arabica_Tanzania_2011_2012","SUN4","Pantrap","Lasioglossum sp. 20","morphospecies","other_wild_bees",1,NA,NA,NA,"8 trap clusters per site and season (cluster = white + yellow + blue trap)/10-min observations on 17 flowering coffee bushes",NA
"Alice_Classen_Coffea_arabica_Tanzania_2011_2012","SUN4","Pantrap","Lasioglossum sp. 24m","morphospecies","other_wild_bees",1,NA,NA,NA,"8 trap clusters per site and season (cluster = white + yellow + blue trap)/10-min observations on 17 flowering coffee bushes",NA
"Alice_Classen_Coffea_arabica_Tanzania_2011_2012","SUN4","Pantrap","Lithurgus pullatus (Vachal)","species","other_wild_bees",1,NA,NA,NA,"8 trap clusters per site and season (cluster = white + yellow + blue trap)/10-min observations on 17 flowering coffee bushes",NA
"Alice_Classen_Coffea_arabica_Tanzania_2011_2012","SUN4","Pantrap","Apis mellifera","species","honeybees",14,NA,NA,NA,"8 trap clusters per site and season (cluster = white + yellow + blue trap)/10-min observations on 17 flowering coffee bushes",NA
"Alice_Classen_Coffea_arabica_Tanzania_2011_2012","SUN4","Pantrap","Lasioglossum sp. 2","morphospecies","other_wild_bees",2,NA,NA,NA,"8 trap clusters per site and season (cluster = white + yellow + blue trap)/10-min observations on 17 flowering coffee bushes",NA
"Alice_Classen_Coffea_arabica_Tanzania_2011_2012","SUN4","Pantrap","Lasioglossum sp. 1","morphospecies","other_wild_bees",1,NA,NA,NA,"8 trap clusters per site and season (cluster = white + yellow + blue trap)/10-min observations on 17 flowering coffee bushes",NA
"Alice_Classen_Coffea_arabica_Tanzania_2011_2012","COF2","observation","Apis mellifera","species","honeybees",95,NA,170,1114,"8 trap clusters per site and season (cluster = white + yellow + blue trap)/10-min observations on 17 flowering coffee bushes",NA
"Alice_Classen_Coffea_arabica_Tanzania_2011_2012","COF2","observation","Apoidea_smallerthanHoneybee","morphospecies","other_wild_bees",3,NA,170,1114,"8 trap clusters per site and season (cluster = white + yellow + blue trap)/10-min observations on 17 flowering coffee bushes",NA
"Alice_Classen_Coffea_arabica_Tanzania_2011_2012","COF2","observation","Apoidea_largerthanHoneybee","morphospecies","other_wild_bees",1,NA,170,1114,"8 trap clusters per site and season (cluster = white + yellow + blue trap)/10-min observations on 17 flowering coffee bushes",NA
"Alice_Classen_Coffea_arabica_Tanzania_2011_2012","COF2","observation","Hymenoptera_Nonbee_Aculeata","superfamily","non_bee_hymenoptera",2,NA,170,1114,"8 trap clusters per site and season (cluster = white + yellow + blue trap)/10-min observations on 17 flowering coffee bushes",NA
"Alice_Classen_Coffea_arabica_Tanzania_2011_2012","COF2","observation","Syrphidae","family","syrphids",1,NA,170,1114,"8 trap clusters per site and season (cluster = white + yellow + blue trap)/10-min observations on 17 flowering coffee bushes",NA
"Alice_Classen_Coffea_arabica_Tanzania_2011_2012","COF2","observation","Lepidoptera","order","lepidoptera",3,NA,170,1114,"8 trap clusters per site and season (cluster = white + yellow + blue trap)/10-min observations on 17 flowering coffee bushes",NA
"Alice_Classen_Coffea_arabica_Tanzania_2011_2012","COF2","observation","other_Diptera","order","other_flies",6,NA,170,1114,"8 trap clusters per site and season (cluster = white + yellow + blue trap)/10-min observations on 17 flowering coffee bushes",NA
"Alice_Classen_Coffea_arabica_Tanzania_2011_2012","COF2","observation","Formicidae","family","non_bee_hymenoptera",1,NA,170,1114,"8 trap clusters per site and season (cluster = white + yellow + blue trap)/10-min observations on 17 flowering coffee bushes",NA
"Alice_Classen_Coffea_arabica_Tanzania_2011_2012","COF3","observation","Apis mellifera","species","honeybees",90,NA,170,1507,"8 trap clusters per site and season (cluster = white + yellow + blue trap)/10-min observations on 17 flowering coffee bushes",NA
"Alice_Classen_Coffea_arabica_Tanzania_2011_2012","COF3","observation","Apoidea_smallerthanHoneybee","morphospecies","other_wild_bees",3,NA,170,1507,"8 trap clusters per site and season (cluster = white + yellow + blue trap)/10-min observations on 17 flowering coffee bushes",NA
"Alice_Classen_Coffea_arabica_Tanzania_2011_2012","COF3","observation","Apoidea_sizeequalsHoneybee","morphospecies","other_wild_bees",1,NA,170,1507,"8 trap clusters per site and season (cluster = white + yellow + blue trap)/10-min observations on 17 flowering coffee bushes",NA
"Alice_Classen_Coffea_arabica_Tanzania_2011_2012","COF3","observation","Apoidea_largerthanHoneybee","morphospecies","other_wild_bees",1,NA,170,1507,"8 trap clusters per site and season (cluster = white + yellow + blue trap)/10-min observations on 17 flowering coffee bushes",NA
"Alice_Classen_Coffea_arabica_Tanzania_2011_2012","COF3","observation","Syrphidae","family","syrphids",2,NA,170,1507,"8 trap clusters per site and season (cluster = white + yellow + blue trap)/10-min observations on 17 flowering coffee bushes",NA
"Alice_Classen_Coffea_arabica_Tanzania_2011_2012","COF3","observation","other_Diptera","order","other_flies",11,NA,170,1507,"8 trap clusters per site and season (cluster = white + yellow + blue trap)/10-min observations on 17 flowering coffee bushes",NA
"Alice_Classen_Coffea_arabica_Tanzania_2011_2012","COF3","observation","Formicidae","family","non_bee_hymenoptera",6,NA,170,1507,"8 trap clusters per site and season (cluster = white + yellow + blue trap)/10-min observations on 17 flowering coffee bushes",NA
"Alice_Classen_Coffea_arabica_Tanzania_2011_2012","COF4","observation","Apis mellifera","species","honeybees",108,NA,170,1485,"8 trap clusters per site and season (cluster = white + yellow + blue trap)/10-min observations on 17 flowering coffee bushes",NA
"Alice_Classen_Coffea_arabica_Tanzania_2011_2012","COF4","observation","Syrphidae","family","syrphids",3,NA,170,1485,"8 trap clusters per site and season (cluster = white + yellow + blue trap)/10-min observations on 17 flowering coffee bushes",NA
"Alice_Classen_Coffea_arabica_Tanzania_2011_2012","COF4","observation","Lepidoptera","order","lepidoptera",2,NA,170,1485,"8 trap clusters per site and season (cluster = white + yellow + blue trap)/10-min observations on 17 flowering coffee bushes",NA
"Alice_Classen_Coffea_arabica_Tanzania_2011_2012","COF4","observation","other_Diptera","order","other_flies",1,NA,170,1485,"8 trap clusters per site and season (cluster = white + yellow + blue trap)/10-min observations on 17 flowering coffee bushes",NA
"Alice_Classen_Coffea_arabica_Tanzania_2011_2012","COF4","observation","Formicidae","family","non_bee_hymenoptera",13,NA,170,1485,"8 trap clusters per site and season (cluster = white + yellow + blue trap)/10-min observations on 17 flowering coffee bushes",NA
"Alice_Classen_Coffea_arabica_Tanzania_2011_2012","COF5","observation","Apis mellifera","species","honeybees",14,NA,170,464,"8 trap clusters per site and season (cluster = white + yellow + blue trap)/10-min observations on 17 flowering coffee bushes",NA
"Alice_Classen_Coffea_arabica_Tanzania_2011_2012","COF5","observation","Apoidea_smallerthanHoneybee","morphospecies","other_wild_bees",1,NA,170,464,"8 trap clusters per site and season (cluster = white + yellow + blue trap)/10-min observations on 17 flowering coffee bushes",NA
"Alice_Classen_Coffea_arabica_Tanzania_2011_2012","COF5","observation","Hymenoptera_Nonbee_Aculeata","superfamily","non_bee_hymenoptera",1,NA,170,464,"8 trap clusters per site and season (cluster = white + yellow + blue trap)/10-min observations on 17 flowering coffee bushes",NA
"Alice_Classen_Coffea_arabica_Tanzania_2011_2012","COF5","observation","Syrphidae","family","syrphids",2,NA,170,464,"8 trap clusters per site and season (cluster = white + yellow + blue trap)/10-min observations on 17 flowering coffee bushes",NA
"Alice_Classen_Coffea_arabica_Tanzania_2011_2012","COF5","observation","Lepidoptera","order","lepidoptera",8,NA,170,464,"8 trap clusters per site and season (cluster = white + yellow + blue trap)/10-min observations on 17 flowering coffee bushes",NA
"Alice_Classen_Coffea_arabica_Tanzania_2011_2012","COF5","observation","other_Diptera","order","other_flies",12,NA,170,464,"8 trap clusters per site and season (cluster = white + yellow + blue trap)/10-min observations on 17 flowering coffee bushes",NA
"Alice_Classen_Coffea_arabica_Tanzania_2011_2012","COF5","observation","Formicidae","family","non_bee_hymenoptera",2,NA,170,464,"8 trap clusters per site and season (cluster = white + yellow + blue trap)/10-min observations on 17 flowering coffee bushes",NA
"Alice_Classen_Coffea_arabica_Tanzania_2011_2012","HOM1","observation","Apis mellifera","species","honeybees",17,NA,170,640,"8 trap clusters per site and season (cluster = white + yellow + blue trap)/10-min observations on 17 flowering coffee bushes",NA
"Alice_Classen_Coffea_arabica_Tanzania_2011_2012","HOM1","observation","Apoidea_smallerthanHoneybee","morphospecies","other_wild_bees",6,NA,170,640,"8 trap clusters per site and season (cluster = white + yellow + blue trap)/10-min observations on 17 flowering coffee bushes",NA
"Alice_Classen_Coffea_arabica_Tanzania_2011_2012","HOM1","observation","Hymenoptera_Nonbee_Aculeata","superfamily","non_bee_hymenoptera",2,NA,170,640,"8 trap clusters per site and season (cluster = white + yellow + blue trap)/10-min observations on 17 flowering coffee bushes",NA
"Alice_Classen_Coffea_arabica_Tanzania_2011_2012","HOM1","observation","Lepidoptera","order","lepidoptera",3,NA,170,640,"8 trap clusters per site and season (cluster = white + yellow + blue trap)/10-min observations on 17 flowering coffee bushes",NA
"Alice_Classen_Coffea_arabica_Tanzania_2011_2012","HOM1","observation","other_Diptera","order","other_flies",1,NA,170,640,"8 trap clusters per site and season (cluster = white + yellow + blue trap)/10-min observations on 17 flowering coffee bushes",NA
"Alice_Classen_Coffea_arabica_Tanzania_2011_2012","HOM1","observation","Formicidae","family","non_bee_hymenoptera",1,NA,170,640,"8 trap clusters per site and season (cluster = white + yellow + blue trap)/10-min observations on 17 flowering coffee bushes",NA
"Alice_Classen_Coffea_arabica_Tanzania_2011_2012","HOM2","observation","Apis mellifera","species","honeybees",25,NA,170,846,"8 trap clusters per site and season (cluster = white + yellow + blue trap)/10-min observations on 17 flowering coffee bushes",NA
"Alice_Classen_Coffea_arabica_Tanzania_2011_2012","HOM2","observation","Apoidea_smallerthanHoneybee","morphospecies","other_wild_bees",10,NA,170,846,"8 trap clusters per site and season (cluster = white + yellow + blue trap)/10-min observations on 17 flowering coffee bushes",NA
"Alice_Classen_Coffea_arabica_Tanzania_2011_2012","HOM2","observation","Apoidea_largerthanHoneybee","morphospecies","other_wild_bees",1,NA,170,846,"8 trap clusters per site and season (cluster = white + yellow + blue trap)/10-min observations on 17 flowering coffee bushes",NA
"Alice_Classen_Coffea_arabica_Tanzania_2011_2012","HOM2","observation","Hymenoptera_Nonbee_Aculeata","superfamily","non_bee_hymenoptera",3,NA,170,846,"8 trap clusters per site and season (cluster = white + yellow + blue trap)/10-min observations on 17 flowering coffee bushes",NA
"Alice_Classen_Coffea_arabica_Tanzania_2011_2012","HOM2","observation","Syrphidae","family","syrphids",3,NA,170,846,"8 trap clusters per site and season (cluster = white + yellow + blue trap)/10-min observations on 17 flowering coffee bushes",NA
"Alice_Classen_Coffea_arabica_Tanzania_2011_2012","HOM2","observation","Lepidoptera","order","lepidoptera",1,NA,170,846,"8 trap clusters per site and season (cluster = white + yellow + blue trap)/10-min observations on 17 flowering coffee bushes",NA
"Alice_Classen_Coffea_arabica_Tanzania_2011_2012","HOM2","observation","other_Diptera","order","other_flies",6,NA,170,846,"8 trap clusters per site and season (cluster = white + yellow + blue trap)/10-min observations on 17 flowering coffee bushes",NA
"Alice_Classen_Coffea_arabica_Tanzania_2011_2012","HOM2","observation","Formicidae","family","non_bee_hymenoptera",36,NA,170,846,"8 trap clusters per site and season (cluster = white + yellow + blue trap)/10-min observations on 17 flowering coffee bushes",NA
"Alice_Classen_Coffea_arabica_Tanzania_2011_2012","HOM4","observation","Apis mellifera","species","honeybees",33,NA,170,1596,"8 trap clusters per site and season (cluster = white + yellow + blue trap)/10-min observations on 17 flowering coffee bushes",NA
"Alice_Classen_Coffea_arabica_Tanzania_2011_2012","HOM4","observation","Apoidea_smallerthanHoneybee","morphospecies","other_wild_bees",45,NA,170,1596,"8 trap clusters per site and season (cluster = white + yellow + blue trap)/10-min observations on 17 flowering coffee bushes",NA
"Alice_Classen_Coffea_arabica_Tanzania_2011_2012","HOM4","observation","other_Diptera","order","other_flies",5,NA,170,1596,"8 trap clusters per site and season (cluster = white + yellow + blue trap)/10-min observations on 17 flowering coffee bushes",NA
"Alice_Classen_Coffea_arabica_Tanzania_2011_2012","HOM4","observation","Formicidae","family","non_bee_hymenoptera",40,NA,170,1596,"8 trap clusters per site and season (cluster = white + yellow + blue trap)/10-min observations on 17 flowering coffee bushes",NA
"Alice_Classen_Coffea_arabica_Tanzania_2011_2012","SUN1","observation","Apis mellifera","species","honeybees",97,NA,170,992,"8 trap clusters per site and season (cluster = white + yellow + blue trap)/10-min observations on 17 flowering coffee bushes",NA
"Alice_Classen_Coffea_arabica_Tanzania_2011_2012","SUN1","observation","Apoidea_smallerthanHoneybee","morphospecies","other_wild_bees",1,NA,170,992,"8 trap clusters per site and season (cluster = white + yellow + blue trap)/10-min observations on 17 flowering coffee bushes",NA
"Alice_Classen_Coffea_arabica_Tanzania_2011_2012","SUN1","observation","Syrphidae","family","syrphids",3,NA,170,992,"8 trap clusters per site and season (cluster = white + yellow + blue trap)/10-min observations on 17 flowering coffee bushes",NA
"Alice_Classen_Coffea_arabica_Tanzania_2011_2012","SUN1","observation","Lepidoptera","order","lepidoptera",1,NA,170,992,"8 trap clusters per site and season (cluster = white + yellow + blue trap)/10-min observations on 17 flowering coffee bushes",NA
"Alice_Classen_Coffea_arabica_Tanzania_2011_2012","SUN1","observation","other_Diptera","order","other_flies",2,NA,170,992,"8 trap clusters per site and season (cluster = white + yellow + blue trap)/10-min observations on 17 flowering coffee bushes",NA
"Alice_Classen_Coffea_arabica_Tanzania_2011_2012","SUN1","observation","Formicidae","family","non_bee_hymenoptera",8,NA,170,992,"8 trap clusters per site and season (cluster = white + yellow + blue trap)/10-min observations on 17 flowering coffee bushes",NA
"Alice_Classen_Coffea_arabica_Tanzania_2011_2012","SUN2","observation","Apis mellifera","species","honeybees",60,NA,170,940,"8 trap clusters per site and season (cluster = white + yellow + blue trap)/10-min observations on 17 flowering coffee bushes",NA
"Alice_Classen_Coffea_arabica_Tanzania_2011_2012","SUN2","observation","Apoidea_smallerthanHoneybee","morphospecies","other_wild_bees",1,NA,170,940,"8 trap clusters per site and season (cluster = white + yellow + blue trap)/10-min observations on 17 flowering coffee bushes",NA
"Alice_Classen_Coffea_arabica_Tanzania_2011_2012","SUN2","observation","Apoidea_largerthanHoneybee","morphospecies","other_wild_bees",1,NA,170,940,"8 trap clusters per site and season (cluster = white + yellow + blue trap)/10-min observations on 17 flowering coffee bushes",NA
"Alice_Classen_Coffea_arabica_Tanzania_2011_2012","SUN2","observation","Hymenoptera_Nonbee_Aculeata","superfamily","non_bee_hymenoptera",1,NA,170,940,"8 trap clusters per site and season (cluster = white + yellow + blue trap)/10-min observations on 17 flowering coffee bushes",NA
"Alice_Classen_Coffea_arabica_Tanzania_2011_2012","SUN2","observation","other_Diptera","order","other_flies",14,NA,170,940,"8 trap clusters per site and season (cluster = white + yellow + blue trap)/10-min observations on 17 flowering coffee bushes",NA
"Alice_Classen_Coffea_arabica_Tanzania_2011_2012","SUN2","observation","Formicidae","family","non_bee_hymenoptera",1,NA,170,940,"8 trap clusters per site and season (cluster = white + yellow + blue trap)/10-min observations on 17 flowering coffee bushes",NA
"Alice_Classen_Coffea_arabica_Tanzania_2011_2012","SUN3","observation","Apis mellifera","species","honeybees",127,NA,170,1319,"8 trap clusters per site and season (cluster = white + yellow + blue trap)/10-min observations on 17 flowering coffee bushes",NA
"Alice_Classen_Coffea_arabica_Tanzania_2011_2012","SUN3","observation","other_Diptera","order","other_flies",11,NA,170,1319,"8 trap clusters per site and season (cluster = white + yellow + blue trap)/10-min observations on 17 flowering coffee bushes",NA
"Alice_Classen_Coffea_arabica_Tanzania_2011_2012","SUN4","observation","Apis mellifera","species","honeybees",126,NA,170,1299,"8 trap clusters per site and season (cluster = white + yellow + blue trap)/10-min observations on 17 flowering coffee bushes",NA
"Alice_Classen_Coffea_arabica_Tanzania_2011_2012","SUN4","observation","Apoidea_smallerthanHoneybee","morphospecies","other_wild_bees",3,NA,170,1299,"8 trap clusters per site and season (cluster = white + yellow + blue trap)/10-min observations on 17 flowering coffee bushes",NA
"Alice_Classen_Coffea_arabica_Tanzania_2011_2012","SUN4","observation","Hymenoptera_Nonbee_Aculeata","superfamily","non_bee_hymenoptera",3,NA,170,1299,"8 trap clusters per site and season (cluster = white + yellow + blue trap)/10-min observations on 17 flowering coffee bushes",NA
"Alice_Classen_Coffea_arabica_Tanzania_2011_2012","SUN4","observation","other_Diptera","order","other_flies",16,NA,170,1299,"8 trap clusters per site and season (cluster = white + yellow + blue trap)/10-min observations on 17 flowering coffee bushes",NA
"Alice_Classen_Coffea_arabica_Tanzania_2011_2012","SUN4","observation","Formicidae","family","non_bee_hymenoptera",8,NA,170,1299,"8 trap clusters per site and season (cluster = white + yellow + blue trap)/10-min observations on 17 flowering coffee bushes",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L 1 Snitowski","sweep net","Apis_mellifera","species","honeybees",3,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L 1 Snitowski","sweep net","Apis_mellifera","species","honeybees",7,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L 1 Snitowski","sweep net","Apis_mellifera","species","honeybees",6,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L 1 Snitowski","sweep net","Apis_mellifera","species","honeybees",4,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L 1 Snitowski","sweep net","Apis_mellifera","species","honeybees",5,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L 1 Snitowski","sweep net","Apis_mellifera","species","honeybees",4,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L 1 Snitowski","sweep net","Apis_mellifera","species","honeybees",1,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L 1 Snitowski","sweep net","Apis_mellifera","species","honeybees",2,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L 1 Snitowski","sweep net","Apis_mellifera","species","honeybees",1,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L 1 Snitowski","sweep net","Apis_mellifera","species","honeybees",1,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L 1 Snitowski","sweep net","Apis_mellifera","species","honeybees",3,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L 1 Snitowski","sweep net","Apis_mellifera","species","honeybees",3,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L 1 Snitowski","sweep net","Apis_mellifera","species","honeybees",6,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L 1 Snitowski","sweep net","Apis_mellifera","species","honeybees",9,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L 1 Snitowski","sweep net","Apis_mellifera","species","honeybees",5,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L 1 Snitowski","sweep net","Apis_mellifera","species","honeybees",7,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L 1 Snitowski","sweep net","Apis_mellifera","species","honeybees",9,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L 1 Snitowski","sweep net","Apis_mellifera","species","honeybees",5,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L 1 Snitowski","sweep net","Apis_mellifera","species","honeybees",7,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L 1 Snitowski","sweep net","Apis_mellifera","species","honeybees",8,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L 1 Snitowski","sweep net","Apis_mellifera","species","honeybees",5,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L 1 Snitowski","sweep net","Apis_mellifera","species","honeybees",5,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L 1 Snitowski","sweep net","Apis_mellifera","species","honeybees",9,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L 1 Snitowski","sweep net","Apis_mellifera","species","honeybees",6,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L 1 Snitowski","sweep net","Apis_mellifera","species","honeybees",7,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L 1 Snitowski","sweep net","Apis_mellifera","species","honeybees",4,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L 1 Snitowski","sweep net","Apis_mellifera","species","honeybees",5,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L 1 Snitowski","sweep net","Apis_mellifera","species","honeybees",7,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L 1 Snitowski","sweep net","Apis_mellifera","species","honeybees",5,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L 1 Snitowski","sweep net","Apis_mellifera","species","honeybees",7,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L 1 Snitowski","sweep net","Apis_mellifera","species","honeybees",9,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L 1 Snitowski","sweep net","Apis_mellifera","species","honeybees",10,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L 1 Snitowski","sweep net","Apis_mellifera","species","honeybees",5,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L 1 Snitowski","sweep net","Apis_mellifera","species","honeybees",7,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L 1 Snitowski","sweep net","Apis_mellifera","species","honeybees",10,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L 1 Snitowski","sweep net","Apis_mellifera","species","honeybees",9,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L 1 Snitowski","sweep net","Apis_mellifera","species","honeybees",5,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L 1 Snitowski","sweep net","Apis_mellifera","species","honeybees",5,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L 1 Snitowski","sweep net","Apis_mellifera","species","honeybees",5,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L 1 Snitowski","sweep net","Apis_mellifera","species","honeybees",2,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L 1 Snitowski","sweep net","Apis_mellifera","species","honeybees",4,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L 1 Snitowski","sweep net","Apis_mellifera","species","honeybees",5,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L 1 Snitowski","sweep net","Apis_mellifera","species","honeybees",7,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L 1 Snitowski","sweep net","Apis_mellifera","species","honeybees",7,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L 1 Snitowski","sweep net","Apis_mellifera","species","honeybees",3,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L 1 Snitowski","sweep net","Apis_mellifera","species","honeybees",3,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L 1 Snitowski","sweep net","Apis_mellifera","species","honeybees",4,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L 1 Snitowski","sweep net","Apis_mellifera","species","honeybees",5,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L 1 Snitowski","sweep net","Apis_mellifera","species","honeybees",4,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L 1 Snitowski","sweep net","Apis_mellifera","species","honeybees",6,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L 1 Snitowski","sweep net","Apis_mellifera","species","honeybees",6,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L 1 Snitowski","sweep net","Apis_mellifera","species","honeybees",6,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L 1 Snitowski","sweep net","Apis_mellifera","species","honeybees",7,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L 1 Snitowski","sweep net","Apis_mellifera","species","honeybees",6,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L2 Snitowski","sweep net","Apis_mellifera","species","honeybees",2,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L2 Snitowski","sweep net","Apis_mellifera","species","honeybees",2,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L2 Snitowski","sweep net","Apis_mellifera","species","honeybees",2,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L2 Snitowski","sweep net","Apis_mellifera","species","honeybees",1,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L2 Snitowski","sweep net","Apis_mellifera","species","honeybees",3,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L2 Snitowski","sweep net","Apis_mellifera","species","honeybees",4,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L2 Snitowski","sweep net","Apis_mellifera","species","honeybees",1,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L2 Snitowski","sweep net","Apis_mellifera","species","honeybees",2,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L2 Snitowski","sweep net","Apis_mellifera","species","honeybees",1,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L2 Snitowski","sweep net","Apis_mellifera","species","honeybees",4,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L2 Snitowski","sweep net","Apis_mellifera","species","honeybees",1,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L2 Snitowski","sweep net","Apis_mellifera","species","honeybees",1,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L2 Snitowski","sweep net","Apis_mellifera","species","honeybees",1,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L2 Snitowski","sweep net","Apis_mellifera","species","honeybees",2,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L2 Snitowski","sweep net","Apis_mellifera","species","honeybees",2,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L2 Snitowski","sweep net","Apis_mellifera","species","honeybees",1,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L2 Snitowski","sweep net","Apis_mellifera","species","honeybees",3,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L2 Snitowski","sweep net","Apis_mellifera","species","honeybees",2,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L2 Snitowski","sweep net","Apis_mellifera","species","honeybees",2,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L2 Snitowski","sweep net","Apis_mellifera","species","honeybees",1,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L2 Snitowski","sweep net","Apis_mellifera","species","honeybees",1,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L2 Snitowski","sweep net","Apis_mellifera","species","honeybees",4,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L2 Snitowski","sweep net","Apis_mellifera","species","honeybees",4,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L2 Snitowski","sweep net","Apis_mellifera","species","honeybees",4,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L2 Snitowski","sweep net","Apis_mellifera","species","honeybees",6,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L2 Snitowski","sweep net","Apis_mellifera","species","honeybees",4,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L2 Snitowski","sweep net","Apis_mellifera","species","honeybees",6,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L2 Snitowski","sweep net","Apis_mellifera","species","honeybees",9,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L2 Snitowski","sweep net","Apis_mellifera","species","honeybees",5,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L2 Snitowski","sweep net","Apis_mellifera","species","honeybees",8,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L2 Snitowski","sweep net","Apis_mellifera","species","honeybees",13,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L2 Snitowski","sweep net","Apis_mellifera","species","honeybees",7,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L2 Snitowski","sweep net","Apis_mellifera","species","honeybees",3,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L2 Snitowski","sweep net","Apis_mellifera","species","honeybees",4,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L2 Snitowski","sweep net","Apis_mellifera","species","honeybees",2,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L2 Snitowski","sweep net","Apis_mellifera","species","honeybees",2,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L2 Snitowski","sweep net","Apis_mellifera","species","honeybees",4,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L2 Snitowski","sweep net","Apis_mellifera","species","honeybees",2,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L2 Snitowski","sweep net","Apis_mellifera","species","honeybees",2,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L2 Snitowski","sweep net","Apis_mellifera","species","honeybees",3,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L2 Snitowski","sweep net","Apis_mellifera","species","honeybees",3,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L2 Snitowski","sweep net","Apis_mellifera","species","honeybees",2,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L2 Snitowski","sweep net","Apis_mellifera","species","honeybees",6,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L2 Snitowski","sweep net","Apis_mellifera","species","honeybees",6,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L2 Snitowski","sweep net","Apis_mellifera","species","honeybees",5,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L2 Snitowski","sweep net","Apis_mellifera","species","honeybees",4,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L2 Snitowski","sweep net","Apis_mellifera","species","honeybees",2,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L2 Snitowski","sweep net","Apis_mellifera","species","honeybees",3,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L2 Snitowski","sweep net","Apis_mellifera","species","honeybees",4,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L2 Snitowski","sweep net","Apis_mellifera","species","honeybees",1,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L3 Karlec","sweep net","Apis_mellifera","species","honeybees",6,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L3 Karlec","sweep net","Apis_mellifera","species","honeybees",10,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L3 Karlec","sweep net","Apis_mellifera","species","honeybees",6,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L3 Karlec","sweep net","Apis_mellifera","species","honeybees",7,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L3 Karlec","sweep net","Apis_mellifera","species","honeybees",5,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L3 Karlec","sweep net","Apis_mellifera","species","honeybees",10,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L3 Karlec","sweep net","Apis_mellifera","species","honeybees",1,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L3 Karlec","sweep net","Apis_mellifera","species","honeybees",2,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L3 Karlec","sweep net","Apis_mellifera","species","honeybees",5,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L3 Karlec","sweep net","Apis_mellifera","species","honeybees",4,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L3 Karlec","sweep net","Apis_mellifera","species","honeybees",3,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L3 Karlec","sweep net","Apis_mellifera","species","honeybees",4,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L3 Karlec","sweep net","Apis_mellifera","species","honeybees",6,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L3 Karlec","sweep net","Apis_mellifera","species","honeybees",4,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L3 Karlec","sweep net","Apis_mellifera","species","honeybees",11,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L3 Karlec","sweep net","Apis_mellifera","species","honeybees",10,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L3 Karlec","sweep net","Apis_mellifera","species","honeybees",7,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L3 Karlec","sweep net","Apis_mellifera","species","honeybees",11,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L3 Karlec","sweep net","Apis_mellifera","species","honeybees",9,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L3 Karlec","sweep net","Apis_mellifera","species","honeybees",11,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L3 Karlec","sweep net","Apis_mellifera","species","honeybees",2,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L3 Karlec","sweep net","Apis_mellifera","species","honeybees",6,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L3 Karlec","sweep net","Apis_mellifera","species","honeybees",7,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L3 Karlec","sweep net","Apis_mellifera","species","honeybees",6,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L3 Karlec","sweep net","Apis_mellifera","species","honeybees",3,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L3 Karlec","sweep net","Apis_mellifera","species","honeybees",5,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L3 Karlec","sweep net","Apis_mellifera","species","honeybees",8,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L3 Karlec","sweep net","Apis_mellifera","species","honeybees",7,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L3 Karlec","sweep net","Apis_mellifera","species","honeybees",9,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L3 Karlec","sweep net","Apis_mellifera","species","honeybees",10,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L3 Karlec","sweep net","Apis_mellifera","species","honeybees",10,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L3 Karlec","sweep net","Apis_mellifera","species","honeybees",8,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L3 Karlec","sweep net","Apis_mellifera","species","honeybees",7,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L3 Karlec","sweep net","Apis_mellifera","species","honeybees",5,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L3 Karlec","sweep net","Apis_mellifera","species","honeybees",5,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L3 Karlec","sweep net","Apis_mellifera","species","honeybees",5,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L3 Karlec","sweep net","Apis_mellifera","species","honeybees",7,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L3 Karlec","sweep net","Apis_mellifera","species","honeybees",5,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L3 Karlec","sweep net","Apis_mellifera","species","honeybees",5,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L3 Karlec","sweep net","Apis_mellifera","species","honeybees",3,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L3 Karlec","sweep net","Apis_mellifera","species","honeybees",6,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L3 Karlec","sweep net","Apis_mellifera","species","honeybees",6,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L3 Karlec","sweep net","Apis_mellifera","species","honeybees",5,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L3 Karlec","sweep net","Apis_mellifera","species","honeybees",3,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L3 Karlec","sweep net","Apis_mellifera","species","honeybees",6,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L3 Karlec","sweep net","Apis_mellifera","species","honeybees",10,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L3 Karlec","sweep net","Apis_mellifera","species","honeybees",10,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L3 Karlec","sweep net","Apis_mellifera","species","honeybees",12,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L3 Karlec","sweep net","Apis_mellifera","species","honeybees",9,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L3 Karlec","sweep net","Apis_mellifera","species","honeybees",10,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L4 Rupp","sweep net","Apis_mellifera","species","honeybees",1,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L4 Rupp","sweep net","Apis_mellifera","species","honeybees",1,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L4 Rupp","sweep net","Apis_mellifera","species","honeybees",1,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L4 Rupp","sweep net","Apis_mellifera","species","honeybees",1,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L4 Rupp","sweep net","Apis_mellifera","species","honeybees",1,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L4 Rupp","sweep net","Apis_mellifera","species","honeybees",2,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L4 Rupp","sweep net","Apis_mellifera","species","honeybees",4,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L4 Rupp","sweep net","Apis_mellifera","species","honeybees",5,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L4 Rupp","sweep net","Apis_mellifera","species","honeybees",10,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L4 Rupp","sweep net","Apis_mellifera","species","honeybees",11,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L4 Rupp","sweep net","Apis_mellifera","species","honeybees",9,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L4 Rupp","sweep net","Apis_mellifera","species","honeybees",11,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L4 Rupp","sweep net","Apis_mellifera","species","honeybees",3,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L4 Rupp","sweep net","Apis_mellifera","species","honeybees",7,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L4 Rupp","sweep net","Apis_mellifera","species","honeybees",7,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L4 Rupp","sweep net","Apis_mellifera","species","honeybees",8,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L4 Rupp","sweep net","Apis_mellifera","species","honeybees",7,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L4 Rupp","sweep net","Apis_mellifera","species","honeybees",9,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L4 Rupp","sweep net","Apis_mellifera","species","honeybees",7,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L4 Rupp","sweep net","Apis_mellifera","species","honeybees",8,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L4 Rupp","sweep net","Apis_mellifera","species","honeybees",7,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L4 Rupp","sweep net","Apis_mellifera","species","honeybees",4,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L4 Rupp","sweep net","Apis_mellifera","species","honeybees",6,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L4 Rupp","sweep net","Apis_mellifera","species","honeybees",6,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L4 Rupp","sweep net","Apis_mellifera","species","honeybees",6,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L4 Rupp","sweep net","Apis_mellifera","species","honeybees",6,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L4 Rupp","sweep net","Apis_mellifera","species","honeybees",9,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L4 Rupp","sweep net","Apis_mellifera","species","honeybees",8,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L4 Rupp","sweep net","Apis_mellifera","species","honeybees",14,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L4 Rupp","sweep net","Apis_mellifera","species","honeybees",15,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L4 Rupp","sweep net","Apis_mellifera","species","honeybees",7,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L4 Rupp","sweep net","Apis_mellifera","species","honeybees",8,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L4 Rupp","sweep net","Apis_mellifera","species","honeybees",6,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L4 Rupp","sweep net","Apis_mellifera","species","honeybees",5,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L4 Rupp","sweep net","Apis_mellifera","species","honeybees",8,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L4 Rupp","sweep net","Apis_mellifera","species","honeybees",5,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L4 Rupp","sweep net","Apis_mellifera","species","honeybees",7,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L4 Rupp","sweep net","Apis_mellifera","species","honeybees",6,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L4 Rupp","sweep net","Apis_mellifera","species","honeybees",8,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L4 Rupp","sweep net","Apis_mellifera","species","honeybees",11,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L4 Rupp","sweep net","Apis_mellifera","species","honeybees",6,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L4 Rupp","sweep net","Apis_mellifera","species","honeybees",3,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L4 Rupp","sweep net","Apis_mellifera","species","honeybees",6,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L4 Rupp","sweep net","Apis_mellifera","species","honeybees",5,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L4 Rupp","sweep net","Apis_mellifera","species","honeybees",8,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L4 Rupp","sweep net","Apis_mellifera","species","honeybees",7,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L4 Rupp","sweep net","Apis_mellifera","species","honeybees",4,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L4 Rupp","sweep net","Apis_mellifera","species","honeybees",11,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L4 Rupp","sweep net","Apis_mellifera","species","honeybees",7,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L4 Rupp","sweep net","Apis_mellifera","species","honeybees",6,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L4 Rupp","sweep net","Apis_mellifera","species","honeybees",5,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L4 Rupp","sweep net","Apis_mellifera","species","honeybees",7,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L4 Rupp","sweep net","Apis_mellifera","species","honeybees",7,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L4 Rupp","sweep net","Apis_mellifera","species","honeybees",6,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L5 Sr. Rupp","sweep net","Apis_mellifera","species","honeybees",3,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L5 Sr. Rupp","sweep net","Apis_mellifera","species","honeybees",2,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L5 Sr. Rupp","sweep net","Apis_mellifera","species","honeybees",3,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L5 Sr. Rupp","sweep net","Apis_mellifera","species","honeybees",2,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L5 Sr. Rupp","sweep net","Apis_mellifera","species","honeybees",2,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L5 Sr. Rupp","sweep net","Apis_mellifera","species","honeybees",3,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L5 Sr. Rupp","sweep net","Apis_mellifera","species","honeybees",5,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L5 Sr. Rupp","sweep net","Apis_mellifera","species","honeybees",8,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L5 Sr. Rupp","sweep net","Apis_mellifera","species","honeybees",10,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L5 Sr. Rupp","sweep net","Apis_mellifera","species","honeybees",9,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L5 Sr. Rupp","sweep net","Apis_mellifera","species","honeybees",8,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L5 Sr. Rupp","sweep net","Apis_mellifera","species","honeybees",10,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L5 Sr. Rupp","sweep net","Apis_mellifera","species","honeybees",11,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L5 Sr. Rupp","sweep net","Apis_mellifera","species","honeybees",9,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L5 Sr. Rupp","sweep net","Apis_mellifera","species","honeybees",8,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L5 Sr. Rupp","sweep net","Apis_mellifera","species","honeybees",8,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L5 Sr. Rupp","sweep net","Apis_mellifera","species","honeybees",7,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L5 Sr. Rupp","sweep net","Apis_mellifera","species","honeybees",11,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L5 Sr. Rupp","sweep net","Apis_mellifera","species","honeybees",3,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L5 Sr. Rupp","sweep net","Apis_mellifera","species","honeybees",3,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L5 Sr. Rupp","sweep net","Apis_mellifera","species","honeybees",5,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L5 Sr. Rupp","sweep net","Apis_mellifera","species","honeybees",1,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L5 Sr. Rupp","sweep net","Apis_mellifera","species","honeybees",3,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L5 Sr. Rupp","sweep net","Apis_mellifera","species","honeybees",4,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L5 Sr. Rupp","sweep net","Apis_mellifera","species","honeybees",5,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L5 Sr. Rupp","sweep net","Apis_mellifera","species","honeybees",5,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L5 Sr. Rupp","sweep net","Apis_mellifera","species","honeybees",6,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L5 Sr. Rupp","sweep net","Apis_mellifera","species","honeybees",6,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L5 Sr. Rupp","sweep net","Apis_mellifera","species","honeybees",7,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L5 Sr. Rupp","sweep net","Apis_mellifera","species","honeybees",9,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L5 Sr. Rupp","sweep net","Apis_mellifera","species","honeybees",6,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L5 Sr. Rupp","sweep net","Apis_mellifera","species","honeybees",9,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L5 Sr. Rupp","sweep net","Apis_mellifera","species","honeybees",8,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L5 Sr. Rupp","sweep net","Apis_mellifera","species","honeybees",7,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L5 Sr. Rupp","sweep net","Apis_mellifera","species","honeybees",8,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L5 Sr. Rupp","sweep net","Apis_mellifera","species","honeybees",4,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L5 Sr. Rupp","sweep net","Apis_mellifera","species","honeybees",2,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L5 Sr. Rupp","sweep net","Apis_mellifera","species","honeybees",1,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L5 Sr. Rupp","sweep net","Apis_mellifera","species","honeybees",3,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L5 Sr. Rupp","sweep net","Apis_mellifera","species","honeybees",1,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L5 Sr. Rupp","sweep net","Apis_mellifera","species","honeybees",1,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L5 Sr. Rupp","sweep net","Apis_mellifera","species","honeybees",2,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L5 Sr. Rupp","sweep net","Apis_mellifera","species","honeybees",10,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L5 Sr. Rupp","sweep net","Apis_mellifera","species","honeybees",11,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L5 Sr. Rupp","sweep net","Apis_mellifera","species","honeybees",11,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L5 Sr. Rupp","sweep net","Apis_mellifera","species","honeybees",15,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L5 Sr. Rupp","sweep net","Apis_mellifera","species","honeybees",9,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L5 Sr. Rupp","sweep net","Apis_mellifera","species","honeybees",13,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L5 Sr. Rupp","sweep net","Apis_mellifera","species","honeybees",3,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L5 Sr. Rupp","sweep net","Apis_mellifera","species","honeybees",2,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L5 Sr. Rupp","sweep net","Apis_mellifera","species","honeybees",2,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L5 Sr. Rupp","sweep net","Apis_mellifera","species","honeybees",2,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L5 Sr. Rupp","sweep net","Apis_mellifera","species","honeybees",1,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L 6 Sr. Donadel","sweep net","Apis_mellifera","species","honeybees",1,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L 6 Sr. Donadel","sweep net","Apis_mellifera","species","honeybees",2,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L 6 Sr. Donadel","sweep net","Apis_mellifera","species","honeybees",1,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L 6 Sr. Donadel","sweep net","Apis_mellifera","species","honeybees",3,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L 6 Sr. Donadel","sweep net","Apis_mellifera","species","honeybees",3,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L 6 Sr. Donadel","sweep net","Apis_mellifera","species","honeybees",3,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L 6 Sr. Donadel","sweep net","Apis_mellifera","species","honeybees",7,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L 6 Sr. Donadel","sweep net","Apis_mellifera","species","honeybees",7,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L 6 Sr. Donadel","sweep net","Apis_mellifera","species","honeybees",8,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L 6 Sr. Donadel","sweep net","Apis_mellifera","species","honeybees",9,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L 6 Sr. Donadel","sweep net","Apis_mellifera","species","honeybees",9,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L 6 Sr. Donadel","sweep net","Apis_mellifera","species","honeybees",10,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L 6 Sr. Donadel","sweep net","Apis_mellifera","species","honeybees",7,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L 6 Sr. Donadel","sweep net","Apis_mellifera","species","honeybees",7,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L 6 Sr. Donadel","sweep net","Apis_mellifera","species","honeybees",7,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L 6 Sr. Donadel","sweep net","Apis_mellifera","species","honeybees",9,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L 6 Sr. Donadel","sweep net","Apis_mellifera","species","honeybees",8,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L 6 Sr. Donadel","sweep net","Apis_mellifera","species","honeybees",10,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L 6 Sr. Donadel","sweep net","Apis_mellifera","species","honeybees",10,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L 6 Sr. Donadel","sweep net","Apis_mellifera","species","honeybees",10,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L 6 Sr. Donadel","sweep net","Apis_mellifera","species","honeybees",9,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L 6 Sr. Donadel","sweep net","Apis_mellifera","species","honeybees",5,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L 6 Sr. Donadel","sweep net","Apis_mellifera","species","honeybees",9,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L 6 Sr. Donadel","sweep net","Apis_mellifera","species","honeybees",10,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L 6 Sr. Donadel","sweep net","Apis_mellifera","species","honeybees",2,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L 6 Sr. Donadel","sweep net","Apis_mellifera","species","honeybees",4,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L 6 Sr. Donadel","sweep net","Apis_mellifera","species","honeybees",4,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L 6 Sr. Donadel","sweep net","Apis_mellifera","species","honeybees",3,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L 6 Sr. Donadel","sweep net","Apis_mellifera","species","honeybees",2,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L 6 Sr. Donadel","sweep net","Apis_mellifera","species","honeybees",3,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L 6 Sr. Donadel","sweep net","Apis_mellifera","species","honeybees",8,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L 6 Sr. Donadel","sweep net","Apis_mellifera","species","honeybees",7,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L 6 Sr. Donadel","sweep net","Apis_mellifera","species","honeybees",11,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L 6 Sr. Donadel","sweep net","Apis_mellifera","species","honeybees",10,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L 6 Sr. Donadel","sweep net","Apis_mellifera","species","honeybees",11,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L 6 Sr. Donadel","sweep net","Apis_mellifera","species","honeybees",12,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L 6 Sr. Donadel","sweep net","Apis_mellifera","species","honeybees",5,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L 6 Sr. Donadel","sweep net","Apis_mellifera","species","honeybees",8,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L 6 Sr. Donadel","sweep net","Apis_mellifera","species","honeybees",7,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L 6 Sr. Donadel","sweep net","Apis_mellifera","species","honeybees",8,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L 6 Sr. Donadel","sweep net","Apis_mellifera","species","honeybees",8,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L 6 Sr. Donadel","sweep net","Apis_mellifera","species","honeybees",12,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L 6 Sr. Donadel","sweep net","Apis_mellifera","species","honeybees",2,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L 6 Sr. Donadel","sweep net","Apis_mellifera","species","honeybees",5,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L 6 Sr. Donadel","sweep net","Apis_mellifera","species","honeybees",3,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L 6 Sr. Donadel","sweep net","Apis_mellifera","species","honeybees",3,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L 6 Sr. Donadel","sweep net","Apis_mellifera","species","honeybees",3,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L 6 Sr. Donadel","sweep net","Apis_mellifera","species","honeybees",4,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L 6 Sr. Donadel","sweep net","Apis_mellifera","species","honeybees",12,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L 6 Sr. Donadel","sweep net","Apis_mellifera","species","honeybees",14,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L 6 Sr. Donadel","sweep net","Apis_mellifera","species","honeybees",10,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L 6 Sr. Donadel","sweep net","Apis_mellifera","species","honeybees",9,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L 6 Sr. Donadel","sweep net","Apis_mellifera","species","honeybees",11,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L 6 Sr. Donadel","sweep net","Apis_mellifera","species","honeybees",7,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L4 Rupp","sweep net","Plebeia.nigriceps","species","other_wild_bees",1,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L4 Rupp","sweep net","Plebeia.emerina","species","other_wild_bees",1,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L4 Rupp","sweep net","Plebeia.emerina","species","other_wild_bees",1,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L4 Rupp","sweep net","Plebeia.emerina","species","other_wild_bees",1,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L4 Rupp","sweep net","Plebeia.emerina","species","other_wild_bees",2,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L5 Sr. Rupp","sweep net","Plebeia.emerina","species","other_wild_bees",1,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L 6 Sr. Donadel","sweep net","Plebeia.emerina","species","other_wild_bees",1,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L 1 Snitowski","sweep net","Schwarziana.quadripunctata","species","other_wild_bees",1,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L 1 Snitowski","sweep net","Schwarziana.quadripunctata","species","other_wild_bees",1,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L2 Snitowski","sweep net","Schwarziana.quadripunctata","species","other_wild_bees",1,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L4 Rupp","sweep net","Schwarziana.quadripunctata","species","other_wild_bees",1,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L4 Rupp","sweep net","Schwarziana.quadripunctata","species","other_wild_bees",1,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L 6 Sr. Donadel","sweep net","Schwarziana.quadripunctata","species","other_wild_bees",1,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L2 Snitowski","sweep net","Tetragonisca.fiebrigi","species","other_wild_bees",1,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L2 Snitowski","sweep net","Tetragonisca.fiebrigi","species","other_wild_bees",1,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L2 Snitowski","sweep net","Tetragonisca.fiebrigi","species","other_wild_bees",2,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L2 Snitowski","sweep net","Tetragonisca.fiebrigi","species","other_wild_bees",1,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L2 Snitowski","sweep net","Tetragonisca.fiebrigi","species","other_wild_bees",1,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L3 Karlec","sweep net","Tetragonisca.fiebrigi","species","other_wild_bees",1,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L3 Karlec","sweep net","Tetragonisca.fiebrigi","species","other_wild_bees",1,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L3 Karlec","sweep net","Tetragonisca.fiebrigi","species","other_wild_bees",1,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L3 Karlec","sweep net","Tetragonisca.fiebrigi","species","other_wild_bees",1,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L3 Karlec","sweep net","Tetragonisca.fiebrigi","species","other_wild_bees",1,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L3 Karlec","sweep net","Tetragonisca.fiebrigi","species","other_wild_bees",2,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L3 Karlec","sweep net","Tetragonisca.fiebrigi","species","other_wild_bees",1,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L4 Rupp","sweep net","Tetragonisca.fiebrigi","species","other_wild_bees",1,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L4 Rupp","sweep net","Tetragonisca.fiebrigi","species","other_wild_bees",1,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L4 Rupp","sweep net","Tetragonisca.fiebrigi","species","other_wild_bees",1,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L4 Rupp","sweep net","Tetragonisca.fiebrigi","species","other_wild_bees",1,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L4 Rupp","sweep net","Tetragonisca.fiebrigi","species","other_wild_bees",1,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L4 Rupp","sweep net","Tetragonisca.fiebrigi","species","other_wild_bees",2,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L 6 Sr. Donadel","sweep net","Tetragonisca.fiebrigi","species","other_wild_bees",1,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L 6 Sr. Donadel","sweep net","Tetragonisca.fiebrigi","species","other_wild_bees",1,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L 1 Snitowski","sweep net","Trigona.spinipes","species","other_wild_bees",1,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L 1 Snitowski","sweep net","Trigona.spinipes","species","other_wild_bees",1,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L2 Snitowski","sweep net","Trigona.spinipes","species","other_wild_bees",1,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L2 Snitowski","sweep net","Trigona.spinipes","species","other_wild_bees",1,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L2 Snitowski","sweep net","Trigona.spinipes","species","other_wild_bees",1,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L3 Karlec","sweep net","Trigona.spinipes","species","other_wild_bees",1,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L4 Rupp","sweep net","Trigona.spinipes","species","other_wild_bees",1,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L4 Rupp","sweep net","Trigona.spinipes","species","other_wild_bees",1,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L4 Rupp","sweep net","Trigona.spinipes","species","other_wild_bees",1,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L4 Rupp","sweep net","Trigona.spinipes","species","other_wild_bees",1,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L4 Rupp","sweep net","Trigona.spinipes","species","other_wild_bees",1,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L4 Rupp","sweep net","Trigona.spinipes","species","other_wild_bees",1,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L3 Karlec","sweep net","Bombus.pauloensis","species","bumblebees",1,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L 1 Snitowski","sweep net","Xylocopa.sp.","genus","other_wild_bees",1,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L2 Snitowski","sweep net","Exomalopsis.spp.","genus","other_wild_bees",1,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L3 Karlec","sweep net","Exomalopsis.spp.","genus","other_wild_bees",1,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L4 Rupp","sweep net","Exomalopsis.spp.","genus","other_wild_bees",1,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L4 Rupp","sweep net","Exomalopsis.spp.","genus","other_wild_bees",1,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L4 Rupp","sweep net","Exomalopsis.spp.","genus","other_wild_bees",1,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L4 Rupp","sweep net","Exomalopsis.spp.","genus","other_wild_bees",1,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L 6 Sr. Donadel","sweep net","Exomalopsis.spp.","genus","other_wild_bees",1,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L4 Rupp","sweep net","Neocorynura.sp.","genus","other_wild_bees",1,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L4 Rupp","sweep net","Augochloropsis.spp.","genus","other_wild_bees",1,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L5 Sr. Rupp","sweep net","Augochlora.spp.","genus","other_wild_bees",1,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L5 Sr. Rupp","sweep net","Augochlora.spp.","genus","other_wild_bees",1,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L 6 Sr. Donadel","sweep net","Augochlorella.sp.","genus","other_wild_bees",1,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L3 Karlec","sweep net","Psaenythia.sp.","genus","other_wild_bees",1,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L2 Snitowski","sweep net","Other.Hymenoptera","order","non_bee_hymenoptera",1,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L2 Snitowski","sweep net","Other.Hymenoptera","order","non_bee_hymenoptera",1,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L3 Karlec","sweep net","Other.Hymenoptera","order","non_bee_hymenoptera",1,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L3 Karlec","sweep net","Other.Hymenoptera","order","non_bee_hymenoptera",1,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L4 Rupp","sweep net","Other.Hymenoptera","order","non_bee_hymenoptera",1,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L4 Rupp","sweep net","Other.Hymenoptera","order","non_bee_hymenoptera",1,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L4 Rupp","sweep net","Other.Hymenoptera","order","non_bee_hymenoptera",1,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L4 Rupp","sweep net","Other.Hymenoptera","order","non_bee_hymenoptera",1,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L5 Sr. Rupp","sweep net","Other.Hymenoptera","order","non_bee_hymenoptera",1,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L5 Sr. Rupp","sweep net","Other.Hymenoptera","order","non_bee_hymenoptera",2,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L5 Sr. Rupp","sweep net","Other.Hymenoptera","order","non_bee_hymenoptera",1,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L5 Sr. Rupp","sweep net","Other.Hymenoptera","order","non_bee_hymenoptera",1,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L5 Sr. Rupp","sweep net","Other.Hymenoptera","order","non_bee_hymenoptera",1,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L5 Sr. Rupp","sweep net","Other.Hymenoptera","order","non_bee_hymenoptera",1,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L 6 Sr. Donadel","sweep net","Other.Hymenoptera","order","non_bee_hymenoptera",1,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L 6 Sr. Donadel","sweep net","Other.Hymenoptera","order","non_bee_hymenoptera",2,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L 6 Sr. Donadel","sweep net","Other.Hymenoptera","order","non_bee_hymenoptera",1,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L 6 Sr. Donadel","sweep net","Other.Hymenoptera","order","non_bee_hymenoptera",1,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L 6 Sr. Donadel","sweep net","Other.Hymenoptera","order","non_bee_hymenoptera",1,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L 6 Sr. Donadel","sweep net","Other.Hymenoptera","order","non_bee_hymenoptera",1,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L 1 Snitowski","sweep net","Diptera","order","other_flies",1,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L 1 Snitowski","sweep net","Diptera","order","other_flies",1,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L2 Snitowski","sweep net","Diptera","order","other_flies",1,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L2 Snitowski","sweep net","Diptera","order","other_flies",1,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L2 Snitowski","sweep net","Diptera","order","other_flies",2,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L2 Snitowski","sweep net","Diptera","order","other_flies",1,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L2 Snitowski","sweep net","Diptera","order","other_flies",1,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L2 Snitowski","sweep net","Diptera","order","other_flies",1,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L2 Snitowski","sweep net","Diptera","order","other_flies",2,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L2 Snitowski","sweep net","Diptera","order","other_flies",2,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L2 Snitowski","sweep net","Diptera","order","other_flies",3,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L2 Snitowski","sweep net","Diptera","order","other_flies",3,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L2 Snitowski","sweep net","Diptera","order","other_flies",4,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L2 Snitowski","sweep net","Diptera","order","other_flies",3,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L2 Snitowski","sweep net","Diptera","order","other_flies",2,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L3 Karlec","sweep net","Diptera","order","other_flies",1,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L3 Karlec","sweep net","Diptera","order","other_flies",1,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L3 Karlec","sweep net","Diptera","order","other_flies",1,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L3 Karlec","sweep net","Diptera","order","other_flies",2,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L3 Karlec","sweep net","Diptera","order","other_flies",1,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L3 Karlec","sweep net","Diptera","order","other_flies",2,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L3 Karlec","sweep net","Diptera","order","other_flies",1,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L4 Rupp","sweep net","Diptera","order","other_flies",1,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L4 Rupp","sweep net","Diptera","order","other_flies",1,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L4 Rupp","sweep net","Diptera","order","other_flies",1,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L4 Rupp","sweep net","Diptera","order","other_flies",2,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L4 Rupp","sweep net","Diptera","order","other_flies",1,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L4 Rupp","sweep net","Diptera","order","other_flies",1,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L4 Rupp","sweep net","Diptera","order","other_flies",2,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L4 Rupp","sweep net","Diptera","order","other_flies",1,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L4 Rupp","sweep net","Diptera","order","other_flies",2,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L4 Rupp","sweep net","Diptera","order","other_flies",2,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L4 Rupp","sweep net","Diptera","order","other_flies",2,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L4 Rupp","sweep net","Diptera","order","other_flies",1,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L4 Rupp","sweep net","Diptera","order","other_flies",1,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L4 Rupp","sweep net","Diptera","order","other_flies",1,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L4 Rupp","sweep net","Diptera","order","other_flies",1,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L4 Rupp","sweep net","Diptera","order","other_flies",3,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L4 Rupp","sweep net","Diptera","order","other_flies",1,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L4 Rupp","sweep net","Diptera","order","other_flies",2,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L4 Rupp","sweep net","Diptera","order","other_flies",4,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L4 Rupp","sweep net","Diptera","order","other_flies",1,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L4 Rupp","sweep net","Diptera","order","other_flies",1,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L4 Rupp","sweep net","Diptera","order","other_flies",2,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L4 Rupp","sweep net","Diptera","order","other_flies",2,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L4 Rupp","sweep net","Diptera","order","other_flies",1,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L4 Rupp","sweep net","Diptera","order","other_flies",1,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L4 Rupp","sweep net","Diptera","order","other_flies",4,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L4 Rupp","sweep net","Diptera","order","other_flies",2,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L4 Rupp","sweep net","Diptera","order","other_flies",2,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L4 Rupp","sweep net","Diptera","order","other_flies",2,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L4 Rupp","sweep net","Diptera","order","other_flies",2,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L4 Rupp","sweep net","Diptera","order","other_flies",5,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L4 Rupp","sweep net","Diptera","order","other_flies",4,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L4 Rupp","sweep net","Diptera","order","other_flies",3,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L4 Rupp","sweep net","Diptera","order","other_flies",2,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L4 Rupp","sweep net","Diptera","order","other_flies",5,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L4 Rupp","sweep net","Diptera","order","other_flies",4,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L4 Rupp","sweep net","Diptera","order","other_flies",1,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L4 Rupp","sweep net","Diptera","order","other_flies",1,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L4 Rupp","sweep net","Diptera","order","other_flies",1,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L4 Rupp","sweep net","Diptera","order","other_flies",3,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L4 Rupp","sweep net","Diptera","order","other_flies",2,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L5 Sr. Rupp","sweep net","Diptera","order","other_flies",2,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L5 Sr. Rupp","sweep net","Diptera","order","other_flies",1,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L5 Sr. Rupp","sweep net","Diptera","order","other_flies",2,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L5 Sr. Rupp","sweep net","Diptera","order","other_flies",2,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L5 Sr. Rupp","sweep net","Diptera","order","other_flies",1,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L5 Sr. Rupp","sweep net","Diptera","order","other_flies",1,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L5 Sr. Rupp","sweep net","Diptera","order","other_flies",2,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L5 Sr. Rupp","sweep net","Diptera","order","other_flies",1,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L5 Sr. Rupp","sweep net","Diptera","order","other_flies",3,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L5 Sr. Rupp","sweep net","Diptera","order","other_flies",2,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L5 Sr. Rupp","sweep net","Diptera","order","other_flies",1,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L5 Sr. Rupp","sweep net","Diptera","order","other_flies",2,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L5 Sr. Rupp","sweep net","Diptera","order","other_flies",2,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L5 Sr. Rupp","sweep net","Diptera","order","other_flies",1,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L5 Sr. Rupp","sweep net","Diptera","order","other_flies",1,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L5 Sr. Rupp","sweep net","Diptera","order","other_flies",2,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L5 Sr. Rupp","sweep net","Diptera","order","other_flies",1,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L 6 Sr. Donadel","sweep net","Diptera","order","other_flies",1,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L 6 Sr. Donadel","sweep net","Diptera","order","other_flies",1,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L 6 Sr. Donadel","sweep net","Diptera","order","other_flies",1,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L 6 Sr. Donadel","sweep net","Diptera","order","other_flies",1,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L 6 Sr. Donadel","sweep net","Diptera","order","other_flies",2,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L 1 Snitowski","sweep net","Coleoptera","order","beetles",3,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L 1 Snitowski","sweep net","Coleoptera","order","beetles",2,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L 1 Snitowski","sweep net","Coleoptera","order","beetles",3,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L 1 Snitowski","sweep net","Coleoptera","order","beetles",4,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L 1 Snitowski","sweep net","Coleoptera","order","beetles",11,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L 1 Snitowski","sweep net","Coleoptera","order","beetles",1,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L 1 Snitowski","sweep net","Coleoptera","order","beetles",1,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L 1 Snitowski","sweep net","Coleoptera","order","beetles",2,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L 1 Snitowski","sweep net","Coleoptera","order","beetles",2,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L 1 Snitowski","sweep net","Coleoptera","order","beetles",4,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L 1 Snitowski","sweep net","Coleoptera","order","beetles",3,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L 1 Snitowski","sweep net","Coleoptera","order","beetles",1,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L 1 Snitowski","sweep net","Coleoptera","order","beetles",2,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L 1 Snitowski","sweep net","Coleoptera","order","beetles",1,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L 1 Snitowski","sweep net","Coleoptera","order","beetles",1,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L 1 Snitowski","sweep net","Coleoptera","order","beetles",1,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L 1 Snitowski","sweep net","Coleoptera","order","beetles",1,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L 1 Snitowski","sweep net","Coleoptera","order","beetles",1,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L 1 Snitowski","sweep net","Coleoptera","order","beetles",1,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L 1 Snitowski","sweep net","Coleoptera","order","beetles",1,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L 1 Snitowski","sweep net","Coleoptera","order","beetles",2,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L 1 Snitowski","sweep net","Coleoptera","order","beetles",5,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L2 Snitowski","sweep net","Coleoptera","order","beetles",1,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L2 Snitowski","sweep net","Coleoptera","order","beetles",1,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L2 Snitowski","sweep net","Coleoptera","order","beetles",2,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L2 Snitowski","sweep net","Coleoptera","order","beetles",2,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L2 Snitowski","sweep net","Coleoptera","order","beetles",1,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L2 Snitowski","sweep net","Coleoptera","order","beetles",1,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L2 Snitowski","sweep net","Coleoptera","order","beetles",3,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L2 Snitowski","sweep net","Coleoptera","order","beetles",1,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L2 Snitowski","sweep net","Coleoptera","order","beetles",3,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L2 Snitowski","sweep net","Coleoptera","order","beetles",1,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L2 Snitowski","sweep net","Coleoptera","order","beetles",2,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L2 Snitowski","sweep net","Coleoptera","order","beetles",2,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L3 Karlec","sweep net","Coleoptera","order","beetles",1,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L3 Karlec","sweep net","Coleoptera","order","beetles",1,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L3 Karlec","sweep net","Coleoptera","order","beetles",1,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L3 Karlec","sweep net","Coleoptera","order","beetles",1,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L3 Karlec","sweep net","Coleoptera","order","beetles",2,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L3 Karlec","sweep net","Coleoptera","order","beetles",1,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L3 Karlec","sweep net","Coleoptera","order","beetles",2,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L3 Karlec","sweep net","Coleoptera","order","beetles",1,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L3 Karlec","sweep net","Coleoptera","order","beetles",1,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L3 Karlec","sweep net","Coleoptera","order","beetles",1,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L4 Rupp","sweep net","Coleoptera","order","beetles",1,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L4 Rupp","sweep net","Coleoptera","order","beetles",1,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L5 Sr. Rupp","sweep net","Coleoptera","order","beetles",1,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L5 Sr. Rupp","sweep net","Coleoptera","order","beetles",2,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L5 Sr. Rupp","sweep net","Coleoptera","order","beetles",6,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L5 Sr. Rupp","sweep net","Coleoptera","order","beetles",2,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L5 Sr. Rupp","sweep net","Coleoptera","order","beetles",1,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L5 Sr. Rupp","sweep net","Coleoptera","order","beetles",2,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L5 Sr. Rupp","sweep net","Coleoptera","order","beetles",3,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L5 Sr. Rupp","sweep net","Coleoptera","order","beetles",1,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L5 Sr. Rupp","sweep net","Coleoptera","order","beetles",1,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L 6 Sr. Donadel","sweep net","Coleoptera","order","beetles",2,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L 6 Sr. Donadel","sweep net","Coleoptera","order","beetles",42,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L 6 Sr. Donadel","sweep net","Coleoptera","order","beetles",4,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L 6 Sr. Donadel","sweep net","Coleoptera","order","beetles",3,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L 6 Sr. Donadel","sweep net","Coleoptera","order","beetles",3,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L 6 Sr. Donadel","sweep net","Coleoptera","order","beetles",3,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L 6 Sr. Donadel","sweep net","Coleoptera","order","beetles",1,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L 6 Sr. Donadel","sweep net","Coleoptera","order","beetles",2,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L 6 Sr. Donadel","sweep net","Coleoptera","order","beetles",6,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L 6 Sr. Donadel","sweep net","Coleoptera","order","beetles",3,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L 6 Sr. Donadel","sweep net","Coleoptera","order","beetles",1,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L 6 Sr. Donadel","sweep net","Coleoptera","order","beetles",2,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L 6 Sr. Donadel","sweep net","Coleoptera","order","beetles",1,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L 6 Sr. Donadel","sweep net","Coleoptera","order","beetles",3,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L 6 Sr. Donadel","sweep net","Coleoptera","order","beetles",1,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L 6 Sr. Donadel","sweep net","Coleoptera","order","beetles",1,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L 6 Sr. Donadel","sweep net","Coleoptera","order","beetles",4,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L 6 Sr. Donadel","sweep net","Coleoptera","order","beetles",1,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L 6 Sr. Donadel","sweep net","Coleoptera","order","beetles",2,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L 6 Sr. Donadel","sweep net","Coleoptera","order","beetles",1,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L 6 Sr. Donadel","sweep net","Coleoptera","order","beetles",3,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L 6 Sr. Donadel","sweep net","Coleoptera","order","beetles",2,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L 6 Sr. Donadel","sweep net","Coleoptera","order","beetles",3,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L 6 Sr. Donadel","sweep net","Coleoptera","order","beetles",3,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L 6 Sr. Donadel","sweep net","Coleoptera","order","beetles",3,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L 6 Sr. Donadel","sweep net","Coleoptera","order","beetles",4,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L 6 Sr. Donadel","sweep net","Coleoptera","order","beetles",3,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L 6 Sr. Donadel","sweep net","Coleoptera","order","beetles",1,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L 6 Sr. Donadel","sweep net","Coleoptera","order","beetles",2,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L 6 Sr. Donadel","sweep net","Coleoptera","order","beetles",2,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L 6 Sr. Donadel","sweep net","Coleoptera","order","beetles",3,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L 6 Sr. Donadel","sweep net","Coleoptera","order","beetles",3,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L 6 Sr. Donadel","sweep net","Coleoptera","order","beetles",6,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L 6 Sr. Donadel","sweep net","Coleoptera","order","beetles",3,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L 6 Sr. Donadel","sweep net","Coleoptera","order","beetles",4,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L 6 Sr. Donadel","sweep net","Coleoptera","order","beetles",1,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L 6 Sr. Donadel","sweep net","Coleoptera","order","beetles",2,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L 6 Sr. Donadel","sweep net","Coleoptera","order","beetles",3,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L 6 Sr. Donadel","sweep net","Coleoptera","order","beetles",3,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L 6 Sr. Donadel","sweep net","Coleoptera","order","beetles",3,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L 6 Sr. Donadel","sweep net","Coleoptera","order","beetles",1,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L 6 Sr. Donadel","sweep net","Coleoptera","order","beetles",1,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L2 Snitowski","sweep net","Hemiptera","order","other",1,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L4 Rupp","sweep net","Hemiptera","order","other",1,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L 1 Snitowski","sweep net","Lepidoptera","order","lepidoptera",1,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L 1 Snitowski","sweep net","Lepidoptera","order","lepidoptera",1,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L2 Snitowski","sweep net","Lepidoptera","order","lepidoptera",1,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L3 Karlec","sweep net","Lepidoptera","order","lepidoptera",1,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L4 Rupp","sweep net","Lepidoptera","order","lepidoptera",2,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L5 Sr. Rupp","sweep net","Lepidoptera","order","lepidoptera",1,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L5 Sr. Rupp","sweep net","Lepidoptera","order","lepidoptera",1,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L 6 Sr. Donadel","sweep net","Lepidoptera","order","lepidoptera",1,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L 6 Sr. Donadel","sweep net","Lepidoptera","order","lepidoptera",1,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L 6 Sr. Donadel","sweep net","Lepidoptera","order","lepidoptera",1,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L 6 Sr. Donadel","sweep net","Lepidoptera","order","lepidoptera",1,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L 6 Sr. Donadel","sweep net","Lepidoptera","order","lepidoptera",1,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L 6 Sr. Donadel","sweep net","Lepidoptera","order","lepidoptera",1,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L 6 Sr. Donadel","sweep net","Lepidoptera","order","lepidoptera",2,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Betina_Blochtein_Brassica_napus_Brazil_2011","L 6 Sr. Donadel","sweep net","Lepidoptera","order","lepidoptera",1,2700,270,NA,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least three dates during the main flowering period",NA
"Blande_Viana_Passiflora_edulis_Brazil_2005","13","transects","Xylocopa spp.","genus","other_wild_bees",1652.4,450,135,810,"In each field, bees were surveyed in a 50 m long transect, laid within the crop field, with a mean of 90 flowers observed for 15 minutes during three times on three different days",NA
"Blande_Viana_Passiflora_edulis_Brazil_2005","19","transects","Xylocopa spp.","genus","other_wild_bees",324,450,135,810,"In each field, bees were surveyed in a 50 m long transect, laid within the crop field, with a mean of 90 flowers observed for 15 minutes during three times on three different days",NA
"Blande_Viana_Passiflora_edulis_Brazil_2005","43","transects","Xylocopa spp.","genus","other_wild_bees",453.6,450,135,810,"In each field, bees were surveyed in a 50 m long transect, laid within the crop field, with a mean of 90 flowers observed for 15 minutes during three times on three different days",NA
"Blande_Viana_Passiflora_edulis_Brazil_2005","67","transects","Xylocopa spp.","genus","other_wild_bees",202.5,450,135,810,"In each field, bees were surveyed in a 50 m long transect, laid within the crop field, with a mean of 90 flowers observed for 15 minutes during three times on three different days",NA
"Blande_Viana_Passiflora_edulis_Brazil_2005","112","transects","Xylocopa spp.","genus","other_wild_bees",202.5,450,135,810,"In each field, bees were surveyed in a 50 m long transect, laid within the crop field, with a mean of 90 flowers observed for 15 minutes during three times on three different days",NA
"Blande_Viana_Passiflora_edulis_Brazil_2005","117","transects","Xylocopa spp.","genus","other_wild_bees",32.4,450,135,810,"In each field, bees were surveyed in a 50 m long transect, laid within the crop field, with a mean of 90 flowers observed for 15 minutes during three times on three different days",NA
"Blande_Viana_Passiflora_edulis_Brazil_2005","129","transects","Xylocopa spp.","genus","other_wild_bees",202.5,450,135,810,"In each field, bees were surveyed in a 50 m long transect, laid within the crop field, with a mean of 90 flowers observed for 15 minutes during three times on three different days",NA
"Blande_Viana_Passiflora_edulis_Brazil_2005","149","transects","Xylocopa spp.","genus","other_wild_bees",56.7,450,135,810,"In each field, bees were surveyed in a 50 m long transect, laid within the crop field, with a mean of 90 flowers observed for 15 minutes during three times on three different days",NA
"Blande_Viana_Passiflora_edulis_Brazil_2005","155","transects","Xylocopa spp.","genus","other_wild_bees",607.5,450,135,810,"In each field, bees were surveyed in a 50 m long transect, laid within the crop field, with a mean of 90 flowers observed for 15 minutes during three times on three different days",NA
"Blande_Viana_Passiflora_edulis_Brazil_2005","163","transects","Xylocopa spp.","genus","other_wild_bees",145.8,450,135,810,"In each field, bees were surveyed in a 50 m long transect, laid within the crop field, with a mean of 90 flowers observed for 15 minutes during three times on three different days",NA
"Blande_Viana_Passiflora_edulis_Brazil_2005","176","transects","Xylocopa spp.","genus","other_wild_bees",486,450,135,810,"In each field, bees were surveyed in a 50 m long transect, laid within the crop field, with a mean of 90 flowers observed for 15 minutes during three times on three different days",NA
"Blande_Viana_Passiflora_edulis_Brazil_2005","185","transects","Xylocopa spp.","genus","other_wild_bees",656.1,450,135,810,"In each field, bees were surveyed in a 50 m long transect, laid within the crop field, with a mean of 90 flowers observed for 15 minutes during three times on three different days",NA
"Blande_Viana_Passiflora_edulis_Brazil_2005","229","transects","Xylocopa spp.","genus","other_wild_bees",48.6,450,135,810,"In each field, bees were surveyed in a 50 m long transect, laid within the crop field, with a mean of 90 flowers observed for 15 minutes during three times on three different days",NA
"Blande_Viana_Passiflora_edulis_Brazil_2005","240","transects","Xylocopa spp.","genus","other_wild_bees",388.8,450,135,810,"In each field, bees were surveyed in a 50 m long transect, laid within the crop field, with a mean of 90 flowers observed for 15 minutes during three times on three different days",NA
"Blande_Viana_Passiflora_edulis_Brazil_2005","245","transects","Xylocopa spp.","genus","other_wild_bees",259.2,450,135,810,"In each field, bees were surveyed in a 50 m long transect, laid within the crop field, with a mean of 90 flowers observed for 15 minutes during three times on three different days",NA
"Blande_Viana_Passiflora_edulis_Brazil_2005","315","transects","Xylocopa spp.","genus","other_wild_bees",226.8,450,135,810,"In each field, bees were surveyed in a 50 m long transect, laid within the crop field, with a mean of 90 flowers observed for 15 minutes during three times on three different days",NA
"Blande_Viana_Passiflora_edulis_Brazil_2005","13","transects","Apis mellifera","species","honeybees",1530.9,450,135,810,"In each field, bees were surveyed in a 50 m long transect, laid within the crop field, with a mean of 90 flowers observed for 15 minutes during three times on three different days",NA
"Blande_Viana_Passiflora_edulis_Brazil_2005","67","transects","Apis mellifera","species","honeybees",64.8,450,135,810,"In each field, bees were surveyed in a 50 m long transect, laid within the crop field, with a mean of 90 flowers observed for 15 minutes during three times on three different days",NA
"Blande_Viana_Passiflora_edulis_Brazil_2005","149","transects","Apis mellifera","species","honeybees",170.1,450,135,810,"In each field, bees were surveyed in a 50 m long transect, laid within the crop field, with a mean of 90 flowers observed for 15 minutes during three times on three different days",NA
"Blande_Viana_Passiflora_edulis_Brazil_2005","155","transects","Apis mellifera","species","honeybees",234.9,450,135,810,"In each field, bees were surveyed in a 50 m long transect, laid within the crop field, with a mean of 90 flowers observed for 15 minutes during three times on three different days",NA
"Blande_Viana_Passiflora_edulis_Brazil_2005","163","transects","Apis mellifera","species","honeybees",129.6,450,135,810,"In each field, bees were surveyed in a 50 m long transect, laid within the crop field, with a mean of 90 flowers observed for 15 minutes during three times on three different days",NA
"Blande_Viana_Passiflora_edulis_Brazil_2005","176","transects","Apis mellifera","species","honeybees",1117.8,450,135,810,"In each field, bees were surveyed in a 50 m long transect, laid within the crop field, with a mean of 90 flowers observed for 15 minutes during three times on three different days",NA
"Blande_Viana_Passiflora_edulis_Brazil_2005","245","transects","Apis mellifera","species","honeybees",72.9,450,135,810,"In each field, bees were surveyed in a 50 m long transect, laid within the crop field, with a mean of 90 flowers observed for 15 minutes during three times on three different days",NA
"Blande_Viana_Passiflora_edulis_Brazil_2005","315","transects","Apis mellifera","species","honeybees",178.2,450,135,810,"In each field, bees were surveyed in a 50 m long transect, laid within the crop field, with a mean of 90 flowers observed for 15 minutes during three times on three different days",NA
"Blande_Viana_Passiflora_edulis_Brazil_2005","13","transects","Trigona spinipes","species","other_wild_bees",1044.9,450,135,810,"In each field, bees were surveyed in a 50 m long transect, laid within the crop field, with a mean of 90 flowers observed for 15 minutes during three times on three different days",NA
"Blande_Viana_Passiflora_edulis_Brazil_2005","19","transects","Trigona spinipes","species","other_wild_bees",510.3,450,135,810,"In each field, bees were surveyed in a 50 m long transect, laid within the crop field, with a mean of 90 flowers observed for 15 minutes during three times on three different days",NA
"Blande_Viana_Passiflora_edulis_Brazil_2005","67","transects","Trigona spinipes","species","other_wild_bees",64.8,450,135,810,"In each field, bees were surveyed in a 50 m long transect, laid within the crop field, with a mean of 90 flowers observed for 15 minutes during three times on three different days",NA
"Blande_Viana_Passiflora_edulis_Brazil_2005","112","transects","Trigona spinipes","species","other_wild_bees",186.3,450,135,810,"In each field, bees were surveyed in a 50 m long transect, laid within the crop field, with a mean of 90 flowers observed for 15 minutes during three times on three different days",NA
"Blande_Viana_Passiflora_edulis_Brazil_2005","117","transects","Trigona spinipes","species","other_wild_bees",32.4,450,135,810,"In each field, bees were surveyed in a 50 m long transect, laid within the crop field, with a mean of 90 flowers observed for 15 minutes during three times on three different days",NA
"Blande_Viana_Passiflora_edulis_Brazil_2005","149","transects","Trigona spinipes","species","other_wild_bees",575.1,450,135,810,"In each field, bees were surveyed in a 50 m long transect, laid within the crop field, with a mean of 90 flowers observed for 15 minutes during three times on three different days",NA
"Blande_Viana_Passiflora_edulis_Brazil_2005","155","transects","Trigona spinipes","species","other_wild_bees",137.7,450,135,810,"In each field, bees were surveyed in a 50 m long transect, laid within the crop field, with a mean of 90 flowers observed for 15 minutes during three times on three different days",NA
"Blande_Viana_Passiflora_edulis_Brazil_2005","163","transects","Trigona spinipes","species","other_wild_bees",421.2,450,135,810,"In each field, bees were surveyed in a 50 m long transect, laid within the crop field, with a mean of 90 flowers observed for 15 minutes during three times on three different days",NA
"Blande_Viana_Passiflora_edulis_Brazil_2005","176","transects","Trigona spinipes","species","other_wild_bees",145.8,450,135,810,"In each field, bees were surveyed in a 50 m long transect, laid within the crop field, with a mean of 90 flowers observed for 15 minutes during three times on three different days",NA
"Blande_Viana_Passiflora_edulis_Brazil_2005","245","transects","Trigona spinipes","species","other_wild_bees",56.7,450,135,810,"In each field, bees were surveyed in a 50 m long transect, laid within the crop field, with a mean of 90 flowers observed for 15 minutes during three times on three different days",NA
"Breno_M_Freitas_Anacardium_occidentale_Brazil_2011","CA1","Netting","Apis mellifera","species","honeybees",5,900,NA,NA,"6 subplots per site,	150 m, 10 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Anacardium_occidentale_Brazil_2011","CA1","Netting","Trigona spinipes","species","other_wild_bees",4,900,NA,NA,"6 subplots per site,	150 m, 10 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Anacardium_occidentale_Brazil_2011","CA1","Netting","Odonata sp.1","morphospecies","other",1,900,NA,NA,"6 subplots per site,	150 m, 10 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Anacardium_occidentale_Brazil_2011","CA1","Netting","Brachygastra lecheguana","species","non_bee_hymenoptera",1,900,NA,NA,"6 subplots per site,	150 m, 10 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Anacardium_occidentale_Brazil_2011","CA1","Netting","Apis mellifera","species","honeybees",5,900,NA,NA,"6 subplots per site,	150 m, 10 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Anacardium_occidentale_Brazil_2011","CA1","Netting","Brachygastra lecheguana","species","non_bee_hymenoptera",3,900,NA,NA,"6 subplots per site,	150 m, 10 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Anacardium_occidentale_Brazil_2011","CA1","Netting","Stratiomyidae sp.2","morphospecies","syrphids",1,900,NA,NA,"6 subplots per site,	150 m, 10 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Anacardium_occidentale_Brazil_2011","CA1","Netting","Odonata sp.2","morphospecies","other",1,900,NA,NA,"6 subplots per site,	150 m, 10 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Anacardium_occidentale_Brazil_2011","CA1","Netting","Apis mellifera","species","honeybees",3,900,NA,NA,"6 subplots per site,	150 m, 10 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Anacardium_occidentale_Brazil_2011","CA1","Netting","Centris  byrsonimae","species","other_wild_bees",2,900,NA,NA,"6 subplots per site,	150 m, 10 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Anacardium_occidentale_Brazil_2011","CA1","Netting","Apis mellifera","species","honeybees",3,900,NA,NA,"6 subplots per site,	150 m, 10 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Anacardium_occidentale_Brazil_2011","CA1","Netting","Apis mellifera","species","honeybees",6,900,NA,NA,"6 subplots per site,	150 m, 10 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Anacardium_occidentale_Brazil_2011","CA1","Netting","Vespidae sp.5","morphospecies","non_bee_hymenoptera",2,900,NA,NA,"6 subplots per site,	150 m, 10 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Anacardium_occidentale_Brazil_2011","CA1","Netting","Brachygastra lecheguana","species","non_bee_hymenoptera",1,900,NA,NA,"6 subplots per site,	150 m, 10 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Anacardium_occidentale_Brazil_2011","CA1","Netting","Apis mellifera","species","honeybees",1,900,NA,NA,"6 subplots per site,	150 m, 10 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Anacardium_occidentale_Brazil_2011","CA1","Netting","Apis mellifera","species","honeybees",3,900,NA,NA,"6 subplots per site,	150 m, 10 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Anacardium_occidentale_Brazil_2011","CA1","Netting","Brachygastra lecheguana","species","non_bee_hymenoptera",1,900,NA,NA,"6 subplots per site,	150 m, 10 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Anacardium_occidentale_Brazil_2011","CA1","Netting","Xylocopa cearensis","species","other_wild_bees",1,900,NA,NA,"6 subplots per site,	150 m, 10 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Anacardium_occidentale_Brazil_2011","CA1","Netting","Brachygastra lecheguana","species","non_bee_hymenoptera",1,900,NA,NA,"6 subplots per site,	150 m, 10 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Anacardium_occidentale_Brazil_2011","CA1","Netting","Apis mellifera","species","honeybees",1,900,NA,NA,"6 subplots per site,	150 m, 10 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Anacardium_occidentale_Brazil_2011","CA1","Netting","Centris  byrsonimae","species","other_wild_bees",2,900,NA,NA,"6 subplots per site,	150 m, 10 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Anacardium_occidentale_Brazil_2011","CA1","Netting","Apis mellifera","species","honeybees",2,900,NA,NA,"6 subplots per site,	150 m, 10 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Anacardium_occidentale_Brazil_2011","CA2","Netting","Apis mellifera","species","honeybees",2,900,NA,NA,"6 subplots per site,	150 m, 10 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Anacardium_occidentale_Brazil_2011","CA2","Netting","Trigona spinipes","species","other_wild_bees",1,900,NA,NA,"6 subplots per site,	150 m, 10 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Anacardium_occidentale_Brazil_2011","CA2","Netting","Vespidae sp.5","morphospecies","non_bee_hymenoptera",1,900,NA,NA,"6 subplots per site,	150 m, 10 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Anacardium_occidentale_Brazil_2011","CA2","Netting","Apis mellifera","species","honeybees",4,900,NA,NA,"6 subplots per site,	150 m, 10 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Anacardium_occidentale_Brazil_2011","CA2","Netting","Vespidae sp.6","morphospecies","non_bee_hymenoptera",3,900,NA,NA,"6 subplots per site,	150 m, 10 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Anacardium_occidentale_Brazil_2011","CA2","Netting","Melitoma aff. segmentaria","species","other_wild_bees",2,900,NA,NA,"6 subplots per site,	150 m, 10 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Anacardium_occidentale_Brazil_2011","CA2","Netting","Brachygastra lecheguana","species","non_bee_hymenoptera",2,900,NA,NA,"6 subplots per site,	150 m, 10 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Anacardium_occidentale_Brazil_2011","CA2","Netting","Xylocopa cearensis","species","other_wild_bees",2,900,NA,NA,"6 subplots per site,	150 m, 10 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Anacardium_occidentale_Brazil_2011","CA2","Netting","Apis mellifera","species","honeybees",2,900,NA,NA,"6 subplots per site,	150 m, 10 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Anacardium_occidentale_Brazil_2011","CA2","Netting","Xylocopa cearensis","species","other_wild_bees",1,900,NA,NA,"6 subplots per site,	150 m, 10 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Anacardium_occidentale_Brazil_2011","CA2","Netting","Brachygastra lecheguana","species","non_bee_hymenoptera",2,900,NA,NA,"6 subplots per site,	150 m, 10 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Anacardium_occidentale_Brazil_2011","CA2","Netting","Trigona spinipes","species","other_wild_bees",1,900,NA,NA,"6 subplots per site,	150 m, 10 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Anacardium_occidentale_Brazil_2011","CA2","Netting","Apis mellifera","species","honeybees",3,900,NA,NA,"6 subplots per site,	150 m, 10 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Anacardium_occidentale_Brazil_2011","CA2","Netting","Apis mellifera","species","honeybees",2,900,NA,NA,"6 subplots per site,	150 m, 10 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Anacardium_occidentale_Brazil_2011","CA2","Netting","Apis mellifera","species","honeybees",1,900,NA,NA,"6 subplots per site,	150 m, 10 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Anacardium_occidentale_Brazil_2011","CA2","Netting","Apis mellifera","species","honeybees",2,900,NA,NA,"6 subplots per site,	150 m, 10 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Anacardium_occidentale_Brazil_2011","CA3","Netting","Apis mellifera","species","honeybees",2,900,NA,NA,"6 subplots per site,	150 m, 10 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Anacardium_occidentale_Brazil_2011","CA3","Netting","Brachygastra lecheguana","species","non_bee_hymenoptera",6,900,NA,NA,"6 subplots per site,	150 m, 10 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Anacardium_occidentale_Brazil_2011","CA3","Netting","Apis mellifera","species","honeybees",11,900,NA,NA,"6 subplots per site,	150 m, 10 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Anacardium_occidentale_Brazil_2011","CA3","Netting","Vespidae sp.6","morphospecies","non_bee_hymenoptera",1,900,NA,NA,"6 subplots per site,	150 m, 10 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Anacardium_occidentale_Brazil_2011","CA3","Netting","Trigona spinipes","species","other_wild_bees",1,900,NA,NA,"6 subplots per site,	150 m, 10 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Anacardium_occidentale_Brazil_2011","CA3","Netting","Melitoma aff. segmentaria","species","other_wild_bees",1,900,NA,NA,"6 subplots per site,	150 m, 10 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Anacardium_occidentale_Brazil_2011","CA3","Netting","Apis mellifera","species","honeybees",4,900,NA,NA,"6 subplots per site,	150 m, 10 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Anacardium_occidentale_Brazil_2011","CA3","Netting","Brachygastra lecheguana","species","non_bee_hymenoptera",1,900,NA,NA,"6 subplots per site,	150 m, 10 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Anacardium_occidentale_Brazil_2011","CA3","Netting","Apis mellifera","species","honeybees",4,900,NA,NA,"6 subplots per site,	150 m, 10 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Anacardium_occidentale_Brazil_2011","CA3","Netting","Brachygastra lecheguana","species","non_bee_hymenoptera",1,900,NA,NA,"6 subplots per site,	150 m, 10 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Anacardium_occidentale_Brazil_2011","CA3","Netting","Apis mellifera","species","honeybees",2,900,NA,NA,"6 subplots per site,	150 m, 10 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Anacardium_occidentale_Brazil_2011","CA3","Netting","Centris byrsonimae","species","other_wild_bees",1,900,NA,NA,"6 subplots per site,	150 m, 10 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Anacardium_occidentale_Brazil_2011","CA3","Netting","Xylocopa cearensis","species","other_wild_bees",1,900,NA,NA,"6 subplots per site,	150 m, 10 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Anacardium_occidentale_Brazil_2011","CA3","Netting","Trigona spinipes","species","other_wild_bees",1,900,NA,NA,"6 subplots per site,	150 m, 10 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Anacardium_occidentale_Brazil_2011","CA3","Netting","Apis mellifera","species","honeybees",1,900,NA,NA,"6 subplots per site,	150 m, 10 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Anacardium_occidentale_Brazil_2011","CA3","Netting","Apis mellifera","species","honeybees",1,900,NA,NA,"6 subplots per site,	150 m, 10 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Anacardium_occidentale_Brazil_2011","CA3","Netting","Apis mellifera","species","honeybees",1,900,NA,NA,"6 subplots per site,	150 m, 10 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Anacardium_occidentale_Brazil_2011","CA4","Netting","Trigona spinipes","species","other_wild_bees",1,900,NA,NA,"6 subplots per site,	150 m, 10 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Anacardium_occidentale_Brazil_2011","CA4","Netting","Apis mellifera","species","honeybees",1,900,NA,NA,"6 subplots per site,	150 m, 10 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Anacardium_occidentale_Brazil_2011","CA4","Netting","Apis mellifera","species","honeybees",5,900,NA,NA,"6 subplots per site,	150 m, 10 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Anacardium_occidentale_Brazil_2011","CA4","Netting","Brachygastra lecheguana","species","non_bee_hymenoptera",2,900,NA,NA,"6 subplots per site,	150 m, 10 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Anacardium_occidentale_Brazil_2011","CA4","Netting","Brachygastra lecheguana","species","non_bee_hymenoptera",1,900,NA,NA,"6 subplots per site,	150 m, 10 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Anacardium_occidentale_Brazil_2011","CA4","Netting","Apis mellifera","species","honeybees",6,900,NA,NA,"6 subplots per site,	150 m, 10 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Anacardium_occidentale_Brazil_2011","CA4","Netting","Apis mellifera","species","honeybees",3,900,NA,NA,"6 subplots per site,	150 m, 10 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Anacardium_occidentale_Brazil_2011","CA4","Netting","Apis mellifera","species","honeybees",2,900,NA,NA,"6 subplots per site,	150 m, 10 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Anacardium_occidentale_Brazil_2011","CA4","Netting","Apis mellifera","species","honeybees",3,900,NA,NA,"6 subplots per site,	150 m, 10 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Anacardium_occidentale_Brazil_2011","CA4","Netting","Apis mellifera","species","honeybees",4,900,NA,NA,"6 subplots per site,	150 m, 10 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Anacardium_occidentale_Brazil_2011","CA4","Netting","Apis mellifera","species","honeybees",3,900,NA,NA,"6 subplots per site,	150 m, 10 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Anacardium_occidentale_Brazil_2011","CA5","Netting","Apis mellifera","species","honeybees",3,900,NA,NA,"6 subplots per site,	150 m, 10 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Anacardium_occidentale_Brazil_2011","CA5","Netting","Vespidae sp.5","morphospecies","non_bee_hymenoptera",1,900,NA,NA,"6 subplots per site,	150 m, 10 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Anacardium_occidentale_Brazil_2011","CA5","Netting","Trigona spinipes","species","other_wild_bees",9,900,NA,NA,"6 subplots per site,	150 m, 10 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Anacardium_occidentale_Brazil_2011","CA5","Netting","Apis mellifera","species","honeybees",10,900,NA,NA,"6 subplots per site,	150 m, 10 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Anacardium_occidentale_Brazil_2011","CA5","Netting","Apis mellifera","species","honeybees",1,900,NA,NA,"6 subplots per site,	150 m, 10 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Anacardium_occidentale_Brazil_2011","CA5","Netting","Trigona spinipes","species","other_wild_bees",1,900,NA,NA,"6 subplots per site,	150 m, 10 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Anacardium_occidentale_Brazil_2011","CA5","Netting","Lepidoptera spp.","morphospecies","lepidoptera",1,900,NA,NA,"6 subplots per site,	150 m, 10 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Anacardium_occidentale_Brazil_2011","CA5","Netting","Brachygastra lecheguana","species","non_bee_hymenoptera",1,900,NA,NA,"6 subplots per site,	150 m, 10 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Anacardium_occidentale_Brazil_2011","CA5","Netting","Apis mellifera","species","honeybees",2,900,NA,NA,"6 subplots per site,	150 m, 10 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Anacardium_occidentale_Brazil_2011","CA5","Netting","Brachygastra lecheguana","species","non_bee_hymenoptera",1,900,NA,NA,"6 subplots per site,	150 m, 10 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Anacardium_occidentale_Brazil_2011","CA5","Netting","Melitomella grisescens","species","other_wild_bees",1,900,NA,NA,"6 subplots per site,	150 m, 10 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Anacardium_occidentale_Brazil_2011","CA5","Netting","Odonata sp.1","morphospecies","other",1,900,NA,NA,"6 subplots per site,	150 m, 10 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Anacardium_occidentale_Brazil_2011","CA5","Netting","Apis mellifera","species","honeybees",3,900,NA,NA,"6 subplots per site,	150 m, 10 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Anacardium_occidentale_Brazil_2011","CA5","Netting","Apis mellifera","species","honeybees",1,900,NA,NA,"6 subplots per site,	150 m, 10 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Anacardium_occidentale_Brazil_2011","CA5","Netting","Apis mellifera","species","honeybees",1,900,NA,NA,"6 subplots per site,	150 m, 10 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Anacardium_occidentale_Brazil_2011","CA6","Netting","Apis mellifera","species","honeybees",6,900,NA,NA,"6 subplots per site,	150 m, 10 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Anacardium_occidentale_Brazil_2011","CA6","Netting","Mutillidae sp.1","morphospecies","non_bee_hymenoptera",1,900,NA,NA,"6 subplots per site,	150 m, 10 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Anacardium_occidentale_Brazil_2011","CA6","Netting","Xylocopa cearensis","species","other_wild_bees",3,900,NA,NA,"6 subplots per site,	150 m, 10 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Anacardium_occidentale_Brazil_2011","CA6","Netting","Trigona spinipes","species","other_wild_bees",3,900,NA,NA,"6 subplots per site,	150 m, 10 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Anacardium_occidentale_Brazil_2011","CA6","Netting","Brachygastra lecheguana","species","non_bee_hymenoptera",3,900,NA,NA,"6 subplots per site,	150 m, 10 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Anacardium_occidentale_Brazil_2011","CA6","Netting","Odonata sp.1","morphospecies","other",2,900,NA,NA,"6 subplots per site,	150 m, 10 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Anacardium_occidentale_Brazil_2011","CA6","Netting","Brachygastra lecheguana","species","non_bee_hymenoptera",3,900,NA,NA,"6 subplots per site,	150 m, 10 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Anacardium_occidentale_Brazil_2011","CA6","Netting","Apis mellifera","species","honeybees",8,900,NA,NA,"6 subplots per site,	150 m, 10 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Anacardium_occidentale_Brazil_2011","CA6","Netting","Apis mellifera","species","honeybees",4,900,NA,NA,"6 subplots per site,	150 m, 10 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Anacardium_occidentale_Brazil_2011","CA6","Netting","Trigona fuscipennis","species","other_wild_bees",1,900,NA,NA,"6 subplots per site,	150 m, 10 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Anacardium_occidentale_Brazil_2011","CA6","Netting","Apis mellifera","species","honeybees",1,900,NA,NA,"6 subplots per site,	150 m, 10 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Anacardium_occidentale_Brazil_2011","CA6","Netting","Apis mellifera","species","honeybees",3,900,NA,NA,"6 subplots per site,	150 m, 10 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Anacardium_occidentale_Brazil_2011","CA6","Netting","Apis mellifera","species","honeybees",2,900,NA,NA,"6 subplots per site,	150 m, 10 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Anacardium_occidentale_Brazil_2011","CA7","Netting","Apis mellifera","species","honeybees",6,900,NA,NA,"6 subplots per site,	150 m, 10 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Anacardium_occidentale_Brazil_2011","CA7","Netting","Xylocopa cearensis","species","other_wild_bees",1,900,NA,NA,"6 subplots per site,	150 m, 10 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Anacardium_occidentale_Brazil_2011","CA7","Netting","Brachygastra lecheguana","species","non_bee_hymenoptera",2,900,NA,NA,"6 subplots per site,	150 m, 10 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Anacardium_occidentale_Brazil_2011","CA7","Netting","Trigona spinipes","species","other_wild_bees",2,900,NA,NA,"6 subplots per site,	150 m, 10 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Anacardium_occidentale_Brazil_2011","CA7","Netting","Brachygastra lecheguana","species","non_bee_hymenoptera",4,900,NA,NA,"6 subplots per site,	150 m, 10 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Anacardium_occidentale_Brazil_2011","CA7","Netting","Apis mellifera","species","honeybees",3,900,NA,NA,"6 subplots per site,	150 m, 10 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Anacardium_occidentale_Brazil_2011","CA7","Netting","Apis mellifera","species","honeybees",4,900,NA,NA,"6 subplots per site,	150 m, 10 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Anacardium_occidentale_Brazil_2011","CA7","Netting","Xylocopa cearensis","species","other_wild_bees",3,900,NA,NA,"6 subplots per site,	150 m, 10 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Anacardium_occidentale_Brazil_2011","CA7","Netting","Vespidae sp.5","morphospecies","non_bee_hymenoptera",2,900,NA,NA,"6 subplots per site,	150 m, 10 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Anacardium_occidentale_Brazil_2011","CA7","Netting","Apis mellifera","species","honeybees",5,900,NA,NA,"6 subplots per site,	150 m, 10 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Anacardium_occidentale_Brazil_2011","CA7","Netting","Brachygastra lecheguana","species","non_bee_hymenoptera",1,900,NA,NA,"6 subplots per site,	150 m, 10 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Anacardium_occidentale_Brazil_2011","CA7","Netting","Trigona spinipes","species","other_wild_bees",1,900,NA,NA,"6 subplots per site,	150 m, 10 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Anacardium_occidentale_Brazil_2011","CA8","Netting","Apis mellifera","species","honeybees",3,900,NA,NA,"6 subplots per site,	150 m, 10 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Anacardium_occidentale_Brazil_2011","CA8","Netting","Trigona spinipes","species","other_wild_bees",13,900,NA,NA,"6 subplots per site,	150 m, 10 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Anacardium_occidentale_Brazil_2011","CA8","Netting","Brachygastra lecheguana","species","non_bee_hymenoptera",4,900,NA,NA,"6 subplots per site,	150 m, 10 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Anacardium_occidentale_Brazil_2011","CA8","Netting","Apis mellifera","species","honeybees",3,900,NA,NA,"6 subplots per site,	150 m, 10 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Anacardium_occidentale_Brazil_2011","CA8","Netting","Brachygastra lecheguana","species","non_bee_hymenoptera",3,900,NA,NA,"6 subplots per site,	150 m, 10 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Anacardium_occidentale_Brazil_2011","CA8","Netting","Trigona spinipes","species","other_wild_bees",5,900,NA,NA,"6 subplots per site,	150 m, 10 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Anacardium_occidentale_Brazil_2011","CA8","Netting","Apis mellifera","species","honeybees",5,900,NA,NA,"6 subplots per site,	150 m, 10 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Anacardium_occidentale_Brazil_2011","CA8","Netting","Brachygastra lecheguana","species","non_bee_hymenoptera",1,900,NA,NA,"6 subplots per site,	150 m, 10 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Anacardium_occidentale_Brazil_2011","CA8","Netting","Apis mellifera","species","honeybees",3,900,NA,NA,"6 subplots per site,	150 m, 10 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Anacardium_occidentale_Brazil_2011","CA8","Netting","Apis mellifera","species","honeybees",4,900,NA,NA,"6 subplots per site,	150 m, 10 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Anacardium_occidentale_Brazil_2011","CA8","Netting","Brachygastra lecheguana","species","non_bee_hymenoptera",2,900,NA,NA,"6 subplots per site,	150 m, 10 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Anacardium_occidentale_Brazil_2011","CA8","Netting","Apis mellifera","species","honeybees",1,900,NA,NA,"6 subplots per site,	150 m, 10 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Anacardium_occidentale_Brazil_2011","CA8","Netting","Melitomella grisescens","species","other_wild_bees",1,900,NA,NA,"6 subplots per site,	150 m, 10 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Anacardium_occidentale_Brazil_2011","CA8","Netting","Xylocopa cearensis","species","other_wild_bees",1,900,NA,NA,"6 subplots per site,	150 m, 10 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Anacardium_occidentale_Brazil_2011","CA8","Netting","Apis mellifera","species","honeybees",1,900,NA,NA,"6 subplots per site,	150 m, 10 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Anacardium_occidentale_Brazil_2011","CA8","Netting","Apis mellifera","species","honeybees",4,900,NA,NA,"6 subplots per site,	150 m, 10 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Anacardium_occidentale_Brazil_2011","CA8","Netting","Apis mellifera","species","honeybees",4,900,NA,NA,"6 subplots per site,	150 m, 10 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Anacardium_occidentale_Brazil_2011","CA8","Netting","Apis mellifera","species","honeybees",1,900,NA,NA,"6 subplots per site,	150 m, 10 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Anacardium_occidentale_Brazil_2011","CA9","Netting","Apis mellifera","species","honeybees",2,900,NA,NA,"6 subplots per site,	150 m, 10 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Anacardium_occidentale_Brazil_2011","CA9","Netting","Trigona spinipes","species","other_wild_bees",2,900,NA,NA,"6 subplots per site,	150 m, 10 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Anacardium_occidentale_Brazil_2011","CA9","Netting","Vespidae sp.5","morphospecies","non_bee_hymenoptera",1,900,NA,NA,"6 subplots per site,	150 m, 10 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Anacardium_occidentale_Brazil_2011","CA9","Netting","Lepidoptera spp.","morphospecies","lepidoptera",1,900,NA,NA,"6 subplots per site,	150 m, 10 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Anacardium_occidentale_Brazil_2011","CA9","Netting","Brachygastra lecheguana","species","non_bee_hymenoptera",1,900,NA,NA,"6 subplots per site,	150 m, 10 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Anacardium_occidentale_Brazil_2011","CA9","Netting","Xylocopa cearensis","species","other_wild_bees",1,900,NA,NA,"6 subplots per site,	150 m, 10 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Anacardium_occidentale_Brazil_2011","CA9","Netting","Apis mellifera","species","honeybees",4,900,NA,NA,"6 subplots per site,	150 m, 10 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Anacardium_occidentale_Brazil_2011","CA9","Netting","Brachygastra lecheguana","species","non_bee_hymenoptera",1,900,NA,NA,"6 subplots per site,	150 m, 10 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Anacardium_occidentale_Brazil_2011","CA9","Netting","Apis mellifera","species","honeybees",1,900,NA,NA,"6 subplots per site,	150 m, 10 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Anacardium_occidentale_Brazil_2011","CA9","Netting","Brachygastra lecheguana","species","non_bee_hymenoptera",1,900,NA,NA,"6 subplots per site,	150 m, 10 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Anacardium_occidentale_Brazil_2011","CA9","Netting","Apis mellifera","species","honeybees",15,900,NA,NA,"6 subplots per site,	150 m, 10 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Anacardium_occidentale_Brazil_2011","CA9","Netting","Apis mellifera","species","honeybees",3,900,NA,NA,"6 subplots per site,	150 m, 10 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Anacardium_occidentale_Brazil_2011","CA9","Netting","Apis mellifera","species","honeybees",2,900,NA,NA,"6 subplots per site,	150 m, 10 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Anacardium_occidentale_Brazil_2011","CA9","Netting","Apoica pallens","species","non_bee_hymenoptera",2,900,NA,NA,"6 subplots per site,	150 m, 10 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Anacardium_occidentale_Brazil_2011","CA9","Netting","Apis mellifera","species","honeybees",3,900,NA,NA,"6 subplots per site,	150 m, 10 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Anacardium_occidentale_Brazil_2011","CA9","Netting","Apis mellifera","species","honeybees",1,900,NA,NA,"6 subplots per site,	150 m, 10 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Anacardium_occidentale_Brazil_2011","CA10","Netting","Apis mellifera","species","honeybees",1,900,NA,NA,"6 subplots per site,	150 m, 10 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Anacardium_occidentale_Brazil_2011","CA10","Netting","Apis mellifera","species","honeybees",3,900,NA,NA,"6 subplots per site,	150 m, 10 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Anacardium_occidentale_Brazil_2011","CA10","Netting","Melitomella grisescens","species","other_wild_bees",1,900,NA,NA,"6 subplots per site,	150 m, 10 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Anacardium_occidentale_Brazil_2011","CA10","Netting","Diptera spp.","morphospecies","other_flies",1,900,NA,NA,"6 subplots per site,	150 m, 10 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Anacardium_occidentale_Brazil_2011","CA10","Netting","Apis mellifera","species","honeybees",9,900,NA,NA,"6 subplots per site,	150 m, 10 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Anacardium_occidentale_Brazil_2011","CA10","Netting","Brachygastra lecheguana","species","non_bee_hymenoptera",1,900,NA,NA,"6 subplots per site,	150 m, 10 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Anacardium_occidentale_Brazil_2011","CA10","Netting","Brachygastra lecheguana","species","non_bee_hymenoptera",3,900,NA,NA,"6 subplots per site,	150 m, 10 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Anacardium_occidentale_Brazil_2011","CA10","Netting","Apis mellifera","species","honeybees",1,900,NA,NA,"6 subplots per site,	150 m, 10 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Anacardium_occidentale_Brazil_2011","CA10","Netting","Brachygastra lecheguana","species","non_bee_hymenoptera",1,900,NA,NA,"6 subplots per site,	150 m, 10 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Anacardium_occidentale_Brazil_2011","CA10","Netting","Apis mellifera","species","honeybees",4,900,NA,NA,"6 subplots per site,	150 m, 10 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Anacardium_occidentale_Brazil_2011","CA10","Netting","Apis mellifera","species","honeybees",4,900,NA,NA,"6 subplots per site,	150 m, 10 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Anacardium_occidentale_Brazil_2011","CA10","Netting","Brachygastra lecheguana","species","non_bee_hymenoptera",2,900,NA,NA,"6 subplots per site,	150 m, 10 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Anacardium_occidentale_Brazil_2011","CA10","Netting","Apis mellifera","species","honeybees",3,900,NA,NA,"6 subplots per site,	150 m, 10 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Anacardium_occidentale_Brazil_2011","CA10","Netting","Centris byrsonimae","species","other_wild_bees",1,900,NA,NA,"6 subplots per site,	150 m, 10 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Anacardium_occidentale_Brazil_2011","CA10","Netting","Apis mellifera","species","honeybees",3,900,NA,NA,"6 subplots per site,	150 m, 10 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Anacardium_occidentale_Brazil_2011","CA10","Netting","Apis mellifera","species","honeybees",1,900,NA,NA,"6 subplots per site,	150 m, 10 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Anacardium_occidentale_Brazil_2012","CA1","Netting","Apis mellifera","species","honeybees",4,900,NA,NA,"6 subplots per site,	150 m, 10 sampling rounds in one season",NA
"Breno_M_Freitas_Anacardium_occidentale_Brazil_2012","CA1","Netting","Trigona spinipes","species","other_wild_bees",1,900,NA,NA,"6 subplots per site,	150 m, 10 sampling rounds in one season",NA
"Breno_M_Freitas_Anacardium_occidentale_Brazil_2012","CA1","Netting","Centris  byrsonimae","species","other_wild_bees",1,900,NA,NA,"6 subplots per site,	150 m, 10 sampling rounds in one season",NA
"Breno_M_Freitas_Anacardium_occidentale_Brazil_2012","CA1","Netting","Apis mellifera","species","honeybees",5,900,NA,NA,"6 subplots per site,	150 m, 10 sampling rounds in one season",NA
"Breno_M_Freitas_Anacardium_occidentale_Brazil_2012","CA1","Netting","Trigona spinipes","species","other_wild_bees",1,900,NA,NA,"6 subplots per site,	150 m, 10 sampling rounds in one season",NA
"Breno_M_Freitas_Anacardium_occidentale_Brazil_2012","CA1","Netting","Apis mellifera","species","honeybees",3,900,NA,NA,"6 subplots per site,	150 m, 10 sampling rounds in one season",NA
"Breno_M_Freitas_Anacardium_occidentale_Brazil_2012","CA1","Netting","Brachygastra lecheguana","species","non_bee_hymenoptera",1,900,NA,NA,"6 subplots per site,	150 m, 10 sampling rounds in one season",NA
"Breno_M_Freitas_Anacardium_occidentale_Brazil_2012","CA1","Netting","Scaptotrigona sp.1","genere","other_wild_bees",2,900,NA,NA,"6 subplots per site,	150 m, 10 sampling rounds in one season",NA
"Breno_M_Freitas_Anacardium_occidentale_Brazil_2012","CA1","Netting","Apis mellifera","species","honeybees",2,900,NA,NA,"6 subplots per site,	150 m, 10 sampling rounds in one season",NA
"Breno_M_Freitas_Anacardium_occidentale_Brazil_2012","CA1","Netting","Trigona spinipes","species","other_wild_bees",2,900,NA,NA,"6 subplots per site,	150 m, 10 sampling rounds in one season",NA
"Breno_M_Freitas_Anacardium_occidentale_Brazil_2012","CA1","Netting","Scaptotrigona sp.1","genere","other_wild_bees",2,900,NA,NA,"6 subplots per site,	150 m, 10 sampling rounds in one season",NA
"Breno_M_Freitas_Anacardium_occidentale_Brazil_2012","CA1","Netting","Diptera spp.","morphospecies","other_flies",1,900,NA,NA,"6 subplots per site,	150 m, 10 sampling rounds in one season",NA
"Breno_M_Freitas_Anacardium_occidentale_Brazil_2012","CA1","Netting","Centris byrsonimae","species","other_wild_bees",1,900,NA,NA,"6 subplots per site,	150 m, 10 sampling rounds in one season",NA
"Breno_M_Freitas_Anacardium_occidentale_Brazil_2012","CA1","Netting","Trigona spinipes","species","other_wild_bees",1,900,NA,NA,"6 subplots per site,	150 m, 10 sampling rounds in one season",NA
"Breno_M_Freitas_Anacardium_occidentale_Brazil_2012","CA1","Netting","Apis mellifera","species","honeybees",1,900,NA,NA,"6 subplots per site,	150 m, 10 sampling rounds in one season",NA
"Breno_M_Freitas_Anacardium_occidentale_Brazil_2012","CA2","Netting","Apis mellifera","species","honeybees",10,900,NA,NA,"6 subplots per site,	150 m, 10 sampling rounds in one season",NA
"Breno_M_Freitas_Anacardium_occidentale_Brazil_2012","CA2","Netting","vespidae sp.1","morphospecies","non_bee_hymenoptera",1,900,NA,NA,"6 subplots per site,	150 m, 10 sampling rounds in one season",NA
"Breno_M_Freitas_Anacardium_occidentale_Brazil_2012","CA2","Netting","Diptera spp.","morphospecies","other_flies",1,900,NA,NA,"6 subplots per site,	150 m, 10 sampling rounds in one season",NA
"Breno_M_Freitas_Anacardium_occidentale_Brazil_2012","CA2","Netting","Trigona fuscipennis","species","other_wild_bees",1,900,NA,NA,"6 subplots per site,	150 m, 10 sampling rounds in one season",NA
"Breno_M_Freitas_Anacardium_occidentale_Brazil_2012","CA2","Netting","Apis mellifera","species","honeybees",1,900,NA,NA,"6 subplots per site,	150 m, 10 sampling rounds in one season",NA
"Breno_M_Freitas_Anacardium_occidentale_Brazil_2012","CA2","Netting","Apis mellifera","species","honeybees",2,900,NA,NA,"6 subplots per site,	150 m, 10 sampling rounds in one season",NA
"Breno_M_Freitas_Anacardium_occidentale_Brazil_2012","CA2","Netting","Apis mellifera","species","honeybees",1,900,NA,NA,"6 subplots per site,	150 m, 10 sampling rounds in one season",NA
"Breno_M_Freitas_Anacardium_occidentale_Brazil_2012","CA2","Netting","Trigona spinipes","species","other_wild_bees",5,900,NA,NA,"6 subplots per site,	150 m, 10 sampling rounds in one season",NA
"Breno_M_Freitas_Anacardium_occidentale_Brazil_2012","CA2","Netting","Scaptotrigona sp.1","genere","other_wild_bees",6,900,NA,NA,"6 subplots per site,	150 m, 10 sampling rounds in one season",NA
"Breno_M_Freitas_Anacardium_occidentale_Brazil_2012","CA2","Netting","Apis mellifera","species","honeybees",1,900,NA,NA,"6 subplots per site,	150 m, 10 sampling rounds in one season",NA
"Breno_M_Freitas_Anacardium_occidentale_Brazil_2012","CA2","Netting","Centris spilopoda","species","other_wild_bees",1,900,NA,NA,"6 subplots per site,	150 m, 10 sampling rounds in one season",NA
"Breno_M_Freitas_Anacardium_occidentale_Brazil_2012","CA2","Netting","Apis mellifera","species","honeybees",2,900,NA,NA,"6 subplots per site,	150 m, 10 sampling rounds in one season",NA
"Breno_M_Freitas_Anacardium_occidentale_Brazil_2012","CA2","Netting","Trigona spinipes","species","other_wild_bees",2,900,NA,NA,"6 subplots per site,	150 m, 10 sampling rounds in one season",NA
"Breno_M_Freitas_Anacardium_occidentale_Brazil_2012","CA2","Netting","Apis mellifera","species","honeybees",1,900,NA,NA,"6 subplots per site,	150 m, 10 sampling rounds in one season",NA
"Breno_M_Freitas_Anacardium_occidentale_Brazil_2012","CA3","Netting","Apis mellifera","species","honeybees",3,900,NA,NA,"6 subplots per site,	150 m, 10 sampling rounds in one season",NA
"Breno_M_Freitas_Anacardium_occidentale_Brazil_2012","CA3","Netting","Centris flavifrons","species","other_wild_bees",2,900,NA,NA,"6 subplots per site,	150 m, 10 sampling rounds in one season",NA
"Breno_M_Freitas_Anacardium_occidentale_Brazil_2012","CA3","Netting","Apis mellifera","species","honeybees",7,900,NA,NA,"6 subplots per site,	150 m, 10 sampling rounds in one season",NA
"Breno_M_Freitas_Anacardium_occidentale_Brazil_2012","CA3","Netting","Diptera spp.","morphospecies","other_flies",1,900,NA,NA,"6 subplots per site,	150 m, 10 sampling rounds in one season",NA
"Breno_M_Freitas_Anacardium_occidentale_Brazil_2012","CA3","Netting","Apis mellifera","species","honeybees",1,900,NA,NA,"6 subplots per site,	150 m, 10 sampling rounds in one season",NA
"Breno_M_Freitas_Anacardium_occidentale_Brazil_2012","CA3","Netting","Apis mellifera","species","honeybees",1,900,NA,NA,"6 subplots per site,	150 m, 10 sampling rounds in one season",NA
"Breno_M_Freitas_Anacardium_occidentale_Brazil_2012","CA3","Netting","Centris flavifrons","species","other_wild_bees",1,900,NA,NA,"6 subplots per site,	150 m, 10 sampling rounds in one season",NA
"Breno_M_Freitas_Anacardium_occidentale_Brazil_2012","CA3","Netting","Trigona spinipes","species","other_wild_bees",2,900,NA,NA,"6 subplots per site,	150 m, 10 sampling rounds in one season",NA
"Breno_M_Freitas_Anacardium_occidentale_Brazil_2012","CA3","Netting","Apis mellifera","species","honeybees",2,900,NA,NA,"6 subplots per site,	150 m, 10 sampling rounds in one season",NA
"Breno_M_Freitas_Anacardium_occidentale_Brazil_2012","CA3","Netting","Xylocopa cearensis ","species","other_wild_bees",1,900,NA,NA,"6 subplots per site,	150 m, 10 sampling rounds in one season",NA
"Breno_M_Freitas_Anacardium_occidentale_Brazil_2012","CA3","Netting","Centris flavifrons","species","other_wild_bees",2,900,NA,NA,"6 subplots per site,	150 m, 10 sampling rounds in one season",NA
"Breno_M_Freitas_Anacardium_occidentale_Brazil_2012","CA3","Netting","Apis mellifera","species","honeybees",3,900,NA,NA,"6 subplots per site,	150 m, 10 sampling rounds in one season",NA
"Breno_M_Freitas_Anacardium_occidentale_Brazil_2012","CA4","Netting","Apis mellifera","species","honeybees",2,900,NA,NA,"6 subplots per site,	150 m, 10 sampling rounds in one season",NA
"Breno_M_Freitas_Anacardium_occidentale_Brazil_2012","CA4","Netting","Apis mellifera","species","honeybees",3,900,NA,NA,"6 subplots per site,	150 m, 10 sampling rounds in one season",NA
"Breno_M_Freitas_Anacardium_occidentale_Brazil_2012","CA4","Netting","Apis mellifera","species","honeybees",4,900,NA,NA,"6 subplots per site,	150 m, 10 sampling rounds in one season",NA
"Breno_M_Freitas_Anacardium_occidentale_Brazil_2012","CA4","Netting","Apis mellifera","species","honeybees",3,900,NA,NA,"6 subplots per site,	150 m, 10 sampling rounds in one season",NA
"Breno_M_Freitas_Anacardium_occidentale_Brazil_2012","CA4","Netting","Trigona spinipes","species","other_wild_bees",1,900,NA,NA,"6 subplots per site,	150 m, 10 sampling rounds in one season",NA
"Breno_M_Freitas_Anacardium_occidentale_Brazil_2012","CA4","Netting","Apis mellifera","species","honeybees",3,900,NA,NA,"6 subplots per site,	150 m, 10 sampling rounds in one season",NA
"Breno_M_Freitas_Anacardium_occidentale_Brazil_2012","CA4","Netting","Trigona spinipes","species","other_wild_bees",14,900,NA,NA,"6 subplots per site,	150 m, 10 sampling rounds in one season",NA
"Breno_M_Freitas_Anacardium_occidentale_Brazil_2012","CA4","Netting","Apis mellifera","species","honeybees",4,900,NA,NA,"6 subplots per site,	150 m, 10 sampling rounds in one season",NA
"Breno_M_Freitas_Anacardium_occidentale_Brazil_2012","CA4","Netting","Scaptotrigona sp.1","genere","other_wild_bees",2,900,NA,NA,"6 subplots per site,	150 m, 10 sampling rounds in one season",NA
"Breno_M_Freitas_Anacardium_occidentale_Brazil_2012","CA4","Netting","Trigona spinipes","species","other_wild_bees",1,900,NA,NA,"6 subplots per site,	150 m, 10 sampling rounds in one season",NA
"Breno_M_Freitas_Anacardium_occidentale_Brazil_2012","CA4","Netting","Tiphiidae sp.4","morphospecies","non_bee_hymenoptera",1,900,NA,NA,"6 subplots per site,	150 m, 10 sampling rounds in one season",NA
"Breno_M_Freitas_Anacardium_occidentale_Brazil_2012","CA4","Netting","Diptera spp.","morphospecies","other_flies",1,900,NA,NA,"6 subplots per site,	150 m, 10 sampling rounds in one season",NA
"Breno_M_Freitas_Anacardium_occidentale_Brazil_2012","CA4","Netting","Apis mellifera","species","honeybees",2,900,NA,NA,"6 subplots per site,	150 m, 10 sampling rounds in one season",NA
"Breno_M_Freitas_Anacardium_occidentale_Brazil_2012","CA4","Netting","Apis mellifera","species","honeybees",1,900,NA,NA,"6 subplots per site,	150 m, 10 sampling rounds in one season",NA
"Breno_M_Freitas_Anacardium_occidentale_Brazil_2012","CA4","Netting","Apis mellifera","species","honeybees",1,900,NA,NA,"6 subplots per site,	150 m, 10 sampling rounds in one season",NA
"Breno_M_Freitas_Anacardium_occidentale_Brazil_2012","CA4","Netting","Lepidoptera spp.","morphospecies","lepidoptera",2,900,NA,NA,"6 subplots per site,	150 m, 10 sampling rounds in one season",NA
"Breno_M_Freitas_Anacardium_occidentale_Brazil_2012","CA4","Netting","Vespidae sp.2","morphospecies","non_bee_hymenoptera",1,900,NA,NA,"6 subplots per site,	150 m, 10 sampling rounds in one season",NA
"Breno_M_Freitas_Anacardium_occidentale_Brazil_2012","CA5","Netting","Apis mellifera","species","honeybees",1,900,NA,NA,"6 subplots per site,	150 m, 10 sampling rounds in one season",NA
"Breno_M_Freitas_Anacardium_occidentale_Brazil_2012","CA5","Netting","Trigona spinipes","species","other_wild_bees",2,900,NA,NA,"6 subplots per site,	150 m, 10 sampling rounds in one season",NA
"Breno_M_Freitas_Anacardium_occidentale_Brazil_2012","CA5","Netting","Vespidae sp.1","morphospecies","non_bee_hymenoptera",1,900,NA,NA,"6 subplots per site,	150 m, 10 sampling rounds in one season",NA
"Breno_M_Freitas_Anacardium_occidentale_Brazil_2012","CA5","Netting","Apis mellifera","species","honeybees",2,900,NA,NA,"6 subplots per site,	150 m, 10 sampling rounds in one season",NA
"Breno_M_Freitas_Anacardium_occidentale_Brazil_2012","CA5","Netting","Trigona spinipes","species","other_wild_bees",4,900,NA,NA,"6 subplots per site,	150 m, 10 sampling rounds in one season",NA
"Breno_M_Freitas_Anacardium_occidentale_Brazil_2012","CA5","Netting","Apis mellifera","species","honeybees",2,900,NA,NA,"6 subplots per site,	150 m, 10 sampling rounds in one season",NA
"Breno_M_Freitas_Anacardium_occidentale_Brazil_2012","CA5","Netting","Trigona spinipes","species","other_wild_bees",1,900,NA,NA,"6 subplots per site,	150 m, 10 sampling rounds in one season",NA
"Breno_M_Freitas_Anacardium_occidentale_Brazil_2012","CA5","Netting","Apis mellifera","species","honeybees",4,900,NA,NA,"6 subplots per site,	150 m, 10 sampling rounds in one season",NA
"Breno_M_Freitas_Anacardium_occidentale_Brazil_2012","CA5","Netting","Trigona spinipes","species","other_wild_bees",1,900,NA,NA,"6 subplots per site,	150 m, 10 sampling rounds in one season",NA
"Breno_M_Freitas_Anacardium_occidentale_Brazil_2012","CA5","Netting","Apis mellifera","species","honeybees",5,900,NA,NA,"6 subplots per site,	150 m, 10 sampling rounds in one season",NA
"Breno_M_Freitas_Anacardium_occidentale_Brazil_2012","CA5","Netting","Centris byrsonimae","species","other_wild_bees",1,900,NA,NA,"6 subplots per site,	150 m, 10 sampling rounds in one season",NA
"Breno_M_Freitas_Anacardium_occidentale_Brazil_2012","CA5","Netting","Trigona spinipes","species","other_wild_bees",6,900,NA,NA,"6 subplots per site,	150 m, 10 sampling rounds in one season",NA
"Breno_M_Freitas_Anacardium_occidentale_Brazil_2012","CA5","Netting","Xylocopa cearensis ","species","other_wild_bees",1,900,NA,NA,"6 subplots per site,	150 m, 10 sampling rounds in one season",NA
"Breno_M_Freitas_Anacardium_occidentale_Brazil_2012","CA5","Netting","Trigona spinipes","species","other_wild_bees",2,900,NA,NA,"6 subplots per site,	150 m, 10 sampling rounds in one season",NA
"Breno_M_Freitas_Anacardium_occidentale_Brazil_2012","CA5","Netting","Apis mellifera","species","honeybees",3,900,NA,NA,"6 subplots per site,	150 m, 10 sampling rounds in one season",NA
"Breno_M_Freitas_Anacardium_occidentale_Brazil_2012","CA5","Netting","Diptera spp.","morphospecies","other_flies",1,900,NA,NA,"6 subplots per site,	150 m, 10 sampling rounds in one season",NA
"Breno_M_Freitas_Anacardium_occidentale_Brazil_2012","CA5","Netting","Apis mellifera","species","honeybees",1,900,NA,NA,"6 subplots per site,	150 m, 10 sampling rounds in one season",NA
"Breno_M_Freitas_Anacardium_occidentale_Brazil_2012","CA6","Netting","Apis mellifera","species","honeybees",6,900,NA,NA,"6 subplots per site,	150 m, 10 sampling rounds in one season",NA
"Breno_M_Freitas_Anacardium_occidentale_Brazil_2012","CA6","Netting","Apis mellifera","species","honeybees",3,900,NA,NA,"6 subplots per site,	150 m, 10 sampling rounds in one season",NA
"Breno_M_Freitas_Anacardium_occidentale_Brazil_2012","CA6","Netting","Apis mellifera","species","honeybees",1,900,NA,NA,"6 subplots per site,	150 m, 10 sampling rounds in one season",NA
"Breno_M_Freitas_Anacardium_occidentale_Brazil_2012","CA6","Netting","Scaptotrigona sp.1","genere","other_wild_bees",2,900,NA,NA,"6 subplots per site,	150 m, 10 sampling rounds in one season",NA
"Breno_M_Freitas_Anacardium_occidentale_Brazil_2012","CA6","Netting","Trigona spinipes","species","other_wild_bees",1,900,NA,NA,"6 subplots per site,	150 m, 10 sampling rounds in one season",NA
"Breno_M_Freitas_Anacardium_occidentale_Brazil_2012","CA6","Netting","Apis mellifera","species","honeybees",10,900,NA,NA,"6 subplots per site,	150 m, 10 sampling rounds in one season",NA
"Breno_M_Freitas_Anacardium_occidentale_Brazil_2012","CA6","Netting","Scaptotrigona sp.1","genere","other_wild_bees",7,900,NA,NA,"6 subplots per site,	150 m, 10 sampling rounds in one season",NA
"Breno_M_Freitas_Anacardium_occidentale_Brazil_2012","CA6","Netting","Apis mellifera","species","honeybees",2,900,NA,NA,"6 subplots per site,	150 m, 10 sampling rounds in one season",NA
"Breno_M_Freitas_Anacardium_occidentale_Brazil_2012","CA6","Netting","Trigona spinipes","species","other_wild_bees",1,900,NA,NA,"6 subplots per site,	150 m, 10 sampling rounds in one season",NA
"Breno_M_Freitas_Anacardium_occidentale_Brazil_2012","CA6","Netting","Diptera spp.","morphospecies","other_flies",1,900,NA,NA,"6 subplots per site,	150 m, 10 sampling rounds in one season",NA
"Breno_M_Freitas_Anacardium_occidentale_Brazil_2012","CA6","Netting","Centris spilopoda","species","other_wild_bees",1,900,NA,NA,"6 subplots per site,	150 m, 10 sampling rounds in one season",NA
"Breno_M_Freitas_Anacardium_occidentale_Brazil_2012","CA6","Netting","Apis mellifera","species","honeybees",4,900,NA,NA,"6 subplots per site,	150 m, 10 sampling rounds in one season",NA
"Breno_M_Freitas_Anacardium_occidentale_Brazil_2012","CA6","Netting","Apis mellifera","species","honeybees",1,900,NA,NA,"6 subplots per site,	150 m, 10 sampling rounds in one season",NA
"Breno_M_Freitas_Anacardium_occidentale_Brazil_2012","CA6","Netting","Centris flavifrons","species","other_wild_bees",1,900,NA,NA,"6 subplots per site,	150 m, 10 sampling rounds in one season",NA
"Breno_M_Freitas_Anacardium_occidentale_Brazil_2012","CA7","Netting","Apis mellifera","species","honeybees",6,900,NA,NA,"6 subplots per site,	150 m, 10 sampling rounds in one season",NA
"Breno_M_Freitas_Anacardium_occidentale_Brazil_2012","CA7","Netting","Trigona spinipes","species","other_wild_bees",2,900,NA,NA,"6 subplots per site,	150 m, 10 sampling rounds in one season",NA
"Breno_M_Freitas_Anacardium_occidentale_Brazil_2012","CA7","Netting","Brachygastra lecheguana","species","non_bee_hymenoptera",1,900,NA,NA,"6 subplots per site,	150 m, 10 sampling rounds in one season",NA
"Breno_M_Freitas_Anacardium_occidentale_Brazil_2012","CA7","Netting","Apis mellifera","species","honeybees",3,900,NA,NA,"6 subplots per site,	150 m, 10 sampling rounds in one season",NA
"Breno_M_Freitas_Anacardium_occidentale_Brazil_2012","CA7","Netting","Trigona spinipes","species","other_wild_bees",1,900,NA,NA,"6 subplots per site,	150 m, 10 sampling rounds in one season",NA
"Breno_M_Freitas_Anacardium_occidentale_Brazil_2012","CA7","Netting","Apis mellifera","species","honeybees",2,900,NA,NA,"6 subplots per site,	150 m, 10 sampling rounds in one season",NA
"Breno_M_Freitas_Anacardium_occidentale_Brazil_2012","CA7","Netting","Trigona spinipes","species","other_wild_bees",1,900,NA,NA,"6 subplots per site,	150 m, 10 sampling rounds in one season",NA
"Breno_M_Freitas_Anacardium_occidentale_Brazil_2012","CA7","Netting","Apis mellifera","species","honeybees",2,900,NA,NA,"6 subplots per site,	150 m, 10 sampling rounds in one season",NA
"Breno_M_Freitas_Anacardium_occidentale_Brazil_2012","CA7","Netting","Brachygastra lecheguana","species","non_bee_hymenoptera",1,900,NA,NA,"6 subplots per site,	150 m, 10 sampling rounds in one season",NA
"Breno_M_Freitas_Anacardium_occidentale_Brazil_2012","CA7","Netting","Apis mellifera","species","honeybees",7,900,NA,NA,"6 subplots per site,	150 m, 10 sampling rounds in one season",NA
"Breno_M_Freitas_Anacardium_occidentale_Brazil_2012","CA7","Netting","Xylocopa cearensis ","species","other_wild_bees",1,900,NA,NA,"6 subplots per site,	150 m, 10 sampling rounds in one season",NA
"Breno_M_Freitas_Anacardium_occidentale_Brazil_2012","CA7","Netting","Ancyloscelis apiformes","species","other_wild_bees",1,900,NA,NA,"6 subplots per site,	150 m, 10 sampling rounds in one season",NA
"Breno_M_Freitas_Anacardium_occidentale_Brazil_2012","CA7","Netting","Centris flavifrons","species","other_wild_bees",1,900,NA,NA,"6 subplots per site,	150 m, 10 sampling rounds in one season",NA
"Breno_M_Freitas_Anacardium_occidentale_Brazil_2012","CA7","Netting","Apis mellifera","species","honeybees",6,900,NA,NA,"6 subplots per site,	150 m, 10 sampling rounds in one season",NA
"Breno_M_Freitas_Anacardium_occidentale_Brazil_2012","CA7","Netting","Trigona spinipes","species","other_wild_bees",1,900,NA,NA,"6 subplots per site,	150 m, 10 sampling rounds in one season",NA
"Breno_M_Freitas_Anacardium_occidentale_Brazil_2012","CA7","Netting","Xylocopa cearensis ","species","other_wild_bees",1,900,NA,NA,"6 subplots per site,	150 m, 10 sampling rounds in one season",NA
"Breno_M_Freitas_Anacardium_occidentale_Brazil_2012","CA8","Netting","Trigona spinipes","species","other_wild_bees",1,900,NA,NA,"6 subplots per site,	150 m, 10 sampling rounds in one season",NA
"Breno_M_Freitas_Anacardium_occidentale_Brazil_2012","CA8","Netting","Trigona spinipes","species","other_wild_bees",7,900,NA,NA,"6 subplots per site,	150 m, 10 sampling rounds in one season",NA
"Breno_M_Freitas_Anacardium_occidentale_Brazil_2012","CA8","Netting","Trigona spinipes","species","other_wild_bees",2,900,NA,NA,"6 subplots per site,	150 m, 10 sampling rounds in one season",NA
"Breno_M_Freitas_Anacardium_occidentale_Brazil_2012","CA8","Netting","Apis mellifera","species","honeybees",4,900,NA,NA,"6 subplots per site,	150 m, 10 sampling rounds in one season",NA
"Breno_M_Freitas_Anacardium_occidentale_Brazil_2012","CA8","Netting","Apis mellifera","species","honeybees",2,900,NA,NA,"6 subplots per site,	150 m, 10 sampling rounds in one season",NA
"Breno_M_Freitas_Anacardium_occidentale_Brazil_2012","CA8","Netting","Scaptotrigona sp.1","genere","other_wild_bees",3,900,NA,NA,"6 subplots per site,	150 m, 10 sampling rounds in one season",NA
"Breno_M_Freitas_Anacardium_occidentale_Brazil_2012","CA8","Netting","Diptera spp.","morphospecies","other_flies",1,900,NA,NA,"6 subplots per site,	150 m, 10 sampling rounds in one season",NA
"Breno_M_Freitas_Anacardium_occidentale_Brazil_2012","CA8","Netting","Diptera spp.","morphospecies","other_flies",1,900,NA,NA,"6 subplots per site,	150 m, 10 sampling rounds in one season",NA
"Breno_M_Freitas_Anacardium_occidentale_Brazil_2012","CA8","Netting","Apis mellifera","species","honeybees",1,900,NA,NA,"6 subplots per site,	150 m, 10 sampling rounds in one season",NA
"Breno_M_Freitas_Anacardium_occidentale_Brazil_2012","CA8","Netting","Trigona spinipes","species","other_wild_bees",3,900,NA,NA,"6 subplots per site,	150 m, 10 sampling rounds in one season",NA
"Breno_M_Freitas_Anacardium_occidentale_Brazil_2012","CA8","Netting","Apis mellifera","species","honeybees",1,900,NA,NA,"6 subplots per site,	150 m, 10 sampling rounds in one season",NA
"Breno_M_Freitas_Anacardium_occidentale_Brazil_2012","CA8","Netting","Scaptotrigona sp.1","genere","other_wild_bees",3,900,NA,NA,"6 subplots per site,	150 m, 10 sampling rounds in one season",NA
"Breno_M_Freitas_Anacardium_occidentale_Brazil_2012","CA8","Netting","Xylocopa cearensis ","species","other_wild_bees",1,900,NA,NA,"6 subplots per site,	150 m, 10 sampling rounds in one season",NA
"Breno_M_Freitas_Anacardium_occidentale_Brazil_2012","CA8","Netting","Diptera spp.","morphospecies","other_flies",1,900,NA,NA,"6 subplots per site,	150 m, 10 sampling rounds in one season",NA
"Breno_M_Freitas_Anacardium_occidentale_Brazil_2012","CA8","Netting","Apis mellifera","species","honeybees",1,900,NA,NA,"6 subplots per site,	150 m, 10 sampling rounds in one season",NA
"Breno_M_Freitas_Anacardium_occidentale_Brazil_2012","CA8","Netting","Trigona spinipes","species","other_wild_bees",1,900,NA,NA,"6 subplots per site,	150 m, 10 sampling rounds in one season",NA
"Breno_M_Freitas_Anacardium_occidentale_Brazil_2012","CA9","Netting","Apis mellifera","species","honeybees",3,900,NA,NA,"6 subplots per site,	150 m, 10 sampling rounds in one season",NA
"Breno_M_Freitas_Anacardium_occidentale_Brazil_2012","CA9","Netting","Trigona spinipes","species","other_wild_bees",1,900,NA,NA,"6 subplots per site,	150 m, 10 sampling rounds in one season",NA
"Breno_M_Freitas_Anacardium_occidentale_Brazil_2012","CA9","Netting","Apis mellifera","species","honeybees",1,900,NA,NA,"6 subplots per site,	150 m, 10 sampling rounds in one season",NA
"Breno_M_Freitas_Anacardium_occidentale_Brazil_2012","CA9","Netting","Scaptotrigona sp.1","genere","other_wild_bees",4,900,NA,NA,"6 subplots per site,	150 m, 10 sampling rounds in one season",NA
"Breno_M_Freitas_Anacardium_occidentale_Brazil_2012","CA9","Netting","Scaptotrigona sp.1","genere","other_wild_bees",2,900,NA,NA,"6 subplots per site,	150 m, 10 sampling rounds in one season",NA
"Breno_M_Freitas_Anacardium_occidentale_Brazil_2012","CA9","Netting","Apis mellifera","species","honeybees",3,900,NA,NA,"6 subplots per site,	150 m, 10 sampling rounds in one season",NA
"Breno_M_Freitas_Anacardium_occidentale_Brazil_2012","CA9","Netting","Scaptotrigona sp.1","genere","other_wild_bees",12,900,NA,NA,"6 subplots per site,	150 m, 10 sampling rounds in one season",NA
"Breno_M_Freitas_Anacardium_occidentale_Brazil_2012","CA9","Netting","Apis mellifera","species","honeybees",1,900,NA,NA,"6 subplots per site,	150 m, 10 sampling rounds in one season",NA
"Breno_M_Freitas_Anacardium_occidentale_Brazil_2012","CA9","Netting","Trigona spinipes","species","other_wild_bees",4,900,NA,NA,"6 subplots per site,	150 m, 10 sampling rounds in one season",NA
"Breno_M_Freitas_Anacardium_occidentale_Brazil_2012","CA9","Netting","Apis mellifera","species","honeybees",1,900,NA,NA,"6 subplots per site,	150 m, 10 sampling rounds in one season",NA
"Breno_M_Freitas_Anacardium_occidentale_Brazil_2012","CA9","Netting","Centris byrsonimae","species","other_wild_bees",1,900,NA,NA,"6 subplots per site,	150 m, 10 sampling rounds in one season",NA
"Breno_M_Freitas_Anacardium_occidentale_Brazil_2012","CA9","Netting","Scaptotrigona sp.1","genere","other_wild_bees",1,900,NA,NA,"6 subplots per site,	150 m, 10 sampling rounds in one season",NA
"Breno_M_Freitas_Anacardium_occidentale_Brazil_2012","CA9","Netting","Diptera spp.","morphospecies","other_flies",1,900,NA,NA,"6 subplots per site,	150 m, 10 sampling rounds in one season",NA
"Breno_M_Freitas_Anacardium_occidentale_Brazil_2012","CA9","Netting","Apis mellifera","species","honeybees",2,900,NA,NA,"6 subplots per site,	150 m, 10 sampling rounds in one season",NA
"Breno_M_Freitas_Anacardium_occidentale_Brazil_2012","CA9","Netting","Centris aff. sponsa","species","other_wild_bees",2,900,NA,NA,"6 subplots per site,	150 m, 10 sampling rounds in one season",NA
"Breno_M_Freitas_Anacardium_occidentale_Brazil_2012","CA9","Netting","Trigona spinipes","species","other_wild_bees",1,900,NA,NA,"6 subplots per site,	150 m, 10 sampling rounds in one season",NA
"Breno_M_Freitas_Anacardium_occidentale_Brazil_2012","CA9","Netting","Trigona spinipes","species","other_wild_bees",1,900,NA,NA,"6 subplots per site,	150 m, 10 sampling rounds in one season",NA
"Breno_M_Freitas_Anacardium_occidentale_Brazil_2012","CA9","Netting","Centris byrsonimae","species","other_wild_bees",1,900,NA,NA,"6 subplots per site,	150 m, 10 sampling rounds in one season",NA
"Breno_M_Freitas_Anacardium_occidentale_Brazil_2012","CA10","Netting","Apis mellifera","species","honeybees",1,900,NA,NA,"6 subplots per site,	150 m, 10 sampling rounds in one season",NA
"Breno_M_Freitas_Anacardium_occidentale_Brazil_2012","CA10","Netting","Trigona spinipes","species","other_wild_bees",2,900,NA,NA,"6 subplots per site,	150 m, 10 sampling rounds in one season",NA
"Breno_M_Freitas_Anacardium_occidentale_Brazil_2012","CA10","Netting","Apis mellifera","species","honeybees",3,900,NA,NA,"6 subplots per site,	150 m, 10 sampling rounds in one season",NA
"Breno_M_Freitas_Anacardium_occidentale_Brazil_2012","CA10","Netting","Trigona spinipes","species","other_wild_bees",8,900,NA,NA,"6 subplots per site,	150 m, 10 sampling rounds in one season",NA
"Breno_M_Freitas_Anacardium_occidentale_Brazil_2012","CA10","Netting","Apis mellifera","species","honeybees",3,900,NA,NA,"6 subplots per site,	150 m, 10 sampling rounds in one season",NA
"Breno_M_Freitas_Anacardium_occidentale_Brazil_2012","CA10","Netting","Trigona spinipes","species","other_wild_bees",16,900,NA,NA,"6 subplots per site,	150 m, 10 sampling rounds in one season",NA
"Breno_M_Freitas_Anacardium_occidentale_Brazil_2012","CA10","Netting","Trigona spinipes","species","other_wild_bees",5,900,NA,NA,"6 subplots per site,	150 m, 10 sampling rounds in one season",NA
"Breno_M_Freitas_Anacardium_occidentale_Brazil_2012","CA10","Netting","Xylocopa cearensis ","species","other_wild_bees",1,900,NA,NA,"6 subplots per site,	150 m, 10 sampling rounds in one season",NA
"Breno_M_Freitas_Anacardium_occidentale_Brazil_2012","CA10","Netting","Trigona spinipes","species","other_wild_bees",5,900,NA,NA,"6 subplots per site,	150 m, 10 sampling rounds in one season",NA
"Breno_M_Freitas_Anacardium_occidentale_Brazil_2012","CA10","Netting","Apis mellifera","species","honeybees",2,900,NA,NA,"6 subplots per site,	150 m, 10 sampling rounds in one season",NA
"Breno_M_Freitas_Anacardium_occidentale_Brazil_2012","CA10","Netting","Diptera spp.","morphospecies","other_flies",1,900,NA,NA,"6 subplots per site,	150 m, 10 sampling rounds in one season",NA
"Breno_M_Freitas_Anacardium_occidentale_Brazil_2012","CA10","Netting","Diptera spp.","morphospecies","other_flies",1,900,NA,NA,"6 subplots per site,	150 m, 10 sampling rounds in one season",NA
"Breno_M_Freitas_Anacardium_occidentale_Brazil_2012","CA10","Netting","Apis mellifera","species","honeybees",2,900,NA,NA,"6 subplots per site,	150 m, 10 sampling rounds in one season",NA
"Breno_M_Freitas_Anacardium_occidentale_Brazil_2012","CA10","Netting","Apis mellifera","species","honeybees",1,900,NA,NA,"6 subplots per site,	150 m, 10 sampling rounds in one season",NA
"Breno_M_Freitas_Anacardium_occidentale_Brazil_2012","CA10","Netting","Trigona spinipes","species","other_wild_bees",2,900,NA,NA,"6 subplots per site,	150 m, 10 sampling rounds in one season",NA
"Breno_M_Freitas_Anacardium_occidentale_Brazil_2012","CA10","Netting","Centris byrsonimae","species","other_wild_bees",1,900,NA,NA,"6 subplots per site,	150 m, 10 sampling rounds in one season",NA
"Breno_M_Freitas_Annona_muricata_Brazil_2013","SO1","hand sampling","Cyclocephala vestita","species","beetles",13,1500,NA,NA,"16 subplots per site,	250 m, 2 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Annona_muricata_Brazil_2013","SO1","hand sampling","Cyclocephala vestita","species","beetles",21,1500,NA,NA,"16 subplots per site,	250 m, 2 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Annona_muricata_Brazil_2013","SO1","hand sampling","Cyclocephala vestita","species","beetles",18,1500,NA,NA,"16 subplots per site,	250 m, 2 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Annona_muricata_Brazil_2013","SO1","hand sampling","Cyclocephala vestita","species","beetles",25,1500,NA,NA,"16 subplots per site,	250 m, 2 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Annona_muricata_Brazil_2013","SO1","hand sampling","Cyclocephala vestita","species","beetles",21,1500,NA,NA,"16 subplots per site,	250 m, 2 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Annona_muricata_Brazil_2013","SO1","hand sampling","Cyclocephala vestita","species","beetles",15,1500,NA,NA,"16 subplots per site,	250 m, 2 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Annona_muricata_Brazil_2013","SO1","hand sampling","Cyclocephala vestita","species","beetles",19,1500,NA,NA,"16 subplots per site,	250 m, 2 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Annona_muricata_Brazil_2013","SO1","hand sampling","Cyclocephala vestita","species","beetles",27,1500,NA,NA,"16 subplots per site,	250 m, 2 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Annona_muricata_Brazil_2013","SO1","hand sampling","Cyclocephala vestita","species","beetles",3,1500,NA,NA,"16 subplots per site,	250 m, 2 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Annona_muricata_Brazil_2013","SO1","hand sampling","Cyclocephala vestita","species","beetles",1,1500,NA,NA,"16 subplots per site,	250 m, 2 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Annona_muricata_Brazil_2013","SO1","hand sampling","Cyclocephala vestita","species","beetles",14,1500,NA,NA,"16 subplots per site,	250 m, 2 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Annona_muricata_Brazil_2013","SO1","hand sampling","Cyclocephala vestita","species","beetles",11,1500,NA,NA,"16 subplots per site,	250 m, 2 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Annona_muricata_Brazil_2013","SO1","hand sampling","Cyclocephala vestita","species","beetles",20,1500,NA,NA,"16 subplots per site,	250 m, 2 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Annona_muricata_Brazil_2013","SO1","hand sampling","Cyclocephala vestita","species","beetles",21,1500,NA,NA,"16 subplots per site,	250 m, 2 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Annona_muricata_Brazil_2013","SO1","hand sampling","Cyclocephala vestita","species","beetles",25,1500,NA,NA,"16 subplots per site,	250 m, 2 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Annona_muricata_Brazil_2013","SO1","hand sampling","Cyclocephala vestita","species","beetles",18,1500,NA,NA,"16 subplots per site,	250 m, 2 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Annona_muricata_Brazil_2013","SO1","hand sampling","Cyclocephala atricapilla","species","beetles",1,1500,NA,NA,"16 subplots per site,	250 m, 2 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Annona_muricata_Brazil_2013","SO1","hand sampling","Cyclocephala atricapilla","species","beetles",2,1500,NA,NA,"16 subplots per site,	250 m, 2 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Annona_muricata_Brazil_2013","SO1","hand sampling","Cyclocephala atricapilla","species","beetles",1,1500,NA,NA,"16 subplots per site,	250 m, 2 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Annona_muricata_Brazil_2013","SO1","hand sampling","Cyclocephala atricapilla","species","beetles",1,1500,NA,NA,"16 subplots per site,	250 m, 2 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Annona_muricata_Brazil_2013","SO1","hand sampling","Cyclocephala atricapilla","species","beetles",1,1500,NA,NA,"16 subplots per site,	250 m, 2 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Annona_muricata_Brazil_2013","SO1","hand sampling","Cyclocephala atricapilla","species","beetles",3,1500,NA,NA,"16 subplots per site,	250 m, 2 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Annona_muricata_Brazil_2013","SO1","hand sampling","Cyclocephala atricapilla","species","beetles",5,1500,NA,NA,"16 subplots per site,	250 m, 2 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Annona_muricata_Brazil_2013","SO1","hand sampling","Cyclocephala atricapilla","species","beetles",5,1500,NA,NA,"16 subplots per site,	250 m, 2 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Annona_muricata_Brazil_2013","SO1","hand sampling","Cyclocephala atricapilla","species","beetles",7,1500,NA,NA,"16 subplots per site,	250 m, 2 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Annona_muricata_Brazil_2013","SO1","hand sampling","Cyclocephala atricapilla","species","beetles",8,1500,NA,NA,"16 subplots per site,	250 m, 2 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Annona_muricata_Brazil_2013","SO1","hand sampling","Cyclocephala atricapilla","species","beetles",6,1500,NA,NA,"16 subplots per site,	250 m, 2 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Annona_muricata_Brazil_2013","SO1","hand sampling","Cyclocephala atricapilla","species","beetles",4,1500,NA,NA,"16 subplots per site,	250 m, 2 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Annona_muricata_Brazil_2013","SO1","hand sampling","Cyclocephala atricapilla","species","beetles",5,1500,NA,NA,"16 subplots per site,	250 m, 2 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Annona_muricata_Brazil_2013","SO1","hand sampling","Haptoncus ochraceus","species","beetles",7,1500,NA,NA,"16 subplots per site,	250 m, 2 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Annona_muricata_Brazil_2013","SO1","hand sampling","Haptoncus ochraceus","species","beetles",11,1500,NA,NA,"16 subplots per site,	250 m, 2 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Annona_muricata_Brazil_2013","SO1","hand sampling","Haptoncus ochraceus","species","beetles",8,1500,NA,NA,"16 subplots per site,	250 m, 2 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Annona_muricata_Brazil_2013","SO1","hand sampling","Haptoncus ochraceus","species","beetles",5,1500,NA,NA,"16 subplots per site,	250 m, 2 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Annona_muricata_Brazil_2013","SO1","hand sampling","Haptoncus ochraceus","species","beetles",9,1500,NA,NA,"16 subplots per site,	250 m, 2 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Annona_muricata_Brazil_2013","SO1","hand sampling","Haptoncus ochraceus","species","beetles",6,1500,NA,NA,"16 subplots per site,	250 m, 2 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Annona_muricata_Brazil_2013","SO1","hand sampling","Haptoncus ochraceus","species","beetles",6,1500,NA,NA,"16 subplots per site,	250 m, 2 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Annona_muricata_Brazil_2013","SO1","hand sampling","Haptoncus ochraceus","species","beetles",7,1500,NA,NA,"16 subplots per site,	250 m, 2 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Annona_muricata_Brazil_2013","SO1","hand sampling","Haptoncus ochraceus","species","beetles",17,1500,NA,NA,"16 subplots per site,	250 m, 2 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Annona_muricata_Brazil_2013","SO1","hand sampling","Haptoncus ochraceus","species","beetles",14,1500,NA,NA,"16 subplots per site,	250 m, 2 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Annona_muricata_Brazil_2013","SO1","hand sampling","Haptoncus ochraceus","species","beetles",10,1500,NA,NA,"16 subplots per site,	250 m, 2 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Annona_muricata_Brazil_2013","SO1","hand sampling","Haptoncus ochraceus","species","beetles",15,1500,NA,NA,"16 subplots per site,	250 m, 2 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Annona_muricata_Brazil_2013","SO1","hand sampling","Haptoncus ochraceus","species","beetles",18,1500,NA,NA,"16 subplots per site,	250 m, 2 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Annona_muricata_Brazil_2013","SO1","hand sampling","Haptoncus ochraceus","species","beetles",12,1500,NA,NA,"16 subplots per site,	250 m, 2 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Annona_muricata_Brazil_2013","SO1","hand sampling","Haptoncus ochraceus","species","beetles",7,1500,NA,NA,"16 subplots per site,	250 m, 2 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Annona_muricata_Brazil_2013","SO1","hand sampling","Haptoncus ochraceus","species","beetles",9,1500,NA,NA,"16 subplots per site,	250 m, 2 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Annona_muricata_Brazil_2013","SO1","hand sampling","Camponotus sp.","species","non_bee_hymenoptera",2,1500,NA,NA,"16 subplots per site,	250 m, 2 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Annona_muricata_Brazil_2013","SO1","hand sampling","Camponotus sp.","species","non_bee_hymenoptera",5,1500,NA,NA,"16 subplots per site,	250 m, 2 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Annona_muricata_Brazil_2013","SO1","hand sampling","Camponotus sp.","species","non_bee_hymenoptera",2,1500,NA,NA,"16 subplots per site,	250 m, 2 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Annona_muricata_Brazil_2013","SO1","hand sampling","Camponotus sp.","species","non_bee_hymenoptera",3,1500,NA,NA,"16 subplots per site,	250 m, 2 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Annona_muricata_Brazil_2013","SO1","hand sampling","Camponotus sp.","species","non_bee_hymenoptera",4,1500,NA,NA,"16 subplots per site,	250 m, 2 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Annona_muricata_Brazil_2013","SO1","hand sampling","Camponotus sp.","species","non_bee_hymenoptera",8,1500,NA,NA,"16 subplots per site,	250 m, 2 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Annona_muricata_Brazil_2013","SO1","hand sampling","Camponotus sp.","species","non_bee_hymenoptera",3,1500,NA,NA,"16 subplots per site,	250 m, 2 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Annona_muricata_Brazil_2013","SO1","hand sampling","Camponotus sp.","species","non_bee_hymenoptera",7,1500,NA,NA,"16 subplots per site,	250 m, 2 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Annona_muricata_Brazil_2013","SO1","hand sampling","Camponotus sp.","species","non_bee_hymenoptera",5,1500,NA,NA,"16 subplots per site,	250 m, 2 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Annona_muricata_Brazil_2013","SO1","hand sampling","Camponotus sp.","species","non_bee_hymenoptera",2,1500,NA,NA,"16 subplots per site,	250 m, 2 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Annona_muricata_Brazil_2013","SO1","hand sampling","Camponotus sp.","species","non_bee_hymenoptera",1,1500,NA,NA,"16 subplots per site,	250 m, 2 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Annona_muricata_Brazil_2013","SO1","hand sampling","Camponotus sp.","species","non_bee_hymenoptera",1,1500,NA,NA,"16 subplots per site,	250 m, 2 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Annona_muricata_Brazil_2013","SO1","hand sampling","Camponotus sp.","species","non_bee_hymenoptera",4,1500,NA,NA,"16 subplots per site,	250 m, 2 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Annona_muricata_Brazil_2013","SO1","hand sampling","Camponotus sp.","species","non_bee_hymenoptera",6,1500,NA,NA,"16 subplots per site,	250 m, 2 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Annona_squamosa_Brazil_2013","SA1","Netting","Apis mellifera","species","honeybees",5,1500,NA,NA,"16 subplots per site,	250 m, 2 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Annona_squamosa_Brazil_2013","SA1","Netting","Apis mellifera","species","honeybees",8,1500,NA,NA,"16 subplots per site,	250 m, 2 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Annona_squamosa_Brazil_2013","SA1","Netting","Apis mellifera","species","honeybees",3,1500,NA,NA,"16 subplots per site,	250 m, 2 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Annona_squamosa_Brazil_2013","SA1","Netting","Apis mellifera","species","honeybees",6,1500,NA,NA,"16 subplots per site,	250 m, 2 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Annona_squamosa_Brazil_2013","SA1","hand sampling","Carpophilus hemipterus","species","beetles",8,1500,NA,NA,"16 subplots per site,	250 m, 2 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Annona_squamosa_Brazil_2013","SA1","hand sampling","Carpophilus hemipterus","species","beetles",4,1500,NA,NA,"16 subplots per site,	250 m, 2 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Annona_squamosa_Brazil_2013","SA1","hand sampling","Carpophilus hemipterus","species","beetles",5,1500,NA,NA,"16 subplots per site,	250 m, 2 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Annona_squamosa_Brazil_2013","SA1","hand sampling","Carpophilus hemipterus","species","beetles",11,1500,NA,NA,"16 subplots per site,	250 m, 2 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Annona_squamosa_Brazil_2013","SA1","hand sampling","Carpophilus hemipterus","species","beetles",9,1500,NA,NA,"16 subplots per site,	250 m, 2 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Annona_squamosa_Brazil_2013","SA1","hand sampling","Carpophilus hemipterus","species","beetles",5,1500,NA,NA,"16 subplots per site,	250 m, 2 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Annona_squamosa_Brazil_2013","SA1","hand sampling","Carpophilus hemipterus","species","beetles",6,1500,NA,NA,"16 subplots per site,	250 m, 2 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Annona_squamosa_Brazil_2013","SA1","hand sampling","Carpophilus hemipterus","species","beetles",10,1500,NA,NA,"16 subplots per site,	250 m, 2 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Annona_squamosa_Brazil_2013","SA1","hand sampling","Carpophilus hemipterus","species","beetles",10,1500,NA,NA,"16 subplots per site,	250 m, 2 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Annona_squamosa_Brazil_2013","SA1","hand sampling","Carpophilus hemipterus","species","beetles",7,1500,NA,NA,"16 subplots per site,	250 m, 2 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Annona_squamosa_Brazil_2013","SA1","hand sampling","Carpophilus hemipterus","species","beetles",9,1500,NA,NA,"16 subplots per site,	250 m, 2 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Annona_squamosa_Brazil_2013","SA1","hand sampling","Carpophilus hemipterus","species","beetles",11,1500,NA,NA,"16 subplots per site,	250 m, 2 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Annona_squamosa_Brazil_2013","SA1","hand sampling","Carpophilus hemipterus","species","beetles",8,1500,NA,NA,"16 subplots per site,	250 m, 2 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Annona_squamosa_Brazil_2013","SA1","hand sampling","Carpophilus hemipterus","species","beetles",6,1500,NA,NA,"16 subplots per site,	250 m, 2 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Annona_squamosa_Brazil_2013","SA1","hand sampling","Carpophilus hemipterus","species","beetles",9,1500,NA,NA,"16 subplots per site,	250 m, 2 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Annona_squamosa_Brazil_2013","SA1","hand sampling","Carpophilus hemipterus","species","beetles",12,1500,NA,NA,"16 subplots per site,	250 m, 2 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Annona_squamosa_Brazil_2013","SA1","hand sampling","Carpophilus sp.","gener","beetles",7,1500,NA,NA,"16 subplots per site,	250 m, 2 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Annona_squamosa_Brazil_2013","SA1","hand sampling","Carpophilus sp.","gener","beetles",5,1500,NA,NA,"16 subplots per site,	250 m, 2 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Annona_squamosa_Brazil_2013","SA1","hand sampling","Carpophilus sp.","gener","beetles",7,1500,NA,NA,"16 subplots per site,	250 m, 2 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Annona_squamosa_Brazil_2013","SA1","hand sampling","Carpophilus sp.","gener","beetles",8,1500,NA,NA,"16 subplots per site,	250 m, 2 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Annona_squamosa_Brazil_2013","SA1","hand sampling","Carpophilus sp.","gener","beetles",8,1500,NA,NA,"16 subplots per site,	250 m, 2 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Annona_squamosa_Brazil_2013","SA1","hand sampling","Carpophilus sp.","gener","beetles",4,1500,NA,NA,"16 subplots per site,	250 m, 2 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Annona_squamosa_Brazil_2013","SA1","hand sampling","Carpophilus sp.","gener","beetles",4,1500,NA,NA,"16 subplots per site,	250 m, 2 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Annona_squamosa_Brazil_2013","SA1","hand sampling","Carpophilus sp.","gener","beetles",9,1500,NA,NA,"16 subplots per site,	250 m, 2 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Annona_squamosa_Brazil_2013","SA1","hand sampling","Carpophilus sp.","gener","beetles",11,1500,NA,NA,"16 subplots per site,	250 m, 2 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Annona_squamosa_Brazil_2013","SA1","hand sampling","Carpophilus sp.","gener","beetles",5,1500,NA,NA,"16 subplots per site,	250 m, 2 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Annona_squamosa_Brazil_2013","SA1","hand sampling","Carpophilus sp.","gener","beetles",9,1500,NA,NA,"16 subplots per site,	250 m, 2 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Annona_squamosa_Brazil_2013","SA1","hand sampling","Carpophilus sp.","gener","beetles",8,1500,NA,NA,"16 subplots per site,	250 m, 2 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Annona_squamosa_Brazil_2013","SA1","hand sampling","Carpophilus sp.","gener","beetles",8,1500,NA,NA,"16 subplots per site,	250 m, 2 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Annona_squamosa_Brazil_2013","SA1","hand sampling","Carpophilus sp.","gener","beetles",5,1500,NA,NA,"16 subplots per site,	250 m, 2 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Annona_squamosa_Brazil_2013","SA1","hand sampling","Carpophilus sp.","gener","beetles",9,1500,NA,NA,"16 subplots per site,	250 m, 2 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Annona_squamosa_Brazil_2013","SA1","hand sampling","Carpophilus sp.","gener","beetles",10,1500,NA,NA,"16 subplots per site,	250 m, 2 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Annona_squamosa_Brazil_2013","SA1","hand sampling","Haptoncus ochraceus","species","beetles",4,1500,NA,NA,"16 subplots per site,	250 m, 2 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Annona_squamosa_Brazil_2013","SA1","hand sampling","Haptoncus ochraceus","species","beetles",4,1500,NA,NA,"16 subplots per site,	250 m, 2 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Annona_squamosa_Brazil_2013","SA1","hand sampling","Haptoncus ochraceus","species","beetles",5,1500,NA,NA,"16 subplots per site,	250 m, 2 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Annona_squamosa_Brazil_2013","SA1","hand sampling","Haptoncus ochraceus","species","beetles",6,1500,NA,NA,"16 subplots per site,	250 m, 2 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Annona_squamosa_Brazil_2013","SA1","hand sampling","Haptoncus ochraceus","species","beetles",5,1500,NA,NA,"16 subplots per site,	250 m, 2 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Annona_squamosa_Brazil_2013","SA1","hand sampling","Haptoncus ochraceus","species","beetles",2,1500,NA,NA,"16 subplots per site,	250 m, 2 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Annona_squamosa_Brazil_2013","SA1","hand sampling","Haptoncus ochraceus","species","beetles",1,1500,NA,NA,"16 subplots per site,	250 m, 2 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Annona_squamosa_Brazil_2013","SA1","hand sampling","Haptoncus ochraceus","species","beetles",5,1500,NA,NA,"16 subplots per site,	250 m, 2 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Annona_squamosa_Brazil_2013","SA1","hand sampling","Haptoncus ochraceus","species","beetles",7,1500,NA,NA,"16 subplots per site,	250 m, 2 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Annona_squamosa_Brazil_2013","SA1","hand sampling","Haptoncus ochraceus","species","beetles",7,1500,NA,NA,"16 subplots per site,	250 m, 2 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Annona_squamosa_Brazil_2013","SA1","hand sampling","Haptoncus ochraceus","species","beetles",3,1500,NA,NA,"16 subplots per site,	250 m, 2 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Annona_squamosa_Brazil_2013","SA1","hand sampling","Haptoncus ochraceus","species","beetles",8,1500,NA,NA,"16 subplots per site,	250 m, 2 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Annona_squamosa_Brazil_2013","SA1","hand sampling","Haptoncus ochraceus","species","beetles",2,1500,NA,NA,"16 subplots per site,	250 m, 2 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Annona_squamosa_Brazil_2013","SA1","hand sampling","Haptoncus ochraceus","species","beetles",7,1500,NA,NA,"16 subplots per site,	250 m, 2 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Annona_squamosa_Brazil_2013","SA1","hand sampling","Haptoncus ochraceus","species","beetles",9,1500,NA,NA,"16 subplots per site,	250 m, 2 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Annona_squamosa_Brazil_2013","SA1","hand sampling","Camponotus sp.","gener","non_bee_hymenoptera",2,1500,NA,NA,"16 subplots per site,	250 m, 2 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Annona_squamosa_Brazil_2013","SA1","hand sampling","Camponotus sp.","gener","non_bee_hymenoptera",1,1500,NA,NA,"16 subplots per site,	250 m, 2 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Annona_squamosa_Brazil_2013","SA1","hand sampling","Camponotus sp.","gener","non_bee_hymenoptera",3,1500,NA,NA,"16 subplots per site,	250 m, 2 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Annona_squamosa_Brazil_2013","SA1","hand sampling","Camponotus sp.","gener","non_bee_hymenoptera",3,1500,NA,NA,"16 subplots per site,	250 m, 2 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Annona_squamosa_Brazil_2013","SA1","hand sampling","Camponotus sp.","gener","non_bee_hymenoptera",1,1500,NA,NA,"16 subplots per site,	250 m, 2 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Annona_squamosa_Brazil_2013","SA1","hand sampling","Camponotus sp.","gener","non_bee_hymenoptera",4,1500,NA,NA,"16 subplots per site,	250 m, 2 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Annona_squamosa_Brazil_2013","SA1","hand sampling","Camponotus sp.","gener","non_bee_hymenoptera",3,1500,NA,NA,"16 subplots per site,	250 m, 2 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Annona_squamosa_Brazil_2013","SA1","hand sampling","Camponotus sp.","gener","non_bee_hymenoptera",5,1500,NA,NA,"16 subplots per site,	250 m, 2 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Annona_squamosa_Brazil_2013","SA1","hand sampling","Camponotus sp.","gener","non_bee_hymenoptera",2,1500,NA,NA,"16 subplots per site,	250 m, 2 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Annona_squamosa_Brazil_2013","SA1","hand sampling","Camponotus sp.","gener","non_bee_hymenoptera",7,1500,NA,NA,"16 subplots per site,	250 m, 2 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Annona_squamosa_Brazil_2013","SA1","hand sampling","Camponotus sp.","gener","non_bee_hymenoptera",3,1500,NA,NA,"16 subplots per site,	250 m, 2 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Annona_squamosa_Brazil_2013","SA1","hand sampling","Camponotus sp.","gener","non_bee_hymenoptera",4,1500,NA,NA,"16 subplots per site,	250 m, 2 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Bixa_orellana_Brazil_2007","AN1","Flower visit","Eulaema nigrita","species","other_wild_bees",1,600,NA,NA,"30 plant per site,	150 m, 4 sampling rounds (censuses) in one season",NA
"Breno_M_Freitas_Bixa_orellana_Brazil_2007","AN1","Flower visit","Eulaema nigrita","species","other_wild_bees",3,600,NA,NA,"30 plant per site,	150 m, 4 sampling rounds (censuses) in one season",NA
"Breno_M_Freitas_Bixa_orellana_Brazil_2007","AN1","Flower visit","Eulaema nigrita","species","other_wild_bees",2,600,NA,NA,"30 plant per site,	150 m, 4 sampling rounds (censuses) in one season",NA
"Breno_M_Freitas_Bixa_orellana_Brazil_2007","AN1","Flower visit","Eulaema nigrita","species","other_wild_bees",2,600,NA,NA,"30 plant per site,	150 m, 4 sampling rounds (censuses) in one season",NA
"Breno_M_Freitas_Bixa_orellana_Brazil_2007","AN2","Flower visit","Eulaema nigrita","species","other_wild_bees",4,600,NA,NA,"30 plant per site,	150 m, 4 sampling rounds (censuses) in one season",NA
"Breno_M_Freitas_Bixa_orellana_Brazil_2007","AN2","Flower visit","Eulaema nigrita","species","other_wild_bees",3,600,NA,NA,"30 plant per site,	150 m, 4 sampling rounds (censuses) in one season",NA
"Breno_M_Freitas_Bixa_orellana_Brazil_2007","AN2","Flower visit","Eulaema nigrita","species","other_wild_bees",3,600,NA,NA,"30 plant per site,	150 m, 4 sampling rounds (censuses) in one season",NA
"Breno_M_Freitas_Bixa_orellana_Brazil_2007","AN2","Flower visit","Eulaema nigrita","species","other_wild_bees",3,600,NA,NA,"30 plant per site,	150 m, 4 sampling rounds (censuses) in one season",NA
"Breno_M_Freitas_Bixa_orellana_Brazil_2007","AN3","Flower visit","Eulaema nigrita","species","other_wild_bees",3,600,NA,NA,"30 plant per site,	150 m, 4 sampling rounds (censuses) in one season",NA
"Breno_M_Freitas_Bixa_orellana_Brazil_2007","AN3","Flower visit","Eulaema nigrita","species","other_wild_bees",5,600,NA,NA,"30 plant per site,	150 m, 4 sampling rounds (censuses) in one season",NA
"Breno_M_Freitas_Bixa_orellana_Brazil_2007","AN3","Flower visit","Eulaema nigrita","species","other_wild_bees",1,600,NA,NA,"30 plant per site,	150 m, 4 sampling rounds (censuses) in one season",NA
"Breno_M_Freitas_Bixa_orellana_Brazil_2007","AN3","Flower visit","Eulaema nigrita","species","other_wild_bees",4,600,NA,NA,"30 plant per site,	150 m, 4 sampling rounds (censuses) in one season",NA
"Breno_M_Freitas_Bixa_orellana_Brazil_2007","AN4","Flower visit","Eulaema nigrita","species","other_wild_bees",6,600,NA,NA,"30 plant per site,	150 m, 4 sampling rounds (censuses) in one season",NA
"Breno_M_Freitas_Bixa_orellana_Brazil_2007","AN4","Flower visit","Eulaema nigrita","species","other_wild_bees",3,600,NA,NA,"30 plant per site,	150 m, 4 sampling rounds (censuses) in one season",NA
"Breno_M_Freitas_Bixa_orellana_Brazil_2007","AN4","Flower visit","Eulaema nigrita","species","other_wild_bees",6,600,NA,NA,"30 plant per site,	150 m, 4 sampling rounds (censuses) in one season",NA
"Breno_M_Freitas_Bixa_orellana_Brazil_2007","AN4","Flower visit","Eulaema nigrita","species","other_wild_bees",4,600,NA,NA,"30 plant per site,	150 m, 4 sampling rounds (censuses) in one season",NA
"Breno_M_Freitas_Bixa_orellana_Brazil_2007","AN5","Flower visit","Eulaema nigrita","species","other_wild_bees",4,600,NA,NA,"30 plant per site,	150 m, 4 sampling rounds (censuses) in one season",NA
"Breno_M_Freitas_Bixa_orellana_Brazil_2007","AN5","Flower visit","Eulaema nigrita","species","other_wild_bees",5,600,NA,NA,"30 plant per site,	150 m, 4 sampling rounds (censuses) in one season",NA
"Breno_M_Freitas_Bixa_orellana_Brazil_2007","AN5","Flower visit","Eulaema nigrita","species","other_wild_bees",3,600,NA,NA,"30 plant per site,	150 m, 4 sampling rounds (censuses) in one season",NA
"Breno_M_Freitas_Bixa_orellana_Brazil_2007","AN5","Flower visit","Eulaema nigrita","species","other_wild_bees",1,600,NA,NA,"30 plant per site,	150 m, 4 sampling rounds (censuses) in one season",NA
"Breno_M_Freitas_Bixa_orellana_Brazil_2007","AN6","Flower visit","Eulaema nigrita","species","other_wild_bees",3,600,NA,NA,"30 plant per site,	150 m, 4 sampling rounds (censuses) in one season",NA
"Breno_M_Freitas_Bixa_orellana_Brazil_2007","AN6","Flower visit","Eulaema nigrita","species","other_wild_bees",6,600,NA,NA,"30 plant per site,	150 m, 4 sampling rounds (censuses) in one season",NA
"Breno_M_Freitas_Bixa_orellana_Brazil_2007","AN6","Flower visit","Eulaema nigrita","species","other_wild_bees",4,600,NA,NA,"30 plant per site,	150 m, 4 sampling rounds (censuses) in one season",NA
"Breno_M_Freitas_Bixa_orellana_Brazil_2007","AN6","Flower visit","Eulaema nigrita","species","other_wild_bees",5,600,NA,NA,"30 plant per site,	150 m, 4 sampling rounds (censuses) in one season",NA
"Breno_M_Freitas_Bixa_orellana_Brazil_2007","AN1","Flower visit","Xylocopa frontalis","species","other_wild_bees",2,600,NA,NA,"30 plant per site,	150 m, 4 sampling rounds (censuses) in one season",NA
"Breno_M_Freitas_Bixa_orellana_Brazil_2007","AN1","Flower visit","Xylocopa frontalis","species","other_wild_bees",1,600,NA,NA,"30 plant per site,	150 m, 4 sampling rounds (censuses) in one season",NA
"Breno_M_Freitas_Bixa_orellana_Brazil_2007","AN1","Flower visit","Xylocopa frontalis","species","other_wild_bees",2,600,NA,NA,"30 plant per site,	150 m, 4 sampling rounds (censuses) in one season",NA
"Breno_M_Freitas_Bixa_orellana_Brazil_2007","AN1","Flower visit","Xylocopa frontalis","species","other_wild_bees",4,600,NA,NA,"30 plant per site,	150 m, 4 sampling rounds (censuses) in one season",NA
"Breno_M_Freitas_Bixa_orellana_Brazil_2007","AN2","Flower visit","Xylocopa frontalis","species","other_wild_bees",2,600,NA,NA,"30 plant per site,	150 m, 4 sampling rounds (censuses) in one season",NA
"Breno_M_Freitas_Bixa_orellana_Brazil_2007","AN2","Flower visit","Xylocopa frontalis","species","other_wild_bees",3,600,NA,NA,"30 plant per site,	150 m, 4 sampling rounds (censuses) in one season",NA
"Breno_M_Freitas_Bixa_orellana_Brazil_2007","AN2","Flower visit","Xylocopa frontalis","species","other_wild_bees",2,600,NA,NA,"30 plant per site,	150 m, 4 sampling rounds (censuses) in one season",NA
"Breno_M_Freitas_Bixa_orellana_Brazil_2007","AN2","Flower visit","Xylocopa frontalis","species","other_wild_bees",3,600,NA,NA,"30 plant per site,	150 m, 4 sampling rounds (censuses) in one season",NA
"Breno_M_Freitas_Bixa_orellana_Brazil_2007","AN3","Flower visit","Xylocopa frontalis","species","other_wild_bees",2,600,NA,NA,"30 plant per site,	150 m, 4 sampling rounds (censuses) in one season",NA
"Breno_M_Freitas_Bixa_orellana_Brazil_2007","AN3","Flower visit","Xylocopa frontalis","species","other_wild_bees",3,600,NA,NA,"30 plant per site,	150 m, 4 sampling rounds (censuses) in one season",NA
"Breno_M_Freitas_Bixa_orellana_Brazil_2007","AN3","Flower visit","Xylocopa frontalis","species","other_wild_bees",2,600,NA,NA,"30 plant per site,	150 m, 4 sampling rounds (censuses) in one season",NA
"Breno_M_Freitas_Bixa_orellana_Brazil_2007","AN3","Flower visit","Xylocopa frontalis","species","other_wild_bees",2,600,NA,NA,"30 plant per site,	150 m, 4 sampling rounds (censuses) in one season",NA
"Breno_M_Freitas_Bixa_orellana_Brazil_2007","AN4","Flower visit","Xylocopa frontalis","species","other_wild_bees",5,600,NA,NA,"30 plant per site,	150 m, 4 sampling rounds (censuses) in one season",NA
"Breno_M_Freitas_Bixa_orellana_Brazil_2007","AN4","Flower visit","Xylocopa frontalis","species","other_wild_bees",3,600,NA,NA,"30 plant per site,	150 m, 4 sampling rounds (censuses) in one season",NA
"Breno_M_Freitas_Bixa_orellana_Brazil_2007","AN4","Flower visit","Xylocopa frontalis","species","other_wild_bees",5,600,NA,NA,"30 plant per site,	150 m, 4 sampling rounds (censuses) in one season",NA
"Breno_M_Freitas_Bixa_orellana_Brazil_2007","AN4","Flower visit","Xylocopa frontalis","species","other_wild_bees",3,600,NA,NA,"30 plant per site,	150 m, 4 sampling rounds (censuses) in one season",NA
"Breno_M_Freitas_Bixa_orellana_Brazil_2007","AN5","Flower visit","Xylocopa frontalis","species","other_wild_bees",4,600,NA,NA,"30 plant per site,	150 m, 4 sampling rounds (censuses) in one season",NA
"Breno_M_Freitas_Bixa_orellana_Brazil_2007","AN5","Flower visit","Xylocopa frontalis","species","other_wild_bees",3,600,NA,NA,"30 plant per site,	150 m, 4 sampling rounds (censuses) in one season",NA
"Breno_M_Freitas_Bixa_orellana_Brazil_2007","AN5","Flower visit","Xylocopa frontalis","species","other_wild_bees",3,600,NA,NA,"30 plant per site,	150 m, 4 sampling rounds (censuses) in one season",NA
"Breno_M_Freitas_Bixa_orellana_Brazil_2007","AN5","Flower visit","Xylocopa frontalis","species","other_wild_bees",2,600,NA,NA,"30 plant per site,	150 m, 4 sampling rounds (censuses) in one season",NA
"Breno_M_Freitas_Bixa_orellana_Brazil_2007","AN6","Flower visit","Xylocopa frontalis","species","other_wild_bees",4,600,NA,NA,"30 plant per site,	150 m, 4 sampling rounds (censuses) in one season",NA
"Breno_M_Freitas_Bixa_orellana_Brazil_2007","AN6","Flower visit","Xylocopa frontalis","species","other_wild_bees",2,600,NA,NA,"30 plant per site,	150 m, 4 sampling rounds (censuses) in one season",NA
"Breno_M_Freitas_Bixa_orellana_Brazil_2007","AN6","Flower visit","Xylocopa frontalis","species","other_wild_bees",4,600,NA,NA,"30 plant per site,	150 m, 4 sampling rounds (censuses) in one season",NA
"Breno_M_Freitas_Bixa_orellana_Brazil_2007","AN6","Flower visit","Xylocopa frontalis","species","other_wild_bees",5,600,NA,NA,"30 plant per site,	150 m, 4 sampling rounds (censuses) in one season",NA
"Breno_M_Freitas_Bixa_orellana_Brazil_2007","AN1","Flower visit","Xylocopa griscescens","species","other_wild_bees",1,600,NA,NA,"30 plant per site,	150 m, 4 sampling rounds (censuses) in one season",NA
"Breno_M_Freitas_Bixa_orellana_Brazil_2007","AN1","Flower visit","Xylocopa griscescens","species","other_wild_bees",2,600,NA,NA,"30 plant per site,	150 m, 4 sampling rounds (censuses) in one season",NA
"Breno_M_Freitas_Bixa_orellana_Brazil_2007","AN1","Flower visit","Xylocopa griscescens","species","other_wild_bees",2,600,NA,NA,"30 plant per site,	150 m, 4 sampling rounds (censuses) in one season",NA
"Breno_M_Freitas_Bixa_orellana_Brazil_2007","AN1","Flower visit","Xylocopa griscescens","species","other_wild_bees",2,600,NA,NA,"30 plant per site,	150 m, 4 sampling rounds (censuses) in one season",NA
"Breno_M_Freitas_Bixa_orellana_Brazil_2007","AN2","Flower visit","Xylocopa griscescens","species","other_wild_bees",3,600,NA,NA,"30 plant per site,	150 m, 4 sampling rounds (censuses) in one season",NA
"Breno_M_Freitas_Bixa_orellana_Brazil_2007","AN2","Flower visit","Xylocopa griscescens","species","other_wild_bees",1,600,NA,NA,"30 plant per site,	150 m, 4 sampling rounds (censuses) in one season",NA
"Breno_M_Freitas_Bixa_orellana_Brazil_2007","AN2","Flower visit","Xylocopa griscescens","species","other_wild_bees",2,600,NA,NA,"30 plant per site,	150 m, 4 sampling rounds (censuses) in one season",NA
"Breno_M_Freitas_Bixa_orellana_Brazil_2007","AN2","Flower visit","Xylocopa griscescens","species","other_wild_bees",2,600,NA,NA,"30 plant per site,	150 m, 4 sampling rounds (censuses) in one season",NA
"Breno_M_Freitas_Bixa_orellana_Brazil_2007","AN3","Flower visit","Xylocopa griscescens","species","other_wild_bees",1,600,NA,NA,"30 plant per site,	150 m, 4 sampling rounds (censuses) in one season",NA
"Breno_M_Freitas_Bixa_orellana_Brazil_2007","AN3","Flower visit","Xylocopa griscescens","species","other_wild_bees",3,600,NA,NA,"30 plant per site,	150 m, 4 sampling rounds (censuses) in one season",NA
"Breno_M_Freitas_Bixa_orellana_Brazil_2007","AN3","Flower visit","Xylocopa griscescens","species","other_wild_bees",1,600,NA,NA,"30 plant per site,	150 m, 4 sampling rounds (censuses) in one season",NA
"Breno_M_Freitas_Bixa_orellana_Brazil_2007","AN3","Flower visit","Xylocopa griscescens","species","other_wild_bees",1,600,NA,NA,"30 plant per site,	150 m, 4 sampling rounds (censuses) in one season",NA
"Breno_M_Freitas_Bixa_orellana_Brazil_2007","AN4","Flower visit","Xylocopa griscescens","species","other_wild_bees",2,600,NA,NA,"30 plant per site,	150 m, 4 sampling rounds (censuses) in one season",NA
"Breno_M_Freitas_Bixa_orellana_Brazil_2007","AN4","Flower visit","Xylocopa griscescens","species","other_wild_bees",2,600,NA,NA,"30 plant per site,	150 m, 4 sampling rounds (censuses) in one season",NA
"Breno_M_Freitas_Bixa_orellana_Brazil_2007","AN5","Flower visit","Xylocopa griscescens","species","other_wild_bees",2,600,NA,NA,"30 plant per site,	150 m, 4 sampling rounds (censuses) in one season",NA
"Breno_M_Freitas_Bixa_orellana_Brazil_2007","AN5","Flower visit","Xylocopa griscescens","species","other_wild_bees",1,600,NA,NA,"30 plant per site,	150 m, 4 sampling rounds (censuses) in one season",NA
"Breno_M_Freitas_Bixa_orellana_Brazil_2007","AN5","Flower visit","Xylocopa griscescens","species","other_wild_bees",3,600,NA,NA,"30 plant per site,	150 m, 4 sampling rounds (censuses) in one season",NA
"Breno_M_Freitas_Bixa_orellana_Brazil_2007","AN5","Flower visit","Xylocopa griscescens","species","other_wild_bees",2,600,NA,NA,"30 plant per site,	150 m, 4 sampling rounds (censuses) in one season",NA
"Breno_M_Freitas_Bixa_orellana_Brazil_2007","AN6","Flower visit","Xylocopa griscescens","species","other_wild_bees",2,600,NA,NA,"30 plant per site,	150 m, 4 sampling rounds (censuses) in one season",NA
"Breno_M_Freitas_Bixa_orellana_Brazil_2007","AN6","Flower visit","Xylocopa griscescens","species","other_wild_bees",2,600,NA,NA,"30 plant per site,	150 m, 4 sampling rounds (censuses) in one season",NA
"Breno_M_Freitas_Bixa_orellana_Brazil_2007","AN6","Flower visit","Xylocopa griscescens","species","other_wild_bees",3,600,NA,NA,"30 plant per site,	150 m, 4 sampling rounds (censuses) in one season",NA
"Breno_M_Freitas_Bixa_orellana_Brazil_2007","AN6","Flower visit","Xylocopa griscescens","species","other_wild_bees",2,600,NA,NA,"30 plant per site,	150 m, 4 sampling rounds (censuses) in one season",NA
"Breno_M_Freitas_Bixa_orellana_Brazil_2007","AN1","Flower visit","Xylocopa muscaria","species","other_wild_bees",1,600,NA,NA,"30 plant per site,	150 m, 4 sampling rounds (censuses) in one season",NA
"Breno_M_Freitas_Bixa_orellana_Brazil_2007","AN1","Flower visit","Xylocopa muscaria","species","other_wild_bees",1,600,NA,NA,"30 plant per site,	150 m, 4 sampling rounds (censuses) in one season",NA
"Breno_M_Freitas_Bixa_orellana_Brazil_2007","AN1","Flower visit","Xylocopa muscaria","species","other_wild_bees",2,600,NA,NA,"30 plant per site,	150 m, 4 sampling rounds (censuses) in one season",NA
"Breno_M_Freitas_Bixa_orellana_Brazil_2007","AN2","Flower visit","Xylocopa muscaria","species","other_wild_bees",1,600,NA,NA,"30 plant per site,	150 m, 4 sampling rounds (censuses) in one season",NA
"Breno_M_Freitas_Bixa_orellana_Brazil_2007","AN2","Flower visit","Xylocopa muscaria","species","other_wild_bees",1,600,NA,NA,"30 plant per site,	150 m, 4 sampling rounds (censuses) in one season",NA
"Breno_M_Freitas_Bixa_orellana_Brazil_2007","AN2","Flower visit","Xylocopa muscaria","species","other_wild_bees",2,600,NA,NA,"30 plant per site,	150 m, 4 sampling rounds (censuses) in one season",NA
"Breno_M_Freitas_Bixa_orellana_Brazil_2007","AN3","Flower visit","Xylocopa muscaria","species","other_wild_bees",2,600,NA,NA,"30 plant per site,	150 m, 4 sampling rounds (censuses) in one season",NA
"Breno_M_Freitas_Bixa_orellana_Brazil_2007","AN3","Flower visit","Xylocopa muscaria","species","other_wild_bees",1,600,NA,NA,"30 plant per site,	150 m, 4 sampling rounds (censuses) in one season",NA
"Breno_M_Freitas_Bixa_orellana_Brazil_2007","AN5","Flower visit","Xylocopa muscaria","species","other_wild_bees",1,600,NA,NA,"30 plant per site,	150 m, 4 sampling rounds (censuses) in one season",NA
"Breno_M_Freitas_Bixa_orellana_Brazil_2007","AN5","Flower visit","Xylocopa muscaria","species","other_wild_bees",2,600,NA,NA,"30 plant per site,	150 m, 4 sampling rounds (censuses) in one season",NA
"Breno_M_Freitas_Bixa_orellana_Brazil_2007","AN5","Flower visit","Xylocopa muscaria","species","other_wild_bees",1,600,NA,NA,"30 plant per site,	150 m, 4 sampling rounds (censuses) in one season",NA
"Breno_M_Freitas_Bixa_orellana_Brazil_2007","AN5","Flower visit","Xylocopa muscaria","species","other_wild_bees",1,600,NA,NA,"30 plant per site,	150 m, 4 sampling rounds (censuses) in one season",NA
"Breno_M_Freitas_Bixa_orellana_Brazil_2007","AN6","Flower visit","Xylocopa muscaria","species","other_wild_bees",2,600,NA,NA,"30 plant per site,	150 m, 4 sampling rounds (censuses) in one season",NA
"Breno_M_Freitas_Bixa_orellana_Brazil_2007","AN6","Flower visit","Xylocopa muscaria","species","other_wild_bees",2,600,NA,NA,"30 plant per site,	150 m, 4 sampling rounds (censuses) in one season",NA
"Breno_M_Freitas_Bixa_orellana_Brazil_2007","AN6","Flower visit","Xylocopa muscaria","species","other_wild_bees",1,600,NA,NA,"30 plant per site,	150 m, 4 sampling rounds (censuses) in one season",NA
"Breno_M_Freitas_Bixa_orellana_Brazil_2007","AN6","Flower visit","Xylocopa muscaria","species","other_wild_bees",3,600,NA,NA,"30 plant per site,	150 m, 4 sampling rounds (censuses) in one season",NA
"Breno_M_Freitas_Bixa_orellana_Brazil_2007","AN1","Flower visit","Euglossa sp.","gener","other_wild_bees",1,600,NA,NA,"30 plant per site,	150 m, 4 sampling rounds (censuses) in one season",NA
"Breno_M_Freitas_Bixa_orellana_Brazil_2007","AN1","Flower visit","Euglossa sp.","gener","other_wild_bees",1,600,NA,NA,"30 plant per site,	150 m, 4 sampling rounds (censuses) in one season",NA
"Breno_M_Freitas_Bixa_orellana_Brazil_2007","AN1","Flower visit","Euglossa sp.","gener","other_wild_bees",3,600,NA,NA,"30 plant per site,	150 m, 4 sampling rounds (censuses) in one season",NA
"Breno_M_Freitas_Bixa_orellana_Brazil_2007","AN1","Flower visit","Euglossa sp.","gener","other_wild_bees",4,600,NA,NA,"30 plant per site,	150 m, 4 sampling rounds (censuses) in one season",NA
"Breno_M_Freitas_Bixa_orellana_Brazil_2007","AN2","Flower visit","Euglossa sp.","gener","other_wild_bees",2,600,NA,NA,"30 plant per site,	150 m, 4 sampling rounds (censuses) in one season",NA
"Breno_M_Freitas_Bixa_orellana_Brazil_2007","AN2","Flower visit","Euglossa sp.","gener","other_wild_bees",2,600,NA,NA,"30 plant per site,	150 m, 4 sampling rounds (censuses) in one season",NA
"Breno_M_Freitas_Bixa_orellana_Brazil_2007","AN2","Flower visit","Euglossa sp.","gener","other_wild_bees",3,600,NA,NA,"30 plant per site,	150 m, 4 sampling rounds (censuses) in one season",NA
"Breno_M_Freitas_Bixa_orellana_Brazil_2007","AN2","Flower visit","Euglossa sp.","gener","other_wild_bees",2,600,NA,NA,"30 plant per site,	150 m, 4 sampling rounds (censuses) in one season",NA
"Breno_M_Freitas_Bixa_orellana_Brazil_2007","AN3","Flower visit","Euglossa sp.","gener","other_wild_bees",3,600,NA,NA,"30 plant per site,	150 m, 4 sampling rounds (censuses) in one season",NA
"Breno_M_Freitas_Bixa_orellana_Brazil_2007","AN3","Flower visit","Euglossa sp.","gener","other_wild_bees",3,600,NA,NA,"30 plant per site,	150 m, 4 sampling rounds (censuses) in one season",NA
"Breno_M_Freitas_Bixa_orellana_Brazil_2007","AN3","Flower visit","Euglossa sp.","gener","other_wild_bees",2,600,NA,NA,"30 plant per site,	150 m, 4 sampling rounds (censuses) in one season",NA
"Breno_M_Freitas_Bixa_orellana_Brazil_2007","AN3","Flower visit","Euglossa sp.","gener","other_wild_bees",4,600,NA,NA,"30 plant per site,	150 m, 4 sampling rounds (censuses) in one season",NA
"Breno_M_Freitas_Bixa_orellana_Brazil_2007","AN5","Flower visit","Euglossa sp.","gener","other_wild_bees",3,600,NA,NA,"30 plant per site,	150 m, 4 sampling rounds (censuses) in one season",NA
"Breno_M_Freitas_Bixa_orellana_Brazil_2007","AN5","Flower visit","Euglossa sp.","gener","other_wild_bees",3,600,NA,NA,"30 plant per site,	150 m, 4 sampling rounds (censuses) in one season",NA
"Breno_M_Freitas_Bixa_orellana_Brazil_2007","AN5","Flower visit","Euglossa sp.","gener","other_wild_bees",4,600,NA,NA,"30 plant per site,	150 m, 4 sampling rounds (censuses) in one season",NA
"Breno_M_Freitas_Bixa_orellana_Brazil_2007","AN5","Flower visit","Euglossa sp.","gener","other_wild_bees",5,600,NA,NA,"30 plant per site,	150 m, 4 sampling rounds (censuses) in one season",NA
"Breno_M_Freitas_Bixa_orellana_Brazil_2007","AN6","Flower visit","Euglossa sp.","gener","other_wild_bees",5,600,NA,NA,"30 plant per site,	150 m, 4 sampling rounds (censuses) in one season",NA
"Breno_M_Freitas_Bixa_orellana_Brazil_2007","AN6","Flower visit","Euglossa sp.","gener","other_wild_bees",3,600,NA,NA,"30 plant per site,	150 m, 4 sampling rounds (censuses) in one season",NA
"Breno_M_Freitas_Bixa_orellana_Brazil_2007","AN6","Flower visit","Euglossa sp.","gener","other_wild_bees",3,600,NA,NA,"30 plant per site,	150 m, 4 sampling rounds (censuses) in one season",NA
"Breno_M_Freitas_Bixa_orellana_Brazil_2007","AN6","Flower visit","Euglossa sp.","gener","other_wild_bees",6,600,NA,NA,"30 plant per site,	150 m, 4 sampling rounds (censuses) in one season",NA
"Breno_M_Freitas_Bixa_orellana_Brazil_2007","AN1","Flower visit","Melipona subnitida","species","other_wild_bees",3,600,NA,NA,"30 plant per site,	150 m, 4 sampling rounds (censuses) in one season",NA
"Breno_M_Freitas_Bixa_orellana_Brazil_2007","AN1","Flower visit","Melipona subnitida","species","other_wild_bees",4,600,NA,NA,"30 plant per site,	150 m, 4 sampling rounds (censuses) in one season",NA
"Breno_M_Freitas_Bixa_orellana_Brazil_2007","AN2","Flower visit","Melipona subnitida","species","other_wild_bees",5,600,NA,NA,"30 plant per site,	150 m, 4 sampling rounds (censuses) in one season",NA
"Breno_M_Freitas_Bixa_orellana_Brazil_2007","AN2","Flower visit","Melipona subnitida","species","other_wild_bees",5,600,NA,NA,"30 plant per site,	150 m, 4 sampling rounds (censuses) in one season",NA
"Breno_M_Freitas_Bixa_orellana_Brazil_2007","AN5","Flower visit","Melipona subnitida","species","other_wild_bees",6,600,NA,NA,"30 plant per site,	150 m, 4 sampling rounds (censuses) in one season",NA
"Breno_M_Freitas_Bixa_orellana_Brazil_2007","AN5","Flower visit","Melipona subnitida","species","other_wild_bees",8,600,NA,NA,"30 plant per site,	150 m, 4 sampling rounds (censuses) in one season",NA
"Breno_M_Freitas_Bixa_orellana_Brazil_2007","AN5","Flower visit","Melipona subnitida","species","other_wild_bees",9,600,NA,NA,"30 plant per site,	150 m, 4 sampling rounds (censuses) in one season",NA
"Breno_M_Freitas_Bixa_orellana_Brazil_2007","AN5","Flower visit","Melipona subnitida","species","other_wild_bees",5,600,NA,NA,"30 plant per site,	150 m, 4 sampling rounds (censuses) in one season",NA
"Breno_M_Freitas_Bixa_orellana_Brazil_2007","AN6","Flower visit","Melipona subnitida","species","other_wild_bees",10,600,NA,NA,"30 plant per site,	150 m, 4 sampling rounds (censuses) in one season",NA
"Breno_M_Freitas_Bixa_orellana_Brazil_2007","AN6","Flower visit","Melipona subnitida","species","other_wild_bees",8,600,NA,NA,"30 plant per site,	150 m, 4 sampling rounds (censuses) in one season",NA
"Breno_M_Freitas_Bixa_orellana_Brazil_2007","AN6","Flower visit","Melipona subnitida","species","other_wild_bees",9,600,NA,NA,"30 plant per site,	150 m, 4 sampling rounds (censuses) in one season",NA
"Breno_M_Freitas_Bixa_orellana_Brazil_2007","AN1","Flower visit","Partamona sp.","gener","other_wild_bees",7,600,NA,NA,"30 plant per site,	150 m, 4 sampling rounds (censuses) in one season",NA
"Breno_M_Freitas_Bixa_orellana_Brazil_2007","AN2","Flower visit","Partamona sp.","gener","other_wild_bees",6,600,NA,NA,"30 plant per site,	150 m, 4 sampling rounds (censuses) in one season",NA
"Breno_M_Freitas_Bixa_orellana_Brazil_2007","AN5","Flower visit","Partamona sp.","gener","other_wild_bees",14,600,NA,NA,"30 plant per site,	150 m, 4 sampling rounds (censuses) in one season",NA
"Breno_M_Freitas_Bixa_orellana_Brazil_2007","AN6","Flower visit","Partamona sp.","gener","other_wild_bees",5,600,NA,NA,"30 plant per site,	150 m, 4 sampling rounds (censuses) in one season",NA
"Breno_M_Freitas_Bixa_orellana_Brazil_2007","AN1","Flower visit","Trigona spinipes","species","other_wild_bees",9,600,NA,NA,"30 plant per site,	150 m, 4 sampling rounds (censuses) in one season",NA
"Breno_M_Freitas_Bixa_orellana_Brazil_2007","AN1","Flower visit","Trigona spinipes","species","other_wild_bees",11,600,NA,NA,"30 plant per site,	150 m, 4 sampling rounds (censuses) in one season",NA
"Breno_M_Freitas_Bixa_orellana_Brazil_2007","AN1","Flower visit","Trigona spinipes","species","other_wild_bees",10,600,NA,NA,"30 plant per site,	150 m, 4 sampling rounds (censuses) in one season",NA
"Breno_M_Freitas_Bixa_orellana_Brazil_2007","AN2","Flower visit","Trigona spinipes","species","other_wild_bees",13,600,NA,NA,"30 plant per site,	150 m, 4 sampling rounds (censuses) in one season",NA
"Breno_M_Freitas_Bixa_orellana_Brazil_2007","AN2","Flower visit","Trigona spinipes","species","other_wild_bees",8,600,NA,NA,"30 plant per site,	150 m, 4 sampling rounds (censuses) in one season",NA
"Breno_M_Freitas_Bixa_orellana_Brazil_2007","AN2","Flower visit","Trigona spinipes","species","other_wild_bees",16,600,NA,NA,"30 plant per site,	150 m, 4 sampling rounds (censuses) in one season",NA
"Breno_M_Freitas_Bixa_orellana_Brazil_2007","AN3","Flower visit","Trigona spinipes","species","other_wild_bees",14,600,NA,NA,"30 plant per site,	150 m, 4 sampling rounds (censuses) in one season",NA
"Breno_M_Freitas_Bixa_orellana_Brazil_2007","AN4","Flower visit","Trigona spinipes","species","other_wild_bees",11,600,NA,NA,"30 plant per site,	150 m, 4 sampling rounds (censuses) in one season",NA
"Breno_M_Freitas_Bixa_orellana_Brazil_2007","AN5","Flower visit","Trigona spinipes","species","other_wild_bees",16,600,NA,NA,"30 plant per site,	150 m, 4 sampling rounds (censuses) in one season",NA
"Breno_M_Freitas_Bixa_orellana_Brazil_2007","AN5","Flower visit","Trigona spinipes","species","other_wild_bees",18,600,NA,NA,"30 plant per site,	150 m, 4 sampling rounds (censuses) in one season",NA
"Breno_M_Freitas_Bixa_orellana_Brazil_2007","AN5","Flower visit","Trigona spinipes","species","other_wild_bees",9,600,NA,NA,"30 plant per site,	150 m, 4 sampling rounds (censuses) in one season",NA
"Breno_M_Freitas_Bixa_orellana_Brazil_2007","AN6","Flower visit","Trigona spinipes","species","other_wild_bees",16,600,NA,NA,"30 plant per site,	150 m, 4 sampling rounds (censuses) in one season",NA
"Breno_M_Freitas_Bixa_orellana_Brazil_2007","AN1","Flower visit","Augochloropsis sp.","gener","other_wild_bees",4,600,NA,NA,"30 plant per site,	150 m, 4 sampling rounds (censuses) in one season",NA
"Breno_M_Freitas_Bixa_orellana_Brazil_2007","AN1","Flower visit","Augochloropsis sp.","gener","other_wild_bees",5,600,NA,NA,"30 plant per site,	150 m, 4 sampling rounds (censuses) in one season",NA
"Breno_M_Freitas_Bixa_orellana_Brazil_2007","AN1","Flower visit","Augochloropsis sp.","gener","other_wild_bees",4,600,NA,NA,"30 plant per site,	150 m, 4 sampling rounds (censuses) in one season",NA
"Breno_M_Freitas_Bixa_orellana_Brazil_2007","AN1","Flower visit","Augochloropsis sp.","gener","other_wild_bees",3,600,NA,NA,"30 plant per site,	150 m, 4 sampling rounds (censuses) in one season",NA
"Breno_M_Freitas_Bixa_orellana_Brazil_2007","AN2","Flower visit","Augochloropsis sp.","gener","other_wild_bees",2,600,NA,NA,"30 plant per site,	150 m, 4 sampling rounds (censuses) in one season",NA
"Breno_M_Freitas_Bixa_orellana_Brazil_2007","AN2","Flower visit","Augochloropsis sp.","gener","other_wild_bees",3,600,NA,NA,"30 plant per site,	150 m, 4 sampling rounds (censuses) in one season",NA
"Breno_M_Freitas_Bixa_orellana_Brazil_2007","AN2","Flower visit","Augochloropsis sp.","gener","other_wild_bees",6,600,NA,NA,"30 plant per site,	150 m, 4 sampling rounds (censuses) in one season",NA
"Breno_M_Freitas_Bixa_orellana_Brazil_2007","AN2","Flower visit","Augochloropsis sp.","gener","other_wild_bees",4,600,NA,NA,"30 plant per site,	150 m, 4 sampling rounds (censuses) in one season",NA
"Breno_M_Freitas_Bixa_orellana_Brazil_2007","AN3","Flower visit","Augochloropsis sp.","gener","other_wild_bees",5,600,NA,NA,"30 plant per site,	150 m, 4 sampling rounds (censuses) in one season",NA
"Breno_M_Freitas_Bixa_orellana_Brazil_2007","AN3","Flower visit","Augochloropsis sp.","gener","other_wild_bees",5,600,NA,NA,"30 plant per site,	150 m, 4 sampling rounds (censuses) in one season",NA
"Breno_M_Freitas_Bixa_orellana_Brazil_2007","AN3","Flower visit","Augochloropsis sp.","gener","other_wild_bees",3,600,NA,NA,"30 plant per site,	150 m, 4 sampling rounds (censuses) in one season",NA
"Breno_M_Freitas_Bixa_orellana_Brazil_2007","AN4","Flower visit","Augochloropsis sp.","gener","other_wild_bees",7,600,NA,NA,"30 plant per site,	150 m, 4 sampling rounds (censuses) in one season",NA
"Breno_M_Freitas_Bixa_orellana_Brazil_2007","AN4","Flower visit","Augochloropsis sp.","gener","other_wild_bees",5,600,NA,NA,"30 plant per site,	150 m, 4 sampling rounds (censuses) in one season",NA
"Breno_M_Freitas_Bixa_orellana_Brazil_2007","AN4","Flower visit","Augochloropsis sp.","gener","other_wild_bees",6,600,NA,NA,"30 plant per site,	150 m, 4 sampling rounds (censuses) in one season",NA
"Breno_M_Freitas_Bixa_orellana_Brazil_2007","AN4","Flower visit","Augochloropsis sp.","gener","other_wild_bees",6,600,NA,NA,"30 plant per site,	150 m, 4 sampling rounds (censuses) in one season",NA
"Breno_M_Freitas_Bixa_orellana_Brazil_2007","AN5","Flower visit","Augochloropsis sp.","gener","other_wild_bees",5,600,NA,NA,"30 plant per site,	150 m, 4 sampling rounds (censuses) in one season",NA
"Breno_M_Freitas_Bixa_orellana_Brazil_2007","AN5","Flower visit","Augochloropsis sp.","gener","other_wild_bees",8,600,NA,NA,"30 plant per site,	150 m, 4 sampling rounds (censuses) in one season",NA
"Breno_M_Freitas_Bixa_orellana_Brazil_2007","AN5","Flower visit","Augochloropsis sp.","gener","other_wild_bees",5,600,NA,NA,"30 plant per site,	150 m, 4 sampling rounds (censuses) in one season",NA
"Breno_M_Freitas_Bixa_orellana_Brazil_2007","AN5","Flower visit","Augochloropsis sp.","gener","other_wild_bees",4,600,NA,NA,"30 plant per site,	150 m, 4 sampling rounds (censuses) in one season",NA
"Breno_M_Freitas_Bixa_orellana_Brazil_2007","AN6","Flower visit","Augochloropsis sp.","gener","other_wild_bees",6,600,NA,NA,"30 plant per site,	150 m, 4 sampling rounds (censuses) in one season",NA
"Breno_M_Freitas_Bixa_orellana_Brazil_2007","AN6","Flower visit","Augochloropsis sp.","gener","other_wild_bees",6,600,NA,NA,"30 plant per site,	150 m, 4 sampling rounds (censuses) in one season",NA
"Breno_M_Freitas_Bixa_orellana_Brazil_2007","AN6","Flower visit","Augochloropsis sp.","gener","other_wild_bees",5,600,NA,NA,"30 plant per site,	150 m, 4 sampling rounds (censuses) in one season",NA
"Breno_M_Freitas_Bixa_orellana_Brazil_2007","AN6","Flower visit","Augochloropsis sp.","gener","other_wild_bees",3,600,NA,NA,"30 plant per site,	150 m, 4 sampling rounds (censuses) in one season",NA
"Breno_M_Freitas_Bixa_orellana_Brazil_2007","AN1","Flower visit","Megalopta sp.","gener","other_wild_bees",2,600,NA,NA,"30 plant per site,	150 m, 4 sampling rounds (censuses) in one season",NA
"Breno_M_Freitas_Bixa_orellana_Brazil_2007","AN1","Flower visit","Megalopta sp.","gener","other_wild_bees",1,600,NA,NA,"30 plant per site,	150 m, 4 sampling rounds (censuses) in one season",NA
"Breno_M_Freitas_Bixa_orellana_Brazil_2007","AN1","Flower visit","Megalopta sp.","gener","other_wild_bees",1,600,NA,NA,"30 plant per site,	150 m, 4 sampling rounds (censuses) in one season",NA
"Breno_M_Freitas_Bixa_orellana_Brazil_2007","AN1","Flower visit","Megalopta sp.","gener","other_wild_bees",3,600,NA,NA,"30 plant per site,	150 m, 4 sampling rounds (censuses) in one season",NA
"Breno_M_Freitas_Bixa_orellana_Brazil_2007","AN2","Flower visit","Megalopta sp.","gener","other_wild_bees",1,600,NA,NA,"30 plant per site,	150 m, 4 sampling rounds (censuses) in one season",NA
"Breno_M_Freitas_Bixa_orellana_Brazil_2007","AN2","Flower visit","Megalopta sp.","gener","other_wild_bees",2,600,NA,NA,"30 plant per site,	150 m, 4 sampling rounds (censuses) in one season",NA
"Breno_M_Freitas_Bixa_orellana_Brazil_2007","AN2","Flower visit","Megalopta sp.","gener","other_wild_bees",2,600,NA,NA,"30 plant per site,	150 m, 4 sampling rounds (censuses) in one season",NA
"Breno_M_Freitas_Bixa_orellana_Brazil_2007","AN3","Flower visit","Megalopta sp.","gener","other_wild_bees",3,600,NA,NA,"30 plant per site,	150 m, 4 sampling rounds (censuses) in one season",NA
"Breno_M_Freitas_Bixa_orellana_Brazil_2007","AN3","Flower visit","Megalopta sp.","gener","other_wild_bees",2,600,NA,NA,"30 plant per site,	150 m, 4 sampling rounds (censuses) in one season",NA
"Breno_M_Freitas_Bixa_orellana_Brazil_2007","AN3","Flower visit","Megalopta sp.","gener","other_wild_bees",1,600,NA,NA,"30 plant per site,	150 m, 4 sampling rounds (censuses) in one season",NA
"Breno_M_Freitas_Bixa_orellana_Brazil_2007","AN5","Flower visit","Megalopta sp.","gener","other_wild_bees",2,600,NA,NA,"30 plant per site,	150 m, 4 sampling rounds (censuses) in one season",NA
"Breno_M_Freitas_Bixa_orellana_Brazil_2007","AN5","Flower visit","Megalopta sp.","gener","other_wild_bees",4,600,NA,NA,"30 plant per site,	150 m, 4 sampling rounds (censuses) in one season",NA
"Breno_M_Freitas_Bixa_orellana_Brazil_2007","AN5","Flower visit","Megalopta sp.","gener","other_wild_bees",5,600,NA,NA,"30 plant per site,	150 m, 4 sampling rounds (censuses) in one season",NA
"Breno_M_Freitas_Bixa_orellana_Brazil_2007","AN5","Flower visit","Megalopta sp.","gener","other_wild_bees",2,600,NA,NA,"30 plant per site,	150 m, 4 sampling rounds (censuses) in one season",NA
"Breno_M_Freitas_Bixa_orellana_Brazil_2007","AN6","Flower visit","Megalopta sp.","gener","other_wild_bees",2,600,NA,NA,"30 plant per site,	150 m, 4 sampling rounds (censuses) in one season",NA
"Breno_M_Freitas_Bixa_orellana_Brazil_2007","AN6","Flower visit","Megalopta sp.","gener","other_wild_bees",3,600,NA,NA,"30 plant per site,	150 m, 4 sampling rounds (censuses) in one season",NA
"Breno_M_Freitas_Bixa_orellana_Brazil_2007","AN6","Flower visit","Megalopta sp.","gener","other_wild_bees",1,600,NA,NA,"30 plant per site,	150 m, 4 sampling rounds (censuses) in one season",NA
"Breno_M_Freitas_Bixa_orellana_Brazil_2007","AN6","Flower visit","Megalopta sp.","gener","other_wild_bees",1,600,NA,NA,"30 plant per site,	150 m, 4 sampling rounds (censuses) in one season",NA
"Breno_M_Freitas_Bixa_orellana_Brazil_2007","AN1","Flower visit","Exomalopsis analis","species","other_wild_bees",1,600,NA,NA,"30 plant per site,	150 m, 4 sampling rounds (censuses) in one season",NA
"Breno_M_Freitas_Bixa_orellana_Brazil_2007","AN1","Flower visit","Exomalopsis analis","species","other_wild_bees",3,600,NA,NA,"30 plant per site,	150 m, 4 sampling rounds (censuses) in one season",NA
"Breno_M_Freitas_Bixa_orellana_Brazil_2007","AN1","Flower visit","Exomalopsis analis","species","other_wild_bees",2,600,NA,NA,"30 plant per site,	150 m, 4 sampling rounds (censuses) in one season",NA
"Breno_M_Freitas_Bixa_orellana_Brazil_2007","AN1","Flower visit","Exomalopsis analis","species","other_wild_bees",2,600,NA,NA,"30 plant per site,	150 m, 4 sampling rounds (censuses) in one season",NA
"Breno_M_Freitas_Bixa_orellana_Brazil_2007","AN2","Flower visit","Exomalopsis analis","species","other_wild_bees",4,600,NA,NA,"30 plant per site,	150 m, 4 sampling rounds (censuses) in one season",NA
"Breno_M_Freitas_Bixa_orellana_Brazil_2007","AN2","Flower visit","Exomalopsis analis","species","other_wild_bees",3,600,NA,NA,"30 plant per site,	150 m, 4 sampling rounds (censuses) in one season",NA
"Breno_M_Freitas_Bixa_orellana_Brazil_2007","AN2","Flower visit","Exomalopsis analis","species","other_wild_bees",5,600,NA,NA,"30 plant per site,	150 m, 4 sampling rounds (censuses) in one season",NA
"Breno_M_Freitas_Bixa_orellana_Brazil_2007","AN2","Flower visit","Exomalopsis analis","species","other_wild_bees",2,600,NA,NA,"30 plant per site,	150 m, 4 sampling rounds (censuses) in one season",NA
"Breno_M_Freitas_Bixa_orellana_Brazil_2007","AN3","Flower visit","Exomalopsis analis","species","other_wild_bees",3,600,NA,NA,"30 plant per site,	150 m, 4 sampling rounds (censuses) in one season",NA
"Breno_M_Freitas_Bixa_orellana_Brazil_2007","AN3","Flower visit","Exomalopsis analis","species","other_wild_bees",3,600,NA,NA,"30 plant per site,	150 m, 4 sampling rounds (censuses) in one season",NA
"Breno_M_Freitas_Bixa_orellana_Brazil_2007","AN3","Flower visit","Exomalopsis analis","species","other_wild_bees",4,600,NA,NA,"30 plant per site,	150 m, 4 sampling rounds (censuses) in one season",NA
"Breno_M_Freitas_Bixa_orellana_Brazil_2007","AN4","Flower visit","Exomalopsis analis","species","other_wild_bees",4,600,NA,NA,"30 plant per site,	150 m, 4 sampling rounds (censuses) in one season",NA
"Breno_M_Freitas_Bixa_orellana_Brazil_2007","AN4","Flower visit","Exomalopsis analis","species","other_wild_bees",5,600,NA,NA,"30 plant per site,	150 m, 4 sampling rounds (censuses) in one season",NA
"Breno_M_Freitas_Bixa_orellana_Brazil_2007","AN4","Flower visit","Exomalopsis analis","species","other_wild_bees",3,600,NA,NA,"30 plant per site,	150 m, 4 sampling rounds (censuses) in one season",NA
"Breno_M_Freitas_Bixa_orellana_Brazil_2007","AN5","Flower visit","Exomalopsis analis","species","other_wild_bees",4,600,NA,NA,"30 plant per site,	150 m, 4 sampling rounds (censuses) in one season",NA
"Breno_M_Freitas_Bixa_orellana_Brazil_2007","AN5","Flower visit","Exomalopsis analis","species","other_wild_bees",4,600,NA,NA,"30 plant per site,	150 m, 4 sampling rounds (censuses) in one season",NA
"Breno_M_Freitas_Bixa_orellana_Brazil_2007","AN5","Flower visit","Exomalopsis analis","species","other_wild_bees",3,600,NA,NA,"30 plant per site,	150 m, 4 sampling rounds (censuses) in one season",NA
"Breno_M_Freitas_Bixa_orellana_Brazil_2007","AN5","Flower visit","Exomalopsis analis","species","other_wild_bees",3,600,NA,NA,"30 plant per site,	150 m, 4 sampling rounds (censuses) in one season",NA
"Breno_M_Freitas_Bixa_orellana_Brazil_2007","AN6","Flower visit","Exomalopsis analis","species","other_wild_bees",6,600,NA,NA,"30 plant per site,	150 m, 4 sampling rounds (censuses) in one season",NA
"Breno_M_Freitas_Bixa_orellana_Brazil_2007","AN6","Flower visit","Exomalopsis analis","species","other_wild_bees",5,600,NA,NA,"30 plant per site,	150 m, 4 sampling rounds (censuses) in one season",NA
"Breno_M_Freitas_Bixa_orellana_Brazil_2007","AN6","Flower visit","Exomalopsis analis","species","other_wild_bees",6,600,NA,NA,"30 plant per site,	150 m, 4 sampling rounds (censuses) in one season",NA
"Breno_M_Freitas_Bixa_orellana_Brazil_2007","AN6","Flower visit","Exomalopsis analis","species","other_wild_bees",4,600,NA,NA,"30 plant per site,	150 m, 4 sampling rounds (censuses) in one season",NA
"Breno_M_Freitas_Gossypium_hirsutum_Brazil_2011","CO1","pan trap","Melitomella murihirta","species","other_wild_bees",1,900,NA,NA,"6 subplots per site,	150 m, 8 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Gossypium_hirsutum_Brazil_2011","CO1","pan trap","Melitomella murihirta","species","other_wild_bees",2,900,NA,NA,"6 subplots per site,	150 m, 8 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Gossypium_hirsutum_Brazil_2011","CO1","pan trap","Melitomella murihirta","species","other_wild_bees",1,900,NA,NA,"6 subplots per site,	150 m, 8 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Gossypium_hirsutum_Brazil_2011","CO1","pan trap","Melitomella murihirta","species","other_wild_bees",1,900,NA,NA,"6 subplots per site,	150 m, 8 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Gossypium_hirsutum_Brazil_2011","CO1","pan trap","Melitomella murihirta","species","other_wild_bees",1,900,NA,NA,"6 subplots per site,	150 m, 8 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Gossypium_hirsutum_Brazil_2011","CO1","pan trap","Melitomella murihirta","species","other_wild_bees",3,900,NA,NA,"6 subplots per site,	150 m, 8 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Gossypium_hirsutum_Brazil_2011","CO1","pan trap","Melitomella murihirta","species","other_wild_bees",1,900,NA,NA,"6 subplots per site,	150 m, 8 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Gossypium_hirsutum_Brazil_2011","CO1","pan trap","Melitomella murihirta","species","other_wild_bees",1,900,NA,NA,"6 subplots per site,	150 m, 8 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Gossypium_hirsutum_Brazil_2011","CO1","pan trap","Melitomella murihirta","species","other_wild_bees",2,900,NA,NA,"6 subplots per site,	150 m, 8 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Gossypium_hirsutum_Brazil_2011","CO1","pan trap","Melitomella murihirta","species","other_wild_bees",1,900,NA,NA,"6 subplots per site,	150 m, 8 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Gossypium_hirsutum_Brazil_2011","CO1","pan trap","Melitomella murihirta","species","other_wild_bees",1,900,NA,NA,"6 subplots per site,	150 m, 8 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Gossypium_hirsutum_Brazil_2011","CO1","pan trap","Melitomella murihirta","species","other_wild_bees",2,900,NA,NA,"6 subplots per site,	150 m, 8 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Gossypium_hirsutum_Brazil_2011","CO1","pan trap","Melitomella murihirta","species","other_wild_bees",3,900,NA,NA,"6 subplots per site,	150 m, 8 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Gossypium_hirsutum_Brazil_2011","CO1","pan trap","Melitomella murihirta","species","other_wild_bees",1,900,NA,NA,"6 subplots per site,	150 m, 8 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Gossypium_hirsutum_Brazil_2011","CO1","pan trap","Melitomella murihirta","species","other_wild_bees",1,900,NA,NA,"6 subplots per site,	150 m, 8 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Gossypium_hirsutum_Brazil_2011","CO1","pan trap","Melitomella murihirta","species","other_wild_bees",2,900,NA,NA,"6 subplots per site,	150 m, 8 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Gossypium_hirsutum_Brazil_2011","CO1","pan trap","Melitomella murihirta","species","other_wild_bees",2,900,NA,NA,"6 subplots per site,	150 m, 8 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Gossypium_hirsutum_Brazil_2011","CO2","pan trap","Melitomella murihirta","species","other_wild_bees",1,900,NA,NA,"6 subplots per site,	150 m, 8 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Gossypium_hirsutum_Brazil_2011","CO2","pan trap","Melitomella murihirta","species","other_wild_bees",1,900,NA,NA,"6 subplots per site,	150 m, 8 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Gossypium_hirsutum_Brazil_2011","CO2","pan trap","Melitomella murihirta","species","other_wild_bees",1,900,NA,NA,"6 subplots per site,	150 m, 8 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Gossypium_hirsutum_Brazil_2011","CO2","pan trap","Melitomella murihirta","species","other_wild_bees",1,900,NA,NA,"6 subplots per site,	150 m, 8 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Gossypium_hirsutum_Brazil_2011","CO2","pan trap","Melitomella murihirta","species","other_wild_bees",1,900,NA,NA,"6 subplots per site,	150 m, 8 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Gossypium_hirsutum_Brazil_2011","CO2","pan trap","Melitomella murihirta","species","other_wild_bees",2,900,NA,NA,"6 subplots per site,	150 m, 8 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Gossypium_hirsutum_Brazil_2011","CO2","pan trap","Melitomella murihirta","species","other_wild_bees",2,900,NA,NA,"6 subplots per site,	150 m, 8 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Gossypium_hirsutum_Brazil_2011","CO2","pan trap","Melitomella murihirta","species","other_wild_bees",1,900,NA,NA,"6 subplots per site,	150 m, 8 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Gossypium_hirsutum_Brazil_2011","CO2","pan trap","Melitomella murihirta","species","other_wild_bees",1,900,NA,NA,"6 subplots per site,	150 m, 8 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Gossypium_hirsutum_Brazil_2011","CO2","pan trap","Melitomella murihirta","species","other_wild_bees",1,900,NA,NA,"6 subplots per site,	150 m, 8 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Gossypium_hirsutum_Brazil_2011","CO1","pan trap","Ptilothrix plumata","species","other_wild_bees",1,900,NA,NA,"6 subplots per site,	150 m, 8 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Gossypium_hirsutum_Brazil_2011","CO1","pan trap","Ptilothrix plumata","species","other_wild_bees",1,900,NA,NA,"6 subplots per site,	150 m, 8 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Gossypium_hirsutum_Brazil_2011","CO1","pan trap","Ptilothrix plumata","species","other_wild_bees",1,900,NA,NA,"6 subplots per site,	150 m, 8 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Gossypium_hirsutum_Brazil_2011","CO1","pan trap","Ptilothrix plumata","species","other_wild_bees",1,900,NA,NA,"6 subplots per site,	150 m, 8 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Gossypium_hirsutum_Brazil_2011","CO1","pan trap","Ptilothrix plumata","species","other_wild_bees",1,900,NA,NA,"6 subplots per site,	150 m, 8 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Gossypium_hirsutum_Brazil_2011","CO1","pan trap","Ptilothrix plumata","species","other_wild_bees",1,900,NA,NA,"6 subplots per site,	150 m, 8 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Gossypium_hirsutum_Brazil_2011","CO1","pan trap","Ptilothrix plumata","species","other_wild_bees",1,900,NA,NA,"6 subplots per site,	150 m, 8 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Gossypium_hirsutum_Brazil_2011","CO1","pan trap","Ptilothrix plumata","species","other_wild_bees",1,900,NA,NA,"6 subplots per site,	150 m, 8 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Gossypium_hirsutum_Brazil_2011","CO2","pan trap","Ptilothrix plumata","species","other_wild_bees",1,900,NA,NA,"6 subplots per site,	150 m, 8 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Gossypium_hirsutum_Brazil_2011","CO2","pan trap","Ptilothrix plumata","species","other_wild_bees",2,900,NA,NA,"6 subplots per site,	150 m, 8 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Gossypium_hirsutum_Brazil_2011","CO2","pan trap","Ptilothrix plumata","species","other_wild_bees",1,900,NA,NA,"6 subplots per site,	150 m, 8 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Gossypium_hirsutum_Brazil_2011","CO2","pan trap","Ptilothrix plumata","species","other_wild_bees",1,900,NA,NA,"6 subplots per site,	150 m, 8 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Gossypium_hirsutum_Brazil_2011","CO2","pan trap","Ptilothrix plumata","species","other_wild_bees",1,900,NA,NA,"6 subplots per site,	150 m, 8 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Gossypium_hirsutum_Brazil_2011","CO2","pan trap","Ptilothrix plumata","species","other_wild_bees",1,900,NA,NA,"6 subplots per site,	150 m, 8 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Gossypium_hirsutum_Brazil_2011","CO1","pan trap","Melissoptila uncicornis","species","other_wild_bees",1,900,NA,NA,"6 subplots per site,	150 m, 8 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Gossypium_hirsutum_Brazil_2011","CO1","pan trap","Melissoptila uncicornis","species","other_wild_bees",1,900,NA,NA,"6 subplots per site,	150 m, 8 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Gossypium_hirsutum_Brazil_2011","CO1","pan trap","Melissoptila uncicornis","species","other_wild_bees",1,900,NA,NA,"6 subplots per site,	150 m, 8 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Gossypium_hirsutum_Brazil_2011","CO1","pan trap","Melissoptila uncicornis","species","other_wild_bees",1,900,NA,NA,"6 subplots per site,	150 m, 8 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Gossypium_hirsutum_Brazil_2011","CO1","pan trap","Melissoptila uncicornis","species","other_wild_bees",1,900,NA,NA,"6 subplots per site,	150 m, 8 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Gossypium_hirsutum_Brazil_2011","CO1","pan trap","Melissoptila uncicornis","species","other_wild_bees",2,900,NA,NA,"6 subplots per site,	150 m, 8 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Gossypium_hirsutum_Brazil_2011","CO1","pan trap","Melissoptila uncicornis","species","other_wild_bees",2,900,NA,NA,"6 subplots per site,	150 m, 8 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Gossypium_hirsutum_Brazil_2011","CO1","pan trap","Melissoptila uncicornis","species","other_wild_bees",1,900,NA,NA,"6 subplots per site,	150 m, 8 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Gossypium_hirsutum_Brazil_2011","CO2","pan trap","Melissoptila uncicornis","species","other_wild_bees",1,900,NA,NA,"6 subplots per site,	150 m, 8 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Gossypium_hirsutum_Brazil_2011","CO2","pan trap","Melissoptila uncicornis","species","other_wild_bees",2,900,NA,NA,"6 subplots per site,	150 m, 8 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Gossypium_hirsutum_Brazil_2011","CO2","pan trap","Melissoptila uncicornis","species","other_wild_bees",1,900,NA,NA,"6 subplots per site,	150 m, 8 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Gossypium_hirsutum_Brazil_2011","CO2","pan trap","Melissoptila uncicornis","species","other_wild_bees",1,900,NA,NA,"6 subplots per site,	150 m, 8 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Gossypium_hirsutum_Brazil_2011","CO1","pan trap","Exomalopsis analis","species","other_wild_bees",3,900,NA,NA,"6 subplots per site,	150 m, 8 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Gossypium_hirsutum_Brazil_2011","CO1","pan trap","Exomalopsis analis","species","other_wild_bees",1,900,NA,NA,"6 subplots per site,	150 m, 8 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Gossypium_hirsutum_Brazil_2011","CO1","pan trap","Exomalopsis analis","species","other_wild_bees",1,900,NA,NA,"6 subplots per site,	150 m, 8 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Gossypium_hirsutum_Brazil_2011","CO1","pan trap","Exomalopsis analis","species","other_wild_bees",2,900,NA,NA,"6 subplots per site,	150 m, 8 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Gossypium_hirsutum_Brazil_2011","CO1","pan trap","Exomalopsis analis","species","other_wild_bees",1,900,NA,NA,"6 subplots per site,	150 m, 8 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Gossypium_hirsutum_Brazil_2011","CO1","pan trap","Exomalopsis analis","species","other_wild_bees",1,900,NA,NA,"6 subplots per site,	150 m, 8 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Gossypium_hirsutum_Brazil_2011","CO1","pan trap","Exomalopsis analis","species","other_wild_bees",1,900,NA,NA,"6 subplots per site,	150 m, 8 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Gossypium_hirsutum_Brazil_2011","CO1","pan trap","Exomalopsis analis","species","other_wild_bees",2,900,NA,NA,"6 subplots per site,	150 m, 8 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Gossypium_hirsutum_Brazil_2011","CO2","pan trap","Exomalopsis analis","species","other_wild_bees",1,900,NA,NA,"6 subplots per site,	150 m, 8 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Gossypium_hirsutum_Brazil_2011","CO2","pan trap","Exomalopsis analis","species","other_wild_bees",3,900,NA,NA,"6 subplots per site,	150 m, 8 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Gossypium_hirsutum_Brazil_2011","CO2","pan trap","Exomalopsis analis","species","other_wild_bees",1,900,NA,NA,"6 subplots per site,	150 m, 8 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Gossypium_hirsutum_Brazil_2011","CO2","pan trap","Exomalopsis analis","species","other_wild_bees",1,900,NA,NA,"6 subplots per site,	150 m, 8 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Gossypium_hirsutum_Brazil_2011","CO2","pan trap","Exomalopsis analis","species","other_wild_bees",2,900,NA,NA,"6 subplots per site,	150 m, 8 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Gossypium_hirsutum_Brazil_2011","CO2","pan trap","Exomalopsis analis","species","other_wild_bees",1,900,NA,NA,"6 subplots per site,	150 m, 8 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Gossypium_hirsutum_Brazil_2011","CO2","pan trap","Exomalopsis analis","species","other_wild_bees",1,900,NA,NA,"6 subplots per site,	150 m, 8 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Gossypium_hirsutum_Brazil_2011","CO2","pan trap","Exomalopsis analis","species","other_wild_bees",1,900,NA,NA,"6 subplots per site,	150 m, 8 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Gossypium_hirsutum_Brazil_2011","CO2","pan trap","Exomalopsis analis","species","other_wild_bees",1,900,NA,NA,"6 subplots per site,	150 m, 8 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Gossypium_hirsutum_Brazil_2011","CO2","pan trap","Exomalopsis analis","species","other_wild_bees",3,900,NA,NA,"6 subplots per site,	150 m, 8 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Gossypium_hirsutum_Brazil_2011","CO2","pan trap","Exomalopsis analis","species","other_wild_bees",2,900,NA,NA,"6 subplots per site,	150 m, 8 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Gossypium_hirsutum_Brazil_2011","CO2","pan trap","Exomalopsis analis","species","other_wild_bees",1,900,NA,NA,"6 subplots per site,	150 m, 8 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Gossypium_hirsutum_Brazil_2011","CO2","pan trap","Exomalopsis analis","species","other_wild_bees",1,900,NA,NA,"6 subplots per site,	150 m, 8 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Gossypium_hirsutum_Brazil_2011","CO1","pan trap","Melipona subnitida","species","other_wild_bees",1,900,NA,NA,"6 subplots per site,	150 m, 8 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Gossypium_hirsutum_Brazil_2011","CO1","pan trap","Melipona subnitida","species","other_wild_bees",1,900,NA,NA,"6 subplots per site,	150 m, 8 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Gossypium_hirsutum_Brazil_2011","CO1","pan trap","Melipona subnitida","species","other_wild_bees",1,900,NA,NA,"6 subplots per site,	150 m, 8 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Gossypium_hirsutum_Brazil_2011","CO1","pan trap","Melipona subnitida","species","other_wild_bees",1,900,NA,NA,"6 subplots per site,	150 m, 8 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Gossypium_hirsutum_Brazil_2011","CO1","pan trap","Melipona subnitida","species","other_wild_bees",3,900,NA,NA,"6 subplots per site,	150 m, 8 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Gossypium_hirsutum_Brazil_2011","CO1","pan trap","Melipona subnitida","species","other_wild_bees",2,900,NA,NA,"6 subplots per site,	150 m, 8 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Gossypium_hirsutum_Brazil_2011","CO1","pan trap","Melipona subnitida","species","other_wild_bees",1,900,NA,NA,"6 subplots per site,	150 m, 8 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Gossypium_hirsutum_Brazil_2011","CO1","pan trap","Melipona subnitida","species","other_wild_bees",1,900,NA,NA,"6 subplots per site,	150 m, 8 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Gossypium_hirsutum_Brazil_2011","CO1","pan trap","Melipona subnitida","species","other_wild_bees",3,900,NA,NA,"6 subplots per site,	150 m, 8 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Gossypium_hirsutum_Brazil_2011","CO1","pan trap","Melipona subnitida","species","other_wild_bees",1,900,NA,NA,"6 subplots per site,	150 m, 8 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Gossypium_hirsutum_Brazil_2011","CO1","pan trap","Melipona subnitida","species","other_wild_bees",2,900,NA,NA,"6 subplots per site,	150 m, 8 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Gossypium_hirsutum_Brazil_2011","CO1","pan trap","Melipona subnitida","species","other_wild_bees",1,900,NA,NA,"6 subplots per site,	150 m, 8 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Gossypium_hirsutum_Brazil_2011","CO1","pan trap","Melipona subnitida","species","other_wild_bees",1,900,NA,NA,"6 subplots per site,	150 m, 8 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Gossypium_hirsutum_Brazil_2011","CO1","pan trap","Melipona subnitida","species","other_wild_bees",1,900,NA,NA,"6 subplots per site,	150 m, 8 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Gossypium_hirsutum_Brazil_2011","CO1","pan trap","Melipona subnitida","species","other_wild_bees",1,900,NA,NA,"6 subplots per site,	150 m, 8 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Gossypium_hirsutum_Brazil_2011","CO2","pan trap","Melipona subnitida","species","other_wild_bees",1,900,NA,NA,"6 subplots per site,	150 m, 8 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Gossypium_hirsutum_Brazil_2011","CO2","pan trap","Melipona subnitida","species","other_wild_bees",1,900,NA,NA,"6 subplots per site,	150 m, 8 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Gossypium_hirsutum_Brazil_2011","CO2","pan trap","Melipona subnitida","species","other_wild_bees",1,900,NA,NA,"6 subplots per site,	150 m, 8 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Gossypium_hirsutum_Brazil_2011","CO2","pan trap","Melipona subnitida","species","other_wild_bees",2,900,NA,NA,"6 subplots per site,	150 m, 8 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Gossypium_hirsutum_Brazil_2011","CO2","pan trap","Melipona subnitida","species","other_wild_bees",1,900,NA,NA,"6 subplots per site,	150 m, 8 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Gossypium_hirsutum_Brazil_2011","CO2","pan trap","Melipona subnitida","species","other_wild_bees",1,900,NA,NA,"6 subplots per site,	150 m, 8 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Gossypium_hirsutum_Brazil_2011","CO2","pan trap","Melipona subnitida","species","other_wild_bees",1,900,NA,NA,"6 subplots per site,	150 m, 8 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Gossypium_hirsutum_Brazil_2011","CO2","pan trap","Melipona subnitida","species","other_wild_bees",1,900,NA,NA,"6 subplots per site,	150 m, 8 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Gossypium_hirsutum_Brazil_2011","CO1","pan trap","Ceratina (Crewella) sp. 1","gener","other_wild_bees",1,900,NA,NA,"6 subplots per site,	150 m, 8 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Gossypium_hirsutum_Brazil_2011","CO1","pan trap","Ceratina (Crewella) sp. 1","gener","other_wild_bees",1,900,NA,NA,"6 subplots per site,	150 m, 8 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Gossypium_hirsutum_Brazil_2011","CO1","pan trap","Ceratina (Crewella) sp. 1","gener","other_wild_bees",1,900,NA,NA,"6 subplots per site,	150 m, 8 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Gossypium_hirsutum_Brazil_2011","CO1","pan trap","Ceratina (Crewella) sp. 1","gener","other_wild_bees",1,900,NA,NA,"6 subplots per site,	150 m, 8 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Gossypium_hirsutum_Brazil_2011","CO1","pan trap","Ceratina (Crewella) sp. 1","gener","other_wild_bees",2,900,NA,NA,"6 subplots per site,	150 m, 8 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Gossypium_hirsutum_Brazil_2011","CO1","pan trap","Ceratina (Crewella) sp. 1","gener","other_wild_bees",1,900,NA,NA,"6 subplots per site,	150 m, 8 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Gossypium_hirsutum_Brazil_2011","CO1","pan trap","Ceratina (Crewella) sp. 1","gener","other_wild_bees",2,900,NA,NA,"6 subplots per site,	150 m, 8 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Gossypium_hirsutum_Brazil_2011","CO1","pan trap","Ceratina (Crewella) sp. 1","gener","other_wild_bees",2,900,NA,NA,"6 subplots per site,	150 m, 8 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Gossypium_hirsutum_Brazil_2011","CO1","pan trap","Ceratina (Crewella) sp. 1","gener","other_wild_bees",2,900,NA,NA,"6 subplots per site,	150 m, 8 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Gossypium_hirsutum_Brazil_2011","CO1","pan trap","Ceratina (Crewella) sp. 1","gener","other_wild_bees",1,900,NA,NA,"6 subplots per site,	150 m, 8 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Gossypium_hirsutum_Brazil_2011","CO1","pan trap","Ceratina (Crewella) sp. 1","gener","other_wild_bees",1,900,NA,NA,"6 subplots per site,	150 m, 8 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Gossypium_hirsutum_Brazil_2011","CO1","pan trap","Ceratina (Crewella) sp. 1","gener","other_wild_bees",3,900,NA,NA,"6 subplots per site,	150 m, 8 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Gossypium_hirsutum_Brazil_2011","CO1","pan trap","Ceratina (Crewella) sp. 1","gener","other_wild_bees",2,900,NA,NA,"6 subplots per site,	150 m, 8 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Gossypium_hirsutum_Brazil_2011","CO1","pan trap","Ceratina (Crewella) sp. 1","gener","other_wild_bees",2,900,NA,NA,"6 subplots per site,	150 m, 8 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Gossypium_hirsutum_Brazil_2011","CO1","pan trap","Ceratina (Crewella) sp. 1","gener","other_wild_bees",2,900,NA,NA,"6 subplots per site,	150 m, 8 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Gossypium_hirsutum_Brazil_2011","CO1","pan trap","Ceratina (Crewella) sp. 1","gener","other_wild_bees",1,900,NA,NA,"6 subplots per site,	150 m, 8 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Gossypium_hirsutum_Brazil_2011","CO1","pan trap","Ceratina (Crewella) sp. 1","gener","other_wild_bees",1,900,NA,NA,"6 subplots per site,	150 m, 8 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Gossypium_hirsutum_Brazil_2011","CO1","pan trap","Ceratina (Crewella) sp. 1","gener","other_wild_bees",1,900,NA,NA,"6 subplots per site,	150 m, 8 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Gossypium_hirsutum_Brazil_2011","CO1","pan trap","Ceratina (Crewella) sp. 1","gener","other_wild_bees",1,900,NA,NA,"6 subplots per site,	150 m, 8 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Gossypium_hirsutum_Brazil_2011","CO1","pan trap","Ceratina (Crewella) sp. 1","gener","other_wild_bees",1,900,NA,NA,"6 subplots per site,	150 m, 8 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Gossypium_hirsutum_Brazil_2011","CO1","pan trap","Ceratina (Crewella) sp. 1","gener","other_wild_bees",2,900,NA,NA,"6 subplots per site,	150 m, 8 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Gossypium_hirsutum_Brazil_2011","CO1","pan trap","Ceratina (Crewella) sp. 1","gener","other_wild_bees",1,900,NA,NA,"6 subplots per site,	150 m, 8 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Gossypium_hirsutum_Brazil_2011","CO1","pan trap","Ceratina (Crewella) sp. 1","gener","other_wild_bees",1,900,NA,NA,"6 subplots per site,	150 m, 8 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Gossypium_hirsutum_Brazil_2011","CO1","pan trap","Ceratina (Crewella) sp. 1","gener","other_wild_bees",2,900,NA,NA,"6 subplots per site,	150 m, 8 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Gossypium_hirsutum_Brazil_2011","CO1","pan trap","Ceratina (Crewella) sp. 1","gener","other_wild_bees",2,900,NA,NA,"6 subplots per site,	150 m, 8 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Gossypium_hirsutum_Brazil_2011","CO2","pan trap","Ceratina (Crewella) sp. 1","gener","other_wild_bees",2,900,NA,NA,"6 subplots per site,	150 m, 8 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Gossypium_hirsutum_Brazil_2011","CO2","pan trap","Ceratina (Crewella) sp. 1","gener","other_wild_bees",2,900,NA,NA,"6 subplots per site,	150 m, 8 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Gossypium_hirsutum_Brazil_2011","CO2","pan trap","Ceratina (Crewella) sp. 1","gener","other_wild_bees",2,900,NA,NA,"6 subplots per site,	150 m, 8 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Gossypium_hirsutum_Brazil_2011","CO2","pan trap","Ceratina (Crewella) sp. 1","gener","other_wild_bees",1,900,NA,NA,"6 subplots per site,	150 m, 8 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Gossypium_hirsutum_Brazil_2011","CO2","pan trap","Ceratina (Crewella) sp. 1","gener","other_wild_bees",1,900,NA,NA,"6 subplots per site,	150 m, 8 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Gossypium_hirsutum_Brazil_2011","CO2","pan trap","Ceratina (Crewella) sp. 1","gener","other_wild_bees",3,900,NA,NA,"6 subplots per site,	150 m, 8 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Gossypium_hirsutum_Brazil_2011","CO2","pan trap","Ceratina (Crewella) sp. 1","gener","other_wild_bees",2,900,NA,NA,"6 subplots per site,	150 m, 8 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Gossypium_hirsutum_Brazil_2011","CO2","pan trap","Ceratina (Crewella) sp. 1","gener","other_wild_bees",2,900,NA,NA,"6 subplots per site,	150 m, 8 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Gossypium_hirsutum_Brazil_2011","CO2","pan trap","Ceratina (Crewella) sp. 1","gener","other_wild_bees",3,900,NA,NA,"6 subplots per site,	150 m, 8 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Gossypium_hirsutum_Brazil_2011","CO2","pan trap","Ceratina (Crewella) sp. 1","gener","other_wild_bees",3,900,NA,NA,"6 subplots per site,	150 m, 8 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Gossypium_hirsutum_Brazil_2011","CO2","pan trap","Ceratina (Crewella) sp. 1","gener","other_wild_bees",1,900,NA,NA,"6 subplots per site,	150 m, 8 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Gossypium_hirsutum_Brazil_2011","CO2","pan trap","Ceratina (Crewella) sp. 1","gener","other_wild_bees",1,900,NA,NA,"6 subplots per site,	150 m, 8 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Gossypium_hirsutum_Brazil_2011","CO2","pan trap","Ceratina (Crewella) sp. 1","gener","other_wild_bees",1,900,NA,NA,"6 subplots per site,	150 m, 8 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Gossypium_hirsutum_Brazil_2011","CO2","pan trap","Ceratina (Crewella) sp. 1","gener","other_wild_bees",1,900,NA,NA,"6 subplots per site,	150 m, 8 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Gossypium_hirsutum_Brazil_2011","CO2","pan trap","Ceratina (Crewella) sp. 1","gener","other_wild_bees",1,900,NA,NA,"6 subplots per site,	150 m, 8 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Gossypium_hirsutum_Brazil_2011","CO2","pan trap","Ceratina (Crewella) sp. 1","gener","other_wild_bees",1,900,NA,NA,"6 subplots per site,	150 m, 8 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Gossypium_hirsutum_Brazil_2011","CO2","pan trap","Ceratina (Crewella) sp. 1","gener","other_wild_bees",2,900,NA,NA,"6 subplots per site,	150 m, 8 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Gossypium_hirsutum_Brazil_2011","CO2","pan trap","Ceratina (Crewella) sp. 1","gener","other_wild_bees",1,900,NA,NA,"6 subplots per site,	150 m, 8 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Gossypium_hirsutum_Brazil_2011","CO2","pan trap","Ceratina (Crewella) sp. 1","gener","other_wild_bees",1,900,NA,NA,"6 subplots per site,	150 m, 8 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Gossypium_hirsutum_Brazil_2011","CO2","pan trap","Ceratina (Crewella) sp. 1","gener","other_wild_bees",2,900,NA,NA,"6 subplots per site,	150 m, 8 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Gossypium_hirsutum_Brazil_2011","CO2","pan trap","Ceratina (Crewella) sp. 1","gener","other_wild_bees",2,900,NA,NA,"6 subplots per site,	150 m, 8 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Gossypium_hirsutum_Brazil_2011","CO2","pan trap","Ceratina (Crewella) sp. 1","gener","other_wild_bees",2,900,NA,NA,"6 subplots per site,	150 m, 8 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Gossypium_hirsutum_Brazil_2011","CO2","pan trap","Ceratina (Crewella) sp. 1","gener","other_wild_bees",3,900,NA,NA,"6 subplots per site,	150 m, 8 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Gossypium_hirsutum_Brazil_2011","CO2","pan trap","Ceratina (Crewella) sp. 1","gener","other_wild_bees",3,900,NA,NA,"6 subplots per site,	150 m, 8 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Gossypium_hirsutum_Brazil_2011","CO2","pan trap","Ceratina (Crewella) sp. 1","gener","other_wild_bees",1,900,NA,NA,"6 subplots per site,	150 m, 8 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Gossypium_hirsutum_Brazil_2011","CO2","pan trap","Ceratina (Crewella) sp. 1","gener","other_wild_bees",2,900,NA,NA,"6 subplots per site,	150 m, 8 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Gossypium_hirsutum_Brazil_2011","CO2","pan trap","Ceratina (Crewella) sp. 1","gener","other_wild_bees",1,900,NA,NA,"6 subplots per site,	150 m, 8 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Gossypium_hirsutum_Brazil_2011","CO2","pan trap","Ceratina (Crewella) sp. 1","gener","other_wild_bees",1,900,NA,NA,"6 subplots per site,	150 m, 8 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Gossypium_hirsutum_Brazil_2011","CO2","pan trap","Ceratina (Crewella) sp. 1","gener","other_wild_bees",2,900,NA,NA,"6 subplots per site,	150 m, 8 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Gossypium_hirsutum_Brazil_2011","CO2","pan trap","Ceratina (Crewella) sp. 1","gener","other_wild_bees",1,900,NA,NA,"6 subplots per site,	150 m, 8 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Gossypium_hirsutum_Brazil_2011","CO2","pan trap","Ceratina (Crewella) sp. 1","gener","other_wild_bees",1,900,NA,NA,"6 subplots per site,	150 m, 8 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Gossypium_hirsutum_Brazil_2011","CO2","pan trap","Ceratina (Crewella) sp. 1","gener","other_wild_bees",1,900,NA,NA,"6 subplots per site,	150 m, 8 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Gossypium_hirsutum_Brazil_2011","CO2","pan trap","Ceratina (Crewella) sp. 1","gener","other_wild_bees",1,900,NA,NA,"6 subplots per site,	150 m, 8 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Gossypium_hirsutum_Brazil_2011","CO2","pan trap","Ceratina (Crewella) sp. 1","gener","other_wild_bees",2,900,NA,NA,"6 subplots per site,	150 m, 8 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Gossypium_hirsutum_Brazil_2011","CO2","pan trap","Ceratina (Crewella) sp. 1","gener","other_wild_bees",3,900,NA,NA,"6 subplots per site,	150 m, 8 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Gossypium_hirsutum_Brazil_2011","CO2","pan trap","Ceratina (Crewella) sp. 1","gener","other_wild_bees",3,900,NA,NA,"6 subplots per site,	150 m, 8 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Gossypium_hirsutum_Brazil_2011","CO2","pan trap","Ceratina (Crewella) sp. 1","gener","other_wild_bees",2,900,NA,NA,"6 subplots per site,	150 m, 8 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Gossypium_hirsutum_Brazil_2011","CO2","pan trap","Ceratina (Crewella) sp. 1","gener","other_wild_bees",2,900,NA,NA,"6 subplots per site,	150 m, 8 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Gossypium_hirsutum_Brazil_2011","CO2","pan trap","Ceratina (Crewella) sp. 1","gener","other_wild_bees",2,900,NA,NA,"6 subplots per site,	150 m, 8 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Gossypium_hirsutum_Brazil_2011","CO2","pan trap","Ceratina (Crewella) sp. 1","gener","other_wild_bees",1,900,NA,NA,"6 subplots per site,	150 m, 8 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Gossypium_hirsutum_Brazil_2011","CO2","pan trap","Ceratina (Crewella) sp. 1","gener","other_wild_bees",1,900,NA,NA,"6 subplots per site,	150 m, 8 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Gossypium_hirsutum_Brazil_2011","CO2","pan trap","Ceratina (Crewella) sp. 1","gener","other_wild_bees",1,900,NA,NA,"6 subplots per site,	150 m, 8 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Gossypium_hirsutum_Brazil_2011","CO2","pan trap","Ceratina (Crewella) sp. 1","gener","other_wild_bees",2,900,NA,NA,"6 subplots per site,	150 m, 8 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Gossypium_hirsutum_Brazil_2011","CO2","pan trap","Ceratina (Crewella) sp. 1","gener","other_wild_bees",3,900,NA,NA,"6 subplots per site,	150 m, 8 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Gossypium_hirsutum_Brazil_2011","CO2","pan trap","Ceratina (Crewella) sp. 1","gener","other_wild_bees",3,900,NA,NA,"6 subplots per site,	150 m, 8 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Gossypium_hirsutum_Brazil_2011","CO2","pan trap","Ceratina (Crewella) sp. 1","gener","other_wild_bees",1,900,NA,NA,"6 subplots per site,	150 m, 8 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Gossypium_hirsutum_Brazil_2011","CO2","pan trap","Ceratina (Crewella) sp. 1","gener","other_wild_bees",1,900,NA,NA,"6 subplots per site,	150 m, 8 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Gossypium_hirsutum_Brazil_2011","CO2","pan trap","Ceratina (Crewella) sp. 1","gener","other_wild_bees",2,900,NA,NA,"6 subplots per site,	150 m, 8 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Gossypium_hirsutum_Brazil_2011","CO2","pan trap","Ceratina (Crewella) sp. 1","gener","other_wild_bees",2,900,NA,NA,"6 subplots per site,	150 m, 8 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Gossypium_hirsutum_Brazil_2011","CO2","pan trap","Ceratina (Crewella) sp. 1","gener","other_wild_bees",1,900,NA,NA,"6 subplots per site,	150 m, 8 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Gossypium_hirsutum_Brazil_2011","CO2","pan trap","Ceratina (Crewella) sp. 1","gener","other_wild_bees",2,900,NA,NA,"6 subplots per site,	150 m, 8 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Gossypium_hirsutum_Brazil_2011","CO2","pan trap","Ceratina (Crewella) sp. 1","gener","other_wild_bees",2,900,NA,NA,"6 subplots per site,	150 m, 8 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Gossypium_hirsutum_Brazil_2011","CO2","pan trap","Ceratina (Crewella) sp. 1","gener","other_wild_bees",2,900,NA,NA,"6 subplots per site,	150 m, 8 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Gossypium_hirsutum_Brazil_2011","CO2","pan trap","Ceratina (Crewella) sp. 1","gener","other_wild_bees",1,900,NA,NA,"6 subplots per site,	150 m, 8 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Gossypium_hirsutum_Brazil_2011","CO2","pan trap","Ceratina (Crewella) sp. 1","gener","other_wild_bees",1,900,NA,NA,"6 subplots per site,	150 m, 8 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Gossypium_hirsutum_Brazil_2011","CO2","pan trap","Ceratina (Crewella) sp. 1","gener","other_wild_bees",1,900,NA,NA,"6 subplots per site,	150 m, 8 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Gossypium_hirsutum_Brazil_2011","CO2","pan trap","Ceratina (Crewella) sp. 1","gener","other_wild_bees",1,900,NA,NA,"6 subplots per site,	150 m, 8 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Gossypium_hirsutum_Brazil_2011","CO2","pan trap","Ceratina (Crewella) sp. 1","gener","other_wild_bees",1,900,NA,NA,"6 subplots per site,	150 m, 8 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Gossypium_hirsutum_Brazil_2011","CO2","pan trap","Ceratina (Crewella) sp. 1","gener","other_wild_bees",1,900,NA,NA,"6 subplots per site,	150 m, 8 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Gossypium_hirsutum_Brazil_2011","CO2","pan trap","Ceratina (Crewella) sp. 1","gener","other_wild_bees",3,900,NA,NA,"6 subplots per site,	150 m, 8 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Gossypium_hirsutum_Brazil_2011","CO2","pan trap","Ceratina (Crewella) sp. 1","gener","other_wild_bees",2,900,NA,NA,"6 subplots per site,	150 m, 8 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Gossypium_hirsutum_Brazil_2011","CO2","pan trap","Ceratina (Crewella) sp. 1","gener","other_wild_bees",1,900,NA,NA,"6 subplots per site,	150 m, 8 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Gossypium_hirsutum_Brazil_2011","CO2","pan trap","Ceratina (Crewella) sp. 1","gener","other_wild_bees",1,900,NA,NA,"6 subplots per site,	150 m, 8 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Gossypium_hirsutum_Brazil_2011","CO2","pan trap","Ceratina (Crewella) sp. 1","gener","other_wild_bees",2,900,NA,NA,"6 subplots per site,	150 m, 8 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Gossypium_hirsutum_Brazil_2011","CO2","pan trap","Ceratina (Crewella) sp. 1","gener","other_wild_bees",1,900,NA,NA,"6 subplots per site,	150 m, 8 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Gossypium_hirsutum_Brazil_2011","CO2","pan trap","Ceratina (Crewella) sp. 1","gener","other_wild_bees",1,900,NA,NA,"6 subplots per site,	150 m, 8 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Gossypium_hirsutum_Brazil_2011","CO2","pan trap","Ceratina (Crewella) sp. 1","gener","other_wild_bees",3,900,NA,NA,"6 subplots per site,	150 m, 8 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Gossypium_hirsutum_Brazil_2011","CO2","pan trap","Ceratina (Crewella) sp. 1","gener","other_wild_bees",3,900,NA,NA,"6 subplots per site,	150 m, 8 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Gossypium_hirsutum_Brazil_2011","CO2","pan trap","Ceratina (Crewella) sp. 1","gener","other_wild_bees",2,900,NA,NA,"6 subplots per site,	150 m, 8 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Gossypium_hirsutum_Brazil_2011","CO2","pan trap","Ceratina (Crewella) sp. 1","gener","other_wild_bees",2,900,NA,NA,"6 subplots per site,	150 m, 8 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Gossypium_hirsutum_Brazil_2011","CO2","pan trap","Ceratina (Crewella) sp. 1","gener","other_wild_bees",2,900,NA,NA,"6 subplots per site,	150 m, 8 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Gossypium_hirsutum_Brazil_2011","CO2","pan trap","Ceratina (Crewella) sp. 1","gener","other_wild_bees",3,900,NA,NA,"6 subplots per site,	150 m, 8 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Gossypium_hirsutum_Brazil_2011","CO2","pan trap","Ceratina (Crewella) sp. 1","gener","other_wild_bees",1,900,NA,NA,"6 subplots per site,	150 m, 8 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Gossypium_hirsutum_Brazil_2011","CO2","pan trap","Ceratina (Crewella) sp. 1","gener","other_wild_bees",1,900,NA,NA,"6 subplots per site,	150 m, 8 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Gossypium_hirsutum_Brazil_2011","CO2","pan trap","Ceratina (Crewella) sp. 1","gener","other_wild_bees",1,900,NA,NA,"6 subplots per site,	150 m, 8 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Gossypium_hirsutum_Brazil_2011","CO1","pan trap","Ceratina (Crewella) sp. 2","gener","other_wild_bees",1,900,NA,NA,"6 subplots per site,	150 m, 8 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Gossypium_hirsutum_Brazil_2011","CO1","pan trap","Ceratina (Crewella) sp. 2","gener","other_wild_bees",1,900,NA,NA,"6 subplots per site,	150 m, 8 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Gossypium_hirsutum_Brazil_2011","CO1","pan trap","Ceratina (Crewella) sp. 2","gener","other_wild_bees",1,900,NA,NA,"6 subplots per site,	150 m, 8 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Gossypium_hirsutum_Brazil_2011","CO1","pan trap","Ceratina (Crewella) sp. 2","gener","other_wild_bees",1,900,NA,NA,"6 subplots per site,	150 m, 8 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Gossypium_hirsutum_Brazil_2011","CO1","pan trap","Ceratina (Crewella) sp. 2","gener","other_wild_bees",1,900,NA,NA,"6 subplots per site,	150 m, 8 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Gossypium_hirsutum_Brazil_2011","CO1","pan trap","Ceratina (Crewella) sp. 2","gener","other_wild_bees",1,900,NA,NA,"6 subplots per site,	150 m, 8 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Gossypium_hirsutum_Brazil_2011","CO1","pan trap","Ceratina (Crewella) sp. 2","gener","other_wild_bees",1,900,NA,NA,"6 subplots per site,	150 m, 8 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Gossypium_hirsutum_Brazil_2011","CO2","pan trap","Ceratina (Crewella) sp. 2","gener","other_wild_bees",1,900,NA,NA,"6 subplots per site,	150 m, 8 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Gossypium_hirsutum_Brazil_2011","CO2","pan trap","Ceratina (Crewella) sp. 2","gener","other_wild_bees",1,900,NA,NA,"6 subplots per site,	150 m, 8 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Gossypium_hirsutum_Brazil_2011","CO2","pan trap","Ceratina (Crewella) sp. 2","gener","other_wild_bees",1,900,NA,NA,"6 subplots per site,	150 m, 8 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Gossypium_hirsutum_Brazil_2011","CO2","pan trap","Ceratina (Crewella) sp. 2","gener","other_wild_bees",1,900,NA,NA,"6 subplots per site,	150 m, 8 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Gossypium_hirsutum_Brazil_2011","CO1","pan trap","Dialictus af. opacus","species","other_wild_bees",1,900,NA,NA,"6 subplots per site,	150 m, 8 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Gossypium_hirsutum_Brazil_2011","CO1","pan trap","Dialictus af. opacus","species","other_wild_bees",1,900,NA,NA,"6 subplots per site,	150 m, 8 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Gossypium_hirsutum_Brazil_2011","CO1","pan trap","Dialictus af. opacus","species","other_wild_bees",1,900,NA,NA,"6 subplots per site,	150 m, 8 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Gossypium_hirsutum_Brazil_2011","CO2","pan trap","Dialictus af. opacus","species","other_wild_bees",1,900,NA,NA,"6 subplots per site,	150 m, 8 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Gossypium_hirsutum_Brazil_2011","CO2","pan trap","Dialictus af. opacus","species","other_wild_bees",1,900,NA,NA,"6 subplots per site,	150 m, 8 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Gossypium_hirsutum_Brazil_2011","CO1","pan trap","Lithurgus huberi","species","other_wild_bees",2,900,NA,NA,"6 subplots per site,	150 m, 8 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Gossypium_hirsutum_Brazil_2011","CO1","pan trap","Lithurgus huberi","species","other_wild_bees",3,900,NA,NA,"6 subplots per site,	150 m, 8 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Gossypium_hirsutum_Brazil_2011","CO1","pan trap","Lithurgus huberi","species","other_wild_bees",1,900,NA,NA,"6 subplots per site,	150 m, 8 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Gossypium_hirsutum_Brazil_2011","CO1","pan trap","Lithurgus huberi","species","other_wild_bees",4,900,NA,NA,"6 subplots per site,	150 m, 8 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Gossypium_hirsutum_Brazil_2011","CO1","pan trap","Lithurgus huberi","species","other_wild_bees",3,900,NA,NA,"6 subplots per site,	150 m, 8 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Gossypium_hirsutum_Brazil_2011","CO1","pan trap","Lithurgus huberi","species","other_wild_bees",2,900,NA,NA,"6 subplots per site,	150 m, 8 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Gossypium_hirsutum_Brazil_2011","CO1","pan trap","Lithurgus huberi","species","other_wild_bees",2,900,NA,NA,"6 subplots per site,	150 m, 8 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Gossypium_hirsutum_Brazil_2011","CO1","pan trap","Lithurgus huberi","species","other_wild_bees",2,900,NA,NA,"6 subplots per site,	150 m, 8 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Gossypium_hirsutum_Brazil_2011","CO1","pan trap","Lithurgus huberi","species","other_wild_bees",3,900,NA,NA,"6 subplots per site,	150 m, 8 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Gossypium_hirsutum_Brazil_2011","CO1","pan trap","Lithurgus huberi","species","other_wild_bees",3,900,NA,NA,"6 subplots per site,	150 m, 8 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Gossypium_hirsutum_Brazil_2011","CO1","pan trap","Lithurgus huberi","species","other_wild_bees",5,900,NA,NA,"6 subplots per site,	150 m, 8 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Gossypium_hirsutum_Brazil_2011","CO1","pan trap","Lithurgus huberi","species","other_wild_bees",4,900,NA,NA,"6 subplots per site,	150 m, 8 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Gossypium_hirsutum_Brazil_2011","CO1","pan trap","Lithurgus huberi","species","other_wild_bees",3,900,NA,NA,"6 subplots per site,	150 m, 8 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Gossypium_hirsutum_Brazil_2011","CO1","pan trap","Lithurgus huberi","species","other_wild_bees",2,900,NA,NA,"6 subplots per site,	150 m, 8 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Gossypium_hirsutum_Brazil_2011","CO1","pan trap","Lithurgus huberi","species","other_wild_bees",3,900,NA,NA,"6 subplots per site,	150 m, 8 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Gossypium_hirsutum_Brazil_2011","CO1","pan trap","Lithurgus huberi","species","other_wild_bees",3,900,NA,NA,"6 subplots per site,	150 m, 8 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Gossypium_hirsutum_Brazil_2011","CO1","pan trap","Lithurgus huberi","species","other_wild_bees",5,900,NA,NA,"6 subplots per site,	150 m, 8 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Gossypium_hirsutum_Brazil_2011","CO1","pan trap","Lithurgus huberi","species","other_wild_bees",6,900,NA,NA,"6 subplots per site,	150 m, 8 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Gossypium_hirsutum_Brazil_2011","CO1","pan trap","Lithurgus huberi","species","other_wild_bees",4,900,NA,NA,"6 subplots per site,	150 m, 8 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Gossypium_hirsutum_Brazil_2011","CO1","pan trap","Lithurgus huberi","species","other_wild_bees",4,900,NA,NA,"6 subplots per site,	150 m, 8 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Gossypium_hirsutum_Brazil_2011","CO1","pan trap","Lithurgus huberi","species","other_wild_bees",3,900,NA,NA,"6 subplots per site,	150 m, 8 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Gossypium_hirsutum_Brazil_2011","CO1","pan trap","Lithurgus huberi","species","other_wild_bees",2,900,NA,NA,"6 subplots per site,	150 m, 8 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Gossypium_hirsutum_Brazil_2011","CO1","pan trap","Lithurgus huberi","species","other_wild_bees",6,900,NA,NA,"6 subplots per site,	150 m, 8 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Gossypium_hirsutum_Brazil_2011","CO1","pan trap","Lithurgus huberi","species","other_wild_bees",4,900,NA,NA,"6 subplots per site,	150 m, 8 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Gossypium_hirsutum_Brazil_2011","CO1","pan trap","Lithurgus huberi","species","other_wild_bees",5,900,NA,NA,"6 subplots per site,	150 m, 8 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Gossypium_hirsutum_Brazil_2011","CO1","pan trap","Lithurgus huberi","species","other_wild_bees",5,900,NA,NA,"6 subplots per site,	150 m, 8 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Gossypium_hirsutum_Brazil_2011","CO1","pan trap","Lithurgus huberi","species","other_wild_bees",3,900,NA,NA,"6 subplots per site,	150 m, 8 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Gossypium_hirsutum_Brazil_2011","CO1","pan trap","Lithurgus huberi","species","other_wild_bees",2,900,NA,NA,"6 subplots per site,	150 m, 8 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Gossypium_hirsutum_Brazil_2011","CO1","pan trap","Lithurgus huberi","species","other_wild_bees",3,900,NA,NA,"6 subplots per site,	150 m, 8 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Gossypium_hirsutum_Brazil_2011","CO1","pan trap","Lithurgus huberi","species","other_wild_bees",2,900,NA,NA,"6 subplots per site,	150 m, 8 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Gossypium_hirsutum_Brazil_2011","CO1","pan trap","Lithurgus huberi","species","other_wild_bees",2,900,NA,NA,"6 subplots per site,	150 m, 8 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Gossypium_hirsutum_Brazil_2011","CO1","pan trap","Lithurgus huberi","species","other_wild_bees",2,900,NA,NA,"6 subplots per site,	150 m, 8 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Gossypium_hirsutum_Brazil_2011","CO1","pan trap","Lithurgus huberi","species","other_wild_bees",1,900,NA,NA,"6 subplots per site,	150 m, 8 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Gossypium_hirsutum_Brazil_2011","CO1","pan trap","Lithurgus huberi","species","other_wild_bees",4,900,NA,NA,"6 subplots per site,	150 m, 8 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Gossypium_hirsutum_Brazil_2011","CO1","pan trap","Lithurgus huberi","species","other_wild_bees",1,900,NA,NA,"6 subplots per site,	150 m, 8 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Gossypium_hirsutum_Brazil_2011","CO1","pan trap","Lithurgus huberi","species","other_wild_bees",1,900,NA,NA,"6 subplots per site,	150 m, 8 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Gossypium_hirsutum_Brazil_2011","CO1","pan trap","Lithurgus huberi","species","other_wild_bees",1,900,NA,NA,"6 subplots per site,	150 m, 8 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Gossypium_hirsutum_Brazil_2011","CO1","pan trap","Lithurgus huberi","species","other_wild_bees",3,900,NA,NA,"6 subplots per site,	150 m, 8 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Gossypium_hirsutum_Brazil_2011","CO1","pan trap","Lithurgus huberi","species","other_wild_bees",5,900,NA,NA,"6 subplots per site,	150 m, 8 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Gossypium_hirsutum_Brazil_2011","CO1","pan trap","Lithurgus huberi","species","other_wild_bees",3,900,NA,NA,"6 subplots per site,	150 m, 8 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Gossypium_hirsutum_Brazil_2011","CO1","pan trap","Lithurgus huberi","species","other_wild_bees",3,900,NA,NA,"6 subplots per site,	150 m, 8 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Gossypium_hirsutum_Brazil_2011","CO1","pan trap","Lithurgus huberi","species","other_wild_bees",3,900,NA,NA,"6 subplots per site,	150 m, 8 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Gossypium_hirsutum_Brazil_2011","CO1","pan trap","Lithurgus huberi","species","other_wild_bees",4,900,NA,NA,"6 subplots per site,	150 m, 8 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Gossypium_hirsutum_Brazil_2011","CO1","pan trap","Lithurgus huberi","species","other_wild_bees",4,900,NA,NA,"6 subplots per site,	150 m, 8 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Gossypium_hirsutum_Brazil_2011","CO1","pan trap","Lithurgus huberi","species","other_wild_bees",2,900,NA,NA,"6 subplots per site,	150 m, 8 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Gossypium_hirsutum_Brazil_2011","CO1","pan trap","Lithurgus huberi","species","other_wild_bees",5,900,NA,NA,"6 subplots per site,	150 m, 8 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Gossypium_hirsutum_Brazil_2011","CO1","pan trap","Lithurgus huberi","species","other_wild_bees",3,900,NA,NA,"6 subplots per site,	150 m, 8 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Gossypium_hirsutum_Brazil_2011","CO1","pan trap","Lithurgus huberi","species","other_wild_bees",2,900,NA,NA,"6 subplots per site,	150 m, 8 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Gossypium_hirsutum_Brazil_2011","CO1","pan trap","Lithurgus huberi","species","other_wild_bees",4,900,NA,NA,"6 subplots per site,	150 m, 8 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Gossypium_hirsutum_Brazil_2011","CO1","pan trap","Lithurgus huberi","species","other_wild_bees",2,900,NA,NA,"6 subplots per site,	150 m, 8 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Gossypium_hirsutum_Brazil_2011","CO1","pan trap","Lithurgus huberi","species","other_wild_bees",3,900,NA,NA,"6 subplots per site,	150 m, 8 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Gossypium_hirsutum_Brazil_2011","CO1","pan trap","Lithurgus huberi","species","other_wild_bees",2,900,NA,NA,"6 subplots per site,	150 m, 8 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Gossypium_hirsutum_Brazil_2011","CO1","pan trap","Lithurgus huberi","species","other_wild_bees",2,900,NA,NA,"6 subplots per site,	150 m, 8 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Gossypium_hirsutum_Brazil_2011","CO1","pan trap","Lithurgus huberi","species","other_wild_bees",1,900,NA,NA,"6 subplots per site,	150 m, 8 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Gossypium_hirsutum_Brazil_2011","CO2","pan trap","Lithurgus huberi","species","other_wild_bees",1,900,NA,NA,"6 subplots per site,	150 m, 8 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Gossypium_hirsutum_Brazil_2011","CO2","pan trap","Lithurgus huberi","species","other_wild_bees",2,900,NA,NA,"6 subplots per site,	150 m, 8 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Gossypium_hirsutum_Brazil_2011","CO2","pan trap","Lithurgus huberi","species","other_wild_bees",5,900,NA,NA,"6 subplots per site,	150 m, 8 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Gossypium_hirsutum_Brazil_2011","CO2","pan trap","Lithurgus huberi","species","other_wild_bees",4,900,NA,NA,"6 subplots per site,	150 m, 8 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Gossypium_hirsutum_Brazil_2011","CO2","pan trap","Lithurgus huberi","species","other_wild_bees",3,900,NA,NA,"6 subplots per site,	150 m, 8 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Gossypium_hirsutum_Brazil_2011","CO2","pan trap","Lithurgus huberi","species","other_wild_bees",4,900,NA,NA,"6 subplots per site,	150 m, 8 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Gossypium_hirsutum_Brazil_2011","CO2","pan trap","Lithurgus huberi","species","other_wild_bees",4,900,NA,NA,"6 subplots per site,	150 m, 8 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Gossypium_hirsutum_Brazil_2011","CO2","pan trap","Lithurgus huberi","species","other_wild_bees",4,900,NA,NA,"6 subplots per site,	150 m, 8 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Gossypium_hirsutum_Brazil_2011","CO2","pan trap","Lithurgus huberi","species","other_wild_bees",5,900,NA,NA,"6 subplots per site,	150 m, 8 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Gossypium_hirsutum_Brazil_2011","CO2","pan trap","Lithurgus huberi","species","other_wild_bees",5,900,NA,NA,"6 subplots per site,	150 m, 8 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Gossypium_hirsutum_Brazil_2011","CO2","pan trap","Lithurgus huberi","species","other_wild_bees",3,900,NA,NA,"6 subplots per site,	150 m, 8 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Gossypium_hirsutum_Brazil_2011","CO2","pan trap","Lithurgus huberi","species","other_wild_bees",2,900,NA,NA,"6 subplots per site,	150 m, 8 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Gossypium_hirsutum_Brazil_2011","CO2","pan trap","Lithurgus huberi","species","other_wild_bees",2,900,NA,NA,"6 subplots per site,	150 m, 8 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Gossypium_hirsutum_Brazil_2011","CO2","pan trap","Lithurgus huberi","species","other_wild_bees",3,900,NA,NA,"6 subplots per site,	150 m, 8 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Gossypium_hirsutum_Brazil_2011","CO2","pan trap","Lithurgus huberi","species","other_wild_bees",2,900,NA,NA,"6 subplots per site,	150 m, 8 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Gossypium_hirsutum_Brazil_2011","CO2","pan trap","Lithurgus huberi","species","other_wild_bees",2,900,NA,NA,"6 subplots per site,	150 m, 8 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Gossypium_hirsutum_Brazil_2011","CO2","pan trap","Lithurgus huberi","species","other_wild_bees",4,900,NA,NA,"6 subplots per site,	150 m, 8 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Gossypium_hirsutum_Brazil_2011","CO2","pan trap","Lithurgus huberi","species","other_wild_bees",6,900,NA,NA,"6 subplots per site,	150 m, 8 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Gossypium_hirsutum_Brazil_2011","CO2","pan trap","Lithurgus huberi","species","other_wild_bees",3,900,NA,NA,"6 subplots per site,	150 m, 8 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Gossypium_hirsutum_Brazil_2011","CO2","pan trap","Lithurgus huberi","species","other_wild_bees",4,900,NA,NA,"6 subplots per site,	150 m, 8 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Gossypium_hirsutum_Brazil_2011","CO2","pan trap","Lithurgus huberi","species","other_wild_bees",4,900,NA,NA,"6 subplots per site,	150 m, 8 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Gossypium_hirsutum_Brazil_2011","CO2","pan trap","Lithurgus huberi","species","other_wild_bees",2,900,NA,NA,"6 subplots per site,	150 m, 8 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Gossypium_hirsutum_Brazil_2011","CO2","pan trap","Lithurgus huberi","species","other_wild_bees",2,900,NA,NA,"6 subplots per site,	150 m, 8 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Gossypium_hirsutum_Brazil_2011","CO2","pan trap","Lithurgus huberi","species","other_wild_bees",1,900,NA,NA,"6 subplots per site,	150 m, 8 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Gossypium_hirsutum_Brazil_2011","CO2","pan trap","Lithurgus huberi","species","other_wild_bees",1,900,NA,NA,"6 subplots per site,	150 m, 8 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Gossypium_hirsutum_Brazil_2011","CO2","pan trap","Lithurgus huberi","species","other_wild_bees",1,900,NA,NA,"6 subplots per site,	150 m, 8 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Gossypium_hirsutum_Brazil_2011","CO2","pan trap","Lithurgus huberi","species","other_wild_bees",1,900,NA,NA,"6 subplots per site,	150 m, 8 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Gossypium_hirsutum_Brazil_2011","CO2","pan trap","Lithurgus huberi","species","other_wild_bees",3,900,NA,NA,"6 subplots per site,	150 m, 8 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Gossypium_hirsutum_Brazil_2011","CO2","pan trap","Lithurgus huberi","species","other_wild_bees",4,900,NA,NA,"6 subplots per site,	150 m, 8 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Gossypium_hirsutum_Brazil_2011","CO2","pan trap","Lithurgus huberi","species","other_wild_bees",2,900,NA,NA,"6 subplots per site,	150 m, 8 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Gossypium_hirsutum_Brazil_2011","CO2","pan trap","Lithurgus huberi","species","other_wild_bees",4,900,NA,NA,"6 subplots per site,	150 m, 8 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Gossypium_hirsutum_Brazil_2011","CO2","pan trap","Lithurgus huberi","species","other_wild_bees",4,900,NA,NA,"6 subplots per site,	150 m, 8 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Gossypium_hirsutum_Brazil_2011","CO2","pan trap","Lithurgus huberi","species","other_wild_bees",5,900,NA,NA,"6 subplots per site,	150 m, 8 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Gossypium_hirsutum_Brazil_2011","CO2","pan trap","Lithurgus huberi","species","other_wild_bees",3,900,NA,NA,"6 subplots per site,	150 m, 8 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Gossypium_hirsutum_Brazil_2011","CO2","pan trap","Lithurgus huberi","species","other_wild_bees",3,900,NA,NA,"6 subplots per site,	150 m, 8 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Gossypium_hirsutum_Brazil_2011","CO2","pan trap","Lithurgus huberi","species","other_wild_bees",3,900,NA,NA,"6 subplots per site,	150 m, 8 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Gossypium_hirsutum_Brazil_2011","CO2","pan trap","Lithurgus huberi","species","other_wild_bees",3,900,NA,NA,"6 subplots per site,	150 m, 8 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Gossypium_hirsutum_Brazil_2011","CO2","pan trap","Lithurgus huberi","species","other_wild_bees",3,900,NA,NA,"6 subplots per site,	150 m, 8 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Gossypium_hirsutum_Brazil_2011","CO2","pan trap","Lithurgus huberi","species","other_wild_bees",4,900,NA,NA,"6 subplots per site,	150 m, 8 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Gossypium_hirsutum_Brazil_2011","CO2","pan trap","Lithurgus huberi","species","other_wild_bees",2,900,NA,NA,"6 subplots per site,	150 m, 8 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Gossypium_hirsutum_Brazil_2011","CO2","pan trap","Lithurgus huberi","species","other_wild_bees",6,900,NA,NA,"6 subplots per site,	150 m, 8 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Gossypium_hirsutum_Brazil_2011","CO2","pan trap","Lithurgus huberi","species","other_wild_bees",5,900,NA,NA,"6 subplots per site,	150 m, 8 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Gossypium_hirsutum_Brazil_2011","CO2","pan trap","Lithurgus huberi","species","other_wild_bees",4,900,NA,NA,"6 subplots per site,	150 m, 8 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Gossypium_hirsutum_Brazil_2011","CO2","pan trap","Lithurgus huberi","species","other_wild_bees",4,900,NA,NA,"6 subplots per site,	150 m, 8 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Gossypium_hirsutum_Brazil_2011","CO2","pan trap","Lithurgus huberi","species","other_wild_bees",4,900,NA,NA,"6 subplots per site,	150 m, 8 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Gossypium_hirsutum_Brazil_2011","CO2","pan trap","Lithurgus huberi","species","other_wild_bees",4,900,NA,NA,"6 subplots per site,	150 m, 8 sampling rounds in one season (6 censuses reported)",NA
"Breno_M_Freitas_Malpighia_emarginata_Brazil_2011","AC1","Netting","Centris aenea","species","other_wild_bees",8,600,NA,NA,"6 subplots per site,	150 m, 4 sampling rounds in one season",NA
"Breno_M_Freitas_Malpighia_emarginata_Brazil_2011","AC1","Netting","Centris aenea","species","other_wild_bees",7,600,NA,NA,"6 subplots per site,	150 m, 4 sampling rounds in one season",NA
"Breno_M_Freitas_Malpighia_emarginata_Brazil_2011","AC1","Netting","Centris aenea","species","other_wild_bees",9,600,NA,NA,"6 subplots per site,	150 m, 4 sampling rounds in one season",NA
"Breno_M_Freitas_Malpighia_emarginata_Brazil_2011","AC1","Netting","Centris aenea","species","other_wild_bees",9,600,NA,NA,"6 subplots per site,	150 m, 4 sampling rounds in one season",NA
"Breno_M_Freitas_Malpighia_emarginata_Brazil_2011","AC2","Netting","Centris aenea","species","other_wild_bees",5,600,NA,NA,"6 subplots per site,	150 m, 4 sampling rounds in one season",NA
"Breno_M_Freitas_Malpighia_emarginata_Brazil_2011","AC2","Netting","Centris aenea","species","other_wild_bees",7,600,NA,NA,"6 subplots per site,	150 m, 4 sampling rounds in one season",NA
"Breno_M_Freitas_Malpighia_emarginata_Brazil_2011","AC2","Netting","Centris aenea","species","other_wild_bees",4,600,NA,NA,"6 subplots per site,	150 m, 4 sampling rounds in one season",NA
"Breno_M_Freitas_Malpighia_emarginata_Brazil_2011","AC2","Netting","Centris aenea","species","other_wild_bees",7,600,NA,NA,"6 subplots per site,	150 m, 4 sampling rounds in one season",NA
"Breno_M_Freitas_Malpighia_emarginata_Brazil_2011","AC3","Netting","Centris aenea","species","other_wild_bees",8,600,NA,NA,"6 subplots per site,	150 m, 4 sampling rounds in one season",NA
"Breno_M_Freitas_Malpighia_emarginata_Brazil_2011","AC3","Netting","Centris aenea","species","other_wild_bees",9,600,NA,NA,"6 subplots per site,	150 m, 4 sampling rounds in one season",NA
"Breno_M_Freitas_Malpighia_emarginata_Brazil_2011","AC3","Netting","Centris aenea","species","other_wild_bees",7,600,NA,NA,"6 subplots per site,	150 m, 4 sampling rounds in one season",NA
"Breno_M_Freitas_Malpighia_emarginata_Brazil_2011","AC3","Netting","Centris aenea","species","other_wild_bees",9,600,NA,NA,"6 subplots per site,	150 m, 4 sampling rounds in one season",NA
"Breno_M_Freitas_Malpighia_emarginata_Brazil_2011","AC4","Netting","Centris aenea","species","other_wild_bees",8,600,NA,NA,"6 subplots per site,	150 m, 4 sampling rounds in one season",NA
"Breno_M_Freitas_Malpighia_emarginata_Brazil_2011","AC4","Netting","Centris aenea","species","other_wild_bees",8,600,NA,NA,"6 subplots per site,	150 m, 4 sampling rounds in one season",NA
"Breno_M_Freitas_Malpighia_emarginata_Brazil_2011","AC4","Netting","Centris aenea","species","other_wild_bees",7,600,NA,NA,"6 subplots per site,	150 m, 4 sampling rounds in one season",NA
"Breno_M_Freitas_Malpighia_emarginata_Brazil_2011","AC4","Netting","Centris aenea","species","other_wild_bees",6,600,NA,NA,"6 subplots per site,	150 m, 4 sampling rounds in one season",NA
"Breno_M_Freitas_Malpighia_emarginata_Brazil_2011","AC5","Netting","Centris aenea","species","other_wild_bees",6,600,NA,NA,"6 subplots per site,	150 m, 4 sampling rounds in one season",NA
"Breno_M_Freitas_Malpighia_emarginata_Brazil_2011","AC5","Netting","Centris aenea","species","other_wild_bees",6,600,NA,NA,"6 subplots per site,	150 m, 4 sampling rounds in one season",NA
"Breno_M_Freitas_Malpighia_emarginata_Brazil_2011","AC5","Netting","Centris aenea","species","other_wild_bees",11,600,NA,NA,"6 subplots per site,	150 m, 4 sampling rounds in one season",NA
"Breno_M_Freitas_Malpighia_emarginata_Brazil_2011","AC5","Netting","Centris aenea","species","other_wild_bees",10,600,NA,NA,"6 subplots per site,	150 m, 4 sampling rounds in one season",NA
"Breno_M_Freitas_Malpighia_emarginata_Brazil_2011","AC6","Netting","Centris aenea","species","other_wild_bees",7,600,NA,NA,"6 subplots per site,	150 m, 4 sampling rounds in one season",NA
"Breno_M_Freitas_Malpighia_emarginata_Brazil_2011","AC6","Netting","Centris aenea","species","other_wild_bees",7,600,NA,NA,"6 subplots per site,	150 m, 4 sampling rounds in one season",NA
"Breno_M_Freitas_Malpighia_emarginata_Brazil_2011","AC6","Netting","Centris aenea","species","other_wild_bees",9,600,NA,NA,"6 subplots per site,	150 m, 4 sampling rounds in one season",NA
"Breno_M_Freitas_Malpighia_emarginata_Brazil_2011","AC6","Netting","Centris aenea","species","other_wild_bees",6,600,NA,NA,"6 subplots per site,	150 m, 4 sampling rounds in one season",NA
"Breno_M_Freitas_Malpighia_emarginata_Brazil_2011","AC7","Netting","Centris aenea","species","other_wild_bees",13,600,NA,NA,"6 subplots per site,	150 m, 4 sampling rounds in one season",NA
"Breno_M_Freitas_Malpighia_emarginata_Brazil_2011","AC7","Netting","Centris aenea","species","other_wild_bees",11,600,NA,NA,"6 subplots per site,	150 m, 4 sampling rounds in one season",NA
"Breno_M_Freitas_Malpighia_emarginata_Brazil_2011","AC7","Netting","Centris aenea","species","other_wild_bees",7,600,NA,NA,"6 subplots per site,	150 m, 4 sampling rounds in one season",NA
"Breno_M_Freitas_Malpighia_emarginata_Brazil_2011","AC7","Netting","Centris aenea","species","other_wild_bees",8,600,NA,NA,"6 subplots per site,	150 m, 4 sampling rounds in one season",NA
"Breno_M_Freitas_Malpighia_emarginata_Brazil_2011","AC8","Netting","Centris aenea","species","other_wild_bees",9,600,NA,NA,"6 subplots per site,	150 m, 4 sampling rounds in one season",NA
"Breno_M_Freitas_Malpighia_emarginata_Brazil_2011","AC8","Netting","Centris aenea","species","other_wild_bees",10,600,NA,NA,"6 subplots per site,	150 m, 4 sampling rounds in one season",NA
"Breno_M_Freitas_Malpighia_emarginata_Brazil_2011","AC8","Netting","Centris aenea","species","other_wild_bees",11,600,NA,NA,"6 subplots per site,	150 m, 4 sampling rounds in one season",NA
"Breno_M_Freitas_Malpighia_emarginata_Brazil_2011","AC8","Netting","Centris aenea","species","other_wild_bees",11,600,NA,NA,"6 subplots per site,	150 m, 4 sampling rounds in one season",NA
"Breno_M_Freitas_Malpighia_emarginata_Brazil_2011","AC1","Netting","Centris analis","species","other_wild_bees",4,600,NA,NA,"6 subplots per site,	150 m, 4 sampling rounds in one season",NA
"Breno_M_Freitas_Malpighia_emarginata_Brazil_2011","AC1","Netting","Centris analis","species","other_wild_bees",3,600,NA,NA,"6 subplots per site,	150 m, 4 sampling rounds in one season",NA
"Breno_M_Freitas_Malpighia_emarginata_Brazil_2011","AC1","Netting","Centris analis","species","other_wild_bees",3,600,NA,NA,"6 subplots per site,	150 m, 4 sampling rounds in one season",NA
"Breno_M_Freitas_Malpighia_emarginata_Brazil_2011","AC2","Netting","Centris analis","species","other_wild_bees",2,600,NA,NA,"6 subplots per site,	150 m, 4 sampling rounds in one season",NA
"Breno_M_Freitas_Malpighia_emarginata_Brazil_2011","AC2","Netting","Centris analis","species","other_wild_bees",7,600,NA,NA,"6 subplots per site,	150 m, 4 sampling rounds in one season",NA
"Breno_M_Freitas_Malpighia_emarginata_Brazil_2011","AC2","Netting","Centris analis","species","other_wild_bees",10,600,NA,NA,"6 subplots per site,	150 m, 4 sampling rounds in one season",NA
"Breno_M_Freitas_Malpighia_emarginata_Brazil_2011","AC2","Netting","Centris analis","species","other_wild_bees",9,600,NA,NA,"6 subplots per site,	150 m, 4 sampling rounds in one season",NA
"Breno_M_Freitas_Malpighia_emarginata_Brazil_2011","AC3","Netting","Centris analis","species","other_wild_bees",3,600,NA,NA,"6 subplots per site,	150 m, 4 sampling rounds in one season",NA
"Breno_M_Freitas_Malpighia_emarginata_Brazil_2011","AC3","Netting","Centris analis","species","other_wild_bees",3,600,NA,NA,"6 subplots per site,	150 m, 4 sampling rounds in one season",NA
"Breno_M_Freitas_Malpighia_emarginata_Brazil_2011","AC3","Netting","Centris analis","species","other_wild_bees",5,600,NA,NA,"6 subplots per site,	150 m, 4 sampling rounds in one season",NA
"Breno_M_Freitas_Malpighia_emarginata_Brazil_2011","AC3","Netting","Centris analis","species","other_wild_bees",5,600,NA,NA,"6 subplots per site,	150 m, 4 sampling rounds in one season",NA
"Breno_M_Freitas_Malpighia_emarginata_Brazil_2011","AC4","Netting","Centris analis","species","other_wild_bees",1,600,NA,NA,"6 subplots per site,	150 m, 4 sampling rounds in one season",NA
"Breno_M_Freitas_Malpighia_emarginata_Brazil_2011","AC5","Netting","Centris analis","species","other_wild_bees",3,600,NA,NA,"6 subplots per site,	150 m, 4 sampling rounds in one season",NA
"Breno_M_Freitas_Malpighia_emarginata_Brazil_2011","AC5","Netting","Centris analis","species","other_wild_bees",6,600,NA,NA,"6 subplots per site,	150 m, 4 sampling rounds in one season",NA
"Breno_M_Freitas_Malpighia_emarginata_Brazil_2011","AC5","Netting","Centris analis","species","other_wild_bees",2,600,NA,NA,"6 subplots per site,	150 m, 4 sampling rounds in one season",NA
"Breno_M_Freitas_Malpighia_emarginata_Brazil_2011","AC5","Netting","Centris analis","species","other_wild_bees",1,600,NA,NA,"6 subplots per site,	150 m, 4 sampling rounds in one season",NA
"Breno_M_Freitas_Malpighia_emarginata_Brazil_2011","AC6","Netting","Centris analis","species","other_wild_bees",2,600,NA,NA,"6 subplots per site,	150 m, 4 sampling rounds in one season",NA
"Breno_M_Freitas_Malpighia_emarginata_Brazil_2011","AC7","Netting","Centris analis","species","other_wild_bees",9,600,NA,NA,"6 subplots per site,	150 m, 4 sampling rounds in one season",NA
"Breno_M_Freitas_Malpighia_emarginata_Brazil_2011","AC7","Netting","Centris analis","species","other_wild_bees",9,600,NA,NA,"6 subplots per site,	150 m, 4 sampling rounds in one season",NA
"Breno_M_Freitas_Malpighia_emarginata_Brazil_2011","AC7","Netting","Centris analis","species","other_wild_bees",11,600,NA,NA,"6 subplots per site,	150 m, 4 sampling rounds in one season",NA
"Breno_M_Freitas_Malpighia_emarginata_Brazil_2011","AC7","Netting","Centris analis","species","other_wild_bees",10,600,NA,NA,"6 subplots per site,	150 m, 4 sampling rounds in one season",NA
"Breno_M_Freitas_Malpighia_emarginata_Brazil_2011","AC8","Netting","Centris analis","species","other_wild_bees",6,600,NA,NA,"6 subplots per site,	150 m, 4 sampling rounds in one season",NA
"Breno_M_Freitas_Malpighia_emarginata_Brazil_2011","AC8","Netting","Centris analis","species","other_wild_bees",8,600,NA,NA,"6 subplots per site,	150 m, 4 sampling rounds in one season",NA
"Breno_M_Freitas_Malpighia_emarginata_Brazil_2011","AC8","Netting","Centris analis","species","other_wild_bees",5,600,NA,NA,"6 subplots per site,	150 m, 4 sampling rounds in one season",NA
"Breno_M_Freitas_Malpighia_emarginata_Brazil_2011","AC8","Netting","Centris analis","species","other_wild_bees",9,600,NA,NA,"6 subplots per site,	150 m, 4 sampling rounds in one season",NA
"Breno_M_Freitas_Malpighia_emarginata_Brazil_2011","AC1","Netting","Centris flavifrons","species","other_wild_bees",5,600,NA,NA,"6 subplots per site,	150 m, 4 sampling rounds in one season",NA
"Breno_M_Freitas_Malpighia_emarginata_Brazil_2011","AC1","Netting","Centris flavifrons","species","other_wild_bees",6,600,NA,NA,"6 subplots per site,	150 m, 4 sampling rounds in one season",NA
"Breno_M_Freitas_Malpighia_emarginata_Brazil_2011","AC1","Netting","Centris flavifrons","species","other_wild_bees",6,600,NA,NA,"6 subplots per site,	150 m, 4 sampling rounds in one season",NA
"Breno_M_Freitas_Malpighia_emarginata_Brazil_2011","AC1","Netting","Centris flavifrons","species","other_wild_bees",5,600,NA,NA,"6 subplots per site,	150 m, 4 sampling rounds in one season",NA
"Breno_M_Freitas_Malpighia_emarginata_Brazil_2011","AC2","Netting","Centris flavifrons","species","other_wild_bees",1,600,NA,NA,"6 subplots per site,	150 m, 4 sampling rounds in one season",NA
"Breno_M_Freitas_Malpighia_emarginata_Brazil_2011","AC2","Netting","Centris flavifrons","species","other_wild_bees",4,600,NA,NA,"6 subplots per site,	150 m, 4 sampling rounds in one season",NA
"Breno_M_Freitas_Malpighia_emarginata_Brazil_2011","AC2","Netting","Centris flavifrons","species","other_wild_bees",5,600,NA,NA,"6 subplots per site,	150 m, 4 sampling rounds in one season",NA
"Breno_M_Freitas_Malpighia_emarginata_Brazil_2011","AC2","Netting","Centris flavifrons","species","other_wild_bees",7,600,NA,NA,"6 subplots per site,	150 m, 4 sampling rounds in one season",NA
"Breno_M_Freitas_Malpighia_emarginata_Brazil_2011","AC3","Netting","Centris flavifrons","species","other_wild_bees",4,600,NA,NA,"6 subplots per site,	150 m, 4 sampling rounds in one season",NA
"Breno_M_Freitas_Malpighia_emarginata_Brazil_2011","AC3","Netting","Centris flavifrons","species","other_wild_bees",5,600,NA,NA,"6 subplots per site,	150 m, 4 sampling rounds in one season",NA
"Breno_M_Freitas_Malpighia_emarginata_Brazil_2011","AC3","Netting","Centris flavifrons","species","other_wild_bees",8,600,NA,NA,"6 subplots per site,	150 m, 4 sampling rounds in one season",NA
"Breno_M_Freitas_Malpighia_emarginata_Brazil_2011","AC3","Netting","Centris flavifrons","species","other_wild_bees",4,600,NA,NA,"6 subplots per site,	150 m, 4 sampling rounds in one season",NA
"Breno_M_Freitas_Malpighia_emarginata_Brazil_2011","AC4","Netting","Centris flavifrons","species","other_wild_bees",7,600,NA,NA,"6 subplots per site,	150 m, 4 sampling rounds in one season",NA
"Breno_M_Freitas_Malpighia_emarginata_Brazil_2011","AC4","Netting","Centris flavifrons","species","other_wild_bees",4,600,NA,NA,"6 subplots per site,	150 m, 4 sampling rounds in one season",NA
"Breno_M_Freitas_Malpighia_emarginata_Brazil_2011","AC4","Netting","Centris flavifrons","species","other_wild_bees",5,600,NA,NA,"6 subplots per site,	150 m, 4 sampling rounds in one season",NA
"Breno_M_Freitas_Malpighia_emarginata_Brazil_2011","AC4","Netting","Centris flavifrons","species","other_wild_bees",7,600,NA,NA,"6 subplots per site,	150 m, 4 sampling rounds in one season",NA
"Breno_M_Freitas_Malpighia_emarginata_Brazil_2011","AC5","Netting","Centris flavifrons","species","other_wild_bees",7,600,NA,NA,"6 subplots per site,	150 m, 4 sampling rounds in one season",NA
"Breno_M_Freitas_Malpighia_emarginata_Brazil_2011","AC5","Netting","Centris flavifrons","species","other_wild_bees",6,600,NA,NA,"6 subplots per site,	150 m, 4 sampling rounds in one season",NA
"Breno_M_Freitas_Malpighia_emarginata_Brazil_2011","AC5","Netting","Centris flavifrons","species","other_wild_bees",9,600,NA,NA,"6 subplots per site,	150 m, 4 sampling rounds in one season",NA
"Breno_M_Freitas_Malpighia_emarginata_Brazil_2011","AC5","Netting","Centris flavifrons","species","other_wild_bees",4,600,NA,NA,"6 subplots per site,	150 m, 4 sampling rounds in one season",NA
"Breno_M_Freitas_Malpighia_emarginata_Brazil_2011","AC6","Netting","Centris flavifrons","species","other_wild_bees",6,600,NA,NA,"6 subplots per site,	150 m, 4 sampling rounds in one season",NA
"Breno_M_Freitas_Malpighia_emarginata_Brazil_2011","AC6","Netting","Centris flavifrons","species","other_wild_bees",6,600,NA,NA,"6 subplots per site,	150 m, 4 sampling rounds in one season",NA
"Breno_M_Freitas_Malpighia_emarginata_Brazil_2011","AC6","Netting","Centris flavifrons","species","other_wild_bees",7,600,NA,NA,"6 subplots per site,	150 m, 4 sampling rounds in one season",NA
"Breno_M_Freitas_Malpighia_emarginata_Brazil_2011","AC6","Netting","Centris flavifrons","species","other_wild_bees",6,600,NA,NA,"6 subplots per site,	150 m, 4 sampling rounds in one season",NA
"Breno_M_Freitas_Malpighia_emarginata_Brazil_2011","AC7","Netting","Centris flavifrons","species","other_wild_bees",5,600,NA,NA,"6 subplots per site,	150 m, 4 sampling rounds in one season",NA
"Breno_M_Freitas_Malpighia_emarginata_Brazil_2011","AC7","Netting","Centris flavifrons","species","other_wild_bees",5,600,NA,NA,"6 subplots per site,	150 m, 4 sampling rounds in one season",NA
"Breno_M_Freitas_Malpighia_emarginata_Brazil_2011","AC7","Netting","Centris flavifrons","species","other_wild_bees",4,600,NA,NA,"6 subplots per site,	150 m, 4 sampling rounds in one season",NA
"Breno_M_Freitas_Malpighia_emarginata_Brazil_2011","AC7","Netting","Centris flavifrons","species","other_wild_bees",8,600,NA,NA,"6 subplots per site,	150 m, 4 sampling rounds in one season",NA
"Breno_M_Freitas_Malpighia_emarginata_Brazil_2011","AC8","Netting","Centris flavifrons","species","other_wild_bees",9,600,NA,NA,"6 subplots per site,	150 m, 4 sampling rounds in one season",NA
"Breno_M_Freitas_Malpighia_emarginata_Brazil_2011","AC8","Netting","Centris flavifrons","species","other_wild_bees",8,600,NA,NA,"6 subplots per site,	150 m, 4 sampling rounds in one season",NA
"Breno_M_Freitas_Malpighia_emarginata_Brazil_2011","AC8","Netting","Centris flavifrons","species","other_wild_bees",6,600,NA,NA,"6 subplots per site,	150 m, 4 sampling rounds in one season",NA
"Breno_M_Freitas_Malpighia_emarginata_Brazil_2011","AC8","Netting","Centris flavifrons","species","other_wild_bees",4,600,NA,NA,"6 subplots per site,	150 m, 4 sampling rounds in one season",NA
"Breno_M_Freitas_Malpighia_emarginata_Brazil_2011","AC1","Netting","Centris fuscata","species","other_wild_bees",2,600,NA,NA,"6 subplots per site,	150 m, 4 sampling rounds in one season",NA
"Breno_M_Freitas_Malpighia_emarginata_Brazil_2011","AC1","Netting","Centris fuscata","species","other_wild_bees",1,600,NA,NA,"6 subplots per site,	150 m, 4 sampling rounds in one season",NA
"Breno_M_Freitas_Malpighia_emarginata_Brazil_2011","AC2","Netting","Centris fuscata","species","other_wild_bees",1,600,NA,NA,"6 subplots per site,	150 m, 4 sampling rounds in one season",NA
"Breno_M_Freitas_Malpighia_emarginata_Brazil_2011","AC3","Netting","Centris fuscata","species","other_wild_bees",2,600,NA,NA,"6 subplots per site,	150 m, 4 sampling rounds in one season",NA
"Breno_M_Freitas_Malpighia_emarginata_Brazil_2011","AC4","Netting","Centris fuscata","species","other_wild_bees",2,600,NA,NA,"6 subplots per site,	150 m, 4 sampling rounds in one season",NA
"Breno_M_Freitas_Malpighia_emarginata_Brazil_2011","AC5","Netting","Centris fuscata","species","other_wild_bees",3,600,NA,NA,"6 subplots per site,	150 m, 4 sampling rounds in one season",NA
"Breno_M_Freitas_Malpighia_emarginata_Brazil_2011","AC6","Netting","Centris fuscata","species","other_wild_bees",2,600,NA,NA,"6 subplots per site,	150 m, 4 sampling rounds in one season",NA
"Breno_M_Freitas_Malpighia_emarginata_Brazil_2011","AC7","Netting","Centris fuscata","species","other_wild_bees",1,600,NA,NA,"6 subplots per site,	150 m, 4 sampling rounds in one season",NA
"Breno_M_Freitas_Malpighia_emarginata_Brazil_2011","AC7","Netting","Centris fuscata","species","other_wild_bees",1,600,NA,NA,"6 subplots per site,	150 m, 4 sampling rounds in one season",NA
"Breno_M_Freitas_Malpighia_emarginata_Brazil_2011","AC8","Netting","Centris fuscata","species","other_wild_bees",1,600,NA,NA,"6 subplots per site,	150 m, 4 sampling rounds in one season",NA
"Breno_M_Freitas_Malpighia_emarginata_Brazil_2011","AC1","Netting","Centris tarsata","species","other_wild_bees",3,600,NA,NA,"6 subplots per site,	150 m, 4 sampling rounds in one season",NA
"Breno_M_Freitas_Malpighia_emarginata_Brazil_2011","AC1","Netting","Centris tarsata","species","other_wild_bees",6,600,NA,NA,"6 subplots per site,	150 m, 4 sampling rounds in one season",NA
"Breno_M_Freitas_Malpighia_emarginata_Brazil_2011","AC1","Netting","Centris tarsata","species","other_wild_bees",5,600,NA,NA,"6 subplots per site,	150 m, 4 sampling rounds in one season",NA
"Breno_M_Freitas_Malpighia_emarginata_Brazil_2011","AC1","Netting","Centris tarsata","species","other_wild_bees",3,600,NA,NA,"6 subplots per site,	150 m, 4 sampling rounds in one season",NA
"Breno_M_Freitas_Malpighia_emarginata_Brazil_2011","AC2","Netting","Centris tarsata","species","other_wild_bees",2,600,NA,NA,"6 subplots per site,	150 m, 4 sampling rounds in one season",NA
"Breno_M_Freitas_Malpighia_emarginata_Brazil_2011","AC2","Netting","Centris tarsata","species","other_wild_bees",2,600,NA,NA,"6 subplots per site,	150 m, 4 sampling rounds in one season",NA
"Breno_M_Freitas_Malpighia_emarginata_Brazil_2011","AC2","Netting","Centris tarsata","species","other_wild_bees",1,600,NA,NA,"6 subplots per site,	150 m, 4 sampling rounds in one season",NA
"Breno_M_Freitas_Malpighia_emarginata_Brazil_2011","AC2","Netting","Centris tarsata","species","other_wild_bees",6,600,NA,NA,"6 subplots per site,	150 m, 4 sampling rounds in one season",NA
"Breno_M_Freitas_Malpighia_emarginata_Brazil_2011","AC3","Netting","Centris tarsata","species","other_wild_bees",3,600,NA,NA,"6 subplots per site,	150 m, 4 sampling rounds in one season",NA
"Breno_M_Freitas_Malpighia_emarginata_Brazil_2011","AC3","Netting","Centris tarsata","species","other_wild_bees",4,600,NA,NA,"6 subplots per site,	150 m, 4 sampling rounds in one season",NA
"Breno_M_Freitas_Malpighia_emarginata_Brazil_2011","AC3","Netting","Centris tarsata","species","other_wild_bees",2,600,NA,NA,"6 subplots per site,	150 m, 4 sampling rounds in one season",NA
"Breno_M_Freitas_Malpighia_emarginata_Brazil_2011","AC3","Netting","Centris tarsata","species","other_wild_bees",2,600,NA,NA,"6 subplots per site,	150 m, 4 sampling rounds in one season",NA
"Breno_M_Freitas_Malpighia_emarginata_Brazil_2011","AC4","Netting","Centris tarsata","species","other_wild_bees",3,600,NA,NA,"6 subplots per site,	150 m, 4 sampling rounds in one season",NA
"Breno_M_Freitas_Malpighia_emarginata_Brazil_2011","AC4","Netting","Centris tarsata","species","other_wild_bees",4,600,NA,NA,"6 subplots per site,	150 m, 4 sampling rounds in one season",NA
"Breno_M_Freitas_Malpighia_emarginata_Brazil_2011","AC4","Netting","Centris tarsata","species","other_wild_bees",3,600,NA,NA,"6 subplots per site,	150 m, 4 sampling rounds in one season",NA
"Breno_M_Freitas_Malpighia_emarginata_Brazil_2011","AC4","Netting","Centris tarsata","species","other_wild_bees",5,600,NA,NA,"6 subplots per site,	150 m, 4 sampling rounds in one season",NA
"Breno_M_Freitas_Malpighia_emarginata_Brazil_2011","AC5","Netting","Centris tarsata","species","other_wild_bees",4,600,NA,NA,"6 subplots per site,	150 m, 4 sampling rounds in one season",NA
"Breno_M_Freitas_Malpighia_emarginata_Brazil_2011","AC5","Netting","Centris tarsata","species","other_wild_bees",4,600,NA,NA,"6 subplots per site,	150 m, 4 sampling rounds in one season",NA
"Breno_M_Freitas_Malpighia_emarginata_Brazil_2011","AC5","Netting","Centris tarsata","species","other_wild_bees",6,600,NA,NA,"6 subplots per site,	150 m, 4 sampling rounds in one season",NA
"Breno_M_Freitas_Malpighia_emarginata_Brazil_2011","AC5","Netting","Centris tarsata","species","other_wild_bees",5,600,NA,NA,"6 subplots per site,	150 m, 4 sampling rounds in one season",NA
"Breno_M_Freitas_Malpighia_emarginata_Brazil_2011","AC6","Netting","Centris tarsata","species","other_wild_bees",4,600,NA,NA,"6 subplots per site,	150 m, 4 sampling rounds in one season",NA
"Breno_M_Freitas_Malpighia_emarginata_Brazil_2011","AC6","Netting","Centris tarsata","species","other_wild_bees",4,600,NA,NA,"6 subplots per site,	150 m, 4 sampling rounds in one season",NA
"Breno_M_Freitas_Malpighia_emarginata_Brazil_2011","AC6","Netting","Centris tarsata","species","other_wild_bees",3,600,NA,NA,"6 subplots per site,	150 m, 4 sampling rounds in one season",NA
"Breno_M_Freitas_Malpighia_emarginata_Brazil_2011","AC6","Netting","Centris tarsata","species","other_wild_bees",6,600,NA,NA,"6 subplots per site,	150 m, 4 sampling rounds in one season",NA
"Breno_M_Freitas_Malpighia_emarginata_Brazil_2011","AC7","Netting","Centris tarsata","species","other_wild_bees",4,600,NA,NA,"6 subplots per site,	150 m, 4 sampling rounds in one season",NA
"Breno_M_Freitas_Malpighia_emarginata_Brazil_2011","AC7","Netting","Centris tarsata","species","other_wild_bees",5,600,NA,NA,"6 subplots per site,	150 m, 4 sampling rounds in one season",NA
"Breno_M_Freitas_Malpighia_emarginata_Brazil_2011","AC7","Netting","Centris tarsata","species","other_wild_bees",3,600,NA,NA,"6 subplots per site,	150 m, 4 sampling rounds in one season",NA
"Breno_M_Freitas_Malpighia_emarginata_Brazil_2011","AC7","Netting","Centris tarsata","species","other_wild_bees",4,600,NA,NA,"6 subplots per site,	150 m, 4 sampling rounds in one season",NA
"Breno_M_Freitas_Malpighia_emarginata_Brazil_2011","AC8","Netting","Centris tarsata","species","other_wild_bees",4,600,NA,NA,"6 subplots per site,	150 m, 4 sampling rounds in one season",NA
"Breno_M_Freitas_Malpighia_emarginata_Brazil_2011","AC8","Netting","Centris tarsata","species","other_wild_bees",4,600,NA,NA,"6 subplots per site,	150 m, 4 sampling rounds in one season",NA
"Breno_M_Freitas_Malpighia_emarginata_Brazil_2011","AC8","Netting","Centris tarsata","species","other_wild_bees",3,600,NA,NA,"6 subplots per site,	150 m, 4 sampling rounds in one season",NA
"Breno_M_Freitas_Malpighia_emarginata_Brazil_2011","AC8","Netting","Centris tarsata","species","other_wild_bees",5,600,NA,NA,"6 subplots per site,	150 m, 4 sampling rounds in one season",NA
"Breno_M_Freitas_Malpighia_emarginata_Brazil_2011","AC1","Netting","Centris sponsa","species","other_wild_bees",1,600,NA,NA,"6 subplots per site,	150 m, 4 sampling rounds in one season",NA
"Breno_M_Freitas_Malpighia_emarginata_Brazil_2011","AC2","Netting","Centris sponsa","species","other_wild_bees",2,600,NA,NA,"6 subplots per site,	150 m, 4 sampling rounds in one season",NA
"Breno_M_Freitas_Malpighia_emarginata_Brazil_2011","AC4","Netting","Centris sponsa","species","other_wild_bees",1,600,NA,NA,"6 subplots per site,	150 m, 4 sampling rounds in one season",NA
"Breno_M_Freitas_Malpighia_emarginata_Brazil_2011","AC4","Netting","Centris sponsa","species","other_wild_bees",1,600,NA,NA,"6 subplots per site,	150 m, 4 sampling rounds in one season",NA
"Breno_M_Freitas_Malpighia_emarginata_Brazil_2011","AC5","Netting","Centris sponsa","species","other_wild_bees",2,600,NA,NA,"6 subplots per site,	150 m, 4 sampling rounds in one season",NA
"Breno_M_Freitas_Malpighia_emarginata_Brazil_2011","AC7","Netting","Centris sponsa","species","other_wild_bees",1,600,NA,NA,"6 subplots per site,	150 m, 4 sampling rounds in one season",NA
"Breno_M_Freitas_Malpighia_emarginata_Brazil_2011","AC2","Netting","Xylocopa cearensis","species","other_wild_bees",1,600,NA,NA,"6 subplots per site,	150 m, 4 sampling rounds in one season",NA
"Breno_M_Freitas_Malpighia_emarginata_Brazil_2011","AC4","Netting","Xylocopa cearensis","species","other_wild_bees",1,600,NA,NA,"6 subplots per site,	150 m, 4 sampling rounds in one season",NA
"Breno_M_Freitas_Malpighia_emarginata_Brazil_2011","AC5","Netting","Xylocopa cearensis","species","other_wild_bees",1,600,NA,NA,"6 subplots per site,	150 m, 4 sampling rounds in one season",NA
"Breno_M_Freitas_Malpighia_emarginata_Brazil_2011","AC6","Netting","Xylocopa cearensis","species","other_wild_bees",1,600,NA,NA,"6 subplots per site,	150 m, 4 sampling rounds in one season",NA
"Breno_M_Freitas_Malpighia_emarginata_Brazil_2011","AC7","Netting","Xylocopa cearensis","species","other_wild_bees",1,600,NA,NA,"6 subplots per site,	150 m, 4 sampling rounds in one season",NA
"Breno_M_Freitas_Malpighia_emarginata_Brazil_2011","AC8","Netting","Xylocopa cearensis","species","other_wild_bees",1,600,NA,NA,"6 subplots per site,	150 m, 4 sampling rounds in one season",NA
"Breno_M_Freitas_Malpighia_emarginata_Brazil_2011","AC1","Netting","Trigona spinipes","species","other_wild_bees",11,600,NA,NA,"6 subplots per site,	150 m, 4 sampling rounds in one season",NA
"Breno_M_Freitas_Malpighia_emarginata_Brazil_2011","AC1","Netting","Trigona spinipes","species","other_wild_bees",7,600,NA,NA,"6 subplots per site,	150 m, 4 sampling rounds in one season",NA
"Breno_M_Freitas_Malpighia_emarginata_Brazil_2011","AC1","Netting","Trigona spinipes","species","other_wild_bees",6,600,NA,NA,"6 subplots per site,	150 m, 4 sampling rounds in one season",NA
"Breno_M_Freitas_Malpighia_emarginata_Brazil_2011","AC1","Netting","Trigona spinipes","species","other_wild_bees",9,600,NA,NA,"6 subplots per site,	150 m, 4 sampling rounds in one season",NA
"Breno_M_Freitas_Malpighia_emarginata_Brazil_2011","AC2","Netting","Trigona spinipes","species","other_wild_bees",10,600,NA,NA,"6 subplots per site,	150 m, 4 sampling rounds in one season",NA
"Breno_M_Freitas_Malpighia_emarginata_Brazil_2011","AC2","Netting","Trigona spinipes","species","other_wild_bees",9,600,NA,NA,"6 subplots per site,	150 m, 4 sampling rounds in one season",NA
"Breno_M_Freitas_Malpighia_emarginata_Brazil_2011","AC2","Netting","Trigona spinipes","species","other_wild_bees",7,600,NA,NA,"6 subplots per site,	150 m, 4 sampling rounds in one season",NA
"Breno_M_Freitas_Malpighia_emarginata_Brazil_2011","AC2","Netting","Trigona spinipes","species","other_wild_bees",12,600,NA,NA,"6 subplots per site,	150 m, 4 sampling rounds in one season",NA
"Breno_M_Freitas_Malpighia_emarginata_Brazil_2011","AC3","Netting","Trigona spinipes","species","other_wild_bees",5,600,NA,NA,"6 subplots per site,	150 m, 4 sampling rounds in one season",NA
"Breno_M_Freitas_Malpighia_emarginata_Brazil_2011","AC3","Netting","Trigona spinipes","species","other_wild_bees",9,600,NA,NA,"6 subplots per site,	150 m, 4 sampling rounds in one season",NA
"Breno_M_Freitas_Malpighia_emarginata_Brazil_2011","AC3","Netting","Trigona spinipes","species","other_wild_bees",11,600,NA,NA,"6 subplots per site,	150 m, 4 sampling rounds in one season",NA
"Breno_M_Freitas_Malpighia_emarginata_Brazil_2011","AC3","Netting","Trigona spinipes","species","other_wild_bees",7,600,NA,NA,"6 subplots per site,	150 m, 4 sampling rounds in one season",NA
"Breno_M_Freitas_Malpighia_emarginata_Brazil_2011","AC4","Netting","Trigona spinipes","species","other_wild_bees",14,600,NA,NA,"6 subplots per site,	150 m, 4 sampling rounds in one season",NA
"Breno_M_Freitas_Malpighia_emarginata_Brazil_2011","AC4","Netting","Trigona spinipes","species","other_wild_bees",20,600,NA,NA,"6 subplots per site,	150 m, 4 sampling rounds in one season",NA
"Breno_M_Freitas_Malpighia_emarginata_Brazil_2011","AC4","Netting","Trigona spinipes","species","other_wild_bees",14,600,NA,NA,"6 subplots per site,	150 m, 4 sampling rounds in one season",NA
"Breno_M_Freitas_Malpighia_emarginata_Brazil_2011","AC4","Netting","Trigona spinipes","species","other_wild_bees",18,600,NA,NA,"6 subplots per site,	150 m, 4 sampling rounds in one season",NA
"Breno_M_Freitas_Malpighia_emarginata_Brazil_2011","AC5","Netting","Trigona spinipes","species","other_wild_bees",13,600,NA,NA,"6 subplots per site,	150 m, 4 sampling rounds in one season",NA
"Breno_M_Freitas_Malpighia_emarginata_Brazil_2011","AC5","Netting","Trigona spinipes","species","other_wild_bees",10,600,NA,NA,"6 subplots per site,	150 m, 4 sampling rounds in one season",NA
"Breno_M_Freitas_Malpighia_emarginata_Brazil_2011","AC5","Netting","Trigona spinipes","species","other_wild_bees",17,600,NA,NA,"6 subplots per site,	150 m, 4 sampling rounds in one season",NA
"Breno_M_Freitas_Malpighia_emarginata_Brazil_2011","AC5","Netting","Trigona spinipes","species","other_wild_bees",14,600,NA,NA,"6 subplots per site,	150 m, 4 sampling rounds in one season",NA
"Breno_M_Freitas_Malpighia_emarginata_Brazil_2011","AC6","Netting","Trigona spinipes","species","other_wild_bees",18,600,NA,NA,"6 subplots per site,	150 m, 4 sampling rounds in one season",NA
"Breno_M_Freitas_Malpighia_emarginata_Brazil_2011","AC6","Netting","Trigona spinipes","species","other_wild_bees",23,600,NA,NA,"6 subplots per site,	150 m, 4 sampling rounds in one season",NA
"Breno_M_Freitas_Malpighia_emarginata_Brazil_2011","AC6","Netting","Trigona spinipes","species","other_wild_bees",17,600,NA,NA,"6 subplots per site,	150 m, 4 sampling rounds in one season",NA
"Breno_M_Freitas_Malpighia_emarginata_Brazil_2011","AC6","Netting","Trigona spinipes","species","other_wild_bees",13,600,NA,NA,"6 subplots per site,	150 m, 4 sampling rounds in one season",NA
"Breno_M_Freitas_Malpighia_emarginata_Brazil_2011","AC7","Netting","Trigona spinipes","species","other_wild_bees",5,600,NA,NA,"6 subplots per site,	150 m, 4 sampling rounds in one season",NA
"Breno_M_Freitas_Malpighia_emarginata_Brazil_2011","AC7","Netting","Trigona spinipes","species","other_wild_bees",9,600,NA,NA,"6 subplots per site,	150 m, 4 sampling rounds in one season",NA
"Breno_M_Freitas_Malpighia_emarginata_Brazil_2011","AC7","Netting","Trigona spinipes","species","other_wild_bees",11,600,NA,NA,"6 subplots per site,	150 m, 4 sampling rounds in one season",NA
"Breno_M_Freitas_Malpighia_emarginata_Brazil_2011","AC7","Netting","Trigona spinipes","species","other_wild_bees",10,600,NA,NA,"6 subplots per site,	150 m, 4 sampling rounds in one season",NA
"Breno_M_Freitas_Malpighia_emarginata_Brazil_2011","AC8","Netting","Trigona spinipes","species","other_wild_bees",7,600,NA,NA,"6 subplots per site,	150 m, 4 sampling rounds in one season",NA
"Breno_M_Freitas_Malpighia_emarginata_Brazil_2011","AC8","Netting","Trigona spinipes","species","other_wild_bees",5,600,NA,NA,"6 subplots per site,	150 m, 4 sampling rounds in one season",NA
"Breno_M_Freitas_Malpighia_emarginata_Brazil_2011","AC8","Netting","Trigona spinipes","species","other_wild_bees",6,600,NA,NA,"6 subplots per site,	150 m, 4 sampling rounds in one season",NA
"Breno_M_Freitas_Malpighia_emarginata_Brazil_2011","AC8","Netting","Trigona spinipes","species","other_wild_bees",8,600,NA,NA,"6 subplots per site,	150 m, 4 sampling rounds in one season",NA
"Bryony_Willcox_Mangifera_indica_Australia_2016","mango4","observation","Allobacha sp.","genera","syrphids",1,100,NA,NA,"one 50m observation transect (consisting of 10-11 trees) per site, 2-3 sampling rounds in one season",NA
"Bryony_Willcox_Mangifera_indica_Australia_2016","mango9","observation","Allobacha sp.","genera","syrphids",3,100,NA,NA,"one 50m observation transect (consisting of 10-11 trees) per site, 2-3 sampling rounds in one season",NA
"Bryony_Willcox_Mangifera_indica_Australia_2016","mango10","observation","Allobacha sp.","genera","syrphids",3,100,NA,NA,"one 50m observation transect (consisting of 10-11 trees) per site, 2-3 sampling rounds in one season",NA
"Bryony_Willcox_Mangifera_indica_Australia_2016","mango2","observation","Allograpta sp.","genera","syrphids",4,100,NA,NA,"one 50m observation transect (consisting of 10-11 trees) per site, 2-3 sampling rounds in one season",NA
"Bryony_Willcox_Mangifera_indica_Australia_2016","mango3","observation","Allograpta sp.","genera","syrphids",4,100,NA,NA,"one 50m observation transect (consisting of 10-11 trees) per site, 2-3 sampling rounds in one season",NA
"Bryony_Willcox_Mangifera_indica_Australia_2016","mango4","observation","Allograpta sp.","genera","syrphids",12,100,NA,NA,"one 50m observation transect (consisting of 10-11 trees) per site, 2-3 sampling rounds in one season",NA
"Bryony_Willcox_Mangifera_indica_Australia_2016","mango5","observation","Allograpta sp.","genera","syrphids",5,100,NA,NA,"one 50m observation transect (consisting of 10-11 trees) per site, 2-3 sampling rounds in one season",NA
"Bryony_Willcox_Mangifera_indica_Australia_2016","mango6","observation","Allograpta sp.","genera","syrphids",31,100,NA,NA,"one 50m observation transect (consisting of 10-11 trees) per site, 2-3 sampling rounds in one season",NA
"Bryony_Willcox_Mangifera_indica_Australia_2016","mango9","observation","Allograpta sp.","genera","syrphids",3,100,NA,NA,"one 50m observation transect (consisting of 10-11 trees) per site, 2-3 sampling rounds in one season",NA
"Bryony_Willcox_Mangifera_indica_Australia_2016","mango10","observation","Allograpta sp.","genera","syrphids",1,100,NA,NA,"one 50m observation transect (consisting of 10-11 trees) per site, 2-3 sampling rounds in one season",NA
"Bryony_Willcox_Mangifera_indica_Australia_2016","mango7","observation","Formicidae sp 2","morphospecies","non_bee_hymenoptera",43,100,NA,NA,"one 50m observation transect (consisting of 10-11 trees) per site, 2-3 sampling rounds in one season",NA
"Bryony_Willcox_Mangifera_indica_Australia_2016","mango10","observation","Apis cerana","species","honeybees",5,100,NA,NA,"one 50m observation transect (consisting of 10-11 trees) per site, 2-3 sampling rounds in one season",NA
"Bryony_Willcox_Mangifera_indica_Australia_2016","mango2","observation","Apis mellifera","species","honeybees",58,100,NA,NA,"one 50m observation transect (consisting of 10-11 trees) per site, 2-3 sampling rounds in one season",NA
"Bryony_Willcox_Mangifera_indica_Australia_2016","mango3","observation","Apis mellifera","species","honeybees",71,100,NA,NA,"one 50m observation transect (consisting of 10-11 trees) per site, 2-3 sampling rounds in one season",NA
"Bryony_Willcox_Mangifera_indica_Australia_2016","mango5","observation","Apis mellifera","species","honeybees",95,100,NA,NA,"one 50m observation transect (consisting of 10-11 trees) per site, 2-3 sampling rounds in one season",NA
"Bryony_Willcox_Mangifera_indica_Australia_2016","mango6","observation","Apis mellifera","species","honeybees",55,100,NA,NA,"one 50m observation transect (consisting of 10-11 trees) per site, 2-3 sampling rounds in one season",NA
"Bryony_Willcox_Mangifera_indica_Australia_2016","mango8","observation","Apis mellifera","species","honeybees",39,100,NA,NA,"one 50m observation transect (consisting of 10-11 trees) per site, 2-3 sampling rounds in one season",NA
"Bryony_Willcox_Mangifera_indica_Australia_2016","mango9","observation","Apis mellifera","species","honeybees",28,100,NA,NA,"one 50m observation transect (consisting of 10-11 trees) per site, 2-3 sampling rounds in one season",NA
"Bryony_Willcox_Mangifera_indica_Australia_2016","mango10","observation","Apis mellifera","species","honeybees",22,100,NA,NA,"one 50m observation transect (consisting of 10-11 trees) per site, 2-3 sampling rounds in one season",NA
"Bryony_Willcox_Mangifera_indica_Australia_2016","mango5","observation","Hymenoptera sp 2","morphospecies","non_bee_hymenoptera",51,100,NA,NA,"one 50m observation transect (consisting of 10-11 trees) per site, 2-3 sampling rounds in one season",NA
"Bryony_Willcox_Mangifera_indica_Australia_2016","mango7","observation","Hymenoptera sp 2","morphospecies","non_bee_hymenoptera",1,100,NA,NA,"one 50m observation transect (consisting of 10-11 trees) per site, 2-3 sampling rounds in one season",NA
"Bryony_Willcox_Mangifera_indica_Australia_2016","mango2","observation","Chrysomya sp","genera","other_flies",65,100,NA,NA,"one 50m observation transect (consisting of 10-11 trees) per site, 2-3 sampling rounds in one season",NA
"Bryony_Willcox_Mangifera_indica_Australia_2016","mango3","observation","Chrysomya sp","genera","other_flies",156,100,NA,NA,"one 50m observation transect (consisting of 10-11 trees) per site, 2-3 sampling rounds in one season",NA
"Bryony_Willcox_Mangifera_indica_Australia_2016","mango4","observation","Chrysomya sp","genera","other_flies",125,100,NA,NA,"one 50m observation transect (consisting of 10-11 trees) per site, 2-3 sampling rounds in one season",NA
"Bryony_Willcox_Mangifera_indica_Australia_2016","mango5","observation","Chrysomya sp","genera","other_flies",5,100,NA,NA,"one 50m observation transect (consisting of 10-11 trees) per site, 2-3 sampling rounds in one season",NA
"Bryony_Willcox_Mangifera_indica_Australia_2016","mango6","observation","Chrysomya sp","genera","other_flies",27,100,NA,NA,"one 50m observation transect (consisting of 10-11 trees) per site, 2-3 sampling rounds in one season",NA
"Bryony_Willcox_Mangifera_indica_Australia_2016","mango7","observation","Chrysomya sp","genera","other_flies",2,100,NA,NA,"one 50m observation transect (consisting of 10-11 trees) per site, 2-3 sampling rounds in one season",NA
"Bryony_Willcox_Mangifera_indica_Australia_2016","mango8","observation","Chrysomya sp","genera","other_flies",1,100,NA,NA,"one 50m observation transect (consisting of 10-11 trees) per site, 2-3 sampling rounds in one season",NA
"Bryony_Willcox_Mangifera_indica_Australia_2016","mango9","observation","Chrysomya sp","genera","other_flies",20,100,NA,NA,"one 50m observation transect (consisting of 10-11 trees) per site, 2-3 sampling rounds in one season",NA
"Bryony_Willcox_Mangifera_indica_Australia_2016","mango10","observation","Chrysomya sp","genera","other_flies",100,100,NA,NA,"one 50m observation transect (consisting of 10-11 trees) per site, 2-3 sampling rounds in one season",NA
"Bryony_Willcox_Mangifera_indica_Australia_2016","mango4","observation","Coccinella sp 1","genera","beetles",1,100,NA,NA,"one 50m observation transect (consisting of 10-11 trees) per site, 2-3 sampling rounds in one season",NA
"Bryony_Willcox_Mangifera_indica_Australia_2016","mango7","observation","Coccinella sp 2","genera","beetles",1,100,NA,NA,"one 50m observation transect (consisting of 10-11 trees) per site, 2-3 sampling rounds in one season",NA
"Bryony_Willcox_Mangifera_indica_Australia_2016","mango9","observation","Curculionidae sp 1","morphospecies","beetles",1,100,NA,NA,"one 50m observation transect (consisting of 10-11 trees) per site, 2-3 sampling rounds in one season",NA
"Bryony_Willcox_Mangifera_indica_Australia_2016","mango10","observation","Curculionidae sp 2","morphospecies","beetles",2,100,NA,NA,"one 50m observation transect (consisting of 10-11 trees) per site, 2-3 sampling rounds in one season",NA
"Bryony_Willcox_Mangifera_indica_Australia_2016","mango2","observation","Lucillia sp","genera","other_flies",3,100,NA,NA,"one 50m observation transect (consisting of 10-11 trees) per site, 2-3 sampling rounds in one season",NA
"Bryony_Willcox_Mangifera_indica_Australia_2016","mango3","observation","Lucillia sp","genera","other_flies",5,100,NA,NA,"one 50m observation transect (consisting of 10-11 trees) per site, 2-3 sampling rounds in one season",NA
"Bryony_Willcox_Mangifera_indica_Australia_2016","mango4","observation","Lucillia sp","genera","other_flies",37,100,NA,NA,"one 50m observation transect (consisting of 10-11 trees) per site, 2-3 sampling rounds in one season",NA
"Bryony_Willcox_Mangifera_indica_Australia_2016","mango5","observation","Lucillia sp","genera","other_flies",1,100,NA,NA,"one 50m observation transect (consisting of 10-11 trees) per site, 2-3 sampling rounds in one season",NA
"Bryony_Willcox_Mangifera_indica_Australia_2016","mango7","observation","Lucillia sp","genera","other_flies",2,100,NA,NA,"one 50m observation transect (consisting of 10-11 trees) per site, 2-3 sampling rounds in one season",NA
"Bryony_Willcox_Mangifera_indica_Australia_2016","mango8","observation","Lucillia sp","genera","other_flies",1,100,NA,NA,"one 50m observation transect (consisting of 10-11 trees) per site, 2-3 sampling rounds in one season",NA
"Bryony_Willcox_Mangifera_indica_Australia_2016","mango9","observation","Lucillia sp","genera","other_flies",3,100,NA,NA,"one 50m observation transect (consisting of 10-11 trees) per site, 2-3 sampling rounds in one season",NA
"Bryony_Willcox_Mangifera_indica_Australia_2016","mango10","observation","Lucillia sp","genera","other_flies",1,100,NA,NA,"one 50m observation transect (consisting of 10-11 trees) per site, 2-3 sampling rounds in one season",NA
"Bryony_Willcox_Mangifera_indica_Australia_2016","mango5","observation","Melanostoma sp.","genera","syrphids",1,100,NA,NA,"one 50m observation transect (consisting of 10-11 trees) per site, 2-3 sampling rounds in one season",NA
"Bryony_Willcox_Mangifera_indica_Australia_2016","mango6","observation","Melanostoma sp.","genera","syrphids",1,100,NA,NA,"one 50m observation transect (consisting of 10-11 trees) per site, 2-3 sampling rounds in one season",NA
"Bryony_Willcox_Mangifera_indica_Australia_2016","mango2","observation","Mesembrius sp","genera","syrphids",6,100,NA,NA,"one 50m observation transect (consisting of 10-11 trees) per site, 2-3 sampling rounds in one season",NA
"Bryony_Willcox_Mangifera_indica_Australia_2016","mango3","observation","Mesembrius sp","genera","syrphids",51,100,NA,NA,"one 50m observation transect (consisting of 10-11 trees) per site, 2-3 sampling rounds in one season",NA
"Bryony_Willcox_Mangifera_indica_Australia_2016","mango5","observation","Mesembrius sp","genera","syrphids",4,100,NA,NA,"one 50m observation transect (consisting of 10-11 trees) per site, 2-3 sampling rounds in one season",NA
"Bryony_Willcox_Mangifera_indica_Australia_2016","mango6","observation","Mesembrius sp","genera","syrphids",12,100,NA,NA,"one 50m observation transect (consisting of 10-11 trees) per site, 2-3 sampling rounds in one season",NA
"Bryony_Willcox_Mangifera_indica_Australia_2016","mango8","observation","Mesembrius sp","genera","syrphids",2,100,NA,NA,"one 50m observation transect (consisting of 10-11 trees) per site, 2-3 sampling rounds in one season",NA
"Bryony_Willcox_Mangifera_indica_Australia_2016","mango9","observation","Mesembrius sp","genera","syrphids",13,100,NA,NA,"one 50m observation transect (consisting of 10-11 trees) per site, 2-3 sampling rounds in one season",NA
"Bryony_Willcox_Mangifera_indica_Australia_2016","mango10","observation","Mesembrius sp","genera","syrphids",3,100,NA,NA,"one 50m observation transect (consisting of 10-11 trees) per site, 2-3 sampling rounds in one season",NA
"Bryony_Willcox_Mangifera_indica_Australia_2016","mango2","observation","Musca domestica","species","other_flies",2,100,NA,NA,"one 50m observation transect (consisting of 10-11 trees) per site, 2-3 sampling rounds in one season",NA
"Bryony_Willcox_Mangifera_indica_Australia_2016","mango5","observation","Musca domestica","species","other_flies",1,100,NA,NA,"one 50m observation transect (consisting of 10-11 trees) per site, 2-3 sampling rounds in one season",NA
"Bryony_Willcox_Mangifera_indica_Australia_2016","mango6","observation","Musca domestica","species","other_flies",1,100,NA,NA,"one 50m observation transect (consisting of 10-11 trees) per site, 2-3 sampling rounds in one season",NA
"Bryony_Willcox_Mangifera_indica_Australia_2016","mango7","observation","Musca domestica","species","other_flies",2,100,NA,NA,"one 50m observation transect (consisting of 10-11 trees) per site, 2-3 sampling rounds in one season",NA
"Bryony_Willcox_Mangifera_indica_Australia_2016","mango9","observation","Musca domestica","species","other_flies",3,100,NA,NA,"one 50m observation transect (consisting of 10-11 trees) per site, 2-3 sampling rounds in one season",NA
"Bryony_Willcox_Mangifera_indica_Australia_2016","mango10","observation","Musca domestica","species","other_flies",1,100,NA,NA,"one 50m observation transect (consisting of 10-11 trees) per site, 2-3 sampling rounds in one season",NA
"Bryony_Willcox_Mangifera_indica_Australia_2016","mango4","observation","Nezara viridula","species","other",1,100,NA,NA,"one 50m observation transect (consisting of 10-11 trees) per site, 2-3 sampling rounds in one season",NA
"Bryony_Willcox_Mangifera_indica_Australia_2016","mango10","observation","Nezara viridula","species","other",3,100,NA,NA,"one 50m observation transect (consisting of 10-11 trees) per site, 2-3 sampling rounds in one season",NA
"Bryony_Willcox_Mangifera_indica_Australia_2016","mango2","observation","Stomorhina discolour","species","other_flies",46,100,NA,NA,"one 50m observation transect (consisting of 10-11 trees) per site, 2-3 sampling rounds in one season",NA
"Bryony_Willcox_Mangifera_indica_Australia_2016","mango3","observation","Stomorhina discolour","species","other_flies",220,100,NA,NA,"one 50m observation transect (consisting of 10-11 trees) per site, 2-3 sampling rounds in one season",NA
"Bryony_Willcox_Mangifera_indica_Australia_2016","mango4","observation","Stomorhina discolour","species","other_flies",17,100,NA,NA,"one 50m observation transect (consisting of 10-11 trees) per site, 2-3 sampling rounds in one season",NA
"Bryony_Willcox_Mangifera_indica_Australia_2016","mango5","observation","Stomorhina discolour","species","other_flies",7,100,NA,NA,"one 50m observation transect (consisting of 10-11 trees) per site, 2-3 sampling rounds in one season",NA
"Bryony_Willcox_Mangifera_indica_Australia_2016","mango6","observation","Stomorhina discolour","species","other_flies",64,100,NA,NA,"one 50m observation transect (consisting of 10-11 trees) per site, 2-3 sampling rounds in one season",NA
"Bryony_Willcox_Mangifera_indica_Australia_2016","mango7","observation","Stomorhina discolour","species","other_flies",35,100,NA,NA,"one 50m observation transect (consisting of 10-11 trees) per site, 2-3 sampling rounds in one season",NA
"Bryony_Willcox_Mangifera_indica_Australia_2016","mango8","observation","Stomorhina discolour","species","other_flies",10,100,NA,NA,"one 50m observation transect (consisting of 10-11 trees) per site, 2-3 sampling rounds in one season",NA
"Bryony_Willcox_Mangifera_indica_Australia_2016","mango9","observation","Stomorhina discolour","species","other_flies",10,100,NA,NA,"one 50m observation transect (consisting of 10-11 trees) per site, 2-3 sampling rounds in one season",NA
"Bryony_Willcox_Mangifera_indica_Australia_2016","mango10","observation","Stomorhina discolour","species","other_flies",41,100,NA,NA,"one 50m observation transect (consisting of 10-11 trees) per site, 2-3 sampling rounds in one season",NA
"Bryony_Willcox_Mangifera_indica_Australia_2016","mango3","observation","Stomorhina sp 1","genera","other_flies",1,100,NA,NA,"one 50m observation transect (consisting of 10-11 trees) per site, 2-3 sampling rounds in one season",NA
"Bryony_Willcox_Mangifera_indica_Australia_2016","mango2","observation","Stomorhina xanthogaster","species","non_bee_hymenoptera",9,100,NA,NA,"one 50m observation transect (consisting of 10-11 trees) per site, 2-3 sampling rounds in one season",NA
"Bryony_Willcox_Mangifera_indica_Australia_2016","mango3","observation","Stomorhina xanthogaster","species","non_bee_hymenoptera",16,100,NA,NA,"one 50m observation transect (consisting of 10-11 trees) per site, 2-3 sampling rounds in one season",NA
"Bryony_Willcox_Mangifera_indica_Australia_2016","mango4","observation","Stomorhina xanthogaster","species","non_bee_hymenoptera",15,100,NA,NA,"one 50m observation transect (consisting of 10-11 trees) per site, 2-3 sampling rounds in one season",NA
"Bryony_Willcox_Mangifera_indica_Australia_2016","mango5","observation","Stomorhina xanthogaster","species","non_bee_hymenoptera",1,100,NA,NA,"one 50m observation transect (consisting of 10-11 trees) per site, 2-3 sampling rounds in one season",NA
"Bryony_Willcox_Mangifera_indica_Australia_2016","mango6","observation","Stomorhina xanthogaster","species","non_bee_hymenoptera",1,100,NA,NA,"one 50m observation transect (consisting of 10-11 trees) per site, 2-3 sampling rounds in one season",NA
"Bryony_Willcox_Mangifera_indica_Australia_2016","mango7","observation","Stomorhina xanthogaster","species","non_bee_hymenoptera",44,100,NA,NA,"one 50m observation transect (consisting of 10-11 trees) per site, 2-3 sampling rounds in one season",NA
"Bryony_Willcox_Mangifera_indica_Australia_2016","mango8","observation","Stomorhina xanthogaster","species","non_bee_hymenoptera",8,100,NA,NA,"one 50m observation transect (consisting of 10-11 trees) per site, 2-3 sampling rounds in one season",NA
"Bryony_Willcox_Mangifera_indica_Australia_2016","mango9","observation","Stomorhina xanthogaster","species","non_bee_hymenoptera",1,100,NA,NA,"one 50m observation transect (consisting of 10-11 trees) per site, 2-3 sampling rounds in one season",NA
"Bryony_Willcox_Mangifera_indica_Australia_2016","mango2","observation","Syritta sp","genera","syrphids",4,100,NA,NA,"one 50m observation transect (consisting of 10-11 trees) per site, 2-3 sampling rounds in one season",NA
"Bryony_Willcox_Mangifera_indica_Australia_2016","mango3","observation","Syritta sp","genera","syrphids",7,100,NA,NA,"one 50m observation transect (consisting of 10-11 trees) per site, 2-3 sampling rounds in one season",NA
"Bryony_Willcox_Mangifera_indica_Australia_2016","mango4","observation","Syritta sp","genera","syrphids",5,100,NA,NA,"one 50m observation transect (consisting of 10-11 trees) per site, 2-3 sampling rounds in one season",NA
"Bryony_Willcox_Mangifera_indica_Australia_2016","mango5","observation","Syritta sp","genera","syrphids",5,100,NA,NA,"one 50m observation transect (consisting of 10-11 trees) per site, 2-3 sampling rounds in one season",NA
"Bryony_Willcox_Mangifera_indica_Australia_2016","mango6","observation","Syritta sp","genera","syrphids",31,100,NA,NA,"one 50m observation transect (consisting of 10-11 trees) per site, 2-3 sampling rounds in one season",NA
"Bryony_Willcox_Mangifera_indica_Australia_2016","mango7","observation","Syritta sp","genera","syrphids",2,100,NA,NA,"one 50m observation transect (consisting of 10-11 trees) per site, 2-3 sampling rounds in one season",NA
"Bryony_Willcox_Mangifera_indica_Australia_2016","mango8","observation","Syritta sp","genera","syrphids",1,100,NA,NA,"one 50m observation transect (consisting of 10-11 trees) per site, 2-3 sampling rounds in one season",NA
"Bryony_Willcox_Mangifera_indica_Australia_2016","mango9","observation","Syritta sp","genera","syrphids",32,100,NA,NA,"one 50m observation transect (consisting of 10-11 trees) per site, 2-3 sampling rounds in one season",NA
"Bryony_Willcox_Mangifera_indica_Australia_2016","mango10","observation","Syritta sp","genera","syrphids",2,100,NA,NA,"one 50m observation transect (consisting of 10-11 trees) per site, 2-3 sampling rounds in one season",NA
"Bryony_Willcox_Mangifera_indica_Australia_2016","mango2","observation","Tenebrionidae sp","morphospecies","beetles",4,100,NA,NA,"one 50m observation transect (consisting of 10-11 trees) per site, 2-3 sampling rounds in one season",NA
"Bryony_Willcox_Mangifera_indica_Australia_2016","mango4","observation","Tenebrionidae sp","morphospecies","beetles",6,100,NA,NA,"one 50m observation transect (consisting of 10-11 trees) per site, 2-3 sampling rounds in one season",NA
"Bryony_Willcox_Mangifera_indica_Australia_2016","mango6","observation","Tenebrionidae sp","morphospecies","beetles",10,100,NA,NA,"one 50m observation transect (consisting of 10-11 trees) per site, 2-3 sampling rounds in one season",NA
"Bryony_Willcox_Mangifera_indica_Australia_2016","mango7","observation","Tenebrionidae sp","morphospecies","beetles",9,100,NA,NA,"one 50m observation transect (consisting of 10-11 trees) per site, 2-3 sampling rounds in one season",NA
"Bryony_Willcox_Mangifera_indica_Australia_2016","mango9","observation","Tenebrionidae sp","morphospecies","beetles",3,100,NA,NA,"one 50m observation transect (consisting of 10-11 trees) per site, 2-3 sampling rounds in one season",NA
"Bryony_Willcox_Mangifera_indica_Australia_2016","mango10","observation","Tenebrionidae sp","morphospecies","beetles",29,100,NA,NA,"one 50m observation transect (consisting of 10-11 trees) per site, 2-3 sampling rounds in one season",NA
"Bryony_Willcox_Mangifera_indica_Australia_2016","mango2","observation","Tetragonula carbonaria","species","other_wild_bees",7,100,NA,NA,"one 50m observation transect (consisting of 10-11 trees) per site, 2-3 sampling rounds in one season",NA
"Bryony_Willcox_Mangifera_indica_Australia_2016","mango3","observation","Tetragonula carbonaria","species","other_wild_bees",4,100,NA,NA,"one 50m observation transect (consisting of 10-11 trees) per site, 2-3 sampling rounds in one season",NA
"Bryony_Willcox_Mangifera_indica_Australia_2016","mango4","observation","Tetragonula carbonaria","species","other_wild_bees",64,100,NA,NA,"one 50m observation transect (consisting of 10-11 trees) per site, 2-3 sampling rounds in one season",NA
"Bryony_Willcox_Mangifera_indica_Australia_2016","mango5","observation","Tetragonula carbonaria","species","other_wild_bees",51,100,NA,NA,"one 50m observation transect (consisting of 10-11 trees) per site, 2-3 sampling rounds in one season",NA
"Bryony_Willcox_Mangifera_indica_Australia_2016","mango6","observation","Tetragonula carbonaria","species","other_wild_bees",1,100,NA,NA,"one 50m observation transect (consisting of 10-11 trees) per site, 2-3 sampling rounds in one season",NA
"Bryony_Willcox_Mangifera_indica_Australia_2016","mango7","observation","Tetragonula carbonaria","species","other_wild_bees",1,100,NA,NA,"one 50m observation transect (consisting of 10-11 trees) per site, 2-3 sampling rounds in one season",NA
"Bryony_Willcox_Mangifera_indica_Australia_2016","mango8","observation","Tetragonula carbonaria","species","other_wild_bees",138,100,NA,NA,"one 50m observation transect (consisting of 10-11 trees) per site, 2-3 sampling rounds in one season",NA
"Bryony_Willcox_Mangifera_indica_Australia_2016","mango9","observation","Tetragonula carbonaria","species","other_wild_bees",289,100,NA,NA,"one 50m observation transect (consisting of 10-11 trees) per site, 2-3 sampling rounds in one season",NA
"Bryony_Willcox_Mangifera_indica_Australia_2016","mango10","observation","Tetragonula carbonaria","species","other_wild_bees",4,100,NA,NA,"one 50m observation transect (consisting of 10-11 trees) per site, 2-3 sampling rounds in one season",NA
"Bryony_Willcox_Mangifera_indica_Australia_2016","mango4","observation","Hymenoptera sp 3","morphospecies","non_bee_hymenoptera",1,100,NA,NA,"one 50m observation transect (consisting of 10-11 trees) per site, 2-3 sampling rounds in one season",NA
"Bryony_Willcox_Mangifera_indica_Australia_2016","mango6","observation","Tiphiidae sp 1","morphospecies","non_bee_hymenoptera",1,100,NA,NA,"one 50m observation transect (consisting of 10-11 trees) per site, 2-3 sampling rounds in one season",NA
"Bryony_Willcox_Mangifera_indica_Australia_2016","mango2","observation","Diptera sp 1","morphospecies","other_flies",1,100,NA,NA,"one 50m observation transect (consisting of 10-11 trees) per site, 2-3 sampling rounds in one season",NA
"Bryony_Willcox_Mangifera_indica_Australia_2016","mango3","observation","Diptera sp 1","morphospecies","other_flies",1,100,NA,NA,"one 50m observation transect (consisting of 10-11 trees) per site, 2-3 sampling rounds in one season",NA
"Bryony_Willcox_Mangifera_indica_Australia_2016","mango6","observation","Diptera sp 1","morphospecies","other_flies",2,100,NA,NA,"one 50m observation transect (consisting of 10-11 trees) per site, 2-3 sampling rounds in one season",NA
"Bryony_Willcox_Mangifera_indica_Australia_2016","mango4","observation","Diptera sp 2","morphospecies","other_flies",4,100,NA,NA,"one 50m observation transect (consisting of 10-11 trees) per site, 2-3 sampling rounds in one season",NA
"Bryony_Willcox_Mangifera_indica_Australia_2016","mango6","observation","Diptera sp 2","morphospecies","other_flies",3,100,NA,NA,"one 50m observation transect (consisting of 10-11 trees) per site, 2-3 sampling rounds in one season",NA
"Bryony_Willcox_Mangifera_indica_Australia_2016","mango2","observation","Diptera sp 3","morphospecies","other_flies",1,100,NA,NA,"one 50m observation transect (consisting of 10-11 trees) per site, 2-3 sampling rounds in one season",NA
"Bryony_Willcox_Mangifera_indica_Australia_2016","mango4","observation","Diptera sp 3","morphospecies","other_flies",1,100,NA,NA,"one 50m observation transect (consisting of 10-11 trees) per site, 2-3 sampling rounds in one season",NA
"Bryony_Willcox_Mangifera_indica_Australia_2016","mango2","observation","Monolepta australis","species","beetles",1,100,NA,NA,"one 50m observation transect (consisting of 10-11 trees) per site, 2-3 sampling rounds in one season",NA
"Bryony_Willcox_Mangifera_indica_Australia_2016","mango6","observation","Monolepta australis","species","beetles",1,100,NA,NA,"one 50m observation transect (consisting of 10-11 trees) per site, 2-3 sampling rounds in one season",NA
"Bryony_Willcox_Mangifera_indica_Australia_2016","mango4","observation","Arctiidae sp 1","morphospecies","lepidoptera",1,100,NA,NA,"one 50m observation transect (consisting of 10-11 trees) per site, 2-3 sampling rounds in one season",NA
"Bryony_Willcox_Mangifera_indica_Australia_2016","mango9","observation","Arctiidae sp 1","morphospecies","lepidoptera",1,100,NA,NA,"one 50m observation transect (consisting of 10-11 trees) per site, 2-3 sampling rounds in one season",NA
"Bryony_Willcox_Mangifera_indica_Australia_2016","mango10","observation","Arctiidae sp 1","morphospecies","lepidoptera",6,100,NA,NA,"one 50m observation transect (consisting of 10-11 trees) per site, 2-3 sampling rounds in one season",NA
"Bryony_Willcox_Mangifera_indica_Australia_2016","mango5","observation","Diptera sp 4","morphospecies","other_flies",1,100,NA,NA,"one 50m observation transect (consisting of 10-11 trees) per site, 2-3 sampling rounds in one season",NA
"Bryony_Willcox_Mangifera_indica_Australia_2016","mango6","observation","Diptera sp 4","morphospecies","other_flies",1,100,NA,NA,"one 50m observation transect (consisting of 10-11 trees) per site, 2-3 sampling rounds in one season",NA
"Bryony_Willcox_Mangifera_indica_Australia_2016","mango9","observation","Diptera sp 4","morphospecies","other_flies",1,100,NA,NA,"one 50m observation transect (consisting of 10-11 trees) per site, 2-3 sampling rounds in one season",NA
"Bryony_Willcox_Mangifera_indica_Australia_2016","mango4","observation","Diptera sp 5","morphospecies","other_flies",5,100,NA,NA,"one 50m observation transect (consisting of 10-11 trees) per site, 2-3 sampling rounds in one season",NA
"Bryony_Willcox_Mangifera_indica_Australia_2016","mango6","observation","Diptera sp 5","morphospecies","other_flies",9,100,NA,NA,"one 50m observation transect (consisting of 10-11 trees) per site, 2-3 sampling rounds in one season",NA
"Bryony_Willcox_Mangifera_indica_Australia_2016","mango9","observation","Diptera sp 5","morphospecies","other_flies",1,100,NA,NA,"one 50m observation transect (consisting of 10-11 trees) per site, 2-3 sampling rounds in one season",NA
"Bryony_Willcox_Mangifera_indica_Australia_2016","mango10","observation","Diptera sp 5","morphospecies","other_flies",2,100,NA,NA,"one 50m observation transect (consisting of 10-11 trees) per site, 2-3 sampling rounds in one season",NA
"Bryony_Willcox_Mangifera_indica_Australia_2016","mango6","observation","Hymenoptera sp 4","morphospecies","non_bee_hymenoptera",1,100,NA,NA,"one 50m observation transect (consisting of 10-11 trees) per site, 2-3 sampling rounds in one season",NA
"Bryony_Willcox_Mangifera_indica_Australia_2016","mango6","observation","Hymenoptera sp 5","morphospecies","non_bee_hymenoptera",1,100,NA,NA,"one 50m observation transect (consisting of 10-11 trees) per site, 2-3 sampling rounds in one season",NA
"Bryony_Willcox_Mangifera_indica_Australia_2016","mango6","observation","Chrysididae sp 1","morphospecies","non_bee_hymenoptera",1,100,NA,NA,"one 50m observation transect (consisting of 10-11 trees) per site, 2-3 sampling rounds in one season",NA
"Bryony_Willcox_Mangifera_indica_Australia_2016","mango6","observation","Xylocopa sp 1","genera","other_wild_bees",1,100,NA,NA,"one 50m observation transect (consisting of 10-11 trees) per site, 2-3 sampling rounds in one season",NA
"Bryony_Willcox_Mangifera_indica_Australia_2016","mango6","observation","Diptera sp 6","morphospecies","other_flies",1,100,NA,NA,"one 50m observation transect (consisting of 10-11 trees) per site, 2-3 sampling rounds in one season",NA
"Bryony_Willcox_Mangifera_indica_Australia_2016","mango10","observation","Diptera sp 6","morphospecies","other_flies",1,100,NA,NA,"one 50m observation transect (consisting of 10-11 trees) per site, 2-3 sampling rounds in one season",NA
"Bryony_Willcox_Mangifera_indica_Australia_2016","mango 6","observation","Diptera sp 7","morphospecies","other_flies",1,100,NA,NA,"one 50m observation transect (consisting of 10-11 trees) per site, 2-3 sampling rounds in one season",NA
"Bryony_Willcox_Mangifera_indica_Australia_2016","mango8","observation","Diptera sp 7","morphospecies","other_flies",1,100,NA,NA,"one 50m observation transect (consisting of 10-11 trees) per site, 2-3 sampling rounds in one season",NA
"Bryony_Willcox_Mangifera_indica_Australia_2016","mango6","observation","Hymenoptera sp 6","morphospecies","non_bee_hymenoptera",1,100,NA,NA,"one 50m observation transect (consisting of 10-11 trees) per site, 2-3 sampling rounds in one season",NA
"Bryony_Willcox_Mangifera_indica_Australia_2016","mango6","observation","Hymenoptera sp 7","morphospecies","non_bee_hymenoptera",1,100,NA,NA,"one 50m observation transect (consisting of 10-11 trees) per site, 2-3 sampling rounds in one season",NA
"Bryony_Willcox_Mangifera_indica_Australia_2016","mango6","observation","Coleoptera sp 1","morphospecies","beetles",2,100,NA,NA,"one 50m observation transect (consisting of 10-11 trees) per site, 2-3 sampling rounds in one season",NA
"Bryony_Willcox_Mangifera_indica_Australia_2016","mango6","observation","Diptera sp 8","morphospecies","other_flies",2,100,NA,NA,"one 50m observation transect (consisting of 10-11 trees) per site, 2-3 sampling rounds in one season",NA
"Bryony_Willcox_Mangifera_indica_Australia_2016","mango9","observation","Hymenoptera sp 8","morphospecies","non_bee_hymenoptera",2,100,NA,NA,"one 50m observation transect (consisting of 10-11 trees) per site, 2-3 sampling rounds in one season",NA
"Bryony_Willcox_Mangifera_indica_Australia_2016","mango9","observation","Lepidoptera sp 1","morphospecies","lepidoptera",3,100,NA,NA,"one 50m observation transect (consisting of 10-11 trees) per site, 2-3 sampling rounds in one season",NA
"Bryony_Willcox_Mangifera_indica_Australia_2016","mango10","observation","Tipulidae sp 1","morphospecies","other_flies",8,100,NA,NA,"one 50m observation transect (consisting of 10-11 trees) per site, 2-3 sampling rounds in one season",NA
"Bryony_Willcox_Mangifera_indica_Australia_2016","mango3","observation","Diptera sp 9","morphospecies","other_flies",1,100,NA,NA,"one 50m observation transect (consisting of 10-11 trees) per site, 2-3 sampling rounds in one season",NA
"Bryony_Willcox_Mangifera_indica_Australia_2016","mango6","observation","Diptera sp 9","morphospecies","other_flies",1,100,NA,NA,"one 50m observation transect (consisting of 10-11 trees) per site, 2-3 sampling rounds in one season",NA
"Bryony_Willcox_Mangifera_indica_Australia_2016","mango8","observation","Diptera sp 9","morphospecies","other_flies",2,100,NA,NA,"one 50m observation transect (consisting of 10-11 trees) per site, 2-3 sampling rounds in one season",NA
"Bryony_Willcox_Mangifera_indica_Australia_2016","mango9","observation","Diptera sp 9","morphospecies","other_flies",1,100,NA,NA,"one 50m observation transect (consisting of 10-11 trees) per site, 2-3 sampling rounds in one season",NA
"Bryony_Willcox_Mangifera_indica_Australia_2016","mango10","observation","Diptera sp 9","morphospecies","other_flies",6,100,NA,NA,"one 50m observation transect (consisting of 10-11 trees) per site, 2-3 sampling rounds in one season",NA
"Bryony_Willcox_Mangifera_indica_Australia_2016","mango5","observation","Pompillidae sp 1","morphospecies","non_bee_hymenoptera",1,100,NA,NA,"one 50m observation transect (consisting of 10-11 trees) per site, 2-3 sampling rounds in one season",NA
"Bryony_Willcox_Mangifera_indica_Australia_2016","mango10","observation","Homalictus damperia","species","other_wild_bees",5,100,NA,NA,"one 50m observation transect (consisting of 10-11 trees) per site, 2-3 sampling rounds in one season",NA
"Bryony_Willcox_Persea_americana_Australia_2015","avo_1","transect","Apis mellifera","species","honeybees",106,900,180,NA,"transects (20x5 metres) x 20 minutes x 3 per day",NA
"Bryony_Willcox_Persea_americana_Australia_2015","avo_1","transect","Coccinella sp1","morphospecies","beetles",251,900,180,NA,"transects (20x5 metres) x 20 minutes x 3 per day",NA
"Bryony_Willcox_Persea_americana_Australia_2015","avo_1","transect","Lycid sp1","morphospecies","beetles",3,900,180,NA,"transects (20x5 metres) x 20 minutes x 3 per day",NA
"Bryony_Willcox_Persea_americana_Australia_2015","avo_1","transect","Lucilia sp1","morphospecies","other_flies",1,900,180,NA,"transects (20x5 metres) x 20 minutes x 3 per day",NA
"Bryony_Willcox_Persea_americana_Australia_2015","avo_1","transect","Sarcophaga sp1","morphospecies","other_flies",1,900,180,NA,"transects (20x5 metres) x 20 minutes x 3 per day",NA
"Bryony_Willcox_Persea_americana_Australia_2015","avo_1","transect","Helina sp1","morphospecies","other_flies",3,900,180,NA,"transects (20x5 metres) x 20 minutes x 3 per day",NA
"Bryony_Willcox_Persea_americana_Australia_2015","avo_1","transect","Stomorhina discolor","species","other_flies",35,900,180,NA,"transects (20x5 metres) x 20 minutes x 3 per day",NA
"Bryony_Willcox_Persea_americana_Australia_2015","avo_1","transect","Coccinella sp2","morphospecies","beetles",32,900,180,NA,"transects (20x5 metres) x 20 minutes x 3 per day",NA
"Bryony_Willcox_Persea_americana_Australia_2015","avo_1","transect","Monolepta australis","species","beetles",3,900,180,NA,"transects (20x5 metres) x 20 minutes x 3 per day",NA
"Bryony_Willcox_Persea_americana_Australia_2015","avo_1","transect","Micraspis sp2","morphospecies","beetles",24,900,180,NA,"transects (20x5 metres) x 20 minutes x 3 per day",NA
"Bryony_Willcox_Persea_americana_Australia_2015","avo_1","transect","Coccinella sp4","morphospecies","beetles",4,900,180,NA,"transects (20x5 metres) x 20 minutes x 3 per day",NA
"Bryony_Willcox_Persea_americana_Australia_2015","avo_1","transect","Micraspis sp1","morphospecies","beetles",2,900,180,NA,"transects (20x5 metres) x 20 minutes x 3 per day",NA
"Bryony_Willcox_Persea_americana_Australia_2015","avo_1","transect","Tetragonula sp1","morphospecies","other_wild_bees",2,900,180,NA,"transects (20x5 metres) x 20 minutes x 3 per day",NA
"Bryony_Willcox_Persea_americana_Australia_2015","avo_1","transect","Halmus chalybeus","species","beetles",1,900,180,NA,"transects (20x5 metres) x 20 minutes x 3 per day",NA
"Bryony_Willcox_Persea_americana_Australia_2015","avo_1","transect","Chlororhinia exempta","species","other_flies",3,900,180,NA,"transects (20x5 metres) x 20 minutes x 3 per day",NA
"Bryony_Willcox_Persea_americana_Australia_2015","avo_1","transect","Lauxaniidae spp","family","other_flies",16,900,180,NA,"transects (20x5 metres) x 20 minutes x 3 per day; this field observation group was made up of more than 1 morphospecies",NA
"Bryony_Willcox_Persea_americana_Australia_2015","avo_1","transect","Syrphidae spp","family","syrphids",43,900,180,NA,"transects (20x5 metres) x 20 minutes x 3 per day; this field observation group was made up of more than 1 morphospecies",NA
"Bryony_Willcox_Persea_americana_Australia_2015","avo_1","transect","Diptera sp3","morphospecies","other_flies",2,900,180,NA,"transects (20x5 metres) x 20 minutes x 3 per day; not identified to genus",NA
"Bryony_Willcox_Persea_americana_Australia_2015","avo_1","transect","Diptera sp6","morphospecies","other_flies",1,900,180,NA,"transects (20x5 metres) x 20 minutes x 3 per day; not identified to genus",NA
"Bryony_Willcox_Persea_americana_Australia_2015","avo_1","transect","Diptera. sp7","morphospecies","other_flies",1,900,180,NA,"transects (20x5 metres) x 20 minutes x 3 per day; not identified to genus",NA
"Bryony_Willcox_Persea_americana_Australia_2015","avo_1","transect","Wasp sp2","morphospecies","non_bee_hymenoptera",1,900,180,NA,"transects (20x5 metres) x 20 minutes x 3 per day; not identified to genus",NA
"Bryony_Willcox_Persea_americana_Australia_2015","avo_2","transect","Apis mellifera","species","honeybees",121,600,120,NA,"transects (20x5 metres) x 20 minutes x 3 per day",NA
"Bryony_Willcox_Persea_americana_Australia_2015","avo_2","transect","Coccinella sp1","morphospecies","beetles",200,600,120,NA,"transects (20x5 metres) x 20 minutes x 3 per day",NA
"Bryony_Willcox_Persea_americana_Australia_2015","avo_2","transect","Chrysomya sp1","morphospecies","other_flies",2,600,120,NA,"transects (20x5 metres) x 20 minutes x 3 per day",NA
"Bryony_Willcox_Persea_americana_Australia_2015","avo_2","transect","Lycid sp1","morphospecies","beetles",1,600,120,NA,"transects (20x5 metres) x 20 minutes x 3 per day",NA
"Bryony_Willcox_Persea_americana_Australia_2015","avo_2","transect","Lucilia sp1","morphospecies","other_flies",3,600,120,NA,"transects (20x5 metres) x 20 minutes x 3 per day",NA
"Bryony_Willcox_Persea_americana_Australia_2015","avo_2","transect","Stomorhina discolor","species","other_flies",29,600,120,NA,"transects (20x5 metres) x 20 minutes x 3 per day",NA
"Bryony_Willcox_Persea_americana_Australia_2015","avo_2","transect","Coccinella sp2","morphospecies","beetles",6,600,120,NA,"transects (20x5 metres) x 20 minutes x 3 per day",NA
"Bryony_Willcox_Persea_americana_Australia_2015","avo_2","transect","Monolepta australis","species","beetles",2,600,120,NA,"transects (20x5 metres) x 20 minutes x 3 per day",NA
"Bryony_Willcox_Persea_americana_Australia_2015","avo_2","transect","Micraspis sp2","morphospecies","beetles",14,600,120,NA,"transects (20x5 metres) x 20 minutes x 3 per day",NA
"Bryony_Willcox_Persea_americana_Australia_2015","avo_2","transect","Coccinella sp4","morphospecies","beetles",1,600,120,NA,"transects (20x5 metres) x 20 minutes x 3 per day",NA
"Bryony_Willcox_Persea_americana_Australia_2015","avo_2","transect","Syrphidae spp","family","syrphids",11,600,120,NA,"transects (20x5 metres) x 20 minutes x 3 per day; this field observation group was made up of more than 1 morphospecies",NA
"Bryony_Willcox_Persea_americana_Australia_2015","avo_2","transect","Coleoptera sp5","morphospecies","beetles",1,600,120,NA,"transects (20x5 metres) x 20 minutes x 3 per day; not identified to genus",NA
"Bryony_Willcox_Persea_americana_Australia_2015","avo_2","transect","Diptera sp4","morphospecies","other_flies",3,600,120,NA,"transects (20x5 metres) x 20 minutes x 3 per day; not identified to genus",NA
"Bryony_Willcox_Persea_americana_Australia_2015","avo_2","transect","Diptera sp5","morphospecies","other_flies",1,600,120,NA,"transects (20x5 metres) x 20 minutes x 3 per day; not identified to genus",NA
"Bryony_Willcox_Persea_americana_Australia_2015","avo_2","transect","Coleoptera sp6","morphospecies","beetles",3,600,120,NA,"transects (20x5 metres) x 20 minutes x 3 per day; not identified to genus",NA
"Bryony_Willcox_Persea_americana_Australia_2015","avo_2","transect","Coleoptera sp7","morphospecies","beetles",1,600,120,NA,"transects (20x5 metres) x 20 minutes x 3 per day; not identified to genus",NA
"Bryony_Willcox_Persea_americana_Australia_2015","avo_2","transect","Wasp sp4","morphospecies","non_bee_hymenoptera",2,600,120,NA,"transects (20x5 metres) x 20 minutes x 3 per day; not identified to genus",NA
"Bryony_Willcox_Persea_americana_Australia_2015","avo_3","transect","Apis mellifera","species","honeybees",187,600,120,NA,"transects (20x5 metres) x 20 minutes x 3 per day",NA
"Bryony_Willcox_Persea_americana_Australia_2015","avo_3","transect","Coccinella sp1","morphospecies","beetles",4,600,120,NA,"transects (20x5 metres) x 20 minutes x 3 per day",NA
"Bryony_Willcox_Persea_americana_Australia_2015","avo_3","transect","Chrysomya sp1","morphospecies","other_flies",1,600,120,NA,"transects (20x5 metres) x 20 minutes x 3 per day",NA
"Bryony_Willcox_Persea_americana_Australia_2015","avo_3","transect","Iridomyrmex purpureus","species","non_bee_hymenoptera",9,600,120,NA,"transects (20x5 metres) x 20 minutes x 3 per day",NA
"Bryony_Willcox_Persea_americana_Australia_2015","avo_3","transect","Lucilia sp1","morphospecies","other_flies",5,600,120,NA,"transects (20x5 metres) x 20 minutes x 3 per day",NA
"Bryony_Willcox_Persea_americana_Australia_2015","avo_3","transect","Stomorhina discolor","species","other_flies",62,600,120,NA,"transects (20x5 metres) x 20 minutes x 3 per day",NA
"Bryony_Willcox_Persea_americana_Australia_2015","avo_3","transect","Coccinella sp2","morphospecies","beetles",10,600,120,NA,"transects (20x5 metres) x 20 minutes x 3 per day",NA
"Bryony_Willcox_Persea_americana_Australia_2015","avo_3","transect","Monolepta australis","species","beetles",2,600,120,NA,"transects (20x5 metres) x 20 minutes x 3 per day",NA
"Bryony_Willcox_Persea_americana_Australia_2015","avo_3","transect","Xylocopa sp1","morphospecies","other_wild_bees",1,600,120,NA,"transects (20x5 metres) x 20 minutes x 3 per day",NA
"Bryony_Willcox_Persea_americana_Australia_2015","avo_3","transect","Micraspis sp2","morphospecies","beetles",5,600,120,NA,"transects (20x5 metres) x 20 minutes x 3 per day",NA
"Bryony_Willcox_Persea_americana_Australia_2015","avo_3","transect","Lassioglossum sp1","morphospecies","other_wild_bees",1,600,120,NA,"transects (20x5 metres) x 20 minutes x 3 per day",NA
"Bryony_Willcox_Persea_americana_Australia_2015","avo_3","transect","Coccinella sp4","morphospecies","beetles",1,600,120,NA,"transects (20x5 metres) x 20 minutes x 3 per day",NA
"Bryony_Willcox_Persea_americana_Australia_2015","avo_3","transect","Diptera sp1","morphospecies","other_flies",1,600,120,NA,"transects (20x5 metres) x 20 minutes x 3 per day; not identified to genus",NA
"Bryony_Willcox_Persea_americana_Australia_2015","avo_3","transect","Formicidae sp1","morphospecies","non_bee_hymenoptera",1,600,120,NA,"transects (20x5 metres) x 20 minutes x 3 per day; not identified to genus",NA
"Bryony_Willcox_Persea_americana_Australia_2015","avo_3","transect","Syrphidae spp","family","syrphids",1,600,120,NA,"transects (20x5 metres) x 20 minutes x 3 per day; this field observation group was made up of more than 1 morphospecies",NA
"Bryony_Willcox_Persea_americana_Australia_2015","avo_4","transect","Apis mellifera","species","honeybees",34,600,120,NA,"transects (20x5 metres) x 20 minutes x 3 per day",NA
"Bryony_Willcox_Persea_americana_Australia_2015","avo_4","transect","Coccinella sp1","morphospecies","beetles",7,600,120,NA,"transects (20x5 metres) x 20 minutes x 3 per day",NA
"Bryony_Willcox_Persea_americana_Australia_2015","avo_4","transect","Lycid sp1","morphospecies","beetles",1,600,120,NA,"transects (20x5 metres) x 20 minutes x 3 per day",NA
"Bryony_Willcox_Persea_americana_Australia_2015","avo_4","transect","Stomorhina discolor","species","other_flies",14,600,120,NA,"transects (20x5 metres) x 20 minutes x 3 per day",NA
"Bryony_Willcox_Persea_americana_Australia_2015","avo_4","transect","Coccinella sp2","morphospecies","beetles",1,600,120,NA,"transects (20x5 metres) x 20 minutes x 3 per day",NA
"Bryony_Willcox_Persea_americana_Australia_2015","avo_4","transect","Monolepta australis","species","beetles",1,600,120,NA,"transects (20x5 metres) x 20 minutes x 3 per day",NA
"Bryony_Willcox_Persea_americana_Australia_2015","avo_4","transect","Micraspis sp2","morphospecies","beetles",2,600,120,NA,"transects (20x5 metres) x 20 minutes x 3 per day",NA
"Bryony_Willcox_Persea_americana_Australia_2015","avo_4","transect","Diptera sp1","morphospecies","other_flies",1,600,120,NA,"transects (20x5 metres) x 20 minutes x 3 per day; not identified to genus",NA
"Bryony_Willcox_Persea_americana_Australia_2015","avo_4","transect","Syrphidae spp","family","syrphids",1,600,120,NA,"transects (20x5 metres) x 20 minutes x 3 per day; this field observation group was made up of more than 1 morphospecies",NA
"Bryony_Willcox_Persea_americana_Australia_2015","avo_5","transect","Apis mellifera","species","honeybees",97,600,120,NA,"transects (20x5 metres) x 20 minutes x 3 per day",NA
"Bryony_Willcox_Persea_americana_Australia_2015","avo_5","transect","Coccinella sp1","morphospecies","beetles",11,600,120,NA,"transects (20x5 metres) x 20 minutes x 3 per day",NA
"Bryony_Willcox_Persea_americana_Australia_2015","avo_5","transect","Chrysomya sp1","morphospecies","other_flies",1,600,120,NA,"transects (20x5 metres) x 20 minutes x 3 per day",NA
"Bryony_Willcox_Persea_americana_Australia_2015","avo_5","transect","Lycid sp1","morphospecies","beetles",4,600,120,NA,"transects (20x5 metres) x 20 minutes x 3 per day",NA
"Bryony_Willcox_Persea_americana_Australia_2015","avo_5","transect","Lucilia sp1","morphospecies","other_flies",1,600,120,NA,"transects (20x5 metres) x 20 minutes x 3 per day",NA
"Bryony_Willcox_Persea_americana_Australia_2015","avo_5","transect","Stomorhina discolor","species","other_flies",8,600,120,NA,"transects (20x5 metres) x 20 minutes x 3 per day",NA
"Bryony_Willcox_Persea_americana_Australia_2015","avo_5","transect","Coccinella sp2","morphospecies","beetles",3,600,120,NA,"transects (20x5 metres) x 20 minutes x 3 per day",NA
"Bryony_Willcox_Persea_americana_Australia_2015","avo_5","transect","Monolepta australis","species","beetles",1,600,120,NA,"transects (20x5 metres) x 20 minutes x 3 per day",NA
"Bryony_Willcox_Persea_americana_Australia_2015","avo_5","transect","Micraspis sp2","morphospecies","beetles",10,600,120,NA,"transects (20x5 metres) x 20 minutes x 3 per day",NA
"Bryony_Willcox_Persea_americana_Australia_2015","avo_5","transect","Coccinella sp4","morphospecies","beetles",1,600,120,NA,"transects (20x5 metres) x 20 minutes x 3 per day",NA
"Bryony_Willcox_Persea_americana_Australia_2015","avo_5","transect","Micraspis sp1","morphospecies","beetles",1,600,120,NA,"transects (20x5 metres) x 20 minutes x 3 per day",NA
"Bryony_Willcox_Persea_americana_Australia_2015","avo_5","transect","Tetragonula sp1","morphospecies","other_wild_bees",15,600,120,NA,"transects (20x5 metres) x 20 minutes x 3 per day",NA
"Bryony_Willcox_Persea_americana_Australia_2015","avo_5","transect","Coleoptera sp2","morphospecies","beetles",1,600,120,NA,"transects (20x5 metres) x 20 minutes x 3 per day; not identified to genus",NA
"Bryony_Willcox_Persea_americana_Australia_2015","avo_5","transect","Diptera sp2","morphospecies","other_flies",1,600,120,NA,"transects (20x5 metres) x 20 minutes x 3 per day; not identified to genus",NA
"Bryony_Willcox_Persea_americana_Australia_2015","avo_5","transect","Wasp sp1","morphospecies","non_bee_hymenoptera",1,600,120,NA,"transects (20x5 metres) x 20 minutes x 3 per day; not identified to genus",NA
"Bryony_Willcox_Persea_americana_Australia_2015","avo_5","transect","Syrphidae spp","family","syrphids",1,600,120,NA,"transects (20x5 metres) x 20 minutes x 3 per day; this field observation group was made up of more than 1 morphospecies",NA
"Bryony_Willcox_Persea_americana_Australia_2015","avo_6","transect","Apis mellifera","species","honeybees",91,600,120,NA,"transects (20x5 metres) x 20 minutes x 3 per day",NA
"Bryony_Willcox_Persea_americana_Australia_2015","avo_6","transect","Coccinella sp1","morphospecies","beetles",15,600,120,NA,"transects (20x5 metres) x 20 minutes x 3 per day",NA
"Bryony_Willcox_Persea_americana_Australia_2015","avo_6","transect","Chrysomya sp1","morphospecies","other_flies",1,600,120,NA,"transects (20x5 metres) x 20 minutes x 3 per day",NA
"Bryony_Willcox_Persea_americana_Australia_2015","avo_6","transect","Lycid sp1","morphospecies","beetles",4,600,120,NA,"transects (20x5 metres) x 20 minutes x 3 per day",NA
"Bryony_Willcox_Persea_americana_Australia_2015","avo_6","transect","Lucilia sp1","morphospecies","other_flies",6,600,120,NA,"transects (20x5 metres) x 20 minutes x 3 per day",NA
"Bryony_Willcox_Persea_americana_Australia_2015","avo_6","transect","Stomorhina discolor","species","other_flies",27,600,120,NA,"transects (20x5 metres) x 20 minutes x 3 per day",NA
"Bryony_Willcox_Persea_americana_Australia_2015","avo_6","transect","Coccinella sp2","morphospecies","beetles",11,600,120,NA,"transects (20x5 metres) x 20 minutes x 3 per day",NA
"Bryony_Willcox_Persea_americana_Australia_2015","avo_6","transect","Micraspis sp2","morphospecies","beetles",16,600,120,NA,"transects (20x5 metres) x 20 minutes x 3 per day",NA
"Bryony_Willcox_Persea_americana_Australia_2015","avo_6","transect","Tetragonula sp1","morphospecies","other_wild_bees",60,600,120,NA,"transects (20x5 metres) x 20 minutes x 3 per day",NA
"Bryony_Willcox_Persea_americana_Australia_2015","avo_6","transect","Halmus chalybeus","species","beetles",1,600,120,NA,"transects (20x5 metres) x 20 minutes x 3 per day",NA
"Bryony_Willcox_Persea_americana_Australia_2015","avo_6","transect","Coleoptera sp3","morphospecies","beetles",1,600,120,NA,"transects (20x5 metres) x 20 minutes x 3 per day; not identified to genus",NA
"Bryony_Willcox_Persea_americana_Australia_2015","avo_6","transect","Wasp sp2","morphospecies","non_bee_hymenoptera",2,600,120,NA,"transects (20x5 metres) x 20 minutes x 3 per day; not identified to genus",NA
"Bryony_Willcox_Persea_americana_Australia_2015","avo_6","transect","Coleoptera sp4","morphospecies","beetles",1,600,120,NA,"transects (20x5 metres) x 20 minutes x 3 per day; not identified to genus",NA
"Bryony_Willcox_Persea_americana_Australia_2015","avo_6","transect","Wasp sp3","morphospecies","non_bee_hymenoptera",1,600,120,NA,"transects (20x5 metres) x 20 minutes x 3 per day; not identified to genus",NA
"Bryony_Willcox_Persea_americana_Australia_2015","avo_7","transect","Apis mellifera","species","honeybees",34,600,120,NA,"transects (20x5 metres) x 20 minutes x 3 per day",NA
"Bryony_Willcox_Persea_americana_Australia_2015","avo_7","transect","Coccinella sp1","morphospecies","beetles",19,600,120,NA,"transects (20x5 metres) x 20 minutes x 3 per day",NA
"Bryony_Willcox_Persea_americana_Australia_2015","avo_7","transect","Iridomyrmex purpureus","species","non_bee_hymenoptera",14,600,120,NA,"transects (20x5 metres) x 20 minutes x 3 per day",NA
"Bryony_Willcox_Persea_americana_Australia_2015","avo_7","transect","Lycid sp1","morphospecies","beetles",2,600,120,NA,"transects (20x5 metres) x 20 minutes x 3 per day",NA
"Bryony_Willcox_Persea_americana_Australia_2015","avo_7","transect","Stomorhina discolor","species","other_flies",15,600,120,NA,"transects (20x5 metres) x 20 minutes x 3 per day",NA
"Bryony_Willcox_Persea_americana_Australia_2015","avo_7","transect","Coccinella sp2","morphospecies","beetles",13,600,120,NA,"transects (20x5 metres) x 20 minutes x 3 per day",NA
"Bryony_Willcox_Persea_americana_Australia_2015","avo_7","transect","Monolepta australis","species","beetles",4,600,120,NA,"transects (20x5 metres) x 20 minutes x 3 per day",NA
"Bryony_Willcox_Persea_americana_Australia_2015","avo_7","transect","Micraspis sp2","morphospecies","beetles",8,600,120,NA,"transects (20x5 metres) x 20 minutes x 3 per day",NA
"Bryony_Willcox_Persea_americana_Australia_2015","avo_7","transect","Coccinella sp4","morphospecies","beetles",10,600,120,NA,"transects (20x5 metres) x 20 minutes x 3 per day",NA
"Bryony_Willcox_Persea_americana_Australia_2015","avo_7","transect","Micraspis sp1","morphospecies","beetles",3,600,120,NA,"transects (20x5 metres) x 20 minutes x 3 per day",NA
"Bryony_Willcox_Persea_americana_Australia_2015","avo_7","transect","Halmus chalybeus","species","beetles",5,600,120,NA,"transects (20x5 metres) x 20 minutes x 3 per day",NA
"Bryony_Willcox_Persea_americana_Australia_2015","avo_7","transect","Syrphidae spp","family","syrphids",4,600,120,NA,"transects (20x5 metres) x 20 minutes x 3 per day; this field observation group was made up of more than 1 morphospecies",NA
"Bryony_Willcox_Persea_americana_Australia_2015","avo_7","transect","Formicidae sp1","morphospecies","non_bee_hymenoptera",1,600,120,NA,"transects (20x5 metres) x 20 minutes x 3 per day; not identified to genus",NA
"Bryony_Willcox_Persea_americana_Australia_2015","avo_7","transect","Diptera sp4","morphospecies","other_flies",1,600,120,NA,"transects (20x5 metres) x 20 minutes x 3 per day; not identified to genus",NA
"Bryony_Willcox_Persea_americana_Australia_2016","avo_1","transect","Apis mellifera","species","honeybees",156,700,140,NA,"transects (20x5 metres) x 20 minutes",NA
"Bryony_Willcox_Persea_americana_Australia_2016","avo_1","transect","Tetragonula sp1","morphospecies","other_wild_bees",11,700,140,NA,"transects (20x5 metres) x 20 minutes",NA
"Bryony_Willcox_Persea_americana_Australia_2016","avo_1","transect","Stomorhina discolor","species","other_flies",10,700,140,NA,"transects (20x5 metres) x 20 minutes",NA
"Bryony_Willcox_Persea_americana_Australia_2016","avo_1","transect","Chrysomya sp1","morphospecies","other_flies",3,700,140,NA,"transects (20x5 metres) x 20 minutes",NA
"Bryony_Willcox_Persea_americana_Australia_2016","avo_1","transect","Coccinella sp1","morphospecies","beetles",7,700,140,NA,"transects (20x5 metres) x 20 minutes",NA
"Bryony_Willcox_Persea_americana_Australia_2016","avo_1","transect","Micraspis sp2","morphospecies","beetles",1,700,140,NA,"transects (20x5 metres) x 20 minutes",NA
"Bryony_Willcox_Persea_americana_Australia_2016","avo_1","transect","Eristalinus spp","genus","syrphids",1,700,140,NA,"transects (20x5 metres) x 20 minutes; not identified to genus",NA
"Bryony_Willcox_Persea_americana_Australia_2016","avo_1","transect","Lepidoptera sp7","morphospecies","lepidoptera",2,700,140,NA,"transects (20x5 metres) x 20 minutes; not identified to genus",NA
"Bryony_Willcox_Persea_americana_Australia_2016","avo_1","transect","Lepidoptera sp8","morphospecies","lepidoptera",1,700,140,NA,"transects (20x5 metres) x 20 minutes; not identified to genus",NA
"Bryony_Willcox_Persea_americana_Australia_2016","avo_1","transect","Coleoptera sp11","morphospecies","beetles",1,700,140,NA,"transects (20x5 metres) x 20 minutes; not identified to genus",NA
"Bryony_Willcox_Persea_americana_Australia_2016","avo_1","transect","Formicidae sp1","morphospecies","non_bee_hymenoptera",4,700,140,NA,"transects (20x5 metres) x 20 minutes; not identified to genus",NA
"Bryony_Willcox_Persea_americana_Australia_2016","avo_1","transect","Lepidoptera sp6","morphospecies","lepidoptera",1,700,140,NA,"transects (20x5 metres) x 20 minutes; not identified to genus",NA
"Bryony_Willcox_Persea_americana_Australia_2016","avo_1","transect","Syrphidae spp","family","syrphids",2,700,140,NA,"transects (20x5 metres) x 20 minutes; this field observation group was made up of more than 1 morphospecies",NA
"Bryony_Willcox_Persea_americana_Australia_2016","avo_2","transect","Apis mellifera","species","honeybees",249,800,160,NA,"transects (20x5 metres) x 20 minutes",NA
"Bryony_Willcox_Persea_americana_Australia_2016","avo_2","transect","Tetragonula sp1","morphospecies","other_wild_bees",88,800,160,NA,"transects (20x5 metres) x 20 minutes",NA
"Bryony_Willcox_Persea_americana_Australia_2016","avo_2","transect","Homalictus spp","genus","other_wild_bees",2,800,160,NA,"transects (20x5 metres) x 20 minutes; this field observation group was made up of more than 1 morphospecies",NA
"Bryony_Willcox_Persea_americana_Australia_2016","avo_2","transect","Stomorhina discolor","species","other_flies",18,800,160,NA,"transects (20x5 metres) x 20 minutes",NA
"Bryony_Willcox_Persea_americana_Australia_2016","avo_2","transect","Chrysomya sp1","morphospecies","other_flies",2,800,160,NA,"transects (20x5 metres) x 20 minutes",NA
"Bryony_Willcox_Persea_americana_Australia_2016","avo_2","transect","Coccinella sp1","morphospecies","beetles",4,800,160,NA,"transects (20x5 metres) x 20 minutes",NA
"Bryony_Willcox_Persea_americana_Australia_2016","avo_2","transect","Lycid sp1","morphospecies","beetles",7,800,160,NA,"transects (20x5 metres) x 20 minutes",NA
"Bryony_Willcox_Persea_americana_Australia_2016","avo_2","transect","Syrphidae spp","family","syrphids",5,800,160,NA,"transects (20x5 metres) x 20 minutes; this field observation group was made up of more than 1 morphospecies",NA
"Bryony_Willcox_Persea_americana_Australia_2016","avo_2","transect","Cantharidae spp","family","beetles",6,800,160,NA,"transects (20x5 metres) x 20 minutes; not identified to genus",NA
"Bryony_Willcox_Persea_americana_Australia_2016","avo_2","transect","Diptera sp13","morphospecies","other_flies",1,800,160,NA,"transects (20x5 metres) x 20 minutes; not identified to genus",NA
"Bryony_Willcox_Persea_americana_Australia_2016","avo_2","transect","Coleoptera sp10","morphospecies","beetles",3,800,160,NA,"transects (20x5 metres) x 20 minutes; not identified to genus",NA
"Bryony_Willcox_Persea_americana_Australia_2016","avo_2","transect","Wasp sp8","morphospecies","non_bee_hymenoptera",1,800,160,NA,"transects (20x5 metres) x 20 minutes; not identified to genus",NA
"Bryony_Willcox_Persea_americana_Australia_2016","avo_2","transect","Eristalinus spp","genus","syrphids",1,800,160,NA,"transects (20x5 metres) x 20 minutes; not identified to genus",NA
"Bryony_Willcox_Persea_americana_Australia_2016","avo_3","transect","Apis mellifera","species","honeybees",187,800,160,NA,"transects (20x5 metres) x 20 minutes",NA
"Bryony_Willcox_Persea_americana_Australia_2016","avo_3","transect","Stomorhina discolor","species","other_flies",16,800,160,NA,"transects (20x5 metres) x 20 minutes",NA
"Bryony_Willcox_Persea_americana_Australia_2016","avo_3","transect","Syrphidae spp","family","syrphids",1,800,160,NA,"transects (20x5 metres) x 20 minutes; this field observation group was made up of more than 1 morphospecies",NA
"Bryony_Willcox_Persea_americana_Australia_2016","avo_3","transect","Coccinella sp2","morphospecies","beetles",1,800,160,NA,"transects (20x5 metres) x 20 minutes",NA
"Bryony_Willcox_Persea_americana_Australia_2016","avo_3","transect","Bee sp3","morphospecies","other_wild_bees",1,800,160,NA,"transects (20x5 metres) x 20 minutes; not identified to genus",NA
"Bryony_Willcox_Persea_americana_Australia_2016","avo_3","transect","Iridomyrmex purpureus","species","non_bee_hymenoptera",6,800,160,NA,"transects (20x5 metres) x 20 minutes",NA
"Bryony_Willcox_Persea_americana_Australia_2016","avo_3","transect","Wasp sp9","morphospecies","non_bee_hymenoptera",1,800,160,NA,"transects (20x5 metres) x 20 minutes; not identified to genus",NA
"Bryony_Willcox_Persea_americana_Australia_2016","avo_3","transect","Xylocopa sp1","morphospecies","other_wild_bees",1,800,160,NA,"transects (20x5 metres) x 20 minutes",NA
"Bryony_Willcox_Persea_americana_Australia_2016","avo_5","transect","Apis mellifera","species","honeybees",81,400,80,NA,"transects (20x5 metres) x 20 minutes",NA
"Bryony_Willcox_Persea_americana_Australia_2016","avo_5","transect","Tetragonula sp1","morphospecies","other_wild_bees",3,400,80,NA,"transects (20x5 metres) x 20 minutes",NA
"Bryony_Willcox_Persea_americana_Australia_2016","avo_5","transect","Stomorhina discolor","species","other_flies",2,400,80,NA,"transects (20x5 metres) x 20 minutes",NA
"Bryony_Willcox_Persea_americana_Australia_2016","avo_5","transect","Syrphidae spp","family","syrphids",3,400,80,NA,"transects (20x5 metres) x 20 minutes; this field observation group was made up of more than 1 morphospecies",NA
"Bryony_Willcox_Persea_americana_Australia_2016","avo_5","transect","Coccinella sp1","morphospecies","beetles",1,400,80,NA,"transects (20x5 metres) x 20 minutes",NA
"Bryony_Willcox_Persea_americana_Australia_2016","avo_5","transect","Formicidae sp2","morphospecies","non_bee_hymenoptera",4,400,80,NA,"transects (20x5 metres) x 20 minutes; not identified to genus",NA
"Bryony_Willcox_Persea_americana_Australia_2016","avo_5","transect","Formicidae sp3","morphospecies","non_bee_hymenoptera",4,400,80,NA,"transects (20x5 metres) x 20 minutes; not identified to genus",NA
"Bryony_Willcox_Persea_americana_Australia_2016","avo_6","transect","Apis mellifera","species","honeybees",171,800,160,NA,"transects (20x5 metres) x 20 minutes",NA
"Bryony_Willcox_Persea_americana_Australia_2016","avo_6","transect","Tetragonula sp1","morphospecies","other_wild_bees",308,800,160,NA,"transects (20x5 metres) x 20 minutes",NA
"Bryony_Willcox_Persea_americana_Australia_2016","avo_6","transect","Homalictus spp","genus","other_wild_bees",2,800,160,NA,"transects (20x5 metres) x 20 minutes; this field observation group was made up of more than 1 morphospecies",NA
"Bryony_Willcox_Persea_americana_Australia_2016","avo_6","transect","Stomorhina discolor","species","other_flies",20,800,160,NA,"transects (20x5 metres) x 20 minutes",NA
"Bryony_Willcox_Persea_americana_Australia_2016","avo_6","transect","Chrysomya sp1","morphospecies","other_flies",4,800,160,NA,"transects (20x5 metres) x 20 minutes",NA
"Bryony_Willcox_Persea_americana_Australia_2016","avo_6","transect","Syrphidae spp","family","syrphids",4,800,160,NA,"transects (20x5 metres) x 20 minutes; this field observation group was made up of more than 1 morphospecies",NA
"Bryony_Willcox_Persea_americana_Australia_2016","avo_6","transect","Cantharidae spp","family","beetles",25,800,160,NA,"transects (20x5 metres) x 20 minutes; this field observation group was made up of more than 1 morphospecies",NA
"Bryony_Willcox_Persea_americana_Australia_2016","avo_6","transect","Bombylidae spp","family","humbleflies",1,800,160,NA,"transects (20x5 metres) x 20 minutes; this field observation group was made up of more than 1 morphospecies",NA
"Bryony_Willcox_Persea_americana_Australia_2016","avo_6","transect","Wasp sp7","morphospecies","non_bee_hymenoptera",1,800,160,NA,"transects (20x5 metres) x 20 minutes; not identified to genus",NA
"Bryony_Willcox_Persea_americana_Australia_2016","avo_6","transect","Lycid sp1","morphospecies","beetles",3,800,160,NA,"transects (20x5 metres) x 20 minutes",NA
"Bryony_Willcox_Persea_americana_Australia_2016","avo_6","transect","Diptera sp11","morphospecies","other_flies",1,800,160,NA,"transects (20x5 metres) x 20 minutes; not identified to genus",NA
"Bryony_Willcox_Persea_americana_Australia_2016","avo_6","transect","Diptera sp15","morphospecies","other_flies",1,800,160,NA,"transects (20x5 metres) x 20 minutes; not identified to genus",NA
"Bryony_Willcox_Persea_americana_Australia_2016","avo_6","transect","Micraspis sp2","morphospecies","beetles",1,800,160,NA,"transects (20x5 metres) x 20 minutes",NA
"Bryony_Willcox_Persea_americana_Australia_2016","avo_6","transect","Wasp sp10","morphospecies","non_bee_hymenoptera",1,800,160,NA,"transects (20x5 metres) x 20 minutes; not identified to genus",NA
"Bryony_Willcox_Persea_americana_Australia_2016","avo_6","transect","Wasp sp11","morphospecies","non_bee_hymenoptera",1,800,160,NA,"transects (20x5 metres) x 20 minutes; not identified to genus",NA
"Bryony_Willcox_Persea_americana_Australia_2017","avo_1","transect","Apis mellifera","species","honeybees",156,900,180,NA,"transects (20x5 metres) x 20 minutes",NA
"Bryony_Willcox_Persea_americana_Australia_2017","avo_1","transect","Tetragonula sp1","morphospecies","other_wild_bees",7,900,180,NA,"transects (20x5 metres) x 20 minutes",NA
"Bryony_Willcox_Persea_americana_Australia_2017","avo_1","transect","Stomorhina discolor","species","other_flies",105,900,180,NA,"transects (20x5 metres) x 20 minutes",NA
"Bryony_Willcox_Persea_americana_Australia_2017","avo_1","transect","Syrphidae spp","family","syrphids",4,900,180,NA,"transects (20x5 metres) x 20 minutes; this field observation group was made up of more than 1 morphospecies",NA
"Bryony_Willcox_Persea_americana_Australia_2017","avo_1","transect","Syritta spp","genus","syrphids",1,900,180,NA,"transects (20x5 metres) x 20 minutes; this field observation group was made up of more than 1 morphospecies",NA
"Bryony_Willcox_Persea_americana_Australia_2017","avo_1","transect","Chrysomya sp1","morphospecies","other_flies",1,900,180,NA,"transects (20x5 metres) x 20 minutes",NA
"Bryony_Willcox_Persea_americana_Australia_2017","avo_1","transect","Coccinella sp1","morphospecies","beetles",12,900,180,NA,"transects (20x5 metres) x 20 minutes",NA
"Bryony_Willcox_Persea_americana_Australia_2017","avo_1","transect","Euphorinae sp1","morphospecies","non_bee_hymenoptera",6,900,180,NA,"transects (20x5 metres) x 20 minutes",NA
"Bryony_Willcox_Persea_americana_Australia_2017","avo_1","transect","Diptera sp22","morphospecies","other_flies",2,900,180,NA,"transects (20x5 metres) x 20 minutes; not identified to genus",NA
"Bryony_Willcox_Persea_americana_Australia_2017","avo_1","transect","Wasp sp14","morphospecies","non_bee_hymenoptera",1,900,180,NA,"transects (20x5 metres) x 20 minutes; not identified to genus",NA
"Bryony_Willcox_Persea_americana_Australia_2017","avo_1","transect","Iridomyrmex purpureus","species","non_bee_hymenoptera",9,900,180,NA,"transects (20x5 metres) x 20 minutes",NA
"Bryony_Willcox_Persea_americana_Australia_2017","avo_1","transect","Sarcophaga spp","genus","other_flies",3,900,180,NA,"transects (20x5 metres) x 20 minutes; not identified to genus",NA
"Bryony_Willcox_Persea_americana_Australia_2017","avo_1","transect","Tabanidae spp","family","other_flies",3,900,180,NA,"transects (20x5 metres) x 20 minutes; not identified to genus",NA
"Bryony_Willcox_Persea_americana_Australia_2017","avo_1","transect","Monolepta australis","species","beetles",1,900,180,NA,"transects (20x5 metres) x 20 minutes",NA
"Bryony_Willcox_Persea_americana_Australia_2017","avo_2","transect","Apis mellifera","species","honeybees",210,900,180,NA,"transects (20x5 metres) x 20 minutes",NA
"Bryony_Willcox_Persea_americana_Australia_2017","avo_2","transect","Tetragonula sp1","morphospecies","other_wild_bees",49,900,180,NA,"transects (20x5 metres) x 20 minutes",NA
"Bryony_Willcox_Persea_americana_Australia_2017","avo_2","transect","Stomorhina discolor","species","other_flies",124,900,180,NA,"transects (20x5 metres) x 20 minutes",NA
"Bryony_Willcox_Persea_americana_Australia_2017","avo_2","transect","Syrphidae spp","family","syrphids",6,900,180,NA,"transects (20x5 metres) x 20 minutes; this field observation group was made up of more than 1 morphospecies",NA
"Bryony_Willcox_Persea_americana_Australia_2017","avo_2","transect","Coccinella sp4","morphospecies","beetles",1,900,180,NA,"transects (20x5 metres) x 20 minutes",NA
"Bryony_Willcox_Persea_americana_Australia_2017","avo_2","transect","Syritta spp","genus","syrphids",8,900,180,NA,"transects (20x5 metres) x 20 minutes; this field observation group was made up of more than 1 morphospecies",NA
"Bryony_Willcox_Persea_americana_Australia_2017","avo_2","transect","Chrysomya sp1","morphospecies","other_flies",1,900,180,NA,"transects (20x5 metres) x 20 minutes",NA
"Bryony_Willcox_Persea_americana_Australia_2017","avo_2","transect","Coccinella sp1","morphospecies","beetles",23,900,180,NA,"transects (20x5 metres) x 20 minutes",NA
"Bryony_Willcox_Persea_americana_Australia_2017","avo_2","transect","Euphorinae sp1","morphospecies","non_bee_hymenoptera",3,900,180,NA,"transects (20x5 metres) x 20 minutes",NA
"Bryony_Willcox_Persea_americana_Australia_2017","avo_2","transect","Sarcophaga spp","genus","other_flies",8,900,180,NA,"transects (20x5 metres) x 20 minutes; this field observation group was made up of more than 1 morphospecies",NA
"Bryony_Willcox_Persea_americana_Australia_2017","avo_2","transect","Cantharidae spp","family","beetles",1,900,180,NA,"transects (20x5 metres) x 20 minutes; this field observation group was made up of more than 1 morphospecies",NA
"Bryony_Willcox_Persea_americana_Australia_2017","avo_2","transect","Lycid sp1","morphospecies","beetles",1,900,180,NA,"transects (20x5 metres) x 20 minutes",NA
"Bryony_Willcox_Persea_americana_Australia_2017","avo_2","transect","Lucilia sp1","morphospecies","other_flies",2,900,180,NA,"transects (20x5 metres) x 20 minutes",NA
"Bryony_Willcox_Persea_americana_Australia_2017","avo_2","transect","Bee sp5","morphospecies","other_wild_bees",1,900,180,NA,"transects (20x5 metres) x 20 minutes; not identified to genus",NA
"Bryony_Willcox_Persea_americana_Australia_2017","avo_2","transect","Bee sp6","morphospecies","other_wild_bees",1,900,180,NA,"transects (20x5 metres) x 20 minutes; not identified to genus",NA
"Bryony_Willcox_Persea_americana_Australia_2017","avo_2","transect","Micraspis sp2","morphospecies","beetles",1,900,180,NA,"transects (20x5 metres) x 20 minutes",NA
"Bryony_Willcox_Persea_americana_Australia_2017","avo_2","transect","Cantharidae spp","family","beetles",8,900,180,NA,"transects (20x5 metres) x 20 minutes; this field observation group was made up of more than 1 morphospecies",NA
"Bryony_Willcox_Persea_americana_Australia_2017","avo_3","transect","Apis mellifera","species","honeybees",60,1000,200,NA,"transects (20x5 metres) x 20 minutes",NA
"Bryony_Willcox_Persea_americana_Australia_2017","avo_3","transect","Tetragonula sp1","morphospecies","other_wild_bees",4,1000,200,NA,"transects (20x5 metres) x 20 minutes",NA
"Bryony_Willcox_Persea_americana_Australia_2017","avo_3","transect","Stomorhina discolor","species","other_flies",43,1000,200,NA,"transects (20x5 metres) x 20 minutes",NA
"Bryony_Willcox_Persea_americana_Australia_2017","avo_3","transect","Syrphidae spp","family","syrphids",2,1000,200,NA,"transects (20x5 metres) x 20 minutes; this field observation group was made up of more than 1 morphospecies",NA
"Bryony_Willcox_Persea_americana_Australia_2017","avo_3","transect","Eristalinus spp","genus","syrphids",1,1000,200,NA,"transects (20x5 metres) x 20 minutes; this field observation group was made up of more than 1 morphospecies",NA
"Bryony_Willcox_Persea_americana_Australia_2017","avo_3","transect","Syritta spp","genus","syrphids",2,1000,200,NA,"transects (20x5 metres) x 20 minutes; this field observation group was made up of more than 1 morphospecies",NA
"Bryony_Willcox_Persea_americana_Australia_2017","avo_3","transect","Chrysomya sp1","morphospecies","other_flies",2,1000,200,NA,"transects (20x5 metres) x 20 minutes",NA
"Bryony_Willcox_Persea_americana_Australia_2017","avo_3","transect","Coccinella sp1","morphospecies","beetles",11,1000,200,NA,"transects (20x5 metres) x 20 minutes",NA
"Bryony_Willcox_Persea_americana_Australia_2017","avo_3","transect","Diptera sp21","morphospecies","other_flies",1,1000,200,NA,"transects (20x5 metres) x 20 minutes; not identified to genus",NA
"Bryony_Willcox_Persea_americana_Australia_2017","avo_3","transect","Euphorinae sp1","morphospecies","non_bee_hymenoptera",1,1000,200,NA,"transects (20x5 metres) x 20 minutes",NA
"Bryony_Willcox_Persea_americana_Australia_2017","avo_3","transect","Iridomyrmex purpureus","species","non_bee_hymenoptera",2,1000,200,NA,"transects (20x5 metres) x 20 minutes",NA
"Bryony_Willcox_Persea_americana_Australia_2017","avo_3","transect","Wasp sp18","morphospecies","non_bee_hymenoptera",1,1000,200,NA,"transects (20x5 metres) x 20 minutes; not identified to genus",NA
"Bryony_Willcox_Persea_americana_Australia_2017","avo_3","transect","Micraspis sp2","morphospecies","beetles",1,1000,200,NA,"transects (20x5 metres) x 20 minutes",NA
"Bryony_Willcox_Persea_americana_Australia_2017","avo_3","transect","Wasp sp19","morphospecies","non_bee_hymenoptera",1,1000,200,NA,"transects (20x5 metres) x 20 minutes; not identified to genus",NA
"Bryony_Willcox_Persea_americana_Australia_2017","avo_3","transect","Tabanidae spp","family","other_flies",17,1000,200,NA,"transects (20x5 metres) x 20 minutes; not identified to genus",NA
"Bryony_Willcox_Persea_americana_Australia_2017","avo_3","transect","Wasp sp20","morphospecies","non_bee_hymenoptera",1,1000,200,NA,"transects (20x5 metres) x 20 minutes; not identified to genus",NA
"Bryony_Willcox_Persea_americana_Australia_2017","avo_3","transect","Meloidae sp","family","beetles",1,1000,200,NA,"transects (20x5 metres) x 20 minutes; not identified to genus",NA
"Bryony_Willcox_Persea_americana_Australia_2017","avo_5","transect","Apis mellifera","species","honeybees",325,800,160,NA,"transects (20x5 metres) x 20 minutes",NA
"Bryony_Willcox_Persea_americana_Australia_2017","avo_5","transect","Tetragonula sp1","morphospecies","other_wild_bees",105,800,160,NA,"transects (20x5 metres) x 20 minutes",NA
"Bryony_Willcox_Persea_americana_Australia_2017","avo_5","transect","Stomorhina discolor","species","other_flies",48,800,160,NA,"transects (20x5 metres) x 20 minutes",NA
"Bryony_Willcox_Persea_americana_Australia_2017","avo_5","transect","Syrphidae spp","family","syrphids",6,800,160,NA,"transects (20x5 metres) x 20 minutes; this field observation group was made up of more than 1 morphospecies",NA
"Bryony_Willcox_Persea_americana_Australia_2017","avo_5","transect","Syritta spp","genus","syrphids",1,800,160,NA,"transects (20x5 metres) x 20 minutes; this field observation group was made up of more than 1 morphospecies",NA
"Bryony_Willcox_Persea_americana_Australia_2017","avo_5","transect","Calliphora augur","species","other_flies",1,800,160,NA,"transects (20x5 metres) x 20 minutes",NA
"Bryony_Willcox_Persea_americana_Australia_2017","avo_5","transect","Chrysomya sp1","morphospecies","other_flies",6,800,160,NA,"transects (20x5 metres) x 20 minutes",NA
"Bryony_Willcox_Persea_americana_Australia_2017","avo_5","transect","Coccinella sp1","morphospecies","beetles",39,800,160,NA,"transects (20x5 metres) x 20 minutes",NA
"Bryony_Willcox_Persea_americana_Australia_2017","avo_5","transect","Euphorinae sp1","morphospecies","non_bee_hymenoptera",1,800,160,NA,"transects (20x5 metres) x 20 minutes",NA
"Bryony_Willcox_Persea_americana_Australia_2017","avo_5","transect","Diptera sp22","morphospecies","other_flies",1,800,160,NA,"transects (20x5 metres) x 20 minutes; not identified to genus",NA
"Bryony_Willcox_Persea_americana_Australia_2017","avo_5","transect","Sarcophaga spp","genus","other_flies",3,800,160,NA,"transects (20x5 metres) x 20 minutes; this field observation group was made up of more than 1 morphospecies",NA
"Bryony_Willcox_Persea_americana_Australia_2017","avo_5","transect","Wasp sp6","morphospecies","non_bee_hymenoptera",1,800,160,NA,"transects (20x5 metres) x 20 minutes; not identified to genus",NA
"Bryony_Willcox_Persea_americana_Australia_2017","avo_5","transect","Bee sp5","morphospecies","other_wild_bees",1,800,160,NA,"transects (20x5 metres) x 20 minutes; not identified to genus",NA
"Bryony_Willcox_Persea_americana_Australia_2017","avo_5","transect","Lepidoptera sp8","morphospecies","lepidoptera",1,800,160,NA,"transects (20x5 metres) x 20 minutes; not identified to genus",NA
"Bryony_Willcox_Persea_americana_Australia_2017","avo_5","transect","Tabanidae spp","family","other_flies",5,800,160,NA,"transects (20x5 metres) x 20 minutes; not identified to genus",NA
"Bryony_Willcox_Persea_americana_Australia_2017","avo_6","transect","Apis mellifera","species","honeybees",52,600,120,NA,"transects (20x5 metres) x 20 minutes",NA
"Bryony_Willcox_Persea_americana_Australia_2017","avo_6","transect","Tetragonula sp1","morphospecies","other_wild_bees",78,600,120,NA,"transects (20x5 metres) x 20 minutes",NA
"Bryony_Willcox_Persea_americana_Australia_2017","avo_6","transect","Stomorhina discolor","species","other_flies",8,600,120,NA,"transects (20x5 metres) x 20 minutes",NA
"Bryony_Willcox_Persea_americana_Australia_2017","avo_6","transect","Syrphidae spp","family","syrphids",7,600,120,NA,"transects (20x5 metres) x 20 minutes; this field observation group was made up of more than 1 morphospecies",NA
"Bryony_Willcox_Persea_americana_Australia_2017","avo_6","transect","Syritta spp","genus","syrphids",1,600,120,NA,"transects (20x5 metres) x 20 minutes; this field observation group was made up of more than 1 morphospecies",NA
"Bryony_Willcox_Persea_americana_Australia_2017","avo_6","transect","Calliphora augur","species","other_flies",1,600,120,NA,"transects (20x5 metres) x 20 minutes",NA
"Bryony_Willcox_Persea_americana_Australia_2017","avo_6","transect","Chrysomya sp1","morphospecies","other_flies",1,600,120,NA,"transects (20x5 metres) x 20 minutes",NA
"Bryony_Willcox_Persea_americana_Australia_2017","avo_6","transect","Diptera sp21","morphospecies","other_flies",3,600,120,NA,"transects (20x5 metres) x 20 minutes; not identified to genus",NA
"Bryony_Willcox_Persea_americana_Australia_2017","avo_6","transect","Metallea sp1","morphospecies","other_flies",1,600,120,NA,"transects (20x5 metres) x 20 minutes",NA
"Bryony_Willcox_Persea_americana_Australia_2017","avo_6","transect","Lepidoptera sp8","morphospecies","lepidoptera",1,600,120,NA,"transects (20x5 metres) x 20 minutes; not identified to genus",NA
"Bryony_Willcox_Persea_americana_Australia_2017","avo_6","transect","Diptera sp27","morphospecies","other_flies",1,600,120,NA,"transects (20x5 metres) x 20 minutes; not identified to genus",NA
"Bryony_Willcox_Persea_americana_Australia_2017","avo_6","transect","Lepidoptera sp10","morphospecies","lepidoptera",1,600,120,NA,"transects (20x5 metres) x 20 minutes; not identified to genus",NA
"Bryony_Willcox_Persea_americana_Australia_2017","avo_6","transect","Homalictus spp","genus","other_wild_bees",1,600,120,NA,"transects (20x5 metres) x 20 minutes; this field observation group was made up of more than 1 morphospecies",NA
"Bryony_Willcox_Persea_americana_Australia_2017","avo_6","transect","Wasp sp21","morphospecies","non_bee_hymenoptera",1,600,120,NA,"transects (20x5 metres) x 20 minutes; not identified to genus",NA
"Bryony_Willcox_Persea_americana_Australia_2015","avo_8","transect","Helina sp1","morphospecies","other_flies",4,200,40,NA,"transects (20x5 metres) x 20 minutes",NA
"Bryony_Willcox_Persea_americana_Australia_2015","avo_8","transect","Lauxaniidae spp","family","other_flies",5,200,40,NA,"transects (20x5 metres) x 20 minutes; this field observation group was made up of more than 1 morphospecies",NA
"Bryony_Willcox_Persea_americana_Australia_2015","avo_8","transect","Syrphidae spp","family","syrphids",2,200,40,NA,"transects (20x5 metres) x 20 minutes; this field observation group was made up of more than 1 morphospecies",NA
"Bryony_Willcox_Persea_americana_Australia_2015","avo_8","transect","Formicidae sp5","morphospecies","non_bee_hymenoptera",7,200,40,NA,"transects (20x5 metres) x 20 minutes; not identified to genus",NA
"Bryony_Willcox_Persea_americana_Australia_2015","avo_9","transect","Coccinella sp1","morphospecies","beetles",1,600,120,NA,"transects (20x5 metres) x 20 minutes",NA
"Bryony_Willcox_Persea_americana_Australia_2015","avo_9","transect","Iridomyrmex purpureus","species","non_bee_hymenoptera",1,600,120,NA,"transects (20x5 metres) x 20 minutes",NA
"Bryony_Willcox_Persea_americana_Australia_2015","avo_9","transect","Metallea spp","genus","other_flies",2,600,120,NA,"transects (20x5 metres) x 20 minutes; this field observation group was made up of more than 1 morphospecies",NA
"Bryony_Willcox_Persea_americana_Australia_2015","avo_9","transect","Dirioxa pornis","species","other_flies",19,600,120,NA,"transects (20x5 metres) x 20 minutes",NA
"Bryony_Willcox_Persea_americana_Australia_2015","avo_9","transect","Lucilia sp1","morphospecies","other_flies",3,600,120,NA,"transects (20x5 metres) x 20 minutes",NA
"Bryony_Willcox_Persea_americana_Australia_2015","avo_9","transect","Helina sp1","morphospecies","other_flies",14,600,120,NA,"transects (20x5 metres) x 20 minutes",NA
"Bryony_Willcox_Persea_americana_Australia_2015","avo_9","transect","Lauxaniidae spp","family","other_flies",188,600,120,NA,"transects (20x5 metres) x 20 minutes; this field observation group was made up of more than 1 morphospecies",NA
"Bryony_Willcox_Persea_americana_Australia_2015","avo_9","transect","Lasioglossum_sp2","morphospecies","other_wild_bees",1,600,120,NA,"transects (20x5 metres) x 20 minutes",NA
"Bryony_Willcox_Persea_americana_Australia_2015","avo_9","transect","Syrphidae spp","family","syrphids",63,600,120,NA,"transects (20x5 metres) x 20 minutes; this field observation group was made up of more than 1 morphospecies",NA
"Bryony_Willcox_Persea_americana_Australia_2015","avo_9","transect","Tachinid spp","family","other_flies",1,600,120,NA,"transects (20x5 metres) x 20 minutes; this field observation group was made up of more than 1 morphospecies",NA
"Bryony_Willcox_Persea_americana_Australia_2015","avo_10","transect","Coccinella sp1","morphospecies","beetles",1,600,120,NA,"transects (20x5 metres) x 20 minutes",NA
"Bryony_Willcox_Persea_americana_Australia_2015","avo_10","transect","Dirioxa pornis","species","other_flies",4,600,120,NA,"transects (20x5 metres) x 20 minutes",NA
"Bryony_Willcox_Persea_americana_Australia_2015","avo_10","transect","Lauxaniidae spp","family","other_flies",10,600,120,NA,"transects (20x5 metres) x 20 minutes; this field observation group was made up of more than 1 morphospecies",NA
"Bryony_Willcox_Persea_americana_Australia_2015","avo_10","transect","Syrphidae spp","family","syrphids",40,600,120,NA,"transects (20x5 metres) x 20 minutes; this field observation group was made up of more than 1 morphospecies",NA
"Bryony_Willcox_Persea_americana_Australia_2015","avo_11","transect","Apis mellifera","species","honeybees",2,300,60,NA,"transects (20x5 metres) x 20 minutes",NA
"Bryony_Willcox_Persea_americana_Australia_2015","avo_11","transect","Coccinella sp1","morphospecies","beetles",1,300,60,NA,"transects (20x5 metres) x 20 minutes",NA
"Bryony_Willcox_Persea_americana_Australia_2015","avo_11","transect","Metallea spp","genus","other_flies",22,300,60,NA,"transects (20x5 metres) x 20 minutes; this field observation group was made up of more than 1 morphospecies",NA
"Bryony_Willcox_Persea_americana_Australia_2015","avo_11","transect","Dirioxa pornis","species","other_flies",10,300,60,NA,"transects (20x5 metres) x 20 minutes",NA
"Bryony_Willcox_Persea_americana_Australia_2015","avo_11","transect","Sarcophaga spp","genus","other_flies",4,300,60,NA,"transects (20x5 metres) x 20 minutes; this field observation group was made up of more than 1 morphospecies",NA
"Bryony_Willcox_Persea_americana_Australia_2015","avo_11","transect","Helina sp1","morphospecies","other_flies",2,300,60,NA,"transects (20x5 metres) x 20 minutes",NA
"Bryony_Willcox_Persea_americana_Australia_2015","avo_11","transect","Calliphora augur","species","other_flies",1,300,60,NA,"transects (20x5 metres) x 20 minutes",NA
"Bryony_Willcox_Persea_americana_Australia_2015","avo_11","transect","Ichneumonidae sp1","morphospecies","non_bee_hymenoptera",1,300,60,NA,"transects (20x5 metres) x 20 minutes; not identified to genus",NA
"Bryony_Willcox_Persea_americana_Australia_2015","avo_11","transect","Syrphidae spp","family","syrphids",98,300,60,NA,"transects (20x5 metres) x 20 minutes; this field observation group was made up of more than 1 morphospecies",NA
"Bryony_Willcox_Persea_americana_Australia_2015","avo_11","transect","Tachinid spp","family","other_flies",1,300,60,NA,"transects (20x5 metres) x 20 minutes; this field observation group was made up of more than 1 morphospecies",NA
"Bryony_Willcox_Persea_americana_Australia_2015","avo_12","transect","Coccinella sp1","morphospecies","beetles",5,600,120,NA,"transects (20x5 metres) x 20 minutes",NA
"Bryony_Willcox_Persea_americana_Australia_2015","avo_12","transect","Metallea spp","genus","other_flies",1,600,120,NA,"transects (20x5 metres) x 20 minutes; this field observation group was made up of more than 1 morphospecies",NA
"Bryony_Willcox_Persea_americana_Australia_2015","avo_12","transect","Dirioxa pornis","species","other_flies",10,600,120,NA,"transects (20x5 metres) x 20 minutes",NA
"Bryony_Willcox_Persea_americana_Australia_2015","avo_12","transect","Syrphidae spp","family","syrphids",58,600,120,NA,"transects (20x5 metres) x 20 minutes; this field observation group was made up of more than 1 morphospecies",NA
"Bryony_Willcox_Macadamia_integrifolia_Australia_2016","mac_3","transect","Apis mellifera","species","honeybees",123,700,140,NA,"transects (20x5 metres) x 20 minutes",NA
"Bryony_Willcox_Macadamia_integrifolia_Australia_2016","mac_3","transect","Stomorhina discolor","species","other_flies",2,700,140,NA,"transects (20x5 metres) x 20 minutes",NA
"Bryony_Willcox_Macadamia_integrifolia_Australia_2016","mac_3","transect","Lycid sp1","morphospecies","beetles",2,700,140,NA,"transects (20x5 metres) x 20 minutes",NA
"Bryony_Willcox_Macadamia_integrifolia_Australia_2016","mac_3","transect","Cantharidae spp","family","beetles",2,700,140,NA,"transects (20x5 metres) x 20 minutes; this field observation group was made up of more than 1 morphospecies",NA
"Bryony_Willcox_Macadamia_integrifolia_Australia_2016","mac_3","transect","Syrphidae spp","family","syrphids",8,700,140,NA,"transects (20x5 metres) x 20 minutes; this field observation group was made up of more than 1 morphospecies",NA
"Bryony_Willcox_Macadamia_integrifolia_Australia_2016","mac_3","transect","Monolepta australis","species","beetles",1,700,140,NA,"transects (20x5 metres) x 20 minutes",NA
"Bryony_Willcox_Macadamia_integrifolia_Australia_2016","mac_3","transect","Diptera sp17","morphospecies","other_flies",1,700,140,NA,"transects (20x5 metres) x 20 minutes; not identified to genus",NA
"Bryony_Willcox_Macadamia_integrifolia_Australia_2016","mac_3","transect","Lepidoptera sp5","morphospecies","lepidoptera",2,700,140,NA,"transects (20x5 metres) x 20 minutes; not identified to genus",NA
"Bryony_Willcox_Macadamia_integrifolia_Australia_2016","mac_3","transect","Lepidoptera sp6","morphospecies","lepidoptera",1,700,140,NA,"transects (20x5 metres) x 20 minutes; not identified to genus",NA
"Bryony_Willcox_Macadamia_integrifolia_Australia_2016","mac_3","transect","Lepidoptera sp1","morphospecies","lepidoptera",1,700,140,NA,"transects (20x5 metres) x 20 minutes; not identified to genus",NA
"Bryony_Willcox_Macadamia_integrifolia_Australia_2016","mac_3","transect","Tiphiidae sp4","morphospecies","non_bee_hymenoptera",1,700,140,NA,"transects (20x5 metres) x 20 minutes; not identified to genus",NA
"Bryony_Willcox_Macadamia_integrifolia_Australia_2016","mac_5","transect","Apis mellifera","species","honeybees",134,700,140,NA,"transects (20x5 metres) x 20 minutes",NA
"Bryony_Willcox_Macadamia_integrifolia_Australia_2016","mac_5","transect","Stomorhina discolor","species","other_flies",14,700,140,NA,"transects (20x5 metres) x 20 minutes",NA
"Bryony_Willcox_Macadamia_integrifolia_Australia_2016","mac_5","transect","Chrysomya sp1","morphospecies","other_flies",4,700,140,NA,"transects (20x5 metres) x 20 minutes",NA
"Bryony_Willcox_Macadamia_integrifolia_Australia_2016","mac_5","transect","Lycid sp1","morphospecies","beetles",1,700,140,NA,"transects (20x5 metres) x 20 minutes",NA
"Bryony_Willcox_Macadamia_integrifolia_Australia_2016","mac_5","transect","Diptera sp8","morphospecies","other_flies",1,700,140,NA,"transects (20x5 metres) x 20 minutes; not identified to genus",NA
"Bryony_Willcox_Macadamia_integrifolia_Australia_2016","mac_5","transect","Cantharidae spp","family","beetles",1,700,140,NA,"transects (20x5 metres) x 20 minutes; this field observation group was made up of more than 1 morphospecies",NA
"Bryony_Willcox_Macadamia_integrifolia_Australia_2016","mac_5","transect","Lepidoptera sp4","morphospecies","lepidoptera",1,700,140,NA,"transects (20x5 metres) x 20 minutes; not identified to genus",NA
"Bryony_Willcox_Macadamia_integrifolia_Australia_2016","mac_5","transect","Syrphidae spp","family","syrphids",1,700,140,NA,"transects (20x5 metres) x 20 minutes; this field observation group was made up of more than 1 morphospecies",NA
"Bryony_Willcox_Mangifera_indica_Australia_2016_2","man_1","transect","Apis mellifera","species","honeybees",17,700,140,NA,"transects (20x5 metres) x 20 minutes",NA
"Bryony_Willcox_Mangifera_indica_Australia_2016_2","man_1","transect","Tetragonula sp1","morphospecies","other_wild_bees",11,700,140,NA,"transects (20x5 metres) x 20 minutes",NA
"Bryony_Willcox_Mangifera_indica_Australia_2016_2","man_1","transect","Stomorhina discolor","species","other_flies",121,700,140,NA,"transects (20x5 metres) x 20 minutes",NA
"Bryony_Willcox_Mangifera_indica_Australia_2016_2","man_1","transect","Syrphidae spp","family","syrphids",8,700,140,NA,"transects (20x5 metres) x 20 minutes; this field observation group was made up of more than 1 morphospecies",NA
"Bryony_Willcox_Mangifera_indica_Australia_2016_2","man_1","transect","Eristalinus spp","genus","syrphids",1,700,140,NA,"transects (20x5 metres) x 20 minutes; this field observation group was made up of more than 1 morphospecies",NA
"Bryony_Willcox_Mangifera_indica_Australia_2016_2","man_1","transect","Cantharidae spp","family","beetles",4,700,140,NA,"transects (20x5 metres) x 20 minutes; this field observation group was made up of more than 1 morphospecies",NA
"Bryony_Willcox_Mangifera_indica_Australia_2016_2","man_1","transect","Monolepta australis","species","beetles",3,700,140,NA,"transects (20x5 metres) x 20 minutes",NA
"Bryony_Willcox_Mangifera_indica_Australia_2016_2","man_1","transect","Coccinella sp4","morphospecies","beetles",1,700,140,NA,"transects (20x5 metres) x 20 minutes",NA
"Bryony_Willcox_Mangifera_indica_Australia_2016_2","man_1","transect","Meloidae sp1","morphospecies","beetles",7,700,140,NA,"transects (20x5 metres) x 20 minutes",NA
"Bryony_Willcox_Mangifera_indica_Australia_2016_2","man_1","transect","Xylocopa sp2","morphospecies","other_wild_bees",1,700,140,NA,"transects (20x5 metres) x 20 minutes",NA
"Bryony_Willcox_Mangifera_indica_Australia_2016_2","man_1","transect","Rhytidoponera metallica","species","non_bee_hymenoptera",4,700,140,NA,"transects (20x5 metres) x 20 minutes",NA
"Bryony_Willcox_Mangifera_indica_Australia_2016_2","man_1","transect","Chrysomya sp1","morphospecies","other_flies",12,700,140,NA,"transects (20x5 metres) x 20 minutes",NA
"Bryony_Willcox_Mangifera_indica_Australia_2016_2","man_1","transect","Coccinella sp1","morphospecies","beetles",1,700,140,NA,"transects (20x5 metres) x 20 minutes",NA
"Bryony_Willcox_Mangifera_indica_Australia_2016_2","man_1","transect","Diptera sp18","morphospecies","other_flies",1,700,140,NA,"transects (20x5 metres) x 20 minutes; not identified to genus",NA
"Bryony_Willcox_Mangifera_indica_Australia_2016_2","man_1","transect","Bee sp1","morphospecies","other_wild_bees",1,700,140,NA,"transects (20x5 metres) x 20 minutes; not identified to genus",NA
"Bryony_Willcox_Mangifera_indica_Australia_2016_2","man_1","transect","Formicidae sp1","morphospecies","non_bee_hymenoptera",3,700,140,NA,"transects (20x5 metres) x 20 minutes; not identified to genus",NA
"Bryony_Willcox_Mangifera_indica_Australia_2016_2","man_1","transect","Iridmomyrmex purpureus","species","non_bee_hymenoptera",3,700,140,NA,"transects (20x5 metres) x 20 minutes",NA
"Bryony_Willcox_Mangifera_indica_Australia_2016_2","man_1","transect","Coleoptera sp9","morphospecies","beetles",1,700,140,NA,"transects (20x5 metres) x 20 minutes; not identified to genus",NA
"Bryony_Willcox_Mangifera_indica_Australia_2016_2","man_1","transect","Wasp sp5","morphospecies","non_bee_hymenoptera",1,700,140,NA,"transects (20x5 metres) x 20 minutes; not identified to genus",NA
"Bryony_Willcox_Mangifera_indica_Australia_2016_2","man_1","transect","Homalictus spp","genus","other_wild_bees",1,700,140,NA,"transects (20x5 metres) x 20 minutes; this field observation group was made up of more than 1 morphospecies",NA
"Bryony_Willcox_Mangifera_indica_Australia_2016_2","man_2","transect","Apis mellifera","species","honeybees",94,800,160,NA,"transects (20x5 metres) x 20 minutes",NA
"Bryony_Willcox_Mangifera_indica_Australia_2016_2","man_2","transect","Tetragonula sp1","morphospecies","other_wild_bees",16,800,160,NA,"transects (20x5 metres) x 20 minutes",NA
"Bryony_Willcox_Mangifera_indica_Australia_2016_2","man_2","transect","Stomorhina discolor","species","other_flies",111,800,160,NA,"transects (20x5 metres) x 20 minutes",NA
"Bryony_Willcox_Mangifera_indica_Australia_2016_2","man_2","transect","Syrphidae spp","family","syrphids",8,800,160,NA,"transects (20x5 metres) x 20 minutes; this field observation group was made up of more than 1 morphospecies",NA
"Bryony_Willcox_Mangifera_indica_Australia_2016_2","man_2","transect","Eristalinus spp","genus","syrphids",1,800,160,NA,"transects (20x5 metres) x 20 minutes; this field observation group was made up of more than 1 morphospecies",NA
"Bryony_Willcox_Mangifera_indica_Australia_2016_2","man_2","transect","Cantharidae spp","family","beetles",21,800,160,NA,"transects (20x5 metres) x 20 minutes; this field observation group was made up of more than 1 morphospecies",NA
"Bryony_Willcox_Mangifera_indica_Australia_2016_2","man_2","transect","Monolepta australis","species","beetles",1,800,160,NA,"transects (20x5 metres) x 20 minutes",NA
"Bryony_Willcox_Mangifera_indica_Australia_2016_2","man_2","transect","Chrysomya sp1","morphospecies","other_flies",7,800,160,NA,"transects (20x5 metres) x 20 minutes",NA
"Bryony_Willcox_Mangifera_indica_Australia_2016_2","man_2","transect","Coccinella sp1","morphospecies","beetles",1,800,160,NA,"transects (20x5 metres) x 20 minutes",NA
"Bryony_Willcox_Mangifera_indica_Australia_2016_2","man_2","transect","Formicidae sp1","morphospecies","non_bee_hymenoptera",3,800,160,NA,"transects (20x5 metres) x 20 minutes; not identified to genus",NA
"Bryony_Willcox_Mangifera_indica_Australia_2016_2","man_2","transect","Coleoptera sp9","morphospecies","beetles",1,800,160,NA,"transects (20x5 metres) x 20 minutes; not identified to genus",NA
"Bryony_Willcox_Mangifera_indica_Australia_2016_2","man_2","transect","Wasp sp5","morphospecies","non_bee_hymenoptera",1,800,160,NA,"transects (20x5 metres) x 20 minutes; not identified to genus",NA
"Bryony_Willcox_Mangifera_indica_Australia_2016_2","man_2","transect","Coleoptera sp12","morphospecies","beetles",1,800,160,NA,"transects (20x5 metres) x 20 minutes; not identified to genus",NA
"Bryony_Willcox_Mangifera_indica_Australia_2016_2","man_2","transect","Syrrita spp","genus","other_flies",5,800,160,NA,"transects (20x5 metres) x 20 minutes; this field observation group was made up of more than 1 morphospecies",NA
"Bryony_Willcox_Mangifera_indica_Australia_2016_2","man_2","transect","Wasp sp6","morphospecies","non_bee_hymenoptera",2,800,160,NA,"transects (20x5 metres) x 20 minutes; not identified to genus",NA
"Bryony_Willcox_Mangifera_indica_Australia_2016_2","man_2","transect","Homalictus spp","genus","other_wild_bees",3,800,160,NA,"transects (20x5 metres) x 20 minutes; this field observation group was made up of more than 1 morphospecies",NA
"Bryony_Willcox_Mangifera_indica_Australia_2016_2","man_2","transect","Sapromyza spp","genus","other_flies",1,800,160,NA,"transects (20x5 metres) x 20 minutes; this field observation group was made up of more than 1 morphospecies",NA
"Bryony_Willcox_Mangifera_indica_Australia_2016_2","man_2","transect","Diptera sp9","morphospecies","other_flies",1,800,160,NA,"transects (20x5 metres) x 20 minutes; not identified to genus",NA
"Bryony_Willcox_Mangifera_indica_Australia_2016_2","man_2","transect","Bee sp2","morphospecies","other_wild_bees",5,800,160,NA,"transects (20x5 metres) x 20 minutes; not identified to genus",NA
"Bryony_Willcox_Mangifera_indica_Australia_2016_2","man_2","transect","Calliphora augur","species","other_flies",3,800,160,NA,"transects (20x5 metres) x 20 minutes",NA
"Bryony_Willcox_Mangifera_indica_Australia_2016_2","man_2","transect","Glycyphana stolata","species","beetles",2,800,160,NA,"transects (20x5 metres) x 20 minutes",NA
"Bryony_Willcox_Mangifera_indica_Australia_2016_2","man_2","transect","Diptera sp10","morphospecies","other_flies",1,800,160,NA,"transects (20x5 metres) x 20 minutes; not identified to genus",NA
"Bryony_Willcox_Mangifera_indica_Australia_2016_2","man_2","transect","Euphorinae sp1","morphospecies","non_bee_hymenoptera",2,800,160,NA,"transects (20x5 metres) x 20 minutes",NA
"Bryony_Willcox_Mangifera_indica_Australia_2016_2","man_2","transect","Sarcophaga spp","genus","other_flies",3,800,160,NA,"transects (20x5 metres) x 20 minutes; this field observation group was made up of more than 1 morphospecies",NA
"Bryony_Willcox_Mangifera_indica_Australia_2016_2","man_2","transect","Micraspis sp1","morphospecies","beetles",1,800,160,NA,"transects (20x5 metres) x 20 minutes",NA
"Bryony_Willcox_Mangifera_indica_Australia_2016_2","man_2","transect","Diptera sp11","morphospecies","other_flies",1,800,160,NA,"transects (20x5 metres) x 20 minutes; not identified to genus",NA
"Bryony_Willcox_Mangifera_indica_Australia_2016_2","man_2","transect","Lycid sp1","morphospecies","beetles",1,800,160,NA,"transects (20x5 metres) x 20 minutes",NA
"Bryony_Willcox_Mangifera_indica_Australia_2016_2","man_2","transect","Lucilia sp1","morphospecies","other_flies",1,800,160,NA,"transects (20x5 metres) x 20 minutes",NA
"Bryony_Willcox_Mangifera_indica_Australia_2017","man_1","transect","Apis mellifera","species","honeybees",2,800,160,NA,"transects (20x5 metres) x 20 minutes",NA
"Bryony_Willcox_Mangifera_indica_Australia_2017","man_1","transect","Tetragonula sp1","morphospecies","other_wild_bees",4,800,160,NA,"transects (20x5 metres) x 20 minutes",NA
"Bryony_Willcox_Mangifera_indica_Australia_2017","man_1","transect","Stomorhina discolor","species","other_flies",205,800,160,NA,"transects (20x5 metres) x 20 minutes",NA
"Bryony_Willcox_Mangifera_indica_Australia_2017","man_1","transect","Syrphidae spp","family","syrphids",14,800,160,NA,"transects (20x5 metres) x 20 minutes; this field observation group was made up of more than 1 morphospecies",NA
"Bryony_Willcox_Mangifera_indica_Australia_2017","man_1","transect","Eristalinus spp","genus","syrphids",1,800,160,NA,"transects (20x5 metres) x 20 minutes; this field observation group was made up of more than 1 morphospecies",NA
"Bryony_Willcox_Mangifera_indica_Australia_2017","man_1","transect","Cantharidae spp","family","beetles",6,800,160,NA,"transects (20x5 metres) x 20 minutes; this field observation group was made up of more than 1 morphospecies",NA
"Bryony_Willcox_Mangifera_indica_Australia_2017","man_1","transect","Coccinella sp4","morphospecies","beetles",2,800,160,NA,"transects (20x5 metres) x 20 minutes",NA
"Bryony_Willcox_Mangifera_indica_Australia_2017","man_1","transect","Syrrita spp","genus","other_flies",177,800,160,NA,"transects (20x5 metres) x 20 minutes; this field observation group was made up of more than 1 morphospecies",NA
"Bryony_Willcox_Mangifera_indica_Australia_2017","man_1","transect","Calliphora augur","species","other_flies",6,800,160,NA,"transects (20x5 metres) x 20 minutes",NA
"Bryony_Willcox_Mangifera_indica_Australia_2017","man_1","transect","Chrysomya sp1","morphospecies","other_flies",57,800,160,NA,"transects (20x5 metres) x 20 minutes",NA
"Bryony_Willcox_Mangifera_indica_Australia_2017","man_1","transect","Euphorinae sp1","morphospecies","non_bee_hymenoptera",9,800,160,NA,"transects (20x5 metres) x 20 minutes",NA
"Bryony_Willcox_Mangifera_indica_Australia_2017","man_1","transect","Diptera sp22","morphospecies","other_flies",3,800,160,NA,"transects (20x5 metres) x 20 minutes; not identified to genus",NA
"Bryony_Willcox_Mangifera_indica_Australia_2017","man_1","transect","Diptera sp23","morphospecies","other_flies",1,800,160,NA,"transects (20x5 metres) x 20 minutes; not identified to genus",NA
"Bryony_Willcox_Mangifera_indica_Australia_2017","man_1","transect","Diptera sp24","morphospecies","other_flies",1,800,160,NA,"transects (20x5 metres) x 20 minutes; not identified to genus",NA
"Bryony_Willcox_Mangifera_indica_Australia_2017","man_1","transect","Wasp sp14","morphospecies","non_bee_hymenoptera",7,800,160,NA,"transects (20x5 metres) x 20 minutes; not identified to genus",NA
"Bryony_Willcox_Mangifera_indica_Australia_2017","man_1","transect","Wasp sp15","morphospecies","non_bee_hymenoptera",5,800,160,NA,"transects (20x5 metres) x 20 minutes; not identified to genus",NA
"Bryony_Willcox_Mangifera_indica_Australia_2017","man_1","transect","Rhytidoponera metallica","species","non_bee_hymenoptera",1,800,160,NA,"transects (20x5 metres) x 20 minutes",NA
"Bryony_Willcox_Mangifera_indica_Australia_2017","man_1","transect","Halmus chalybeus","species","beetles",2,800,160,NA,"transects (20x5 metres) x 20 minutes",NA
"Bryony_Willcox_Mangifera_indica_Australia_2017","man_1","transect","Glycyphana stolata","species","beetles",1,800,160,NA,"transects (20x5 metres) x 20 minutes",NA
"Bryony_Willcox_Mangifera_indica_Australia_2017","man_1","transect","Diptera sp25","morphospecies","other_flies",1,800,160,NA,"transects (20x5 metres) x 20 minutes; not identified to genus",NA
"Bryony_Willcox_Mangifera_indica_Australia_2017","man_1","transect","Diptera sp26","morphospecies","other_flies",2,800,160,NA,"transects (20x5 metres) x 20 minutes; not identified to genus",NA
"Bryony_Willcox_Mangifera_indica_Australia_2017","man_1","transect","Sarcophaga spp","genus","other_flies",2,800,160,NA,"transects (20x5 metres) x 20 minutes; this field observation group was made up of more than 1 morphospecies",NA
"Bryony_Willcox_Mangifera_indica_Australia_2017","man_1","transect","Lucilia sp1","morphospecies","other_flies",18,800,160,NA,"transects (20x5 metres) x 20 minutes",NA
"Bryony_Willcox_Mangifera_indica_Australia_2017","man_2","transect","Apis mellifera","species","honeybees",41,1600,320,NA,"transects (20x5 metres) x 20 minutes",NA
"Bryony_Willcox_Mangifera_indica_Australia_2017","man_2","transect","Tetragonula sp1","morphospecies","other_wild_bees",11,1600,320,NA,"transects (20x5 metres) x 20 minutes",NA
"Bryony_Willcox_Mangifera_indica_Australia_2017","man_2","transect","Stomorhina discolor","species","other_flies",362,1600,320,NA,"transects (20x5 metres) x 20 minutes",NA
"Bryony_Willcox_Mangifera_indica_Australia_2017","man_2","transect","Syrphidae spp","family","syrphids",28,1600,320,NA,"transects (20x5 metres) x 20 minutes; this field observation group was made up of more than 1 morphospecies",NA
"Bryony_Willcox_Mangifera_indica_Australia_2017","man_2","transect","Eristalinus spp","genus","syrphids",2,1600,320,NA,"transects (20x5 metres) x 20 minutes; this field observation group was made up of more than 1 morphospecies",NA
"Bryony_Willcox_Mangifera_indica_Australia_2017","man_2","transect","Cantharidae spp","family","beetles",3,1600,320,NA,"transects (20x5 metres) x 20 minutes; this field observation group was made up of more than 1 morphospecies",NA
"Bryony_Willcox_Mangifera_indica_Australia_2017","man_2","transect","Syrrita spp","genus","other_flies",136,1600,320,NA,"transects (20x5 metres) x 20 minutes; this field observation group was made up of more than 1 morphospecies",NA
"Bryony_Willcox_Mangifera_indica_Australia_2017","man_2","transect","Calliphora augur","species","other_flies",5,1600,320,NA,"transects (20x5 metres) x 20 minutes",NA
"Bryony_Willcox_Mangifera_indica_Australia_2017","man_2","transect","Chrysomya sp1","morphospecies","other_flies",36,1600,320,NA,"transects (20x5 metres) x 20 minutes",NA
"Bryony_Willcox_Mangifera_indica_Australia_2017","man_2","transect","Diptera sp19","morphospecies","other_flies",1,1600,320,NA,"transects (20x5 metres) x 20 minutes; not identified to genus",NA
"Bryony_Willcox_Mangifera_indica_Australia_2017","man_2","transect","Diptera sp20","morphospecies","other_flies",1,1600,320,NA,"transects (20x5 metres) x 20 minutes; not identified to genus",NA
"Bryony_Willcox_Mangifera_indica_Australia_2017","man_2","transect","Diptera sp21","morphospecies","other_flies",3,1600,320,NA,"transects (20x5 metres) x 20 minutes; not identified to genus",NA
"Bryony_Willcox_Mangifera_indica_Australia_2017","man_2","transect","Euphorinae sp1","morphospecies","non_bee_hymenoptera",9,1600,320,NA,"transects (20x5 metres) x 20 minutes",NA
"Bryony_Willcox_Mangifera_indica_Australia_2017","man_2","transect","Diptera sp22","morphospecies","other_flies",1,1600,320,NA,"transects (20x5 metres) x 20 minutes; not identified to genus",NA
"Bryony_Willcox_Mangifera_indica_Australia_2017","man_2","transect","Diptera sp24","morphospecies","other_flies",1,1600,320,NA,"transects (20x5 metres) x 20 minutes; not identified to genus",NA
"Bryony_Willcox_Mangifera_indica_Australia_2017","man_2","transect","Wasp sp14","morphospecies","non_bee_hymenoptera",4,1600,320,NA,"transects (20x5 metres) x 20 minutes; not identified to genus",NA
"Bryony_Willcox_Mangifera_indica_Australia_2017","man_2","transect","Wasp sp15","morphospecies","non_bee_hymenoptera",5,1600,320,NA,"transects (20x5 metres) x 20 minutes; not identified to genus",NA
"Bryony_Willcox_Mangifera_indica_Australia_2017","man_2","transect","Diptera sp5","morphospecies","other_flies",1,1600,320,NA,"transects (20x5 metres) x 20 minutes; not identified to genus",NA
"Bryony_Willcox_Mangifera_indica_Australia_2017","man_2","transect","Sarcophaga spp","genus","other_flies",1,1600,320,NA,"transects (20x5 metres) x 20 minutes; this field observation group was made up of more than 1 morphospecies",NA
"Bryony_Willcox_Mangifera_indica_Australia_2017","man_2","transect","Wasp sp16","morphospecies","non_bee_hymenoptera",1,1600,320,NA,"transects (20x5 metres) x 20 minutes; not identified to genus",NA
"Bryony_Willcox_Mangifera_indica_Australia_2017","man_2","transect","Lycid sp1","morphospecies","beetles",1,1600,320,NA,"transects (20x5 metres) x 20 minutes",NA
"Carlos_H_Vergara_Coffea_arabica_Mexico_2004","MIR1","observations","Apis_mellifera","species","honeybees",54,NA,100,NA,"At each plantation, the four selected coffee plants were sequentially observed for 25 min each",NA
"Carlos_H_Vergara_Coffea_arabica_Mexico_2004","MIR1","observations","Apis_mellifera","species","honeybees",38,NA,100,NA,"At each plantation, the four selected coffee plants were sequentially observed for 25 min each",NA
"Carlos_H_Vergara_Coffea_arabica_Mexico_2004","MIR1","observations","Apis_mellifera","species","honeybees",19,NA,100,NA,"At each plantation, the four selected coffee plants were sequentially observed for 25 min each",NA
"Carlos_H_Vergara_Coffea_arabica_Mexico_2004","MIR1","observations","Apis_mellifera","species","honeybees",12,NA,100,NA,"At each plantation, the four selected coffee plants were sequentially observed for 25 min each",NA
"Carlos_H_Vergara_Coffea_arabica_Mexico_2004","MIR2","observations","Apis_mellifera","species","honeybees",47,NA,100,NA,"At each plantation, the four selected coffee plants were sequentially observed for 25 min each",NA
"Carlos_H_Vergara_Coffea_arabica_Mexico_2004","MIR2","observations","Apis_mellifera","species","honeybees",34,NA,100,NA,"At each plantation, the four selected coffee plants were sequentially observed for 25 min each",NA
"Carlos_H_Vergara_Coffea_arabica_Mexico_2004","MIR2","observations","Apis_mellifera","species","honeybees",14,NA,100,NA,"At each plantation, the four selected coffee plants were sequentially observed for 25 min each",NA
"Carlos_H_Vergara_Coffea_arabica_Mexico_2004","MIR2","observations","Apis_mellifera","species","honeybees",10,NA,100,NA,"At each plantation, the four selected coffee plants were sequentially observed for 25 min each",NA
"Carlos_H_Vergara_Coffea_arabica_Mexico_2004","MIR3","observations","Apis_mellifera","species","honeybees",28,NA,100,NA,"At each plantation, the four selected coffee plants were sequentially observed for 25 min each",NA
"Carlos_H_Vergara_Coffea_arabica_Mexico_2004","MIR3","observations","Apis_mellifera","species","honeybees",16,NA,100,NA,"At each plantation, the four selected coffee plants were sequentially observed for 25 min each",NA
"Carlos_H_Vergara_Coffea_arabica_Mexico_2004","MIR3","observations","Apis_mellifera","species","honeybees",7,NA,100,NA,"At each plantation, the four selected coffee plants were sequentially observed for 25 min each",NA
"Carlos_H_Vergara_Coffea_arabica_Mexico_2004","MIR3","observations","Apis_mellifera","species","honeybees",6,NA,100,NA,"At each plantation, the four selected coffee plants were sequentially observed for 25 min each",NA
"Carlos_H_Vergara_Coffea_arabica_Mexico_2004","MIR4","observations","Apis_mellifera","species","honeybees",56,NA,100,NA,"At each plantation, the four selected coffee plants were sequentially observed for 25 min each",NA
"Carlos_H_Vergara_Coffea_arabica_Mexico_2004","MIR4","observations","Apis_mellifera","species","honeybees",41,NA,100,NA,"At each plantation, the four selected coffee plants were sequentially observed for 25 min each",NA
"Carlos_H_Vergara_Coffea_arabica_Mexico_2004","MIR4","observations","Apis_mellifera","species","honeybees",21,NA,100,NA,"At each plantation, the four selected coffee plants were sequentially observed for 25 min each",NA
"Carlos_H_Vergara_Coffea_arabica_Mexico_2004","MIR4","observations","Apis_mellifera","species","honeybees",14,NA,100,NA,"At each plantation, the four selected coffee plants were sequentially observed for 25 min each",NA
"Carlos_H_Vergara_Coffea_arabica_Mexico_2004","VSE1","observations","Apis_mellifera","species","honeybees",52,NA,100,NA,"At each plantation, the four selected coffee plants were sequentially observed for 25 min each",NA
"Carlos_H_Vergara_Coffea_arabica_Mexico_2004","VSE1","observations","Apis_mellifera","species","honeybees",49,NA,100,NA,"At each plantation, the four selected coffee plants were sequentially observed for 25 min each",NA
"Carlos_H_Vergara_Coffea_arabica_Mexico_2004","VSE1","observations","Apis_mellifera","species","honeybees",34,NA,100,NA,"At each plantation, the four selected coffee plants were sequentially observed for 25 min each",NA
"Carlos_H_Vergara_Coffea_arabica_Mexico_2004","VSE1","observations","Apis_mellifera","species","honeybees",6,NA,100,NA,"At each plantation, the four selected coffee plants were sequentially observed for 25 min each",NA
"Carlos_H_Vergara_Coffea_arabica_Mexico_2004","VSE2","observations","Apis_mellifera","species","honeybees",64,NA,100,NA,"At each plantation, the four selected coffee plants were sequentially observed for 25 min each",NA
"Carlos_H_Vergara_Coffea_arabica_Mexico_2004","VSE2","observations","Apis_mellifera","species","honeybees",62,NA,100,NA,"At each plantation, the four selected coffee plants were sequentially observed for 25 min each",NA
"Carlos_H_Vergara_Coffea_arabica_Mexico_2004","VSE2","observations","Apis_mellifera","species","honeybees",27,NA,100,NA,"At each plantation, the four selected coffee plants were sequentially observed for 25 min each",NA
"Carlos_H_Vergara_Coffea_arabica_Mexico_2004","VSE2","observations","Apis_mellifera","species","honeybees",15,NA,100,NA,"At each plantation, the four selected coffee plants were sequentially observed for 25 min each",NA
"Carlos_H_Vergara_Coffea_arabica_Mexico_2004","VSE3","observations","Apis_mellifera","species","honeybees",67,NA,100,NA,"At each plantation, the four selected coffee plants were sequentially observed for 25 min each",NA
"Carlos_H_Vergara_Coffea_arabica_Mexico_2004","VSE3","observations","Apis_mellifera","species","honeybees",57,NA,100,NA,"At each plantation, the four selected coffee plants were sequentially observed for 25 min each",NA
"Carlos_H_Vergara_Coffea_arabica_Mexico_2004","VSE3","observations","Apis_mellifera","species","honeybees",40,NA,100,NA,"At each plantation, the four selected coffee plants were sequentially observed for 25 min each",NA
"Carlos_H_Vergara_Coffea_arabica_Mexico_2004","VSE3","observations","Apis_mellifera","species","honeybees",7,NA,100,NA,"At each plantation, the four selected coffee plants were sequentially observed for 25 min each",NA
"Carlos_H_Vergara_Coffea_arabica_Mexico_2004","VSE4","observations","Apis_mellifera","species","honeybees",26,NA,100,NA,"At each plantation, the four selected coffee plants were sequentially observed for 25 min each",NA
"Carlos_H_Vergara_Coffea_arabica_Mexico_2004","VSE4","observations","Apis_mellifera","species","honeybees",28,NA,100,NA,"At each plantation, the four selected coffee plants were sequentially observed for 25 min each",NA
"Carlos_H_Vergara_Coffea_arabica_Mexico_2004","VSE4","observations","Apis_mellifera","species","honeybees",19,NA,100,NA,"At each plantation, the four selected coffee plants were sequentially observed for 25 min each",NA
"Carlos_H_Vergara_Coffea_arabica_Mexico_2004","VSE4","observations","Apis_mellifera","species","honeybees",4,NA,100,NA,"At each plantation, the four selected coffee plants were sequentially observed for 25 min each",NA
"Carlos_H_Vergara_Coffea_arabica_Mexico_2004","SOL1","observations","Apis_mellifera","species","honeybees",19,NA,100,NA,"At each plantation, the four selected coffee plants were sequentially observed for 25 min each",NA
"Carlos_H_Vergara_Coffea_arabica_Mexico_2004","SOL1","observations","Apis_mellifera","species","honeybees",34,NA,100,NA,"At each plantation, the four selected coffee plants were sequentially observed for 25 min each",NA
"Carlos_H_Vergara_Coffea_arabica_Mexico_2004","SOL1","observations","Apis_mellifera","species","honeybees",52,NA,100,NA,"At each plantation, the four selected coffee plants were sequentially observed for 25 min each",NA
"Carlos_H_Vergara_Coffea_arabica_Mexico_2004","SOL1","observations","Apis_mellifera","species","honeybees",14,NA,100,NA,"At each plantation, the four selected coffee plants were sequentially observed for 25 min each",NA
"Carlos_H_Vergara_Coffea_arabica_Mexico_2004","SOL2","observations","Apis_mellifera","species","honeybees",12,NA,100,NA,"At each plantation, the four selected coffee plants were sequentially observed for 25 min each",NA
"Carlos_H_Vergara_Coffea_arabica_Mexico_2004","SOL2","observations","Apis_mellifera","species","honeybees",16,NA,100,NA,"At each plantation, the four selected coffee plants were sequentially observed for 25 min each",NA
"Carlos_H_Vergara_Coffea_arabica_Mexico_2004","SOL2","observations","Apis_mellifera","species","honeybees",21,NA,100,NA,"At each plantation, the four selected coffee plants were sequentially observed for 25 min each",NA
"Carlos_H_Vergara_Coffea_arabica_Mexico_2004","SOL2","observations","Apis_mellifera","species","honeybees",7,NA,100,NA,"At each plantation, the four selected coffee plants were sequentially observed for 25 min each",NA
"Carlos_H_Vergara_Coffea_arabica_Mexico_2004","SOL3","observations","Apis_mellifera","species","honeybees",21,NA,100,NA,"At each plantation, the four selected coffee plants were sequentially observed for 25 min each",NA
"Carlos_H_Vergara_Coffea_arabica_Mexico_2004","SOL3","observations","Apis_mellifera","species","honeybees",36,NA,100,NA,"At each plantation, the four selected coffee plants were sequentially observed for 25 min each",NA
"Carlos_H_Vergara_Coffea_arabica_Mexico_2004","SOL3","observations","Apis_mellifera","species","honeybees",65,NA,100,NA,"At each plantation, the four selected coffee plants were sequentially observed for 25 min each",NA
"Carlos_H_Vergara_Coffea_arabica_Mexico_2004","SOL3","observations","Apis_mellifera","species","honeybees",16,NA,100,NA,"At each plantation, the four selected coffee plants were sequentially observed for 25 min each",NA
"Carlos_H_Vergara_Coffea_arabica_Mexico_2004","SOL4","observations","Apis_mellifera","species","honeybees",20,NA,100,NA,"At each plantation, the four selected coffee plants were sequentially observed for 25 min each",NA
"Carlos_H_Vergara_Coffea_arabica_Mexico_2004","SOL4","observations","Apis_mellifera","species","honeybees",28,NA,100,NA,"At each plantation, the four selected coffee plants were sequentially observed for 25 min each",NA
"Carlos_H_Vergara_Coffea_arabica_Mexico_2004","SOL4","observations","Apis_mellifera","species","honeybees",39,NA,100,NA,"At each plantation, the four selected coffee plants were sequentially observed for 25 min each",NA
"Carlos_H_Vergara_Coffea_arabica_Mexico_2004","SOL4","observations","Apis_mellifera","species","honeybees",11,NA,100,NA,"At each plantation, the four selected coffee plants were sequentially observed for 25 min each",NA
"Carlos_H_Vergara_Coffea_arabica_Mexico_2004","ORD1","observations","Apis_mellifera","species","honeybees",39,NA,100,NA,"At each plantation, the four selected coffee plants were sequentially observed for 25 min each",NA
"Carlos_H_Vergara_Coffea_arabica_Mexico_2004","ORD1","observations","Apis_mellifera","species","honeybees",41,NA,100,NA,"At each plantation, the four selected coffee plants were sequentially observed for 25 min each",NA
"Carlos_H_Vergara_Coffea_arabica_Mexico_2004","ORD1","observations","Apis_mellifera","species","honeybees",31,NA,100,NA,"At each plantation, the four selected coffee plants were sequentially observed for 25 min each",NA
"Carlos_H_Vergara_Coffea_arabica_Mexico_2004","ORD1","observations","Apis_mellifera","species","honeybees",27,NA,100,NA,"At each plantation, the four selected coffee plants were sequentially observed for 25 min each",NA
"Carlos_H_Vergara_Coffea_arabica_Mexico_2004","ORD2","observations","Apis_mellifera","species","honeybees",19,NA,100,NA,"At each plantation, the four selected coffee plants were sequentially observed for 25 min each",NA
"Carlos_H_Vergara_Coffea_arabica_Mexico_2004","ORD2","observations","Apis_mellifera","species","honeybees",23,NA,100,NA,"At each plantation, the four selected coffee plants were sequentially observed for 25 min each",NA
"Carlos_H_Vergara_Coffea_arabica_Mexico_2004","ORD2","observations","Apis_mellifera","species","honeybees",16,NA,100,NA,"At each plantation, the four selected coffee plants were sequentially observed for 25 min each",NA
"Carlos_H_Vergara_Coffea_arabica_Mexico_2004","ORD2","observations","Apis_mellifera","species","honeybees",12,NA,100,NA,"At each plantation, the four selected coffee plants were sequentially observed for 25 min each",NA
"Carlos_H_Vergara_Coffea_arabica_Mexico_2004","ORD3","observations","Apis_mellifera","species","honeybees",61,NA,100,NA,"At each plantation, the four selected coffee plants were sequentially observed for 25 min each",NA
"Carlos_H_Vergara_Coffea_arabica_Mexico_2004","ORD3","observations","Apis_mellifera","species","honeybees",49,NA,100,NA,"At each plantation, the four selected coffee plants were sequentially observed for 25 min each",NA
"Carlos_H_Vergara_Coffea_arabica_Mexico_2004","ORD3","observations","Apis_mellifera","species","honeybees",21,NA,100,NA,"At each plantation, the four selected coffee plants were sequentially observed for 25 min each",NA
"Carlos_H_Vergara_Coffea_arabica_Mexico_2004","ORD3","observations","Apis_mellifera","species","honeybees",14,NA,100,NA,"At each plantation, the four selected coffee plants were sequentially observed for 25 min each",NA
"Carlos_H_Vergara_Coffea_arabica_Mexico_2004","ORD4","observations","Apis_mellifera","species","honeybees",44,NA,100,NA,"At each plantation, the four selected coffee plants were sequentially observed for 25 min each",NA
"Carlos_H_Vergara_Coffea_arabica_Mexico_2004","ORD4","observations","Apis_mellifera","species","honeybees",41,NA,100,NA,"At each plantation, the four selected coffee plants were sequentially observed for 25 min each",NA
"Carlos_H_Vergara_Coffea_arabica_Mexico_2004","ORD4","observations","Apis_mellifera","species","honeybees",18,NA,100,NA,"At each plantation, the four selected coffee plants were sequentially observed for 25 min each",NA
"Carlos_H_Vergara_Coffea_arabica_Mexico_2004","ORD4","observations","Apis_mellifera","species","honeybees",28,NA,100,NA,"At each plantation, the four selected coffee plants were sequentially observed for 25 min each",NA
"Carlos_H_Vergara_Coffea_arabica_Mexico_2004","MIR1","observations","Augochlora_sp.","genus","other_wild_bees",1,NA,100,NA,"At each plantation, the four selected coffee plants were sequentially observed for 25 min each",NA
"Carlos_H_Vergara_Coffea_arabica_Mexico_2004","VSE1","observations","Augochlora_sp.","genus","other_wild_bees",1,NA,100,NA,"At each plantation, the four selected coffee plants were sequentially observed for 25 min each",NA
"Carlos_H_Vergara_Coffea_arabica_Mexico_2004","MIR1","observations","Bibionidae_sp.","family","other_flies",2,NA,100,NA,"At each plantation, the four selected coffee plants were sequentially observed for 25 min each",NA
"Carlos_H_Vergara_Coffea_arabica_Mexico_2004","MIR3","observations","Bibionidae_sp.","family","other_flies",1,NA,100,NA,"At each plantation, the four selected coffee plants were sequentially observed for 25 min each",NA
"Carlos_H_Vergara_Coffea_arabica_Mexico_2004","SOL1","observations","Bibionidae_sp.","family","other_flies",2,NA,100,NA,"At each plantation, the four selected coffee plants were sequentially observed for 25 min each",NA
"Carlos_H_Vergara_Coffea_arabica_Mexico_2004","SOL1","observations","Bibionidae_sp.","family","other_flies",1,NA,100,NA,"At each plantation, the four selected coffee plants were sequentially observed for 25 min each",NA
"Carlos_H_Vergara_Coffea_arabica_Mexico_2004","SOL2","observations","Bibionidae_sp.","family","other_flies",2,NA,100,NA,"At each plantation, the four selected coffee plants were sequentially observed for 25 min each",NA
"Carlos_H_Vergara_Coffea_arabica_Mexico_2004","ORD1","observations","Bibionidae_sp.","family","other_flies",1,NA,100,NA,"At each plantation, the four selected coffee plants were sequentially observed for 25 min each",NA
"Carlos_H_Vergara_Coffea_arabica_Mexico_2004","ORD1","observations","Bibionidae_sp.","family","other_flies",3,NA,100,NA,"At each plantation, the four selected coffee plants were sequentially observed for 25 min each",NA
"Carlos_H_Vergara_Coffea_arabica_Mexico_2004","ORD2","observations","Bibionidae_sp.","family","other_flies",3,NA,100,NA,"At each plantation, the four selected coffee plants were sequentially observed for 25 min each",NA
"Carlos_H_Vergara_Coffea_arabica_Mexico_2004","ORD3","observations","Bibionidae_sp.","family","other_flies",1,NA,100,NA,"At each plantation, the four selected coffee plants were sequentially observed for 25 min each",NA
"Carlos_H_Vergara_Coffea_arabica_Mexico_2004","ORD1","observations","Calliphoridae_sp.","family","other_flies",1,NA,100,NA,"At each plantation, the four selected coffee plants were sequentially observed for 25 min each",NA
"Carlos_H_Vergara_Coffea_arabica_Mexico_2004","ORD1","observations","Calliphoridae_sp.","family","other_flies",2,NA,100,NA,"At each plantation, the four selected coffee plants were sequentially observed for 25 min each",NA
"Carlos_H_Vergara_Coffea_arabica_Mexico_2004","ORD2","observations","Calliphoridae_sp.","family","other_flies",2,NA,100,NA,"At each plantation, the four selected coffee plants were sequentially observed for 25 min each",NA
"Carlos_H_Vergara_Coffea_arabica_Mexico_2004","ORD3","observations","Calliphoridae_sp.","family","other_flies",2,NA,100,NA,"At each plantation, the four selected coffee plants were sequentially observed for 25 min each",NA
"Carlos_H_Vergara_Coffea_arabica_Mexico_2004","ORD4","observations","Calliphoridae_sp.","family","other_flies",1,NA,100,NA,"At each plantation, the four selected coffee plants were sequentially observed for 25 min each",NA
"Carlos_H_Vergara_Coffea_arabica_Mexico_2004","VSE1","observations","Ceratina_sp2","morphospecies","other_wild_bees",1,NA,100,NA,"At each plantation, the four selected coffee plants were sequentially observed for 25 min each",NA
"Carlos_H_Vergara_Coffea_arabica_Mexico_2004","VSE2","observations","Ceratina_sp2","morphospecies","other_wild_bees",1,NA,100,NA,"At each plantation, the four selected coffee plants were sequentially observed for 25 min each",NA
"Carlos_H_Vergara_Coffea_arabica_Mexico_2004","VSE4","observations","Ceratina_sp2","morphospecies","other_wild_bees",1,NA,100,NA,"At each plantation, the four selected coffee plants were sequentially observed for 25 min each",NA
"Carlos_H_Vergara_Coffea_arabica_Mexico_2004","SOL1","observations","Macrodactylus_fulvescens","species","beetles",4,NA,100,NA,"At each plantation, the four selected coffee plants were sequentially observed for 25 min each",NA
"Carlos_H_Vergara_Coffea_arabica_Mexico_2004","SOL1","observations","Macrodactylus_fulvescens","species","beetles",3,NA,100,NA,"At each plantation, the four selected coffee plants were sequentially observed for 25 min each",NA
"Carlos_H_Vergara_Coffea_arabica_Mexico_2004","SOL2","observations","Macrodactylus_fulvescens","species","beetles",3,NA,100,NA,"At each plantation, the four selected coffee plants were sequentially observed for 25 min each",NA
"Carlos_H_Vergara_Coffea_arabica_Mexico_2004","SOL2","observations","Macrodactylus_fulvescens","species","beetles",5,NA,100,NA,"At each plantation, the four selected coffee plants were sequentially observed for 25 min each",NA
"Carlos_H_Vergara_Coffea_arabica_Mexico_2004","SOL4","observations","Macrodactylus_fulvescens","species","beetles",2,NA,100,NA,"At each plantation, the four selected coffee plants were sequentially observed for 25 min each",NA
"Carlos_H_Vergara_Coffea_arabica_Mexico_2004","SOL4","observations","Macrodactylus_fulvescens","species","beetles",4,NA,100,NA,"At each plantation, the four selected coffee plants were sequentially observed for 25 min each",NA
"Carlos_H_Vergara_Coffea_arabica_Mexico_2004","ORD1","observations","Macrodactylus_fulvescens","species","beetles",1,NA,100,NA,"At each plantation, the four selected coffee plants were sequentially observed for 25 min each",NA
"Carlos_H_Vergara_Coffea_arabica_Mexico_2004","ORD2","observations","Macrodactylus_fulvescens","species","beetles",1,NA,100,NA,"At each plantation, the four selected coffee plants were sequentially observed for 25 min each",NA
"Carlos_H_Vergara_Coffea_arabica_Mexico_2004","ORD3","observations","Macrodactylus_fulvescens","species","beetles",1,NA,100,NA,"At each plantation, the four selected coffee plants were sequentially observed for 25 min each",NA
"Carlos_H_Vergara_Coffea_arabica_Mexico_2004","MIR1","observations","Polistinae_sp1_vergaradataset","morphospecies","non_bee_hymenoptera",1,NA,100,NA,"At each plantation, the four selected coffee plants were sequentially observed for 25 min each",NA
"Carlos_H_Vergara_Coffea_arabica_Mexico_2004","MIR2","observations","Polistinae_sp1_vergaradataset","morphospecies","non_bee_hymenoptera",1,NA,100,NA,"At each plantation, the four selected coffee plants were sequentially observed for 25 min each",NA
"Carlos_H_Vergara_Coffea_arabica_Mexico_2004","MIR3","observations","Polistinae_sp1_vergaradataset","morphospecies","non_bee_hymenoptera",1,NA,100,NA,"At each plantation, the four selected coffee plants were sequentially observed for 25 min each",NA
"Carlos_H_Vergara_Coffea_arabica_Mexico_2004","SOL1","observations","Polistinae_sp1_vergaradataset","morphospecies","non_bee_hymenoptera",1,NA,100,NA,"At each plantation, the four selected coffee plants were sequentially observed for 25 min each",NA
"Carlos_H_Vergara_Coffea_arabica_Mexico_2004","SOL1","observations","Polistinae_sp1_vergaradataset","morphospecies","non_bee_hymenoptera",1,NA,100,NA,"At each plantation, the four selected coffee plants were sequentially observed for 25 min each",NA
"Carlos_H_Vergara_Coffea_arabica_Mexico_2004","SOL2","observations","Polistinae_sp1_vergaradataset","morphospecies","non_bee_hymenoptera",2,NA,100,NA,"At each plantation, the four selected coffee plants were sequentially observed for 25 min each",NA
"Carlos_H_Vergara_Coffea_arabica_Mexico_2004","SOL3","observations","Polistinae_sp1_vergaradataset","morphospecies","non_bee_hymenoptera",2,NA,100,NA,"At each plantation, the four selected coffee plants were sequentially observed for 25 min each",NA
"Carlos_H_Vergara_Coffea_arabica_Mexico_2004","SOL4","observations","Polistinae_sp1_vergaradataset","morphospecies","non_bee_hymenoptera",1,NA,100,NA,"At each plantation, the four selected coffee plants were sequentially observed for 25 min each",NA
"Carlos_H_Vergara_Coffea_arabica_Mexico_2004","ORD1","observations","Polistinae_sp1_vergaradataset","morphospecies","non_bee_hymenoptera",1,NA,100,NA,"At each plantation, the four selected coffee plants were sequentially observed for 25 min each",NA
"Carlos_H_Vergara_Coffea_arabica_Mexico_2004","ORD2","observations","Polistinae_sp1_vergaradataset","morphospecies","non_bee_hymenoptera",1,NA,100,NA,"At each plantation, the four selected coffee plants were sequentially observed for 25 min each",NA
"Carlos_H_Vergara_Coffea_arabica_Mexico_2004","ORD2","observations","Polistinae_sp1_vergaradataset","morphospecies","non_bee_hymenoptera",1,NA,100,NA,"At each plantation, the four selected coffee plants were sequentially observed for 25 min each",NA
"Carlos_H_Vergara_Coffea_arabica_Mexico_2004","ORD3","observations","Polistinae_sp1_vergaradataset","morphospecies","non_bee_hymenoptera",2,NA,100,NA,"At each plantation, the four selected coffee plants were sequentially observed for 25 min each",NA
"Carlos_H_Vergara_Coffea_arabica_Mexico_2004","ORD4","observations","Polistinae_sp1_vergaradataset","morphospecies","non_bee_hymenoptera",2,NA,100,NA,"At each plantation, the four selected coffee plants were sequentially observed for 25 min each",NA
"Carlos_H_Vergara_Coffea_arabica_Mexico_2004","ORD4","observations","Polistinae_sp1_vergaradataset","morphospecies","non_bee_hymenoptera",1,NA,100,NA,"At each plantation, the four selected coffee plants were sequentially observed for 25 min each",NA
"Carlos_H_Vergara_Coffea_arabica_Mexico_2004","ORD4","observations","Polistinae_sp1_vergaradataset","morphospecies","non_bee_hymenoptera",1,NA,100,NA,"At each plantation, the four selected coffee plants were sequentially observed for 25 min each",NA
"Carlos_H_Vergara_Coffea_arabica_Mexico_2004","ORD1","observations","Polistinae_sp2_vergaradataset","morphospecies","non_bee_hymenoptera",1,NA,100,NA,"At each plantation, the four selected coffee plants were sequentially observed for 25 min each",NA
"Carlos_H_Vergara_Coffea_arabica_Mexico_2004","ORD1","observations","Polistinae_sp2_vergaradataset","morphospecies","non_bee_hymenoptera",2,NA,100,NA,"At each plantation, the four selected coffee plants were sequentially observed for 25 min each",NA
"Carlos_H_Vergara_Coffea_arabica_Mexico_2004","ORD1","observations","Polistinae_sp2_vergaradataset","morphospecies","non_bee_hymenoptera",2,NA,100,NA,"At each plantation, the four selected coffee plants were sequentially observed for 25 min each",NA
"Carlos_H_Vergara_Coffea_arabica_Mexico_2004","ORD2","observations","Polistinae_sp2_vergaradataset","morphospecies","non_bee_hymenoptera",2,NA,100,NA,"At each plantation, the four selected coffee plants were sequentially observed for 25 min each",NA
"Carlos_H_Vergara_Coffea_arabica_Mexico_2004","ORD2","observations","Polistinae_sp2_vergaradataset","morphospecies","non_bee_hymenoptera",2,NA,100,NA,"At each plantation, the four selected coffee plants were sequentially observed for 25 min each",NA
"Carlos_H_Vergara_Coffea_arabica_Mexico_2004","ORD3","observations","Polistinae_sp2_vergaradataset","morphospecies","non_bee_hymenoptera",2,NA,100,NA,"At each plantation, the four selected coffee plants were sequentially observed for 25 min each",NA
"Carlos_H_Vergara_Coffea_arabica_Mexico_2004","ORD4","observations","Polistinae_sp2_vergaradataset","morphospecies","non_bee_hymenoptera",1,NA,100,NA,"At each plantation, the four selected coffee plants were sequentially observed for 25 min each",NA
"Carlos_H_Vergara_Coffea_arabica_Mexico_2004","ORD4","observations","Polistinae_sp2_vergaradataset","morphospecies","non_bee_hymenoptera",2,NA,100,NA,"At each plantation, the four selected coffee plants were sequentially observed for 25 min each",NA
"Carlos_H_Vergara_Coffea_arabica_Mexico_2004","ORD4","observations","Polistinae_sp2_vergaradataset","morphospecies","non_bee_hymenoptera",2,NA,100,NA,"At each plantation, the four selected coffee plants were sequentially observed for 25 min each",NA
"Carlos_H_Vergara_Coffea_arabica_Mexico_2004","MIR1","observations","Plebeia_frontalis","species","other_wild_bees",2,NA,100,NA,"At each plantation, the four selected coffee plants were sequentially observed for 25 min each",NA
"Carlos_H_Vergara_Coffea_arabica_Mexico_2004","VSE1","observations","Plebeia_frontalis","species","other_wild_bees",1,NA,100,NA,"At each plantation, the four selected coffee plants were sequentially observed for 25 min each",NA
"Carlos_H_Vergara_Coffea_arabica_Mexico_2004","VSE3","observations","Plebeia_frontalis","species","other_wild_bees",1,NA,100,NA,"At each plantation, the four selected coffee plants were sequentially observed for 25 min each",NA
"Carlos_H_Vergara_Coffea_arabica_Mexico_2004","MIR1","observations","Scaptotrigona_mexicana","species","other_wild_bees",2,NA,100,NA,"At each plantation, the four selected coffee plants were sequentially observed for 25 min each",NA
"Carlos_H_Vergara_Coffea_arabica_Mexico_2004","MIR1","observations","Scaptotrigona_mexicana","species","other_wild_bees",2,NA,100,NA,"At each plantation, the four selected coffee plants were sequentially observed for 25 min each",NA
"Carlos_H_Vergara_Coffea_arabica_Mexico_2004","MIR1","observations","Scaptotrigona_mexicana","species","other_wild_bees",1,NA,100,NA,"At each plantation, the four selected coffee plants were sequentially observed for 25 min each",NA
"Carlos_H_Vergara_Coffea_arabica_Mexico_2004","MIR1","observations","Scaptotrigona_mexicana","species","other_wild_bees",5,NA,100,NA,"At each plantation, the four selected coffee plants were sequentially observed for 25 min each",NA
"Carlos_H_Vergara_Coffea_arabica_Mexico_2004","MIR2","observations","Scaptotrigona_mexicana","species","other_wild_bees",1,NA,100,NA,"At each plantation, the four selected coffee plants were sequentially observed for 25 min each",NA
"Carlos_H_Vergara_Coffea_arabica_Mexico_2004","MIR2","observations","Scaptotrigona_mexicana","species","other_wild_bees",1,NA,100,NA,"At each plantation, the four selected coffee plants were sequentially observed for 25 min each",NA
"Carlos_H_Vergara_Coffea_arabica_Mexico_2004","MIR2","observations","Scaptotrigona_mexicana","species","other_wild_bees",4,NA,100,NA,"At each plantation, the four selected coffee plants were sequentially observed for 25 min each",NA
"Carlos_H_Vergara_Coffea_arabica_Mexico_2004","MIR3","observations","Scaptotrigona_mexicana","species","other_wild_bees",3,NA,100,NA,"At each plantation, the four selected coffee plants were sequentially observed for 25 min each",NA
"Carlos_H_Vergara_Coffea_arabica_Mexico_2004","MIR3","observations","Scaptotrigona_mexicana","species","other_wild_bees",5,NA,100,NA,"At each plantation, the four selected coffee plants were sequentially observed for 25 min each",NA
"Carlos_H_Vergara_Coffea_arabica_Mexico_2004","MIR3","observations","Scaptotrigona_mexicana","species","other_wild_bees",1,NA,100,NA,"At each plantation, the four selected coffee plants were sequentially observed for 25 min each",NA
"Carlos_H_Vergara_Coffea_arabica_Mexico_2004","MIR4","observations","Scaptotrigona_mexicana","species","other_wild_bees",1,NA,100,NA,"At each plantation, the four selected coffee plants were sequentially observed for 25 min each",NA
"Carlos_H_Vergara_Coffea_arabica_Mexico_2004","MIR4","observations","Scaptotrigona_mexicana","species","other_wild_bees",4,NA,100,NA,"At each plantation, the four selected coffee plants were sequentially observed for 25 min each",NA
"Carlos_H_Vergara_Coffea_arabica_Mexico_2004","ORD2","observations","Scaptotrigona_mexicana","species","other_wild_bees",2,NA,100,NA,"At each plantation, the four selected coffee plants were sequentially observed for 25 min each",NA
"Carlos_H_Vergara_Coffea_arabica_Mexico_2004","ORD3","observations","Scaptotrigona_mexicana","species","other_wild_bees",1,NA,100,NA,"At each plantation, the four selected coffee plants were sequentially observed for 25 min each",NA
"Carlos_H_Vergara_Coffea_arabica_Mexico_2004","ORD4","observations","Scaptotrigona_mexicana","species","other_wild_bees",2,NA,100,NA,"At each plantation, the four selected coffee plants were sequentially observed for 25 min each",NA
"Carlos_H_Vergara_Coffea_arabica_Mexico_2004","ORD4","observations","Scaptotrigona_mexicana","species","other_wild_bees",1,NA,100,NA,"At each plantation, the four selected coffee plants were sequentially observed for 25 min each",NA
"Carlos_H_Vergara_Coffea_arabica_Mexico_2004","ORD4","observations","Scaptotrigona_mexicana","species","other_wild_bees",1,NA,100,NA,"At each plantation, the four selected coffee plants were sequentially observed for 25 min each",NA
"Carlos_H_Vergara_Coffea_arabica_Mexico_2004","MIR1","observations","Syrphid_1_vergara","morphospecies","syrphids",3,NA,100,NA,"At each plantation, the four selected coffee plants were sequentially observed for 25 min each",NA
"Carlos_H_Vergara_Coffea_arabica_Mexico_2004","MIR1","observations","Syrphid_1_vergara","morphospecies","syrphids",1,NA,100,NA,"At each plantation, the four selected coffee plants were sequentially observed for 25 min each",NA
"Carlos_H_Vergara_Coffea_arabica_Mexico_2004","MIR2","observations","Syrphid_1_vergara","morphospecies","syrphids",5,NA,100,NA,"At each plantation, the four selected coffee plants were sequentially observed for 25 min each",NA
"Carlos_H_Vergara_Coffea_arabica_Mexico_2004","MIR2","observations","Syrphid_1_vergara","morphospecies","syrphids",2,NA,100,NA,"At each plantation, the four selected coffee plants were sequentially observed for 25 min each",NA
"Carlos_H_Vergara_Coffea_arabica_Mexico_2004","MIR2","observations","Syrphid_1_vergara","morphospecies","syrphids",1,NA,100,NA,"At each plantation, the four selected coffee plants were sequentially observed for 25 min each",NA
"Carlos_H_Vergara_Coffea_arabica_Mexico_2004","MIR2","observations","Syrphid_1_vergara","morphospecies","syrphids",1,NA,100,NA,"At each plantation, the four selected coffee plants were sequentially observed for 25 min each",NA
"Carlos_H_Vergara_Coffea_arabica_Mexico_2004","MIR3","observations","Syrphid_1_vergara","morphospecies","syrphids",2,NA,100,NA,"At each plantation, the four selected coffee plants were sequentially observed for 25 min each",NA
"Carlos_H_Vergara_Coffea_arabica_Mexico_2004","ORD1","observations","Syrphid_1_vergara","morphospecies","syrphids",2,NA,100,NA,"At each plantation, the four selected coffee plants were sequentially observed for 25 min each",NA
"Carlos_H_Vergara_Coffea_arabica_Mexico_2004","ORD2","observations","Syrphid_1_vergara","morphospecies","syrphids",3,NA,100,NA,"At each plantation, the four selected coffee plants were sequentially observed for 25 min each",NA
"Carlos_H_Vergara_Coffea_arabica_Mexico_2004","ORD3","observations","Syrphid_1_vergara","morphospecies","syrphids",2,NA,100,NA,"At each plantation, the four selected coffee plants were sequentially observed for 25 min each",NA
"Carlos_H_Vergara_Coffea_arabica_Mexico_2004","ORD4","observations","Syrphid_1_vergara","morphospecies","syrphids",3,NA,100,NA,"At each plantation, the four selected coffee plants were sequentially observed for 25 min each",NA
"Carlos_H_Vergara_Coffea_arabica_Mexico_2004","ORD4","observations","Syrphid_1_vergara","morphospecies","syrphids",3,NA,100,NA,"At each plantation, the four selected coffee plants were sequentially observed for 25 min each",NA
"Carlos_H_Vergara_Coffea_arabica_Mexico_2004","ORD1","observations","Syrphid_2_vergara","morphospecies","syrphids",2,NA,100,NA,"At each plantation, the four selected coffee plants were sequentially observed for 25 min each",NA
"Carlos_H_Vergara_Coffea_arabica_Mexico_2004","ORD1","observations","Syrphid_2_vergara","morphospecies","syrphids",1,NA,100,NA,"At each plantation, the four selected coffee plants were sequentially observed for 25 min each",NA
"Carlos_H_Vergara_Coffea_arabica_Mexico_2004","ORD2","observations","Syrphid_2_vergara","morphospecies","syrphids",5,NA,100,NA,"At each plantation, the four selected coffee plants were sequentially observed for 25 min each",NA
"Carlos_H_Vergara_Coffea_arabica_Mexico_2004","ORD2","observations","Syrphid_2_vergara","morphospecies","syrphids",2,NA,100,NA,"At each plantation, the four selected coffee plants were sequentially observed for 25 min each",NA
"Carlos_H_Vergara_Coffea_arabica_Mexico_2004","ORD3","observations","Syrphid_2_vergara","morphospecies","syrphids",2,NA,100,NA,"At each plantation, the four selected coffee plants were sequentially observed for 25 min each",NA
"Carlos_H_Vergara_Coffea_arabica_Mexico_2004","ORD4","observations","Syrphid_2_vergara","morphospecies","syrphids",2,NA,100,NA,"At each plantation, the four selected coffee plants were sequentially observed for 25 min each",NA
"Carlos_H_Vergara_Coffea_arabica_Mexico_2004","SOL1","observations","Syrphid_3_vergara","morphospecies","syrphids",1,NA,100,NA,"At each plantation, the four selected coffee plants were sequentially observed for 25 min each",NA
"Carlos_H_Vergara_Coffea_arabica_Mexico_2004","SOL2","observations","Syrphid_3_vergara","morphospecies","syrphids",1,NA,100,NA,"At each plantation, the four selected coffee plants were sequentially observed for 25 min each",NA
"Carlos_H_Vergara_Coffea_arabica_Mexico_2004","SOL4","observations","Syrphid_3_vergara","morphospecies","syrphids",1,NA,100,NA,"At each plantation, the four selected coffee plants were sequentially observed for 25 min each",NA
"Carlos_H_Vergara_Coffea_arabica_Mexico_2004","ORD2","observations","Syrphid_3_vergara","morphospecies","syrphids",3,NA,100,NA,"At each plantation, the four selected coffee plants were sequentially observed for 25 min each",NA
"Carlos_H_Vergara_Coffea_arabica_Mexico_2004","ORD2","observations","Syrphid_3_vergara","morphospecies","syrphids",2,NA,100,NA,"At each plantation, the four selected coffee plants were sequentially observed for 25 min each",NA
"Carlos_H_Vergara_Coffea_arabica_Mexico_2004","ORD3","observations","Syrphid_3_vergara","morphospecies","syrphids",1,NA,100,NA,"At each plantation, the four selected coffee plants were sequentially observed for 25 min each",NA
"Carlos_H_Vergara_Coffea_arabica_Mexico_2004","ORD4","observations","Syrphid_3_vergara","morphospecies","syrphids",2,NA,100,NA,"At each plantation, the four selected coffee plants were sequentially observed for 25 min each",NA
"Carlos_H_Vergara_Coffea_arabica_Mexico_2004","MIR1","observations","Trigona_nigerrima","species","other_wild_bees",1,NA,100,NA,"At each plantation, the four selected coffee plants were sequentially observed for 25 min each",NA
"Carlos_H_Vergara_Coffea_arabica_Mexico_2004","MIR2","observations","Trigona_nigerrima","species","other_wild_bees",2,NA,100,NA,"At each plantation, the four selected coffee plants were sequentially observed for 25 min each",NA
"Carlos_H_Vergara_Coffea_arabica_Mexico_2004","MIR3","observations","Trigona_nigerrima","species","other_wild_bees",1,NA,100,NA,"At each plantation, the four selected coffee plants were sequentially observed for 25 min each",NA
"Carlos_H_Vergara_Coffea_arabica_Mexico_2004","MIR4","observations","Trigona_nigerrima","species","other_wild_bees",2,NA,100,NA,"At each plantation, the four selected coffee plants were sequentially observed for 25 min each",NA
"Carlos_H_Vergara_Coffea_arabica_Mexico_2004","ORD1","observations","Trigona_nigerrima","species","other_wild_bees",1,NA,100,NA,"At each plantation, the four selected coffee plants were sequentially observed for 25 min each",NA
"Carlos_H_Vergara_Coffea_arabica_Mexico_2004","ORD2","observations","Trigona_nigerrima","species","other_wild_bees",1,NA,100,NA,"At each plantation, the four selected coffee plants were sequentially observed for 25 min each",NA
"Carlos_H_Vergara_Coffea_arabica_Mexico_2004","ORD3","observations","Trigona_nigerrima","species","other_wild_bees",1,NA,100,NA,"At each plantation, the four selected coffee plants were sequentially observed for 25 min each",NA
"Carlos_H_Vergara_Coffea_arabica_Mexico_2004","ORD4","observations","Trigona_nigerrima","species","other_wild_bees",3,NA,100,NA,"At each plantation, the four selected coffee plants were sequentially observed for 25 min each",NA
"Carlos_H_Vergara_Coffea_arabica_Mexico_2004","ORD4","observations","Trigona_nigerrima","species","other_wild_bees",2,NA,100,NA,"At each plantation, the four selected coffee plants were sequentially observed for 25 min each",NA
"Carlos_H_Vergara_Coffea_arabica_Mexico_2004","ORD4","observations","Trigona_nigerrima","species","other_wild_bees",2,NA,100,NA,"At each plantation, the four selected coffee plants were sequentially observed for 25 min each",NA
"Carlos_H_Vergara_Coffea_arabica_Mexico_2004","MIR1","observations","Trigona_corvina","species","other_wild_bees",1,NA,100,NA,"At each plantation, the four selected coffee plants were sequentially observed for 25 min each",NA
"Carlos_H_Vergara_Coffea_arabica_Mexico_2004","MIR2","observations","Trigona_corvina","species","other_wild_bees",2,NA,100,NA,"At each plantation, the four selected coffee plants were sequentially observed for 25 min each",NA
"Carlos_H_Vergara_Coffea_arabica_Mexico_2004","MIR3","observations","Trigona_corvina","species","other_wild_bees",2,NA,100,NA,"At each plantation, the four selected coffee plants were sequentially observed for 25 min each",NA
"Carlos_H_Vergara_Coffea_arabica_Mexico_2004","MIR4","observations","Trigona_corvina","species","other_wild_bees",1,NA,100,NA,"At each plantation, the four selected coffee plants were sequentially observed for 25 min each",NA
"Carlos_H_Vergara_Coffea_arabica_Mexico_2004","ORD4","observations","Trigona_corvina","species","other_wild_bees",2,NA,100,NA,"At each plantation, the four selected coffee plants were sequentially observed for 25 min each",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2015","Nich_VTblu_Site_01","netting","Andrena vicina","species","other_wild_bees",1,800,100,NA,"Date: 2015-05-27. 5 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2015","Nich_VTblu_Site_01","netting","Andrena carlini","species","other_wild_bees",1,800,100,NA,"Date: 2015-05-27. 5 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2015","Nich_VTblu_Site_01","netting","Bombus impatiens","species","bumblebees",1,800,100,NA,"Date: 2015-05-27. 5 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2015","Nich_VTblu_Site_01","netting","Bombus griseocollis","species","bumblebees",1,800,100,NA,"Date: 2015-05-27. 5 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2015","Nich_VTblu_Site_01","netting","Bombus griseocollis","species","bumblebees",1,800,100,NA,"Date: 2015-05-27. 5 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2015","Nich_VTblu_Site_01","netting","Andrena vicina","species","other_wild_bees",1,800,100,NA,"Date: 2015-05-21. 5 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2015","Nich_VTblu_Site_01","netting","Andrena carlini","species","other_wild_bees",1,800,100,NA,"Date: 2015-05-21. 5 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2015","Nich_VTblu_Site_01","netting","Andrena vicina","species","other_wild_bees",1,800,100,NA,"Date: 2015-05-21. 5 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2015","Nich_VTblu_Site_01","netting","Bombus bimaculatus","species","bumblebees",1,800,100,NA,"Date: 2015-05-23. 5 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2015","Nich_VTblu_Site_01","netting","Bombus bimaculatus","species","bumblebees",1,800,100,NA,"Date: 2015-05-22. 5 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2015","Nich_VTblu_Site_01","netting","Bombus griseocollis","species","bumblebees",1,800,100,NA,"Date: 2015-05-21. 5 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2015","Nich_VTblu_Site_01","netting","Lasioglossum ephialtum","species","other_wild_bees",1,800,100,NA,"Date: 2015-05-18. 5 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2015","Nich_VTblu_Site_01","netting","Augochlorella aurata","species","other_wild_bees",1,800,100,NA,"Date: 2015-05-18. 5 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2015","Nich_VTblu_Site_01","netting","Andrena hippotes","species","other_wild_bees",1,800,100,NA,"Date: 2015-05-18. 5 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2015","Nich_VTblu_Site_01","netting","Andrena carlini","species","other_wild_bees",1,800,100,NA,"Date: 2015-05-18. 5 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2015","Nich_VTblu_Site_01","netting","Andrena carlini","species","other_wild_bees",1,800,100,NA,"Date: 2015-05-18. 5 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2015","Nich_VTblu_Site_01","netting","Andrena carlini","species","other_wild_bees",1,800,100,NA,"Date: 2015-05-18. 5 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2015","Nich_VTblu_Site_01","netting","Bombus bimaculatus","species","bumblebees",1,800,100,NA,"Date: 2015-05-18. 5 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2015","Nich_VTblu_Site_01","netting","Bombus bimaculatus","species","bumblebees",1,800,100,NA,"Date: 2015-05-18. 5 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2015","Nich_VTblu_Site_01","netting","Andrena carlini","species","other_wild_bees",1,800,100,NA,"Date: 2015-05-27. 5 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2015","Nich_VTblu_Site_01","netting","Bombus impatiens","species","bumblebees",1,800,100,NA,"Date: 2015-05-27. 5 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2015","Nich_VTblu_Site_01","netting","Bombus griseocollis","species","bumblebees",1,800,100,NA,"Date: 2015-05-27. 5 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2015","Nich_VTblu_Site_01","netting","Andrena carlini","species","other_wild_bees",1,800,100,NA,"Date: 2015-05-21. 5 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2015","Nich_VTblu_Site_01","netting","Andrena carlini","species","other_wild_bees",1,800,100,NA,"Date: 2015-05-21. 5 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2015","Nich_VTblu_Site_01","netting","Andrena vicina","species","other_wild_bees",1,800,100,NA,"Date: 2015-05-21. 5 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_01","netting","Bombus griseocollis","species","bumblebees",1,1280,160,NA,"Date: 2014-06-09. 8 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_01","netting","Bombus bimaculatus","species","bumblebees",1,1280,160,NA,"Date: 2014-06-04. 8 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_01","netting","Bombus impatiens","species","bumblebees",1,1280,160,NA,"Date: 2014-06-09. 8 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_01","netting","Andrena vicina","species","other_wild_bees",1,1280,160,NA,"Date: 2014-06-09. 8 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_01","netting","Augochlorella aurata","species","other_wild_bees",1,1280,160,NA,"Date: 2014-06-09. 8 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_01","netting","Bombus griseocollis","species","bumblebees",1,1280,160,NA,"Date: 2014-06-01. 8 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_01","netting","Bombus griseocollis","species","bumblebees",1,1280,160,NA,"Date: 2014-06-01. 8 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_01","netting","Andrena carlini","species","other_wild_bees",1,1280,160,NA,"Date: 2014-06-01. 8 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_01","netting","Bombus impatiens","species","bumblebees",1,1280,160,NA,"Date: 2014-06-01. 8 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_01","netting","Bombus fervidus","species","bumblebees",1,1280,160,NA,"Date: 2014-06-01. 8 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_01","netting","Bombus impatiens","species","bumblebees",1,1280,160,NA,"Date: 2014-06-10. 8 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_01","netting","Bombus griseocollis","species","bumblebees",1,1280,160,NA,"Date: 2014-06-01. 8 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_01","netting","Andrena carlini","species","other_wild_bees",1,1280,160,NA,"Date: 2014-06-01. 8 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_01","netting","Andrena vicina","species","other_wild_bees",1,1280,160,NA,"Date: 2014-06-01. 8 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_01","netting","Bombus impatiens","species","bumblebees",1,1280,160,NA,"Date: 2014-06-04. 8 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_01","netting","Bombus borealis","species","bumblebees",1,1280,160,NA,"Date: 2014-06-04. 8 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_01","netting","Bombus ternarius","species","bumblebees",1,1280,160,NA,"Date: 2014-06-04. 8 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_01","netting","Andrena vicina","species","other_wild_bees",1,1280,160,NA,"Date: 2014-06-04. 8 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_01","netting","Andrena carlini","species","other_wild_bees",1,1280,160,NA,"Date: 2014-06-04. 8 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_01","netting","Bombus bimaculatus","species","bumblebees",1,1280,160,NA,"Date: 2014-06-04. 8 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_01","netting","Bombus impatiens","species","bumblebees",1,1280,160,NA,"Date: 2014-06-04. 8 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_01","netting","Bombus bimaculatus","species","bumblebees",1,1280,160,NA,"Date: 2014-06-04. 8 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_01","netting","Andrena vicina","species","other_wild_bees",1,1280,160,NA,"Date: 2014-06-04. 8 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_01","netting","Andrena rugosa","species","other_wild_bees",1,1280,160,NA,"Date: 2014-05-27. 8 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_01","netting","Andrena carlini","species","other_wild_bees",1,1280,160,NA,"Date: 2014-05-27. 8 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_01","netting","Andrena carlini","species","other_wild_bees",1,1280,160,NA,"Date: 2014-05-27. 8 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_01","netting","Andrena carlini","species","other_wild_bees",1,1280,160,NA,"Date: 2014-05-27. 8 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_01","netting","Bombus bimaculatus","species","bumblebees",1,1280,160,NA,"Date: 2014-05-27. 8 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_01","netting","Bombus impatiens","species","bumblebees",1,1280,160,NA,"Date: 2014-05-27. 8 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_01","netting","Andrena rufosignata","species","other_wild_bees",1,1280,160,NA,"Date: 2014-05-27. 8 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_01","netting","Andrena carlini","species","other_wild_bees",1,1280,160,NA,"Date: 2014-05-27. 8 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_01","netting","Andrena vicina","species","other_wild_bees",1,1280,160,NA,"Date: 2014-05-27. 8 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_01","netting","Andrena carlini","species","other_wild_bees",1,1280,160,NA,"Date: 2014-05-27. 8 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_01","netting","Bombus ternarius","species","bumblebees",1,1280,160,NA,"Date: 2014-05-27. 8 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_01","netting","Bombus griseocollis","species","bumblebees",1,1280,160,NA,"Date: 2014-05-27. 8 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_01","netting","Bombus griseocollis","species","bumblebees",1,1280,160,NA,"Date: 2014-05-27. 8 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_01","netting","Bombus bimaculatus","species","bumblebees",1,1280,160,NA,"Date: 2014-05-27. 8 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_01","netting","Bombus impatiens","species","bumblebees",1,1280,160,NA,"Date: 2014-05-25. 8 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_01","netting","Bombus impatiens","species","bumblebees",1,1280,160,NA,"Date: 2014-05-25. 8 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_01","netting","Andrena vicina","species","other_wild_bees",1,1280,160,NA,"Date: 2014-05-25. 8 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_01","netting","Bombus impatiens","species","bumblebees",1,1280,160,NA,"Date: 2014-05-25. 8 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_01","netting","Bombus impatiens","species","bumblebees",1,1280,160,NA,"Date: 2014-05-25. 8 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_01","netting","Andrena carlini","species","other_wild_bees",1,1280,160,NA,"Date: 2014-05-24. 8 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_01","netting","Andrena vicina","species","other_wild_bees",1,1280,160,NA,"Date: 2014-05-19. 8 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_01","netting","Andrena carlini","species","other_wild_bees",1,1280,160,NA,"Date: 2014-05-19. 8 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_01","netting","Andrena carlini","species","other_wild_bees",1,1280,160,NA,"Date: 2014-05-19. 8 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_01","netting","Andrena vicina","species","other_wild_bees",1,1280,160,NA,"Date: 2014-05-19. 8 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2015","Nich_VTblu_Site_02","netting","Andrena wilkella","species","other_wild_bees",1,640,80,NA,"Date: 2015-06-03. 4 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2015","Nich_VTblu_Site_02","netting","Bombus bimaculatus","species","bumblebees",1,640,80,NA,"Date: 2015-06-03. 4 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2015","Nich_VTblu_Site_02","netting","Bombus bimaculatus","species","bumblebees",1,640,80,NA,"Date: 2015-06-03. 4 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2015","Nich_VTblu_Site_02","netting","Bombus bimaculatus","species","bumblebees",1,640,80,NA,"Date: 2015-06-03. 4 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2015","Nich_VTblu_Site_02","netting","Bombus impatiens","species","bumblebees",1,640,80,NA,"Date: 2015-06-03. 4 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2015","Nich_VTblu_Site_02","netting","Lasioglossum cressoni","species","other_wild_bees",1,640,80,NA,"Date: 2015-05-28. 4 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2015","Nich_VTblu_Site_02","netting","Bombus bimaculatus","species","bumblebees",1,640,80,NA,"Date: 2015-05-28. 4 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2015","Nich_VTblu_Site_02","netting","Andrena carlini","species","other_wild_bees",1,640,80,NA,"Date: 2015-05-28. 4 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2015","Nich_VTblu_Site_02","netting","Bombus bimaculatus","species","bumblebees",1,640,80,NA,"Date: 2015-05-28. 4 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2015","Nich_VTblu_Site_02","netting","Bombus ternarius","species","bumblebees",1,640,80,NA,"Date: 2015-05-28. 4 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2015","Nich_VTblu_Site_02","netting","Bombus griseocollis","species","bumblebees",1,640,80,NA,"Date: 2015-05-28. 4 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2015","Nich_VTblu_Site_02","netting","Bombus vagans","species","bumblebees",1,640,80,NA,"Date: 2015-05-22. 4 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2015","Nich_VTblu_Site_02","netting","Bombus bimaculatus","species","bumblebees",1,640,80,NA,"Date: 2015-05-22. 4 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2015","Nich_VTblu_Site_02","netting","Bombus bimaculatus","species","bumblebees",1,640,80,NA,"Date: 2015-05-22. 4 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2015","Nich_VTblu_Site_02","netting","Andrena rufosignata","species","other_wild_bees",1,640,80,NA,"Date: 2015-05-19. 4 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2015","Nich_VTblu_Site_02","netting","Andrena vicina","species","other_wild_bees",1,640,80,NA,"Date: 2015-05-19. 4 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2015","Nich_VTblu_Site_02","netting","Andrena bradleyi","species","other_wild_bees",1,640,80,NA,"Date: 2015-05-19. 4 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2015","Nich_VTblu_Site_02","netting","Andrena vicina","species","other_wild_bees",1,640,80,NA,"Date: 2015-05-19. 4 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2015","Nich_VTblu_Site_02","netting","Bombus ternarius","species","bumblebees",1,640,80,NA,"Date: 2015-05-19. 4 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2015","Nich_VTblu_Site_02","netting","Bombus bimaculatus","species","bumblebees",1,640,80,NA,"Date: 2015-05-19. 4 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2015","Nich_VTblu_Site_02","netting","Bombus vagans","species","bumblebees",1,640,80,NA,"Date: 2015-05-19. 4 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2015","Nich_VTblu_Site_02","netting","Bombus perplexus","species","bumblebees",1,640,80,NA,"Date: 2015-05-19. 4 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2015","Nich_VTblu_Site_02","netting","Bombus bimaculatus","species","bumblebees",1,640,80,NA,"Date: 2015-05-19. 4 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2015","Nich_VTblu_Site_02","netting","Bombus vagans","species","bumblebees",1,640,80,NA,"Date: 2015-06-03. 4 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2015","Nich_VTblu_Site_02","netting","Bombus ternarius","species","bumblebees",1,640,80,NA,"Date: 2015-06-03. 4 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2015","Nich_VTblu_Site_02","netting","Bombus bimaculatus","species","bumblebees",1,640,80,NA,"Date: 2015-05-28. 4 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2015","Nich_VTblu_Site_02","netting","Bombus bimaculatus","species","bumblebees",1,640,80,NA,"Date: 2015-05-28. 4 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2015","Nich_VTblu_Site_02","netting","Bombus bimaculatus","species","bumblebees",1,640,80,NA,"Date: 2015-05-28. 4 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2015","Nich_VTblu_Site_02","netting","Bombus bimaculatus","species","bumblebees",1,640,80,NA,"Date: 2015-05-28. 4 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2015","Nich_VTblu_Site_02","netting","Bombus bimaculatus","species","bumblebees",1,640,80,NA,"Date: 2015-05-28. 4 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2015","Nich_VTblu_Site_02","netting","Bombus bimaculatus","species","bumblebees",1,640,80,NA,"Date: 2015-05-28. 4 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2015","Nich_VTblu_Site_02","netting","Bombus impatiens","species","bumblebees",1,640,80,NA,"Date: 2015-05-28. 4 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2015","Nich_VTblu_Site_02","netting","Andrena rufosignata","species","other_wild_bees",1,640,80,NA,"Date: 2015-05-22. 4 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2015","Nich_VTblu_Site_02","netting","Bombus vagans","species","bumblebees",1,640,80,NA,"Date: 2015-05-22. 4 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2015","Nich_VTblu_Site_02","netting","Bombus vagans","species","bumblebees",1,640,80,NA,"Date: 2015-05-22. 4 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2015","Nich_VTblu_Site_02","netting","Bombus impatiens","species","bumblebees",1,640,80,NA,"Date: 2015-05-19. 4 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2015","Nich_VTblu_Site_02","netting","Bombus sandersoni","species","bumblebees",1,640,80,NA,"Date: 2015-05-19. 4 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_02","netting","Bombus impatiens","species","bumblebees",1,1120,140,NA,"Date: 2014-06-10. 7 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_02","netting","Andrena carolina","species","other_wild_bees",1,1120,140,NA,"Date: 2014-06-10. 7 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_02","netting","Bombus bimaculatus","species","bumblebees",1,1120,140,NA,"Date: 2014-06-10. 7 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_02","netting","Bombus ternarius","species","bumblebees",1,1120,140,NA,"Date: 2014-06-10. 7 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_02","netting","Bombus ternarius","species","bumblebees",1,1120,140,NA,"Date: 2014-06-10. 7 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_02","netting","Bombus bimaculatus","species","bumblebees",1,1120,140,NA,"Date: 2014-05-10. 7 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_02","netting","Bombus vagans","species","bumblebees",1,1120,140,NA,"Date: 2014-06-10. 7 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_02","netting","Bombus ternarius","species","bumblebees",1,1120,140,NA,"Date: 2014-06-05. 7 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_02","netting","Bombus ternarius","species","bumblebees",1,1120,140,NA,"Date: 2014-06-05. 7 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_02","netting","Xylocopa virginica","species","other_wild_bees",1,1120,140,NA,"Date: 2014-06-08. 7 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_02","netting","Bombus griseocollis","species","bumblebees",1,1120,140,NA,"Date: 2014-06-05. 7 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_02","netting","Bombus bimaculatus","species","bumblebees",1,1120,140,NA,"Date: 2014-06-05. 7 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_02","netting","Osmia bucephala","species","other_wild_bees",1,1120,140,NA,"Date: 2014-06-05. 7 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_02","netting","Andrena vicina","species","other_wild_bees",1,1120,140,NA,"Date: 2014-06-05. 7 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_02","netting","Andrena rugosa","species","other_wild_bees",1,1120,140,NA,"Date: 2014-06-05. 7 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_02","netting","Lasioglossum cressoni","species","other_wild_bees",1,1120,140,NA,"Date: 2014-06-05. 7 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_02","netting","Andrena carolina","species","other_wild_bees",1,1120,140,NA,"Date: 2014-06-05. 7 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_02","netting","Andrena carolina","species","other_wild_bees",1,1120,140,NA,"Date: 2014-06-05. 7 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_02","netting","Augochlora pura","species","other_wild_bees",1,1120,140,NA,"Date: 2014-06-02. 7 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_02","netting","Augochlora pura","species","other_wild_bees",1,1120,140,NA,"Date: 2014-06-02. 7 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_02","netting","Andrena carolina","species","other_wild_bees",1,1120,140,NA,"Date: 2014-06-02. 7 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_02","netting","Bombus vagans","species","bumblebees",1,1120,140,NA,"Date: 2014-06-02. 7 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_02","netting","Bombus vagans","species","bumblebees",1,1120,140,NA,"Date: 2014-06-02. 7 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_02","netting","Osmia albiventris","species","other_wild_bees",1,1120,140,NA,"Date: 2014-06-02. 7 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_02","netting","Andrena rufosignata","species","other_wild_bees",1,1120,140,NA,"Date: 2014-06-02. 7 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_02","netting","Osmia inermis","species","other_wild_bees",1,1120,140,NA,"Date: 2014-06-02. 7 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_02","netting","Andrena carlini","species","other_wild_bees",1,1120,140,NA,"Date: 2014-06-02. 7 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_02","netting","Bombus ternarius","species","bumblebees",1,1120,140,NA,"Date: 2014-06-02. 7 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_02","netting","Bombus vagans","species","bumblebees",1,1120,140,NA,"Date: 2014-06-02. 7 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_02","netting","Bombus ternarius","species","bumblebees",1,1120,140,NA,"Date: 2014-06-02. 7 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_02","netting","Bombus bimaculatus","species","bumblebees",1,1120,140,NA,"Date: 2014-05-30. 7 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_02","netting","Bombus bimaculatus","species","bumblebees",1,1120,140,NA,"Date: 2014-05-30. 7 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_02","netting","Bombus bimaculatus","species","bumblebees",1,1120,140,NA,"Date: 2014-05-30. 7 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_02","netting","Bombus vagans","species","bumblebees",1,1120,140,NA,"Date: 2014-05-30. 7 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_02","netting","Bombus impatiens","species","bumblebees",1,1120,140,NA,"Date: 2014-05-30. 7 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_02","netting","Bombus vagans","species","bumblebees",1,1120,140,NA,"Date: 2014-05-26. 7 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_02","netting","Bombus impatiens","species","bumblebees",1,1120,140,NA,"Date: 2014-05-26. 7 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_02","netting","Bombus vagans","species","bumblebees",1,1120,140,NA,"Date: 2014-05-26. 7 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_02","netting","Bombus vagans","species","bumblebees",1,1120,140,NA,"Date: 2014-05-26. 7 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_02","netting","Bombus bimaculatus","species","bumblebees",1,1120,140,NA,"Date: 2014-05-26. 7 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_02","netting","Bombus perplexus","species","bumblebees",1,1120,140,NA,"Date: 2014-05-26. 7 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_02","netting","Bombus vagans","species","bumblebees",1,1120,140,NA,"Date: 2014-05-26. 7 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_02","netting","Bombus bimaculatus","species","bumblebees",1,1120,140,NA,"Date: 2014-05-26. 7 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2013","Nich_VTblu_Site_02","netting","Bombus vagans","species","bumblebees",1,480,60,NA,"Date: 2013-06-01. 3 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2013","Nich_VTblu_Site_02","netting","Bombus vagans","species","bumblebees",1,480,60,NA,"Date: 2013-06-01. 3 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2013","Nich_VTblu_Site_02","netting","Bombus vagans","species","bumblebees",1,480,60,NA,"Date: 2013-06-01. 3 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2013","Nich_VTblu_Site_02","netting","Bombus vagans","species","bumblebees",1,480,60,NA,"Date: 2013-05-30. 3 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2013","Nich_VTblu_Site_02","netting","Bombus vagans","species","bumblebees",1,480,60,NA,"Date: 2013-05-30. 3 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2013","Nich_VTblu_Site_02","netting","Lasioglossum versatum","species","other_wild_bees",1,480,60,NA,"Date: 2013-05-30. 3 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2013","Nich_VTblu_Site_02","netting","Andrena carolina","species","other_wild_bees",1,480,60,NA,"Date: 2013-05-30. 3 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2013","Nich_VTblu_Site_02","netting","Andrena carolina","species","other_wild_bees",1,480,60,NA,"Date: 2013-05-30. 3 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2013","Nich_VTblu_Site_02","netting","Bombus vagans","species","bumblebees",1,480,60,NA,"Date: 2013-05-30. 3 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2013","Nich_VTblu_Site_02","netting","Andrena vicina","species","other_wild_bees",1,480,60,NA,"Date: 2013-05-17. 3 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2013","Nich_VTblu_Site_02","netting","Andrena carlini","species","other_wild_bees",1,480,60,NA,"Date: 2013-05-17. 3 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2013","Nich_VTblu_Site_02","netting","Bombus vagans","species","bumblebees",1,480,60,NA,"Date: 2013-05-17. 3 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2013","Nich_VTblu_Site_02","netting","Bombus vagans","species","bumblebees",1,480,60,NA,"Date: 2013-05-17. 3 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2013","Nich_VTblu_Site_02","netting","Andrena carlini","species","other_wild_bees",1,480,60,NA,"Date: 2013-05-17. 3 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2013","Nich_VTblu_Site_02","netting","Bombus vagans","species","bumblebees",1,480,60,NA,"Date: 2013-05-17. 3 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2013","Nich_VTblu_Site_02","netting","Bombus bimaculatus","species","bumblebees",1,480,60,NA,"Date: 2013-05-17. 3 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2013","Nich_VTblu_Site_02","netting","Bombus bimaculatus","species","bumblebees",1,480,60,NA,"Date: 2013-05-17. 3 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2015","Nich_VTblu_Site_03","netting","Andrena carlini","species","other_wild_bees",1,640,80,NA,"Date: 2015-05-29. 4 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2015","Nich_VTblu_Site_03","netting","Bombus griseocollis","species","bumblebees",1,640,80,NA,"Date: 2015-05-29. 4 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2015","Nich_VTblu_Site_03","netting","Lasioglossum imitatum","species","other_wild_bees",1,640,80,NA,"Date: 2015-05-26. 4 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2015","Nich_VTblu_Site_03","netting","Lasioglossum hitchensi","species","other_wild_bees",1,640,80,NA,"Date: 2015-05-26. 4 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2015","Nich_VTblu_Site_03","netting","Lasioglossum leucocomum","species","other_wild_bees",1,640,80,NA,"Date: 2015-05-26. 4 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2015","Nich_VTblu_Site_03","netting","Andrena rufosignata","species","other_wild_bees",1,640,80,NA,"Date: 2015-05-26. 4 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2015","Nich_VTblu_Site_03","netting","Andrena carlini","species","other_wild_bees",1,640,80,NA,"Date: 2015-05-26. 4 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2015","Nich_VTblu_Site_03","netting","Bombus impatiens","species","bumblebees",1,640,80,NA,"Date: 2015-05-21. 4 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2015","Nich_VTblu_Site_03","netting","Colletes inaequalis","species","other_wild_bees",1,640,80,NA,"Date: 2015-05-29. 4 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2015","Nich_VTblu_Site_03","netting","Andrena carlini","species","other_wild_bees",1,640,80,NA,"Date: 2015-05-29. 4 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2015","Nich_VTblu_Site_03","netting","Andrena vicina","species","other_wild_bees",1,640,80,NA,"Date: 2015-05-29. 4 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2015","Nich_VTblu_Site_03","netting","Andrena carlini","species","other_wild_bees",1,640,80,NA,"Date: 2015-05-29. 4 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2015","Nich_VTblu_Site_03","netting","Bombus ternarius","species","bumblebees",1,640,80,NA,"Date: 2015-05-29. 4 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2015","Nich_VTblu_Site_03","netting","Andrena rufosignata","species","other_wild_bees",1,640,80,NA,"Date: 2015-05-26. 4 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2015","Nich_VTblu_Site_03","netting","Andrena carlini","species","other_wild_bees",1,640,80,NA,"Date: 2015-05-26. 4 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2015","Nich_VTblu_Site_03","netting","Andrena vicina","species","other_wild_bees",1,640,80,NA,"Date: 2015-05-26. 4 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2015","Nich_VTblu_Site_03","netting","Andrena vicina","species","other_wild_bees",1,640,80,NA,"Date: 2015-05-26. 4 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2015","Nich_VTblu_Site_03","netting","Andrena carlini","species","other_wild_bees",1,640,80,NA,"Date: 2015-05-26. 4 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2015","Nich_VTblu_Site_03","netting","Andrena carlini","species","other_wild_bees",1,640,80,NA,"Date: 2015-05-26. 4 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2015","Nich_VTblu_Site_03","netting","Bombus impatiens","species","bumblebees",1,640,80,NA,"Date: 2015-05-26. 4 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2015","Nich_VTblu_Site_03","netting","Lasioglossum heterognathum","species","other_wild_bees",1,640,80,NA,"Date: 2015-05-22. 4 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2015","Nich_VTblu_Site_03","netting","Lasioglossum imitatum","species","other_wild_bees",1,640,80,NA,"Date: 2015-05-22. 4 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2015","Nich_VTblu_Site_03","netting","Andrena w-scripta","species","other_wild_bees",1,640,80,NA,"Date: 2015-05-22. 4 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2015","Nich_VTblu_Site_03","netting","Bombus bimaculatus","species","bumblebees",1,640,80,NA,"Date: 2015-05-22. 4 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2015","Nich_VTblu_Site_03","netting","Bombus perplexus","species","bumblebees",1,640,80,NA,"Date: 2015-05-22. 4 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2015","Nich_VTblu_Site_03","netting","Bombus perplexus","species","bumblebees",1,640,80,NA,"Date: 2015-05-22. 4 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_03","netting","Andrena carlini","species","other_wild_bees",1,1120,140,NA,"Date: 2014-06-10. 7 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_03","netting","Lasioglossum quebecense","species","other_wild_bees",1,1120,140,NA,"Date: 2014-06-05. 7 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_03","netting","Lasioglossum pilosum","species","other_wild_bees",1,1120,140,NA,"Date: 2014-06-05. 7 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_03","netting","Nomada composita","species","other_wild_bees",1,1120,140,NA,"Date: 2014-06-05. 7 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_03","netting","Andrena carlini","species","other_wild_bees",1,1120,140,NA,"Date: 2014-06-05. 7 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_03","netting","Andrena carlini","species","other_wild_bees",1,1120,140,NA,"Date: 2014-06-05. 7 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_03","netting","Bombus impatiens","species","bumblebees",1,1120,140,NA,"Date: 2014-06-05. 7 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_03","netting","Lasioglossum lineatulum","species","other_wild_bees",1,1120,140,NA,"Date: 2014-06-05. 7 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_03","netting","Lasioglossum confusus","species","other_wild_bees",1,1120,140,NA,"Date: 2014-06-05. 7 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_03","netting","Andrena carlini","species","other_wild_bees",1,1120,140,NA,"Date: 2014-06-05. 7 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_03","netting","Andrena carlini","species","other_wild_bees",1,1120,140,NA,"Date: 2014-06-05. 7 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_03","netting","Andrena carlini","species","other_wild_bees",1,1120,140,NA,"Date: 2014-06-05. 7 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_03","netting","Bombus impatiens","species","bumblebees",1,1120,140,NA,"Date: 2014-06-05. 7 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_03","netting","Bombus bimaculatus","species","bumblebees",1,1120,140,NA,"Date: 2014-06-05. 7 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_03","netting","Lasioglossum imitatum","species","other_wild_bees",1,1120,140,NA,"Date: 2014-06-02. 7 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_03","netting","Lasioglossum lineatulum","species","other_wild_bees",1,1120,140,NA,"Date: 2014-06-02. 7 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_03","netting","Andrena rufosignata","species","other_wild_bees",1,1120,140,NA,"Date: 2014-06-02. 7 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_03","netting","Andrena rufosignata","species","other_wild_bees",1,1120,140,NA,"Date: 2014-05-02. 7 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_03","netting","Andrena carlini","species","other_wild_bees",1,1120,140,NA,"Date: 2014-06-02. 7 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_03","netting","Andrena carlini","species","other_wild_bees",1,1120,140,NA,"Date: 2014-06-02. 7 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_03","netting","Bombus griseocollis","species","bumblebees",1,1120,140,NA,"Date: 2014-06-02. 7 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_03","netting","Andrena rufosignata","species","other_wild_bees",1,1120,140,NA,"Date: 2014-06-02. 7 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_03","netting","Andrena vicina","species","other_wild_bees",1,1120,140,NA,"Date: 2014-06-02. 7 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_03","netting","Bombus bimaculatus","species","bumblebees",1,1120,140,NA,"Date: 2014-06-02. 7 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_03","netting","Bombus impatiens","species","bumblebees",1,1120,140,NA,"Date: 2014-06-02. 7 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_03","netting","Lasioglossum imitatum","species","other_wild_bees",1,1120,140,NA,"Date: 2014-05-29. 7 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_03","netting","Lasioglossum versatum","species","other_wild_bees",1,1120,140,NA,"Date: 2014-05-29. 7 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_03","netting","Lasioglossum pilosum","species","other_wild_bees",1,1120,140,NA,"Date: 2014-05-29. 7 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_03","netting","Osmia albiventris","species","other_wild_bees",1,1120,140,NA,"Date: 2014-05-29. 7 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_03","netting","Andrena carlini","species","other_wild_bees",1,1120,140,NA,"Date: 2014-05-29. 7 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_03","netting","Andrena nivalis","species","other_wild_bees",1,1120,140,NA,"Date: 2014-05-29. 7 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_03","netting","Bombus impatiens","species","bumblebees",1,1120,140,NA,"Date: 2014-05-29. 7 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_03","netting","Bombus bimaculatus","species","bumblebees",1,1120,140,NA,"Date: 2014-05-29. 7 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_03","netting","Andrena vicina","species","other_wild_bees",1,1120,140,NA,"Date: 2014-05-29. 7 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_03","netting","Andrena carlini","species","other_wild_bees",1,1120,140,NA,"Date: 2014-05-29. 7 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_03","netting","Andrena vicina","species","other_wild_bees",1,1120,140,NA,"Date: 2014-05-29. 7 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_03","netting","Bombus impatiens","species","bumblebees",1,1120,140,NA,"Date: 2014-05-29. 7 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_03","netting","Bombus ternarius","species","bumblebees",1,1120,140,NA,"Date: 2014-05-29. 7 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_03","netting","Andrena vicina","species","other_wild_bees",1,1120,140,NA,"Date: 2014-05-20. 7 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_03","netting","Bombus bimaculatus","species","bumblebees",1,1120,140,NA,"Date: 2014-05-26. 7 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_03","netting","Bombus impatiens","species","bumblebees",1,1120,140,NA,"Date: 2014-05-26. 7 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_03","netting","Bombus bimaculatus","species","bumblebees",1,1120,140,NA,"Date: 2014-05-26. 7 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_03","netting","Lasioglossum pilosum","species","other_wild_bees",1,1120,140,NA,"Date: 2014-05-20. 7 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_03","netting","Bombus vagans","species","bumblebees",1,1120,140,NA,"Date: 2014-05-20. 7 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_03","netting","Lasioglossum imitatum","species","other_wild_bees",1,1120,140,NA,"Date: 2014-05-20. 7 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_03","netting","Bombus bimaculatus","species","bumblebees",1,1120,140,NA,"Date: 2014-05-20. 7 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_03","netting","Andrena vicina","species","other_wild_bees",1,1120,140,NA,"Date: 2014-05-20. 7 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_03","netting","Bombus ternarius","species","bumblebees",1,1120,140,NA,"Date: 2014-05-20. 7 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2013","Nich_VTblu_Site_03","netting","Lasioglossum heterognathum","species","other_wild_bees",1,640,80,NA,"Date: 2013-06-03. 4 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2013","Nich_VTblu_Site_03","netting","Andrena carlini","species","other_wild_bees",1,640,80,NA,"Date: 2013-06-03. 4 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2013","Nich_VTblu_Site_03","netting","Bombus bimaculatus","species","bumblebees",1,640,80,NA,"Date: 2013-06-03. 4 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2013","Nich_VTblu_Site_03","netting","Bombus vagans","species","bumblebees",1,640,80,NA,"Date: 2013-06-03. 4 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2013","Nich_VTblu_Site_03","netting","Bombus vagans","species","bumblebees",1,640,80,NA,"Date: 2013-06-03. 4 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2013","Nich_VTblu_Site_03","netting","Bombus ternarius","species","bumblebees",1,640,80,NA,"Date: 2013-06-03. 4 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2013","Nich_VTblu_Site_03","netting","Bombus ternarius","species","bumblebees",1,640,80,NA,"Date: 2013-06-03. 4 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2013","Nich_VTblu_Site_03","netting","Bombus vagans","species","bumblebees",1,640,80,NA,"Date: 2013-06-03. 4 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2013","Nich_VTblu_Site_03","netting","Bombus bimaculatus","species","bumblebees",1,640,80,NA,"Date: 2013-06-03. 4 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2013","Nich_VTblu_Site_03","netting","Bombus bimaculatus","species","bumblebees",1,640,80,NA,"Date: 2013-06-03. 4 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2013","Nich_VTblu_Site_03","netting","Bombus vagans","species","bumblebees",1,640,80,NA,"Date: 2013-06-03. 4 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2013","Nich_VTblu_Site_03","netting","Bombus bimaculatus","species","bumblebees",1,640,80,NA,"Date: 2013-06-03. 4 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2013","Nich_VTblu_Site_03","netting","Bombus bimaculatus","species","bumblebees",1,640,80,NA,"Date: 2013-06-03. 4 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2013","Nich_VTblu_Site_03","netting","Andrena carlini","species","other_wild_bees",1,640,80,NA,"Date: 2013-06-03. 4 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2013","Nich_VTblu_Site_03","netting","Bombus vagans","species","bumblebees",1,640,80,NA,"Date: 2013-06-03. 4 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2013","Nich_VTblu_Site_03","netting","Bombus bimaculatus","species","bumblebees",1,640,80,NA,"Date: 2013-06-03. 4 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2013","Nich_VTblu_Site_03","netting","Andrena rufosignata","species","other_wild_bees",1,640,80,NA,"Date: 2013-05-27. 4 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2013","Nich_VTblu_Site_03","netting","Andrena vicina","species","other_wild_bees",1,640,80,NA,"Date: 2013-05-27. 4 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2013","Nich_VTblu_Site_03","netting","Bombus ternarius","species","bumblebees",1,640,80,NA,"Date: 2013-05-27. 4 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2013","Nich_VTblu_Site_03","netting","Andrena carlini","species","other_wild_bees",1,640,80,NA,"Date: 2013-05-27. 4 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2013","Nich_VTblu_Site_03","netting","Bombus impatiens","species","bumblebees",1,640,80,NA,"Date: 2013-05-27. 4 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2013","Nich_VTblu_Site_03","netting","Bombus ternarius","species","bumblebees",1,640,80,NA,"Date: 2013-05-27. 4 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2013","Nich_VTblu_Site_03","netting","Andrena commoda","species","other_wild_bees",1,640,80,NA,"Date: 2013-05-28. 4 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2013","Nich_VTblu_Site_03","netting","Bombus ternarius","species","bumblebees",1,640,80,NA,"Date: 2013-05-28. 4 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2013","Nich_VTblu_Site_03","netting","Andrena carlini","species","other_wild_bees",1,640,80,NA,"Date: 2013-05-28. 4 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2013","Nich_VTblu_Site_03","netting","Bombus ternarius","species","bumblebees",1,640,80,NA,"Date: 2013-05-28. 4 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2013","Nich_VTblu_Site_03","netting","Bombus impatiens","species","bumblebees",1,640,80,NA,"Date: 2013-05-28. 4 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2013","Nich_VTblu_Site_03","netting","Andrena carlini","species","other_wild_bees",1,640,80,NA,"Date: 2013-05-27. 4 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2013","Nich_VTblu_Site_03","netting","Bombus ternarius","species","bumblebees",1,640,80,NA,"Date: 2013-05-27. 4 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2013","Nich_VTblu_Site_03","netting","Bombus impatiens","species","bumblebees",1,640,80,NA,"Date: 2013-05-27. 4 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2013","Nich_VTblu_Site_03","netting","Bombus vagans","species","bumblebees",1,640,80,NA,"Date: 2013-05-27. 4 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2013","Nich_VTblu_Site_03","netting","Andrena vicina","species","other_wild_bees",1,640,80,NA,"Date: 2013-05-27. 4 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2013","Nich_VTblu_Site_03","netting","Andrena carlini","species","other_wild_bees",1,640,80,NA,"Date: 2013-05-17. 4 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2013","Nich_VTblu_Site_03","netting","Bombus bimaculatus","species","bumblebees",1,640,80,NA,"Date: 2013-05-17. 4 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2013","Nich_VTblu_Site_03","netting","Bombus impatiens","species","bumblebees",1,640,80,NA,"Date: 2013-05-17. 4 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2013","Nich_VTblu_Site_03","netting","Bombus perplexus","species","bumblebees",1,640,80,NA,"Date: 2013-05-17. 4 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2015","Nich_VTblu_Site_04","netting","Bombus impatiens","species","bumblebees",1,320,40,NA,"Date: 2015-05-27. 2 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2015","Nich_VTblu_Site_04","netting","Bombus impatiens","species","bumblebees",1,320,40,NA,"Date: 2015-05-27. 2 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2015","Nich_VTblu_Site_04","netting","Bombus borealis","species","bumblebees",1,320,40,NA,"Date: 2015-05-27. 2 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2015","Nich_VTblu_Site_04","netting","Bombus griseocollis","species","bumblebees",1,320,40,NA,"Date: 2015-05-27. 2 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2015","Nich_VTblu_Site_04","netting","Andrena carlini","species","other_wild_bees",1,320,40,NA,"Date: 2015-05-21. 2 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2015","Nich_VTblu_Site_04","netting","Bombus borealis","species","bumblebees",1,320,40,NA,"Date: 2015-05-21. 2 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2015","Nich_VTblu_Site_04","netting","Bombus griseocollis","species","bumblebees",1,320,40,NA,"Date: 2015-05-21. 2 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2015","Nich_VTblu_Site_04","netting","Bombus impatiens","species","bumblebees",1,320,40,NA,"Date: 2015-05-21. 2 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_04","netting","Bombus impatiens","species","bumblebees",1,800,100,NA,"Date: 2014-06-09. 5 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_04","netting","Lasioglossum nigroviride","species","other_wild_bees",1,800,100,NA,"Date: 2014-06-09. 5 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_04","netting","Andrena hippotes","species","other_wild_bees",1,800,100,NA,"Date: 2014-06-09. 5 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_04","netting","Bombus impatiens","species","bumblebees",1,800,100,NA,"Date: 2014-06-09. 5 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_04","netting","Bombus impatiens","species","bumblebees",1,800,100,NA,"Date: 2014-06-01. 5 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_04","netting","Bombus impatiens","species","bumblebees",1,800,100,NA,"Date: 2014-06-01. 5 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_04","netting","Bombus griseocollis","species","bumblebees",1,800,100,NA,"Date: 2014-06-01. 5 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_04","netting","Bombus impatiens","species","bumblebees",1,800,100,NA,"Date: 2014-06-04. 5 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_04","netting","Bombus griseocollis","species","bumblebees",1,800,100,NA,"Date: 2014-06-04. 5 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_04","netting","Andrena carlini","species","other_wild_bees",1,800,100,NA,"Date: 2014-06-04. 5 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_04","netting","Andrena carolina","species","other_wild_bees",1,800,100,NA,"Date: 2014-06-04. 5 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_04","netting","Bombus borealis","species","bumblebees",1,800,100,NA,"Date: 2014-06-04. 5 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_04","netting","Bombus impatiens","species","bumblebees",1,800,100,NA,"Date: 2014-06-04. 5 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_04","netting","Andrena imitatrix","species","other_wild_bees",1,800,100,NA,"Date: 2014-06-04. 5 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_04","netting","Andrena mandibularis","species","other_wild_bees",1,800,100,NA,"Date: 2014-05-27. 5 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_04","netting","Bombus impatiens","species","bumblebees",1,800,100,NA,"Date: 2014-05-27. 5 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_04","netting","Bombus impatiens","species","bumblebees",1,800,100,NA,"Date: 2014-05-27. 5 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_04","netting","Andrena carlini","species","other_wild_bees",1,800,100,NA,"Date: 2014-05-27. 5 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_04","netting","Andrena vicina","species","other_wild_bees",1,800,100,NA,"Date: 2014-05-27. 5 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_04","netting","Bombus griseocollis","species","bumblebees",1,800,100,NA,"Date: 2014-05-27. 5 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_04","netting","Bombus impatiens","species","bumblebees",1,800,100,NA,"Date: 2014-05-27. 5 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_04","netting","Bombus impatiens","species","bumblebees",1,800,100,NA,"Date: 2014-05-25. 5 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_04","netting","Bombus impatiens","species","bumblebees",1,800,100,NA,"Date: 2014-05-25. 5 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_04","netting","Andrena carlini","species","other_wild_bees",1,800,100,NA,"Date: 2014-05-25. 5 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_04","netting","Bombus impatiens","species","bumblebees",1,800,100,NA,"Date: 2014-05-25. 5 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_04","netting","Andrena vicina","species","other_wild_bees",1,800,100,NA,"Date: 2014-05-25. 5 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_04","netting","Andrena dunningi","species","other_wild_bees",1,800,100,NA,"Date: 2014-05-25. 5 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_04","netting","Bombus impatiens","species","bumblebees",1,800,100,NA,"Date: 2014-05-25. 5 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_04","netting","Bombus impatiens","species","bumblebees",1,800,100,NA,"Date: 2014-05-25. 5 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2015","Nich_VTblu_Site_05","netting","Bombus bimaculatus","species","bumblebees",1,640,80,NA,"Date: 2015-06-03. 4 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2015","Nich_VTblu_Site_05","netting","Bombus impatiens","species","bumblebees",1,640,80,NA,"Date: 2015-06-03. 4 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2015","Nich_VTblu_Site_05","netting","Bombus vagans","species","bumblebees",1,640,80,NA,"Date: 2015-05-29. 4 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2015","Nich_VTblu_Site_05","netting","Bombus bimaculatus","species","bumblebees",1,640,80,NA,"Date: 2015-05-29. 4 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2015","Nich_VTblu_Site_05","netting","Bombus bimaculatus","species","bumblebees",1,640,80,NA,"Date: 2015-05-29. 4 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2015","Nich_VTblu_Site_05","netting","Andrena carlini","species","other_wild_bees",1,640,80,NA,"Date: 2015-05-26. 4 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2015","Nich_VTblu_Site_05","netting","Andrena carlini","species","other_wild_bees",1,640,80,NA,"Date: 2015-05-26. 4 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2015","Nich_VTblu_Site_05","netting","Bombus bimaculatus","species","bumblebees",1,640,80,NA,"Date: 2015-05-26. 4 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2015","Nich_VTblu_Site_05","netting","Bombus bimaculatus","species","bumblebees",1,640,80,NA,"Date: 2015-05-26. 4 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2015","Nich_VTblu_Site_05","netting","Andrena rufosignata","species","other_wild_bees",1,640,80,NA,"Date: 2015-05-21. 4 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2015","Nich_VTblu_Site_05","netting","Andrena carlini","species","other_wild_bees",1,640,80,NA,"Date: 2015-05-21. 4 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2015","Nich_VTblu_Site_05","netting","Bombus perplexus","species","bumblebees",1,640,80,NA,"Date: 2015-05-21. 4 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2015","Nich_VTblu_Site_05","netting","Bombus bimaculatus","species","bumblebees",1,640,80,NA,"Date: 2015-05-21. 4 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2015","Nich_VTblu_Site_05","netting","Bombus bimaculatus","species","bumblebees",1,640,80,NA,"Date: 2015-05-21. 4 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2015","Nich_VTblu_Site_05","netting","Andrena carlini","species","other_wild_bees",1,640,80,NA,"Date: 2015-06-03. 4 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2015","Nich_VTblu_Site_05","netting","Bombus vagans","species","bumblebees",1,640,80,NA,"Date: 2015-06-03. 4 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2015","Nich_VTblu_Site_05","netting","Bombus vagans","species","bumblebees",1,640,80,NA,"Date: 2015-06-03. 4 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2015","Nich_VTblu_Site_05","netting","Bombus bimaculatus","species","bumblebees",1,640,80,NA,"Date: 2015-06-03. 4 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2015","Nich_VTblu_Site_05","netting","Andrena vicina","species","other_wild_bees",1,640,80,NA,"Date: 2015-05-29. 4 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2015","Nich_VTblu_Site_05","netting","Bombus bimaculatus","species","bumblebees",1,640,80,NA,"Date: 2015-05-29. 4 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2015","Nich_VTblu_Site_05","netting","Bombus ternarius","species","bumblebees",1,640,80,NA,"Date: 2015-05-29. 4 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2015","Nich_VTblu_Site_05","netting","Bombus bimaculatus","species","bumblebees",1,640,80,NA,"Date: 2015-05-29. 4 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2015","Nich_VTblu_Site_05","netting","Bombus bimaculatus","species","bumblebees",1,640,80,NA,"Date: 2015-05-29. 4 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2015","Nich_VTblu_Site_05","netting","Andrena carlini","species","other_wild_bees",1,640,80,NA,"Date: 2015-05-26. 4 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2015","Nich_VTblu_Site_05","netting","Andrena nivalis","species","other_wild_bees",1,640,80,NA,"Date: 2015-05-26. 4 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2015","Nich_VTblu_Site_05","netting","Bombus bimaculatus","species","bumblebees",1,640,80,NA,"Date: 2015-05-26. 4 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2015","Nich_VTblu_Site_05","netting","Bombus bimaculatus","species","bumblebees",1,640,80,NA,"Date: 2015-05-26. 4 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2015","Nich_VTblu_Site_06","netting","Lasioglossum coriaceum","species","other_wild_bees",1,640,80,NA,"Date: 2015-06-03. 4 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2015","Nich_VTblu_Site_06","netting","Bombus bimaculatus","species","bumblebees",1,640,80,NA,"Date: 2015-06-03. 4 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2015","Nich_VTblu_Site_06","netting","Bombus bimaculatus","species","bumblebees",1,640,80,NA,"Date: 2015-06-03. 4 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2015","Nich_VTblu_Site_06","netting","Andrena carlini","species","other_wild_bees",1,640,80,NA,"Date: 2015-06-03. 4 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2015","Nich_VTblu_Site_06","netting","Andrena carlini","species","other_wild_bees",1,640,80,NA,"Date: 2015-06-03. 4 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2015","Nich_VTblu_Site_06","netting","Bombus bimaculatus","species","bumblebees",1,640,80,NA,"Date: 2015-06-03. 4 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2015","Nich_VTblu_Site_06","netting","Bombus bimaculatus","species","bumblebees",1,640,80,NA,"Date: 2015-06-03. 4 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2015","Nich_VTblu_Site_06","netting","Bombus impatiens","species","bumblebees",1,640,80,NA,"Date: 2015-06-03. 4 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2015","Nich_VTblu_Site_06","netting","Bombus bimaculatus","species","bumblebees",1,640,80,NA,"Date: 2015-06-03. 4 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2015","Nich_VTblu_Site_06","netting","Andrena carlini","species","other_wild_bees",1,640,80,NA,"Date: 2015-05-28. 4 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2015","Nich_VTblu_Site_06","netting","Andrena carlini","species","other_wild_bees",1,640,80,NA,"Date: 2015-05-28. 4 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2015","Nich_VTblu_Site_06","netting","Andrena carlini","species","other_wild_bees",1,640,80,NA,"Date: 2015-05-28. 4 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2015","Nich_VTblu_Site_06","netting","Bombus bimaculatus","species","bumblebees",1,640,80,NA,"Date: 2015-05-28. 4 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2015","Nich_VTblu_Site_06","netting","Andrena carlini","species","other_wild_bees",1,640,80,NA,"Date: 2015-05-28. 4 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2015","Nich_VTblu_Site_06","netting","Bombus impatiens","species","bumblebees",1,640,80,NA,"Date: 2015-05-28. 4 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2015","Nich_VTblu_Site_06","netting","Bombus bimaculatus","species","bumblebees",1,640,80,NA,"Date: 2015-05-28. 4 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2015","Nich_VTblu_Site_06","netting","Bombus bimaculatus","species","bumblebees",1,640,80,NA,"Date: 2015-05-28. 4 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2015","Nich_VTblu_Site_06","netting","Andrena vicina","species","other_wild_bees",1,640,80,NA,"Date: 2015-05-22. 4 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2015","Nich_VTblu_Site_06","netting","Bombus impatiens","species","bumblebees",1,640,80,NA,"Date: 2015-05-22. 4 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2015","Nich_VTblu_Site_06","netting","Bombus bimaculatus","species","bumblebees",1,640,80,NA,"Date: 2015-05-22. 4 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2015","Nich_VTblu_Site_06","netting","Bombus bimaculatus","species","bumblebees",1,640,80,NA,"Date: 2015-05-22. 4 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2015","Nich_VTblu_Site_06","netting","Andrena carlini","species","other_wild_bees",1,640,80,NA,"Date: 2015-05-19. 4 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2015","Nich_VTblu_Site_06","netting","Bombus bimaculatus","species","bumblebees",1,640,80,NA,"Date: 2015-05-19. 4 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2015","Nich_VTblu_Site_06","netting","Bombus ternarius","species","bumblebees",1,640,80,NA,"Date: 2015-05-19. 4 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2015","Nich_VTblu_Site_06","netting","Bombus impatiens","species","bumblebees",1,640,80,NA,"Date: 2015-05-19. 4 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2015","Nich_VTblu_Site_06","netting","Bombus bimaculatus","species","bumblebees",1,640,80,NA,"Date: 2015-05-28. 4 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2015","Nich_VTblu_Site_06","netting","Bombus ternarius","species","bumblebees",1,640,80,NA,"Date: 2015-06-03. 4 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2015","Nich_VTblu_Site_06","netting","Bombus bimaculatus","species","bumblebees",1,640,80,NA,"Date: 2015-05-28. 4 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2015","Nich_VTblu_Site_06","netting","Andrena carlini","species","other_wild_bees",1,640,80,NA,"Date: 2015-05-28. 4 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2015","Nich_VTblu_Site_06","netting","Bombus bimaculatus","species","bumblebees",1,640,80,NA,"Date: 2015-05-28. 4 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2015","Nich_VTblu_Site_06","netting","Bombus impatiens","species","bumblebees",1,640,80,NA,"Date: 2015-05-28. 4 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2015","Nich_VTblu_Site_06","netting","Andrena bradleyi","species","other_wild_bees",1,640,80,NA,"Date: 2015-05-22. 4 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2015","Nich_VTblu_Site_06","netting","Bombus bimaculatus","species","bumblebees",1,640,80,NA,"Date: 2015-05-22. 4 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2015","Nich_VTblu_Site_06","netting","Bombus bimaculatus","species","bumblebees",1,640,80,NA,"Date: 2015-05-22. 4 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2015","Nich_VTblu_Site_06","netting","Bombus impatiens","species","bumblebees",1,640,80,NA,"Date: 2015-05-22. 4 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2015","Nich_VTblu_Site_06","netting","Bombus impatiens","species","bumblebees",1,640,80,NA,"Date: 2015-05-22. 4 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2015","Nich_VTblu_Site_06","netting","Andrena carlini","species","other_wild_bees",1,640,80,NA,"Date: 2015-05-19. 4 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2015","Nich_VTblu_Site_06","netting","Andrena carlini","species","other_wild_bees",1,640,80,NA,"Date: 2015-05-19. 4 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2015","Nich_VTblu_Site_06","netting","Bombus bimaculatus","species","bumblebees",1,640,80,NA,"Date: 2015-05-19. 4 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2015","Nich_VTblu_Site_06","netting","Bombus bimaculatus","species","bumblebees",1,640,80,NA,"Date: 2015-05-19. 4 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2015","Nich_VTblu_Site_06","netting","Bombus griseocollis","species","bumblebees",1,640,80,NA,"Date: 2015-05-19. 4 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2015","Nich_VTblu_Site_06","netting","Andrena carlini","species","other_wild_bees",1,640,80,NA,"Date: 2015-06-03. 4 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_06","netting","Andrena rufosignata","species","other_wild_bees",1,800,100,NA,"Date: 2014-06-10. 5 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_06","netting","Andrena carlini","species","other_wild_bees",1,800,100,NA,"Date: 2014-06-10. 5 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_06","netting","Bombus ternarius","species","bumblebees",1,800,100,NA,"Date: 2014-06-10. 5 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_06","netting","Bombus ternarius","species","bumblebees",1,800,100,NA,"Date: 2014-06-10. 5 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_06","netting","Bombus vagans","species","bumblebees",1,800,100,NA,"Date: 2014-06-10. 5 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_06","netting","Bombus bimaculatus","species","bumblebees",1,800,100,NA,"Date: 2014-06-10. 5 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_06","netting","Bombus griseocollis","species","bumblebees",1,800,100,NA,"Date: 2014-06-10. 5 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_06","netting","Andrena carlini","species","other_wild_bees",1,800,100,NA,"Date: 2014-06-10. 5 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_06","netting","Andrena vicina","species","other_wild_bees",1,800,100,NA,"Date: 2014-06-10. 5 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_06","netting","Bombus impatiens","species","bumblebees",1,800,100,NA,"Date: 2014-06-10. 5 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_06","netting","Bombus bimaculatus","species","bumblebees",1,800,100,NA,"Date: 2014-05-30. 5 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_06","netting","Bombus impatiens","species","bumblebees",1,800,100,NA,"Date: 2014-05-30. 5 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_06","netting","Andrena rugosa","species","other_wild_bees",1,800,100,NA,"Date: 2014-06-05. 5 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_06","netting","Andrena carlini","species","other_wild_bees",1,800,100,NA,"Date: 2014-06-05. 5 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_06","netting","Andrena carlini","species","other_wild_bees",1,800,100,NA,"Date: 2014-06-05. 5 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_06","netting","Bombus ternarius","species","bumblebees",1,800,100,NA,"Date: 2014-06-05. 5 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_06","netting","Bombus impatiens","species","bumblebees",1,800,100,NA,"Date: 2014-06-05. 5 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_06","netting","Bombus bimaculatus","species","bumblebees",1,800,100,NA,"Date: 2014-06-05. 5 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_06","netting","Bombus impatiens","species","bumblebees",1,800,100,NA,"Date: 2014-06-05. 5 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_06","netting","Andrena carlini","species","other_wild_bees",1,800,100,NA,"Date: 2014-06-05. 5 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_06","netting","Bombus ternarius","species","bumblebees",1,800,100,NA,"Date: 2014-06-05. 5 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_06","netting","Bombus bimaculatus","species","bumblebees",1,800,100,NA,"Date: 2014-06-05. 5 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_06","netting","Bombus impatiens","species","bumblebees",1,800,100,NA,"Date: 2014-06-05. 5 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_06","netting","Bombus perplexus","species","bumblebees",1,800,100,NA,"Date: 2014-06-05. 5 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_06","netting","Bombus impatiens","species","bumblebees",1,800,100,NA,"Date: 2014-06-02. 5 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_06","netting","Bombus bimaculatus","species","bumblebees",1,800,100,NA,"Date: 2014-06-02. 5 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_06","netting","Andrena carlini","species","other_wild_bees",1,800,100,NA,"Date: 2014-06-02. 5 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_06","netting","Augochlorella aurata","species","other_wild_bees",1,800,100,NA,"Date: 2014-06-02. 5 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_06","netting","Andrena rufosignata","species","other_wild_bees",1,800,100,NA,"Date: 2014-06-02. 5 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_06","netting","Andrena nivalis","species","other_wild_bees",1,800,100,NA,"Date: 2014-06-02. 5 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_06","netting","Andrena carlini","species","other_wild_bees",1,800,100,NA,"Date: 2014-06-02. 5 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_06","netting","Bombus vagans","species","bumblebees",1,800,100,NA,"Date: 2014-06-02. 5 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_06","netting","Bombus griseocollis","species","bumblebees",1,800,100,NA,"Date: 2014-06-02. 5 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_06","netting","Bombus griseocollis","species","bumblebees",1,800,100,NA,"Date: 2014-06-02. 5 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_06","netting","Bombus griseocollis","species","bumblebees",1,800,100,NA,"Date: 2014-05-30. 5 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_06","netting","Bombus impatiens","species","bumblebees",1,800,100,NA,"Date: 2014-05-30. 5 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_06","netting","Bombus impatiens","species","bumblebees",1,800,100,NA,"Date: 2014-05-30. 5 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_06","netting","Bombus bimaculatus","species","bumblebees",1,800,100,NA,"Date: 2014-05-30. 5 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_06","netting","Bombus ternarius","species","bumblebees",1,800,100,NA,"Date: 2014-06-02. 5 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_06","netting","Bombus bimaculatus","species","bumblebees",1,800,100,NA,"Date: 2014-05-26. 5 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_06","netting","Bombus griseocollis","species","bumblebees",1,800,100,NA,"Date: 2014-05-26. 5 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_06","netting","Bombus bimaculatus","species","bumblebees",1,800,100,NA,"Date: 2014-05-26. 5 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_06","netting","Bombus bimaculatus","species","bumblebees",1,800,100,NA,"Date: 2014-05-26. 5 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_06","netting","Bombus bimaculatus","species","bumblebees",1,800,100,NA,"Date: 2014-05-26. 5 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_06","netting","Bombus griseocollis","species","bumblebees",1,800,100,NA,"Date: 2014-05-26. 5 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_06","netting","Bombus impatiens","species","bumblebees",1,800,100,NA,"Date: 2014-05-26. 5 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_06","netting","Bombus bimaculatus","species","bumblebees",1,800,100,NA,"Date: 2014-05-26. 5 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_06","netting","Bombus impatiens","species","bumblebees",1,800,100,NA,"Date: 2014-05-26. 5 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2013","Nich_VTblu_Site_06","netting","Lasioglossum versatum","species","other_wild_bees",1,480,60,NA,"Date: 2013-06-01. 3 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2013","Nich_VTblu_Site_06","netting","Bombus impatiens","species","bumblebees",1,480,60,NA,"Date: 2013-06-01. 3 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2013","Nich_VTblu_Site_06","netting","Bombus impatiens","species","bumblebees",1,480,60,NA,"Date: 2013-06-01. 3 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2013","Nich_VTblu_Site_06","netting","Bombus impatiens","species","bumblebees",1,480,60,NA,"Date: 2013-06-01. 3 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2013","Nich_VTblu_Site_06","netting","Andrena rugosa","species","other_wild_bees",1,480,60,NA,"Date: 2013-06-01. 3 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2013","Nich_VTblu_Site_06","netting","Andrena carlini","species","other_wild_bees",1,480,60,NA,"Date: 2013-06-01. 3 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2013","Nich_VTblu_Site_06","netting","Andrena carlini","species","other_wild_bees",1,480,60,NA,"Date: 2013-06-01. 3 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2013","Nich_VTblu_Site_06","netting","Bombus bimaculatus","species","bumblebees",1,480,60,NA,"Date: 2013-06-01. 3 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2013","Nich_VTblu_Site_06","netting","Bombus bimaculatus","species","bumblebees",1,480,60,NA,"Date: 2013-06-01. 3 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2013","Nich_VTblu_Site_06","netting","Bombus impatiens","species","bumblebees",1,480,60,NA,"Date: 2013-06-01. 3 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2013","Nich_VTblu_Site_06","netting","Bombus impatiens","species","bumblebees",1,480,60,NA,"Date: 2013-06-01. 3 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2013","Nich_VTblu_Site_06","netting","Bombus impatiens","species","bumblebees",1,480,60,NA,"Date: 2013-06-01. 3 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2013","Nich_VTblu_Site_06","netting","Bombus impatiens","species","bumblebees",1,480,60,NA,"Date: 2013-06-01. 3 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2013","Nich_VTblu_Site_06","netting","Bombus bimaculatus","species","bumblebees",1,480,60,NA,"Date: 2013-06-01. 3 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2013","Nich_VTblu_Site_06","netting","Bombus bimaculatus","species","bumblebees",1,480,60,NA,"Date: 2013-06-01. 3 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2013","Nich_VTblu_Site_06","netting","Bombus vagans","species","bumblebees",1,480,60,NA,"Date: 2013-06-01. 3 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2013","Nich_VTblu_Site_06","netting","Bombus bimaculatus","species","bumblebees",1,480,60,NA,"Date: 2013-06-01. 3 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2013","Nich_VTblu_Site_06","netting","Bombus impatiens","species","bumblebees",1,480,60,NA,"Date: 2013-06-01. 3 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2013","Nich_VTblu_Site_06","netting","Bombus bimaculatus","species","bumblebees",1,480,60,NA,"Date: 2013-06-01. 3 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2013","Nich_VTblu_Site_06","netting","Bombus bimaculatus","species","bumblebees",1,480,60,NA,"Date: 2013-06-01. 3 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2013","Nich_VTblu_Site_06","netting","Bombus vagans","species","bumblebees",1,480,60,NA,"Date: 2013-06-01. 3 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2013","Nich_VTblu_Site_06","netting","Bombus borealis","species","bumblebees",1,480,60,NA,"Date: 2013-06-01. 3 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2013","Nich_VTblu_Site_06","netting","Bombus bimaculatus","species","bumblebees",1,480,60,NA,"Date: 2013-05-30. 3 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2013","Nich_VTblu_Site_06","netting","Bombus impatiens","species","bumblebees",1,480,60,NA,"Date: 2013-05-30. 3 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2013","Nich_VTblu_Site_06","netting","Bombus impatiens","species","bumblebees",1,480,60,NA,"Date: 2013-05-30. 3 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2013","Nich_VTblu_Site_06","netting","Bombus impatiens","species","bumblebees",1,480,60,NA,"Date: 2013-05-30. 3 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2013","Nich_VTblu_Site_06","netting","Bombus impatiens","species","bumblebees",1,480,60,NA,"Date: 2013-05-30. 3 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2013","Nich_VTblu_Site_06","netting","Andrena carolina","species","other_wild_bees",1,480,60,NA,"Date: 2013-05-30. 3 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2013","Nich_VTblu_Site_06","netting","Andrena carlini","species","other_wild_bees",1,480,60,NA,"Date: 2013-05-30. 3 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2013","Nich_VTblu_Site_06","netting","Andrena carlini","species","other_wild_bees",1,480,60,NA,"Date: 2013-05-30. 3 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2013","Nich_VTblu_Site_06","netting","Bombus impatiens","species","bumblebees",1,480,60,NA,"Date: 2013-05-30. 3 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2013","Nich_VTblu_Site_06","netting","Bombus impatiens","species","bumblebees",1,480,60,NA,"Date: 2013-05-30. 3 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2013","Nich_VTblu_Site_06","netting","Bombus impatiens","species","bumblebees",1,480,60,NA,"Date: 2013-05-30. 3 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2013","Nich_VTblu_Site_06","netting","Bombus impatiens","species","bumblebees",1,480,60,NA,"Date: 2013-05-30. 3 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2013","Nich_VTblu_Site_06","netting","Bombus impatiens","species","bumblebees",1,480,60,NA,"Date: 2013-05-30. 3 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2013","Nich_VTblu_Site_06","netting","Andrena carlini","species","other_wild_bees",1,480,60,NA,"Date: 2013-05-17. 3 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2013","Nich_VTblu_Site_06","netting","Andrena carlini","species","other_wild_bees",1,480,60,NA,"Date: 2013-05-17. 3 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2013","Nich_VTblu_Site_06","netting","Bombus impatiens","species","bumblebees",1,480,60,NA,"Date: 2013-05-17. 3 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2013","Nich_VTblu_Site_06","netting","Bombus impatiens","species","bumblebees",1,480,60,NA,"Date: 2013-05-17. 3 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2013","Nich_VTblu_Site_06","netting","Bombus impatiens","species","bumblebees",1,480,60,NA,"Date: 2013-05-17. 3 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2013","Nich_VTblu_Site_06","netting","Andrena dunningi","species","other_wild_bees",1,480,60,NA,"Date: 2013-05-17. 3 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2013","Nich_VTblu_Site_06","netting","Andrena carlini","species","other_wild_bees",1,480,60,NA,"Date: 2013-05-17. 3 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2013","Nich_VTblu_Site_06","netting","Andrena carlini","species","other_wild_bees",1,480,60,NA,"Date: 2013-05-17. 3 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2013","Nich_VTblu_Site_06","netting","Bombus vagans","species","bumblebees",1,480,60,NA,"Date: 2013-05-17. 3 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2013","Nich_VTblu_Site_06","netting","Bombus vagans","species","bumblebees",1,480,60,NA,"Date: 2013-05-17. 3 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2013","Nich_VTblu_Site_06","netting","Lasioglossum ephialtum","species","other_wild_bees",1,480,60,NA,"Date: 2013-05-17. 3 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2013","Nich_VTblu_Site_06","netting","Andrena vicina","species","other_wild_bees",1,480,60,NA,"Date: 2013-05-17. 3 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2013","Nich_VTblu_Site_06","netting","Andrena vicina","species","other_wild_bees",1,480,60,NA,"Date: 2013-05-17. 3 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2013","Nich_VTblu_Site_06","netting","Bombus vagans","species","bumblebees",1,480,60,NA,"Date: 2013-05-17. 3 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2013","Nich_VTblu_Site_06","netting","Bombus impatiens","species","bumblebees",1,480,60,NA,"Date: 2013-05-17. 3 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2013","Nich_VTblu_Site_06","netting","Andrena carlini","species","other_wild_bees",1,480,60,NA,"Date: 2013-05-17. 3 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2013","Nich_VTblu_Site_06","netting","Bombus vagans","species","bumblebees",1,480,60,NA,"Date: 2013-05-17. 3 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2013","Nich_VTblu_Site_06","netting","Bombus vagans","species","bumblebees",1,480,60,NA,"Date: 2013-05-17. 3 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2013","Nich_VTblu_Site_06","netting","Bombus vagans","species","bumblebees",1,480,60,NA,"Date: 2013-05-17. 3 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2013","Nich_VTblu_Site_06","netting","Bombus bimaculatus","species","bumblebees",1,480,60,NA,"Date: 2013-05-17. 3 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2013","Nich_VTblu_Site_06","netting","Bombus impatiens","species","bumblebees",1,480,60,NA,"Date: 2013-05-17. 3 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2013","Nich_VTblu_Site_06","netting","Andrena carlini","species","other_wild_bees",1,480,60,NA,"Date: 2013-05-17. 3 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2013","Nich_VTblu_Site_06","netting","Bombus ternarius","species","bumblebees",1,480,60,NA,"Date: 2013-05-17. 3 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2013","Nich_VTblu_Site_06","netting","Bombus griseocollis","species","bumblebees",1,480,60,NA,"Date: 2013-05-17. 3 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2013","Nich_VTblu_Site_06","netting","Bombus vagans","species","bumblebees",1,480,60,NA,"Date: 2013-05-17. 3 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2013","Nich_VTblu_Site_06","netting","Bombus bimaculatus","species","bumblebees",1,480,60,NA,"Date: 2013-05-17. 3 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2013","Nich_VTblu_Site_06","netting","Bombus impatiens","species","bumblebees",1,480,60,NA,"Date: 2013-05-17. 3 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2015","Nich_VTblu_Site_07","netting","Andrena carlini","species","other_wild_bees",1,800,100,NA,"Date: 2015-06-03. 5 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2015","Nich_VTblu_Site_07","netting","Andrena vicina","species","other_wild_bees",1,800,100,NA,"Date: 2015-06-03. 5 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2015","Nich_VTblu_Site_07","netting","Andrena carlini","species","other_wild_bees",1,800,100,NA,"Date: 2015-06-03. 5 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2015","Nich_VTblu_Site_07","netting","Andrena carlini","species","other_wild_bees",1,800,100,NA,"Date: 2015-06-03. 5 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2015","Nich_VTblu_Site_07","netting","Andrena vicina","species","other_wild_bees",1,800,100,NA,"Date: 2015-06-03. 5 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2015","Nich_VTblu_Site_07","netting","Bombus ternarius","species","bumblebees",1,800,100,NA,"Date: 2015-06-03. 5 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2015","Nich_VTblu_Site_07","netting","Bombus bimaculatus","species","bumblebees",1,800,100,NA,"Date: 2015-06-03. 5 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2015","Nich_VTblu_Site_07","netting","Bombus ternarius","species","bumblebees",1,800,100,NA,"Date: 2015-06-03. 5 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2015","Nich_VTblu_Site_07","netting","Andrena rufosignata","species","other_wild_bees",1,800,100,NA,"Date: 2015-05-29. 5 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2015","Nich_VTblu_Site_07","netting","Andrena carlini","species","other_wild_bees",1,800,100,NA,"Date: 2015-05-29. 5 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2015","Nich_VTblu_Site_07","netting","Andrena carlini","species","other_wild_bees",1,800,100,NA,"Date: 2015-05-29. 5 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2015","Nich_VTblu_Site_07","netting","Andrena carlini","species","other_wild_bees",1,800,100,NA,"Date: 2015-05-29. 5 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2015","Nich_VTblu_Site_07","netting","Andrena carlini","species","other_wild_bees",1,800,100,NA,"Date: 2015-05-29. 5 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2015","Nich_VTblu_Site_07","netting","Bombus ternarius","species","bumblebees",1,800,100,NA,"Date: 2015-05-29. 5 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2015","Nich_VTblu_Site_07","netting","Bombus perplexus","species","bumblebees",1,800,100,NA,"Date: 2015-05-29. 5 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2015","Nich_VTblu_Site_07","netting","Bombus vagans","species","bumblebees",1,800,100,NA,"Date: 2015-05-29. 5 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2015","Nich_VTblu_Site_07","netting","Bombus ternarius","species","bumblebees",1,800,100,NA,"Date: 2015-05-29. 5 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2015","Nich_VTblu_Site_07","netting","Bombus perplexus","species","bumblebees",1,800,100,NA,"Date: 2015-05-29. 5 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2015","Nich_VTblu_Site_07","netting","Lasioglossum cressoni","species","other_wild_bees",1,800,100,NA,"Date: 2015-05-26. 5 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2015","Nich_VTblu_Site_07","netting","Augochlorella aurata","species","other_wild_bees",1,800,100,NA,"Date: 2015-05-26. 5 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2015","Nich_VTblu_Site_07","netting","Andrena carlini","species","other_wild_bees",1,800,100,NA,"Date: 2015-05-26. 5 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2015","Nich_VTblu_Site_07","netting","Bombus vagans","species","bumblebees",1,800,100,NA,"Date: 2015-05-26. 5 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2015","Nich_VTblu_Site_07","netting","Bombus impatiens","species","bumblebees",1,800,100,NA,"Date: 2015-05-26. 5 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2015","Nich_VTblu_Site_07","netting","Bombus impatiens","species","bumblebees",1,800,100,NA,"Date: 2015-05-26. 5 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2015","Nich_VTblu_Site_07","netting","Augochloropsis metallica","species","other_wild_bees",1,800,100,NA,"Date: 2015-05-21. 5 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2015","Nich_VTblu_Site_07","netting","Andrena carlini","species","other_wild_bees",1,800,100,NA,"Date: 2015-05-21. 5 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2015","Nich_VTblu_Site_07","netting","Andrena carlini","species","other_wild_bees",1,800,100,NA,"Date: 2015-05-21. 5 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2015","Nich_VTblu_Site_07","netting","Andrena carlini","species","other_wild_bees",1,800,100,NA,"Date: 2015-05-21. 5 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2015","Nich_VTblu_Site_07","netting","Bombus bimaculatus","species","bumblebees",1,800,100,NA,"Date: 2015-05-21. 5 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2015","Nich_VTblu_Site_07","netting","Andrena rugosa","species","other_wild_bees",1,800,100,NA,"Date: 2015-06-03. 5 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2015","Nich_VTblu_Site_07","netting","Andrena integra","species","other_wild_bees",1,800,100,NA,"Date: 2015-06-03. 5 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2015","Nich_VTblu_Site_07","netting","Andrena carlini","species","other_wild_bees",1,800,100,NA,"Date: 2015-05-28. 5 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2015","Nich_VTblu_Site_07","netting","Andrena carlini","species","other_wild_bees",1,800,100,NA,"Date: 2015-06-03. 5 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2015","Nich_VTblu_Site_07","netting","Bombus perplexus","species","bumblebees",1,800,100,NA,"Date: 2015-06-03. 5 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2015","Nich_VTblu_Site_07","netting","Bombus ternarius","species","bumblebees",1,800,100,NA,"Date: 2015-06-03. 5 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2015","Nich_VTblu_Site_07","netting","Bombus vagans","species","bumblebees",1,800,100,NA,"Date: 2015-06-03. 5 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2015","Nich_VTblu_Site_07","netting","Bombus impatiens","species","bumblebees",1,800,100,NA,"Date: 2015-06-03. 5 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2015","Nich_VTblu_Site_07","netting","Bombus terricola","species","bumblebees",1,800,100,NA,"Date: 2015-06-03. 5 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2015","Nich_VTblu_Site_07","netting","Bombus ternarius","species","bumblebees",1,800,100,NA,"Date: 2015-06-03. 5 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2015","Nich_VTblu_Site_07","netting","Augochlorella aurata","species","other_wild_bees",1,800,100,NA,"Date: 2015-05-28. 5 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2015","Nich_VTblu_Site_07","netting","Andrena carolina","species","other_wild_bees",1,800,100,NA,"Date: 2015-05-28. 5 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2015","Nich_VTblu_Site_07","netting","Andrena rufosignata","species","other_wild_bees",1,800,100,NA,"Date: 2015-05-28. 5 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2015","Nich_VTblu_Site_07","netting","Andrena rufosignata","species","other_wild_bees",1,800,100,NA,"Date: 2015-05-28. 5 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2015","Nich_VTblu_Site_07","netting","Bombus perplexus","species","bumblebees",1,800,100,NA,"Date: 2015-05-28. 5 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2015","Nich_VTblu_Site_07","netting","Bombus bimaculatus","species","bumblebees",1,800,100,NA,"Date: 2015-05-28. 5 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2015","Nich_VTblu_Site_07","netting","Bombus perplexus","species","bumblebees",1,800,100,NA,"Date: 2015-05-28. 5 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2015","Nich_VTblu_Site_07","netting","Bombus ternarius","species","bumblebees",1,800,100,NA,"Date: 2015-05-28. 5 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2015","Nich_VTblu_Site_07","netting","Bombus perplexus","species","bumblebees",1,800,100,NA,"Date: 2015-05-28. 5 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2015","Nich_VTblu_Site_07","netting","Bombus bimaculatus","species","bumblebees",1,800,100,NA,"Date: 2015-05-28. 5 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2015","Nich_VTblu_Site_07","netting","Andrena carlini","species","other_wild_bees",1,800,100,NA,"Date: 2015-05-26. 5 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2015","Nich_VTblu_Site_07","netting","Andrena carlini","species","other_wild_bees",1,800,100,NA,"Date: 2015-05-26. 5 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2015","Nich_VTblu_Site_07","netting","Bombus ternarius","species","bumblebees",1,800,100,NA,"Date: 2015-05-26. 5 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2015","Nich_VTblu_Site_07","netting","Bombus terricola","species","bumblebees",1,800,100,NA,"Date: 2015-05-26. 5 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2015","Nich_VTblu_Site_07","netting","Augochlora pura","species","other_wild_bees",1,800,100,NA,"Date: 2015-05-21. 5 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2015","Nich_VTblu_Site_07","netting","Andrena miserabilis","species","other_wild_bees",1,800,100,NA,"Date: 2015-05-21. 5 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2015","Nich_VTblu_Site_07","netting","Andrena carlini","species","other_wild_bees",1,800,100,NA,"Date: 2015-05-21. 5 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2015","Nich_VTblu_Site_07","netting","Andrena carlini","species","other_wild_bees",1,800,100,NA,"Date: 2015-05-21. 5 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2015","Nich_VTblu_Site_07","netting","Andrena carlini","species","other_wild_bees",1,800,100,NA,"Date: 2015-05-21. 5 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2015","Nich_VTblu_Site_07","netting","Bombus bimaculatus","species","bumblebees",1,800,100,NA,"Date: 2015-05-21. 5 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2015","Nich_VTblu_Site_07","netting","Bombus ternarius","species","bumblebees",1,800,100,NA,"Date: 2015-05-21. 5 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2015","Nich_VTblu_Site_07","netting","Bombus bimaculatus","species","bumblebees",1,800,100,NA,"Date: 2015-05-21. 5 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_07","netting","Bombus bimaculatus","species","bumblebees",1,1280,160,NA,"Date: 2014-06-17. 8 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_07","netting","Andrena carlini","species","other_wild_bees",1,1280,160,NA,"Date: 2014-06-17. 8 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_07","netting","Andrena rufosignata","species","other_wild_bees",1,1280,160,NA,"Date: 2014-06-17. 8 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_07","netting","Bombus ternarius","species","bumblebees",1,1280,160,NA,"Date: 2014-06-17. 8 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_07","netting","Andrena carlini","species","other_wild_bees",1,1280,160,NA,"Date: 2014-06-17. 8 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_07","netting","Andrena carlini","species","other_wild_bees",1,1280,160,NA,"Date: 2014-06-17. 8 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_07","netting","Bombus ternarius","species","bumblebees",1,1280,160,NA,"Date: 2014-06-17. 8 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_07","netting","Bombus bimaculatus","species","bumblebees",1,1280,160,NA,"Date: 2014-06-17. 8 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_07","netting","Bombus bimaculatus","species","bumblebees",1,1280,160,NA,"Date: 2014-06-11. 8 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_07","netting","Bombus bimaculatus","species","bumblebees",1,1280,160,NA,"Date: 2014-06-11. 8 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_07","netting","Bombus ternarius","species","bumblebees",1,1280,160,NA,"Date: 2014-06-11. 8 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_07","netting","Andrena carlini","species","other_wild_bees",1,1280,160,NA,"Date: 2014-06-11. 8 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_07","netting","Bombus perplexus","species","bumblebees",1,1280,160,NA,"Date: 2014-06-07. 8 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_07","netting","Xylocopa virginica","species","other_wild_bees",1,1280,160,NA,"Date: 2014-06-07. 8 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_07","netting","Bombus ternarius","species","bumblebees",1,1280,160,NA,"Date: 2014-06-07. 8 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_07","netting","Bombus bimaculatus","species","bumblebees",1,1280,160,NA,"Date: 2014-06-07. 8 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_07","netting","Osmia bucephala","species","other_wild_bees",1,1280,160,NA,"Date: 2014-06-07. 8 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_07","netting","Andrena carlini","species","other_wild_bees",1,1280,160,NA,"Date: 2014-06-07. 8 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_07","netting","Andrena rufosignata","species","other_wild_bees",1,1280,160,NA,"Date: 2014-06-07. 8 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_07","netting","Lasioglossum quebecense","species","other_wild_bees",1,1280,160,NA,"Date: 2014-06-07. 8 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_07","netting","Augochlorella aurata","species","other_wild_bees",1,1280,160,NA,"Date: 2014-06-07. 8 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_07","netting","Bombus ternarius","species","bumblebees",1,1280,160,NA,"Date: 2014-06-11. 8 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_07","netting","Bombus bimaculatus","species","bumblebees",1,1280,160,NA,"Date: 2014-06-11. 8 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_07","netting","Bombus perplexus","species","bumblebees",1,1280,160,NA,"Date: 2014-06-11. 8 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_07","netting","Bombus ternarius","species","bumblebees",1,1280,160,NA,"Date: 2014-06-11. 8 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_07","netting","Andrena carlini","species","other_wild_bees",1,1280,160,NA,"Date: 2014-06-11. 8 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_07","netting","Andrena carolina","species","other_wild_bees",1,1280,160,NA,"Date: 2014-06-11. 8 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_07","netting","Andrena rufosignata","species","other_wild_bees",1,1280,160,NA,"Date: 2014-06-11. 8 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_07","netting","Andrena rufosignata","species","other_wild_bees",1,1280,160,NA,"Date: 2014-06-11. 8 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_07","netting","Andrena rufosignata","species","other_wild_bees",1,1280,160,NA,"Date: 2014-06-11. 8 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_07","netting","Andrena carlini","species","other_wild_bees",1,1280,160,NA,"Date: 2014-06-11. 8 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_07","netting","Andrena rufosignata","species","other_wild_bees",1,1280,160,NA,"Date: 2014-06-11. 8 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_07","netting","Andrena rufosignata","species","other_wild_bees",1,1280,160,NA,"Date: 2014-06-11. 8 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_07","netting","Lasioglossum confusus","species","other_wild_bees",1,1280,160,NA,"Date: 2014-06-07. 8 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_07","netting","Augochloropsis metallica","species","other_wild_bees",1,1280,160,NA,"Date: 2014-06-07. 8 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_07","netting","Andrena carlini","species","other_wild_bees",1,1280,160,NA,"Date: 2014-06-07. 8 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_07","netting","Andrena vicina","species","other_wild_bees",1,1280,160,NA,"Date: 2014-06-07. 8 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_07","netting","Bombus impatiens","species","bumblebees",1,1280,160,NA,"Date: 2014-06-07. 8 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_07","netting","Bombus ternarius","species","bumblebees",1,1280,160,NA,"Date: 2014-06-07. 8 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_07","netting","Augochlora pura","species","other_wild_bees",1,1280,160,NA,"Date: 2014-06-03. 8 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_07","netting","Augochloropsis metallica","species","other_wild_bees",1,1280,160,NA,"Date: 2014-06-03. 8 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_07","netting","Andrena rufosignata","species","other_wild_bees",1,1280,160,NA,"Date: 2014-06-03. 8 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_07","netting","Andrena carlini","species","other_wild_bees",1,1280,160,NA,"Date: 2014-06-03. 8 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_07","netting","Andrena vicina","species","other_wild_bees",1,1280,160,NA,"Date: 2014-06-03. 8 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_07","netting","Bombus ternarius","species","bumblebees",1,1280,160,NA,"Date: 2014-06-03. 8 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_07","netting","Bombus ternarius","species","bumblebees",1,1280,160,NA,"Date: 2014-06-03. 8 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_07","netting","Bombus vagans","species","bumblebees",1,1280,160,NA,"Date: 2014-06-03. 8 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_07","netting","Bombus bimaculatus","species","bumblebees",1,1280,160,NA,"Date: 2014-06-03. 8 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_07","netting","Bombus perplexus","species","bumblebees",1,1280,160,NA,"Date: 2014-06-03. 8 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_07","netting","Bombus impatiens","species","bumblebees",1,1280,160,NA,"Date: 2014-06-03. 8 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_07","netting","Augochlorella aurata","species","other_wild_bees",1,1280,160,NA,"Date: 2014-06-03. 8 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_07","netting","Bombus bimaculatus","species","bumblebees",1,1280,160,NA,"Date: 2014-05-30. 8 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_07","netting","Bombus impatiens","species","bumblebees",1,1280,160,NA,"Date: 2014-05-30. 8 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_07","netting","Bombus perplexus","species","bumblebees",1,1280,160,NA,"Date: 2014-05-30. 8 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_07","netting","Bombus impatiens","species","bumblebees",1,1280,160,NA,"Date: 2014-05-30. 8 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_07","netting","Bombus bimaculatus","species","bumblebees",1,1280,160,NA,"Date: 2014-05-30. 8 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_07","netting","Bombus ternarius","species","bumblebees",1,1280,160,NA,"Date: 2014-05-30. 8 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_07","netting","Bombus ternarius","species","bumblebees",1,1280,160,NA,"Date: 2014-05-30. 8 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_07","netting","Andrena carlini","species","other_wild_bees",1,1280,160,NA,"Date: 2014-05-30. 8 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_07","netting","Andrena carlini","species","other_wild_bees",1,1280,160,NA,"Date: 2014-05-30. 8 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_07","netting","Andrena carlini","species","other_wild_bees",1,1280,160,NA,"Date: 2014-05-30. 8 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_07","netting","Andrena rufosignata","species","other_wild_bees",1,1280,160,NA,"Date: 2014-05-30. 8 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_07","netting","Andrena nasonii","species","other_wild_bees",1,1280,160,NA,"Date: 2014-05-30. 8 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_07","netting","Andrena carlini","species","other_wild_bees",1,1280,160,NA,"Date: 2014-05-30. 8 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_07","netting","Andrena carlini","species","other_wild_bees",1,1280,160,NA,"Date: 2014-05-30. 8 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_07","netting","Bombus ternarius","species","bumblebees",1,1280,160,NA,"Date: 2014-05-30. 8 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_07","netting","Bombus perplexus","species","bumblebees",1,1280,160,NA,"Date: 2014-05-30. 8 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_07","netting","Bombus bimaculatus","species","bumblebees",1,1280,160,NA,"Date: 2014-05-30. 8 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_07","netting","Bombus perplexus","species","bumblebees",1,1280,160,NA,"Date: 2014-05-30. 8 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_07","netting","Andrena imitatrix","species","other_wild_bees",1,1280,160,NA,"Date: 2014-05-30. 8 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_07","netting","Lasioglossum truncatum","species","other_wild_bees",1,1280,160,NA,"Date: 2014-05-30. 8 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_07","netting","Andrena carlini","species","other_wild_bees",1,1280,160,NA,"Date: 2014-06-03. 8 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_07","netting","Andrena carlini","species","other_wild_bees",1,1280,160,NA,"Date: 2014-06-03. 8 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_07","netting","Augochlorella aurata","species","other_wild_bees",1,1280,160,NA,"Date: 2014-06-03. 8 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_07","netting","Lasioglossum quebecense","species","other_wild_bees",1,1280,160,NA,"Date: 2014-06-03. 8 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_07","netting","Lasioglossum birkmanni","species","other_wild_bees",1,1280,160,NA,"Date: 2014-06-03. 8 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_07","netting","Bombus bimaculatus","species","bumblebees",1,1280,160,NA,"Date: 2014-06-03. 8 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_07","netting","Bombus perplexus","species","bumblebees",1,1280,160,NA,"Date: 2014-06-03. 8 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_07","netting","Bombus perplexus","species","bumblebees",1,1280,160,NA,"Date: 2014-06-03. 8 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_07","netting","Bombus perplexus","species","bumblebees",1,1280,160,NA,"Date: 2014-06-03. 8 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_07","netting","Bombus ternarius","species","bumblebees",1,1280,160,NA,"Date: 2014-06-03. 8 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_07","netting","Bombus bimaculatus","species","bumblebees",1,1280,160,NA,"Date: 2014-05-22. 8 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_07","netting","Bombus ternarius","species","bumblebees",1,1280,160,NA,"Date: 2014-05-27. 8 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_07","netting","Andrena w-scripta","species","other_wild_bees",1,1280,160,NA,"Date: 2014-05-27. 8 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_07","netting","Andrena carlini","species","other_wild_bees",1,1280,160,NA,"Date: 2014-05-27. 8 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_07","netting","Colletes inaequalis","species","other_wild_bees",1,1280,160,NA,"Date: 2014-05-27. 8 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_07","netting","Bombus bimaculatus","species","bumblebees",1,1280,160,NA,"Date: 2014-05-27. 8 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_07","netting","Bombus perplexus","species","bumblebees",1,1280,160,NA,"Date: 2014-05-27. 8 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_07","netting","Bombus ternarius","species","bumblebees",1,1280,160,NA,"Date: 2014-05-27. 8 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_07","netting","Andrena carlini","species","other_wild_bees",1,1280,160,NA,"Date: 2014-05-27. 8 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_07","netting","Andrena carlini","species","other_wild_bees",1,1280,160,NA,"Date: 2014-05-27. 8 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_07","netting","Andrena vicina","species","other_wild_bees",1,1280,160,NA,"Date: 2014-05-27. 8 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_07","netting","Andrena vicina","species","other_wild_bees",1,1280,160,NA,"Date: 2014-05-27. 8 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_07","netting","Lasioglossum versatum","species","other_wild_bees",1,1280,160,NA,"Date: 2014-05-27. 8 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_07","netting","Augochloropsis metallica","species","other_wild_bees",1,1280,160,NA,"Date: 2014-05-21. 8 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_07","netting","Lasioglossum quebecense","species","other_wild_bees",1,1280,160,NA,"Date: 2014-05-21. 8 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_07","netting","Andrena carlini","species","other_wild_bees",1,1280,160,NA,"Date: 2014-05-21. 8 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_07","netting","Andrena vicina","species","other_wild_bees",1,1280,160,NA,"Date: 2014-05-21. 8 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_07","netting","Andrena vicina","species","other_wild_bees",1,1280,160,NA,"Date: 2014-05-21. 8 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_07","netting","Bombus impatiens","species","bumblebees",1,1280,160,NA,"Date: 2014-05-21. 8 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_07","netting","Bombus bimaculatus","species","bumblebees",1,1280,160,NA,"Date: 2014-05-21. 8 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_07","netting","Andrena crataegi","species","other_wild_bees",1,1280,160,NA,"Date: 2014-05-21. 8 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_07","netting","Andrena dunningi","species","other_wild_bees",1,1280,160,NA,"Date: 2014-05-21. 8 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_07","netting","Andrena vicina","species","other_wild_bees",1,1280,160,NA,"Date: 2014-05-21. 8 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_07","netting","Andrena crataegi","species","other_wild_bees",1,1280,160,NA,"Date: 2014-05-21. 8 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_07","netting","Andrena nivalis","species","other_wild_bees",1,1280,160,NA,"Date: 2014-05-21. 8 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_07","netting","Bombus ternarius","species","bumblebees",1,1280,160,NA,"Date: 2014-05-21. 8 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_07","netting","Bombus impatiens","species","bumblebees",1,1280,160,NA,"Date: 2014-05-21. 8 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_07","netting","Bombus bimaculatus","species","bumblebees",1,1280,160,NA,"Date: 2014-05-21. 8 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_07","netting","Bombus vagans","species","bumblebees",1,1280,160,NA,"Date: 2014-05-21. 8 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_07","netting","Bombus perplexus","species","bumblebees",1,1280,160,NA,"Date: 2014-05-21. 8 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_07","netting","Bombus perplexus","species","bumblebees",1,1280,160,NA,"Date: 2014-05-21. 8 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2013","Nich_VTblu_Site_07","netting","Sphecodes ranunculi","species","other_wild_bees",1,640,80,NA,"Date: 2014-06-17. 4 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2013","Nich_VTblu_Site_07","netting","Bombus perplexus","species","bumblebees",1,640,80,NA,"Date: 2013-06-05. 4 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2013","Nich_VTblu_Site_07","netting","Bombus vagans","species","bumblebees",1,640,80,NA,"Date: 2013-06-05. 4 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2013","Nich_VTblu_Site_07","netting","Bombus bimaculatus","species","bumblebees",1,640,80,NA,"Date: 2013-06-05. 4 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2013","Nich_VTblu_Site_07","netting","Bombus vagans","species","bumblebees",1,640,80,NA,"Date: 2013-06-05. 4 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2013","Nich_VTblu_Site_07","netting","Bombus bimaculatus","species","bumblebees",1,640,80,NA,"Date: 2013-06-05. 4 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2013","Nich_VTblu_Site_07","netting","Bombus bimaculatus","species","bumblebees",1,640,80,NA,"Date: 2013-06-05. 4 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2013","Nich_VTblu_Site_07","netting","Andrena carlini","species","other_wild_bees",1,640,80,NA,"Date: 2013-06-05. 4 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2013","Nich_VTblu_Site_07","netting","Bombus vagans","species","bumblebees",1,640,80,NA,"Date: 2013-06-05. 4 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2013","Nich_VTblu_Site_07","netting","Bombus bimaculatus","species","bumblebees",1,640,80,NA,"Date: 2013-06-05. 4 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2013","Nich_VTblu_Site_07","netting","Bombus vagans","species","bumblebees",1,640,80,NA,"Date: 2013-06-05. 4 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2013","Nich_VTblu_Site_07","netting","Bombus vagans","species","bumblebees",1,640,80,NA,"Date: 2013-06-05. 4 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2013","Nich_VTblu_Site_07","netting","Bombus ternarius","species","bumblebees",1,640,80,NA,"Date: 2013-06-05. 4 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2013","Nich_VTblu_Site_07","netting","Bombus vagans","species","bumblebees",1,640,80,NA,"Date: 2013-06-05. 4 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2013","Nich_VTblu_Site_07","netting","Bombus vagans","species","bumblebees",1,640,80,NA,"Date: 2013-06-05. 4 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2013","Nich_VTblu_Site_07","netting","Bombus ternarius","species","bumblebees",1,640,80,NA,"Date: 2013-06-05. 4 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2013","Nich_VTblu_Site_07","netting","Bombus bimaculatus","species","bumblebees",1,640,80,NA,"Date: 2013-05-31. 4 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2013","Nich_VTblu_Site_07","netting","Bombus vagans","species","bumblebees",1,640,80,NA,"Date: 2013-05-31. 4 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2013","Nich_VTblu_Site_07","netting","Bombus vagans","species","bumblebees",1,640,80,NA,"Date: 2013-05-31. 4 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2013","Nich_VTblu_Site_07","netting","Bombus vagans","species","bumblebees",1,640,80,NA,"Date: 2013-05-31. 4 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2013","Nich_VTblu_Site_07","netting","Bombus bimaculatus","species","bumblebees",1,640,80,NA,"Date: 2013-05-31. 4 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2013","Nich_VTblu_Site_07","netting","Augochlorella aurata","species","other_wild_bees",1,640,80,NA,"Date: 2013-05-31. 4 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2013","Nich_VTblu_Site_07","netting","Augochlorella aurata","species","other_wild_bees",1,640,80,NA,"Date: 2013-05-31. 4 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2013","Nich_VTblu_Site_07","netting","Lasioglossum cressoni","species","other_wild_bees",1,640,80,NA,"Date: 2013-05-31. 4 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2013","Nich_VTblu_Site_07","netting","Augochlorella aurata","species","other_wild_bees",1,640,80,NA,"Date: 2013-05-31. 4 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2013","Nich_VTblu_Site_07","netting","Andrena carlini","species","other_wild_bees",1,640,80,NA,"Date: 2013-05-31. 4 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2013","Nich_VTblu_Site_07","netting","Bombus ternarius","species","bumblebees",1,640,80,NA,"Date: 2013-05-31. 4 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2013","Nich_VTblu_Site_07","netting","Augochlorella aurata","species","other_wild_bees",1,640,80,NA,"Date: 2013-05-31. 4 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2013","Nich_VTblu_Site_07","netting","Andrena platyparia","species","other_wild_bees",1,640,80,NA,"Date: 2013-05-31. 4 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2013","Nich_VTblu_Site_07","netting","Bombus perplexus","species","bumblebees",1,640,80,NA,"Date: 2013-05-31. 4 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2013","Nich_VTblu_Site_07","netting","Bombus ternarius","species","bumblebees",1,640,80,NA,"Date: 2013-05-31. 4 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2013","Nich_VTblu_Site_07","netting","Bombus ternarius","species","bumblebees",1,640,80,NA,"Date: 2013-05-31. 4 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2013","Nich_VTblu_Site_07","netting","Bombus vagans","species","bumblebees",1,640,80,NA,"Date: 2013-05-31. 4 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2013","Nich_VTblu_Site_07","netting","Bombus bimaculatus","species","bumblebees",1,640,80,NA,"Date: 2013-05-31. 4 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2013","Nich_VTblu_Site_07","netting","Bombus bimaculatus","species","bumblebees",1,640,80,NA,"Date: 2013-05-31. 4 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2013","Nich_VTblu_Site_07","netting","Bombus vagans","species","bumblebees",1,640,80,NA,"Date: 2013-05-31. 4 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2013","Nich_VTblu_Site_07","netting","Bombus impatiens","species","bumblebees",1,640,80,NA,"Date: 2013-05-31. 4 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2013","Nich_VTblu_Site_07","netting","Bombus bimaculatus","species","bumblebees",1,640,80,NA,"Date: 2013-05-22. 4 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2013","Nich_VTblu_Site_07","netting","Bombus perplexus","species","bumblebees",1,640,80,NA,"Date: 2013-05-22. 4 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2013","Nich_VTblu_Site_07","netting","Osmia albiventris","species","other_wild_bees",1,640,80,NA,"Date: 2013-05-22. 4 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2013","Nich_VTblu_Site_07","netting","Bombus bimaculatus","species","bumblebees",1,640,80,NA,"Date: 2013-05-22. 4 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2013","Nich_VTblu_Site_07","netting","Andrena rufosignata","species","other_wild_bees",1,640,80,NA,"Date: 2013-05-22. 4 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2013","Nich_VTblu_Site_07","netting","Osmia bucephala","species","other_wild_bees",1,640,80,NA,"Date: 2013-05-22. 4 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2013","Nich_VTblu_Site_07","netting","Bombus ternarius","species","bumblebees",1,640,80,NA,"Date: 2013-05-22. 4 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2013","Nich_VTblu_Site_07","netting","Bombus bimaculatus","species","bumblebees",1,640,80,NA,"Date: 2013-05-22. 4 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2013","Nich_VTblu_Site_07","netting","Bombus bimaculatus","species","bumblebees",1,640,80,NA,"Date: 2013-05-22. 4 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2013","Nich_VTblu_Site_07","netting","Lasioglossum confusus","species","other_wild_bees",1,640,80,NA,"Date: 2013-05-22. 4 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2013","Nich_VTblu_Site_07","netting","Andrena carlini","species","other_wild_bees",1,640,80,NA,"Date: 2013-05-22. 4 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2013","Nich_VTblu_Site_07","netting","Andrena carlini","species","other_wild_bees",1,640,80,NA,"Date: 2013-05-22. 4 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2013","Nich_VTblu_Site_07","netting","Bombus vagans","species","bumblebees",1,640,80,NA,"Date: 2013-05-22. 4 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2013","Nich_VTblu_Site_07","netting","Bombus perplexus","species","bumblebees",1,640,80,NA,"Date: 2013-05-22. 4 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2013","Nich_VTblu_Site_07","netting","Andrena vicina","species","other_wild_bees",1,640,80,NA,"Date: 2013-05-22. 4 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2013","Nich_VTblu_Site_07","netting","Augochlora pura","species","other_wild_bees",1,640,80,NA,"Date: 2013-05-22. 4 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2013","Nich_VTblu_Site_07","netting","Andrena vicina","species","other_wild_bees",1,640,80,NA,"Date: 2013-05-22. 4 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2013","Nich_VTblu_Site_07","netting","Andrena carlini","species","other_wild_bees",1,640,80,NA,"Date: 2013-05-22. 4 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2013","Nich_VTblu_Site_07","netting","Andrena carlini","species","other_wild_bees",1,640,80,NA,"Date: 2013-05-22. 4 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2015","Nich_VTblu_Site_08","netting","Bombus bimaculatus","species","bumblebees",1,640,80,NA,"Date: 2015-05-21. 4 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2015","Nich_VTblu_Site_08","netting","Bombus impatiens","species","bumblebees",1,640,80,NA,"Date: 2015-05-21. 4 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2015","Nich_VTblu_Site_08","netting","Bombus perplexus","species","bumblebees",1,640,80,NA,"Date: 2015-05-21. 4 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2015","Nich_VTblu_Site_08","netting","Bombus impatiens","species","bumblebees",1,640,80,NA,"Date: 2015-05-21. 4 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2015","Nich_VTblu_Site_08","netting","Andrena carlini","species","other_wild_bees",1,640,80,NA,"Date: 2015-05-27. 4 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2015","Nich_VTblu_Site_08","netting","Bombus bimaculatus","species","bumblebees",1,640,80,NA,"Date: 2015-05-27. 4 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2015","Nich_VTblu_Site_08","netting","Bombus impatiens","species","bumblebees",1,640,80,NA,"Date: 2015-05-27. 4 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2015","Nich_VTblu_Site_08","netting","Bombus impatiens","species","bumblebees",1,640,80,NA,"Date: 2015-05-21. 4 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2015","Nich_VTblu_Site_08","netting","Bombus bimaculatus","species","bumblebees",1,640,80,NA,"Date: 2015-05-21. 4 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2015","Nich_VTblu_Site_08","netting","Bombus impatiens","species","bumblebees",1,640,80,NA,"Date: 2015-05-21. 4 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2015","Nich_VTblu_Site_08","netting","Bombus impatiens","species","bumblebees",1,640,80,NA,"Date: 2015-05-21. 4 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2015","Nich_VTblu_Site_08","netting","Andrena carlini","species","other_wild_bees",1,640,80,NA,"Date: 2015-05-18. 4 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2015","Nich_VTblu_Site_08","netting","Andrena carlini","species","other_wild_bees",1,640,80,NA,"Date: 2015-05-18. 4 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2015","Nich_VTblu_Site_08","netting","Bombus impatiens","species","bumblebees",1,640,80,NA,"Date: 2015-05-18. 4 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2015","Nich_VTblu_Site_08","netting","Bombus impatiens","species","bumblebees",1,640,80,NA,"Date: 2015-05-18. 4 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2015","Nich_VTblu_Site_08","netting","Lasioglossum versatum","species","other_wild_bees",1,640,80,NA,"Date: 2015-05-14. 4 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2015","Nich_VTblu_Site_08","netting","Andrena carlini","species","other_wild_bees",1,640,80,NA,"Date: 2015-05-14. 4 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2015","Nich_VTblu_Site_08","netting","Andrena mandibularis","species","other_wild_bees",1,640,80,NA,"Date: 2015-05-14. 4 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2015","Nich_VTblu_Site_08","netting","Andrena carlini","species","other_wild_bees",1,640,80,NA,"Date: 2015-05-14. 4 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2015","Nich_VTblu_Site_08","netting","Andrena vicina","species","other_wild_bees",1,640,80,NA,"Date: 2015-05-14. 4 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2015","Nich_VTblu_Site_08","netting","Andrena crataegi","species","other_wild_bees",1,640,80,NA,"Date: 2015-05-14. 4 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2015","Nich_VTblu_Site_08","netting","Bombus bimaculatus","species","bumblebees",1,640,80,NA,"Date: 2015-05-14. 4 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2015","Nich_VTblu_Site_08","netting","Andrena carolina","species","other_wild_bees",1,640,80,NA,"Date: 2015-05-27. 4 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2015","Nich_VTblu_Site_08","netting","Bombus bimaculatus","species","bumblebees",1,640,80,NA,"Date: 2015-05-27. 4 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2015","Nich_VTblu_Site_08","netting","Bombus perplexus","species","bumblebees",1,640,80,NA,"Date: 2015-05-27. 4 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2015","Nich_VTblu_Site_08","netting","Bombus bimaculatus","species","bumblebees",1,640,80,NA,"Date: 2015-05-27. 4 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2015","Nich_VTblu_Site_08","netting","Bombus bimaculatus","species","bumblebees",1,640,80,NA,"Date: 2015-05-27. 4 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2015","Nich_VTblu_Site_08","netting","Xylocopa virginica","species","other_wild_bees",1,640,80,NA,"Date: 2015-05-27. 4 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2015","Nich_VTblu_Site_08","netting","Augochloropsis metallica","species","other_wild_bees",1,640,80,NA,"Date: 2015-05-21. 4 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2015","Nich_VTblu_Site_08","netting","Andrena rufosignata","species","other_wild_bees",1,640,80,NA,"Date: 2015-05-21. 4 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2015","Nich_VTblu_Site_08","netting","Andrena vicina","species","other_wild_bees",1,640,80,NA,"Date: 2015-05-21. 4 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2015","Nich_VTblu_Site_08","netting","Andrena carlini","species","other_wild_bees",1,640,80,NA,"Date: 2015-05-21. 4 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2015","Nich_VTblu_Site_08","netting","Andrena vicina","species","other_wild_bees",1,640,80,NA,"Date: 2015-05-21. 4 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2015","Nich_VTblu_Site_08","netting","Bombus vagans","species","bumblebees",1,640,80,NA,"Date: 2015-05-21. 4 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2015","Nich_VTblu_Site_08","netting","Bombus bimaculatus","species","bumblebees",1,640,80,NA,"Date: 2015-05-21. 4 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2015","Nich_VTblu_Site_08","netting","Andrena carlini","species","other_wild_bees",1,640,80,NA,"Date: 2015-05-18. 4 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2015","Nich_VTblu_Site_08","netting","Andrena carlini","species","other_wild_bees",1,640,80,NA,"Date: 2015-05-18. 4 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2015","Nich_VTblu_Site_08","netting","Andrena carlini","species","other_wild_bees",1,640,80,NA,"Date: 2015-05-18. 4 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2015","Nich_VTblu_Site_08","netting","Andrena carlini","species","other_wild_bees",1,640,80,NA,"Date: 2015-05-18. 4 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2015","Nich_VTblu_Site_08","netting","Andrena carlini","species","other_wild_bees",1,640,80,NA,"Date: 2015-05-18. 4 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2015","Nich_VTblu_Site_08","netting","Andrena vicina","species","other_wild_bees",1,640,80,NA,"Date: 2015-05-18. 4 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2015","Nich_VTblu_Site_08","netting","Bombus bimaculatus","species","bumblebees",1,640,80,NA,"Date: 2015-05-18. 4 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2015","Nich_VTblu_Site_08","netting","Bombus bimaculatus","species","bumblebees",1,640,80,NA,"Date: 2015-05-18. 4 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2015","Nich_VTblu_Site_08","netting","Bombus perplexus","species","bumblebees",1,640,80,NA,"Date: 2015-05-18. 4 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2015","Nich_VTblu_Site_08","netting","Lasioglossum versatum","species","other_wild_bees",1,640,80,NA,"Date: 2015-05-14. 4 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2015","Nich_VTblu_Site_08","netting","Halictus rubicundus","species","other_wild_bees",1,640,80,NA,"Date: 2015-05-14. 4 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2015","Nich_VTblu_Site_08","netting","Andrena carlini","species","other_wild_bees",1,640,80,NA,"Date: 2015-05-14. 4 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2015","Nich_VTblu_Site_08","netting","Andrena carolina","species","other_wild_bees",1,640,80,NA,"Date: 2015-05-14. 4 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2015","Nich_VTblu_Site_08","netting","Bombus bimaculatus","species","bumblebees",1,640,80,NA,"Date: 2015-05-14. 4 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2015","Nich_VTblu_Site_08","netting","Andrena crataegi","species","other_wild_bees",1,640,80,NA,"Date: 2015-05-14. 4 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2015","Nich_VTblu_Site_08","netting","Bombus impatiens","species","bumblebees",1,640,80,NA,"Date: 2015-05-14. 4 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_08","netting","Ceratina dupla","species","other_wild_bees",1,1280,160,NA,"Date: 2014-06-17. 8 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_08","netting","Augochlora pura","species","other_wild_bees",1,1280,160,NA,"Date: 2014-06-07. 8 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_08","netting","Andrena carolina","species","other_wild_bees",1,1280,160,NA,"Date: 2014-06-07. 8 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_08","netting","Andrena carolina","species","other_wild_bees",1,1280,160,NA,"Date: 2014-06-07. 8 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_08","netting","Andrena carolina","species","other_wild_bees",1,1280,160,NA,"Date: 2014-06-07. 8 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_08","netting","Bombus perplexus","species","bumblebees",1,1280,160,NA,"Date: 2014-06-07. 8 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_08","netting","Bombus perplexus","species","bumblebees",1,1280,160,NA,"Date: 2014-06-07. 8 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_08","netting","Bombus bimaculatus","species","bumblebees",1,1280,160,NA,"Date: 2014-06-07. 8 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_08","netting","Andrena vicina","species","other_wild_bees",1,1280,160,NA,"Date: 2014-06-07. 8 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_08","netting","Bombus bimaculatus","species","bumblebees",1,1280,160,NA,"Date: 2014-06-07. 8 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_08","netting","Lasioglossum quebecense","species","other_wild_bees",1,1280,160,NA,"Date: 2014-06-04. 8 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_08","netting","Lasioglossum quebecense","species","other_wild_bees",1,1280,160,NA,"Date: 2014-06-04. 8 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_08","netting","Lasioglossum quebecense","species","other_wild_bees",1,1280,160,NA,"Date: 2014-06-04. 8 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_08","netting","Andrena carlini","species","other_wild_bees",1,1280,160,NA,"Date: 2014-06-04. 8 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_08","netting","Andrena carlini","species","other_wild_bees",1,1280,160,NA,"Date: 2014-06-04. 8 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_08","netting","Xylocopa virginica","species","other_wild_bees",1,1280,160,NA,"Date: 2014-06-04. 8 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_08","netting","Xylocopa virginica","species","other_wild_bees",1,1280,160,NA,"Date: 2014-06-04. 8 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_08","netting","Andrena carlini","species","other_wild_bees",1,1280,160,NA,"Date: 2014-05-30. 8 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_08","netting","Andrena carlini","species","other_wild_bees",1,1280,160,NA,"Date: 2014-05-30. 8 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_08","netting","Andrena carlini","species","other_wild_bees",1,1280,160,NA,"Date: 2014-05-30. 8 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_08","netting","Bombus bimaculatus","species","bumblebees",1,1280,160,NA,"Date: 2014-05-30. 8 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_08","netting","Bombus impatiens","species","bumblebees",1,1280,160,NA,"Date: 2014-05-30. 8 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_08","netting","Bombus ternarius","species","bumblebees",1,1280,160,NA,"Date: 2014-05-30. 8 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_08","netting","Andrena carlini","species","other_wild_bees",1,1280,160,NA,"Date: 2014-06-02. 8 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_08","netting","Bombus impatiens","species","bumblebees",1,1280,160,NA,"Date: 2014-06-04. 8 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_08","netting","Andrena carlini","species","other_wild_bees",1,1280,160,NA,"Date: 2014-06-03. 8 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_08","netting","Bombus impatiens","species","bumblebees",1,1280,160,NA,"Date: 2014-06-03. 8 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_08","netting","Bombus bimaculatus","species","bumblebees",1,1280,160,NA,"Date: 2014-06-03. 8 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_08","netting","Andrena carolina","species","other_wild_bees",1,1280,160,NA,"Date: 2014-06-03. 8 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_08","netting","Bombus bimaculatus","species","bumblebees",1,1280,160,NA,"Date: 2014-06-03. 8 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_08","netting","Andrena carlini","species","other_wild_bees",1,1280,160,NA,"Date: 2014-05-30. 8 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_08","netting","Andrena carlini","species","other_wild_bees",1,1280,160,NA,"Date: 2014-05-30. 8 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_08","netting","Bombus bimaculatus","species","bumblebees",1,1280,160,NA,"Date: 2014-05-30. 8 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_08","netting","Bombus impatiens","species","bumblebees",1,1280,160,NA,"Date: 2014-05-30. 8 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_08","netting","Andrena carolina","species","other_wild_bees",1,1280,160,NA,"Date: 2014-05-27. 8 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_08","netting","Andrena imitatrix","species","other_wild_bees",1,1280,160,NA,"Date: 2014-05-27. 8 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_08","netting","Andrena carlini","species","other_wild_bees",1,1280,160,NA,"Date: 2014-05-27. 8 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_08","netting","Andrena vicina","species","other_wild_bees",1,1280,160,NA,"Date: 2014-05-27. 8 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_08","netting","Andrena vicina","species","other_wild_bees",1,1280,160,NA,"Date: 2014-05-27. 8 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_08","netting","Bombus bimaculatus","species","bumblebees",1,1280,160,NA,"Date: 2014-05-27. 8 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_08","netting","Bombus impatiens","species","bumblebees",1,1280,160,NA,"Date: 2014-05-27. 8 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_08","netting","Bombus impatiens","species","bumblebees",1,1280,160,NA,"Date: 2014-05-27. 8 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_08","netting","Augochlorella aurata","species","other_wild_bees",1,1280,160,NA,"Date: 2014-05-27. 8 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_08","netting","Andrena carlini","species","other_wild_bees",1,1280,160,NA,"Date: 2014-05-27. 8 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_08","netting","Andrena rugosa","species","other_wild_bees",1,1280,160,NA,"Date: 2014-05-27. 8 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_08","netting","Andrena carlini","species","other_wild_bees",1,1280,160,NA,"Date: 2014-05-27. 8 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_08","netting","Bombus griseocollis","species","bumblebees",1,1280,160,NA,"Date: 2014-05-27. 8 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_08","netting","Bombus impatiens","species","bumblebees",1,1280,160,NA,"Date: 2014-05-27. 8 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_08","netting","Andrena vicina","species","other_wild_bees",1,1280,160,NA,"Date: 2014-05-21. 8 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_08","netting","Andrena vicina","species","other_wild_bees",1,1280,160,NA,"Date: 2014-05-21. 8 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_08","netting","Andrena crataegi","species","other_wild_bees",1,1280,160,NA,"Date: 2014-05-21. 8 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_08","netting","Andrena vicina","species","other_wild_bees",1,1280,160,NA,"Date: 2014-05-21. 8 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_08","netting","Bombus impatiens","species","bumblebees",1,1280,160,NA,"Date: 2014-05-21. 8 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_08","netting","Bombus impatiens","species","bumblebees",1,1280,160,NA,"Date: 2014-05-21. 8 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_08","netting","Bombus impatiens","species","bumblebees",1,1280,160,NA,"Date: 2014-05-21. 8 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_08","netting","Andrena carolina","species","other_wild_bees",1,1280,160,NA,"Date: 2014-05-21. 8 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_08","netting","Andrena carlini","species","other_wild_bees",1,1280,160,NA,"Date: 2014-05-21. 8 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_08","netting","Bombus impatiens","species","bumblebees",1,1280,160,NA,"Date: 2014-05-21. 8 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_08","netting","Bombus bimaculatus","species","bumblebees",1,1280,160,NA,"Date: 2014-05-21. 8 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_08","netting","Bombus impatiens","species","bumblebees",1,1280,160,NA,"Date: 2014-05-21. 8 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_08","netting","Bombus bimaculatus","species","bumblebees",1,1280,160,NA,"Date: 2014-05-21. 8 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_08","netting","Bombus perplexus","species","bumblebees",1,1280,160,NA,"Date: 2014-05-21. 8 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_08","netting","Bombus griseocollis","species","bumblebees",1,1280,160,NA,"Date: 2014-06-04. 8 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2013","Nich_VTblu_Site_08","netting","Andrena carolina","species","other_wild_bees",1,480,60,NA,"Date: 2013-06-01. 3 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2013","Nich_VTblu_Site_08","netting","Bombus impatiens","species","bumblebees",1,480,60,NA,"Date: 2013-06-01. 3 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2013","Nich_VTblu_Site_08","netting","Andrena carlini","species","other_wild_bees",1,480,60,NA,"Date: 2013-06-01. 3 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2013","Nich_VTblu_Site_08","netting","Andrena carlini","species","other_wild_bees",1,480,60,NA,"Date: 2013-06-01. 3 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2013","Nich_VTblu_Site_08","netting","Bombus vagans","species","bumblebees",1,480,60,NA,"Date: 2013-06-01. 3 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2013","Nich_VTblu_Site_08","netting","Bombus bimaculatus","species","bumblebees",1,480,60,NA,"Date: 2013-06-01. 3 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2013","Nich_VTblu_Site_08","netting","Andrena carlini","species","other_wild_bees",1,480,60,NA,"Date: 2013-06-01. 3 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2013","Nich_VTblu_Site_08","netting","Bombus vagans","species","bumblebees",1,480,60,NA,"Date: 2013-06-01. 3 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2013","Nich_VTblu_Site_08","netting","Bombus bimaculatus","species","bumblebees",1,480,60,NA,"Date: 2013-06-01. 3 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2013","Nich_VTblu_Site_08","netting","Bombus vagans","species","bumblebees",1,480,60,NA,"Date: 2013-06-01. 3 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2013","Nich_VTblu_Site_08","netting","Bombus bimaculatus","species","bumblebees",1,480,60,NA,"Date: 2013-06-01. 3 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2013","Nich_VTblu_Site_08","netting","Bombus impatiens","species","bumblebees",1,480,60,NA,"Date: 2013-05-31. 3 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2013","Nich_VTblu_Site_08","netting","Bombus vagans","species","bumblebees",1,480,60,NA,"Date: 2013-05-31. 3 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2013","Nich_VTblu_Site_08","netting","Bombus impatiens","species","bumblebees",1,480,60,NA,"Date: 2013-05-31. 3 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2013","Nich_VTblu_Site_08","netting","Andrena carlini","species","other_wild_bees",1,480,60,NA,"Date: 2013-05-31. 3 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2013","Nich_VTblu_Site_08","netting","Andrena bradleyi","species","other_wild_bees",1,480,60,NA,"Date: 2013-05-31. 3 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2013","Nich_VTblu_Site_08","netting","Andrena carlini","species","other_wild_bees",1,480,60,NA,"Date: 2013-05-31. 3 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2013","Nich_VTblu_Site_08","netting","Augochlorella aurata","species","other_wild_bees",1,480,60,NA,"Date: 2013-05-31. 3 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2013","Nich_VTblu_Site_08","netting","Andrena carolina","species","other_wild_bees",1,480,60,NA,"Date: 2013-05-31. 3 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2013","Nich_VTblu_Site_08","netting","Andrena carolina","species","other_wild_bees",1,480,60,NA,"Date: 2013-05-31. 3 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2013","Nich_VTblu_Site_08","netting","Andrena carolina","species","other_wild_bees",1,480,60,NA,"Date: 2013-05-31. 3 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2013","Nich_VTblu_Site_08","netting","Andrena carlini","species","other_wild_bees",1,480,60,NA,"Date: 2013-05-31. 3 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2013","Nich_VTblu_Site_08","netting","Bombus bimaculatus","species","bumblebees",1,480,60,NA,"Date: 2013-05-31. 3 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2013","Nich_VTblu_Site_08","netting","Bombus impatiens","species","bumblebees",1,480,60,NA,"Date: 2013-05-31. 3 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2013","Nich_VTblu_Site_08","netting","Bombus impatiens","species","bumblebees",1,480,60,NA,"Date: 2013-05-31. 3 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2013","Nich_VTblu_Site_08","netting","Andrena carolina","species","other_wild_bees",1,480,60,NA,"Date: 2013-05-31. 3 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2013","Nich_VTblu_Site_08","netting","Andrena carolina","species","other_wild_bees",1,480,60,NA,"Date: 2013-05-31. 3 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2013","Nich_VTblu_Site_08","netting","Bombus bimaculatus","species","bumblebees",1,480,60,NA,"Date: 2013-05-31. 3 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2013","Nich_VTblu_Site_08","netting","Bombus bimaculatus","species","bumblebees",1,480,60,NA,"Date: 2013-05-31. 3 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2013","Nich_VTblu_Site_08","netting","Bombus impatiens","species","bumblebees",1,480,60,NA,"Date: 2013-05-31. 3 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2013","Nich_VTblu_Site_08","netting","Bombus impatiens","species","bumblebees",1,480,60,NA,"Date: 2013-05-31. 3 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2013","Nich_VTblu_Site_08","netting","Bombus bimaculatus","species","bumblebees",1,480,60,NA,"Date: 2013-05-31. 3 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2013","Nich_VTblu_Site_08","netting","Lasioglossum versatum","species","other_wild_bees",1,480,60,NA,"Date: 2013-05-31. 3 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2013","Nich_VTblu_Site_08","netting","Ceratina mikmaqi","species","other_wild_bees",1,480,60,NA,"Date: 2013-05-31. 3 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2013","Nich_VTblu_Site_08","netting","Lasioglossum versatum","species","other_wild_bees",1,480,60,NA,"Date: 2013-05-31. 3 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2013","Nich_VTblu_Site_08","netting","Bombus bimaculatus","species","bumblebees",1,480,60,NA,"Date: 2013-05-31. 3 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2013","Nich_VTblu_Site_08","netting","Bombus bimaculatus","species","bumblebees",1,480,60,NA,"Date: 2013-05-31. 3 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2013","Nich_VTblu_Site_08","netting","Bombus bimaculatus","species","bumblebees",1,480,60,NA,"Date: 2013-05-31. 3 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2013","Nich_VTblu_Site_08","netting","Bombus impatiens","species","bumblebees",1,480,60,NA,"Date: 2013-05-31. 3 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2013","Nich_VTblu_Site_08","netting","Bombus impatiens","species","bumblebees",1,480,60,NA,"Date: 2013-05-31. 3 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2013","Nich_VTblu_Site_08","netting","Andrena vicina","species","other_wild_bees",1,480,60,NA,"Date: 2013-05-18. 3 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2013","Nich_VTblu_Site_08","netting","Andrena vicina","species","other_wild_bees",1,480,60,NA,"Date: 2013-05-18. 3 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2013","Nich_VTblu_Site_08","netting","Bombus bimaculatus","species","bumblebees",1,480,60,NA,"Date: 2013-05-18. 3 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2013","Nich_VTblu_Site_08","netting","Bombus bimaculatus","species","bumblebees",1,480,60,NA,"Date: 2013-05-18. 3 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2013","Nich_VTblu_Site_08","netting","Bombus vagans","species","bumblebees",1,480,60,NA,"Date: 2013-05-18. 3 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2013","Nich_VTblu_Site_08","netting","Andrena imitatrix","species","other_wild_bees",1,480,60,NA,"Date: 2013-05-18. 3 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2013","Nich_VTblu_Site_08","netting","Andrena imitatrix","species","other_wild_bees",1,480,60,NA,"Date: 2013-05-18. 3 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2013","Nich_VTblu_Site_08","netting","Andrena vicina","species","other_wild_bees",1,480,60,NA,"Date: 2013-05-18. 3 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2013","Nich_VTblu_Site_08","netting","Andrena carolina","species","other_wild_bees",1,480,60,NA,"Date: 2013-05-18. 3 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2013","Nich_VTblu_Site_08","netting","Andrena carlini","species","other_wild_bees",1,480,60,NA,"Date: 2013-05-18. 3 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2013","Nich_VTblu_Site_08","netting","Andrena carlini","species","other_wild_bees",1,480,60,NA,"Date: 2013-05-18. 3 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2013","Nich_VTblu_Site_08","netting","Bombus fervidus","species","bumblebees",1,480,60,NA,"Date: 2013-05-18. 3 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2013","Nich_VTblu_Site_08","netting","Bombus impatiens","species","bumblebees",1,480,60,NA,"Date: 2013-05-18. 3 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2013","Nich_VTblu_Site_08","netting","Bombus griseocollis","species","bumblebees",1,480,60,NA,"Date: 2013-05-18. 3 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2013","Nich_VTblu_Site_08","netting","Andrena milwaukeensis","species","other_wild_bees",1,480,60,NA,"Date: 2013-05-18. 3 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2013","Nich_VTblu_Site_08","netting","Andrena hippotes","species","other_wild_bees",1,480,60,NA,"Date: 2013-05-18. 3 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2013","Nich_VTblu_Site_08","netting","Bombus impatiens","species","bumblebees",1,480,60,NA,"Date: 2013-05-18. 3 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2013","Nich_VTblu_Site_08","netting","Bombus impatiens","species","bumblebees",1,480,60,NA,"Date: 2013-05-18. 3 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2013","Nich_VTblu_Site_08","netting","Bombus impatiens","species","bumblebees",1,480,60,NA,"Date: 2013-05-18. 3 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2013","Nich_VTblu_Site_08","netting","Bombus impatiens","species","bumblebees",1,480,60,NA,"Date: 2013-05-18. 3 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2013","Nich_VTblu_Site_08","netting","Bombus impatiens","species","bumblebees",1,480,60,NA,"Date: 2013-05-18. 3 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2013","Nich_VTblu_Site_08","netting","Bombus griseocollis","species","bumblebees",1,480,60,NA,"Date: 2013-05-18. 3 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2013","Nich_VTblu_Site_08","netting","Bombus griseocollis","species","bumblebees",1,480,60,NA,"Date: 2013-05-18. 3 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2013","Nich_VTblu_Site_08","netting","Bombus griseocollis","species","bumblebees",1,480,60,NA,"Date: 2013-05-18. 3 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2013","Nich_VTblu_Site_08","netting","Bombus griseocollis","species","bumblebees",1,480,60,NA,"Date: 2013-05-18. 3 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2013","Nich_VTblu_Site_08","netting","Bombus impatiens","species","bumblebees",1,480,60,NA,"Date: 2013-05-18. 3 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2013","Nich_VTblu_Site_08","netting","Bombus impatiens","species","bumblebees",1,480,60,NA,"Date: 2013-05-18. 3 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2013","Nich_VTblu_Site_08","netting","Bombus impatiens","species","bumblebees",1,480,60,NA,"Date: 2013-05-18. 3 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2013","Nich_VTblu_Site_08","netting","Bombus impatiens","species","bumblebees",1,480,60,NA,"Date: 2013-05-18. 3 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2015","Nich_VTblu_Site_09","netting","Augochlorella aurata","species","other_wild_bees",1,960,120,NA,"Date: 2015-06-03. 6 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2015","Nich_VTblu_Site_09","netting","Nomada pygmaea","species","other_wild_bees",1,960,120,NA,"Date: 2015-06-03. 6 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2015","Nich_VTblu_Site_09","netting","Lasioglossum quebecense","species","other_wild_bees",1,960,120,NA,"Date: 2015-06-03. 6 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2015","Nich_VTblu_Site_09","netting","Bombus vagans","species","bumblebees",1,960,120,NA,"Date: 2015-06-03. 6 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2015","Nich_VTblu_Site_09","netting","Bombus bimaculatus","species","bumblebees",1,960,120,NA,"Date: 2015-06-03. 6 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2015","Nich_VTblu_Site_09","netting","Bombus bimaculatus","species","bumblebees",1,960,120,NA,"Date: 2015-06-03. 6 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2015","Nich_VTblu_Site_09","netting","Bombus sandersoni","species","bumblebees",1,960,120,NA,"Date: 2015-06-03. 6 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2015","Nich_VTblu_Site_09","netting","Bombus bimaculatus","species","bumblebees",1,960,120,NA,"Date: 2015-06-03. 6 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2015","Nich_VTblu_Site_09","netting","Bombus impatiens","species","bumblebees",1,960,120,NA,"Date: 2015-06-03. 6 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2015","Nich_VTblu_Site_09","netting","Andrena vicina","species","other_wild_bees",1,960,120,NA,"Date: 2015-05-26. 6 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2015","Nich_VTblu_Site_09","netting","Andrena spiraeana","species","other_wild_bees",1,960,120,NA,"Date: 2015-06-03. 6 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2015","Nich_VTblu_Site_09","netting","Andrena carlini","species","other_wild_bees",1,960,120,NA,"Date: 2015-06-03. 6 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2015","Nich_VTblu_Site_09","netting","Andrena nasonii","species","other_wild_bees",1,960,120,NA,"Date: 2015-06-03. 6 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2015","Nich_VTblu_Site_09","netting","Bombus bimaculatus","species","bumblebees",1,960,120,NA,"Date: 2015-06-03. 6 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2015","Nich_VTblu_Site_09","netting","Lasioglossum cressoni","species","other_wild_bees",1,960,120,NA,"Date: 2015-05-29. 6 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2015","Nich_VTblu_Site_09","netting","Andrena rufosignata","species","other_wild_bees",1,960,120,NA,"Date: 2015-05-29. 6 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2015","Nich_VTblu_Site_09","netting","Andrena carolina","species","other_wild_bees",1,960,120,NA,"Date: 2015-05-29. 6 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2015","Nich_VTblu_Site_09","netting","Andrena carlini","species","other_wild_bees",1,960,120,NA,"Date: 2015-05-29. 6 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2015","Nich_VTblu_Site_09","netting","Bombus vagans","species","bumblebees",1,960,120,NA,"Date: 2015-05-29. 6 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2015","Nich_VTblu_Site_09","netting","Bombus vagans","species","bumblebees",1,960,120,NA,"Date: 2015-05-29. 6 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2015","Nich_VTblu_Site_09","netting","Bombus bimaculatus","species","bumblebees",1,960,120,NA,"Date: 2015-05-30. 6 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2015","Nich_VTblu_Site_09","netting","Bombus bimaculatus","species","bumblebees",1,960,120,NA,"Date: 2015-05-29. 6 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2015","Nich_VTblu_Site_09","netting","Lasioglossum quebecense","species","other_wild_bees",1,960,120,NA,"Date: 2015-05-26. 6 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2015","Nich_VTblu_Site_09","netting","Andrena rufosignata","species","other_wild_bees",1,960,120,NA,"Date: 2015-05-26. 6 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2015","Nich_VTblu_Site_09","netting","Andrena vicina","species","other_wild_bees",1,960,120,NA,"Date: 2015-05-26. 6 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2015","Nich_VTblu_Site_09","netting","Xylocopa virginica","species","other_wild_bees",1,960,120,NA,"Date: 2015-05-26. 6 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2015","Nich_VTblu_Site_09","netting","Bombus bimaculatus","species","bumblebees",1,960,120,NA,"Date: 2015-05-21. 6 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2015","Nich_VTblu_Site_09","netting","Bombus bimaculatus","species","bumblebees",1,960,120,NA,"Date: 2015-05-21. 6 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2015","Nich_VTblu_Site_09","netting","Bombus bimaculatus","species","bumblebees",1,960,120,NA,"Date: 2015-05-21. 6 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2015","Nich_VTblu_Site_09","netting","Lasioglossum cressoni","species","other_wild_bees",1,960,120,NA,"Date: 2015-05-28. 6 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2015","Nich_VTblu_Site_09","netting","Ceratina calcarata","species","other_wild_bees",1,960,120,NA,"Date: 2015-05-28. 6 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2015","Nich_VTblu_Site_09","netting","Andrena rufosignata","species","other_wild_bees",1,960,120,NA,"Date: 2015-05-28. 6 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2015","Nich_VTblu_Site_09","netting","Osmia cornifrons","species","other_wild_bees",1,960,120,NA,"Date: 2015-05-28. 6 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2015","Nich_VTblu_Site_09","netting","Andrena vicina","species","other_wild_bees",1,960,120,NA,"Date: 2015-05-28. 6 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2015","Nich_VTblu_Site_09","netting","Bombus bimaculatus","species","bumblebees",1,960,120,NA,"Date: 2015-05-28. 6 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2015","Nich_VTblu_Site_09","netting","Bombus ternarius","species","bumblebees",1,960,120,NA,"Date: 2015-05-28. 6 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2015","Nich_VTblu_Site_09","netting","Bombus bimaculatus","species","bumblebees",1,960,120,NA,"Date: 2015-05-28. 6 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2015","Nich_VTblu_Site_09","netting","Bombus perplexus","species","bumblebees",1,960,120,NA,"Date: 2015-05-28. 6 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2015","Nich_VTblu_Site_09","netting","Andrena carlini","species","other_wild_bees",1,960,120,NA,"Date: 2015-05-26. 6 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2015","Nich_VTblu_Site_09","netting","Bombus impatiens","species","bumblebees",1,960,120,NA,"Date: 2015-05-26. 6 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2015","Nich_VTblu_Site_09","netting","Bombus sandersoni","species","bumblebees",1,960,120,NA,"Date: 2015-05-21. 6 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2015","Nich_VTblu_Site_09","netting","Andrena carlini","species","other_wild_bees",1,960,120,NA,"Date: 2015-05-21. 6 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2015","Nich_VTblu_Site_09","netting","Bombus ternarius","species","bumblebees",1,960,120,NA,"Date: 2015-05-21. 6 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_09","netting","Augochlorella aurata","species","other_wild_bees",1,960,120,NA,"Date: 2014-06-07. 6 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_09","netting","Lasioglossum cressoni","species","other_wild_bees",1,960,120,NA,"Date: 2014-06-07. 6 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_09","netting","Bombus impatiens","species","bumblebees",1,960,120,NA,"Date: 2014-06-07. 6 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_09","netting","Bombus bimaculatus","species","bumblebees",1,960,120,NA,"Date: 2014-06-07. 6 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_09","netting","Bombus bimaculatus","species","bumblebees",1,960,120,NA,"Date: 2014-06-07. 6 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_09","netting","Bombus impatiens","species","bumblebees",1,960,120,NA,"Date: 2014-06-03. 6 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_09","netting","Andrena carlini","species","other_wild_bees",1,960,120,NA,"Date: 2014-06-03. 6 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_09","netting","Andrena vicina","species","other_wild_bees",1,960,120,NA,"Date: 2014-06-03. 6 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_09","netting","Lasioglossum quebecense","species","other_wild_bees",1,960,120,NA,"Date: 2014-06-03. 6 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_09","netting","Lasioglossum ephialtum","species","other_wild_bees",1,960,120,NA,"Date: 2014-06-03. 6 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_09","netting","Lasioglossum planatum","species","other_wild_bees",1,960,120,NA,"Date: 2014-06-03. 6 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_09","netting","Bombus bimaculatus","species","bumblebees",1,960,120,NA,"Date: 2014-06-03. 6 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_09","netting","Andrena vicina","species","other_wild_bees",1,960,120,NA,"Date: 2014-06-03. 6 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_09","netting","Augochlora pura","species","other_wild_bees",1,960,120,NA,"Date: 2014-06-03. 6 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_09","netting","Bombus vagans","species","bumblebees",1,960,120,NA,"Date: 2014-06-03. 6 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_09","netting","Bombus bimaculatus","species","bumblebees",1,960,120,NA,"Date: 2014-06-03. 6 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_09","netting","Andrena nasonii","species","other_wild_bees",1,960,120,NA,"Date: 2014-05-30. 6 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_09","netting","Bombus bimaculatus","species","bumblebees",1,960,120,NA,"Date: 2014-05-30. 6 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_09","netting","Andrena carlini","species","other_wild_bees",1,960,120,NA,"Date: 2014-05-30. 6 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_09","netting","Bombus impatiens","species","bumblebees",1,960,120,NA,"Date: 2014-05-30. 6 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_09","netting","Bombus impatiens","species","bumblebees",1,960,120,NA,"Date: 2014-05-30. 6 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_09","netting","Augochloropsis metallica","species","other_wild_bees",1,960,120,NA,"Date: 2014-05-27. 6 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_09","netting","Lasioglossum versans","species","other_wild_bees",1,960,120,NA,"Date: 2014-05-27. 6 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_09","netting","Andrena bradleyi","species","other_wild_bees",1,960,120,NA,"Date: 2014-05-27. 6 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_09","netting","Andrena carlini","species","other_wild_bees",1,960,120,NA,"Date: 2014-05-27. 6 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_09","netting","Andrena vicina","species","other_wild_bees",1,960,120,NA,"Date: 2014-05-27. 6 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_09","netting","Andrena carlini","species","other_wild_bees",1,960,120,NA,"Date: 2014-05-27. 6 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_09","netting","Bombus vagans","species","bumblebees",1,960,120,NA,"Date: 2014-05-27. 6 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_09","netting","Bombus impatiens","species","bumblebees",1,960,120,NA,"Date: 2014-05-27. 6 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_09","netting","Augochlorella aurata","species","other_wild_bees",1,960,120,NA,"Date: 2014-05-27. 6 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_09","netting","Lasioglossum lineatulum","species","other_wild_bees",1,960,120,NA,"Date: 2014-05-27. 6 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_09","netting","Lasioglossum quebecense","species","other_wild_bees",1,960,120,NA,"Date: 2014-05-27. 6 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_09","netting","Lasioglossum quebecense","species","other_wild_bees",1,960,120,NA,"Date: 2014-05-27. 6 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_09","netting","Lasioglossum versans","species","other_wild_bees",1,960,120,NA,"Date: 2014-05-27. 6 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_09","netting","Andrena carlini","species","other_wild_bees",1,960,120,NA,"Date: 2014-05-27. 6 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_09","netting","Andrena rufosignata","species","other_wild_bees",1,960,120,NA,"Date: 2014-05-27. 6 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_09","netting","Andrena vicina","species","other_wild_bees",1,960,120,NA,"Date: 2014-05-27. 6 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_09","netting","Andrena vicina","species","other_wild_bees",1,960,120,NA,"Date: 2014-05-27. 6 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_09","netting","Andrena vicina","species","other_wild_bees",1,960,120,NA,"Date: 2014-05-27. 6 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_09","netting","Bombus bimaculatus","species","bumblebees",1,960,120,NA,"Date: 2014-05-27. 6 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_09","netting","Bombus impatiens","species","bumblebees",1,960,120,NA,"Date: 2014-06-27. 6 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_09","netting","Andrena vicina","species","other_wild_bees",1,960,120,NA,"Date: 2014-05-21. 6 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_09","netting","Andrena crataegi","species","other_wild_bees",1,960,120,NA,"Date: 2014-05-21. 6 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_09","netting","Andrena vicina","species","other_wild_bees",1,960,120,NA,"Date: 2014-05-21. 6 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_09","netting","Andrena crataegi","species","other_wild_bees",1,960,120,NA,"Date: 2014-05-21. 6 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_09","netting","Bombus perplexus","species","bumblebees",1,960,120,NA,"Date: 2014-05-21. 6 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_09","netting","Bombus bimaculatus","species","bumblebees",1,960,120,NA,"Date: 2014-05-21. 6 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_09","netting","Bombus bimaculatus","species","bumblebees",1,960,120,NA,"Date: 2014-05-21. 6 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_09","netting","Bombus impatiens","species","bumblebees",1,960,120,NA,"Date: 2014-05-21. 6 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_09","netting","Bombus bimaculatus","species","bumblebees",1,960,120,NA,"Date: 2014-05-21. 6 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_09","netting","Bombus ternarius","species","bumblebees",1,960,120,NA,"Date: 2014-05-21. 6 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_09","netting","Andrena carlini","species","other_wild_bees",1,960,120,NA,"Date: 2014-05-21. 6 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_09","netting","Andrena vicina","species","other_wild_bees",1,960,120,NA,"Date: 2014-05-21. 6 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_09","netting","Andrena crataegi","species","other_wild_bees",1,960,120,NA,"Date: 2014-05-21. 6 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_09","netting","Andrena vicina","species","other_wild_bees",1,960,120,NA,"Date: 2014-05-21. 6 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_09","netting","Andrena vicina","species","other_wild_bees",1,960,120,NA,"Date: 2014-05-21. 6 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2013","Nich_VTblu_Site_09","netting","Bombus bimaculatus","species","bumblebees",1,480,60,NA,"Date: 2013-06-01. 3 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2013","Nich_VTblu_Site_09","netting","Bombus vagans","species","bumblebees",1,480,60,NA,"Date: 2013-06-01. 3 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2013","Nich_VTblu_Site_09","netting","Lasioglossum cressoni","species","other_wild_bees",1,480,60,NA,"Date: 2013-06-01. 3 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2013","Nich_VTblu_Site_09","netting","Lasioglossum cressoni","species","other_wild_bees",1,480,60,NA,"Date: 2013-06-01. 3 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2013","Nich_VTblu_Site_09","netting","Lasioglossum quebecense","species","other_wild_bees",1,480,60,NA,"Date: 2013-06-01. 3 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2013","Nich_VTblu_Site_09","netting","Bombus perplexus","species","bumblebees",1,480,60,NA,"Date: 2013-06-01. 3 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2013","Nich_VTblu_Site_09","netting","Bombus vagans","species","bumblebees",1,480,60,NA,"Date: 2013-06-01. 3 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2013","Nich_VTblu_Site_09","netting","Lasioglossum cressoni","species","other_wild_bees",1,480,60,NA,"Date: 2013-05-31. 3 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2013","Nich_VTblu_Site_09","netting","Lasioglossum quebecense","species","other_wild_bees",1,480,60,NA,"Date: 2013-05-31. 3 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2013","Nich_VTblu_Site_09","netting","Bombus vagans","species","bumblebees",1,480,60,NA,"Date: 2013-05-31. 3 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2013","Nich_VTblu_Site_09","netting","Bombus vagans","species","bumblebees",1,480,60,NA,"Date: 2013-05-31. 3 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2013","Nich_VTblu_Site_09","netting","Lasioglossum cressoni","species","other_wild_bees",1,480,60,NA,"Date: 2013-05-31. 3 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2013","Nich_VTblu_Site_09","netting","Andrena carolina","species","other_wild_bees",1,480,60,NA,"Date: 2013-05-31. 3 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2013","Nich_VTblu_Site_09","netting","Andrena carlini","species","other_wild_bees",1,480,60,NA,"Date: 2013-05-31. 3 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2013","Nich_VTblu_Site_09","netting","Bombus vagans","species","bumblebees",1,480,60,NA,"Date: 2013-05-31. 3 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2013","Nich_VTblu_Site_09","netting","Bombus vagans","species","bumblebees",1,480,60,NA,"Date: 2013-05-31. 3 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2013","Nich_VTblu_Site_09","netting","Andrena carolina","species","other_wild_bees",1,480,60,NA,"Date: 2013-05-31. 3 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2013","Nich_VTblu_Site_09","netting","Andrena carlini","species","other_wild_bees",1,480,60,NA,"Date: 2013-05-31. 3 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2013","Nich_VTblu_Site_09","netting","Bombus impatiens","species","bumblebees",1,480,60,NA,"Date: 2013-05-31. 3 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2013","Nich_VTblu_Site_09","netting","Andrena carlini","species","other_wild_bees",1,480,60,NA,"Date: 2013-05-22. 3 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2013","Nich_VTblu_Site_09","netting","Bombus impatiens","species","bumblebees",1,480,60,NA,"Date: 2013-05-22. 3 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2013","Nich_VTblu_Site_09","netting","Bombus impatiens","species","bumblebees",1,480,60,NA,"Date: 2013-05-22. 3 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2013","Nich_VTblu_Site_09","netting","Bombus vagans","species","bumblebees",1,480,60,NA,"Date: 2013-05-22. 3 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2013","Nich_VTblu_Site_09","netting","Bombus impatiens","species","bumblebees",1,480,60,NA,"Date: 2013-05-22. 3 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2013","Nich_VTblu_Site_09","netting","Bombus impatiens","species","bumblebees",1,480,60,NA,"Date: 2013-05-22. 3 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2013","Nich_VTblu_Site_09","netting","Andrena vicina","species","other_wild_bees",1,480,60,NA,"Date: 2013-05-22. 3 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2013","Nich_VTblu_Site_09","netting","Bombus vagans","species","bumblebees",1,480,60,NA,"Date: 2013-05-22. 3 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2013","Nich_VTblu_Site_09","netting","Bombus vagans","species","bumblebees",1,480,60,NA,"Date: 2013-05-22. 3 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2015","Nich_VTblu_Site_10","netting","Andrena carlini","species","other_wild_bees",1,800,100,NA,"Date: 2015-06-03. 5 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2015","Nich_VTblu_Site_10","netting","Andrena carolina","species","other_wild_bees",1,800,100,NA,"Date: 2015-06-04. 5 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2015","Nich_VTblu_Site_10","netting","Andrena vicina","species","other_wild_bees",1,800,100,NA,"Date: 2015-06-03. 5 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2015","Nich_VTblu_Site_10","netting","Bombus perplexus","species","bumblebees",1,800,100,NA,"Date: 2015-06-03. 5 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2015","Nich_VTblu_Site_10","netting","Bombus ternarius","species","bumblebees",1,800,100,NA,"Date: 2015-06-03. 5 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2015","Nich_VTblu_Site_10","netting","Bombus bimaculatus","species","bumblebees",1,800,100,NA,"Date: 2015-06-03. 5 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2015","Nich_VTblu_Site_10","netting","Andrena vicina","species","other_wild_bees",1,800,100,NA,"Date: 2015-06-03. 5 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2015","Nich_VTblu_Site_10","netting","Bombus impatiens","species","bumblebees",1,800,100,NA,"Date: 2015-06-03. 5 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2015","Nich_VTblu_Site_10","netting","Andrena rufosignata","species","other_wild_bees",1,800,100,NA,"Date: 2015-05-28. 5 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2015","Nich_VTblu_Site_10","netting","Andrena carlini","species","other_wild_bees",1,800,100,NA,"Date: 2015-05-28. 5 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2015","Nich_VTblu_Site_10","netting","Andrena carlini","species","other_wild_bees",1,800,100,NA,"Date: 2015-05-28. 5 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2015","Nich_VTblu_Site_10","netting","Bombus ternarius","species","bumblebees",1,800,100,NA,"Date: 2015-05-28. 5 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2015","Nich_VTblu_Site_10","netting","Bombus ternarius","species","bumblebees",1,800,100,NA,"Date: 2015-05-28. 5 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2015","Nich_VTblu_Site_10","netting","Bombus griseocollis","species","bumblebees",1,800,100,NA,"Date: 2015-05-28. 5 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2015","Nich_VTblu_Site_10","netting","Bombus ternarius","species","bumblebees",1,800,100,NA,"Date: 2015-05-21. 5 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2015","Nich_VTblu_Site_10","netting","Bombus bimaculatus","species","bumblebees",1,800,100,NA,"Date: 2015-05-21. 5 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2015","Nich_VTblu_Site_10","netting","Bombus bimaculatus","species","bumblebees",1,800,100,NA,"Date: 2015-05-21. 5 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2015","Nich_VTblu_Site_10","netting","Bombus ternarius","species","bumblebees",1,800,100,NA,"Date: 2015-05-21. 5 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2015","Nich_VTblu_Site_10","netting","Andrena carolina","species","other_wild_bees",1,800,100,NA,"Date: 2015-06-04. 5 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2015","Nich_VTblu_Site_10","netting","Andrena carolina","species","other_wild_bees",1,800,100,NA,"Date: 2015-06-04. 5 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2015","Nich_VTblu_Site_10","netting","Andrena carolina","species","other_wild_bees",1,800,100,NA,"Date: 2015-06-04. 5 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2015","Nich_VTblu_Site_10","netting","Bombus bimaculatus","species","bumblebees",1,800,100,NA,"Date: 2015-05-21. 5 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2015","Nich_VTblu_Site_10","netting","Andrena carolina","species","other_wild_bees",1,800,100,NA,"Date: 2015-06-04. 5 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2015","Nich_VTblu_Site_10","netting","Andrena carolina","species","other_wild_bees",1,800,100,NA,"Date: 2015-06-04. 5 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2015","Nich_VTblu_Site_10","netting","Andrena carolina","species","other_wild_bees",1,800,100,NA,"Date: 2015-06-04. 5 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2015","Nich_VTblu_Site_10","netting","Andrena carlini","species","other_wild_bees",1,800,100,NA,"Date: 2015-06-04. 5 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2015","Nich_VTblu_Site_10","netting","Andrena carlini","species","other_wild_bees",1,800,100,NA,"Date: 2015-06-04. 5 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2015","Nich_VTblu_Site_10","netting","Andrena carlini","species","other_wild_bees",1,800,100,NA,"Date: 2015-06-04. 5 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2015","Nich_VTblu_Site_10","netting","Andrena carlini","species","other_wild_bees",1,800,100,NA,"Date: 2015-06-04. 5 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2015","Nich_VTblu_Site_10","netting","Bombus bimaculatus","species","bumblebees",1,800,100,NA,"Date: 2015-06-04. 5 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2015","Nich_VTblu_Site_10","netting","Bombus ternarius","species","bumblebees",1,800,100,NA,"Date: 2015-06-04. 5 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2015","Nich_VTblu_Site_10","netting","Bombus bimaculatus","species","bumblebees",1,800,100,NA,"Date: 2015-06-04. 5 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2015","Nich_VTblu_Site_10","netting","Andrena carolina","species","other_wild_bees",1,800,100,NA,"Date: 2015-06-04. 5 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2015","Nich_VTblu_Site_10","netting","Andrena carolina","species","other_wild_bees",1,800,100,NA,"Date: 2015-06-04. 5 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2015","Nich_VTblu_Site_10","netting","Bombus bimaculatus","species","bumblebees",1,800,100,NA,"Date: 2015-06-04. 5 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2015","Nich_VTblu_Site_10","netting","Bombus ternarius","species","bumblebees",1,800,100,NA,"Date: 2015-06-04. 5 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2015","Nich_VTblu_Site_10","netting","Nomada luteola","species","other_wild_bees",1,800,100,NA,"Date: 2015-06-04. 5 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2015","Nich_VTblu_Site_10","netting","Augochlora pura","species","other_wild_bees",1,800,100,NA,"Date: 2015-06-04. 5 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2015","Nich_VTblu_Site_10","netting","Augochlora pura","species","other_wild_bees",1,800,100,NA,"Date: 2015-06-04. 5 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2015","Nich_VTblu_Site_10","netting","Andrena carolina","species","other_wild_bees",1,800,100,NA,"Date: 2015-06-04. 5 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2015","Nich_VTblu_Site_10","netting","Andrena carolina","species","other_wild_bees",1,800,100,NA,"Date: 2015-06-04. 5 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2015","Nich_VTblu_Site_10","netting","Andrena vicina","species","other_wild_bees",1,800,100,NA,"Date: 2015-06-04. 5 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2015","Nich_VTblu_Site_10","netting","Andrena carolina","species","other_wild_bees",1,800,100,NA,"Date: 2015-06-03. 5 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2015","Nich_VTblu_Site_10","netting","Andrena carolina","species","other_wild_bees",1,800,100,NA,"Date: 2015-06-03. 5 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2015","Nich_VTblu_Site_10","netting","Andrena forbesii","species","other_wild_bees",1,800,100,NA,"Date: 2015-06-03. 5 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2015","Nich_VTblu_Site_10","netting","Andrena vicina","species","other_wild_bees",1,800,100,NA,"Date: 2015-06-03. 5 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2015","Nich_VTblu_Site_10","netting","Andrena carlini","species","other_wild_bees",1,800,100,NA,"Date: 2015-06-03. 5 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2015","Nich_VTblu_Site_10","netting","Bombus ternarius","species","bumblebees",1,800,100,NA,"Date: 2015-06-03. 5 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2015","Nich_VTblu_Site_10","netting","Bombus vagans","species","bumblebees",1,800,100,NA,"Date: 2015-06-03. 5 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2015","Nich_VTblu_Site_10","netting","Bombus ternarius","species","bumblebees",1,800,100,NA,"Date: 2015-06-03. 5 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2015","Nich_VTblu_Site_10","netting","Bombus impatiens","species","bumblebees",1,800,100,NA,"Date: 2015-06-03. 5 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2015","Nich_VTblu_Site_10","netting","Bombus vagans","species","bumblebees",1,800,100,NA,"Date: 2015-06-04. 5 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2015","Nich_VTblu_Site_10","netting","Bombus impatiens","species","bumblebees",1,800,100,NA,"Date: 2015-06-04. 5 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2015","Nich_VTblu_Site_10","netting","Bombus ternarius","species","bumblebees",1,800,100,NA,"Date: 2015-06-04. 5 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2015","Nich_VTblu_Site_10","netting","Bombus bimaculatus","species","bumblebees",1,800,100,NA,"Date: 2015-06-04. 5 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2015","Nich_VTblu_Site_10","netting","Bombus bimaculatus","species","bumblebees",1,800,100,NA,"Date: 2015-06-04. 5 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2015","Nich_VTblu_Site_10","netting","Bombus borealis","species","bumblebees",1,800,100,NA,"Date: 2015-06-04. 5 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2015","Nich_VTblu_Site_10","netting","Andrena carolina","species","other_wild_bees",1,800,100,NA,"Date: 2015-05-28. 5 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2015","Nich_VTblu_Site_10","netting","Andrena carolina","species","other_wild_bees",1,800,100,NA,"Date: 2015-05-28. 5 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2015","Nich_VTblu_Site_10","netting","Andrena carolina","species","other_wild_bees",1,800,100,NA,"Date: 2015-05-28. 5 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2015","Nich_VTblu_Site_10","netting","Andrena carlini","species","other_wild_bees",1,800,100,NA,"Date: 2015-05-28. 5 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2015","Nich_VTblu_Site_10","netting","Bombus ternarius","species","bumblebees",1,800,100,NA,"Date: 2015-05-28. 5 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2015","Nich_VTblu_Site_10","netting","Bombus bimaculatus","species","bumblebees",1,800,100,NA,"Date: 2015-05-28. 5 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2015","Nich_VTblu_Site_10","netting","Andrena rufosignata","species","other_wild_bees",1,800,100,NA,"Date: 2015-05-22. 5 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2015","Nich_VTblu_Site_10","netting","Andrena rufosignata","species","other_wild_bees",1,800,100,NA,"Date: 2015-05-22. 5 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2015","Nich_VTblu_Site_10","netting","Andrena carolina","species","other_wild_bees",1,800,100,NA,"Date: 2015-05-22. 5 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2015","Nich_VTblu_Site_10","netting","Andrena carlini","species","other_wild_bees",1,800,100,NA,"Date: 2015-05-22. 5 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2015","Nich_VTblu_Site_10","netting","Bombus vagans","species","bumblebees",1,800,100,NA,"Date: 2015-05-22. 5 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2015","Nich_VTblu_Site_10","netting","Bombus bimaculatus","species","bumblebees",1,800,100,NA,"Date: 2015-05-22. 5 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2015","Nich_VTblu_Site_10","netting","Bombus bimaculatus","species","bumblebees",1,800,100,NA,"Date: 2015-05-22. 5 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_10","netting","Bombus ternarius","species","bumblebees",1,1280,160,NA,"Date: 2014-06-10. 8 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_10","netting","Andrena carlini","species","other_wild_bees",1,1280,160,NA,"Date: 2014-06-05. 8 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_10","netting","Bombus ternarius","species","bumblebees",1,1280,160,NA,"Date: 2014-06-05. 8 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_10","netting","Bombus bimaculatus","species","bumblebees",1,1280,160,NA,"Date: 2014-06-05. 8 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_10","netting","Bombus perplexus","species","bumblebees",1,1280,160,NA,"Date: 2014-06-05. 8 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_10","netting","Bombus perplexus","species","bumblebees",1,1280,160,NA,"Date: 2014-06-05. 8 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_10","netting","Bombus griseocollis","species","bumblebees",1,1280,160,NA,"Date: 2014-06-05. 8 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_10","netting","Lasioglossum versans","species","other_wild_bees",1,1280,160,NA,"Date: 2014-06-10. 8 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_10","netting","Andrena carolina","species","other_wild_bees",1,1280,160,NA,"Date: 2014-06-10. 8 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_10","netting","Andrena carolina","species","other_wild_bees",1,1280,160,NA,"Date: 2014-06-10. 8 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_10","netting","Andrena carolina","species","other_wild_bees",1,1280,160,NA,"Date: 2014-06-10. 8 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_10","netting","Bombus vagans","species","bumblebees",1,1280,160,NA,"Date: 2014-06-10. 8 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_10","netting","Bombus ternarius","species","bumblebees",1,1280,160,NA,"Date: 2014-06-10. 8 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_10","netting","Andrena carlini","species","other_wild_bees",1,1280,160,NA,"Date: 2014-06-10. 8 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_10","netting","Andrena carolina","species","other_wild_bees",1,1280,160,NA,"Date: 2014-06-10. 8 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_10","netting","Andrena carolina","species","other_wild_bees",1,1280,160,NA,"Date: 2014-06-10. 8 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_10","netting","Bombus impatiens","species","bumblebees",1,1280,160,NA,"Date: 2014-06-05. 8 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_10","netting","Bombus vagans","species","bumblebees",1,1280,160,NA,"Date: 2014-06-05. 8 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_10","netting","Bombus bimaculatus","species","bumblebees",1,1280,160,NA,"Date: 2014-06-05. 8 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_10","netting","Bombus ternarius","species","bumblebees",1,1280,160,NA,"Date: 2014-06-05. 8 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_10","netting","Andrena vicina","species","other_wild_bees",1,1280,160,NA,"Date: 2014-06-05. 8 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_10","netting","Andrena carlini","species","other_wild_bees",1,1280,160,NA,"Date: 2014-06-05. 8 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_10","netting","Andrena carolina","species","other_wild_bees",1,1280,160,NA,"Date: 2014-06-05. 8 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_10","netting","Andrena carolina","species","other_wild_bees",1,1280,160,NA,"Date: 2014-06-05. 8 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_10","netting","Andrena carolina","species","other_wild_bees",1,1280,160,NA,"Date: 2014-06-05. 8 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_10","netting","Andrena carolina","species","other_wild_bees",1,1280,160,NA,"Date: 2014-06-05. 8 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_10","netting","Andrena carolina","species","other_wild_bees",1,1280,160,NA,"Date: 2014-06-05. 8 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_10","netting","Andrena rufosignata","species","other_wild_bees",1,1280,160,NA,"Date: 2014-06-05. 8 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_10","netting","Andrena carlini","species","other_wild_bees",1,1280,160,NA,"Date: 2014-06-05. 8 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_10","netting","Andrena carolina","species","other_wild_bees",1,1280,160,NA,"Date: 2014-06-05. 8 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_10","netting","Andrena rufosignata","species","other_wild_bees",1,1280,160,NA,"Date: 2014-06-05. 8 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_10","netting","Andrena rufosignata","species","other_wild_bees",1,1280,160,NA,"Date: 2014-06-05. 8 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_10","netting","Andrena carolina","species","other_wild_bees",1,1280,160,NA,"Date: 2014-06-05. 8 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_10","netting","Andrena carolina","species","other_wild_bees",1,1280,160,NA,"Date: 2014-06-05. 8 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_10","netting","Andrena carolina","species","other_wild_bees",1,1280,160,NA,"Date: 2014-06-10. 8 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_10","netting","Augochlorella aurata","species","other_wild_bees",1,1280,160,NA,"Date: 2014-06-02. 8 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_10","netting","Lasioglossum cressoni","species","other_wild_bees",1,1280,160,NA,"Date: 2014-06-02. 8 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_10","netting","Lasioglossum quebecense","species","other_wild_bees",1,1280,160,NA,"Date: 2014-06-02. 8 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_10","netting","Augochlora pura","species","other_wild_bees",1,1280,160,NA,"Date: 2014-06-02. 8 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_10","netting","Andrena carolina","species","other_wild_bees",1,1280,160,NA,"Date: 2014-06-02. 8 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_10","netting","Andrena carolina","species","other_wild_bees",1,1280,160,NA,"Date: 2014-06-02. 8 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_10","netting","Bombus bimaculatus","species","bumblebees",1,1280,160,NA,"Date: 2014-06-02. 8 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_10","netting","Bombus ternarius","species","bumblebees",1,1280,160,NA,"Date: 2014-06-02. 8 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_10","netting","Andrena carolina","species","other_wild_bees",1,1280,160,NA,"Date: 2014-06-02. 8 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_10","netting","Andrena rugosa","species","other_wild_bees",1,1280,160,NA,"Date: 2014-06-02. 8 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_10","netting","Andrena carlini","species","other_wild_bees",1,1280,160,NA,"Date: 2014-06-02. 8 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_10","netting","Andrena carlini","species","other_wild_bees",1,1280,160,NA,"Date: 2014-06-02. 8 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_10","netting","Bombus ternarius","species","bumblebees",1,1280,160,NA,"Date: 2014-06-02. 8 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_10","netting","Bombus vagans","species","bumblebees",1,1280,160,NA,"Date: 2014-06-02. 8 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_10","netting","Bombus terricola","species","bumblebees",1,1280,160,NA,"Date: 2014-06-02. 8 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_10","netting","Bombus impatiens","species","bumblebees",1,1280,160,NA,"Date: 2014-06-02. 8 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_10","netting","Andrena crataegi","species","other_wild_bees",1,1280,160,NA,"Date: 2014-05-30. 8 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_10","netting","Andrena carolina","species","other_wild_bees",1,1280,160,NA,"Date: 2014-05-30. 8 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_10","netting","Andrena carlini","species","other_wild_bees",1,1280,160,NA,"Date: 2014-05-30. 8 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_10","netting","Andrena vicina","species","other_wild_bees",1,1280,160,NA,"Date: 2014-05-30. 8 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_10","netting","Bombus vagans","species","bumblebees",1,1280,160,NA,"Date: 2014-05-30. 8 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_10","netting","Andrena milwaukeensis","species","other_wild_bees",1,1280,160,NA,"Date: 2014-05-30. 8 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_10","netting","Bombus ternarius","species","bumblebees",1,1280,160,NA,"Date: 2014-05-30. 8 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_10","netting","Andrena carolina","species","other_wild_bees",1,1280,160,NA,"Date: 2014-05-31. 8 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_10","netting","Bombus ternarius","species","bumblebees",1,1280,160,NA,"Date: 2014-05-30. 8 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_10","netting","Bombus ternarius","species","bumblebees",1,1280,160,NA,"Date: 2014-05-30. 8 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_10","netting","Bombus vagans","species","bumblebees",1,1280,160,NA,"Date: 2014-05-30. 8 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_10","netting","Bombus bimaculatus","species","bumblebees",1,1280,160,NA,"Date: 2014-05-30. 8 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_10","netting","Bombus vagans","species","bumblebees",1,1280,160,NA,"Date: 2014-05-30. 8 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_10","netting","Lasioglossum nigroviride","species","other_wild_bees",1,1280,160,NA,"Date: 2014-05-26. 8 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_10","netting","Andrena carolina","species","other_wild_bees",1,1280,160,NA,"Date: 2014-05-26. 8 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_10","netting","Andrena carolina","species","other_wild_bees",1,1280,160,NA,"Date: 2014-05-26. 8 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_10","netting","Andrena rufosignata","species","other_wild_bees",1,1280,160,NA,"Date: 2014-05-26. 8 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_10","netting","Andrena carolina","species","other_wild_bees",1,1280,160,NA,"Date: 2014-05-26. 8 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_10","netting","Andrena rufosignata","species","other_wild_bees",1,1280,160,NA,"Date: 2014-05-26. 8 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_10","netting","Bombus vagans","species","bumblebees",1,1280,160,NA,"Date: 2014-05-26. 8 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_10","netting","Andrena carlini","species","other_wild_bees",1,1280,160,NA,"Date: 2014-05-26. 8 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_10","netting","Bombus bimaculatus","species","bumblebees",1,1280,160,NA,"Date: 2014-05-26. 8 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_10","netting","Andrena rufosignata","species","other_wild_bees",1,1280,160,NA,"Date: 2014-05-26. 8 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_10","netting","Andrena carolina","species","other_wild_bees",1,1280,160,NA,"Date: 2014-05-26. 8 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_10","netting","Andrena carlini","species","other_wild_bees",1,1280,160,NA,"Date: 2014-05-26. 8 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_10","netting","Bombus ternarius","species","bumblebees",1,1280,160,NA,"Date: 2014-05-26. 8 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_10","netting","Bombus impatiens","species","bumblebees",1,1280,160,NA,"Date: 2014-05-26. 8 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_10","netting","Bombus impatiens","species","bumblebees",1,1280,160,NA,"Date: 2014-05-26. 8 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_10","netting","Lasioglossum truncatum","species","other_wild_bees",1,1280,160,NA,"Date: 2014-05-21. 8 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_10","netting","Andrena carolina","species","other_wild_bees",1,1280,160,NA,"Date: 2014-05-21. 8 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_10","netting","Andrena carolina","species","other_wild_bees",1,1280,160,NA,"Date: 2014-05-21. 8 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_10","netting","Bombus ternarius","species","bumblebees",1,1280,160,NA,"Date: 2014-05-20. 8 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_10","netting","Bombus impatiens","species","bumblebees",1,1280,160,NA,"Date: 2014-05-21. 8 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_10","netting","Andrena carolina","species","other_wild_bees",1,1280,160,NA,"Date: 2014-05-21. 8 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_10","netting","Andrena crataegi","species","other_wild_bees",1,1280,160,NA,"Date: 2014-05-21. 8 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_10","netting","Andrena carolina","species","other_wild_bees",1,1280,160,NA,"Date: 2014-05-21. 8 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_10","netting","Andrena carolina","species","other_wild_bees",1,1280,160,NA,"Date: 2014-05-21. 8 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_10","netting","Andrena crataegi","species","other_wild_bees",1,1280,160,NA,"Date: 2014-05-21. 8 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_10","netting","Bombus vagans","species","bumblebees",1,1280,160,NA,"Date: 2014-05-21. 8 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_10","netting","Bombus bimaculatus","species","bumblebees",1,1280,160,NA,"Date: 2014-06-10. 8 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2013","Nich_VTblu_Site_10","netting","Bombus ternarius","species","bumblebees",1,480,60,NA,"Date: 2013-06-04. 3 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2013","Nich_VTblu_Site_10","netting","Bombus bimaculatus","species","bumblebees",1,480,60,NA,"Date: 2013-06-04. 3 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2013","Nich_VTblu_Site_10","netting","Bombus impatiens","species","bumblebees",1,480,60,NA,"Date: 2013-06-04. 3 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2013","Nich_VTblu_Site_10","netting","Bombus bimaculatus","species","bumblebees",1,480,60,NA,"Date: 2013-06-04. 3 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2013","Nich_VTblu_Site_10","netting","Bombus vagans","species","bumblebees",1,480,60,NA,"Date: 2013-06-04. 3 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2013","Nich_VTblu_Site_10","netting","Bombus ternarius","species","bumblebees",1,480,60,NA,"Date: 2013-06-04. 3 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2013","Nich_VTblu_Site_10","netting","Bombus ternarius","species","bumblebees",1,480,60,NA,"Date: 2013-06-04. 3 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2013","Nich_VTblu_Site_10","netting","Bombus vagans","species","bumblebees",1,480,60,NA,"Date: 2013-05-30. 3 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2013","Nich_VTblu_Site_10","netting","Andrena carlini","species","other_wild_bees",1,480,60,NA,"Date: 2013-05-30. 3 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2013","Nich_VTblu_Site_10","netting","Andrena carlini","species","other_wild_bees",1,480,60,NA,"Date: 2013-05-30. 3 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2013","Nich_VTblu_Site_10","netting","Andrena carlini","species","other_wild_bees",1,480,60,NA,"Date: 2013-05-30. 3 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2013","Nich_VTblu_Site_10","netting","Andrena carolina","species","other_wild_bees",1,480,60,NA,"Date: 2013-05-30. 3 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2013","Nich_VTblu_Site_10","netting","Andrena carolina","species","other_wild_bees",1,480,60,NA,"Date: 2013-05-30. 3 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2013","Nich_VTblu_Site_10","netting","Bombus bimaculatus","species","bumblebees",1,480,60,NA,"Date: 2013-05-30. 3 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2013","Nich_VTblu_Site_10","netting","Bombus ternarius","species","bumblebees",1,480,60,NA,"Date: 2013-05-30. 3 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2013","Nich_VTblu_Site_10","netting","Andrena vicina","species","other_wild_bees",1,480,60,NA,"Date: 2013-05-30. 3 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2013","Nich_VTblu_Site_10","netting","Andrena carolina","species","other_wild_bees",1,480,60,NA,"Date: 2013-05-30. 3 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2013","Nich_VTblu_Site_10","netting","Andrena carolina","species","other_wild_bees",1,480,60,NA,"Date: 2013-05-30. 3 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2013","Nich_VTblu_Site_10","netting","Andrena carolina","species","other_wild_bees",1,480,60,NA,"Date: 2013-05-30. 3 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2013","Nich_VTblu_Site_10","netting","Andrena carolina","species","other_wild_bees",1,480,60,NA,"Date: 2013-05-30. 3 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2013","Nich_VTblu_Site_10","netting","Andrena carolina","species","other_wild_bees",1,480,60,NA,"Date: 2013-05-30. 3 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2013","Nich_VTblu_Site_10","netting","Andrena carolina","species","other_wild_bees",1,480,60,NA,"Date: 2013-05-30. 3 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2013","Nich_VTblu_Site_10","netting","Lasioglossum quebecense","species","other_wild_bees",1,480,60,NA,"Date: 2013-05-30. 3 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2013","Nich_VTblu_Site_10","netting","Augochlora pura","species","other_wild_bees",1,480,60,NA,"Date: 2013-05-30. 3 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2013","Nich_VTblu_Site_10","netting","Bombus impatiens","species","bumblebees",1,480,60,NA,"Date: 2013-05-30. 3 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2013","Nich_VTblu_Site_10","netting","Bombus ternarius","species","bumblebees",1,480,60,NA,"Date: 2013-05-30. 3 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2013","Nich_VTblu_Site_10","netting","Bombus perplexus","species","bumblebees",1,480,60,NA,"Date: 2013-05-30. 3 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2013","Nich_VTblu_Site_10","netting","Andrena carolina","species","other_wild_bees",1,480,60,NA,"Date: 2013-05-30. 3 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2013","Nich_VTblu_Site_10","netting","Andrena carolina","species","other_wild_bees",1,480,60,NA,"Date: 2013-05-30. 3 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2013","Nich_VTblu_Site_10","netting","Andrena carolina","species","other_wild_bees",1,480,60,NA,"Date: 2013-05-18. 3 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2013","Nich_VTblu_Site_10","netting","Andrena carolina","species","other_wild_bees",1,480,60,NA,"Date: 2013-05-18. 3 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2013","Nich_VTblu_Site_10","netting","Andrena robertsonii","species","other_wild_bees",1,480,60,NA,"Date: 2013-05-18. 3 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2013","Nich_VTblu_Site_10","netting","Andrena vicina","species","other_wild_bees",1,480,60,NA,"Date: 2013-05-18. 3 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2013","Nich_VTblu_Site_10","netting","Andrena vicina","species","other_wild_bees",1,480,60,NA,"Date: 2013-05-18. 3 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2013","Nich_VTblu_Site_10","netting","Bombus bimaculatus","species","bumblebees",1,480,60,NA,"Date: 2013-05-18. 3 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2013","Nich_VTblu_Site_10","netting","Bombus vagans","species","bumblebees",1,480,60,NA,"Date: 2013-05-18. 3 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2013","Nich_VTblu_Site_10","netting","Andrena carolina","species","other_wild_bees",1,480,60,NA,"Date: 2013-05-18. 3 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2013","Nich_VTblu_Site_10","netting","Bombus sandersoni","species","bumblebees",1,480,60,NA,"Date: 2013-05-18. 3 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2013","Nich_VTblu_Site_10","netting","Bombus vagans","species","bumblebees",1,480,60,NA,"Date: 2013-05-18. 3 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2013","Nich_VTblu_Site_10","netting","Bombus vagans","species","bumblebees",1,480,60,NA,"Date: 2013-05-18. 3 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2013","Nich_VTblu_Site_10","netting","Bombus impatiens","species","bumblebees",1,480,60,NA,"Date: 2013-05-18. 3 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2013","Nich_VTblu_Site_10","netting","Bombus bimaculatus","species","bumblebees",1,480,60,NA,"Date: 2013-05-18. 3 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2013","Nich_VTblu_Site_10","netting","Lasioglossum leucocomum","species","other_wild_bees",1,480,60,NA,"Date: 2013-05-18. 3 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2013","Nich_VTblu_Site_10","netting","Nomada depressa","species","other_wild_bees",1,480,60,NA,"Date: 2013-05-18. 3 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2013","Nich_VTblu_Site_10","netting","Nomada composita","species","other_wild_bees",1,480,60,NA,"Date: 2013-05-18. 3 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2013","Nich_VTblu_Site_10","netting","Andrena carolina","species","other_wild_bees",1,480,60,NA,"Date: 2013-05-18. 3 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2013","Nich_VTblu_Site_10","netting","Andrena rufosignata","species","other_wild_bees",1,480,60,NA,"Date: 2013-05-18. 3 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2013","Nich_VTblu_Site_10","netting","Andrena carolina","species","other_wild_bees",1,480,60,NA,"Date: 2013-05-18. 3 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2013","Nich_VTblu_Site_10","netting","Andrena carolina","species","other_wild_bees",1,480,60,NA,"Date: 2013-05-18. 3 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2013","Nich_VTblu_Site_10","netting","Andrena vicina","species","other_wild_bees",1,480,60,NA,"Date: 2013-05-18. 3 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2013","Nich_VTblu_Site_10","netting","Bombus vagans","species","bumblebees",1,480,60,NA,"Date: 2013-05-18. 3 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2013","Nich_VTblu_Site_10","netting","Bombus impatiens","species","bumblebees",1,480,60,NA,"Date: 2013-05-18. 3 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2013","Nich_VTblu_Site_10","netting","Bombus ternarius","species","bumblebees",1,480,60,NA,"Date: 2013-05-18. 3 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2015","Nich_VTblu_Site_11","netting","Andrena carolina","species","other_wild_bees",1,800,100,NA,"Date: 2015-06-04. 5 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2015","Nich_VTblu_Site_11","netting","Andrena vicina","species","other_wild_bees",1,800,100,NA,"Date: 2015-06-04. 5 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2015","Nich_VTblu_Site_11","netting","Andrena vicina","species","other_wild_bees",1,800,100,NA,"Date: 2015-06-04. 5 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2015","Nich_VTblu_Site_11","netting","Andrena vicina","species","other_wild_bees",1,800,100,NA,"Date: 2015-06-04. 5 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2015","Nich_VTblu_Site_11","netting","Andrena carlini","species","other_wild_bees",1,800,100,NA,"Date: 2015-06-04. 5 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2015","Nich_VTblu_Site_11","netting","Bombus bimaculatus","species","bumblebees",1,800,100,NA,"Date: 2015-06-04. 5 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2015","Nich_VTblu_Site_11","netting","Bombus bimaculatus","species","bumblebees",1,800,100,NA,"Date: 2015-06-04. 5 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2015","Nich_VTblu_Site_11","netting","Lasioglossum versatum","species","other_wild_bees",1,800,100,NA,"Date: 2015-05-29. 5 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2015","Nich_VTblu_Site_11","netting","Andrena carolina","species","other_wild_bees",1,800,100,NA,"Date: 2015-05-29. 5 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2015","Nich_VTblu_Site_11","netting","Andrena cressoni","species","other_wild_bees",1,800,100,NA,"Date: 2015-05-29. 5 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2015","Nich_VTblu_Site_11","netting","Andrena cressoni","species","other_wild_bees",1,800,100,NA,"Date: 2015-05-29. 5 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2015","Nich_VTblu_Site_11","netting","Andrena carlini","species","other_wild_bees",1,800,100,NA,"Date: 2015-05-29. 5 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2015","Nich_VTblu_Site_11","netting","Andrena carlini","species","other_wild_bees",1,800,100,NA,"Date: 2015-05-29. 5 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2015","Nich_VTblu_Site_11","netting","Andrena vicina","species","other_wild_bees",1,800,100,NA,"Date: 2015-05-29. 5 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2015","Nich_VTblu_Site_11","netting","Andrena carlini","species","other_wild_bees",1,800,100,NA,"Date: 2015-05-29. 5 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2015","Nich_VTblu_Site_11","netting","Andrena carlini","species","other_wild_bees",1,800,100,NA,"Date: 2015-05-15. 5 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2015","Nich_VTblu_Site_11","netting","Bombus bimaculatus","species","bumblebees",1,800,100,NA,"Date: 2015-05-15. 5 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2015","Nich_VTblu_Site_11","netting","Bombus bimaculatus","species","bumblebees",1,800,100,NA,"Date: 2015-05-15. 5 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2015","Nich_VTblu_Site_11","netting","Andrena carolina","species","other_wild_bees",1,800,100,NA,"Date: 2015-06-04. 5 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2015","Nich_VTblu_Site_11","netting","Andrena carolina","species","other_wild_bees",1,800,100,NA,"Date: 2015-06-04. 5 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2015","Nich_VTblu_Site_11","netting","Andrena perplexa","species","other_wild_bees",1,800,100,NA,"Date: 2015-06-04. 5 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2015","Nich_VTblu_Site_11","netting","Andrena vicina","species","other_wild_bees",1,800,100,NA,"Date: 2015-06-04. 5 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2015","Nich_VTblu_Site_11","netting","Andrena vicina","species","other_wild_bees",1,800,100,NA,"Date: 2015-06-04. 5 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2015","Nich_VTblu_Site_11","netting","Bombus bimaculatus","species","bumblebees",1,800,100,NA,"Date: 2015-06-04. 5 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2015","Nich_VTblu_Site_11","netting","Lasioglossum pilosum","species","other_wild_bees",1,800,100,NA,"Date: 2015-05-29. 5 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2015","Nich_VTblu_Site_11","netting","Andrena cressoni","species","other_wild_bees",1,800,100,NA,"Date: 2015-05-29. 5 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2015","Nich_VTblu_Site_11","netting","Andrena carolina","species","other_wild_bees",1,800,100,NA,"Date: 2015-05-29. 5 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2015","Nich_VTblu_Site_11","netting","Andrena vicina","species","other_wild_bees",1,800,100,NA,"Date: 2015-05-29. 5 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2015","Nich_VTblu_Site_11","netting","Andrena carlini","species","other_wild_bees",1,800,100,NA,"Date: 2015-05-29. 5 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2015","Nich_VTblu_Site_11","netting","Bombus griseocollis","species","bumblebees",1,800,100,NA,"Date: 2015-05-22. 5 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2015","Nich_VTblu_Site_11","netting","Bombus bimaculatus","species","bumblebees",1,800,100,NA,"Date: 2015-05-22. 5 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2015","Nich_VTblu_Site_11","netting","Bombus griseocollis","species","bumblebees",1,800,100,NA,"Date: 2015-05-22. 5 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2015","Nich_VTblu_Site_11","netting","Bombus bimaculatus","species","bumblebees",1,800,100,NA,"Date: 2015-05-20. 5 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2015","Nich_VTblu_Site_11","netting","Bombus bimaculatus","species","bumblebees",1,800,100,NA,"Date: 2015-05-20. 5 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2015","Nich_VTblu_Site_11","netting","Bombus bimaculatus","species","bumblebees",1,800,100,NA,"Date: 2015-05-20. 5 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2015","Nich_VTblu_Site_11","netting","Bombus impatiens","species","bumblebees",1,800,100,NA,"Date: 2015-05-20. 5 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2015","Nich_VTblu_Site_11","netting","Bombus impatiens","species","bumblebees",1,800,100,NA,"Date: 2015-05-20. 5 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2015","Nich_VTblu_Site_11","netting","Bombus impatiens","species","bumblebees",1,800,100,NA,"Date: 2015-05-20. 5 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2015","Nich_VTblu_Site_11","netting","Andrena carolina","species","other_wild_bees",1,800,100,NA,"Date: 2015-05-15. 5 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2015","Nich_VTblu_Site_11","netting","Andrena vicina","species","other_wild_bees",1,800,100,NA,"Date: 2015-05-15. 5 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2015","Nich_VTblu_Site_11","netting","Andrena vicina","species","other_wild_bees",1,800,100,NA,"Date: 2015-05-15. 5 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2015","Nich_VTblu_Site_11","netting","Andrena milwaukeensis","species","other_wild_bees",1,800,100,NA,"Date: 2015-05-15. 5 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2015","Nich_VTblu_Site_11","netting","Bombus griseocollis","species","bumblebees",1,800,100,NA,"Date: 2015-05-15. 5 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2015","Nich_VTblu_Site_11","netting","Bombus bimaculatus","species","bumblebees",1,800,100,NA,"Date: 2015-05-15. 5 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2015","Nich_VTblu_Site_11","netting","Bombus bimaculatus","species","bumblebees",1,800,100,NA,"Date: 2015-05-15. 5 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_11","netting","Andrena brevipalpis","species","other_wild_bees",1,960,120,NA,"Date: 2014-06-09. 6 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_11","netting","Andrena vicina","species","other_wild_bees",1,960,120,NA,"Date: 2014-06-09. 6 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_11","netting","Andrena vicina","species","other_wild_bees",1,960,120,NA,"Date: 2014-06-09. 6 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_11","netting","Ceratina calcarata","species","other_wild_bees",1,960,120,NA,"Date: 2014-06-09. 6 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_11","netting","Andrena carolina","species","other_wild_bees",1,960,120,NA,"Date: 2014-06-04. 6 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_11","netting","Andrena vicina","species","other_wild_bees",1,960,120,NA,"Date: 2014-06-04. 6 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_11","netting","Andrena vicina","species","other_wild_bees",1,960,120,NA,"Date: 2014-06-04. 6 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_11","netting","Andrena vicina","species","other_wild_bees",1,960,120,NA,"Date: 2014-06-04. 6 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_11","netting","Bombus impatiens","species","bumblebees",1,960,120,NA,"Date: 2014-06-04. 6 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_11","netting","Bombus impatiens","species","bumblebees",1,960,120,NA,"Date: 2014-06-04. 6 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_11","netting","Bombus impatiens","species","bumblebees",1,960,120,NA,"Date: 2014-06-04. 6 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_11","netting","Andrena vicina","species","other_wild_bees",1,960,120,NA,"Date: 2014-06-04. 6 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_11","netting","Andrena vicina","species","other_wild_bees",1,960,120,NA,"Date: 2014-06-04. 6 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_11","netting","Andrena vicina","species","other_wild_bees",1,960,120,NA,"Date: 2014-06-04. 6 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_11","netting","Andrena vicina","species","other_wild_bees",1,960,120,NA,"Date: 2014-06-04. 6 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_11","netting","Bombus impatiens","species","bumblebees",1,960,120,NA,"Date: 2014-06-04. 6 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_11","netting","Bombus vagans","species","bumblebees",1,960,120,NA,"Date: 2014-06-01. 6 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_11","netting","Bombus griseocollis","species","bumblebees",1,960,120,NA,"Date: 2014-06-01. 6 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_11","netting","Bombus vagans","species","bumblebees",1,960,120,NA,"Date: 2014-06-01. 6 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_11","netting","Andrena nivalis","species","other_wild_bees",1,960,120,NA,"Date: 2014-06-01. 6 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_11","netting","Bombus griseocollis","species","bumblebees",1,960,120,NA,"Date: 2014-06-01. 6 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_11","netting","Bombus impatiens","species","bumblebees",1,960,120,NA,"Date: 2014-06-01. 6 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_11","netting","Bombus impatiens","species","bumblebees",1,960,120,NA,"Date: 2014-06-01. 6 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_11","netting","Bombus impatiens","species","bumblebees",1,960,120,NA,"Date: 2014-05-29. 6 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_11","netting","Bombus impatiens","species","bumblebees",1,960,120,NA,"Date: 2014-05-29. 6 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_11","netting","Andrena vicina","species","other_wild_bees",1,960,120,NA,"Date: 2014-05-29. 6 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_11","netting","Andrena carlini","species","other_wild_bees",1,960,120,NA,"Date: 2014-05-29. 6 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_11","netting","Andrena vicina","species","other_wild_bees",1,960,120,NA,"Date: 2014-05-29. 6 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_11","netting","Andrena carlini","species","other_wild_bees",1,960,120,NA,"Date: 2014-05-29. 6 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_11","netting","Lasioglossum lineatulum","species","other_wild_bees",1,960,120,NA,"Date: 2014-05-29. 6 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_11","netting","Augochlorella aurata","species","other_wild_bees",1,960,120,NA,"Date: 2014-05-29. 6 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_11","netting","Andrena nasonii","species","other_wild_bees",1,960,120,NA,"Date: 2014-05-29. 6 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_11","netting","Lasioglossum acuminatum","species","other_wild_bees",1,960,120,NA,"Date: 2014-05-29. 6 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_11","netting","Andrena vicina","species","other_wild_bees",1,960,120,NA,"Date: 2014-05-29. 6 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_11","netting","Andrena vicina","species","other_wild_bees",1,960,120,NA,"Date: 2014-05-29. 6 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_11","netting","Bombus ternarius","species","bumblebees",1,960,120,NA,"Date: 2014-05-29. 6 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_11","netting","Bombus impatiens","species","bumblebees",1,960,120,NA,"Date: 2014-05-29. 6 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_11","netting","Bombus impatiens","species","bumblebees",1,960,120,NA,"Date: 2014-05-29. 6 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_11","netting","Bombus impatiens","species","bumblebees",1,960,120,NA,"Date: 2014-06-04. 6 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_11","netting","Andrena vicina","species","other_wild_bees",1,960,120,NA,"Date: 2014-06-04. 6 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_11","netting","Andrena vicina","species","other_wild_bees",1,960,120,NA,"Date: 2014-06-04. 6 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_11","netting","Bombus impatiens","species","bumblebees",1,960,120,NA,"Date: 2014-06-04. 6 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_11","netting","Andrena vicina","species","other_wild_bees",1,960,120,NA,"Date: 2014-06-01. 6 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_11","netting","Andrena carlini","species","other_wild_bees",1,960,120,NA,"Date: 2014-06-01. 6 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_11","netting","Andrena nivalis","species","other_wild_bees",1,960,120,NA,"Date: 2014-06-01. 6 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_11","netting","Andrena platyparia","species","other_wild_bees",1,960,120,NA,"Date: 2014-06-04. 6 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_11","netting","Sphecodes ranunculi","species","other_wild_bees",1,960,120,NA,"Date: 2014-06-04. 6 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_11","netting","Lasioglossum lineatulum","species","other_wild_bees",1,960,120,NA,"Date: 2014-05-25. 6 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_11","netting","Lasioglossum versans","species","other_wild_bees",1,960,120,NA,"Date: 2014-05-25. 6 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_11","netting","Lasioglossum lineatulum","species","other_wild_bees",1,960,120,NA,"Date: 2014-05-25. 6 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_11","netting","Lasioglossum acuminatum","species","other_wild_bees",1,960,120,NA,"Date: 2014-05-25. 6 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_11","netting","Andrena imitatrix","species","other_wild_bees",1,960,120,NA,"Date: 2014-05-25. 6 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_11","netting","Andrena vicina","species","other_wild_bees",1,960,120,NA,"Date: 2014-05-25. 6 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_11","netting","Andrena vicina","species","other_wild_bees",1,960,120,NA,"Date: 2014-05-25. 6 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_11","netting","Bombus impatiens","species","bumblebees",1,960,120,NA,"Date: 2014-05-25. 6 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_11","netting","Bombus impatiens","species","bumblebees",1,960,120,NA,"Date: 2014-05-25. 6 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_11","netting","Andrena vicina","species","other_wild_bees",1,960,120,NA,"Date: 2014-05-25. 6 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_11","netting","Andrena vicina","species","other_wild_bees",1,960,120,NA,"Date: 2014-05-25. 6 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_11","netting","Andrena rugosa","species","other_wild_bees",1,960,120,NA,"Date: 2014-05-25. 6 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_11","netting","Andrena vicina","species","other_wild_bees",1,960,120,NA,"Date: 2014-05-25. 6 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_11","netting","Bombus impatiens","species","bumblebees",1,960,120,NA,"Date: 2014-05-25. 6 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_11","netting","Bombus bimaculatus","species","bumblebees",1,960,120,NA,"Date: 2014-05-20. 6 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_11","netting","Andrena vicina","species","other_wild_bees",1,960,120,NA,"Date: 2014-05-20. 6 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_11","netting","Bombus impatiens","species","bumblebees",1,960,120,NA,"Date: 2014-05-20. 6 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_11","netting","Andrena vicina","species","other_wild_bees",1,960,120,NA,"Date: 2014-05-20. 6 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_11","netting","Andrena vicina","species","other_wild_bees",1,960,120,NA,"Date: 2014-05-20. 6 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_11","netting","Andrena vicina","species","other_wild_bees",1,960,120,NA,"Date: 2014-05-20. 6 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_11","netting","Bombus bimaculatus","species","bumblebees",1,960,120,NA,"Date: 2014-05-20. 6 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_11","netting","Andrena vicina","species","other_wild_bees",1,960,120,NA,"Date: 2014-05-20. 6 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_11","netting","Andrena carlini","species","other_wild_bees",1,960,120,NA,"Date: 2014-05-20. 6 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_11","netting","Bombus impatiens","species","bumblebees",1,960,120,NA,"Date: 2014-05-20. 6 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2013","Nich_VTblu_Site_11","netting","Lasioglossum lineatulum","species","other_wild_bees",1,640,80,NA,"Date: 2014-05-25. 4 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2013","Nich_VTblu_Site_11","netting","Bombus impatiens","species","bumblebees",1,640,80,NA,"Date: 2013-06-03. 4 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2013","Nich_VTblu_Site_11","netting","Bombus vagans","species","bumblebees",1,640,80,NA,"Date: 2013-06-03. 4 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2013","Nich_VTblu_Site_11","netting","Andrena vicina","species","other_wild_bees",1,640,80,NA,"Date: 2013-06-03. 4 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2013","Nich_VTblu_Site_11","netting","Bombus bimaculatus","species","bumblebees",1,640,80,NA,"Date: 2013-06-03. 4 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2013","Nich_VTblu_Site_11","netting","Bombus impatiens","species","bumblebees",1,640,80,NA,"Date: 2013-06-03. 4 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2013","Nich_VTblu_Site_11","netting","Andrena vicina","species","other_wild_bees",1,640,80,NA,"Date: 2013-06-03. 4 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2013","Nich_VTblu_Site_11","netting","Andrena carlini","species","other_wild_bees",1,640,80,NA,"Date: 2013-06-03. 4 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2013","Nich_VTblu_Site_11","netting","Bombus bimaculatus","species","bumblebees",1,640,80,NA,"Date: 2013-06-03. 4 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2013","Nich_VTblu_Site_11","netting","Bombus vagans","species","bumblebees",1,640,80,NA,"Date: 2013-06-03. 4 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2013","Nich_VTblu_Site_11","netting","Bombus ternarius","species","bumblebees",1,640,80,NA,"Date: 2013-06-03. 4 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2013","Nich_VTblu_Site_11","netting","Andrena vicina","species","other_wild_bees",1,640,80,NA,"Date: 2013-05-27. 4 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2013","Nich_VTblu_Site_11","netting","Andrena vicina","species","other_wild_bees",1,640,80,NA,"Date: 2013-05-27. 4 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2013","Nich_VTblu_Site_11","netting","Andrena vicina","species","other_wild_bees",1,640,80,NA,"Date: 2013-05-27. 4 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2013","Nich_VTblu_Site_11","netting","Andrena vicina","species","other_wild_bees",1,640,80,NA,"Date: 2013-05-27. 4 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2013","Nich_VTblu_Site_11","netting","Andrena vicina","species","other_wild_bees",1,640,80,NA,"Date: 2013-05-27. 4 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2013","Nich_VTblu_Site_11","netting","Bombus griseocollis","species","bumblebees",1,640,80,NA,"Date: 2013-05-27. 4 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2013","Nich_VTblu_Site_11","netting","Bombus impatiens","species","bumblebees",1,640,80,NA,"Date: 2013-05-27. 4 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2013","Nich_VTblu_Site_11","netting","Bombus bimaculatus","species","bumblebees",1,640,80,NA,"Date: 2013-05-27. 4 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2013","Nich_VTblu_Site_11","netting","Andrena carlini","species","other_wild_bees",1,640,80,NA,"Date: 2013-05-27. 4 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2013","Nich_VTblu_Site_11","netting","Andrena vicina","species","other_wild_bees",1,640,80,NA,"Date: 2013-05-27. 4 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2013","Nich_VTblu_Site_11","netting","Andrena carlini","species","other_wild_bees",1,640,80,NA,"Date: 2013-05-27. 4 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2013","Nich_VTblu_Site_11","netting","Bombus griseocollis","species","bumblebees",1,640,80,NA,"Date: 2013-05-27. 4 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2013","Nich_VTblu_Site_11","netting","Bombus griseocollis","species","bumblebees",1,640,80,NA,"Date: 2013-05-27. 4 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2013","Nich_VTblu_Site_11","netting","Bombus impatiens","species","bumblebees",1,640,80,NA,"Date: 2013-05-27. 4 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2013","Nich_VTblu_Site_11","netting","Bombus impatiens","species","bumblebees",1,640,80,NA,"Date: 2013-05-27. 4 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2013","Nich_VTblu_Site_11","netting","Bombus bimaculatus","species","bumblebees",1,640,80,NA,"Date: 2013-05-27. 4 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2013","Nich_VTblu_Site_11","netting","Andrena vicina","species","other_wild_bees",1,640,80,NA,"Date: 2013-05-27. 4 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2013","Nich_VTblu_Site_11","netting","Bombus bimaculatus","species","bumblebees",1,640,80,NA,"Date: 2013-05-27. 4 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2013","Nich_VTblu_Site_11","netting","Andrena vicina","species","other_wild_bees",1,640,80,NA,"Date: 2013-05-27. 4 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2013","Nich_VTblu_Site_11","netting","Andrena carolina","species","other_wild_bees",1,640,80,NA,"Date: 2013-05-27. 4 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2013","Nich_VTblu_Site_11","netting","Agapostemon texanus","species","other_wild_bees",1,640,80,NA,"Date: 2013-05-27. 4 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2013","Nich_VTblu_Site_11","netting","Andrena vicina","species","other_wild_bees",1,640,80,NA,"Date: 2013-05-16. 4 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2013","Nich_VTblu_Site_11","netting","Andrena vicina","species","other_wild_bees",1,640,80,NA,"Date: 2013-05-16. 4 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2013","Nich_VTblu_Site_11","netting","Bombus impatiens","species","bumblebees",1,640,80,NA,"Date: 2013-05-16. 4 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2013","Nich_VTblu_Site_11","netting","Bombus impatiens","species","bumblebees",1,640,80,NA,"Date: 2013-05-16. 4 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2013","Nich_VTblu_Site_11","netting","Bombus impatiens","species","bumblebees",1,640,80,NA,"Date: 2013-05-16. 4 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2013","Nich_VTblu_Site_11","netting","Lasioglossum acuminatum","species","other_wild_bees",1,640,80,NA,"Date: 2013-05-16. 4 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2013","Nich_VTblu_Site_11","netting","Andrena vicina","species","other_wild_bees",1,640,80,NA,"Date: 2013-05-16. 4 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2013","Nich_VTblu_Site_11","netting","Bombus griseocollis","species","bumblebees",1,640,80,NA,"Date: 2013-05-16. 4 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2013","Nich_VTblu_Site_11","netting","Andrena vicina","species","other_wild_bees",1,640,80,NA,"Date: 2013-05-16. 4 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2013","Nich_VTblu_Site_11","netting","Bombus bimaculatus","species","bumblebees",1,640,80,NA,"Date: 2013-05-16. 4 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2013","Nich_VTblu_Site_11","netting","Bombus griseocollis","species","bumblebees",1,640,80,NA,"Date: 2013-05-16. 4 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2013","Nich_VTblu_Site_11","netting","Bombus impatiens","species","bumblebees",1,640,80,NA,"Date: 2013-05-16. 4 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2013","Nich_VTblu_Site_11","netting","Andrena carlini","species","other_wild_bees",1,640,80,NA,"Date: 2013-05-16. 4 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2013","Nich_VTblu_Site_11","netting","Halictus rubicundus","species","other_wild_bees",1,640,80,NA,"Date: 2013-05-16. 4 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2013","Nich_VTblu_Site_11","netting","Bombus bimaculatus","species","bumblebees",1,640,80,NA,"Date: 2013-05-16. 4 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2013","Nich_VTblu_Site_11","netting","Bombus griseocollis","species","bumblebees",1,640,80,NA,"Date: 2013-05-16. 4 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2013","Nich_VTblu_Site_11","netting","Bombus griseocollis","species","bumblebees",1,640,80,NA,"Date: 2013-05-16. 4 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2015","Nich_VTblu_Site_12","netting","Andrena vicina","species","other_wild_bees",1,320,40,NA,"Date: 2015-06-04. 2 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2015","Nich_VTblu_Site_12","netting","Bombus ternarius","species","bumblebees",1,320,40,NA,"Date: 2015-06-04. 2 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2015","Nich_VTblu_Site_12","netting","Bombus ternarius","species","bumblebees",1,320,40,NA,"Date: 2015-06-04. 2 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2015","Nich_VTblu_Site_12","netting","Bombus bimaculatus","species","bumblebees",1,320,40,NA,"Date: 2015-05-29. 2 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2015","Nich_VTblu_Site_12","netting","Andrena vicina","species","other_wild_bees",1,320,40,NA,"Date: 2015-06-04. 2 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2015","Nich_VTblu_Site_12","netting","Bombus impatiens","species","bumblebees",1,320,40,NA,"Date: 2015-06-04. 2 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2015","Nich_VTblu_Site_12","netting","Andrena vicina","species","other_wild_bees",1,320,40,NA,"Date: 2015-05-29. 2 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2015","Nich_VTblu_Site_12","netting","Andrena carlini","species","other_wild_bees",1,320,40,NA,"Date: 2015-05-29. 2 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2015","Nich_VTblu_Site_12","netting","Bombus bimaculatus","species","bumblebees",1,320,40,NA,"Date: 2015-05-29. 2 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2015","Nich_VTblu_Site_12","netting","Bombus ternarius","species","bumblebees",1,320,40,NA,"Date: 2015-05-29. 2 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2015","Nich_VTblu_Site_12","netting","Bombus bimaculatus","species","bumblebees",1,320,40,NA,"Date: 2015-05-29. 2 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2015","Nich_VTblu_Site_12","netting","Andrena carolina","species","other_wild_bees",1,320,40,NA,"Date: 2015-06-04. 2 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2015","Nich_VTblu_Site_12","netting","Andrena vicina","species","other_wild_bees",1,320,40,NA,"Date: 2015-06-04. 2 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2015","Nich_VTblu_Site_12","netting","Bombus bimaculatus","species","bumblebees",1,320,40,NA,"Date: 2015-06-04. 2 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2015","Nich_VTblu_Site_12","netting","Bombus bimaculatus","species","bumblebees",1,320,40,NA,"Date: 2015-06-04. 2 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2015","Nich_VTblu_Site_12","netting","Bombus bimaculatus","species","bumblebees",1,320,40,NA,"Date: 2015-06-04. 2 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2015","Nich_VTblu_Site_12","netting","Lasioglossum confusus","species","other_wild_bees",1,320,40,NA,"Date: 2015-05-29. 2 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2015","Nich_VTblu_Site_12","netting","Lasioglossum cressoni","species","other_wild_bees",1,320,40,NA,"Date: 2015-05-29. 2 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2015","Nich_VTblu_Site_12","netting","Lasioglossum acuminatum","species","other_wild_bees",1,320,40,NA,"Date: 2015-05-29. 2 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2015","Nich_VTblu_Site_12","netting","Lasioglossum acuminatum","species","other_wild_bees",1,320,40,NA,"Date: 2015-05-29. 2 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2015","Nich_VTblu_Site_12","netting","Andrena vicina","species","other_wild_bees",1,320,40,NA,"Date: 2015-05-29. 2 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2015","Nich_VTblu_Site_12","netting","Bombus bimaculatus","species","bumblebees",1,320,40,NA,"Date: 2015-05-29. 2 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2015","Nich_VTblu_Site_12","netting","Bombus bimaculatus","species","bumblebees",1,320,40,NA,"Date: 2015-05-29. 2 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2015","Nich_VTblu_Site_12","netting","Andrena vicina","species","other_wild_bees",1,320,40,NA,"Date: 2015-05-29. 2 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2015","Nich_VTblu_Site_12","netting","Bombus bimaculatus","species","bumblebees",1,320,40,NA,"Date: 2015-05-29. 2 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2015","Nich_VTblu_Site_12","netting","Bombus bimaculatus","species","bumblebees",1,320,40,NA,"Date: 2015-05-29. 2 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_12","netting","Agapostemon virescens","species","other_wild_bees",1,1120,140,NA,"Date: 2014-06-09. 7 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_12","netting","Andrena vicina","species","other_wild_bees",1,1120,140,NA,"Date: 2014-06-09. 7 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_12","netting","Andrena nivalis","species","other_wild_bees",1,1120,140,NA,"Date: 2014-06-09. 7 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_12","netting","Andrena perplexa","species","other_wild_bees",1,1120,140,NA,"Date: 2014-06-09. 7 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_12","netting","Bombus bimaculatus","species","bumblebees",1,1120,140,NA,"Date: 2014-06-01. 7 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_12","netting","Bombus bimaculatus","species","bumblebees",1,1120,140,NA,"Date: 2014-06-01. 7 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_12","netting","Andrena vicina","species","other_wild_bees",1,1120,140,NA,"Date: 2014-06-01. 7 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_12","netting","Andrena carlini","species","other_wild_bees",1,1120,140,NA,"Date: 2014-06-01. 7 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_12","netting","Bombus bimaculatus","species","bumblebees",1,1120,140,NA,"Date: 2014-06-04. 7 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_12","netting","Bombus bimaculatus","species","bumblebees",1,1120,140,NA,"Date: 2014-06-04. 7 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_12","netting","Bombus vagans","species","bumblebees",1,1120,140,NA,"Date: 2014-06-04. 7 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_12","netting","Andrena vicina","species","other_wild_bees",1,1120,140,NA,"Date: 2014-06-04. 7 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_12","netting","Lasioglossum hitchensi","species","other_wild_bees",1,1120,140,NA,"Date: 2014-06-04. 7 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_12","netting","Lasioglossum cressoni","species","other_wild_bees",1,1120,140,NA,"Date: 2014-06-04. 7 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_12","netting","Lasioglossum quebecense","species","other_wild_bees",1,1120,140,NA,"Date: 2014-06-04. 7 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_12","netting","Andrena carolina","species","other_wild_bees",1,1120,140,NA,"Date: 2014-06-04. 7 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_12","netting","Andrena milwaukeensis","species","other_wild_bees",1,1120,140,NA,"Date: 2014-06-04. 7 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_12","netting","Andrena vicina","species","other_wild_bees",1,1120,140,NA,"Date: 2014-06-04. 7 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_12","netting","Andrena vicina","species","other_wild_bees",1,1120,140,NA,"Date: 2014-06-04. 7 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_12","netting","Bombus vagans","species","bumblebees",1,1120,140,NA,"Date: 2014-06-04. 7 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_12","netting","Bombus vagans","species","bumblebees",1,1120,140,NA,"Date: 2014-06-04. 7 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_12","netting","Bombus impatiens","species","bumblebees",1,1120,140,NA,"Date: 2014-06-04. 7 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_12","netting","Andrena carlini","species","other_wild_bees",1,1120,140,NA,"Date: 2014-06-01. 7 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_12","netting","Bombus bimaculatus","species","bumblebees",1,1120,140,NA,"Date: 2014-06-01. 7 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_12","netting","Bombus bimaculatus","species","bumblebees",1,1120,140,NA,"Date: 2014-06-01. 7 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_12","netting","Bombus impatiens","species","bumblebees",1,1120,140,NA,"Date: 2014-06-01. 7 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_12","netting","Andrena vicina","species","other_wild_bees",1,1120,140,NA,"Date: 2014-05-29. 7 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_12","netting","Andrena vicina","species","other_wild_bees",1,1120,140,NA,"Date: 2014-05-29. 7 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_12","netting","Andrena vicina","species","other_wild_bees",1,1120,140,NA,"Date: 2014-05-29. 7 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_12","netting","Bombus ternarius","species","bumblebees",1,1120,140,NA,"Date: 2014-05-24. 7 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_12","netting","Bombus impatiens","species","bumblebees",1,1120,140,NA,"Date: 2014-05-29. 7 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_12","netting","Bombus impatiens","species","bumblebees",1,1120,140,NA,"Date: 2014-05-29. 7 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_12","netting","Bombus impatiens","species","bumblebees",1,1120,140,NA,"Date: 2014-05-29. 7 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_12","netting","Andrena vicina","species","other_wild_bees",1,1120,140,NA,"Date: 2014-05-20. 7 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_12","netting","Andrena vicina","species","other_wild_bees",1,1120,140,NA,"Date: 2014-05-20. 7 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_12","netting","Andrena vicina","species","other_wild_bees",1,1120,140,NA,"Date: 2014-05-20. 7 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_12","netting","Andrena vicina","species","other_wild_bees",1,1120,140,NA,"Date: 2014-05-20. 7 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_12","netting","Andrena carlini","species","other_wild_bees",1,1120,140,NA,"Date: 2014-05-20. 7 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_12","netting","Andrena vicina","species","other_wild_bees",1,1120,140,NA,"Date: 2014-05-20. 7 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_12","netting","Andrena vicina","species","other_wild_bees",1,1120,140,NA,"Date: 2014-05-20. 7 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_12","netting","Bombus bimaculatus","species","bumblebees",1,1120,140,NA,"Date: 2014-05-20. 7 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_12","netting","Andrena vicina","species","other_wild_bees",1,1120,140,NA,"Date: 2014-05-20. 7 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_12","netting","Andrena vicina","species","other_wild_bees",1,1120,140,NA,"Date: 2014-05-20. 7 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_12","netting","Andrena vicina","species","other_wild_bees",1,1120,140,NA,"Date: 2014-05-20. 7 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_12","netting","Bombus impatiens","species","bumblebees",1,1120,140,NA,"Date: 2014-05-20. 7 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_12","netting","Lasioglossum lineatulum","species","other_wild_bees",1,1120,140,NA,"Date: 2014-05-20. 7 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_12","netting","Andrena vicina","species","other_wild_bees",1,1120,140,NA,"Date: 2014-05-20. 7 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_12","netting","Andrena vicina","species","other_wild_bees",1,1120,140,NA,"Date: 2014-05-20. 7 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_12","netting","Andrena vicina","species","other_wild_bees",1,1120,140,NA,"Date: 2014-05-25. 7 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_12","netting","Bombus ternarius","species","bumblebees",1,1120,140,NA,"Date: 2014-05-25. 7 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_12","netting","Bombus vagans","species","bumblebees",1,1120,140,NA,"Date: 2014-05-25. 7 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_12","netting","Bombus impatiens","species","bumblebees",1,1120,140,NA,"Date: 2014-05-25. 7 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_12","netting","Bombus impatiens","species","bumblebees",1,1120,140,NA,"Date: 2014-05-25. 7 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_12","netting","Lasioglossum pilosum","species","other_wild_bees",1,1120,140,NA,"Date: 2014-05-25. 7 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_12","netting","Andrena rugosa","species","other_wild_bees",1,1120,140,NA,"Date: 2014-05-25. 7 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_12","netting","Andrena bradleyi","species","other_wild_bees",1,1120,140,NA,"Date: 2014-05-25. 7 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_12","netting","Andrena vicina","species","other_wild_bees",1,1120,140,NA,"Date: 2014-05-25. 7 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_12","netting","Andrena vicina","species","other_wild_bees",1,1120,140,NA,"Date: 2014-05-25. 7 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_12","netting","Bombus bimaculatus","species","bumblebees",1,1120,140,NA,"Date: 2014-05-25. 7 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_12","netting","Bombus bimaculatus","species","bumblebees",1,1120,140,NA,"Date: 2014-05-25. 7 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_12","netting","Bombus bimaculatus","species","bumblebees",1,1120,140,NA,"Date: 2014-05-25. 7 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2013","Nich_VTblu_Site_12","netting","Andrena rugosa","species","other_wild_bees",1,320,40,NA,"Date: 2013-05-27. 2 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2013","Nich_VTblu_Site_12","netting","Andrena carlini","species","other_wild_bees",1,320,40,NA,"Date: 2013-05-27. 2 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2013","Nich_VTblu_Site_12","netting","Andrena carlini","species","other_wild_bees",1,320,40,NA,"Date: 2013-05-27. 2 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2013","Nich_VTblu_Site_12","netting","Bombus bimaculatus","species","bumblebees",1,320,40,NA,"Date: 2013-05-27. 2 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2013","Nich_VTblu_Site_12","netting","Bombus impatiens","species","bumblebees",1,320,40,NA,"Date: 2013-05-27. 2 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2013","Nich_VTblu_Site_12","netting","Bombus impatiens","species","bumblebees",1,320,40,NA,"Date: 2013-05-27. 2 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2013","Nich_VTblu_Site_12","netting","Bombus ternarius","species","bumblebees",1,320,40,NA,"Date: 2013-05-27. 2 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2013","Nich_VTblu_Site_12","netting","Andrena regularis","species","other_wild_bees",1,320,40,NA,"Date: 2013-05-27. 2 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2013","Nich_VTblu_Site_12","netting","Bombus ternarius","species","bumblebees",1,320,40,NA,"Date: 2013-05-27. 2 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2013","Nich_VTblu_Site_12","netting","Bombus ternarius","species","bumblebees",1,320,40,NA,"Date: 2013-05-27. 2 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2013","Nich_VTblu_Site_12","netting","Bombus impatiens","species","bumblebees",1,320,40,NA,"Date: 2013-05-27. 2 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2013","Nich_VTblu_Site_12","netting","Andrena vicina","species","other_wild_bees",1,320,40,NA,"Date: 2013-05-27. 2 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2013","Nich_VTblu_Site_12","netting","Andrena vicina","species","other_wild_bees",1,320,40,NA,"Date: 2013-05-27. 2 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2013","Nich_VTblu_Site_12","netting","Bombus ternarius","species","bumblebees",1,320,40,NA,"Date: 2013-05-27. 2 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2013","Nich_VTblu_Site_12","netting","Bombus impatiens","species","bumblebees",1,320,40,NA,"Date: 2013-05-27. 2 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2013","Nich_VTblu_Site_12","netting","Bombus impatiens","species","bumblebees",1,320,40,NA,"Date: 2013-05-27. 2 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2013","Nich_VTblu_Site_12","netting","Andrena regularis","species","other_wild_bees",1,320,40,NA,"Date: 2013-05-27. 2 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2013","Nich_VTblu_Site_12","netting","Bombus ternarius","species","bumblebees",1,320,40,NA,"Date: 2013-05-27. 2 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2013","Nich_VTblu_Site_12","netting","Bombus impatiens","species","bumblebees",1,320,40,NA,"Date: 2013-05-27. 2 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2013","Nich_VTblu_Site_12","netting","Bombus bimaculatus","species","bumblebees",1,320,40,NA,"Date: 2013-05-27. 2 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2013","Nich_VTblu_Site_12","netting","Bombus impatiens","species","bumblebees",1,320,40,NA,"Date: 2013-05-27. 2 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2013","Nich_VTblu_Site_12","netting","Andrena vicina","species","other_wild_bees",1,320,40,NA,"Date: 2013-05-17. 2 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2013","Nich_VTblu_Site_12","netting","Andrena vicina","species","other_wild_bees",1,320,40,NA,"Date: 2013-05-17. 2 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2013","Nich_VTblu_Site_12","netting","Andrena vicina","species","other_wild_bees",1,320,40,NA,"Date: 2013-05-17. 2 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2013","Nich_VTblu_Site_12","netting","Andrena vicina","species","other_wild_bees",1,320,40,NA,"Date: 2013-05-17. 2 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2013","Nich_VTblu_Site_12","netting","Andrena vicina","species","other_wild_bees",1,320,40,NA,"Date: 2013-05-17. 2 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2013","Nich_VTblu_Site_12","netting","Andrena vicina","species","other_wild_bees",1,320,40,NA,"Date: 2013-05-17. 2 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2013","Nich_VTblu_Site_12","netting","Andrena vicina","species","other_wild_bees",1,320,40,NA,"Date: 2013-05-17. 2 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2013","Nich_VTblu_Site_12","netting","Andrena vicina","species","other_wild_bees",1,320,40,NA,"Date: 2013-05-17. 2 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2013","Nich_VTblu_Site_12","netting","Lasioglossum lineatulum","species","other_wild_bees",1,320,40,NA,"Date: 2013-05-17. 2 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2013","Nich_VTblu_Site_12","netting","Andrena vicina","species","other_wild_bees",1,320,40,NA,"Date: 2013-05-17. 2 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2013","Nich_VTblu_Site_12","netting","Andrena vicina","species","other_wild_bees",1,320,40,NA,"Date: 2013-05-17. 2 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2013","Nich_VTblu_Site_12","netting","Andrena vicina","species","other_wild_bees",1,320,40,NA,"Date: 2013-05-17. 2 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2013","Nich_VTblu_Site_12","netting","Andrena vicina","species","other_wild_bees",1,320,40,NA,"Date: 2013-05-17. 2 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2013","Nich_VTblu_Site_12","netting","Andrena vicina","species","other_wild_bees",1,320,40,NA,"Date: 2013-05-17. 2 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2013","Nich_VTblu_Site_12","netting","Andrena vicina","species","other_wild_bees",1,320,40,NA,"Date: 2013-05-17. 2 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2013","Nich_VTblu_Site_12","netting","Andrena vicina","species","other_wild_bees",1,320,40,NA,"Date: 2013-05-17. 2 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2013","Nich_VTblu_Site_12","netting","Andrena crataegi","species","other_wild_bees",1,320,40,NA,"Date: 2013-05-17. 2 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2013","Nich_VTblu_Site_12","netting","Andrena vicina","species","other_wild_bees",1,320,40,NA,"Date: 2013-05-17. 2 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2013","Nich_VTblu_Site_12","netting","Andrena vicina","species","other_wild_bees",1,320,40,NA,"Date: 2013-05-17. 2 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2013","Nich_VTblu_Site_12","netting","Andrena vicina","species","other_wild_bees",1,320,40,NA,"Date: 2013-05-17. 2 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2013","Nich_VTblu_Site_12","netting","Andrena carlini","species","other_wild_bees",1,320,40,NA,"Date: 2013-05-17. 2 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2013","Nich_VTblu_Site_12","netting","Bombus impatiens","species","bumblebees",1,320,40,NA,"Date: 2013-05-17. 2 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2013","Nich_VTblu_Site_12","netting","Bombus bimaculatus","species","bumblebees",1,320,40,NA,"Date: 2013-05-17. 2 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2013","Nich_VTblu_Site_12","netting","Andrena vicina","species","other_wild_bees",1,320,40,NA,"Date: 2013-05-17. 2 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2013","Nich_VTblu_Site_12","netting","Andrena vicina","species","other_wild_bees",1,320,40,NA,"Date: 2013-05-17. 2 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2013","Nich_VTblu_Site_12","netting","Bombus impatiens","species","bumblebees",1,320,40,NA,"Date: 2013-05-17. 2 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2013","Nich_VTblu_Site_12","netting","Andrena carlini","species","other_wild_bees",1,320,40,NA,"Date: 2013-05-17. 2 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2013","Nich_VTblu_Site_12","netting","Bombus bimaculatus","species","bumblebees",1,320,40,NA,"Date: 2013-05-17. 2 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2013","Nich_VTblu_Site_12","netting","Bombus bimaculatus","species","bumblebees",1,320,40,NA,"Date: 2013-05-17. 2 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2013","Nich_VTblu_Site_12","netting","Andrena vicina","species","other_wild_bees",1,320,40,NA,"Date: 2013-05-17. 2 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2013","Nich_VTblu_Site_12","netting","Andrena vicina","species","other_wild_bees",1,320,40,NA,"Date: 2013-05-17. 2 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2013","Nich_VTblu_Site_12","netting","Andrena vicina","species","other_wild_bees",1,320,40,NA,"Date: 2013-05-17. 2 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2013","Nich_VTblu_Site_12","netting","Andrena vicina","species","other_wild_bees",1,320,40,NA,"Date: 2013-05-17. 2 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2013","Nich_VTblu_Site_12","netting","Bombus bimaculatus","species","bumblebees",1,320,40,NA,"Date: 2013-05-17. 2 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2015","Nich_VTblu_Site_13","netting","Bombus impatiens","species","bumblebees",1,320,40,NA,"Date: 2015-05-21. 2 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2015","Nich_VTblu_Site_13","netting","Bombus bimaculatus","species","bumblebees",1,320,40,NA,"Date: 2015-05-21. 2 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2015","Nich_VTblu_Site_13","netting","Bombus impatiens","species","bumblebees",1,320,40,NA,"Date: 2015-05-21. 2 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2015","Nich_VTblu_Site_13","netting","Andrena nasonii","species","other_wild_bees",1,320,40,NA,"Date: 2015-05-18. 2 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2015","Nich_VTblu_Site_13","netting","Bombus impatiens","species","bumblebees",1,320,40,NA,"Date: 2015-05-18. 2 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2015","Nich_VTblu_Site_13","netting","Bombus impatiens","species","bumblebees",1,320,40,NA,"Date: 2015-05-18. 2 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2015","Nich_VTblu_Site_13","netting","Andrena carlini","species","other_wild_bees",1,320,40,NA,"Date: 2015-05-21. 2 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2015","Nich_VTblu_Site_13","netting","Andrena carlini","species","other_wild_bees",1,320,40,NA,"Date: 2015-05-21. 2 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2015","Nich_VTblu_Site_13","netting","Bombus impatiens","species","bumblebees",1,320,40,NA,"Date: 2015-05-21. 2 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2015","Nich_VTblu_Site_13","netting","Bombus impatiens","species","bumblebees",1,320,40,NA,"Date: 2015-05-21. 2 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_13","netting","Andrena carlini","species","other_wild_bees",1,960,120,NA,"Date: 2014-06-09. 6 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_13","netting","Andrena carlini","species","other_wild_bees",1,960,120,NA,"Date: 2014-06-09. 6 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_13","netting","Andrena dunningi","species","other_wild_bees",1,960,120,NA,"Date: 2014-06-09. 6 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_13","netting","Bombus bimaculatus","species","bumblebees",1,960,120,NA,"Date: 2014-06-09. 6 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_13","netting","Bombus impatiens","species","bumblebees",1,960,120,NA,"Date: 2014-06-09. 6 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_13","netting","Lasioglossum nigroviride","species","other_wild_bees",1,960,120,NA,"Date: 2014-06-09. 6 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_13","netting","Lasioglossum coriaceum","species","other_wild_bees",1,960,120,NA,"Date: 2014-06-09. 6 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_13","netting","Andrena carlini","species","other_wild_bees",1,960,120,NA,"Date: 2014-06-09. 6 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_13","netting","Andrena vicina","species","other_wild_bees",1,960,120,NA,"Date: 2014-06-09. 6 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_13","netting","Bombus griseocollis","species","bumblebees",1,960,120,NA,"Date: 2014-06-09. 6 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_13","netting","Bombus impatiens","species","bumblebees",1,960,120,NA,"Date: 2014-06-09. 6 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_13","netting","Bombus impatiens","species","bumblebees",1,960,120,NA,"Date: 2014-06-01. 6 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_13","netting","Bombus impatiens","species","bumblebees",1,960,120,NA,"Date: 2014-06-04. 6 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_13","netting","Bombus bimaculatus","species","bumblebees",1,960,120,NA,"Date: 2014-06-04. 6 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_13","netting","Bombus impatiens","species","bumblebees",1,960,120,NA,"Date: 2014-06-04. 6 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_13","netting","Bombus impatiens","species","bumblebees",1,960,120,NA,"Date: 2014-06-04. 6 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_13","netting","Bombus fervidus","species","bumblebees",1,960,120,NA,"Date: 2014-06-04. 6 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_13","netting","Andrena carlini","species","other_wild_bees",1,960,120,NA,"Date: 2014-06-04. 6 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_13","netting","Bombus impatiens","species","bumblebees",1,960,120,NA,"Date: 2014-06-01. 6 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_13","netting","Bombus impatiens","species","bumblebees",1,960,120,NA,"Date: 2014-06-01. 6 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_13","netting","Bombus impatiens","species","bumblebees",1,960,120,NA,"Date: 2014-05-27. 6 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_13","netting","Bombus borealis","species","bumblebees",1,960,120,NA,"Date: 2014-05-27. 6 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_13","netting","Bombus bimaculatus","species","bumblebees",1,960,120,NA,"Date: 2014-05-27. 6 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_13","netting","Bombus impatiens","species","bumblebees",1,960,120,NA,"Date: 2014-05-27. 6 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_13","netting","Bombus impatiens","species","bumblebees",1,960,120,NA,"Date: 2014-05-27. 6 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_13","netting","Andrena carlini","species","other_wild_bees",1,960,120,NA,"Date: 2014-05-25. 6 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_13","netting","Bombus bimaculatus","species","bumblebees",1,960,120,NA,"Date: 2014-05-19. 6 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_13","netting","Andrena carlini","species","other_wild_bees",1,960,120,NA,"Date: 2014-05-19. 6 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_13","netting","Bombus perplexus","species","bumblebees",1,960,120,NA,"Date: 2014-05-19. 6 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2013","Nich_VTblu_Site_13","netting","Andrena carlini","species","other_wild_bees",1,480,60,NA,"Date: 2013-06-04. 3 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2013","Nich_VTblu_Site_13","netting","Andrena carlini","species","other_wild_bees",1,480,60,NA,"Date: 2013-06-04. 3 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2013","Nich_VTblu_Site_13","netting","Bombus bimaculatus","species","bumblebees",1,480,60,NA,"Date: 2013-06-04. 3 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2013","Nich_VTblu_Site_13","netting","Bombus impatiens","species","bumblebees",1,480,60,NA,"Date: 2013-06-04. 3 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2013","Nich_VTblu_Site_13","netting","Andrena cressoni","species","other_wild_bees",1,480,60,NA,"Date: 2013-06-04. 3 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2013","Nich_VTblu_Site_13","netting","Andrena carlini","species","other_wild_bees",1,480,60,NA,"Date: 2013-06-04. 3 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2013","Nich_VTblu_Site_13","netting","Bombus impatiens","species","bumblebees",1,480,60,NA,"Date: 2013-06-04. 3 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2013","Nich_VTblu_Site_13","netting","Andrena vicina","species","other_wild_bees",1,480,60,NA,"Date: 2013-06-04. 3 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2013","Nich_VTblu_Site_13","netting","Bombus griseocollis","species","bumblebees",1,480,60,NA,"Date: 2013-05-27. 3 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2013","Nich_VTblu_Site_13","netting","Bombus impatiens","species","bumblebees",1,480,60,NA,"Date: 2013-05-27. 3 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2013","Nich_VTblu_Site_13","netting","Andrena nivalis","species","other_wild_bees",1,480,60,NA,"Date: 2013-05-27. 3 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2013","Nich_VTblu_Site_13","netting","Bombus impatiens","species","bumblebees",1,480,60,NA,"Date: 2013-05-27. 3 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2013","Nich_VTblu_Site_13","netting","Bombus impatiens","species","bumblebees",1,480,60,NA,"Date: 2013-05-27. 3 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2013","Nich_VTblu_Site_13","netting","Bombus impatiens","species","bumblebees",1,480,60,NA,"Date: 2013-05-27. 3 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2013","Nich_VTblu_Site_13","netting","Bombus impatiens","species","bumblebees",1,480,60,NA,"Date: 2013-05-27. 3 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2013","Nich_VTblu_Site_13","netting","Bombus impatiens","species","bumblebees",1,480,60,NA,"Date: 2013-05-27. 3 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2013","Nich_VTblu_Site_13","netting","Bombus impatiens","species","bumblebees",1,480,60,NA,"Date: 2013-05-21. 3 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2015","Nich_VTblu_Site_14","netting","Lasioglossum acuminatum","species","other_wild_bees",1,480,60,NA,"Date: 2015-06-04. 3 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2015","Nich_VTblu_Site_14","netting","Andrena carolina","species","other_wild_bees",1,480,60,NA,"Date: 2015-06-04. 3 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2015","Nich_VTblu_Site_14","netting","Andrena carolina","species","other_wild_bees",1,480,60,NA,"Date: 2015-06-04. 3 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2015","Nich_VTblu_Site_14","netting","Andrena carolina","species","other_wild_bees",1,480,60,NA,"Date: 2015-06-04. 3 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2015","Nich_VTblu_Site_14","netting","Andrena carolina","species","other_wild_bees",1,480,60,NA,"Date: 2015-06-04. 3 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2015","Nich_VTblu_Site_14","netting","Andrena vicina","species","other_wild_bees",1,480,60,NA,"Date: 2015-06-04. 3 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2015","Nich_VTblu_Site_14","netting","Andrena vicina","species","other_wild_bees",1,480,60,NA,"Date: 2015-06-04. 3 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2015","Nich_VTblu_Site_14","netting","Andrena vicina","species","other_wild_bees",1,480,60,NA,"Date: 2015-06-04. 3 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2015","Nich_VTblu_Site_14","netting","Agapostemon sericeus","species","other_wild_bees",1,480,60,NA,"Date: 2015-06-04. 3 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2015","Nich_VTblu_Site_14","netting","Andrena vicina","species","other_wild_bees",1,480,60,NA,"Date: 2015-06-04. 3 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2015","Nich_VTblu_Site_14","netting","Andrena vicina","species","other_wild_bees",1,480,60,NA,"Date: 2015-05-29. 3 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2015","Nich_VTblu_Site_14","netting","Bombus bimaculatus","species","bumblebees",1,480,60,NA,"Date: 2015-06-04. 3 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2015","Nich_VTblu_Site_14","netting","Xylocopa virginica","species","other_wild_bees",1,480,60,NA,"Date: 2015-05-29. 3 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2015","Nich_VTblu_Site_14","netting","Lasioglossum acuminatum","species","other_wild_bees",1,480,60,NA,"Date: 2015-06-04. 3 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2015","Nich_VTblu_Site_14","netting","Andrena carlini","species","other_wild_bees",1,480,60,NA,"Date: 2015-06-04. 3 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2015","Nich_VTblu_Site_14","netting","Andrena vicina","species","other_wild_bees",1,480,60,NA,"Date: 2015-06-04. 3 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2015","Nich_VTblu_Site_14","netting","Andrena carlini","species","other_wild_bees",1,480,60,NA,"Date: 2015-06-04. 3 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2015","Nich_VTblu_Site_14","netting","Lasioglossum foxii","species","other_wild_bees",1,480,60,NA,"Date: 2015-05-29. 3 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2015","Nich_VTblu_Site_14","netting","Andrena vicina","species","other_wild_bees",1,480,60,NA,"Date: 2015-05-29. 3 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2015","Nich_VTblu_Site_14","netting","Andrena vicina","species","other_wild_bees",1,480,60,NA,"Date: 2015-05-29. 3 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2015","Nich_VTblu_Site_14","netting","Andrena carlini","species","other_wild_bees",1,480,60,NA,"Date: 2015-05-29. 3 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2015","Nich_VTblu_Site_14","netting","Andrena vicina","species","other_wild_bees",1,480,60,NA,"Date: 2015-05-29. 3 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2015","Nich_VTblu_Site_14","netting","Andrena vicina","species","other_wild_bees",1,480,60,NA,"Date: 2015-05-29. 3 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2015","Nich_VTblu_Site_14","netting","Andrena vicina","species","other_wild_bees",1,480,60,NA,"Date: 2015-05-29. 3 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2015","Nich_VTblu_Site_14","netting","Bombus impatiens","species","bumblebees",1,480,60,NA,"Date: 2015-05-22. 3 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2015","Nich_VTblu_Site_14","netting","Bombus impatiens","species","bumblebees",1,480,60,NA,"Date: 2015-05-22. 3 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2015","Nich_VTblu_Site_14","netting","Bombus griseocollis","species","bumblebees",1,480,60,NA,"Date: 2015-05-22. 3 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_14","netting","Lasioglossum subviridatum","species","other_wild_bees",1,1280,160,NA,"Date: 2014-06-09. 8 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_14","netting","Augochlora pura","species","other_wild_bees",1,1280,160,NA,"Date: 2014-06-09. 8 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_14","netting","Augochloropsis metallica","species","other_wild_bees",1,1280,160,NA,"Date: 2014-06-09. 8 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_14","netting","Augochlorella aurata","species","other_wild_bees",1,1280,160,NA,"Date: 2014-06-09. 8 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_14","netting","Augochlorella aurata","species","other_wild_bees",1,1280,160,NA,"Date: 2014-06-09. 8 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_14","netting","Andrena vicina","species","other_wild_bees",1,1280,160,NA,"Date: 2014-06-09. 8 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_14","netting","Andrena vicina","species","other_wild_bees",1,1280,160,NA,"Date: 2014-06-09. 8 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_14","netting","Bombus bimaculatus","species","bumblebees",1,1280,160,NA,"Date: 2014-06-09. 8 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_14","netting","Augochlorella aurata","species","other_wild_bees",1,1280,160,NA,"Date: 2014-06-09. 8 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_14","netting","Andrena vicina","species","other_wild_bees",1,1280,160,NA,"Date: 2014-06-09. 8 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_14","netting","Andrena vicina","species","other_wild_bees",1,1280,160,NA,"Date: 2014-06-09. 8 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_14","netting","Andrena vicina","species","other_wild_bees",1,1280,160,NA,"Date: 2014-06-09. 8 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_14","netting","Bombus impatiens","species","bumblebees",1,1280,160,NA,"Date: 2014-05-29. 8 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_14","netting","Andrena vicina","species","other_wild_bees",1,1280,160,NA,"Date: 2014-05-29. 8 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_14","netting","Augochlorella aurata","species","other_wild_bees",1,1280,160,NA,"Date: 2014-05-29. 8 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_14","netting","Colletes inaequalis","species","other_wild_bees",1,1280,160,NA,"Date: 2014-05-29. 8 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_14","netting","Andrena vicina","species","other_wild_bees",1,1280,160,NA,"Date: 2014-05-29. 8 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_14","netting","Andrena vicina","species","other_wild_bees",1,1280,160,NA,"Date: 2014-05-29. 8 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_14","netting","Bombus griseocollis","species","bumblebees",1,1280,160,NA,"Date: 2014-05-29. 8 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_14","netting","Lasioglossum macoupinense","species","other_wild_bees",1,1280,160,NA,"Date: 2014-05-29. 8 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_14","netting","Augochlora pura","species","other_wild_bees",1,1280,160,NA,"Date: 2014-05-29. 8 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_14","netting","Lasioglossum versans","species","other_wild_bees",1,1280,160,NA,"Date: 2014-05-29. 8 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_14","netting","Andrena carolina","species","other_wild_bees",1,1280,160,NA,"Date: 2014-05-29. 8 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_14","netting","Andrena carolina","species","other_wild_bees",1,1280,160,NA,"Date: 2014-05-29. 8 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_14","netting","Andrena rugosa","species","other_wild_bees",1,1280,160,NA,"Date: 2014-05-29. 8 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_14","netting","Ceratina dupla","species","other_wild_bees",1,1280,160,NA,"Date: 2014-05-29. 8 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_14","netting","Andrena nivalis","species","other_wild_bees",1,1280,160,NA,"Date: 2014-05-29. 8 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_14","netting","Andrena vicina","species","other_wild_bees",1,1280,160,NA,"Date: 2014-05-29. 8 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_14","netting","Bombus vagans","species","bumblebees",1,1280,160,NA,"Date: 2014-05-29. 8 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_14","netting","Bombus vagans","species","bumblebees",1,1280,160,NA,"Date: 2014-06-01. 8 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_14","netting","Bombus vagans","species","bumblebees",1,1280,160,NA,"Date: 2014-06-04. 8 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_14","netting","Bombus impatiens","species","bumblebees",1,1280,160,NA,"Date: 2014-06-01. 8 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_14","netting","Bombus ternarius","species","bumblebees",1,1280,160,NA,"Date: 2014-06-01. 8 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_14","netting","Andrena carlini","species","other_wild_bees",1,1280,160,NA,"Date: 2014-06-01. 8 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_14","netting","Lasioglossum coeruleum","species","other_wild_bees",1,1280,160,NA,"Date: 2014-06-01. 8 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_14","netting","Andrena vicina","species","other_wild_bees",1,1280,160,NA,"Date: 2014-06-01. 8 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_14","netting","Colletes inaequalis","species","other_wild_bees",1,1280,160,NA,"Date: 2014-06-01. 8 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_14","netting","Andrena vicina","species","other_wild_bees",1,1280,160,NA,"Date: 2014-06-01. 8 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_14","netting","Bombus ternarius","species","bumblebees",1,1280,160,NA,"Date: 2014-06-01. 8 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_14","netting","Lasioglossum quebecense","species","other_wild_bees",1,1280,160,NA,"Date: 2014-06-02. 8 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_14","netting","Bombus impatiens","species","bumblebees",1,1280,160,NA,"Date: 2014-06-01. 8 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_14","netting","Bombus bimaculatus","species","bumblebees",1,1280,160,NA,"Date: 2014-06-04. 8 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_14","netting","Bombus impatiens","species","bumblebees",1,1280,160,NA,"Date: 2014-06-04. 8 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_14","netting","Bombus ternarius","species","bumblebees",1,1280,160,NA,"Date: 2014-06-04. 8 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_14","netting","Andrena milwaukeensis","species","other_wild_bees",1,1280,160,NA,"Date: 2014-06-04. 8 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_14","netting","Andrena vicina","species","other_wild_bees",1,1280,160,NA,"Date: 2014-06-04. 8 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_14","netting","Andrena forbesii","species","other_wild_bees",1,1280,160,NA,"Date: 2014-06-04. 8 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_14","netting","Augochlorella aurata","species","other_wild_bees",1,1280,160,NA,"Date: 2014-06-04. 8 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_14","netting","Andrena vicina","species","other_wild_bees",1,1280,160,NA,"Date: 2014-06-04. 8 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_14","netting","Andrena carlini","species","other_wild_bees",1,1280,160,NA,"Date: 2014-06-04. 8 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_14","netting","Bombus bimaculatus","species","bumblebees",1,1280,160,NA,"Date: 2014-06-04. 8 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_14","netting","Colletes inaequalis","species","other_wild_bees",1,1280,160,NA,"Date: 2014-05-25. 8 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_14","netting","Bombus impatiens","species","bumblebees",1,1280,160,NA,"Date: 2014-05-25. 8 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_14","netting","Bombus impatiens","species","bumblebees",1,1280,160,NA,"Date: 2014-05-25. 8 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_14","netting","Andrena mandibularis","species","other_wild_bees",1,1280,160,NA,"Date: 2014-05-25. 8 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_14","netting","Bombus impatiens","species","bumblebees",1,1280,160,NA,"Date: 2014-05-25. 8 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_14","netting","Bombus impatiens","species","bumblebees",1,1280,160,NA,"Date: 2014-05-25. 8 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_14","netting","Andrena carlini","species","other_wild_bees",1,1280,160,NA,"Date: 2014-05-20. 8 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_14","netting","Andrena vicina","species","other_wild_bees",1,1280,160,NA,"Date: 2014-05-20. 8 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_14","netting","Bombus impatiens","species","bumblebees",1,1280,160,NA,"Date: 2014-05-20. 8 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_14","netting","Andrena vicina","species","other_wild_bees",1,1280,160,NA,"Date: 2014-05-20. 8 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_14","netting","Bombus vagans","species","bumblebees",1,1280,160,NA,"Date: 2014-05-20. 8 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_14","netting","Andrena crataegi","species","other_wild_bees",1,1280,160,NA,"Date: 2014-05-20. 8 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_14","netting","Andrena vicina","species","other_wild_bees",1,1280,160,NA,"Date: 2014-05-20. 8 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_14","netting","Colletes inaequalis","species","other_wild_bees",1,1280,160,NA,"Date: 2014-05-20. 8 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_14","netting","Andrena vicina","species","other_wild_bees",1,1280,160,NA,"Date: 2014-05-20. 8 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_14","netting","Bombus bimaculatus","species","bumblebees",1,1280,160,NA,"Date: 2014-05-02. 8 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2014","Nich_VTblu_Site_14","netting","Bombus bimaculatus","species","bumblebees",1,1280,160,NA,"Date: 2014-05-20. 8 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2013","Nich_VTblu_Site_14","netting","Bombus impatiens","species","bumblebees",1,640,80,NA,"Date: 2013-05-30. 4 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2013","Nich_VTblu_Site_14","netting","Andrena vicina","species","other_wild_bees",1,640,80,NA,"Date: 2013-05-30. 4 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2013","Nich_VTblu_Site_14","netting","Andrena vicina","species","other_wild_bees",1,640,80,NA,"Date: 2013-05-30. 4 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2013","Nich_VTblu_Site_14","netting","Bombus impatiens","species","bumblebees",1,640,80,NA,"Date: 2013-05-30. 4 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2013","Nich_VTblu_Site_14","netting","Colletes simulans","species","other_wild_bees",1,640,80,NA,"Date: 2013-05-30. 4 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2013","Nich_VTblu_Site_14","netting","Bombus impatiens","species","bumblebees",1,640,80,NA,"Date: 2013-05-30. 4 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2013","Nich_VTblu_Site_14","netting","Bombus impatiens","species","bumblebees",1,640,80,NA,"Date: 2013-05-30. 4 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2013","Nich_VTblu_Site_14","netting","Andrena vicina","species","other_wild_bees",1,640,80,NA,"Date: 2013-05-30. 4 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2013","Nich_VTblu_Site_14","netting","Ceratina calcarata","species","other_wild_bees",1,640,80,NA,"Date: 2013-05-30. 4 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2013","Nich_VTblu_Site_14","netting","Andrena vicina","species","other_wild_bees",1,640,80,NA,"Date: 2013-05-30. 4 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2013","Nich_VTblu_Site_14","netting","Andrena vicina","species","other_wild_bees",1,640,80,NA,"Date: 2013-05-30. 4 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2013","Nich_VTblu_Site_14","netting","Sphecodes cressoni","species","other_wild_bees",1,640,80,NA,"Date: 2013-05-30. 4 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2013","Nich_VTblu_Site_14","netting","Andrena vicina","species","other_wild_bees",1,640,80,NA,"Date: 2013-05-30. 4 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2013","Nich_VTblu_Site_14","netting","Bombus impatiens","species","bumblebees",1,640,80,NA,"Date: 2013-05-30. 4 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2013","Nich_VTblu_Site_14","netting","Lasioglossum imitatum","species","other_wild_bees",1,640,80,NA,"Date: 2013-05-30. 4 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2013","Nich_VTblu_Site_14","netting","Lasioglossum cressoni","species","other_wild_bees",1,640,80,NA,"Date: 2013-05-30. 4 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2013","Nich_VTblu_Site_14","netting","Andrena vicina","species","other_wild_bees",1,640,80,NA,"Date: 2013-05-30. 4 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2013","Nich_VTblu_Site_14","netting","Andrena vicina","species","other_wild_bees",1,640,80,NA,"Date: 2013-05-30. 4 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2013","Nich_VTblu_Site_14","netting","Andrena regularis","species","other_wild_bees",1,640,80,NA,"Date: 2013-05-30. 4 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2013","Nich_VTblu_Site_14","netting","Andrena vicina","species","other_wild_bees",1,640,80,NA,"Date: 2013-05-30. 4 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2013","Nich_VTblu_Site_14","netting","Andrena vicina","species","other_wild_bees",1,640,80,NA,"Date: 2013-05-30. 4 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2013","Nich_VTblu_Site_14","netting","Andrena vicina","species","other_wild_bees",1,640,80,NA,"Date: 2013-05-30. 4 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2013","Nich_VTblu_Site_14","netting","Andrena carlini","species","other_wild_bees",1,640,80,NA,"Date: 2013-05-30. 4 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2013","Nich_VTblu_Site_14","netting","Andrena vicina","species","other_wild_bees",1,640,80,NA,"Date: 2013-05-27. 4 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2013","Nich_VTblu_Site_14","netting","Bombus griseocollis","species","bumblebees",1,640,80,NA,"Date: 2013-05-27. 4 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2013","Nich_VTblu_Site_14","netting","Bombus impatiens","species","bumblebees",1,640,80,NA,"Date: 2013-05-27. 4 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2013","Nich_VTblu_Site_14","netting","Bombus bimaculatus","species","bumblebees",1,640,80,NA,"Date: 2013-05-27. 4 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2013","Nich_VTblu_Site_14","netting","Bombus bimaculatus","species","bumblebees",1,640,80,NA,"Date: 2013-05-27. 4 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2013","Nich_VTblu_Site_14","netting","Andrena vicina","species","other_wild_bees",1,640,80,NA,"Date: 2013-05-27. 4 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2013","Nich_VTblu_Site_14","netting","Andrena vicina","species","other_wild_bees",1,640,80,NA,"Date: 2013-05-27. 4 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2013","Nich_VTblu_Site_14","netting","Bombus impatiens","species","bumblebees",1,640,80,NA,"Date: 2013-05-27. 4 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2013","Nich_VTblu_Site_14","netting","Bombus griseocollis","species","bumblebees",1,640,80,NA,"Date: 2013-05-27. 4 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2013","Nich_VTblu_Site_14","netting","Bombus impatiens","species","bumblebees",1,640,80,NA,"Date: 2013-05-27. 4 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2013","Nich_VTblu_Site_14","netting","Bombus impatiens","species","bumblebees",1,640,80,NA,"Date: 2013-05-27. 4 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2013","Nich_VTblu_Site_14","netting","Colletes simulans","species","other_wild_bees",1,640,80,NA,"Date: 2013-05-27. 4 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2013","Nich_VTblu_Site_14","netting","Andrena vicina","species","other_wild_bees",1,640,80,NA,"Date: 2013-05-27. 4 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2013","Nich_VTblu_Site_14","netting","Andrena carlini","species","other_wild_bees",1,640,80,NA,"Date: 2013-05-17. 4 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2013","Nich_VTblu_Site_14","netting","Bombus impatiens","species","bumblebees",1,640,80,NA,"Date: 2013-05-16. 4 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2013","Nich_VTblu_Site_14","netting","Bombus impatiens","species","bumblebees",1,640,80,NA,"Date: 2013-05-16. 4 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2013","Nich_VTblu_Site_14","netting","Bombus impatiens","species","bumblebees",1,640,80,NA,"Date: 2013-05-16. 4 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2013","Nich_VTblu_Site_14","netting","Bombus impatiens","species","bumblebees",1,640,80,NA,"Date: 2013-05-16. 4 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2013","Nich_VTblu_Site_14","netting","Bombus griseocollis","species","bumblebees",1,640,80,NA,"Date: 2013-05-16. 4 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2013","Nich_VTblu_Site_14","netting","Bombus griseocollis","species","bumblebees",1,640,80,NA,"Date: 2013-05-16. 4 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2013","Nich_VTblu_Site_14","netting","Halictus rubicundus","species","other_wild_bees",1,640,80,NA,"Date: 2013-05-16. 4 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2013","Nich_VTblu_Site_14","netting","Andrena rugosa","species","other_wild_bees",1,640,80,NA,"Date: 2013-05-16. 4 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2013","Nich_VTblu_Site_14","netting","Andrena nivalis","species","other_wild_bees",1,640,80,NA,"Date: 2013-05-16. 4 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2013","Nich_VTblu_Site_14","netting","Bombus impatiens","species","bumblebees",1,640,80,NA,"Date: 2013-05-16. 4 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2013","Nich_VTblu_Site_14","netting","Bombus griseocollis","species","bumblebees",1,640,80,NA,"Date: 2013-05-16. 4 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2013","Nich_VTblu_Site_15","netting","Bombus vagans","species","bumblebees",1,480,60,NA,"Date: 2013-06-05. 3 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2013","Nich_VTblu_Site_15","netting","Bombus vagans","species","bumblebees",1,480,60,NA,"Date: 2013-06-05. 3 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2013","Nich_VTblu_Site_15","netting","Lasioglossum quebecense","species","other_wild_bees",1,480,60,NA,"Date: 2013-06-05. 3 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2013","Nich_VTblu_Site_15","netting","Andrena rufosignata","species","other_wild_bees",1,480,60,NA,"Date: 2013-06-05. 3 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2013","Nich_VTblu_Site_15","netting","Lasioglossum quebecense","species","other_wild_bees",1,480,60,NA,"Date: 2013-06-05. 3 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2013","Nich_VTblu_Site_15","netting","Bombus ternarius","species","bumblebees",1,480,60,NA,"Date: 2013-06-05. 3 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2013","Nich_VTblu_Site_15","netting","Andrena rufosignata","species","other_wild_bees",1,480,60,NA,"Date: 2013-06-05. 3 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2013","Nich_VTblu_Site_15","netting","Bombus vagans","species","bumblebees",1,480,60,NA,"Date: 2013-06-05. 3 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2013","Nich_VTblu_Site_15","netting","Andrena frigida","species","other_wild_bees",1,480,60,NA,"Date: 2013-06-05. 3 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2013","Nich_VTblu_Site_15","netting","Andrena carlini","species","other_wild_bees",1,480,60,NA,"Date: 2013-06-05. 3 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2013","Nich_VTblu_Site_15","netting","Bombus ternarius","species","bumblebees",1,480,60,NA,"Date: 2013-06-05. 3 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2013","Nich_VTblu_Site_15","netting","Bombus vagans","species","bumblebees",1,480,60,NA,"Date: 2013-06-05. 3 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2013","Nich_VTblu_Site_15","netting","Bombus ternarius","species","bumblebees",1,480,60,NA,"Date: 2013-06-05. 3 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2013","Nich_VTblu_Site_15","netting","Bombus vagans","species","bumblebees",1,480,60,NA,"Date: 2013-06-05. 3 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2013","Nich_VTblu_Site_15","netting","Bombus bimaculatus","species","bumblebees",1,480,60,NA,"Date: 2013-06-05. 3 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2013","Nich_VTblu_Site_15","netting","Bombus ternarius","species","bumblebees",1,480,60,NA,"Date: 2013-06-05. 3 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2013","Nich_VTblu_Site_15","netting","Bombus bimaculatus","species","bumblebees",1,480,60,NA,"Date: 2013-06-05. 3 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2013","Nich_VTblu_Site_15","netting","Bombus bimaculatus","species","bumblebees",1,480,60,NA,"Date: 2013-06-05. 3 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2013","Nich_VTblu_Site_15","netting","Bombus impatiens","species","bumblebees",1,480,60,NA,"Date: 2013-06-05. 3 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2013","Nich_VTblu_Site_15","netting","Andrena nivalis","species","other_wild_bees",1,480,60,NA,"Date: 2013-06-05. 3 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2013","Nich_VTblu_Site_15","netting","Bombus vagans","species","bumblebees",1,480,60,NA,"Date: 2013-06-05. 3 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2013","Nich_VTblu_Site_15","netting","Bombus vagans","species","bumblebees",1,480,60,NA,"Date: 2013-06-05. 3 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2013","Nich_VTblu_Site_15","netting","Bombus vagans","species","bumblebees",1,480,60,NA,"Date: 2013-06-05. 3 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2013","Nich_VTblu_Site_15","netting","Bombus vagans","species","bumblebees",1,480,60,NA,"Date: 2013-06-05. 3 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2013","Nich_VTblu_Site_15","netting","Bombus vagans","species","bumblebees",1,480,60,NA,"Date: 2013-06-05. 3 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2013","Nich_VTblu_Site_15","netting","Bombus vagans","species","bumblebees",1,480,60,NA,"Date: 2013-06-05. 3 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2013","Nich_VTblu_Site_15","netting","Bombus vagans","species","bumblebees",1,480,60,NA,"Date: 2013-06-05. 3 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2013","Nich_VTblu_Site_15","netting","Andrena vicina","species","other_wild_bees",1,480,60,NA,"Date: 2013-06-05. 3 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2013","Nich_VTblu_Site_15","netting","Bombus impatiens","species","bumblebees",1,480,60,NA,"Date: 2013-06-04. 3 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2013","Nich_VTblu_Site_15","netting","Bombus bimaculatus","species","bumblebees",1,480,60,NA,"Date: 2013-06-04. 3 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2013","Nich_VTblu_Site_15","netting","Bombus vagans","species","bumblebees",1,480,60,NA,"Date: 2013-06-04. 3 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2013","Nich_VTblu_Site_15","netting","Bombus vagans","species","bumblebees",1,480,60,NA,"Date: 2013-06-04. 3 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2013","Nich_VTblu_Site_15","netting","Bombus ternarius","species","bumblebees",1,480,60,NA,"Date: 2013-06-04. 3 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2013","Nich_VTblu_Site_15","netting","Bombus vagans","species","bumblebees",1,480,60,NA,"Date: 2013-06-04. 3 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2013","Nich_VTblu_Site_15","netting","Bombus ternarius","species","bumblebees",1,480,60,NA,"Date: 2013-06-04. 3 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2013","Nich_VTblu_Site_15","netting","Bombus ternarius","species","bumblebees",1,480,60,NA,"Date: 2013-06-04. 3 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2013","Nich_VTblu_Site_15","netting","Bombus bimaculatus","species","bumblebees",1,480,60,NA,"Date: 2013-06-04. 3 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2013","Nich_VTblu_Site_15","netting","Bombus vagans","species","bumblebees",1,480,60,NA,"Date: 2013-06-04. 3 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2013","Nich_VTblu_Site_15","netting","Bombus impatiens","species","bumblebees",1,480,60,NA,"Date: 2013-06-04. 3 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2013","Nich_VTblu_Site_15","netting","Bombus impatiens","species","bumblebees",1,480,60,NA,"Date: 2013-06-04. 3 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2013","Nich_VTblu_Site_15","netting","Bombus ternarius","species","bumblebees",1,480,60,NA,"Date: 2013-06-04. 3 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2013","Nich_VTblu_Site_15","netting","Nomada cuneata","species","other_wild_bees",1,480,60,NA,"Date: 2013-06-04. 3 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2013","Nich_VTblu_Site_15","netting","Bombus vagans","species","bumblebees",1,480,60,NA,"Date: 2013-06-04. 3 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2013","Nich_VTblu_Site_15","netting","Bombus vagans","species","bumblebees",1,480,60,NA,"Date: 2013-06-04. 3 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2013","Nich_VTblu_Site_15","netting","Bombus vagans","species","bumblebees",1,480,60,NA,"Date: 2013-06-04. 3 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2013","Nich_VTblu_Site_15","netting","Bombus vagans","species","bumblebees",1,480,60,NA,"Date: 2013-06-04. 3 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2013","Nich_VTblu_Site_15","netting","Bombus perplexus","species","bumblebees",1,480,60,NA,"Date: 2013-05-28. 3 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2013","Nich_VTblu_Site_15","netting","Bombus bimaculatus","species","bumblebees",1,480,60,NA,"Date: 2013-05-28. 3 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2013","Nich_VTblu_Site_15","netting","Lasioglossum confusus","species","other_wild_bees",1,480,60,NA,"Date: 2013-05-28. 3 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2013","Nich_VTblu_Site_15","netting","Andrena vicina","species","other_wild_bees",1,480,60,NA,"Date: 2013-05-28. 3 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2013","Nich_VTblu_Site_15","netting","Bombus ternarius","species","bumblebees",1,480,60,NA,"Date: 2013-05-28. 3 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2013","Nich_VTblu_Site_15","netting","Bombus vagans","species","bumblebees",1,480,60,NA,"Date: 2013-05-28. 3 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2013","Nich_VTblu_Site_15","netting","Bombus bimaculatus","species","bumblebees",1,480,60,NA,"Date: 2013-05-28. 3 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2013","Nich_VTblu_Site_15","netting","Andrena rufosignata","species","other_wild_bees",1,480,60,NA,"Date: 2013-05-28. 3 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2013","Nich_VTblu_Site_15","netting","Andrena carlini","species","other_wild_bees",1,480,60,NA,"Date: 2013-05-28. 3 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2013","Nich_VTblu_Site_15","netting","Bombus ternarius","species","bumblebees",1,480,60,NA,"Date: 2013-05-28. 3 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2013","Nich_VTblu_Site_15","netting","Bombus ternarius","species","bumblebees",1,480,60,NA,"Date: 2013-05-28. 3 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2013","Nich_VTblu_Site_15","netting","Bombus ternarius","species","bumblebees",1,480,60,NA,"Date: 2013-05-28. 3 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2013","Nich_VTblu_Site_15","netting","Bombus vagans","species","bumblebees",1,480,60,NA,"Date: 2013-05-28. 3 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2013","Nich_VTblu_Site_15","netting","Bombus griseocollis","species","bumblebees",1,480,60,NA,"Date: 2013-05-28. 3 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2013","Nich_VTblu_Site_15","netting","Bombus ternarius","species","bumblebees",1,480,60,NA,"Date: 2013-05-28. 3 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2013","Nich_VTblu_Site_15","netting","Bombus ternarius","species","bumblebees",1,480,60,NA,"Date: 2013-05-28. 3 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2013","Nich_VTblu_Site_15","netting","Bombus vagans","species","bumblebees",1,480,60,NA,"Date: 2013-05-28. 3 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2013","Nich_VTblu_Site_15","netting","Bombus ternarius","species","bumblebees",1,480,60,NA,"Date: 2013-05-28. 3 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2013","Nich_VTblu_Site_15","netting","Bombus impatiens","species","bumblebees",1,480,60,NA,"Date: 2013-05-28. 3 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2013","Nich_VTblu_Site_15","netting","Andrena forbesii","species","other_wild_bees",1,480,60,NA,"Date: 2013-05-28. 3 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2013","Nich_VTblu_Site_15","netting","Bombus ternarius","species","bumblebees",1,480,60,NA,"Date: 2013-05-28. 3 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2013","Nich_VTblu_Site_15","netting","Bombus vagans","species","bumblebees",1,480,60,NA,"Date: 2013-05-28. 3 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2013","Nich_VTblu_Site_15","netting","Sphecodes ranunculi","species","other_wild_bees",1,480,60,NA,"Date: 2013-05-28. 3 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2013","Nich_VTblu_Site_15","netting","Bombus vagans","species","bumblebees",1,480,60,NA,"Date: 2013-05-28. 3 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2013","Nich_VTblu_Site_15","netting","Lasioglossum versans","species","other_wild_bees",1,480,60,NA,"Date: 2013-05-28. 3 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2013","Nich_VTblu_Site_15","netting","Bombus sandersoni","species","bumblebees",1,480,60,NA,"Date: 2013-05-28. 3 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2013","Nich_VTblu_Site_15","netting","Bombus vagans","species","bumblebees",1,480,60,NA,"Date: 2013-05-28. 3 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2013","Nich_VTblu_Site_15","netting","Bombus bimaculatus","species","bumblebees",1,480,60,NA,"Date: 2013-05-28. 3 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2013","Nich_VTblu_Site_15","netting","Bombus vagans","species","bumblebees",1,480,60,NA,"Date: 2013-05-28. 3 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2013","Nich_VTblu_Site_15","netting","Bombus vagans","species","bumblebees",1,480,60,NA,"Date: 2013-05-28. 3 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Charlie_Nicholson_Vaccinium_corymbosum_USA_2013","Nich_VTblu_Site_15","netting","Bombus ternarius","species","bumblebees",1,480,60,NA,"Date: 2013-05-28. 3 sampling rounds (sampling days) per year, 2 aerial netting collections per round; 4 x 20 m transect (80 m^2) for 10 minutes per collection. Nota bene: Honeybees were not collected.",NA
"Christof_Schuepp_Prunus_avium_Switzerland_2011","2","observations","Andrena_haemorrhoa","species","other_wild_bees",1,NA,90,6.999999999,"7 flowers times 30 min .  A group of two to three flowers (rarely one or four) were filmed for 30 min at each site, on three different days during bloom, and resulting in recordings of approx. 225 flower-minutes per site. Exact number of flowers filmed given in field level data file and now used to calculate visitation rates, average under total_sampled_flowers",NA
"Christof_Schuepp_Prunus_avium_Switzerland_2011","2","observations","Diptera_sp.","order","other_flies",4,NA,90,6.999999999,"7 flowers times 30 min .  A group of two to three flowers (rarely one or four) were filmed for 30 min at each site, on three different days during bloom, and resulting in recordings of approx. 225 flower-minutes per site. Exact number of flowers filmed given in field level data file and now used to calculate visitation rates, average under total_sampled_flowers",NA
"Christof_Schuepp_Prunus_avium_Switzerland_2011","2","observations","Ichneumonoidea","superfamily","non_bee_hymenoptera",8,NA,90,6.999999999,"7 flowers times 30 min .  A group of two to three flowers (rarely one or four) were filmed for 30 min at each site, on three different days during bloom, and resulting in recordings of approx. 225 flower-minutes per site. Exact number of flowers filmed given in field level data file and now used to calculate visitation rates, average under total_sampled_flowers",NA
"Christof_Schuepp_Prunus_avium_Switzerland_2011","3","observations","Apis_mellifera","species","honeybees",6,NA,90,6.999999999,"7 flowers times 30 min .  A group of two to three flowers (rarely one or four) were filmed for 30 min at each site, on three different days during bloom, and resulting in recordings of approx. 225 flower-minutes per site. Exact number of flowers filmed given in field level data file and now used to calculate visitation rates, average under total_sampled_flowers",NA
"Christof_Schuepp_Prunus_avium_Switzerland_2011","3","observations","Chalcidoidea_sp","superfamily","non_bee_hymenoptera",1,NA,90,6.999999999,"7 flowers times 30 min .  A group of two to three flowers (rarely one or four) were filmed for 30 min at each site, on three different days during bloom, and resulting in recordings of approx. 225 flower-minutes per site. Exact number of flowers filmed given in field level data file and now used to calculate visitation rates, average under total_sampled_flowers",NA
"Christof_Schuepp_Prunus_avium_Switzerland_2011","3","observations","Empididae_sp.","family","other_flies",1,NA,90,6.999999999,"7 flowers times 30 min .  A group of two to three flowers (rarely one or four) were filmed for 30 min at each site, on three different days during bloom, and resulting in recordings of approx. 225 flower-minutes per site. Exact number of flowers filmed given in field level data file and now used to calculate visitation rates, average under total_sampled_flowers",NA
"Christof_Schuepp_Prunus_avium_Switzerland_2011","4","observations","Diptera_sp.","order","other_flies",2,NA,90,8.000000001,"8 flowers times 30 min .  A group of two to three flowers (rarely one or four) were filmed for 30 min at each site, on three different days during bloom, and resulting in recordings of approx. 225 flower-minutes per site. Exact number of flowers filmed given in field level data file and now used to calculate visitation rates, average under total_sampled_flowers",NA
"Christof_Schuepp_Prunus_avium_Switzerland_2011","4","observations","Empididae_sp.","family","other_flies",2,NA,90,8.000000001,"8 flowers times 30 min .  A group of two to three flowers (rarely one or four) were filmed for 30 min at each site, on three different days during bloom, and resulting in recordings of approx. 225 flower-minutes per site. Exact number of flowers filmed given in field level data file and now used to calculate visitation rates, average under total_sampled_flowers",NA
"Christof_Schuepp_Prunus_avium_Switzerland_2011","4","observations","formicidae","family","non_bee_hymenoptera",1,NA,90,8.000000001,"8 flowers times 30 min .  A group of two to three flowers (rarely one or four) were filmed for 30 min at each site, on three different days during bloom, and resulting in recordings of approx. 225 flower-minutes per site. Exact number of flowers filmed given in field level data file and now used to calculate visitation rates, average under total_sampled_flowers",NA
"Christof_Schuepp_Prunus_avium_Switzerland_2011","6","observations","formicidae","family","non_bee_hymenoptera",1,NA,90,6,"6 flowers times 30 min .  A group of two to three flowers (rarely one or four) were filmed for 30 min at each site, on three different days during bloom, and resulting in recordings of approx. 225 flower-minutes per site. Exact number of flowers filmed given in field level data file and now used to calculate visitation rates, average under total_sampled_flowers",NA
"Christof_Schuepp_Prunus_avium_Switzerland_2011","7","observations","Chalcidoidea_sp","superfamily","non_bee_hymenoptera",3,NA,90,9,"9 flowers times 30 min .  A group of two to three flowers (rarely one or four) were filmed for 30 min at each site, on three different days during bloom, and resulting in recordings of approx. 225 flower-minutes per site. Exact number of flowers filmed given in field level data file and now used to calculate visitation rates, average under total_sampled_flowers",NA
"Christof_Schuepp_Prunus_avium_Switzerland_2011","7","observations","Coleoptera_sp.","order","beetles",2,NA,90,9,"9 flowers times 30 min .  A group of two to three flowers (rarely one or four) were filmed for 30 min at each site, on three different days during bloom, and resulting in recordings of approx. 225 flower-minutes per site. Exact number of flowers filmed given in field level data file and now used to calculate visitation rates, average under total_sampled_flowers",NA
"Christof_Schuepp_Prunus_avium_Switzerland_2011","10","observations","Diptera_sp.","order","other_flies",2,NA,90,6.999999999,"7 flowers times 30 min .  A group of two to three flowers (rarely one or four) were filmed for 30 min at each site, on three different days during bloom, and resulting in recordings of approx. 225 flower-minutes per site. Exact number of flowers filmed given in field level data file and now used to calculate visitation rates, average under total_sampled_flowers",NA
"Christof_Schuepp_Prunus_avium_Switzerland_2011","10","observations","Pompilidae_cf","family","non_bee_hymenoptera",1,NA,90,6.999999999,"7 flowers times 30 min .  A group of two to three flowers (rarely one or four) were filmed for 30 min at each site, on three different days during bloom, and resulting in recordings of approx. 225 flower-minutes per site. Exact number of flowers filmed given in field level data file and now used to calculate visitation rates, average under total_sampled_flowers",NA
"Christof_Schuepp_Prunus_avium_Switzerland_2011","11","observations","Andrena_haemorrhoa","species","other_wild_bees",3,NA,90,9.999999999,"10 flowers times 30 min .  A group of two to three flowers (rarely one or four) were filmed for 30 min at each site, on three different days during bloom, and resulting in recordings of approx. 225 flower-minutes per site. Exact number of flowers filmed given in field level data file and now used to calculate visitation rates, average under total_sampled_flowers",NA
"Christof_Schuepp_Prunus_avium_Switzerland_2011","11","observations","Andrena_nitida","species","other_wild_bees",1,NA,90,9.999999999,"10 flowers times 30 min .  A group of two to three flowers (rarely one or four) were filmed for 30 min at each site, on three different days during bloom, and resulting in recordings of approx. 225 flower-minutes per site. Exact number of flowers filmed given in field level data file and now used to calculate visitation rates, average under total_sampled_flowers",NA
"Christof_Schuepp_Prunus_avium_Switzerland_2011","11","observations","Diptera_sp.","order","other_flies",1,NA,90,9.999999999,"10 flowers times 30 min .  A group of two to three flowers (rarely one or four) were filmed for 30 min at each site, on three different days during bloom, and resulting in recordings of approx. 225 flower-minutes per site. Exact number of flowers filmed given in field level data file and now used to calculate visitation rates, average under total_sampled_flowers",NA
"Christof_Schuepp_Prunus_avium_Switzerland_2011","11","observations","Empididae_sp.","family","other_flies",1,NA,90,9.999999999,"10 flowers times 30 min .  A group of two to three flowers (rarely one or four) were filmed for 30 min at each site, on three different days during bloom, and resulting in recordings of approx. 225 flower-minutes per site. Exact number of flowers filmed given in field level data file and now used to calculate visitation rates, average under total_sampled_flowers",NA
"Christof_Schuepp_Prunus_avium_Switzerland_2011","11","observations","Polistes_sp","genus","non_bee_hymenoptera",1,NA,90,9.999999999,"10 flowers times 30 min .  A group of two to three flowers (rarely one or four) were filmed for 30 min at each site, on three different days during bloom, and resulting in recordings of approx. 225 flower-minutes per site. Exact number of flowers filmed given in field level data file and now used to calculate visitation rates, average under total_sampled_flowers",NA
"Christof_Schuepp_Prunus_avium_Switzerland_2011","12","observations","Andrena_haemorrhoa","species","other_wild_bees",1,NA,90,8.000000001,"8 flowers times 30 min .  A group of two to three flowers (rarely one or four) were filmed for 30 min at each site, on three different days during bloom, and resulting in recordings of approx. 225 flower-minutes per site. Exact number of flowers filmed given in field level data file and now used to calculate visitation rates, average under total_sampled_flowers",NA
"Christof_Schuepp_Prunus_avium_Switzerland_2011","12","observations","Diptera_sp.","order","other_flies",3,NA,90,8.000000001,"8 flowers times 30 min .  A group of two to three flowers (rarely one or four) were filmed for 30 min at each site, on three different days during bloom, and resulting in recordings of approx. 225 flower-minutes per site. Exact number of flowers filmed given in field level data file and now used to calculate visitation rates, average under total_sampled_flowers",NA
"Christof_Schuepp_Prunus_avium_Switzerland_2011","13","observations","Empididae_sp.","family","other_flies",1,NA,90,6.999999999,"7 flowers times 30 min .  A group of two to three flowers (rarely one or four) were filmed for 30 min at each site, on three different days during bloom, and resulting in recordings of approx. 225 flower-minutes per site. Exact number of flowers filmed given in field level data file and now used to calculate visitation rates, average under total_sampled_flowers",NA
"Christof_Schuepp_Prunus_avium_Switzerland_2011","14","observations","Diptera_sp.","order","other_flies",2,NA,90,6,"6 flowers times 30 min .  A group of two to three flowers (rarely one or four) were filmed for 30 min at each site, on three different days during bloom, and resulting in recordings of approx. 225 flower-minutes per site. Exact number of flowers filmed given in field level data file and now used to calculate visitation rates, average under total_sampled_flowers",NA
"Christof_Schuepp_Prunus_avium_Switzerland_2011","16","observations","Andrena_haemorrhoa","species","other_wild_bees",1,NA,90,6,"6 flowers times 30 min .  A group of two to three flowers (rarely one or four) were filmed for 30 min at each site, on three different days during bloom, and resulting in recordings of approx. 225 flower-minutes per site. Exact number of flowers filmed given in field level data file and now used to calculate visitation rates, average under total_sampled_flowers",NA
"Christof_Schuepp_Prunus_avium_Switzerland_2011","16","observations","Coleoptera_sp.","order","beetles",3,NA,90,6,"6 flowers times 30 min .  A group of two to three flowers (rarely one or four) were filmed for 30 min at each site, on three different days during bloom, and resulting in recordings of approx. 225 flower-minutes per site. Exact number of flowers filmed given in field level data file and now used to calculate visitation rates, average under total_sampled_flowers",NA
"Christof_Schuepp_Prunus_avium_Switzerland_2011","16","observations","Diptera_sp.","order","other_flies",3,NA,90,6,"6 flowers times 30 min .  A group of two to three flowers (rarely one or four) were filmed for 30 min at each site, on three different days during bloom, and resulting in recordings of approx. 225 flower-minutes per site. Exact number of flowers filmed given in field level data file and now used to calculate visitation rates, average under total_sampled_flowers",NA
"Christof_Schuepp_Prunus_avium_Switzerland_2011","16","observations","formicidae","family","non_bee_hymenoptera",1,NA,90,6,"6 flowers times 30 min .  A group of two to three flowers (rarely one or four) were filmed for 30 min at each site, on three different days during bloom, and resulting in recordings of approx. 225 flower-minutes per site. Exact number of flowers filmed given in field level data file and now used to calculate visitation rates, average under total_sampled_flowers",NA
"Christof_Schuepp_Prunus_avium_Switzerland_2011","18","observations","Empididae_sp.","family","other_flies",1,NA,90,6.999999999,"7 flowers times 30 min .  A group of two to three flowers (rarely one or four) were filmed for 30 min at each site, on three different days during bloom, and resulting in recordings of approx. 225 flower-minutes per site. Exact number of flowers filmed given in field level data file and now used to calculate visitation rates, average under total_sampled_flowers",NA
"Christof_Schuepp_Prunus_avium_Switzerland_2011","19","observations","Coleoptera_sp.","order","beetles",1,NA,90,8.000000001,"8 flowers times 30 min .  A group of two to three flowers (rarely one or four) were filmed for 30 min at each site, on three different days during bloom, and resulting in recordings of approx. 225 flower-minutes per site. Exact number of flowers filmed given in field level data file and now used to calculate visitation rates, average under total_sampled_flowers",NA
"Christof_Schuepp_Prunus_avium_Switzerland_2011","19","observations","Diptera_sp.","order","other_flies",4,NA,90,8.000000001,"8 flowers times 30 min .  A group of two to three flowers (rarely one or four) were filmed for 30 min at each site, on three different days during bloom, and resulting in recordings of approx. 225 flower-minutes per site. Exact number of flowers filmed given in field level data file and now used to calculate visitation rates, average under total_sampled_flowers",NA
"Christof_Schuepp_Prunus_avium_Switzerland_2011","19","observations","Empididae_sp.","family","other_flies",2,NA,90,8.000000001,"8 flowers times 30 min .  A group of two to three flowers (rarely one or four) were filmed for 30 min at each site, on three different days during bloom, and resulting in recordings of approx. 225 flower-minutes per site. Exact number of flowers filmed given in field level data file and now used to calculate visitation rates, average under total_sampled_flowers",NA
"Christof_Schuepp_Prunus_avium_Switzerland_2011","22","observations","Chalcidoidea_sp","superfamily","non_bee_hymenoptera",4,NA,90,6.999999999,"7 flowers times 30 min .  A group of two to three flowers (rarely one or four) were filmed for 30 min at each site, on three different days during bloom, and resulting in recordings of approx. 225 flower-minutes per site. Exact number of flowers filmed given in field level data file and now used to calculate visitation rates, average under total_sampled_flowers",NA
"Christof_Schuepp_Prunus_avium_Switzerland_2011","22","observations","Diptera_sp.","order","other_flies",2,NA,90,6.999999999,"7 flowers times 30 min .  A group of two to three flowers (rarely one or four) were filmed for 30 min at each site, on three different days during bloom, and resulting in recordings of approx. 225 flower-minutes per site. Exact number of flowers filmed given in field level data file and now used to calculate visitation rates, average under total_sampled_flowers",NA
"Christof_Schuepp_Prunus_avium_Switzerland_2011","22","observations","Empididae_sp.","family","other_flies",1,NA,90,6.999999999,"7 flowers times 30 min .  A group of two to three flowers (rarely one or four) were filmed for 30 min at each site, on three different days during bloom, and resulting in recordings of approx. 225 flower-minutes per site. Exact number of flowers filmed given in field level data file and now used to calculate visitation rates, average under total_sampled_flowers",NA
"Christof_Schuepp_Prunus_avium_Switzerland_2011","22","observations","Ichneumonoidea","superfamily","non_bee_hymenoptera",1,NA,90,6.999999999,"7 flowers times 30 min .  A group of two to three flowers (rarely one or four) were filmed for 30 min at each site, on three different days during bloom, and resulting in recordings of approx. 225 flower-minutes per site. Exact number of flowers filmed given in field level data file and now used to calculate visitation rates, average under total_sampled_flowers",NA
"Christof_Schuepp_Prunus_avium_Switzerland_2011","23","observations","Empididae_sp.","family","other_flies",1,NA,90,6.999999999,"7 flowers times 30 min .  A group of two to three flowers (rarely one or four) were filmed for 30 min at each site, on three different days during bloom, and resulting in recordings of approx. 225 flower-minutes per site. Exact number of flowers filmed given in field level data file and now used to calculate visitation rates, average under total_sampled_flowers",NA
"Christof_Schuepp_Prunus_avium_Switzerland_2011","24","observations","Andrena_gravida","species","other_wild_bees",1,NA,90,8.000000001,"8 flowers times 30 min .  A group of two to three flowers (rarely one or four) were filmed for 30 min at each site, on three different days during bloom, and resulting in recordings of approx. 225 flower-minutes per site. Exact number of flowers filmed given in field level data file and now used to calculate visitation rates, average under total_sampled_flowers",NA
"Christof_Schuepp_Prunus_avium_Switzerland_2011","24","observations","Coleoptera_sp.","order","beetles",4,NA,90,8.000000001,"8 flowers times 30 min .  A group of two to three flowers (rarely one or four) were filmed for 30 min at each site, on three different days during bloom, and resulting in recordings of approx. 225 flower-minutes per site. Exact number of flowers filmed given in field level data file and now used to calculate visitation rates, average under total_sampled_flowers",NA
"Christof_Schuepp_Prunus_avium_Switzerland_2011","24","observations","Diptera_sp.","order","other_flies",1,NA,90,8.000000001,"8 flowers times 30 min .  A group of two to three flowers (rarely one or four) were filmed for 30 min at each site, on three different days during bloom, and resulting in recordings of approx. 225 flower-minutes per site. Exact number of flowers filmed given in field level data file and now used to calculate visitation rates, average under total_sampled_flowers",NA
"Christof_Schuepp_Prunus_avium_Switzerland_2011","25","observations","Andrena_gravida","species","other_wild_bees",1,NA,90,8.000000001,"8 flowers times 30 min .  A group of two to three flowers (rarely one or four) were filmed for 30 min at each site, on three different days during bloom, and resulting in recordings of approx. 225 flower-minutes per site. Exact number of flowers filmed given in field level data file and now used to calculate visitation rates, average under total_sampled_flowers",NA
"Christof_Schuepp_Prunus_avium_Switzerland_2011","25","observations","Andrena_haemorrhoa","species","other_wild_bees",2,NA,90,8.000000001,"8 flowers times 30 min .  A group of two to three flowers (rarely one or four) were filmed for 30 min at each site, on three different days during bloom, and resulting in recordings of approx. 225 flower-minutes per site. Exact number of flowers filmed given in field level data file and now used to calculate visitation rates, average under total_sampled_flowers",NA
"Christof_Schuepp_Prunus_avium_Switzerland_2011","25","observations","Diptera_sp.","order","other_flies",2,NA,90,8.000000001,"8 flowers times 30 min .  A group of two to three flowers (rarely one or four) were filmed for 30 min at each site, on three different days during bloom, and resulting in recordings of approx. 225 flower-minutes per site. Exact number of flowers filmed given in field level data file and now used to calculate visitation rates, average under total_sampled_flowers",NA
"Christof_Schuepp_Prunus_avium_Switzerland_2011","25","observations","Empididae_sp.","family","other_flies",1,NA,90,8.000000001,"8 flowers times 30 min .  A group of two to three flowers (rarely one or four) were filmed for 30 min at each site, on three different days during bloom, and resulting in recordings of approx. 225 flower-minutes per site. Exact number of flowers filmed given in field level data file and now used to calculate visitation rates, average under total_sampled_flowers",NA
"Christof_Schuepp_Prunus_avium_Switzerland_2011","25","observations","formicidae","family","non_bee_hymenoptera",1,NA,90,8.000000001,"8 flowers times 30 min .  A group of two to three flowers (rarely one or four) were filmed for 30 min at each site, on three different days during bloom, and resulting in recordings of approx. 225 flower-minutes per site. Exact number of flowers filmed given in field level data file and now used to calculate visitation rates, average under total_sampled_flowers",NA
"Christof_Schuepp_Prunus_avium_Switzerland_2011","25","observations","syrphidae","family","syrphids",2,NA,90,8.000000001,"8 flowers times 30 min .  A group of two to three flowers (rarely one or four) were filmed for 30 min at each site, on three different days during bloom, and resulting in recordings of approx. 225 flower-minutes per site. Exact number of flowers filmed given in field level data file and now used to calculate visitation rates, average under total_sampled_flowers",NA
"Christof_Schuepp_Prunus_avium_Switzerland_2011","27","observations","Andrena_gravida","species","other_wild_bees",1,NA,90,9.999999999,"10 flowers times 30 min .  A group of two to three flowers (rarely one or four) were filmed for 30 min at each site, on three different days during bloom, and resulting in recordings of approx. 225 flower-minutes per site. Exact number of flowers filmed given in field level data file and now used to calculate visitation rates, average under total_sampled_flowers",NA
"Christof_Schuepp_Prunus_avium_Switzerland_2011","29","observations","Diptera_sp.","order","other_flies",1,NA,90,6,"6 flowers times 30 min .  A group of two to three flowers (rarely one or four) were filmed for 30 min at each site, on three different days during bloom, and resulting in recordings of approx. 225 flower-minutes per site. Exact number of flowers filmed given in field level data file and now used to calculate visitation rates, average under total_sampled_flowers",NA
"Christof_Schuepp_Prunus_avium_Switzerland_2011","29","observations","formicidae","family","non_bee_hymenoptera",1,NA,90,6,"6 flowers times 30 min .  A group of two to three flowers (rarely one or four) were filmed for 30 min at each site, on three different days during bloom, and resulting in recordings of approx. 225 flower-minutes per site. Exact number of flowers filmed given in field level data file and now used to calculate visitation rates, average under total_sampled_flowers",NA
"Christof_Schuepp_Prunus_avium_Switzerland_2011","30","observations","Andrena_gravida","species","other_wild_bees",1,NA,90,5.000000001,"5 flowers times 30 min .  A group of two to three flowers (rarely one or four) were filmed for 30 min at each site, on three different days during bloom, and resulting in recordings of approx. 225 flower-minutes per site. Exact number of flowers filmed given in field level data file and now used to calculate visitation rates, average under total_sampled_flowers",NA
"Christof_Schuepp_Prunus_avium_Switzerland_2011","30","observations","formicidae","family","non_bee_hymenoptera",3,NA,90,5.000000001,"5 flowers times 30 min .  A group of two to three flowers (rarely one or four) were filmed for 30 min at each site, on three different days during bloom, and resulting in recordings of approx. 225 flower-minutes per site. Exact number of flowers filmed given in field level data file and now used to calculate visitation rates, average under total_sampled_flowers",NA
"Christof_Schuepp_Prunus_avium_Switzerland_2011","8","observations","Chalcidoidea","superfamily","non_bee_hymenoptera",1,NA,90,6,"6 flowers times 30 min .  A group of two to three flowers (rarely one or four) were filmed for 30 min at each site, on three different days during bloom, and resulting in recordings of approx. 225 flower-minutes per site. Exact number of flowers filmed given in field level data file and now used to calculate visitation rates, average under total_sampled_flowers",NA
"Christof_Schuepp_Prunus_avium_Switzerland_2011","8","observations","Coleoptera","order","beetles",2,NA,90,6,"6 flowers times 30 min .  A group of two to three flowers (rarely one or four) were filmed for 30 min at each site, on three different days during bloom, and resulting in recordings of approx. 225 flower-minutes per site. Exact number of flowers filmed given in field level data file and now used to calculate visitation rates, average under total_sampled_flowers",NA
"Christof_Schuepp_Prunus_avium_Switzerland_2011","8","observations","Diptera sp.","order","other_flies",2,NA,90,6,"6 flowers times 30 min .  A group of two to three flowers (rarely one or four) were filmed for 30 min at each site, on three different days during bloom, and resulting in recordings of approx. 225 flower-minutes per site. Exact number of flowers filmed given in field level data file and now used to calculate visitation rates, average under total_sampled_flowers",NA
"Christof_Schuepp_Prunus_avium_Switzerland_2011","8","observations","Empididae","family","other_flies",2,NA,90,6,"6 flowers times 30 min .  A group of two to three flowers (rarely one or four) were filmed for 30 min at each site, on three different days during bloom, and resulting in recordings of approx. 225 flower-minutes per site. Exact number of flowers filmed given in field level data file and now used to calculate visitation rates, average under total_sampled_flowers",NA
"Christof_Schuepp_Prunus_avium_Switzerland_2011","9","observations","Diptera sp.","order","other_flies",1,NA,90,8.000000001,"8 flowers times 30 min .  A group of two to three flowers (rarely one or four) were filmed for 30 min at each site, on three different days during bloom, and resulting in recordings of approx. 225 flower-minutes per site. Exact number of flowers filmed given in field level data file and now used to calculate visitation rates, average under total_sampled_flowers",NA
"Christof_Schuepp_Prunus_avium_Switzerland_2011","9","observations","Empididae","family","other_flies",1,NA,90,8.000000001,"8 flowers times 30 min .  A group of two to three flowers (rarely one or four) were filmed for 30 min at each site, on three different days during bloom, and resulting in recordings of approx. 225 flower-minutes per site. Exact number of flowers filmed given in field level data file and now used to calculate visitation rates, average under total_sampled_flowers",NA
"Christof_Schuepp_Prunus_avium_Switzerland_2011","9","observations","Osmia bicornis","species","other_wild_bees",1,NA,90,8.000000001,"8 flowers times 30 min .  A group of two to three flowers (rarely one or four) were filmed for 30 min at each site, on three different days during bloom, and resulting in recordings of approx. 225 flower-minutes per site. Exact number of flowers filmed given in field level data file and now used to calculate visitation rates, average under total_sampled_flowers",NA
"Christof_Schuepp_Prunus_avium_Switzerland_2011","20","observations","Coleoptera","order","beetles",7,NA,90,6.999999999,"7 flowers times 30 min .  A group of two to three flowers (rarely one or four) were filmed for 30 min at each site, on three different days during bloom, and resulting in recordings of approx. 225 flower-minutes per site. Exact number of flowers filmed given in field level data file and now used to calculate visitation rates, average under total_sampled_flowers",NA
"Christof_Schuepp_Prunus_avium_Switzerland_2011","20","observations","Diptera sp.","order","other_flies",6,NA,90,6.999999999,"7 flowers times 30 min .  A group of two to three flowers (rarely one or four) were filmed for 30 min at each site, on three different days during bloom, and resulting in recordings of approx. 225 flower-minutes per site. Exact number of flowers filmed given in field level data file and now used to calculate visitation rates, average under total_sampled_flowers",NA
"Christof_Schuepp_Prunus_avium_Switzerland_2011","20","observations","Heteroptera","suborder","other",1,NA,90,6.999999999,"7 flowers times 30 min .  A group of two to three flowers (rarely one or four) were filmed for 30 min at each site, on three different days during bloom, and resulting in recordings of approx. 225 flower-minutes per site. Exact number of flowers filmed given in field level data file and now used to calculate visitation rates, average under total_sampled_flowers",NA
"Christof_Schuepp_Prunus_avium_Switzerland_2011","20","observations","Osmia bicornis","species","other_wild_bees",1,NA,90,6.999999999,"7 flowers times 30 min .  A group of two to three flowers (rarely one or four) were filmed for 30 min at each site, on three different days during bloom, and resulting in recordings of approx. 225 flower-minutes per site. Exact number of flowers filmed given in field level data file and now used to calculate visitation rates, average under total_sampled_flowers",NA
"Christof_Schuepp_Prunus_avium_Switzerland_2011","21","observations","Coleoptera","order","beetles",2,NA,90,5.000000001,"5 flowers times 30 min .  A group of two to three flowers (rarely one or four) were filmed for 30 min at each site, on three different days during bloom, and resulting in recordings of approx. 225 flower-minutes per site. Exact number of flowers filmed given in field level data file and now used to calculate visitation rates, average under total_sampled_flowers",NA
"Christof_Schuepp_Prunus_avium_Switzerland_2011","26","observations","Andrena haemorrhoa","species","other_wild_bees",4,NA,90,5.000000001,"5 flowers times 30 min .  A group of two to three flowers (rarely one or four) were filmed for 30 min at each site, on three different days during bloom, and resulting in recordings of approx. 225 flower-minutes per site. Exact number of flowers filmed given in field level data file and now used to calculate visitation rates, average under total_sampled_flowers",NA
"Claire_Kremen_Fragaria_ananassa_USA_2012","AR","net_timed_transect","Agapostemon texanus","species","other_wild_bees",1,NA,NA,NA,"6 10 minute transects; 21 pan traps for 5 hrs	2 sampling rounds: Spring and Summer

",NA
"Claire_Kremen_Fragaria_ananassa_USA_2012","RB","net_timed_transect","Agapostemon texanus","species","other_wild_bees",1,NA,NA,NA,"6 10 minute transects; 21 pan traps for 5 hrs	2 sampling rounds: Spring and Summer

",NA
"Claire_Kremen_Fragaria_ananassa_USA_2012","SH","net_timed_transect","Agapostemon texanus","species","other_wild_bees",1,NA,NA,NA,"6 10 minute transects; 21 pan traps for 5 hrs	2 sampling rounds: Spring and Summer

",NA
"Claire_Kremen_Fragaria_ananassa_USA_2012","UC","net_timed_transect","Agapostemon texanus","species","other_wild_bees",1,NA,NA,NA,"6 10 minute transects; 21 pan traps for 5 hrs	2 sampling rounds: Spring and Summer

",NA
"Claire_Kremen_Fragaria_ananassa_USA_2012","C","net_timed_transect","Andrena nigrocaerulea","species","other_wild_bees",3,NA,NA,NA,"6 10 minute transects; 21 pan traps for 5 hrs	2 sampling rounds: Spring and Summer

",NA
"Claire_Kremen_Fragaria_ananassa_USA_2012","S","net_timed_transect","Andrena nigrocaerulea","species","other_wild_bees",1,NA,NA,NA,"6 10 minute transects; 21 pan traps for 5 hrs	2 sampling rounds: Spring and Summer

",NA
"Claire_Kremen_Fragaria_ananassa_USA_2012","RF","net_timed_transect","Bombus californicus","species","bumblebees",1,NA,NA,NA,"6 10 minute transects; 21 pan traps for 5 hrs	2 sampling rounds: Spring and Summer

",NA
"Claire_Kremen_Fragaria_ananassa_USA_2012","C","net_timed_transect","Bombus melanopygus","species","bumblebees",1,NA,NA,NA,"6 10 minute transects; 21 pan traps for 5 hrs	2 sampling rounds: Spring and Summer

",NA
"Claire_Kremen_Fragaria_ananassa_USA_2012","C","net_timed_transect","Bombus rufocinctus","species","bumblebees",2,NA,NA,NA,"6 10 minute transects; 21 pan traps for 5 hrs	2 sampling rounds: Spring and Summer

",NA
"Claire_Kremen_Fragaria_ananassa_USA_2012","AR","net_timed_transect","Bombus vosnesenskii","species","bumblebees",8,NA,NA,NA,"6 10 minute transects; 21 pan traps for 5 hrs	2 sampling rounds: Spring and Summer

",NA
"Claire_Kremen_Fragaria_ananassa_USA_2012","C","net_timed_transect","Bombus vosnesenskii","species","bumblebees",6,NA,NA,NA,"6 10 minute transects; 21 pan traps for 5 hrs	2 sampling rounds: Spring and Summer

",NA
"Claire_Kremen_Fragaria_ananassa_USA_2012","CB","net_timed_transect","Bombus vosnesenskii","species","bumblebees",6,NA,NA,NA,"6 10 minute transects; 21 pan traps for 5 hrs	2 sampling rounds: Spring and Summer

",NA
"Claire_Kremen_Fragaria_ananassa_USA_2012","RB","net_timed_transect","Bombus vosnesenskii","species","bumblebees",1,NA,NA,NA,"6 10 minute transects; 21 pan traps for 5 hrs	2 sampling rounds: Spring and Summer

",NA
"Claire_Kremen_Fragaria_ananassa_USA_2012","RF","net_timed_transect","Bombus vosnesenskii","species","bumblebees",5,NA,NA,NA,"6 10 minute transects; 21 pan traps for 5 hrs	2 sampling rounds: Spring and Summer

",NA
"Claire_Kremen_Fragaria_ananassa_USA_2012","SH","net_timed_transect","Bombus vosnesenskii","species","bumblebees",7,NA,NA,NA,"6 10 minute transects; 21 pan traps for 5 hrs	2 sampling rounds: Spring and Summer

",NA
"Claire_Kremen_Fragaria_ananassa_USA_2012","LE","net_timed_transect","Ceratina acantha","species","other_wild_bees",2,NA,NA,NA,"6 10 minute transects; 21 pan traps for 5 hrs	2 sampling rounds: Spring and Summer

",NA
"Claire_Kremen_Fragaria_ananassa_USA_2012","RB","net_timed_transect","Halictus rubicundus","species","other_wild_bees",1,NA,NA,NA,"6 10 minute transects; 21 pan traps for 5 hrs	2 sampling rounds: Spring and Summer

",NA
"Claire_Kremen_Fragaria_ananassa_USA_2012","AR","net_timed_transect","Halictus tripartitus","species","other_wild_bees",19,NA,NA,NA,"6 10 minute transects; 21 pan traps for 5 hrs	2 sampling rounds: Spring and Summer

",NA
"Claire_Kremen_Fragaria_ananassa_USA_2012","CB","net_timed_transect","Halictus tripartitus","species","other_wild_bees",5,NA,NA,NA,"6 10 minute transects; 21 pan traps for 5 hrs	2 sampling rounds: Spring and Summer

",NA
"Claire_Kremen_Fragaria_ananassa_USA_2012","DS","net_timed_transect","Halictus tripartitus","species","other_wild_bees",1,NA,NA,NA,"6 10 minute transects; 21 pan traps for 5 hrs	2 sampling rounds: Spring and Summer

",NA
"Claire_Kremen_Fragaria_ananassa_USA_2012","F","net_timed_transect","Halictus tripartitus","species","other_wild_bees",31,NA,NA,NA,"6 10 minute transects; 21 pan traps for 5 hrs	2 sampling rounds: Spring and Summer

",NA
"Claire_Kremen_Fragaria_ananassa_USA_2012","FE","net_timed_transect","Halictus tripartitus","species","other_wild_bees",1,NA,NA,NA,"6 10 minute transects; 21 pan traps for 5 hrs	2 sampling rounds: Spring and Summer

",NA
"Claire_Kremen_Fragaria_ananassa_USA_2012","LE","net_timed_transect","Halictus tripartitus","species","other_wild_bees",6,NA,NA,NA,"6 10 minute transects; 21 pan traps for 5 hrs	2 sampling rounds: Spring and Summer

",NA
"Claire_Kremen_Fragaria_ananassa_USA_2012","M","net_timed_transect","Halictus tripartitus","species","other_wild_bees",109,NA,NA,NA,"6 10 minute transects; 21 pan traps for 5 hrs	2 sampling rounds: Spring and Summer

",NA
"Claire_Kremen_Fragaria_ananassa_USA_2012","RB","net_timed_transect","Halictus tripartitus","species","other_wild_bees",4,NA,NA,NA,"6 10 minute transects; 21 pan traps for 5 hrs	2 sampling rounds: Spring and Summer

",NA
"Claire_Kremen_Fragaria_ananassa_USA_2012","RF","net_timed_transect","Halictus tripartitus","species","other_wild_bees",6,NA,NA,NA,"6 10 minute transects; 21 pan traps for 5 hrs	2 sampling rounds: Spring and Summer

",NA
"Claire_Kremen_Fragaria_ananassa_USA_2012","S","net_timed_transect","Halictus tripartitus","species","other_wild_bees",11,NA,NA,NA,"6 10 minute transects; 21 pan traps for 5 hrs	2 sampling rounds: Spring and Summer

",NA
"Claire_Kremen_Fragaria_ananassa_USA_2012","UC","net_timed_transect","Halictus tripartitus","species","other_wild_bees",16,NA,NA,NA,"6 10 minute transects; 21 pan traps for 5 hrs	2 sampling rounds: Spring and Summer

",NA
"Claire_Kremen_Fragaria_ananassa_USA_2012","AR","net_timed_transect","Hylaeus rudbeckiae","species","other_wild_bees",2,NA,NA,NA,"6 10 minute transects; 21 pan traps for 5 hrs	2 sampling rounds: Spring and Summer

",NA
"Claire_Kremen_Fragaria_ananassa_USA_2012","F","net_timed_transect","Hylaeus rudbeckiae","species","other_wild_bees",1,NA,NA,NA,"6 10 minute transects; 21 pan traps for 5 hrs	2 sampling rounds: Spring and Summer

",NA
"Claire_Kremen_Fragaria_ananassa_USA_2012","LE","net_timed_transect","Hylaeus rudbeckiae","species","other_wild_bees",2,NA,NA,NA,"6 10 minute transects; 21 pan traps for 5 hrs	2 sampling rounds: Spring and Summer

",NA
"Claire_Kremen_Fragaria_ananassa_USA_2012","C","net_timed_transect","Lasioglossum (Dialictus) sp. D","morphospecies","other_wild_bees",1,NA,NA,NA,"6 10 minute transects; 21 pan traps for 5 hrs	2 sampling rounds: Spring and Summer

",NA
"Claire_Kremen_Fragaria_ananassa_USA_2012","RF","net_timed_transect","Lasioglossum (Dialictus) sp. D","morphospecies","other_wild_bees",1,NA,NA,NA,"6 10 minute transects; 21 pan traps for 5 hrs	2 sampling rounds: Spring and Summer

",NA
"Claire_Kremen_Fragaria_ananassa_USA_2012","S","net_timed_transect","Lasioglossum (Dialictus) sp. D","morphospecies","other_wild_bees",1,NA,NA,NA,"6 10 minute transects; 21 pan traps for 5 hrs	2 sampling rounds: Spring and Summer

",NA
"Claire_Kremen_Fragaria_ananassa_USA_2012","SH","net_timed_transect","Lasioglossum (Dialictus) sp. D","morphospecies","other_wild_bees",1,NA,NA,NA,"6 10 minute transects; 21 pan traps for 5 hrs	2 sampling rounds: Spring and Summer

",NA
"Claire_Kremen_Fragaria_ananassa_USA_2012","AR","net_timed_transect","Lasioglossum (Dialictus) spp.","morphospecies","other_wild_bees",4,NA,NA,NA,"6 10 minute transects; 21 pan traps for 5 hrs	2 sampling rounds: Spring and Summer

",NA
"Claire_Kremen_Fragaria_ananassa_USA_2012","F","net_timed_transect","Lasioglossum (Dialictus) spp.","morphospecies","other_wild_bees",28,NA,NA,NA,"6 10 minute transects; 21 pan traps for 5 hrs	2 sampling rounds: Spring and Summer

",NA
"Claire_Kremen_Fragaria_ananassa_USA_2012","LE","net_timed_transect","Lasioglossum (Dialictus) spp.","morphospecies","other_wild_bees",2,NA,NA,NA,"6 10 minute transects; 21 pan traps for 5 hrs	2 sampling rounds: Spring and Summer

",NA
"Claire_Kremen_Fragaria_ananassa_USA_2012","M","net_timed_transect","Lasioglossum (Dialictus) spp.","morphospecies","other_wild_bees",3,NA,NA,NA,"6 10 minute transects; 21 pan traps for 5 hrs	2 sampling rounds: Spring and Summer

",NA
"Claire_Kremen_Fragaria_ananassa_USA_2012","RB","net_timed_transect","Lasioglossum (Dialictus) spp.","morphospecies","other_wild_bees",2,NA,NA,NA,"6 10 minute transects; 21 pan traps for 5 hrs	2 sampling rounds: Spring and Summer

",NA
"Claire_Kremen_Fragaria_ananassa_USA_2012","RF","net_timed_transect","Lasioglossum (Dialictus) spp.","morphospecies","other_wild_bees",2,NA,NA,NA,"6 10 minute transects; 21 pan traps for 5 hrs	2 sampling rounds: Spring and Summer

",NA
"Claire_Kremen_Fragaria_ananassa_USA_2012","RH","net_timed_transect","Lasioglossum (Dialictus) spp.","morphospecies","other_wild_bees",1,NA,NA,NA,"6 10 minute transects; 21 pan traps for 5 hrs	2 sampling rounds: Spring and Summer

",NA
"Claire_Kremen_Fragaria_ananassa_USA_2012","TB","net_timed_transect","Lasioglossum (Dialictus) spp.","morphospecies","other_wild_bees",1,NA,NA,NA,"6 10 minute transects; 21 pan traps for 5 hrs	2 sampling rounds: Spring and Summer

",NA
"Claire_Kremen_Fragaria_ananassa_USA_2012","UC","net_timed_transect","Lasioglossum (Dialictus) spp.","morphospecies","other_wild_bees",28,NA,NA,NA,"6 10 minute transects; 21 pan traps for 5 hrs	2 sampling rounds: Spring and Summer

",NA
"Claire_Kremen_Fragaria_ananassa_USA_2012","SH","net_timed_transect","Lasioglossum (Evylaeus) sp. B","morphospecies","other_wild_bees",2,NA,NA,NA,"6 10 minute transects; 21 pan traps for 5 hrs	2 sampling rounds: Spring and Summer

",NA
"Claire_Kremen_Fragaria_ananassa_USA_2012","CB","net_timed_transect","Lasioglossum (Evylaeus) sp. E","morphospecies","other_wild_bees",1,NA,NA,NA,"6 10 minute transects; 21 pan traps for 5 hrs	2 sampling rounds: Spring and Summer

",NA
"Claire_Kremen_Fragaria_ananassa_USA_2012","S","net_timed_transect","Lasioglossum (Evylaeus) sp. E","morphospecies","other_wild_bees",2,NA,NA,NA,"6 10 minute transects; 21 pan traps for 5 hrs	2 sampling rounds: Spring and Summer

",NA
"Claire_Kremen_Fragaria_ananassa_USA_2012","SH","net_timed_transect","Lasioglossum (Evylaeus) sp. E","morphospecies","other_wild_bees",1,NA,NA,NA,"6 10 minute transects; 21 pan traps for 5 hrs	2 sampling rounds: Spring and Summer

",NA
"Claire_Kremen_Fragaria_ananassa_USA_2012","UC","net_timed_transect","Lasioglossum (Evylaeus) sp. E","morphospecies","other_wild_bees",1,NA,NA,NA,"6 10 minute transects; 21 pan traps for 5 hrs	2 sampling rounds: Spring and Summer

",NA
"Claire_Kremen_Fragaria_ananassa_USA_2012","S","net_timed_transect","Lasioglossum (Evylaeus) sp. I","morphospecies","other_wild_bees",1,NA,NA,NA,"6 10 minute transects; 21 pan traps for 5 hrs	2 sampling rounds: Spring and Summer

",NA
"Claire_Kremen_Fragaria_ananassa_USA_2012","FE","net_timed_transect","Lasioglossum (Evylaeus) spp.","genus","other_wild_bees",4,NA,NA,NA,"6 10 minute transects; 21 pan traps for 5 hrs	2 sampling rounds: Spring and Summer

",NA
"Claire_Kremen_Fragaria_ananassa_USA_2012","AR","net_timed_transect","Lasioglossum incompletum","species","other_wild_bees",3,NA,NA,NA,"6 10 minute transects; 21 pan traps for 5 hrs	2 sampling rounds: Spring and Summer

",NA
"Claire_Kremen_Fragaria_ananassa_USA_2012","F","net_timed_transect","Lasioglossum incompletum","species","other_wild_bees",2,NA,NA,NA,"6 10 minute transects; 21 pan traps for 5 hrs	2 sampling rounds: Spring and Summer

",NA
"Claire_Kremen_Fragaria_ananassa_USA_2012","LE","net_timed_transect","Lasioglossum incompletum","species","other_wild_bees",5,NA,NA,NA,"6 10 minute transects; 21 pan traps for 5 hrs	2 sampling rounds: Spring and Summer

",NA
"Claire_Kremen_Fragaria_ananassa_USA_2012","M","net_timed_transect","Lasioglossum incompletum","species","other_wild_bees",1,NA,NA,NA,"6 10 minute transects; 21 pan traps for 5 hrs	2 sampling rounds: Spring and Summer

",NA
"Claire_Kremen_Fragaria_ananassa_USA_2012","RB","net_timed_transect","Lasioglossum incompletum","species","other_wild_bees",5,NA,NA,NA,"6 10 minute transects; 21 pan traps for 5 hrs	2 sampling rounds: Spring and Summer

",NA
"Claire_Kremen_Fragaria_ananassa_USA_2012","RF","net_timed_transect","Lasioglossum incompletum","species","other_wild_bees",5,NA,NA,NA,"6 10 minute transects; 21 pan traps for 5 hrs	2 sampling rounds: Spring and Summer

",NA
"Claire_Kremen_Fragaria_ananassa_USA_2012","RH","net_timed_transect","Lasioglossum incompletum","species","other_wild_bees",4,NA,NA,NA,"6 10 minute transects; 21 pan traps for 5 hrs	2 sampling rounds: Spring and Summer

",NA
"Claire_Kremen_Fragaria_ananassa_USA_2012","S","net_timed_transect","Lasioglossum incompletum","species","other_wild_bees",7,NA,NA,NA,"6 10 minute transects; 21 pan traps for 5 hrs	2 sampling rounds: Spring and Summer

",NA
"Claire_Kremen_Fragaria_ananassa_USA_2012","SH","net_timed_transect","Lasioglossum incompletum","species","other_wild_bees",1,NA,NA,NA,"6 10 minute transects; 21 pan traps for 5 hrs	2 sampling rounds: Spring and Summer

",NA
"Claire_Kremen_Fragaria_ananassa_USA_2012","TB","net_timed_transect","Lasioglossum incompletum","species","other_wild_bees",1,NA,NA,NA,"6 10 minute transects; 21 pan traps for 5 hrs	2 sampling rounds: Spring and Summer

",NA
"Claire_Kremen_Fragaria_ananassa_USA_2012","UC","net_timed_transect","Lasioglossum incompletum","species","other_wild_bees",10,NA,NA,NA,"6 10 minute transects; 21 pan traps for 5 hrs	2 sampling rounds: Spring and Summer

",NA
"Claire_Kremen_Fragaria_ananassa_USA_2012","AR","net_timed_transect","Lasioglossum kincaidii","species","other_wild_bees",8,NA,NA,NA,"6 10 minute transects; 21 pan traps for 5 hrs	2 sampling rounds: Spring and Summer

",NA
"Claire_Kremen_Fragaria_ananassa_USA_2012","C","net_timed_transect","Lasioglossum kincaidii","species","other_wild_bees",1,NA,NA,NA,"6 10 minute transects; 21 pan traps for 5 hrs	2 sampling rounds: Spring and Summer

",NA
"Claire_Kremen_Fragaria_ananassa_USA_2012","CB","net_timed_transect","Lasioglossum kincaidii","species","other_wild_bees",12,NA,NA,NA,"6 10 minute transects; 21 pan traps for 5 hrs	2 sampling rounds: Spring and Summer

",NA
"Claire_Kremen_Fragaria_ananassa_USA_2012","DS","net_timed_transect","Lasioglossum kincaidii","species","other_wild_bees",1,NA,NA,NA,"6 10 minute transects; 21 pan traps for 5 hrs	2 sampling rounds: Spring and Summer

",NA
"Claire_Kremen_Fragaria_ananassa_USA_2012","M","net_timed_transect","Lasioglossum kincaidii","species","other_wild_bees",2,NA,NA,NA,"6 10 minute transects; 21 pan traps for 5 hrs	2 sampling rounds: Spring and Summer

",NA
"Claire_Kremen_Fragaria_ananassa_USA_2012","RB","net_timed_transect","Lasioglossum kincaidii","species","other_wild_bees",2,NA,NA,NA,"6 10 minute transects; 21 pan traps for 5 hrs	2 sampling rounds: Spring and Summer

",NA
"Claire_Kremen_Fragaria_ananassa_USA_2012","RF","net_timed_transect","Lasioglossum kincaidii","species","other_wild_bees",3,NA,NA,NA,"6 10 minute transects; 21 pan traps for 5 hrs	2 sampling rounds: Spring and Summer

",NA
"Claire_Kremen_Fragaria_ananassa_USA_2012","UC","net_timed_transect","Lasioglossum kincaidii","species","other_wild_bees",4,NA,NA,NA,"6 10 minute transects; 21 pan traps for 5 hrs	2 sampling rounds: Spring and Summer

",NA
"Claire_Kremen_Fragaria_ananassa_USA_2012","C","net_timed_transect","Lasioglossum knereri","species","other_wild_bees",4,NA,NA,NA,"6 10 minute transects; 21 pan traps for 5 hrs	2 sampling rounds: Spring and Summer

",NA
"Claire_Kremen_Fragaria_ananassa_USA_2012","LE","net_timed_transect","Lasioglossum knereri","species","other_wild_bees",1,NA,NA,NA,"6 10 minute transects; 21 pan traps for 5 hrs	2 sampling rounds: Spring and Summer

",NA
"Claire_Kremen_Fragaria_ananassa_USA_2012","RB","net_timed_transect","Lasioglossum knereri","species","other_wild_bees",2,NA,NA,NA,"6 10 minute transects; 21 pan traps for 5 hrs	2 sampling rounds: Spring and Summer

",NA
"Claire_Kremen_Fragaria_ananassa_USA_2012","RF","net_timed_transect","Lasioglossum knereri","species","other_wild_bees",1,NA,NA,NA,"6 10 minute transects; 21 pan traps for 5 hrs	2 sampling rounds: Spring and Summer

",NA
"Claire_Kremen_Fragaria_ananassa_USA_2012","RH","net_timed_transect","Lasioglossum knereri","species","other_wild_bees",4,NA,NA,NA,"6 10 minute transects; 21 pan traps for 5 hrs	2 sampling rounds: Spring and Summer

",NA
"Claire_Kremen_Fragaria_ananassa_USA_2012","RK","net_timed_transect","Lasioglossum knereri","species","other_wild_bees",1,NA,NA,NA,"6 10 minute transects; 21 pan traps for 5 hrs	2 sampling rounds: Spring and Summer

",NA
"Claire_Kremen_Fragaria_ananassa_USA_2012","S","net_timed_transect","Lasioglossum knereri","species","other_wild_bees",15,NA,NA,NA,"6 10 minute transects; 21 pan traps for 5 hrs	2 sampling rounds: Spring and Summer

",NA
"Claire_Kremen_Fragaria_ananassa_USA_2012","SH","net_timed_transect","Lasioglossum knereri","species","other_wild_bees",1,NA,NA,NA,"6 10 minute transects; 21 pan traps for 5 hrs	2 sampling rounds: Spring and Summer

",NA
"Claire_Kremen_Fragaria_ananassa_USA_2012","CB","net_timed_transect","Lasioglossum nevadense","species","other_wild_bees",1,NA,NA,NA,"6 10 minute transects; 21 pan traps for 5 hrs	2 sampling rounds: Spring and Summer

",NA
"Claire_Kremen_Fragaria_ananassa_USA_2012","SH","net_timed_transect","Lasioglossum nevadense","species","other_wild_bees",1,NA,NA,NA,"6 10 minute transects; 21 pan traps for 5 hrs	2 sampling rounds: Spring and Summer

",NA
"Claire_Kremen_Fragaria_ananassa_USA_2012","C","net_timed_transect","Lasioglossum olympiae","species","other_wild_bees",1,NA,NA,NA,"6 10 minute transects; 21 pan traps for 5 hrs	2 sampling rounds: Spring and Summer

",NA
"Claire_Kremen_Fragaria_ananassa_USA_2012","S","net_timed_transect","Lasioglossum olympiae","species","other_wild_bees",3,NA,NA,NA,"6 10 minute transects; 21 pan traps for 5 hrs	2 sampling rounds: Spring and Summer

",NA
"Claire_Kremen_Fragaria_ananassa_USA_2012","AR","net_timed_transect","Lasioglossum punctatoventre","species","other_wild_bees",1,NA,NA,NA,"6 10 minute transects; 21 pan traps for 5 hrs	2 sampling rounds: Spring and Summer

",NA
"Claire_Kremen_Fragaria_ananassa_USA_2012","DS","net_timed_transect","Lasioglossum punctatoventre","species","other_wild_bees",1,NA,NA,NA,"6 10 minute transects; 21 pan traps for 5 hrs	2 sampling rounds: Spring and Summer

",NA
"Claire_Kremen_Fragaria_ananassa_USA_2012","SH","net_timed_transect","Lasioglossum punctatoventre","species","other_wild_bees",1,NA,NA,NA,"6 10 minute transects; 21 pan traps for 5 hrs	2 sampling rounds: Spring and Summer

",NA
"Claire_Kremen_Fragaria_ananassa_USA_2012","CB","net_timed_transect","Lasioglossum sedi","species","other_wild_bees",1,NA,NA,NA,"6 10 minute transects; 21 pan traps for 5 hrs	2 sampling rounds: Spring and Summer

",NA
"Claire_Kremen_Fragaria_ananassa_USA_2012","RB","net_timed_transect","Lasioglossum sisymbrii","species","other_wild_bees",1,NA,NA,NA,"6 10 minute transects; 21 pan traps for 5 hrs	2 sampling rounds: Spring and Summer

",NA
"Claire_Kremen_Fragaria_ananassa_USA_2012","C","net_timed_transect","Lasioglossum spp.","genus","other_wild_bees",1,NA,NA,NA,"6 10 minute transects; 21 pan traps for 5 hrs	2 sampling rounds: Spring and Summer

",NA
"Claire_Kremen_Fragaria_ananassa_USA_2012","M","net_timed_transect","Lasioglossum spp.","genus","other_wild_bees",1,NA,NA,NA,"6 10 minute transects; 21 pan traps for 5 hrs	2 sampling rounds: Spring and Summer

",NA
"Claire_Kremen_Fragaria_ananassa_USA_2012","RB","net_timed_transect","Lasioglossum spp.","genus","other_wild_bees",3,NA,NA,NA,"6 10 minute transects; 21 pan traps for 5 hrs	2 sampling rounds: Spring and Summer

",NA
"Claire_Kremen_Fragaria_ananassa_USA_2012","AR","net_timed_transect","Lasioglossum tegulariforme","species","other_wild_bees",15,NA,NA,NA,"6 10 minute transects; 21 pan traps for 5 hrs	2 sampling rounds: Spring and Summer

",NA
"Claire_Kremen_Fragaria_ananassa_USA_2012","CB","net_timed_transect","Lasioglossum tegulariforme","species","other_wild_bees",1,NA,NA,NA,"6 10 minute transects; 21 pan traps for 5 hrs	2 sampling rounds: Spring and Summer

",NA
"Claire_Kremen_Fragaria_ananassa_USA_2012","DS","net_timed_transect","Lasioglossum tegulariforme","species","other_wild_bees",2,NA,NA,NA,"6 10 minute transects; 21 pan traps for 5 hrs	2 sampling rounds: Spring and Summer

",NA
"Claire_Kremen_Fragaria_ananassa_USA_2012","F","net_timed_transect","Lasioglossum tegulariforme","species","other_wild_bees",27,NA,NA,NA,"6 10 minute transects; 21 pan traps for 5 hrs	2 sampling rounds: Spring and Summer

",NA
"Claire_Kremen_Fragaria_ananassa_USA_2012","LE","net_timed_transect","Lasioglossum tegulariforme","species","other_wild_bees",12,NA,NA,NA,"6 10 minute transects; 21 pan traps for 5 hrs	2 sampling rounds: Spring and Summer

",NA
"Claire_Kremen_Fragaria_ananassa_USA_2012","M","net_timed_transect","Lasioglossum tegulariforme","species","other_wild_bees",5,NA,NA,NA,"6 10 minute transects; 21 pan traps for 5 hrs	2 sampling rounds: Spring and Summer

",NA
"Claire_Kremen_Fragaria_ananassa_USA_2012","RB","net_timed_transect","Lasioglossum tegulariforme","species","other_wild_bees",23,NA,NA,NA,"6 10 minute transects; 21 pan traps for 5 hrs	2 sampling rounds: Spring and Summer

",NA
"Claire_Kremen_Fragaria_ananassa_USA_2012","RF","net_timed_transect","Lasioglossum tegulariforme","species","other_wild_bees",3,NA,NA,NA,"6 10 minute transects; 21 pan traps for 5 hrs	2 sampling rounds: Spring and Summer

",NA
"Claire_Kremen_Fragaria_ananassa_USA_2012","RH","net_timed_transect","Lasioglossum tegulariforme","species","other_wild_bees",3,NA,NA,NA,"6 10 minute transects; 21 pan traps for 5 hrs	2 sampling rounds: Spring and Summer

",NA
"Claire_Kremen_Fragaria_ananassa_USA_2012","RK","net_timed_transect","Lasioglossum tegulariforme","species","other_wild_bees",5,NA,NA,NA,"6 10 minute transects; 21 pan traps for 5 hrs	2 sampling rounds: Spring and Summer

",NA
"Claire_Kremen_Fragaria_ananassa_USA_2012","SH","net_timed_transect","Lasioglossum tegulariforme","species","other_wild_bees",2,NA,NA,NA,"6 10 minute transects; 21 pan traps for 5 hrs	2 sampling rounds: Spring and Summer

",NA
"Claire_Kremen_Fragaria_ananassa_USA_2012","UC","net_timed_transect","Lasioglossum tegulariforme","species","other_wild_bees",18,NA,NA,NA,"6 10 minute transects; 21 pan traps for 5 hrs	2 sampling rounds: Spring and Summer

",NA
"Claire_Kremen_Fragaria_ananassa_USA_2012","SH","net_timed_transect","Megachile onobrychidis","species","other_wild_bees",2,NA,NA,NA,"6 10 minute transects; 21 pan traps for 5 hrs	2 sampling rounds: Spring and Summer

",NA
"Claire_Kremen_Fragaria_ananassa_USA_2012","SH","net_timed_transect","Melissodes robustior","species","other_wild_bees",1,NA,NA,NA,"6 10 minute transects; 21 pan traps for 5 hrs	2 sampling rounds: Spring and Summer

",NA
"Claire_Kremen_Fragaria_ananassa_USA_2012","SH","net_timed_transect","Sphecodes sp. CK-SC-1","species_undescribed","other_wild_bees",1,NA,NA,NA,"6 10 minute transects; 21 pan traps for 5 hrs	2 sampling rounds: Spring and Summer

",NA
"Claire_Kremen_Fragaria_ananassa_USA_2012","RF","net_timed_transect","Xeromelecta californica","species","other_wild_bees",1,NA,NA,NA,"6 10 minute transects; 21 pan traps for 5 hrs	2 sampling rounds: Spring and Summer

",NA
"Claire_Kremen_Fragaria_ananassa_USA_2012","SH","pan_trap","(Dialictus) sp. D","morphospecies","other_wild_bees",1,NA,NA,NA,"6 10 minute transects; 21 pan traps for 5 hrs	2 sampling rounds: Spring and Summer

",NA
"Claire_Kremen_Fragaria_ananassa_USA_2012","AR","pan_trap","Agapostemon texanus","species","other_wild_bees",1,NA,NA,NA,"6 10 minute transects; 21 pan traps for 5 hrs	2 sampling rounds: Spring and Summer

",NA
"Claire_Kremen_Fragaria_ananassa_USA_2012","CB","pan_trap","Agapostemon texanus","species","other_wild_bees",1,NA,NA,NA,"6 10 minute transects; 21 pan traps for 5 hrs	2 sampling rounds: Spring and Summer

",NA
"Claire_Kremen_Fragaria_ananassa_USA_2012","RB","pan_trap","Agapostemon texanus","species","other_wild_bees",7,NA,NA,NA,"6 10 minute transects; 21 pan traps for 5 hrs	2 sampling rounds: Spring and Summer

",NA
"Claire_Kremen_Fragaria_ananassa_USA_2012","RF","pan_trap","Agapostemon texanus","species","other_wild_bees",1,NA,NA,NA,"6 10 minute transects; 21 pan traps for 5 hrs	2 sampling rounds: Spring and Summer

",NA
"Claire_Kremen_Fragaria_ananassa_USA_2012","SH","pan_trap","Agapostemon texanus","species","other_wild_bees",9,NA,NA,NA,"6 10 minute transects; 21 pan traps for 5 hrs	2 sampling rounds: Spring and Summer

",NA
"Claire_Kremen_Fragaria_ananassa_USA_2012","UC","pan_trap","Agapostemon texanus","species","other_wild_bees",1,NA,NA,NA,"6 10 minute transects; 21 pan traps for 5 hrs	2 sampling rounds: Spring and Summer

",NA
"Claire_Kremen_Fragaria_ananassa_USA_2012","CB","pan_trap","Andrena barbilabris","species","other_wild_bees",1,NA,NA,NA,"6 10 minute transects; 21 pan traps for 5 hrs	2 sampling rounds: Spring and Summer

",NA
"Claire_Kremen_Fragaria_ananassa_USA_2012","C","pan_trap","Andrena chlorosoma","species","other_wild_bees",2,NA,NA,NA,"6 10 minute transects; 21 pan traps for 5 hrs	2 sampling rounds: Spring and Summer

",NA
"Claire_Kremen_Fragaria_ananassa_USA_2012","C","pan_trap","Bombus californicus","species","bumblebees",2,NA,NA,NA,"6 10 minute transects; 21 pan traps for 5 hrs	2 sampling rounds: Spring and Summer

",NA
"Claire_Kremen_Fragaria_ananassa_USA_2012","RF","pan_trap","Bombus californicus","species","bumblebees",2,NA,NA,NA,"6 10 minute transects; 21 pan traps for 5 hrs	2 sampling rounds: Spring and Summer

",NA
"Claire_Kremen_Fragaria_ananassa_USA_2012","AR","pan_trap","Bombus vosnesenskii","species","bumblebees",1,NA,NA,NA,"6 10 minute transects; 21 pan traps for 5 hrs	2 sampling rounds: Spring and Summer

",NA
"Claire_Kremen_Fragaria_ananassa_USA_2012","CB","pan_trap","Bombus vosnesenskii","species","bumblebees",2,NA,NA,NA,"6 10 minute transects; 21 pan traps for 5 hrs	2 sampling rounds: Spring and Summer

",NA
"Claire_Kremen_Fragaria_ananassa_USA_2012","FE","pan_trap","Bombus vosnesenskii","species","bumblebees",1,NA,NA,NA,"6 10 minute transects; 21 pan traps for 5 hrs	2 sampling rounds: Spring and Summer

",NA
"Claire_Kremen_Fragaria_ananassa_USA_2012","RF","pan_trap","Bombus vosnesenskii","species","bumblebees",1,NA,NA,NA,"6 10 minute transects; 21 pan traps for 5 hrs	2 sampling rounds: Spring and Summer

",NA
"Claire_Kremen_Fragaria_ananassa_USA_2012","SH","pan_trap","Bombus vosnesenskii","species","bumblebees",2,NA,NA,NA,"6 10 minute transects; 21 pan traps for 5 hrs	2 sampling rounds: Spring and Summer

",NA
"Claire_Kremen_Fragaria_ananassa_USA_2012","TB","pan_trap","Diadasia bituberculata","species","other_wild_bees",1,NA,NA,NA,"6 10 minute transects; 21 pan traps for 5 hrs	2 sampling rounds: Spring and Summer

",NA
"Claire_Kremen_Fragaria_ananassa_USA_2012","AR","pan_trap","Halictus ligatus","species","other_wild_bees",1,NA,NA,NA,"6 10 minute transects; 21 pan traps for 5 hrs	2 sampling rounds: Spring and Summer

",NA
"Claire_Kremen_Fragaria_ananassa_USA_2012","AR","pan_trap","Halictus tripartitus","species","other_wild_bees",7,NA,NA,NA,"6 10 minute transects; 21 pan traps for 5 hrs	2 sampling rounds: Spring and Summer

",NA
"Claire_Kremen_Fragaria_ananassa_USA_2012","CB","pan_trap","Halictus tripartitus","species","other_wild_bees",2,NA,NA,NA,"6 10 minute transects; 21 pan traps for 5 hrs	2 sampling rounds: Spring and Summer

",NA
"Claire_Kremen_Fragaria_ananassa_USA_2012","F","pan_trap","Halictus tripartitus","species","other_wild_bees",39,NA,NA,NA,"6 10 minute transects; 21 pan traps for 5 hrs	2 sampling rounds: Spring and Summer

",NA
"Claire_Kremen_Fragaria_ananassa_USA_2012","LE","pan_trap","Halictus tripartitus","species","other_wild_bees",19,NA,NA,NA,"6 10 minute transects; 21 pan traps for 5 hrs	2 sampling rounds: Spring and Summer

",NA
"Claire_Kremen_Fragaria_ananassa_USA_2012","M","pan_trap","Halictus tripartitus","species","other_wild_bees",83,NA,NA,NA,"6 10 minute transects; 21 pan traps for 5 hrs	2 sampling rounds: Spring and Summer

",NA
"Claire_Kremen_Fragaria_ananassa_USA_2012","RB","pan_trap","Halictus tripartitus","species","other_wild_bees",9,NA,NA,NA,"6 10 minute transects; 21 pan traps for 5 hrs	2 sampling rounds: Spring and Summer

",NA
"Claire_Kremen_Fragaria_ananassa_USA_2012","RF","pan_trap","Halictus tripartitus","species","other_wild_bees",5,NA,NA,NA,"6 10 minute transects; 21 pan traps for 5 hrs	2 sampling rounds: Spring and Summer

",NA
"Claire_Kremen_Fragaria_ananassa_USA_2012","S","pan_trap","Halictus tripartitus","species","other_wild_bees",7,NA,NA,NA,"6 10 minute transects; 21 pan traps for 5 hrs	2 sampling rounds: Spring and Summer

",NA
"Claire_Kremen_Fragaria_ananassa_USA_2012","SH","pan_trap","Halictus tripartitus","species","other_wild_bees",10,NA,NA,NA,"6 10 minute transects; 21 pan traps for 5 hrs	2 sampling rounds: Spring and Summer

",NA
"Claire_Kremen_Fragaria_ananassa_USA_2012","UC","pan_trap","Halictus tripartitus","species","other_wild_bees",17,NA,NA,NA,"6 10 minute transects; 21 pan traps for 5 hrs	2 sampling rounds: Spring and Summer

",NA
"Claire_Kremen_Fragaria_ananassa_USA_2012","CB","pan_trap","Hylaeus episcopallis","species","other_wild_bees",1,NA,NA,NA,"6 10 minute transects; 21 pan traps for 5 hrs	2 sampling rounds: Spring and Summer

",NA
"Claire_Kremen_Fragaria_ananassa_USA_2012","RF","pan_trap","Hylaeus rudbeckiae","species","other_wild_bees",1,NA,NA,NA,"6 10 minute transects; 21 pan traps for 5 hrs	2 sampling rounds: Spring and Summer

",NA
"Claire_Kremen_Fragaria_ananassa_USA_2012","DS","pan_trap","Lasioglossum (Dialictus) sp. Ba","morphospecies","other_wild_bees",2,NA,NA,NA,"6 10 minute transects; 21 pan traps for 5 hrs	2 sampling rounds: Spring and Summer

",NA
"Claire_Kremen_Fragaria_ananassa_USA_2012","RB","pan_trap","Lasioglossum (Dialictus) sp. Ba","morphospecies","other_wild_bees",1,NA,NA,NA,"6 10 minute transects; 21 pan traps for 5 hrs	2 sampling rounds: Spring and Summer

",NA
"Claire_Kremen_Fragaria_ananassa_USA_2012","SH","pan_trap","Lasioglossum (Dialictus) sp. Ba","morphospecies","other_wild_bees",1,NA,NA,NA,"6 10 minute transects; 21 pan traps for 5 hrs	2 sampling rounds: Spring and Summer

",NA
"Claire_Kremen_Fragaria_ananassa_USA_2012","RF","pan_trap","Lasioglossum (Dialictus) sp. C","morphospecies","other_wild_bees",1,NA,NA,NA,"6 10 minute transects; 21 pan traps for 5 hrs	2 sampling rounds: Spring and Summer

",NA
"Claire_Kremen_Fragaria_ananassa_USA_2012","C","pan_trap","Lasioglossum (Dialictus) sp. D","morphospecies","other_wild_bees",2,NA,NA,NA,"6 10 minute transects; 21 pan traps for 5 hrs	2 sampling rounds: Spring and Summer

",NA
"Claire_Kremen_Fragaria_ananassa_USA_2012","FE","pan_trap","Lasioglossum (Dialictus) sp. D","morphospecies","other_wild_bees",1,NA,NA,NA,"6 10 minute transects; 21 pan traps for 5 hrs	2 sampling rounds: Spring and Summer

",NA
"Claire_Kremen_Fragaria_ananassa_USA_2012","RF","pan_trap","Lasioglossum (Dialictus) sp. D","morphospecies","other_wild_bees",4,NA,NA,NA,"6 10 minute transects; 21 pan traps for 5 hrs	2 sampling rounds: Spring and Summer

",NA
"Claire_Kremen_Fragaria_ananassa_USA_2012","S","pan_trap","Lasioglossum (Dialictus) sp. D","morphospecies","other_wild_bees",1,NA,NA,NA,"6 10 minute transects; 21 pan traps for 5 hrs	2 sampling rounds: Spring and Summer

",NA
"Claire_Kremen_Fragaria_ananassa_USA_2012","RK","pan_trap","Lasioglossum (Dialictus) sp. E","morpospecies","other_wild_bees",2,NA,NA,NA,"6 10 minute transects; 21 pan traps for 5 hrs	2 sampling rounds: Spring and Summer

",NA
"Claire_Kremen_Fragaria_ananassa_USA_2012","AR","pan_trap","Lasioglossum (Dialictus) spp.","genus","other_wild_bees",4,NA,NA,NA,"6 10 minute transects; 21 pan traps for 5 hrs	2 sampling rounds: Spring and Summer

",NA
"Claire_Kremen_Fragaria_ananassa_USA_2012","F","pan_trap","Lasioglossum (Dialictus) spp.","genus","other_wild_bees",2,NA,NA,NA,"6 10 minute transects; 21 pan traps for 5 hrs	2 sampling rounds: Spring and Summer

",NA
"Claire_Kremen_Fragaria_ananassa_USA_2012","RB","pan_trap","Lasioglossum (Dialictus) spp.","genus","other_wild_bees",4,NA,NA,NA,"6 10 minute transects; 21 pan traps for 5 hrs	2 sampling rounds: Spring and Summer

",NA
"Claire_Kremen_Fragaria_ananassa_USA_2012","UC","pan_trap","Lasioglossum (Dialictus) spp.","genus","other_wild_bees",4,NA,NA,NA,"6 10 minute transects; 21 pan traps for 5 hrs	2 sampling rounds: Spring and Summer

",NA
"Claire_Kremen_Fragaria_ananassa_USA_2012","FE","pan_trap","Lasioglossum (Evylaeus) sp. AS-E1","species_undescribed","other_wild_bees",2,NA,NA,NA,"6 10 minute transects; 21 pan traps for 5 hrs	2 sampling rounds: Spring and Summer

",NA
"Claire_Kremen_Fragaria_ananassa_USA_2012","F","pan_trap","Lasioglossum (Evylaeus) sp. B","morphospecies","other_wild_bees",1,NA,NA,NA,"6 10 minute transects; 21 pan traps for 5 hrs	2 sampling rounds: Spring and Summer

",NA
"Claire_Kremen_Fragaria_ananassa_USA_2012","SH","pan_trap","Lasioglossum (Evylaeus) sp. B","morphospecies","other_wild_bees",23,NA,NA,NA,"6 10 minute transects; 21 pan traps for 5 hrs	2 sampling rounds: Spring and Summer

",NA
"Claire_Kremen_Fragaria_ananassa_USA_2012","F","pan_trap","Lasioglossum (Evylaeus) sp. E","morphospecies","other_wild_bees",1,NA,NA,NA,"6 10 minute transects; 21 pan traps for 5 hrs	2 sampling rounds: Spring and Summer

",NA
"Claire_Kremen_Fragaria_ananassa_USA_2012","LE","pan_trap","Lasioglossum (Evylaeus) sp. E","morphospecies","other_wild_bees",1,NA,NA,NA,"6 10 minute transects; 21 pan traps for 5 hrs	2 sampling rounds: Spring and Summer

",NA
"Claire_Kremen_Fragaria_ananassa_USA_2012","SH","pan_trap","Lasioglossum (Evylaeus) sp. E","morphospecies","other_wild_bees",4,NA,NA,NA,"6 10 minute transects; 21 pan traps for 5 hrs	2 sampling rounds: Spring and Summer

",NA
"Claire_Kremen_Fragaria_ananassa_USA_2012","UC","pan_trap","Lasioglossum (Evylaeus) sp. E","morphospecies","other_wild_bees",2,NA,NA,NA,"6 10 minute transects; 21 pan traps for 5 hrs	2 sampling rounds: Spring and Summer

",NA
"Claire_Kremen_Fragaria_ananassa_USA_2012","FE","pan_trap","Lasioglossum (Evylaeus) sp. I","morphospecies","other_wild_bees",1,NA,NA,NA,"6 10 minute transects; 21 pan traps for 5 hrs	2 sampling rounds: Spring and Summer

",NA
"Claire_Kremen_Fragaria_ananassa_USA_2012","UC","pan_trap","Lasioglossum (Evylaeus) sp. I","morphospecies","other_wild_bees",1,NA,NA,NA,"6 10 minute transects; 21 pan traps for 5 hrs	2 sampling rounds: Spring and Summer

",NA
"Claire_Kremen_Fragaria_ananassa_USA_2012","DS","pan_trap","Lasioglossum (Evylaeus) sp. R","morphospecies","other_wild_bees",1,NA,NA,NA,"6 10 minute transects; 21 pan traps for 5 hrs	2 sampling rounds: Spring and Summer

",NA
"Claire_Kremen_Fragaria_ananassa_USA_2012","SH","pan_trap","Lasioglossum (Evylaeus) sp. R","morphospecies","other_wild_bees",4,NA,NA,NA,"6 10 minute transects; 21 pan traps for 5 hrs	2 sampling rounds: Spring and Summer

",NA
"Claire_Kremen_Fragaria_ananassa_USA_2012","AR","pan_trap","Lasioglossum incompletum","species","other_wild_bees",8,NA,NA,NA,"6 10 minute transects; 21 pan traps for 5 hrs	2 sampling rounds: Spring and Summer

",NA
"Claire_Kremen_Fragaria_ananassa_USA_2012","F","pan_trap","Lasioglossum incompletum","species","other_wild_bees",42,NA,NA,NA,"6 10 minute transects; 21 pan traps for 5 hrs	2 sampling rounds: Spring and Summer

",NA
"Claire_Kremen_Fragaria_ananassa_USA_2012","LE","pan_trap","Lasioglossum incompletum","species","other_wild_bees",25,NA,NA,NA,"6 10 minute transects; 21 pan traps for 5 hrs	2 sampling rounds: Spring and Summer

",NA
"Claire_Kremen_Fragaria_ananassa_USA_2012","M","pan_trap","Lasioglossum incompletum","species","other_wild_bees",13,NA,NA,NA,"6 10 minute transects; 21 pan traps for 5 hrs	2 sampling rounds: Spring and Summer

",NA
"Claire_Kremen_Fragaria_ananassa_USA_2012","RB","pan_trap","Lasioglossum incompletum","species","other_wild_bees",44,NA,NA,NA,"6 10 minute transects; 21 pan traps for 5 hrs	2 sampling rounds: Spring and Summer

",NA
"Claire_Kremen_Fragaria_ananassa_USA_2012","RF","pan_trap","Lasioglossum incompletum","species","other_wild_bees",21,NA,NA,NA,"6 10 minute transects; 21 pan traps for 5 hrs	2 sampling rounds: Spring and Summer

",NA
"Claire_Kremen_Fragaria_ananassa_USA_2012","RH","pan_trap","Lasioglossum incompletum","species","other_wild_bees",7,NA,NA,NA,"6 10 minute transects; 21 pan traps for 5 hrs	2 sampling rounds: Spring and Summer

",NA
"Claire_Kremen_Fragaria_ananassa_USA_2012","S","pan_trap","Lasioglossum incompletum","species","other_wild_bees",17,NA,NA,NA,"6 10 minute transects; 21 pan traps for 5 hrs	2 sampling rounds: Spring and Summer

",NA
"Claire_Kremen_Fragaria_ananassa_USA_2012","SH","pan_trap","Lasioglossum incompletum","species","other_wild_bees",21,NA,NA,NA,"6 10 minute transects; 21 pan traps for 5 hrs	2 sampling rounds: Spring and Summer

",NA
"Claire_Kremen_Fragaria_ananassa_USA_2012","TB","pan_trap","Lasioglossum incompletum","species","other_wild_bees",1,NA,NA,NA,"6 10 minute transects; 21 pan traps for 5 hrs	2 sampling rounds: Spring and Summer

",NA
"Claire_Kremen_Fragaria_ananassa_USA_2012","UC","pan_trap","Lasioglossum incompletum","species","other_wild_bees",24,NA,NA,NA,"6 10 minute transects; 21 pan traps for 5 hrs	2 sampling rounds: Spring and Summer

",NA
"Claire_Kremen_Fragaria_ananassa_USA_2012","AR","pan_trap","Lasioglossum kincaidii","species","other_wild_bees",3,NA,NA,NA,"6 10 minute transects; 21 pan traps for 5 hrs	2 sampling rounds: Spring and Summer

",NA
"Claire_Kremen_Fragaria_ananassa_USA_2012","CB","pan_trap","Lasioglossum kincaidii","species","other_wild_bees",4,NA,NA,NA,"6 10 minute transects; 21 pan traps for 5 hrs	2 sampling rounds: Spring and Summer

",NA
"Claire_Kremen_Fragaria_ananassa_USA_2012","RB","pan_trap","Lasioglossum kincaidii","species","other_wild_bees",3,NA,NA,NA,"6 10 minute transects; 21 pan traps for 5 hrs	2 sampling rounds: Spring and Summer

",NA
"Claire_Kremen_Fragaria_ananassa_USA_2012","SH","pan_trap","Lasioglossum kincaidii","species","other_wild_bees",7,NA,NA,NA,"6 10 minute transects; 21 pan traps for 5 hrs	2 sampling rounds: Spring and Summer

",NA
"Claire_Kremen_Fragaria_ananassa_USA_2012","UC","pan_trap","Lasioglossum kincaidii","species","other_wild_bees",1,NA,NA,NA,"6 10 minute transects; 21 pan traps for 5 hrs	2 sampling rounds: Spring and Summer

",NA
"Claire_Kremen_Fragaria_ananassa_USA_2012","C","pan_trap","Lasioglossum knereri","species","other_wild_bees",6,NA,NA,NA,"6 10 minute transects; 21 pan traps for 5 hrs	2 sampling rounds: Spring and Summer

",NA
"Claire_Kremen_Fragaria_ananassa_USA_2012","CB","pan_trap","Lasioglossum knereri","species","other_wild_bees",1,NA,NA,NA,"6 10 minute transects; 21 pan traps for 5 hrs	2 sampling rounds: Spring and Summer

",NA
"Claire_Kremen_Fragaria_ananassa_USA_2012","RB","pan_trap","Lasioglossum knereri","species","other_wild_bees",2,NA,NA,NA,"6 10 minute transects; 21 pan traps for 5 hrs	2 sampling rounds: Spring and Summer

",NA
"Claire_Kremen_Fragaria_ananassa_USA_2012","RF","pan_trap","Lasioglossum knereri","species","other_wild_bees",5,NA,NA,NA,"6 10 minute transects; 21 pan traps for 5 hrs	2 sampling rounds: Spring and Summer

",NA
"Claire_Kremen_Fragaria_ananassa_USA_2012","RH","pan_trap","Lasioglossum knereri","species","other_wild_bees",3,NA,NA,NA,"6 10 minute transects; 21 pan traps for 5 hrs	2 sampling rounds: Spring and Summer

",NA
"Claire_Kremen_Fragaria_ananassa_USA_2012","S","pan_trap","Lasioglossum knereri","species","other_wild_bees",4,NA,NA,NA,"6 10 minute transects; 21 pan traps for 5 hrs	2 sampling rounds: Spring and Summer

",NA
"Claire_Kremen_Fragaria_ananassa_USA_2012","SH","pan_trap","Lasioglossum nevadense","species","other_wild_bees",5,NA,NA,NA,"6 10 minute transects; 21 pan traps for 5 hrs	2 sampling rounds: Spring and Summer

",NA
"Claire_Kremen_Fragaria_ananassa_USA_2012","S","pan_trap","Lasioglossum punctatoventre","species","other_wild_bees",1,NA,NA,NA,"6 10 minute transects; 21 pan traps for 5 hrs	2 sampling rounds: Spring and Summer

",NA
"Claire_Kremen_Fragaria_ananassa_USA_2012","SH","pan_trap","Lasioglossum punctatoventre","species","other_wild_bees",10,NA,NA,NA,"6 10 minute transects; 21 pan traps for 5 hrs	2 sampling rounds: Spring and Summer

",NA
"Claire_Kremen_Fragaria_ananassa_USA_2012","CB","pan_trap","Lasioglossum sedi","species","other_wild_bees",1,NA,NA,NA,"6 10 minute transects; 21 pan traps for 5 hrs	2 sampling rounds: Spring and Summer

",NA
"Claire_Kremen_Fragaria_ananassa_USA_2012","F","pan_trap","Lasioglossum sedi","species","other_wild_bees",1,NA,NA,NA,"6 10 minute transects; 21 pan traps for 5 hrs	2 sampling rounds: Spring and Summer

",NA
"Claire_Kremen_Fragaria_ananassa_USA_2012","UC","pan_trap","Lasioglossum sedi","species","other_wild_bees",1,NA,NA,NA,"6 10 minute transects; 21 pan traps for 5 hrs	2 sampling rounds: Spring and Summer

",NA
"Claire_Kremen_Fragaria_ananassa_USA_2012","RF","pan_trap","Lasioglossum sisymbrii","species","other_wild_bees",1,NA,NA,NA,"6 10 minute transects; 21 pan traps for 5 hrs	2 sampling rounds: Spring and Summer

",NA
"Claire_Kremen_Fragaria_ananassa_USA_2012","SH","pan_trap","Lasioglossum sisymbrii","species","other_wild_bees",1,NA,NA,NA,"6 10 minute transects; 21 pan traps for 5 hrs	2 sampling rounds: Spring and Summer

",NA
"Claire_Kremen_Fragaria_ananassa_USA_2012","RB","pan_trap","Lasioglossum spp.","genus","other_wild_bees",5,NA,NA,NA,"6 10 minute transects; 21 pan traps for 5 hrs	2 sampling rounds: Spring and Summer

",NA
"Claire_Kremen_Fragaria_ananassa_USA_2012","SH","pan_trap","Lasioglossum spp.","genus","other_wild_bees",1,NA,NA,NA,"6 10 minute transects; 21 pan traps for 5 hrs	2 sampling rounds: Spring and Summer

",NA
"Claire_Kremen_Fragaria_ananassa_USA_2012","AR","pan_trap","Lasioglossum tegulariforme","species","other_wild_bees",18,NA,NA,NA,"6 10 minute transects; 21 pan traps for 5 hrs	2 sampling rounds: Spring and Summer

",NA
"Claire_Kremen_Fragaria_ananassa_USA_2012","CB","pan_trap","Lasioglossum tegulariforme","species","other_wild_bees",6,NA,NA,NA,"6 10 minute transects; 21 pan traps for 5 hrs	2 sampling rounds: Spring and Summer

",NA
"Claire_Kremen_Fragaria_ananassa_USA_2012","DS","pan_trap","Lasioglossum tegulariforme","species","other_wild_bees",4,NA,NA,NA,"6 10 minute transects; 21 pan traps for 5 hrs	2 sampling rounds: Spring and Summer

",NA
"Claire_Kremen_Fragaria_ananassa_USA_2012","F","pan_trap","Lasioglossum tegulariforme","species","other_wild_bees",31,NA,NA,NA,"6 10 minute transects; 21 pan traps for 5 hrs	2 sampling rounds: Spring and Summer

",NA
"Claire_Kremen_Fragaria_ananassa_USA_2012","LE","pan_trap","Lasioglossum tegulariforme","species","other_wild_bees",4,NA,NA,NA,"6 10 minute transects; 21 pan traps for 5 hrs	2 sampling rounds: Spring and Summer

",NA
"Claire_Kremen_Fragaria_ananassa_USA_2012","M","pan_trap","Lasioglossum tegulariforme","species","other_wild_bees",4,NA,NA,NA,"6 10 minute transects; 21 pan traps for 5 hrs	2 sampling rounds: Spring and Summer

",NA
"Claire_Kremen_Fragaria_ananassa_USA_2012","RB","pan_trap","Lasioglossum tegulariforme","species","other_wild_bees",44,NA,NA,NA,"6 10 minute transects; 21 pan traps for 5 hrs	2 sampling rounds: Spring and Summer

",NA
"Claire_Kremen_Fragaria_ananassa_USA_2012","RH","pan_trap","Lasioglossum tegulariforme","species","other_wild_bees",2,NA,NA,NA,"6 10 minute transects; 21 pan traps for 5 hrs	2 sampling rounds: Spring and Summer

",NA
"Claire_Kremen_Fragaria_ananassa_USA_2012","SH","pan_trap","Lasioglossum tegulariforme","species","other_wild_bees",4,NA,NA,NA,"6 10 minute transects; 21 pan traps for 5 hrs	2 sampling rounds: Spring and Summer

",NA
"Claire_Kremen_Fragaria_ananassa_USA_2012","TA","pan_trap","Lasioglossum tegulariforme","species","other_wild_bees",2,NA,NA,NA,"6 10 minute transects; 21 pan traps for 5 hrs	2 sampling rounds: Spring and Summer

",NA
"Claire_Kremen_Fragaria_ananassa_USA_2012","UC","pan_trap","Lasioglossum tegulariforme","species","other_wild_bees",25,NA,NA,NA,"6 10 minute transects; 21 pan traps for 5 hrs	2 sampling rounds: Spring and Summer

",NA
"Claire_Kremen_Fragaria_ananassa_USA_2012","M","pan_trap","Melissodes lupina","species","other_wild_bees",1,NA,NA,NA,"6 10 minute transects; 21 pan traps for 5 hrs	2 sampling rounds: Spring and Summer

",NA
"Claire_Kremen_Fragaria_ananassa_USA_2012","SH","pan_trap","Osmia atrocyanea","species","other_wild_bees",1,NA,NA,NA,"6 10 minute transects; 21 pan traps for 5 hrs	2 sampling rounds: Spring and Summer

",NA
"Claire_Kremen_Fragaria_ananassa_USA_2012","RF","pan_trap","Osmia cyanella","species","other_wild_bees",1,NA,NA,NA,"6 10 minute transects; 21 pan traps for 5 hrs	2 sampling rounds: Spring and Summer

",NA
"Claire_Kremen_Fragaria_ananassa_USA_2012","F","pan_trap","Panurginus sp.","morphospecies","other_wild_bees",1,NA,NA,NA,"6 10 minute transects; 21 pan traps for 5 hrs	2 sampling rounds: Spring and Summer

",NA
"Claire_Kremen_Fragaria_ananassa_USA_2012","AR","pan_trap","Sphecodes sp. B","morphospecies","other_wild_bees",1,NA,NA,NA,"6 10 minute transects; 21 pan traps for 5 hrs	2 sampling rounds: Spring and Summer

",NA
"Claire_Kremen_Fragaria_ananassa_USA_2012","C","net_timed_transect","ant","order","non_bee_hymenoptera",1,NA,NA,NA,"6 10 minute transects; 21 pan traps for 5 hrs	2 sampling rounds: Spring and Summer

",NA
"Claire_Kremen_Fragaria_ananassa_USA_2012","F","net_timed_transect","ant","order","non_bee_hymenoptera",18,NA,NA,NA,"6 10 minute transects; 21 pan traps for 5 hrs	2 sampling rounds: Spring and Summer

",NA
"Claire_Kremen_Fragaria_ananassa_USA_2012","RB","net_timed_transect","ant","order","non_bee_hymenoptera",4,NA,NA,NA,"6 10 minute transects; 21 pan traps for 5 hrs	2 sampling rounds: Spring and Summer

",NA
"Claire_Kremen_Fragaria_ananassa_USA_2012","DS","net_timed_transect","beetle","order","beetles",5,NA,NA,NA,"6 10 minute transects; 21 pan traps for 5 hrs	2 sampling rounds: Spring and Summer

",NA
"Claire_Kremen_Fragaria_ananassa_USA_2012","F","net_timed_transect","beetle","order","beetles",7,NA,NA,NA,"6 10 minute transects; 21 pan traps for 5 hrs	2 sampling rounds: Spring and Summer

",NA
"Claire_Kremen_Fragaria_ananassa_USA_2012","LE","net_timed_transect","beetle","order","beetles",14,NA,NA,NA,"6 10 minute transects; 21 pan traps for 5 hrs	2 sampling rounds: Spring and Summer

",NA
"Claire_Kremen_Fragaria_ananassa_USA_2012","M","net_timed_transect","beetle","order","beetles",9,NA,NA,NA,"6 10 minute transects; 21 pan traps for 5 hrs	2 sampling rounds: Spring and Summer

",NA
"Claire_Kremen_Fragaria_ananassa_USA_2012","RB","net_timed_transect","beetle","order","beetles",21,NA,NA,NA,"6 10 minute transects; 21 pan traps for 5 hrs	2 sampling rounds: Spring and Summer

",NA
"Claire_Kremen_Fragaria_ananassa_USA_2012","S","net_timed_transect","beetle","order","beetles",3,NA,NA,NA,"6 10 minute transects; 21 pan traps for 5 hrs	2 sampling rounds: Spring and Summer

",NA
"Claire_Kremen_Fragaria_ananassa_USA_2012","SH","net_timed_transect","beetle","order","beetles",4,NA,NA,NA,"6 10 minute transects; 21 pan traps for 5 hrs	2 sampling rounds: Spring and Summer

",NA
"Claire_Kremen_Fragaria_ananassa_USA_2012","TB","net_timed_transect","beetle","order","beetles",1,NA,NA,NA,"6 10 minute transects; 21 pan traps for 5 hrs	2 sampling rounds: Spring and Summer

",NA
"Claire_Kremen_Fragaria_ananassa_USA_2012","UC","net_timed_transect","beetle","order","beetles",17,NA,NA,NA,"6 10 minute transects; 21 pan traps for 5 hrs	2 sampling rounds: Spring and Summer

",NA
"Claire_Kremen_Fragaria_ananassa_USA_2012","AR","net_timed_transect","native_bumble_bee","genus","bumblebees",14,NA,NA,NA,"6 10 minute transects; 21 pan traps for 5 hrs	2 sampling rounds: Spring and Summer

",NA
"Claire_Kremen_Fragaria_ananassa_USA_2012","C","net_timed_transect","native_bumble_bee","genus","bumblebees",13,NA,NA,NA,"6 10 minute transects; 21 pan traps for 5 hrs	2 sampling rounds: Spring and Summer

",NA
"Claire_Kremen_Fragaria_ananassa_USA_2012","CB","net_timed_transect","native_bumble_bee","genus","bumblebees",6,NA,NA,NA,"6 10 minute transects; 21 pan traps for 5 hrs	2 sampling rounds: Spring and Summer

",NA
"Claire_Kremen_Fragaria_ananassa_USA_2012","RB","net_timed_transect","native_bumble_bee","genus","bumblebees",2,NA,NA,NA,"6 10 minute transects; 21 pan traps for 5 hrs	2 sampling rounds: Spring and Summer

",NA
"Claire_Kremen_Fragaria_ananassa_USA_2012","RF","net_timed_transect","native_bumble_bee","genus","bumblebees",20,NA,NA,NA,"6 10 minute transects; 21 pan traps for 5 hrs	2 sampling rounds: Spring and Summer

",NA
"Claire_Kremen_Fragaria_ananassa_USA_2012","RH","net_timed_transect","native_bumble_bee","genus","bumblebees",1,NA,NA,NA,"6 10 minute transects; 21 pan traps for 5 hrs	2 sampling rounds: Spring and Summer

",NA
"Claire_Kremen_Fragaria_ananassa_USA_2012","S","net_timed_transect","native_bumble_bee","genus","bumblebees",2,NA,NA,NA,"6 10 minute transects; 21 pan traps for 5 hrs	2 sampling rounds: Spring and Summer

",NA
"Claire_Kremen_Fragaria_ananassa_USA_2012","SH","net_timed_transect","native_bumble_bee","genus","bumblebees",18,NA,NA,NA,"6 10 minute transects; 21 pan traps for 5 hrs	2 sampling rounds: Spring and Summer

",NA
"Claire_Kremen_Fragaria_ananassa_USA_2012","UC","net_timed_transect","native_bumble_bee","genus","bumblebees",1,NA,NA,NA,"6 10 minute transects; 21 pan traps for 5 hrs	2 sampling rounds: Spring and Summer

",NA
"Claire_Kremen_Fragaria_ananassa_USA_2012","AR","net_timed_transect","butterfly","order","other_flies",1,NA,NA,NA,"6 10 minute transects; 21 pan traps for 5 hrs	2 sampling rounds: Spring and Summer

",NA
"Claire_Kremen_Fragaria_ananassa_USA_2012","C","net_timed_transect","butterfly","order","other_flies",1,NA,NA,NA,"6 10 minute transects; 21 pan traps for 5 hrs	2 sampling rounds: Spring and Summer

",NA
"Claire_Kremen_Fragaria_ananassa_USA_2012","CB","net_timed_transect","butterfly","order","other_flies",1,NA,NA,NA,"6 10 minute transects; 21 pan traps for 5 hrs	2 sampling rounds: Spring and Summer

",NA
"Claire_Kremen_Fragaria_ananassa_USA_2012","F","net_timed_transect","butterfly","order","other_flies",1,NA,NA,NA,"6 10 minute transects; 21 pan traps for 5 hrs	2 sampling rounds: Spring and Summer

",NA
"Claire_Kremen_Fragaria_ananassa_USA_2012","LE","net_timed_transect","butterfly","order","other_flies",2,NA,NA,NA,"6 10 minute transects; 21 pan traps for 5 hrs	2 sampling rounds: Spring and Summer

",NA
"Claire_Kremen_Fragaria_ananassa_USA_2012","M","net_timed_transect","butterfly","order","other_flies",1,NA,NA,NA,"6 10 minute transects; 21 pan traps for 5 hrs	2 sampling rounds: Spring and Summer

",NA
"Claire_Kremen_Fragaria_ananassa_USA_2012","RB","net_timed_transect","butterfly","order","other_flies",2,NA,NA,NA,"6 10 minute transects; 21 pan traps for 5 hrs	2 sampling rounds: Spring and Summer

",NA
"Claire_Kremen_Fragaria_ananassa_USA_2012","RF","net_timed_transect","butterfly","order","other_flies",1,NA,NA,NA,"6 10 minute transects; 21 pan traps for 5 hrs	2 sampling rounds: Spring and Summer

",NA
"Claire_Kremen_Fragaria_ananassa_USA_2012","SH","net_timed_transect","butterfly","order","other_flies",11,NA,NA,NA,"6 10 minute transects; 21 pan traps for 5 hrs	2 sampling rounds: Spring and Summer

",NA
"Claire_Kremen_Fragaria_ananassa_USA_2012","UC","net_timed_transect","butterfly","order","other_flies",1,NA,NA,NA,"6 10 minute transects; 21 pan traps for 5 hrs	2 sampling rounds: Spring and Summer

",NA
"Claire_Kremen_Fragaria_ananassa_USA_2012","AR","net_timed_transect","flower_fly","order","syrphids",18,NA,NA,NA,"6 10 minute transects; 21 pan traps for 5 hrs	2 sampling rounds: Spring and Summer

","includes syrphids, calliphorids, tachinids"
"Claire_Kremen_Fragaria_ananassa_USA_2012","C","net_timed_transect","flower_fly","order","syrphids",28,NA,NA,NA,"6 10 minute transects; 21 pan traps for 5 hrs	2 sampling rounds: Spring and Summer

","includes syrphids, calliphorids, tachinids"
"Claire_Kremen_Fragaria_ananassa_USA_2012","CB","net_timed_transect","flower_fly","order","syrphids",4,NA,NA,NA,"6 10 minute transects; 21 pan traps for 5 hrs	2 sampling rounds: Spring and Summer

","includes syrphids, calliphorids, tachinids"
"Claire_Kremen_Fragaria_ananassa_USA_2012","DS","net_timed_transect","flower_fly","order","syrphids",4,NA,NA,NA,"6 10 minute transects; 21 pan traps for 5 hrs	2 sampling rounds: Spring and Summer

","includes syrphids, calliphorids, tachinids"
"Claire_Kremen_Fragaria_ananassa_USA_2012","F","net_timed_transect","flower_fly","order","syrphids",27,NA,NA,NA,"6 10 minute transects; 21 pan traps for 5 hrs	2 sampling rounds: Spring and Summer

","includes syrphids, calliphorids, tachinids"
"Claire_Kremen_Fragaria_ananassa_USA_2012","FE","net_timed_transect","flower_fly","order","syrphids",8,NA,NA,NA,"6 10 minute transects; 21 pan traps for 5 hrs	2 sampling rounds: Spring and Summer

","includes syrphids, calliphorids, tachinids"
"Claire_Kremen_Fragaria_ananassa_USA_2012","LE","net_timed_transect","flower_fly","order","syrphids",1,NA,NA,NA,"6 10 minute transects; 21 pan traps for 5 hrs	2 sampling rounds: Spring and Summer

","includes syrphids, calliphorids, tachinids"
"Claire_Kremen_Fragaria_ananassa_USA_2012","M","net_timed_transect","flower_fly","order","syrphids",12,NA,NA,NA,"6 10 minute transects; 21 pan traps for 5 hrs	2 sampling rounds: Spring and Summer

","includes syrphids, calliphorids, tachinids"
"Claire_Kremen_Fragaria_ananassa_USA_2012","RB","net_timed_transect","flower_fly","order","syrphids",28,NA,NA,NA,"6 10 minute transects; 21 pan traps for 5 hrs	2 sampling rounds: Spring and Summer

","includes syrphids, calliphorids, tachinids"
"Claire_Kremen_Fragaria_ananassa_USA_2012","RF","net_timed_transect","flower_fly","order","syrphids",11,NA,NA,NA,"6 10 minute transects; 21 pan traps for 5 hrs	2 sampling rounds: Spring and Summer

","includes syrphids, calliphorids, tachinids"
"Claire_Kremen_Fragaria_ananassa_USA_2012","RH","net_timed_transect","flower_fly","order","syrphids",6,NA,NA,NA,"6 10 minute transects; 21 pan traps for 5 hrs	2 sampling rounds: Spring and Summer

","includes syrphids, calliphorids, tachinids"
"Claire_Kremen_Fragaria_ananassa_USA_2012","RK","net_timed_transect","flower_fly","order","syrphids",9,NA,NA,NA,"6 10 minute transects; 21 pan traps for 5 hrs	2 sampling rounds: Spring and Summer

","includes syrphids, calliphorids, tachinids"
"Claire_Kremen_Fragaria_ananassa_USA_2012","S","net_timed_transect","flower_fly","order","syrphids",12,NA,NA,NA,"6 10 minute transects; 21 pan traps for 5 hrs	2 sampling rounds: Spring and Summer

","includes syrphids, calliphorids, tachinids"
"Claire_Kremen_Fragaria_ananassa_USA_2012","SH","net_timed_transect","flower_fly","order","syrphids",12,NA,NA,NA,"6 10 minute transects; 21 pan traps for 5 hrs	2 sampling rounds: Spring and Summer

","includes syrphids, calliphorids, tachinids"
"Claire_Kremen_Fragaria_ananassa_USA_2012","TB","net_timed_transect","flower_fly","order","syrphids",11,NA,NA,NA,"6 10 minute transects; 21 pan traps for 5 hrs	2 sampling rounds: Spring and Summer

","includes syrphids, calliphorids, tachinids"
"Claire_Kremen_Fragaria_ananassa_USA_2012","UC","net_timed_transect","flower_fly","order","syrphids",16,NA,NA,NA,"6 10 minute transects; 21 pan traps for 5 hrs	2 sampling rounds: Spring and Summer

","includes syrphids, calliphorids, tachinids"
"Claire_Kremen_Fragaria_ananassa_USA_2012","AR","net_timed_transect","green_leaf_beetle_pest_insect","morphospecies","beetles",21,NA,NA,NA,"6 10 minute transects; 21 pan traps for 5 hrs	2 sampling rounds: Spring and Summer

",NA
"Claire_Kremen_Fragaria_ananassa_USA_2012","C","net_timed_transect","green_leaf_beetle_pest_insect","morphospecies","beetles",2,NA,NA,NA,"6 10 minute transects; 21 pan traps for 5 hrs	2 sampling rounds: Spring and Summer

",NA
"Claire_Kremen_Fragaria_ananassa_USA_2012","CB","net_timed_transect","green_leaf_beetle_pest_insect","morphospecies","beetles",17,NA,NA,NA,"6 10 minute transects; 21 pan traps for 5 hrs	2 sampling rounds: Spring and Summer

",NA
"Claire_Kremen_Fragaria_ananassa_USA_2012","DS","net_timed_transect","green_leaf_beetle_pest_insect","morphospecies","beetles",13,NA,NA,NA,"6 10 minute transects; 21 pan traps for 5 hrs	2 sampling rounds: Spring and Summer

",NA
"Claire_Kremen_Fragaria_ananassa_USA_2012","F","net_timed_transect","green_leaf_beetle_pest_insect","morphospecies","beetles",29,NA,NA,NA,"6 10 minute transects; 21 pan traps for 5 hrs	2 sampling rounds: Spring and Summer

",NA
"Claire_Kremen_Fragaria_ananassa_USA_2012","FE","net_timed_transect","green_leaf_beetle_pest_insect","morphospecies","beetles",2,NA,NA,NA,"6 10 minute transects; 21 pan traps for 5 hrs	2 sampling rounds: Spring and Summer

",NA
"Claire_Kremen_Fragaria_ananassa_USA_2012","LE","net_timed_transect","green_leaf_beetle_pest_insect","morphospecies","beetles",15,NA,NA,NA,"6 10 minute transects; 21 pan traps for 5 hrs	2 sampling rounds: Spring and Summer

",NA
"Claire_Kremen_Fragaria_ananassa_USA_2012","M","net_timed_transect","green_leaf_beetle_pest_insect","morphospecies","beetles",66,NA,NA,NA,"6 10 minute transects; 21 pan traps for 5 hrs	2 sampling rounds: Spring and Summer

",NA
"Claire_Kremen_Fragaria_ananassa_USA_2012","RB","net_timed_transect","green_leaf_beetle_pest_insect","morphospecies","beetles",24,NA,NA,NA,"6 10 minute transects; 21 pan traps for 5 hrs	2 sampling rounds: Spring and Summer

",NA
"Claire_Kremen_Fragaria_ananassa_USA_2012","RF","net_timed_transect","green_leaf_beetle_pest_insect","morphospecies","beetles",15,NA,NA,NA,"6 10 minute transects; 21 pan traps for 5 hrs	2 sampling rounds: Spring and Summer

",NA
"Claire_Kremen_Fragaria_ananassa_USA_2012","RH","net_timed_transect","green_leaf_beetle_pest_insect","morphospecies","beetles",2,NA,NA,NA,"6 10 minute transects; 21 pan traps for 5 hrs	2 sampling rounds: Spring and Summer

",NA
"Claire_Kremen_Fragaria_ananassa_USA_2012","RK","net_timed_transect","green_leaf_beetle_pest_insect","morphospecies","beetles",1,NA,NA,NA,"6 10 minute transects; 21 pan traps for 5 hrs	2 sampling rounds: Spring and Summer

",NA
"Claire_Kremen_Fragaria_ananassa_USA_2012","S","net_timed_transect","green_leaf_beetle_pest_insect","morphospecies","beetles",25,NA,NA,NA,"6 10 minute transects; 21 pan traps for 5 hrs	2 sampling rounds: Spring and Summer

",NA
"Claire_Kremen_Fragaria_ananassa_USA_2012","SH","net_timed_transect","green_leaf_beetle_pest_insect","morphospecies","beetles",3,NA,NA,NA,"6 10 minute transects; 21 pan traps for 5 hrs	2 sampling rounds: Spring and Summer

",NA
"Claire_Kremen_Fragaria_ananassa_USA_2012","TB","net_timed_transect","green_leaf_beetle_pest_insect","morphospecies","beetles",3,NA,NA,NA,"6 10 minute transects; 21 pan traps for 5 hrs	2 sampling rounds: Spring and Summer

",NA
"Claire_Kremen_Fragaria_ananassa_USA_2012","UC","net_timed_transect","green_leaf_beetle_pest_insect","morphospecies","beetles",21,NA,NA,NA,"6 10 minute transects; 21 pan traps for 5 hrs	2 sampling rounds: Spring and Summer

",NA
"Claire_Kremen_Fragaria_ananassa_USA_2012","AR","net_timed_transect","honey_bee","genus","honeybees",89,NA,NA,NA,"6 10 minute transects; 21 pan traps for 5 hrs	2 sampling rounds: Spring and Summer

",NA
"Claire_Kremen_Fragaria_ananassa_USA_2012","C","net_timed_transect","honey_bee","genus","honeybees",52,NA,NA,NA,"6 10 minute transects; 21 pan traps for 5 hrs	2 sampling rounds: Spring and Summer

",NA
"Claire_Kremen_Fragaria_ananassa_USA_2012","CB","net_timed_transect","honey_bee","genus","honeybees",99,NA,NA,NA,"6 10 minute transects; 21 pan traps for 5 hrs	2 sampling rounds: Spring and Summer

",NA
"Claire_Kremen_Fragaria_ananassa_USA_2012","DS","net_timed_transect","honey_bee","genus","honeybees",413,NA,NA,NA,"6 10 minute transects; 21 pan traps for 5 hrs	2 sampling rounds: Spring and Summer

",NA
"Claire_Kremen_Fragaria_ananassa_USA_2012","F","net_timed_transect","honey_bee","genus","honeybees",233,NA,NA,NA,"6 10 minute transects; 21 pan traps for 5 hrs	2 sampling rounds: Spring and Summer

",NA
"Claire_Kremen_Fragaria_ananassa_USA_2012","FE","net_timed_transect","honey_bee","genus","honeybees",144,NA,NA,NA,"6 10 minute transects; 21 pan traps for 5 hrs	2 sampling rounds: Spring and Summer

",NA
"Claire_Kremen_Fragaria_ananassa_USA_2012","LE","net_timed_transect","honey_bee","genus","honeybees",237,NA,NA,NA,"6 10 minute transects; 21 pan traps for 5 hrs	2 sampling rounds: Spring and Summer

",NA
"Claire_Kremen_Fragaria_ananassa_USA_2012","M","net_timed_transect","honey_bee","genus","honeybees",84,NA,NA,NA,"6 10 minute transects; 21 pan traps for 5 hrs	2 sampling rounds: Spring and Summer

",NA
"Claire_Kremen_Fragaria_ananassa_USA_2012","RB","net_timed_transect","honey_bee","genus","honeybees",21,NA,NA,NA,"6 10 minute transects; 21 pan traps for 5 hrs	2 sampling rounds: Spring and Summer

",NA
"Claire_Kremen_Fragaria_ananassa_USA_2012","RF","net_timed_transect","honey_bee","genus","honeybees",40,NA,NA,NA,"6 10 minute transects; 21 pan traps for 5 hrs	2 sampling rounds: Spring and Summer

",NA
"Claire_Kremen_Fragaria_ananassa_USA_2012","RH","net_timed_transect","honey_bee","genus","honeybees",6,NA,NA,NA,"6 10 minute transects; 21 pan traps for 5 hrs	2 sampling rounds: Spring and Summer

",NA
"Claire_Kremen_Fragaria_ananassa_USA_2012","RK","net_timed_transect","honey_bee","genus","honeybees",128,NA,NA,NA,"6 10 minute transects; 21 pan traps for 5 hrs	2 sampling rounds: Spring and Summer

",NA
"Claire_Kremen_Fragaria_ananassa_USA_2012","S","net_timed_transect","honey_bee","genus","honeybees",157,NA,NA,NA,"6 10 minute transects; 21 pan traps for 5 hrs	2 sampling rounds: Spring and Summer

",NA
"Claire_Kremen_Fragaria_ananassa_USA_2012","SH","net_timed_transect","honey_bee","genus","honeybees",79,NA,NA,NA,"6 10 minute transects; 21 pan traps for 5 hrs	2 sampling rounds: Spring and Summer

",NA
"Claire_Kremen_Fragaria_ananassa_USA_2012","TB","net_timed_transect","honey_bee","genus","honeybees",72,NA,NA,NA,"6 10 minute transects; 21 pan traps for 5 hrs	2 sampling rounds: Spring and Summer

",NA
"Claire_Kremen_Fragaria_ananassa_USA_2012","UC","net_timed_transect","honey_bee","genus","honeybees",255,NA,NA,NA,"6 10 minute transects; 21 pan traps for 5 hrs	2 sampling rounds: Spring and Summer

",NA
"Claire_Kremen_Fragaria_ananassa_USA_2012","AR","net_timed_transect","native_bee","Family","other_wild_bees",81,NA,NA,NA,"6 10 minute transects; 21 pan traps for 5 hrs	2 sampling rounds: Spring and Summer

",NA
"Claire_Kremen_Fragaria_ananassa_USA_2012","C","net_timed_transect","native_bee","Family","other_wild_bees",22,NA,NA,NA,"6 10 minute transects; 21 pan traps for 5 hrs	2 sampling rounds: Spring and Summer

",NA
"Claire_Kremen_Fragaria_ananassa_USA_2012","CB","net_timed_transect","native_bee","Family","other_wild_bees",48,NA,NA,NA,"6 10 minute transects; 21 pan traps for 5 hrs	2 sampling rounds: Spring and Summer

",NA
"Claire_Kremen_Fragaria_ananassa_USA_2012","DS","net_timed_transect","native_bee","Family","other_wild_bees",6,NA,NA,NA,"6 10 minute transects; 21 pan traps for 5 hrs	2 sampling rounds: Spring and Summer

",NA
"Claire_Kremen_Fragaria_ananassa_USA_2012","F","net_timed_transect","native_bee","Family","other_wild_bees",236,NA,NA,NA,"6 10 minute transects; 21 pan traps for 5 hrs	2 sampling rounds: Spring and Summer

",NA
"Claire_Kremen_Fragaria_ananassa_USA_2012","FE","net_timed_transect","native_bee","Family","other_wild_bees",9,NA,NA,NA,"6 10 minute transects; 21 pan traps for 5 hrs	2 sampling rounds: Spring and Summer

",NA
"Claire_Kremen_Fragaria_ananassa_USA_2012","LE","net_timed_transect","native_bee","Family","other_wild_bees",46,NA,NA,NA,"6 10 minute transects; 21 pan traps for 5 hrs	2 sampling rounds: Spring and Summer

",NA
"Claire_Kremen_Fragaria_ananassa_USA_2012","M","net_timed_transect","native_bee","Family","other_wild_bees",249,NA,NA,NA,"6 10 minute transects; 21 pan traps for 5 hrs	2 sampling rounds: Spring and Summer

",NA
"Claire_Kremen_Fragaria_ananassa_USA_2012","RB","net_timed_transect","native_bee","Family","other_wild_bees",69,NA,NA,NA,"6 10 minute transects; 21 pan traps for 5 hrs	2 sampling rounds: Spring and Summer

",NA
"Claire_Kremen_Fragaria_ananassa_USA_2012","RF","net_timed_transect","native_bee","Family","other_wild_bees",50,NA,NA,NA,"6 10 minute transects; 21 pan traps for 5 hrs	2 sampling rounds: Spring and Summer

",NA
"Claire_Kremen_Fragaria_ananassa_USA_2012","RH","net_timed_transect","native_bee","Family","other_wild_bees",12,NA,NA,NA,"6 10 minute transects; 21 pan traps for 5 hrs	2 sampling rounds: Spring and Summer

",NA
"Claire_Kremen_Fragaria_ananassa_USA_2012","RK","net_timed_transect","native_bee","Family","other_wild_bees",9,NA,NA,NA,"6 10 minute transects; 21 pan traps for 5 hrs	2 sampling rounds: Spring and Summer

",NA
"Claire_Kremen_Fragaria_ananassa_USA_2012","S","net_timed_transect","native_bee","Family","other_wild_bees",73,NA,NA,NA,"6 10 minute transects; 21 pan traps for 5 hrs	2 sampling rounds: Spring and Summer

",NA
"Claire_Kremen_Fragaria_ananassa_USA_2012","SH","net_timed_transect","native_bee","Family","other_wild_bees",34,NA,NA,NA,"6 10 minute transects; 21 pan traps for 5 hrs	2 sampling rounds: Spring and Summer

",NA
"Claire_Kremen_Fragaria_ananassa_USA_2012","TB","net_timed_transect","native_bee","Family","other_wild_bees",2,NA,NA,NA,"6 10 minute transects; 21 pan traps for 5 hrs	2 sampling rounds: Spring and Summer

",NA
"Claire_Kremen_Fragaria_ananassa_USA_2012","UC","net_timed_transect","native_bee","Family","other_wild_bees",112,NA,NA,NA,"6 10 minute transects; 21 pan traps for 5 hrs	2 sampling rounds: Spring and Summer

",NA
"Claire_Kremen_Fragaria_ananassa_USA_2012","AR","net_timed_transect","other","order","other",4,NA,NA,NA,"6 10 minute transects; 21 pan traps for 5 hrs	2 sampling rounds: Spring and Summer

","incl. true bug pest lygus and true bug nat enemy geocoris"
"Claire_Kremen_Fragaria_ananassa_USA_2012","C","net_timed_transect","other","order","other",11,NA,NA,NA,"6 10 minute transects; 21 pan traps for 5 hrs	2 sampling rounds: Spring and Summer

","incl. true bug pest lygus and true bug nat enemy geocoris"
"Claire_Kremen_Fragaria_ananassa_USA_2012","CB","net_timed_transect","other","order","other",3,NA,NA,NA,"6 10 minute transects; 21 pan traps for 5 hrs	2 sampling rounds: Spring and Summer

","incl. true bug pest lygus and true bug nat enemy geocoris"
"Claire_Kremen_Fragaria_ananassa_USA_2012","DS","net_timed_transect","other","order","other",12,NA,NA,NA,"6 10 minute transects; 21 pan traps for 5 hrs	2 sampling rounds: Spring and Summer

","incl. true bug pest lygus and true bug nat enemy geocoris"
"Claire_Kremen_Fragaria_ananassa_USA_2012","F","net_timed_transect","other","order","other",73,NA,NA,NA,"6 10 minute transects; 21 pan traps for 5 hrs	2 sampling rounds: Spring and Summer

","incl. true bug pest lygus and true bug nat enemy geocoris"
"Claire_Kremen_Fragaria_ananassa_USA_2012","FE","net_timed_transect","other","order","other",1,NA,NA,NA,"6 10 minute transects; 21 pan traps for 5 hrs	2 sampling rounds: Spring and Summer

","incl. true bug pest lygus and true bug nat enemy geocoris"
"Claire_Kremen_Fragaria_ananassa_USA_2012","LE","net_timed_transect","other","order","other",30,NA,NA,NA,"6 10 minute transects; 21 pan traps for 5 hrs	2 sampling rounds: Spring and Summer

","incl. true bug pest lygus and true bug nat enemy geocoris"
"Claire_Kremen_Fragaria_ananassa_USA_2012","M","net_timed_transect","other","order","other",6,NA,NA,NA,"6 10 minute transects; 21 pan traps for 5 hrs	2 sampling rounds: Spring and Summer

","incl. true bug pest lygus and true bug nat enemy geocoris"
"Claire_Kremen_Fragaria_ananassa_USA_2012","RB","net_timed_transect","other","order","other",8,NA,NA,NA,"6 10 minute transects; 21 pan traps for 5 hrs	2 sampling rounds: Spring and Summer

","incl. true bug pest lygus and true bug nat enemy geocoris"
"Claire_Kremen_Fragaria_ananassa_USA_2012","RF","net_timed_transect","other","order","other",9,NA,NA,NA,"6 10 minute transects; 21 pan traps for 5 hrs	2 sampling rounds: Spring and Summer

","incl. true bug pest lygus and true bug nat enemy geocoris"
"Claire_Kremen_Fragaria_ananassa_USA_2012","RH","net_timed_transect","other","order","other",3,NA,NA,NA,"6 10 minute transects; 21 pan traps for 5 hrs	2 sampling rounds: Spring and Summer

","incl. true bug pest lygus and true bug nat enemy geocoris"
"Claire_Kremen_Fragaria_ananassa_USA_2012","RK","net_timed_transect","other","order","other",6,NA,NA,NA,"6 10 minute transects; 21 pan traps for 5 hrs	2 sampling rounds: Spring and Summer

","incl. true bug pest lygus and true bug nat enemy geocoris"
"Claire_Kremen_Fragaria_ananassa_USA_2012","S","net_timed_transect","other","order","other",6,NA,NA,NA,"6 10 minute transects; 21 pan traps for 5 hrs	2 sampling rounds: Spring and Summer

","incl. true bug pest lygus and true bug nat enemy geocoris"
"Claire_Kremen_Fragaria_ananassa_USA_2012","SH","net_timed_transect","other","order","other",9,NA,NA,NA,"6 10 minute transects; 21 pan traps for 5 hrs	2 sampling rounds: Spring and Summer

","incl. true bug pest lygus and true bug nat enemy geocoris"
"Claire_Kremen_Fragaria_ananassa_USA_2012","TB","net_timed_transect","other","order","other",10,NA,NA,NA,"6 10 minute transects; 21 pan traps for 5 hrs	2 sampling rounds: Spring and Summer

","incl. true bug pest lygus and true bug nat enemy geocoris"
"Claire_Kremen_Fragaria_ananassa_USA_2012","UC","net_timed_transect","other","order","other",8,NA,NA,NA,"6 10 minute transects; 21 pan traps for 5 hrs	2 sampling rounds: Spring and Summer

","incl. true bug pest lygus and true bug nat enemy geocoris"
"Claire_Kremen_Fragaria_ananassa_USA_2012","AR","net_timed_transect","other_fly","order","other_flies",72,NA,NA,NA,"6 10 minute transects; 21 pan traps for 5 hrs	2 sampling rounds: Spring and Summer

","inlcudes muscids and drosophila"
"Claire_Kremen_Fragaria_ananassa_USA_2012","C","net_timed_transect","other_fly","order","other_flies",9,NA,NA,NA,"6 10 minute transects; 21 pan traps for 5 hrs	2 sampling rounds: Spring and Summer

","inlcudes muscids and drosophila"
"Claire_Kremen_Fragaria_ananassa_USA_2012","CB","net_timed_transect","other_fly","order","other_flies",26,NA,NA,NA,"6 10 minute transects; 21 pan traps for 5 hrs	2 sampling rounds: Spring and Summer

","inlcudes muscids and drosophila"
"Claire_Kremen_Fragaria_ananassa_USA_2012","DS","net_timed_transect","other_fly","order","other_flies",2,NA,NA,NA,"6 10 minute transects; 21 pan traps for 5 hrs	2 sampling rounds: Spring and Summer

","inlcudes muscids and drosophila"
"Claire_Kremen_Fragaria_ananassa_USA_2012","F","net_timed_transect","other_fly","order","other_flies",49,NA,NA,NA,"6 10 minute transects; 21 pan traps for 5 hrs	2 sampling rounds: Spring and Summer

","inlcudes muscids and drosophila"
"Claire_Kremen_Fragaria_ananassa_USA_2012","LE","net_timed_transect","other_fly","order","other_flies",13,NA,NA,NA,"6 10 minute transects; 21 pan traps for 5 hrs	2 sampling rounds: Spring and Summer

","inlcudes muscids and drosophila"
"Claire_Kremen_Fragaria_ananassa_USA_2012","M","net_timed_transect","other_fly","order","other_flies",6,NA,NA,NA,"6 10 minute transects; 21 pan traps for 5 hrs	2 sampling rounds: Spring and Summer

","inlcudes muscids and drosophila"
"Claire_Kremen_Fragaria_ananassa_USA_2012","RB","net_timed_transect","other_fly","order","other_flies",9,NA,NA,NA,"6 10 minute transects; 21 pan traps for 5 hrs	2 sampling rounds: Spring and Summer

","inlcudes muscids and drosophila"
"Claire_Kremen_Fragaria_ananassa_USA_2012","RF","net_timed_transect","other_fly","order","other_flies",25,NA,NA,NA,"6 10 minute transects; 21 pan traps for 5 hrs	2 sampling rounds: Spring and Summer

","inlcudes muscids and drosophila"
"Claire_Kremen_Fragaria_ananassa_USA_2012","RH","net_timed_transect","other_fly","order","other_flies",45,NA,NA,NA,"6 10 minute transects; 21 pan traps for 5 hrs	2 sampling rounds: Spring and Summer

","inlcudes muscids and drosophila"
"Claire_Kremen_Fragaria_ananassa_USA_2012","RK","net_timed_transect","other_fly","order","other_flies",77,NA,NA,NA,"6 10 minute transects; 21 pan traps for 5 hrs	2 sampling rounds: Spring and Summer

","inlcudes muscids and drosophila"
"Claire_Kremen_Fragaria_ananassa_USA_2012","S","net_timed_transect","other_fly","order","other_flies",10,NA,NA,NA,"6 10 minute transects; 21 pan traps for 5 hrs	2 sampling rounds: Spring and Summer

","inlcudes muscids and drosophila"
"Claire_Kremen_Fragaria_ananassa_USA_2012","SH","net_timed_transect","other_fly","order","other_flies",8,NA,NA,NA,"6 10 minute transects; 21 pan traps for 5 hrs	2 sampling rounds: Spring and Summer

","inlcudes muscids and drosophila"
"Claire_Kremen_Fragaria_ananassa_USA_2012","TB","net_timed_transect","other_fly","order","other_flies",41,NA,NA,NA,"6 10 minute transects; 21 pan traps for 5 hrs	2 sampling rounds: Spring and Summer

","inlcudes muscids and drosophila"
"Claire_Kremen_Fragaria_ananassa_USA_2012","UC","net_timed_transect","other_fly","order","other_flies",29,NA,NA,NA,"6 10 minute transects; 21 pan traps for 5 hrs	2 sampling rounds: Spring and Summer

","inlcudes muscids and drosophila"
"Claire_Kremen_Fragaria_ananassa_USA_2012","C","net_timed_transect","vespids","Family","non_bee_hymenoptera",1,NA,NA,NA,"6 10 minute transects; 21 pan traps for 5 hrs	2 sampling rounds: Spring and Summer

",NA
"Claire_Kremen_Fragaria_ananassa_USA_2012","CB","net_timed_transect","vespids","Family","non_bee_hymenoptera",2,NA,NA,NA,"6 10 minute transects; 21 pan traps for 5 hrs	2 sampling rounds: Spring and Summer

",NA
"Claire_Kremen_Fragaria_ananassa_USA_2012","S","net_timed_transect","vespids","Family","non_bee_hymenoptera",1,NA,NA,NA,"6 10 minute transects; 21 pan traps for 5 hrs	2 sampling rounds: Spring and Summer

",NA
"Claire_Kremen_Fragaria_ananassa_USA_2012","AR","net_timed_transect","parasitoid_wasp","Family","non_bee_hymenoptera",1,NA,NA,NA,"6 10 minute transects; 21 pan traps for 5 hrs	2 sampling rounds: Spring and Summer

",NA
"Claire_Kremen_Fragaria_ananassa_USA_2012","CB","net_timed_transect","parasitoid_wasp","Family","non_bee_hymenoptera",1,NA,NA,NA,"6 10 minute transects; 21 pan traps for 5 hrs	2 sampling rounds: Spring and Summer

",NA
"Claire_Kremen_Fragaria_ananassa_USA_2012","F","net_timed_transect","parasitoid_wasp","Family","non_bee_hymenoptera",1,NA,NA,NA,"6 10 minute transects; 21 pan traps for 5 hrs	2 sampling rounds: Spring and Summer

",NA
"Claire_Kremen_Fragaria_ananassa_USA_2012","M","net_timed_transect","parasitoid_wasp","Family","non_bee_hymenoptera",1,NA,NA,NA,"6 10 minute transects; 21 pan traps for 5 hrs	2 sampling rounds: Spring and Summer

",NA
"Claire_Kremen_Fragaria_ananassa_USA_2012","SH","net_timed_transect","parasitoid_wasp","Family","non_bee_hymenoptera",4,NA,NA,NA,"6 10 minute transects; 21 pan traps for 5 hrs	2 sampling rounds: Spring and Summer

",NA
"Claire_Kremen_Fragaria_ananassa_USA_2012","UC","net_timed_transect","parasitoid_wasp","Family","non_bee_hymenoptera",6,NA,NA,NA,"6 10 minute transects; 21 pan traps for 5 hrs	2 sampling rounds: Spring and Summer

",NA
"Claire_Kremen_Fragaria_ananassa_USA_2012","CB",NA,"ant","order","non_bee_hymenoptera",2,NA,NA,NA,"6 10 minute transects; 21 pan traps for 5 hrs	2 sampling rounds: Spring and Summer

",NA
"Claire_Kremen_Fragaria_ananassa_USA_2012","C",NA,"beetle","order","beetles",2,NA,NA,NA,"6 10 minute transects; 21 pan traps for 5 hrs	2 sampling rounds: Spring and Summer

",NA
"Claire_Kremen_Fragaria_ananassa_USA_2012","F",NA,"beetle","order","beetles",12,NA,NA,NA,"6 10 minute transects; 21 pan traps for 5 hrs	2 sampling rounds: Spring and Summer

",NA
"Claire_Kremen_Fragaria_ananassa_USA_2012","FE",NA,"beetle","order","beetles",1,NA,NA,NA,"6 10 minute transects; 21 pan traps for 5 hrs	2 sampling rounds: Spring and Summer

",NA
"Claire_Kremen_Fragaria_ananassa_USA_2012","M",NA,"beetle","order","beetles",1,NA,NA,NA,"6 10 minute transects; 21 pan traps for 5 hrs	2 sampling rounds: Spring and Summer

",NA
"Claire_Kremen_Fragaria_ananassa_USA_2012","RB",NA,"beetle","order","beetles",1,NA,NA,NA,"6 10 minute transects; 21 pan traps for 5 hrs	2 sampling rounds: Spring and Summer

",NA
"Claire_Kremen_Fragaria_ananassa_USA_2012","RF",NA,"beetle","order","beetles",2,NA,NA,NA,"6 10 minute transects; 21 pan traps for 5 hrs	2 sampling rounds: Spring and Summer

",NA
"Claire_Kremen_Fragaria_ananassa_USA_2012","SH",NA,"beetle","order","beetles",3,NA,NA,NA,"6 10 minute transects; 21 pan traps for 5 hrs	2 sampling rounds: Spring and Summer

",NA
"Claire_Kremen_Fragaria_ananassa_USA_2012","TB",NA,"beetle","order","beetles",2,NA,NA,NA,"6 10 minute transects; 21 pan traps for 5 hrs	2 sampling rounds: Spring and Summer

",NA
"Claire_Kremen_Fragaria_ananassa_USA_2012","UC",NA,"beetle","order","beetles",5,NA,NA,NA,"6 10 minute transects; 21 pan traps for 5 hrs	2 sampling rounds: Spring and Summer

",NA
"Claire_Kremen_Fragaria_ananassa_USA_2012","AR",NA,"native_bumble_bee","genus","bumblebees",1,NA,NA,NA,"6 10 minute transects; 21 pan traps for 5 hrs	2 sampling rounds: Spring and Summer

",NA
"Claire_Kremen_Fragaria_ananassa_USA_2012","C",NA,"native_bumble_bee","genus","bumblebees",2,NA,NA,NA,"6 10 minute transects; 21 pan traps for 5 hrs	2 sampling rounds: Spring and Summer

",NA
"Claire_Kremen_Fragaria_ananassa_USA_2012","CB",NA,"native_bumble_bee","genus","bumblebees",2,NA,NA,NA,"6 10 minute transects; 21 pan traps for 5 hrs	2 sampling rounds: Spring and Summer

",NA
"Claire_Kremen_Fragaria_ananassa_USA_2012","FE",NA,"native_bumble_bee","genus","bumblebees",1,NA,NA,NA,"6 10 minute transects; 21 pan traps for 5 hrs	2 sampling rounds: Spring and Summer

",NA
"Claire_Kremen_Fragaria_ananassa_USA_2012","RF",NA,"native_bumble_bee","genus","bumblebees",3,NA,NA,NA,"6 10 minute transects; 21 pan traps for 5 hrs	2 sampling rounds: Spring and Summer

",NA
"Claire_Kremen_Fragaria_ananassa_USA_2012","SH",NA,"native_bumble_bee","genus","bumblebees",2,NA,NA,NA,"6 10 minute transects; 21 pan traps for 5 hrs	2 sampling rounds: Spring and Summer

",NA
"Claire_Kremen_Fragaria_ananassa_USA_2012","F",NA,"butterfly","order","other_flies",3,NA,NA,NA,"6 10 minute transects; 21 pan traps for 5 hrs	2 sampling rounds: Spring and Summer

",NA
"Claire_Kremen_Fragaria_ananassa_USA_2012","FE",NA,"butterfly","order","other_flies",1,NA,NA,NA,"6 10 minute transects; 21 pan traps for 5 hrs	2 sampling rounds: Spring and Summer

",NA
"Claire_Kremen_Fragaria_ananassa_USA_2012","LE",NA,"butterfly","order","other_flies",1,NA,NA,NA,"6 10 minute transects; 21 pan traps for 5 hrs	2 sampling rounds: Spring and Summer

",NA
"Claire_Kremen_Fragaria_ananassa_USA_2012","RB",NA,"butterfly","order","other_flies",2,NA,NA,NA,"6 10 minute transects; 21 pan traps for 5 hrs	2 sampling rounds: Spring and Summer

",NA
"Claire_Kremen_Fragaria_ananassa_USA_2012","RF",NA,"butterfly","order","other_flies",1,NA,NA,NA,"6 10 minute transects; 21 pan traps for 5 hrs	2 sampling rounds: Spring and Summer

",NA
"Claire_Kremen_Fragaria_ananassa_USA_2012","UC",NA,"butterfly","order","other_flies",4,NA,NA,NA,"6 10 minute transects; 21 pan traps for 5 hrs	2 sampling rounds: Spring and Summer

",NA
"Claire_Kremen_Fragaria_ananassa_USA_2012","AR",NA,"flower_fly","order","syrphids",2,NA,NA,NA,"6 10 minute transects; 21 pan traps for 5 hrs	2 sampling rounds: Spring and Summer

","includes syrphids, calliphorids, tachinids"
"Claire_Kremen_Fragaria_ananassa_USA_2012","C",NA,"flower_fly","order","syrphids",2,NA,NA,NA,"6 10 minute transects; 21 pan traps for 5 hrs	2 sampling rounds: Spring and Summer

","includes syrphids, calliphorids, tachinids"
"Claire_Kremen_Fragaria_ananassa_USA_2012","F",NA,"flower_fly","order","syrphids",11,NA,NA,NA,"6 10 minute transects; 21 pan traps for 5 hrs	2 sampling rounds: Spring and Summer

","includes syrphids, calliphorids, tachinids"
"Claire_Kremen_Fragaria_ananassa_USA_2012","FE",NA,"flower_fly","order","syrphids",1,NA,NA,NA,"6 10 minute transects; 21 pan traps for 5 hrs	2 sampling rounds: Spring and Summer

","includes syrphids, calliphorids, tachinids"
"Claire_Kremen_Fragaria_ananassa_USA_2012","LE",NA,"flower_fly","order","syrphids",3,NA,NA,NA,"6 10 minute transects; 21 pan traps for 5 hrs	2 sampling rounds: Spring and Summer

","includes syrphids, calliphorids, tachinids"
"Claire_Kremen_Fragaria_ananassa_USA_2012","M",NA,"flower_fly","order","syrphids",3,NA,NA,NA,"6 10 minute transects; 21 pan traps for 5 hrs	2 sampling rounds: Spring and Summer

","includes syrphids, calliphorids, tachinids"
"Claire_Kremen_Fragaria_ananassa_USA_2012","RB",NA,"flower_fly","order","syrphids",1,NA,NA,NA,"6 10 minute transects; 21 pan traps for 5 hrs	2 sampling rounds: Spring and Summer

","includes syrphids, calliphorids, tachinids"
"Claire_Kremen_Fragaria_ananassa_USA_2012","RF",NA,"flower_fly","order","syrphids",6,NA,NA,NA,"6 10 minute transects; 21 pan traps for 5 hrs	2 sampling rounds: Spring and Summer

","includes syrphids, calliphorids, tachinids"
"Claire_Kremen_Fragaria_ananassa_USA_2012","S",NA,"flower_fly","order","syrphids",3,NA,NA,NA,"6 10 minute transects; 21 pan traps for 5 hrs	2 sampling rounds: Spring and Summer

","includes syrphids, calliphorids, tachinids"
"Claire_Kremen_Fragaria_ananassa_USA_2012","SH",NA,"flower_fly","order","syrphids",8,NA,NA,NA,"6 10 minute transects; 21 pan traps for 5 hrs	2 sampling rounds: Spring and Summer

","includes syrphids, calliphorids, tachinids"
"Claire_Kremen_Fragaria_ananassa_USA_2012","UC",NA,"flower_fly","order","syrphids",3,NA,NA,NA,"6 10 minute transects; 21 pan traps for 5 hrs	2 sampling rounds: Spring and Summer

","includes syrphids, calliphorids, tachinids"
"Claire_Kremen_Fragaria_ananassa_USA_2012","LE",NA,"green_leaf_beetle_pest_insect","morphospecies","beetles",1,NA,NA,NA,"6 10 minute transects; 21 pan traps for 5 hrs	2 sampling rounds: Spring and Summer

",NA
"Claire_Kremen_Fragaria_ananassa_USA_2012","M",NA,"green_leaf_beetle_pest_insect","morphospecies","beetles",2,NA,NA,NA,"6 10 minute transects; 21 pan traps for 5 hrs	2 sampling rounds: Spring and Summer

",NA
"Claire_Kremen_Fragaria_ananassa_USA_2012","RF",NA,"green_leaf_beetle_pest_insect","morphospecies","beetles",1,NA,NA,NA,"6 10 minute transects; 21 pan traps for 5 hrs	2 sampling rounds: Spring and Summer

",NA
"Claire_Kremen_Fragaria_ananassa_USA_2012","AR",NA,"honey_bee","genus","honeybees",1,NA,NA,NA,"6 10 minute transects; 21 pan traps for 5 hrs	2 sampling rounds: Spring and Summer

",NA
"Claire_Kremen_Fragaria_ananassa_USA_2012","C",NA,"honey_bee","genus","honeybees",1,NA,NA,NA,"6 10 minute transects; 21 pan traps for 5 hrs	2 sampling rounds: Spring and Summer

",NA
"Claire_Kremen_Fragaria_ananassa_USA_2012","DS",NA,"honey_bee","genus","honeybees",31,NA,NA,NA,"6 10 minute transects; 21 pan traps for 5 hrs	2 sampling rounds: Spring and Summer

",NA
"Claire_Kremen_Fragaria_ananassa_USA_2012","F",NA,"honey_bee","genus","honeybees",8,NA,NA,NA,"6 10 minute transects; 21 pan traps for 5 hrs	2 sampling rounds: Spring and Summer

",NA
"Claire_Kremen_Fragaria_ananassa_USA_2012","FE",NA,"honey_bee","genus","honeybees",1,NA,NA,NA,"6 10 minute transects; 21 pan traps for 5 hrs	2 sampling rounds: Spring and Summer

",NA
"Claire_Kremen_Fragaria_ananassa_USA_2012","LE",NA,"honey_bee","genus","honeybees",9,NA,NA,NA,"6 10 minute transects; 21 pan traps for 5 hrs	2 sampling rounds: Spring and Summer

",NA
"Claire_Kremen_Fragaria_ananassa_USA_2012","M",NA,"honey_bee","genus","honeybees",1,NA,NA,NA,"6 10 minute transects; 21 pan traps for 5 hrs	2 sampling rounds: Spring and Summer

",NA
"Claire_Kremen_Fragaria_ananassa_USA_2012","RB",NA,"honey_bee","genus","honeybees",4,NA,NA,NA,"6 10 minute transects; 21 pan traps for 5 hrs	2 sampling rounds: Spring and Summer

",NA
"Claire_Kremen_Fragaria_ananassa_USA_2012","RF",NA,"honey_bee","genus","honeybees",3,NA,NA,NA,"6 10 minute transects; 21 pan traps for 5 hrs	2 sampling rounds: Spring and Summer

",NA
"Claire_Kremen_Fragaria_ananassa_USA_2012","RK",NA,"honey_bee","genus","honeybees",1,NA,NA,NA,"6 10 minute transects; 21 pan traps for 5 hrs	2 sampling rounds: Spring and Summer

",NA
"Claire_Kremen_Fragaria_ananassa_USA_2012","S",NA,"honey_bee","genus","honeybees",2,NA,NA,NA,"6 10 minute transects; 21 pan traps for 5 hrs	2 sampling rounds: Spring and Summer

",NA
"Claire_Kremen_Fragaria_ananassa_USA_2012","SH",NA,"honey_bee","genus","honeybees",6,NA,NA,NA,"6 10 minute transects; 21 pan traps for 5 hrs	2 sampling rounds: Spring and Summer

",NA
"Claire_Kremen_Fragaria_ananassa_USA_2012","TB",NA,"honey_bee","genus","honeybees",2,NA,NA,NA,"6 10 minute transects; 21 pan traps for 5 hrs	2 sampling rounds: Spring and Summer

",NA
"Claire_Kremen_Fragaria_ananassa_USA_2012","UC",NA,"honey_bee","genus","honeybees",8,NA,NA,NA,"6 10 minute transects; 21 pan traps for 5 hrs	2 sampling rounds: Spring and Summer

",NA
"Claire_Kremen_Fragaria_ananassa_USA_2012","AR",NA,"native_bee","Family","other_wild_bees",43,NA,NA,NA,"6 10 minute transects; 21 pan traps for 5 hrs	2 sampling rounds: Spring and Summer

",NA
"Claire_Kremen_Fragaria_ananassa_USA_2012","C",NA,"native_bee","Family","other_wild_bees",10,NA,NA,NA,"6 10 minute transects; 21 pan traps for 5 hrs	2 sampling rounds: Spring and Summer

",NA
"Claire_Kremen_Fragaria_ananassa_USA_2012","CB",NA,"native_bee","Family","other_wild_bees",18,NA,NA,NA,"6 10 minute transects; 21 pan traps for 5 hrs	2 sampling rounds: Spring and Summer

",NA
"Claire_Kremen_Fragaria_ananassa_USA_2012","DS",NA,"native_bee","Family","other_wild_bees",7,NA,NA,NA,"6 10 minute transects; 21 pan traps for 5 hrs	2 sampling rounds: Spring and Summer

",NA
"Claire_Kremen_Fragaria_ananassa_USA_2012","F",NA,"native_bee","Family","other_wild_bees",120,NA,NA,NA,"6 10 minute transects; 21 pan traps for 5 hrs	2 sampling rounds: Spring and Summer

",NA
"Claire_Kremen_Fragaria_ananassa_USA_2012","FE",NA,"native_bee","Family","other_wild_bees",4,NA,NA,NA,"6 10 minute transects; 21 pan traps for 5 hrs	2 sampling rounds: Spring and Summer

",NA
"Claire_Kremen_Fragaria_ananassa_USA_2012","LE",NA,"native_bee","Family","other_wild_bees",49,NA,NA,NA,"6 10 minute transects; 21 pan traps for 5 hrs	2 sampling rounds: Spring and Summer

",NA
"Claire_Kremen_Fragaria_ananassa_USA_2012","M",NA,"native_bee","Family","other_wild_bees",101,NA,NA,NA,"6 10 minute transects; 21 pan traps for 5 hrs	2 sampling rounds: Spring and Summer

",NA
"Claire_Kremen_Fragaria_ananassa_USA_2012","RB",NA,"native_bee","Family","other_wild_bees",121,NA,NA,NA,"6 10 minute transects; 21 pan traps for 5 hrs	2 sampling rounds: Spring and Summer

",NA
"Claire_Kremen_Fragaria_ananassa_USA_2012","RF",NA,"native_bee","Family","other_wild_bees",41,NA,NA,NA,"6 10 minute transects; 21 pan traps for 5 hrs	2 sampling rounds: Spring and Summer

",NA
"Claire_Kremen_Fragaria_ananassa_USA_2012","RH",NA,"native_bee","Family","other_wild_bees",12,NA,NA,NA,"6 10 minute transects; 21 pan traps for 5 hrs	2 sampling rounds: Spring and Summer

",NA
"Claire_Kremen_Fragaria_ananassa_USA_2012","RK",NA,"native_bee","Family","other_wild_bees",2,NA,NA,NA,"6 10 minute transects; 21 pan traps for 5 hrs	2 sampling rounds: Spring and Summer

",NA
"Claire_Kremen_Fragaria_ananassa_USA_2012","S",NA,"native_bee","Family","other_wild_bees",32,NA,NA,NA,"6 10 minute transects; 21 pan traps for 5 hrs	2 sampling rounds: Spring and Summer

",NA
"Claire_Kremen_Fragaria_ananassa_USA_2012","SH",NA,"native_bee","Family","other_wild_bees",102,NA,NA,NA,"6 10 minute transects; 21 pan traps for 5 hrs	2 sampling rounds: Spring and Summer

",NA
"Claire_Kremen_Fragaria_ananassa_USA_2012","TB",NA,"native_bee","Family","other_wild_bees",2,NA,NA,NA,"6 10 minute transects; 21 pan traps for 5 hrs	2 sampling rounds: Spring and Summer

",NA
"Claire_Kremen_Fragaria_ananassa_USA_2012","UC",NA,"native_bee","Family","other_wild_bees",77,NA,NA,NA,"6 10 minute transects; 21 pan traps for 5 hrs	2 sampling rounds: Spring and Summer

",NA
"Claire_Kremen_Fragaria_ananassa_USA_2012","AR",NA,"other","order","other",2,NA,NA,NA,"6 10 minute transects; 21 pan traps for 5 hrs	2 sampling rounds: Spring and Summer

","incl. true bug pest lygus and true bug nat enemy geocoris"
"Claire_Kremen_Fragaria_ananassa_USA_2012","C",NA,"other","order","other",2,NA,NA,NA,"6 10 minute transects; 21 pan traps for 5 hrs	2 sampling rounds: Spring and Summer

","incl. true bug pest lygus and true bug nat enemy geocoris"
"Claire_Kremen_Fragaria_ananassa_USA_2012","CB",NA,"other","order","other",5,NA,NA,NA,"6 10 minute transects; 21 pan traps for 5 hrs	2 sampling rounds: Spring and Summer

","incl. true bug pest lygus and true bug nat enemy geocoris"
"Claire_Kremen_Fragaria_ananassa_USA_2012","DS",NA,"other","order","other",10,NA,NA,NA,"6 10 minute transects; 21 pan traps for 5 hrs	2 sampling rounds: Spring and Summer

","incl. true bug pest lygus and true bug nat enemy geocoris"
"Claire_Kremen_Fragaria_ananassa_USA_2012","F",NA,"other","order","other",10,NA,NA,NA,"6 10 minute transects; 21 pan traps for 5 hrs	2 sampling rounds: Spring and Summer

","incl. true bug pest lygus and true bug nat enemy geocoris"
"Claire_Kremen_Fragaria_ananassa_USA_2012","FE",NA,"other","order","other",7,NA,NA,NA,"6 10 minute transects; 21 pan traps for 5 hrs	2 sampling rounds: Spring and Summer

","incl. true bug pest lygus and true bug nat enemy geocoris"
"Claire_Kremen_Fragaria_ananassa_USA_2012","LE",NA,"other","order","other",14,NA,NA,NA,"6 10 minute transects; 21 pan traps for 5 hrs	2 sampling rounds: Spring and Summer

","incl. true bug pest lygus and true bug nat enemy geocoris"
"Claire_Kremen_Fragaria_ananassa_USA_2012","M",NA,"other","order","other",13,NA,NA,NA,"6 10 minute transects; 21 pan traps for 5 hrs	2 sampling rounds: Spring and Summer

","incl. true bug pest lygus and true bug nat enemy geocoris"
"Claire_Kremen_Fragaria_ananassa_USA_2012","RB",NA,"other","order","other",10,NA,NA,NA,"6 10 minute transects; 21 pan traps for 5 hrs	2 sampling rounds: Spring and Summer

","incl. true bug pest lygus and true bug nat enemy geocoris"
"Claire_Kremen_Fragaria_ananassa_USA_2012","RF",NA,"other","order","other",13,NA,NA,NA,"6 10 minute transects; 21 pan traps for 5 hrs	2 sampling rounds: Spring and Summer

","incl. true bug pest lygus and true bug nat enemy geocoris"
"Claire_Kremen_Fragaria_ananassa_USA_2012","RH",NA,"other","order","other",2,NA,NA,NA,"6 10 minute transects; 21 pan traps for 5 hrs	2 sampling rounds: Spring and Summer

","incl. true bug pest lygus and true bug nat enemy geocoris"
"Claire_Kremen_Fragaria_ananassa_USA_2012","RK",NA,"other","order","other",1,NA,NA,NA,"6 10 minute transects; 21 pan traps for 5 hrs	2 sampling rounds: Spring and Summer

","incl. true bug pest lygus and true bug nat enemy geocoris"
"Claire_Kremen_Fragaria_ananassa_USA_2012","S",NA,"other","order","other",3,NA,NA,NA,"6 10 minute transects; 21 pan traps for 5 hrs	2 sampling rounds: Spring and Summer

","incl. true bug pest lygus and true bug nat enemy geocoris"
"Claire_Kremen_Fragaria_ananassa_USA_2012","SH",NA,"other","order","other",17,NA,NA,NA,"6 10 minute transects; 21 pan traps for 5 hrs	2 sampling rounds: Spring and Summer

","incl. true bug pest lygus and true bug nat enemy geocoris"
"Claire_Kremen_Fragaria_ananassa_USA_2012","TB",NA,"other","order","other",4,NA,NA,NA,"6 10 minute transects; 21 pan traps for 5 hrs	2 sampling rounds: Spring and Summer

","incl. true bug pest lygus and true bug nat enemy geocoris"
"Claire_Kremen_Fragaria_ananassa_USA_2012","UC",NA,"other","order","other",5,NA,NA,NA,"6 10 minute transects; 21 pan traps for 5 hrs	2 sampling rounds: Spring and Summer

","incl. true bug pest lygus and true bug nat enemy geocoris"
"Claire_Kremen_Fragaria_ananassa_USA_2012","AR",NA,"other_fly","order","other_flies",120,NA,NA,NA,"6 10 minute transects; 21 pan traps for 5 hrs	2 sampling rounds: Spring and Summer

","inlcudes muscids and drosophila"
"Claire_Kremen_Fragaria_ananassa_USA_2012","C",NA,"other_fly","order","other_flies",115,NA,NA,NA,"6 10 minute transects; 21 pan traps for 5 hrs	2 sampling rounds: Spring and Summer

","inlcudes muscids and drosophila"
"Claire_Kremen_Fragaria_ananassa_USA_2012","CB",NA,"other_fly","order","other_flies",40,NA,NA,NA,"6 10 minute transects; 21 pan traps for 5 hrs	2 sampling rounds: Spring and Summer

","inlcudes muscids and drosophila"
"Claire_Kremen_Fragaria_ananassa_USA_2012","DS",NA,"other_fly","order","other_flies",53,NA,NA,NA,"6 10 minute transects; 21 pan traps for 5 hrs	2 sampling rounds: Spring and Summer

","inlcudes muscids and drosophila"
"Claire_Kremen_Fragaria_ananassa_USA_2012","F",NA,"other_fly","order","other_flies",96,NA,NA,NA,"6 10 minute transects; 21 pan traps for 5 hrs	2 sampling rounds: Spring and Summer

","inlcudes muscids and drosophila"
"Claire_Kremen_Fragaria_ananassa_USA_2012","FE",NA,"other_fly","order","other_flies",52,NA,NA,NA,"6 10 minute transects; 21 pan traps for 5 hrs	2 sampling rounds: Spring and Summer

","inlcudes muscids and drosophila"
"Claire_Kremen_Fragaria_ananassa_USA_2012","LE",NA,"other_fly","order","other_flies",33,NA,NA,NA,"6 10 minute transects; 21 pan traps for 5 hrs	2 sampling rounds: Spring and Summer

","inlcudes muscids and drosophila"
"Claire_Kremen_Fragaria_ananassa_USA_2012","M",NA,"other_fly","order","other_flies",38,NA,NA,NA,"6 10 minute transects; 21 pan traps for 5 hrs	2 sampling rounds: Spring and Summer

","inlcudes muscids and drosophila"
"Claire_Kremen_Fragaria_ananassa_USA_2012","RB",NA,"other_fly","order","other_flies",66,NA,NA,NA,"6 10 minute transects; 21 pan traps for 5 hrs	2 sampling rounds: Spring and Summer

","inlcudes muscids and drosophila"
"Claire_Kremen_Fragaria_ananassa_USA_2012","RF",NA,"other_fly","order","other_flies",94,NA,NA,NA,"6 10 minute transects; 21 pan traps for 5 hrs	2 sampling rounds: Spring and Summer

","inlcudes muscids and drosophila"
"Claire_Kremen_Fragaria_ananassa_USA_2012","RH",NA,"other_fly","order","other_flies",59,NA,NA,NA,"6 10 minute transects; 21 pan traps for 5 hrs	2 sampling rounds: Spring and Summer

","inlcudes muscids and drosophila"
"Claire_Kremen_Fragaria_ananassa_USA_2012","RK",NA,"other_fly","order","other_flies",54,NA,NA,NA,"6 10 minute transects; 21 pan traps for 5 hrs	2 sampling rounds: Spring and Summer

","inlcudes muscids and drosophila"
"Claire_Kremen_Fragaria_ananassa_USA_2012","S",NA,"other_fly","order","other_flies",38,NA,NA,NA,"6 10 minute transects; 21 pan traps for 5 hrs	2 sampling rounds: Spring and Summer

","inlcudes muscids and drosophila"
"Claire_Kremen_Fragaria_ananassa_USA_2012","SH",NA,"other_fly","order","other_flies",23,NA,NA,NA,"6 10 minute transects; 21 pan traps for 5 hrs	2 sampling rounds: Spring and Summer

","inlcudes muscids and drosophila"
"Claire_Kremen_Fragaria_ananassa_USA_2012","TB",NA,"other_fly","order","other_flies",67,NA,NA,NA,"6 10 minute transects; 21 pan traps for 5 hrs	2 sampling rounds: Spring and Summer

","inlcudes muscids and drosophila"
"Claire_Kremen_Fragaria_ananassa_USA_2012","UC",NA,"other_fly","order","other_flies",48,NA,NA,NA,"6 10 minute transects; 21 pan traps for 5 hrs	2 sampling rounds: Spring and Summer

","inlcudes muscids and drosophila"
"Claire_Kremen_Fragaria_ananassa_USA_2012","C",NA,"vespids","Family","non_bee_hymenoptera",2,NA,NA,NA,"6 10 minute transects; 21 pan traps for 5 hrs	2 sampling rounds: Spring and Summer

",NA
"Claire_Kremen_Fragaria_ananassa_USA_2012","F",NA,"vespids","Family","non_bee_hymenoptera",2,NA,NA,NA,"6 10 minute transects; 21 pan traps for 5 hrs	2 sampling rounds: Spring and Summer

",NA
"Claire_Kremen_Fragaria_ananassa_USA_2012","LE",NA,"vespids","Family","non_bee_hymenoptera",3,NA,NA,NA,"6 10 minute transects; 21 pan traps for 5 hrs	2 sampling rounds: Spring and Summer

",NA
"Claire_Kremen_Fragaria_ananassa_USA_2012","S",NA,"vespids","Family","non_bee_hymenoptera",1,NA,NA,NA,"6 10 minute transects; 21 pan traps for 5 hrs	2 sampling rounds: Spring and Summer

",NA
"Claire_Kremen_Fragaria_ananassa_USA_2012","SH",NA,"vespids","Family","non_bee_hymenoptera",3,NA,NA,NA,"6 10 minute transects; 21 pan traps for 5 hrs	2 sampling rounds: Spring and Summer

",NA
"Claire_Kremen_Fragaria_ananassa_USA_2012","AR",NA,"parasitoid_wasp","Family","non_bee_hymenoptera",2,NA,NA,NA,"6 10 minute transects; 21 pan traps for 5 hrs	2 sampling rounds: Spring and Summer

",NA
"Claire_Kremen_Fragaria_ananassa_USA_2012","C",NA,"parasitoid_wasp","Family","non_bee_hymenoptera",5,NA,NA,NA,"6 10 minute transects; 21 pan traps for 5 hrs	2 sampling rounds: Spring and Summer

",NA
"Claire_Kremen_Fragaria_ananassa_USA_2012","CB",NA,"parasitoid_wasp","Family","non_bee_hymenoptera",7,NA,NA,NA,"6 10 minute transects; 21 pan traps for 5 hrs	2 sampling rounds: Spring and Summer

",NA
"Claire_Kremen_Fragaria_ananassa_USA_2012","F",NA,"parasitoid_wasp","Family","non_bee_hymenoptera",8,NA,NA,NA,"6 10 minute transects; 21 pan traps for 5 hrs	2 sampling rounds: Spring and Summer

",NA
"Claire_Kremen_Fragaria_ananassa_USA_2012","LE",NA,"parasitoid_wasp","Family","non_bee_hymenoptera",4,NA,NA,NA,"6 10 minute transects; 21 pan traps for 5 hrs	2 sampling rounds: Spring and Summer

",NA
"Claire_Kremen_Fragaria_ananassa_USA_2012","RB",NA,"parasitoid_wasp","Family","non_bee_hymenoptera",17,NA,NA,NA,"6 10 minute transects; 21 pan traps for 5 hrs	2 sampling rounds: Spring and Summer

",NA
"Claire_Kremen_Fragaria_ananassa_USA_2012","RF",NA,"parasitoid_wasp","Family","non_bee_hymenoptera",2,NA,NA,NA,"6 10 minute transects; 21 pan traps for 5 hrs	2 sampling rounds: Spring and Summer

",NA
"Claire_Kremen_Fragaria_ananassa_USA_2012","RH",NA,"parasitoid_wasp","Family","non_bee_hymenoptera",2,NA,NA,NA,"6 10 minute transects; 21 pan traps for 5 hrs	2 sampling rounds: Spring and Summer

",NA
"Claire_Kremen_Fragaria_ananassa_USA_2012","S",NA,"parasitoid_wasp","Family","non_bee_hymenoptera",1,NA,NA,NA,"6 10 minute transects; 21 pan traps for 5 hrs	2 sampling rounds: Spring and Summer

",NA
"Claire_Kremen_Fragaria_ananassa_USA_2012","SH",NA,"parasitoid_wasp","Family","non_bee_hymenoptera",9,NA,NA,NA,"6 10 minute transects; 21 pan traps for 5 hrs	2 sampling rounds: Spring and Summer

",NA
"Claire_Kremen_Fragaria_ananassa_USA_2012","UC",NA,"parasitoid_wasp","Family","non_bee_hymenoptera",54,NA,NA,NA,"6 10 minute transects; 21 pan traps for 5 hrs	2 sampling rounds: Spring and Summer

",NA
"Dara_Stanley_Brassica_napus_Ireland_2009","OS23","transects","Apis_mellifera","species","honeybees",3,2400,78.4313725490196,NA,"Each field was visited three times and there were four 100 x 2 m transects walked on each sampling visit (two on the edge and two on the centre), at a slow, steady pace (0.07-0.44 m/s).",NA
"Dara_Stanley_Brassica_napus_Ireland_2009","OS23","transects","Bombus_lapidarius","species","bumblebees",1,2400,78.4313725490196,NA,"Each field was visited three times and there were four 100 x 2 m transects walked on each sampling visit (two on the edge and two on the centre), at a slow, steady pace (0.07-0.44 m/s).",NA
"Dara_Stanley_Brassica_napus_Ireland_2009","OS23","transects","Bombus_lucorum_terrestris","species","bumblebees",8,2400,78.4313725490196,NA,"Each field was visited three times and there were four 100 x 2 m transects walked on each sampling visit (two on the edge and two on the centre), at a slow, steady pace (0.07-0.44 m/s).",NA
"Dara_Stanley_Brassica_napus_Ireland_2009","OS23","transects","Bombus_pascuorum","species","bumblebees",1,2400,78.4313725490196,NA,"Each field was visited three times and there were four 100 x 2 m transects walked on each sampling visit (two on the edge and two on the centre), at a slow, steady pace (0.07-0.44 m/s).",NA
"Dara_Stanley_Brassica_napus_Ireland_2009","OS23","transects","Eristalis_sp.","genus","syrphids",8,2400,78.4313725490196,NA,"Each field was visited three times and there were four 100 x 2 m transects walked on each sampling visit (two on the edge and two on the centre), at a slow, steady pace (0.07-0.44 m/s).",NA
"Dara_Stanley_Brassica_napus_Ireland_2009","OS24","transects","Apis_mellifera","species","honeybees",1,2400,78.4313725490196,NA,"Each field was visited three times and there were four 100 x 2 m transects walked on each sampling visit (two on the edge and two on the centre), at a slow, steady pace (0.07-0.44 m/s).",NA
"Dara_Stanley_Brassica_napus_Ireland_2009","OS24","transects","Bombus_lapidarius","species","bumblebees",2,2400,78.4313725490196,NA,"Each field was visited three times and there were four 100 x 2 m transects walked on each sampling visit (two on the edge and two on the centre), at a slow, steady pace (0.07-0.44 m/s).",NA
"Dara_Stanley_Brassica_napus_Ireland_2009","OS24","transects","Rhingia_campestris","species","syrphids",3,2400,78.4313725490196,NA,"Each field was visited three times and there were four 100 x 2 m transects walked on each sampling visit (two on the edge and two on the centre), at a slow, steady pace (0.07-0.44 m/s).",NA
"Dara_Stanley_Brassica_napus_Ireland_2009","OS26","transects","Apis_mellifera","species","honeybees",12,2400,78.4313725490196,NA,"Each field was visited three times and there were four 100 x 2 m transects walked on each sampling visit (two on the edge and two on the centre), at a slow, steady pace (0.07-0.44 m/s).",NA
"Dara_Stanley_Brassica_napus_Ireland_2009","OS26","transects","Bombus_hortorum","species","bumblebees",3,2400,78.4313725490196,NA,"Each field was visited three times and there were four 100 x 2 m transects walked on each sampling visit (two on the edge and two on the centre), at a slow, steady pace (0.07-0.44 m/s).",NA
"Dara_Stanley_Brassica_napus_Ireland_2009","OS26","transects","Bombus_lapidarius","species","bumblebees",3,2400,78.4313725490196,NA,"Each field was visited three times and there were four 100 x 2 m transects walked on each sampling visit (two on the edge and two on the centre), at a slow, steady pace (0.07-0.44 m/s).",NA
"Dara_Stanley_Brassica_napus_Ireland_2009","OS26","transects","Bombus_lucorum_terrestris","species","bumblebees",14,2400,78.4313725490196,NA,"Each field was visited three times and there were four 100 x 2 m transects walked on each sampling visit (two on the edge and two on the centre), at a slow, steady pace (0.07-0.44 m/s).",NA
"Dara_Stanley_Brassica_napus_Ireland_2009","OS26","transects","Bombus_pascuorum","species","bumblebees",1,2400,78.4313725490196,NA,"Each field was visited three times and there were four 100 x 2 m transects walked on each sampling visit (two on the edge and two on the centre), at a slow, steady pace (0.07-0.44 m/s).",NA
"Dara_Stanley_Brassica_napus_Ireland_2009","OS26","transects","Bombus_pratorum","species","bumblebees",7,2400,78.4313725490196,NA,"Each field was visited three times and there were four 100 x 2 m transects walked on each sampling visit (two on the edge and two on the centre), at a slow, steady pace (0.07-0.44 m/s).",NA
"Dara_Stanley_Brassica_napus_Ireland_2009","OS26","transects","solitary_bee","superfamily","other_wild_bees",2,2400,78.4313725490196,NA,"Each field was visited three times and there were four 100 x 2 m transects walked on each sampling visit (two on the edge and two on the centre), at a slow, steady pace (0.07-0.44 m/s).","Apoidea?"
"Dara_Stanley_Brassica_napus_Ireland_2009","OS27","transects","Bombus_lapidarius","species","bumblebees",3,2400,78.4313725490196,NA,"Each field was visited three times and there were four 100 x 2 m transects walked on each sampling visit (two on the edge and two on the centre), at a slow, steady pace (0.07-0.44 m/s).",NA
"Dara_Stanley_Brassica_napus_Ireland_2009","OS27","transects","Bombus_lucorum_terrestris","species","bumblebees",6,2400,78.4313725490196,NA,"Each field was visited three times and there were four 100 x 2 m transects walked on each sampling visit (two on the edge and two on the centre), at a slow, steady pace (0.07-0.44 m/s).",NA
"Dara_Stanley_Brassica_napus_Ireland_2009","OS27","transects","Bombus_pascuorum","species","bumblebees",2,2400,78.4313725490196,NA,"Each field was visited three times and there were four 100 x 2 m transects walked on each sampling visit (two on the edge and two on the centre), at a slow, steady pace (0.07-0.44 m/s).",NA
"Dara_Stanley_Brassica_napus_Ireland_2009","OS27","transects","Bombus_pratorum","species","bumblebees",1,2400,78.4313725490196,NA,"Each field was visited three times and there were four 100 x 2 m transects walked on each sampling visit (two on the edge and two on the centre), at a slow, steady pace (0.07-0.44 m/s).",NA
"Dara_Stanley_Brassica_napus_Ireland_2009","OS27","transects","Bombus_spp.","genus","bumblebees",1,2400,78.4313725490196,NA,"Each field was visited three times and there were four 100 x 2 m transects walked on each sampling visit (two on the edge and two on the centre), at a slow, steady pace (0.07-0.44 m/s).",NA
"Dara_Stanley_Brassica_napus_Ireland_2009","OS27","transects","Eristalis_sp.","genus","syrphids",4,2400,78.4313725490196,NA,"Each field was visited three times and there were four 100 x 2 m transects walked on each sampling visit (two on the edge and two on the centre), at a slow, steady pace (0.07-0.44 m/s).",NA
"Dara_Stanley_Brassica_napus_Ireland_2009","OS27","transects","Helophilus_sp","genus","syrphids",3,2400,78.4313725490196,NA,"Each field was visited three times and there were four 100 x 2 m transects walked on each sampling visit (two on the edge and two on the centre), at a slow, steady pace (0.07-0.44 m/s).",NA
"Dara_Stanley_Brassica_napus_Ireland_2009","OS27","transects","solitary_bee","superfamily","other_wild_bees",1,2400,78.4313725490196,NA,"Each field was visited three times and there were four 100 x 2 m transects walked on each sampling visit (two on the edge and two on the centre), at a slow, steady pace (0.07-0.44 m/s).","Apoidea?"
"Dara_Stanley_Brassica_napus_Ireland_2009","OS27","transects","Vanessa_cardui","species","lepidoptera",1,2400,78.4313725490196,NA,"Each field was visited three times and there were four 100 x 2 m transects walked on each sampling visit (two on the edge and two on the centre), at a slow, steady pace (0.07-0.44 m/s).",NA
"Dara_Stanley_Brassica_napus_Ireland_2009","OS29","transects","Apis_mellifera","species","honeybees",14,2400,78.4313725490196,NA,"Each field was visited three times and there were four 100 x 2 m transects walked on each sampling visit (two on the edge and two on the centre), at a slow, steady pace (0.07-0.44 m/s).",NA
"Dara_Stanley_Brassica_napus_Ireland_2009","OS29","transects","Bombus_lapidarius","species","bumblebees",2,2400,78.4313725490196,NA,"Each field was visited three times and there were four 100 x 2 m transects walked on each sampling visit (two on the edge and two on the centre), at a slow, steady pace (0.07-0.44 m/s).",NA
"Dara_Stanley_Brassica_napus_Ireland_2009","OS29","transects","Bombus_lucorum_terrestris","species","bumblebees",2,2400,78.4313725490196,NA,"Each field was visited three times and there were four 100 x 2 m transects walked on each sampling visit (two on the edge and two on the centre), at a slow, steady pace (0.07-0.44 m/s).",NA
"Dara_Stanley_Brassica_napus_Ireland_2009","OS29","transects","Bombus_pascuorum","species","bumblebees",3,2400,78.4313725490196,NA,"Each field was visited three times and there were four 100 x 2 m transects walked on each sampling visit (two on the edge and two on the centre), at a slow, steady pace (0.07-0.44 m/s).",NA
"Dara_Stanley_Brassica_napus_Ireland_2009","OS29","transects","solitary_bee","superfamily","other_wild_bees",1,2400,78.4313725490196,NA,"Each field was visited three times and there were four 100 x 2 m transects walked on each sampling visit (two on the edge and two on the centre), at a slow, steady pace (0.07-0.44 m/s).","Apoidea?"
"Dara_Stanley_Brassica_napus_Ireland_2010","AK","5 minute focal observation","Andrena","Genus","other_wild_bees",1,NA,210,NA,"Measures per site: 6 focal observation patches and 7 sampling rounds for observational data",NA
"Dara_Stanley_Brassica_napus_Ireland_2010","AK","5 minute focal observation","Apis mellifera","Species","honeybees",6,NA,210,NA,"Measures per site: 6 focal observation patches and 7 sampling rounds for observational data",NA
"Dara_Stanley_Brassica_napus_Ireland_2010","AK","5 minute focal observation","Bombus lapidarius","Species","bumblebees",4,NA,210,NA,"Measures per site: 6 focal observation patches and 7 sampling rounds for observational data",NA
"Dara_Stanley_Brassica_napus_Ireland_2010","AK","5 minute focal observation","Bombus terrestris/lucorum","Species","bumblebees",7,NA,210,NA,"Measures per site: 6 focal observation patches and 7 sampling rounds for observational data",NA
"Dara_Stanley_Brassica_napus_Ireland_2010","AK","5 minute focal observation","Eristalis","Genus","syrphids",17,NA,210,NA,"Measures per site: 6 focal observation patches and 7 sampling rounds for observational data",NA
"Dara_Stanley_Brassica_napus_Ireland_2010","AK","5 minute focal observation","fly","Family","other_flies",12,NA,210,NA,"Measures per site: 6 focal observation patches and 7 sampling rounds for observational data",NA
"Dara_Stanley_Brassica_napus_Ireland_2010","AK","5 minute focal observation","Helophilus","Genus","syrphids",5,NA,210,NA,"Measures per site: 6 focal observation patches and 7 sampling rounds for observational data",NA
"Dara_Stanley_Brassica_napus_Ireland_2010","AK","5 minute focal observation","Melanostoma","Genus","syrphids",1,NA,210,NA,"Measures per site: 6 focal observation patches and 7 sampling rounds for observational data",NA
"Dara_Stanley_Brassica_napus_Ireland_2010","AK","5 minute focal observation","Other solitary bee","Family","other_wild_bees",1,NA,210,NA,"Measures per site: 6 focal observation patches and 7 sampling rounds for observational data","It was set to NA previously"
"Dara_Stanley_Brassica_napus_Ireland_2010","JL","5 minute focal observation","Andrena","Genus","other_wild_bees",2,NA,210,NA,"Measures per site: 6 focal observation patches and 7 sampling rounds for observational data",NA
"Dara_Stanley_Brassica_napus_Ireland_2010","JL","5 minute focal observation","Apis mellifera","Species","honeybees",10,NA,210,NA,"Measures per site: 6 focal observation patches and 7 sampling rounds for observational data",NA
"Dara_Stanley_Brassica_napus_Ireland_2010","JL","5 minute focal observation","Bombus hortorum","Species","bumblebees",1,NA,210,NA,"Measures per site: 6 focal observation patches and 7 sampling rounds for observational data",NA
"Dara_Stanley_Brassica_napus_Ireland_2010","JL","5 minute focal observation","Bombus lapidarius","Species","bumblebees",1,NA,210,NA,"Measures per site: 6 focal observation patches and 7 sampling rounds for observational data",NA
"Dara_Stanley_Brassica_napus_Ireland_2010","JL","5 minute focal observation","Bombus pascuorum","Species","bumblebees",3,NA,210,NA,"Measures per site: 6 focal observation patches and 7 sampling rounds for observational data",NA
"Dara_Stanley_Brassica_napus_Ireland_2010","JL","5 minute focal observation","Bombus terrestris/lucorum","Species","bumblebees",4,NA,210,NA,"Measures per site: 6 focal observation patches and 7 sampling rounds for observational data",NA
"Dara_Stanley_Brassica_napus_Ireland_2010","JL","5 minute focal observation","Eristalis","Genus","syrphids",7,NA,210,NA,"Measures per site: 6 focal observation patches and 7 sampling rounds for observational data",NA
"Dara_Stanley_Brassica_napus_Ireland_2010","JL","5 minute focal observation","fly","Family","other_flies",15,NA,210,NA,"Measures per site: 6 focal observation patches and 7 sampling rounds for observational data",NA
"Dara_Stanley_Brassica_napus_Ireland_2010","JL","5 minute focal observation","Melanostoma","Genus","syrphids",2,NA,210,NA,"Measures per site: 6 focal observation patches and 7 sampling rounds for observational data",NA
"Dara_Stanley_Brassica_napus_Ireland_2010","JL","5 minute focal observation","Rhingia campestris","Species","syrphids",4,NA,210,NA,"Measures per site: 6 focal observation patches and 7 sampling rounds for observational data",NA
"Dara_Stanley_Brassica_napus_Ireland_2010","NJ","5 minute focal observation","Apis mellifera","Species","honeybees",1,NA,210,NA,"Measures per site: 6 focal observation patches and 7 sampling rounds for observational data",NA
"Dara_Stanley_Brassica_napus_Ireland_2010","NJ","5 minute focal observation","Bombus pascuorum","Species","bumblebees",1,NA,210,NA,"Measures per site: 6 focal observation patches and 7 sampling rounds for observational data",NA
"Dara_Stanley_Brassica_napus_Ireland_2010","NJ","5 minute focal observation","Eristalis","Genus","syrphids",13,NA,210,NA,"Measures per site: 6 focal observation patches and 7 sampling rounds for observational data",NA
"Dara_Stanley_Brassica_napus_Ireland_2010","NJ","5 minute focal observation","fly","Family","other_flies",10,NA,210,NA,"Measures per site: 6 focal observation patches and 7 sampling rounds for observational data",NA
"Dara_Stanley_Brassica_napus_Ireland_2010","NJ","5 minute focal observation","Helophilus","Genus","syrphids",3,NA,210,NA,"Measures per site: 6 focal observation patches and 7 sampling rounds for observational data",NA
"Dara_Stanley_Brassica_napus_Ireland_2010","NJ","5 minute focal observation","Hoverfly A","Genus","syrphids",1,NA,210,NA,"Measures per site: 6 focal observation patches and 7 sampling rounds for observational data",NA
"Dara_Stanley_Brassica_napus_Ireland_2010","NJ","5 minute focal observation","Other solitary bee","Family","other_wild_bees",1,NA,210,NA,"Measures per site: 6 focal observation patches and 7 sampling rounds for observational data","It was set to NA previously"
"Dara_Stanley_Brassica_napus_Ireland_2010","NJ","5 minute focal observation","Pararge aegeria","Species","lepidoptera",1,NA,210,NA,"Measures per site: 6 focal observation patches and 7 sampling rounds for observational data",NA
"Dara_Stanley_Brassica_napus_Ireland_2010","NJ","5 minute focal observation","Rhingia campestris","Species","syrphids",1,NA,210,NA,"Measures per site: 6 focal observation patches and 7 sampling rounds for observational data",NA
"Davi_L_Ramos_Phaseolus_vulgaris L_Brazil_2015_2016","He1P0","sweep net along a transect","Paratrigona lineata Lepeletier, 1836","species","other_wild_bees",1,50,NA,2466,"Spatial replicates: two 25m observation transects per plot .  Temporal replicates: 2Lumped sampling rounds per plot in one wet season.",NA
"Davi_L_Ramos_Phaseolus_vulgaris L_Brazil_2015_2016","He1P0","sweep net along a transect","Apis mellifera Linnaeus, 1758","species","honeybees",9,50,NA,2466,"Spatial replicates: two 25m observation transects per plot .  Temporal replicates: 2Lumped sampling rounds per plot in one wet season.",NA
"Davi_L_Ramos_Phaseolus_vulgaris L_Brazil_2015_2016","He1P0","sweep net along a transect","Bombus (Fervidobombus) morio Swederus, 1787","species","bumblebees",1,50,NA,2466,"Spatial replicates: two 25m observation transects per plot .  Temporal replicates: 2Lumped sampling rounds per plot in one wet season.",NA
"Davi_L_Ramos_Phaseolus_vulgaris L_Brazil_2015_2016","He2P0","sweep net along a transect","Apis mellifera Linnaeus, 1758","species","honeybees",2,50,NA,2530,"Spatial replicates: two 25m observation transects per plot .  Temporal replicates: 2Lumped sampling rounds per plot in one wet season.",NA
"Davi_L_Ramos_Phaseolus_vulgaris L_Brazil_2015_2016","A1P1DF","sweep net along a transect","Apoidea sp.1","morphospecies","other_wild_bees",1,50,NA,4451,"Spatial replicates: two 25m observation transects per plot .  Temporal replicates: 2Lumped sampling rounds per plot in one wet season.",NA
"Davi_L_Ramos_Phaseolus_vulgaris L_Brazil_2015_2016","A1P1DF","sweep net along a transect","Paratrigona lineata Lepeletier, 1836","species","other_wild_bees",10,50,NA,4451,"Spatial replicates: two 25m observation transects per plot .  Temporal replicates: 2Lumped sampling rounds per plot in one wet season.",NA
"Davi_L_Ramos_Phaseolus_vulgaris L_Brazil_2015_2016","A1P1DF","sweep net along a transect","Allograpta exotica cf.","species","syrphids",15,50,NA,4451,"These organisms were classified as biocontrol agents. However, since they were also registered as floral visitors, they may be potential pollinators as well. Spatial replicates: two 25m observation transects per plot .  Temporal replicates: 2Lumped sampling rounds per plot in one wet season.",NA
"Davi_L_Ramos_Phaseolus_vulgaris L_Brazil_2015_2016","A1P1DF","sweep net along a transect","Trigona spinipes Fabricius, 1793","species","other_wild_bees",3,50,NA,4451,"Spatial replicates: two 25m observation transects per plot .  Temporal replicates: 2Lumped sampling rounds per plot in one wet season.",NA
"Davi_L_Ramos_Phaseolus_vulgaris L_Brazil_2015_2016","A1P1DF","sweep net along a transect","Apis mellifera Linnaeus, 1758","species","honeybees",2,50,NA,4451,"Spatial replicates: two 25m observation transects per plot .  Temporal replicates: 2Lumped sampling rounds per plot in one wet season.",NA
"Davi_L_Ramos_Phaseolus_vulgaris L_Brazil_2015_2016","A3P1DF","sweep net along a transect","Allograpta exotica cf.","species","syrphids",14,50,NA,4019,"These organisms were classified as biocontrol agents. However, since they were also registered as floral visitors, they may be potential pollinators as well. Spatial replicates: two 25m observation transects per plot .  Temporal replicates: 2Lumped sampling rounds per plot in one wet season.",NA
"Davi_L_Ramos_Phaseolus_vulgaris L_Brazil_2015_2016","A1P0GO","sweep net along a transect","Paratrigona lineata Lepeletier, 1836","species","other_wild_bees",10,50,NA,2206,"Spatial replicates: two 25m observation transects per plot .  Temporal replicates: 2Lumped sampling rounds per plot in one wet season.",NA
"Davi_L_Ramos_Phaseolus_vulgaris L_Brazil_2015_2016","A1P0GO","sweep net along a transect","Non identified bee","Non identified","other_wild_bees",1,50,NA,2206,"Spatial replicates: two 25m observation transects per plot .  Temporal replicates: 2Lumped sampling rounds per plot in one wet season.","Apoidea?"
"Davi_L_Ramos_Phaseolus_vulgaris L_Brazil_2015_2016","A1P0GO","sweep net along a transect","Allograpta exotica cf.","species","syrphids",2,50,NA,2206,"These organisms were classified as biocontrol agents. However, since they were also registered as floral visitors, they may be potential pollinators as well. Spatial replicates: two 25m observation transects per plot .  Temporal replicates: 2Lumped sampling rounds per plot in one wet season.",NA
"Davi_L_Ramos_Phaseolus_vulgaris L_Brazil_2015_2016","A1P0GO","sweep net along a transect","Apis mellifera Linnaeus, 1758","species","honeybees",2,50,NA,2206,"Spatial replicates: two 25m observation transects per plot .  Temporal replicates: 2Lumped sampling rounds per plot in one wet season.",NA
"Davi_L_Ramos_Phaseolus_vulgaris L_Brazil_2015_2016","A2P0GO","sweep net along a transect","Apis mellifera Linnaeus, 1758","species","honeybees",2,50,NA,1935,"Spatial replicates: two 25m observation transects per plot .  Temporal replicates: 2Lumped sampling rounds per plot in one wet season.",NA
"Davi_L_Ramos_Phaseolus_vulgaris L_Brazil_2015_2016","A2P0GO","sweep net along a transect","Paratrigona lineata Lepeletier, 1836","species","other_wild_bees",2,50,NA,1935,"Spatial replicates: two 25m observation transects per plot .  Temporal replicates: 2Lumped sampling rounds per plot in one wet season.",NA
"Davi_L_Ramos_Phaseolus_vulgaris L_Brazil_2015_2016","A2P0GO","sweep net along a transect","Allograpta exotica cf.","species","syrphids",2,50,NA,1935,"These organisms were classified as biocontrol agents. However, since they were also registered as floral visitors, they may be potential pollinators as well. Spatial replicates: two 25m observation transects per plot .  Temporal replicates: 2Lumped sampling rounds per plot in one wet season.",NA
"Davi_L_Ramos_Phaseolus_vulgaris L_Brazil_2015_2016","A3P0GO","sweep net along a transect","Non identified bee","Non identified","other_wild_bees",1,50,NA,1779,"Spatial replicates: two 25m observation transects per plot .  Temporal replicates: 2Lumped sampling rounds per plot in one wet season.","Apoidea?"
"Davi_L_Ramos_Phaseolus_vulgaris L_Brazil_2015_2016","J2P0","sweep net along a transect","Allograpta exotica cf.","species","syrphids",5,50,NA,3252,"These organisms were classified as biocontrol agents. However, since they were also registered as floral visitors, they may be potential pollinators as well. Spatial replicates: two 25m observation transects per plot .  Temporal replicates: 2Lumped sampling rounds per plot in one wet season.",NA
"Davi_L_Ramos_Phaseolus_vulgaris L_Brazil_2015_2016","J2P0","sweep net along a transect","Apis mellifera Linnaeus, 1758","species","honeybees",2,50,NA,3252,"Spatial replicates: two 25m observation transects per plot .  Temporal replicates: 2Lumped sampling rounds per plot in one wet season.",NA
"Davi_L_Ramos_Phaseolus_vulgaris L_Brazil_2015_2016","J1P0","sweep net along a transect","Bombus sp.","morphospecies","bumblebees",1,50,NA,4690,"Spatial replicates: two 25m observation transects per plot .  Temporal replicates: 2Lumped sampling rounds per plot in one wet season.",NA
"Davi_L_Ramos_Phaseolus_vulgaris L_Brazil_2015_2016","J1P0","sweep net along a transect","Non identified bee","Non identified","other_wild_bees",2,50,NA,4690,"Spatial replicates: two 25m observation transects per plot .  Temporal replicates: 2Lumped sampling rounds per plot in one wet season.","Apoidea?"
"Davi_L_Ramos_Phaseolus_vulgaris L_Brazil_2015_2016","J1P0","sweep net along a transect","Trigona spinipes Fabricius, 1793","species","other_wild_bees",4,50,NA,4690,"Spatial replicates: two 25m observation transects per plot .  Temporal replicates: 2Lumped sampling rounds per plot in one wet season.",NA
"Davi_L_Ramos_Phaseolus_vulgaris L_Brazil_2015_2016","J1P0","sweep net along a transect","Allograpta exotica cf.","species","syrphids",13,50,NA,4690,"These organisms were classified as biocontrol agents. However, since they were also registered as floral visitors, they may be potential pollinators as well. Spatial replicates: two 25m observation transects per plot .  Temporal replicates: 2Lumped sampling rounds per plot in one wet season.",NA
"Davi_L_Ramos_Phaseolus_vulgaris L_Brazil_2015_2016","J1P0","sweep net along a transect","Paratrigona lineata Lepeletier, 1836","species","other_wild_bees",1,50,NA,4690,"Spatial replicates: two 25m observation transects per plot .  Temporal replicates: 2Lumped sampling rounds per plot in one wet season.",NA
"Davi_L_Ramos_Phaseolus_vulgaris L_Brazil_2015_2016","J1P0","sweep net along a transect","Brachygastra lecheguana","species","non_bee_hymenoptera",1,50,NA,4690,"These organisms were classified as biocontrol agents. However, since they were also registered as floral visitors, they may be potential pollinators as well. Spatial replicates: two 25m observation transects per plot .  Temporal replicates: 2Lumped sampling rounds per plot in one wet season.",NA
"Davi_L_Ramos_Phaseolus_vulgaris L_Brazil_2015_2016","W1P1NN","sweep net along a transect","Apis mellifera Linnaeus, 1758","species","honeybees",1,50,NA,1454,"Spatial replicates: two 25m observation transects per plot .  Temporal replicates: 2Lumped sampling rounds per plot in one wet season.",NA
"Davi_L_Ramos_Phaseolus_vulgaris L_Brazil_2015_2016","W1P1NN","sweep net along a transect","Non identified bee","Non identified","other_wild_bees",2,50,NA,1454,"Spatial replicates: two 25m observation transects per plot .  Temporal replicates: 2Lumped sampling rounds per plot in one wet season.","Apoidea?"
"Davi_L_Ramos_Phaseolus_vulgaris L_Brazil_2015_2016","W1P1NN","sweep net along a transect","Trigona spinipes Fabricius, 1793","species","other_wild_bees",1,50,NA,1454,"Spatial replicates: two 25m observation transects per plot .  Temporal replicates: 2Lumped sampling rounds per plot in one wet season.",NA
"Davi_L_Ramos_Phaseolus_vulgaris L_Brazil_2015_2016","W1P0NN","sweep net along a transect","Apis mellifera Linnaeus, 1758","species","honeybees",1,50,NA,887,"Spatial replicates: two 25m observation transects per plot .  Temporal replicates: 2Lumped sampling rounds per plot in one wet season.",NA
"Davi_L_Ramos_Phaseolus_vulgaris L_Brazil_2015_2016","W1P0NN","sweep net along a transect","Paratrigona lineata Lepeletier, 1836","species","other_wild_bees",1,50,NA,887,"Spatial replicates: two 25m observation transects per plot .  Temporal replicates: 2Lumped sampling rounds per plot in one wet season.",NA
"Davi_L_Ramos_Phaseolus_vulgaris L_Brazil_2015_2016","W1P0S","sweep net along a transect","Trigona spinipes Fabricius, 1793","species","other_wild_bees",1,50,NA,830,"Spatial replicates: two 25m observation transects per plot .  Temporal replicates: 2Lumped sampling rounds per plot in one wet season.",NA
"Davi_L_Ramos_Phaseolus_vulgaris L_Brazil_2015_2016","W1P0S","sweep net along a transect","Allograpta exotica cf.","species","syrphids",5,50,NA,830,"These organisms were classified as biocontrol agents. However, since they were also registered as floral visitors, they may be potential pollinators as well. Spatial replicates: two 25m observation transects per plot .  Temporal replicates: 2Lumped sampling rounds per plot in one wet season.",NA
"Davi_L_Ramos_Phaseolus_vulgaris L_Brazil_2015_2016","W1P0NS","sweep net along a transect","Apis mellifera Linnaeus, 1758","species","honeybees",1,50,NA,209,"Spatial replicates: two 25m observation transects per plot .  Temporal replicates: 2Lumped sampling rounds per plot in one wet season.",NA
"Davi_L_Ramos_Phaseolus_vulgaris L_Brazil_2015_2016","W1P0NS","sweep net along a transect","Allograpta exotica cf.","species","syrphids",1,50,NA,209,"These organisms were classified as biocontrol agents. However, since they were also registered as floral visitors, they may be potential pollinators as well. Spatial replicates: two 25m observation transects per plot .  Temporal replicates: 2Lumped sampling rounds per plot in one wet season.",NA
"Davi_L_Ramos_Phaseolus_vulgaris L_Brazil_2015_2016","W1P1NS","sweep net along a transect","Non identified bee","Non identified","other_wild_bees",1,50,NA,291,"Spatial replicates: two 25m observation transects per plot .  Temporal replicates: 2Lumped sampling rounds per plot in one wet season.","Apoidea?"
"Davi_L_Ramos_Phaseolus_vulgaris L_Brazil_2015_2016","W1P1NS","sweep net along a transect","Bombus  cf. brevivillus","species","bumblebees",1,50,NA,291,"Spatial replicates: two 25m observation transects per plot .  Temporal replicates: 2Lumped sampling rounds per plot in one wet season.",NA
"Davi_L_Ramos_Phaseolus_vulgaris L_Brazil_2015_2016","L1P1","sweep net along a transect","Apis mellifera Linnaeus, 1758","species","honeybees",2,50,NA,2363,"Spatial replicates: two 25m observation transects per plot .  Temporal replicates: 2Lumped sampling rounds per plot in one wet season.",NA
"Davi_L_Ramos_Phaseolus_vulgaris L_Brazil_2015_2016","L1P1","sweep net along a transect","Paratrigona lineata Lepeletier, 1836","species","other_wild_bees",2,50,NA,2363,"Spatial replicates: two 25m observation transects per plot .  Temporal replicates: 2Lumped sampling rounds per plot in one wet season.",NA
"Davi_L_Ramos_Phaseolus_vulgaris L_Brazil_2015_2016","L1P1","sweep net along a transect","Apoidea sp.1","morphospecies","other_wild_bees",2,50,NA,2363,"Spatial replicates: two 25m observation transects per plot .  Temporal replicates: 2Lumped sampling rounds per plot in one wet season.",NA
"Davi_L_Ramos_Phaseolus_vulgaris L_Brazil_2015_2016","L1P1","sweep net along a transect","Pepsis sp.","morphospecies","non_bee_hymenoptera",1,50,NA,2363,"These organisms were classified as biocontrol agents. However, since they were also registered as floral visitors, they may be potential pollinators as well. Spatial replicates: two 25m observation transects per plot .  Temporal replicates: 2Lumped sampling rounds per plot in one wet season.",NA
"Davi_L_Ramos_Phaseolus_vulgaris L_Brazil_2015_2016","L1P1","sweep net along a transect","Allograpta exotica cf.","species","syrphids",5,50,NA,2363,"These organisms were classified as biocontrol agents. However, since they were also registered as floral visitors, they may be potential pollinators as well. Spatial replicates: two 25m observation transects per plot .  Temporal replicates: 2Lumped sampling rounds per plot in one wet season.",NA
"Davi_L_Ramos_Phaseolus_vulgaris L_Brazil_2015_2016","L1P1","sweep net along a transect","Brachygastra lecheguana","species","non_bee_hymenoptera",1,50,NA,2363,"These organisms were classified as biocontrol agents. However, since they were also registered as floral visitors, they may be potential pollinators as well. Spatial replicates: two 25m observation transects per plot .  Temporal replicates: 2Lumped sampling rounds per plot in one wet season.",NA
"Davi_L_Ramos_Phaseolus_vulgaris L_Brazil_2015_2016","L1P0","sweep net along a transect","Apoidea sp.1","morphospecies","other_wild_bees",1,50,NA,970,"Spatial replicates: two 25m observation transects per plot .  Temporal replicates: 2Lumped sampling rounds per plot in one wet season.",NA
"Davi_L_Ramos_Phaseolus_vulgaris L_Brazil_2015_2016","L1P0","sweep net along a transect","Apis mellifera Linnaeus, 1758","species","honeybees",1,50,NA,970,"Spatial replicates: two 25m observation transects per plot .  Temporal replicates: 2Lumped sampling rounds per plot in one wet season.",NA
"Davi_L_Ramos_Phaseolus_vulgaris L_Brazil_2015_2016","L1P0","sweep net along a transect","Paratrigona lineata Lepeletier, 1836","species","other_wild_bees",1,50,NA,970,"Spatial replicates: two 25m observation transects per plot .  Temporal replicates: 2Lumped sampling rounds per plot in one wet season.",NA
"Davi_L_Ramos_Phaseolus_vulgaris L_Brazil_2015_2016","L1P0","sweep net along a transect","Allograpta exotica cf.","species","syrphids",1,50,NA,970,"These organisms were classified as biocontrol agents. However, since they were also registered as floral visitors, they may be potential pollinators as well. Spatial replicates: two 25m observation transects per plot .  Temporal replicates: 2Lumped sampling rounds per plot in one wet season.",NA
"Davi_L_Ramos_Phaseolus_vulgaris L_Brazil_2015_2016","L1P0","sweep net along a transect","Polybia ignobilis","species","non_bee_hymenoptera",1,50,NA,970,"These organisms were classified as biocontrol agents. However, since they were also registered as floral visitors, they may be potential pollinators as well. Spatial replicates: two 25m observation transects per plot .  Temporal replicates: 2Lumped sampling rounds per plot in one wet season.",NA
"Davi_L_Ramos_Phaseolus_vulgaris L_Brazil_2015_2016","L1P0","sweep net along a transect","Brachygastra lecheguana","species","non_bee_hymenoptera",1,50,NA,970,"These organisms were classified as biocontrol agents. However, since they were also registered as floral visitors, they may be potential pollinators as well. Spatial replicates: two 25m observation transects per plot .  Temporal replicates: 2Lumped sampling rounds per plot in one wet season.",NA
"Davi_L_Ramos_Phaseolus_vulgaris L_Brazil_2015_2016","L2P1","sweep net along a transect","Allograpta exotica cf.","species","syrphids",2,50,NA,1630,"These organisms were classified as biocontrol agents. However, since they were also registered as floral visitors, they may be potential pollinators as well. Spatial replicates: two 25m observation transects per plot .  Temporal replicates: 2Lumped sampling rounds per plot in one wet season.",NA
"Davi_L_Ramos_Phaseolus_vulgaris L_Brazil_2015_2016","L2P0","sweep net along a transect","Allograpta exotica cf.","species","syrphids",2,50,NA,1078,"These organisms were classified as biocontrol agents. However, since they were also registered as floral visitors, they may be potential pollinators as well. Spatial replicates: two 25m observation transects per plot .  Temporal replicates: 2Lumped sampling rounds per plot in one wet season.",NA
"Davi_L_Ramos_Phaseolus_vulgaris L_Brazil_2015_2016","L2P0","sweep net along a transect","Apis mellifera Linnaeus, 1758","species","honeybees",2,50,NA,1078,"Spatial replicates: two 25m observation transects per plot .  Temporal replicates: 2Lumped sampling rounds per plot in one wet season.",NA
"Davi_L_Ramos_Phaseolus_vulgaris L_Brazil_2015_2016","L3P1","sweep net along a transect","Allograpta exotica cf.","species","syrphids",5,50,NA,1483,"These organisms were classified as biocontrol agents. However, since they were also registered as floral visitors, they may be potential pollinators as well. Spatial replicates: two 25m observation transects per plot .  Temporal replicates: 2Lumped sampling rounds per plot in one wet season.",NA
"Davi_L_Ramos_Phaseolus_vulgaris L_Brazil_2015_2016","L3P1","sweep net along a transect","Apis mellifera Linnaeus, 1758","species","honeybees",1,50,NA,1483,"Spatial replicates: two 25m observation transects per plot .  Temporal replicates: 2Lumped sampling rounds per plot in one wet season.",NA
"Davi_L_Ramos_Phaseolus_vulgaris L_Brazil_2015_2016","R1P0","sweep net along a transect","Paratrigona lineata Lepeletier, 1836","species","other_wild_bees",1,50,NA,423,"Spatial replicates: two 25m observation transects per plot .  Temporal replicates: 2Lumped sampling rounds per plot in one wet season.",NA
"Davi_L_Ramos_Phaseolus_vulgaris L_Brazil_2015_2016","R1P0","sweep net along a transect","Trigona spinipes Fabricius, 1793","species","other_wild_bees",1,50,NA,423,"Spatial replicates: two 25m observation transects per plot .  Temporal replicates: 2Lumped sampling rounds per plot in one wet season.",NA
"Davi_L_Ramos_Phaseolus_vulgaris L_Brazil_2015_2016","R1P0","sweep net along a transect","Bombus  cf. brevivillus","species","bumblebees",1,50,NA,423,"Spatial replicates: two 25m observation transects per plot .  Temporal replicates: 2Lumped sampling rounds per plot in one wet season.",NA
"Davi_L_Ramos_Phaseolus_vulgaris L_Brazil_2015_2016","R1P0","sweep net along a transect","Bombus (Fervidobombus) morio Swederus, 1787","species","bumblebees",1,50,NA,423,"Spatial replicates: two 25m observation transects per plot .  Temporal replicates: 2Lumped sampling rounds per plot in one wet season.",NA
"Davi_L_Ramos_Phaseolus_vulgaris L_Brazil_2015_2016","R1P0","sweep net along a transect","Bombus sp.","morphospecies","bumblebees",3,50,NA,423,"Spatial replicates: two 25m observation transects per plot .  Temporal replicates: 2Lumped sampling rounds per plot in one wet season.",NA
"Davi_L_Ramos_Phaseolus_vulgaris L_Brazil_2015_2016","R2P0","sweep net along a transect","Apis mellifera Linnaeus, 1758","species","honeybees",5,50,NA,1320,"Spatial replicates: two 25m observation transects per plot .  Temporal replicates: 2Lumped sampling rounds per plot in one wet season.",NA
"Davi_L_Ramos_Phaseolus_vulgaris L_Brazil_2015_2016","R2P0","sweep net along a transect","Allograpta exotica cf.","species","syrphids",1,50,NA,1320,"These organisms were classified as biocontrol agents. However, since they were also registered as floral visitors, they may be potential pollinators as well. Spatial replicates: two 25m observation transects per plot .  Temporal replicates: 2Lumped sampling rounds per plot in one wet season.",NA
"Davi_L_Ramos_Phaseolus_vulgaris L_Brazil_2015_2016","R3P0","sweep net along a transect","Apis mellifera Linnaeus, 1758","species","honeybees",2,50,NA,241,"Spatial replicates: two 25m observation transects per plot .  Temporal replicates: 2Lumped sampling rounds per plot in one wet season.",NA
"Davi_L_Ramos_Phaseolus_vulgaris L_Brazil_2015_2016","R3P0","sweep net along a transect","Apoidea sp.1","morphospecies","other_wild_bees",1,50,NA,241,"Spatial replicates: two 25m observation transects per plot .  Temporal replicates: 2Lumped sampling rounds per plot in one wet season.",NA
"Davi_L_Ramos_Phaseolus_vulgaris L_Brazil_2015_2016","R3P0","sweep net along a transect","Allograpta exotica cf.","species","syrphids",1,50,NA,241,"These organisms were classified as biocontrol agents. However, since they were also registered as floral visitors, they may be potential pollinators as well. Spatial replicates: two 25m observation transects per plot .  Temporal replicates: 2Lumped sampling rounds per plot in one wet season.",NA
"Davi_L_Ramos_Phaseolus_vulgaris L_Brazil_2015_2016","D1P0","sweep net along a transect","Allograpta exotica cf.","species","syrphids",2,50,NA,2403,"These organisms were classified as biocontrol agents. However, since they were also registered as floral visitors, they may be potential pollinators as well. Spatial replicates: two 25m observation transects per plot .  Temporal replicates: 2Lumped sampling rounds per plot in one wet season.",NA
"Davi_L_Ramos_Phaseolus_vulgaris L_Brazil_2015_2016","D1P0","sweep net along a transect","Bombus  cf. brevivillus","species","bumblebees",2,50,NA,2403,"Spatial replicates: two 25m observation transects per plot .  Temporal replicates: 2Lumped sampling rounds per plot in one wet season.",NA
"Davi_L_Ramos_Phaseolus_vulgaris L_Brazil_2015_2016","D1P0","sweep net along a transect","Polybia dimidiata","species","non_bee_hymenoptera",1,50,NA,2403,"These organisms were classified as biocontrol agents. However, since they were also registered as floral visitors, they may be potential pollinators as well. Spatial replicates: two 25m observation transects per plot .  Temporal replicates: 2Lumped sampling rounds per plot in one wet season.",NA
"Davi_L_Ramos_Phaseolus_vulgaris L_Brazil_2015_2016","D1P0","sweep net along a transect","Apis mellifera Linnaeus, 1758","species","honeybees",17,50,NA,2403,"Spatial replicates: two 25m observation transects per plot .  Temporal replicates: 2Lumped sampling rounds per plot in one wet season.",NA
"Davi_L_Ramos_Phaseolus_vulgaris L_Brazil_2015_2016","D2P0","sweep net along a transect","Apis mellifera Linnaeus, 1758","species","honeybees",4,50,NA,2275,"Spatial replicates: two 25m observation transects per plot .  Temporal replicates: 2Lumped sampling rounds per plot in one wet season.",NA
"Davi_L_Ramos_Phaseolus_vulgaris L_Brazil_2015_2016","R1P0N","sweep net along a transect","Apis mellifera Linnaeus, 1758","species","honeybees",3,50,NA,2960,"Spatial replicates: two 25m observation transects per plot .  Temporal replicates: 2Lumped sampling rounds per plot in one wet season.",NA
"Davi_L_Ramos_Phaseolus_vulgaris L_Brazil_2015_2016","R1P0N","sweep net along a transect","Non identified bee","Non identified","other_wild_bees",1,50,NA,2960,"Spatial replicates: two 25m observation transects per plot .  Temporal replicates: 2Lumped sampling rounds per plot in one wet season.","Apoidea?"
"Davi_L_Ramos_Phaseolus_vulgaris L_Brazil_2015_2016","R3P0N","sweep net along a transect","Bombus (Fervidobombus) morio Swederus, 1787","species","bumblebees",0.01,50,NA,2787,"Spatial replicates: two 25m observation transects per plot .  Temporal replicates: 2Lumped sampling rounds per plot in one wet season.",NA
"Davi_L_Ramos_Phaseolus_vulgaris L_Brazil_2015_2016","R3P0N","sweep net along a transect","Allograpta exotica cf.","species","syrphids",1,50,NA,2787,"These organisms were classified as biocontrol agents. However, since they were also registered as floral visitors, they may be potential pollinators as well. Spatial replicates: two 25m observation transects per plot .  Temporal replicates: 2Lumped sampling rounds per plot in one wet season.",NA
"Davi_L_Ramos_Phaseolus_vulgaris L_Brazil_2015_2016","R1P0S","sweep net along a transect","Bombus  cf. brevivillus","species","bumblebees",0.01,50,NA,2926,"Spatial replicates: two 25m observation transects per plot .  Temporal replicates: 2Lumped sampling rounds per plot in one wet season.",NA
"Davi_L_Ramos_Phaseolus_vulgaris L_Brazil_2015_2016","R1P0S","sweep net along a transect","Bombus (Fervidobombus) morio Swederus, 1787","species","bumblebees",0.01,50,NA,2926,"Spatial replicates: two 25m observation transects per plot .  Temporal replicates: 2Lumped sampling rounds per plot in one wet season.",NA
"Davi_L_Ramos_Phaseolus_vulgaris L_Brazil_2015_2016","R1P0S","sweep net along a transect","Apis mellifera Linnaeus, 1758","species","honeybees",6,50,NA,2926,"Spatial replicates: two 25m observation transects per plot .  Temporal replicates: 2Lumped sampling rounds per plot in one wet season.",NA
"Davi_L_Ramos_Phaseolus_vulgaris L_Brazil_2015_2016","R1P0S","sweep net along a transect","Apoidea sp.1","morphospecies","other_wild_bees",1,50,NA,2926,"Spatial replicates: two 25m observation transects per plot .  Temporal replicates: 2Lumped sampling rounds per plot in one wet season.",NA
"Davi_L_Ramos_Phaseolus_vulgaris L_Brazil_2015_2016","R3P0S","sweep net along a transect","Apis mellifera Linnaeus, 1758","species","honeybees",13,50,NA,3623,"Spatial replicates: two 25m observation transects per plot .  Temporal replicates: 2Lumped sampling rounds per plot in one wet season.",NA
"Davi_L_Ramos_Phaseolus_vulgaris L_Brazil_2015_2016","R3P0S","sweep net along a transect","Allograpta exotica cf.","species","syrphids",2,50,NA,3623,"These organisms were classified as biocontrol agents. However, since they were also registered as floral visitors, they may be potential pollinators as well. Spatial replicates: two 25m observation transects per plot .  Temporal replicates: 2Lumped sampling rounds per plot in one wet season.",NA
"Davi_L_Ramos_Phaseolus_vulgaris L_Brazil_2015_2016","J1P0N","sweep net along a transect","Apis mellifera Linnaeus, 1758","species","honeybees",3,50,NA,2542,"Spatial replicates: two 25m observation transects per plot .  Temporal replicates: 2Lumped sampling rounds per plot in one wet season.",NA
"Davi_L_Ramos_Phaseolus_vulgaris L_Brazil_2015_2016","J1P0N","sweep net along a transect","Brachygastra lecheguana","species","non_bee_hymenoptera",1,51,NA,2542,"These organisms were classified as biocontrol agents. However, since they were also registered as floral visitors, they may be potential pollinators as well. Spatial replicates: two 25m observation transects per plot .  Temporal replicates: 2Lumped sampling rounds per plot in one wet season.",NA
"Davi_L_Ramos_Phaseolus_vulgaris L_Brazil_2015_2016","J1P0N","sweep net along a transect","Paratrigona lineata Lepeletier, 1836","species","other_wild_bees",5,50,NA,2542,"Spatial replicates: two 25m observation transects per plot .  Temporal replicates: 2Lumped sampling rounds per plot in one wet season.",NA
"Davi_L_Ramos_Phaseolus_vulgaris L_Brazil_2015_2016","J2P0N","sweep net along a transect","Paratrigona lineata Lepeletier, 1836","species","other_wild_bees",2,50,NA,2439,"Spatial replicates: two 25m observation transects per plot .  Temporal replicates: 2Lumped sampling rounds per plot in one wet season.",NA
"Davi_L_Ramos_Phaseolus_vulgaris L_Brazil_2015_2016","J2P0N","sweep net along a transect","Apis mellifera Linnaeus, 1758","species","honeybees",7,50,NA,2439,"Spatial replicates: two 25m observation transects per plot .  Temporal replicates: 2Lumped sampling rounds per plot in one wet season.",NA
"Davi_L_Ramos_Phaseolus_vulgaris L_Brazil_2015_2016","J2P0N","sweep net along a transect","Apoidea sp.1","morphospecies","other_wild_bees",1,50,NA,2439,"Spatial replicates: two 25m observation transects per plot .  Temporal replicates: 2Lumped sampling rounds per plot in one wet season.",NA
"Davi_L_Ramos_Phaseolus_vulgaris L_Brazil_2015_2016","J1P0S","sweep net along a transect","Bombus sp.","morphospecies","bumblebees",0.01,50,NA,2282,"Spatial replicates: two 25m observation transects per plot .  Temporal replicates: 2Lumped sampling rounds per plot in one wet season.",NA
"Davi_L_Ramos_Phaseolus_vulgaris L_Brazil_2015_2016","J1P0S","sweep net along a transect","Trigona spinipes Fabricius, 1793","species","other_wild_bees",0.01,50,NA,2282,"Spatial replicates: two 25m observation transects per plot .  Temporal replicates: 2Lumped sampling rounds per plot in one wet season.",NA
"Davi_L_Ramos_Phaseolus_vulgaris L_Brazil_2015_2016","J1P0S","sweep net along a transect","Paratrigona lineata Lepeletier, 1836","species","other_wild_bees",6,50,NA,2282,"Spatial replicates: two 25m observation transects per plot .  Temporal replicates: 2Lumped sampling rounds per plot in one wet season.",NA
"Davi_L_Ramos_Phaseolus_vulgaris L_Brazil_2015_2016","J1P0S","sweep net along a transect","Non identified bee","Non identified","other_wild_bees",9,50,NA,2282,"Spatial replicates: two 25m observation transects per plot .  Temporal replicates: 2Lumped sampling rounds per plot in one wet season.","Apoidea?"
"Davi_L_Ramos_Phaseolus_vulgaris L_Brazil_2015_2016","J1P0S","sweep net along a transect","Apis mellifera Linnaeus, 1758","species","honeybees",4,50,NA,2282,"Spatial replicates: two 25m observation transects per plot .  Temporal replicates: 2Lumped sampling rounds per plot in one wet season.",NA
"Davi_L_Ramos_Phaseolus_vulgaris L_Brazil_2015_2016","J1P0S","sweep net along a transect","Allograpta exotica cf.","species","syrphids",1,50,NA,2282,"These organisms were classified as biocontrol agents. However, since they were also registered as floral visitors, they may be potential pollinators as well. Spatial replicates: two 25m observation transects per plot .  Temporal replicates: 2Lumped sampling rounds per plot in one wet season.",NA
"Davi_L_Ramos_Phaseolus_vulgaris L_Brazil_2015_2016","J1P0S","sweep net along a transect","Polybia ignobilis","species","non_bee_hymenoptera",1,50,NA,2282,"These organisms were classified as biocontrol agents. However, since they were also registered as floral visitors, they may be potential pollinators as well. Spatial replicates: two 25m observation transects per plot .  Temporal replicates: 2Lumped sampling rounds per plot in one wet season.",NA
"Davi_L_Ramos_Phaseolus_vulgaris L_Brazil_2015_2016","J1P0S","sweep net along a transect","Paratrigona lineata Lepeletier, 1836","species","other_wild_bees",6,50,NA,2282,"Spatial replicates: two 25m observation transects per plot .  Temporal replicates: 2Lumped sampling rounds per plot in one wet season.",NA
"Davi_L_Ramos_Phaseolus_vulgaris L_Brazil_2015_2016","J2P0S","sweep net along a transect","Exomalopsis analis","species","other_wild_bees",1,50,NA,2114,"Spatial replicates: two 25m observation transects per plot .  Temporal replicates: 2Lumped sampling rounds per plot in one wet season.",NA
"David_Crowder_Brassica_napus_USA_2013","clar1","bee_bowl","Andrenidae.sp1","morphospecies","other_wild_bees",1,50,1440,NA,"6 bee bowls. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2013","clar1","bee_bowl","Colletidae.sp1","morphospecies","other_wild_bees",3,50,1440,NA,"6 bee bowls. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2013","clar1","bee_bowl","Lasioglossum.sp4","morphospecies","other_wild_bees",3,50,1440,NA,"6 bee bowls. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2013","clar1","blue_vane_trap","Agapostemon.sp1","morphospecies","other_wild_bees",6,50,1440,NA,"2 blue vane traps. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2013","clar1","blue_vane_trap","Agapostemon.virescens","species","other_wild_bees",2,50,1440,NA,"2 blue vane traps. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2013","clar1","blue_vane_trap","Apidae.sp1","morphospecies","other_wild_bees",7,50,1440,NA,"2 blue vane traps. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2013","clar1","blue_vane_trap","Apidae.sp4","morphospecies","other_wild_bees",1,50,1440,NA,"2 blue vane traps. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2013","clar1","blue_vane_trap","Apis.mellifera","species","honeybees",1,50,1440,NA,"2 blue vane traps. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2013","clar1","blue_vane_trap","Halictini.sp3","morphospecies","other_wild_bees",1,50,1440,NA,"2 blue vane traps. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2013","clar1","blue_vane_trap","Lasioglossum.sp4","morphospecies","other_wild_bees",3,50,1440,NA,"2 blue vane traps. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2013","clar1","blue_vane_trap","Megachilidae.sp10","morphospecies","other_wild_bees",1,50,1440,NA,"2 blue vane traps. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2013","clar1","blue_vane_trap","Megachilidae.sp3","morphospecies","other_wild_bees",2,50,1440,NA,"2 blue vane traps. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2013","clar1","sweep_net","Bombus.nevadensis","species","bumblebees",3,50,30,NA,"100 sweeps. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2013","clar2","bee_bowl","Eucerini.sp6","morphospecies","other_wild_bees",1,50,1440,NA,"6 bee bowls. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2013","clar2","bee_bowl","Lasioglossum.sp2","morphospecies","other_wild_bees",1,50,1440,NA,"6 bee bowls. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2013","clar2","bee_bowl","Lasioglossum.sp4","morphospecies","other_wild_bees",7,50,1440,NA,"6 bee bowls. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2013","clar2","blue_vane_trap","Agapostemon.sp1","morphospecies","other_wild_bees",1,50,1440,NA,"2 blue vane traps. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2013","clar2","blue_vane_trap","Agapostemon.virescens","species","other_wild_bees",1,50,1440,NA,"2 blue vane traps. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2013","clar2","blue_vane_trap","Apidae.sp1","morphospecies","other_wild_bees",6,50,1440,NA,"2 blue vane traps. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2013","clar2","blue_vane_trap","Apis.mellifera","species","honeybees",1,50,1440,NA,"2 blue vane traps. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2013","clar2","blue_vane_trap","Bombus.fervidus","species","bumblebees",1,50,1440,NA,"2 blue vane traps. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2013","clar2","blue_vane_trap","Bombus.rufocinctus","species","bumblebees",1,50,1440,NA,"2 blue vane traps. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2013","clar2","blue_vane_trap","Eucerini.sp1","morphospecies","other_wild_bees",2,50,1440,NA,"2 blue vane traps. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2013","clar2","blue_vane_trap","Eucerini.sp3","morphospecies","other_wild_bees",1,50,1440,NA,"2 blue vane traps. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2013","clar2","blue_vane_trap","Eucerini.sp6","morphospecies","other_wild_bees",2,50,1440,NA,"2 blue vane traps. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2013","clar2","blue_vane_trap","Eucerini.sp7","morphospecies","other_wild_bees",1,50,1440,NA,"2 blue vane traps. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2013","clar2","blue_vane_trap","Eucerini.sp8","morphospecies","other_wild_bees",2,50,1440,NA,"2 blue vane traps. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2013","clar2","blue_vane_trap","Lasioglossum.sp4","morphospecies","other_wild_bees",1,50,1440,NA,"2 blue vane traps. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2013","clar2","blue_vane_trap","Megachilidae.sp10","morphospecies","other_wild_bees",1,50,1440,NA,"2 blue vane traps. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2013","clar2","sweep_net","Lasioglossum.sp4","morphospecies","other_wild_bees",1,50,30,NA,"100 sweeps. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2013","conr1","bee_bowl","Agapostemon.sp1","morphospecies","other_wild_bees",18,50,1440,NA,"6 bee bowls. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2013","conr1","bee_bowl","Agapostemon.virescens","species","other_wild_bees",1,50,1440,NA,"6 bee bowls. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2013","conr1","bee_bowl","Andrenidae.sp2","morphospecies","other_wild_bees",2,50,1440,NA,"6 bee bowls. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2013","conr1","bee_bowl","Apidae.sp1","morphospecies","other_wild_bees",3,50,1440,NA,"6 bee bowls. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2013","conr1","bee_bowl","Apidae.sp4","morphospecies","other_wild_bees",1,50,1440,NA,"6 bee bowls. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2013","conr1","bee_bowl","Ceratina.sp1","morphospecies","other_wild_bees",2,50,1440,NA,"6 bee bowls. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2013","conr1","bee_bowl","Eucerini.sp4","morphospecies","other_wild_bees",1,50,1440,NA,"6 bee bowls. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2013","conr1","bee_bowl","Eucerini.sp5","morphospecies","other_wild_bees",1,50,1440,NA,"6 bee bowls. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2013","conr1","bee_bowl","Halictini.sp3","morphospecies","other_wild_bees",2,50,1440,NA,"6 bee bowls. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2013","conr1","bee_bowl","Lasioglossum.sp4","morphospecies","other_wild_bees",21,50,1440,NA,"6 bee bowls. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2013","conr1","bee_bowl","Megachilidae.sp2","morphospecies","other_wild_bees",1,50,1440,NA,"6 bee bowls. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2013","conr1","bee_bowl","Megachilidae.sp5","morphospecies","other_wild_bees",1,50,1440,NA,"6 bee bowls. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2013","conr1","bee_bowl","Megachilidae.sp6","morphospecies","other_wild_bees",2,50,1440,NA,"6 bee bowls. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2013","conr1","blue_vane_trap","Agapostemon.sp1","morphospecies","other_wild_bees",28,50,1440,NA,"2 blue vane traps. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2013","conr1","blue_vane_trap","Agapostemon.virescens","species","other_wild_bees",34,50,1440,NA,"2 blue vane traps. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2013","conr1","blue_vane_trap","Andrenidae.sp1","morphospecies","other_wild_bees",27,50,1440,NA,"2 blue vane traps. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2013","conr1","blue_vane_trap","Andrenidae.sp2","morphospecies","other_wild_bees",8,50,1440,NA,"2 blue vane traps. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2013","conr1","blue_vane_trap","Apidae.sp1","morphospecies","other_wild_bees",4,50,1440,NA,"2 blue vane traps. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2013","conr1","blue_vane_trap","Apidae.sp4","morphospecies","other_wild_bees",1,50,1440,NA,"2 blue vane traps. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2013","conr1","blue_vane_trap","Bombus.nevadensis","species","bumblebees",1,50,1440,NA,"2 blue vane traps. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2013","conr1","blue_vane_trap","Bombus.rufocinctus","species","bumblebees",3,50,1440,NA,"2 blue vane traps. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2013","conr1","blue_vane_trap","Ceratina.sp1","morphospecies","other_wild_bees",1,50,1440,NA,"2 blue vane traps. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2013","conr1","blue_vane_trap","Ceratina.sp2","morphospecies","other_wild_bees",2,50,1440,NA,"2 blue vane traps. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2013","conr1","blue_vane_trap","Eucerini.sp1","morphospecies","other_wild_bees",2,50,1440,NA,"2 blue vane traps. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2013","conr1","blue_vane_trap","Eucerini.sp6","morphospecies","other_wild_bees",1,50,1440,NA,"2 blue vane traps. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2013","conr1","blue_vane_trap","Eucerini.sp9","morphospecies","other_wild_bees",1,50,1440,NA,"2 blue vane traps. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2013","conr1","blue_vane_trap","Halictini.sp3","morphospecies","other_wild_bees",5,50,1440,NA,"2 blue vane traps. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2013","conr1","blue_vane_trap","Lasioglossum.sp4","morphospecies","other_wild_bees",20,50,1440,NA,"2 blue vane traps. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2013","conr1","blue_vane_trap","Megachilidae.sp10","morphospecies","other_wild_bees",1,50,1440,NA,"2 blue vane traps. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2013","conr1","blue_vane_trap","Megachilidae.sp3","morphospecies","other_wild_bees",1,50,1440,NA,"2 blue vane traps. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2013","conr1","blue_vane_trap","Megachilidae.sp5","morphospecies","other_wild_bees",2,50,1440,NA,"2 blue vane traps. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2013","conr1","blue_vane_trap","Megachilidae.sp6","morphospecies","other_wild_bees",4,50,1440,NA,"2 blue vane traps. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2013","conr1","blue_vane_trap","Megachilidae.sp9","morphospecies","other_wild_bees",2,50,1440,NA,"2 blue vane traps. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2013","conr1","sweep_net","Andrenidae.sp1","morphospecies","other_wild_bees",3,50,30,NA,"100 sweeps. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2013","conr1","sweep_net","Andrenidae.sp2","morphospecies","other_wild_bees",1,50,30,NA,"100 sweeps. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2013","conr1","sweep_net","Apis.mellifera","species","honeybees",1,50,30,NA,"100 sweeps. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2013","conr1","sweep_net","Colletidae.sp1","morphospecies","other_wild_bees",1,50,30,NA,"100 sweeps. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2013","conr1","sweep_net","Halictini.sp3","morphospecies","other_wild_bees",1,50,30,NA,"100 sweeps. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2013","conr1","sweep_net","Lasioglossum.sp2","morphospecies","other_wild_bees",1,50,30,NA,"100 sweeps. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2013","conr1","sweep_net","Lasioglossum.sp4","morphospecies","other_wild_bees",2,50,30,NA,"100 sweeps. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2013","druf1","bee_bowl","Apidae.sp1","morphospecies","other_wild_bees",1,50,1440,NA,"6 bee bowls. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2013","druf1","bee_bowl","Lasioglossum.sp4","morphospecies","other_wild_bees",12,50,1440,NA,"6 bee bowls. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2013","druf1","blue_vane_trap","Agapostemon.sp1","morphospecies","other_wild_bees",4,50,1440,NA,"2 blue vane traps. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2013","druf1","blue_vane_trap","Agapostemon.virescens","species","other_wild_bees",2,50,1440,NA,"2 blue vane traps. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2013","druf1","blue_vane_trap","Andrenidae.sp1","morphospecies","other_wild_bees",1,50,1440,NA,"2 blue vane traps. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2013","druf1","blue_vane_trap","Apidae.sp1","morphospecies","other_wild_bees",6,50,1440,NA,"2 blue vane traps. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2013","druf1","blue_vane_trap","Apidae.sp4","morphospecies","other_wild_bees",1,50,1440,NA,"2 blue vane traps. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2013","druf1","blue_vane_trap","Bombus.griseocollis","species","bumblebees",1,50,1440,NA,"2 blue vane traps. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2013","druf1","blue_vane_trap","Halictini.sp3","morphospecies","other_wild_bees",3,50,1440,NA,"2 blue vane traps. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2013","druf1","blue_vane_trap","Lasioglossum.sp4","morphospecies","other_wild_bees",3,50,1440,NA,"2 blue vane traps. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2013","druf1","blue_vane_trap","Megachilidae.sp6","morphospecies","other_wild_bees",2,50,1440,NA,"2 blue vane traps. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2013","druf1","sweep_net","Eucerini.sp5","morphospecies","other_wild_bees",1,50,30,NA,"100 sweeps. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2013","hinn1","bee_bowl","Agapostemon.sp1","morphospecies","other_wild_bees",1,50,1440,NA,"6 bee bowls. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2013","hinn1","bee_bowl","Apis.mellifera","species","honeybees",1,50,1440,NA,"6 bee bowls. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2013","hinn1","bee_bowl","Eucerini.sp4","morphospecies","other_wild_bees",1,50,1440,NA,"6 bee bowls. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2013","hinn1","bee_bowl","Eucerini.sp5","morphospecies","other_wild_bees",1,50,1440,NA,"6 bee bowls. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2013","hinn1","bee_bowl","Halictini.sp3","morphospecies","other_wild_bees",1,50,1440,NA,"6 bee bowls. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2013","hinn1","bee_bowl","Lasioglossum.sp4","morphospecies","other_wild_bees",4,50,1440,NA,"6 bee bowls. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2013","hinn1","bee_bowl","Megachilidae.sp10","morphospecies","other_wild_bees",1,50,1440,NA,"6 bee bowls. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2013","hinn1","bee_bowl","Megachilidae.sp5","morphospecies","other_wild_bees",2,50,1440,NA,"6 bee bowls. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2013","hinn1","bee_bowl","Megachilidae.sp9","morphospecies","other_wild_bees",1,50,1440,NA,"6 bee bowls. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2013","hinn1","blue_vane_trap","Agapostemon.sp1","morphospecies","other_wild_bees",4,50,1440,NA,"2 blue vane traps. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2013","hinn1","blue_vane_trap","Agapostemon.virescens","species","other_wild_bees",1,50,1440,NA,"2 blue vane traps. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2013","hinn1","blue_vane_trap","Andrenidae.sp1","morphospecies","other_wild_bees",1,50,1440,NA,"2 blue vane traps. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2013","hinn1","blue_vane_trap","Apidae.sp1","morphospecies","other_wild_bees",1,50,1440,NA,"2 blue vane traps. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2013","hinn1","blue_vane_trap","Apidae.sp4","morphospecies","other_wild_bees",1,50,1440,NA,"2 blue vane traps. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2013","hinn1","blue_vane_trap","Apis.mellifera","species","honeybees",2,50,1440,NA,"2 blue vane traps. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2013","hinn1","blue_vane_trap","Bombus.appositus","species","bumblebees",1,50,1440,NA,"2 blue vane traps. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2013","hinn1","blue_vane_trap","Bombus.nevadensis","species","bumblebees",1,50,1440,NA,"2 blue vane traps. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2013","hinn1","blue_vane_trap","Bombus.rufocinctus","species","bumblebees",2,50,1440,NA,"2 blue vane traps. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2013","hinn1","blue_vane_trap","Eucerini.sp1","morphospecies","other_wild_bees",4,50,1440,NA,"2 blue vane traps. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2013","hinn1","blue_vane_trap","Lasioglossum.sp4","morphospecies","other_wild_bees",2,50,1440,NA,"2 blue vane traps. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2013","hinn1","sweep_net","Andrenidae.sp2","morphospecies","other_wild_bees",1,50,30,NA,"100 sweeps. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2013","hinn1","sweep_net","Lasioglossum.sp4","morphospecies","other_wild_bees",3,50,30,NA,"100 sweeps. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2013","hinn2","bee_bowl","Agapostemon.sp1","morphospecies","other_wild_bees",1,50,1440,NA,"6 bee bowls. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2013","hinn2","bee_bowl","Apis.mellifera","species","honeybees",1,50,1440,NA,"6 bee bowls. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2013","hinn2","bee_bowl","Ceratina.sp2","morphospecies","other_wild_bees",7,50,1440,NA,"6 bee bowls. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2013","hinn2","bee_bowl","Eucerini.sp6","morphospecies","other_wild_bees",1,50,1440,NA,"6 bee bowls. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2013","hinn2","bee_bowl","Eucerini.sp8","morphospecies","other_wild_bees",1,50,1440,NA,"6 bee bowls. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2013","hinn2","bee_bowl","Halictini.sp3","morphospecies","other_wild_bees",1,50,1440,NA,"6 bee bowls. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2013","hinn2","bee_bowl","Lasioglossum.sp4","morphospecies","other_wild_bees",11,50,1440,NA,"6 bee bowls. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2013","hinn2","bee_bowl","Megachilidae.sp10","morphospecies","other_wild_bees",2,50,1440,NA,"6 bee bowls. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2013","hinn2","blue_vane_trap","Agapostemon.sp1","morphospecies","other_wild_bees",10,50,1440,NA,"2 blue vane traps. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2013","hinn2","blue_vane_trap","Agapostemon.virescens","species","other_wild_bees",5,50,1440,NA,"2 blue vane traps. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2013","hinn2","blue_vane_trap","Andrenidae.sp2","morphospecies","other_wild_bees",1,50,1440,NA,"2 blue vane traps. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2013","hinn2","blue_vane_trap","Apidae.sp1","morphospecies","other_wild_bees",1,50,1440,NA,"2 blue vane traps. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2013","hinn2","blue_vane_trap","Apidae.sp4","morphospecies","other_wild_bees",2,50,1440,NA,"2 blue vane traps. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2013","hinn2","blue_vane_trap","Apis.mellifera","species","honeybees",2,50,1440,NA,"2 blue vane traps. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2013","hinn2","blue_vane_trap","Bombus.rufocinctus","species","bumblebees",2,50,1440,NA,"2 blue vane traps. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2013","hinn2","blue_vane_trap","Ceratina.sp1","morphospecies","other_wild_bees",1,50,1440,NA,"2 blue vane traps. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2013","hinn2","blue_vane_trap","Ceratina.sp2","morphospecies","other_wild_bees",7,50,1440,NA,"2 blue vane traps. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2013","hinn2","blue_vane_trap","Eucerini.sp10","morphospecies","other_wild_bees",1,50,1440,NA,"2 blue vane traps. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2013","hinn2","blue_vane_trap","Eucerini.sp3","morphospecies","other_wild_bees",1,50,1440,NA,"2 blue vane traps. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2013","hinn2","blue_vane_trap","Eucerini.sp5","morphospecies","other_wild_bees",3,50,1440,NA,"2 blue vane traps. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2013","hinn2","blue_vane_trap","Eucerini.sp6","morphospecies","other_wild_bees",6,50,1440,NA,"2 blue vane traps. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2013","hinn2","blue_vane_trap","Eucerini.sp7","morphospecies","other_wild_bees",1,50,1440,NA,"2 blue vane traps. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2013","hinn2","blue_vane_trap","Eucerini.sp8","morphospecies","other_wild_bees",3,50,1440,NA,"2 blue vane traps. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2013","hinn2","blue_vane_trap","Halictini.sp3","morphospecies","other_wild_bees",11,50,1440,NA,"2 blue vane traps. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2013","hinn2","blue_vane_trap","Lasioglossum.sp3","morphospecies","other_wild_bees",1,50,1440,NA,"2 blue vane traps. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2013","hinn2","blue_vane_trap","Lasioglossum.sp4","morphospecies","other_wild_bees",13,50,1440,NA,"2 blue vane traps. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2013","hinn2","blue_vane_trap","Megachilidae.sp1","morphospecies","other_wild_bees",1,50,1440,NA,"2 blue vane traps. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2013","hinn2","blue_vane_trap","Megachilidae.sp10","morphospecies","other_wild_bees",2,50,1440,NA,"2 blue vane traps. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2013","hinn2","blue_vane_trap","Megachilidae.sp3","morphospecies","other_wild_bees",1,50,1440,NA,"2 blue vane traps. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2013","hinn2","blue_vane_trap","Megachilidae.sp4","morphospecies","other_wild_bees",1,50,1440,NA,"2 blue vane traps. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2013","hinn2","sweep_net","Eucerini.sp5","morphospecies","other_wild_bees",1,50,30,NA,"100 sweeps. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2013","hinn2","sweep_net","Lasioglossum.sp4","morphospecies","other_wild_bees",2,50,30,NA,"100 sweeps. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2013","jens1","bee_bowl","Agapostemon.sp1","morphospecies","other_wild_bees",1,50,1440,NA,"6 bee bowls. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2013","jens1","bee_bowl","Agapostemon.virescens","species","other_wild_bees",1,50,1440,NA,"6 bee bowls. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2013","jens1","bee_bowl","Bombus.bifarius","species","bumblebees",1,50,1440,NA,"6 bee bowls. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2013","jens1","bee_bowl","Eucerini.sp7","morphospecies","other_wild_bees",1,50,1440,NA,"6 bee bowls. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2013","jens1","bee_bowl","Lasioglossum.sp4","morphospecies","other_wild_bees",34,50,1440,NA,"6 bee bowls. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2013","jens1","blue_vane_trap","Agapostemon.virescens","species","other_wild_bees",4,50,1440,NA,"2 blue vane traps. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2013","jens1","blue_vane_trap","Apidae.sp1","morphospecies","other_wild_bees",2,50,1440,NA,"2 blue vane traps. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2013","jens1","blue_vane_trap","Apidae.sp4","morphospecies","other_wild_bees",2,50,1440,NA,"2 blue vane traps. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2013","jens1","blue_vane_trap","Bombus.centralis","species","bumblebees",1,50,1440,NA,"2 blue vane traps. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2013","jens1","blue_vane_trap","Bombus.rufocinctus","species","bumblebees",1,50,1440,NA,"2 blue vane traps. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2013","jens1","blue_vane_trap","Eucerini.sp1","morphospecies","other_wild_bees",1,50,1440,NA,"2 blue vane traps. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2013","jens1","blue_vane_trap","Eucerini.sp7","morphospecies","other_wild_bees",1,50,1440,NA,"2 blue vane traps. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2013","jens1","blue_vane_trap","Halictini.sp3","morphospecies","other_wild_bees",1,50,1440,NA,"2 blue vane traps. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2013","jens1","blue_vane_trap","Lasioglossum.sp4","morphospecies","other_wild_bees",8,50,1440,NA,"2 blue vane traps. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2013","jens1","blue_vane_trap","Megachilidae.sp3","morphospecies","other_wild_bees",1,50,1440,NA,"2 blue vane traps. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2013","jens1","sweep_net","Lasioglossum.sp4","morphospecies","other_wild_bees",1,50,30,NA,"100 sweeps. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2013","jens2","bee_bowl","Agapostemon.sp1","morphospecies","other_wild_bees",4,50,1440,NA,"6 bee bowls. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2013","jens2","bee_bowl","Andrenidae.sp2","morphospecies","other_wild_bees",1,50,1440,NA,"6 bee bowls. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2013","jens2","bee_bowl","Apidae.sp3","morphospecies","other_wild_bees",1,50,1440,NA,"6 bee bowls. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2013","jens2","bee_bowl","Ceratina.sp1","morphospecies","other_wild_bees",1,50,1440,NA,"6 bee bowls. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2013","jens2","bee_bowl","Halictini.sp3","morphospecies","other_wild_bees",4,50,1440,NA,"6 bee bowls. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2013","jens2","bee_bowl","Lasioglossum.sp4","morphospecies","other_wild_bees",4,50,1440,NA,"6 bee bowls. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2013","jens2","bee_bowl","Megachilidae.sp4","morphospecies","other_wild_bees",2,50,1440,NA,"6 bee bowls. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2013","jens2","bee_bowl","Megachilidae.sp6","morphospecies","other_wild_bees",1,50,1440,NA,"6 bee bowls. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2013","jens2","bee_bowl","Megachilidae.sp9","morphospecies","other_wild_bees",2,50,1440,NA,"6 bee bowls. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2013","jens2","blue_vane_trap","Agapostemon.sp1","morphospecies","other_wild_bees",8,50,1440,NA,"2 blue vane traps. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2013","jens2","blue_vane_trap","Agapostemon.virescens","species","other_wild_bees",6,50,1440,NA,"2 blue vane traps. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2013","jens2","blue_vane_trap","Apidae.sp1","morphospecies","other_wild_bees",1,50,1440,NA,"2 blue vane traps. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2013","jens2","blue_vane_trap","Apidae.sp4","morphospecies","other_wild_bees",1,50,1440,NA,"2 blue vane traps. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2013","jens2","blue_vane_trap","Apis.mellifera","species","honeybees",2,50,1440,NA,"2 blue vane traps. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2013","jens2","blue_vane_trap","Bombus.fervidus","species","bumblebees",1,50,1440,NA,"2 blue vane traps. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2013","jens2","blue_vane_trap","Bombus.nevadensis","species","bumblebees",1,50,1440,NA,"2 blue vane traps. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2013","jens2","blue_vane_trap","Eucerini.sp1","morphospecies","other_wild_bees",1,50,1440,NA,"2 blue vane traps. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2013","jens2","blue_vane_trap","Halictini.sp3","morphospecies","other_wild_bees",2,50,1440,NA,"2 blue vane traps. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2013","jens2","blue_vane_trap","Lasioglossum.sp4","morphospecies","other_wild_bees",8,50,1440,NA,"2 blue vane traps. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2013","jens2","blue_vane_trap","Megachilidae.sp3","morphospecies","other_wild_bees",1,50,1440,NA,"2 blue vane traps. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2013","jens2","blue_vane_trap","Megachilidae.sp4","morphospecies","other_wild_bees",1,50,1440,NA,"2 blue vane traps. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2013","jens2","sweep_net","Apis.mellifera","species","honeybees",1,50,30,NA,"100 sweeps. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2013","odbe1","bee_bowl","Agapostemon.sp1","morphospecies","other_wild_bees",2,50,1440,NA,"6 bee bowls. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2013","odbe1","bee_bowl","Andrenidae.sp2","morphospecies","other_wild_bees",2,50,1440,NA,"6 bee bowls. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2013","odbe1","bee_bowl","Eucerini.sp7","morphospecies","other_wild_bees",1,50,1440,NA,"6 bee bowls. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2013","odbe1","bee_bowl","Lasioglossum.sp4","morphospecies","other_wild_bees",10,50,1440,NA,"6 bee bowls. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2013","odbe1","blue_vane_trap","Agapostemon.sp1","morphospecies","other_wild_bees",1,50,1440,NA,"2 blue vane traps. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2013","odbe1","blue_vane_trap","Agapostemon.virescens","species","other_wild_bees",12,50,1440,NA,"2 blue vane traps. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2013","odbe1","blue_vane_trap","Andrenidae.sp1","morphospecies","other_wild_bees",1,50,1440,NA,"2 blue vane traps. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2013","odbe1","blue_vane_trap","Apidae.sp1","morphospecies","other_wild_bees",1,50,1440,NA,"2 blue vane traps. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2013","odbe1","blue_vane_trap","Apis.mellifera","species","honeybees",3,50,1440,NA,"2 blue vane traps. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2013","odbe1","blue_vane_trap","Bombus.appositus","species","bumblebees",1,50,1440,NA,"2 blue vane traps. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2013","odbe1","blue_vane_trap","Bombus.nevadensis","species","bumblebees",1,50,1440,NA,"2 blue vane traps. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2013","odbe1","blue_vane_trap","Bombus.rufocinctus","species","bumblebees",1,50,1440,NA,"2 blue vane traps. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2013","odbe1","blue_vane_trap","Eucerini.sp1","morphospecies","other_wild_bees",1,50,1440,NA,"2 blue vane traps. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2013","odbe1","blue_vane_trap","Eucerini.sp2","morphospecies","other_wild_bees",1,50,1440,NA,"2 blue vane traps. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2013","odbe1","blue_vane_trap","Eucerini.sp7","morphospecies","other_wild_bees",3,50,1440,NA,"2 blue vane traps. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2013","odbe1","blue_vane_trap","Halictini.sp3","morphospecies","other_wild_bees",3,50,1440,NA,"2 blue vane traps. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2013","odbe1","blue_vane_trap","Lasioglossum.sp4","morphospecies","other_wild_bees",4,50,1440,NA,"2 blue vane traps. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2013","odbe1","blue_vane_trap","Megachilidae.sp10","morphospecies","other_wild_bees",1,50,1440,NA,"2 blue vane traps. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2013","odbe1","sweep_net","Lasioglossum.sp4","morphospecies","other_wild_bees",2,50,30,NA,"100 sweeps. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2013","pcfs2","bee_bowl","Agapostemon.sp1","morphospecies","other_wild_bees",4,50,1440,NA,"6 bee bowls. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2013","pcfs2","bee_bowl","Apidae.sp1","morphospecies","other_wild_bees",1,50,1440,NA,"6 bee bowls. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2013","pcfs2","bee_bowl","Apis.mellifera","species","honeybees",1,50,1440,NA,"6 bee bowls. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2013","pcfs2","bee_bowl","Ceratina.sp1","morphospecies","other_wild_bees",1,50,1440,NA,"6 bee bowls. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2013","pcfs2","bee_bowl","Halictini.sp3","morphospecies","other_wild_bees",2,50,1440,NA,"6 bee bowls. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2013","pcfs2","bee_bowl","Lasioglossum.sp3","morphospecies","other_wild_bees",1,50,1440,NA,"6 bee bowls. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2013","pcfs2","bee_bowl","Lasioglossum.sp4","morphospecies","other_wild_bees",8,50,1440,NA,"6 bee bowls. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2013","pcfs2","bee_bowl","Megachilidae.sp4","morphospecies","other_wild_bees",1,50,1440,NA,"6 bee bowls. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2013","pcfs2","blue_vane_trap","Agapostemon.sp1","morphospecies","other_wild_bees",1,50,1440,NA,"2 blue vane traps. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2013","pcfs2","blue_vane_trap","Agapostemon.virescens","species","other_wild_bees",10,50,1440,NA,"2 blue vane traps. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2013","pcfs2","blue_vane_trap","Andrenidae.sp1","morphospecies","other_wild_bees",3,50,1440,NA,"2 blue vane traps. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2013","pcfs2","blue_vane_trap","Andrenidae.sp2","morphospecies","other_wild_bees",4,50,1440,NA,"2 blue vane traps. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2013","pcfs2","blue_vane_trap","Apidae.sp1","morphospecies","other_wild_bees",5,50,1440,NA,"2 blue vane traps. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2013","pcfs2","blue_vane_trap","Bombus.appositus","species","bumblebees",1,50,1440,NA,"2 blue vane traps. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2013","pcfs2","blue_vane_trap","Bombus.bifarius","species","bumblebees",1,50,1440,NA,"2 blue vane traps. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2013","pcfs2","blue_vane_trap","Bombus.centralis","species","bumblebees",1,50,1440,NA,"2 blue vane traps. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2013","pcfs2","blue_vane_trap","Bombus.griseocollis","species","bumblebees",1,50,1440,NA,"2 blue vane traps. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2013","pcfs2","blue_vane_trap","Bombus.insularis","species","bumblebees",1,50,1440,NA,"2 blue vane traps. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2013","pcfs2","blue_vane_trap","Bombus.nevadensis","species","bumblebees",6,50,1440,NA,"2 blue vane traps. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2013","pcfs2","blue_vane_trap","Bombus.rufocinctus","species","bumblebees",1,50,1440,NA,"2 blue vane traps. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2013","pcfs2","blue_vane_trap","Eucerini.sp1","morphospecies","other_wild_bees",4,50,1440,NA,"2 blue vane traps. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2013","pcfs2","blue_vane_trap","Eucerini.sp7","morphospecies","other_wild_bees",1,50,1440,NA,"2 blue vane traps. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2013","pcfs2","blue_vane_trap","Eucerini.sp8","morphospecies","other_wild_bees",1,50,1440,NA,"2 blue vane traps. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2013","pcfs2","blue_vane_trap","Halictini.sp3","morphospecies","other_wild_bees",2,50,1440,NA,"2 blue vane traps. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2013","pcfs2","blue_vane_trap","Lasioglossum.sp4","morphospecies","other_wild_bees",4,50,1440,NA,"2 blue vane traps. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2013","pcfs2","blue_vane_trap","Megachilidae.sp4","morphospecies","other_wild_bees",1,50,1440,NA,"2 blue vane traps. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2013","pcfs2","blue_vane_trap","Megachilidae.sp5","morphospecies","other_wild_bees",1,50,1440,NA,"2 blue vane traps. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2013","pcfs2","blue_vane_trap","Megachilidae.sp6","morphospecies","other_wild_bees",1,50,1440,NA,"2 blue vane traps. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2013","pcfs2","blue_vane_trap","Megachilidae.sp9","morphospecies","other_wild_bees",1,50,1440,NA,"2 blue vane traps. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2013","pcfs2","sweep_net","Andrenidae.sp1","morphospecies","other_wild_bees",1,50,30,NA,"100 sweeps. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2013","pcfs2","sweep_net","Apis.mellifera","species","honeybees",3,50,30,NA,"100 sweeps. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2013","pcfs2","sweep_net","Colletidae.sp1","morphospecies","other_wild_bees",1,50,30,NA,"100 sweeps. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2013","pcfs2","sweep_net","Lasioglossum.sp4","morphospecies","other_wild_bees",2,50,30,NA,"100 sweeps. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2013","stub3","bee_bowl","Agapostemon.sp1","morphospecies","other_wild_bees",5,50,1440,NA,"6 bee bowls. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2013","stub3","bee_bowl","Andrenidae.sp1","morphospecies","other_wild_bees",3,50,1440,NA,"6 bee bowls. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2013","stub3","bee_bowl","Apidae.sp1","morphospecies","other_wild_bees",2,50,1440,NA,"6 bee bowls. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2013","stub3","bee_bowl","Colletidae.sp1","morphospecies","other_wild_bees",2,50,1440,NA,"6 bee bowls. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2013","stub3","bee_bowl","Lasioglossum.sp4","morphospecies","other_wild_bees",16,50,1440,NA,"6 bee bowls. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2013","stub3","bee_bowl","Megachilidae.sp6","morphospecies","other_wild_bees",1,50,1440,NA,"6 bee bowls. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2013","stub3","blue_vane_trap","Agapostemon.sp1","morphospecies","other_wild_bees",25,50,1440,NA,"2 blue vane traps. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2013","stub3","blue_vane_trap","Agapostemon.virescens","species","other_wild_bees",2,50,1440,NA,"2 blue vane traps. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2013","stub3","blue_vane_trap","Andrenidae.sp1","morphospecies","other_wild_bees",10,50,1440,NA,"2 blue vane traps. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2013","stub3","blue_vane_trap","Apidae.sp1","morphospecies","other_wild_bees",10,50,1440,NA,"2 blue vane traps. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2013","stub3","blue_vane_trap","Apidae.sp4","morphospecies","other_wild_bees",2,50,1440,NA,"2 blue vane traps. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2013","stub3","blue_vane_trap","Bombus.fervidus","species","bumblebees",1,50,1440,NA,"2 blue vane traps. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2013","stub3","blue_vane_trap","Colletidae.sp1","morphospecies","other_wild_bees",1,50,1440,NA,"2 blue vane traps. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2013","stub3","blue_vane_trap","Eucerini.sp1","morphospecies","other_wild_bees",16,50,1440,NA,"2 blue vane traps. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2013","stub3","blue_vane_trap","Eucerini.sp7","morphospecies","other_wild_bees",1,50,1440,NA,"2 blue vane traps. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2013","stub3","blue_vane_trap","Eucerini.sp9","morphospecies","other_wild_bees",2,50,1440,NA,"2 blue vane traps. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2013","stub3","blue_vane_trap","Halictini.sp2","morphospecies","other_wild_bees",1,50,1440,NA,"2 blue vane traps. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2013","stub3","blue_vane_trap","Halictini.sp3","morphospecies","other_wild_bees",2,50,1440,NA,"2 blue vane traps. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2013","stub3","blue_vane_trap","Lasioglossum.sp3","morphospecies","other_wild_bees",2,50,1440,NA,"2 blue vane traps. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2013","stub3","blue_vane_trap","Lasioglossum.sp4","morphospecies","other_wild_bees",8,50,1440,NA,"2 blue vane traps. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2013","stub3","blue_vane_trap","Megachilidae.sp9","morphospecies","other_wild_bees",1,50,1440,NA,"2 blue vane traps. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2013","stub3","sweep_net","Andrenidae.sp1","morphospecies","other_wild_bees",1,50,30,NA,"100 sweeps. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2013","stub3","sweep_net","Halictini.sp3","morphospecies","other_wild_bees",1,50,30,NA,"100 sweeps. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2013","stub3","sweep_net","Lasioglossum.sp4","morphospecies","other_wild_bees",1,50,30,NA,"100 sweeps. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2013","stub7","bee_bowl","Agapostemon.sp1","morphospecies","other_wild_bees",43,50,1440,NA,"6 bee bowls. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2013","stub7","bee_bowl","Apidae.sp4","morphospecies","other_wild_bees",1,50,1440,NA,"6 bee bowls. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2013","stub7","bee_bowl","Eucerini.sp7","morphospecies","other_wild_bees",1,50,1440,NA,"6 bee bowls. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2013","stub7","bee_bowl","Lasioglossum.sp4","morphospecies","other_wild_bees",19,50,1440,NA,"6 bee bowls. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2013","stub7","bee_bowl","Megachilidae.sp10","morphospecies","other_wild_bees",3,50,1440,NA,"6 bee bowls. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2013","stub7","bee_bowl","Megachilidae.sp4","morphospecies","other_wild_bees",5,50,1440,NA,"6 bee bowls. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2013","stub7","bee_bowl","Megachilidae.sp5","morphospecies","other_wild_bees",3,50,1440,NA,"6 bee bowls. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2013","stub7","bee_bowl","Megachilidae.sp9","morphospecies","other_wild_bees",1,50,1440,NA,"6 bee bowls. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2013","stub7","blue_vane_trap","Agapostemon.sp1","morphospecies","other_wild_bees",145,50,1440,NA,"2 blue vane traps. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2013","stub7","blue_vane_trap","Agapostemon.virescens","species","other_wild_bees",7,50,1440,NA,"2 blue vane traps. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2013","stub7","blue_vane_trap","Andrenidae.sp1","morphospecies","other_wild_bees",3,50,1440,NA,"2 blue vane traps. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2013","stub7","blue_vane_trap","Apidae.sp1","morphospecies","other_wild_bees",3,50,1440,NA,"2 blue vane traps. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2013","stub7","blue_vane_trap","Apidae.sp4","morphospecies","other_wild_bees",6,50,1440,NA,"2 blue vane traps. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2013","stub7","blue_vane_trap","Bombus.fervidus","species","bumblebees",1,50,1440,NA,"2 blue vane traps. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2013","stub7","blue_vane_trap","Bombus.nevadensis","species","bumblebees",1,50,1440,NA,"2 blue vane traps. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2013","stub7","blue_vane_trap","Eucerini.sp1","morphospecies","other_wild_bees",12,50,1440,NA,"2 blue vane traps. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2013","stub7","blue_vane_trap","Eucerini.sp6","morphospecies","other_wild_bees",1,50,1440,NA,"2 blue vane traps. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2013","stub7","blue_vane_trap","Eucerini.sp7","morphospecies","other_wild_bees",10,50,1440,NA,"2 blue vane traps. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2013","stub7","blue_vane_trap","Eucerini.sp9","morphospecies","other_wild_bees",1,50,1440,NA,"2 blue vane traps. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2013","stub7","blue_vane_trap","Halictini.sp3","morphospecies","other_wild_bees",13,50,1440,NA,"2 blue vane traps. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2013","stub7","blue_vane_trap","Lasioglossum.sp1","morphospecies","other_wild_bees",1,50,1440,NA,"2 blue vane traps. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2013","stub7","blue_vane_trap","Lasioglossum.sp4","morphospecies","other_wild_bees",35,50,1440,NA,"2 blue vane traps. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2013","stub7","blue_vane_trap","Megachilidae.sp3","morphospecies","other_wild_bees",2,50,1440,NA,"2 blue vane traps. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2013","stub7","blue_vane_trap","Megachilidae.sp4","morphospecies","other_wild_bees",8,50,1440,NA,"2 blue vane traps. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2013","stub7","blue_vane_trap","Megachilidae.sp5","morphospecies","other_wild_bees",8,50,1440,NA,"2 blue vane traps. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2013","stub7","blue_vane_trap","Megachilidae.sp6","morphospecies","other_wild_bees",2,50,1440,NA,"2 blue vane traps. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2013","stub7","blue_vane_trap","Megachilidae.sp9","morphospecies","other_wild_bees",1,50,1440,NA,"2 blue vane traps. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2013","stub7","sweep_net","Halictini.sp3","morphospecies","other_wild_bees",1,50,30,NA,"100 sweeps. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2013","stub7","sweep_net","Lasioglossum.sp4","morphospecies","other_wild_bees",1,50,30,NA,"100 sweeps. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2013","UIK","bee_bowl","Agapostemon.sp1","morphospecies","other_wild_bees",10,50,1440,NA,"6 bee bowls. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2013","UIK","bee_bowl","Lasioglossum.sp4","morphospecies","other_wild_bees",8,50,1440,NA,"6 bee bowls. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2013","UIK","blue_vane_trap","Agapostemon.sp1","morphospecies","other_wild_bees",16,50,1440,NA,"2 blue vane traps. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2013","UIK","blue_vane_trap","Agapostemon.virescens","species","other_wild_bees",12,50,1440,NA,"2 blue vane traps. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2013","UIK","blue_vane_trap","Andrenidae.sp1","morphospecies","other_wild_bees",2,50,1440,NA,"2 blue vane traps. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2013","UIK","blue_vane_trap","Andrenidae.sp2","morphospecies","other_wild_bees",2,50,1440,NA,"2 blue vane traps. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2013","UIK","blue_vane_trap","Apidae.sp1","morphospecies","other_wild_bees",1,50,1440,NA,"2 blue vane traps. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2013","UIK","blue_vane_trap","Apidae.sp2","morphospecies","other_wild_bees",1,50,1440,NA,"2 blue vane traps. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2013","UIK","blue_vane_trap","Bombus.bifarius","species","bumblebees",1,50,1440,NA,"2 blue vane traps. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2013","UIK","blue_vane_trap","Bombus.fervidus","species","bumblebees",2,50,1440,NA,"2 blue vane traps. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2013","UIK","blue_vane_trap","Bombus.nevadensis","species","bumblebees",8,50,1440,NA,"2 blue vane traps. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2013","UIK","blue_vane_trap","Bombus.rufocinctus","species","bumblebees",1,50,1440,NA,"2 blue vane traps. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2013","UIK","blue_vane_trap","Eucerini.sp1","morphospecies","other_wild_bees",1,50,1440,NA,"2 blue vane traps. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2013","UIK","blue_vane_trap","Eucerini.sp10","morphospecies","other_wild_bees",1,50,1440,NA,"2 blue vane traps. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2013","UIK","blue_vane_trap","Eucerini.sp5","morphospecies","other_wild_bees",1,50,1440,NA,"2 blue vane traps. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2013","UIK","blue_vane_trap","Eucerini.sp7","morphospecies","other_wild_bees",5,50,1440,NA,"2 blue vane traps. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2013","UIK","blue_vane_trap","Eucerini.sp8","morphospecies","other_wild_bees",3,50,1440,NA,"2 blue vane traps. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2013","UIK","blue_vane_trap","Eucerini.sp9","morphospecies","other_wild_bees",1,50,1440,NA,"2 blue vane traps. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2013","UIK","blue_vane_trap","Halictini.sp3","morphospecies","other_wild_bees",15,50,1440,NA,"2 blue vane traps. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2013","UIK","blue_vane_trap","Lasioglossum.sp2","morphospecies","other_wild_bees",9,50,1440,NA,"2 blue vane traps. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2013","UIK","blue_vane_trap","Lasioglossum.sp4","morphospecies","other_wild_bees",17,50,1440,NA,"2 blue vane traps. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2013","UIK","blue_vane_trap","Megachilidae.sp3","morphospecies","other_wild_bees",5,50,1440,NA,"2 blue vane traps. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2013","UIK","blue_vane_trap","Megachilidae.sp6","morphospecies","other_wild_bees",1,50,1440,NA,"2 blue vane traps. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2013","UIK","blue_vane_trap","Megachilidae.sp9","morphospecies","other_wild_bees",1,50,1440,NA,"2 blue vane traps. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2013","UIK","sweep_net","Lasioglossum.sp4","morphospecies","other_wild_bees",1,50,30,NA,"100 sweeps. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2013","UIP","bee_bowl","Agapostemon.sp1","morphospecies","other_wild_bees",1,50,1440,NA,"6 bee bowls. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2013","UIP","bee_bowl","Agapostemon.virescens","species","other_wild_bees",1,50,1440,NA,"6 bee bowls. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2013","UIP","bee_bowl","Lasioglossum.sp2","morphospecies","other_wild_bees",1,50,1440,NA,"6 bee bowls. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2013","UIP","bee_bowl","Lasioglossum.sp4","morphospecies","other_wild_bees",14,50,1440,NA,"6 bee bowls. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2013","UIP","blue_vane_trap","Agapostemon.sp1","morphospecies","other_wild_bees",7,50,1440,NA,"2 blue vane traps. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2013","UIP","blue_vane_trap","Eucerini.sp1","morphospecies","other_wild_bees",3,50,1440,NA,"2 blue vane traps. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2013","UIP","blue_vane_trap","Eucerini.sp5","morphospecies","other_wild_bees",2,50,1440,NA,"2 blue vane traps. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2013","UIP","blue_vane_trap","Eucerini.sp7","morphospecies","other_wild_bees",1,50,1440,NA,"2 blue vane traps. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2013","UIP","blue_vane_trap","Eucerini.sp8","morphospecies","other_wild_bees",1,50,1440,NA,"2 blue vane traps. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2013","UIP","blue_vane_trap","Halictini.sp3","morphospecies","other_wild_bees",2,50,1440,NA,"2 blue vane traps. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2013","UIP","blue_vane_trap","Lasioglossum.sp2","morphospecies","other_wild_bees",1,50,1440,NA,"2 blue vane traps. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2013","UIP","blue_vane_trap","Lasioglossum.sp4","morphospecies","other_wild_bees",7,50,1440,NA,"2 blue vane traps. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2013","UIP","sweep_net","Apis.mellifera","species","honeybees",1,50,30,NA,"100 sweeps. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2013","UIP","sweep_net","Lasioglossum.sp4","morphospecies","other_wild_bees",2,50,30,NA,"100 sweeps. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2013","winf1","bee_bowl","Agapostemon.sp1","morphospecies","other_wild_bees",2,50,1440,NA,"6 bee bowls. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2013","winf1","bee_bowl","Eucerini.sp7","morphospecies","other_wild_bees",2,50,1440,NA,"6 bee bowls. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2013","winf1","bee_bowl","Lasioglossum.sp4","morphospecies","other_wild_bees",4,50,1440,NA,"6 bee bowls. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2013","winf1","bee_bowl","Megachilidae.sp10","morphospecies","other_wild_bees",1,50,1440,NA,"6 bee bowls. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2013","winf1","blue_vane_trap","Agapostemon.sp1","morphospecies","other_wild_bees",7,50,1440,NA,"2 blue vane traps. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2013","winf1","blue_vane_trap","Apidae.sp1","morphospecies","other_wild_bees",2,50,1440,NA,"2 blue vane traps. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2013","winf1","blue_vane_trap","Bombus.centralis","species","bumblebees",1,50,1440,NA,"2 blue vane traps. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2013","winf1","blue_vane_trap","Bombus.griseocollis","species","bumblebees",1,50,1440,NA,"2 blue vane traps. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2013","winf1","blue_vane_trap","Bombus.nevadensis","species","bumblebees",3,50,1440,NA,"2 blue vane traps. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2013","winf1","blue_vane_trap","Eucerini.sp1","morphospecies","other_wild_bees",1,50,1440,NA,"2 blue vane traps. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2013","winf1","blue_vane_trap","Eucerini.sp7","morphospecies","other_wild_bees",3,50,1440,NA,"2 blue vane traps. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2013","winf1","blue_vane_trap","Halictini.sp2","morphospecies","other_wild_bees",1,50,1440,NA,"2 blue vane traps. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2013","winf1","blue_vane_trap","Halictini.sp3","morphospecies","other_wild_bees",5,50,1440,NA,"2 blue vane traps. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2013","winf1","blue_vane_trap","Lasioglossum.sp4","morphospecies","other_wild_bees",4,50,1440,NA,"2 blue vane traps. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2013","winf1","blue_vane_trap","Megachilidae.sp3","morphospecies","other_wild_bees",1,50,1440,NA,"2 blue vane traps. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2013","winf1","sweep_net","Halictini.sp1","morphospecies","other_wild_bees",1,50,30,NA,"100 sweeps. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2014","beck2","bee_bowl","Agapostemon.sp1","morphospecies","other_wild_bees",2,50,1440,NA,"6 bee bowls. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2014","beck2","bee_bowl","Agapostemon.virescens","species","other_wild_bees",1,50,1440,NA,"6 bee bowls. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2014","beck2","bee_bowl","Andrenidae.sp1","morphospecies","other_wild_bees",3,50,1440,NA,"6 bee bowls. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2014","beck2","bee_bowl","Andrenidae.sp2","morphospecies","other_wild_bees",6,50,1440,NA,"6 bee bowls. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2014","beck2","bee_bowl","Apidae.sp1","morphospecies","other_wild_bees",3,50,1440,NA,"6 bee bowls. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2014","beck2","bee_bowl","Bombus.griseocollis","species","bumblebees",1,50,1440,NA,"6 bee bowls. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2014","beck2","bee_bowl","Halictini.sp3","morphospecies","other_wild_bees",5,50,1440,NA,"6 bee bowls. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2014","beck2","bee_bowl","Lasioglossum.sp4","morphospecies","other_wild_bees",10,50,1440,NA,"6 bee bowls. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2014","beck2","bee_bowl","Megachilidae.sp4","morphospecies","other_wild_bees",1,50,1440,NA,"6 bee bowls. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2014","beck2","blue_vane_trap","Agapostemon.sp1","morphospecies","other_wild_bees",9,50,1440,NA,"2 blue vane traps. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2014","beck2","blue_vane_trap","Agapostemon.virescens","species","other_wild_bees",23,50,1440,NA,"2 blue vane traps. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2014","beck2","blue_vane_trap","Andrenidae.sp1","morphospecies","other_wild_bees",14,50,1440,NA,"2 blue vane traps. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2014","beck2","blue_vane_trap","Andrenidae.sp2","morphospecies","other_wild_bees",4,50,1440,NA,"2 blue vane traps. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2014","beck2","blue_vane_trap","Apidae.sp1","morphospecies","other_wild_bees",15,50,1440,NA,"2 blue vane traps. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2014","beck2","blue_vane_trap","Apidae.sp2","morphospecies","other_wild_bees",1,50,1440,NA,"2 blue vane traps. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2014","beck2","blue_vane_trap","Apidae.sp4","morphospecies","other_wild_bees",2,50,1440,NA,"2 blue vane traps. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2014","beck2","blue_vane_trap","Bombus.centralis","species","bumblebees",2,50,1440,NA,"2 blue vane traps. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2014","beck2","blue_vane_trap","Bombus.fervidus","species","bumblebees",2,50,1440,NA,"2 blue vane traps. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2014","beck2","blue_vane_trap","Bombus.nevadensis","species","bumblebees",12,50,1440,NA,"2 blue vane traps. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2014","beck2","blue_vane_trap","Bombus.occidentalis","species","bumblebees",1,50,1440,NA,"2 blue vane traps. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2014","beck2","blue_vane_trap","Eucerini.sp1","morphospecies","other_wild_bees",14,50,1440,NA,"2 blue vane traps. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2014","beck2","blue_vane_trap","Eucerini.sp5","morphospecies","other_wild_bees",1,50,1440,NA,"2 blue vane traps. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2014","beck2","blue_vane_trap","Eucerini.sp6","morphospecies","other_wild_bees",1,50,1440,NA,"2 blue vane traps. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2014","beck2","blue_vane_trap","Halictini.sp2","morphospecies","other_wild_bees",1,50,1440,NA,"2 blue vane traps. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2014","beck2","blue_vane_trap","Halictini.sp3","morphospecies","other_wild_bees",14,50,1440,NA,"2 blue vane traps. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2014","beck2","blue_vane_trap","Lasioglossum.sp4","morphospecies","other_wild_bees",5,50,1440,NA,"2 blue vane traps. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2014","beck2","blue_vane_trap","Megachilidae.sp1","morphospecies","other_wild_bees",1,50,1440,NA,"2 blue vane traps. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2014","beck2","blue_vane_trap","Megachilidae.sp10","morphospecies","other_wild_bees",1,50,1440,NA,"2 blue vane traps. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2014","beck2","blue_vane_trap","Megachilidae.sp2","morphospecies","other_wild_bees",2,50,1440,NA,"2 blue vane traps. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2014","beck2","blue_vane_trap","Megachilidae.sp3","morphospecies","other_wild_bees",2,50,1440,NA,"2 blue vane traps. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2014","beck2","sweep_net","Apis.mellifera","species","honeybees",1,50,30,NA,"100 sweeps. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2014","beck2","sweep_net","Halictini.sp3","morphospecies","other_wild_bees",2,50,30,NA,"100 sweeps. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2014","beck2","sweep_net","Lasioglossum.sp4","morphospecies","other_wild_bees",2,50,30,NA,"100 sweeps. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2014","clar4","bee_bowl","Agapostemon.sp1","morphospecies","other_wild_bees",4,50,1440,NA,"6 bee bowls. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2014","clar4","bee_bowl","Bombus.bifarius","species","bumblebees",1,50,1440,NA,"6 bee bowls. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2014","clar4","bee_bowl","Ceratina.sp2","morphospecies","other_wild_bees",1,50,1440,NA,"6 bee bowls. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2014","clar4","bee_bowl","Colletidae.sp1","morphospecies","other_wild_bees",1,50,1440,NA,"6 bee bowls. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2014","clar4","bee_bowl","Halictini.sp3","morphospecies","other_wild_bees",1,50,1440,NA,"6 bee bowls. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2014","clar4","bee_bowl","Lasioglossum.sp3","morphospecies","other_wild_bees",1,50,1440,NA,"6 bee bowls. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2014","clar4","bee_bowl","Lasioglossum.sp4","morphospecies","other_wild_bees",26,50,1440,NA,"6 bee bowls. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2014","clar4","blue_vane_trap","Agapostemon.sp1","morphospecies","other_wild_bees",8,50,1440,NA,"2 blue vane traps. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2014","clar4","blue_vane_trap","Agapostemon.virescens","species","other_wild_bees",13,50,1440,NA,"2 blue vane traps. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2014","clar4","blue_vane_trap","Andrenidae.sp1","morphospecies","other_wild_bees",8,50,1440,NA,"2 blue vane traps. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2014","clar4","blue_vane_trap","Apidae.sp1","morphospecies","other_wild_bees",1,50,1440,NA,"2 blue vane traps. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2014","clar4","blue_vane_trap","Apidae.sp4","morphospecies","other_wild_bees",12,50,1440,NA,"2 blue vane traps. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2014","clar4","blue_vane_trap","Apis.mellifera","species","honeybees",1,50,1440,NA,"2 blue vane traps. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2014","clar4","blue_vane_trap","Bombus.bifarius","species","bumblebees",2,50,1440,NA,"2 blue vane traps. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2014","clar4","blue_vane_trap","Bombus.centralis","species","bumblebees",3,50,1440,NA,"2 blue vane traps. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2014","clar4","blue_vane_trap","Bombus.fervidus","species","bumblebees",1,50,1440,NA,"2 blue vane traps. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2014","clar4","blue_vane_trap","Bombus.mixtus","species","bumblebees",2,50,1440,NA,"2 blue vane traps. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2014","clar4","blue_vane_trap","Bombus.nevadensis","species","bumblebees",1,50,1440,NA,"2 blue vane traps. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2014","clar4","blue_vane_trap","Bombus.occidentalis","species","bumblebees",1,50,1440,NA,"2 blue vane traps. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2014","clar4","blue_vane_trap","Bombus.rufocinctus","species","bumblebees",1,50,1440,NA,"2 blue vane traps. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2014","clar4","blue_vane_trap","Eucerini.sp1","morphospecies","other_wild_bees",1,50,1440,NA,"2 blue vane traps. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2014","clar4","blue_vane_trap","Eucerini.sp11","morphospecies","other_wild_bees",2,50,1440,NA,"2 blue vane traps. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2014","clar4","blue_vane_trap","Eucerini.sp5","morphospecies","other_wild_bees",1,50,1440,NA,"2 blue vane traps. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2014","clar4","blue_vane_trap","Eucerini.sp6","morphospecies","other_wild_bees",3,50,1440,NA,"2 blue vane traps. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2014","clar4","blue_vane_trap","Eucerini.sp9","morphospecies","other_wild_bees",3,50,1440,NA,"2 blue vane traps. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2014","clar4","blue_vane_trap","Halictini.sp3","morphospecies","other_wild_bees",10,50,1440,NA,"2 blue vane traps. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2014","clar4","blue_vane_trap","Lasioglossum.sp4","morphospecies","other_wild_bees",28,50,1440,NA,"2 blue vane traps. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2014","clar4","blue_vane_trap","Megachilidae.sp3","morphospecies","other_wild_bees",1,50,1440,NA,"2 blue vane traps. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2014","clar4","sweep_net","Halictini.sp3","morphospecies","other_wild_bees",2,50,30,NA,"100 sweeps. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2014","clar4","sweep_net","Lasioglossum.sp4","morphospecies","other_wild_bees",3,50,30,NA,"100 sweeps. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2014","conr4","bee_bowl","Agapostemon.sp1","morphospecies","other_wild_bees",6,50,1440,NA,"6 bee bowls. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2014","conr4","bee_bowl","Agapostemon.virescens","species","other_wild_bees",1,50,1440,NA,"6 bee bowls. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2014","conr4","bee_bowl","Andrenidae.sp1","morphospecies","other_wild_bees",11,50,1440,NA,"6 bee bowls. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2014","conr4","bee_bowl","Apidae.sp1","morphospecies","other_wild_bees",13,50,1440,NA,"6 bee bowls. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2014","conr4","bee_bowl","Bombus.bifarius","species","bumblebees",2,50,1440,NA,"6 bee bowls. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2014","conr4","bee_bowl","Bombus.nevadensis","species","bumblebees",1,50,1440,NA,"6 bee bowls. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2014","conr4","bee_bowl","Bombus.rufocinctus","species","bumblebees",2,50,1440,NA,"6 bee bowls. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2014","conr4","bee_bowl","Ceratina.sp2","morphospecies","other_wild_bees",1,50,1440,NA,"6 bee bowls. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2014","conr4","bee_bowl","Eucerini.sp1","morphospecies","other_wild_bees",35,50,1440,NA,"6 bee bowls. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2014","conr4","bee_bowl","Eucerini.sp5","morphospecies","other_wild_bees",1,50,1440,NA,"6 bee bowls. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2014","conr4","bee_bowl","Halictini.sp3","morphospecies","other_wild_bees",108,50,1440,NA,"6 bee bowls. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2014","conr4","bee_bowl","Lasioglossum.sp2","morphospecies","other_wild_bees",1,50,1440,NA,"6 bee bowls. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2014","conr4","bee_bowl","Lasioglossum.sp4","morphospecies","other_wild_bees",28,50,1440,NA,"6 bee bowls. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2014","conr4","bee_bowl","Megachilidae.sp10","morphospecies","other_wild_bees",1,50,1440,NA,"6 bee bowls. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2014","conr4","bee_bowl","Megachilidae.sp3","morphospecies","other_wild_bees",1,50,1440,NA,"6 bee bowls. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2014","conr4","bee_bowl","Megachilidae.sp4","morphospecies","other_wild_bees",2,50,1440,NA,"6 bee bowls. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2014","conr4","bee_bowl","Megachilidae.sp5","morphospecies","other_wild_bees",2,50,1440,NA,"6 bee bowls. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2014","conr4","bee_bowl","Megachilidae.sp9","morphospecies","other_wild_bees",2,50,1440,NA,"6 bee bowls. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2014","conr4","blue_vane_trap","Agapostemon.sp1","morphospecies","other_wild_bees",17,50,1440,NA,"2 blue vane traps. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2014","conr4","blue_vane_trap","Agapostemon.virescens","species","other_wild_bees",38,50,1440,NA,"2 blue vane traps. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2014","conr4","blue_vane_trap","Andrenidae.sp1","morphospecies","other_wild_bees",2,50,1440,NA,"2 blue vane traps. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2014","conr4","blue_vane_trap","Andrenidae.sp2","morphospecies","other_wild_bees",4,50,1440,NA,"2 blue vane traps. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2014","conr4","blue_vane_trap","Apidae.sp1","morphospecies","other_wild_bees",53,50,1440,NA,"2 blue vane traps. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2014","conr4","blue_vane_trap","Apis.mellifera","species","honeybees",1,50,1440,NA,"2 blue vane traps. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2014","conr4","blue_vane_trap","Bombus.bifarius","species","bumblebees",2,50,1440,NA,"2 blue vane traps. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2014","conr4","blue_vane_trap","Bombus.griseocollis","species","bumblebees",1,50,1440,NA,"2 blue vane traps. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2014","conr4","blue_vane_trap","Bombus.mixtus","species","bumblebees",1,50,1440,NA,"2 blue vane traps. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2014","conr4","blue_vane_trap","Bombus.nevadensis","species","bumblebees",6,50,1440,NA,"2 blue vane traps. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2014","conr4","blue_vane_trap","Colletidae.sp1","morphospecies","other_wild_bees",2,50,1440,NA,"2 blue vane traps. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2014","conr4","blue_vane_trap","Eucerini.sp1","morphospecies","other_wild_bees",76,50,1440,NA,"2 blue vane traps. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2014","conr4","blue_vane_trap","Halictini.sp3","morphospecies","other_wild_bees",13,50,1440,NA,"2 blue vane traps. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2014","conr4","blue_vane_trap","Lasioglossum.sp4","morphospecies","other_wild_bees",28,50,1440,NA,"2 blue vane traps. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2014","conr4","blue_vane_trap","Megachilidae.sp3","morphospecies","other_wild_bees",4,50,1440,NA,"2 blue vane traps. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2014","conr4","blue_vane_trap","Megachilidae.sp4","morphospecies","other_wild_bees",1,50,1440,NA,"2 blue vane traps. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2014","conr4","blue_vane_trap","Megachilidae.sp5","morphospecies","other_wild_bees",1,50,1440,NA,"2 blue vane traps. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2014","conr4","blue_vane_trap","Megachilidae.sp7","morphospecies","other_wild_bees",1,50,1440,NA,"2 blue vane traps. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2014","conr4","sweep_net","Andrenidae.sp1","morphospecies","other_wild_bees",1,50,30,NA,"100 sweeps. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2014","conr4","sweep_net","Andrenidae.sp2","morphospecies","other_wild_bees",1,50,30,NA,"100 sweeps. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2014","conr4","sweep_net","Apis.mellifera","species","honeybees",1,50,30,NA,"100 sweeps. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2014","conr4","sweep_net","Lasioglossum.sp4","morphospecies","other_wild_bees",3,50,30,NA,"100 sweeps. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2014","conr4","sweep_net","Megachilidae.sp5","morphospecies","other_wild_bees",1,50,30,NA,"100 sweeps. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2014","conr5","bee_bowl","Agapostemon.sp1","morphospecies","other_wild_bees",5,50,1440,NA,"6 bee bowls. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2014","conr5","bee_bowl","Agapostemon.virescens","species","other_wild_bees",1,50,1440,NA,"6 bee bowls. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2014","conr5","bee_bowl","Andrenidae.sp1","morphospecies","other_wild_bees",4,50,1440,NA,"6 bee bowls. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2014","conr5","bee_bowl","Andrenidae.sp2","morphospecies","other_wild_bees",2,50,1440,NA,"6 bee bowls. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2014","conr5","bee_bowl","Apidae.sp1","morphospecies","other_wild_bees",12,50,1440,NA,"6 bee bowls. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2014","conr5","bee_bowl","Apidae.sp4","morphospecies","other_wild_bees",1,50,1440,NA,"6 bee bowls. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2014","conr5","bee_bowl","Bombus.fervidus","species","bumblebees",1,50,1440,NA,"6 bee bowls. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2014","conr5","bee_bowl","Bombus.nevadensis","species","bumblebees",2,50,1440,NA,"6 bee bowls. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2014","conr5","bee_bowl","Eucerini.sp1","morphospecies","other_wild_bees",5,50,1440,NA,"6 bee bowls. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2014","conr5","bee_bowl","Eucerini.sp4","morphospecies","other_wild_bees",1,50,1440,NA,"6 bee bowls. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2014","conr5","bee_bowl","Eucerini.sp6","morphospecies","other_wild_bees",1,50,1440,NA,"6 bee bowls. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2014","conr5","bee_bowl","Eucerini.sp7","morphospecies","other_wild_bees",1,50,1440,NA,"6 bee bowls. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2014","conr5","bee_bowl","Halictini.sp3","morphospecies","other_wild_bees",1,50,1440,NA,"6 bee bowls. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2014","conr5","bee_bowl","Lasioglossum.sp4","morphospecies","other_wild_bees",9,50,1440,NA,"6 bee bowls. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2014","conr5","bee_bowl","Megachilidae.sp5","morphospecies","other_wild_bees",1,50,1440,NA,"6 bee bowls. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2014","conr5","bee_bowl","Megachilidae.sp6","morphospecies","other_wild_bees",2,50,1440,NA,"6 bee bowls. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2014","conr5","bee_bowl","Megachilidae.sp7","morphospecies","other_wild_bees",1,50,1440,NA,"6 bee bowls. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2014","conr5","bee_bowl","Megachilidae.sp9","morphospecies","other_wild_bees",3,50,1440,NA,"6 bee bowls. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2014","conr5","blue_vane_trap","Agapostemon.sp1","morphospecies","other_wild_bees",9,50,1440,NA,"2 blue vane traps. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2014","conr5","blue_vane_trap","Agapostemon.virescens","species","other_wild_bees",3,50,1440,NA,"2 blue vane traps. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2014","conr5","blue_vane_trap","Andrenidae.sp1","morphospecies","other_wild_bees",13,50,1440,NA,"2 blue vane traps. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2014","conr5","blue_vane_trap","Andrenidae.sp2","morphospecies","other_wild_bees",4,50,1440,NA,"2 blue vane traps. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2014","conr5","blue_vane_trap","Apidae.sp1","morphospecies","other_wild_bees",28,50,1440,NA,"2 blue vane traps. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2014","conr5","blue_vane_trap","Apidae.sp4","morphospecies","other_wild_bees",1,50,1440,NA,"2 blue vane traps. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2014","conr5","blue_vane_trap","Apis.mellifera","species","honeybees",2,50,1440,NA,"2 blue vane traps. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2014","conr5","blue_vane_trap","Bombus.appositus","species","bumblebees",1,50,1440,NA,"2 blue vane traps. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2014","conr5","blue_vane_trap","Bombus.bifarius","species","bumblebees",3,50,1440,NA,"2 blue vane traps. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2014","conr5","blue_vane_trap","Bombus.centralis","species","bumblebees",1,50,1440,NA,"2 blue vane traps. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2014","conr5","blue_vane_trap","Bombus.fervidus","species","bumblebees",1,50,1440,NA,"2 blue vane traps. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2014","conr5","blue_vane_trap","Bombus.nevadensis","species","bumblebees",47,50,1440,NA,"2 blue vane traps. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2014","conr5","blue_vane_trap","Bombus.pensylvanicus","species","bumblebees",1,50,1440,NA,"2 blue vane traps. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2014","conr5","blue_vane_trap","Bombus.rufocinctus","species","bumblebees",1,50,1440,NA,"2 blue vane traps. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2014","conr5","blue_vane_trap","Eucerini.sp1","morphospecies","other_wild_bees",83,50,1440,NA,"2 blue vane traps. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2014","conr5","blue_vane_trap","Eucerini.sp5","morphospecies","other_wild_bees",5,50,1440,NA,"2 blue vane traps. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2014","conr5","blue_vane_trap","Eucerini.sp7","morphospecies","other_wild_bees",3,50,1440,NA,"2 blue vane traps. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2014","conr5","blue_vane_trap","Eucerini.sp8","morphospecies","other_wild_bees",1,50,1440,NA,"2 blue vane traps. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2014","conr5","blue_vane_trap","Eucerini.sp9","morphospecies","other_wild_bees",1,50,1440,NA,"2 blue vane traps. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2014","conr5","blue_vane_trap","Halictini.sp3","morphospecies","other_wild_bees",9,50,1440,NA,"2 blue vane traps. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2014","conr5","blue_vane_trap","Lasioglossum.sp2","morphospecies","other_wild_bees",1,50,1440,NA,"2 blue vane traps. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2014","conr5","blue_vane_trap","Lasioglossum.sp4","morphospecies","other_wild_bees",16,50,1440,NA,"2 blue vane traps. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2014","conr5","blue_vane_trap","Megachilidae.sp3","morphospecies","other_wild_bees",3,50,1440,NA,"2 blue vane traps. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2014","conr5","blue_vane_trap","Megachilidae.sp4","morphospecies","other_wild_bees",1,50,1440,NA,"2 blue vane traps. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2014","conr5","blue_vane_trap","Megachilidae.sp5","morphospecies","other_wild_bees",5,50,1440,NA,"2 blue vane traps. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2014","conr5","blue_vane_trap","Megachilidae.sp6","morphospecies","other_wild_bees",3,50,1440,NA,"2 blue vane traps. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2014","conr5","blue_vane_trap","Megachilidae.sp8","morphospecies","other_wild_bees",1,50,1440,NA,"2 blue vane traps. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2014","conr5","blue_vane_trap","Megachilidae.sp9","morphospecies","other_wild_bees",10,50,1440,NA,"2 blue vane traps. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2014","conr5","sweep_net","Andrenidae.sp1","morphospecies","other_wild_bees",1,50,30,NA,"100 sweeps. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2014","conr5","sweep_net","Apis.mellifera","species","honeybees",2,50,30,NA,"100 sweeps. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2014","conr5","sweep_net","Bombus.nevadensis","species","bumblebees",1,50,30,NA,"100 sweeps. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2014","conr5","sweep_net","Lasioglossum.sp2","morphospecies","other_wild_bees",1,50,30,NA,"100 sweeps. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2014","conr5","sweep_net","Lasioglossum.sp4","morphospecies","other_wild_bees",1,50,30,NA,"100 sweeps. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2014","druf3","bee_bowl","Agapostemon.sp1","morphospecies","other_wild_bees",1,50,1440,NA,"6 bee bowls. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2014","druf3","bee_bowl","Agapostemon.virescens","species","other_wild_bees",1,50,1440,NA,"6 bee bowls. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2014","druf3","bee_bowl","Andrenidae.sp2","morphospecies","other_wild_bees",1,50,1440,NA,"6 bee bowls. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2014","druf3","bee_bowl","Apidae.sp1","morphospecies","other_wild_bees",1,50,1440,NA,"6 bee bowls. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2014","druf3","bee_bowl","Bombus.griseocollis","species","bumblebees",1,50,1440,NA,"6 bee bowls. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2014","druf3","bee_bowl","Bombus.nevadensis","species","bumblebees",1,50,1440,NA,"6 bee bowls. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2014","druf3","bee_bowl","Eucerini.sp7","morphospecies","other_wild_bees",1,50,1440,NA,"6 bee bowls. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2014","druf3","bee_bowl","Halictini.sp3","morphospecies","other_wild_bees",1,50,1440,NA,"6 bee bowls. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2014","druf3","bee_bowl","Lasioglossum.sp4","morphospecies","other_wild_bees",14,50,1440,NA,"6 bee bowls. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2014","druf3","bee_bowl","Megachilidae.sp1","morphospecies","other_wild_bees",1,50,1440,NA,"6 bee bowls. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2014","druf3","bee_bowl","Megachilidae.sp10","morphospecies","other_wild_bees",2,50,1440,NA,"6 bee bowls. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2014","druf3","bee_bowl","Megachilidae.sp2","morphospecies","other_wild_bees",1,50,1440,NA,"6 bee bowls. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2014","druf3","bee_bowl","Megachilidae.sp3","morphospecies","other_wild_bees",2,50,1440,NA,"6 bee bowls. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2014","druf3","bee_bowl","Megachilidae.sp4","morphospecies","other_wild_bees",1,50,1440,NA,"6 bee bowls. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2014","druf3","bee_bowl","Megachilidae.sp5","morphospecies","other_wild_bees",1,50,1440,NA,"6 bee bowls. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2014","druf3","blue_vane_trap","Agapostemon.sp1","morphospecies","other_wild_bees",7,50,1440,NA,"2 blue vane traps. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2014","druf3","blue_vane_trap","Andrenidae.sp1","morphospecies","other_wild_bees",1,50,1440,NA,"2 blue vane traps. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2014","druf3","blue_vane_trap","Apidae.sp1","morphospecies","other_wild_bees",11,50,1440,NA,"2 blue vane traps. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2014","druf3","blue_vane_trap","Apidae.sp4","morphospecies","other_wild_bees",1,50,1440,NA,"2 blue vane traps. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2014","druf3","blue_vane_trap","Bombus.bifarius","species","bumblebees",1,50,1440,NA,"2 blue vane traps. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2014","druf3","blue_vane_trap","Bombus.fervidus","species","bumblebees",1,50,1440,NA,"2 blue vane traps. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2014","druf3","blue_vane_trap","Bombus.griseocollis","species","bumblebees",3,50,1440,NA,"2 blue vane traps. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2014","druf3","blue_vane_trap","Bombus.nevadensis","species","bumblebees",16,50,1440,NA,"2 blue vane traps. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2014","druf3","blue_vane_trap","Bombus.rufocinctus","species","bumblebees",1,50,1440,NA,"2 blue vane traps. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2014","druf3","blue_vane_trap","Eucerini.sp1","morphospecies","other_wild_bees",2,50,1440,NA,"2 blue vane traps. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2014","druf3","blue_vane_trap","Eucerini.sp5","morphospecies","other_wild_bees",14,50,1440,NA,"2 blue vane traps. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2014","druf3","blue_vane_trap","Eucerini.sp8","morphospecies","other_wild_bees",1,50,1440,NA,"2 blue vane traps. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2014","druf3","blue_vane_trap","Eucerini.sp9","morphospecies","other_wild_bees",3,50,1440,NA,"2 blue vane traps. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2014","druf3","blue_vane_trap","Halictini.sp3","morphospecies","other_wild_bees",3,50,1440,NA,"2 blue vane traps. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2014","druf3","blue_vane_trap","Lasioglossum.sp4","morphospecies","other_wild_bees",3,50,1440,NA,"2 blue vane traps. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2014","druf3","blue_vane_trap","Megachilidae.sp2","morphospecies","other_wild_bees",2,50,1440,NA,"2 blue vane traps. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2014","druf3","blue_vane_trap","Megachilidae.sp3","morphospecies","other_wild_bees",1,50,1440,NA,"2 blue vane traps. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2014","druf3","sweep_net","Lasioglossum.sp4","morphospecies","other_wild_bees",1,50,30,NA,"100 sweeps. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2014","jens3","bee_bowl","Agapostemon.sp1","morphospecies","other_wild_bees",8,50,1440,NA,"6 bee bowls. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2014","jens3","bee_bowl","Bombus.occidentalis","species","bumblebees",1,50,1440,NA,"6 bee bowls. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2014","jens3","bee_bowl","Ceratina.sp2","morphospecies","other_wild_bees",3,50,1440,NA,"6 bee bowls. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2014","jens3","bee_bowl","Colletidae.sp1","morphospecies","other_wild_bees",5,50,1440,NA,"6 bee bowls. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2014","jens3","bee_bowl","Halictini.sp3","morphospecies","other_wild_bees",4,50,1440,NA,"6 bee bowls. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2014","jens3","bee_bowl","Lasioglossum.sp4","morphospecies","other_wild_bees",51,50,1440,NA,"6 bee bowls. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2014","jens3","bee_bowl","Megachilidae.sp10","morphospecies","other_wild_bees",13,50,1440,NA,"6 bee bowls. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2014","jens3","bee_bowl","Megachilidae.sp3","morphospecies","other_wild_bees",2,50,1440,NA,"6 bee bowls. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2014","jens3","bee_bowl","Megachilidae.sp5","morphospecies","other_wild_bees",1,50,1440,NA,"6 bee bowls. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2014","jens3","bee_bowl","Megachilidae.sp6","morphospecies","other_wild_bees",1,50,1440,NA,"6 bee bowls. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2014","jens3","blue_vane_trap","Agapostemon.sp1","morphospecies","other_wild_bees",6,50,1440,NA,"2 blue vane traps. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2014","jens3","blue_vane_trap","Agapostemon.virescens","species","other_wild_bees",2,50,1440,NA,"2 blue vane traps. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2014","jens3","blue_vane_trap","Apidae.sp1","morphospecies","other_wild_bees",1,50,1440,NA,"2 blue vane traps. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2014","jens3","blue_vane_trap","Apidae.sp4","morphospecies","other_wild_bees",3,50,1440,NA,"2 blue vane traps. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2014","jens3","blue_vane_trap","Apis.mellifera","species","honeybees",2,50,1440,NA,"2 blue vane traps. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2014","jens3","blue_vane_trap","Bombus.bifarius","species","bumblebees",2,50,1440,NA,"2 blue vane traps. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2014","jens3","blue_vane_trap","Bombus.centralis","species","bumblebees",1,50,1440,NA,"2 blue vane traps. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2014","jens3","blue_vane_trap","Bombus.nevadensis","species","bumblebees",2,50,1440,NA,"2 blue vane traps. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2014","jens3","blue_vane_trap","Bombus.occidentalis","species","bumblebees",1,50,1440,NA,"2 blue vane traps. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2014","jens3","blue_vane_trap","Eucerini.sp1","morphospecies","other_wild_bees",2,50,1440,NA,"2 blue vane traps. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2014","jens3","blue_vane_trap","Eucerini.sp10","morphospecies","other_wild_bees",1,50,1440,NA,"2 blue vane traps. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2014","jens3","blue_vane_trap","Eucerini.sp5","morphospecies","other_wild_bees",2,50,1440,NA,"2 blue vane traps. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2014","jens3","blue_vane_trap","Eucerini.sp7","morphospecies","other_wild_bees",2,50,1440,NA,"2 blue vane traps. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2014","jens3","blue_vane_trap","Eucerini.sp8","morphospecies","other_wild_bees",1,50,1440,NA,"2 blue vane traps. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2014","jens3","blue_vane_trap","Halictini.sp3","morphospecies","other_wild_bees",7,50,1440,NA,"2 blue vane traps. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2014","jens3","blue_vane_trap","Lasioglossum.sp4","morphospecies","other_wild_bees",7,50,1440,NA,"2 blue vane traps. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2014","jens3","blue_vane_trap","Megachilidae.sp1","morphospecies","other_wild_bees",1,50,1440,NA,"2 blue vane traps. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2014","jens3","blue_vane_trap","Megachilidae.sp10","morphospecies","other_wild_bees",8,50,1440,NA,"2 blue vane traps. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2014","jens3","blue_vane_trap","Megachilidae.sp2","morphospecies","other_wild_bees",1,50,1440,NA,"2 blue vane traps. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2014","jens3","blue_vane_trap","Megachilidae.sp3","morphospecies","other_wild_bees",1,50,1440,NA,"2 blue vane traps. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2014","jens3","sweep_net","Lasioglossum.sp4","morphospecies","other_wild_bees",10,50,30,NA,"100 sweeps. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2014","jens4","bee_bowl","Andrenidae.sp2","morphospecies","other_wild_bees",2,50,1440,NA,"6 bee bowls. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2014","jens4","bee_bowl","Apidae.sp4","morphospecies","other_wild_bees",1,50,1440,NA,"6 bee bowls. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2014","jens4","bee_bowl","Halictini.sp3","morphospecies","other_wild_bees",3,50,1440,NA,"6 bee bowls. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2014","jens4","bee_bowl","Lasioglossum.sp4","morphospecies","other_wild_bees",14,50,1440,NA,"6 bee bowls. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2014","jens4","bee_bowl","Megachilidae.sp3","morphospecies","other_wild_bees",1,50,1440,NA,"6 bee bowls. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2014","jens4","blue_vane_trap","Agapostemon.sp1","morphospecies","other_wild_bees",2,50,1440,NA,"2 blue vane traps. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2014","jens4","blue_vane_trap","Agapostemon.virescens","species","other_wild_bees",3,50,1440,NA,"2 blue vane traps. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2014","jens4","blue_vane_trap","Andrenidae.sp1","morphospecies","other_wild_bees",1,50,1440,NA,"2 blue vane traps. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2014","jens4","blue_vane_trap","Apidae.sp1","morphospecies","other_wild_bees",4,50,1440,NA,"2 blue vane traps. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2014","jens4","blue_vane_trap","Apidae.sp4","morphospecies","other_wild_bees",4,50,1440,NA,"2 blue vane traps. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2014","jens4","blue_vane_trap","Bombus.appositus","species","bumblebees",1,50,1440,NA,"2 blue vane traps. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2014","jens4","blue_vane_trap","Bombus.centralis","species","bumblebees",1,50,1440,NA,"2 blue vane traps. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2014","jens4","blue_vane_trap","Bombus.fervidus","species","bumblebees",1,50,1440,NA,"2 blue vane traps. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2014","jens4","blue_vane_trap","Bombus.nevadensis","species","bumblebees",6,50,1440,NA,"2 blue vane traps. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2014","jens4","blue_vane_trap","Eucerini.sp1","morphospecies","other_wild_bees",2,50,1440,NA,"2 blue vane traps. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2014","jens4","blue_vane_trap","Eucerini.sp5","morphospecies","other_wild_bees",1,50,1440,NA,"2 blue vane traps. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2014","jens4","blue_vane_trap","Eucerini.sp6","morphospecies","other_wild_bees",1,50,1440,NA,"2 blue vane traps. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2014","jens4","blue_vane_trap","Halictini.sp3","morphospecies","other_wild_bees",3,50,1440,NA,"2 blue vane traps. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2014","jens4","blue_vane_trap","Lasioglossum.sp4","morphospecies","other_wild_bees",10,50,1440,NA,"2 blue vane traps. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2014","jens4","blue_vane_trap","Megachilidae.sp10","morphospecies","other_wild_bees",1,50,1440,NA,"2 blue vane traps. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2014","jens4","blue_vane_trap","Megachilidae.sp4","morphospecies","other_wild_bees",2,50,1440,NA,"2 blue vane traps. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2014","jens4","sweep_net","Lasioglossum.sp4","morphospecies","other_wild_bees",2,50,30,NA,"100 sweeps. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2014","odbe2","bee_bowl","Andrenidae.sp2","morphospecies","other_wild_bees",2,50,1440,NA,"6 bee bowls. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2014","odbe2","bee_bowl","Apidae.sp1","morphospecies","other_wild_bees",1,50,1440,NA,"6 bee bowls. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2014","odbe2","bee_bowl","Apis.mellifera","species","honeybees",1,50,1440,NA,"6 bee bowls. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2014","odbe2","bee_bowl","Halictini.sp3","morphospecies","other_wild_bees",2,50,1440,NA,"6 bee bowls. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2014","odbe2","bee_bowl","Lasioglossum.sp4","morphospecies","other_wild_bees",26,50,1440,NA,"6 bee bowls. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2014","odbe2","bee_bowl","Megachilidae.sp10","morphospecies","other_wild_bees",1,50,1440,NA,"6 bee bowls. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2014","odbe2","bee_bowl","Megachilidae.sp3","morphospecies","other_wild_bees",2,50,1440,NA,"6 bee bowls. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2014","odbe2","blue_vane_trap","Agapostemon.virescens","species","other_wild_bees",24,50,1440,NA,"2 blue vane traps. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2014","odbe2","blue_vane_trap","Andrenidae.sp1","morphospecies","other_wild_bees",6,50,1440,NA,"2 blue vane traps. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2014","odbe2","blue_vane_trap","Andrenidae.sp2","morphospecies","other_wild_bees",2,50,1440,NA,"2 blue vane traps. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2014","odbe2","blue_vane_trap","Apidae.sp1","morphospecies","other_wild_bees",4,50,1440,NA,"2 blue vane traps. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2014","odbe2","blue_vane_trap","Apis.mellifera","species","honeybees",1,50,1440,NA,"2 blue vane traps. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2014","odbe2","blue_vane_trap","Bombus.bifarius","species","bumblebees",1,50,1440,NA,"2 blue vane traps. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2014","odbe2","blue_vane_trap","Bombus.centralis","species","bumblebees",2,50,1440,NA,"2 blue vane traps. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2014","odbe2","blue_vane_trap","Bombus.fervidus","species","bumblebees",3,50,1440,NA,"2 blue vane traps. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2014","odbe2","blue_vane_trap","Bombus.griseocollis","species","bumblebees",1,50,1440,NA,"2 blue vane traps. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2014","odbe2","blue_vane_trap","Bombus.nevadensis","species","bumblebees",6,50,1440,NA,"2 blue vane traps. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2014","odbe2","blue_vane_trap","Bombus.pensylvanicus","species","bumblebees",1,50,1440,NA,"2 blue vane traps. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2014","odbe2","blue_vane_trap","Bombus.rufocinctus","species","bumblebees",1,50,1440,NA,"2 blue vane traps. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2014","odbe2","blue_vane_trap","Bombus.vagans","species","bumblebees",1,50,1440,NA,"2 blue vane traps. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2014","odbe2","blue_vane_trap","Eucerini.sp1","morphospecies","other_wild_bees",10,50,1440,NA,"2 blue vane traps. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2014","odbe2","blue_vane_trap","Halictini.sp3","morphospecies","other_wild_bees",5,50,1440,NA,"2 blue vane traps. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2014","odbe2","blue_vane_trap","Lasioglossum.sp4","morphospecies","other_wild_bees",8,50,1440,NA,"2 blue vane traps. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2014","odbe2","sweep_net","Apis.mellifera","species","honeybees",1,50,30,NA,"100 sweeps. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2014","odbe2","sweep_net","Bombus.nevadensis","species","bumblebees",1,50,30,NA,"100 sweeps. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2014","odbe2","sweep_net","Lasioglossum.sp4","morphospecies","other_wild_bees",4,50,30,NA,"100 sweeps. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2014","odbe2","sweep_net","Megachilidae.sp10","morphospecies","other_wild_bees",1,50,30,NA,"100 sweeps. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2014","olso2","bee_bowl","Andrenidae.sp2","morphospecies","other_wild_bees",1,50,1440,NA,"6 bee bowls. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2014","olso2","bee_bowl","Halictini.sp3","morphospecies","other_wild_bees",1,50,1440,NA,"6 bee bowls. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2014","olso2","bee_bowl","Lasioglossum.sp4","morphospecies","other_wild_bees",18,50,1440,NA,"6 bee bowls. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2014","olso2","blue_vane_trap","Agapostemon.sp1","morphospecies","other_wild_bees",2,50,1440,NA,"2 blue vane traps. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2014","olso2","blue_vane_trap","Agapostemon.virescens","species","other_wild_bees",1,50,1440,NA,"2 blue vane traps. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2014","olso2","blue_vane_trap","Apidae.sp1","morphospecies","other_wild_bees",2,50,1440,NA,"2 blue vane traps. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2014","olso2","blue_vane_trap","Apidae.sp4","morphospecies","other_wild_bees",2,50,1440,NA,"2 blue vane traps. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2014","olso2","blue_vane_trap","Bombus.centralis","species","bumblebees",2,50,1440,NA,"2 blue vane traps. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2014","olso2","blue_vane_trap","Bombus.nevadensis","species","bumblebees",1,50,1440,NA,"2 blue vane traps. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2014","olso2","blue_vane_trap","Eucerini.sp1","morphospecies","other_wild_bees",1,50,1440,NA,"2 blue vane traps. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2014","olso2","blue_vane_trap","Eucerini.sp5","morphospecies","other_wild_bees",1,50,1440,NA,"2 blue vane traps. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2014","olso2","blue_vane_trap","Eucerini.sp7","morphospecies","other_wild_bees",1,50,1440,NA,"2 blue vane traps. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2014","olso2","blue_vane_trap","Eucerini.sp9","morphospecies","other_wild_bees",1,50,1440,NA,"2 blue vane traps. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2014","olso2","blue_vane_trap","Halictini.sp3","morphospecies","other_wild_bees",5,50,1440,NA,"2 blue vane traps. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2014","olso2","blue_vane_trap","Lasioglossum.sp4","morphospecies","other_wild_bees",15,50,1440,NA,"2 blue vane traps. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2014","olso2","blue_vane_trap","Megachilidae.sp3","morphospecies","other_wild_bees",2,50,1440,NA,"2 blue vane traps. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2014","olso2","blue_vane_trap","Megachilidae.sp5","morphospecies","other_wild_bees",2,50,1440,NA,"2 blue vane traps. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2014","olso3","bee_bowl","Agapostemon.sp1","morphospecies","other_wild_bees",7,50,1440,NA,"6 bee bowls. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2014","olso3","bee_bowl","Agapostemon.virescens","species","other_wild_bees",1,50,1440,NA,"6 bee bowls. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2014","olso3","bee_bowl","Apidae.sp1","morphospecies","other_wild_bees",3,50,1440,NA,"6 bee bowls. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2014","olso3","bee_bowl","Eucerini.sp1","morphospecies","other_wild_bees",5,50,1440,NA,"6 bee bowls. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2014","olso3","bee_bowl","Halictini.sp3","morphospecies","other_wild_bees",3,50,1440,NA,"6 bee bowls. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2014","olso3","bee_bowl","Lasioglossum.sp4","morphospecies","other_wild_bees",22,50,1440,NA,"6 bee bowls. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2014","olso3","bee_bowl","Megachilidae.sp1","morphospecies","other_wild_bees",3,50,1440,NA,"6 bee bowls. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2014","olso3","bee_bowl","Megachilidae.sp2","morphospecies","other_wild_bees",1,50,1440,NA,"6 bee bowls. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2014","olso3","bee_bowl","Megachilidae.sp4","morphospecies","other_wild_bees",1,50,1440,NA,"6 bee bowls. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2014","olso3","blue_vane_trap","Agapostemon.sp1","morphospecies","other_wild_bees",53,50,1440,NA,"2 blue vane traps. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2014","olso3","blue_vane_trap","Agapostemon.virescens","species","other_wild_bees",17,50,1440,NA,"2 blue vane traps. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2014","olso3","blue_vane_trap","Andrenidae.sp1","morphospecies","other_wild_bees",20,50,1440,NA,"2 blue vane traps. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2014","olso3","blue_vane_trap","Andrenidae.sp2","morphospecies","other_wild_bees",3,50,1440,NA,"2 blue vane traps. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2014","olso3","blue_vane_trap","Apidae.sp1","morphospecies","other_wild_bees",35,50,1440,NA,"2 blue vane traps. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2014","olso3","blue_vane_trap","Bombus.nevadensis","species","bumblebees",11,50,1440,NA,"2 blue vane traps. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2014","olso3","blue_vane_trap","Eucerini.sp1","morphospecies","other_wild_bees",100,50,1440,NA,"2 blue vane traps. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2014","olso3","blue_vane_trap","Eucerini.sp10","morphospecies","other_wild_bees",1,50,1440,NA,"2 blue vane traps. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2014","olso3","blue_vane_trap","Eucerini.sp3","morphospecies","other_wild_bees",1,50,1440,NA,"2 blue vane traps. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2014","olso3","blue_vane_trap","Halictini.sp2","morphospecies","other_wild_bees",1,50,1440,NA,"2 blue vane traps. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2014","olso3","blue_vane_trap","Halictini.sp3","morphospecies","other_wild_bees",7,50,1440,NA,"2 blue vane traps. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2014","olso3","blue_vane_trap","Lasioglossum.sp4","morphospecies","other_wild_bees",29,50,1440,NA,"2 blue vane traps. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2014","olso3","blue_vane_trap","Megachilidae.sp1","morphospecies","other_wild_bees",1,50,1440,NA,"2 blue vane traps. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2014","olso3","blue_vane_trap","Megachilidae.sp10","morphospecies","other_wild_bees",1,50,1440,NA,"2 blue vane traps. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2014","olso3","blue_vane_trap","Megachilidae.sp2","morphospecies","other_wild_bees",8,50,1440,NA,"2 blue vane traps. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2014","olso3","blue_vane_trap","Megachilidae.sp4","morphospecies","other_wild_bees",4,50,1440,NA,"2 blue vane traps. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2014","olso3","blue_vane_trap","Megachilidae.sp5","morphospecies","other_wild_bees",4,50,1440,NA,"2 blue vane traps. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2014","olso3","sweep_net","Andrenidae.sp1","morphospecies","other_wild_bees",3,50,30,NA,"100 sweeps. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2014","olso3","sweep_net","Lasioglossum.sp4","morphospecies","other_wild_bees",9,50,30,NA,"100 sweeps. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2014","pcfs4","bee_bowl","Agapostemon.sp1","morphospecies","other_wild_bees",1,50,1440,NA,"6 bee bowls. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2014","pcfs4","bee_bowl","Agapostemon.virescens","species","other_wild_bees",2,50,1440,NA,"6 bee bowls. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2014","pcfs4","bee_bowl","Andrenidae.sp2","morphospecies","other_wild_bees",1,50,1440,NA,"6 bee bowls. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2014","pcfs4","bee_bowl","Apidae.sp1","morphospecies","other_wild_bees",1,50,1440,NA,"6 bee bowls. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2014","pcfs4","bee_bowl","Eucerini.sp5","morphospecies","other_wild_bees",2,50,1440,NA,"6 bee bowls. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2014","pcfs4","bee_bowl","Eucerini.sp6","morphospecies","other_wild_bees",1,50,1440,NA,"6 bee bowls. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2014","pcfs4","bee_bowl","Eucerini.sp9","morphospecies","other_wild_bees",1,50,1440,NA,"6 bee bowls. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2014","pcfs4","bee_bowl","Lasioglossum.sp4","morphospecies","other_wild_bees",9,50,1440,NA,"6 bee bowls. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2014","pcfs4","bee_bowl","Megachilidae.sp2","morphospecies","other_wild_bees",1,50,1440,NA,"6 bee bowls. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2014","pcfs4","bee_bowl","Megachilidae.sp4","morphospecies","other_wild_bees",2,50,1440,NA,"6 bee bowls. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2014","pcfs4","blue_vane_trap","Agapostemon.sp1","morphospecies","other_wild_bees",4,50,1440,NA,"2 blue vane traps. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2014","pcfs4","blue_vane_trap","Agapostemon.virescens","species","other_wild_bees",10,50,1440,NA,"2 blue vane traps. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2014","pcfs4","blue_vane_trap","Andrenidae.sp1","morphospecies","other_wild_bees",3,50,1440,NA,"2 blue vane traps. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2014","pcfs4","blue_vane_trap","Andrenidae.sp2","morphospecies","other_wild_bees",1,50,1440,NA,"2 blue vane traps. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2014","pcfs4","blue_vane_trap","Apidae.sp1","morphospecies","other_wild_bees",3,50,1440,NA,"2 blue vane traps. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2014","pcfs4","blue_vane_trap","Apidae.sp4","morphospecies","other_wild_bees",1,50,1440,NA,"2 blue vane traps. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2014","pcfs4","blue_vane_trap","Apis.mellifera","species","honeybees",1,50,1440,NA,"2 blue vane traps. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2014","pcfs4","blue_vane_trap","Bombus.occidentalis","species","bumblebees",1,50,1440,NA,"2 blue vane traps. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2014","pcfs4","blue_vane_trap","Eucerini.sp1","morphospecies","other_wild_bees",3,50,1440,NA,"2 blue vane traps. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2014","pcfs4","blue_vane_trap","Eucerini.sp11","morphospecies","other_wild_bees",1,50,1440,NA,"2 blue vane traps. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2014","pcfs4","blue_vane_trap","Eucerini.sp5","morphospecies","other_wild_bees",4,50,1440,NA,"2 blue vane traps. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2014","pcfs4","blue_vane_trap","Eucerini.sp6","morphospecies","other_wild_bees",6,50,1440,NA,"2 blue vane traps. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2014","pcfs4","blue_vane_trap","Eucerini.sp8","morphospecies","other_wild_bees",2,50,1440,NA,"2 blue vane traps. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2014","pcfs4","blue_vane_trap","Eucerini.sp9","morphospecies","other_wild_bees",1,50,1440,NA,"2 blue vane traps. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2014","pcfs4","blue_vane_trap","Halictini.sp3","morphospecies","other_wild_bees",5,50,1440,NA,"2 blue vane traps. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2014","pcfs4","blue_vane_trap","Lasioglossum.sp1","morphospecies","other_wild_bees",1,50,1440,NA,"2 blue vane traps. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2014","pcfs4","blue_vane_trap","Lasioglossum.sp4","morphospecies","other_wild_bees",4,50,1440,NA,"2 blue vane traps. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2014","pcfs4","blue_vane_trap","Megachilidae.sp3","morphospecies","other_wild_bees",1,50,1440,NA,"2 blue vane traps. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2014","stub10","bee_bowl","Agapostemon.sp1","morphospecies","other_wild_bees",8,50,1440,NA,"6 bee bowls. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2014","stub10","bee_bowl","Agapostemon.virescens","species","other_wild_bees",2,50,1440,NA,"6 bee bowls. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2014","stub10","bee_bowl","Andrenidae.sp1","morphospecies","other_wild_bees",9,50,1440,NA,"6 bee bowls. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2014","stub10","bee_bowl","Apidae.sp1","morphospecies","other_wild_bees",19,50,1440,NA,"6 bee bowls. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2014","stub10","bee_bowl","Apidae.sp4","morphospecies","other_wild_bees",1,50,1440,NA,"6 bee bowls. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2014","stub10","bee_bowl","Bombus.nevadensis","species","bumblebees",1,50,1440,NA,"6 bee bowls. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2014","stub10","bee_bowl","Eucerini.sp1","morphospecies","other_wild_bees",6,50,1440,NA,"6 bee bowls. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2014","stub10","bee_bowl","Halictini.sp3","morphospecies","other_wild_bees",9,50,1440,NA,"6 bee bowls. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2014","stub10","bee_bowl","Lasioglossum.sp4","morphospecies","other_wild_bees",10,50,1440,NA,"6 bee bowls. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2014","stub10","bee_bowl","Megachilidae.sp2","morphospecies","other_wild_bees",1,50,1440,NA,"6 bee bowls. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2014","stub10","bee_bowl","Megachilidae.sp3","morphospecies","other_wild_bees",1,50,1440,NA,"6 bee bowls. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2014","stub10","blue_vane_trap","Agapostemon.sp1","morphospecies","other_wild_bees",35,50,1440,NA,"2 blue vane traps. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2014","stub10","blue_vane_trap","Agapostemon.virescens","species","other_wild_bees",5,50,1440,NA,"2 blue vane traps. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2014","stub10","blue_vane_trap","Andrenidae.sp1","morphospecies","other_wild_bees",19,50,1440,NA,"2 blue vane traps. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2014","stub10","blue_vane_trap","Andrenidae.sp2","morphospecies","other_wild_bees",1,50,1440,NA,"2 blue vane traps. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2014","stub10","blue_vane_trap","Apidae.sp1","morphospecies","other_wild_bees",101,50,1440,NA,"2 blue vane traps. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2014","stub10","blue_vane_trap","Apidae.sp2","morphospecies","other_wild_bees",1,50,1440,NA,"2 blue vane traps. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2014","stub10","blue_vane_trap","Apidae.sp4","morphospecies","other_wild_bees",2,50,1440,NA,"2 blue vane traps. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2014","stub10","blue_vane_trap","Bombus.mixtus","species","bumblebees",1,50,1440,NA,"2 blue vane traps. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2014","stub10","blue_vane_trap","Bombus.nevadensis","species","bumblebees",6,50,1440,NA,"2 blue vane traps. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2014","stub10","blue_vane_trap","Eucerini.sp1","morphospecies","other_wild_bees",36,50,1440,NA,"2 blue vane traps. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2014","stub10","blue_vane_trap","Eucerini.sp6","morphospecies","other_wild_bees",1,50,1440,NA,"2 blue vane traps. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2014","stub10","blue_vane_trap","Eucerini.sp7","morphospecies","other_wild_bees",1,50,1440,NA,"2 blue vane traps. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2014","stub10","blue_vane_trap","Eucerini.sp8","morphospecies","other_wild_bees",1,50,1440,NA,"2 blue vane traps. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2014","stub10","blue_vane_trap","Halictini.sp3","morphospecies","other_wild_bees",10,50,1440,NA,"2 blue vane traps. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2014","stub10","blue_vane_trap","Lasioglossum.sp4","morphospecies","other_wild_bees",4,50,1440,NA,"2 blue vane traps. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2014","stub10","blue_vane_trap","Megachilidae.sp2","morphospecies","other_wild_bees",3,50,1440,NA,"2 blue vane traps. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2014","stub10","blue_vane_trap","Megachilidae.sp4","morphospecies","other_wild_bees",1,50,1440,NA,"2 blue vane traps. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2014","stub10","blue_vane_trap","Megachilidae.sp5","morphospecies","other_wild_bees",1,50,1440,NA,"2 blue vane traps. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2014","stub8","bee_bowl","Agapostemon.sp1","morphospecies","other_wild_bees",2,50,1440,NA,"6 bee bowls. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2014","stub8","bee_bowl","Andrenidae.sp1","morphospecies","other_wild_bees",2,50,1440,NA,"6 bee bowls. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2014","stub8","bee_bowl","Apidae.sp1","morphospecies","other_wild_bees",4,50,1440,NA,"6 bee bowls. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2014","stub8","bee_bowl","Lasioglossum.sp4","morphospecies","other_wild_bees",2,50,1440,NA,"6 bee bowls. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2014","stub8","bee_bowl","Megachilidae.sp3","morphospecies","other_wild_bees",1,50,1440,NA,"6 bee bowls. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2014","stub8","bee_bowl","Megachilidae.sp5","morphospecies","other_wild_bees",1,50,1440,NA,"6 bee bowls. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2014","stub8","blue_vane_trap","Agapostemon.sp1","morphospecies","other_wild_bees",9,50,1440,NA,"2 blue vane traps. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2014","stub8","blue_vane_trap","Agapostemon.virescens","species","other_wild_bees",4,50,1440,NA,"2 blue vane traps. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2014","stub8","blue_vane_trap","Andrenidae.sp1","morphospecies","other_wild_bees",1,50,1440,NA,"2 blue vane traps. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2014","stub8","blue_vane_trap","Apidae.sp1","morphospecies","other_wild_bees",18,50,1440,NA,"2 blue vane traps. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2014","stub8","blue_vane_trap","Apidae.sp4","morphospecies","other_wild_bees",2,50,1440,NA,"2 blue vane traps. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2014","stub8","blue_vane_trap","Bombus.fernaldae","species","bumblebees",1,50,1440,NA,"2 blue vane traps. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2014","stub8","blue_vane_trap","Bombus.nevadensis","species","bumblebees",3,50,1440,NA,"2 blue vane traps. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2014","stub8","blue_vane_trap","Eucerini.sp1","morphospecies","other_wild_bees",13,50,1440,NA,"2 blue vane traps. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2014","stub8","blue_vane_trap","Halictini.sp3","morphospecies","other_wild_bees",2,50,1440,NA,"2 blue vane traps. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2014","stub8","blue_vane_trap","Lasioglossum.sp4","morphospecies","other_wild_bees",4,50,1440,NA,"2 blue vane traps. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2014","stub8","blue_vane_trap","Megachilidae.sp2","morphospecies","other_wild_bees",1,50,1440,NA,"2 blue vane traps. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2014","stub8","blue_vane_trap","Megachilidae.sp3","morphospecies","other_wild_bees",2,50,1440,NA,"2 blue vane traps. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2014","stub8","blue_vane_trap","Megachilidae.sp4","morphospecies","other_wild_bees",2,50,1440,NA,"2 blue vane traps. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2014","UIK2","bee_bowl","Agapostemon.sp1","morphospecies","other_wild_bees",3,50,1440,NA,"6 bee bowls. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2014","UIK2","bee_bowl","Andrenidae.sp2","morphospecies","other_wild_bees",2,50,1440,NA,"6 bee bowls. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2014","UIK2","bee_bowl","Bombus.nevadensis","species","bumblebees",1,50,1440,NA,"6 bee bowls. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2014","UIK2","bee_bowl","Halictini.sp3","morphospecies","other_wild_bees",1,50,1440,NA,"6 bee bowls. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2014","UIK2","bee_bowl","Lasioglossum.sp4","morphospecies","other_wild_bees",12,50,1440,NA,"6 bee bowls. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2014","UIK2","bee_bowl","Megachilidae.sp10","morphospecies","other_wild_bees",1,50,1440,NA,"6 bee bowls. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2014","UIK2","blue_vane_trap","Agapostemon.sp1","morphospecies","other_wild_bees",11,50,1440,NA,"2 blue vane traps. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2014","UIK2","blue_vane_trap","Agapostemon.virescens","species","other_wild_bees",4,50,1440,NA,"2 blue vane traps. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2014","UIK2","blue_vane_trap","Andrenidae.sp1","morphospecies","other_wild_bees",1,50,1440,NA,"2 blue vane traps. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2014","UIK2","blue_vane_trap","Andrenidae.sp2","morphospecies","other_wild_bees",4,50,1440,NA,"2 blue vane traps. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2014","UIK2","blue_vane_trap","Apidae.sp1","morphospecies","other_wild_bees",3,50,1440,NA,"2 blue vane traps. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2014","UIK2","blue_vane_trap","Apidae.sp4","morphospecies","other_wild_bees",5,50,1440,NA,"2 blue vane traps. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2014","UIK2","blue_vane_trap","Bombus.appositus","species","bumblebees",1,50,1440,NA,"2 blue vane traps. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2014","UIK2","blue_vane_trap","Bombus.centralis","species","bumblebees",1,50,1440,NA,"2 blue vane traps. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2014","UIK2","blue_vane_trap","Bombus.nevadensis","species","bumblebees",14,50,1440,NA,"2 blue vane traps. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2014","UIK2","blue_vane_trap","Bombus.occidentalis","species","bumblebees",1,50,1440,NA,"2 blue vane traps. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2014","UIK2","blue_vane_trap","Eucerini.sp10","morphospecies","other_wild_bees",1,50,1440,NA,"2 blue vane traps. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2014","UIK2","blue_vane_trap","Eucerini.sp5","morphospecies","other_wild_bees",2,50,1440,NA,"2 blue vane traps. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2014","UIK2","blue_vane_trap","Eucerini.sp6","morphospecies","other_wild_bees",1,50,1440,NA,"2 blue vane traps. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2014","UIK2","blue_vane_trap","Eucerini.sp7","morphospecies","other_wild_bees",1,50,1440,NA,"2 blue vane traps. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2014","UIK2","blue_vane_trap","Eucerini.sp8","morphospecies","other_wild_bees",3,50,1440,NA,"2 blue vane traps. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2014","UIK2","blue_vane_trap","Eucerini.sp9","morphospecies","other_wild_bees",8,50,1440,NA,"2 blue vane traps. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2014","UIK2","blue_vane_trap","Halictini.sp2","morphospecies","other_wild_bees",1,50,1440,NA,"2 blue vane traps. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2014","UIK2","blue_vane_trap","Lasioglossum.sp4","morphospecies","other_wild_bees",8,50,1440,NA,"2 blue vane traps. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2014","UIK2","blue_vane_trap","Megachilidae.sp10","morphospecies","other_wild_bees",1,50,1440,NA,"2 blue vane traps. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2014","UIK2","blue_vane_trap","Megachilidae.sp3","morphospecies","other_wild_bees",5,50,1440,NA,"2 blue vane traps. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2014","UIK2","sweep_net","Lasioglossum.sp4","morphospecies","other_wild_bees",1,50,30,NA,"100 sweeps. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2014","UIP4","bee_bowl","Agapostemon.sp1","morphospecies","other_wild_bees",2,50,1440,NA,"6 bee bowls. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2014","UIP4","bee_bowl","Bombus.rufocinctus","species","bumblebees",1,50,1440,NA,"6 bee bowls. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2014","UIP4","bee_bowl","Ceratina.sp2","morphospecies","other_wild_bees",1,50,1440,NA,"6 bee bowls. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2014","UIP4","bee_bowl","Eucerini.sp6","morphospecies","other_wild_bees",1,50,1440,NA,"6 bee bowls. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2014","UIP4","bee_bowl","Lasioglossum.sp4","morphospecies","other_wild_bees",6,50,1440,NA,"6 bee bowls. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2014","UIP4","blue_vane_trap","Agapostemon.sp1","morphospecies","other_wild_bees",5,50,1440,NA,"2 blue vane traps. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2014","UIP4","blue_vane_trap","Agapostemon.virescens","species","other_wild_bees",7,50,1440,NA,"2 blue vane traps. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2014","UIP4","blue_vane_trap","Andrenidae.sp2","morphospecies","other_wild_bees",1,50,1440,NA,"2 blue vane traps. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2014","UIP4","blue_vane_trap","Apidae.sp1","morphospecies","other_wild_bees",3,50,1440,NA,"2 blue vane traps. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2014","UIP4","blue_vane_trap","Apis.mellifera","species","honeybees",2,50,1440,NA,"2 blue vane traps. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2014","UIP4","blue_vane_trap","Bombus.bifarius","species","bumblebees",2,50,1440,NA,"2 blue vane traps. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2014","UIP4","blue_vane_trap","Bombus.mixtus","species","bumblebees",1,50,1440,NA,"2 blue vane traps. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2014","UIP4","blue_vane_trap","Bombus.nevadensis","species","bumblebees",1,50,1440,NA,"2 blue vane traps. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2014","UIP4","blue_vane_trap","Bombus.rufocinctus","species","bumblebees",1,50,1440,NA,"2 blue vane traps. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2014","UIP4","blue_vane_trap","Eucerini.sp10","morphospecies","other_wild_bees",1,50,1440,NA,"2 blue vane traps. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2014","UIP4","blue_vane_trap","Eucerini.sp3","morphospecies","other_wild_bees",1,50,1440,NA,"2 blue vane traps. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2014","UIP4","blue_vane_trap","Eucerini.sp5","morphospecies","other_wild_bees",1,50,1440,NA,"2 blue vane traps. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2014","UIP4","blue_vane_trap","Eucerini.sp6","morphospecies","other_wild_bees",1,50,1440,NA,"2 blue vane traps. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2014","UIP4","blue_vane_trap","Eucerini.sp7","morphospecies","other_wild_bees",2,50,1440,NA,"2 blue vane traps. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2014","UIP4","blue_vane_trap","Eucerini.sp8","morphospecies","other_wild_bees",3,50,1440,NA,"2 blue vane traps. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2014","UIP4","blue_vane_trap","Halictini.sp3","morphospecies","other_wild_bees",5,50,1440,NA,"2 blue vane traps. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2014","UIP4","blue_vane_trap","Lasioglossum.sp4","morphospecies","other_wild_bees",15,50,1440,NA,"2 blue vane traps. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2014","UIP4","blue_vane_trap","Megachilidae.sp10","morphospecies","other_wild_bees",1,50,1440,NA,"2 blue vane traps. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2014","UIP4","sweep_net","Andrenidae.sp1","morphospecies","other_wild_bees",1,50,30,NA,"100 sweeps. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2014","UIP4","sweep_net","Apis.mellifera","species","honeybees",3,50,30,NA,"100 sweeps. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2014","UIP4","sweep_net","Halictini.sp3","morphospecies","other_wild_bees",9,50,30,NA,"100 sweeps. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Brassica_napus_USA_2014","UIP4","sweep_net","Lasioglossum.sp4","morphospecies","other_wild_bees",6,50,30,NA,"100 sweeps. Organisms were sampled with sweep nets (100 sweeps) and traps (3 bee bowls and 2 pan traps per site)",NA
"David_Crowder_Fragaria_ananassa_USA_2016","site_3","bee_bowl","Apis_mellifera","species","honeybees",2,50,540,NA,"15 bee bowls. Both traps and sweep nets were conducted over a 50m transect. Traps were left for 9 hours, sweeping was done for 1 hour.",NA
"David_Crowder_Fragaria_ananassa_USA_2016","site_3","blue_vane","Apis_mellifera","species","honeybees",1,50,540,NA,"3 blue vane traps. Both traps and sweep nets were conducted over a 50m transect. Traps were left for 9 hours, sweeping was done for 1 hour.",NA
"David_Crowder_Fragaria_ananassa_USA_2016","site_3","sweep_net","Apis_mellifera","species","honeybees",18,50,60,NA,"Both traps and sweep nets were conducted over a 50m transect. Traps were left for 9 hours, sweeping was done for 1 hour.",NA
"David_Crowder_Fragaria_ananassa_USA_2016","site_3","blue_vane","Bombus_californicus","species","bumblebees",2,50,540,NA,"3 blue vane traps. Both traps and sweep nets were conducted over a 50m transect. Traps were left for 9 hours, sweeping was done for 1 hour.",NA
"David_Crowder_Fragaria_ananassa_USA_2016","site_3","blue_vane","Bombus_vosnesenskii","species","bumblebees",7,50,540,NA,"3 blue vane traps. Both traps and sweep nets were conducted over a 50m transect. Traps were left for 9 hours, sweeping was done for 1 hour.",NA
"David_Crowder_Fragaria_ananassa_USA_2016","site_3","sweep_net","Bombus_vosnesenskii","species","bumblebees",12,50,60,NA,"Both traps and sweep nets were conducted over a 50m transect. Traps were left for 9 hours, sweeping was done for 1 hour.",NA
"David_Crowder_Fragaria_ananassa_USA_2016","site_3","sweep_net","Colletes_cfkincaidii","species","other_wild_bees",1,50,60,NA,"Both traps and sweep nets were conducted over a 50m transect. Traps were left for 9 hours, sweeping was done for 1 hour.",NA
"David_Crowder_Fragaria_ananassa_USA_2016","site_3","bee_bowl","Halictus_tripartitus","species","other_wild_bees",1,50,540,NA,"15 bee bowls. Both traps and sweep nets were conducted over a 50m transect. Traps were left for 9 hours, sweeping was done for 1 hour.",NA
"David_Crowder_Fragaria_ananassa_USA_2016","site_5","bee_bowl","Agapostemon_texanus","species","other_wild_bees",1,50,540,NA,"15 bee bowls. Both traps and sweep nets were conducted over a 50m transect. Traps were left for 9 hours, sweeping was done for 1 hour.",NA
"David_Crowder_Fragaria_ananassa_USA_2016","site_5","blue_vane","Agapostemon_texanus","species","other_wild_bees",1,50,540,NA,"3 blue vane traps. Both traps and sweep nets were conducted over a 50m transect. Traps were left for 9 hours, sweeping was done for 1 hour.",NA
"David_Crowder_Fragaria_ananassa_USA_2016","site_5","bee_bowl","Agapostemon_virescens","species","other_wild_bees",3,50,540,NA,"15 bee bowls. Both traps and sweep nets were conducted over a 50m transect. Traps were left for 9 hours, sweeping was done for 1 hour.",NA
"David_Crowder_Fragaria_ananassa_USA_2016","site_5","bee_bowl","Apis_mellifera","species","honeybees",3,50,540,NA,"15 bee bowls. Both traps and sweep nets were conducted over a 50m transect. Traps were left for 9 hours, sweeping was done for 1 hour.",NA
"David_Crowder_Fragaria_ananassa_USA_2016","site_5","blue_vane","Apis_mellifera","species","honeybees",1,50,540,NA,"3 blue vane traps. Both traps and sweep nets were conducted over a 50m transect. Traps were left for 9 hours, sweeping was done for 1 hour.",NA
"David_Crowder_Fragaria_ananassa_USA_2016","site_5","sweep_net","Apis_mellifera","species","honeybees",30,50,60,NA,"Both traps and sweep nets were conducted over a 50m transect. Traps were left for 9 hours, sweeping was done for 1 hour.",NA
"David_Crowder_Fragaria_ananassa_USA_2016","site_5","sweep_net","Bombus_flavifrons","species","bumblebees",1,50,60,NA,"Both traps and sweep nets were conducted over a 50m transect. Traps were left for 9 hours, sweeping was done for 1 hour.",NA
"David_Crowder_Fragaria_ananassa_USA_2016","site_5","bee_bowl","Bombus_vosnesenskii","species","bumblebees",3,50,540,NA,"15 bee bowls. Both traps and sweep nets were conducted over a 50m transect. Traps were left for 9 hours, sweeping was done for 1 hour.",NA
"David_Crowder_Fragaria_ananassa_USA_2016","site_5","blue_vane","Bombus_vosnesenskii","species","bumblebees",15,50,540,NA,"3 blue vane traps. Both traps and sweep nets were conducted over a 50m transect. Traps were left for 9 hours, sweeping was done for 1 hour.",NA
"David_Crowder_Fragaria_ananassa_USA_2016","site_5","sweep_net","Bombus_vosnesenskii","species","bumblebees",10,50,60,NA,"Both traps and sweep nets were conducted over a 50m transect. Traps were left for 9 hours, sweeping was done for 1 hour.",NA
"David_Crowder_Fragaria_ananassa_USA_2016","site_5","bee_bowl","Halictus_rubicundus","species","other_wild_bees",1,50,540,NA,"15 bee bowls. Both traps and sweep nets were conducted over a 50m transect. Traps were left for 9 hours, sweeping was done for 1 hour.",NA
"David_Crowder_Fragaria_ananassa_USA_2016","site_5","sweep_net","Lasioglossum_cfmellipes","species","other_wild_bees",1,50,60,NA,"Both traps and sweep nets were conducted over a 50m transect. Traps were left for 9 hours, sweeping was done for 1 hour.",NA
"David_Crowder_Fragaria_ananassa_USA_2016","site_6","bee_bowl","Apis_mellifera","species","honeybees",5,50,540,NA,"15 bee bowls. Both traps and sweep nets were conducted over a 50m transect. Traps were left for 9 hours, sweeping was done for 1 hour.",NA
"David_Crowder_Fragaria_ananassa_USA_2016","site_6","blue_vane","Apis_mellifera","species","honeybees",5,50,540,NA,"3 blue vane traps. Both traps and sweep nets were conducted over a 50m transect. Traps were left for 9 hours, sweeping was done for 1 hour.",NA
"David_Crowder_Fragaria_ananassa_USA_2016","site_6","sweep_net","Apis_mellifera","species","honeybees",49,50,60,NA,"Both traps and sweep nets were conducted over a 50m transect. Traps were left for 9 hours, sweeping was done for 1 hour.",NA
"David_Crowder_Fragaria_ananassa_USA_2016","site_6","bee_bowl","Bombus_flavifrons","species","bumblebees",1,50,540,NA,"15 bee bowls. Both traps and sweep nets were conducted over a 50m transect. Traps were left for 9 hours, sweeping was done for 1 hour.",NA
"David_Crowder_Fragaria_ananassa_USA_2016","site_6","sweep_net","Bombus_flavifrons","species","bumblebees",18,50,60,NA,"Both traps and sweep nets were conducted over a 50m transect. Traps were left for 9 hours, sweeping was done for 1 hour.",NA
"David_Crowder_Fragaria_ananassa_USA_2016","site_6","sweep_net","Bombus_mixtus","species","bumblebees",7,50,60,NA,"Both traps and sweep nets were conducted over a 50m transect. Traps were left for 9 hours, sweeping was done for 1 hour.",NA
"David_Crowder_Fragaria_ananassa_USA_2016","site_6","sweep_net","Bombus_vosnesenskii","species","bumblebees",5,50,60,NA,"Both traps and sweep nets were conducted over a 50m transect. Traps were left for 9 hours, sweeping was done for 1 hour.",NA
"David_Crowder_Fragaria_ananassa_USA_2016","site_6","sweep_net","Lasioglossum_olympiae","species","other_wild_bees",1,50,60,NA,"Both traps and sweep nets were conducted over a 50m transect. Traps were left for 9 hours, sweeping was done for 1 hour.",NA
"David_Crowder_Fragaria_ananassa_USA_2016","site_6","sweep_net","Lasioglossum_spC10","morphospecies","other_wild_bees",1,50,60,NA,"Both traps and sweep nets were conducted over a 50m transect. Traps were left for 9 hours, sweeping was done for 1 hour.",NA
"David_Crowder_Fragaria_ananassa_USA_2016","site_6","blue_vane","Lasioglossum_spC2","morphospecies","other_wild_bees",1,50,540,NA,"3 blue vane traps. Both traps and sweep nets were conducted over a 50m transect. Traps were left for 9 hours, sweeping was done for 1 hour.",NA
"David_Crowder_Fragaria_ananassa_USA_2016","site_7","bee_bowl","Apis_mellifera","species","honeybees",7,50,540,NA,"15 bee bowls. Both traps and sweep nets were conducted over a 50m transect. Traps were left for 9 hours, sweeping was done for 1 hour.",NA
"David_Crowder_Fragaria_ananassa_USA_2016","site_7","blue_vane","Apis_mellifera","species","honeybees",2,50,540,NA,"3 blue vane traps. Both traps and sweep nets were conducted over a 50m transect. Traps were left for 9 hours, sweeping was done for 1 hour.",NA
"David_Crowder_Fragaria_ananassa_USA_2016","site_7","sweep_net","Apis_mellifera","species","honeybees",21,50,60,NA,"Both traps and sweep nets were conducted over a 50m transect. Traps were left for 9 hours, sweeping was done for 1 hour.",NA
"David_Crowder_Fragaria_ananassa_USA_2016","site_7","sweep_net","Bombus_californicus","species","bumblebees",4,50,60,NA,"Both traps and sweep nets were conducted over a 50m transect. Traps were left for 9 hours, sweeping was done for 1 hour.",NA
"David_Crowder_Fragaria_ananassa_USA_2016","site_7","sweep_net","Bombus_flavifrons","species","bumblebees",1,50,60,NA,"Both traps and sweep nets were conducted over a 50m transect. Traps were left for 9 hours, sweeping was done for 1 hour.",NA
"David_Crowder_Fragaria_ananassa_USA_2016","site_7","bee_bowl","Bombus_vosnesenskii","species","bumblebees",1,50,540,NA,"15 bee bowls. Both traps and sweep nets were conducted over a 50m transect. Traps were left for 9 hours, sweeping was done for 1 hour.",NA
"David_Crowder_Fragaria_ananassa_USA_2016","site_7","sweep_net","Bombus_vosnesenskii","species","bumblebees",3,50,60,NA,"Both traps and sweep nets were conducted over a 50m transect. Traps were left for 9 hours, sweeping was done for 1 hour.",NA
"David_Crowder_Fragaria_ananassa_USA_2016","site_7","bee_bowl","Lasioglossum_cfmellipes","species","other_wild_bees",1,50,540,NA,"15 bee bowls. Both traps and sweep nets were conducted over a 50m transect. Traps were left for 9 hours, sweeping was done for 1 hour.",NA
"David_Crowder_Fragaria_ananassa_USA_2016","site_7","bee_bowl","Lasioglossum_spB8","morphospecies","other_wild_bees",1,50,540,NA,"15 bee bowls. Both traps and sweep nets were conducted over a 50m transect. Traps were left for 9 hours, sweeping was done for 1 hour.",NA
"David_Crowder_Fragaria_ananassa_USA_2016","site_8","blue_vane","Agapostemon_texanus","species","other_wild_bees",1,50,540,NA,"3 blue vane traps. Both traps and sweep nets were conducted over a 50m transect. Traps were left for 9 hours, sweeping was done for 1 hour.",NA
"David_Crowder_Fragaria_ananassa_USA_2016","site_8","bee_bowl","Anthidium_manicatum","species","other_wild_bees",1,50,540,NA,"15 bee bowls. Both traps and sweep nets were conducted over a 50m transect. Traps were left for 9 hours, sweeping was done for 1 hour.",NA
"David_Crowder_Fragaria_ananassa_USA_2016","site_8","blue_vane","Anthidium_manicatum","species","other_wild_bees",1,50,540,NA,"3 blue vane traps. Both traps and sweep nets were conducted over a 50m transect. Traps were left for 9 hours, sweeping was done for 1 hour.",NA
"David_Crowder_Fragaria_ananassa_USA_2016","site_8","bee_bowl","Apis_mellifera","species","honeybees",19,50,540,NA,"15 bee bowls. Both traps and sweep nets were conducted over a 50m transect. Traps were left for 9 hours, sweeping was done for 1 hour.",NA
"David_Crowder_Fragaria_ananassa_USA_2016","site_8","blue_vane","Apis_mellifera","species","honeybees",17,50,540,NA,"3 blue vane traps. Both traps and sweep nets were conducted over a 50m transect. Traps were left for 9 hours, sweeping was done for 1 hour.",NA
"David_Crowder_Fragaria_ananassa_USA_2016","site_8","sweep_net","Apis_mellifera","species","honeybees",56,50,60,NA,"Both traps and sweep nets were conducted over a 50m transect. Traps were left for 9 hours, sweeping was done for 1 hour.",NA
"David_Crowder_Fragaria_ananassa_USA_2016","site_8","bee_bowl","Bombus_californicus","species","bumblebees",1,50,540,NA,"15 bee bowls. Both traps and sweep nets were conducted over a 50m transect. Traps were left for 9 hours, sweeping was done for 1 hour.",NA
"David_Crowder_Fragaria_ananassa_USA_2016","site_8","blue_vane","Bombus_californicus","species","bumblebees",2,50,540,NA,"3 blue vane traps. Both traps and sweep nets were conducted over a 50m transect. Traps were left for 9 hours, sweeping was done for 1 hour.",NA
"David_Crowder_Fragaria_ananassa_USA_2016","site_8","sweep_net","Bombus_sitkensis","species","bumblebees",1,50,60,NA,"Both traps and sweep nets were conducted over a 50m transect. Traps were left for 9 hours, sweeping was done for 1 hour.",NA
"David_Crowder_Fragaria_ananassa_USA_2016","site_8","blue_vane","Bombus_vosnesenskii","species","bumblebees",1,50,540,NA,"3 blue vane traps. Both traps and sweep nets were conducted over a 50m transect. Traps were left for 9 hours, sweeping was done for 1 hour.",NA
"David_Crowder_Fragaria_ananassa_USA_2016","site_8","sweep_net","Lasioglossum_cfmellipes","species","other_wild_bees",1,50,60,NA,"Both traps and sweep nets were conducted over a 50m transect. Traps were left for 9 hours, sweeping was done for 1 hour.",NA
"David_Crowder_Fragaria_ananassa_USA_2016","site_8","bee_bowl","Lasioglossum_spA1","morphospecies","other_wild_bees",1,50,540,NA,"15 bee bowls. Both traps and sweep nets were conducted over a 50m transect. Traps were left for 9 hours, sweeping was done for 1 hour.",NA
"David_Crowder_Fragaria_ananassa_USA_2016","site_8","bee_bowl","Lasioglossum_spC2","morphospecies","other_wild_bees",1,50,540,NA,"15 bee bowls. Both traps and sweep nets were conducted over a 50m transect. Traps were left for 9 hours, sweeping was done for 1 hour.",NA
"David_Crowder_Fragaria_ananassa_USA_2016","site_8","blue_vane","Lasioglossum_zonulum","species","other_wild_bees",1,50,540,NA,"3 blue vane traps. Both traps and sweep nets were conducted over a 50m transect. Traps were left for 9 hours, sweeping was done for 1 hour.",NA
"David_Crowder_Fragaria_ananassa_USA_2016","site_13","blue_vane","Agapostemon_texanus","species","other_wild_bees",2,50,540,NA,"3 blue vane traps. Both traps and sweep nets were conducted over a 50m transect. Traps were left for 9 hours, sweeping was done for 1 hour.",NA
"David_Crowder_Fragaria_ananassa_USA_2016","site_13","bee_bowl","Apis_mellifera","species","honeybees",2,50,540,NA,"15 bee bowls. Both traps and sweep nets were conducted over a 50m transect. Traps were left for 9 hours, sweeping was done for 1 hour.",NA
"David_Crowder_Fragaria_ananassa_USA_2016","site_13","blue_vane","Apis_mellifera","species","honeybees",1,50,540,NA,"3 blue vane traps. Both traps and sweep nets were conducted over a 50m transect. Traps were left for 9 hours, sweeping was done for 1 hour.",NA
"David_Crowder_Fragaria_ananassa_USA_2016","site_13","sweep_net","Apis_mellifera","species","honeybees",16,50,60,NA,"Both traps and sweep nets were conducted over a 50m transect. Traps were left for 9 hours, sweeping was done for 1 hour.",NA
"David_Crowder_Fragaria_ananassa_USA_2016","site_13","sweep_net","Bombus_californicus","species","bumblebees",5,50,60,NA,"Both traps and sweep nets were conducted over a 50m transect. Traps were left for 9 hours, sweeping was done for 1 hour.",NA
"David_Crowder_Fragaria_ananassa_USA_2016","site_13","bee_bowl","Bombus_vosnesenskii","species","bumblebees",1,50,540,NA,"15 bee bowls. Both traps and sweep nets were conducted over a 50m transect. Traps were left for 9 hours, sweeping was done for 1 hour.",NA
"David_Crowder_Fragaria_ananassa_USA_2016","site_13","blue_vane","Bombus_vosnesenskii","species","bumblebees",7,50,540,NA,"3 blue vane traps. Both traps and sweep nets were conducted over a 50m transect. Traps were left for 9 hours, sweeping was done for 1 hour.",NA
"David_Crowder_Fragaria_ananassa_USA_2016","site_13","sweep_net","Bombus_vosnesenskii","species","bumblebees",11,50,60,NA,"Both traps and sweep nets were conducted over a 50m transect. Traps were left for 9 hours, sweeping was done for 1 hour.",NA
"David_Crowder_Fragaria_ananassa_USA_2016","site_13","sweep_net","Halictus_rubicundus","species","other_wild_bees",1,50,60,NA,"Both traps and sweep nets were conducted over a 50m transect. Traps were left for 9 hours, sweeping was done for 1 hour.",NA
"David_Crowder_Fragaria_ananassa_USA_2016","site_13","bee_bowl","Lasioglossum_incompletumgroup","morphospecies","other_wild_bees",1,50,540,NA,"15 bee bowls. Both traps and sweep nets were conducted over a 50m transect. Traps were left for 9 hours, sweeping was done for 1 hour.",NA
"David_Crowder_Fragaria_ananassa_USA_2016","site_13","bee_bowl","Lasioglossum_spB7","morphospecies","other_wild_bees",1,50,540,NA,"15 bee bowls. Both traps and sweep nets were conducted over a 50m transect. Traps were left for 9 hours, sweeping was done for 1 hour.",NA
"David_Crowder_Fragaria_ananassa_USA_2016","site_13","sweep_net","Lasioglossum_spC1","morphospecies","other_wild_bees",1,50,60,NA,"Both traps and sweep nets were conducted over a 50m transect. Traps were left for 9 hours, sweeping was done for 1 hour.",NA
"David_Crowder_Fragaria_ananassa_USA_2016","site_18","blue_vane","Agapostemon_texanus","species","other_wild_bees",4,50,540,NA,"3 blue vane traps. Both traps and sweep nets were conducted over a 50m transect. Traps were left for 9 hours, sweeping was done for 1 hour.",NA
"David_Crowder_Fragaria_ananassa_USA_2016","site_18","bee_bowl","Anthidium_edwardsii","species","other_wild_bees",1,50,540,NA,"15 bee bowls. Both traps and sweep nets were conducted over a 50m transect. Traps were left for 9 hours, sweeping was done for 1 hour.",NA
"David_Crowder_Fragaria_ananassa_USA_2016","site_18","sweep_net","Apis_mellifera","species","honeybees",9,50,60,NA,"Both traps and sweep nets were conducted over a 50m transect. Traps were left for 9 hours, sweeping was done for 1 hour.",NA
"David_Crowder_Fragaria_ananassa_USA_2016","site_18","sweep_net","Bombus_californicus","species","bumblebees",1,50,60,NA,"Both traps and sweep nets were conducted over a 50m transect. Traps were left for 9 hours, sweeping was done for 1 hour.",NA
"David_Crowder_Fragaria_ananassa_USA_2016","site_18","blue_vane","Bombus_vosnesenskii","species","bumblebees",3,50,540,NA,"3 blue vane traps. Both traps and sweep nets were conducted over a 50m transect. Traps were left for 9 hours, sweeping was done for 1 hour.",NA
"David_Crowder_Fragaria_ananassa_USA_2016","site_18","sweep_net","Bombus_vosnesenskii","species","bumblebees",11,50,60,NA,"Both traps and sweep nets were conducted over a 50m transect. Traps were left for 9 hours, sweeping was done for 1 hour.",NA
"David_Crowder_Fragaria_ananassa_USA_2016","site_18","sweep_net","Halictus_rubicundus","species","other_wild_bees",1,50,60,NA,"Both traps and sweep nets were conducted over a 50m transect. Traps were left for 9 hours, sweeping was done for 1 hour.",NA
"David_Crowder_Fragaria_ananassa_USA_2016","site_18","sweep_net","Megachile_perihirta","species","other_wild_bees",1,50,60,NA,"Both traps and sweep nets were conducted over a 50m transect. Traps were left for 9 hours, sweeping was done for 1 hour.",NA
"David_Crowder_Fragaria_ananassa_USA_2016","site_18","blue_vane","Melissodes_microsticta","species","other_wild_bees",1,50,540,NA,"3 blue vane traps. Both traps and sweep nets were conducted over a 50m transect. Traps were left for 9 hours, sweeping was done for 1 hour.",NA
"David_Crowder_Fragaria_ananassa_USA_2016","site_23","bee_bowl","Apis_mellifera","species","honeybees",2,50,540,NA,"15 bee bowls. Both traps and sweep nets were conducted over a 50m transect. Traps were left for 9 hours, sweeping was done for 1 hour.",NA
"David_Crowder_Fragaria_ananassa_USA_2016","site_23","blue_vane","Apis_mellifera","species","honeybees",3,50,540,NA,"3 blue vane traps. Both traps and sweep nets were conducted over a 50m transect. Traps were left for 9 hours, sweeping was done for 1 hour.",NA
"David_Crowder_Fragaria_ananassa_USA_2016","site_23","sweep_net","Apis_mellifera","species","honeybees",48,50,60,NA,"Both traps and sweep nets were conducted over a 50m transect. Traps were left for 9 hours, sweeping was done for 1 hour.",NA
"David_Crowder_Fragaria_ananassa_USA_2016","site_23","blue_vane","Bombus_flavifrons","species","bumblebees",1,50,540,NA,"3 blue vane traps. Both traps and sweep nets were conducted over a 50m transect. Traps were left for 9 hours, sweeping was done for 1 hour.",NA
"David_Crowder_Fragaria_ananassa_USA_2016","site_23","sweep_net","Bombus_flavifrons","species","bumblebees",1,50,60,NA,"Both traps and sweep nets were conducted over a 50m transect. Traps were left for 9 hours, sweeping was done for 1 hour.",NA
"David_Crowder_Fragaria_ananassa_USA_2016","site_23","bee_bowl","Bombus_vosnesenskii","species","bumblebees",1,50,540,NA,"15 bee bowls. Both traps and sweep nets were conducted over a 50m transect. Traps were left for 9 hours, sweeping was done for 1 hour.",NA
"David_Crowder_Fragaria_ananassa_USA_2016","site_23","blue_vane","Bombus_vosnesenskii","species","bumblebees",1,50,540,NA,"3 blue vane traps. Both traps and sweep nets were conducted over a 50m transect. Traps were left for 9 hours, sweeping was done for 1 hour.",NA
"David_Crowder_Fragaria_ananassa_USA_2016","site_23","sweep_net","Bombus_vosnesenskii","species","bumblebees",2,50,60,NA,"Both traps and sweep nets were conducted over a 50m transect. Traps were left for 9 hours, sweeping was done for 1 hour.",NA
"David_Crowder_Fragaria_ananassa_USA_2016","site_23","sweep_net","Lasioglossum_olympiae","species","other_wild_bees",1,50,60,NA,"Both traps and sweep nets were conducted over a 50m transect. Traps were left for 9 hours, sweeping was done for 1 hour.",NA
"David_Crowder_Fragaria_ananassa_USA_2016","site_24","bee_bowl","Agapostemon_texanus","species","other_wild_bees",1,50,540,NA,"15 bee bowls. Both traps and sweep nets were conducted over a 50m transect. Traps were left for 9 hours, sweeping was done for 1 hour.",NA
"David_Crowder_Fragaria_ananassa_USA_2016","site_24","blue_vane","Agapostemon_texanus","species","other_wild_bees",1,50,540,NA,"3 blue vane traps. Both traps and sweep nets were conducted over a 50m transect. Traps were left for 9 hours, sweeping was done for 1 hour.",NA
"David_Crowder_Fragaria_ananassa_USA_2016","site_24","sweep_net","Agapostemon_texanus","species","other_wild_bees",1,50,60,NA,"Both traps and sweep nets were conducted over a 50m transect. Traps were left for 9 hours, sweeping was done for 1 hour.",NA
"David_Crowder_Fragaria_ananassa_USA_2016","site_24","bee_bowl","Apis_mellifera","species","honeybees",2,50,540,NA,"15 bee bowls. Both traps and sweep nets were conducted over a 50m transect. Traps were left for 9 hours, sweeping was done for 1 hour.",NA
"David_Crowder_Fragaria_ananassa_USA_2016","site_24","blue_vane","Apis_mellifera","species","honeybees",1,50,540,NA,"3 blue vane traps. Both traps and sweep nets were conducted over a 50m transect. Traps were left for 9 hours, sweeping was done for 1 hour.",NA
"David_Crowder_Fragaria_ananassa_USA_2016","site_24","sweep_net","Apis_mellifera","species","honeybees",34,50,60,NA,"Both traps and sweep nets were conducted over a 50m transect. Traps were left for 9 hours, sweeping was done for 1 hour.",NA
"David_Crowder_Fragaria_ananassa_USA_2016","site_24","blue_vane","Bombus_californicus","species","bumblebees",1,50,540,NA,"3 blue vane traps. Both traps and sweep nets were conducted over a 50m transect. Traps were left for 9 hours, sweeping was done for 1 hour.",NA
"David_Crowder_Fragaria_ananassa_USA_2016","site_24","sweep_net","Bombus_californicus","species","bumblebees",1,50,60,NA,"Both traps and sweep nets were conducted over a 50m transect. Traps were left for 9 hours, sweeping was done for 1 hour.",NA
"David_Crowder_Fragaria_ananassa_USA_2016","site_24","blue_vane","Bombus_vosnesenskii","species","bumblebees",7,50,540,NA,"3 blue vane traps. Both traps and sweep nets were conducted over a 50m transect. Traps were left for 9 hours, sweeping was done for 1 hour.",NA
"David_Crowder_Fragaria_ananassa_USA_2016","site_24","sweep_net","Bombus_vosnesenskii","species","bumblebees",1,50,60,NA,"Both traps and sweep nets were conducted over a 50m transect. Traps were left for 9 hours, sweeping was done for 1 hour.",NA
"David_Crowder_Fragaria_ananassa_USA_2016","site_24","blue_vane","Lasioglossum_cfovaliceps","species","other_wild_bees",1,50,540,NA,"3 blue vane traps. Both traps and sweep nets were conducted over a 50m transect. Traps were left for 9 hours, sweeping was done for 1 hour.",NA
"David_Crowder_Fragaria_ananassa_USA_2016","site_25","bee_bowl","Agapostemon_texanus","species","other_wild_bees",2,50,540,NA,"15 bee bowls. Both traps and sweep nets were conducted over a 50m transect. Traps were left for 9 hours, sweeping was done for 1 hour.",NA
"David_Crowder_Fragaria_ananassa_USA_2016","site_25","blue_vane","Agapostemon_virescens","species","other_wild_bees",3,50,540,NA,"3 blue vane traps. Both traps and sweep nets were conducted over a 50m transect. Traps were left for 9 hours, sweeping was done for 1 hour.",NA
"David_Crowder_Fragaria_ananassa_USA_2016","site_25","bee_bowl","Apis_mellifera","species","honeybees",1,50,540,NA,"15 bee bowls. Both traps and sweep nets were conducted over a 50m transect. Traps were left for 9 hours, sweeping was done for 1 hour.",NA
"David_Crowder_Fragaria_ananassa_USA_2016","site_25","blue_vane","Apis_mellifera","species","honeybees",4,50,540,NA,"3 blue vane traps. Both traps and sweep nets were conducted over a 50m transect. Traps were left for 9 hours, sweeping was done for 1 hour.",NA
"David_Crowder_Fragaria_ananassa_USA_2016","site_25","sweep_net","Apis_mellifera","species","honeybees",62,50,60,NA,"Both traps and sweep nets were conducted over a 50m transect. Traps were left for 9 hours, sweeping was done for 1 hour.",NA
"David_Crowder_Fragaria_ananassa_USA_2016","site_25","blue_vane","Bombus_vosnesenskii","species","bumblebees",20,50,540,NA,"3 blue vane traps. Both traps and sweep nets were conducted over a 50m transect. Traps were left for 9 hours, sweeping was done for 1 hour.",NA
"David_Crowder_Fragaria_ananassa_USA_2016","site_25","sweep_net","Bombus_vosnesenskii","species","bumblebees",13,50,60,NA,"Both traps and sweep nets were conducted over a 50m transect. Traps were left for 9 hours, sweeping was done for 1 hour.",NA
"David_Crowder_Fragaria_ananassa_USA_2016","site_25","bee_bowl","Halictus_confusus","species","other_wild_bees",1,50,540,NA,"15 bee bowls. Both traps and sweep nets were conducted over a 50m transect. Traps were left for 9 hours, sweeping was done for 1 hour.",NA
"David_Crowder_Fragaria_ananassa_USA_2016","site_25","bee_bowl","Lasioglossum_avalonense","species","other_wild_bees",1,50,540,NA,"15 bee bowls. Both traps and sweep nets were conducted over a 50m transect. Traps were left for 9 hours, sweeping was done for 1 hour.",NA
"David_Crowder_Fragaria_ananassa_USA_2016","site_25","bee_bowl","Lasioglossum_incompletumgroup","morphospecies","other_wild_bees",1,50,540,NA,"15 bee bowls. Both traps and sweep nets were conducted over a 50m transect. Traps were left for 9 hours, sweeping was done for 1 hour.",NA
"David_Crowder_Fragaria_ananassa_USA_2016","site_26","bee_bowl","Agapostemon_texanus","species","other_wild_bees",1,50,540,NA,"15 bee bowls. Both traps and sweep nets were conducted over a 50m transect. Traps were left for 9 hours, sweeping was done for 1 hour.",NA
"David_Crowder_Fragaria_ananassa_USA_2016","site_26","blue_vane","Agapostemon_texanus","species","other_wild_bees",2,50,540,NA,"3 blue vane traps. Both traps and sweep nets were conducted over a 50m transect. Traps were left for 9 hours, sweeping was done for 1 hour.",NA
"David_Crowder_Fragaria_ananassa_USA_2016","site_26","blue_vane","Agapostemon_virescens","species","other_wild_bees",1,50,540,NA,"3 blue vane traps. Both traps and sweep nets were conducted over a 50m transect. Traps were left for 9 hours, sweeping was done for 1 hour.",NA
"David_Crowder_Fragaria_ananassa_USA_2016","site_26","bee_bowl","Apis_mellifera","species","honeybees",2,50,540,NA,"15 bee bowls. Both traps and sweep nets were conducted over a 50m transect. Traps were left for 9 hours, sweeping was done for 1 hour.",NA
"David_Crowder_Fragaria_ananassa_USA_2016","site_26","blue_vane","Apis_mellifera","species","honeybees",6,50,540,NA,"3 blue vane traps. Both traps and sweep nets were conducted over a 50m transect. Traps were left for 9 hours, sweeping was done for 1 hour.",NA
"David_Crowder_Fragaria_ananassa_USA_2016","site_26","sweep_net","Apis_mellifera","species","honeybees",29,50,60,NA,"Both traps and sweep nets were conducted over a 50m transect. Traps were left for 9 hours, sweeping was done for 1 hour.",NA
"David_Crowder_Fragaria_ananassa_USA_2016","site_26","sweep_net","Bombus_californicus","species","bumblebees",1,50,60,NA,"Both traps and sweep nets were conducted over a 50m transect. Traps were left for 9 hours, sweeping was done for 1 hour.",NA
"David_Crowder_Fragaria_ananassa_USA_2016","site_26","sweep_net","Bombus_vosnesenskii","species","bumblebees",1,50,60,NA,"Both traps and sweep nets were conducted over a 50m transect. Traps were left for 9 hours, sweeping was done for 1 hour.",NA
"David_Crowder_Fragaria_ananassa_USA_2016","site_26","sweep_net","Lasioglossum_cfmellipes","species","other_wild_bees",1,50,60,NA,"Both traps and sweep nets were conducted over a 50m transect. Traps were left for 9 hours, sweeping was done for 1 hour.",NA
"David_Crowder_Fragaria_ananassa_USA_2016","site_26","bee_bowl","Lasioglossum_D4","morphospecies","other_wild_bees",1,50,540,NA,"15 bee bowls. Both traps and sweep nets were conducted over a 50m transect. Traps were left for 9 hours, sweeping was done for 1 hour.",NA
"David_Crowder_Fragaria_ananassa_USA_2016","site_26","bee_bowl","Lasioglossum_zonulum","species","other_wild_bees",1,50,540,NA,"15 bee bowls. Both traps and sweep nets were conducted over a 50m transect. Traps were left for 9 hours, sweeping was done for 1 hour.",NA
"David_Crowder_Fragaria_ananassa_USA_2016","site_29","blue_vane","Agapostemon_texanus","species","other_wild_bees",1,50,540,NA,"3 blue vane traps. Both traps and sweep nets were conducted over a 50m transect. Traps were left for 9 hours, sweeping was done for 1 hour.",NA
"David_Crowder_Fragaria_ananassa_USA_2016","site_29","bee_bowl","Apis_mellifera","species","honeybees",2,50,540,NA,"15 bee bowls. Both traps and sweep nets were conducted over a 50m transect. Traps were left for 9 hours, sweeping was done for 1 hour.",NA
"David_Crowder_Fragaria_ananassa_USA_2016","site_29","blue_vane","Apis_mellifera","species","honeybees",7,50,540,NA,"3 blue vane traps. Both traps and sweep nets were conducted over a 50m transect. Traps were left for 9 hours, sweeping was done for 1 hour.",NA
"David_Crowder_Fragaria_ananassa_USA_2016","site_29","sweep_net","Apis_mellifera","species","honeybees",57,50,60,NA,"Both traps and sweep nets were conducted over a 50m transect. Traps were left for 9 hours, sweeping was done for 1 hour.",NA
"David_Crowder_Fragaria_ananassa_USA_2016","site_29","sweep_net","Bombus_mixtus","species","bumblebees",1,50,60,NA,"Both traps and sweep nets were conducted over a 50m transect. Traps were left for 9 hours, sweeping was done for 1 hour.",NA
"David_Crowder_Fragaria_ananassa_USA_2016","site_29","blue_vane","Bombus_vosnesenskii","species","bumblebees",3,50,540,NA,"3 blue vane traps. Both traps and sweep nets were conducted over a 50m transect. Traps were left for 9 hours, sweeping was done for 1 hour.",NA
"David_Crowder_Fragaria_ananassa_USA_2016","site_29","sweep_net","Bombus_vosnesenskii","species","bumblebees",1,50,60,NA,"Both traps and sweep nets were conducted over a 50m transect. Traps were left for 9 hours, sweeping was done for 1 hour.",NA
"David_Crowder_Fragaria_ananassa_USA_2016","site_29","blue_vane","Lasioglossum_zonulum","species","other_wild_bees",1,50,540,NA,"3 blue vane traps. Both traps and sweep nets were conducted over a 50m transect. Traps were left for 9 hours, sweeping was done for 1 hour.",NA
"David_Crowder_Fragaria_ananassa_USA_2016","site_30","bee_bowl","Agapostemon_texanus","species","other_wild_bees",1,50,540,NA,"15 bee bowls. Both traps and sweep nets were conducted over a 50m transect. Traps were left for 9 hours, sweeping was done for 1 hour.",NA
"David_Crowder_Fragaria_ananassa_USA_2016","site_30","blue_vane","Agapostemon_texanus","species","other_wild_bees",3,50,540,NA,"3 blue vane traps. Both traps and sweep nets were conducted over a 50m transect. Traps were left for 9 hours, sweeping was done for 1 hour.",NA
"David_Crowder_Fragaria_ananassa_USA_2016","site_30","bee_bowl","Agapostemon_virescens","species","other_wild_bees",1,50,540,NA,"15 bee bowls. Both traps and sweep nets were conducted over a 50m transect. Traps were left for 9 hours, sweeping was done for 1 hour.",NA
"David_Crowder_Fragaria_ananassa_USA_2016","site_30","blue_vane","Agapostemon_virescens","species","other_wild_bees",6,50,540,NA,"3 blue vane traps. Both traps and sweep nets were conducted over a 50m transect. Traps were left for 9 hours, sweeping was done for 1 hour.",NA
"David_Crowder_Fragaria_ananassa_USA_2016","site_30","sweep_net","Agapostemon_virescens","species","other_wild_bees",2,50,60,NA,"Both traps and sweep nets were conducted over a 50m transect. Traps were left for 9 hours, sweeping was done for 1 hour.",NA
"David_Crowder_Fragaria_ananassa_USA_2016","site_30","bee_bowl","Apis_mellifera","species","honeybees",7,50,540,NA,"15 bee bowls. Both traps and sweep nets were conducted over a 50m transect. Traps were left for 9 hours, sweeping was done for 1 hour.",NA
"David_Crowder_Fragaria_ananassa_USA_2016","site_30","blue_vane","Apis_mellifera","species","honeybees",7,50,540,NA,"3 blue vane traps. Both traps and sweep nets were conducted over a 50m transect. Traps were left for 9 hours, sweeping was done for 1 hour.",NA
"David_Crowder_Fragaria_ananassa_USA_2016","site_30","sweep_net","Apis_mellifera","species","honeybees",27,50,60,NA,"Both traps and sweep nets were conducted over a 50m transect. Traps were left for 9 hours, sweeping was done for 1 hour.",NA
"David_Crowder_Fragaria_ananassa_USA_2016","site_30","blue_vane","Bombus_californicus","species","bumblebees",1,50,540,NA,"3 blue vane traps. Both traps and sweep nets were conducted over a 50m transect. Traps were left for 9 hours, sweeping was done for 1 hour.",NA
"David_Crowder_Fragaria_ananassa_USA_2016","site_30","bee_bowl","Bombus_flavifrons","species","bumblebees",1,50,540,NA,"15 bee bowls. Both traps and sweep nets were conducted over a 50m transect. Traps were left for 9 hours, sweeping was done for 1 hour.",NA
"David_Crowder_Fragaria_ananassa_USA_2016","site_30","bee_bowl","Halictus_rubicundus","species","other_wild_bees",1,50,540,NA,"15 bee bowls. Both traps and sweep nets were conducted over a 50m transect. Traps were left for 9 hours, sweeping was done for 1 hour.",NA
"David_Crowder_Fragaria_ananassa_USA_2016","site_30","blue_vane","Halictus_rubicundus","species","other_wild_bees",1,50,540,NA,"3 blue vane traps. Both traps and sweep nets were conducted over a 50m transect. Traps were left for 9 hours, sweeping was done for 1 hour.",NA
"David_Crowder_Fragaria_ananassa_USA_2016","site_30","sweep_net","Halictus_rubicundus","species","other_wild_bees",1,50,60,NA,"Both traps and sweep nets were conducted over a 50m transect. Traps were left for 9 hours, sweeping was done for 1 hour.",NA
"David_Crowder_Fragaria_ananassa_USA_2016","site_31","bee_bowl","Apis_mellifera","species","honeybees",2,50,540,NA,"15 bee bowls. Both traps and sweep nets were conducted over a 50m transect. Traps were left for 9 hours, sweeping was done for 1 hour.",NA
"David_Crowder_Fragaria_ananassa_USA_2016","site_31","blue_vane","Apis_mellifera","species","honeybees",1,50,540,NA,"3 blue vane traps. Both traps and sweep nets were conducted over a 50m transect. Traps were left for 9 hours, sweeping was done for 1 hour.",NA
"David_Crowder_Fragaria_ananassa_USA_2016","site_31","sweep_net","Apis_mellifera","species","honeybees",35,50,60,NA,"Both traps and sweep nets were conducted over a 50m transect. Traps were left for 9 hours, sweeping was done for 1 hour.",NA
"David_Crowder_Fragaria_ananassa_USA_2016","site_34","blue_vane","Agapostemon_texanus","species","other_wild_bees",5,50,540,NA,"3 blue vane traps. Both traps and sweep nets were conducted over a 50m transect. Traps were left for 9 hours, sweeping was done for 1 hour.",NA
"David_Crowder_Fragaria_ananassa_USA_2016","site_34","bee_bowl","Agapostemon_virescens","species","other_wild_bees",1,50,540,NA,"15 bee bowls. Both traps and sweep nets were conducted over a 50m transect. Traps were left for 9 hours, sweeping was done for 1 hour.",NA
"David_Crowder_Fragaria_ananassa_USA_2016","site_34","blue_vane","Agapostemon_virescens","species","other_wild_bees",1,50,540,NA,"3 blue vane traps. Both traps and sweep nets were conducted over a 50m transect. Traps were left for 9 hours, sweeping was done for 1 hour.",NA
"David_Crowder_Fragaria_ananassa_USA_2016","site_34","sweep_net","Agapostemon_virescens","species","other_wild_bees",4,50,60,NA,"Both traps and sweep nets were conducted over a 50m transect. Traps were left for 9 hours, sweeping was done for 1 hour.",NA
"David_Crowder_Fragaria_ananassa_USA_2016","site_34","bee_bowl","Apis_mellifera","species","honeybees",1,50,540,NA,"15 bee bowls. Both traps and sweep nets were conducted over a 50m transect. Traps were left for 9 hours, sweeping was done for 1 hour.",NA
"David_Crowder_Fragaria_ananassa_USA_2016","site_34","blue_vane","Apis_mellifera","species","honeybees",6,50,540,NA,"3 blue vane traps. Both traps and sweep nets were conducted over a 50m transect. Traps were left for 9 hours, sweeping was done for 1 hour.",NA
"David_Crowder_Fragaria_ananassa_USA_2016","site_34","sweep_net","Apis_mellifera","species","honeybees",59,50,60,NA,"Both traps and sweep nets were conducted over a 50m transect. Traps were left for 9 hours, sweeping was done for 1 hour.",NA
"David_Crowder_Fragaria_ananassa_USA_2016","site_34","sweep_net","Bombus_vosnesenskii","species","bumblebees",3,50,60,NA,"Both traps and sweep nets were conducted over a 50m transect. Traps were left for 9 hours, sweeping was done for 1 hour.",NA
"David_Crowder_Fragaria_ananassa_USA_2016","site_34","blue_vane","Halictus_spH5","morphospecies","other_wild_bees",1,50,540,NA,"3 blue vane traps. Both traps and sweep nets were conducted over a 50m transect. Traps were left for 9 hours, sweeping was done for 1 hour.",NA
"David_Crowder_Fragaria_ananassa_USA_2016","site_34","sweep_net","Lasioglossum_cfmellipes","species","other_wild_bees",1,50,60,NA,"Both traps and sweep nets were conducted over a 50m transect. Traps were left for 9 hours, sweeping was done for 1 hour.",NA
"David_Crowder_Fragaria_ananassa_USA_2016","site_34","sweep_net","Megachile_perihirta","species","other_wild_bees",1,50,60,NA,"Both traps and sweep nets were conducted over a 50m transect. Traps were left for 9 hours, sweeping was done for 1 hour.",NA
"David_Crowder_Fragaria_ananassa_USA_2016","site_36","blue_vane","Agapostemon_texanus","species","other_wild_bees",1,50,540,NA,"3 blue vane traps. Both traps and sweep nets were conducted over a 50m transect. Traps were left for 9 hours, sweeping was done for 1 hour.",NA
"David_Crowder_Fragaria_ananassa_USA_2016","site_36","blue_vane","Agapostemon_virescens","species","other_wild_bees",6,50,540,NA,"3 blue vane traps. Both traps and sweep nets were conducted over a 50m transect. Traps were left for 9 hours, sweeping was done for 1 hour.",NA
"David_Crowder_Fragaria_ananassa_USA_2016","site_36","sweep_net","Agapostemon_virescens","species","other_wild_bees",1,50,60,NA,"Both traps and sweep nets were conducted over a 50m transect. Traps were left for 9 hours, sweeping was done for 1 hour.",NA
"David_Crowder_Fragaria_ananassa_USA_2016","site_36","bee_bowl","Apis_mellifera","species","honeybees",3,50,540,NA,"15 bee bowls. Both traps and sweep nets were conducted over a 50m transect. Traps were left for 9 hours, sweeping was done for 1 hour.",NA
"David_Crowder_Fragaria_ananassa_USA_2016","site_36","blue_vane","Apis_mellifera","species","honeybees",6,50,540,NA,"3 blue vane traps. Both traps and sweep nets were conducted over a 50m transect. Traps were left for 9 hours, sweeping was done for 1 hour.",NA
"David_Crowder_Fragaria_ananassa_USA_2016","site_36","sweep_net","Apis_mellifera","species","honeybees",18,50,60,NA,"Both traps and sweep nets were conducted over a 50m transect. Traps were left for 9 hours, sweeping was done for 1 hour.",NA
"David_Crowder_Fragaria_ananassa_USA_2016","site_36","sweep_net","Bombus_californicus","species","bumblebees",1,50,60,NA,"Both traps and sweep nets were conducted over a 50m transect. Traps were left for 9 hours, sweeping was done for 1 hour.",NA
"David_Crowder_Fragaria_ananassa_USA_2016","site_36","sweep_net","Bombus_flavifrons","species","bumblebees",1,50,60,NA,"Both traps and sweep nets were conducted over a 50m transect. Traps were left for 9 hours, sweeping was done for 1 hour.",NA
"David_Crowder_Fragaria_ananassa_USA_2016","site_36","blue_vane","Bombus_vosnesenskii","species","bumblebees",6,50,540,NA,"3 blue vane traps. Both traps and sweep nets were conducted over a 50m transect. Traps were left for 9 hours, sweeping was done for 1 hour.",NA
"David_Crowder_Fragaria_ananassa_USA_2016","site_36","sweep_net","Bombus_vosnesenskii","species","bumblebees",8,50,60,NA,"Both traps and sweep nets were conducted over a 50m transect. Traps were left for 9 hours, sweeping was done for 1 hour.",NA
"David_Kleijn_Allium_porrum_Italy_2012","1_Prod_Field","transects","Andrena mucida","species","other_wild_bees",1,5,10,NA,"In each field, bees were surveyed in a single 5 m long transect between two crop rows. During a period of 10 minutes (net observation time), all bees visiting leek umbels were noted.",NA
"David_Kleijn_Allium_porrum_Italy_2012","1_Prod_Field","transects","Halictus scabiosae","species","other_wild_bees",1,5,10,NA,"In each field, bees were surveyed in a single 5 m long transect between two crop rows. During a period of 10 minutes (net observation time), all bees visiting leek umbels were noted.",NA
"David_Kleijn_Allium_porrum_Italy_2012","1_Prod_Field","transects","Bombus lapidarius","species","bumblebees",1,5,10,NA,"In each field, bees were surveyed in a single 5 m long transect between two crop rows. During a period of 10 minutes (net observation time), all bees visiting leek umbels were noted.",NA
"David_Kleijn_Allium_porrum_Italy_2012","1_Prod_Field","transects","Hylaeus punctulatissimus","species","other_wild_bees",1,5,10,NA,"In each field, bees were surveyed in a single 5 m long transect between two crop rows. During a period of 10 minutes (net observation time), all bees visiting leek umbels were noted.",NA
"David_Kleijn_Allium_porrum_Italy_2012","1_Prod_Field","transects","Hylaeus punctulatissimus","species","other_wild_bees",1,5,10,NA,"In each field, bees were surveyed in a single 5 m long transect between two crop rows. During a period of 10 minutes (net observation time), all bees visiting leek umbels were noted.",NA
"David_Kleijn_Allium_porrum_Italy_2012","1_Prod_Field","transects","Hylaeus punctulatissimus","species","other_wild_bees",1,5,10,NA,"In each field, bees were surveyed in a single 5 m long transect between two crop rows. During a period of 10 minutes (net observation time), all bees visiting leek umbels were noted.",NA
"David_Kleijn_Allium_porrum_Italy_2012","1_Prod_Field","transects","Hylaeus punctulatissimus","species","other_wild_bees",1,5,10,NA,"In each field, bees were surveyed in a single 5 m long transect between two crop rows. During a period of 10 minutes (net observation time), all bees visiting leek umbels were noted.",NA
"David_Kleijn_Allium_porrum_Italy_2012","1_Prod_Field","transects","Hylaeus punctulatissimus","species","other_wild_bees",1,5,10,NA,"In each field, bees were surveyed in a single 5 m long transect between two crop rows. During a period of 10 minutes (net observation time), all bees visiting leek umbels were noted.",NA
"David_Kleijn_Allium_porrum_Italy_2012","1_Prod_Field","transects","Hylaeus punctulatissimus","species","other_wild_bees",1,5,10,NA,"In each field, bees were surveyed in a single 5 m long transect between two crop rows. During a period of 10 minutes (net observation time), all bees visiting leek umbels were noted.",NA
"David_Kleijn_Allium_porrum_Italy_2012","1_Prod_Field","transects","Andrena flavipes","species","other_wild_bees",1,5,10,NA,"In each field, bees were surveyed in a single 5 m long transect between two crop rows. During a period of 10 minutes (net observation time), all bees visiting leek umbels were noted.",NA
"David_Kleijn_Allium_porrum_Italy_2012","1TT","transects","Hylaeus punctulatissimus","species","other_wild_bees",1,5,10,NA,"In each field, bees were surveyed in a single 5 m long transect between two crop rows. During a period of 10 minutes (net observation time), all bees visiting leek umbels were noted.",NA
"David_Kleijn_Allium_porrum_Italy_2012","1TT","transects","Andrena flavipes","species","other_wild_bees",1,5,10,NA,"In each field, bees were surveyed in a single 5 m long transect between two crop rows. During a period of 10 minutes (net observation time), all bees visiting leek umbels were noted.",NA
"David_Kleijn_Allium_porrum_Italy_2012","1TT","transects","Andrena flavipes","species","other_wild_bees",1,5,10,NA,"In each field, bees were surveyed in a single 5 m long transect between two crop rows. During a period of 10 minutes (net observation time), all bees visiting leek umbels were noted.",NA
"David_Kleijn_Allium_porrum_Italy_2012","1TT","transects",NA,NA,NA,1,5,10,NA,"In each field, bees were surveyed in a single 5 m long transect between two crop rows. During a period of 10 minutes (net observation time), all bees visiting leek umbels were noted.",NA
"David_Kleijn_Allium_porrum_Italy_2012","1TT","transects","Andrena albopunctata","species","other_wild_bees",1,5,10,NA,"In each field, bees were surveyed in a single 5 m long transect between two crop rows. During a period of 10 minutes (net observation time), all bees visiting leek umbels were noted.",NA
"David_Kleijn_Allium_porrum_Italy_2012","1TT","transects","Andrena minutula","species","other_wild_bees",1,5,10,NA,"In each field, bees were surveyed in a single 5 m long transect between two crop rows. During a period of 10 minutes (net observation time), all bees visiting leek umbels were noted.",NA
"David_Kleijn_Allium_porrum_Italy_2012","1TT","transects","Hylaeus communis","species","other_wild_bees",1,5,10,NA,"In each field, bees were surveyed in a single 5 m long transect between two crop rows. During a period of 10 minutes (net observation time), all bees visiting leek umbels were noted.",NA
"David_Kleijn_Allium_porrum_Italy_2012","1TT","transects","Andrena pilipes","species","other_wild_bees",1,5,10,NA,"In each field, bees were surveyed in a single 5 m long transect between two crop rows. During a period of 10 minutes (net observation time), all bees visiting leek umbels were noted.",NA
"David_Kleijn_Allium_porrum_Italy_2012","1TT","transects","Andrena pilipes","species","other_wild_bees",1,5,10,NA,"In each field, bees were surveyed in a single 5 m long transect between two crop rows. During a period of 10 minutes (net observation time), all bees visiting leek umbels were noted.",NA
"David_Kleijn_Allium_porrum_Italy_2012","1TT","transects","Andrena thoracica","species","other_wild_bees",1,5,10,NA,"In each field, bees were surveyed in a single 5 m long transect between two crop rows. During a period of 10 minutes (net observation time), all bees visiting leek umbels were noted.",NA
"David_Kleijn_Allium_porrum_Italy_2012","1TT","transects","Hylaeus punctulatissimus","species","other_wild_bees",1,5,10,NA,"In each field, bees were surveyed in a single 5 m long transect between two crop rows. During a period of 10 minutes (net observation time), all bees visiting leek umbels were noted.",NA
"David_Kleijn_Allium_porrum_Italy_2012","1TT","transects","Hylaeus punctulatissimus","species","other_wild_bees",1,5,10,NA,"In each field, bees were surveyed in a single 5 m long transect between two crop rows. During a period of 10 minutes (net observation time), all bees visiting leek umbels were noted.",NA
"David_Kleijn_Allium_porrum_Italy_2012","1TT","transects","Bombus lucorum/terrestris","morphospecies","bumblebees",1,5,10,NA,"In each field, bees were surveyed in a single 5 m long transect between two crop rows. During a period of 10 minutes (net observation time), all bees visiting leek umbels were noted.",NA
"David_Kleijn_Allium_porrum_Italy_2012","1TT","transects","Bombus lucorum/terrestris","morphospecies","bumblebees",1,5,10,NA,"In each field, bees were surveyed in a single 5 m long transect between two crop rows. During a period of 10 minutes (net observation time), all bees visiting leek umbels were noted.",NA
"David_Kleijn_Allium_porrum_Italy_2012","1TT","transects","Andrena flavipes","species","other_wild_bees",1,5,10,NA,"In each field, bees were surveyed in a single 5 m long transect between two crop rows. During a period of 10 minutes (net observation time), all bees visiting leek umbels were noted.",NA
"David_Kleijn_Allium_porrum_Italy_2012","1TT","transects","Andrena flavipes","species","other_wild_bees",1,5,10,NA,"In each field, bees were surveyed in a single 5 m long transect between two crop rows. During a period of 10 minutes (net observation time), all bees visiting leek umbels were noted.",NA
"David_Kleijn_Allium_porrum_Italy_2012","1TT","transects","Andrena flavipes","species","other_wild_bees",1,5,10,NA,"In each field, bees were surveyed in a single 5 m long transect between two crop rows. During a period of 10 minutes (net observation time), all bees visiting leek umbels were noted.",NA
"David_Kleijn_Allium_porrum_Italy_2012","1TT","transects","Andrena flavipes","species","other_wild_bees",1,5,10,NA,"In each field, bees were surveyed in a single 5 m long transect between two crop rows. During a period of 10 minutes (net observation time), all bees visiting leek umbels were noted.",NA
"David_Kleijn_Allium_porrum_Italy_2012","1TT","transects",NA,NA,NA,1,5,10,NA,"In each field, bees were surveyed in a single 5 m long transect between two crop rows. During a period of 10 minutes (net observation time), all bees visiting leek umbels were noted.",NA
"David_Kleijn_Allium_porrum_Italy_2012","2TT","transects","Andrena agilissima","species","other_wild_bees",1,5,10,NA,"In each field, bees were surveyed in a single 5 m long transect between two crop rows. During a period of 10 minutes (net observation time), all bees visiting leek umbels were noted.",NA
"David_Kleijn_Allium_porrum_Italy_2012","2TT","transects","Ceratina cucurbitina","species","other_wild_bees",1,5,10,NA,"In each field, bees were surveyed in a single 5 m long transect between two crop rows. During a period of 10 minutes (net observation time), all bees visiting leek umbels were noted.",NA
"David_Kleijn_Allium_porrum_Italy_2012","2TT","transects","Andrena pilipes","species","other_wild_bees",1,5,10,NA,"In each field, bees were surveyed in a single 5 m long transect between two crop rows. During a period of 10 minutes (net observation time), all bees visiting leek umbels were noted.",NA
"David_Kleijn_Allium_porrum_Italy_2012","2TT","transects","Bombus lapidarius","species","bumblebees",1,5,10,NA,"In each field, bees were surveyed in a single 5 m long transect between two crop rows. During a period of 10 minutes (net observation time), all bees visiting leek umbels were noted.",NA
"David_Kleijn_Allium_porrum_Italy_2012","2TT","transects","Bombus lapidarius","species","bumblebees",1,5,10,NA,"In each field, bees were surveyed in a single 5 m long transect between two crop rows. During a period of 10 minutes (net observation time), all bees visiting leek umbels were noted.",NA
"David_Kleijn_Allium_porrum_Italy_2012","2TT","transects","Bombus lapidarius","species","bumblebees",1,5,10,NA,"In each field, bees were surveyed in a single 5 m long transect between two crop rows. During a period of 10 minutes (net observation time), all bees visiting leek umbels were noted.",NA
"David_Kleijn_Allium_porrum_Italy_2012","2TT","transects","Andrena flavipes","species","other_wild_bees",1,5,10,NA,"In each field, bees were surveyed in a single 5 m long transect between two crop rows. During a period of 10 minutes (net observation time), all bees visiting leek umbels were noted.",NA
"David_Kleijn_Allium_porrum_Italy_2012","2TT","transects","Andrena flavipes","species","other_wild_bees",1,5,10,NA,"In each field, bees were surveyed in a single 5 m long transect between two crop rows. During a period of 10 minutes (net observation time), all bees visiting leek umbels were noted.",NA
"David_Kleijn_Allium_porrum_Italy_2012","2TT","transects","Andrena flavipes","species","other_wild_bees",1,5,10,NA,"In each field, bees were surveyed in a single 5 m long transect between two crop rows. During a period of 10 minutes (net observation time), all bees visiting leek umbels were noted.",NA
"David_Kleijn_Allium_porrum_Italy_2012","2TT","transects","Andrena flavipes","species","other_wild_bees",1,5,10,NA,"In each field, bees were surveyed in a single 5 m long transect between two crop rows. During a period of 10 minutes (net observation time), all bees visiting leek umbels were noted.",NA
"David_Kleijn_Allium_porrum_Italy_2012","2TT","transects","Andrena flavipes","species","other_wild_bees",1,5,10,NA,"In each field, bees were surveyed in a single 5 m long transect between two crop rows. During a period of 10 minutes (net observation time), all bees visiting leek umbels were noted.",NA
"David_Kleijn_Allium_porrum_Italy_2012","2TT","transects","Andrena thoracica","species","other_wild_bees",1,5,10,NA,"In each field, bees were surveyed in a single 5 m long transect between two crop rows. During a period of 10 minutes (net observation time), all bees visiting leek umbels were noted.",NA
"David_Kleijn_Allium_porrum_Italy_2012","2TT","transects","Ceratina cucurbitina","species","other_wild_bees",1,5,10,NA,"In each field, bees were surveyed in a single 5 m long transect between two crop rows. During a period of 10 minutes (net observation time), all bees visiting leek umbels were noted.",NA
"David_Kleijn_Allium_porrum_Italy_2012","2TT","transects","Ceratina cucurbitina","species","other_wild_bees",1,5,10,NA,"In each field, bees were surveyed in a single 5 m long transect between two crop rows. During a period of 10 minutes (net observation time), all bees visiting leek umbels were noted.",NA
"David_Kleijn_Allium_porrum_Italy_2012","2TT","transects","Andrena pilipes","species","other_wild_bees",1,5,10,NA,"In each field, bees were surveyed in a single 5 m long transect between two crop rows. During a period of 10 minutes (net observation time), all bees visiting leek umbels were noted.",NA
"David_Kleijn_Allium_porrum_Italy_2012","2TT","transects","Hylaeus punctulatissimus","species","other_wild_bees",1,5,10,NA,"In each field, bees were surveyed in a single 5 m long transect between two crop rows. During a period of 10 minutes (net observation time), all bees visiting leek umbels were noted.",NA
"David_Kleijn_Allium_porrum_Italy_2012","2TT","transects","Andrena flavipes","species","other_wild_bees",1,5,10,NA,"In each field, bees were surveyed in a single 5 m long transect between two crop rows. During a period of 10 minutes (net observation time), all bees visiting leek umbels were noted.",NA
"David_Kleijn_Allium_porrum_Italy_2012","2TT","transects","Andrena flavipes","species","other_wild_bees",1,5,10,NA,"In each field, bees were surveyed in a single 5 m long transect between two crop rows. During a period of 10 minutes (net observation time), all bees visiting leek umbels were noted.",NA
"David_Kleijn_Allium_porrum_Italy_2012","2TT","transects","Andrena flavipes","species","other_wild_bees",1,5,10,NA,"In each field, bees were surveyed in a single 5 m long transect between two crop rows. During a period of 10 minutes (net observation time), all bees visiting leek umbels were noted.",NA
"David_Kleijn_Allium_porrum_Italy_2012","2TT","transects","Andrena flavipes","species","other_wild_bees",1,5,10,NA,"In each field, bees were surveyed in a single 5 m long transect between two crop rows. During a period of 10 minutes (net observation time), all bees visiting leek umbels were noted.",NA
"David_Kleijn_Allium_porrum_Italy_2012","2TT","transects","Andrena flavipes","species","other_wild_bees",1,5,10,NA,"In each field, bees were surveyed in a single 5 m long transect between two crop rows. During a period of 10 minutes (net observation time), all bees visiting leek umbels were noted.",NA
"David_Kleijn_Allium_porrum_Italy_2012","2TT","transects","Andrena flavipes","species","other_wild_bees",1,5,10,NA,"In each field, bees were surveyed in a single 5 m long transect between two crop rows. During a period of 10 minutes (net observation time), all bees visiting leek umbels were noted.",NA
"David_Kleijn_Allium_porrum_Italy_2012","2TT","transects","Lasioglossum discum","species","other_wild_bees",1,5,10,NA,"In each field, bees were surveyed in a single 5 m long transect between two crop rows. During a period of 10 minutes (net observation time), all bees visiting leek umbels were noted.",NA
"David_Kleijn_Allium_porrum_Italy_2012","2TT","transects","Lasioglossum discum","species","other_wild_bees",1,5,10,NA,"In each field, bees were surveyed in a single 5 m long transect between two crop rows. During a period of 10 minutes (net observation time), all bees visiting leek umbels were noted.",NA
"David_Kleijn_Allium_porrum_Italy_2012","3TT","transects","Hylaeus soror","species","other_wild_bees",1,5,10,NA,"In each field, bees were surveyed in a single 5 m long transect between two crop rows. During a period of 10 minutes (net observation time), all bees visiting leek umbels were noted.",NA
"David_Kleijn_Allium_porrum_Italy_2012","3TT","transects","Megachile pilidens","species","other_wild_bees",1,5,10,NA,"In each field, bees were surveyed in a single 5 m long transect between two crop rows. During a period of 10 minutes (net observation time), all bees visiting leek umbels were noted.",NA
"David_Kleijn_Allium_porrum_Italy_2012","3TT","transects","Megachile pilidens","species","other_wild_bees",1,5,10,NA,"In each field, bees were surveyed in a single 5 m long transect between two crop rows. During a period of 10 minutes (net observation time), all bees visiting leek umbels were noted.",NA
"David_Kleijn_Allium_porrum_Italy_2012","3TT","transects","Andrena decipiens","species","other_wild_bees",1,5,10,NA,"In each field, bees were surveyed in a single 5 m long transect between two crop rows. During a period of 10 minutes (net observation time), all bees visiting leek umbels were noted.",NA
"David_Kleijn_Allium_porrum_Italy_2012","3TT","transects","Halictus subauratus","species","other_wild_bees",1,5,10,NA,"In each field, bees were surveyed in a single 5 m long transect between two crop rows. During a period of 10 minutes (net observation time), all bees visiting leek umbels were noted.",NA
"David_Kleijn_Allium_porrum_Italy_2012","3TT","transects","Halictus subauratus","species","other_wild_bees",1,5,10,NA,"In each field, bees were surveyed in a single 5 m long transect between two crop rows. During a period of 10 minutes (net observation time), all bees visiting leek umbels were noted.",NA
"David_Kleijn_Allium_porrum_Italy_2012","4TT","transects","Andrena flavipes","species","other_wild_bees",1,5,10,NA,"In each field, bees were surveyed in a single 5 m long transect between two crop rows. During a period of 10 minutes (net observation time), all bees visiting leek umbels were noted.",NA
"David_Kleijn_Allium_porrum_Italy_2012","4TT","transects","Bombus lucorum/terrestris","morphospecies","bumblebees",1,5,10,NA,"In each field, bees were surveyed in a single 5 m long transect between two crop rows. During a period of 10 minutes (net observation time), all bees visiting leek umbels were noted.",NA
"David_Kleijn_Allium_porrum_Italy_2012","4TT","transects","Andrena decipiens","species","other_wild_bees",1,5,10,NA,"In each field, bees were surveyed in a single 5 m long transect between two crop rows. During a period of 10 minutes (net observation time), all bees visiting leek umbels were noted.",NA
"David_Kleijn_Allium_porrum_Italy_2012","4TT","transects","Andrena flavipes","species","other_wild_bees",1,5,10,NA,"In each field, bees were surveyed in a single 5 m long transect between two crop rows. During a period of 10 minutes (net observation time), all bees visiting leek umbels were noted.",NA
"David_Kleijn_Allium_porrum_Italy_2012","4TT","transects","Andrena flavipes","species","other_wild_bees",1,5,10,NA,"In each field, bees were surveyed in a single 5 m long transect between two crop rows. During a period of 10 minutes (net observation time), all bees visiting leek umbels were noted.",NA
"David_Kleijn_Allium_porrum_Italy_2012","4TT","transects","Andrena flavipes","species","other_wild_bees",1,5,10,NA,"In each field, bees were surveyed in a single 5 m long transect between two crop rows. During a period of 10 minutes (net observation time), all bees visiting leek umbels were noted.",NA
"David_Kleijn_Allium_porrum_Italy_2012","4TT","transects","Andrena thoracica","species","other_wild_bees",1,5,10,NA,"In each field, bees were surveyed in a single 5 m long transect between two crop rows. During a period of 10 minutes (net observation time), all bees visiting leek umbels were noted.",NA
"David_Kleijn_Allium_porrum_Italy_2012","4TT","transects","Andrena flavipes","species","other_wild_bees",1,5,10,NA,"In each field, bees were surveyed in a single 5 m long transect between two crop rows. During a period of 10 minutes (net observation time), all bees visiting leek umbels were noted.",NA
"David_Kleijn_Allium_porrum_Italy_2012","4TT","transects","Andrena flavipes","species","other_wild_bees",1,5,10,NA,"In each field, bees were surveyed in a single 5 m long transect between two crop rows. During a period of 10 minutes (net observation time), all bees visiting leek umbels were noted.",NA
"David_Kleijn_Allium_porrum_Italy_2012","4TT","transects","Andrena flavipes","species","other_wild_bees",1,5,10,NA,"In each field, bees were surveyed in a single 5 m long transect between two crop rows. During a period of 10 minutes (net observation time), all bees visiting leek umbels were noted.",NA
"David_Kleijn_Allium_porrum_Italy_2012","4TT","transects","Andrena flavipes","species","other_wild_bees",1,5,10,NA,"In each field, bees were surveyed in a single 5 m long transect between two crop rows. During a period of 10 minutes (net observation time), all bees visiting leek umbels were noted.",NA
"David_Kleijn_Allium_porrum_Italy_2012","4TT","transects","Andrena flavipes","species","other_wild_bees",1,5,10,NA,"In each field, bees were surveyed in a single 5 m long transect between two crop rows. During a period of 10 minutes (net observation time), all bees visiting leek umbels were noted.",NA
"David_Kleijn_Allium_porrum_Italy_2012","5TT","transects","Sphecodes gibbus","species","other_wild_bees",1,5,10,NA,"In each field, bees were surveyed in a single 5 m long transect between two crop rows. During a period of 10 minutes (net observation time), all bees visiting leek umbels were noted.",NA
"David_Kleijn_Allium_porrum_Italy_2012","5TT","transects","Bombus lucorum/terrestris","morphospecies","bumblebees",1,5,10,NA,"In each field, bees were surveyed in a single 5 m long transect between two crop rows. During a period of 10 minutes (net observation time), all bees visiting leek umbels were noted.",NA
"David_Kleijn_Allium_porrum_Italy_2012","5TT","transects","Bombus lucorum/terrestris","morphospecies","bumblebees",1,5,10,NA,"In each field, bees were surveyed in a single 5 m long transect between two crop rows. During a period of 10 minutes (net observation time), all bees visiting leek umbels were noted.",NA
"David_Kleijn_Allium_porrum_Italy_2012","5TT","transects","wesp: cf. Allodynerus floricola","species","non_bee_hymenoptera",1,5,10,NA,"In each field, bees were surveyed in a single 5 m long transect between two crop rows. During a period of 10 minutes (net observation time), all bees visiting leek umbels were noted.",NA
"David_Kleijn_Allium_porrum_Italy_2012","6TT","transects","Andrena decipiens","species","other_wild_bees",1,5,10,NA,"In each field, bees were surveyed in a single 5 m long transect between two crop rows. During a period of 10 minutes (net observation time), all bees visiting leek umbels were noted.",NA
"David_Kleijn_Allium_porrum_Italy_2012","6TT","transects","Andrena decipiens","species","other_wild_bees",1,5,10,NA,"In each field, bees were surveyed in a single 5 m long transect between two crop rows. During a period of 10 minutes (net observation time), all bees visiting leek umbels were noted.",NA
"David_Kleijn_Allium_porrum_Italy_2012","6TT","transects","Andrena decipiens","species","other_wild_bees",1,5,10,NA,"In each field, bees were surveyed in a single 5 m long transect between two crop rows. During a period of 10 minutes (net observation time), all bees visiting leek umbels were noted.",NA
"David_Kleijn_Allium_porrum_Italy_2012","6TT","transects","Ceratina cucurbitina","species","other_wild_bees",1,5,10,NA,"In each field, bees were surveyed in a single 5 m long transect between two crop rows. During a period of 10 minutes (net observation time), all bees visiting leek umbels were noted.",NA
"David_Kleijn_Allium_porrum_Italy_2012","6TT","transects","Ceratina cucurbitina","species","other_wild_bees",1,5,10,NA,"In each field, bees were surveyed in a single 5 m long transect between two crop rows. During a period of 10 minutes (net observation time), all bees visiting leek umbels were noted.",NA
"David_Kleijn_Allium_porrum_Italy_2012","6TT","transects","Ceratina cucurbitina","species","other_wild_bees",1,5,10,NA,"In each field, bees were surveyed in a single 5 m long transect between two crop rows. During a period of 10 minutes (net observation time), all bees visiting leek umbels were noted.",NA
"David_Kleijn_Allium_porrum_Italy_2012","6TT","transects","Andrena thoracica","species","other_wild_bees",1,5,10,NA,"In each field, bees were surveyed in a single 5 m long transect between two crop rows. During a period of 10 minutes (net observation time), all bees visiting leek umbels were noted.",NA
"David_Kleijn_Allium_porrum_Italy_2012","6TT","transects","Hylaeus punctulatissimus","species","other_wild_bees",1,5,10,NA,"In each field, bees were surveyed in a single 5 m long transect between two crop rows. During a period of 10 minutes (net observation time), all bees visiting leek umbels were noted.",NA
"David_Kleijn_Allium_porrum_Italy_2012","6TT","transects","Andrena decipiens","species","other_wild_bees",1,5,10,NA,"In each field, bees were surveyed in a single 5 m long transect between two crop rows. During a period of 10 minutes (net observation time), all bees visiting leek umbels were noted.",NA
"David_Kleijn_Allium_porrum_Italy_2012","6TT","transects","Andrena decipiens","species","other_wild_bees",1,5,10,NA,"In each field, bees were surveyed in a single 5 m long transect between two crop rows. During a period of 10 minutes (net observation time), all bees visiting leek umbels were noted.",NA
"David_Kleijn_Allium_porrum_Italy_2012","6TT","transects","Andrena flavipes","species","other_wild_bees",1,5,10,NA,"In each field, bees were surveyed in a single 5 m long transect between two crop rows. During a period of 10 minutes (net observation time), all bees visiting leek umbels were noted.",NA
"David_Kleijn_Allium_porrum_Italy_2012","6TT","transects","Andrena flavipes","species","other_wild_bees",1,5,10,NA,"In each field, bees were surveyed in a single 5 m long transect between two crop rows. During a period of 10 minutes (net observation time), all bees visiting leek umbels were noted.",NA
"David_Kleijn_Allium_porrum_Italy_2012","6TT","transects","Colletes cunicularius","species","other_wild_bees",1,5,10,NA,"In each field, bees were surveyed in a single 5 m long transect between two crop rows. During a period of 10 minutes (net observation time), all bees visiting leek umbels were noted.",NA
"David_Kleijn_Allium_porrum_Italy_2012","6TT","transects","Colletes cunicularius","species","other_wild_bees",1,5,10,NA,"In each field, bees were surveyed in a single 5 m long transect between two crop rows. During a period of 10 minutes (net observation time), all bees visiting leek umbels were noted.",NA
"David_Kleijn_Allium_porrum_Italy_2012","6TT","transects","Colletes cunicularius","species","other_wild_bees",1,5,10,NA,"In each field, bees were surveyed in a single 5 m long transect between two crop rows. During a period of 10 minutes (net observation time), all bees visiting leek umbels were noted.",NA
"David_Kleijn_Allium_porrum_Italy_2012","6TT","transects","Colletes cunicularius","species","other_wild_bees",1,5,10,NA,"In each field, bees were surveyed in a single 5 m long transect between two crop rows. During a period of 10 minutes (net observation time), all bees visiting leek umbels were noted.",NA
"David_Kleijn_Allium_porrum_Italy_2012","7TT","transects","Ceratina nigrolabiata","species","other_wild_bees",1,5,10,NA,"In each field, bees were surveyed in a single 5 m long transect between two crop rows. During a period of 10 minutes (net observation time), all bees visiting leek umbels were noted.",NA
"David_Kleijn_Allium_porrum_Italy_2012","7TT","transects","Xylocopa violacea","species","other_wild_bees",1,5,10,NA,"In each field, bees were surveyed in a single 5 m long transect between two crop rows. During a period of 10 minutes (net observation time), all bees visiting leek umbels were noted.",NA
"David_Kleijn_Allium_porrum_Italy_2012","8TT","transects","Ceratina cucurbitina","species","other_wild_bees",1,5,10,NA,"In each field, bees were surveyed in a single 5 m long transect between two crop rows. During a period of 10 minutes (net observation time), all bees visiting leek umbels were noted.",NA
"David_Kleijn_Allium_porrum_Italy_2012","8TT","transects","Andrena thoracica","species","other_wild_bees",1,5,10,NA,"In each field, bees were surveyed in a single 5 m long transect between two crop rows. During a period of 10 minutes (net observation time), all bees visiting leek umbels were noted.",NA
"David_Kleijn_Allium_porrum_Italy_2012","8TT","transects","Bombus lapidarius","species","bumblebees",1,5,10,NA,"In each field, bees were surveyed in a single 5 m long transect between two crop rows. During a period of 10 minutes (net observation time), all bees visiting leek umbels were noted.",NA
"David_Kleijn_Allium_porrum_Italy_2012","8TT","transects","Bombus lucorum/terrestris","morphospecies","bumblebees",1,5,10,NA,"In each field, bees were surveyed in a single 5 m long transect between two crop rows. During a period of 10 minutes (net observation time), all bees visiting leek umbels were noted.",NA
"David_Kleijn_Allium_porrum_Italy_2012","8TT","transects","Andrena flavipes","species","other_wild_bees",1,5,10,NA,"In each field, bees were surveyed in a single 5 m long transect between two crop rows. During a period of 10 minutes (net observation time), all bees visiting leek umbels were noted.",NA
"David_Kleijn_Allium_porrum_Italy_2012","8TT","transects","Hylaeus punctulatissimus","species","other_wild_bees",1,5,10,NA,"In each field, bees were surveyed in a single 5 m long transect between two crop rows. During a period of 10 minutes (net observation time), all bees visiting leek umbels were noted.",NA
"David_Kleijn_Allium_porrum_Italy_2012","8TT","transects","Bombus humilis","species","bumblebees",1,5,10,NA,"In each field, bees were surveyed in a single 5 m long transect between two crop rows. During a period of 10 minutes (net observation time), all bees visiting leek umbels were noted.",NA
"David_Kleijn_Allium_porrum_Italy_2012","Prod. Bedr.","transects","Lasioglossum malachurum","species","other_wild_bees",1,5,10,NA,"In each field, bees were surveyed in a single 5 m long transect between two crop rows. During a period of 10 minutes (net observation time), all bees visiting leek umbels were noted.",NA
"David_Kleijn_Allium_porrum_Italy_2012","Prod. Bedr.","transects","Sphecodes croaticus","species","other_wild_bees",1,5,10,NA,"In each field, bees were surveyed in a single 5 m long transect between two crop rows. During a period of 10 minutes (net observation time), all bees visiting leek umbels were noted.",NA
"David_Kleijn_Allium_porrum_Italy_2012","Prod. Bedr.","transects","Andrena pilipes","species","other_wild_bees",1,5,10,NA,"In each field, bees were surveyed in a single 5 m long transect between two crop rows. During a period of 10 minutes (net observation time), all bees visiting leek umbels were noted.",NA
"David_Kleijn_Allium_porrum_Italy_2012","Prod. Bedr.","transects","Andrena pilipes","species","other_wild_bees",1,5,10,NA,"In each field, bees were surveyed in a single 5 m long transect between two crop rows. During a period of 10 minutes (net observation time), all bees visiting leek umbels were noted.",NA
"David_Kleijn_Allium_porrum_Italy_2012","Prod. Bedr.","transects","Andrena thoracica","species","other_wild_bees",1,5,10,NA,"In each field, bees were surveyed in a single 5 m long transect between two crop rows. During a period of 10 minutes (net observation time), all bees visiting leek umbels were noted.",NA
"David_Kleijn_Allium_porrum_Italy_2012","Prod. Bedr.","transects","Andrena flavipes","species","other_wild_bees",1,5,10,NA,"In each field, bees were surveyed in a single 5 m long transect between two crop rows. During a period of 10 minutes (net observation time), all bees visiting leek umbels were noted.",NA
"David_Kleijn_Allium_porrum_Italy_2012","Prod. Bedr.","transects","Andrena flavipes","species","other_wild_bees",1,5,10,NA,"In each field, bees were surveyed in a single 5 m long transect between two crop rows. During a period of 10 minutes (net observation time), all bees visiting leek umbels were noted.",NA
"David_Kleijn_Allium_porrum_Italy_2012","Prod. Bedr.","transects","Andrena flavipes","species","other_wild_bees",1,5,10,NA,"In each field, bees were surveyed in a single 5 m long transect between two crop rows. During a period of 10 minutes (net observation time), all bees visiting leek umbels were noted.",NA
"David_Kleijn_Allium_porrum_Italy_2012","Prod. Bedr.","transects","Andrena flavipes","species","other_wild_bees",1,5,10,NA,"In each field, bees were surveyed in a single 5 m long transect between two crop rows. During a period of 10 minutes (net observation time), all bees visiting leek umbels were noted.",NA
"David_Kleijn_Allium_porrum_Italy_2012","3TT","transects","Apis mellifera","species","honeybees",1,5,10,NA,"In each field, bees were surveyed in a single 5 m long transect between two crop rows. During a period of 10 minutes (net observation time), all bees visiting leek umbels were noted.",NA
"David_Kleijn_Allium_porrum_Italy_2012","3TT","transects","Apis mellifera","species","honeybees",1,5,10,NA,"In each field, bees were surveyed in a single 5 m long transect between two crop rows. During a period of 10 minutes (net observation time), all bees visiting leek umbels were noted.",NA
"David_Kleijn_Allium_porrum_Italy_2012","3TT","transects","Apis mellifera","species","honeybees",1,5,10,NA,"In each field, bees were surveyed in a single 5 m long transect between two crop rows. During a period of 10 minutes (net observation time), all bees visiting leek umbels were noted.",NA
"David_Kleijn_Allium_porrum_Italy_2012","3TT","transects","Apis mellifera","species","honeybees",1,5,10,NA,"In each field, bees were surveyed in a single 5 m long transect between two crop rows. During a period of 10 minutes (net observation time), all bees visiting leek umbels were noted.",NA
"David_Kleijn_Allium_porrum_Italy_2012","3TT","transects","Apis mellifera","species","honeybees",1,5,10,NA,"In each field, bees were surveyed in a single 5 m long transect between two crop rows. During a period of 10 minutes (net observation time), all bees visiting leek umbels were noted.",NA
"David_Kleijn_Allium_porrum_Italy_2012","3TT","transects","Apis mellifera","species","honeybees",1,5,10,NA,"In each field, bees were surveyed in a single 5 m long transect between two crop rows. During a period of 10 minutes (net observation time), all bees visiting leek umbels were noted.",NA
"David_Kleijn_Allium_porrum_Italy_2012","3TT","transects","Apis mellifera","species","honeybees",1,5,10,NA,"In each field, bees were surveyed in a single 5 m long transect between two crop rows. During a period of 10 minutes (net observation time), all bees visiting leek umbels were noted.",NA
"David_Kleijn_Allium_porrum_Italy_2012","5TT","transects","Apis mellifera","species","honeybees",1,5,10,NA,"In each field, bees were surveyed in a single 5 m long transect between two crop rows. During a period of 10 minutes (net observation time), all bees visiting leek umbels were noted.",NA
"David_Kleijn_Allium_porrum_Italy_2012","5TT","transects","Apis mellifera","species","honeybees",1,5,10,NA,"In each field, bees were surveyed in a single 5 m long transect between two crop rows. During a period of 10 minutes (net observation time), all bees visiting leek umbels were noted.",NA
"David_Kleijn_Allium_porrum_Italy_2012","5TT","transects","Apis mellifera","species","honeybees",1,5,10,NA,"In each field, bees were surveyed in a single 5 m long transect between two crop rows. During a period of 10 minutes (net observation time), all bees visiting leek umbels were noted.",NA
"David_Kleijn_Allium_porrum_Italy_2012","5TT","transects","Apis mellifera","species","honeybees",1,5,10,NA,"In each field, bees were surveyed in a single 5 m long transect between two crop rows. During a period of 10 minutes (net observation time), all bees visiting leek umbels were noted.",NA
"David_Kleijn_Allium_porrum_Italy_2012","5TT","transects","Apis mellifera","species","honeybees",1,5,10,NA,"In each field, bees were surveyed in a single 5 m long transect between two crop rows. During a period of 10 minutes (net observation time), all bees visiting leek umbels were noted.",NA
"David_Kleijn_Allium_porrum_Italy_2012","5TT","transects","Apis mellifera","species","honeybees",1,5,10,NA,"In each field, bees were surveyed in a single 5 m long transect between two crop rows. During a period of 10 minutes (net observation time), all bees visiting leek umbels were noted.",NA
"David_Kleijn_Allium_porrum_Italy_2012","5TT","transects","Apis mellifera","species","honeybees",1,5,10,NA,"In each field, bees were surveyed in a single 5 m long transect between two crop rows. During a period of 10 minutes (net observation time), all bees visiting leek umbels were noted.",NA
"David_Kleijn_Allium_porrum_Italy_2012","5TT","transects","Apis mellifera","species","honeybees",1,5,10,NA,"In each field, bees were surveyed in a single 5 m long transect between two crop rows. During a period of 10 minutes (net observation time), all bees visiting leek umbels were noted.",NA
"David_Kleijn_Allium_porrum_Italy_2012","5TT","transects","Apis mellifera","species","honeybees",1,5,10,NA,"In each field, bees were surveyed in a single 5 m long transect between two crop rows. During a period of 10 minutes (net observation time), all bees visiting leek umbels were noted.",NA
"David_Kleijn_Allium_porrum_Italy_2012","5TT","transects","Apis mellifera","species","honeybees",1,5,10,NA,"In each field, bees were surveyed in a single 5 m long transect between two crop rows. During a period of 10 minutes (net observation time), all bees visiting leek umbels were noted.",NA
"David_Kleijn_Allium_porrum_Italy_2012","5TT","transects","Apis mellifera","species","honeybees",1,5,10,NA,"In each field, bees were surveyed in a single 5 m long transect between two crop rows. During a period of 10 minutes (net observation time), all bees visiting leek umbels were noted.",NA
"David_Kleijn_Allium_porrum_Italy_2012","4TT","transects","Apis mellifera","species","honeybees",1,5,10,NA,"In each field, bees were surveyed in a single 5 m long transect between two crop rows. During a period of 10 minutes (net observation time), all bees visiting leek umbels were noted.",NA
"David_Kleijn_Allium_porrum_Italy_2012","4TT","transects","Apis mellifera","species","honeybees",1,5,10,NA,"In each field, bees were surveyed in a single 5 m long transect between two crop rows. During a period of 10 minutes (net observation time), all bees visiting leek umbels were noted.",NA
"David_Kleijn_Allium_porrum_Italy_2012","4TT","transects","Apis mellifera","species","honeybees",1,5,10,NA,"In each field, bees were surveyed in a single 5 m long transect between two crop rows. During a period of 10 minutes (net observation time), all bees visiting leek umbels were noted.",NA
"David_Kleijn_Allium_porrum_Italy_2012","4TT","transects","Apis mellifera","species","honeybees",1,5,10,NA,"In each field, bees were surveyed in a single 5 m long transect between two crop rows. During a period of 10 minutes (net observation time), all bees visiting leek umbels were noted.",NA
"David_Kleijn_Allium_porrum_Italy_2012","4TT","transects","Apis mellifera","species","honeybees",1,5,10,NA,"In each field, bees were surveyed in a single 5 m long transect between two crop rows. During a period of 10 minutes (net observation time), all bees visiting leek umbels were noted.",NA
"David_Kleijn_Allium_porrum_Italy_2012","4TT","transects","Apis mellifera","species","honeybees",1,5,10,NA,"In each field, bees were surveyed in a single 5 m long transect between two crop rows. During a period of 10 minutes (net observation time), all bees visiting leek umbels were noted.",NA
"David_Kleijn_Allium_porrum_Italy_2012","4TT","transects","Apis mellifera","species","honeybees",1,5,10,NA,"In each field, bees were surveyed in a single 5 m long transect between two crop rows. During a period of 10 minutes (net observation time), all bees visiting leek umbels were noted.",NA
"David_Kleijn_Allium_porrum_Italy_2012","4TT","transects","Apis mellifera","species","honeybees",1,5,10,NA,"In each field, bees were surveyed in a single 5 m long transect between two crop rows. During a period of 10 minutes (net observation time), all bees visiting leek umbels were noted.",NA
"David_Kleijn_Allium_porrum_Italy_2012","4TT","transects","Apis mellifera","species","honeybees",1,5,10,NA,"In each field, bees were surveyed in a single 5 m long transect between two crop rows. During a period of 10 minutes (net observation time), all bees visiting leek umbels were noted.",NA
"David_Kleijn_Allium_porrum_Italy_2012","Prod. Bedr.","transects","Apis mellifera","species","honeybees",1,5,10,NA,"In each field, bees were surveyed in a single 5 m long transect between two crop rows. During a period of 10 minutes (net observation time), all bees visiting leek umbels were noted.",NA
"David_Kleijn_Allium_porrum_Italy_2012","Prod. Bedr.","transects","Apis mellifera","species","honeybees",1,5,10,NA,"In each field, bees were surveyed in a single 5 m long transect between two crop rows. During a period of 10 minutes (net observation time), all bees visiting leek umbels were noted.",NA
"David_Kleijn_Allium_porrum_Italy_2012","Prod. Bedr.","transects","Apis mellifera","species","honeybees",1,5,10,NA,"In each field, bees were surveyed in a single 5 m long transect between two crop rows. During a period of 10 minutes (net observation time), all bees visiting leek umbels were noted.",NA
"David_Kleijn_Allium_porrum_Italy_2012","Prod. Bedr.","transects","Apis mellifera","species","honeybees",1,5,10,NA,"In each field, bees were surveyed in a single 5 m long transect between two crop rows. During a period of 10 minutes (net observation time), all bees visiting leek umbels were noted.",NA
"David_Kleijn_Allium_porrum_Italy_2012","Prod. Bedr.","transects","Apis mellifera","species","honeybees",1,5,10,NA,"In each field, bees were surveyed in a single 5 m long transect between two crop rows. During a period of 10 minutes (net observation time), all bees visiting leek umbels were noted.",NA
"David_Kleijn_Allium_porrum_Italy_2012","Prod. Bedr.","transects","Apis mellifera","species","honeybees",1,5,10,NA,"In each field, bees were surveyed in a single 5 m long transect between two crop rows. During a period of 10 minutes (net observation time), all bees visiting leek umbels were noted.",NA
"David_Kleijn_Allium_porrum_Italy_2012","Prod. Bedr.","transects","Apis mellifera","species","honeybees",1,5,10,NA,"In each field, bees were surveyed in a single 5 m long transect between two crop rows. During a period of 10 minutes (net observation time), all bees visiting leek umbels were noted.",NA
"David_Kleijn_Allium_porrum_Italy_2012","Prod. Bedr.","transects","Apis mellifera","species","honeybees",1,5,10,NA,"In each field, bees were surveyed in a single 5 m long transect between two crop rows. During a period of 10 minutes (net observation time), all bees visiting leek umbels were noted.",NA
"David_Kleijn_Allium_porrum_Italy_2012","Prod. Bedr.","transects","Apis mellifera","species","honeybees",1,5,10,NA,"In each field, bees were surveyed in a single 5 m long transect between two crop rows. During a period of 10 minutes (net observation time), all bees visiting leek umbels were noted.",NA
"David_Kleijn_Allium_porrum_Italy_2012","Prod. Bedr.","transects","Apis mellifera","species","honeybees",1,5,10,NA,"In each field, bees were surveyed in a single 5 m long transect between two crop rows. During a period of 10 minutes (net observation time), all bees visiting leek umbels were noted.",NA
"David_Kleijn_Allium_porrum_Italy_2012","Prod. Bedr.","transects","Apis mellifera","species","honeybees",1,5,10,NA,"In each field, bees were surveyed in a single 5 m long transect between two crop rows. During a period of 10 minutes (net observation time), all bees visiting leek umbels were noted.",NA
"David_Kleijn_Allium_porrum_Italy_2012","Prod. Bedr.","transects","Apis mellifera","species","honeybees",1,5,10,NA,"In each field, bees were surveyed in a single 5 m long transect between two crop rows. During a period of 10 minutes (net observation time), all bees visiting leek umbels were noted.",NA
"David_Kleijn_Allium_porrum_Italy_2012","Prod. Bedr.","transects","Apis mellifera","species","honeybees",1,5,10,NA,"In each field, bees were surveyed in a single 5 m long transect between two crop rows. During a period of 10 minutes (net observation time), all bees visiting leek umbels were noted.",NA
"David_Kleijn_Allium_porrum_Italy_2012","Prod. Bedr.","transects","Apis mellifera","species","honeybees",1,5,10,NA,"In each field, bees were surveyed in a single 5 m long transect between two crop rows. During a period of 10 minutes (net observation time), all bees visiting leek umbels were noted.",NA
"David_Kleijn_Allium_porrum_Italy_2012","Prod. Bedr.","transects","Apis mellifera","species","honeybees",1,5,10,NA,"In each field, bees were surveyed in a single 5 m long transect between two crop rows. During a period of 10 minutes (net observation time), all bees visiting leek umbels were noted.",NA
"David_Kleijn_Allium_porrum_Italy_2012","Prod. Bedr.","transects","Apis mellifera","species","honeybees",1,5,10,NA,"In each field, bees were surveyed in a single 5 m long transect between two crop rows. During a period of 10 minutes (net observation time), all bees visiting leek umbels were noted.",NA
"David_Kleijn_Allium_porrum_Italy_2012","Prod. Bedr.","transects","Apis mellifera","species","honeybees",1,5,10,NA,"In each field, bees were surveyed in a single 5 m long transect between two crop rows. During a period of 10 minutes (net observation time), all bees visiting leek umbels were noted.",NA
"David_Kleijn_Allium_porrum_Italy_2012","Prod. Bedr.","transects","Apis mellifera","species","honeybees",1,5,10,NA,"In each field, bees were surveyed in a single 5 m long transect between two crop rows. During a period of 10 minutes (net observation time), all bees visiting leek umbels were noted.",NA
"David_Kleijn_Allium_porrum_Italy_2012","Prod. Bedr.","transects","Apis mellifera","species","honeybees",1,5,10,NA,"In each field, bees were surveyed in a single 5 m long transect between two crop rows. During a period of 10 minutes (net observation time), all bees visiting leek umbels were noted.",NA
"David_Kleijn_Allium_porrum_Italy_2012","Prod. Bedr.","transects","Apis mellifera","species","honeybees",1,5,10,NA,"In each field, bees were surveyed in a single 5 m long transect between two crop rows. During a period of 10 minutes (net observation time), all bees visiting leek umbels were noted.",NA
"David_Kleijn_Allium_porrum_Italy_2012","2TT","transects","Bombus lucorum/terrestris","morphospecies","bumblebees",1,5,10,NA,"In each field, bees were surveyed in a single 5 m long transect between two crop rows. During a period of 10 minutes (net observation time), all bees visiting leek umbels were noted.",NA
"David_Kleijn_Allium_porrum_Italy_2012","2TT","transects","Bombus lapidarius","species","bumblebees",1,5,10,NA,"In each field, bees were surveyed in a single 5 m long transect between two crop rows. During a period of 10 minutes (net observation time), all bees visiting leek umbels were noted.",NA
"David_Kleijn_Allium_porrum_Italy_2012","2TT","transects","Bombus lapidarius","species","bumblebees",1,5,10,NA,"In each field, bees were surveyed in a single 5 m long transect between two crop rows. During a period of 10 minutes (net observation time), all bees visiting leek umbels were noted.",NA
"David_Kleijn_Allium_porrum_Italy_2012","2TT","transects","Bombus lapidarius","species","bumblebees",1,5,10,NA,"In each field, bees were surveyed in a single 5 m long transect between two crop rows. During a period of 10 minutes (net observation time), all bees visiting leek umbels were noted.",NA
"David_Kleijn_Allium_porrum_Italy_2012","2TT","transects","Bombus lapidarius","species","bumblebees",1,5,10,NA,"In each field, bees were surveyed in a single 5 m long transect between two crop rows. During a period of 10 minutes (net observation time), all bees visiting leek umbels were noted.",NA
"David_Kleijn_Allium_porrum_Italy_2012","2TT","transects","Bombus lapidarius","species","bumblebees",1,5,10,NA,"In each field, bees were surveyed in a single 5 m long transect between two crop rows. During a period of 10 minutes (net observation time), all bees visiting leek umbels were noted.",NA
"David_Kleijn_Allium_porrum_Italy_2012","2TT","transects","Bombus lapidarius","species","bumblebees",1,5,10,NA,"In each field, bees were surveyed in a single 5 m long transect between two crop rows. During a period of 10 minutes (net observation time), all bees visiting leek umbels were noted.",NA
"David_Kleijn_Allium_porrum_Italy_2012","2TT","transects","Bombus lapidarius","species","bumblebees",1,5,10,NA,"In each field, bees were surveyed in a single 5 m long transect between two crop rows. During a period of 10 minutes (net observation time), all bees visiting leek umbels were noted.",NA
"David_Kleijn_Allium_porrum_Italy_2012","2TT","transects","Bombus lapidarius","species","bumblebees",1,5,10,NA,"In each field, bees were surveyed in a single 5 m long transect between two crop rows. During a period of 10 minutes (net observation time), all bees visiting leek umbels were noted.",NA
"David_Kleijn_Allium_porrum_Italy_2012","2TT","transects","Bombus lapidarius","species","bumblebees",1,5,10,NA,"In each field, bees were surveyed in a single 5 m long transect between two crop rows. During a period of 10 minutes (net observation time), all bees visiting leek umbels were noted.",NA
"David_Kleijn_Allium_porrum_Italy_2012","2TT","transects","Bombus lapidarius","species","bumblebees",1,5,10,NA,"In each field, bees were surveyed in a single 5 m long transect between two crop rows. During a period of 10 minutes (net observation time), all bees visiting leek umbels were noted.",NA
"David_Kleijn_Allium_porrum_Italy_2012","2TT","transects","Bombus lapidarius","species","bumblebees",1,5,10,NA,"In each field, bees were surveyed in a single 5 m long transect between two crop rows. During a period of 10 minutes (net observation time), all bees visiting leek umbels were noted.",NA
"David_Kleijn_Allium_porrum_Italy_2012","2TT","transects","Bombus lapidarius","species","bumblebees",1,5,10,NA,"In each field, bees were surveyed in a single 5 m long transect between two crop rows. During a period of 10 minutes (net observation time), all bees visiting leek umbels were noted.",NA
"David_Kleijn_Allium_porrum_Italy_2012","2TT","transects","Bombus lapidarius","species","bumblebees",1,5,10,NA,"In each field, bees were surveyed in a single 5 m long transect between two crop rows. During a period of 10 minutes (net observation time), all bees visiting leek umbels were noted.",NA
"David_Kleijn_Allium_porrum_Italy_2012","2TT","transects","Bombus lapidarius","species","bumblebees",1,5,10,NA,"In each field, bees were surveyed in a single 5 m long transect between two crop rows. During a period of 10 minutes (net observation time), all bees visiting leek umbels were noted.",NA
"David_Kleijn_Allium_porrum_Italy_2012","2TT","transects","Bombus lapidarius","species","bumblebees",1,5,10,NA,"In each field, bees were surveyed in a single 5 m long transect between two crop rows. During a period of 10 minutes (net observation time), all bees visiting leek umbels were noted.",NA
"David_Kleijn_Allium_porrum_Italy_2012","2TT","transects","Bombus lapidarius","species","bumblebees",1,5,10,NA,"In each field, bees were surveyed in a single 5 m long transect between two crop rows. During a period of 10 minutes (net observation time), all bees visiting leek umbels were noted.",NA
"David_Kleijn_Allium_porrum_Italy_2012","2TT","transects","Bombus lapidarius","species","bumblebees",1,5,10,NA,"In each field, bees were surveyed in a single 5 m long transect between two crop rows. During a period of 10 minutes (net observation time), all bees visiting leek umbels were noted.",NA
"David_Kleijn_Allium_porrum_Italy_2012","1_Prod_Field","transects","Bombus lucorum/terrestris","morphospecies","bumblebees",1,5,10,NA,"In each field, bees were surveyed in a single 5 m long transect between two crop rows. During a period of 10 minutes (net observation time), all bees visiting leek umbels were noted.",NA
"David_Kleijn_Allium_porrum_Italy_2012","1_Prod_Field","transects","Bombus lucorum/terrestris","morphospecies","bumblebees",1,5,10,NA,"In each field, bees were surveyed in a single 5 m long transect between two crop rows. During a period of 10 minutes (net observation time), all bees visiting leek umbels were noted.",NA
"David_Kleijn_Allium_porrum_Italy_2012","1_Prod_Field","transects","Bombus lapidarius","species","bumblebees",1,5,10,NA,"In each field, bees were surveyed in a single 5 m long transect between two crop rows. During a period of 10 minutes (net observation time), all bees visiting leek umbels were noted.",NA
"David_Kleijn_Allium_porrum_Italy_2012","1_Prod_Field","transects","Bombus lapidarius","species","bumblebees",1,5,10,NA,"In each field, bees were surveyed in a single 5 m long transect between two crop rows. During a period of 10 minutes (net observation time), all bees visiting leek umbels were noted.",NA
"David_Kleijn_Allium_porrum_Italy_2012","1_Prod_Field","transects","Bombus lapidarius","species","bumblebees",1,5,10,NA,"In each field, bees were surveyed in a single 5 m long transect between two crop rows. During a period of 10 minutes (net observation time), all bees visiting leek umbels were noted.",NA
"David_Kleijn_Allium_porrum_Italy_2012","1_Prod_Field","transects","Hylaeus punctulatissimus","species","other_wild_bees",1,5,10,NA,"In each field, bees were surveyed in a single 5 m long transect between two crop rows. During a period of 10 minutes (net observation time), all bees visiting leek umbels were noted.",NA
"David_Kleijn_Allium_porrum_Italy_2012","1_Prod_Field","transects","Hylaeus punctulatissimus","species","other_wild_bees",1,5,10,NA,"In each field, bees were surveyed in a single 5 m long transect between two crop rows. During a period of 10 minutes (net observation time), all bees visiting leek umbels were noted.",NA
"David_Kleijn_Allium_porrum_Italy_2012","1_Prod_Field","transects","Hylaeus punctulatissimus","species","other_wild_bees",1,5,10,NA,"In each field, bees were surveyed in a single 5 m long transect between two crop rows. During a period of 10 minutes (net observation time), all bees visiting leek umbels were noted.",NA
"David_Kleijn_Allium_porrum_Italy_2012","1_Prod_Field","transects","Hylaeus punctulatissimus","species","other_wild_bees",1,5,10,NA,"In each field, bees were surveyed in a single 5 m long transect between two crop rows. During a period of 10 minutes (net observation time), all bees visiting leek umbels were noted.",NA
"David_Kleijn_Allium_porrum_Italy_2012","1_Prod_Field","transects","Hylaeus punctulatissimus","species","other_wild_bees",1,5,10,NA,"In each field, bees were surveyed in a single 5 m long transect between two crop rows. During a period of 10 minutes (net observation time), all bees visiting leek umbels were noted.",NA
"David_Kleijn_Allium_porrum_Italy_2012","1_Prod_Field","transects","Hylaeus punctulatissimus","species","other_wild_bees",1,5,10,NA,"In each field, bees were surveyed in a single 5 m long transect between two crop rows. During a period of 10 minutes (net observation time), all bees visiting leek umbels were noted.",NA
"David_Kleijn_Allium_porrum_Italy_2012","1_Prod_Field","transects","Hylaeus punctulatissimus","species","other_wild_bees",1,5,10,NA,"In each field, bees were surveyed in a single 5 m long transect between two crop rows. During a period of 10 minutes (net observation time), all bees visiting leek umbels were noted.",NA
"David_Kleijn_Allium_porrum_Italy_2012","1_Prod_Field","transects","Hylaeus punctulatissimus","species","other_wild_bees",1,5,10,NA,"In each field, bees were surveyed in a single 5 m long transect between two crop rows. During a period of 10 minutes (net observation time), all bees visiting leek umbels were noted.",NA
"David_Kleijn_Allium_porrum_Italy_2012","1_Prod_Field","transects","Hylaeus punctulatissimus","species","other_wild_bees",1,5,10,NA,"In each field, bees were surveyed in a single 5 m long transect between two crop rows. During a period of 10 minutes (net observation time), all bees visiting leek umbels were noted.",NA
"David_Kleijn_Allium_porrum_Italy_2012","1_Prod_Field","transects","Apis mellifera","species","honeybees",1,5,10,NA,"In each field, bees were surveyed in a single 5 m long transect between two crop rows. During a period of 10 minutes (net observation time), all bees visiting leek umbels were noted.",NA
"David_Kleijn_Allium_porrum_Italy_2012","1_Prod_Field","transects","Apis mellifera","species","honeybees",1,5,10,NA,"In each field, bees were surveyed in a single 5 m long transect between two crop rows. During a period of 10 minutes (net observation time), all bees visiting leek umbels were noted.",NA
"David_Kleijn_Allium_porrum_Italy_2012","1_Prod_Field","transects","Apis mellifera","species","honeybees",1,5,10,NA,"In each field, bees were surveyed in a single 5 m long transect between two crop rows. During a period of 10 minutes (net observation time), all bees visiting leek umbels were noted.",NA
"David_Kleijn_Allium_porrum_Italy_2012","1_Prod_Field","transects","Apis mellifera","species","honeybees",1,5,10,NA,"In each field, bees were surveyed in a single 5 m long transect between two crop rows. During a period of 10 minutes (net observation time), all bees visiting leek umbels were noted.",NA
"David_Kleijn_Allium_porrum_Italy_2012","1_Prod_Field","transects","Apis mellifera","species","honeybees",1,5,10,NA,"In each field, bees were surveyed in a single 5 m long transect between two crop rows. During a period of 10 minutes (net observation time), all bees visiting leek umbels were noted.",NA
"David_Kleijn_Allium_porrum_Italy_2012","1_Prod_Field","transects","Apis mellifera","species","honeybees",1,5,10,NA,"In each field, bees were surveyed in a single 5 m long transect between two crop rows. During a period of 10 minutes (net observation time), all bees visiting leek umbels were noted.",NA
"David_Kleijn_Allium_porrum_Italy_2012","1_Prod_Field","transects","Apis mellifera","species","honeybees",1,5,10,NA,"In each field, bees were surveyed in a single 5 m long transect between two crop rows. During a period of 10 minutes (net observation time), all bees visiting leek umbels were noted.",NA
"David_Kleijn_Allium_porrum_Italy_2012","1_Prod_Field","transects","Apis mellifera","species","honeybees",1,5,10,NA,"In each field, bees were surveyed in a single 5 m long transect between two crop rows. During a period of 10 minutes (net observation time), all bees visiting leek umbels were noted.",NA
"David_Kleijn_Allium_porrum_Italy_2012","1_Prod_Field","transects","Apis mellifera","species","honeybees",1,5,10,NA,"In each field, bees were surveyed in a single 5 m long transect between two crop rows. During a period of 10 minutes (net observation time), all bees visiting leek umbels were noted.",NA
"David_Kleijn_Allium_porrum_Italy_2012","1_Prod_Field","transects","Apis mellifera","species","honeybees",1,5,10,NA,"In each field, bees were surveyed in a single 5 m long transect between two crop rows. During a period of 10 minutes (net observation time), all bees visiting leek umbels were noted.",NA
"David_Kleijn_Allium_porrum_Italy_2012","8TT","transects","Bombus lucorum/terrestris","morphospecies","bumblebees",1,5,10,NA,"In each field, bees were surveyed in a single 5 m long transect between two crop rows. During a period of 10 minutes (net observation time), all bees visiting leek umbels were noted.",NA
"David_Kleijn_Allium_porrum_Italy_2012","8TT","transects","Bombus lucorum/terrestris","morphospecies","bumblebees",1,5,10,NA,"In each field, bees were surveyed in a single 5 m long transect between two crop rows. During a period of 10 minutes (net observation time), all bees visiting leek umbels were noted.",NA
"David_Kleijn_Allium_porrum_Italy_2012","8TT","transects","Bombus lucorum/terrestris","morphospecies","bumblebees",1,5,10,NA,"In each field, bees were surveyed in a single 5 m long transect between two crop rows. During a period of 10 minutes (net observation time), all bees visiting leek umbels were noted.",NA
"David_Kleijn_Allium_porrum_Italy_2012","8TT","transects","Bombus lapidarius","species","bumblebees",1,5,10,NA,"In each field, bees were surveyed in a single 5 m long transect between two crop rows. During a period of 10 minutes (net observation time), all bees visiting leek umbels were noted.",NA
"David_Kleijn_Allium_porrum_Italy_2012","8TT","transects","Bombus lapidarius","species","bumblebees",1,5,10,NA,"In each field, bees were surveyed in a single 5 m long transect between two crop rows. During a period of 10 minutes (net observation time), all bees visiting leek umbels were noted.",NA
"David_Kleijn_Allium_porrum_Italy_2012","8TT","transects","Bombus pascuorum","species","bumblebees",1,5,10,NA,"In each field, bees were surveyed in a single 5 m long transect between two crop rows. During a period of 10 minutes (net observation time), all bees visiting leek umbels were noted.",NA
"David_Kleijn_Allium_porrum_Italy_2012","8TT","transects","Hylaeus punctulatissimus","species","other_wild_bees",1,5,10,NA,"In each field, bees were surveyed in a single 5 m long transect between two crop rows. During a period of 10 minutes (net observation time), all bees visiting leek umbels were noted.",NA
"David_Kleijn_Allium_porrum_Italy_2012","8TT","transects","Hylaeus punctulatissimus","species","other_wild_bees",1,5,10,NA,"In each field, bees were surveyed in a single 5 m long transect between two crop rows. During a period of 10 minutes (net observation time), all bees visiting leek umbels were noted.",NA
"David_Kleijn_Allium_porrum_Italy_2012","8TT","transects","Ceratina cucurbitina","species","other_wild_bees",1,5,10,NA,"In each field, bees were surveyed in a single 5 m long transect between two crop rows. During a period of 10 minutes (net observation time), all bees visiting leek umbels were noted.",NA
"David_Kleijn_Allium_porrum_Italy_2012","8TT","transects","Ceratina cucurbitina","species","other_wild_bees",1,5,10,NA,"In each field, bees were surveyed in a single 5 m long transect between two crop rows. During a period of 10 minutes (net observation time), all bees visiting leek umbels were noted.",NA
"David_Kleijn_Allium_porrum_Italy_2012","8TT","transects","Lasioglossum malachurum","species","other_wild_bees",1,5,10,NA,"In each field, bees were surveyed in a single 5 m long transect between two crop rows. During a period of 10 minutes (net observation time), all bees visiting leek umbels were noted.",NA
"David_Kleijn_Allium_porrum_Italy_2012","1TT","transects","Apis mellifera","species","honeybees",1,5,10,NA,"In each field, bees were surveyed in a single 5 m long transect between two crop rows. During a period of 10 minutes (net observation time), all bees visiting leek umbels were noted.",NA
"David_Kleijn_Allium_porrum_Italy_2012","1TT","transects","Apis mellifera","species","honeybees",1,5,10,NA,"In each field, bees were surveyed in a single 5 m long transect between two crop rows. During a period of 10 minutes (net observation time), all bees visiting leek umbels were noted.",NA
"David_Kleijn_Allium_porrum_Italy_2012","1TT","transects","Apis mellifera","species","honeybees",1,5,10,NA,"In each field, bees were surveyed in a single 5 m long transect between two crop rows. During a period of 10 minutes (net observation time), all bees visiting leek umbels were noted.",NA
"David_Kleijn_Allium_porrum_Italy_2012","1TT","transects","Apis mellifera","species","honeybees",1,5,10,NA,"In each field, bees were surveyed in a single 5 m long transect between two crop rows. During a period of 10 minutes (net observation time), all bees visiting leek umbels were noted.",NA
"David_Kleijn_Allium_porrum_Italy_2012","1TT","transects","Hylaeus punctulatissimus","species","other_wild_bees",1,5,10,NA,"In each field, bees were surveyed in a single 5 m long transect between two crop rows. During a period of 10 minutes (net observation time), all bees visiting leek umbels were noted.",NA
"David_Kleijn_Allium_porrum_Italy_2012","1TT","transects","Hylaeus punctulatissimus","species","other_wild_bees",1,5,10,NA,"In each field, bees were surveyed in a single 5 m long transect between two crop rows. During a period of 10 minutes (net observation time), all bees visiting leek umbels were noted.",NA
"David_Kleijn_Allium_porrum_Italy_2012","1TT","transects","Hylaeus punctulatissimus","species","other_wild_bees",1,5,10,NA,"In each field, bees were surveyed in a single 5 m long transect between two crop rows. During a period of 10 minutes (net observation time), all bees visiting leek umbels were noted.",NA
"David_Kleijn_Allium_porrum_Italy_2012","1TT","transects","Hylaeus punctulatissimus","species","other_wild_bees",1,5,10,NA,"In each field, bees were surveyed in a single 5 m long transect between two crop rows. During a period of 10 minutes (net observation time), all bees visiting leek umbels were noted.",NA
"David_Kleijn_Allium_porrum_Italy_2012","1TT","transects","Hylaeus punctulatissimus","species","other_wild_bees",1,5,10,NA,"In each field, bees were surveyed in a single 5 m long transect between two crop rows. During a period of 10 minutes (net observation time), all bees visiting leek umbels were noted.",NA
"David_Kleijn_Allium_porrum_Italy_2012","1TT","transects","Hylaeus punctulatissimus","species","other_wild_bees",1,5,10,NA,"In each field, bees were surveyed in a single 5 m long transect between two crop rows. During a period of 10 minutes (net observation time), all bees visiting leek umbels were noted.",NA
"David_Kleijn_Allium_porrum_Italy_2012","1TT","transects","Hylaeus communis","species","other_wild_bees",1,5,10,NA,"In each field, bees were surveyed in a single 5 m long transect between two crop rows. During a period of 10 minutes (net observation time), all bees visiting leek umbels were noted.",NA
"David_Kleijn_Allium_porrum_Italy_2012","1TT","transects","Hylaeus communis","species","other_wild_bees",1,5,10,NA,"In each field, bees were surveyed in a single 5 m long transect between two crop rows. During a period of 10 minutes (net observation time), all bees visiting leek umbels were noted.",NA
"David_Kleijn_Allium_porrum_Italy_2012","1TT","transects","bruin borststuk zwarte kont","morphospecies",NA,1,5,10,NA,"In each field, bees were surveyed in a single 5 m long transect between two crop rows. During a period of 10 minutes (net observation time), all bees visiting leek umbels were noted.","brown breastpiece black ass?"
"David_Kleijn_Allium_porrum_Italy_2012","6TT","transects","Bombus lapidarius","species","bumblebees",1,5,10,NA,"In each field, bees were surveyed in a single 5 m long transect between two crop rows. During a period of 10 minutes (net observation time), all bees visiting leek umbels were noted.",NA
"David_Kleijn_Allium_porrum_Italy_2012","6TT","transects","Bombus lapidarius","species","bumblebees",1,5,10,NA,"In each field, bees were surveyed in a single 5 m long transect between two crop rows. During a period of 10 minutes (net observation time), all bees visiting leek umbels were noted.",NA
"David_Kleijn_Allium_porrum_Italy_2012","6TT","transects","Bombus lapidarius","species","bumblebees",1,5,10,NA,"In each field, bees were surveyed in a single 5 m long transect between two crop rows. During a period of 10 minutes (net observation time), all bees visiting leek umbels were noted.",NA
"David_Kleijn_Allium_porrum_Italy_2012","6TT","transects","Bombus lucorum/terrestris","morphospecies","bumblebees",1,5,10,NA,"In each field, bees were surveyed in a single 5 m long transect between two crop rows. During a period of 10 minutes (net observation time), all bees visiting leek umbels were noted.",NA
"David_Kleijn_Allium_porrum_Italy_2012","6TT","transects","Bombus lucorum/terrestris","morphospecies","bumblebees",1,5,10,NA,"In each field, bees were surveyed in a single 5 m long transect between two crop rows. During a period of 10 minutes (net observation time), all bees visiting leek umbels were noted.",NA
"David_Kleijn_Allium_porrum_Italy_2012","6TT","transects","Bombus lucorum/terrestris","morphospecies","bumblebees",1,5,10,NA,"In each field, bees were surveyed in a single 5 m long transect between two crop rows. During a period of 10 minutes (net observation time), all bees visiting leek umbels were noted.",NA
"David_Kleijn_Allium_porrum_Italy_2012","6TT","transects","Bombus lucorum/terrestris","morphospecies","bumblebees",1,5,10,NA,"In each field, bees were surveyed in a single 5 m long transect between two crop rows. During a period of 10 minutes (net observation time), all bees visiting leek umbels were noted.",NA
"David_Kleijn_Allium_porrum_Italy_2012","6TT","transects","Bombus lucorum/terrestris","morphospecies","bumblebees",1,5,10,NA,"In each field, bees were surveyed in a single 5 m long transect between two crop rows. During a period of 10 minutes (net observation time), all bees visiting leek umbels were noted.",NA
"David_Kleijn_Allium_porrum_Italy_2012","6TT","transects","Bombus lucorum/terrestris","morphospecies","bumblebees",1,5,10,NA,"In each field, bees were surveyed in a single 5 m long transect between two crop rows. During a period of 10 minutes (net observation time), all bees visiting leek umbels were noted.",NA
"David_Kleijn_Allium_porrum_Italy_2012","6TT","transects","Bombus lucorum/terrestris","morphospecies","bumblebees",1,5,10,NA,"In each field, bees were surveyed in a single 5 m long transect between two crop rows. During a period of 10 minutes (net observation time), all bees visiting leek umbels were noted.",NA
"David_Kleijn_Allium_porrum_Italy_2012","6TT","transects","Ceratina cucurbitina","species","other_wild_bees",1,5,10,NA,"In each field, bees were surveyed in a single 5 m long transect between two crop rows. During a period of 10 minutes (net observation time), all bees visiting leek umbels were noted.",NA
"David_Kleijn_Allium_porrum_Italy_2012","6TT","transects","Ceratina cucurbitina","species","other_wild_bees",1,5,10,NA,"In each field, bees were surveyed in a single 5 m long transect between two crop rows. During a period of 10 minutes (net observation time), all bees visiting leek umbels were noted.",NA
"David_Kleijn_Allium_porrum_Italy_2012","6TT","transects","Ceratina cucurbitina","species","other_wild_bees",1,5,10,NA,"In each field, bees were surveyed in a single 5 m long transect between two crop rows. During a period of 10 minutes (net observation time), all bees visiting leek umbels were noted.",NA
"David_Kleijn_Allium_porrum_Italy_2012","6TT","transects","Ceratina cucurbitina","species","other_wild_bees",1,5,10,NA,"In each field, bees were surveyed in a single 5 m long transect between two crop rows. During a period of 10 minutes (net observation time), all bees visiting leek umbels were noted.",NA
"David_Kleijn_Allium_porrum_Italy_2012","6TT","transects","Hylaeus punctulatissimus","species","other_wild_bees",1,5,10,NA,"In each field, bees were surveyed in a single 5 m long transect between two crop rows. During a period of 10 minutes (net observation time), all bees visiting leek umbels were noted.",NA
"David_Kleijn_Malus_domestica_Netherlands_2010","Zaltbommel","transects","Andrena_carantonica","species","other_wild_bees",1,NA,NA,NA,"Two surveys were conducted in several (25 m long) transects per field (mean number of transects +- SE: 8.5 +- 1.0 for apple and 9.7 +- 0.5 for pear), 10-min per transect",NA
"David_Kleijn_Malus_domestica_Netherlands_2010","Zaltbommel","transects","Andrena_carantonica","species","other_wild_bees",3,NA,NA,NA,"Two surveys were conducted in several (25 m long) transects per field (mean number of transects +- SE: 8.5 +- 1.0 for apple and 9.7 +- 0.5 for pear), 10-min per transect",NA
"David_Kleijn_Malus_domestica_Netherlands_2010","Hurwenen","transects","Andrena_carantonica","species","other_wild_bees",1,NA,NA,NA,"Two surveys were conducted in several (25 m long) transects per field (mean number of transects +- SE: 8.5 +- 1.0 for apple and 9.7 +- 0.5 for pear), 10-min per transect",NA
"David_Kleijn_Malus_domestica_Netherlands_2010","Heeselt","transects","Andrena_carantonica","species","other_wild_bees",4,NA,NA,NA,"Two surveys were conducted in several (25 m long) transects per field (mean number of transects +- SE: 8.5 +- 1.0 for apple and 9.7 +- 0.5 for pear), 10-min per transect",NA
"David_Kleijn_Malus_domestica_Netherlands_2010","Varik","transects","Andrena_carantonica","species","other_wild_bees",3,NA,NA,NA,"Two surveys were conducted in several (25 m long) transects per field (mean number of transects +- SE: 8.5 +- 1.0 for apple and 9.7 +- 0.5 for pear), 10-min per transect",NA
"David_Kleijn_Malus_domestica_Netherlands_2010","Varik","transects","Andrena_carantonica","species","other_wild_bees",3,NA,NA,NA,"Two surveys were conducted in several (25 m long) transects per field (mean number of transects +- SE: 8.5 +- 1.0 for apple and 9.7 +- 0.5 for pear), 10-min per transect",NA
"David_Kleijn_Malus_domestica_Netherlands_2010","Dreumel","transects","Andrena_carantonica","species","other_wild_bees",2,NA,NA,NA,"Two surveys were conducted in several (25 m long) transects per field (mean number of transects +- SE: 8.5 +- 1.0 for apple and 9.7 +- 0.5 for pear), 10-min per transect",NA
"David_Kleijn_Malus_domestica_Netherlands_2010","Dreumel","transects","Andrena_carantonica","species","other_wild_bees",1,NA,NA,NA,"Two surveys were conducted in several (25 m long) transects per field (mean number of transects +- SE: 8.5 +- 1.0 for apple and 9.7 +- 0.5 for pear), 10-min per transect",NA
"David_Kleijn_Malus_domestica_Netherlands_2010","Echteld","transects","Andrena_carantonica","species","other_wild_bees",1,NA,NA,NA,"Two surveys were conducted in several (25 m long) transects per field (mean number of transects +- SE: 8.5 +- 1.0 for apple and 9.7 +- 0.5 for pear), 10-min per transect",NA
"David_Kleijn_Malus_domestica_Netherlands_2010","Varik","transects","Andrena_chrysosceles","species","other_wild_bees",4,NA,NA,NA,"Two surveys were conducted in several (25 m long) transects per field (mean number of transects +- SE: 8.5 +- 1.0 for apple and 9.7 +- 0.5 for pear), 10-min per transect",NA
"David_Kleijn_Malus_domestica_Netherlands_2010","Dreumel","transects","Andrena_chrysosceles","species","other_wild_bees",1,NA,NA,NA,"Two surveys were conducted in several (25 m long) transects per field (mean number of transects +- SE: 8.5 +- 1.0 for apple and 9.7 +- 0.5 for pear), 10-min per transect",NA
"David_Kleijn_Malus_domestica_Netherlands_2010","Echteld","transects","Andrena_chrysosceles","species","other_wild_bees",2,NA,NA,NA,"Two surveys were conducted in several (25 m long) transects per field (mean number of transects +- SE: 8.5 +- 1.0 for apple and 9.7 +- 0.5 for pear), 10-min per transect",NA
"David_Kleijn_Malus_domestica_Netherlands_2010","Heeselt","transects","Andrena_cineraria","species","other_wild_bees",1,NA,NA,NA,"Two surveys were conducted in several (25 m long) transects per field (mean number of transects +- SE: 8.5 +- 1.0 for apple and 9.7 +- 0.5 for pear), 10-min per transect",NA
"David_Kleijn_Malus_domestica_Netherlands_2010","Varik","transects","Andrena_dorsata","species","other_wild_bees",1,NA,NA,NA,"Two surveys were conducted in several (25 m long) transects per field (mean number of transects +- SE: 8.5 +- 1.0 for apple and 9.7 +- 0.5 for pear), 10-min per transect",NA
"David_Kleijn_Malus_domestica_Netherlands_2010","Dreumel","transects","Andrena_dorsata","species","other_wild_bees",1,NA,NA,NA,"Two surveys were conducted in several (25 m long) transects per field (mean number of transects +- SE: 8.5 +- 1.0 for apple and 9.7 +- 0.5 for pear), 10-min per transect",NA
"David_Kleijn_Malus_domestica_Netherlands_2010","Zaltbommel","transects","Andrena_flavipes","species","other_wild_bees",9,NA,NA,NA,"Two surveys were conducted in several (25 m long) transects per field (mean number of transects +- SE: 8.5 +- 1.0 for apple and 9.7 +- 0.5 for pear), 10-min per transect",NA
"David_Kleijn_Malus_domestica_Netherlands_2010","Zaltbommel","transects","Andrena_flavipes","species","other_wild_bees",11,NA,NA,NA,"Two surveys were conducted in several (25 m long) transects per field (mean number of transects +- SE: 8.5 +- 1.0 for apple and 9.7 +- 0.5 for pear), 10-min per transect",NA
"David_Kleijn_Malus_domestica_Netherlands_2010","Hurwenen","transects","Andrena_flavipes","species","other_wild_bees",4,NA,NA,NA,"Two surveys were conducted in several (25 m long) transects per field (mean number of transects +- SE: 8.5 +- 1.0 for apple and 9.7 +- 0.5 for pear), 10-min per transect",NA
"David_Kleijn_Malus_domestica_Netherlands_2010","Hurwenen","transects","Andrena_flavipes","species","other_wild_bees",6,NA,NA,NA,"Two surveys were conducted in several (25 m long) transects per field (mean number of transects +- SE: 8.5 +- 1.0 for apple and 9.7 +- 0.5 for pear), 10-min per transect",NA
"David_Kleijn_Malus_domestica_Netherlands_2010","Heeselt","transects","Andrena_flavipes","species","other_wild_bees",2,NA,NA,NA,"Two surveys were conducted in several (25 m long) transects per field (mean number of transects +- SE: 8.5 +- 1.0 for apple and 9.7 +- 0.5 for pear), 10-min per transect",NA
"David_Kleijn_Malus_domestica_Netherlands_2010","Heeselt","transects","Andrena_flavipes","species","other_wild_bees",1,NA,NA,NA,"Two surveys were conducted in several (25 m long) transects per field (mean number of transects +- SE: 8.5 +- 1.0 for apple and 9.7 +- 0.5 for pear), 10-min per transect",NA
"David_Kleijn_Malus_domestica_Netherlands_2010","Dreumel","transects","Andrena_flavipes","species","other_wild_bees",2,NA,NA,NA,"Two surveys were conducted in several (25 m long) transects per field (mean number of transects +- SE: 8.5 +- 1.0 for apple and 9.7 +- 0.5 for pear), 10-min per transect",NA
"David_Kleijn_Malus_domestica_Netherlands_2010","Echteld","transects","Andrena_flavipes","species","other_wild_bees",1,NA,NA,NA,"Two surveys were conducted in several (25 m long) transects per field (mean number of transects +- SE: 8.5 +- 1.0 for apple and 9.7 +- 0.5 for pear), 10-min per transect",NA
"David_Kleijn_Malus_domestica_Netherlands_2010","Echteld","transects","Andrena_flavipes","species","other_wild_bees",1,NA,NA,NA,"Two surveys were conducted in several (25 m long) transects per field (mean number of transects +- SE: 8.5 +- 1.0 for apple and 9.7 +- 0.5 for pear), 10-min per transect",NA
"David_Kleijn_Malus_domestica_Netherlands_2010","Zaltbommel","transects","Andrena_fulva","species","other_wild_bees",1,NA,NA,NA,"Two surveys were conducted in several (25 m long) transects per field (mean number of transects +- SE: 8.5 +- 1.0 for apple and 9.7 +- 0.5 for pear), 10-min per transect",NA
"David_Kleijn_Malus_domestica_Netherlands_2010","Varik","transects","Andrena_fulva","species","other_wild_bees",2,NA,NA,NA,"Two surveys were conducted in several (25 m long) transects per field (mean number of transects +- SE: 8.5 +- 1.0 for apple and 9.7 +- 0.5 for pear), 10-min per transect",NA
"David_Kleijn_Malus_domestica_Netherlands_2010","Varik","transects","Andrena_fulva","species","other_wild_bees",2,NA,NA,NA,"Two surveys were conducted in several (25 m long) transects per field (mean number of transects +- SE: 8.5 +- 1.0 for apple and 9.7 +- 0.5 for pear), 10-min per transect",NA
"David_Kleijn_Malus_domestica_Netherlands_2010","Zaltbommel","transects","Andrena_haemorrhoa","species","other_wild_bees",1,NA,NA,NA,"Two surveys were conducted in several (25 m long) transects per field (mean number of transects +- SE: 8.5 +- 1.0 for apple and 9.7 +- 0.5 for pear), 10-min per transect",NA
"David_Kleijn_Malus_domestica_Netherlands_2010","Hurwenen","transects","Andrena_haemorrhoa","species","other_wild_bees",1,NA,NA,NA,"Two surveys were conducted in several (25 m long) transects per field (mean number of transects +- SE: 8.5 +- 1.0 for apple and 9.7 +- 0.5 for pear), 10-min per transect",NA
"David_Kleijn_Malus_domestica_Netherlands_2010","Heeselt","transects","Andrena_haemorrhoa","species","other_wild_bees",2,NA,NA,NA,"Two surveys were conducted in several (25 m long) transects per field (mean number of transects +- SE: 8.5 +- 1.0 for apple and 9.7 +- 0.5 for pear), 10-min per transect",NA
"David_Kleijn_Malus_domestica_Netherlands_2010","Heeselt","transects","Andrena_haemorrhoa","species","other_wild_bees",4,NA,NA,NA,"Two surveys were conducted in several (25 m long) transects per field (mean number of transects +- SE: 8.5 +- 1.0 for apple and 9.7 +- 0.5 for pear), 10-min per transect",NA
"David_Kleijn_Malus_domestica_Netherlands_2010","Varik","transects","Andrena_haemorrhoa","species","other_wild_bees",2,NA,NA,NA,"Two surveys were conducted in several (25 m long) transects per field (mean number of transects +- SE: 8.5 +- 1.0 for apple and 9.7 +- 0.5 for pear), 10-min per transect",NA
"David_Kleijn_Malus_domestica_Netherlands_2010","Varik","transects","Andrena_haemorrhoa","species","other_wild_bees",4,NA,NA,NA,"Two surveys were conducted in several (25 m long) transects per field (mean number of transects +- SE: 8.5 +- 1.0 for apple and 9.7 +- 0.5 for pear), 10-min per transect",NA
"David_Kleijn_Malus_domestica_Netherlands_2010","Dreumel","transects","Andrena_haemorrhoa","species","other_wild_bees",6,NA,NA,NA,"Two surveys were conducted in several (25 m long) transects per field (mean number of transects +- SE: 8.5 +- 1.0 for apple and 9.7 +- 0.5 for pear), 10-min per transect",NA
"David_Kleijn_Malus_domestica_Netherlands_2010","Dreumel","transects","Andrena_haemorrhoa","species","other_wild_bees",2,NA,NA,NA,"Two surveys were conducted in several (25 m long) transects per field (mean number of transects +- SE: 8.5 +- 1.0 for apple and 9.7 +- 0.5 for pear), 10-min per transect",NA
"David_Kleijn_Malus_domestica_Netherlands_2010","Echteld","transects","Andrena_haemorrhoa","species","other_wild_bees",2,NA,NA,NA,"Two surveys were conducted in several (25 m long) transects per field (mean number of transects +- SE: 8.5 +- 1.0 for apple and 9.7 +- 0.5 for pear), 10-min per transect",NA
"David_Kleijn_Malus_domestica_Netherlands_2010","Echteld","transects","Andrena_haemorrhoa","species","other_wild_bees",1,NA,NA,NA,"Two surveys were conducted in several (25 m long) transects per field (mean number of transects +- SE: 8.5 +- 1.0 for apple and 9.7 +- 0.5 for pear), 10-min per transect",NA
"David_Kleijn_Malus_domestica_Netherlands_2010","Varik","transects","Andrena_minutula_aggregate","species","other_wild_bees",1,NA,NA,NA,"Two surveys were conducted in several (25 m long) transects per field (mean number of transects +- SE: 8.5 +- 1.0 for apple and 9.7 +- 0.5 for pear), 10-min per transect",NA
"David_Kleijn_Malus_domestica_Netherlands_2010","Dreumel","transects","Andrena_minutula_aggregate","species","other_wild_bees",1,NA,NA,NA,"Two surveys were conducted in several (25 m long) transects per field (mean number of transects +- SE: 8.5 +- 1.0 for apple and 9.7 +- 0.5 for pear), 10-min per transect",NA
"David_Kleijn_Malus_domestica_Netherlands_2010","Heeselt","transects","Andrena_nitida","species","other_wild_bees",1,NA,NA,NA,"Two surveys were conducted in several (25 m long) transects per field (mean number of transects +- SE: 8.5 +- 1.0 for apple and 9.7 +- 0.5 for pear), 10-min per transect",NA
"David_Kleijn_Malus_domestica_Netherlands_2010","Zaltbommel","transects","Anthophora_plumipes","species","other_wild_bees",1,NA,NA,NA,"Two surveys were conducted in several (25 m long) transects per field (mean number of transects +- SE: 8.5 +- 1.0 for apple and 9.7 +- 0.5 for pear), 10-min per transect",NA
"David_Kleijn_Malus_domestica_Netherlands_2010","Zaltbommel","transects","Apis_mellifera","species","honeybees",2,NA,NA,NA,"Two surveys were conducted in several (25 m long) transects per field (mean number of transects +- SE: 8.5 +- 1.0 for apple and 9.7 +- 0.5 for pear), 10-min per transect",NA
"David_Kleijn_Malus_domestica_Netherlands_2010","Zaltbommel","transects","Apis_mellifera","species","honeybees",1,NA,NA,NA,"Two surveys were conducted in several (25 m long) transects per field (mean number of transects +- SE: 8.5 +- 1.0 for apple and 9.7 +- 0.5 for pear), 10-min per transect",NA
"David_Kleijn_Malus_domestica_Netherlands_2010","Hurwenen","transects","Apis_mellifera","species","honeybees",13,NA,NA,NA,"Two surveys were conducted in several (25 m long) transects per field (mean number of transects +- SE: 8.5 +- 1.0 for apple and 9.7 +- 0.5 for pear), 10-min per transect",NA
"David_Kleijn_Malus_domestica_Netherlands_2010","Hurwenen","transects","Apis_mellifera","species","honeybees",6,NA,NA,NA,"Two surveys were conducted in several (25 m long) transects per field (mean number of transects +- SE: 8.5 +- 1.0 for apple and 9.7 +- 0.5 for pear), 10-min per transect",NA
"David_Kleijn_Malus_domestica_Netherlands_2010","Heeselt","transects","Apis_mellifera","species","honeybees",74,NA,NA,NA,"Two surveys were conducted in several (25 m long) transects per field (mean number of transects +- SE: 8.5 +- 1.0 for apple and 9.7 +- 0.5 for pear), 10-min per transect",NA
"David_Kleijn_Malus_domestica_Netherlands_2010","Heeselt","transects","Apis_mellifera","species","honeybees",19,NA,NA,NA,"Two surveys were conducted in several (25 m long) transects per field (mean number of transects +- SE: 8.5 +- 1.0 for apple and 9.7 +- 0.5 for pear), 10-min per transect",NA
"David_Kleijn_Malus_domestica_Netherlands_2010","Varik","transects","Apis_mellifera","species","honeybees",29,NA,NA,NA,"Two surveys were conducted in several (25 m long) transects per field (mean number of transects +- SE: 8.5 +- 1.0 for apple and 9.7 +- 0.5 for pear), 10-min per transect",NA
"David_Kleijn_Malus_domestica_Netherlands_2010","Varik","transects","Apis_mellifera","species","honeybees",4,NA,NA,NA,"Two surveys were conducted in several (25 m long) transects per field (mean number of transects +- SE: 8.5 +- 1.0 for apple and 9.7 +- 0.5 for pear), 10-min per transect",NA
"David_Kleijn_Malus_domestica_Netherlands_2010","Dreumel","transects","Apis_mellifera","species","honeybees",5,NA,NA,NA,"Two surveys were conducted in several (25 m long) transects per field (mean number of transects +- SE: 8.5 +- 1.0 for apple and 9.7 +- 0.5 for pear), 10-min per transect",NA
"David_Kleijn_Malus_domestica_Netherlands_2010","Dreumel","transects","Apis_mellifera","species","honeybees",3,NA,NA,NA,"Two surveys were conducted in several (25 m long) transects per field (mean number of transects +- SE: 8.5 +- 1.0 for apple and 9.7 +- 0.5 for pear), 10-min per transect",NA
"David_Kleijn_Malus_domestica_Netherlands_2010","Echteld","transects","Apis_mellifera","species","honeybees",56,NA,NA,NA,"Two surveys were conducted in several (25 m long) transects per field (mean number of transects +- SE: 8.5 +- 1.0 for apple and 9.7 +- 0.5 for pear), 10-min per transect",NA
"David_Kleijn_Malus_domestica_Netherlands_2010","Echteld","transects","Apis_mellifera","species","honeybees",13,NA,NA,NA,"Two surveys were conducted in several (25 m long) transects per field (mean number of transects +- SE: 8.5 +- 1.0 for apple and 9.7 +- 0.5 for pear), 10-min per transect",NA
"David_Kleijn_Malus_domestica_Netherlands_2010","Zaltbommel","transects","Bombus_hortorum","species","bumblebees",1,NA,NA,NA,"Two surveys were conducted in several (25 m long) transects per field (mean number of transects +- SE: 8.5 +- 1.0 for apple and 9.7 +- 0.5 for pear), 10-min per transect",NA
"David_Kleijn_Malus_domestica_Netherlands_2010","Varik","transects","Bombus_hortorum","species","bumblebees",1,NA,NA,NA,"Two surveys were conducted in several (25 m long) transects per field (mean number of transects +- SE: 8.5 +- 1.0 for apple and 9.7 +- 0.5 for pear), 10-min per transect",NA
"David_Kleijn_Malus_domestica_Netherlands_2010","Hurwenen","transects","Bombus_hypnorum","species","bumblebees",1,NA,NA,NA,"Two surveys were conducted in several (25 m long) transects per field (mean number of transects +- SE: 8.5 +- 1.0 for apple and 9.7 +- 0.5 for pear), 10-min per transect",NA
"David_Kleijn_Malus_domestica_Netherlands_2010","Varik","transects","Bombus_hypnorum","species","bumblebees",2,NA,NA,NA,"Two surveys were conducted in several (25 m long) transects per field (mean number of transects +- SE: 8.5 +- 1.0 for apple and 9.7 +- 0.5 for pear), 10-min per transect",NA
"David_Kleijn_Malus_domestica_Netherlands_2010","Zaltbommel","transects","Bombus_lucorum_terrestris","species","bumblebees",2,NA,NA,NA,"Two surveys were conducted in several (25 m long) transects per field (mean number of transects +- SE: 8.5 +- 1.0 for apple and 9.7 +- 0.5 for pear), 10-min per transect",NA
"David_Kleijn_Malus_domestica_Netherlands_2010","Zaltbommel","transects","Bombus_lucorum_terrestris","species","bumblebees",2,NA,NA,NA,"Two surveys were conducted in several (25 m long) transects per field (mean number of transects +- SE: 8.5 +- 1.0 for apple and 9.7 +- 0.5 for pear), 10-min per transect",NA
"David_Kleijn_Malus_domestica_Netherlands_2010","Hurwenen","transects","Bombus_lucorum_terrestris","species","bumblebees",2,NA,NA,NA,"Two surveys were conducted in several (25 m long) transects per field (mean number of transects +- SE: 8.5 +- 1.0 for apple and 9.7 +- 0.5 for pear), 10-min per transect",NA
"David_Kleijn_Malus_domestica_Netherlands_2010","Hurwenen","transects","Bombus_lucorum_terrestris","species","bumblebees",3,NA,NA,NA,"Two surveys were conducted in several (25 m long) transects per field (mean number of transects +- SE: 8.5 +- 1.0 for apple and 9.7 +- 0.5 for pear), 10-min per transect",NA
"David_Kleijn_Malus_domestica_Netherlands_2010","Heeselt","transects","Bombus_lucorum_terrestris","species","bumblebees",2,NA,NA,NA,"Two surveys were conducted in several (25 m long) transects per field (mean number of transects +- SE: 8.5 +- 1.0 for apple and 9.7 +- 0.5 for pear), 10-min per transect",NA
"David_Kleijn_Malus_domestica_Netherlands_2010","Heeselt","transects","Bombus_lucorum_terrestris","species","bumblebees",3,NA,NA,NA,"Two surveys were conducted in several (25 m long) transects per field (mean number of transects +- SE: 8.5 +- 1.0 for apple and 9.7 +- 0.5 for pear), 10-min per transect",NA
"David_Kleijn_Malus_domestica_Netherlands_2010","Varik","transects","Bombus_lucorum_terrestris","species","bumblebees",5,NA,NA,NA,"Two surveys were conducted in several (25 m long) transects per field (mean number of transects +- SE: 8.5 +- 1.0 for apple and 9.7 +- 0.5 for pear), 10-min per transect",NA
"David_Kleijn_Malus_domestica_Netherlands_2010","Varik","transects","Bombus_lucorum_terrestris","species","bumblebees",2,NA,NA,NA,"Two surveys were conducted in several (25 m long) transects per field (mean number of transects +- SE: 8.5 +- 1.0 for apple and 9.7 +- 0.5 for pear), 10-min per transect",NA
"David_Kleijn_Malus_domestica_Netherlands_2010","Dreumel","transects","Bombus_lucorum_terrestris","species","bumblebees",3,NA,NA,NA,"Two surveys were conducted in several (25 m long) transects per field (mean number of transects +- SE: 8.5 +- 1.0 for apple and 9.7 +- 0.5 for pear), 10-min per transect",NA
"David_Kleijn_Malus_domestica_Netherlands_2010","Hurwenen","transects","Bombus_lapidarius","species","bumblebees",1,NA,NA,NA,"Two surveys were conducted in several (25 m long) transects per field (mean number of transects +- SE: 8.5 +- 1.0 for apple and 9.7 +- 0.5 for pear), 10-min per transect",NA
"David_Kleijn_Malus_domestica_Netherlands_2010","Heeselt","transects","Bombus_lapidarius","species","bumblebees",3,NA,NA,NA,"Two surveys were conducted in several (25 m long) transects per field (mean number of transects +- SE: 8.5 +- 1.0 for apple and 9.7 +- 0.5 for pear), 10-min per transect",NA
"David_Kleijn_Malus_domestica_Netherlands_2010","Heeselt","transects","Bombus_lapidarius","species","bumblebees",1,NA,NA,NA,"Two surveys were conducted in several (25 m long) transects per field (mean number of transects +- SE: 8.5 +- 1.0 for apple and 9.7 +- 0.5 for pear), 10-min per transect",NA
"David_Kleijn_Malus_domestica_Netherlands_2010","Varik","transects","Bombus_lapidarius","species","bumblebees",2,NA,NA,NA,"Two surveys were conducted in several (25 m long) transects per field (mean number of transects +- SE: 8.5 +- 1.0 for apple and 9.7 +- 0.5 for pear), 10-min per transect",NA
"David_Kleijn_Malus_domestica_Netherlands_2010","Dreumel","transects","Bombus_lapidarius","species","bumblebees",2,NA,NA,NA,"Two surveys were conducted in several (25 m long) transects per field (mean number of transects +- SE: 8.5 +- 1.0 for apple and 9.7 +- 0.5 for pear), 10-min per transect",NA
"David_Kleijn_Malus_domestica_Netherlands_2010","Echteld","transects","Bombus_lapidarius","species","bumblebees",1,NA,NA,NA,"Two surveys were conducted in several (25 m long) transects per field (mean number of transects +- SE: 8.5 +- 1.0 for apple and 9.7 +- 0.5 for pear), 10-min per transect",NA
"David_Kleijn_Malus_domestica_Netherlands_2010","Varik","transects","Bombus_pratorum","species","bumblebees",1,NA,NA,NA,"Two surveys were conducted in several (25 m long) transects per field (mean number of transects +- SE: 8.5 +- 1.0 for apple and 9.7 +- 0.5 for pear), 10-min per transect",NA
"David_Kleijn_Malus_domestica_Netherlands_2010","Varik","transects","Bombus_pratorum","species","bumblebees",1,NA,NA,NA,"Two surveys were conducted in several (25 m long) transects per field (mean number of transects +- SE: 8.5 +- 1.0 for apple and 9.7 +- 0.5 for pear), 10-min per transect",NA
"David_Kleijn_Malus_domestica_Netherlands_2010","Dreumel","transects","Bombus_pratorum","species","bumblebees",1,NA,NA,NA,"Two surveys were conducted in several (25 m long) transects per field (mean number of transects +- SE: 8.5 +- 1.0 for apple and 9.7 +- 0.5 for pear), 10-min per transect",NA
"David_Kleijn_Malus_domestica_Netherlands_2010","Hurwenen","transects","Bombus_pascuorum","species","bumblebees",1,NA,NA,NA,"Two surveys were conducted in several (25 m long) transects per field (mean number of transects +- SE: 8.5 +- 1.0 for apple and 9.7 +- 0.5 for pear), 10-min per transect",NA
"David_Kleijn_Malus_domestica_Netherlands_2010","Heeselt","transects","Bombus_pascuorum","species","bumblebees",1,NA,NA,NA,"Two surveys were conducted in several (25 m long) transects per field (mean number of transects +- SE: 8.5 +- 1.0 for apple and 9.7 +- 0.5 for pear), 10-min per transect",NA
"David_Kleijn_Malus_domestica_Netherlands_2010","Heeselt","transects","Bombus_pascuorum","species","bumblebees",5,NA,NA,NA,"Two surveys were conducted in several (25 m long) transects per field (mean number of transects +- SE: 8.5 +- 1.0 for apple and 9.7 +- 0.5 for pear), 10-min per transect",NA
"David_Kleijn_Malus_domestica_Netherlands_2010","Varik","transects","Bombus_pascuorum","species","bumblebees",2,NA,NA,NA,"Two surveys were conducted in several (25 m long) transects per field (mean number of transects +- SE: 8.5 +- 1.0 for apple and 9.7 +- 0.5 for pear), 10-min per transect",NA
"David_Kleijn_Malus_domestica_Netherlands_2010","Echteld","transects","Bombus_pascuorum","species","bumblebees",2,NA,NA,NA,"Two surveys were conducted in several (25 m long) transects per field (mean number of transects +- SE: 8.5 +- 1.0 for apple and 9.7 +- 0.5 for pear), 10-min per transect",NA
"David_Kleijn_Malus_domestica_Netherlands_2010","Echteld","transects","Bombus_pascuorum","species","bumblebees",2,NA,NA,NA,"Two surveys were conducted in several (25 m long) transects per field (mean number of transects +- SE: 8.5 +- 1.0 for apple and 9.7 +- 0.5 for pear), 10-min per transect",NA
"David_Kleijn_Malus_domestica_Netherlands_2010","Heeselt","transects","Cheilosia_bergenstammi","species","syrphids",1,NA,NA,NA,"Two surveys were conducted in several (25 m long) transects per field (mean number of transects +- SE: 8.5 +- 1.0 for apple and 9.7 +- 0.5 for pear), 10-min per transect",NA
"David_Kleijn_Malus_domestica_Netherlands_2010","Varik","transects","Cheilosia_pagana","species","syrphids",1,NA,NA,NA,"Two surveys were conducted in several (25 m long) transects per field (mean number of transects +- SE: 8.5 +- 1.0 for apple and 9.7 +- 0.5 for pear), 10-min per transect",NA
"David_Kleijn_Malus_domestica_Netherlands_2010","Varik","transects","Cheilosia_pagana","species","syrphids",1,NA,NA,NA,"Two surveys were conducted in several (25 m long) transects per field (mean number of transects +- SE: 8.5 +- 1.0 for apple and 9.7 +- 0.5 for pear), 10-min per transect",NA
"David_Kleijn_Malus_domestica_Netherlands_2010","Dreumel","transects","Episyrphus_balteatus","species","syrphids",2,NA,NA,NA,"Two surveys were conducted in several (25 m long) transects per field (mean number of transects +- SE: 8.5 +- 1.0 for apple and 9.7 +- 0.5 for pear), 10-min per transect",NA
"David_Kleijn_Malus_domestica_Netherlands_2010","Hurwenen","transects","Epistrophe_nitidicollis","species","syrphids",1,NA,NA,NA,"Two surveys were conducted in several (25 m long) transects per field (mean number of transects +- SE: 8.5 +- 1.0 for apple and 9.7 +- 0.5 for pear), 10-min per transect",NA
"David_Kleijn_Malus_domestica_Netherlands_2010","Varik","transects","Eristalis_arbustorum","species","syrphids",1,NA,NA,NA,"Two surveys were conducted in several (25 m long) transects per field (mean number of transects +- SE: 8.5 +- 1.0 for apple and 9.7 +- 0.5 for pear), 10-min per transect",NA
"David_Kleijn_Malus_domestica_Netherlands_2010","Echteld","transects","Eristalis_nemorum","species","syrphids",1,NA,NA,NA,"Two surveys were conducted in several (25 m long) transects per field (mean number of transects +- SE: 8.5 +- 1.0 for apple and 9.7 +- 0.5 for pear), 10-min per transect",NA
"David_Kleijn_Malus_domestica_Netherlands_2010","Echteld","transects","Eristalis_nemorum","species","syrphids",1,NA,NA,NA,"Two surveys were conducted in several (25 m long) transects per field (mean number of transects +- SE: 8.5 +- 1.0 for apple and 9.7 +- 0.5 for pear), 10-min per transect",NA
"David_Kleijn_Malus_domestica_Netherlands_2010","Varik","transects","Eristalis_pertinax","species","syrphids",1,NA,NA,NA,"Two surveys were conducted in several (25 m long) transects per field (mean number of transects +- SE: 8.5 +- 1.0 for apple and 9.7 +- 0.5 for pear), 10-min per transect",NA
"David_Kleijn_Malus_domestica_Netherlands_2010","Dreumel","transects","Eristalis_pertinax","species","syrphids",1,NA,NA,NA,"Two surveys were conducted in several (25 m long) transects per field (mean number of transects +- SE: 8.5 +- 1.0 for apple and 9.7 +- 0.5 for pear), 10-min per transect",NA
"David_Kleijn_Malus_domestica_Netherlands_2010","Heeselt","transects","Eristalis_pratorum","species","syrphids",1,NA,NA,NA,"Two surveys were conducted in several (25 m long) transects per field (mean number of transects +- SE: 8.5 +- 1.0 for apple and 9.7 +- 0.5 for pear), 10-min per transect",NA
"David_Kleijn_Malus_domestica_Netherlands_2010","Heeselt","transects","Eristalis_tenax","species","syrphids",1,NA,NA,NA,"Two surveys were conducted in several (25 m long) transects per field (mean number of transects +- SE: 8.5 +- 1.0 for apple and 9.7 +- 0.5 for pear), 10-min per transect",NA
"David_Kleijn_Malus_domestica_Netherlands_2010","Varik","transects","Eupeodes_corollae","species","syrphids",1,NA,NA,NA,"Two surveys were conducted in several (25 m long) transects per field (mean number of transects +- SE: 8.5 +- 1.0 for apple and 9.7 +- 0.5 for pear), 10-min per transect",NA
"David_Kleijn_Malus_domestica_Netherlands_2010","Zaltbommel","transects","Eupeodes_luniger","species","syrphids",1,NA,NA,NA,"Two surveys were conducted in several (25 m long) transects per field (mean number of transects +- SE: 8.5 +- 1.0 for apple and 9.7 +- 0.5 for pear), 10-min per transect",NA
"David_Kleijn_Malus_domestica_Netherlands_2010","Dreumel","transects","Halictus_tumulorum","species","other_wild_bees",1,NA,NA,NA,"Two surveys were conducted in several (25 m long) transects per field (mean number of transects +- SE: 8.5 +- 1.0 for apple and 9.7 +- 0.5 for pear), 10-min per transect",NA
"David_Kleijn_Malus_domestica_Netherlands_2010","Heeselt","transects","Lasioglossum_calceatum","species","other_wild_bees",1,NA,NA,NA,"Two surveys were conducted in several (25 m long) transects per field (mean number of transects +- SE: 8.5 +- 1.0 for apple and 9.7 +- 0.5 for pear), 10-min per transect",NA
"David_Kleijn_Malus_domestica_Netherlands_2010","Echteld","transects","Lasioglossum_calceatum","species","other_wild_bees",1,NA,NA,NA,"Two surveys were conducted in several (25 m long) transects per field (mean number of transects +- SE: 8.5 +- 1.0 for apple and 9.7 +- 0.5 for pear), 10-min per transect",NA
"David_Kleijn_Malus_domestica_Netherlands_2010","Zaltbommel","transects","Melanogaster_hirtella","species","syrphids",1,NA,NA,NA,"Two surveys were conducted in several (25 m long) transects per field (mean number of transects +- SE: 8.5 +- 1.0 for apple and 9.7 +- 0.5 for pear), 10-min per transect",NA
"David_Kleijn_Malus_domestica_Netherlands_2010","Dreumel","transects","Melanogaster_hirtella","species","syrphids",1,NA,NA,NA,"Two surveys were conducted in several (25 m long) transects per field (mean number of transects +- SE: 8.5 +- 1.0 for apple and 9.7 +- 0.5 for pear), 10-min per transect",NA
"David_Kleijn_Malus_domestica_Netherlands_2010","Hurwenen","transects","Melanostoma_mellinum","species","syrphids",1,NA,NA,NA,"Two surveys were conducted in several (25 m long) transects per field (mean number of transects +- SE: 8.5 +- 1.0 for apple and 9.7 +- 0.5 for pear), 10-min per transect",NA
"David_Kleijn_Malus_domestica_Netherlands_2010","Heeselt","transects","Melanostoma_mellinum","species","syrphids",2,NA,NA,NA,"Two surveys were conducted in several (25 m long) transects per field (mean number of transects +- SE: 8.5 +- 1.0 for apple and 9.7 +- 0.5 for pear), 10-min per transect",NA
"David_Kleijn_Malus_domestica_Netherlands_2010","Varik","transects","Melanostoma_mellinum","species","syrphids",4,NA,NA,NA,"Two surveys were conducted in several (25 m long) transects per field (mean number of transects +- SE: 8.5 +- 1.0 for apple and 9.7 +- 0.5 for pear), 10-min per transect",NA
"David_Kleijn_Malus_domestica_Netherlands_2010","Dreumel","transects","Melanostoma_mellinum","species","syrphids",1,NA,NA,NA,"Two surveys were conducted in several (25 m long) transects per field (mean number of transects +- SE: 8.5 +- 1.0 for apple and 9.7 +- 0.5 for pear), 10-min per transect",NA
"David_Kleijn_Malus_domestica_Netherlands_2010","Echteld","transects","Melanostoma_mellinum","species","syrphids",3,NA,NA,NA,"Two surveys were conducted in several (25 m long) transects per field (mean number of transects +- SE: 8.5 +- 1.0 for apple and 9.7 +- 0.5 for pear), 10-min per transect",NA
"David_Kleijn_Malus_domestica_Netherlands_2010","Echteld","transects","Melanostoma_mellinum","species","syrphids",1,NA,NA,NA,"Two surveys were conducted in several (25 m long) transects per field (mean number of transects +- SE: 8.5 +- 1.0 for apple and 9.7 +- 0.5 for pear), 10-min per transect",NA
"David_Kleijn_Malus_domestica_Netherlands_2010","Hurwenen","transects","Osmia_rufa","species","other_wild_bees",2,NA,NA,NA,"Two surveys were conducted in several (25 m long) transects per field (mean number of transects +- SE: 8.5 +- 1.0 for apple and 9.7 +- 0.5 for pear), 10-min per transect",NA
"David_Kleijn_Malus_domestica_Netherlands_2010","Heeselt","transects","Osmia_rufa","species","other_wild_bees",2,NA,NA,NA,"Two surveys were conducted in several (25 m long) transects per field (mean number of transects +- SE: 8.5 +- 1.0 for apple and 9.7 +- 0.5 for pear), 10-min per transect",NA
"David_Kleijn_Malus_domestica_Netherlands_2010","Varik","transects","Osmia_rufa","species","other_wild_bees",2,NA,NA,NA,"Two surveys were conducted in several (25 m long) transects per field (mean number of transects +- SE: 8.5 +- 1.0 for apple and 9.7 +- 0.5 for pear), 10-min per transect",NA
"David_Kleijn_Malus_domestica_Netherlands_2010","Dreumel","transects","Osmia_rufa","species","other_wild_bees",1,NA,NA,NA,"Two surveys were conducted in several (25 m long) transects per field (mean number of transects +- SE: 8.5 +- 1.0 for apple and 9.7 +- 0.5 for pear), 10-min per transect",NA
"David_Kleijn_Malus_domestica_Netherlands_2010","Hurwenen","transects","Pipizella_viduata","species","syrphids",3,NA,NA,NA,"Two surveys were conducted in several (25 m long) transects per field (mean number of transects +- SE: 8.5 +- 1.0 for apple and 9.7 +- 0.5 for pear), 10-min per transect",NA
"David_Kleijn_Malus_domestica_Netherlands_2010","Hurwenen","transects","Pipizella_viduata","species","syrphids",5,NA,NA,NA,"Two surveys were conducted in several (25 m long) transects per field (mean number of transects +- SE: 8.5 +- 1.0 for apple and 9.7 +- 0.5 for pear), 10-min per transect",NA
"David_Kleijn_Malus_domestica_Netherlands_2010","Dreumel","transects","Pipizella_viduata","species","syrphids",1,NA,NA,NA,"Two surveys were conducted in several (25 m long) transects per field (mean number of transects +- SE: 8.5 +- 1.0 for apple and 9.7 +- 0.5 for pear), 10-min per transect",NA
"David_Kleijn_Malus_domestica_Netherlands_2010","Echteld","transects","Pipizella_viduata","species","syrphids",1,NA,NA,NA,"Two surveys were conducted in several (25 m long) transects per field (mean number of transects +- SE: 8.5 +- 1.0 for apple and 9.7 +- 0.5 for pear), 10-min per transect",NA
"David_Kleijn_Malus_domestica_Netherlands_2010","Heeselt","transects","Platycheirus_albimanus","species","syrphids",1,NA,NA,NA,"Two surveys were conducted in several (25 m long) transects per field (mean number of transects +- SE: 8.5 +- 1.0 for apple and 9.7 +- 0.5 for pear), 10-min per transect",NA
"David_Kleijn_Malus_domestica_Netherlands_2010","Dreumel","transects","Rhingia_campestris","species","syrphids",1,NA,NA,NA,"Two surveys were conducted in several (25 m long) transects per field (mean number of transects +- SE: 8.5 +- 1.0 for apple and 9.7 +- 0.5 for pear), 10-min per transect",NA
"David_Kleijn_Malus_domestica_Netherlands_2010","Dreumel","transects","Rhingia_campestris","species","syrphids",1,NA,NA,NA,"Two surveys were conducted in several (25 m long) transects per field (mean number of transects +- SE: 8.5 +- 1.0 for apple and 9.7 +- 0.5 for pear), 10-min per transect",NA
"David_Kleijn_Malus_domestica_Netherlands_2010","Echteld","transects","Rhingia_campestris","species","syrphids",4,NA,NA,NA,"Two surveys were conducted in several (25 m long) transects per field (mean number of transects +- SE: 8.5 +- 1.0 for apple and 9.7 +- 0.5 for pear), 10-min per transect",NA
"David_Kleijn_Malus_domestica_Netherlands_2010","Echteld","transects","Rhingia_campestris","species","syrphids",1,NA,NA,NA,"Two surveys were conducted in several (25 m long) transects per field (mean number of transects +- SE: 8.5 +- 1.0 for apple and 9.7 +- 0.5 for pear), 10-min per transect",NA
"David_Kleijn_Malus_domestica_Netherlands_2010","Echteld","transects","Sphaerophoria_interrupta","species","syrphids",1,NA,NA,NA,"Two surveys were conducted in several (25 m long) transects per field (mean number of transects +- SE: 8.5 +- 1.0 for apple and 9.7 +- 0.5 for pear), 10-min per transect",NA
"David_Kleijn_Malus_domestica_Netherlands_2010","Echteld","transects","Syrphus_vitripennis","species","syrphids",1,NA,NA,NA,"Two surveys were conducted in several (25 m long) transects per field (mean number of transects +- SE: 8.5 +- 1.0 for apple and 9.7 +- 0.5 for pear), 10-min per transect",NA
"David_Kleijn_Malus_domestica_Netherlands_2010","Varik","transects","Xylota_segnis","species","syrphids",1,NA,NA,NA,"Two surveys were conducted in several (25 m long) transects per field (mean number of transects +- SE: 8.5 +- 1.0 for apple and 9.7 +- 0.5 for pear), 10-min per transect",NA
"David_Kleijn_Malus_domestica_Netherlands_2011","Zaltbommel","transects","Andrena_carantonica","species","other_wild_bees",3,NA,NA,NA,"Two surveys were conducted in several (25 m long) transects per field (mean number of transects +- SE: 8.5 +- 1.0 for apple and 9.7 +- 0.5 for pear), 10-min per transect",NA
"David_Kleijn_Malus_domestica_Netherlands_2011","Zaltbommel","transects","Andrena_carantonica","species","other_wild_bees",3,NA,NA,NA,"Two surveys were conducted in several (25 m long) transects per field (mean number of transects +- SE: 8.5 +- 1.0 for apple and 9.7 +- 0.5 for pear), 10-min per transect",NA
"David_Kleijn_Malus_domestica_Netherlands_2011","Hurwenen","transects","Andrena_carantonica","species","other_wild_bees",1,NA,NA,NA,"Two surveys were conducted in several (25 m long) transects per field (mean number of transects +- SE: 8.5 +- 1.0 for apple and 9.7 +- 0.5 for pear), 10-min per transect",NA
"David_Kleijn_Malus_domestica_Netherlands_2011","Heeselt","transects","Andrena_carantonica","species","other_wild_bees",1,NA,NA,NA,"Two surveys were conducted in several (25 m long) transects per field (mean number of transects +- SE: 8.5 +- 1.0 for apple and 9.7 +- 0.5 for pear), 10-min per transect",NA
"David_Kleijn_Malus_domestica_Netherlands_2011","Varik","transects","Andrena_carantonica","species","other_wild_bees",1,NA,NA,NA,"Two surveys were conducted in several (25 m long) transects per field (mean number of transects +- SE: 8.5 +- 1.0 for apple and 9.7 +- 0.5 for pear), 10-min per transect",NA
"David_Kleijn_Malus_domestica_Netherlands_2011","Dreumel","transects","Andrena_carantonica","species","other_wild_bees",4,NA,NA,NA,"Two surveys were conducted in several (25 m long) transects per field (mean number of transects +- SE: 8.5 +- 1.0 for apple and 9.7 +- 0.5 for pear), 10-min per transect",NA
"David_Kleijn_Malus_domestica_Netherlands_2011","Dreumel","transects","Andrena_carantonica","species","other_wild_bees",1,NA,NA,NA,"Two surveys were conducted in several (25 m long) transects per field (mean number of transects +- SE: 8.5 +- 1.0 for apple and 9.7 +- 0.5 for pear), 10-min per transect",NA
"David_Kleijn_Malus_domestica_Netherlands_2011","Echteld","transects","Andrena_carantonica","species","other_wild_bees",3,NA,NA,NA,"Two surveys were conducted in several (25 m long) transects per field (mean number of transects +- SE: 8.5 +- 1.0 for apple and 9.7 +- 0.5 for pear), 10-min per transect",NA
"David_Kleijn_Malus_domestica_Netherlands_2011","Zaltbommel","transects","Andrena_chrysosceles","species","other_wild_bees",4,NA,NA,NA,"Two surveys were conducted in several (25 m long) transects per field (mean number of transects +- SE: 8.5 +- 1.0 for apple and 9.7 +- 0.5 for pear), 10-min per transect",NA
"David_Kleijn_Malus_domestica_Netherlands_2011","Hurwenen","transects","Andrena_chrysosceles","species","other_wild_bees",1,NA,NA,NA,"Two surveys were conducted in several (25 m long) transects per field (mean number of transects +- SE: 8.5 +- 1.0 for apple and 9.7 +- 0.5 for pear), 10-min per transect",NA
"David_Kleijn_Malus_domestica_Netherlands_2011","Heeselt","transects","Andrena_chrysosceles","species","other_wild_bees",5,NA,NA,NA,"Two surveys were conducted in several (25 m long) transects per field (mean number of transects +- SE: 8.5 +- 1.0 for apple and 9.7 +- 0.5 for pear), 10-min per transect",NA
"David_Kleijn_Malus_domestica_Netherlands_2011","Dreumel","transects","Andrena_chrysosceles","species","other_wild_bees",5,NA,NA,NA,"Two surveys were conducted in several (25 m long) transects per field (mean number of transects +- SE: 8.5 +- 1.0 for apple and 9.7 +- 0.5 for pear), 10-min per transect",NA
"David_Kleijn_Malus_domestica_Netherlands_2011","Dreumel","transects","Andrena_chrysosceles","species","other_wild_bees",2,NA,NA,NA,"Two surveys were conducted in several (25 m long) transects per field (mean number of transects +- SE: 8.5 +- 1.0 for apple and 9.7 +- 0.5 for pear), 10-min per transect",NA
"David_Kleijn_Malus_domestica_Netherlands_2011","Hurwenen","transects","Andrena_cineraria","species","other_wild_bees",1,NA,NA,NA,"Two surveys were conducted in several (25 m long) transects per field (mean number of transects +- SE: 8.5 +- 1.0 for apple and 9.7 +- 0.5 for pear), 10-min per transect",NA
"David_Kleijn_Malus_domestica_Netherlands_2011","Varik","transects","Andrena_dorsata","species","other_wild_bees",3,NA,NA,NA,"Two surveys were conducted in several (25 m long) transects per field (mean number of transects +- SE: 8.5 +- 1.0 for apple and 9.7 +- 0.5 for pear), 10-min per transect",NA
"David_Kleijn_Malus_domestica_Netherlands_2011","Dreumel","transects","Andrena_dorsata","species","other_wild_bees",2,NA,NA,NA,"Two surveys were conducted in several (25 m long) transects per field (mean number of transects +- SE: 8.5 +- 1.0 for apple and 9.7 +- 0.5 for pear), 10-min per transect",NA
"David_Kleijn_Malus_domestica_Netherlands_2011","Zaltbommel","transects","Andrena_flavipes","species","other_wild_bees",13,NA,NA,NA,"Two surveys were conducted in several (25 m long) transects per field (mean number of transects +- SE: 8.5 +- 1.0 for apple and 9.7 +- 0.5 for pear), 10-min per transect",NA
"David_Kleijn_Malus_domestica_Netherlands_2011","Zaltbommel","transects","Andrena_flavipes","species","other_wild_bees",16,NA,NA,NA,"Two surveys were conducted in several (25 m long) transects per field (mean number of transects +- SE: 8.5 +- 1.0 for apple and 9.7 +- 0.5 for pear), 10-min per transect",NA
"David_Kleijn_Malus_domestica_Netherlands_2011","Hurwenen","transects","Andrena_flavipes","species","other_wild_bees",1,NA,NA,NA,"Two surveys were conducted in several (25 m long) transects per field (mean number of transects +- SE: 8.5 +- 1.0 for apple and 9.7 +- 0.5 for pear), 10-min per transect",NA
"David_Kleijn_Malus_domestica_Netherlands_2011","Hurwenen","transects","Andrena_flavipes","species","other_wild_bees",8,NA,NA,NA,"Two surveys were conducted in several (25 m long) transects per field (mean number of transects +- SE: 8.5 +- 1.0 for apple and 9.7 +- 0.5 for pear), 10-min per transect",NA
"David_Kleijn_Malus_domestica_Netherlands_2011","Heeselt","transects","Andrena_flavipes","species","other_wild_bees",2,NA,NA,NA,"Two surveys were conducted in several (25 m long) transects per field (mean number of transects +- SE: 8.5 +- 1.0 for apple and 9.7 +- 0.5 for pear), 10-min per transect",NA
"David_Kleijn_Malus_domestica_Netherlands_2011","Heeselt","transects","Andrena_flavipes","species","other_wild_bees",6,NA,NA,NA,"Two surveys were conducted in several (25 m long) transects per field (mean number of transects +- SE: 8.5 +- 1.0 for apple and 9.7 +- 0.5 for pear), 10-min per transect",NA
"David_Kleijn_Malus_domestica_Netherlands_2011","Varik","transects","Andrena_flavipes","species","other_wild_bees",2,NA,NA,NA,"Two surveys were conducted in several (25 m long) transects per field (mean number of transects +- SE: 8.5 +- 1.0 for apple and 9.7 +- 0.5 for pear), 10-min per transect",NA
"David_Kleijn_Malus_domestica_Netherlands_2011","Varik","transects","Andrena_flavipes","species","other_wild_bees",4,NA,NA,NA,"Two surveys were conducted in several (25 m long) transects per field (mean number of transects +- SE: 8.5 +- 1.0 for apple and 9.7 +- 0.5 for pear), 10-min per transect",NA
"David_Kleijn_Malus_domestica_Netherlands_2011","Dreumel","transects","Andrena_flavipes","species","other_wild_bees",2,NA,NA,NA,"Two surveys were conducted in several (25 m long) transects per field (mean number of transects +- SE: 8.5 +- 1.0 for apple and 9.7 +- 0.5 for pear), 10-min per transect",NA
"David_Kleijn_Malus_domestica_Netherlands_2011","Dreumel","transects","Andrena_flavipes","species","other_wild_bees",6,NA,NA,NA,"Two surveys were conducted in several (25 m long) transects per field (mean number of transects +- SE: 8.5 +- 1.0 for apple and 9.7 +- 0.5 for pear), 10-min per transect",NA
"David_Kleijn_Malus_domestica_Netherlands_2011","Echteld","transects","Andrena_flavipes","species","other_wild_bees",2,NA,NA,NA,"Two surveys were conducted in several (25 m long) transects per field (mean number of transects +- SE: 8.5 +- 1.0 for apple and 9.7 +- 0.5 for pear), 10-min per transect",NA
"David_Kleijn_Malus_domestica_Netherlands_2011","Echteld","transects","Andrena_flavipes","species","other_wild_bees",1,NA,NA,NA,"Two surveys were conducted in several (25 m long) transects per field (mean number of transects +- SE: 8.5 +- 1.0 for apple and 9.7 +- 0.5 for pear), 10-min per transect",NA
"David_Kleijn_Malus_domestica_Netherlands_2011","Zaltbommel","transects","Andrena_fulva","species","other_wild_bees",2,NA,NA,NA,"Two surveys were conducted in several (25 m long) transects per field (mean number of transects +- SE: 8.5 +- 1.0 for apple and 9.7 +- 0.5 for pear), 10-min per transect",NA
"David_Kleijn_Malus_domestica_Netherlands_2011","Zaltbommel","transects","Andrena_fulva","species","other_wild_bees",4,NA,NA,NA,"Two surveys were conducted in several (25 m long) transects per field (mean number of transects +- SE: 8.5 +- 1.0 for apple and 9.7 +- 0.5 for pear), 10-min per transect",NA
"David_Kleijn_Malus_domestica_Netherlands_2011","Hurwenen","transects","Andrena_fulva","species","other_wild_bees",1,NA,NA,NA,"Two surveys were conducted in several (25 m long) transects per field (mean number of transects +- SE: 8.5 +- 1.0 for apple and 9.7 +- 0.5 for pear), 10-min per transect",NA
"David_Kleijn_Malus_domestica_Netherlands_2011","Varik","transects","Andrena_fulva","species","other_wild_bees",2,NA,NA,NA,"Two surveys were conducted in several (25 m long) transects per field (mean number of transects +- SE: 8.5 +- 1.0 for apple and 9.7 +- 0.5 for pear), 10-min per transect",NA
"David_Kleijn_Malus_domestica_Netherlands_2011","Dreumel","transects","Andrena_fulva","species","other_wild_bees",1,NA,NA,NA,"Two surveys were conducted in several (25 m long) transects per field (mean number of transects +- SE: 8.5 +- 1.0 for apple and 9.7 +- 0.5 for pear), 10-min per transect",NA
"David_Kleijn_Malus_domestica_Netherlands_2011","Hurwenen","transects","Andrena_haemorrhoa","species","other_wild_bees",1,NA,NA,NA,"Two surveys were conducted in several (25 m long) transects per field (mean number of transects +- SE: 8.5 +- 1.0 for apple and 9.7 +- 0.5 for pear), 10-min per transect",NA
"David_Kleijn_Malus_domestica_Netherlands_2011","Hurwenen","transects","Andrena_haemorrhoa","species","other_wild_bees",2,NA,NA,NA,"Two surveys were conducted in several (25 m long) transects per field (mean number of transects +- SE: 8.5 +- 1.0 for apple and 9.7 +- 0.5 for pear), 10-min per transect",NA
"David_Kleijn_Malus_domestica_Netherlands_2011","Heeselt","transects","Andrena_haemorrhoa","species","other_wild_bees",6,NA,NA,NA,"Two surveys were conducted in several (25 m long) transects per field (mean number of transects +- SE: 8.5 +- 1.0 for apple and 9.7 +- 0.5 for pear), 10-min per transect",NA
"David_Kleijn_Malus_domestica_Netherlands_2011","Varik","transects","Andrena_haemorrhoa","species","other_wild_bees",3,NA,NA,NA,"Two surveys were conducted in several (25 m long) transects per field (mean number of transects +- SE: 8.5 +- 1.0 for apple and 9.7 +- 0.5 for pear), 10-min per transect",NA
"David_Kleijn_Malus_domestica_Netherlands_2011","Dreumel","transects","Andrena_haemorrhoa","species","other_wild_bees",5,NA,NA,NA,"Two surveys were conducted in several (25 m long) transects per field (mean number of transects +- SE: 8.5 +- 1.0 for apple and 9.7 +- 0.5 for pear), 10-min per transect",NA
"David_Kleijn_Malus_domestica_Netherlands_2011","Dreumel","transects","Andrena_haemorrhoa","species","other_wild_bees",2,NA,NA,NA,"Two surveys were conducted in several (25 m long) transects per field (mean number of transects +- SE: 8.5 +- 1.0 for apple and 9.7 +- 0.5 for pear), 10-min per transect",NA
"David_Kleijn_Malus_domestica_Netherlands_2011","Echteld","transects","Andrena_haemorrhoa","species","other_wild_bees",3,NA,NA,NA,"Two surveys were conducted in several (25 m long) transects per field (mean number of transects +- SE: 8.5 +- 1.0 for apple and 9.7 +- 0.5 for pear), 10-min per transect",NA
"David_Kleijn_Malus_domestica_Netherlands_2011","Echteld","transects","Andrena_haemorrhoa","species","other_wild_bees",1,NA,NA,NA,"Two surveys were conducted in several (25 m long) transects per field (mean number of transects +- SE: 8.5 +- 1.0 for apple and 9.7 +- 0.5 for pear), 10-min per transect",NA
"David_Kleijn_Malus_domestica_Netherlands_2011","Heeselt","transects","Andrena_minutula_aggregate","species","other_wild_bees",1,NA,NA,NA,"Two surveys were conducted in several (25 m long) transects per field (mean number of transects +- SE: 8.5 +- 1.0 for apple and 9.7 +- 0.5 for pear), 10-min per transect",NA
"David_Kleijn_Malus_domestica_Netherlands_2011","Hurwenen","transects","Andrena_nitida","species","other_wild_bees",1,NA,NA,NA,"Two surveys were conducted in several (25 m long) transects per field (mean number of transects +- SE: 8.5 +- 1.0 for apple and 9.7 +- 0.5 for pear), 10-min per transect",NA
"David_Kleijn_Malus_domestica_Netherlands_2011","Echteld","transects","Anthophora_plumipes","species","other_wild_bees",1,NA,NA,NA,"Two surveys were conducted in several (25 m long) transects per field (mean number of transects +- SE: 8.5 +- 1.0 for apple and 9.7 +- 0.5 for pear), 10-min per transect",NA
"David_Kleijn_Malus_domestica_Netherlands_2011","Zaltbommel","transects","Andrena_sp.","genus","other_wild_bees",1,NA,NA,NA,"Two surveys were conducted in several (25 m long) transects per field (mean number of transects +- SE: 8.5 +- 1.0 for apple and 9.7 +- 0.5 for pear), 10-min per transect",NA
"David_Kleijn_Malus_domestica_Netherlands_2011","Hurwenen","transects","Andrena_sp.","genus","other_wild_bees",2,NA,NA,NA,"Two surveys were conducted in several (25 m long) transects per field (mean number of transects +- SE: 8.5 +- 1.0 for apple and 9.7 +- 0.5 for pear), 10-min per transect",NA
"David_Kleijn_Malus_domestica_Netherlands_2011","Zaltbommel","transects","Apis_mellifera","species","honeybees",17,NA,NA,NA,"Two surveys were conducted in several (25 m long) transects per field (mean number of transects +- SE: 8.5 +- 1.0 for apple and 9.7 +- 0.5 for pear), 10-min per transect",NA
"David_Kleijn_Malus_domestica_Netherlands_2011","Zaltbommel","transects","Apis_mellifera","species","honeybees",25,NA,NA,NA,"Two surveys were conducted in several (25 m long) transects per field (mean number of transects +- SE: 8.5 +- 1.0 for apple and 9.7 +- 0.5 for pear), 10-min per transect",NA
"David_Kleijn_Malus_domestica_Netherlands_2011","Hurwenen","transects","Apis_mellifera","species","honeybees",103,NA,NA,NA,"Two surveys were conducted in several (25 m long) transects per field (mean number of transects +- SE: 8.5 +- 1.0 for apple and 9.7 +- 0.5 for pear), 10-min per transect",NA
"David_Kleijn_Malus_domestica_Netherlands_2011","Hurwenen","transects","Apis_mellifera","species","honeybees",197,NA,NA,NA,"Two surveys were conducted in several (25 m long) transects per field (mean number of transects +- SE: 8.5 +- 1.0 for apple and 9.7 +- 0.5 for pear), 10-min per transect",NA
"David_Kleijn_Malus_domestica_Netherlands_2011","Heeselt","transects","Apis_mellifera","species","honeybees",46,NA,NA,NA,"Two surveys were conducted in several (25 m long) transects per field (mean number of transects +- SE: 8.5 +- 1.0 for apple and 9.7 +- 0.5 for pear), 10-min per transect",NA
"David_Kleijn_Malus_domestica_Netherlands_2011","Heeselt","transects","Apis_mellifera","species","honeybees",77,NA,NA,NA,"Two surveys were conducted in several (25 m long) transects per field (mean number of transects +- SE: 8.5 +- 1.0 for apple and 9.7 +- 0.5 for pear), 10-min per transect",NA
"David_Kleijn_Malus_domestica_Netherlands_2011","Varik","transects","Apis_mellifera","species","honeybees",57,NA,NA,NA,"Two surveys were conducted in several (25 m long) transects per field (mean number of transects +- SE: 8.5 +- 1.0 for apple and 9.7 +- 0.5 for pear), 10-min per transect",NA
"David_Kleijn_Malus_domestica_Netherlands_2011","Varik","transects","Apis_mellifera","species","honeybees",71,NA,NA,NA,"Two surveys were conducted in several (25 m long) transects per field (mean number of transects +- SE: 8.5 +- 1.0 for apple and 9.7 +- 0.5 for pear), 10-min per transect",NA
"David_Kleijn_Malus_domestica_Netherlands_2011","Dreumel","transects","Apis_mellifera","species","honeybees",142,NA,NA,NA,"Two surveys were conducted in several (25 m long) transects per field (mean number of transects +- SE: 8.5 +- 1.0 for apple and 9.7 +- 0.5 for pear), 10-min per transect",NA
"David_Kleijn_Malus_domestica_Netherlands_2011","Dreumel","transects","Apis_mellifera","species","honeybees",93,NA,NA,NA,"Two surveys were conducted in several (25 m long) transects per field (mean number of transects +- SE: 8.5 +- 1.0 for apple and 9.7 +- 0.5 for pear), 10-min per transect",NA
"David_Kleijn_Malus_domestica_Netherlands_2011","Echteld","transects","Apis_mellifera","species","honeybees",85,NA,NA,NA,"Two surveys were conducted in several (25 m long) transects per field (mean number of transects +- SE: 8.5 +- 1.0 for apple and 9.7 +- 0.5 for pear), 10-min per transect",NA
"David_Kleijn_Malus_domestica_Netherlands_2011","Echteld","transects","Apis_mellifera","species","honeybees",41,NA,NA,NA,"Two surveys were conducted in several (25 m long) transects per field (mean number of transects +- SE: 8.5 +- 1.0 for apple and 9.7 +- 0.5 for pear), 10-min per transect",NA
"David_Kleijn_Malus_domestica_Netherlands_2011","Zaltbommel","transects","Bombus_hortorum","species","bumblebees",5,NA,NA,NA,"Two surveys were conducted in several (25 m long) transects per field (mean number of transects +- SE: 8.5 +- 1.0 for apple and 9.7 +- 0.5 for pear), 10-min per transect",NA
"David_Kleijn_Malus_domestica_Netherlands_2011","Heeselt","transects","Bombus_hortorum","species","bumblebees",1,NA,NA,NA,"Two surveys were conducted in several (25 m long) transects per field (mean number of transects +- SE: 8.5 +- 1.0 for apple and 9.7 +- 0.5 for pear), 10-min per transect",NA
"David_Kleijn_Malus_domestica_Netherlands_2011","Heeselt","transects","Bombus_hortorum","species","bumblebees",1,NA,NA,NA,"Two surveys were conducted in several (25 m long) transects per field (mean number of transects +- SE: 8.5 +- 1.0 for apple and 9.7 +- 0.5 for pear), 10-min per transect",NA
"David_Kleijn_Malus_domestica_Netherlands_2011","Zaltbommel","transects","Bombus_hypnorum","species","bumblebees",1,NA,NA,NA,"Two surveys were conducted in several (25 m long) transects per field (mean number of transects +- SE: 8.5 +- 1.0 for apple and 9.7 +- 0.5 for pear), 10-min per transect",NA
"David_Kleijn_Malus_domestica_Netherlands_2011","Zaltbommel","transects","Bombus_hypnorum","species","bumblebees",1,NA,NA,NA,"Two surveys were conducted in several (25 m long) transects per field (mean number of transects +- SE: 8.5 +- 1.0 for apple and 9.7 +- 0.5 for pear), 10-min per transect",NA
"David_Kleijn_Malus_domestica_Netherlands_2011","Hurwenen","transects","Bombus_hypnorum","species","bumblebees",1,NA,NA,NA,"Two surveys were conducted in several (25 m long) transects per field (mean number of transects +- SE: 8.5 +- 1.0 for apple and 9.7 +- 0.5 for pear), 10-min per transect",NA
"David_Kleijn_Malus_domestica_Netherlands_2011","Varik","transects","Bombus_hypnorum","species","bumblebees",1,NA,NA,NA,"Two surveys were conducted in several (25 m long) transects per field (mean number of transects +- SE: 8.5 +- 1.0 for apple and 9.7 +- 0.5 for pear), 10-min per transect",NA
"David_Kleijn_Malus_domestica_Netherlands_2011","Dreumel","transects","Bombus_hypnorum","species","bumblebees",1,NA,NA,NA,"Two surveys were conducted in several (25 m long) transects per field (mean number of transects +- SE: 8.5 +- 1.0 for apple and 9.7 +- 0.5 for pear), 10-min per transect",NA
"David_Kleijn_Malus_domestica_Netherlands_2011","Zaltbommel","transects","Bombus_lucorum_terrestris","species","bumblebees",9,NA,NA,NA,"Two surveys were conducted in several (25 m long) transects per field (mean number of transects +- SE: 8.5 +- 1.0 for apple and 9.7 +- 0.5 for pear), 10-min per transect",NA
"David_Kleijn_Malus_domestica_Netherlands_2011","Zaltbommel","transects","Bombus_lucorum_terrestris","species","bumblebees",6,NA,NA,NA,"Two surveys were conducted in several (25 m long) transects per field (mean number of transects +- SE: 8.5 +- 1.0 for apple and 9.7 +- 0.5 for pear), 10-min per transect",NA
"David_Kleijn_Malus_domestica_Netherlands_2011","Hurwenen","transects","Bombus_lucorum_terrestris","species","bumblebees",7,NA,NA,NA,"Two surveys were conducted in several (25 m long) transects per field (mean number of transects +- SE: 8.5 +- 1.0 for apple and 9.7 +- 0.5 for pear), 10-min per transect",NA
"David_Kleijn_Malus_domestica_Netherlands_2011","Hurwenen","transects","Bombus_lucorum_terrestris","species","bumblebees",4,NA,NA,NA,"Two surveys were conducted in several (25 m long) transects per field (mean number of transects +- SE: 8.5 +- 1.0 for apple and 9.7 +- 0.5 for pear), 10-min per transect",NA
"David_Kleijn_Malus_domestica_Netherlands_2011","Heeselt","transects","Bombus_lucorum_terrestris","species","bumblebees",1,NA,NA,NA,"Two surveys were conducted in several (25 m long) transects per field (mean number of transects +- SE: 8.5 +- 1.0 for apple and 9.7 +- 0.5 for pear), 10-min per transect",NA
"David_Kleijn_Malus_domestica_Netherlands_2011","Varik","transects","Bombus_lucorum_terrestris","species","bumblebees",5,NA,NA,NA,"Two surveys were conducted in several (25 m long) transects per field (mean number of transects +- SE: 8.5 +- 1.0 for apple and 9.7 +- 0.5 for pear), 10-min per transect",NA
"David_Kleijn_Malus_domestica_Netherlands_2011","Dreumel","transects","Bombus_lucorum_terrestris","species","bumblebees",4,NA,NA,NA,"Two surveys were conducted in several (25 m long) transects per field (mean number of transects +- SE: 8.5 +- 1.0 for apple and 9.7 +- 0.5 for pear), 10-min per transect",NA
"David_Kleijn_Malus_domestica_Netherlands_2011","Dreumel","transects","Bombus_lucorum_terrestris","species","bumblebees",4,NA,NA,NA,"Two surveys were conducted in several (25 m long) transects per field (mean number of transects +- SE: 8.5 +- 1.0 for apple and 9.7 +- 0.5 for pear), 10-min per transect",NA
"David_Kleijn_Malus_domestica_Netherlands_2011","Echteld","transects","Bombus_lucorum_terrestris","species","bumblebees",2,NA,NA,NA,"Two surveys were conducted in several (25 m long) transects per field (mean number of transects +- SE: 8.5 +- 1.0 for apple and 9.7 +- 0.5 for pear), 10-min per transect",NA
"David_Kleijn_Malus_domestica_Netherlands_2011","Echteld","transects","Bombus_lucorum_terrestris","species","bumblebees",1,NA,NA,NA,"Two surveys were conducted in several (25 m long) transects per field (mean number of transects +- SE: 8.5 +- 1.0 for apple and 9.7 +- 0.5 for pear), 10-min per transect",NA
"David_Kleijn_Malus_domestica_Netherlands_2011","Zaltbommel","transects","Bombus_lapidarius","species","bumblebees",11,NA,NA,NA,"Two surveys were conducted in several (25 m long) transects per field (mean number of transects +- SE: 8.5 +- 1.0 for apple and 9.7 +- 0.5 for pear), 10-min per transect",NA
"David_Kleijn_Malus_domestica_Netherlands_2011","Zaltbommel","transects","Bombus_lapidarius","species","bumblebees",5,NA,NA,NA,"Two surveys were conducted in several (25 m long) transects per field (mean number of transects +- SE: 8.5 +- 1.0 for apple and 9.7 +- 0.5 for pear), 10-min per transect",NA
"David_Kleijn_Malus_domestica_Netherlands_2011","Hurwenen","transects","Bombus_lapidarius","species","bumblebees",6,NA,NA,NA,"Two surveys were conducted in several (25 m long) transects per field (mean number of transects +- SE: 8.5 +- 1.0 for apple and 9.7 +- 0.5 for pear), 10-min per transect",NA
"David_Kleijn_Malus_domestica_Netherlands_2011","Hurwenen","transects","Bombus_lapidarius","species","bumblebees",7,NA,NA,NA,"Two surveys were conducted in several (25 m long) transects per field (mean number of transects +- SE: 8.5 +- 1.0 for apple and 9.7 +- 0.5 for pear), 10-min per transect",NA
"David_Kleijn_Malus_domestica_Netherlands_2011","Heeselt","transects","Bombus_lapidarius","species","bumblebees",5,NA,NA,NA,"Two surveys were conducted in several (25 m long) transects per field (mean number of transects +- SE: 8.5 +- 1.0 for apple and 9.7 +- 0.5 for pear), 10-min per transect",NA
"David_Kleijn_Malus_domestica_Netherlands_2011","Heeselt","transects","Bombus_lapidarius","species","bumblebees",3,NA,NA,NA,"Two surveys were conducted in several (25 m long) transects per field (mean number of transects +- SE: 8.5 +- 1.0 for apple and 9.7 +- 0.5 for pear), 10-min per transect",NA
"David_Kleijn_Malus_domestica_Netherlands_2011","Varik","transects","Bombus_lapidarius","species","bumblebees",2,NA,NA,NA,"Two surveys were conducted in several (25 m long) transects per field (mean number of transects +- SE: 8.5 +- 1.0 for apple and 9.7 +- 0.5 for pear), 10-min per transect",NA
"David_Kleijn_Malus_domestica_Netherlands_2011","Varik","transects","Bombus_lapidarius","species","bumblebees",1,NA,NA,NA,"Two surveys were conducted in several (25 m long) transects per field (mean number of transects +- SE: 8.5 +- 1.0 for apple and 9.7 +- 0.5 for pear), 10-min per transect",NA
"David_Kleijn_Malus_domestica_Netherlands_2011","Dreumel","transects","Bombus_lapidarius","species","bumblebees",6,NA,NA,NA,"Two surveys were conducted in several (25 m long) transects per field (mean number of transects +- SE: 8.5 +- 1.0 for apple and 9.7 +- 0.5 for pear), 10-min per transect",NA
"David_Kleijn_Malus_domestica_Netherlands_2011","Dreumel","transects","Bombus_lapidarius","species","bumblebees",1,NA,NA,NA,"Two surveys were conducted in several (25 m long) transects per field (mean number of transects +- SE: 8.5 +- 1.0 for apple and 9.7 +- 0.5 for pear), 10-min per transect",NA
"David_Kleijn_Malus_domestica_Netherlands_2011","Echteld","transects","Bombus_lapidarius","species","bumblebees",2,NA,NA,NA,"Two surveys were conducted in several (25 m long) transects per field (mean number of transects +- SE: 8.5 +- 1.0 for apple and 9.7 +- 0.5 for pear), 10-min per transect",NA
"David_Kleijn_Malus_domestica_Netherlands_2011","Echteld","transects","Bombus_lapidarius","species","bumblebees",1,NA,NA,NA,"Two surveys were conducted in several (25 m long) transects per field (mean number of transects +- SE: 8.5 +- 1.0 for apple and 9.7 +- 0.5 for pear), 10-min per transect",NA
"David_Kleijn_Malus_domestica_Netherlands_2011","Varik","transects","Bombus_jonellus","species","bumblebees",1,NA,NA,NA,"Two surveys were conducted in several (25 m long) transects per field (mean number of transects +- SE: 8.5 +- 1.0 for apple and 9.7 +- 0.5 for pear), 10-min per transect",NA
"David_Kleijn_Malus_domestica_Netherlands_2011","Dreumel","transects","Bombus_jonellus","species","bumblebees",1,NA,NA,NA,"Two surveys were conducted in several (25 m long) transects per field (mean number of transects +- SE: 8.5 +- 1.0 for apple and 9.7 +- 0.5 for pear), 10-min per transect",NA
"David_Kleijn_Malus_domestica_Netherlands_2011","Heeselt","transects","Bombus_pratorum","species","bumblebees",1,NA,NA,NA,"Two surveys were conducted in several (25 m long) transects per field (mean number of transects +- SE: 8.5 +- 1.0 for apple and 9.7 +- 0.5 for pear), 10-min per transect",NA
"David_Kleijn_Malus_domestica_Netherlands_2011","Varik","transects","Bombus_pratorum","species","bumblebees",2,NA,NA,NA,"Two surveys were conducted in several (25 m long) transects per field (mean number of transects +- SE: 8.5 +- 1.0 for apple and 9.7 +- 0.5 for pear), 10-min per transect",NA
"David_Kleijn_Malus_domestica_Netherlands_2011","Dreumel","transects","Bombus_pratorum","species","bumblebees",1,NA,NA,NA,"Two surveys were conducted in several (25 m long) transects per field (mean number of transects +- SE: 8.5 +- 1.0 for apple and 9.7 +- 0.5 for pear), 10-min per transect",NA
"David_Kleijn_Malus_domestica_Netherlands_2011","Zaltbommel","transects","Bombus_pascuorum","species","bumblebees",3,NA,NA,NA,"Two surveys were conducted in several (25 m long) transects per field (mean number of transects +- SE: 8.5 +- 1.0 for apple and 9.7 +- 0.5 for pear), 10-min per transect",NA
"David_Kleijn_Malus_domestica_Netherlands_2011","Zaltbommel","transects","Bombus_pascuorum","species","bumblebees",6,NA,NA,NA,"Two surveys were conducted in several (25 m long) transects per field (mean number of transects +- SE: 8.5 +- 1.0 for apple and 9.7 +- 0.5 for pear), 10-min per transect",NA
"David_Kleijn_Malus_domestica_Netherlands_2011","Hurwenen","transects","Bombus_pascuorum","species","bumblebees",2,NA,NA,NA,"Two surveys were conducted in several (25 m long) transects per field (mean number of transects +- SE: 8.5 +- 1.0 for apple and 9.7 +- 0.5 for pear), 10-min per transect",NA
"David_Kleijn_Malus_domestica_Netherlands_2011","Hurwenen","transects","Bombus_pascuorum","species","bumblebees",1,NA,NA,NA,"Two surveys were conducted in several (25 m long) transects per field (mean number of transects +- SE: 8.5 +- 1.0 for apple and 9.7 +- 0.5 for pear), 10-min per transect",NA
"David_Kleijn_Malus_domestica_Netherlands_2011","Heeselt","transects","Bombus_pascuorum","species","bumblebees",3,NA,NA,NA,"Two surveys were conducted in several (25 m long) transects per field (mean number of transects +- SE: 8.5 +- 1.0 for apple and 9.7 +- 0.5 for pear), 10-min per transect",NA
"David_Kleijn_Malus_domestica_Netherlands_2011","Dreumel","transects","Bombus_pascuorum","species","bumblebees",2,NA,NA,NA,"Two surveys were conducted in several (25 m long) transects per field (mean number of transects +- SE: 8.5 +- 1.0 for apple and 9.7 +- 0.5 for pear), 10-min per transect",NA
"David_Kleijn_Malus_domestica_Netherlands_2011","Dreumel","transects","Bombus_pascuorum","species","bumblebees",1,NA,NA,NA,"Two surveys were conducted in several (25 m long) transects per field (mean number of transects +- SE: 8.5 +- 1.0 for apple and 9.7 +- 0.5 for pear), 10-min per transect",NA
"David_Kleijn_Malus_domestica_Netherlands_2011","Echteld","transects","Bombus_pascuorum","species","bumblebees",1,NA,NA,NA,"Two surveys were conducted in several (25 m long) transects per field (mean number of transects +- SE: 8.5 +- 1.0 for apple and 9.7 +- 0.5 for pear), 10-min per transect",NA
"David_Kleijn_Malus_domestica_Netherlands_2011","Zaltbommel","transects","Bombus_terrestris","species","bumblebees",2,NA,NA,NA,"Two surveys were conducted in several (25 m long) transects per field (mean number of transects +- SE: 8.5 +- 1.0 for apple and 9.7 +- 0.5 for pear), 10-min per transect",NA
"David_Kleijn_Malus_domestica_Netherlands_2011","Zaltbommel","transects","Bombus_terrestris","species","bumblebees",2,NA,NA,NA,"Two surveys were conducted in several (25 m long) transects per field (mean number of transects +- SE: 8.5 +- 1.0 for apple and 9.7 +- 0.5 for pear), 10-min per transect",NA
"David_Kleijn_Malus_domestica_Netherlands_2011","Hurwenen","transects","Bombus_terrestris","species","bumblebees",9,NA,NA,NA,"Two surveys were conducted in several (25 m long) transects per field (mean number of transects +- SE: 8.5 +- 1.0 for apple and 9.7 +- 0.5 for pear), 10-min per transect",NA
"David_Kleijn_Malus_domestica_Netherlands_2011","Hurwenen","transects","Bombus_terrestris","species","bumblebees",5,NA,NA,NA,"Two surveys were conducted in several (25 m long) transects per field (mean number of transects +- SE: 8.5 +- 1.0 for apple and 9.7 +- 0.5 for pear), 10-min per transect",NA
"David_Kleijn_Malus_domestica_Netherlands_2011","Echteld","transects","Cheilosia_pagana","species","syrphids",1,NA,NA,NA,"Two surveys were conducted in several (25 m long) transects per field (mean number of transects +- SE: 8.5 +- 1.0 for apple and 9.7 +- 0.5 for pear), 10-min per transect",NA
"David_Kleijn_Malus_domestica_Netherlands_2011","Hurwenen","transects","Cheilosia_vernalis","species","syrphids",1,NA,NA,NA,"Two surveys were conducted in several (25 m long) transects per field (mean number of transects +- SE: 8.5 +- 1.0 for apple and 9.7 +- 0.5 for pear), 10-min per transect",NA
"David_Kleijn_Malus_domestica_Netherlands_2011","Zaltbommel","transects","Eristalis_arbustorum","species","syrphids",1,NA,NA,NA,"Two surveys were conducted in several (25 m long) transects per field (mean number of transects +- SE: 8.5 +- 1.0 for apple and 9.7 +- 0.5 for pear), 10-min per transect",NA
"David_Kleijn_Malus_domestica_Netherlands_2011","Zaltbommel","transects","Eristalis_arbustorum","species","syrphids",2,NA,NA,NA,"Two surveys were conducted in several (25 m long) transects per field (mean number of transects +- SE: 8.5 +- 1.0 for apple and 9.7 +- 0.5 for pear), 10-min per transect",NA
"David_Kleijn_Malus_domestica_Netherlands_2011","Hurwenen","transects","Eristalis_arbustorum","species","syrphids",1,NA,NA,NA,"Two surveys were conducted in several (25 m long) transects per field (mean number of transects +- SE: 8.5 +- 1.0 for apple and 9.7 +- 0.5 for pear), 10-min per transect",NA
"David_Kleijn_Malus_domestica_Netherlands_2011","Heeselt","transects","Eristalis_arbustorum","species","syrphids",2,NA,NA,NA,"Two surveys were conducted in several (25 m long) transects per field (mean number of transects +- SE: 8.5 +- 1.0 for apple and 9.7 +- 0.5 for pear), 10-min per transect",NA
"David_Kleijn_Malus_domestica_Netherlands_2011","Heeselt","transects","Eristalis_arbustorum","species","syrphids",2,NA,NA,NA,"Two surveys were conducted in several (25 m long) transects per field (mean number of transects +- SE: 8.5 +- 1.0 for apple and 9.7 +- 0.5 for pear), 10-min per transect",NA
"David_Kleijn_Malus_domestica_Netherlands_2011","Varik","transects","Eristalis_arbustorum","species","syrphids",1,NA,NA,NA,"Two surveys were conducted in several (25 m long) transects per field (mean number of transects +- SE: 8.5 +- 1.0 for apple and 9.7 +- 0.5 for pear), 10-min per transect",NA
"David_Kleijn_Malus_domestica_Netherlands_2011","Varik","transects","Eristalis_arbustorum","species","syrphids",2,NA,NA,NA,"Two surveys were conducted in several (25 m long) transects per field (mean number of transects +- SE: 8.5 +- 1.0 for apple and 9.7 +- 0.5 for pear), 10-min per transect",NA
"David_Kleijn_Malus_domestica_Netherlands_2011","Dreumel","transects","Eristalis_arbustorum","species","syrphids",3,NA,NA,NA,"Two surveys were conducted in several (25 m long) transects per field (mean number of transects +- SE: 8.5 +- 1.0 for apple and 9.7 +- 0.5 for pear), 10-min per transect",NA
"David_Kleijn_Malus_domestica_Netherlands_2011","Dreumel","transects","Eristalis_arbustorum","species","syrphids",1,NA,NA,NA,"Two surveys were conducted in several (25 m long) transects per field (mean number of transects +- SE: 8.5 +- 1.0 for apple and 9.7 +- 0.5 for pear), 10-min per transect",NA
"David_Kleijn_Malus_domestica_Netherlands_2011","Heeselt","transects","Eristalis_horticola","species","syrphids",1,NA,NA,NA,"Two surveys were conducted in several (25 m long) transects per field (mean number of transects +- SE: 8.5 +- 1.0 for apple and 9.7 +- 0.5 for pear), 10-min per transect",NA
"David_Kleijn_Malus_domestica_Netherlands_2011","Varik","transects","Eristalis_horticola","species","syrphids",1,NA,NA,NA,"Two surveys were conducted in several (25 m long) transects per field (mean number of transects +- SE: 8.5 +- 1.0 for apple and 9.7 +- 0.5 for pear), 10-min per transect",NA
"David_Kleijn_Malus_domestica_Netherlands_2011","Heeselt","transects","Eristalis_nemorum","species","syrphids",2,NA,NA,NA,"Two surveys were conducted in several (25 m long) transects per field (mean number of transects +- SE: 8.5 +- 1.0 for apple and 9.7 +- 0.5 for pear), 10-min per transect",NA
"David_Kleijn_Malus_domestica_Netherlands_2011","Heeselt","transects","Eristalis_nemorum","species","syrphids",1,NA,NA,NA,"Two surveys were conducted in several (25 m long) transects per field (mean number of transects +- SE: 8.5 +- 1.0 for apple and 9.7 +- 0.5 for pear), 10-min per transect",NA
"David_Kleijn_Malus_domestica_Netherlands_2011","Varik","transects","Eristalis_nemorum","species","syrphids",1,NA,NA,NA,"Two surveys were conducted in several (25 m long) transects per field (mean number of transects +- SE: 8.5 +- 1.0 for apple and 9.7 +- 0.5 for pear), 10-min per transect",NA
"David_Kleijn_Malus_domestica_Netherlands_2011","Varik","transects","Eristalis_nemorum","species","syrphids",1,NA,NA,NA,"Two surveys were conducted in several (25 m long) transects per field (mean number of transects +- SE: 8.5 +- 1.0 for apple and 9.7 +- 0.5 for pear), 10-min per transect",NA
"David_Kleijn_Malus_domestica_Netherlands_2011","Echteld","transects","Eristalis_nemorum","species","syrphids",1,NA,NA,NA,"Two surveys were conducted in several (25 m long) transects per field (mean number of transects +- SE: 8.5 +- 1.0 for apple and 9.7 +- 0.5 for pear), 10-min per transect",NA
"David_Kleijn_Malus_domestica_Netherlands_2011","Zaltbommel","transects","Eristalis_pertinax","species","syrphids",3,NA,NA,NA,"Two surveys were conducted in several (25 m long) transects per field (mean number of transects +- SE: 8.5 +- 1.0 for apple and 9.7 +- 0.5 for pear), 10-min per transect",NA
"David_Kleijn_Malus_domestica_Netherlands_2011","Zaltbommel","transects","Eristalis_pertinax","species","syrphids",1,NA,NA,NA,"Two surveys were conducted in several (25 m long) transects per field (mean number of transects +- SE: 8.5 +- 1.0 for apple and 9.7 +- 0.5 for pear), 10-min per transect",NA
"David_Kleijn_Malus_domestica_Netherlands_2011","Heeselt","transects","Eristalis_pertinax","species","syrphids",1,NA,NA,NA,"Two surveys were conducted in several (25 m long) transects per field (mean number of transects +- SE: 8.5 +- 1.0 for apple and 9.7 +- 0.5 for pear), 10-min per transect",NA
"David_Kleijn_Malus_domestica_Netherlands_2011","Dreumel","transects","Eristalis_pertinax","species","syrphids",1,NA,NA,NA,"Two surveys were conducted in several (25 m long) transects per field (mean number of transects +- SE: 8.5 +- 1.0 for apple and 9.7 +- 0.5 for pear), 10-min per transect",NA
"David_Kleijn_Malus_domestica_Netherlands_2011","Echteld","transects","Eristalis_pertinax","species","syrphids",1,NA,NA,NA,"Two surveys were conducted in several (25 m long) transects per field (mean number of transects +- SE: 8.5 +- 1.0 for apple and 9.7 +- 0.5 for pear), 10-min per transect",NA
"David_Kleijn_Malus_domestica_Netherlands_2011","Zaltbommel","transects","Eristalis_tenax","species","syrphids",1,NA,NA,NA,"Two surveys were conducted in several (25 m long) transects per field (mean number of transects +- SE: 8.5 +- 1.0 for apple and 9.7 +- 0.5 for pear), 10-min per transect",NA
"David_Kleijn_Malus_domestica_Netherlands_2011","Hurwenen","transects","Eristalis_tenax","species","syrphids",1,NA,NA,NA,"Two surveys were conducted in several (25 m long) transects per field (mean number of transects +- SE: 8.5 +- 1.0 for apple and 9.7 +- 0.5 for pear), 10-min per transect",NA
"David_Kleijn_Malus_domestica_Netherlands_2011","Heeselt","transects","Eristalis_sp.","genus","syrphids",20,NA,NA,NA,"Two surveys were conducted in several (25 m long) transects per field (mean number of transects +- SE: 8.5 +- 1.0 for apple and 9.7 +- 0.5 for pear), 10-min per transect",NA
"David_Kleijn_Malus_domestica_Netherlands_2011","Varik","transects","Eristalis_sp.","genus","syrphids",20,NA,NA,NA,"Two surveys were conducted in several (25 m long) transects per field (mean number of transects +- SE: 8.5 +- 1.0 for apple and 9.7 +- 0.5 for pear), 10-min per transect",NA
"David_Kleijn_Malus_domestica_Netherlands_2011","Dreumel","transects","Eristalis_sp.","genus","syrphids",25,NA,NA,NA,"Two surveys were conducted in several (25 m long) transects per field (mean number of transects +- SE: 8.5 +- 1.0 for apple and 9.7 +- 0.5 for pear), 10-min per transect",NA
"David_Kleijn_Malus_domestica_Netherlands_2011","Dreumel","transects","Eristalis_sp.","genus","syrphids",1,NA,NA,NA,"Two surveys were conducted in several (25 m long) transects per field (mean number of transects +- SE: 8.5 +- 1.0 for apple and 9.7 +- 0.5 for pear), 10-min per transect",NA
"David_Kleijn_Malus_domestica_Netherlands_2011","Echteld","transects","Eristalis_sp.","genus","syrphids",2,NA,NA,NA,"Two surveys were conducted in several (25 m long) transects per field (mean number of transects +- SE: 8.5 +- 1.0 for apple and 9.7 +- 0.5 for pear), 10-min per transect",NA
"David_Kleijn_Malus_domestica_Netherlands_2011","Hurwenen","transects","Helophilus_pendulus","species","syrphids",1,NA,NA,NA,"Two surveys were conducted in several (25 m long) transects per field (mean number of transects +- SE: 8.5 +- 1.0 for apple and 9.7 +- 0.5 for pear), 10-min per transect",NA
"David_Kleijn_Malus_domestica_Netherlands_2011","Hurwenen","transects","Helophilus_pendulus","species","syrphids",1,NA,NA,NA,"Two surveys were conducted in several (25 m long) transects per field (mean number of transects +- SE: 8.5 +- 1.0 for apple and 9.7 +- 0.5 for pear), 10-min per transect",NA
"David_Kleijn_Malus_domestica_Netherlands_2011","Heeselt","transects","Helophilus_pendulus","species","syrphids",1,NA,NA,NA,"Two surveys were conducted in several (25 m long) transects per field (mean number of transects +- SE: 8.5 +- 1.0 for apple and 9.7 +- 0.5 for pear), 10-min per transect",NA
"David_Kleijn_Malus_domestica_Netherlands_2011","Varik","transects","Helophilus_pendulus","species","syrphids",2,NA,NA,NA,"Two surveys were conducted in several (25 m long) transects per field (mean number of transects +- SE: 8.5 +- 1.0 for apple and 9.7 +- 0.5 for pear), 10-min per transect",NA
"David_Kleijn_Malus_domestica_Netherlands_2011","Varik","transects","Helophilus_pendulus","species","syrphids",1,NA,NA,NA,"Two surveys were conducted in several (25 m long) transects per field (mean number of transects +- SE: 8.5 +- 1.0 for apple and 9.7 +- 0.5 for pear), 10-min per transect",NA
"David_Kleijn_Malus_domestica_Netherlands_2011","Dreumel","transects","Helophilus_pendulus","species","syrphids",1,NA,NA,NA,"Two surveys were conducted in several (25 m long) transects per field (mean number of transects +- SE: 8.5 +- 1.0 for apple and 9.7 +- 0.5 for pear), 10-min per transect",NA
"David_Kleijn_Malus_domestica_Netherlands_2011","Varik","transects","Lasioglossum_calceatum","species","other_wild_bees",1,NA,NA,NA,"Two surveys were conducted in several (25 m long) transects per field (mean number of transects +- SE: 8.5 +- 1.0 for apple and 9.7 +- 0.5 for pear), 10-min per transect",NA
"David_Kleijn_Malus_domestica_Netherlands_2011","Dreumel","transects","Lasioglossum_calceatum","species","other_wild_bees",1,NA,NA,NA,"Two surveys were conducted in several (25 m long) transects per field (mean number of transects +- SE: 8.5 +- 1.0 for apple and 9.7 +- 0.5 for pear), 10-min per transect",NA
"David_Kleijn_Malus_domestica_Netherlands_2011","Heeselt","transects","Lasioglossum_malachurum","species","other_wild_bees",1,NA,NA,NA,"Two surveys were conducted in several (25 m long) transects per field (mean number of transects +- SE: 8.5 +- 1.0 for apple and 9.7 +- 0.5 for pear), 10-min per transect",NA
"David_Kleijn_Malus_domestica_Netherlands_2011","Hurwenen","transects","Melanogaster_hirtella","species","syrphids",1,NA,NA,NA,"Two surveys were conducted in several (25 m long) transects per field (mean number of transects +- SE: 8.5 +- 1.0 for apple and 9.7 +- 0.5 for pear), 10-min per transect",NA
"David_Kleijn_Malus_domestica_Netherlands_2011","Zaltbommel","transects","Melanostoma_mellinum","species","syrphids",1,NA,NA,NA,"Two surveys were conducted in several (25 m long) transects per field (mean number of transects +- SE: 8.5 +- 1.0 for apple and 9.7 +- 0.5 for pear), 10-min per transect",NA
"David_Kleijn_Malus_domestica_Netherlands_2011","Zaltbommel","transects","Melanostoma_mellinum","species","syrphids",2,NA,NA,NA,"Two surveys were conducted in several (25 m long) transects per field (mean number of transects +- SE: 8.5 +- 1.0 for apple and 9.7 +- 0.5 for pear), 10-min per transect",NA
"David_Kleijn_Malus_domestica_Netherlands_2011","Hurwenen","transects","Melanostoma_mellinum","species","syrphids",3,NA,NA,NA,"Two surveys were conducted in several (25 m long) transects per field (mean number of transects +- SE: 8.5 +- 1.0 for apple and 9.7 +- 0.5 for pear), 10-min per transect",NA
"David_Kleijn_Malus_domestica_Netherlands_2011","Hurwenen","transects","Melanostoma_mellinum","species","syrphids",3,NA,NA,NA,"Two surveys were conducted in several (25 m long) transects per field (mean number of transects +- SE: 8.5 +- 1.0 for apple and 9.7 +- 0.5 for pear), 10-min per transect",NA
"David_Kleijn_Malus_domestica_Netherlands_2011","Heeselt","transects","Melanostoma_mellinum","species","syrphids",1,NA,NA,NA,"Two surveys were conducted in several (25 m long) transects per field (mean number of transects +- SE: 8.5 +- 1.0 for apple and 9.7 +- 0.5 for pear), 10-min per transect",NA
"David_Kleijn_Malus_domestica_Netherlands_2011","Heeselt","transects","Melanostoma_mellinum","species","syrphids",3,NA,NA,NA,"Two surveys were conducted in several (25 m long) transects per field (mean number of transects +- SE: 8.5 +- 1.0 for apple and 9.7 +- 0.5 for pear), 10-min per transect",NA
"David_Kleijn_Malus_domestica_Netherlands_2011","Varik","transects","Melanostoma_mellinum","species","syrphids",1,NA,NA,NA,"Two surveys were conducted in several (25 m long) transects per field (mean number of transects +- SE: 8.5 +- 1.0 for apple and 9.7 +- 0.5 for pear), 10-min per transect",NA
"David_Kleijn_Malus_domestica_Netherlands_2011","Varik","transects","Melanostoma_mellinum","species","syrphids",6,NA,NA,NA,"Two surveys were conducted in several (25 m long) transects per field (mean number of transects +- SE: 8.5 +- 1.0 for apple and 9.7 +- 0.5 for pear), 10-min per transect",NA
"David_Kleijn_Malus_domestica_Netherlands_2011","Echteld","transects","Melanostoma_mellinum","species","syrphids",2,NA,NA,NA,"Two surveys were conducted in several (25 m long) transects per field (mean number of transects +- SE: 8.5 +- 1.0 for apple and 9.7 +- 0.5 for pear), 10-min per transect",NA
"David_Kleijn_Malus_domestica_Netherlands_2011","Echteld","transects","Melanostoma_mellinum","species","syrphids",1,NA,NA,NA,"Two surveys were conducted in several (25 m long) transects per field (mean number of transects +- SE: 8.5 +- 1.0 for apple and 9.7 +- 0.5 for pear), 10-min per transect",NA
"David_Kleijn_Malus_domestica_Netherlands_2011","Zaltbommel","transects","Nomada_fabriciana","species","other_wild_bees",1,NA,NA,NA,"Two surveys were conducted in several (25 m long) transects per field (mean number of transects +- SE: 8.5 +- 1.0 for apple and 9.7 +- 0.5 for pear), 10-min per transect",NA
"David_Kleijn_Malus_domestica_Netherlands_2011","Dreumel","transects","Nomada_marshamella","species","other_wild_bees",1,NA,NA,NA,"Two surveys were conducted in several (25 m long) transects per field (mean number of transects +- SE: 8.5 +- 1.0 for apple and 9.7 +- 0.5 for pear), 10-min per transect",NA
"David_Kleijn_Malus_domestica_Netherlands_2011","Heeselt","transects","Osmia_rufa","species","other_wild_bees",1,NA,NA,NA,"Two surveys were conducted in several (25 m long) transects per field (mean number of transects +- SE: 8.5 +- 1.0 for apple and 9.7 +- 0.5 for pear), 10-min per transect",NA
"David_Kleijn_Malus_domestica_Netherlands_2011","Heeselt","transects","Osmia_rufa","species","other_wild_bees",2,NA,NA,NA,"Two surveys were conducted in several (25 m long) transects per field (mean number of transects +- SE: 8.5 +- 1.0 for apple and 9.7 +- 0.5 for pear), 10-min per transect",NA
"David_Kleijn_Malus_domestica_Netherlands_2011","Zaltbommel","transects","Osmia_bicornis","species","other_wild_bees",1,NA,NA,NA,"Two surveys were conducted in several (25 m long) transects per field (mean number of transects +- SE: 8.5 +- 1.0 for apple and 9.7 +- 0.5 for pear), 10-min per transect",NA
"David_Kleijn_Malus_domestica_Netherlands_2011","Hurwenen","transects","Osmia_bicornis","species","other_wild_bees",1,NA,NA,NA,"Two surveys were conducted in several (25 m long) transects per field (mean number of transects +- SE: 8.5 +- 1.0 for apple and 9.7 +- 0.5 for pear), 10-min per transect",NA
"David_Kleijn_Malus_domestica_Netherlands_2011","Zaltbommel","transects","Platycheirus_albimanus","species","syrphids",1,NA,NA,NA,"Two surveys were conducted in several (25 m long) transects per field (mean number of transects +- SE: 8.5 +- 1.0 for apple and 9.7 +- 0.5 for pear), 10-min per transect",NA
"David_Kleijn_Malus_domestica_Netherlands_2011","Heeselt","transects","Platycheirus_albimanus","species","syrphids",1,NA,NA,NA,"Two surveys were conducted in several (25 m long) transects per field (mean number of transects +- SE: 8.5 +- 1.0 for apple and 9.7 +- 0.5 for pear), 10-min per transect",NA
"David_Kleijn_Malus_domestica_Netherlands_2011","Varik","transects","Platycheirus_albimanus","species","syrphids",1,NA,NA,NA,"Two surveys were conducted in several (25 m long) transects per field (mean number of transects +- SE: 8.5 +- 1.0 for apple and 9.7 +- 0.5 for pear), 10-min per transect",NA
"David_Kleijn_Malus_domestica_Netherlands_2011","Varik","transects","Platycheirus_albimanus","species","syrphids",2,NA,NA,NA,"Two surveys were conducted in several (25 m long) transects per field (mean number of transects +- SE: 8.5 +- 1.0 for apple and 9.7 +- 0.5 for pear), 10-min per transect",NA
"David_Kleijn_Malus_domestica_Netherlands_2011","Hurwenen","transects","Platycheirus_angustatus","species","syrphids",1,NA,NA,NA,"Two surveys were conducted in several (25 m long) transects per field (mean number of transects +- SE: 8.5 +- 1.0 for apple and 9.7 +- 0.5 for pear), 10-min per transect",NA
"David_Kleijn_Malus_domestica_Netherlands_2011","Echteld","transects","Platycheirus_clypeatus","species","syrphids",1,NA,NA,NA,"Two surveys were conducted in several (25 m long) transects per field (mean number of transects +- SE: 8.5 +- 1.0 for apple and 9.7 +- 0.5 for pear), 10-min per transect",NA
"David_Kleijn_Malus_domestica_Netherlands_2011","Zaltbommel","transects","Platycheirus_scutatus","species","syrphids",1,NA,NA,NA,"Two surveys were conducted in several (25 m long) transects per field (mean number of transects +- SE: 8.5 +- 1.0 for apple and 9.7 +- 0.5 for pear), 10-min per transect",NA
"David_Kleijn_Malus_domestica_Netherlands_2011","Zaltbommel","transects","Rhingia_campestris","species","syrphids",1,NA,NA,NA,"Two surveys were conducted in several (25 m long) transects per field (mean number of transects +- SE: 8.5 +- 1.0 for apple and 9.7 +- 0.5 for pear), 10-min per transect",NA
"David_Kleijn_Malus_domestica_Netherlands_2011","Zaltbommel","transects","Rhingia_campestris","species","syrphids",1,NA,NA,NA,"Two surveys were conducted in several (25 m long) transects per field (mean number of transects +- SE: 8.5 +- 1.0 for apple and 9.7 +- 0.5 for pear), 10-min per transect",NA
"David_Kleijn_Malus_domestica_Netherlands_2011","Hurwenen","transects","Rhingia_campestris","species","syrphids",2,NA,NA,NA,"Two surveys were conducted in several (25 m long) transects per field (mean number of transects +- SE: 8.5 +- 1.0 for apple and 9.7 +- 0.5 for pear), 10-min per transect",NA
"David_Kleijn_Malus_domestica_Netherlands_2011","Heeselt","transects","Rhingia_campestris","species","syrphids",1,NA,NA,NA,"Two surveys were conducted in several (25 m long) transects per field (mean number of transects +- SE: 8.5 +- 1.0 for apple and 9.7 +- 0.5 for pear), 10-min per transect",NA
"David_Kleijn_Malus_domestica_Netherlands_2011","Heeselt","transects","Rhingia_campestris","species","syrphids",6,NA,NA,NA,"Two surveys were conducted in several (25 m long) transects per field (mean number of transects +- SE: 8.5 +- 1.0 for apple and 9.7 +- 0.5 for pear), 10-min per transect",NA
"David_Kleijn_Malus_domestica_Netherlands_2011","Varik","transects","Rhingia_campestris","species","syrphids",2,NA,NA,NA,"Two surveys were conducted in several (25 m long) transects per field (mean number of transects +- SE: 8.5 +- 1.0 for apple and 9.7 +- 0.5 for pear), 10-min per transect",NA
"David_Kleijn_Malus_domestica_Netherlands_2011","Echteld","transects","Rhingia_campestris","species","syrphids",2,NA,NA,NA,"Two surveys were conducted in several (25 m long) transects per field (mean number of transects +- SE: 8.5 +- 1.0 for apple and 9.7 +- 0.5 for pear), 10-min per transect",NA
"David_Kleijn_Malus_domestica_Netherlands_2011","Echteld","transects","Rhingia_campestris","species","syrphids",1,NA,NA,NA,"Two surveys were conducted in several (25 m long) transects per field (mean number of transects +- SE: 8.5 +- 1.0 for apple and 9.7 +- 0.5 for pear), 10-min per transect",NA
"David_Kleijn_Malus_domestica_Netherlands_2011","Dreumel","transects","Sphaerophoria_sp.","genus","syrphids",1,NA,NA,NA,"Two surveys were conducted in several (25 m long) transects per field (mean number of transects +- SE: 8.5 +- 1.0 for apple and 9.7 +- 0.5 for pear), 10-min per transect",NA
"David_Kleijn_Malus_domestica_Netherlands_2011","Zaltbommel","transects","Syrphus_ribesii","species","syrphids",1,NA,NA,NA,"Two surveys were conducted in several (25 m long) transects per field (mean number of transects +- SE: 8.5 +- 1.0 for apple and 9.7 +- 0.5 for pear), 10-min per transect",NA
"David_Kleijn_Malus_domestica_Netherlands_2011","Varik","transects","Syrphus_ribesii","species","syrphids",1,NA,NA,NA,"Two surveys were conducted in several (25 m long) transects per field (mean number of transects +- SE: 8.5 +- 1.0 for apple and 9.7 +- 0.5 for pear), 10-min per transect",NA
"David_Kleijn_Malus_domestica_Netherlands_2011","Varik","transects","Tropidia_scita","species","syrphids",1,NA,NA,NA,"Two surveys were conducted in several (25 m long) transects per field (mean number of transects +- SE: 8.5 +- 1.0 for apple and 9.7 +- 0.5 for pear), 10-min per transect",NA
"David_Kleijn_Malus_domestica_Netherlands_2013","E1","sweepnet, flower visiting individuals only","Apis_ mellifera","Species","honeybees",17,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Malus_domestica_Netherlands_2013","E1","sweepnet, flower visiting individuals only","Bombus_ lapidarius","Species","bumblebees",2,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Malus_domestica_Netherlands_2013","E1","sweepnet, flower visiting individuals only","Bombus_ terrestris/lucorum","Species","bumblebees",3,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Malus_domestica_Netherlands_2013","E1","sweepnet, flower visiting individuals only","Eristalis_ nemorum","Species","syrphids",2,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Malus_domestica_Netherlands_2013","E1","sweepnet, flower visiting individuals only","Eupeodes_ cf. corollae","Species","syrphids",1,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Malus_domestica_Netherlands_2013","E10","sweepnet, flower visiting individuals only","Apis_ mellifera","Species","honeybees",185,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Malus_domestica_Netherlands_2013","E10","sweepnet, flower visiting individuals only","Bombus_ pascuorum","Species","bumblebees",2,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Malus_domestica_Netherlands_2013","E10","sweepnet, flower visiting individuals only","Bombus_ terrestris/lucorum","Species","bumblebees",17,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Malus_domestica_Netherlands_2013","E10","sweepnet, flower visiting individuals only","Eristalis_ horticola","Species","syrphids",1,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Malus_domestica_Netherlands_2013","E10","sweepnet, flower visiting individuals only","Eristalis_ pertinax","Species","syrphids",1,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Malus_domestica_Netherlands_2013","E10","sweepnet, flower visiting individuals only","Eupeodes_ cf. corollae","Species","syrphids",2,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Malus_domestica_Netherlands_2013","E10","sweepnet, flower visiting individuals only","Helophilus_ pendulus","Species","syrphids",1,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Malus_domestica_Netherlands_2013","E10","sweepnet, flower visiting individuals only","Lasioglossum_ spec.","Species","other_wild_bees",1,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Malus_domestica_Netherlands_2013","E10","sweepnet, flower visiting individuals only","Osmia_ rufa","Species","other_wild_bees",5,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Malus_domestica_Netherlands_2013","E10","sweepnet, flower visiting individuals only","Platycheirus_ albimanus","Species","syrphids",6,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Malus_domestica_Netherlands_2013","E10","sweepnet, flower visiting individuals only","Platycheirus_ cf. scutatus","Species","syrphids",1,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Malus_domestica_Netherlands_2013","E11","sweepnet, flower visiting individuals only","Apis_ mellifera","Species","honeybees",69,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Malus_domestica_Netherlands_2013","E11","sweepnet, flower visiting individuals only","Eristalis_ pertinax","Species","syrphids",2,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Malus_domestica_Netherlands_2013","E11","sweepnet, flower visiting individuals only","Eupeodes_ spec.","Species","syrphids",1,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Malus_domestica_Netherlands_2013","E11","sweepnet, flower visiting individuals only","Platycheirus_ albimanus","Species","syrphids",1,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Malus_domestica_Netherlands_2013","E11","sweepnet, flower visiting individuals only","Platycheirus_ cf. scutatus","Species","syrphids",1,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Malus_domestica_Netherlands_2013","E11","sweepnet, flower visiting individuals only","Playcheirus_ spec.","Species","syrphids",2,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Malus_domestica_Netherlands_2013","E12","sweepnet, flower visiting individuals only","Apis_ mellifera","Species","honeybees",9,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Malus_domestica_Netherlands_2013","E12","sweepnet, flower visiting individuals only","Bombus_ lapidarius","Species","bumblebees",4,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Malus_domestica_Netherlands_2013","E12","sweepnet, flower visiting individuals only","Bombus_ pascuorum","Species","bumblebees",1,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Malus_domestica_Netherlands_2013","E12","sweepnet, flower visiting individuals only","Bombus_ terrestris","Species","bumblebees",2,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Malus_domestica_Netherlands_2013","E12","sweepnet, flower visiting individuals only","Melanostoma_ mellinum","Species","syrphids",2,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Malus_domestica_Netherlands_2013","E13","sweepnet, flower visiting individuals only","Apis_ mellifera","Species","honeybees",43,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Malus_domestica_Netherlands_2013","E13","sweepnet, flower visiting individuals only","Bombus_ hortorum","Species","bumblebees",1,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Malus_domestica_Netherlands_2013","E13","sweepnet, flower visiting individuals only","Bombus_ lapidarius","Species","bumblebees",1,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Malus_domestica_Netherlands_2013","E13","sweepnet, flower visiting individuals only","Melanostoma_ mellinum","Species","syrphids",4,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Malus_domestica_Netherlands_2013","E13","sweepnet, flower visiting individuals only","Osmia_ rufa","Species","other_wild_bees",1,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Malus_domestica_Netherlands_2013","E13","sweepnet, flower visiting individuals only","Rhingia_ campestris","Species","syrphids",1,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Malus_domestica_Netherlands_2013","E14","sweepnet, flower visiting individuals only","Apis_ mellifera","Species","honeybees",74,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Malus_domestica_Netherlands_2013","E14","sweepnet, flower visiting individuals only","Bombus_ hortorum","Species","bumblebees",1,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Malus_domestica_Netherlands_2013","E14","sweepnet, flower visiting individuals only","Bombus_ terrestris/lucorum","Species","bumblebees",6,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Malus_domestica_Netherlands_2013","E14","sweepnet, flower visiting individuals only","Melanostoma_ mellinum","Species","syrphids",1,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Malus_domestica_Netherlands_2013","E14","sweepnet, flower visiting individuals only","Osmia_ rufa","Species","other_wild_bees",1,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Malus_domestica_Netherlands_2013","E14","sweepnet, flower visiting individuals only","Platycheirus_ albimanus","Species","syrphids",3,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Malus_domestica_Netherlands_2013","E14","sweepnet, flower visiting individuals only","Platycheirus_ cf. scutatus","Species","syrphids",7,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Malus_domestica_Netherlands_2013","E14","sweepnet, flower visiting individuals only","Syrphus_ spec.","Species","syrphids",1,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Malus_domestica_Netherlands_2013","E15","sweepnet, flower visiting individuals only","Andrena_ minutula-groep","Species","other_wild_bees",1,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Malus_domestica_Netherlands_2013","E15","sweepnet, flower visiting individuals only","Apis_ mellifera","Species","honeybees",3,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Malus_domestica_Netherlands_2013","E15","sweepnet, flower visiting individuals only","Bombus_ lapidarius","Species","bumblebees",3,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Malus_domestica_Netherlands_2013","E15","sweepnet, flower visiting individuals only","Bombus_ terrestris/lucorum","Species","bumblebees",4,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Malus_domestica_Netherlands_2013","E15","sweepnet, flower visiting individuals only","Heringia_ vitripennis","Species","syrphids",1,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Malus_domestica_Netherlands_2013","E15","sweepnet, flower visiting individuals only","Melanostoma_ mellinum","Species","syrphids",2,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Malus_domestica_Netherlands_2013","E15","sweepnet, flower visiting individuals only","Platycheirus_ albimanus","Species","syrphids",1,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Malus_domestica_Netherlands_2013","E2","sweepnet, flower visiting individuals only","Andrena_ flavipes","Species","other_wild_bees",1,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Malus_domestica_Netherlands_2013","E2","sweepnet, flower visiting individuals only","Andrena_ haemorrhoa","Species","other_wild_bees",4,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Malus_domestica_Netherlands_2013","E2","sweepnet, flower visiting individuals only","Apis_ mellifera","Species","honeybees",3,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Malus_domestica_Netherlands_2013","E2","sweepnet, flower visiting individuals only","Apis_ mellifera","Species","honeybees",8,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Malus_domestica_Netherlands_2013","E2","sweepnet, flower visiting individuals only","Bombus_ lapidarius","Species","bumblebees",1,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Malus_domestica_Netherlands_2013","E2","sweepnet, flower visiting individuals only","Bombus_ pascuorum","Species","bumblebees",1,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Malus_domestica_Netherlands_2013","E2","sweepnet, flower visiting individuals only","Bombus_ terrestris","Species","bumblebees",2,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Malus_domestica_Netherlands_2013","E2","sweepnet, flower visiting individuals only","Eristalis_ arbustorum","Species","syrphids",1,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Malus_domestica_Netherlands_2013","E2","sweepnet, flower visiting individuals only","Eristalis_ pertinax","Species","syrphids",1,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Malus_domestica_Netherlands_2013","E2","sweepnet, flower visiting individuals only","Eristalis_ tenax","Species","syrphids",3,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Malus_domestica_Netherlands_2013","E2","sweepnet, flower visiting individuals only","Helophilus_ pendulus","Species","syrphids",1,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Malus_domestica_Netherlands_2013","E2","sweepnet, flower visiting individuals only","Helophilus_ trivittatus","Species","syrphids",1,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Malus_domestica_Netherlands_2013","E2","sweepnet, flower visiting individuals only","Melanostoma_ mellinum","Species","syrphids",1,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Malus_domestica_Netherlands_2013","E2","sweepnet, flower visiting individuals only","Pipizella_ viduata","Species","syrphids",1,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Malus_domestica_Netherlands_2013","E2","sweepnet, flower visiting individuals only","Rhingia_ campestris","Species","syrphids",6,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Malus_domestica_Netherlands_2013","E3","sweepnet, flower visiting individuals only","Apis_ mellifera","Species","honeybees",25,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Malus_domestica_Netherlands_2013","E3","sweepnet, flower visiting individuals only","Bombus_ hypnorum","Species","bumblebees",1,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Malus_domestica_Netherlands_2013","E3","sweepnet, flower visiting individuals only","Bombus_ lapidarius","Species","bumblebees",2,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Malus_domestica_Netherlands_2013","E3","sweepnet, flower visiting individuals only","Bombus_ pascuorum","Species","bumblebees",1,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Malus_domestica_Netherlands_2013","E3","sweepnet, flower visiting individuals only","Eristalis_ spec.","Species","syrphids",1,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Malus_domestica_Netherlands_2013","E3","sweepnet, flower visiting individuals only","Platycheirus_ albimanus","Species","syrphids",4,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Malus_domestica_Netherlands_2013","E4","sweepnet, flower visiting individuals only","Andrena_ haemorrhoa","Species","other_wild_bees",1,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Malus_domestica_Netherlands_2013","E4","sweepnet, flower visiting individuals only","Apis_ mellifera","Species","honeybees",72,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Malus_domestica_Netherlands_2013","E4","sweepnet, flower visiting individuals only","Bombus_ hortorum","Species","bumblebees",1,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Malus_domestica_Netherlands_2013","E4","sweepnet, flower visiting individuals only","Bombus_ hypnorum","Species","bumblebees",1,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Malus_domestica_Netherlands_2013","E4","sweepnet, flower visiting individuals only","Bombus_ lapidarius","Species","bumblebees",3,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Malus_domestica_Netherlands_2013","E4","sweepnet, flower visiting individuals only","Bombus_ pascuorum","Species","bumblebees",2,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Malus_domestica_Netherlands_2013","E4","sweepnet, flower visiting individuals only","Bombus_ pratorum","Species","bumblebees",1,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Malus_domestica_Netherlands_2013","E4","sweepnet, flower visiting individuals only","Bombus_ terrestris/lucorum","Species","bumblebees",21,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Malus_domestica_Netherlands_2013","E4","sweepnet, flower visiting individuals only","Episyrphus_ balteatus","Species","syrphids",1,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Malus_domestica_Netherlands_2013","E4","sweepnet, flower visiting individuals only","Eupeodes_ cf. corollae","Species","syrphids",11,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Malus_domestica_Netherlands_2013","E4","sweepnet, flower visiting individuals only","Helophilus_ pendulus","Species","syrphids",2,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Malus_domestica_Netherlands_2013","E4","sweepnet, flower visiting individuals only","Helophilus_ trivittatus","Species","syrphids",1,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Malus_domestica_Netherlands_2013","E4","sweepnet, flower visiting individuals only","Heringia_ vitripennis","Species","syrphids",1,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Malus_domestica_Netherlands_2013","E4","sweepnet, flower visiting individuals only","Melanogaster_ hirtella","Species","syrphids",2,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Malus_domestica_Netherlands_2013","E4","sweepnet, flower visiting individuals only","Osmia_ rufa","Species","other_wild_bees",3,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Malus_domestica_Netherlands_2013","E4","sweepnet, flower visiting individuals only","Rhingia_ campestris","Species","syrphids",1,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Malus_domestica_Netherlands_2013","E4","sweepnet, flower visiting individuals only","Syrphus_ ribesii","Species","syrphids",1,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Malus_domestica_Netherlands_2013","E4","sweepnet, flower visiting individuals only","Syrphus_ vitripennis","Species","syrphids",3,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Malus_domestica_Netherlands_2013","E5","sweepnet, flower visiting individuals only","Andrena_ chrysosceles","Species","other_wild_bees",1,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Malus_domestica_Netherlands_2013","E5","sweepnet, flower visiting individuals only","Andrena_ cineraria","Species","other_wild_bees",1,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Malus_domestica_Netherlands_2013","E5","sweepnet, flower visiting individuals only","Apis_ mellifera","Species","honeybees",61,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Malus_domestica_Netherlands_2013","E5","sweepnet, flower visiting individuals only","Bombus_ lapidarius","Species","bumblebees",1,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Malus_domestica_Netherlands_2013","E5","sweepnet, flower visiting individuals only","Bombus_ pascuorum","Species","bumblebees",1,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Malus_domestica_Netherlands_2013","E5","sweepnet, flower visiting individuals only","Bombus_ terrestris/lucorum","Species","bumblebees",2,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Malus_domestica_Netherlands_2013","E5","sweepnet, flower visiting individuals only","Eristalis_ pertinax","Species","syrphids",1,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Malus_domestica_Netherlands_2013","E5","sweepnet, flower visiting individuals only","Heringia_ vitripennis","Species","syrphids",1,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Malus_domestica_Netherlands_2013","E5","sweepnet, flower visiting individuals only","Rhingia_ campestris","Species","syrphids",1,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Malus_domestica_Netherlands_2013","E6","sweepnet, flower visiting individuals only","Apis_ mellifera","Species","honeybees",67,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Malus_domestica_Netherlands_2013","E6","sweepnet, flower visiting individuals only","Bombus_ terrestris/lucorum","Species","bumblebees",10,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Malus_domestica_Netherlands_2013","E6","sweepnet, flower visiting individuals only","Helophilus_ pendulus","Species","syrphids",1,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Malus_domestica_Netherlands_2013","E6","sweepnet, flower visiting individuals only","Platycheirus_ peltatus","Species","syrphids",1,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Malus_domestica_Netherlands_2013","E7","sweepnet, flower visiting individuals only","Andrena_ fulva","Species","other_wild_bees",1,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Malus_domestica_Netherlands_2013","E7","sweepnet, flower visiting individuals only","Apis_ mellifera","Species","honeybees",37,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Malus_domestica_Netherlands_2013","E7","sweepnet, flower visiting individuals only","Bombus_ lapidarius","Species","bumblebees",1,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Malus_domestica_Netherlands_2013","E7","sweepnet, flower visiting individuals only","Bombus_ terrestris","Species","bumblebees",1,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Malus_domestica_Netherlands_2013","E7","sweepnet, flower visiting individuals only","Eristalis_ nemorum","Species","syrphids",1,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Malus_domestica_Netherlands_2013","E7","sweepnet, flower visiting individuals only","Eristalis_ pertinax","Species","syrphids",6,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Malus_domestica_Netherlands_2013","E7","sweepnet, flower visiting individuals only","Eristalis_ tenax","Species","syrphids",1,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Malus_domestica_Netherlands_2013","E7","sweepnet, flower visiting individuals only","Eupeodes_ cf. corollae","Species","syrphids",1,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Malus_domestica_Netherlands_2013","E7","sweepnet, flower visiting individuals only","Melanogaster_ hirtella","Species","syrphids",1,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Malus_domestica_Netherlands_2013","E7","sweepnet, flower visiting individuals only","Melanostoma_ mellinum","Species","syrphids",2,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Malus_domestica_Netherlands_2013","E7","sweepnet, flower visiting individuals only","Pipiza_ noctiluca","Species","syrphids",1,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Malus_domestica_Netherlands_2013","E7","sweepnet, flower visiting individuals only","Platycheirus_ cf. scutatus","Species","syrphids",1,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Malus_domestica_Netherlands_2013","E7","sweepnet, flower visiting individuals only","Rhingia_ campestris","Species","syrphids",3,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Malus_domestica_Netherlands_2013","E8","sweepnet, flower visiting individuals only","Apis_ mellifera","Species","honeybees",66,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Malus_domestica_Netherlands_2013","E8","sweepnet, flower visiting individuals only","Bombus_ lapidarius","Species","bumblebees",8,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Malus_domestica_Netherlands_2013","E8","sweepnet, flower visiting individuals only","Eristalis_ nemorum","Species","syrphids",1,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Malus_domestica_Netherlands_2013","E9","sweepnet, flower visiting individuals only","Apis_ mellifera","Species","honeybees",156,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Malus_domestica_Netherlands_2013","E9","sweepnet, flower visiting individuals only","Bombus_ lapidarius","Species","bumblebees",1,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Malus_domestica_Netherlands_2013","E9","sweepnet, flower visiting individuals only","Bombus_ pascuorum","Species","bumblebees",4,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Malus_domestica_Netherlands_2013","E9","sweepnet, flower visiting individuals only","Bombus_ terrestris/lucorum","Species","bumblebees",1,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Malus_domestica_Netherlands_2013","E9","sweepnet, flower visiting individuals only","Eristalis_ similis","Species","syrphids",1,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Malus_domestica_Netherlands_2013","E9","sweepnet, flower visiting individuals only","Eupeodes_ cf. corollae","Species","syrphids",3,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Malus_domestica_Netherlands_2013","E9","sweepnet, flower visiting individuals only","Eupeodes_ luniger","Species","syrphids",1,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Malus_domestica_Netherlands_2013","E9","sweepnet, flower visiting individuals only","Heringia_ vitripennis","Species","syrphids",1,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Malus_domestica_Netherlands_2013","E9","sweepnet, flower visiting individuals only","Melanostoma_ mellinum","Species","syrphids",2,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Malus_domestica_Netherlands_2013","E9","sweepnet, flower visiting individuals only","Osmia_ rufa","Species","other_wild_bees",2,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Malus_domestica_Netherlands_2013","E9","sweepnet, flower visiting individuals only","Rhingia_ campestris","Species","syrphids",1,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Malus_domestica_Netherlands_2013","E9","sweepnet, flower visiting individuals only","Xylota_ segnis","Species","syrphids",1,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Malus_domestica_Netherlands_2014","E1","sweepnet, flower visiting individuals only","Andrena_ bimaculata","Species","other_wild_bees",1,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Malus_domestica_Netherlands_2014","E1","sweepnet, flower visiting individuals only","Andrena_ carantonica","Species","other_wild_bees",5,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Malus_domestica_Netherlands_2014","E1","sweepnet, flower visiting individuals only","Andrena_ cineraria","Species","other_wild_bees",1,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Malus_domestica_Netherlands_2014","E1","sweepnet, flower visiting individuals only","Andrena_ flavipes","Species","other_wild_bees",2,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Malus_domestica_Netherlands_2014","E1","sweepnet, flower visiting individuals only","Andrena_ fulva","Species","other_wild_bees",1,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Malus_domestica_Netherlands_2014","E1","sweepnet, flower visiting individuals only","Andrena_ haemorrhoa","Species","other_wild_bees",3,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Malus_domestica_Netherlands_2014","E1","sweepnet, flower visiting individuals only","Andrena_ nitida","Species","other_wild_bees",1,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Malus_domestica_Netherlands_2014","E1","sweepnet, flower visiting individuals only","Apis_ mellifera","Species","honeybees",12,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Malus_domestica_Netherlands_2014","E1","sweepnet, flower visiting individuals only","Apis_ mellifera","Species","honeybees",12,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Malus_domestica_Netherlands_2014","E1","sweepnet, flower visiting individuals only","Bombus_ lapidarius","Species","bumblebees",8,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Malus_domestica_Netherlands_2014","E1","sweepnet, flower visiting individuals only","Bombus_ terrestris-complex","Species","bumblebees",14,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Malus_domestica_Netherlands_2014","E1","sweepnet, flower visiting individuals only","Eristalis_ arbustorum","Species","syrphids",1,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Malus_domestica_Netherlands_2014","E1","sweepnet, flower visiting individuals only","Eristalis_ pertinax","Species","syrphids",19,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Malus_domestica_Netherlands_2014","E1","sweepnet, flower visiting individuals only","Eristalis_ tenax","Species","syrphids",9,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Malus_domestica_Netherlands_2014","E1","sweepnet, flower visiting individuals only","Helophilus_ pendulus","Species","syrphids",2,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Malus_domestica_Netherlands_2014","E1","sweepnet, flower visiting individuals only","Melanostoma_ mellinum","Species","syrphids",3,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Malus_domestica_Netherlands_2014","E1","sweepnet, flower visiting individuals only","Neocnemodon_ vitripennis","Species","syrphids",12,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Malus_domestica_Netherlands_2014","E1","sweepnet, flower visiting individuals only","Osmia_ bicornis","Species","other_wild_bees",1,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Malus_domestica_Netherlands_2014","E1","sweepnet, flower visiting individuals only","Pipiza_ noctiluca","Species","syrphids",1,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Malus_domestica_Netherlands_2014","E1","sweepnet, flower visiting individuals only","Platycheirus_ albimanus","Species","syrphids",2,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Malus_domestica_Netherlands_2014","E1","sweepnet, flower visiting individuals only","Platycheirus_ scutatus","Species","syrphids",1,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Malus_domestica_Netherlands_2014","E1","sweepnet, flower visiting individuals only","Syrphus_ ribesii","Species","syrphids",1,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Malus_domestica_Netherlands_2014","E11","sweepnet, flower visiting individuals only","Andrena_ cf. minutula","Species","other_wild_bees",1,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Malus_domestica_Netherlands_2014","E11","sweepnet, flower visiting individuals only","Andrena_ dorsata","Species","other_wild_bees",1,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Malus_domestica_Netherlands_2014","E11","sweepnet, flower visiting individuals only","Apis_ mellifera","Species","honeybees",24,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Malus_domestica_Netherlands_2014","E11","sweepnet, flower visiting individuals only","Bombus_ terrestris-complex","Species","bumblebees",4,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Malus_domestica_Netherlands_2014","E11","sweepnet, flower visiting individuals only","Eristalis_ pertinax","Species","syrphids",6,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Malus_domestica_Netherlands_2014","E11","sweepnet, flower visiting individuals only","Eristalis_ tenax","Species","syrphids",2,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Malus_domestica_Netherlands_2014","E11","sweepnet, flower visiting individuals only","Melanostoma_ mellinum","Species","syrphids",3,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Malus_domestica_Netherlands_2014","E11","sweepnet, flower visiting individuals only","Neocnemodon_ vitripennis","Species","syrphids",2,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Malus_domestica_Netherlands_2014","E11","sweepnet, flower visiting individuals only","Platycheirus/Melanostoma_ spec.","Species","syrphids",2,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Malus_domestica_Netherlands_2014","E11","sweepnet, flower visiting individuals only","Platycheirus_ albimanus","Species","syrphids",3,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Malus_domestica_Netherlands_2014","E11","sweepnet, flower visiting individuals only","Platycheirus_ scutatus","Species","syrphids",3,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Malus_domestica_Netherlands_2014","E11","sweepnet, flower visiting individuals only","Xylota_ segnis","Species","syrphids",1,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Malus_domestica_Netherlands_2014","E13","sweepnet, flower visiting individuals only","Andrena_ dorsata","Species","other_wild_bees",1,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Malus_domestica_Netherlands_2014","E13","sweepnet, flower visiting individuals only","Andrena_ haemorrhoa","Species","other_wild_bees",3,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Malus_domestica_Netherlands_2014","E13","sweepnet, flower visiting individuals only","Andrena_ varians","Species","other_wild_bees",1,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Malus_domestica_Netherlands_2014","E13","sweepnet, flower visiting individuals only","Apis_ mellifera","Species","honeybees",20,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Malus_domestica_Netherlands_2014","E13","sweepnet, flower visiting individuals only","Bombus_ hypnorum","Species","bumblebees",2,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Malus_domestica_Netherlands_2014","E13","sweepnet, flower visiting individuals only","Bombus_ lapidarius","Species","bumblebees",3,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Malus_domestica_Netherlands_2014","E13","sweepnet, flower visiting individuals only","Bombus_ pascuorum","Species","bumblebees",1,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Malus_domestica_Netherlands_2014","E13","sweepnet, flower visiting individuals only","Bombus_ pratorum","Species","bumblebees",1,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Malus_domestica_Netherlands_2014","E13","sweepnet, flower visiting individuals only","Bombus_ terrestris-complex","Species","bumblebees",12,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Malus_domestica_Netherlands_2014","E13","sweepnet, flower visiting individuals only","Eristalis_ pertinax","Species","syrphids",5,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Malus_domestica_Netherlands_2014","E13","sweepnet, flower visiting individuals only","Halictus/Lasioglossum_ spec.","Species","syrphids",1,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Malus_domestica_Netherlands_2014","E13","sweepnet, flower visiting individuals only","Helophilus_ pendulus","Species","syrphids",1,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Malus_domestica_Netherlands_2014","E13","sweepnet, flower visiting individuals only","Melanostoma_ mellinum","Species","syrphids",5,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Malus_domestica_Netherlands_2014","E13","sweepnet, flower visiting individuals only","Neocnemodon_ vitripennis","Species","syrphids",2,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Malus_domestica_Netherlands_2014","E13","sweepnet, flower visiting individuals only","Osmia_ bicornis","Species","other_wild_bees",2,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Malus_domestica_Netherlands_2014","E13","sweepnet, flower visiting individuals only","Platycheirus_ albimanus","Species","syrphids",1,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Malus_domestica_Netherlands_2014","E14","sweepnet, flower visiting individuals only","Andrena_ flavipes","Species","other_wild_bees",1,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Malus_domestica_Netherlands_2014","E14","sweepnet, flower visiting individuals only","Andrena_ haemorrhoa","Species","other_wild_bees",1,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Malus_domestica_Netherlands_2014","E14","sweepnet, flower visiting individuals only","Apis_ mellifera","Species","honeybees",24,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Malus_domestica_Netherlands_2014","E14","sweepnet, flower visiting individuals only","Bombus_ hypnorum","Species","bumblebees",1,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Malus_domestica_Netherlands_2014","E14","sweepnet, flower visiting individuals only","Bombus_ terrestris-complex","Species","bumblebees",3,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Malus_domestica_Netherlands_2014","E14","sweepnet, flower visiting individuals only","Eristalis_ pertinax","Species","syrphids",17,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Malus_domestica_Netherlands_2014","E14","sweepnet, flower visiting individuals only","Eristalis_ similis","Species","syrphids",1,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Malus_domestica_Netherlands_2014","E14","sweepnet, flower visiting individuals only","Melanostoma_ mellinum","Species","syrphids",7,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Malus_domestica_Netherlands_2014","E14","sweepnet, flower visiting individuals only","Neocnemodon_ vitripennis","Species","syrphids",6,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Malus_domestica_Netherlands_2014","E14","sweepnet, flower visiting individuals only","Osmia_ bicornis","Species","other_wild_bees",2,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Malus_domestica_Netherlands_2014","E14","sweepnet, flower visiting individuals only","Platycheirus_ albimanus","Species","syrphids",2,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Malus_domestica_Netherlands_2014","E14","sweepnet, flower visiting individuals only","Syrphus_ ribesii","Species","syrphids",1,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Malus_domestica_Netherlands_2014","E14","sweepnet, flower visiting individuals only","Syrphus_ vitripennis","Species","syrphids",1,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Malus_domestica_Netherlands_2014","E14","sweepnet, flower visiting individuals only","Xylota_ segnis","Species","syrphids",1,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Malus_domestica_Netherlands_2014","E15","sweepnet, flower visiting individuals only","Andrena_ carantonica","Species","other_wild_bees",1,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Malus_domestica_Netherlands_2014","E15","sweepnet, flower visiting individuals only","Andrena_ flavipes","Species","other_wild_bees",1,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Malus_domestica_Netherlands_2014","E15","sweepnet, flower visiting individuals only","Andrena_ haemorrhoa","Species","other_wild_bees",1,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Malus_domestica_Netherlands_2014","E15","sweepnet, flower visiting individuals only","Apis_ mellifera","Species","honeybees",17,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Malus_domestica_Netherlands_2014","E15","sweepnet, flower visiting individuals only","Bombus_ lapidarius","Species","bumblebees",6,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Malus_domestica_Netherlands_2014","E15","sweepnet, flower visiting individuals only","Bombus_ pascuorum","Species","bumblebees",3,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Malus_domestica_Netherlands_2014","E15","sweepnet, flower visiting individuals only","Bombus_ terrestris-complex","Species","bumblebees",14,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Malus_domestica_Netherlands_2014","E15","sweepnet, flower visiting individuals only","Eristalis_ nemorum","Species","syrphids",4,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Malus_domestica_Netherlands_2014","E15","sweepnet, flower visiting individuals only","Eristalis_ pertinax","Species","syrphids",22,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Malus_domestica_Netherlands_2014","E15","sweepnet, flower visiting individuals only","Eristalis_ similis","Species","syrphids",5,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Malus_domestica_Netherlands_2014","E15","sweepnet, flower visiting individuals only","Eristalis_ tenax","Species","syrphids",5,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Malus_domestica_Netherlands_2014","E15","sweepnet, flower visiting individuals only","Helophilus_ pendulus","Species","syrphids",2,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Malus_domestica_Netherlands_2014","E15","sweepnet, flower visiting individuals only","Melanostoma_ mellinum","Species","syrphids",3,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Malus_domestica_Netherlands_2014","E15","sweepnet, flower visiting individuals only","Osmia_ bicornis","Species","other_wild_bees",2,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Malus_domestica_Netherlands_2014","E2","sweepnet, flower visiting individuals only","Andrena_ haemorrhoa","Species","other_wild_bees",1,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Malus_domestica_Netherlands_2014","E2","sweepnet, flower visiting individuals only","Apis_ mellifera","Species","honeybees",15,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Malus_domestica_Netherlands_2014","E2","sweepnet, flower visiting individuals only","Bombus_ hypnorum","Species","bumblebees",1,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Malus_domestica_Netherlands_2014","E2","sweepnet, flower visiting individuals only","Bombus_ lapidarius","Species","bumblebees",1,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Malus_domestica_Netherlands_2014","E2","sweepnet, flower visiting individuals only","Bombus_ pratorum","Species","bumblebees",1,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Malus_domestica_Netherlands_2014","E2","sweepnet, flower visiting individuals only","Bombus_ terrestris-complex","Species","bumblebees",13,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Malus_domestica_Netherlands_2014","E2","sweepnet, flower visiting individuals only","Eristalis_ pertinax","Species","syrphids",9,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Malus_domestica_Netherlands_2014","E2","sweepnet, flower visiting individuals only","Eristalis_ similis","Species","syrphids",4,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Malus_domestica_Netherlands_2014","E2","sweepnet, flower visiting individuals only","Eristalis_ spec.","Species","syrphids",1,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Malus_domestica_Netherlands_2014","E2","sweepnet, flower visiting individuals only","Helophilus_ spec.","Species","syrphids",1,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Malus_domestica_Netherlands_2014","E2","sweepnet, flower visiting individuals only","Lasioglossum_ albipes/calceatum","Species","other_wild_bees",1,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Malus_domestica_Netherlands_2014","E2","sweepnet, flower visiting individuals only","Melanostoma_ mellinum","Species","syrphids",2,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Malus_domestica_Netherlands_2014","E2","sweepnet, flower visiting individuals only","Syrphus_ vitripennis","Species","syrphids",1,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Malus_domestica_Netherlands_2014","E3","sweepnet, flower visiting individuals only","Andrena_ haemorrhoa","Species","other_wild_bees",1,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Malus_domestica_Netherlands_2014","E3","sweepnet, flower visiting individuals only","Apis_ mellifera","Species","honeybees",24,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Malus_domestica_Netherlands_2014","E3","sweepnet, flower visiting individuals only","Bombus_ lapidarius","Species","bumblebees",1,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Malus_domestica_Netherlands_2014","E3","sweepnet, flower visiting individuals only","Bombus_ pascuorum","Species","bumblebees",1,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Malus_domestica_Netherlands_2014","E3","sweepnet, flower visiting individuals only","Bombus_ terrestris-complex","Species","bumblebees",5,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Malus_domestica_Netherlands_2014","E3","sweepnet, flower visiting individuals only","Epistrophe_ nitidicollis","Species","syrphids",1,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Malus_domestica_Netherlands_2014","E3","sweepnet, flower visiting individuals only","Eristalis_ intricaria","Species","syrphids",1,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Malus_domestica_Netherlands_2014","E3","sweepnet, flower visiting individuals only","Eristalis_ pertinax","Species","syrphids",7,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Malus_domestica_Netherlands_2014","E3","sweepnet, flower visiting individuals only","Eristalis_ spec.","Species","syrphids",2,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Malus_domestica_Netherlands_2014","E3","sweepnet, flower visiting individuals only","Melanostoma_ mellinum","Species","syrphids",2,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Malus_domestica_Netherlands_2014","E3","sweepnet, flower visiting individuals only","Platycheirus/Melanostoma_ spec.","Species","syrphids",1,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Malus_domestica_Netherlands_2014","E3","sweepnet, flower visiting individuals only","Platycheirus_ albimanus","Species","syrphids",1,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Malus_domestica_Netherlands_2014","E3","sweepnet, flower visiting individuals only","Platycheirus_ scutatus","Species","syrphids",1,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Malus_domestica_Netherlands_2014","E3","sweepnet, flower visiting individuals only","Syrphus_ vitripennis","Species","syrphids",2,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Malus_domestica_Netherlands_2014","E31","sweepnet, flower visiting individuals only","Andrena_ nitida","Species","other_wild_bees",1,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Malus_domestica_Netherlands_2014","E31","sweepnet, flower visiting individuals only","Apis_ mellifera","Species","honeybees",12,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Malus_domestica_Netherlands_2014","E31","sweepnet, flower visiting individuals only","Bombus_ lapidarius","Species","bumblebees",2,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Malus_domestica_Netherlands_2014","E31","sweepnet, flower visiting individuals only","Eristalis_ spec.","Species","syrphids",1,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Malus_domestica_Netherlands_2014","E31","sweepnet, flower visiting individuals only","Osmia_ bicornis","Species","other_wild_bees",1,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Malus_domestica_Netherlands_2014","E32","sweepnet, flower visiting individuals only","Andrena_ haemorrhoa","Species","other_wild_bees",1,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Malus_domestica_Netherlands_2014","E32","sweepnet, flower visiting individuals only","Apis_ mellifera","Species","honeybees",4,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Malus_domestica_Netherlands_2014","E32","sweepnet, flower visiting individuals only","Bombus_ lapidarius","Species","bumblebees",3,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Malus_domestica_Netherlands_2014","E32","sweepnet, flower visiting individuals only","Bombus_ terrestris-complex","Species","bumblebees",8,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Malus_domestica_Netherlands_2014","E32","sweepnet, flower visiting individuals only","Eristalis_ pertinax","Species","syrphids",8,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Malus_domestica_Netherlands_2014","E32","sweepnet, flower visiting individuals only","Eristalis_ similis","Species","syrphids",3,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Malus_domestica_Netherlands_2014","E32","sweepnet, flower visiting individuals only","Eristalis_ spec.","Species","syrphids",3,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Malus_domestica_Netherlands_2014","E32","sweepnet, flower visiting individuals only","Melanostoma_ mellinum","Species","syrphids",3,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Malus_domestica_Netherlands_2014","E32","sweepnet, flower visiting individuals only","Melanostoma_ spec.","Species","syrphids",1,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Malus_domestica_Netherlands_2014","E32","sweepnet, flower visiting individuals only","Osmia_ bicornis","Species","other_wild_bees",1,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Malus_domestica_Netherlands_2014","E33","sweepnet, flower visiting individuals only","Andrena_ bicolor","Species","other_wild_bees",1,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Malus_domestica_Netherlands_2014","E33","sweepnet, flower visiting individuals only","Andrena_ carantonica","Species","other_wild_bees",1,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Malus_domestica_Netherlands_2014","E33","sweepnet, flower visiting individuals only","Andrena_ cf. minutula","Species","other_wild_bees",1,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Malus_domestica_Netherlands_2014","E33","sweepnet, flower visiting individuals only","Andrena_ haemorrhoa","Species","other_wild_bees",6,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Malus_domestica_Netherlands_2014","E33","sweepnet, flower visiting individuals only","Apis_ mellifera","Species","honeybees",18,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Malus_domestica_Netherlands_2014","E33","sweepnet, flower visiting individuals only","Bombus_ hypnorum","Species","bumblebees",3,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Malus_domestica_Netherlands_2014","E33","sweepnet, flower visiting individuals only","Bombus_ lapidarius","Species","bumblebees",13,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Malus_domestica_Netherlands_2014","E33","sweepnet, flower visiting individuals only","Bombus_ pascuorum","Species","bumblebees",4,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Malus_domestica_Netherlands_2014","E33","sweepnet, flower visiting individuals only","Bombus_ terrestris-complex","Species","bumblebees",18,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Malus_domestica_Netherlands_2014","E33","sweepnet, flower visiting individuals only","Eristalis_ pertinax","Species","syrphids",2,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Malus_domestica_Netherlands_2014","E33","sweepnet, flower visiting individuals only","Eristalis_ spec.","Species","syrphids",1,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Malus_domestica_Netherlands_2014","E33","sweepnet, flower visiting individuals only","Helophilus_ pendulus","Species","syrphids",1,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Malus_domestica_Netherlands_2014","E33","sweepnet, flower visiting individuals only","Lasioglossum_ malachurum","Species","other_wild_bees",1,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Malus_domestica_Netherlands_2014","E33","sweepnet, flower visiting individuals only","Melanostoma_ mellinum","Species","syrphids",7,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Malus_domestica_Netherlands_2014","E33","sweepnet, flower visiting individuals only","Melanostoma_ scalare","Species","syrphids",1,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Malus_domestica_Netherlands_2014","E33","sweepnet, flower visiting individuals only","Neocnemodon_ vitripennis","Species","syrphids",1,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Malus_domestica_Netherlands_2014","E33","sweepnet, flower visiting individuals only","Platycheirus_ albimanus","Species","syrphids",1,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Malus_domestica_Netherlands_2014","E33","sweepnet, flower visiting individuals only","Syrphus_ ribesii","Species","syrphids",2,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Malus_domestica_Netherlands_2014","E4","sweepnet, flower visiting individuals only","Andrena_ carantonica","Species","other_wild_bees",3,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Malus_domestica_Netherlands_2014","E4","sweepnet, flower visiting individuals only","Andrena_ chrysosceles","Species","other_wild_bees",1,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Malus_domestica_Netherlands_2014","E4","sweepnet, flower visiting individuals only","Andrena_ dorsata","Species","other_wild_bees",1,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Malus_domestica_Netherlands_2014","E4","sweepnet, flower visiting individuals only","Andrena_ fulva","Species","other_wild_bees",1,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Malus_domestica_Netherlands_2014","E4","sweepnet, flower visiting individuals only","Andrena_ haemorrhoa","Species","other_wild_bees",12,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Malus_domestica_Netherlands_2014","E4","sweepnet, flower visiting individuals only","Anthophora_ plumipes","Species","other_wild_bees",1,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Malus_domestica_Netherlands_2014","E4","sweepnet, flower visiting individuals only","Apis_ mellifera","Species","honeybees",23,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Malus_domestica_Netherlands_2014","E4","sweepnet, flower visiting individuals only","Bombus_ hortorum","Species","bumblebees",1,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Malus_domestica_Netherlands_2014","E4","sweepnet, flower visiting individuals only","Bombus_ hypnorum","Species","bumblebees",4,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Malus_domestica_Netherlands_2014","E4","sweepnet, flower visiting individuals only","Bombus_ lapidarius","Species","bumblebees",12,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Malus_domestica_Netherlands_2014","E4","sweepnet, flower visiting individuals only","Bombus_ pascuorum","Species","bumblebees",4,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Malus_domestica_Netherlands_2014","E4","sweepnet, flower visiting individuals only","Bombus_ pratorum","Species","bumblebees",1,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Malus_domestica_Netherlands_2014","E4","sweepnet, flower visiting individuals only","Bombus_ terrestris-complex","Species","bumblebees",22,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Malus_domestica_Netherlands_2014","E4","sweepnet, flower visiting individuals only","Eristalis_ pertinax","Species","syrphids",21,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Malus_domestica_Netherlands_2014","E4","sweepnet, flower visiting individuals only","Helophilus_ pendulus","Species","syrphids",3,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Malus_domestica_Netherlands_2014","E4","sweepnet, flower visiting individuals only","Melanostoma_ mellinum","Species","syrphids",13,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Malus_domestica_Netherlands_2014","E4","sweepnet, flower visiting individuals only","Neocnemodon_ vitripennis","Species","syrphids",3,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Malus_domestica_Netherlands_2014","E4","sweepnet, flower visiting individuals only","Osmia_ bicornis","Species","other_wild_bees",3,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Malus_domestica_Netherlands_2014","E4","sweepnet, flower visiting individuals only","Platycheirus_ albimanus","Species","syrphids",19,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Malus_domestica_Netherlands_2014","E4","sweepnet, flower visiting individuals only","Platycheirus_ ambiguus","Species","syrphids",1,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Malus_domestica_Netherlands_2014","E4","sweepnet, flower visiting individuals only","Platycheirus_ scutatus","Species","syrphids",2,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Malus_domestica_Netherlands_2014","E6","sweepnet, flower visiting individuals only","Andrena_ carantonica","Species","other_wild_bees",2,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Malus_domestica_Netherlands_2014","E6","sweepnet, flower visiting individuals only","Andrena_ helvola","Species","other_wild_bees",1,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Malus_domestica_Netherlands_2014","E6","sweepnet, flower visiting individuals only","Apis_ mellifera","Species","honeybees",10,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Malus_domestica_Netherlands_2014","E6","sweepnet, flower visiting individuals only","Apis_ mellifera","Species","honeybees",12,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Malus_domestica_Netherlands_2014","E6","sweepnet, flower visiting individuals only","Bombus_ lapidarius","Species","bumblebees",4,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Malus_domestica_Netherlands_2014","E6","sweepnet, flower visiting individuals only","Bombus_ pascuorum","Species","bumblebees",1,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Malus_domestica_Netherlands_2014","E6","sweepnet, flower visiting individuals only","Bombus_ pratorum","Species","bumblebees",1,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Malus_domestica_Netherlands_2014","E6","sweepnet, flower visiting individuals only","Bombus_ terrestris-complex","Species","bumblebees",5,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Malus_domestica_Netherlands_2014","E6","sweepnet, flower visiting individuals only","Dasysyrphus_ albostriatus","Species","syrphids",1,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Malus_domestica_Netherlands_2014","E6","sweepnet, flower visiting individuals only","Epistrophe_ nitidicollis","Species","syrphids",2,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Malus_domestica_Netherlands_2014","E6","sweepnet, flower visiting individuals only","Eristalis_ nemorum","Species","syrphids",1,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Malus_domestica_Netherlands_2014","E6","sweepnet, flower visiting individuals only","Eristalis_ pertinax","Species","syrphids",29,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Malus_domestica_Netherlands_2014","E6","sweepnet, flower visiting individuals only","Eristalis_ similis","Species","syrphids",3,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Malus_domestica_Netherlands_2014","E6","sweepnet, flower visiting individuals only","Eupeodes_ lapponicus","Species","syrphids",1,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Malus_domestica_Netherlands_2014","E6","sweepnet, flower visiting individuals only","Helophilus_ pendulus","Species","syrphids",5,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Malus_domestica_Netherlands_2014","E6","sweepnet, flower visiting individuals only","Melanostoma_ mellinum","Species","syrphids",5,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Malus_domestica_Netherlands_2014","E6","sweepnet, flower visiting individuals only","Neocnemodon_ vitripennis","Species","syrphids",2,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Malus_domestica_Netherlands_2014","E6","sweepnet, flower visiting individuals only","Osmia_ bicornis","Species","other_wild_bees",3,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Malus_domestica_Netherlands_2014","E6","sweepnet, flower visiting individuals only","Platycheirus_ albimanus","Species","syrphids",5,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Malus_domestica_Netherlands_2014","E6","sweepnet, flower visiting individuals only","Syrphus_ ribesii","Species","syrphids",1,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Malus_domestica_Netherlands_2014","E6","sweepnet, flower visiting individuals only","Xylota_ segnis","Species","syrphids",1,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Malus_domestica_Netherlands_2014","E7","sweepnet, flower visiting individuals only","Andrena_ cf. fulva","Species","other_wild_bees",1,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Malus_domestica_Netherlands_2014","E7","sweepnet, flower visiting individuals only","Andrena_ haemorrhoa","Species","other_wild_bees",3,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Malus_domestica_Netherlands_2014","E7","sweepnet, flower visiting individuals only","Apis_ mellifera","Species","honeybees",18,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Malus_domestica_Netherlands_2014","E7","sweepnet, flower visiting individuals only","Apis_ mellifera","Species","honeybees",6,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Malus_domestica_Netherlands_2014","E7","sweepnet, flower visiting individuals only","Bombus_ lapidarius","Species","bumblebees",4,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Malus_domestica_Netherlands_2014","E7","sweepnet, flower visiting individuals only","Bombus_ pascuorum","Species","bumblebees",4,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Malus_domestica_Netherlands_2014","E7","sweepnet, flower visiting individuals only","Bombus_ terrestris-complex","Species","bumblebees",13,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Malus_domestica_Netherlands_2014","E7","sweepnet, flower visiting individuals only","Eristalis_ pertinax","Species","syrphids",5,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Malus_domestica_Netherlands_2014","E7","sweepnet, flower visiting individuals only","Eristalis_ similis","Species","syrphids",2,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Malus_domestica_Netherlands_2014","E7","sweepnet, flower visiting individuals only","Eristalis_ spec.","Species","syrphids",2,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Malus_domestica_Netherlands_2014","E7","sweepnet, flower visiting individuals only","Eristalis_ tenax","Species","syrphids",4,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Malus_domestica_Netherlands_2014","E7","sweepnet, flower visiting individuals only","Helophilus_ pendulus","Species","syrphids",1,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Malus_domestica_Netherlands_2014","E7","sweepnet, flower visiting individuals only","Melanostoma_ mellinum","Species","syrphids",12,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Malus_domestica_Netherlands_2014","E7","sweepnet, flower visiting individuals only","Melanostoma_ scalare","Species","syrphids",1,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Malus_domestica_Netherlands_2014","E7","sweepnet, flower visiting individuals only","Platycheirus_ albimanus","Species","syrphids",1,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Malus_domestica_Netherlands_2014","E7","sweepnet, flower visiting individuals only","Platycheirus_ cf. scutatus","Species","syrphids",1,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Malus_domestica_Netherlands_2014","E8","sweepnet, flower visiting individuals only","Apis_ mellifera","Species","honeybees",21,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Malus_domestica_Netherlands_2014","E8","sweepnet, flower visiting individuals only","Bombus_ lapidarius","Species","bumblebees",1,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Malus_domestica_Netherlands_2014","E8","sweepnet, flower visiting individuals only","Bombus_ terrestris-complex","Species","bumblebees",6,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Malus_domestica_Netherlands_2014","E8","sweepnet, flower visiting individuals only","Eristalis_ arbustorum","Species","syrphids",2,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Malus_domestica_Netherlands_2014","E8","sweepnet, flower visiting individuals only","Eristalis_ pertinax","Species","syrphids",8,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Malus_domestica_Netherlands_2014","E8","sweepnet, flower visiting individuals only","Melanostoma_ mellinum","Species","syrphids",2,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Malus_domestica_Netherlands_2014","E8","sweepnet, flower visiting individuals only","Neocnemodon_ vitripennis","Species","syrphids",1,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Malus_domestica_Netherlands_2014","E8","sweepnet, flower visiting individuals only","Osmia_ bicornis","Species","other_wild_bees",1,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Malus_domestica_Netherlands_2014","E8","sweepnet, flower visiting individuals only","Syritta_ pipiens","Species","syrphids",1,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Malus_domestica_Netherlands_2014","E9","sweepnet, flower visiting individuals only","Andrena_ carantonica","Species","other_wild_bees",1,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Malus_domestica_Netherlands_2014","E9","sweepnet, flower visiting individuals only","Andrena_ haemorrhoa","Species","other_wild_bees",1,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Malus_domestica_Netherlands_2014","E9","sweepnet, flower visiting individuals only","Andrena_ nitida","Species","other_wild_bees",1,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Malus_domestica_Netherlands_2014","E9","sweepnet, flower visiting individuals only","Apis_ mellifera","Species","honeybees",24,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Malus_domestica_Netherlands_2014","E9","sweepnet, flower visiting individuals only","Bombus_ lapidarius","Species","bumblebees",2,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Malus_domestica_Netherlands_2014","E9","sweepnet, flower visiting individuals only","Bombus_ pascuorum","Species","bumblebees",1,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Malus_domestica_Netherlands_2014","E9","sweepnet, flower visiting individuals only","Bombus_ pratorum","Species","bumblebees",1,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Malus_domestica_Netherlands_2014","E9","sweepnet, flower visiting individuals only","Bombus_ terrestris-complex","Species","bumblebees",15,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Malus_domestica_Netherlands_2014","E9","sweepnet, flower visiting individuals only","Epistrophe_ nitidicollis","Species","syrphids",1,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Malus_domestica_Netherlands_2014","E9","sweepnet, flower visiting individuals only","Eristalis_ pertinax","Species","syrphids",7,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Malus_domestica_Netherlands_2014","E9","sweepnet, flower visiting individuals only","Eristalis_ similis","Species","syrphids",1,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Malus_domestica_Netherlands_2014","E9","sweepnet, flower visiting individuals only","Eristalis_ tenax","Species","syrphids",1,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Malus_domestica_Netherlands_2014","E9","sweepnet, flower visiting individuals only","Helophilus_ pendulus","Species","syrphids",1,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Malus_domestica_Netherlands_2014","E9","sweepnet, flower visiting individuals only","Melanostoma_ mellinum","Species","syrphids",17,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Malus_domestica_Netherlands_2014","E9","sweepnet, flower visiting individuals only","Osmia_ bicornis","Species","other_wild_bees",4,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Malus_domestica_Netherlands_2014","E9","sweepnet, flower visiting individuals only","Platycheirus_ albimanus","Species","syrphids",5,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Malus_domestica_Netherlands_2014","E9","sweepnet, flower visiting individuals only","Syrphus_ ribesii","Species","syrphids",1,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Pyrus_communis_Netherlands_2010","Zaltbommel_P1","transects","Andrena_carantonica","species","other_wild_bees",8,NA,NA,NA,"Two surveys were conducted in several (25 m long) transects per field (mean number of transects +- SE: 8.5 +- 1.0 for apple and 9.7 +- 0.5 for pear), 10-min per transect",NA
"David_Kleijn_Pyrus_communis_Netherlands_2010","Zaltbommel_P1","transects","Andrena_carantonica","species","other_wild_bees",2,NA,NA,NA,"Two surveys were conducted in several (25 m long) transects per field (mean number of transects +- SE: 8.5 +- 1.0 for apple and 9.7 +- 0.5 for pear), 10-min per transect",NA
"David_Kleijn_Pyrus_communis_Netherlands_2010","Zaltbommel_P2","transects","Andrena_carantonica","species","other_wild_bees",2,NA,NA,NA,"Two surveys were conducted in several (25 m long) transects per field (mean number of transects +- SE: 8.5 +- 1.0 for apple and 9.7 +- 0.5 for pear), 10-min per transect",NA
"David_Kleijn_Pyrus_communis_Netherlands_2010","Zaltbommel_P2","transects","Andrena_carantonica","species","other_wild_bees",6,NA,NA,NA,"Two surveys were conducted in several (25 m long) transects per field (mean number of transects +- SE: 8.5 +- 1.0 for apple and 9.7 +- 0.5 for pear), 10-min per transect",NA
"David_Kleijn_Pyrus_communis_Netherlands_2010","Hurwenen_P3","transects","Andrena_carantonica","species","other_wild_bees",2,NA,NA,NA,"Two surveys were conducted in several (25 m long) transects per field (mean number of transects +- SE: 8.5 +- 1.0 for apple and 9.7 +- 0.5 for pear), 10-min per transect",NA
"David_Kleijn_Pyrus_communis_Netherlands_2010","Hurwenen_P3","transects","Andrena_carantonica","species","other_wild_bees",5,NA,NA,NA,"Two surveys were conducted in several (25 m long) transects per field (mean number of transects +- SE: 8.5 +- 1.0 for apple and 9.7 +- 0.5 for pear), 10-min per transect",NA
"David_Kleijn_Pyrus_communis_Netherlands_2010","Heeselt_P4","transects","Andrena_carantonica","species","other_wild_bees",4,NA,NA,NA,"Two surveys were conducted in several (25 m long) transects per field (mean number of transects +- SE: 8.5 +- 1.0 for apple and 9.7 +- 0.5 for pear), 10-min per transect",NA
"David_Kleijn_Pyrus_communis_Netherlands_2010","Heeselt_P4","transects","Andrena_carantonica","species","other_wild_bees",3,NA,NA,NA,"Two surveys were conducted in several (25 m long) transects per field (mean number of transects +- SE: 8.5 +- 1.0 for apple and 9.7 +- 0.5 for pear), 10-min per transect",NA
"David_Kleijn_Pyrus_communis_Netherlands_2010","Dreumel_P5","transects","Andrena_carantonica","species","other_wild_bees",1,NA,NA,NA,"Two surveys were conducted in several (25 m long) transects per field (mean number of transects +- SE: 8.5 +- 1.0 for apple and 9.7 +- 0.5 for pear), 10-min per transect",NA
"David_Kleijn_Pyrus_communis_Netherlands_2010","Echteld_P6","transects","Andrena_carantonica","species","other_wild_bees",2,NA,NA,NA,"Two surveys were conducted in several (25 m long) transects per field (mean number of transects +- SE: 8.5 +- 1.0 for apple and 9.7 +- 0.5 for pear), 10-min per transect",NA
"David_Kleijn_Pyrus_communis_Netherlands_2010","Zaltbommel_P1","transects","Andrena_chrysosceles","species","other_wild_bees",4,NA,NA,NA,"Two surveys were conducted in several (25 m long) transects per field (mean number of transects +- SE: 8.5 +- 1.0 for apple and 9.7 +- 0.5 for pear), 10-min per transect",NA
"David_Kleijn_Pyrus_communis_Netherlands_2010","Hurwenen_P3","transects","Andrena_chrysosceles","species","other_wild_bees",4,NA,NA,NA,"Two surveys were conducted in several (25 m long) transects per field (mean number of transects +- SE: 8.5 +- 1.0 for apple and 9.7 +- 0.5 for pear), 10-min per transect",NA
"David_Kleijn_Pyrus_communis_Netherlands_2010","Hurwenen_P3","transects","Andrena_chrysosceles","species","other_wild_bees",1,NA,NA,NA,"Two surveys were conducted in several (25 m long) transects per field (mean number of transects +- SE: 8.5 +- 1.0 for apple and 9.7 +- 0.5 for pear), 10-min per transect",NA
"David_Kleijn_Pyrus_communis_Netherlands_2010","Heeselt_P4","transects","Andrena_chrysosceles","species","other_wild_bees",1,NA,NA,NA,"Two surveys were conducted in several (25 m long) transects per field (mean number of transects +- SE: 8.5 +- 1.0 for apple and 9.7 +- 0.5 for pear), 10-min per transect",NA
"David_Kleijn_Pyrus_communis_Netherlands_2010","Heeselt_P4","transects","Andrena_chrysosceles","species","other_wild_bees",10,NA,NA,NA,"Two surveys were conducted in several (25 m long) transects per field (mean number of transects +- SE: 8.5 +- 1.0 for apple and 9.7 +- 0.5 for pear), 10-min per transect",NA
"David_Kleijn_Pyrus_communis_Netherlands_2010","Dreumel_P5","transects","Andrena_chrysosceles","species","other_wild_bees",1,NA,NA,NA,"Two surveys were conducted in several (25 m long) transects per field (mean number of transects +- SE: 8.5 +- 1.0 for apple and 9.7 +- 0.5 for pear), 10-min per transect",NA
"David_Kleijn_Pyrus_communis_Netherlands_2010","Echteld_P6","transects","Andrena_chrysosceles","species","other_wild_bees",1,NA,NA,NA,"Two surveys were conducted in several (25 m long) transects per field (mean number of transects +- SE: 8.5 +- 1.0 for apple and 9.7 +- 0.5 for pear), 10-min per transect",NA
"David_Kleijn_Pyrus_communis_Netherlands_2010","Echteld_P6","transects","Andrena_chrysosceles","species","other_wild_bees",2,NA,NA,NA,"Two surveys were conducted in several (25 m long) transects per field (mean number of transects +- SE: 8.5 +- 1.0 for apple and 9.7 +- 0.5 for pear), 10-min per transect",NA
"David_Kleijn_Pyrus_communis_Netherlands_2010","Zaltbommel_P2","transects","Andrena_dorsata","species","other_wild_bees",1,NA,NA,NA,"Two surveys were conducted in several (25 m long) transects per field (mean number of transects +- SE: 8.5 +- 1.0 for apple and 9.7 +- 0.5 for pear), 10-min per transect",NA
"David_Kleijn_Pyrus_communis_Netherlands_2010","Heeselt_P4","transects","Andrena_dorsata","species","other_wild_bees",2,NA,NA,NA,"Two surveys were conducted in several (25 m long) transects per field (mean number of transects +- SE: 8.5 +- 1.0 for apple and 9.7 +- 0.5 for pear), 10-min per transect",NA
"David_Kleijn_Pyrus_communis_Netherlands_2010","Dreumel_P5","transects","Andrena_dorsata","species","other_wild_bees",1,NA,NA,NA,"Two surveys were conducted in several (25 m long) transects per field (mean number of transects +- SE: 8.5 +- 1.0 for apple and 9.7 +- 0.5 for pear), 10-min per transect",NA
"David_Kleijn_Pyrus_communis_Netherlands_2010","Dreumel_P5","transects","Andrena_dorsata","species","other_wild_bees",1,NA,NA,NA,"Two surveys were conducted in several (25 m long) transects per field (mean number of transects +- SE: 8.5 +- 1.0 for apple and 9.7 +- 0.5 for pear), 10-min per transect",NA
"David_Kleijn_Pyrus_communis_Netherlands_2010","Zaltbommel_P1","transects","Andrena_flavipes","species","other_wild_bees",1,NA,NA,NA,"Two surveys were conducted in several (25 m long) transects per field (mean number of transects +- SE: 8.5 +- 1.0 for apple and 9.7 +- 0.5 for pear), 10-min per transect",NA
"David_Kleijn_Pyrus_communis_Netherlands_2010","Zaltbommel_P1","transects","Andrena_flavipes","species","other_wild_bees",6,NA,NA,NA,"Two surveys were conducted in several (25 m long) transects per field (mean number of transects +- SE: 8.5 +- 1.0 for apple and 9.7 +- 0.5 for pear), 10-min per transect",NA
"David_Kleijn_Pyrus_communis_Netherlands_2010","Zaltbommel_P2","transects","Andrena_flavipes","species","other_wild_bees",5,NA,NA,NA,"Two surveys were conducted in several (25 m long) transects per field (mean number of transects +- SE: 8.5 +- 1.0 for apple and 9.7 +- 0.5 for pear), 10-min per transect",NA
"David_Kleijn_Pyrus_communis_Netherlands_2010","Zaltbommel_P2","transects","Andrena_flavipes","species","other_wild_bees",4,NA,NA,NA,"Two surveys were conducted in several (25 m long) transects per field (mean number of transects +- SE: 8.5 +- 1.0 for apple and 9.7 +- 0.5 for pear), 10-min per transect",NA
"David_Kleijn_Pyrus_communis_Netherlands_2010","Hurwenen_P3","transects","Andrena_flavipes","species","other_wild_bees",2,NA,NA,NA,"Two surveys were conducted in several (25 m long) transects per field (mean number of transects +- SE: 8.5 +- 1.0 for apple and 9.7 +- 0.5 for pear), 10-min per transect",NA
"David_Kleijn_Pyrus_communis_Netherlands_2010","Heeselt_P4","transects","Andrena_flavipes","species","other_wild_bees",1,NA,NA,NA,"Two surveys were conducted in several (25 m long) transects per field (mean number of transects +- SE: 8.5 +- 1.0 for apple and 9.7 +- 0.5 for pear), 10-min per transect",NA
"David_Kleijn_Pyrus_communis_Netherlands_2010","Dreumel_P5","transects","Andrena_flavipes","species","other_wild_bees",2,NA,NA,NA,"Two surveys were conducted in several (25 m long) transects per field (mean number of transects +- SE: 8.5 +- 1.0 for apple and 9.7 +- 0.5 for pear), 10-min per transect",NA
"David_Kleijn_Pyrus_communis_Netherlands_2010","Dreumel_P5","transects","Andrena_flavipes","species","other_wild_bees",2,NA,NA,NA,"Two surveys were conducted in several (25 m long) transects per field (mean number of transects +- SE: 8.5 +- 1.0 for apple and 9.7 +- 0.5 for pear), 10-min per transect",NA
"David_Kleijn_Pyrus_communis_Netherlands_2010","Zaltbommel_P1","transects","Andrena_fulva","species","other_wild_bees",1,NA,NA,NA,"Two surveys were conducted in several (25 m long) transects per field (mean number of transects +- SE: 8.5 +- 1.0 for apple and 9.7 +- 0.5 for pear), 10-min per transect",NA
"David_Kleijn_Pyrus_communis_Netherlands_2010","Dreumel_P5","transects","Andrena_fulva","species","other_wild_bees",1,NA,NA,NA,"Two surveys were conducted in several (25 m long) transects per field (mean number of transects +- SE: 8.5 +- 1.0 for apple and 9.7 +- 0.5 for pear), 10-min per transect",NA
"David_Kleijn_Pyrus_communis_Netherlands_2010","Dreumel_P5","transects","Andrena_gravida","species","other_wild_bees",1,NA,NA,NA,"Two surveys were conducted in several (25 m long) transects per field (mean number of transects +- SE: 8.5 +- 1.0 for apple and 9.7 +- 0.5 for pear), 10-min per transect",NA
"David_Kleijn_Pyrus_communis_Netherlands_2010","Zaltbommel_P1","transects","Andrena_haemorrhoa","species","other_wild_bees",1,NA,NA,NA,"Two surveys were conducted in several (25 m long) transects per field (mean number of transects +- SE: 8.5 +- 1.0 for apple and 9.7 +- 0.5 for pear), 10-min per transect",NA
"David_Kleijn_Pyrus_communis_Netherlands_2010","Zaltbommel_P2","transects","Andrena_haemorrhoa","species","other_wild_bees",1,NA,NA,NA,"Two surveys were conducted in several (25 m long) transects per field (mean number of transects +- SE: 8.5 +- 1.0 for apple and 9.7 +- 0.5 for pear), 10-min per transect",NA
"David_Kleijn_Pyrus_communis_Netherlands_2010","Hurwenen_P3","transects","Andrena_haemorrhoa","species","other_wild_bees",2,NA,NA,NA,"Two surveys were conducted in several (25 m long) transects per field (mean number of transects +- SE: 8.5 +- 1.0 for apple and 9.7 +- 0.5 for pear), 10-min per transect",NA
"David_Kleijn_Pyrus_communis_Netherlands_2010","Heeselt_P4","transects","Andrena_haemorrhoa","species","other_wild_bees",4,NA,NA,NA,"Two surveys were conducted in several (25 m long) transects per field (mean number of transects +- SE: 8.5 +- 1.0 for apple and 9.7 +- 0.5 for pear), 10-min per transect",NA
"David_Kleijn_Pyrus_communis_Netherlands_2010","Heeselt_P4","transects","Andrena_haemorrhoa","species","other_wild_bees",1,NA,NA,NA,"Two surveys were conducted in several (25 m long) transects per field (mean number of transects +- SE: 8.5 +- 1.0 for apple and 9.7 +- 0.5 for pear), 10-min per transect",NA
"David_Kleijn_Pyrus_communis_Netherlands_2010","Dreumel_P5","transects","Andrena_haemorrhoa","species","other_wild_bees",2,NA,NA,NA,"Two surveys were conducted in several (25 m long) transects per field (mean number of transects +- SE: 8.5 +- 1.0 for apple and 9.7 +- 0.5 for pear), 10-min per transect",NA
"David_Kleijn_Pyrus_communis_Netherlands_2010","Dreumel_P5","transects","Andrena_haemorrhoa","species","other_wild_bees",1,NA,NA,NA,"Two surveys were conducted in several (25 m long) transects per field (mean number of transects +- SE: 8.5 +- 1.0 for apple and 9.7 +- 0.5 for pear), 10-min per transect",NA
"David_Kleijn_Pyrus_communis_Netherlands_2010","Echteld_P6","transects","Andrena_haemorrhoa","species","other_wild_bees",4,NA,NA,NA,"Two surveys were conducted in several (25 m long) transects per field (mean number of transects +- SE: 8.5 +- 1.0 for apple and 9.7 +- 0.5 for pear), 10-min per transect",NA
"David_Kleijn_Pyrus_communis_Netherlands_2010","Echteld_P6","transects","Andrena_haemorrhoa","species","other_wild_bees",4,NA,NA,NA,"Two surveys were conducted in several (25 m long) transects per field (mean number of transects +- SE: 8.5 +- 1.0 for apple and 9.7 +- 0.5 for pear), 10-min per transect",NA
"David_Kleijn_Pyrus_communis_Netherlands_2010","Zaltbommel_P1","transects","Andrena_minutula_aggregate","species","other_wild_bees",2,NA,NA,NA,"Two surveys were conducted in several (25 m long) transects per field (mean number of transects +- SE: 8.5 +- 1.0 for apple and 9.7 +- 0.5 for pear), 10-min per transect",NA
"David_Kleijn_Pyrus_communis_Netherlands_2010","Zaltbommel_P2","transects","Andrena_nitida","species","other_wild_bees",1,NA,NA,NA,"Two surveys were conducted in several (25 m long) transects per field (mean number of transects +- SE: 8.5 +- 1.0 for apple and 9.7 +- 0.5 for pear), 10-min per transect",NA
"David_Kleijn_Pyrus_communis_Netherlands_2010","Hurwenen_P3","transects","Andrena_nitida","species","other_wild_bees",1,NA,NA,NA,"Two surveys were conducted in several (25 m long) transects per field (mean number of transects +- SE: 8.5 +- 1.0 for apple and 9.7 +- 0.5 for pear), 10-min per transect",NA
"David_Kleijn_Pyrus_communis_Netherlands_2010","Zaltbommel_P2","transects","Anthophora_plumipes","species","other_wild_bees",1,NA,NA,NA,"Two surveys were conducted in several (25 m long) transects per field (mean number of transects +- SE: 8.5 +- 1.0 for apple and 9.7 +- 0.5 for pear), 10-min per transect",NA
"David_Kleijn_Pyrus_communis_Netherlands_2010","Hurwenen_P3","transects","Andrena_sp.","genus","other_wild_bees",1,NA,NA,NA,"Two surveys were conducted in several (25 m long) transects per field (mean number of transects +- SE: 8.5 +- 1.0 for apple and 9.7 +- 0.5 for pear), 10-min per transect",NA
"David_Kleijn_Pyrus_communis_Netherlands_2010","Heeselt_P4","transects","Andrena_sp.","genus","other_wild_bees",1,NA,NA,NA,"Two surveys were conducted in several (25 m long) transects per field (mean number of transects +- SE: 8.5 +- 1.0 for apple and 9.7 +- 0.5 for pear), 10-min per transect",NA
"David_Kleijn_Pyrus_communis_Netherlands_2010","Heeselt_P4","transects","Andrena_sp.","genus","other_wild_bees",1,NA,NA,NA,"Two surveys were conducted in several (25 m long) transects per field (mean number of transects +- SE: 8.5 +- 1.0 for apple and 9.7 +- 0.5 for pear), 10-min per transect",NA
"David_Kleijn_Pyrus_communis_Netherlands_2010","Zaltbommel_P1","transects","Apis_mellifera","species","honeybees",1,NA,NA,NA,"Two surveys were conducted in several (25 m long) transects per field (mean number of transects +- SE: 8.5 +- 1.0 for apple and 9.7 +- 0.5 for pear), 10-min per transect",NA
"David_Kleijn_Pyrus_communis_Netherlands_2010","Zaltbommel_P2","transects","Apis_mellifera","species","honeybees",3,NA,NA,NA,"Two surveys were conducted in several (25 m long) transects per field (mean number of transects +- SE: 8.5 +- 1.0 for apple and 9.7 +- 0.5 for pear), 10-min per transect",NA
"David_Kleijn_Pyrus_communis_Netherlands_2010","Zaltbommel_P2","transects","Apis_mellifera","species","honeybees",1,NA,NA,NA,"Two surveys were conducted in several (25 m long) transects per field (mean number of transects +- SE: 8.5 +- 1.0 for apple and 9.7 +- 0.5 for pear), 10-min per transect",NA
"David_Kleijn_Pyrus_communis_Netherlands_2010","Hurwenen_P3","transects","Apis_mellifera","species","honeybees",4,NA,NA,NA,"Two surveys were conducted in several (25 m long) transects per field (mean number of transects +- SE: 8.5 +- 1.0 for apple and 9.7 +- 0.5 for pear), 10-min per transect",NA
"David_Kleijn_Pyrus_communis_Netherlands_2010","Heeselt_P4","transects","Apis_mellifera","species","honeybees",3,NA,NA,NA,"Two surveys were conducted in several (25 m long) transects per field (mean number of transects +- SE: 8.5 +- 1.0 for apple and 9.7 +- 0.5 for pear), 10-min per transect",NA
"David_Kleijn_Pyrus_communis_Netherlands_2010","Heeselt_P4","transects","Apis_mellifera","species","honeybees",4,NA,NA,NA,"Two surveys were conducted in several (25 m long) transects per field (mean number of transects +- SE: 8.5 +- 1.0 for apple and 9.7 +- 0.5 for pear), 10-min per transect",NA
"David_Kleijn_Pyrus_communis_Netherlands_2010","Echteld_P6","transects","Apis_mellifera","species","honeybees",4,NA,NA,NA,"Two surveys were conducted in several (25 m long) transects per field (mean number of transects +- SE: 8.5 +- 1.0 for apple and 9.7 +- 0.5 for pear), 10-min per transect",NA
"David_Kleijn_Pyrus_communis_Netherlands_2010","Echteld_P6","transects","Apis_mellifera","species","honeybees",6,NA,NA,NA,"Two surveys were conducted in several (25 m long) transects per field (mean number of transects +- SE: 8.5 +- 1.0 for apple and 9.7 +- 0.5 for pear), 10-min per transect",NA
"David_Kleijn_Pyrus_communis_Netherlands_2010","Zaltbommel_P1","transects","Bombus_hypnorum","species","bumblebees",1,NA,NA,NA,"Two surveys were conducted in several (25 m long) transects per field (mean number of transects +- SE: 8.5 +- 1.0 for apple and 9.7 +- 0.5 for pear), 10-min per transect",NA
"David_Kleijn_Pyrus_communis_Netherlands_2010","Zaltbommel_P1","transects","Bombus_lucorum_terrestris","species","bumblebees",4,NA,NA,NA,"Two surveys were conducted in several (25 m long) transects per field (mean number of transects +- SE: 8.5 +- 1.0 for apple and 9.7 +- 0.5 for pear), 10-min per transect",NA
"David_Kleijn_Pyrus_communis_Netherlands_2010","Zaltbommel_P2","transects","Bombus_lucorum_terrestris","species","bumblebees",2,NA,NA,NA,"Two surveys were conducted in several (25 m long) transects per field (mean number of transects +- SE: 8.5 +- 1.0 for apple and 9.7 +- 0.5 for pear), 10-min per transect",NA
"David_Kleijn_Pyrus_communis_Netherlands_2010","Zaltbommel_P2","transects","Bombus_lucorum_terrestris","species","bumblebees",4,NA,NA,NA,"Two surveys were conducted in several (25 m long) transects per field (mean number of transects +- SE: 8.5 +- 1.0 for apple and 9.7 +- 0.5 for pear), 10-min per transect",NA
"David_Kleijn_Pyrus_communis_Netherlands_2010","Hurwenen_P3","transects","Bombus_lucorum_terrestris","species","bumblebees",1,NA,NA,NA,"Two surveys were conducted in several (25 m long) transects per field (mean number of transects +- SE: 8.5 +- 1.0 for apple and 9.7 +- 0.5 for pear), 10-min per transect",NA
"David_Kleijn_Pyrus_communis_Netherlands_2010","Heeselt_P4","transects","Bombus_lucorum_terrestris","species","bumblebees",1,NA,NA,NA,"Two surveys were conducted in several (25 m long) transects per field (mean number of transects +- SE: 8.5 +- 1.0 for apple and 9.7 +- 0.5 for pear), 10-min per transect",NA
"David_Kleijn_Pyrus_communis_Netherlands_2010","Heeselt_P4","transects","Bombus_lucorum_terrestris","species","bumblebees",1,NA,NA,NA,"Two surveys were conducted in several (25 m long) transects per field (mean number of transects +- SE: 8.5 +- 1.0 for apple and 9.7 +- 0.5 for pear), 10-min per transect",NA
"David_Kleijn_Pyrus_communis_Netherlands_2010","Echteld_P6","transects","Bombus_lucorum_terrestris","species","bumblebees",1,NA,NA,NA,"Two surveys were conducted in several (25 m long) transects per field (mean number of transects +- SE: 8.5 +- 1.0 for apple and 9.7 +- 0.5 for pear), 10-min per transect",NA
"David_Kleijn_Pyrus_communis_Netherlands_2010","Zaltbommel_P1","transects","Bombus_lapidarius","species","bumblebees",3,NA,NA,NA,"Two surveys were conducted in several (25 m long) transects per field (mean number of transects +- SE: 8.5 +- 1.0 for apple and 9.7 +- 0.5 for pear), 10-min per transect",NA
"David_Kleijn_Pyrus_communis_Netherlands_2010","Zaltbommel_P1","transects","Bombus_lapidarius","species","bumblebees",1,NA,NA,NA,"Two surveys were conducted in several (25 m long) transects per field (mean number of transects +- SE: 8.5 +- 1.0 for apple and 9.7 +- 0.5 for pear), 10-min per transect",NA
"David_Kleijn_Pyrus_communis_Netherlands_2010","Heeselt_P4","transects","Bombus_pratorum","species","bumblebees",1,NA,NA,NA,"Two surveys were conducted in several (25 m long) transects per field (mean number of transects +- SE: 8.5 +- 1.0 for apple and 9.7 +- 0.5 for pear), 10-min per transect",NA
"David_Kleijn_Pyrus_communis_Netherlands_2010","Zaltbommel_P1","transects","Bombus_pascuorum","species","bumblebees",2,NA,NA,NA,"Two surveys were conducted in several (25 m long) transects per field (mean number of transects +- SE: 8.5 +- 1.0 for apple and 9.7 +- 0.5 for pear), 10-min per transect",NA
"David_Kleijn_Pyrus_communis_Netherlands_2010","Zaltbommel_P2","transects","Bombus_pascuorum","species","bumblebees",5,NA,NA,NA,"Two surveys were conducted in several (25 m long) transects per field (mean number of transects +- SE: 8.5 +- 1.0 for apple and 9.7 +- 0.5 for pear), 10-min per transect",NA
"David_Kleijn_Pyrus_communis_Netherlands_2010","Zaltbommel_P1","transects","Bombus_vestalis","species","bumblebees",1,NA,NA,NA,"Two surveys were conducted in several (25 m long) transects per field (mean number of transects +- SE: 8.5 +- 1.0 for apple and 9.7 +- 0.5 for pear), 10-min per transect",NA
"David_Kleijn_Pyrus_communis_Netherlands_2010","Hurwenen_P3","transects","Bombus_spp.","genus","bumblebees",1,NA,NA,NA,"Two surveys were conducted in several (25 m long) transects per field (mean number of transects +- SE: 8.5 +- 1.0 for apple and 9.7 +- 0.5 for pear), 10-min per transect",NA
"David_Kleijn_Pyrus_communis_Netherlands_2010","Heeselt_P4","transects","Episyrphus_balteatus","species","syrphids",1,NA,NA,NA,"Two surveys were conducted in several (25 m long) transects per field (mean number of transects +- SE: 8.5 +- 1.0 for apple and 9.7 +- 0.5 for pear), 10-min per transect",NA
"David_Kleijn_Pyrus_communis_Netherlands_2010","Zaltbommel_P1","transects","Eristalinus_sepulchralis","species","other_flies",1,NA,NA,NA,"Two surveys were conducted in several (25 m long) transects per field (mean number of transects +- SE: 8.5 +- 1.0 for apple and 9.7 +- 0.5 for pear), 10-min per transect",NA
"David_Kleijn_Pyrus_communis_Netherlands_2010","Zaltbommel_P1","transects","Eristalis_intricaria","species","syrphids",5,NA,NA,NA,"Two surveys were conducted in several (25 m long) transects per field (mean number of transects +- SE: 8.5 +- 1.0 for apple and 9.7 +- 0.5 for pear), 10-min per transect",NA
"David_Kleijn_Pyrus_communis_Netherlands_2010","Zaltbommel_P1","transects","Eristalis_intricaria","species","syrphids",1,NA,NA,NA,"Two surveys were conducted in several (25 m long) transects per field (mean number of transects +- SE: 8.5 +- 1.0 for apple and 9.7 +- 0.5 for pear), 10-min per transect",NA
"David_Kleijn_Pyrus_communis_Netherlands_2010","Zaltbommel_P2","transects","Eristalis_intricaria","species","syrphids",1,NA,NA,NA,"Two surveys were conducted in several (25 m long) transects per field (mean number of transects +- SE: 8.5 +- 1.0 for apple and 9.7 +- 0.5 for pear), 10-min per transect",NA
"David_Kleijn_Pyrus_communis_Netherlands_2010","Echteld_P6","transects","Eristalis_intricaria","species","syrphids",1,NA,NA,NA,"Two surveys were conducted in several (25 m long) transects per field (mean number of transects +- SE: 8.5 +- 1.0 for apple and 9.7 +- 0.5 for pear), 10-min per transect",NA
"David_Kleijn_Pyrus_communis_Netherlands_2010","Zaltbommel_P1","transects","Eristalis_pertinax","species","syrphids",7,NA,NA,NA,"Two surveys were conducted in several (25 m long) transects per field (mean number of transects +- SE: 8.5 +- 1.0 for apple and 9.7 +- 0.5 for pear), 10-min per transect",NA
"David_Kleijn_Pyrus_communis_Netherlands_2010","Zaltbommel_P1","transects","Eristalis_pertinax","species","syrphids",1,NA,NA,NA,"Two surveys were conducted in several (25 m long) transects per field (mean number of transects +- SE: 8.5 +- 1.0 for apple and 9.7 +- 0.5 for pear), 10-min per transect",NA
"David_Kleijn_Pyrus_communis_Netherlands_2010","Heeselt_P4","transects","Eristalis_pertinax","species","syrphids",1,NA,NA,NA,"Two surveys were conducted in several (25 m long) transects per field (mean number of transects +- SE: 8.5 +- 1.0 for apple and 9.7 +- 0.5 for pear), 10-min per transect",NA
"David_Kleijn_Pyrus_communis_Netherlands_2010","Echteld_P6","transects","Eristalis_pertinax","species","syrphids",1,NA,NA,NA,"Two surveys were conducted in several (25 m long) transects per field (mean number of transects +- SE: 8.5 +- 1.0 for apple and 9.7 +- 0.5 for pear), 10-min per transect",NA
"David_Kleijn_Pyrus_communis_Netherlands_2010","Zaltbommel_P2","transects","Eristalis_tenax","species","syrphids",1,NA,NA,NA,"Two surveys were conducted in several (25 m long) transects per field (mean number of transects +- SE: 8.5 +- 1.0 for apple and 9.7 +- 0.5 for pear), 10-min per transect",NA
"David_Kleijn_Pyrus_communis_Netherlands_2010","Zaltbommel_P1","transects","Eristalis_sp.","genus","syrphids",3,NA,NA,NA,"Two surveys were conducted in several (25 m long) transects per field (mean number of transects +- SE: 8.5 +- 1.0 for apple and 9.7 +- 0.5 for pear), 10-min per transect",NA
"David_Kleijn_Pyrus_communis_Netherlands_2010","Zaltbommel_P2","transects","Eristalis_sp.","genus","syrphids",3,NA,NA,NA,"Two surveys were conducted in several (25 m long) transects per field (mean number of transects +- SE: 8.5 +- 1.0 for apple and 9.7 +- 0.5 for pear), 10-min per transect",NA
"David_Kleijn_Pyrus_communis_Netherlands_2010","Heeselt_P4","transects","Eristalis_sp.","genus","syrphids",2,NA,NA,NA,"Two surveys were conducted in several (25 m long) transects per field (mean number of transects +- SE: 8.5 +- 1.0 for apple and 9.7 +- 0.5 for pear), 10-min per transect",NA
"David_Kleijn_Pyrus_communis_Netherlands_2010","Zaltbommel_P1","transects","Helophilus_pendulus","species","syrphids",2,NA,NA,NA,"Two surveys were conducted in several (25 m long) transects per field (mean number of transects +- SE: 8.5 +- 1.0 for apple and 9.7 +- 0.5 for pear), 10-min per transect",NA
"David_Kleijn_Pyrus_communis_Netherlands_2010","Heeselt_P4","transects","Helophilus_pendulus","species","syrphids",2,NA,NA,NA,"Two surveys were conducted in several (25 m long) transects per field (mean number of transects +- SE: 8.5 +- 1.0 for apple and 9.7 +- 0.5 for pear), 10-min per transect",NA
"David_Kleijn_Pyrus_communis_Netherlands_2010","Zaltbommel_P1","transects","Lasioglossum_calceatum","species","other_wild_bees",1,NA,NA,NA,"Two surveys were conducted in several (25 m long) transects per field (mean number of transects +- SE: 8.5 +- 1.0 for apple and 9.7 +- 0.5 for pear), 10-min per transect",NA
"David_Kleijn_Pyrus_communis_Netherlands_2010","Zaltbommel_P1","transects","Lasioglossum_calceatum","species","other_wild_bees",1,NA,NA,NA,"Two surveys were conducted in several (25 m long) transects per field (mean number of transects +- SE: 8.5 +- 1.0 for apple and 9.7 +- 0.5 for pear), 10-min per transect",NA
"David_Kleijn_Pyrus_communis_Netherlands_2010","Zaltbommel_P2","transects","Lasioglossum_calceatum","species","other_wild_bees",2,NA,NA,NA,"Two surveys were conducted in several (25 m long) transects per field (mean number of transects +- SE: 8.5 +- 1.0 for apple and 9.7 +- 0.5 for pear), 10-min per transect",NA
"David_Kleijn_Pyrus_communis_Netherlands_2010","Echteld_P6","transects","Lasioglossum_calceatum","species","other_wild_bees",1,NA,NA,NA,"Two surveys were conducted in several (25 m long) transects per field (mean number of transects +- SE: 8.5 +- 1.0 for apple and 9.7 +- 0.5 for pear), 10-min per transect",NA
"David_Kleijn_Pyrus_communis_Netherlands_2010","Heeselt_P4","transects","Lasioglossum_morio","species","other_wild_bees",1,NA,NA,NA,"Two surveys were conducted in several (25 m long) transects per field (mean number of transects +- SE: 8.5 +- 1.0 for apple and 9.7 +- 0.5 for pear), 10-min per transect",NA
"David_Kleijn_Pyrus_communis_Netherlands_2010","Dreumel_P5","transects","Lasioglossum_morio","species","other_wild_bees",1,NA,NA,NA,"Two surveys were conducted in several (25 m long) transects per field (mean number of transects +- SE: 8.5 +- 1.0 for apple and 9.7 +- 0.5 for pear), 10-min per transect",NA
"David_Kleijn_Pyrus_communis_Netherlands_2010","Zaltbommel_P2","transects","Lasioglossum_sp","genus","other_wild_bees",2,NA,NA,NA,"Two surveys were conducted in several (25 m long) transects per field (mean number of transects +- SE: 8.5 +- 1.0 for apple and 9.7 +- 0.5 for pear), 10-min per transect",NA
"David_Kleijn_Pyrus_communis_Netherlands_2010","Zaltbommel_P2","transects","Melanostoma_mellinum","species","syrphids",4,NA,NA,NA,"Two surveys were conducted in several (25 m long) transects per field (mean number of transects +- SE: 8.5 +- 1.0 for apple and 9.7 +- 0.5 for pear), 10-min per transect",NA
"David_Kleijn_Pyrus_communis_Netherlands_2010","Hurwenen_P3","transects","Melanostoma_mellinum","species","syrphids",1,NA,NA,NA,"Two surveys were conducted in several (25 m long) transects per field (mean number of transects +- SE: 8.5 +- 1.0 for apple and 9.7 +- 0.5 for pear), 10-min per transect",NA
"David_Kleijn_Pyrus_communis_Netherlands_2010","Hurwenen_P3","transects","Melanostoma_mellinum","species","syrphids",1,NA,NA,NA,"Two surveys were conducted in several (25 m long) transects per field (mean number of transects +- SE: 8.5 +- 1.0 for apple and 9.7 +- 0.5 for pear), 10-min per transect",NA
"David_Kleijn_Pyrus_communis_Netherlands_2010","Dreumel_P5","transects","Melanostoma_mellinum","species","syrphids",2,NA,NA,NA,"Two surveys were conducted in several (25 m long) transects per field (mean number of transects +- SE: 8.5 +- 1.0 for apple and 9.7 +- 0.5 for pear), 10-min per transect",NA
"David_Kleijn_Pyrus_communis_Netherlands_2010","Dreumel_P5","transects","Melanostoma_mellinum","species","syrphids",2,NA,NA,NA,"Two surveys were conducted in several (25 m long) transects per field (mean number of transects +- SE: 8.5 +- 1.0 for apple and 9.7 +- 0.5 for pear), 10-min per transect",NA
"David_Kleijn_Pyrus_communis_Netherlands_2010","Echteld_P6","transects","Melanostoma_mellinum","species","syrphids",2,NA,NA,NA,"Two surveys were conducted in several (25 m long) transects per field (mean number of transects +- SE: 8.5 +- 1.0 for apple and 9.7 +- 0.5 for pear), 10-min per transect",NA
"David_Kleijn_Pyrus_communis_Netherlands_2010","Heeselt_P4","transects","Melanostoma_scalare","species","syrphids",1,NA,NA,NA,"Two surveys were conducted in several (25 m long) transects per field (mean number of transects +- SE: 8.5 +- 1.0 for apple and 9.7 +- 0.5 for pear), 10-min per transect",NA
"David_Kleijn_Pyrus_communis_Netherlands_2010","Heeselt_P4","transects","Myathropa_florea","species","syrphids",1,NA,NA,NA,"Two surveys were conducted in several (25 m long) transects per field (mean number of transects +- SE: 8.5 +- 1.0 for apple and 9.7 +- 0.5 for pear), 10-min per transect",NA
"David_Kleijn_Pyrus_communis_Netherlands_2010","Zaltbommel_P2","transects","Platycheirus_albimanus","species","syrphids",1,NA,NA,NA,"Two surveys were conducted in several (25 m long) transects per field (mean number of transects +- SE: 8.5 +- 1.0 for apple and 9.7 +- 0.5 for pear), 10-min per transect",NA
"David_Kleijn_Pyrus_communis_Netherlands_2010","Heeselt_P4","transects","Platycheirus_albimanus","species","syrphids",1,NA,NA,NA,"Two surveys were conducted in several (25 m long) transects per field (mean number of transects +- SE: 8.5 +- 1.0 for apple and 9.7 +- 0.5 for pear), 10-min per transect",NA
"David_Kleijn_Pyrus_communis_Netherlands_2010","Hurwenen_P3","transects","Platycheirus_clypeatus","species","syrphids",1,NA,NA,NA,"Two surveys were conducted in several (25 m long) transects per field (mean number of transects +- SE: 8.5 +- 1.0 for apple and 9.7 +- 0.5 for pear), 10-min per transect",NA
"David_Kleijn_Pyrus_communis_Netherlands_2010","Heeselt_P4","transects","Platycheirus_splendidus","species","syrphids",1,NA,NA,NA,"Two surveys were conducted in several (25 m long) transects per field (mean number of transects +- SE: 8.5 +- 1.0 for apple and 9.7 +- 0.5 for pear), 10-min per transect",NA
"David_Kleijn_Pyrus_communis_Netherlands_2010","Echteld_P6","transects","Rhingia_campestris","species","syrphids",1,NA,NA,NA,"Two surveys were conducted in several (25 m long) transects per field (mean number of transects +- SE: 8.5 +- 1.0 for apple and 9.7 +- 0.5 for pear), 10-min per transect",NA
"David_Kleijn_Pyrus_communis_Netherlands_2010","Hurwenen_P3","transects","Sphaerophoria_cf_scripta","species","syrphids",1,NA,NA,NA,"Two surveys were conducted in several (25 m long) transects per field (mean number of transects +- SE: 8.5 +- 1.0 for apple and 9.7 +- 0.5 for pear), 10-min per transect",NA
"David_Kleijn_Pyrus_communis_Netherlands_2010","Dreumel_P5","transects","Sphaerophoria_interrupta","species","syrphids",1,NA,NA,NA,"Two surveys were conducted in several (25 m long) transects per field (mean number of transects +- SE: 8.5 +- 1.0 for apple and 9.7 +- 0.5 for pear), 10-min per transect",NA
"David_Kleijn_Pyrus_communis_Netherlands_2011","Zaltbommel_P1","transects","Andrena_carantonica","species","other_wild_bees",1,NA,NA,NA,"Two surveys were conducted in several (25 m long) transects per field (mean number of transects +- SE: 8.5 +- 1.0 for apple and 9.7 +- 0.5 for pear), 10-min per transect",NA
"David_Kleijn_Pyrus_communis_Netherlands_2011","Zaltbommel_P1","transects","Andrena_carantonica","species","other_wild_bees",4,NA,NA,NA,"Two surveys were conducted in several (25 m long) transects per field (mean number of transects +- SE: 8.5 +- 1.0 for apple and 9.7 +- 0.5 for pear), 10-min per transect",NA
"David_Kleijn_Pyrus_communis_Netherlands_2011","Zaltbommel_P2","transects","Andrena_carantonica","species","other_wild_bees",2,NA,NA,NA,"Two surveys were conducted in several (25 m long) transects per field (mean number of transects +- SE: 8.5 +- 1.0 for apple and 9.7 +- 0.5 for pear), 10-min per transect",NA
"David_Kleijn_Pyrus_communis_Netherlands_2011","Hurwenen_P3","transects","Andrena_carantonica","species","other_wild_bees",2,NA,NA,NA,"Two surveys were conducted in several (25 m long) transects per field (mean number of transects +- SE: 8.5 +- 1.0 for apple and 9.7 +- 0.5 for pear), 10-min per transect",NA
"David_Kleijn_Pyrus_communis_Netherlands_2011","Heeselt_P4","transects","Andrena_carantonica","species","other_wild_bees",1,NA,NA,NA,"Two surveys were conducted in several (25 m long) transects per field (mean number of transects +- SE: 8.5 +- 1.0 for apple and 9.7 +- 0.5 for pear), 10-min per transect",NA
"David_Kleijn_Pyrus_communis_Netherlands_2011","Dreumel_P5","transects","Andrena_carantonica","species","other_wild_bees",2,NA,NA,NA,"Two surveys were conducted in several (25 m long) transects per field (mean number of transects +- SE: 8.5 +- 1.0 for apple and 9.7 +- 0.5 for pear), 10-min per transect",NA
"David_Kleijn_Pyrus_communis_Netherlands_2011","Dreumel_P5","transects","Andrena_carantonica","species","other_wild_bees",2,NA,NA,NA,"Two surveys were conducted in several (25 m long) transects per field (mean number of transects +- SE: 8.5 +- 1.0 for apple and 9.7 +- 0.5 for pear), 10-min per transect",NA
"David_Kleijn_Pyrus_communis_Netherlands_2011","Echteld_P6","transects","Andrena_carantonica","species","other_wild_bees",1,NA,NA,NA,"Two surveys were conducted in several (25 m long) transects per field (mean number of transects +- SE: 8.5 +- 1.0 for apple and 9.7 +- 0.5 for pear), 10-min per transect",NA
"David_Kleijn_Pyrus_communis_Netherlands_2011","Echteld_P6","transects","Andrena_carantonica","species","other_wild_bees",1,NA,NA,NA,"Two surveys were conducted in several (25 m long) transects per field (mean number of transects +- SE: 8.5 +- 1.0 for apple and 9.7 +- 0.5 for pear), 10-min per transect",NA
"David_Kleijn_Pyrus_communis_Netherlands_2011","Zaltbommel_P1","transects","Andrena_chrysosceles","species","other_wild_bees",13,NA,NA,NA,"Two surveys were conducted in several (25 m long) transects per field (mean number of transects +- SE: 8.5 +- 1.0 for apple and 9.7 +- 0.5 for pear), 10-min per transect",NA
"David_Kleijn_Pyrus_communis_Netherlands_2011","Zaltbommel_P1","transects","Andrena_chrysosceles","species","other_wild_bees",10,NA,NA,NA,"Two surveys were conducted in several (25 m long) transects per field (mean number of transects +- SE: 8.5 +- 1.0 for apple and 9.7 +- 0.5 for pear), 10-min per transect",NA
"David_Kleijn_Pyrus_communis_Netherlands_2011","Zaltbommel_P2","transects","Andrena_chrysosceles","species","other_wild_bees",4,NA,NA,NA,"Two surveys were conducted in several (25 m long) transects per field (mean number of transects +- SE: 8.5 +- 1.0 for apple and 9.7 +- 0.5 for pear), 10-min per transect",NA
"David_Kleijn_Pyrus_communis_Netherlands_2011","Hurwenen_P3","transects","Andrena_chrysosceles","species","other_wild_bees",2,NA,NA,NA,"Two surveys were conducted in several (25 m long) transects per field (mean number of transects +- SE: 8.5 +- 1.0 for apple and 9.7 +- 0.5 for pear), 10-min per transect",NA
"David_Kleijn_Pyrus_communis_Netherlands_2011","Heeselt_P4","transects","Andrena_chrysosceles","species","other_wild_bees",14,NA,NA,NA,"Two surveys were conducted in several (25 m long) transects per field (mean number of transects +- SE: 8.5 +- 1.0 for apple and 9.7 +- 0.5 for pear), 10-min per transect",NA
"David_Kleijn_Pyrus_communis_Netherlands_2011","Dreumel_P5","transects","Andrena_chrysosceles","species","other_wild_bees",8,NA,NA,NA,"Two surveys were conducted in several (25 m long) transects per field (mean number of transects +- SE: 8.5 +- 1.0 for apple and 9.7 +- 0.5 for pear), 10-min per transect",NA
"David_Kleijn_Pyrus_communis_Netherlands_2011","Dreumel_P5","transects","Andrena_chrysosceles","species","other_wild_bees",34,NA,NA,NA,"Two surveys were conducted in several (25 m long) transects per field (mean number of transects +- SE: 8.5 +- 1.0 for apple and 9.7 +- 0.5 for pear), 10-min per transect",NA
"David_Kleijn_Pyrus_communis_Netherlands_2011","Echteld_P6","transects","Andrena_chrysosceles","species","other_wild_bees",1,NA,NA,NA,"Two surveys were conducted in several (25 m long) transects per field (mean number of transects +- SE: 8.5 +- 1.0 for apple and 9.7 +- 0.5 for pear), 10-min per transect",NA
"David_Kleijn_Pyrus_communis_Netherlands_2011","Zaltbommel_P2","transects","Andrena_dorsata","species","other_wild_bees",1,NA,NA,NA,"Two surveys were conducted in several (25 m long) transects per field (mean number of transects +- SE: 8.5 +- 1.0 for apple and 9.7 +- 0.5 for pear), 10-min per transect",NA
"David_Kleijn_Pyrus_communis_Netherlands_2011","Hurwenen_P3","transects","Andrena_dorsata","species","other_wild_bees",2,NA,NA,NA,"Two surveys were conducted in several (25 m long) transects per field (mean number of transects +- SE: 8.5 +- 1.0 for apple and 9.7 +- 0.5 for pear), 10-min per transect",NA
"David_Kleijn_Pyrus_communis_Netherlands_2011","Heeselt_P4","transects","Andrena_dorsata","species","other_wild_bees",1,NA,NA,NA,"Two surveys were conducted in several (25 m long) transects per field (mean number of transects +- SE: 8.5 +- 1.0 for apple and 9.7 +- 0.5 for pear), 10-min per transect",NA
"David_Kleijn_Pyrus_communis_Netherlands_2011","Dreumel_P5","transects","Andrena_dorsata","species","other_wild_bees",1,NA,NA,NA,"Two surveys were conducted in several (25 m long) transects per field (mean number of transects +- SE: 8.5 +- 1.0 for apple and 9.7 +- 0.5 for pear), 10-min per transect",NA
"David_Kleijn_Pyrus_communis_Netherlands_2011","Dreumel_P5","transects","Andrena_dorsata","species","other_wild_bees",1,NA,NA,NA,"Two surveys were conducted in several (25 m long) transects per field (mean number of transects +- SE: 8.5 +- 1.0 for apple and 9.7 +- 0.5 for pear), 10-min per transect",NA
"David_Kleijn_Pyrus_communis_Netherlands_2011","Zaltbommel_P1","transects","Andrena_flavipes","species","other_wild_bees",14,NA,NA,NA,"Two surveys were conducted in several (25 m long) transects per field (mean number of transects +- SE: 8.5 +- 1.0 for apple and 9.7 +- 0.5 for pear), 10-min per transect",NA
"David_Kleijn_Pyrus_communis_Netherlands_2011","Zaltbommel_P1","transects","Andrena_flavipes","species","other_wild_bees",5,NA,NA,NA,"Two surveys were conducted in several (25 m long) transects per field (mean number of transects +- SE: 8.5 +- 1.0 for apple and 9.7 +- 0.5 for pear), 10-min per transect",NA
"David_Kleijn_Pyrus_communis_Netherlands_2011","Zaltbommel_P2","transects","Andrena_flavipes","species","other_wild_bees",6,NA,NA,NA,"Two surveys were conducted in several (25 m long) transects per field (mean number of transects +- SE: 8.5 +- 1.0 for apple and 9.7 +- 0.5 for pear), 10-min per transect",NA
"David_Kleijn_Pyrus_communis_Netherlands_2011","Zaltbommel_P2","transects","Andrena_flavipes","species","other_wild_bees",1,NA,NA,NA,"Two surveys were conducted in several (25 m long) transects per field (mean number of transects +- SE: 8.5 +- 1.0 for apple and 9.7 +- 0.5 for pear), 10-min per transect",NA
"David_Kleijn_Pyrus_communis_Netherlands_2011","Hurwenen_P3","transects","Andrena_flavipes","species","other_wild_bees",1,NA,NA,NA,"Two surveys were conducted in several (25 m long) transects per field (mean number of transects +- SE: 8.5 +- 1.0 for apple and 9.7 +- 0.5 for pear), 10-min per transect",NA
"David_Kleijn_Pyrus_communis_Netherlands_2011","Heeselt_P4","transects","Andrena_flavipes","species","other_wild_bees",2,NA,NA,NA,"Two surveys were conducted in several (25 m long) transects per field (mean number of transects +- SE: 8.5 +- 1.0 for apple and 9.7 +- 0.5 for pear), 10-min per transect",NA
"David_Kleijn_Pyrus_communis_Netherlands_2011","Heeselt_P4","transects","Andrena_flavipes","species","other_wild_bees",2,NA,NA,NA,"Two surveys were conducted in several (25 m long) transects per field (mean number of transects +- SE: 8.5 +- 1.0 for apple and 9.7 +- 0.5 for pear), 10-min per transect",NA
"David_Kleijn_Pyrus_communis_Netherlands_2011","Dreumel_P5","transects","Andrena_flavipes","species","other_wild_bees",3,NA,NA,NA,"Two surveys were conducted in several (25 m long) transects per field (mean number of transects +- SE: 8.5 +- 1.0 for apple and 9.7 +- 0.5 for pear), 10-min per transect",NA
"David_Kleijn_Pyrus_communis_Netherlands_2011","Dreumel_P5","transects","Andrena_flavipes","species","other_wild_bees",3,NA,NA,NA,"Two surveys were conducted in several (25 m long) transects per field (mean number of transects +- SE: 8.5 +- 1.0 for apple and 9.7 +- 0.5 for pear), 10-min per transect",NA
"David_Kleijn_Pyrus_communis_Netherlands_2011","Echteld_P6","transects","Andrena_flavipes","species","other_wild_bees",1,NA,NA,NA,"Two surveys were conducted in several (25 m long) transects per field (mean number of transects +- SE: 8.5 +- 1.0 for apple and 9.7 +- 0.5 for pear), 10-min per transect",NA
"David_Kleijn_Pyrus_communis_Netherlands_2011","Zaltbommel_P1","transects","Andrena_fulva","species","other_wild_bees",1,NA,NA,NA,"Two surveys were conducted in several (25 m long) transects per field (mean number of transects +- SE: 8.5 +- 1.0 for apple and 9.7 +- 0.5 for pear), 10-min per transect",NA
"David_Kleijn_Pyrus_communis_Netherlands_2011","Zaltbommel_P2","transects","Andrena_fulva","species","other_wild_bees",2,NA,NA,NA,"Two surveys were conducted in several (25 m long) transects per field (mean number of transects +- SE: 8.5 +- 1.0 for apple and 9.7 +- 0.5 for pear), 10-min per transect",NA
"David_Kleijn_Pyrus_communis_Netherlands_2011","Zaltbommel_P2","transects","Andrena_fulva","species","other_wild_bees",3,NA,NA,NA,"Two surveys were conducted in several (25 m long) transects per field (mean number of transects +- SE: 8.5 +- 1.0 for apple and 9.7 +- 0.5 for pear), 10-min per transect",NA
"David_Kleijn_Pyrus_communis_Netherlands_2011","Dreumel_P5","transects","Andrena_fulva","species","other_wild_bees",2,NA,NA,NA,"Two surveys were conducted in several (25 m long) transects per field (mean number of transects +- SE: 8.5 +- 1.0 for apple and 9.7 +- 0.5 for pear), 10-min per transect",NA
"David_Kleijn_Pyrus_communis_Netherlands_2011","Zaltbommel_P1","transects","Andrena_haemorrhoa","species","other_wild_bees",1,NA,NA,NA,"Two surveys were conducted in several (25 m long) transects per field (mean number of transects +- SE: 8.5 +- 1.0 for apple and 9.7 +- 0.5 for pear), 10-min per transect",NA
"David_Kleijn_Pyrus_communis_Netherlands_2011","Zaltbommel_P1","transects","Andrena_haemorrhoa","species","other_wild_bees",4,NA,NA,NA,"Two surveys were conducted in several (25 m long) transects per field (mean number of transects +- SE: 8.5 +- 1.0 for apple and 9.7 +- 0.5 for pear), 10-min per transect",NA
"David_Kleijn_Pyrus_communis_Netherlands_2011","Zaltbommel_P2","transects","Andrena_haemorrhoa","species","other_wild_bees",3,NA,NA,NA,"Two surveys were conducted in several (25 m long) transects per field (mean number of transects +- SE: 8.5 +- 1.0 for apple and 9.7 +- 0.5 for pear), 10-min per transect",NA
"David_Kleijn_Pyrus_communis_Netherlands_2011","Hurwenen_P3","transects","Andrena_haemorrhoa","species","other_wild_bees",5,NA,NA,NA,"Two surveys were conducted in several (25 m long) transects per field (mean number of transects +- SE: 8.5 +- 1.0 for apple and 9.7 +- 0.5 for pear), 10-min per transect",NA
"David_Kleijn_Pyrus_communis_Netherlands_2011","Hurwenen_P3","transects","Andrena_haemorrhoa","species","other_wild_bees",2,NA,NA,NA,"Two surveys were conducted in several (25 m long) transects per field (mean number of transects +- SE: 8.5 +- 1.0 for apple and 9.7 +- 0.5 for pear), 10-min per transect",NA
"David_Kleijn_Pyrus_communis_Netherlands_2011","Heeselt_P4","transects","Andrena_haemorrhoa","species","other_wild_bees",5,NA,NA,NA,"Two surveys were conducted in several (25 m long) transects per field (mean number of transects +- SE: 8.5 +- 1.0 for apple and 9.7 +- 0.5 for pear), 10-min per transect",NA
"David_Kleijn_Pyrus_communis_Netherlands_2011","Heeselt_P4","transects","Andrena_haemorrhoa","species","other_wild_bees",2,NA,NA,NA,"Two surveys were conducted in several (25 m long) transects per field (mean number of transects +- SE: 8.5 +- 1.0 for apple and 9.7 +- 0.5 for pear), 10-min per transect",NA
"David_Kleijn_Pyrus_communis_Netherlands_2011","Dreumel_P5","transects","Andrena_haemorrhoa","species","other_wild_bees",17,NA,NA,NA,"Two surveys were conducted in several (25 m long) transects per field (mean number of transects +- SE: 8.5 +- 1.0 for apple and 9.7 +- 0.5 for pear), 10-min per transect",NA
"David_Kleijn_Pyrus_communis_Netherlands_2011","Dreumel_P5","transects","Andrena_haemorrhoa","species","other_wild_bees",2,NA,NA,NA,"Two surveys were conducted in several (25 m long) transects per field (mean number of transects +- SE: 8.5 +- 1.0 for apple and 9.7 +- 0.5 for pear), 10-min per transect",NA
"David_Kleijn_Pyrus_communis_Netherlands_2011","Echteld_P6","transects","Andrena_haemorrhoa","species","other_wild_bees",19,NA,NA,NA,"Two surveys were conducted in several (25 m long) transects per field (mean number of transects +- SE: 8.5 +- 1.0 for apple and 9.7 +- 0.5 for pear), 10-min per transect",NA
"David_Kleijn_Pyrus_communis_Netherlands_2011","Zaltbommel_P2","transects","Andrena_minutula_aggregate","species","other_wild_bees",1,NA,NA,NA,"Two surveys were conducted in several (25 m long) transects per field (mean number of transects +- SE: 8.5 +- 1.0 for apple and 9.7 +- 0.5 for pear), 10-min per transect",NA
"David_Kleijn_Pyrus_communis_Netherlands_2011","Dreumel_P5","transects","Andrena_minutula_aggregate","species","other_wild_bees",1,NA,NA,NA,"Two surveys were conducted in several (25 m long) transects per field (mean number of transects +- SE: 8.5 +- 1.0 for apple and 9.7 +- 0.5 for pear), 10-min per transect",NA
"David_Kleijn_Pyrus_communis_Netherlands_2011","Hurwenen_P3","transects","Andrena_nitida","species","other_wild_bees",1,NA,NA,NA,"Two surveys were conducted in several (25 m long) transects per field (mean number of transects +- SE: 8.5 +- 1.0 for apple and 9.7 +- 0.5 for pear), 10-min per transect",NA
"David_Kleijn_Pyrus_communis_Netherlands_2011","Heeselt_P4","transects","Andrena_nitida","species","other_wild_bees",1,NA,NA,NA,"Two surveys were conducted in several (25 m long) transects per field (mean number of transects +- SE: 8.5 +- 1.0 for apple and 9.7 +- 0.5 for pear), 10-min per transect",NA
"David_Kleijn_Pyrus_communis_Netherlands_2011","Zaltbommel_P1","transects","Andrena_praecox","species","other_wild_bees",1,NA,NA,NA,"Two surveys were conducted in several (25 m long) transects per field (mean number of transects +- SE: 8.5 +- 1.0 for apple and 9.7 +- 0.5 for pear), 10-min per transect",NA
"David_Kleijn_Pyrus_communis_Netherlands_2011","Heeselt_P4","transects","Andrena_tibialis","species","other_wild_bees",1,NA,NA,NA,"Two surveys were conducted in several (25 m long) transects per field (mean number of transects +- SE: 8.5 +- 1.0 for apple and 9.7 +- 0.5 for pear), 10-min per transect",NA
"David_Kleijn_Pyrus_communis_Netherlands_2011","Zaltbommel_P1","transects","Anthophora_plumipes","species","other_wild_bees",1,NA,NA,NA,"Two surveys were conducted in several (25 m long) transects per field (mean number of transects +- SE: 8.5 +- 1.0 for apple and 9.7 +- 0.5 for pear), 10-min per transect",NA
"David_Kleijn_Pyrus_communis_Netherlands_2011","Hurwenen_P3","transects","Apis_mellifera","species","honeybees",6,NA,NA,NA,"Two surveys were conducted in several (25 m long) transects per field (mean number of transects +- SE: 8.5 +- 1.0 for apple and 9.7 +- 0.5 for pear), 10-min per transect",NA
"David_Kleijn_Pyrus_communis_Netherlands_2011","Hurwenen_P3","transects","Apis_mellifera","species","honeybees",6,NA,NA,NA,"Two surveys were conducted in several (25 m long) transects per field (mean number of transects +- SE: 8.5 +- 1.0 for apple and 9.7 +- 0.5 for pear), 10-min per transect",NA
"David_Kleijn_Pyrus_communis_Netherlands_2011","Heeselt_P4","transects","Apis_mellifera","species","honeybees",24,NA,NA,NA,"Two surveys were conducted in several (25 m long) transects per field (mean number of transects +- SE: 8.5 +- 1.0 for apple and 9.7 +- 0.5 for pear), 10-min per transect",NA
"David_Kleijn_Pyrus_communis_Netherlands_2011","Heeselt_P4","transects","Apis_mellifera","species","honeybees",5,NA,NA,NA,"Two surveys were conducted in several (25 m long) transects per field (mean number of transects +- SE: 8.5 +- 1.0 for apple and 9.7 +- 0.5 for pear), 10-min per transect",NA
"David_Kleijn_Pyrus_communis_Netherlands_2011","Dreumel_P5","transects","Apis_mellifera","species","honeybees",29,NA,NA,NA,"Two surveys were conducted in several (25 m long) transects per field (mean number of transects +- SE: 8.5 +- 1.0 for apple and 9.7 +- 0.5 for pear), 10-min per transect",NA
"David_Kleijn_Pyrus_communis_Netherlands_2011","Dreumel_P5","transects","Apis_mellifera","species","honeybees",2,NA,NA,NA,"Two surveys were conducted in several (25 m long) transects per field (mean number of transects +- SE: 8.5 +- 1.0 for apple and 9.7 +- 0.5 for pear), 10-min per transect",NA
"David_Kleijn_Pyrus_communis_Netherlands_2011","Echteld_P6","transects","Apis_mellifera","species","honeybees",2,NA,NA,NA,"Two surveys were conducted in several (25 m long) transects per field (mean number of transects +- SE: 8.5 +- 1.0 for apple and 9.7 +- 0.5 for pear), 10-min per transect",NA
"David_Kleijn_Pyrus_communis_Netherlands_2011","Echteld_P6","transects","Apis_mellifera","species","honeybees",6,NA,NA,NA,"Two surveys were conducted in several (25 m long) transects per field (mean number of transects +- SE: 8.5 +- 1.0 for apple and 9.7 +- 0.5 for pear), 10-min per transect",NA
"David_Kleijn_Pyrus_communis_Netherlands_2011","Heeselt_P4","transects","Bombus_hortorum","species","bumblebees",1,NA,NA,NA,"Two surveys were conducted in several (25 m long) transects per field (mean number of transects +- SE: 8.5 +- 1.0 for apple and 9.7 +- 0.5 for pear), 10-min per transect",NA
"David_Kleijn_Pyrus_communis_Netherlands_2011","Zaltbommel_P1","transects","Bombus_lucorum_terrestris","species","bumblebees",1,NA,NA,NA,"Two surveys were conducted in several (25 m long) transects per field (mean number of transects +- SE: 8.5 +- 1.0 for apple and 9.7 +- 0.5 for pear), 10-min per transect",NA
"David_Kleijn_Pyrus_communis_Netherlands_2011","Heeselt_P4","transects","Bombus_lucorum_terrestris","species","bumblebees",4,NA,NA,NA,"Two surveys were conducted in several (25 m long) transects per field (mean number of transects +- SE: 8.5 +- 1.0 for apple and 9.7 +- 0.5 for pear), 10-min per transect",NA
"David_Kleijn_Pyrus_communis_Netherlands_2011","Dreumel_P5","transects","Bombus_lucorum_terrestris","species","bumblebees",2,NA,NA,NA,"Two surveys were conducted in several (25 m long) transects per field (mean number of transects +- SE: 8.5 +- 1.0 for apple and 9.7 +- 0.5 for pear), 10-min per transect",NA
"David_Kleijn_Pyrus_communis_Netherlands_2011","Dreumel_P5","transects","Bombus_lucorum_terrestris","species","bumblebees",1,NA,NA,NA,"Two surveys were conducted in several (25 m long) transects per field (mean number of transects +- SE: 8.5 +- 1.0 for apple and 9.7 +- 0.5 for pear), 10-min per transect",NA
"David_Kleijn_Pyrus_communis_Netherlands_2011","Zaltbommel_P1","transects","Bombus_lapidarius","species","bumblebees",5,NA,NA,NA,"Two surveys were conducted in several (25 m long) transects per field (mean number of transects +- SE: 8.5 +- 1.0 for apple and 9.7 +- 0.5 for pear), 10-min per transect",NA
"David_Kleijn_Pyrus_communis_Netherlands_2011","Hurwenen_P3","transects","Bombus_lapidarius","species","bumblebees",1,NA,NA,NA,"Two surveys were conducted in several (25 m long) transects per field (mean number of transects +- SE: 8.5 +- 1.0 for apple and 9.7 +- 0.5 for pear), 10-min per transect",NA
"David_Kleijn_Pyrus_communis_Netherlands_2011","Hurwenen_P3","transects","Bombus_lapidarius","species","bumblebees",2,NA,NA,NA,"Two surveys were conducted in several (25 m long) transects per field (mean number of transects +- SE: 8.5 +- 1.0 for apple and 9.7 +- 0.5 for pear), 10-min per transect",NA
"David_Kleijn_Pyrus_communis_Netherlands_2011","Heeselt_P4","transects","Bombus_lapidarius","species","bumblebees",1,NA,NA,NA,"Two surveys were conducted in several (25 m long) transects per field (mean number of transects +- SE: 8.5 +- 1.0 for apple and 9.7 +- 0.5 for pear), 10-min per transect",NA
"David_Kleijn_Pyrus_communis_Netherlands_2011","Heeselt_P4","transects","Bombus_lapidarius","species","bumblebees",2,NA,NA,NA,"Two surveys were conducted in several (25 m long) transects per field (mean number of transects +- SE: 8.5 +- 1.0 for apple and 9.7 +- 0.5 for pear), 10-min per transect",NA
"David_Kleijn_Pyrus_communis_Netherlands_2011","Dreumel_P5","transects","Bombus_lapidarius","species","bumblebees",3,NA,NA,NA,"Two surveys were conducted in several (25 m long) transects per field (mean number of transects +- SE: 8.5 +- 1.0 for apple and 9.7 +- 0.5 for pear), 10-min per transect",NA
"David_Kleijn_Pyrus_communis_Netherlands_2011","Dreumel_P5","transects","Bombus_lapidarius","species","bumblebees",1,NA,NA,NA,"Two surveys were conducted in several (25 m long) transects per field (mean number of transects +- SE: 8.5 +- 1.0 for apple and 9.7 +- 0.5 for pear), 10-min per transect",NA
"David_Kleijn_Pyrus_communis_Netherlands_2011","Zaltbommel_P1","transects","Bombus_pascuorum","species","bumblebees",1,NA,NA,NA,"Two surveys were conducted in several (25 m long) transects per field (mean number of transects +- SE: 8.5 +- 1.0 for apple and 9.7 +- 0.5 for pear), 10-min per transect",NA
"David_Kleijn_Pyrus_communis_Netherlands_2011","Zaltbommel_P1","transects","Bombus_pascuorum","species","bumblebees",1,NA,NA,NA,"Two surveys were conducted in several (25 m long) transects per field (mean number of transects +- SE: 8.5 +- 1.0 for apple and 9.7 +- 0.5 for pear), 10-min per transect",NA
"David_Kleijn_Pyrus_communis_Netherlands_2011","Zaltbommel_P2","transects","Bombus_pascuorum","species","bumblebees",1,NA,NA,NA,"Two surveys were conducted in several (25 m long) transects per field (mean number of transects +- SE: 8.5 +- 1.0 for apple and 9.7 +- 0.5 for pear), 10-min per transect",NA
"David_Kleijn_Pyrus_communis_Netherlands_2011","Zaltbommel_P2","transects","Bombus_pascuorum","species","bumblebees",1,NA,NA,NA,"Two surveys were conducted in several (25 m long) transects per field (mean number of transects +- SE: 8.5 +- 1.0 for apple and 9.7 +- 0.5 for pear), 10-min per transect",NA
"David_Kleijn_Pyrus_communis_Netherlands_2011","Heeselt_P4","transects","Bombus_pascuorum","species","bumblebees",1,NA,NA,NA,"Two surveys were conducted in several (25 m long) transects per field (mean number of transects +- SE: 8.5 +- 1.0 for apple and 9.7 +- 0.5 for pear), 10-min per transect",NA
"David_Kleijn_Pyrus_communis_Netherlands_2011","Zaltbommel_P1","transects","Bombus_terrestris","species","bumblebees",2,NA,NA,NA,"Two surveys were conducted in several (25 m long) transects per field (mean number of transects +- SE: 8.5 +- 1.0 for apple and 9.7 +- 0.5 for pear), 10-min per transect",NA
"David_Kleijn_Pyrus_communis_Netherlands_2011","Zaltbommel_P1","transects","Bombus_terrestris","species","bumblebees",5,NA,NA,NA,"Two surveys were conducted in several (25 m long) transects per field (mean number of transects +- SE: 8.5 +- 1.0 for apple and 9.7 +- 0.5 for pear), 10-min per transect",NA
"David_Kleijn_Pyrus_communis_Netherlands_2011","Zaltbommel_P2","transects","Bombus_terrestris","species","bumblebees",6,NA,NA,NA,"Two surveys were conducted in several (25 m long) transects per field (mean number of transects +- SE: 8.5 +- 1.0 for apple and 9.7 +- 0.5 for pear), 10-min per transect",NA
"David_Kleijn_Pyrus_communis_Netherlands_2011","Zaltbommel_P2","transects","Bombus_terrestris","species","bumblebees",6,NA,NA,NA,"Two surveys were conducted in several (25 m long) transects per field (mean number of transects +- SE: 8.5 +- 1.0 for apple and 9.7 +- 0.5 for pear), 10-min per transect",NA
"David_Kleijn_Pyrus_communis_Netherlands_2011","Dreumel_P5","transects","Bombus_vestalis","species","bumblebees",1,NA,NA,NA,"Two surveys were conducted in several (25 m long) transects per field (mean number of transects +- SE: 8.5 +- 1.0 for apple and 9.7 +- 0.5 for pear), 10-min per transect",NA
"David_Kleijn_Pyrus_communis_Netherlands_2011","Zaltbommel_P1","transects","Eristalis_arbustorum","species","syrphids",2,NA,NA,NA,"Two surveys were conducted in several (25 m long) transects per field (mean number of transects +- SE: 8.5 +- 1.0 for apple and 9.7 +- 0.5 for pear), 10-min per transect",NA
"David_Kleijn_Pyrus_communis_Netherlands_2011","Zaltbommel_P1","transects","Eristalis_arbustorum","species","syrphids",4,NA,NA,NA,"Two surveys were conducted in several (25 m long) transects per field (mean number of transects +- SE: 8.5 +- 1.0 for apple and 9.7 +- 0.5 for pear), 10-min per transect",NA
"David_Kleijn_Pyrus_communis_Netherlands_2011","Zaltbommel_P2","transects","Eristalis_arbustorum","species","syrphids",3,NA,NA,NA,"Two surveys were conducted in several (25 m long) transects per field (mean number of transects +- SE: 8.5 +- 1.0 for apple and 9.7 +- 0.5 for pear), 10-min per transect",NA
"David_Kleijn_Pyrus_communis_Netherlands_2011","Hurwenen_P3","transects","Eristalis_arbustorum","species","syrphids",2,NA,NA,NA,"Two surveys were conducted in several (25 m long) transects per field (mean number of transects +- SE: 8.5 +- 1.0 for apple and 9.7 +- 0.5 for pear), 10-min per transect",NA
"David_Kleijn_Pyrus_communis_Netherlands_2011","Heeselt_P4","transects","Eristalis_arbustorum","species","syrphids",1,NA,NA,NA,"Two surveys were conducted in several (25 m long) transects per field (mean number of transects +- SE: 8.5 +- 1.0 for apple and 9.7 +- 0.5 for pear), 10-min per transect",NA
"David_Kleijn_Pyrus_communis_Netherlands_2011","Dreumel_P5","transects","Eristalis_arbustorum","species","syrphids",1,NA,NA,NA,"Two surveys were conducted in several (25 m long) transects per field (mean number of transects +- SE: 8.5 +- 1.0 for apple and 9.7 +- 0.5 for pear), 10-min per transect",NA
"David_Kleijn_Pyrus_communis_Netherlands_2011","Echteld_P6","transects","Eristalis_arbustorum","species","syrphids",1,NA,NA,NA,"Two surveys were conducted in several (25 m long) transects per field (mean number of transects +- SE: 8.5 +- 1.0 for apple and 9.7 +- 0.5 for pear), 10-min per transect",NA
"David_Kleijn_Pyrus_communis_Netherlands_2011","Zaltbommel_P1","transects","Eristalis_lineata","species","syrphids",1,NA,NA,NA,"Two surveys were conducted in several (25 m long) transects per field (mean number of transects +- SE: 8.5 +- 1.0 for apple and 9.7 +- 0.5 for pear), 10-min per transect",NA
"David_Kleijn_Pyrus_communis_Netherlands_2011","Zaltbommel_P1","transects","Eristalis_intricaria","species","syrphids",1,NA,NA,NA,"Two surveys were conducted in several (25 m long) transects per field (mean number of transects +- SE: 8.5 +- 1.0 for apple and 9.7 +- 0.5 for pear), 10-min per transect",NA
"David_Kleijn_Pyrus_communis_Netherlands_2011","Zaltbommel_P2","transects","Eristalis_intricaria","species","syrphids",1,NA,NA,NA,"Two surveys were conducted in several (25 m long) transects per field (mean number of transects +- SE: 8.5 +- 1.0 for apple and 9.7 +- 0.5 for pear), 10-min per transect",NA
"David_Kleijn_Pyrus_communis_Netherlands_2011","Heeselt_P4","transects","Eristalis_intricaria","species","syrphids",1,NA,NA,NA,"Two surveys were conducted in several (25 m long) transects per field (mean number of transects +- SE: 8.5 +- 1.0 for apple and 9.7 +- 0.5 for pear), 10-min per transect",NA
"David_Kleijn_Pyrus_communis_Netherlands_2011","Heeselt_P4","transects","Eristalis_intricaria","species","syrphids",1,NA,NA,NA,"Two surveys were conducted in several (25 m long) transects per field (mean number of transects +- SE: 8.5 +- 1.0 for apple and 9.7 +- 0.5 for pear), 10-min per transect",NA
"David_Kleijn_Pyrus_communis_Netherlands_2011","Zaltbommel_P1","transects","Eristalis_pertinax","species","syrphids",29,NA,NA,NA,"Two surveys were conducted in several (25 m long) transects per field (mean number of transects +- SE: 8.5 +- 1.0 for apple and 9.7 +- 0.5 for pear), 10-min per transect",NA
"David_Kleijn_Pyrus_communis_Netherlands_2011","Zaltbommel_P1","transects","Eristalis_pertinax","species","syrphids",2,NA,NA,NA,"Two surveys were conducted in several (25 m long) transects per field (mean number of transects +- SE: 8.5 +- 1.0 for apple and 9.7 +- 0.5 for pear), 10-min per transect",NA
"David_Kleijn_Pyrus_communis_Netherlands_2011","Zaltbommel_P2","transects","Eristalis_pertinax","species","syrphids",7,NA,NA,NA,"Two surveys were conducted in several (25 m long) transects per field (mean number of transects +- SE: 8.5 +- 1.0 for apple and 9.7 +- 0.5 for pear), 10-min per transect",NA
"David_Kleijn_Pyrus_communis_Netherlands_2011","Zaltbommel_P2","transects","Eristalis_pertinax","species","syrphids",4,NA,NA,NA,"Two surveys were conducted in several (25 m long) transects per field (mean number of transects +- SE: 8.5 +- 1.0 for apple and 9.7 +- 0.5 for pear), 10-min per transect",NA
"David_Kleijn_Pyrus_communis_Netherlands_2011","Hurwenen_P3","transects","Eristalis_pertinax","species","syrphids",1,NA,NA,NA,"Two surveys were conducted in several (25 m long) transects per field (mean number of transects +- SE: 8.5 +- 1.0 for apple and 9.7 +- 0.5 for pear), 10-min per transect",NA
"David_Kleijn_Pyrus_communis_Netherlands_2011","Heeselt_P4","transects","Eristalis_pertinax","species","syrphids",5,NA,NA,NA,"Two surveys were conducted in several (25 m long) transects per field (mean number of transects +- SE: 8.5 +- 1.0 for apple and 9.7 +- 0.5 for pear), 10-min per transect",NA
"David_Kleijn_Pyrus_communis_Netherlands_2011","Heeselt_P4","transects","Eristalis_pertinax","species","syrphids",1,NA,NA,NA,"Two surveys were conducted in several (25 m long) transects per field (mean number of transects +- SE: 8.5 +- 1.0 for apple and 9.7 +- 0.5 for pear), 10-min per transect",NA
"David_Kleijn_Pyrus_communis_Netherlands_2011","Dreumel_P5","transects","Eristalis_pertinax","species","syrphids",4,NA,NA,NA,"Two surveys were conducted in several (25 m long) transects per field (mean number of transects +- SE: 8.5 +- 1.0 for apple and 9.7 +- 0.5 for pear), 10-min per transect",NA
"David_Kleijn_Pyrus_communis_Netherlands_2011","Dreumel_P5","transects","Eristalis_similis","species","syrphids",1,NA,NA,NA,"Two surveys were conducted in several (25 m long) transects per field (mean number of transects +- SE: 8.5 +- 1.0 for apple and 9.7 +- 0.5 for pear), 10-min per transect",NA
"David_Kleijn_Pyrus_communis_Netherlands_2011","Zaltbommel_P1","transects","Eristalis_tenax","species","syrphids",1,NA,NA,NA,"Two surveys were conducted in several (25 m long) transects per field (mean number of transects +- SE: 8.5 +- 1.0 for apple and 9.7 +- 0.5 for pear), 10-min per transect",NA
"David_Kleijn_Pyrus_communis_Netherlands_2011","Zaltbommel_P2","transects","Eristalis_tenax","species","syrphids",1,NA,NA,NA,"Two surveys were conducted in several (25 m long) transects per field (mean number of transects +- SE: 8.5 +- 1.0 for apple and 9.7 +- 0.5 for pear), 10-min per transect",NA
"David_Kleijn_Pyrus_communis_Netherlands_2011","Zaltbommel_P2","transects","Eristalis_tenax","species","syrphids",1,NA,NA,NA,"Two surveys were conducted in several (25 m long) transects per field (mean number of transects +- SE: 8.5 +- 1.0 for apple and 9.7 +- 0.5 for pear), 10-min per transect",NA
"David_Kleijn_Pyrus_communis_Netherlands_2011","Zaltbommel_P1","transects","Eristalis_sp.","genus","syrphids",2,NA,NA,NA,"Two surveys were conducted in several (25 m long) transects per field (mean number of transects +- SE: 8.5 +- 1.0 for apple and 9.7 +- 0.5 for pear), 10-min per transect",NA
"David_Kleijn_Pyrus_communis_Netherlands_2011","Hurwenen_P3","transects","Eristalis_sp.","genus","syrphids",2,NA,NA,NA,"Two surveys were conducted in several (25 m long) transects per field (mean number of transects +- SE: 8.5 +- 1.0 for apple and 9.7 +- 0.5 for pear), 10-min per transect",NA
"David_Kleijn_Pyrus_communis_Netherlands_2011","Heeselt_P4","transects","Eristalis_sp.","genus","syrphids",34,NA,NA,NA,"Two surveys were conducted in several (25 m long) transects per field (mean number of transects +- SE: 8.5 +- 1.0 for apple and 9.7 +- 0.5 for pear), 10-min per transect",NA
"David_Kleijn_Pyrus_communis_Netherlands_2011","Heeselt_P4","transects","Eristalis_sp.","genus","syrphids",36,NA,NA,NA,"Two surveys were conducted in several (25 m long) transects per field (mean number of transects +- SE: 8.5 +- 1.0 for apple and 9.7 +- 0.5 for pear), 10-min per transect",NA
"David_Kleijn_Pyrus_communis_Netherlands_2011","Dreumel_P5","transects","Eristalis_sp.","genus","syrphids",1,NA,NA,NA,"Two surveys were conducted in several (25 m long) transects per field (mean number of transects +- SE: 8.5 +- 1.0 for apple and 9.7 +- 0.5 for pear), 10-min per transect",NA
"David_Kleijn_Pyrus_communis_Netherlands_2011","Dreumel_P5","transects","Eristalis_sp.","genus","syrphids",17,NA,NA,NA,"Two surveys were conducted in several (25 m long) transects per field (mean number of transects +- SE: 8.5 +- 1.0 for apple and 9.7 +- 0.5 for pear), 10-min per transect",NA
"David_Kleijn_Pyrus_communis_Netherlands_2011","Zaltbommel_P1","transects","Helophilus_pendulus","species","syrphids",1,NA,NA,NA,"Two surveys were conducted in several (25 m long) transects per field (mean number of transects +- SE: 8.5 +- 1.0 for apple and 9.7 +- 0.5 for pear), 10-min per transect",NA
"David_Kleijn_Pyrus_communis_Netherlands_2011","Zaltbommel_P1","transects","Helophilus_pendulus","species","syrphids",1,NA,NA,NA,"Two surveys were conducted in several (25 m long) transects per field (mean number of transects +- SE: 8.5 +- 1.0 for apple and 9.7 +- 0.5 for pear), 10-min per transect",NA
"David_Kleijn_Pyrus_communis_Netherlands_2011","Zaltbommel_P2","transects","Helophilus_pendulus","species","syrphids",1,NA,NA,NA,"Two surveys were conducted in several (25 m long) transects per field (mean number of transects +- SE: 8.5 +- 1.0 for apple and 9.7 +- 0.5 for pear), 10-min per transect",NA
"David_Kleijn_Pyrus_communis_Netherlands_2011","Heeselt_P4","transects","Helophilus_pendulus","species","syrphids",1,NA,NA,NA,"Two surveys were conducted in several (25 m long) transects per field (mean number of transects +- SE: 8.5 +- 1.0 for apple and 9.7 +- 0.5 for pear), 10-min per transect",NA
"David_Kleijn_Pyrus_communis_Netherlands_2011","Heeselt_P4","transects","Helophilus_pendulus","species","syrphids",3,NA,NA,NA,"Two surveys were conducted in several (25 m long) transects per field (mean number of transects +- SE: 8.5 +- 1.0 for apple and 9.7 +- 0.5 for pear), 10-min per transect",NA
"David_Kleijn_Pyrus_communis_Netherlands_2011","Dreumel_P5","transects","Helophilus_pendulus","species","syrphids",1,NA,NA,NA,"Two surveys were conducted in several (25 m long) transects per field (mean number of transects +- SE: 8.5 +- 1.0 for apple and 9.7 +- 0.5 for pear), 10-min per transect",NA
"David_Kleijn_Pyrus_communis_Netherlands_2011","Heeselt_P4","transects","Lasioglossum_sexstrigatum","species","other_wild_bees",1,NA,NA,NA,"Two surveys were conducted in several (25 m long) transects per field (mean number of transects +- SE: 8.5 +- 1.0 for apple and 9.7 +- 0.5 for pear), 10-min per transect",NA
"David_Kleijn_Pyrus_communis_Netherlands_2011","Dreumel_P5","transects","Lasioglossum_sexstrigatum","species","other_wild_bees",2,NA,NA,NA,"Two surveys were conducted in several (25 m long) transects per field (mean number of transects +- SE: 8.5 +- 1.0 for apple and 9.7 +- 0.5 for pear), 10-min per transect",NA
"David_Kleijn_Pyrus_communis_Netherlands_2011","Dreumel_P5","transects","Lasioglossum_calceatum","species","other_wild_bees",2,NA,NA,NA,"Two surveys were conducted in several (25 m long) transects per field (mean number of transects +- SE: 8.5 +- 1.0 for apple and 9.7 +- 0.5 for pear), 10-min per transect",NA
"David_Kleijn_Pyrus_communis_Netherlands_2011","Zaltbommel_P1","transects","Lasioglossum_leucopus","species","other_wild_bees",1,NA,NA,NA,"Two surveys were conducted in several (25 m long) transects per field (mean number of transects +- SE: 8.5 +- 1.0 for apple and 9.7 +- 0.5 for pear), 10-min per transect",NA
"David_Kleijn_Pyrus_communis_Netherlands_2011","Heeselt_P4","transects","Lasioglossum_malachurum","species","other_wild_bees",2,NA,NA,NA,"Two surveys were conducted in several (25 m long) transects per field (mean number of transects +- SE: 8.5 +- 1.0 for apple and 9.7 +- 0.5 for pear), 10-min per transect",NA
"David_Kleijn_Pyrus_communis_Netherlands_2011","Zaltbommel_P2","transects","Lasioglossum_morio","species","other_wild_bees",1,NA,NA,NA,"Two surveys were conducted in several (25 m long) transects per field (mean number of transects +- SE: 8.5 +- 1.0 for apple and 9.7 +- 0.5 for pear), 10-min per transect",NA
"David_Kleijn_Pyrus_communis_Netherlands_2011","Dreumel_P5","transects","Lasioglossum_morio","species","other_wild_bees",1,NA,NA,NA,"Two surveys were conducted in several (25 m long) transects per field (mean number of transects +- SE: 8.5 +- 1.0 for apple and 9.7 +- 0.5 for pear), 10-min per transect",NA
"David_Kleijn_Pyrus_communis_Netherlands_2011","Zaltbommel_P2","transects","Lasioglossum_sp","genus","other_wild_bees",1,NA,NA,NA,"Two surveys were conducted in several (25 m long) transects per field (mean number of transects +- SE: 8.5 +- 1.0 for apple and 9.7 +- 0.5 for pear), 10-min per transect",NA
"David_Kleijn_Pyrus_communis_Netherlands_2011","Zaltbommel_P2","transects","Melanostoma_mellinum","species","syrphids",5,NA,NA,NA,"Two surveys were conducted in several (25 m long) transects per field (mean number of transects +- SE: 8.5 +- 1.0 for apple and 9.7 +- 0.5 for pear), 10-min per transect",NA
"David_Kleijn_Pyrus_communis_Netherlands_2011","Dreumel_P5","transects","Melanostoma_mellinum","species","syrphids",1,NA,NA,NA,"Two surveys were conducted in several (25 m long) transects per field (mean number of transects +- SE: 8.5 +- 1.0 for apple and 9.7 +- 0.5 for pear), 10-min per transect",NA
"David_Kleijn_Pyrus_communis_Netherlands_2011","Echteld_P6","transects","Melanostoma_mellinum","species","syrphids",1,NA,NA,NA,"Two surveys were conducted in several (25 m long) transects per field (mean number of transects +- SE: 8.5 +- 1.0 for apple and 9.7 +- 0.5 for pear), 10-min per transect",NA
"David_Kleijn_Pyrus_communis_Netherlands_2011","Hurwenen_P3","transects","Nomada_flava","species","other_wild_bees",1,NA,NA,NA,"Two surveys were conducted in several (25 m long) transects per field (mean number of transects +- SE: 8.5 +- 1.0 for apple and 9.7 +- 0.5 for pear), 10-min per transect",NA
"David_Kleijn_Pyrus_communis_Netherlands_2011","Dreumel_P5","transects","Nomada_marshamella","species","other_wild_bees",1,NA,NA,NA,"Two surveys were conducted in several (25 m long) transects per field (mean number of transects +- SE: 8.5 +- 1.0 for apple and 9.7 +- 0.5 for pear), 10-min per transect",NA
"David_Kleijn_Pyrus_communis_Netherlands_2011","Dreumel_P5","transects","Nomada_ruficornis","species","other_wild_bees",1,NA,NA,NA,"Two surveys were conducted in several (25 m long) transects per field (mean number of transects +- SE: 8.5 +- 1.0 for apple and 9.7 +- 0.5 for pear), 10-min per transect",NA
"David_Kleijn_Pyrus_communis_Netherlands_2011","Zaltbommel_P1","transects","Osmia_bicornis","species","other_wild_bees",1,NA,NA,NA,"Two surveys were conducted in several (25 m long) transects per field (mean number of transects +- SE: 8.5 +- 1.0 for apple and 9.7 +- 0.5 for pear), 10-min per transect",NA
"David_Kleijn_Pyrus_communis_Netherlands_2011","Zaltbommel_P2","transects","Osmia_bicornis","species","other_wild_bees",1,NA,NA,NA,"Two surveys were conducted in several (25 m long) transects per field (mean number of transects +- SE: 8.5 +- 1.0 for apple and 9.7 +- 0.5 for pear), 10-min per transect",NA
"David_Kleijn_Pyrus_communis_Netherlands_2011","Heeselt_P4","transects","Platycheirus_albimanus","species","syrphids",2,NA,NA,NA,"Two surveys were conducted in several (25 m long) transects per field (mean number of transects +- SE: 8.5 +- 1.0 for apple and 9.7 +- 0.5 for pear), 10-min per transect",NA
"David_Kleijn_Pyrus_communis_Netherlands_2011","Dreumel_P5","transects","Rhingia_campestris","species","syrphids",2,NA,NA,NA,"Two surveys were conducted in several (25 m long) transects per field (mean number of transects +- SE: 8.5 +- 1.0 for apple and 9.7 +- 0.5 for pear), 10-min per transect",NA
"David_Kleijn_Pyrus_communis_Netherlands_2011","Zaltbommel_P2","transects","Sphaerophoria_sp.","genus","syrphids",1,NA,NA,NA,"Two surveys were conducted in several (25 m long) transects per field (mean number of transects +- SE: 8.5 +- 1.0 for apple and 9.7 +- 0.5 for pear), 10-min per transect",NA
"David_Kleijn_Pyrus_communis_Netherlands_2011","Dreumel_P5","transects","Sphaerophoria_scripta","species","syrphids",1,NA,NA,NA,"Two surveys were conducted in several (25 m long) transects per field (mean number of transects +- SE: 8.5 +- 1.0 for apple and 9.7 +- 0.5 for pear), 10-min per transect",NA
"David_Kleijn_Pyrus_communis_Netherlands_2011","Heeselt_P4","transects","Syrphus_sp","genus","syrphids",1,NA,NA,NA,"Two surveys were conducted in several (25 m long) transects per field (mean number of transects +- SE: 8.5 +- 1.0 for apple and 9.7 +- 0.5 for pear), 10-min per transect",NA
"David_Kleijn_Vaccinium_corymbosum_Netherlands_2013","B16","sweepnet, flower visiting individuals only","Andrena haemorrhoa","Species","other_wild_bees",1,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Vaccinium_corymbosum_Netherlands_2013","B16","sweepnet, flower visiting individuals only","Apis mellifera","Species","honeybees",183,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Vaccinium_corymbosum_Netherlands_2013","B16","sweepnet, flower visiting individuals only","Bombus hortorum","Species","bumblebees",4,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Vaccinium_corymbosum_Netherlands_2013","B16","sweepnet, flower visiting individuals only","Bombus hypnorum","Species","bumblebees",1,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Vaccinium_corymbosum_Netherlands_2013","B16","sweepnet, flower visiting individuals only","Bombus lapidarius","Species","bumblebees",18,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Vaccinium_corymbosum_Netherlands_2013","B16","sweepnet, flower visiting individuals only","Bombus pascuorum","Species","bumblebees",31,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Vaccinium_corymbosum_Netherlands_2013","B16","sweepnet, flower visiting individuals only","Bombus pratorum","Species","bumblebees",13,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Vaccinium_corymbosum_Netherlands_2013","B16","sweepnet, flower visiting individuals only","Bombus terrestris","Species","bumblebees",102,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Vaccinium_corymbosum_Netherlands_2013","B16","sweepnet, flower visiting individuals only","Bombus vestalis","Species","bumblebees",1,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Vaccinium_corymbosum_Netherlands_2013","B16","sweepnet, flower visiting individuals only","Eupeodes corollae","Species","syrphids",1,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Vaccinium_corymbosum_Netherlands_2013","B16","sweepnet, flower visiting individuals only","Syrphus ribesii","Species","syrphids",1,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Vaccinium_corymbosum_Netherlands_2013","B17","sweepnet, flower visiting individuals only","Andrena carantonica","Species","other_wild_bees",1,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Vaccinium_corymbosum_Netherlands_2013","B17","sweepnet, flower visiting individuals only","Andrena haemorrhoa","Species","other_wild_bees",2,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Vaccinium_corymbosum_Netherlands_2013","B17","sweepnet, flower visiting individuals only","Apis mellifera","Species","honeybees",387,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Vaccinium_corymbosum_Netherlands_2013","B17","sweepnet, flower visiting individuals only","Bombus hypnorum","Species","bumblebees",3,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Vaccinium_corymbosum_Netherlands_2013","B17","sweepnet, flower visiting individuals only","Bombus lapidarius","Species","bumblebees",5,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Vaccinium_corymbosum_Netherlands_2013","B17","sweepnet, flower visiting individuals only","Bombus pascuorum","Species","bumblebees",4,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Vaccinium_corymbosum_Netherlands_2013","B17","sweepnet, flower visiting individuals only","Bombus pratorum","Species","bumblebees",1,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Vaccinium_corymbosum_Netherlands_2013","B17","sweepnet, flower visiting individuals only","Bombus terrestris","Species","bumblebees",47,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Vaccinium_corymbosum_Netherlands_2013","B17","sweepnet, flower visiting individuals only","Episyrhpus balteatus","Species","syrphids",3,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Vaccinium_corymbosum_Netherlands_2013","B17","sweepnet, flower visiting individuals only","Eupeodes corollae","Species","syrphids",1,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Vaccinium_corymbosum_Netherlands_2013","B17","sweepnet, flower visiting individuals only","Helophilus pendulus","Species","syrphids",2,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Vaccinium_corymbosum_Netherlands_2013","B17","sweepnet, flower visiting individuals only","Lasioglossum sexnotatum","Species","other_wild_bees",1,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Vaccinium_corymbosum_Netherlands_2013","B17","sweepnet, flower visiting individuals only","Merodon equestris","Species","syrphids",1,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Vaccinium_corymbosum_Netherlands_2013","B17","sweepnet, flower visiting individuals only","Syrphus vitripennis","Species","syrphids",2,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Vaccinium_corymbosum_Netherlands_2013","B18","sweepnet, flower visiting individuals only","Andrena synadelpha","Species","other_wild_bees",1,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Vaccinium_corymbosum_Netherlands_2013","B18","sweepnet, flower visiting individuals only","Apis mellifera","Species","honeybees",156,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Vaccinium_corymbosum_Netherlands_2013","B18","sweepnet, flower visiting individuals only","Bombus hypnorum","Species","bumblebees",7,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Vaccinium_corymbosum_Netherlands_2013","B18","sweepnet, flower visiting individuals only","Bombus lapidarius","Species","bumblebees",3,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Vaccinium_corymbosum_Netherlands_2013","B18","sweepnet, flower visiting individuals only","Bombus pascuorum","Species","bumblebees",3,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Vaccinium_corymbosum_Netherlands_2013","B18","sweepnet, flower visiting individuals only","Bombus pratorum","Species","bumblebees",10,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Vaccinium_corymbosum_Netherlands_2013","B18","sweepnet, flower visiting individuals only","Bombus terrestris","Species","bumblebees",101,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Vaccinium_corymbosum_Netherlands_2013","B18","sweepnet, flower visiting individuals only","Osmia bicornis","Species","other_wild_bees",1,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Vaccinium_corymbosum_Netherlands_2013","B18","sweepnet, flower visiting individuals only","Platycheirus peltatus","Species","syrphids",1,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Vaccinium_corymbosum_Netherlands_2013","B18","sweepnet, flower visiting individuals only","Syrphus vitripennis","Species","syrphids",2,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Vaccinium_corymbosum_Netherlands_2013","B19","sweepnet, flower visiting individuals only","Andrena fulva","Species","other_wild_bees",1,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Vaccinium_corymbosum_Netherlands_2013","B19","sweepnet, flower visiting individuals only","Andrena haemorrhoa","Species","other_wild_bees",1,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Vaccinium_corymbosum_Netherlands_2013","B19","sweepnet, flower visiting individuals only","Apis mellifera","Species","honeybees",86,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Vaccinium_corymbosum_Netherlands_2013","B19","sweepnet, flower visiting individuals only","Bombus hortorum","Species","bumblebees",16,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Vaccinium_corymbosum_Netherlands_2013","B19","sweepnet, flower visiting individuals only","Bombus hypnorum","Species","bumblebees",4,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Vaccinium_corymbosum_Netherlands_2013","B19","sweepnet, flower visiting individuals only","Bombus lapidarius","Species","bumblebees",7,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Vaccinium_corymbosum_Netherlands_2013","B19","sweepnet, flower visiting individuals only","Bombus pascuorum","Species","bumblebees",18,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Vaccinium_corymbosum_Netherlands_2013","B19","sweepnet, flower visiting individuals only","Bombus pratorum","Species","bumblebees",9,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Vaccinium_corymbosum_Netherlands_2013","B19","sweepnet, flower visiting individuals only","Bombus terrestris","Species","bumblebees",143,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Vaccinium_corymbosum_Netherlands_2013","B19","sweepnet, flower visiting individuals only","Eristalis pertinax","Species","syrphids",1,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Vaccinium_corymbosum_Netherlands_2013","B20","sweepnet, flower visiting individuals only","Andrena haemorrhoa","Species","other_wild_bees",1,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Vaccinium_corymbosum_Netherlands_2013","B20","sweepnet, flower visiting individuals only","Apis mellifera","Species","honeybees",81,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Vaccinium_corymbosum_Netherlands_2013","B20","sweepnet, flower visiting individuals only","Bombus hypnorum","Species","bumblebees",5,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Vaccinium_corymbosum_Netherlands_2013","B20","sweepnet, flower visiting individuals only","Bombus lapidarius","Species","bumblebees",3,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Vaccinium_corymbosum_Netherlands_2013","B20","sweepnet, flower visiting individuals only","Bombus pascuorum","Species","bumblebees",11,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Vaccinium_corymbosum_Netherlands_2013","B20","sweepnet, flower visiting individuals only","Bombus pratorum","Species","bumblebees",18,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Vaccinium_corymbosum_Netherlands_2013","B20","sweepnet, flower visiting individuals only","Bombus terrestris","Species","bumblebees",79,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Vaccinium_corymbosum_Netherlands_2013","B20","sweepnet, flower visiting individuals only","Eupeodes corollae","Species","syrphids",1,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Vaccinium_corymbosum_Netherlands_2013","B20","sweepnet, flower visiting individuals only","Helophilus trivittatus","Species","syrphids",1,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Vaccinium_corymbosum_Netherlands_2013","B20","sweepnet, flower visiting individuals only","Myathropa florea","Species","syrphids",1,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Vaccinium_corymbosum_Netherlands_2013","B20","sweepnet, flower visiting individuals only","Rhingia campestris","Species","syrphids",1,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Vaccinium_corymbosum_Netherlands_2013","B21","sweepnet, flower visiting individuals only","Apis mellifera","Species","honeybees",173,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Vaccinium_corymbosum_Netherlands_2013","B21","sweepnet, flower visiting individuals only","Bombus hortorum","Species","bumblebees",3,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Vaccinium_corymbosum_Netherlands_2013","B21","sweepnet, flower visiting individuals only","Bombus lapidarius","Species","bumblebees",14,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Vaccinium_corymbosum_Netherlands_2013","B21","sweepnet, flower visiting individuals only","Bombus pascuorum","Species","bumblebees",3,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Vaccinium_corymbosum_Netherlands_2013","B21","sweepnet, flower visiting individuals only","Bombus pratorum","Species","bumblebees",2,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Vaccinium_corymbosum_Netherlands_2013","B21","sweepnet, flower visiting individuals only","Bombus terrestris","Species","bumblebees",96,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Vaccinium_corymbosum_Netherlands_2013","B21","sweepnet, flower visiting individuals only","Eupeodes corollae","Species","syrphids",1,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Vaccinium_corymbosum_Netherlands_2013","B21","sweepnet, flower visiting individuals only","Helophilus hybridus","Species","syrphids",1,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Vaccinium_corymbosum_Netherlands_2013","B21","sweepnet, flower visiting individuals only","Scaeva selenitica","Species","syrphids",1,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Vaccinium_corymbosum_Netherlands_2013","B22","sweepnet, flower visiting individuals only","Apis mellifera","Species","honeybees",12,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Vaccinium_corymbosum_Netherlands_2013","B22","sweepnet, flower visiting individuals only","Bombus hortorum","Species","bumblebees",3,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Vaccinium_corymbosum_Netherlands_2013","B22","sweepnet, flower visiting individuals only","Bombus lapidarius","Species","bumblebees",3,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Vaccinium_corymbosum_Netherlands_2013","B22","sweepnet, flower visiting individuals only","Bombus pascuorum","Species","bumblebees",51,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Vaccinium_corymbosum_Netherlands_2013","B22","sweepnet, flower visiting individuals only","Bombus pratorum","Species","bumblebees",26,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Vaccinium_corymbosum_Netherlands_2013","B22","sweepnet, flower visiting individuals only","Bombus terrestris","Species","bumblebees",108,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Vaccinium_corymbosum_Netherlands_2013","B22","sweepnet, flower visiting individuals only","Osmia bicornis","Species","other_wild_bees",2,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Vaccinium_corymbosum_Netherlands_2013","B23","sweepnet, flower visiting individuals only","Apis mellifera","Species","honeybees",8,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Vaccinium_corymbosum_Netherlands_2013","B23","sweepnet, flower visiting individuals only","Bombus hortorum","Species","bumblebees",57,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Vaccinium_corymbosum_Netherlands_2013","B23","sweepnet, flower visiting individuals only","Bombus hypnorum","Species","bumblebees",4,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Vaccinium_corymbosum_Netherlands_2013","B23","sweepnet, flower visiting individuals only","Bombus lapidarius","Species","bumblebees",40,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Vaccinium_corymbosum_Netherlands_2013","B23","sweepnet, flower visiting individuals only","Bombus pascuorum","Species","bumblebees",11,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Vaccinium_corymbosum_Netherlands_2013","B23","sweepnet, flower visiting individuals only","Bombus pratorum","Species","bumblebees",11,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Vaccinium_corymbosum_Netherlands_2013","B23","sweepnet, flower visiting individuals only","Bombus terrestris","Species","bumblebees",186,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Vaccinium_corymbosum_Netherlands_2013","B24","sweepnet, flower visiting individuals only","Apis mellifera","Species","honeybees",213,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Vaccinium_corymbosum_Netherlands_2013","B24","sweepnet, flower visiting individuals only","Bombus hortorum","Species","bumblebees",1,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Vaccinium_corymbosum_Netherlands_2013","B24","sweepnet, flower visiting individuals only","Bombus lapidarius","Species","bumblebees",5,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Vaccinium_corymbosum_Netherlands_2013","B24","sweepnet, flower visiting individuals only","Bombus pascuorum","Species","bumblebees",1,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Vaccinium_corymbosum_Netherlands_2013","B24","sweepnet, flower visiting individuals only","Bombus terrestris","Species","bumblebees",88,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Vaccinium_corymbosum_Netherlands_2013","B24","sweepnet, flower visiting individuals only","Eupeodes corollae","Species","syrphids",1,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Vaccinium_corymbosum_Netherlands_2013","B24","sweepnet, flower visiting individuals only","Helophilus trivittatus","Species","syrphids",1,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Vaccinium_corymbosum_Netherlands_2013","B24","sweepnet, flower visiting individuals only","Myathropa florea","Species","syrphids",1,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Vaccinium_corymbosum_Netherlands_2013","B25","sweepnet, flower visiting individuals only","Andrena haemorrhoa","Species","other_wild_bees",1,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Vaccinium_corymbosum_Netherlands_2013","B25","sweepnet, flower visiting individuals only","Apis mellifera","Species","honeybees",280,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Vaccinium_corymbosum_Netherlands_2013","B25","sweepnet, flower visiting individuals only","Bombus hortorum","Species","bumblebees",1,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Vaccinium_corymbosum_Netherlands_2013","B25","sweepnet, flower visiting individuals only","Bombus hypnorum","Species","bumblebees",2,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Vaccinium_corymbosum_Netherlands_2013","B25","sweepnet, flower visiting individuals only","Bombus lapidarius","Species","bumblebees",2,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Vaccinium_corymbosum_Netherlands_2013","B25","sweepnet, flower visiting individuals only","Bombus pascuorum","Species","bumblebees",2,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Vaccinium_corymbosum_Netherlands_2013","B25","sweepnet, flower visiting individuals only","Bombus pratorum","Species","bumblebees",1,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Vaccinium_corymbosum_Netherlands_2013","B25","sweepnet, flower visiting individuals only","Bombus terrestris","Species","bumblebees",109,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Vaccinium_corymbosum_Netherlands_2013","B26","sweepnet, flower visiting individuals only","Andrena nigroaenea","Species","other_wild_bees",1,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Vaccinium_corymbosum_Netherlands_2013","B26","sweepnet, flower visiting individuals only","Apis mellifera","Species","honeybees",548,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Vaccinium_corymbosum_Netherlands_2013","B26","sweepnet, flower visiting individuals only","Bombus hortorum","Species","bumblebees",8,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Vaccinium_corymbosum_Netherlands_2013","B26","sweepnet, flower visiting individuals only","Bombus hypnorum","Species","bumblebees",4,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Vaccinium_corymbosum_Netherlands_2013","B26","sweepnet, flower visiting individuals only","Bombus lapidarius","Species","bumblebees",1,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Vaccinium_corymbosum_Netherlands_2013","B26","sweepnet, flower visiting individuals only","Bombus pascuorum","Species","bumblebees",19,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Vaccinium_corymbosum_Netherlands_2013","B26","sweepnet, flower visiting individuals only","Bombus pratorum","Species","bumblebees",16,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Vaccinium_corymbosum_Netherlands_2013","B26","sweepnet, flower visiting individuals only","Bombus terrestris","Species","bumblebees",50,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Vaccinium_corymbosum_Netherlands_2013","B26","sweepnet, flower visiting individuals only","Osmia bicornis","Species","other_wild_bees",1,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Vaccinium_corymbosum_Netherlands_2013","B27","sweepnet, flower visiting individuals only","Andrena haemorrhoa","Species","other_wild_bees",1,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Vaccinium_corymbosum_Netherlands_2013","B27","sweepnet, flower visiting individuals only","Andrena vaga","Species","other_wild_bees",1,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Vaccinium_corymbosum_Netherlands_2013","B27","sweepnet, flower visiting individuals only","Apis mellifera","Species","honeybees",98,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Vaccinium_corymbosum_Netherlands_2013","B27","sweepnet, flower visiting individuals only","Bombus hortorum","Species","bumblebees",2,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Vaccinium_corymbosum_Netherlands_2013","B27","sweepnet, flower visiting individuals only","Bombus lapidarius","Species","bumblebees",10,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Vaccinium_corymbosum_Netherlands_2013","B27","sweepnet, flower visiting individuals only","Bombus pascuorum","Species","bumblebees",2,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Vaccinium_corymbosum_Netherlands_2013","B27","sweepnet, flower visiting individuals only","Bombus pratorum","Species","bumblebees",1,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Vaccinium_corymbosum_Netherlands_2013","B27","sweepnet, flower visiting individuals only","Bombus terrestris","Species","bumblebees",77,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Vaccinium_corymbosum_Netherlands_2013","B27","sweepnet, flower visiting individuals only","Syrphus vitripennis","Species","syrphids",1,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Vaccinium_corymbosum_Netherlands_2013","B28","sweepnet, flower visiting individuals only","Andrena haemorrhoa","Species","other_wild_bees",1,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Vaccinium_corymbosum_Netherlands_2013","B28","sweepnet, flower visiting individuals only","Andrena synadelpha","Species","other_wild_bees",1,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Vaccinium_corymbosum_Netherlands_2013","B28","sweepnet, flower visiting individuals only","Apis mellifera","Species","honeybees",167,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Vaccinium_corymbosum_Netherlands_2013","B28","sweepnet, flower visiting individuals only","Bombus hortorum","Species","bumblebees",10,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Vaccinium_corymbosum_Netherlands_2013","B28","sweepnet, flower visiting individuals only","Bombus hypnorum","Species","bumblebees",6,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Vaccinium_corymbosum_Netherlands_2013","B28","sweepnet, flower visiting individuals only","Bombus lapidarius","Species","bumblebees",17,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Vaccinium_corymbosum_Netherlands_2013","B28","sweepnet, flower visiting individuals only","Bombus pascuorum","Species","bumblebees",2,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Vaccinium_corymbosum_Netherlands_2013","B28","sweepnet, flower visiting individuals only","Bombus pratorum","Species","bumblebees",7,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Vaccinium_corymbosum_Netherlands_2013","B28","sweepnet, flower visiting individuals only","Bombus terrestris","Species","bumblebees",98,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Vaccinium_corymbosum_Netherlands_2013","B28","sweepnet, flower visiting individuals only","Syrphus vitripennis","Species","syrphids",5,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Vaccinium_corymbosum_Netherlands_2013","B29","sweepnet, flower visiting individuals only","Apis mellifera","Species","honeybees",97,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Vaccinium_corymbosum_Netherlands_2013","B29","sweepnet, flower visiting individuals only","Bombus hortorum","Species","bumblebees",3,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Vaccinium_corymbosum_Netherlands_2013","B29","sweepnet, flower visiting individuals only","Bombus hypnorum","Species","bumblebees",1,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Vaccinium_corymbosum_Netherlands_2013","B29","sweepnet, flower visiting individuals only","Bombus lapidarius","Species","bumblebees",2,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Vaccinium_corymbosum_Netherlands_2013","B29","sweepnet, flower visiting individuals only","Bombus pascuorum","Species","bumblebees",11,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Vaccinium_corymbosum_Netherlands_2013","B29","sweepnet, flower visiting individuals only","Bombus pratorum","Species","bumblebees",6,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Vaccinium_corymbosum_Netherlands_2013","B29","sweepnet, flower visiting individuals only","Bombus terrestris","Species","bumblebees",96,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Vaccinium_corymbosum_Netherlands_2013","B29","sweepnet, flower visiting individuals only","Episyrhpus balteatus","Species","syrphids",1,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Vaccinium_corymbosum_Netherlands_2013","B29","sweepnet, flower visiting individuals only","Syrphus vitripennis","Species","syrphids",3,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Vaccinium_corymbosum_Netherlands_2013","B30","sweepnet, flower visiting individuals only","Andrena mitis","Species","other_wild_bees",2,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Vaccinium_corymbosum_Netherlands_2013","B30","sweepnet, flower visiting individuals only","Apis mellifera","Species","honeybees",420,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Vaccinium_corymbosum_Netherlands_2013","B30","sweepnet, flower visiting individuals only","Bombus hortorum","Species","bumblebees",2,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Vaccinium_corymbosum_Netherlands_2013","B30","sweepnet, flower visiting individuals only","Bombus lapidarius","Species","bumblebees",6,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Vaccinium_corymbosum_Netherlands_2013","B30","sweepnet, flower visiting individuals only","Bombus pascuorum","Species","bumblebees",13,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Vaccinium_corymbosum_Netherlands_2013","B30","sweepnet, flower visiting individuals only","Bombus pratorum","Species","bumblebees",4,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Vaccinium_corymbosum_Netherlands_2013","B30","sweepnet, flower visiting individuals only","Bombus terrestris","Species","bumblebees",87,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Vaccinium_corymbosum_Netherlands_2013","B30","sweepnet, flower visiting individuals only","Chrysotoxum cautum","Species","syrphids",1,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Vaccinium_corymbosum_Netherlands_2013","B30","sweepnet, flower visiting individuals only","Eupeodes corollae","Species","syrphids",1,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Vaccinium_corymbosum_Netherlands_2013","B30","sweepnet, flower visiting individuals only","Osmia bicornis","Species","other_wild_bees",1,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Vaccinium_corymbosum_Netherlands_2013","B30","sweepnet, flower visiting individuals only","Syrphus torvus","Species","syrphids",1,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Vaccinium_corymbosum_Netherlands_2013","B30","sweepnet, flower visiting individuals only","Syrphus vitripennis","Species","syrphids",1,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Vaccinium_corymbosum_Netherlands_2014","B16","sweepnet, flower visiting individuals only","A. mellifera","Species","honeybees",187,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Vaccinium_corymbosum_Netherlands_2014","B16","sweepnet, flower visiting individuals only","Andrena sp.","Species","other_wild_bees",1,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Vaccinium_corymbosum_Netherlands_2014","B16","sweepnet, flower visiting individuals only","B. hortorum","Species","bumblebees",1,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Vaccinium_corymbosum_Netherlands_2014","B16","sweepnet, flower visiting individuals only","B. lapidarius","Species","bumblebees",2,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Vaccinium_corymbosum_Netherlands_2014","B16","sweepnet, flower visiting individuals only","B. pascuorum","Species","bumblebees",2,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Vaccinium_corymbosum_Netherlands_2014","B16","sweepnet, flower visiting individuals only","B. pratorum","Species","bumblebees",1,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Vaccinium_corymbosum_Netherlands_2014","B16","sweepnet, flower visiting individuals only","B. terrestris","Species","bumblebees",211,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Vaccinium_corymbosum_Netherlands_2014","B16","sweepnet, flower visiting individuals only","Episyrhpus balteatus","Species","syrphids",1,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Vaccinium_corymbosum_Netherlands_2014","B17","sweepnet, flower visiting individuals only","A. mellifera","Species","honeybees",232,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Vaccinium_corymbosum_Netherlands_2014","B17","sweepnet, flower visiting individuals only","Andrena fulva","Species","other_wild_bees",1,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Vaccinium_corymbosum_Netherlands_2014","B17","sweepnet, flower visiting individuals only","Andrena haemorrhoa","Species","other_wild_bees",1,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Vaccinium_corymbosum_Netherlands_2014","B17","sweepnet, flower visiting individuals only","Andrena nitida","Species","other_wild_bees",1,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Vaccinium_corymbosum_Netherlands_2014","B17","sweepnet, flower visiting individuals only","B. hypnorum","Species","bumblebees",3,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Vaccinium_corymbosum_Netherlands_2014","B17","sweepnet, flower visiting individuals only","B. lapidarius","Species","bumblebees",30,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Vaccinium_corymbosum_Netherlands_2014","B17","sweepnet, flower visiting individuals only","B. pascuorum","Species","bumblebees",11,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Vaccinium_corymbosum_Netherlands_2014","B17","sweepnet, flower visiting individuals only","B. pratorum","Species","bumblebees",3,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Vaccinium_corymbosum_Netherlands_2014","B17","sweepnet, flower visiting individuals only","B. pratorum","Species","bumblebees",5,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Vaccinium_corymbosum_Netherlands_2014","B17","sweepnet, flower visiting individuals only","B. terrestris","Species","bumblebees",106,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Vaccinium_corymbosum_Netherlands_2014","B17","sweepnet, flower visiting individuals only","Epistrophe_eligans","Species","syrphids",1,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Vaccinium_corymbosum_Netherlands_2014","B18","sweepnet, flower visiting individuals only","A. mellifera","Species","honeybees",210,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Vaccinium_corymbosum_Netherlands_2014","B18","sweepnet, flower visiting individuals only","B. hypnorum","Species","bumblebees",3,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Vaccinium_corymbosum_Netherlands_2014","B18","sweepnet, flower visiting individuals only","B. lapidarius","Species","bumblebees",11,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Vaccinium_corymbosum_Netherlands_2014","B18","sweepnet, flower visiting individuals only","B. pascuorum","Species","bumblebees",1,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Vaccinium_corymbosum_Netherlands_2014","B18","sweepnet, flower visiting individuals only","B. pratorum","Species","bumblebees",4,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Vaccinium_corymbosum_Netherlands_2014","B18","sweepnet, flower visiting individuals only","B. terrestris","Species","bumblebees",120,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Vaccinium_corymbosum_Netherlands_2014","B19","sweepnet, flower visiting individuals only","A. mellifera","Species","honeybees",195,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Vaccinium_corymbosum_Netherlands_2014","B19","sweepnet, flower visiting individuals only","Andrena haemorrhoa","Species","other_wild_bees",1,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Vaccinium_corymbosum_Netherlands_2014","B19","sweepnet, flower visiting individuals only","B. hortorum","Species","bumblebees",9,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Vaccinium_corymbosum_Netherlands_2014","B19","sweepnet, flower visiting individuals only","B. hypnorum","Species","bumblebees",3,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Vaccinium_corymbosum_Netherlands_2014","B19","sweepnet, flower visiting individuals only","B. lapidarius","Species","bumblebees",12,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Vaccinium_corymbosum_Netherlands_2014","B19","sweepnet, flower visiting individuals only","B. pascuorum","Species","bumblebees",3,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Vaccinium_corymbosum_Netherlands_2014","B19","sweepnet, flower visiting individuals only","B. pratorum","Species","bumblebees",9,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Vaccinium_corymbosum_Netherlands_2014","B19","sweepnet, flower visiting individuals only","B. terrestris","Species","bumblebees",168,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Vaccinium_corymbosum_Netherlands_2014","B19","sweepnet, flower visiting individuals only","Helophilus pendulus","Species","syrphids",1,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Vaccinium_corymbosum_Netherlands_2014","B19","sweepnet, flower visiting individuals only","Osmia bicornis","Species","other_wild_bees",5,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Vaccinium_corymbosum_Netherlands_2014","B20","sweepnet, flower visiting individuals only","A. mellifera","Species","honeybees",287,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Vaccinium_corymbosum_Netherlands_2014","B20","sweepnet, flower visiting individuals only","B. lapidarius","Species","bumblebees",8,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Vaccinium_corymbosum_Netherlands_2014","B20","sweepnet, flower visiting individuals only","B. pratorum","Species","bumblebees",1,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Vaccinium_corymbosum_Netherlands_2014","B20","sweepnet, flower visiting individuals only","B. terrestris","Species","bumblebees",77,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Vaccinium_corymbosum_Netherlands_2014","B21","sweepnet, flower visiting individuals only","A. mellifera","Species","honeybees",209,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Vaccinium_corymbosum_Netherlands_2014","B21","sweepnet, flower visiting individuals only","B. hypnorum","Species","bumblebees",2,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Vaccinium_corymbosum_Netherlands_2014","B21","sweepnet, flower visiting individuals only","B. lapidarius","Species","bumblebees",6,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Vaccinium_corymbosum_Netherlands_2014","B21","sweepnet, flower visiting individuals only","B. pascuorum","Species","bumblebees",2,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Vaccinium_corymbosum_Netherlands_2014","B21","sweepnet, flower visiting individuals only","B. pratorum","Species","bumblebees",2,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Vaccinium_corymbosum_Netherlands_2014","B21","sweepnet, flower visiting individuals only","B. terrestris","Species","bumblebees",125,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Vaccinium_corymbosum_Netherlands_2014","B24","sweepnet, flower visiting individuals only","A. mellifera","Species","honeybees",145,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Vaccinium_corymbosum_Netherlands_2014","B24","sweepnet, flower visiting individuals only","B. lapidarius","Species","bumblebees",12,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Vaccinium_corymbosum_Netherlands_2014","B24","sweepnet, flower visiting individuals only","B. pascuorum","Species","bumblebees",5,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Vaccinium_corymbosum_Netherlands_2014","B24","sweepnet, flower visiting individuals only","B. pratorum","Species","bumblebees",2,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Vaccinium_corymbosum_Netherlands_2014","B24","sweepnet, flower visiting individuals only","B. terrestris","Species","bumblebees",122,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Vaccinium_corymbosum_Netherlands_2014","B25","sweepnet, flower visiting individuals only","A. mellifera","Species","honeybees",227,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Vaccinium_corymbosum_Netherlands_2014","B25","sweepnet, flower visiting individuals only","B. lapidarius","Species","bumblebees",4,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Vaccinium_corymbosum_Netherlands_2014","B25","sweepnet, flower visiting individuals only","B. pascuorum","Species","bumblebees",1,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Vaccinium_corymbosum_Netherlands_2014","B25","sweepnet, flower visiting individuals only","B. pratorum","Species","bumblebees",2,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Vaccinium_corymbosum_Netherlands_2014","B25","sweepnet, flower visiting individuals only","B. terrestris","Species","bumblebees",60,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Vaccinium_corymbosum_Netherlands_2014","B25","sweepnet, flower visiting individuals only","Lasioglossum sexnotatum","Species","other_wild_bees",1,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Vaccinium_corymbosum_Netherlands_2014","B26","sweepnet, flower visiting individuals only","A. mellifera","Species","honeybees",235,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Vaccinium_corymbosum_Netherlands_2014","B26","sweepnet, flower visiting individuals only","Andrena haemorrhoa","Species","other_wild_bees",1,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Vaccinium_corymbosum_Netherlands_2014","B26","sweepnet, flower visiting individuals only","Andrena sp.","Species","other_wild_bees",1,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Vaccinium_corymbosum_Netherlands_2014","B26","sweepnet, flower visiting individuals only","B. hypnorum","Species","bumblebees",1,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Vaccinium_corymbosum_Netherlands_2014","B26","sweepnet, flower visiting individuals only","B. lapidarius","Species","bumblebees",10,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Vaccinium_corymbosum_Netherlands_2014","B26","sweepnet, flower visiting individuals only","B. pascuorum","Species","bumblebees",3,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Vaccinium_corymbosum_Netherlands_2014","B26","sweepnet, flower visiting individuals only","B. pratorum","Species","bumblebees",3,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Vaccinium_corymbosum_Netherlands_2014","B26","sweepnet, flower visiting individuals only","B. terrestris","Species","bumblebees",73,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Vaccinium_corymbosum_Netherlands_2014","B26","sweepnet, flower visiting individuals only","Eristalis tenax","Species","syrphids",1,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Vaccinium_corymbosum_Netherlands_2014","B26","sweepnet, flower visiting individuals only","Osmia bicornis","Species","other_wild_bees",1,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Vaccinium_corymbosum_Netherlands_2014","B26","sweepnet, flower visiting individuals only","Syrphus vitripennis","Species","syrphids",1,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Vaccinium_corymbosum_Netherlands_2014","B27","sweepnet, flower visiting individuals only","A. mellifera","Species","honeybees",327,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Vaccinium_corymbosum_Netherlands_2014","B27","sweepnet, flower visiting individuals only","B. lapidarius","Species","bumblebees",5,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Vaccinium_corymbosum_Netherlands_2014","B27","sweepnet, flower visiting individuals only","B. terrestris","Species","bumblebees",41,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Vaccinium_corymbosum_Netherlands_2014","B27","sweepnet, flower visiting individuals only","Eristalis tenax","Species","syrphids",1,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Vaccinium_corymbosum_Netherlands_2014","B28","sweepnet, flower visiting individuals only","A. mellifera","Species","honeybees",152,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Vaccinium_corymbosum_Netherlands_2014","B28","sweepnet, flower visiting individuals only","B. hortorum","Species","bumblebees",7,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Vaccinium_corymbosum_Netherlands_2014","B28","sweepnet, flower visiting individuals only","B. hypnorum","Species","bumblebees",8,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Vaccinium_corymbosum_Netherlands_2014","B28","sweepnet, flower visiting individuals only","B. lapidarius","Species","bumblebees",16,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Vaccinium_corymbosum_Netherlands_2014","B28","sweepnet, flower visiting individuals only","B. pratorum","Species","bumblebees",2,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Vaccinium_corymbosum_Netherlands_2014","B28","sweepnet, flower visiting individuals only","B. terrestris","Species","bumblebees",126,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Vaccinium_corymbosum_Netherlands_2014","B28","sweepnet, flower visiting individuals only","Syrphus vitripennis","Species","syrphids",1,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Vaccinium_corymbosum_Netherlands_2014","B29","sweepnet, flower visiting individuals only","A. mellifera","Species","honeybees",172,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Vaccinium_corymbosum_Netherlands_2014","B29","sweepnet, flower visiting individuals only","B. hortorum","Species","bumblebees",5,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Vaccinium_corymbosum_Netherlands_2014","B29","sweepnet, flower visiting individuals only","B. hypnorum","Species","bumblebees",1,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Vaccinium_corymbosum_Netherlands_2014","B29","sweepnet, flower visiting individuals only","B. lapidarius","Species","bumblebees",11,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Vaccinium_corymbosum_Netherlands_2014","B29","sweepnet, flower visiting individuals only","B. pratorum","Species","bumblebees",3,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Vaccinium_corymbosum_Netherlands_2014","B29","sweepnet, flower visiting individuals only","B. terrestris","Species","bumblebees",82,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Vaccinium_corymbosum_Netherlands_2014","B30","sweepnet, flower visiting individuals only","A. mellifera","Species","honeybees",324,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Vaccinium_corymbosum_Netherlands_2014","B30","sweepnet, flower visiting individuals only","Andrena haemorrhoa","Species","other_wild_bees",1,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Vaccinium_corymbosum_Netherlands_2014","B30","sweepnet, flower visiting individuals only","Andrena_cineraria","Species","other_wild_bees",1,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Vaccinium_corymbosum_Netherlands_2014","B30","sweepnet, flower visiting individuals only","B. hortorum","Species","bumblebees",2,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Vaccinium_corymbosum_Netherlands_2014","B30","sweepnet, flower visiting individuals only","B. hypnorum","Species","bumblebees",2,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Vaccinium_corymbosum_Netherlands_2014","B30","sweepnet, flower visiting individuals only","B. lapidarius","Species","bumblebees",7,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Vaccinium_corymbosum_Netherlands_2014","B30","sweepnet, flower visiting individuals only","B. pascuorum","Species","bumblebees",1,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Vaccinium_corymbosum_Netherlands_2014","B30","sweepnet, flower visiting individuals only","B. pratorum","Species","bumblebees",1,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Vaccinium_corymbosum_Netherlands_2014","B30","sweepnet, flower visiting individuals only","B. terrestris","Species","bumblebees",61,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Vaccinium_corymbosum_Netherlands_2014","B30","sweepnet, flower visiting individuals only","Eristalis tenax","Species","syrphids",2,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Vaccinium_corymbosum_Netherlands_2014","B34","sweepnet, flower visiting individuals only","A. mellifera","Species","honeybees",111,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Vaccinium_corymbosum_Netherlands_2014","B34","sweepnet, flower visiting individuals only","Andrena haemorrhoa","Species","other_wild_bees",1,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Vaccinium_corymbosum_Netherlands_2014","B34","sweepnet, flower visiting individuals only","B. hortorum","Species","bumblebees",4,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Vaccinium_corymbosum_Netherlands_2014","B34","sweepnet, flower visiting individuals only","B. hypnorum","Species","bumblebees",3,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Vaccinium_corymbosum_Netherlands_2014","B34","sweepnet, flower visiting individuals only","B. lapidarius","Species","bumblebees",2,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Vaccinium_corymbosum_Netherlands_2014","B34","sweepnet, flower visiting individuals only","B. pascuorum","Species","bumblebees",5,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Vaccinium_corymbosum_Netherlands_2014","B34","sweepnet, flower visiting individuals only","B. pratorum","Species","bumblebees",3,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Vaccinium_corymbosum_Netherlands_2014","B34","sweepnet, flower visiting individuals only","B. terrestris","Species","bumblebees",156,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Vaccinium_corymbosum_Netherlands_2014","B34","sweepnet, flower visiting individuals only","Helophilus pendulus","Species","syrphids",1,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Vaccinium_corymbosum_Netherlands_2014","B35","sweepnet, flower visiting individuals only","A. mellifera","Species","honeybees",163,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Vaccinium_corymbosum_Netherlands_2014","B35","sweepnet, flower visiting individuals only","B. hypnorum","Species","bumblebees",10,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Vaccinium_corymbosum_Netherlands_2014","B35","sweepnet, flower visiting individuals only","B. lapidarius","Species","bumblebees",7,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Vaccinium_corymbosum_Netherlands_2014","B35","sweepnet, flower visiting individuals only","B. pascuorum","Species","bumblebees",18,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Vaccinium_corymbosum_Netherlands_2014","B35","sweepnet, flower visiting individuals only","B. pratorum","Species","bumblebees",8,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Vaccinium_corymbosum_Netherlands_2014","B35","sweepnet, flower visiting individuals only","B. terrestris","Species","bumblebees",140,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Vaccinium_corymbosum_Netherlands_2014","B35","sweepnet, flower visiting individuals only","Lasioglossum sexnotatum","Species","other_wild_bees",1,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Vaccinium_corymbosum_Netherlands_2014","B35","sweepnet, flower visiting individuals only","Myathropa florea","Species","syrphids",1,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Vaccinium_corymbosum_Netherlands_2014","B35","sweepnet, flower visiting individuals only","Osmia bicornis","Species","other_wild_bees",8,NA,NA,NA,"within one crop field, 3 plots for crop measurements and 12 inventory transects were randomly located.	2 inventory rounds per transect (1x morning, 1x afternoon)",NA
"David_Kleijn_Vaccinium_macrocarpon_USA_1990","C1","individual collection","Apis mellifera","species","honeybees",40,NA,45,NA,"In each bog, as many bees as possible were captured with either an insect net or jar as the individual collecting moved through the bog over 15 min in 1990 and 10 min in 1991. Collections were carried out three times during cranberry bloom.",NA
"David_Kleijn_Vaccinium_macrocarpon_USA_1990","C1","individual collection","Bombus bimaculatus","species","bumblebees",2,NA,45,NA,"In each bog, as many bees as possible were captured with either an insect net or jar as the individual collecting moved through the bog over 15 min in 1990 and 10 min in 1991. Collections were carried out three times during cranberry bloom.",NA
"David_Kleijn_Vaccinium_macrocarpon_USA_1990","C1","individual collection","Bombus impatiens","species","bumblebees",3,NA,45,NA,"In each bog, as many bees as possible were captured with either an insect net or jar as the individual collecting moved through the bog over 15 min in 1990 and 10 min in 1991. Collections were carried out three times during cranberry bloom.",NA
"David_Kleijn_Vaccinium_macrocarpon_USA_1990","C1","individual collection","Bombus perplexus","species","other_wild_bees",3,NA,45,NA,"In each bog, as many bees as possible were captured with either an insect net or jar as the individual collecting moved through the bog over 15 min in 1990 and 10 min in 1991. Collections were carried out three times during cranberry bloom.",NA
"David_Kleijn_Vaccinium_macrocarpon_USA_1990","C1","individual collection","Bombus vagans vagans","species","bumblebees",1,NA,45,NA,"In each bog, as many bees as possible were captured with either an insect net or jar as the individual collecting moved through the bog over 15 min in 1990 and 10 min in 1991. Collections were carried out three times during cranberry bloom.",NA
"David_Kleijn_Vaccinium_macrocarpon_USA_1990","C2","individual collection","Apis mellifera","species","honeybees",36,NA,45,NA,"In each bog, as many bees as possible were captured with either an insect net or jar as the individual collecting moved through the bog over 15 min in 1990 and 10 min in 1991. Collections were carried out three times during cranberry bloom.",NA
"David_Kleijn_Vaccinium_macrocarpon_USA_1990","C2","individual collection","Bombus affinis","species","bumblebees",6,NA,45,NA,"In each bog, as many bees as possible were captured with either an insect net or jar as the individual collecting moved through the bog over 15 min in 1990 and 10 min in 1991. Collections were carried out three times during cranberry bloom.",NA
"David_Kleijn_Vaccinium_macrocarpon_USA_1990","C2","individual collection","Bombus bimaculatus","species","bumblebees",4,NA,45,NA,"In each bog, as many bees as possible were captured with either an insect net or jar as the individual collecting moved through the bog over 15 min in 1990 and 10 min in 1991. Collections were carried out three times during cranberry bloom.",NA
"David_Kleijn_Vaccinium_macrocarpon_USA_1990","C2","individual collection","Bombus impatiens","species","bumblebees",3,NA,45,NA,"In each bog, as many bees as possible were captured with either an insect net or jar as the individual collecting moved through the bog over 15 min in 1990 and 10 min in 1991. Collections were carried out three times during cranberry bloom.",NA
"David_Kleijn_Vaccinium_macrocarpon_USA_1990","C2","individual collection","Bombus perplexus","species","other_wild_bees",2,NA,45,NA,"In each bog, as many bees as possible were captured with either an insect net or jar as the individual collecting moved through the bog over 15 min in 1990 and 10 min in 1991. Collections were carried out three times during cranberry bloom.",NA
"David_Kleijn_Vaccinium_macrocarpon_USA_1990","C2","individual collection","Bombus terricola","species","bumblebees",5,NA,45,NA,"In each bog, as many bees as possible were captured with either an insect net or jar as the individual collecting moved through the bog over 15 min in 1990 and 10 min in 1991. Collections were carried out three times during cranberry bloom.",NA
"David_Kleijn_Vaccinium_macrocarpon_USA_1990","C2","individual collection","Bombus vagans vagans","species","bumblebees",2,NA,45,NA,"In each bog, as many bees as possible were captured with either an insect net or jar as the individual collecting moved through the bog over 15 min in 1990 and 10 min in 1991. Collections were carried out three times during cranberry bloom.",NA
"David_Kleijn_Vaccinium_macrocarpon_USA_1990","C2","individual collection","Bombus griseollis","species","other_wild_bees",1,NA,45,NA,"In each bog, as many bees as possible were captured with either an insect net or jar as the individual collecting moved through the bog over 15 min in 1990 and 10 min in 1991. Collections were carried out three times during cranberry bloom.",NA
"David_Kleijn_Vaccinium_macrocarpon_USA_1990","C2","individual collection","Andrena cressonii","species","other_wild_bees",1,NA,45,NA,"In each bog, as many bees as possible were captured with either an insect net or jar as the individual collecting moved through the bog over 15 min in 1990 and 10 min in 1991. Collections were carried out three times during cranberry bloom.",NA
"David_Kleijn_Vaccinium_macrocarpon_USA_1990","C2","individual collection","Megachile gemula","species","other_wild_bees",1,NA,45,NA,"In each bog, as many bees as possible were captured with either an insect net or jar as the individual collecting moved through the bog over 15 min in 1990 and 10 min in 1991. Collections were carried out three times during cranberry bloom.",NA
"David_Kleijn_Vaccinium_macrocarpon_USA_1990","C2","individual collection","27 bees other than apidae","morphospecies","other_wild_bees",2,NA,45,NA,"In each bog, as many bees as possible were captured with either an insect net or jar as the individual collecting moved through the bog over 15 min in 1990 and 10 min in 1991. Collections were carried out three times during cranberry bloom.",NA
"David_Kleijn_Vaccinium_macrocarpon_USA_1990","C3","individual collection","Apis mellifera","species","honeybees",71,NA,45,NA,"In each bog, as many bees as possible were captured with either an insect net or jar as the individual collecting moved through the bog over 15 min in 1990 and 10 min in 1991. Collections were carried out three times during cranberry bloom.",NA
"David_Kleijn_Vaccinium_macrocarpon_USA_1990","C3","individual collection","Bombus affinis","species","bumblebees",1,NA,45,NA,"In each bog, as many bees as possible were captured with either an insect net or jar as the individual collecting moved through the bog over 15 min in 1990 and 10 min in 1991. Collections were carried out three times during cranberry bloom.",NA
"David_Kleijn_Vaccinium_macrocarpon_USA_1990","C3","individual collection","Bombus bimaculatus","species","bumblebees",8,NA,45,NA,"In each bog, as many bees as possible were captured with either an insect net or jar as the individual collecting moved through the bog over 15 min in 1990 and 10 min in 1991. Collections were carried out three times during cranberry bloom.",NA
"David_Kleijn_Vaccinium_macrocarpon_USA_1990","C3","individual collection","Bombus impatiens","species","bumblebees",17,NA,45,NA,"In each bog, as many bees as possible were captured with either an insect net or jar as the individual collecting moved through the bog over 15 min in 1990 and 10 min in 1991. Collections were carried out three times during cranberry bloom.",NA
"David_Kleijn_Vaccinium_macrocarpon_USA_1990","C3","individual collection","Bombus perplexus","species","other_wild_bees",4,NA,45,NA,"In each bog, as many bees as possible were captured with either an insect net or jar as the individual collecting moved through the bog over 15 min in 1990 and 10 min in 1991. Collections were carried out three times during cranberry bloom.",NA
"David_Kleijn_Vaccinium_macrocarpon_USA_1990","C3","individual collection","Bombus vagans vagans","species","bumblebees",2,NA,45,NA,"In each bog, as many bees as possible were captured with either an insect net or jar as the individual collecting moved through the bog over 15 min in 1990 and 10 min in 1991. Collections were carried out three times during cranberry bloom.",NA
"David_Kleijn_Vaccinium_macrocarpon_USA_1990","C3","individual collection","Bombus griseollis","species","other_wild_bees",2,NA,45,NA,"In each bog, as many bees as possible were captured with either an insect net or jar as the individual collecting moved through the bog over 15 min in 1990 and 10 min in 1991. Collections were carried out three times during cranberry bloom.",NA
"David_Kleijn_Vaccinium_macrocarpon_USA_1990","C3","individual collection","Sphecodes minor","species","other_wild_bees",1,NA,45,NA,"In each bog, as many bees as possible were captured with either an insect net or jar as the individual collecting moved through the bog over 15 min in 1990 and 10 min in 1991. Collections were carried out three times during cranberry bloom.",NA
"David_Kleijn_Vaccinium_macrocarpon_USA_1990","C3","individual collection","Megachile frigida","species","other_wild_bees",1,NA,45,NA,"In each bog, as many bees as possible were captured with either an insect net or jar as the individual collecting moved through the bog over 15 min in 1990 and 10 min in 1991. Collections were carried out three times during cranberry bloom.",NA
"David_Kleijn_Vaccinium_macrocarpon_USA_1990","C3","individual collection","Melitta near americana","morphospecies","other_wild_bees",1,NA,45,NA,"In each bog, as many bees as possible were captured with either an insect net or jar as the individual collecting moved through the bog over 15 min in 1990 and 10 min in 1991. Collections were carried out three times during cranberry bloom.",NA
"David_Kleijn_Vaccinium_macrocarpon_USA_1990","C3","individual collection","27 bees other than apidae","morphospecies","other_wild_bees",3,NA,45,NA,"In each bog, as many bees as possible were captured with either an insect net or jar as the individual collecting moved through the bog over 15 min in 1990 and 10 min in 1991. Collections were carried out three times during cranberry bloom.",NA
"David_Kleijn_Vaccinium_macrocarpon_USA_1990","A1","individual collection","Apis mellifera","species","honeybees",8,NA,45,NA,"In each bog, as many bees as possible were captured with either an insect net or jar as the individual collecting moved through the bog over 15 min in 1990 and 10 min in 1991. Collections were carried out three times during cranberry bloom.",NA
"David_Kleijn_Vaccinium_macrocarpon_USA_1990","A1","individual collection","Bombus affinis","species","bumblebees",1,NA,45,NA,"In each bog, as many bees as possible were captured with either an insect net or jar as the individual collecting moved through the bog over 15 min in 1990 and 10 min in 1991. Collections were carried out three times during cranberry bloom.",NA
"David_Kleijn_Vaccinium_macrocarpon_USA_1990","A1","individual collection","Bombus bimaculatus","species","bumblebees",7,NA,45,NA,"In each bog, as many bees as possible were captured with either an insect net or jar as the individual collecting moved through the bog over 15 min in 1990 and 10 min in 1991. Collections were carried out three times during cranberry bloom.",NA
"David_Kleijn_Vaccinium_macrocarpon_USA_1990","A1","individual collection","Bombus impatiens","species","bumblebees",18,NA,45,NA,"In each bog, as many bees as possible were captured with either an insect net or jar as the individual collecting moved through the bog over 15 min in 1990 and 10 min in 1991. Collections were carried out three times during cranberry bloom.",NA
"David_Kleijn_Vaccinium_macrocarpon_USA_1990","A1","individual collection","Bombus perplexus","species","other_wild_bees",2,NA,45,NA,"In each bog, as many bees as possible were captured with either an insect net or jar as the individual collecting moved through the bog over 15 min in 1990 and 10 min in 1991. Collections were carried out three times during cranberry bloom.",NA
"David_Kleijn_Vaccinium_macrocarpon_USA_1990","A1","individual collection","Bombus terricola","species","bumblebees",11,NA,45,NA,"In each bog, as many bees as possible were captured with either an insect net or jar as the individual collecting moved through the bog over 15 min in 1990 and 10 min in 1991. Collections were carried out three times during cranberry bloom.",NA
"David_Kleijn_Vaccinium_macrocarpon_USA_1990","A1","individual collection","Bombus vagans vagans","species","bumblebees",3,NA,45,NA,"In each bog, as many bees as possible were captured with either an insect net or jar as the individual collecting moved through the bog over 15 min in 1990 and 10 min in 1991. Collections were carried out three times during cranberry bloom.",NA
"David_Kleijn_Vaccinium_macrocarpon_USA_1990","A1","individual collection","Andrena carolina","species","other_wild_bees",1,NA,45,NA,"In each bog, as many bees as possible were captured with either an insect net or jar as the individual collecting moved through the bog over 15 min in 1990 and 10 min in 1991. Collections were carried out three times during cranberry bloom.",NA
"David_Kleijn_Vaccinium_macrocarpon_USA_1990","A1","individual collection","Andrena nivalis","species","other_wild_bees",1,NA,45,NA,"In each bog, as many bees as possible were captured with either an insect net or jar as the individual collecting moved through the bog over 15 min in 1990 and 10 min in 1991. Collections were carried out three times during cranberry bloom.",NA
"David_Kleijn_Vaccinium_macrocarpon_USA_1990","A1","individual collection","Andrena vicina","species","other_wild_bees",1,NA,45,NA,"In each bog, as many bees as possible were captured with either an insect net or jar as the individual collecting moved through the bog over 15 min in 1990 and 10 min in 1991. Collections were carried out three times during cranberry bloom.",NA
"David_Kleijn_Vaccinium_macrocarpon_USA_1990","A1","individual collection","Dialictus lineatulus","species","other_wild_bees",2,NA,45,NA,"In each bog, as many bees as possible were captured with either an insect net or jar as the individual collecting moved through the bog over 15 min in 1990 and 10 min in 1991. Collections were carried out three times during cranberry bloom.",NA
"David_Kleijn_Vaccinium_macrocarpon_USA_1990","A1","individual collection","Dialictus rohweri","species","other_wild_bees",3,NA,45,NA,"In each bog, as many bees as possible were captured with either an insect net or jar as the individual collecting moved through the bog over 15 min in 1990 and 10 min in 1991. Collections were carried out three times during cranberry bloom.",NA
"David_Kleijn_Vaccinium_macrocarpon_USA_1990","A1","individual collection","Evylaeus cinctipes","species","other_wild_bees",6,NA,45,NA,"In each bog, as many bees as possible were captured with either an insect net or jar as the individual collecting moved through the bog over 15 min in 1990 and 10 min in 1991. Collections were carried out three times during cranberry bloom.",NA
"David_Kleijn_Vaccinium_macrocarpon_USA_1990","A1","individual collection","Lasioglossum coriaceum","species","other_wild_bees",2,NA,45,NA,"In each bog, as many bees as possible were captured with either an insect net or jar as the individual collecting moved through the bog over 15 min in 1990 and 10 min in 1991. Collections were carried out three times during cranberry bloom.",NA
"David_Kleijn_Vaccinium_macrocarpon_USA_1990","A1","individual collection","Agapostemon texanus","species","other_wild_bees",1,NA,45,NA,"In each bog, as many bees as possible were captured with either an insect net or jar as the individual collecting moved through the bog over 15 min in 1990 and 10 min in 1991. Collections were carried out three times during cranberry bloom.",NA
"David_Kleijn_Vaccinium_macrocarpon_USA_1990","A1","individual collection","Auguchloropsis metallica","species","other_wild_bees",1,NA,45,NA,"In each bog, as many bees as possible were captured with either an insect net or jar as the individual collecting moved through the bog over 15 min in 1990 and 10 min in 1991. Collections were carried out three times during cranberry bloom.",NA
"David_Kleijn_Vaccinium_macrocarpon_USA_1990","A1","individual collection","Halictus rubicundus","species","other_wild_bees",1,NA,45,NA,"In each bog, as many bees as possible were captured with either an insect net or jar as the individual collecting moved through the bog over 15 min in 1990 and 10 min in 1991. Collections were carried out three times during cranberry bloom.",NA
"David_Kleijn_Vaccinium_macrocarpon_USA_1990","A1","individual collection","27 bees other than apidae","morphospecies","other_wild_bees",19,NA,45,NA,"In each bog, as many bees as possible were captured with either an insect net or jar as the individual collecting moved through the bog over 15 min in 1990 and 10 min in 1991. Collections were carried out three times during cranberry bloom.",NA
"David_Kleijn_Vaccinium_macrocarpon_USA_1990","A2","individual collection","Apis mellifera","species","honeybees",31,NA,45,NA,"In each bog, as many bees as possible were captured with either an insect net or jar as the individual collecting moved through the bog over 15 min in 1990 and 10 min in 1991. Collections were carried out three times during cranberry bloom.",NA
"David_Kleijn_Vaccinium_macrocarpon_USA_1990","A2","individual collection","Bombus affinis","species","bumblebees",4,NA,45,NA,"In each bog, as many bees as possible were captured with either an insect net or jar as the individual collecting moved through the bog over 15 min in 1990 and 10 min in 1991. Collections were carried out three times during cranberry bloom.",NA
"David_Kleijn_Vaccinium_macrocarpon_USA_1990","A2","individual collection","Bombus bimaculatus","species","bumblebees",12,NA,45,NA,"In each bog, as many bees as possible were captured with either an insect net or jar as the individual collecting moved through the bog over 15 min in 1990 and 10 min in 1991. Collections were carried out three times during cranberry bloom.",NA
"David_Kleijn_Vaccinium_macrocarpon_USA_1990","A2","individual collection","Bombus impatiens","species","bumblebees",10,NA,45,NA,"In each bog, as many bees as possible were captured with either an insect net or jar as the individual collecting moved through the bog over 15 min in 1990 and 10 min in 1991. Collections were carried out three times during cranberry bloom.",NA
"David_Kleijn_Vaccinium_macrocarpon_USA_1990","A2","individual collection","Bombus perplexus","species","other_wild_bees",2,NA,45,NA,"In each bog, as many bees as possible were captured with either an insect net or jar as the individual collecting moved through the bog over 15 min in 1990 and 10 min in 1991. Collections were carried out three times during cranberry bloom.",NA
"David_Kleijn_Vaccinium_macrocarpon_USA_1990","A2","individual collection","Bombus terricola","species","bumblebees",9,NA,45,NA,"In each bog, as many bees as possible were captured with either an insect net or jar as the individual collecting moved through the bog over 15 min in 1990 and 10 min in 1991. Collections were carried out three times during cranberry bloom.",NA
"David_Kleijn_Vaccinium_macrocarpon_USA_1990","A2","individual collection","Andrena carlini","species","other_wild_bees",2,NA,45,NA,"In each bog, as many bees as possible were captured with either an insect net or jar as the individual collecting moved through the bog over 15 min in 1990 and 10 min in 1991. Collections were carried out three times during cranberry bloom.",NA
"David_Kleijn_Vaccinium_macrocarpon_USA_1990","A2","individual collection","Andrena carolina","species","other_wild_bees",2,NA,45,NA,"In each bog, as many bees as possible were captured with either an insect net or jar as the individual collecting moved through the bog over 15 min in 1990 and 10 min in 1991. Collections were carried out three times during cranberry bloom.",NA
"David_Kleijn_Vaccinium_macrocarpon_USA_1990","A2","individual collection","Xylocopa virginica","species","other_wild_bees",1,NA,45,NA,"In each bog, as many bees as possible were captured with either an insect net or jar as the individual collecting moved through the bog over 15 min in 1990 and 10 min in 1991. Collections were carried out three times during cranberry bloom.",NA
"David_Kleijn_Vaccinium_macrocarpon_USA_1990","A2","individual collection","Dialictus rohweri","species","other_wild_bees",2,NA,45,NA,"In each bog, as many bees as possible were captured with either an insect net or jar as the individual collecting moved through the bog over 15 min in 1990 and 10 min in 1991. Collections were carried out three times during cranberry bloom.",NA
"David_Kleijn_Vaccinium_macrocarpon_USA_1990","A2","individual collection","Evylaeus cinctipes","species","other_wild_bees",7,NA,45,NA,"In each bog, as many bees as possible were captured with either an insect net or jar as the individual collecting moved through the bog over 15 min in 1990 and 10 min in 1991. Collections were carried out three times during cranberry bloom.",NA
"David_Kleijn_Vaccinium_macrocarpon_USA_1990","A2","individual collection","Lasioglossum coriaceum","species","other_wild_bees",2,NA,45,NA,"In each bog, as many bees as possible were captured with either an insect net or jar as the individual collecting moved through the bog over 15 min in 1990 and 10 min in 1991. Collections were carried out three times during cranberry bloom.",NA
"David_Kleijn_Vaccinium_macrocarpon_USA_1990","A2","individual collection","Lasioglossum athabascense","species","other_wild_bees",1,NA,45,NA,"In each bog, as many bees as possible were captured with either an insect net or jar as the individual collecting moved through the bog over 15 min in 1990 and 10 min in 1991. Collections were carried out three times during cranberry bloom.",NA
"David_Kleijn_Vaccinium_macrocarpon_USA_1990","A2","individual collection","Lasioglossum acuminatum","species","other_wild_bees",1,NA,45,NA,"In each bog, as many bees as possible were captured with either an insect net or jar as the individual collecting moved through the bog over 15 min in 1990 and 10 min in 1991. Collections were carried out three times during cranberry bloom.",NA
"David_Kleijn_Vaccinium_macrocarpon_USA_1990","A2","individual collection","Auguchloropsis metallica","species","other_wild_bees",1,NA,45,NA,"In each bog, as many bees as possible were captured with either an insect net or jar as the individual collecting moved through the bog over 15 min in 1990 and 10 min in 1991. Collections were carried out three times during cranberry bloom.",NA
"David_Kleijn_Vaccinium_macrocarpon_USA_1990","A2","individual collection","27 bees other than apidae","morphospecies","other_wild_bees",19,NA,45,NA,"In each bog, as many bees as possible were captured with either an insect net or jar as the individual collecting moved through the bog over 15 min in 1990 and 10 min in 1991. Collections were carried out three times during cranberry bloom.",NA
"David_Kleijn_Vaccinium_macrocarpon_USA_1990","A3","individual collection","Apis mellifera","species","honeybees",20,NA,45,NA,"In each bog, as many bees as possible were captured with either an insect net or jar as the individual collecting moved through the bog over 15 min in 1990 and 10 min in 1991. Collections were carried out three times during cranberry bloom.",NA
"David_Kleijn_Vaccinium_macrocarpon_USA_1990","A3","individual collection","Bombus affinis","species","bumblebees",1,NA,45,NA,"In each bog, as many bees as possible were captured with either an insect net or jar as the individual collecting moved through the bog over 15 min in 1990 and 10 min in 1991. Collections were carried out three times during cranberry bloom.",NA
"David_Kleijn_Vaccinium_macrocarpon_USA_1990","A3","individual collection","Bombus bimaculatus","species","bumblebees",3,NA,45,NA,"In each bog, as many bees as possible were captured with either an insect net or jar as the individual collecting moved through the bog over 15 min in 1990 and 10 min in 1991. Collections were carried out three times during cranberry bloom.",NA
"David_Kleijn_Vaccinium_macrocarpon_USA_1990","A3","individual collection","Bombus perplexus","species","other_wild_bees",3,NA,45,NA,"In each bog, as many bees as possible were captured with either an insect net or jar as the individual collecting moved through the bog over 15 min in 1990 and 10 min in 1991. Collections were carried out three times during cranberry bloom.",NA
"David_Kleijn_Vaccinium_macrocarpon_USA_1990","A3","individual collection","Bombus vagans vagans","species","bumblebees",1,NA,45,NA,"In each bog, as many bees as possible were captured with either an insect net or jar as the individual collecting moved through the bog over 15 min in 1990 and 10 min in 1991. Collections were carried out three times during cranberry bloom.",NA
"David_Kleijn_Vaccinium_macrocarpon_USA_1990","A3","individual collection","Agapostemon sericeus","species","other_wild_bees",1,NA,45,NA,"In each bog, as many bees as possible were captured with either an insect net or jar as the individual collecting moved through the bog over 15 min in 1990 and 10 min in 1991. Collections were carried out three times during cranberry bloom.",NA
"David_Kleijn_Vaccinium_macrocarpon_USA_1990","A3","individual collection","Halictus confusus","species","other_wild_bees",1,NA,45,NA,"In each bog, as many bees as possible were captured with either an insect net or jar as the individual collecting moved through the bog over 15 min in 1990 and 10 min in 1991. Collections were carried out three times during cranberry bloom.",NA
"David_Kleijn_Vaccinium_macrocarpon_USA_1990","A3","individual collection","Auguchloropsis metallica","species","other_wild_bees",1,NA,45,NA,"In each bog, as many bees as possible were captured with either an insect net or jar as the individual collecting moved through the bog over 15 min in 1990 and 10 min in 1991. Collections were carried out three times during cranberry bloom.",NA
"David_Kleijn_Vaccinium_macrocarpon_USA_1990","A3","individual collection","27 bees other than apidae","morphospecies","other_wild_bees",6,NA,45,NA,"In each bog, as many bees as possible were captured with either an insect net or jar as the individual collecting moved through the bog over 15 min in 1990 and 10 min in 1991. Collections were carried out three times during cranberry bloom.",NA
"David_Kleijn_Vaccinium_macrocarpon_USA_1990","N1","individual collection","Apis mellifera","species","honeybees",11,NA,45,NA,"In each bog, as many bees as possible were captured with either an insect net or jar as the individual collecting moved through the bog over 15 min in 1990 and 10 min in 1991. Collections were carried out three times during cranberry bloom.",NA
"David_Kleijn_Vaccinium_macrocarpon_USA_1990","N1","individual collection","Bombus bimaculatus","species","bumblebees",2,NA,45,NA,"In each bog, as many bees as possible were captured with either an insect net or jar as the individual collecting moved through the bog over 15 min in 1990 and 10 min in 1991. Collections were carried out three times during cranberry bloom.",NA
"David_Kleijn_Vaccinium_macrocarpon_USA_1990","N1","individual collection","Bombus impatiens","species","bumblebees",6,NA,45,NA,"In each bog, as many bees as possible were captured with either an insect net or jar as the individual collecting moved through the bog over 15 min in 1990 and 10 min in 1991. Collections were carried out three times during cranberry bloom.",NA
"David_Kleijn_Vaccinium_macrocarpon_USA_1990","N1","individual collection","Bombus griseollis","species","other_wild_bees",1,NA,45,NA,"In each bog, as many bees as possible were captured with either an insect net or jar as the individual collecting moved through the bog over 15 min in 1990 and 10 min in 1991. Collections were carried out three times during cranberry bloom.",NA
"David_Kleijn_Vaccinium_macrocarpon_USA_1990","N1","individual collection","Andrena carolina","species","other_wild_bees",1,NA,45,NA,"In each bog, as many bees as possible were captured with either an insect net or jar as the individual collecting moved through the bog over 15 min in 1990 and 10 min in 1991. Collections were carried out three times during cranberry bloom.",NA
"David_Kleijn_Vaccinium_macrocarpon_USA_1990","N1","individual collection","Ceratina dupla/calcarata","morphospecies","other_wild_bees",1,NA,45,NA,"In each bog, as many bees as possible were captured with either an insect net or jar as the individual collecting moved through the bog over 15 min in 1990 and 10 min in 1991. Collections were carried out three times during cranberry bloom.",NA
"David_Kleijn_Vaccinium_macrocarpon_USA_1990","N1","individual collection","Dialictus admirandus","species","other_wild_bees",3,NA,45,NA,"In each bog, as many bees as possible were captured with either an insect net or jar as the individual collecting moved through the bog over 15 min in 1990 and 10 min in 1991. Collections were carried out three times during cranberry bloom.",NA
"David_Kleijn_Vaccinium_macrocarpon_USA_1990","N1","individual collection","Dialictus marinus","species","other_wild_bees",2,NA,45,NA,"In each bog, as many bees as possible were captured with either an insect net or jar as the individual collecting moved through the bog over 15 min in 1990 and 10 min in 1991. Collections were carried out three times during cranberry bloom.",NA
"David_Kleijn_Vaccinium_macrocarpon_USA_1990","N1","individual collection","Dialictus sp. 1","morphospecies","other_wild_bees",2,NA,45,NA,"In each bog, as many bees as possible were captured with either an insect net or jar as the individual collecting moved through the bog over 15 min in 1990 and 10 min in 1991. Collections were carried out three times during cranberry bloom.",NA
"David_Kleijn_Vaccinium_macrocarpon_USA_1990","N1","individual collection","Augochlorella striata","species","other_wild_bees",1,NA,45,NA,"In each bog, as many bees as possible were captured with either an insect net or jar as the individual collecting moved through the bog over 15 min in 1990 and 10 min in 1991. Collections were carried out three times during cranberry bloom.",NA
"David_Kleijn_Vaccinium_macrocarpon_USA_1990","N1","individual collection","Melitta near americana","morphospecies","other_wild_bees",2,NA,45,NA,"In each bog, as many bees as possible were captured with either an insect net or jar as the individual collecting moved through the bog over 15 min in 1990 and 10 min in 1991. Collections were carried out three times during cranberry bloom.",NA
"David_Kleijn_Vaccinium_macrocarpon_USA_1990","N1","individual collection","27 bees other than apidae","morphospecies","other_wild_bees",12,NA,45,NA,"In each bog, as many bees as possible were captured with either an insect net or jar as the individual collecting moved through the bog over 15 min in 1990 and 10 min in 1991. Collections were carried out three times during cranberry bloom.",NA
"David_Kleijn_Vaccinium_macrocarpon_USA_1990","N2","individual collection","Apis mellifera","species","honeybees",5,NA,45,NA,"In each bog, as many bees as possible were captured with either an insect net or jar as the individual collecting moved through the bog over 15 min in 1990 and 10 min in 1991. Collections were carried out three times during cranberry bloom.",NA
"David_Kleijn_Vaccinium_macrocarpon_USA_1990","N2","individual collection","Bombus affinis","species","bumblebees",2,NA,45,NA,"In each bog, as many bees as possible were captured with either an insect net or jar as the individual collecting moved through the bog over 15 min in 1990 and 10 min in 1991. Collections were carried out three times during cranberry bloom.",NA
"David_Kleijn_Vaccinium_macrocarpon_USA_1990","N2","individual collection","Bombus bimaculatus","species","bumblebees",5,NA,45,NA,"In each bog, as many bees as possible were captured with either an insect net or jar as the individual collecting moved through the bog over 15 min in 1990 and 10 min in 1991. Collections were carried out three times during cranberry bloom.",NA
"David_Kleijn_Vaccinium_macrocarpon_USA_1990","N2","individual collection","Bombus impatiens","species","bumblebees",20,NA,45,NA,"In each bog, as many bees as possible were captured with either an insect net or jar as the individual collecting moved through the bog over 15 min in 1990 and 10 min in 1991. Collections were carried out three times during cranberry bloom.",NA
"David_Kleijn_Vaccinium_macrocarpon_USA_1990","N2","individual collection","Bombus perplexus","species","other_wild_bees",2,NA,45,NA,"In each bog, as many bees as possible were captured with either an insect net or jar as the individual collecting moved through the bog over 15 min in 1990 and 10 min in 1991. Collections were carried out three times during cranberry bloom.",NA
"David_Kleijn_Vaccinium_macrocarpon_USA_1990","N2","individual collection","Bombus vagans vagans","species","bumblebees",3,NA,45,NA,"In each bog, as many bees as possible were captured with either an insect net or jar as the individual collecting moved through the bog over 15 min in 1990 and 10 min in 1991. Collections were carried out three times during cranberry bloom.",NA
"David_Kleijn_Vaccinium_macrocarpon_USA_1990","N2","individual collection","Bombus rufocinctus","species","bumblebees",1,NA,45,NA,"In each bog, as many bees as possible were captured with either an insect net or jar as the individual collecting moved through the bog over 15 min in 1990 and 10 min in 1991. Collections were carried out three times during cranberry bloom.",NA
"David_Kleijn_Vaccinium_macrocarpon_USA_1990","N2","individual collection","Dialictus admirandus","species","other_wild_bees",15,NA,45,NA,"In each bog, as many bees as possible were captured with either an insect net or jar as the individual collecting moved through the bog over 15 min in 1990 and 10 min in 1991. Collections were carried out three times during cranberry bloom.",NA
"David_Kleijn_Vaccinium_macrocarpon_USA_1990","N2","individual collection","Dialictus marinus","species","other_wild_bees",3,NA,45,NA,"In each bog, as many bees as possible were captured with either an insect net or jar as the individual collecting moved through the bog over 15 min in 1990 and 10 min in 1991. Collections were carried out three times during cranberry bloom.",NA
"David_Kleijn_Vaccinium_macrocarpon_USA_1990","N2","individual collection","27 bees other than apidae","morphospecies","other_wild_bees",18,NA,45,NA,"In each bog, as many bees as possible were captured with either an insect net or jar as the individual collecting moved through the bog over 15 min in 1990 and 10 min in 1991. Collections were carried out three times during cranberry bloom.",NA
"David_Kleijn_Vaccinium_macrocarpon_USA_1991","C6","individual collection","Apis mellifera","species","honeybees",11,NA,30,NA,"In each bog, as many bees as possible were captured with either an insect net or jar as the individual collecting moved through the bog over 15 min in 1990 and 10 min in 1991. Collections were carried out three times during cranberry bloom.",NA
"David_Kleijn_Vaccinium_macrocarpon_USA_1991","C6","individual collection","Bombus affinis","species","bumblebees",4,NA,30,NA,"In each bog, as many bees as possible were captured with either an insect net or jar as the individual collecting moved through the bog over 15 min in 1990 and 10 min in 1991. Collections were carried out three times during cranberry bloom.",NA
"David_Kleijn_Vaccinium_macrocarpon_USA_1991","C6","individual collection","Bombus bimaculatus","species","bumblebees",10,NA,30,NA,"In each bog, as many bees as possible were captured with either an insect net or jar as the individual collecting moved through the bog over 15 min in 1990 and 10 min in 1991. Collections were carried out three times during cranberry bloom.",NA
"David_Kleijn_Vaccinium_macrocarpon_USA_1991","C6","individual collection","Bombus impatiens","species","bumblebees",37,NA,30,NA,"In each bog, as many bees as possible were captured with either an insect net or jar as the individual collecting moved through the bog over 15 min in 1990 and 10 min in 1991. Collections were carried out three times during cranberry bloom.",NA
"David_Kleijn_Vaccinium_macrocarpon_USA_1991","C6","individual collection","Bombus perplexus","species","other_wild_bees",7,NA,30,NA,"In each bog, as many bees as possible were captured with either an insect net or jar as the individual collecting moved through the bog over 15 min in 1990 and 10 min in 1991. Collections were carried out three times during cranberry bloom.",NA
"David_Kleijn_Vaccinium_macrocarpon_USA_1991","C6","individual collection","Bombus terricola","species","bumblebees",1,NA,30,NA,"In each bog, as many bees as possible were captured with either an insect net or jar as the individual collecting moved through the bog over 15 min in 1990 and 10 min in 1991. Collections were carried out three times during cranberry bloom.",NA
"David_Kleijn_Vaccinium_macrocarpon_USA_1991","C6","individual collection","Bombus vagans vagans","species","bumblebees",5,NA,30,NA,"In each bog, as many bees as possible were captured with either an insect net or jar as the individual collecting moved through the bog over 15 min in 1990 and 10 min in 1991. Collections were carried out three times during cranberry bloom.",NA
"David_Kleijn_Vaccinium_macrocarpon_USA_1991","C5","individual collection","Apis mellifera","species","honeybees",15,NA,30,NA,"In each bog, as many bees as possible were captured with either an insect net or jar as the individual collecting moved through the bog over 15 min in 1990 and 10 min in 1991. Collections were carried out three times during cranberry bloom.",NA
"David_Kleijn_Vaccinium_macrocarpon_USA_1991","C5","individual collection","Bombus bimaculatus","species","bumblebees",7,NA,30,NA,"In each bog, as many bees as possible were captured with either an insect net or jar as the individual collecting moved through the bog over 15 min in 1990 and 10 min in 1991. Collections were carried out three times during cranberry bloom.",NA
"David_Kleijn_Vaccinium_macrocarpon_USA_1991","C5","individual collection","Bombus perplexus","species","other_wild_bees",3,NA,30,NA,"In each bog, as many bees as possible were captured with either an insect net or jar as the individual collecting moved through the bog over 15 min in 1990 and 10 min in 1991. Collections were carried out three times during cranberry bloom.",NA
"David_Kleijn_Vaccinium_macrocarpon_USA_1991","C5","individual collection","Bombus vagans vagans","species","bumblebees",24,NA,30,NA,"In each bog, as many bees as possible were captured with either an insect net or jar as the individual collecting moved through the bog over 15 min in 1990 and 10 min in 1991. Collections were carried out three times during cranberry bloom.",NA
"David_Kleijn_Vaccinium_macrocarpon_USA_1991","C5","individual collection","Dialictus admirandus","species","other_wild_bees",2,NA,30,NA,"In each bog, as many bees as possible were captured with either an insect net or jar as the individual collecting moved through the bog over 15 min in 1990 and 10 min in 1991. Collections were carried out three times during cranberry bloom.",NA
"David_Kleijn_Vaccinium_macrocarpon_USA_1991","C5","individual collection","Dialictus sp. C","morphospecies","other_wild_bees",2,NA,30,NA,"In each bog, as many bees as possible were captured with either an insect net or jar as the individual collecting moved through the bog over 15 min in 1990 and 10 min in 1991. Collections were carried out three times during cranberry bloom.",NA
"David_Kleijn_Vaccinium_macrocarpon_USA_1991","C5","individual collection","Augochlorella striata","species","other_wild_bees",2,NA,30,NA,"In each bog, as many bees as possible were captured with either an insect net or jar as the individual collecting moved through the bog over 15 min in 1990 and 10 min in 1991. Collections were carried out three times during cranberry bloom.",NA
"David_Kleijn_Vaccinium_macrocarpon_USA_1991","C5","individual collection","Halictus rubicundus","species","other_wild_bees",2,NA,30,NA,"In each bog, as many bees as possible were captured with either an insect net or jar as the individual collecting moved through the bog over 15 min in 1990 and 10 min in 1991. Collections were carried out three times during cranberry bloom.",NA
"David_Kleijn_Vaccinium_macrocarpon_USA_1991","C5","individual collection","Melitta near americana","morphospecies","other_wild_bees",4,NA,30,NA,"In each bog, as many bees as possible were captured with either an insect net or jar as the individual collecting moved through the bog over 15 min in 1990 and 10 min in 1991. Collections were carried out three times during cranberry bloom.",NA
"David_Kleijn_Vaccinium_macrocarpon_USA_1991","C5","individual collection","14 bees other than apidae","morphospecies","other_wild_bees",15,NA,30,NA,"In each bog, as many bees as possible were captured with either an insect net or jar as the individual collecting moved through the bog over 15 min in 1990 and 10 min in 1991. Collections were carried out three times during cranberry bloom.",NA
"David_Kleijn_Vaccinium_macrocarpon_USA_1991","C3","individual collection","Apis mellifera","species","honeybees",20,NA,30,NA,"In each bog, as many bees as possible were captured with either an insect net or jar as the individual collecting moved through the bog over 15 min in 1990 and 10 min in 1991. Collections were carried out three times during cranberry bloom.",NA
"David_Kleijn_Vaccinium_macrocarpon_USA_1991","C3","individual collection","Bombus bimaculatus","species","bumblebees",11,NA,30,NA,"In each bog, as many bees as possible were captured with either an insect net or jar as the individual collecting moved through the bog over 15 min in 1990 and 10 min in 1991. Collections were carried out three times during cranberry bloom.",NA
"David_Kleijn_Vaccinium_macrocarpon_USA_1991","C3","individual collection","Bombus impatiens","species","bumblebees",36,NA,30,NA,"In each bog, as many bees as possible were captured with either an insect net or jar as the individual collecting moved through the bog over 15 min in 1990 and 10 min in 1991. Collections were carried out three times during cranberry bloom.",NA
"David_Kleijn_Vaccinium_macrocarpon_USA_1991","C3","individual collection","Bombus perplexus","species","other_wild_bees",1,NA,30,NA,"In each bog, as many bees as possible were captured with either an insect net or jar as the individual collecting moved through the bog over 15 min in 1990 and 10 min in 1991. Collections were carried out three times during cranberry bloom.",NA
"David_Kleijn_Vaccinium_macrocarpon_USA_1991","C3","individual collection","Bombus terricola","species","bumblebees",3,NA,30,NA,"In each bog, as many bees as possible were captured with either an insect net or jar as the individual collecting moved through the bog over 15 min in 1990 and 10 min in 1991. Collections were carried out three times during cranberry bloom.",NA
"David_Kleijn_Vaccinium_macrocarpon_USA_1991","C3","individual collection","Bombus griseollis","species","other_wild_bees",3,NA,30,NA,"In each bog, as many bees as possible were captured with either an insect net or jar as the individual collecting moved through the bog over 15 min in 1990 and 10 min in 1991. Collections were carried out three times during cranberry bloom.",NA
"David_Kleijn_Vaccinium_macrocarpon_USA_1991","C3","individual collection","Bombus rufocinctus","species","bumblebees",3,NA,30,NA,"In each bog, as many bees as possible were captured with either an insect net or jar as the individual collecting moved through the bog over 15 min in 1990 and 10 min in 1991. Collections were carried out three times during cranberry bloom.",NA
"David_Kleijn_Vaccinium_macrocarpon_USA_1991","C3","individual collection","Andrena vicina","species","other_wild_bees",1,NA,30,NA,"In each bog, as many bees as possible were captured with either an insect net or jar as the individual collecting moved through the bog over 15 min in 1990 and 10 min in 1991. Collections were carried out three times during cranberry bloom.",NA
"David_Kleijn_Vaccinium_macrocarpon_USA_1991","C3","individual collection","Dialictus pilosus","species","other_wild_bees",1,NA,30,NA,"In each bog, as many bees as possible were captured with either an insect net or jar as the individual collecting moved through the bog over 15 min in 1990 and 10 min in 1991. Collections were carried out three times during cranberry bloom.",NA
"David_Kleijn_Vaccinium_macrocarpon_USA_1991","C3","individual collection","Evylaeus cinctipes","species","other_wild_bees",1,NA,30,NA,"In each bog, as many bees as possible were captured with either an insect net or jar as the individual collecting moved through the bog over 15 min in 1990 and 10 min in 1991. Collections were carried out three times during cranberry bloom.",NA
"David_Kleijn_Vaccinium_macrocarpon_USA_1991","C3","individual collection","Agapostemon sericeus","species","other_wild_bees",1,NA,30,NA,"In each bog, as many bees as possible were captured with either an insect net or jar as the individual collecting moved through the bog over 15 min in 1990 and 10 min in 1991. Collections were carried out three times during cranberry bloom.",NA
"David_Kleijn_Vaccinium_macrocarpon_USA_1991","C3","individual collection","Melitta near americana","morphospecies","other_wild_bees",2,NA,30,NA,"In each bog, as many bees as possible were captured with either an insect net or jar as the individual collecting moved through the bog over 15 min in 1990 and 10 min in 1991. Collections were carried out three times during cranberry bloom.",NA
"David_Kleijn_Vaccinium_macrocarpon_USA_1991","C3","individual collection","14 bees other than apidae","morphospecies","other_wild_bees",6,NA,30,NA,"In each bog, as many bees as possible were captured with either an insect net or jar as the individual collecting moved through the bog over 15 min in 1990 and 10 min in 1991. Collections were carried out three times during cranberry bloom.",NA
"David_Kleijn_Vaccinium_macrocarpon_USA_1991","C1","individual collection","Apis mellifera","species","honeybees",61,NA,30,NA,"In each bog, as many bees as possible were captured with either an insect net or jar as the individual collecting moved through the bog over 15 min in 1990 and 10 min in 1991. Collections were carried out three times during cranberry bloom.",NA
"David_Kleijn_Vaccinium_macrocarpon_USA_1991","C1","individual collection","Bombus bimaculatus","species","bumblebees",10,NA,30,NA,"In each bog, as many bees as possible were captured with either an insect net or jar as the individual collecting moved through the bog over 15 min in 1990 and 10 min in 1991. Collections were carried out three times during cranberry bloom.",NA
"David_Kleijn_Vaccinium_macrocarpon_USA_1991","C1","individual collection","Bombus impatiens","species","bumblebees",10,NA,30,NA,"In each bog, as many bees as possible were captured with either an insect net or jar as the individual collecting moved through the bog over 15 min in 1990 and 10 min in 1991. Collections were carried out three times during cranberry bloom.",NA
"David_Kleijn_Vaccinium_macrocarpon_USA_1991","C1","individual collection","Bombus perplexus","species","other_wild_bees",1,NA,30,NA,"In each bog, as many bees as possible were captured with either an insect net or jar as the individual collecting moved through the bog over 15 min in 1990 and 10 min in 1991. Collections were carried out three times during cranberry bloom.",NA
"David_Kleijn_Vaccinium_macrocarpon_USA_1991","C1","individual collection","Melitta near americana","morphospecies","other_wild_bees",1,NA,30,NA,"In each bog, as many bees as possible were captured with either an insect net or jar as the individual collecting moved through the bog over 15 min in 1990 and 10 min in 1991. Collections were carried out three times during cranberry bloom.",NA
"David_Kleijn_Vaccinium_macrocarpon_USA_1991","C1","individual collection","14 bees other than apidae","morphospecies","other_wild_bees",1,NA,30,NA,"In each bog, as many bees as possible were captured with either an insect net or jar as the individual collecting moved through the bog over 15 min in 1990 and 10 min in 1991. Collections were carried out three times during cranberry bloom.",NA
"David_Kleijn_Vaccinium_macrocarpon_USA_1991","C7","individual collection","Apis mellifera","species","honeybees",42,NA,30,NA,"In each bog, as many bees as possible were captured with either an insect net or jar as the individual collecting moved through the bog over 15 min in 1990 and 10 min in 1991. Collections were carried out three times during cranberry bloom.",NA
"David_Kleijn_Vaccinium_macrocarpon_USA_1991","C7","individual collection","Bombus affinis","species","bumblebees",6,NA,30,NA,"In each bog, as many bees as possible were captured with either an insect net or jar as the individual collecting moved through the bog over 15 min in 1990 and 10 min in 1991. Collections were carried out three times during cranberry bloom.",NA
"David_Kleijn_Vaccinium_macrocarpon_USA_1991","C7","individual collection","Bombus bimaculatus","species","bumblebees",1,NA,30,NA,"In each bog, as many bees as possible were captured with either an insect net or jar as the individual collecting moved through the bog over 15 min in 1990 and 10 min in 1991. Collections were carried out three times during cranberry bloom.",NA
"David_Kleijn_Vaccinium_macrocarpon_USA_1991","C7","individual collection","Bombus impatiens","species","bumblebees",4,NA,30,NA,"In each bog, as many bees as possible were captured with either an insect net or jar as the individual collecting moved through the bog over 15 min in 1990 and 10 min in 1991. Collections were carried out three times during cranberry bloom.",NA
"David_Kleijn_Vaccinium_macrocarpon_USA_1991","C7","individual collection","Bombus terricola","species","bumblebees",5,NA,30,NA,"In each bog, as many bees as possible were captured with either an insect net or jar as the individual collecting moved through the bog over 15 min in 1990 and 10 min in 1991. Collections were carried out three times during cranberry bloom.",NA
"David_Kleijn_Vaccinium_macrocarpon_USA_1991","C7","individual collection","Bombus vagans vagans","species","bumblebees",1,NA,30,NA,"In each bog, as many bees as possible were captured with either an insect net or jar as the individual collecting moved through the bog over 15 min in 1990 and 10 min in 1991. Collections were carried out three times during cranberry bloom.",NA
"David_Kleijn_Vaccinium_macrocarpon_USA_1991","C7","individual collection","Osmia atriventris","species","other_wild_bees",3,NA,30,NA,"In each bog, as many bees as possible were captured with either an insect net or jar as the individual collecting moved through the bog over 15 min in 1990 and 10 min in 1991. Collections were carried out three times during cranberry bloom.",NA
"David_Kleijn_Vaccinium_macrocarpon_USA_1991","C8","individual collection","Apis mellifera","species","honeybees",20,NA,30,NA,"In each bog, as many bees as possible were captured with either an insect net or jar as the individual collecting moved through the bog over 15 min in 1990 and 10 min in 1991. Collections were carried out three times during cranberry bloom.",NA
"David_Kleijn_Vaccinium_macrocarpon_USA_1991","C8","individual collection","Bombus affinis","species","bumblebees",2,NA,30,NA,"In each bog, as many bees as possible were captured with either an insect net or jar as the individual collecting moved through the bog over 15 min in 1990 and 10 min in 1991. Collections were carried out three times during cranberry bloom.",NA
"David_Kleijn_Vaccinium_macrocarpon_USA_1991","C8","individual collection","Bombus bimaculatus","species","bumblebees",3,NA,30,NA,"In each bog, as many bees as possible were captured with either an insect net or jar as the individual collecting moved through the bog over 15 min in 1990 and 10 min in 1991. Collections were carried out three times during cranberry bloom.",NA
"David_Kleijn_Vaccinium_macrocarpon_USA_1991","C8","individual collection","Bombus impatiens","species","bumblebees",17,NA,30,NA,"In each bog, as many bees as possible were captured with either an insect net or jar as the individual collecting moved through the bog over 15 min in 1990 and 10 min in 1991. Collections were carried out three times during cranberry bloom.",NA
"David_Kleijn_Vaccinium_macrocarpon_USA_1991","C8","individual collection","Bombus perplexus","species","other_wild_bees",6,NA,30,NA,"In each bog, as many bees as possible were captured with either an insect net or jar as the individual collecting moved through the bog over 15 min in 1990 and 10 min in 1991. Collections were carried out three times during cranberry bloom.",NA
"David_Kleijn_Vaccinium_macrocarpon_USA_1991","C8","individual collection","Bombus terricola","species","bumblebees",4,NA,30,NA,"In each bog, as many bees as possible were captured with either an insect net or jar as the individual collecting moved through the bog over 15 min in 1990 and 10 min in 1991. Collections were carried out three times during cranberry bloom.",NA
"David_Kleijn_Vaccinium_macrocarpon_USA_1991","C8","individual collection","Bombus vagans vagans","species","bumblebees",6,NA,30,NA,"In each bog, as many bees as possible were captured with either an insect net or jar as the individual collecting moved through the bog over 15 min in 1990 and 10 min in 1991. Collections were carried out three times during cranberry bloom.",NA
"David_Kleijn_Vaccinium_macrocarpon_USA_1991","C8","individual collection","Bombus griseollis","species","other_wild_bees",1,NA,30,NA,"In each bog, as many bees as possible were captured with either an insect net or jar as the individual collecting moved through the bog over 15 min in 1990 and 10 min in 1991. Collections were carried out three times during cranberry bloom.",NA
"David_Kleijn_Vaccinium_macrocarpon_USA_1991","C8","individual collection","Andrena crataegi","species","other_wild_bees",2,NA,30,NA,"In each bog, as many bees as possible were captured with either an insect net or jar as the individual collecting moved through the bog over 15 min in 1990 and 10 min in 1991. Collections were carried out three times during cranberry bloom.",NA
"David_Kleijn_Vaccinium_macrocarpon_USA_1991","C8","individual collection","Andrena nuda","species","other_wild_bees",1,NA,30,NA,"In each bog, as many bees as possible were captured with either an insect net or jar as the individual collecting moved through the bog over 15 min in 1990 and 10 min in 1991. Collections were carried out three times during cranberry bloom.",NA
"David_Kleijn_Vaccinium_macrocarpon_USA_1991","C8","individual collection","Halictus confusus","species","other_wild_bees",1,NA,30,NA,"In each bog, as many bees as possible were captured with either an insect net or jar as the individual collecting moved through the bog over 15 min in 1990 and 10 min in 1991. Collections were carried out three times during cranberry bloom.",NA
"David_Kleijn_Vaccinium_macrocarpon_USA_1991","C8","individual collection","Halictus rubicundus","species","other_wild_bees",1,NA,30,NA,"In each bog, as many bees as possible were captured with either an insect net or jar as the individual collecting moved through the bog over 15 min in 1990 and 10 min in 1991. Collections were carried out three times during cranberry bloom.",NA
"David_Kleijn_Vaccinium_macrocarpon_USA_1991","C8","individual collection","14 bees other than apidae","morphospecies","other_wild_bees",6,NA,30,NA,"In each bog, as many bees as possible were captured with either an insect net or jar as the individual collecting moved through the bog over 15 min in 1990 and 10 min in 1991. Collections were carried out three times during cranberry bloom.",NA
"David_Kleijn_Vaccinium_macrocarpon_USA_1991","C2","individual collection","Apis mellifera","species","honeybees",61,NA,30,NA,"In each bog, as many bees as possible were captured with either an insect net or jar as the individual collecting moved through the bog over 15 min in 1990 and 10 min in 1991. Collections were carried out three times during cranberry bloom.",NA
"David_Kleijn_Vaccinium_macrocarpon_USA_1991","C2","individual collection","Bombus affinis","species","bumblebees",3,NA,30,NA,"In each bog, as many bees as possible were captured with either an insect net or jar as the individual collecting moved through the bog over 15 min in 1990 and 10 min in 1991. Collections were carried out three times during cranberry bloom.",NA
"David_Kleijn_Vaccinium_macrocarpon_USA_1991","C2","individual collection","Bombus bimaculatus","species","bumblebees",14,NA,30,NA,"In each bog, as many bees as possible were captured with either an insect net or jar as the individual collecting moved through the bog over 15 min in 1990 and 10 min in 1991. Collections were carried out three times during cranberry bloom.",NA
"David_Kleijn_Vaccinium_macrocarpon_USA_1991","C2","individual collection","Bombus impatiens","species","bumblebees",10,NA,30,NA,"In each bog, as many bees as possible were captured with either an insect net or jar as the individual collecting moved through the bog over 15 min in 1990 and 10 min in 1991. Collections were carried out three times during cranberry bloom.",NA
"David_Kleijn_Vaccinium_macrocarpon_USA_1991","C2","individual collection","Bombus perplexus","species","other_wild_bees",2,NA,30,NA,"In each bog, as many bees as possible were captured with either an insect net or jar as the individual collecting moved through the bog over 15 min in 1990 and 10 min in 1991. Collections were carried out three times during cranberry bloom.",NA
"David_Kleijn_Vaccinium_macrocarpon_USA_1991","C2","individual collection","Bombus terricola","species","bumblebees",1,NA,30,NA,"In each bog, as many bees as possible were captured with either an insect net or jar as the individual collecting moved through the bog over 15 min in 1990 and 10 min in 1991. Collections were carried out three times during cranberry bloom.",NA
"David_Kleijn_Vaccinium_macrocarpon_USA_1991","C2","individual collection","Bombus vagans vagans","species","bumblebees",1,NA,30,NA,"In each bog, as many bees as possible were captured with either an insect net or jar as the individual collecting moved through the bog over 15 min in 1990 and 10 min in 1991. Collections were carried out three times during cranberry bloom.",NA
"David_Kleijn_Vaccinium_macrocarpon_USA_1991","C2","individual collection","Andrena vicina","species","other_wild_bees",1,NA,30,NA,"In each bog, as many bees as possible were captured with either an insect net or jar as the individual collecting moved through the bog over 15 min in 1990 and 10 min in 1991. Collections were carried out three times during cranberry bloom.",NA
"David_Kleijn_Vaccinium_macrocarpon_USA_1991","C2","individual collection","Andrena crataegi","species","other_wild_bees",1,NA,30,NA,"In each bog, as many bees as possible were captured with either an insect net or jar as the individual collecting moved through the bog over 15 min in 1990 and 10 min in 1991. Collections were carried out three times during cranberry bloom.",NA
"David_Kleijn_Vaccinium_macrocarpon_USA_1991","C2","individual collection","14 bees other than apidae","morphospecies","other_wild_bees",2,NA,30,NA,"In each bog, as many bees as possible were captured with either an insect net or jar as the individual collecting moved through the bog over 15 min in 1990 and 10 min in 1991. Collections were carried out three times during cranberry bloom.",NA
"David_Kleijn_Vaccinium_macrocarpon_USA_1991","C4","individual collection","Apis mellifera","species","honeybees",57,NA,30,NA,"In each bog, as many bees as possible were captured with either an insect net or jar as the individual collecting moved through the bog over 15 min in 1990 and 10 min in 1991. Collections were carried out three times during cranberry bloom.",NA
"David_Kleijn_Vaccinium_macrocarpon_USA_1991","C4","individual collection","Bombus affinis","species","bumblebees",3,NA,30,NA,"In each bog, as many bees as possible were captured with either an insect net or jar as the individual collecting moved through the bog over 15 min in 1990 and 10 min in 1991. Collections were carried out three times during cranberry bloom.",NA
"David_Kleijn_Vaccinium_macrocarpon_USA_1991","C4","individual collection","Bombus bimaculatus","species","bumblebees",6,NA,30,NA,"In each bog, as many bees as possible were captured with either an insect net or jar as the individual collecting moved through the bog over 15 min in 1990 and 10 min in 1991. Collections were carried out three times during cranberry bloom.",NA
"David_Kleijn_Vaccinium_macrocarpon_USA_1991","C4","individual collection","Bombus impatiens","species","bumblebees",12,NA,30,NA,"In each bog, as many bees as possible were captured with either an insect net or jar as the individual collecting moved through the bog over 15 min in 1990 and 10 min in 1991. Collections were carried out three times during cranberry bloom.",NA
"David_Kleijn_Vaccinium_macrocarpon_USA_1991","C4","individual collection","Bombus perplexus","species","other_wild_bees",3,NA,30,NA,"In each bog, as many bees as possible were captured with either an insect net or jar as the individual collecting moved through the bog over 15 min in 1990 and 10 min in 1991. Collections were carried out three times during cranberry bloom.",NA
"David_Kleijn_Vaccinium_macrocarpon_USA_1991","C4","individual collection","Bombus terricola","species","bumblebees",4,NA,30,NA,"In each bog, as many bees as possible were captured with either an insect net or jar as the individual collecting moved through the bog over 15 min in 1990 and 10 min in 1991. Collections were carried out three times during cranberry bloom.",NA
"David_Kleijn_Vaccinium_macrocarpon_USA_1991","C4","individual collection","Bombus vagans vagans","species","bumblebees",7,NA,30,NA,"In each bog, as many bees as possible were captured with either an insect net or jar as the individual collecting moved through the bog over 15 min in 1990 and 10 min in 1991. Collections were carried out three times during cranberry bloom.",NA
"David_Kleijn_Vaccinium_macrocarpon_USA_1991","C4","individual collection","Megachile texana","species","other_wild_bees",1,NA,30,NA,"In each bog, as many bees as possible were captured with either an insect net or jar as the individual collecting moved through the bog over 15 min in 1990 and 10 min in 1991. Collections were carried out three times during cranberry bloom.",NA
"David_Kleijn_Vaccinium_macrocarpon_USA_1991","C9","individual collection","Apis mellifera","species","honeybees",6,NA,30,NA,"In each bog, as many bees as possible were captured with either an insect net or jar as the individual collecting moved through the bog over 15 min in 1990 and 10 min in 1991. Collections were carried out three times during cranberry bloom.",NA
"David_Kleijn_Vaccinium_macrocarpon_USA_1991","C9","individual collection","Bombus affinis","species","bumblebees",10,NA,30,NA,"In each bog, as many bees as possible were captured with either an insect net or jar as the individual collecting moved through the bog over 15 min in 1990 and 10 min in 1991. Collections were carried out three times during cranberry bloom.",NA
"David_Kleijn_Vaccinium_macrocarpon_USA_1991","C9","individual collection","Bombus impatiens","species","bumblebees",4,NA,30,NA,"In each bog, as many bees as possible were captured with either an insect net or jar as the individual collecting moved through the bog over 15 min in 1990 and 10 min in 1991. Collections were carried out three times during cranberry bloom.",NA
"David_Kleijn_Vaccinium_macrocarpon_USA_1991","C9","individual collection","Bombus terricola","species","bumblebees",13,NA,30,NA,"In each bog, as many bees as possible were captured with either an insect net or jar as the individual collecting moved through the bog over 15 min in 1990 and 10 min in 1991. Collections were carried out three times during cranberry bloom.",NA
"David_Kleijn_Vaccinium_macrocarpon_USA_1991","C9","individual collection","Bombus griseollis","species","other_wild_bees",5,NA,30,NA,"In each bog, as many bees as possible were captured with either an insect net or jar as the individual collecting moved through the bog over 15 min in 1990 and 10 min in 1991. Collections were carried out three times during cranberry bloom.",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2010","Plot_6A_2010_Glebe500_06","sweep net","Trigona spinipes","species","other_wild_bees",1,NA,240,NA,"In each orchad abundance of floral visitors was analysed by sweep-netting all visitors along four pairs of trees for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates during the main flowering period",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2010","Plot_5B_2010_Glebe500_06","sweep net","Dialictus sp2","morphospecies","other_wild_bees",1,NA,280,NA,"In each orchad abundance of floral visitors was analysed by sweep-netting all visitors along four pairs of trees for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates during the main flowering period",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2010","Plot_6A_2010_Glebe500_06","sweep net","Exomalopsis analis...61","species","other_wild_bees",2,NA,240,NA,"In each orchad abundance of floral visitors was analysed by sweep-netting all visitors along four pairs of trees for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates during the main flowering period",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2010","Plot_6A_2010_Glebe500_06","sweep net","Geotrigona sp","genus","other_wild_bees",1,NA,240,NA,"In each orchad abundance of floral visitors was analysed by sweep-netting all visitors along four pairs of trees for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates during the main flowering period",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2010","Plot_1C_2010_Glebe500_06","observation","Apis mellifera","species","honeybees",5,NA,80,800,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2010","Plot_1C_2010_Glebe500_06","observation","Apis mellifera","species","honeybees",2,NA,80,800,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2010","Plot_1C_2010_Glebe500_06","observation","Apis mellifera","species","honeybees",2,NA,80,800,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2010","Plot_1C_2010_Glebe500_06","observation","Apis mellifera","species","honeybees",9,NA,80,800,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2010","Plot_1C_2010_Glebe500_06","observation","Apis mellifera","species","honeybees",16,NA,80,800,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2010","Plot_1C_2010_Glebe500_06","observation","Apis mellifera","species","honeybees",6,NA,80,800,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2010","Plot_1C_2010_Glebe500_06","observation","Apis mellifera","species","honeybees",7,NA,80,800,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2010","Plot_1C_2010_Glebe500_06","observation","Apis mellifera","species","honeybees",11,NA,80,800,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2010","Plot_1C_2010_Glebe500_06","observation","Apis mellifera","species","honeybees",3,NA,80,800,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2010","Plot_1C_2010_Glebe500_06","observation","Apis mellifera","species","honeybees",4,NA,80,800,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2010","Plot_1C_2010_Glebe500_06","observation","Apis mellifera","species","honeybees",5,NA,80,800,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2010","Plot_1C_2010_Glebe500_06","observation","Apis mellifera","species","honeybees",5,NA,80,800,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2010","Plot_1C_2010_Glebe500_06","observation","Apis mellifera","species","honeybees",3,NA,80,800,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2010","Plot_1C_2010_Glebe500_06","observation","Apis mellifera","species","honeybees",6,NA,80,800,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2010","Plot_1C_2010_Glebe500_06","observation","Apis mellifera","species","honeybees",6,NA,80,800,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2010","Plot_2C_2010_Glebe500_06","observation","Apis mellifera","species","honeybees",13,NA,80,800,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2010","Plot_2C_2010_Glebe500_06","observation","Apis mellifera","species","honeybees",9,NA,80,800,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2010","Plot_2C_2010_Glebe500_06","observation","Apis mellifera","species","honeybees",5,NA,80,800,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2010","Plot_2C_2010_Glebe500_06","observation","Apis mellifera","species","honeybees",1,NA,80,800,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2010","Plot_2C_2010_Glebe500_06","observation","Apis mellifera","species","honeybees",3,NA,80,800,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2010","Plot_2C_2010_Glebe500_06","observation","Apis mellifera","species","honeybees",3,NA,80,800,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2010","Plot_2C_2010_Glebe500_06","observation","Apis mellifera","species","honeybees",7,NA,80,800,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2010","Plot_2C_2010_Glebe500_06","observation","Apis mellifera","species","honeybees",3,NA,80,800,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2010","Plot_2C_2010_Glebe500_06","observation","Apis mellifera","species","honeybees",1,NA,80,800,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2010","Plot_2C_2010_Glebe500_06","observation","Apis mellifera","species","honeybees",1,NA,80,800,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2010","Plot_2C_2010_Glebe500_06","observation","Apis mellifera","species","honeybees",1,NA,80,800,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2010","Plot_2C_2010_Glebe500_06","observation","Apis mellifera","species","honeybees",3,NA,80,800,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2010","Plot_3B_2010_Glebe500_05","observation","Apis mellifera","species","honeybees",3,NA,80,800,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2010","Plot_3B_2010_Glebe500_05","observation","Apis mellifera","species","honeybees",4,NA,80,800,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2010","Plot_3B_2010_Glebe500_05","observation","Apis mellifera","species","honeybees",2,NA,80,800,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2010","Plot_3B_2010_Glebe500_05","observation","Apis mellifera","species","honeybees",1,NA,80,800,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2010","Plot_3B_2010_Glebe500_05","observation","Apis mellifera","species","honeybees",4,NA,80,800,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2010","Plot_3B_2010_Glebe500_05","observation","Apis mellifera","species","honeybees",1,NA,80,800,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2010","Plot_3B_2010_Glebe500_05","observation","Apis mellifera","species","honeybees",2,NA,80,800,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2010","Plot_3B_2010_Glebe500_05","observation","Apis mellifera","species","honeybees",3,NA,80,800,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2010","Plot_3B_2010_Glebe500_05","observation","Apis mellifera","species","honeybees",1,NA,80,800,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2010","Plot_3B_2010_Glebe500_05","observation","Apis mellifera","species","honeybees",3,NA,80,800,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2010","Plot_3B_2010_Glebe500_05","observation","Apis mellifera","species","honeybees",1,NA,80,800,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2010","Plot_3B_2010_Glebe500_05","observation","Apis mellifera","species","honeybees",1,NA,80,800,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2010","Plot_3B_2010_Glebe500_05","observation","Apis mellifera","species","honeybees",1,NA,80,800,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2010","Plot_3B_2010_Glebe500_05","observation","Apis mellifera","species","honeybees",1,NA,80,800,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2010","Plot_3B_2010_Glebe500_05","observation","Apis mellifera","species","honeybees",2,NA,80,800,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2010","Plot_4A_2010_Glebe500_05","observation","Apis mellifera","species","honeybees",6,NA,80,800,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2010","Plot_4A_2010_Glebe500_05","observation","Apis mellifera","species","honeybees",1,NA,80,800,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2010","Plot_4A_2010_Glebe500_05","observation","Apis mellifera","species","honeybees",6,NA,80,800,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2010","Plot_4A_2010_Glebe500_05","observation","Apis mellifera","species","honeybees",2,NA,80,800,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2010","Plot_4A_2010_Glebe500_05","observation","Apis mellifera","species","honeybees",1,NA,80,800,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2010","Plot_4A_2010_Glebe500_05","observation","Apis mellifera","species","honeybees",7,NA,80,800,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2010","Plot_4A_2010_Glebe500_05","observation","Apis mellifera","species","honeybees",1,NA,80,800,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2010","Plot_4A_2010_Glebe500_05","observation","Apis mellifera","species","honeybees",2,NA,80,800,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2010","Plot_4A_2010_Glebe500_05","observation","Apis mellifera","species","honeybees",1,NA,80,800,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2010","Plot_4A_2010_Glebe500_05","observation","Apis mellifera","species","honeybees",1,NA,80,800,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2010","Plot_4A_2010_Glebe500_05","observation","Apis mellifera","species","honeybees",1,NA,80,800,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2010","Plot_4A_2010_Glebe500_05","observation","Apis mellifera","species","honeybees",6,NA,80,800,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2010","Plot_4B_2010_Glebe500_05","observation","Apis mellifera","species","honeybees",4,NA,160,1600,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2010","Plot_4B_2010_Glebe500_05","observation","Apis mellifera","species","honeybees",2,NA,160,1600,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2010","Plot_4B_2010_Glebe500_05","observation","Apis mellifera","species","honeybees",3,NA,160,1600,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2010","Plot_4B_2010_Glebe500_05","observation","Apis mellifera","species","honeybees",1,NA,160,1600,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2010","Plot_4B_2010_Glebe500_05","observation","Apis mellifera","species","honeybees",3,NA,160,1600,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2010","Plot_4B_2010_Glebe500_05","observation","Apis mellifera","species","honeybees",1,NA,160,1600,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2010","Plot_4B_2010_Glebe500_05","observation","Apis mellifera","species","honeybees",7,NA,160,1600,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2010","Plot_4B_2010_Glebe500_05","observation","Apis mellifera","species","honeybees",2,NA,160,1600,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2010","Plot_4B_2010_Glebe500_05","observation","Apis mellifera","species","honeybees",6,NA,160,1600,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2010","Plot_4B_2010_Glebe500_05","observation","Apis mellifera","species","honeybees",2,NA,160,1600,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2010","Plot_4B_2010_Glebe500_05","observation","Apis mellifera","species","honeybees",2,NA,160,1600,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2010","Plot_4B_2010_Glebe500_05","observation","Apis mellifera","species","honeybees",4,NA,160,1600,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2010","Plot_4B_2010_Glebe500_05","observation","Apis mellifera","species","honeybees",6,NA,160,1600,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2010","Plot_4B_2010_Glebe500_05","observation","Apis mellifera","species","honeybees",1,NA,160,1600,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2010","Plot_4B_2010_Glebe500_05","observation","Apis mellifera","species","honeybees",3,NA,160,1600,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2010","Plot_4B_2010_Glebe500_05","observation","Apis mellifera","species","honeybees",4,NA,160,1600,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2010","Plot_4B_2010_Glebe500_05","observation","Apis mellifera","species","honeybees",2,NA,160,1600,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2010","Plot_4B_2010_Glebe500_05","observation","Apis mellifera","species","honeybees",3,NA,160,1600,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2010","Plot_4B_2010_Glebe500_05","observation","Apis mellifera","species","honeybees",1,NA,160,1600,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2010","Plot_4B_2010_Glebe500_05","observation","Apis mellifera","species","honeybees",3,NA,160,1600,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2010","Plot_4B_2010_Glebe500_05","observation","Apis mellifera","species","honeybees",1,NA,160,1600,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2010","Plot_4B_2010_Glebe500_05","observation","Apis mellifera","species","honeybees",1,NA,160,1600,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2010","Plot_4B_2010_Glebe500_05","observation","Apis mellifera","species","honeybees",2,NA,160,1600,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2010","Plot_4B_2010_Glebe500_05","observation","Apis mellifera","species","honeybees",1,NA,160,1600,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2010","Plot_4B_2010_Glebe500_05","observation","Apis mellifera","species","honeybees",1,NA,160,1600,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2010","Plot_4B_2010_Glebe500_05","observation","Apis mellifera","species","honeybees",3,NA,160,1600,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2010","Plot_4B_2010_Glebe500_05","observation","Apis mellifera","species","honeybees",2,NA,160,1600,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2010","Plot_4B_2010_Glebe500_05","observation","Apis mellifera","species","honeybees",1,NA,160,1600,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2010","Plot_4B_2010_Glebe500_05","observation","Apis mellifera","species","honeybees",2,NA,160,1600,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2010","Plot_5B_2010_Glebe500_06","observation","Apis mellifera","species","honeybees",1,NA,280,2800,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2010","Plot_5B_2010_Glebe500_06","observation","Apis mellifera","species","honeybees",5,NA,280,2800,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2010","Plot_5B_2010_Glebe500_06","observation","Apis mellifera","species","honeybees",2,NA,280,2800,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2010","Plot_5B_2010_Glebe500_06","observation","Apis mellifera","species","honeybees",1,NA,280,2800,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2010","Plot_5B_2010_Glebe500_06","observation","Apis mellifera","species","honeybees",1,NA,280,2800,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2010","Plot_5B_2010_Glebe500_06","observation","Apis mellifera","species","honeybees",5,NA,280,2800,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2010","Plot_5B_2010_Glebe500_06","observation","Apis mellifera","species","honeybees",7,NA,280,2800,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2010","Plot_5B_2010_Glebe500_06","observation","Apis mellifera","species","honeybees",4,NA,280,2800,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2010","Plot_5B_2010_Glebe500_06","observation","Apis mellifera","species","honeybees",5,NA,280,2800,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2010","Plot_5B_2010_Glebe500_06","observation","Apis mellifera","species","honeybees",5,NA,280,2800,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2010","Plot_5B_2010_Glebe500_06","observation","Apis mellifera","species","honeybees",1,NA,280,2800,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2010","Plot_5B_2010_Glebe500_06","observation","Apis mellifera","species","honeybees",1,NA,280,2800,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2010","Plot_5B_2010_Glebe500_06","observation","Apis mellifera","species","honeybees",4,NA,280,2800,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2010","Plot_5B_2010_Glebe500_06","observation","Apis mellifera","species","honeybees",3,NA,280,2800,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2010","Plot_5B_2010_Glebe500_06","observation","Apis mellifera","species","honeybees",3,NA,280,2800,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2010","Plot_5B_2010_Glebe500_06","observation","Apis mellifera","species","honeybees",4,NA,280,2800,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2010","Plot_5B_2010_Glebe500_06","observation","Apis mellifera","species","honeybees",3,NA,280,2800,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2010","Plot_5B_2010_Glebe500_06","observation","Apis mellifera","species","honeybees",1,NA,280,2800,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2010","Plot_5B_2010_Glebe500_06","observation","Apis mellifera","species","honeybees",1,NA,280,2800,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2010","Plot_5B_2010_Glebe500_06","observation","Apis mellifera","species","honeybees",4,NA,280,2800,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2010","Plot_5B_2010_Glebe500_06","observation","Apis mellifera","species","honeybees",3,NA,280,2800,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2010","Plot_5B_2010_Glebe500_06","observation","Apis mellifera","species","honeybees",3,NA,280,2800,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2010","Plot_5B_2010_Glebe500_06","observation","Apis mellifera","species","honeybees",2,NA,280,2800,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2010","Plot_5B_2010_Glebe500_06","observation","Apis mellifera","species","honeybees",5,NA,280,2800,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2010","Plot_5B_2010_Glebe500_06","observation","Apis mellifera","species","honeybees",4,NA,280,2800,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2010","Plot_5B_2010_Glebe500_06","observation","Apis mellifera","species","honeybees",2,NA,280,2800,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2010","Plot_5B_2010_Glebe500_06","observation","Apis mellifera","species","honeybees",1,NA,280,2800,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2010","Plot_5B_2010_Glebe500_06","observation","Apis mellifera","species","honeybees",3,NA,280,2800,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2010","Plot_5B_2010_Glebe500_06","observation","Apis mellifera","species","honeybees",2,NA,280,2800,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2010","Plot_5B_2010_Glebe500_06","observation","Apis mellifera","species","honeybees",2,NA,280,2800,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2010","Plot_5B_2010_Glebe500_06","observation","Apis mellifera","species","honeybees",5,NA,280,2800,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2010","Plot_5B_2010_Glebe500_06","observation","Apis mellifera","species","honeybees",4,NA,280,2800,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2010","Plot_5B_2010_Glebe500_06","observation","Apis mellifera","species","honeybees",4,NA,280,2800,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2010","Plot_5B_2010_Glebe500_06","observation","Apis mellifera","species","honeybees",1,NA,280,2800,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2010","Plot_5B_2010_Glebe500_06","observation","Apis mellifera","species","honeybees",1,NA,280,2800,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2010","Plot_5B_2010_Glebe500_06","observation","Apis mellifera","species","honeybees",5,NA,280,2800,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2010","Plot_5B_2010_Glebe500_06","observation","Apis mellifera","species","honeybees",1,NA,280,2800,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2010","Plot_5B_2010_Glebe500_06","observation","Apis mellifera","species","honeybees",1,NA,280,2800,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2010","Plot_5B_2010_Glebe500_06","observation","Apis mellifera","species","honeybees",2,NA,280,2800,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2010","Plot_5B_2010_Glebe500_06","observation","Apis mellifera","species","honeybees",1,NA,280,2800,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2010","Plot_5B_2010_Glebe500_06","observation","Apis mellifera","species","honeybees",2,NA,280,2800,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2010","Plot_5B_2010_Glebe500_06","observation","Apis mellifera","species","honeybees",2,NA,280,2800,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2010","Plot_5B_2010_Glebe500_06","observation","Apis mellifera","species","honeybees",3,NA,280,2800,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2010","Plot_5B_2010_Glebe500_06","observation","Apis mellifera","species","honeybees",2,NA,280,2800,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2010","Plot_5C_2010_Glebe500_05","observation","Apis mellifera","species","honeybees",2,NA,240,2400,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2010","Plot_5C_2010_Glebe500_05","observation","Apis mellifera","species","honeybees",1,NA,240,2400,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2010","Plot_5C_2010_Glebe500_05","observation","Apis mellifera","species","honeybees",7,NA,240,2400,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2010","Plot_5C_2010_Glebe500_05","observation","Apis mellifera","species","honeybees",6,NA,240,2400,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2010","Plot_5C_2010_Glebe500_05","observation","Apis mellifera","species","honeybees",3,NA,240,2400,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2010","Plot_5C_2010_Glebe500_05","observation","Apis mellifera","species","honeybees",2,NA,240,2400,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2010","Plot_5C_2010_Glebe500_05","observation","Apis mellifera","species","honeybees",1,NA,240,2400,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2010","Plot_5C_2010_Glebe500_05","observation","Apis mellifera","species","honeybees",1,NA,240,2400,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2010","Plot_5C_2010_Glebe500_05","observation","Apis mellifera","species","honeybees",5,NA,240,2400,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2010","Plot_5C_2010_Glebe500_05","observation","Apis mellifera","species","honeybees",3,NA,240,2400,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2010","Plot_5C_2010_Glebe500_05","observation","Apis mellifera","species","honeybees",6,NA,240,2400,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2010","Plot_5C_2010_Glebe500_05","observation","Apis mellifera","species","honeybees",6,NA,240,2400,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2010","Plot_5C_2010_Glebe500_05","observation","Apis mellifera","species","honeybees",2,NA,240,2400,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2010","Plot_5C_2010_Glebe500_05","observation","Apis mellifera","species","honeybees",3,NA,240,2400,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2010","Plot_5C_2010_Glebe500_05","observation","Apis mellifera","species","honeybees",5,NA,240,2400,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2010","Plot_5C_2010_Glebe500_05","observation","Apis mellifera","species","honeybees",3,NA,240,2400,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2010","Plot_5C_2010_Glebe500_05","observation","Apis mellifera","species","honeybees",5,NA,240,2400,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2010","Plot_5C_2010_Glebe500_05","observation","Apis mellifera","species","honeybees",2,NA,240,2400,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2010","Plot_5C_2010_Glebe500_05","observation","Apis mellifera","species","honeybees",10,NA,240,2400,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2010","Plot_5C_2010_Glebe500_05","observation","Apis mellifera","species","honeybees",5,NA,240,2400,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2010","Plot_5C_2010_Glebe500_05","observation","Apis mellifera","species","honeybees",2,NA,240,2400,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2010","Plot_5C_2010_Glebe500_05","observation","Apis mellifera","species","honeybees",3,NA,240,2400,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2010","Plot_5C_2010_Glebe500_05","observation","Apis mellifera","species","honeybees",1,NA,240,2400,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2010","Plot_5C_2010_Glebe500_05","observation","Apis mellifera","species","honeybees",10,NA,240,2400,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2010","Plot_5C_2010_Glebe500_05","observation","Apis mellifera","species","honeybees",6,NA,240,2400,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2010","Plot_5C_2010_Glebe500_05","observation","Apis mellifera","species","honeybees",7,NA,240,2400,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2010","Plot_5C_2010_Glebe500_05","observation","Apis mellifera","species","honeybees",4,NA,240,2400,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2010","Plot_5C_2010_Glebe500_05","observation","Apis mellifera","species","honeybees",3,NA,240,2400,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2010","Plot_5C_2010_Glebe500_05","observation","Apis mellifera","species","honeybees",4,NA,240,2400,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2010","Plot_5C_2010_Glebe500_05","observation","Apis mellifera","species","honeybees",2,NA,240,2400,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2010","Plot_5C_2010_Glebe500_05","observation","Apis mellifera","species","honeybees",6,NA,240,2400,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2010","Plot_5C_2010_Glebe500_05","observation","Apis mellifera","species","honeybees",10,NA,240,2400,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2010","Plot_5C_2010_Glebe500_05","observation","Apis mellifera","species","honeybees",6,NA,240,2400,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2010","Plot_5C_2010_Glebe500_05","observation","Apis mellifera","species","honeybees",7,NA,240,2400,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2010","Plot_5C_2010_Glebe500_05","observation","Apis mellifera","species","honeybees",4,NA,240,2400,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2010","Plot_5C_2010_Glebe500_05","observation","Apis mellifera","species","honeybees",3,NA,240,2400,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2010","Plot_5C_2010_Glebe500_05","observation","Apis mellifera","species","honeybees",4,NA,240,2400,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2010","Plot_5C_2010_Glebe500_05","observation","Apis mellifera","species","honeybees",2,NA,240,2400,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2010","Plot_5C_2010_Glebe500_05","observation","Apis mellifera","species","honeybees",6,NA,240,2400,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2010","Plot_5C_2010_Glebe500_05","observation","Apis mellifera","species","honeybees",5,NA,240,2400,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2010","Plot_5C_2010_Glebe500_05","observation","Apis mellifera","species","honeybees",3,NA,240,2400,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2010","Plot_5C_2010_Glebe500_05","observation","Apis mellifera","species","honeybees",3,NA,240,2400,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2010","Plot_5C_2010_Glebe500_05","observation","Apis mellifera","species","honeybees",3,NA,240,2400,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2010","Plot_5C_2010_Glebe500_05","observation","Apis mellifera","species","honeybees",3,NA,240,2400,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2010","Plot_5C_2010_Glebe500_05","observation","Apis mellifera","species","honeybees",6,NA,240,2400,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2010","Plot_5C_2010_Glebe500_05","observation","Apis mellifera","species","honeybees",6,NA,240,2400,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2010","Plot_6A_2010_Glebe500_06","observation","Apis mellifera","species","honeybees",6,NA,240,2400,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2010","Plot_6A_2010_Glebe500_06","observation","Apis mellifera","species","honeybees",5,NA,240,2400,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2010","Plot_6A_2010_Glebe500_06","observation","Apis mellifera","species","honeybees",5,NA,240,2400,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2010","Plot_6A_2010_Glebe500_06","observation","Apis mellifera","species","honeybees",5,NA,240,2400,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2010","Plot_6A_2010_Glebe500_06","observation","Apis mellifera","species","honeybees",13,NA,240,2400,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2010","Plot_6A_2010_Glebe500_06","observation","Apis mellifera","species","honeybees",2,NA,240,2400,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2010","Plot_6A_2010_Glebe500_06","observation","Apis mellifera","species","honeybees",1,NA,240,2400,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2010","Plot_6A_2010_Glebe500_06","observation","Apis mellifera","species","honeybees",5,NA,240,2400,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2010","Plot_6A_2010_Glebe500_06","observation","Apis mellifera","species","honeybees",2,NA,240,2400,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2010","Plot_6A_2010_Glebe500_06","observation","Apis mellifera","species","honeybees",8,NA,240,2400,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2010","Plot_6A_2010_Glebe500_06","observation","Apis mellifera","species","honeybees",6,NA,240,2400,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2010","Plot_6A_2010_Glebe500_06","observation","Apis mellifera","species","honeybees",7,NA,240,2400,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2010","Plot_6A_2010_Glebe500_06","observation","Apis mellifera","species","honeybees",6,NA,240,2400,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2010","Plot_6A_2010_Glebe500_06","observation","Apis mellifera","species","honeybees",8,NA,240,2400,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2010","Plot_6A_2010_Glebe500_06","observation","Apis mellifera","species","honeybees",4,NA,240,2400,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2010","Plot_6A_2010_Glebe500_06","observation","Apis mellifera","species","honeybees",3,NA,240,2400,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2010","Plot_6A_2010_Glebe500_06","observation","Apis mellifera","species","honeybees",8,NA,240,2400,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2010","Plot_6A_2010_Glebe500_06","observation","Apis mellifera","species","honeybees",5,NA,240,2400,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2010","Plot_6A_2010_Glebe500_06","observation","Apis mellifera","species","honeybees",2,NA,240,2400,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2010","Plot_6A_2010_Glebe500_06","observation","Apis mellifera","species","honeybees",6,NA,240,2400,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2010","Plot_6A_2010_Glebe500_06","observation","Apis mellifera","species","honeybees",12,NA,240,2400,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2010","Plot_6A_2010_Glebe500_06","observation","Apis mellifera","species","honeybees",8,NA,240,2400,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2010","Plot_6A_2010_Glebe500_06","observation","Apis mellifera","species","honeybees",4,NA,240,2400,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2010","Plot_6A_2010_Glebe500_06","observation","Apis mellifera","species","honeybees",3,NA,240,2400,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2010","Plot_6A_2010_Glebe500_06","observation","Apis mellifera","species","honeybees",3,NA,240,2400,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2010","Plot_6A_2010_Glebe500_06","observation","Apis mellifera","species","honeybees",3,NA,240,2400,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2010","Plot_6A_2010_Glebe500_06","observation","Apis mellifera","species","honeybees",3,NA,240,2400,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2010","Plot_6A_2010_Glebe500_06","observation","Apis mellifera","species","honeybees",5,NA,240,2400,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2010","Plot_6A_2010_Glebe500_06","observation","Apis mellifera","species","honeybees",7,NA,240,2400,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2010","Plot_6A_2010_Glebe500_06","observation","Apis mellifera","species","honeybees",1,NA,240,2400,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2010","Plot_6A_2010_Glebe500_06","observation","Apis mellifera","species","honeybees",5,NA,240,2400,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2010","Plot_6A_2010_Glebe500_06","observation","Apis mellifera","species","honeybees",3,NA,240,2400,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2010","Plot_6A_2010_Glebe500_06","observation","Apis mellifera","species","honeybees",6,NA,240,2400,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2010","Plot_6A_2010_Glebe500_06","observation","Apis mellifera","species","honeybees",4,NA,240,2400,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2010","Plot_6A_2010_Glebe500_06","observation","Apis mellifera","species","honeybees",11,NA,240,2400,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2010","Plot_6A_2010_Glebe500_06","observation","Apis mellifera","species","honeybees",2,NA,240,2400,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2010","Plot_6A_2010_Glebe500_06","observation","Apis mellifera","species","honeybees",3,NA,240,2400,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2010","Plot_6A_2010_Glebe500_06","observation","Apis mellifera","species","honeybees",1,NA,240,2400,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2010","Plot_6A_2010_Glebe500_06","observation","Apis mellifera","species","honeybees",7,NA,240,2400,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2010","Plot_6A_2010_Glebe500_06","observation","Apis mellifera","species","honeybees",2,NA,240,2400,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2010","Plot_6A_2010_Glebe500_06","observation","Apis mellifera","species","honeybees",3,NA,240,2400,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2010","Plot_6A_2010_Glebe500_06","observation","Apis mellifera","species","honeybees",2,NA,240,2400,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2010","Plot_6A_2010_Glebe500_06","observation","Apis mellifera","species","honeybees",9,NA,240,2400,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2010","Plot_6A_2010_Glebe500_06","observation","Apis mellifera","species","honeybees",7,NA,240,2400,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2010","Plot_6A_2010_Glebe500_06","observation","Apis mellifera","species","honeybees",6,NA,240,2400,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2010","Plot_6A_2010_Glebe500_06","observation","Apis mellifera","species","honeybees",3,NA,240,2400,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2010","Plot_5B_2010_Glebe500_06","observation","Trigona spp..","genus","other_wild_bees",1,NA,280,2800,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2010","Plot_2C_2010_Glebe500_06","observation","Xylocopa","genus","other_wild_bees",1,NA,80,800,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2010","Plot_2C_2010_Glebe500_06","observation","Xylocopa","genus","other_wild_bees",1,NA,80,800,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2010","Plot_5B_2010_Glebe500_06","observation","Xylocopa","genus","other_wild_bees",1,NA,280,2800,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2010","Plot_5C_2010_Glebe500_05","observation","Xylocopa","genus","other_wild_bees",1,NA,240,2400,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2010","Plot_5C_2010_Glebe500_05","observation","Xylocopa","genus","other_wild_bees",1,NA,240,2400,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2010","Plot_5C_2010_Glebe500_05","observation","Xylocopa","genus","other_wild_bees",1,NA,240,2400,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2010","Plot_5C_2010_Glebe500_05","observation","Xylocopa","genus","other_wild_bees",1,NA,240,2400,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2010","Plot_5C_2010_Glebe500_05","observation","Xylocopa","genus","other_wild_bees",1,NA,240,2400,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2010","Plot_6A_2010_Glebe500_06","observation","Xylocopa","genus","other_wild_bees",1,NA,240,2400,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2010","Plot_6A_2010_Glebe500_06","observation","Xylocopa","genus","other_wild_bees",1,NA,240,2400,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2010","Plot_6A_2010_Glebe500_06","observation","Xylocopa","genus","other_wild_bees",1,NA,240,2400,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2010","Plot_6A_2010_Glebe500_06","observation","Xylocopa","genus","other_wild_bees",1,NA,240,2400,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2011","Plot_6A_2011_Glebe500_05","observation","Apis mellifera","species","honeybees",1,NA,560,5600,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2011","Plot_6A_2011_Glebe500_05","observation","Apis mellifera","species","honeybees",2,NA,560,5600,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2011","Plot_6A_2011_Glebe500_05","observation","Apis mellifera","species","honeybees",1,NA,560,5600,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2011","Plot_6A_2011_Glebe500_05","observation","Apis mellifera","species","honeybees",1,NA,560,5600,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2011","Plot_6A_2011_Glebe500_05","observation","Apis mellifera","species","honeybees",2,NA,560,5600,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2011","Plot_6A_2011_Glebe500_05","observation","Apis mellifera","species","honeybees",1,NA,560,5600,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2011","Plot_6A_2011_Glebe500_05","observation","Apis mellifera","species","honeybees",1,NA,560,5600,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2011","Plot_6A_2011_Glebe500_05","observation","Apis mellifera","species","honeybees",1,NA,560,5600,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2011","Plot_6A_2011_Glebe500_05","observation","Apis mellifera","species","honeybees",1,NA,560,5600,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2011","Plot_6A_2011_Glebe500_05","observation","Apis mellifera","species","honeybees",1,NA,560,5600,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2011","Plot_6A_2011_Glebe500_05","observation","Apis mellifera","species","honeybees",3,NA,560,5600,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2011","Plot_6A_2011_Glebe500_05","observation","Apis mellifera","species","honeybees",2,NA,560,5600,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2011","Plot_6A_2011_Glebe500_05","observation","Apis mellifera","species","honeybees",1,NA,560,5600,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2011","Plot_6A_2011_Glebe500_05","observation","Apis mellifera","species","honeybees",1,NA,560,5600,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2011","Plot_6A_2011_Glebe500_05","observation","Apis mellifera","species","honeybees",3,NA,560,5600,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2011","Plot_6A_2011_Glebe500_05","observation","Apis mellifera","species","honeybees",1,NA,560,5600,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2011","Plot_6A_2011_Glebe500_05","observation","Apis mellifera","species","honeybees",2,NA,560,5600,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2011","Plot_6A_2011_Glebe500_05","observation","Apis mellifera","species","honeybees",2,NA,560,5600,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2011","Plot_6A_2011_Glebe500_05","observation","Apis mellifera","species","honeybees",1,NA,560,5600,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2011","Plot_6A_2011_Glebe500_05","observation","Apis mellifera","species","honeybees",2,NA,560,5600,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2011","Plot_6A_2011_Glebe500_05","observation","Apis mellifera","species","honeybees",4,NA,560,5600,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2011","Plot_6A_2011_Glebe500_05","observation","Apis mellifera","species","honeybees",3,NA,560,5600,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2011","Plot_6A_2011_Glebe500_05","observation","Apis mellifera","species","honeybees",1,NA,560,5600,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2011","Plot_6A_2011_Glebe500_05","observation","Apis mellifera","species","honeybees",4,NA,560,5600,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2011","Plot_6A_2011_Glebe500_05","observation","Apis mellifera","species","honeybees",2,NA,560,5600,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2011","Plot_4A_2011_Glebe500_05","observation","Apis mellifera","species","honeybees",8,NA,160,1600,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2011","Plot_4A_2011_Glebe500_05","observation","Apis mellifera","species","honeybees",4,NA,160,1600,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2011","Plot_4A_2011_Glebe500_05","observation","Apis mellifera","species","honeybees",2,NA,160,1600,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2011","Plot_4A_2011_Glebe500_05","observation","Apis mellifera","species","honeybees",1,NA,160,1600,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2011","Plot_4A_2011_Glebe500_05","observation","Apis mellifera","species","honeybees",4,NA,160,1600,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2011","Plot_4A_2011_Glebe500_05","observation","Apis mellifera","species","honeybees",1,NA,160,1600,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2011","Plot_4A_2011_Glebe500_05","observation","Apis mellifera","species","honeybees",5,NA,160,1600,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2011","Plot_4A_2011_Glebe500_05","observation","Apis mellifera","species","honeybees",2,NA,160,1600,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2011","Plot_4A_2011_Glebe500_05","observation","Apis mellifera","species","honeybees",4,NA,160,1600,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2011","Plot_4A_2011_Glebe500_05","observation","Apis mellifera","species","honeybees",7,NA,160,1600,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2011","Plot_4A_2011_Glebe500_05","observation","Apis mellifera","species","honeybees",4,NA,160,1600,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2011","Plot_4A_2011_Glebe500_05","observation","Apis mellifera","species","honeybees",1,NA,160,1600,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2011","Plot_4A_2011_Glebe500_05","observation","Apis mellifera","species","honeybees",4,NA,160,1600,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2011","Plot_4A_2011_Glebe500_05","observation","Apis mellifera","species","honeybees",2,NA,160,1600,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2011","Plot_4A_2011_Glebe500_05","observation","Apis mellifera","species","honeybees",2,NA,160,1600,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2011","Plot_4A_2011_Glebe500_05","observation","Apis mellifera","species","honeybees",4,NA,160,1600,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2011","Plot_4A_2011_Glebe500_05","observation","Apis mellifera","species","honeybees",3,NA,160,1600,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2011","Plot_4A_2011_Glebe500_05","observation","Apis mellifera","species","honeybees",2,NA,160,1600,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2011","Plot_4A_2011_Glebe500_05","observation","Apis mellifera","species","honeybees",5,NA,160,1600,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2011","Plot_4A_2011_Glebe500_05","observation","Apis mellifera","species","honeybees",5,NA,160,1600,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2011","Plot_4A_2011_Glebe500_05","observation","Apis mellifera","species","honeybees",3,NA,160,1600,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2011","Plot_4A_2011_Glebe500_05","observation","Apis mellifera","species","honeybees",2,NA,160,1600,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2011","Plot_4A_2011_Glebe500_05","observation","Apis mellifera","species","honeybees",4,NA,160,1600,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2011","Plot_4A_2011_Glebe500_05","observation","Apis mellifera","species","honeybees",4,NA,160,1600,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2011","Plot_4A_2011_Glebe500_05","observation","Apis mellifera","species","honeybees",5,NA,160,1600,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2011","Plot_4A_2011_Glebe500_05","observation","Apis mellifera","species","honeybees",3,NA,160,1600,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2011","Plot_4A_2011_Glebe500_05","observation","Apis mellifera","species","honeybees",4,NA,160,1600,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2011","Plot_4A_2011_Glebe500_05","observation","Apis mellifera","species","honeybees",3,NA,160,1600,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2011","Plot_4A_2011_Glebe500_05","observation","Apis mellifera","species","honeybees",4,NA,160,1600,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2011","Plot_4B_2011_Glebe500_05","observation","Apis mellifera","species","honeybees",2,NA,160,1600,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2011","Plot_4B_2011_Glebe500_05","observation","Apis mellifera","species","honeybees",3,NA,160,1600,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2011","Plot_4B_2011_Glebe500_05","observation","Apis mellifera","species","honeybees",1,NA,160,1600,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2011","Plot_4B_2011_Glebe500_05","observation","Apis mellifera","species","honeybees",1,NA,160,1600,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2011","Plot_4B_2011_Glebe500_05","observation","Apis mellifera","species","honeybees",1,NA,160,1600,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2011","Plot_4B_2011_Glebe500_05","observation","Apis mellifera","species","honeybees",1,NA,160,1600,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2011","Plot_4B_2011_Glebe500_05","observation","Apis mellifera","species","honeybees",1,NA,160,1600,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2011","Plot_4B_2011_Glebe500_05","observation","Apis mellifera","species","honeybees",1,NA,160,1600,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2011","Plot_4B_2011_Glebe500_05","observation","Apis mellifera","species","honeybees",2,NA,160,1600,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2011","Plot_4B_2011_Glebe500_05","observation","Apis mellifera","species","honeybees",1,NA,160,1600,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2011","Plot_4B_2011_Glebe500_05","observation","Apis mellifera","species","honeybees",2,NA,160,1600,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2011","Plot_4B_2011_Glebe500_05","observation","Apis mellifera","species","honeybees",2,NA,160,1600,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2011","Plot_4B_2011_Glebe500_05","observation","Apis mellifera","species","honeybees",4,NA,160,1600,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2011","Plot_4B_2011_Glebe500_05","observation","Apis mellifera","species","honeybees",1,NA,160,1600,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2011","Plot_4B_2011_Glebe500_05","observation","Apis mellifera","species","honeybees",3,NA,160,1600,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2011","Plot_4B_2011_Glebe500_05","observation","Apis mellifera","species","honeybees",3,NA,160,1600,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2011","Plot_4B_2011_Glebe500_05","observation","Apis mellifera","species","honeybees",6,NA,160,1600,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2011","Plot_4B_2011_Glebe500_05","observation","Apis mellifera","species","honeybees",4,NA,160,1600,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2011","Plot_4B_2011_Glebe500_05","observation","Apis mellifera","species","honeybees",1,NA,160,1600,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2011","Plot_4B_2011_Glebe500_05","observation","Apis mellifera","species","honeybees",2,NA,160,1600,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2011","Plot_4B_2011_Glebe500_05","observation","Apis mellifera","species","honeybees",4,NA,160,1600,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2011","Plot_4B_2011_Glebe500_05","observation","Apis mellifera","species","honeybees",1,NA,160,1600,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2011","Plot_4B_2011_Glebe500_05","observation","Apis mellifera","species","honeybees",3,NA,160,1600,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2011","Plot_4B_2011_Glebe500_05","observation","Apis mellifera","species","honeybees",3,NA,160,1600,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2011","Plot_4B_2011_Glebe500_05","observation","Apis mellifera","species","honeybees",1,NA,160,1600,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2011","Plot_4B_2011_Glebe500_05","observation","Apis mellifera","species","honeybees",5,NA,160,1600,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2011","Plot_5A_2011_Glebe500_05","observation","Apis mellifera","species","honeybees",3,NA,400,4000,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2011","Plot_5A_2011_Glebe500_05","observation","Apis mellifera","species","honeybees",2,NA,400,4000,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2011","Plot_5A_2011_Glebe500_05","observation","Apis mellifera","species","honeybees",1,NA,400,4000,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2011","Plot_5A_2011_Glebe500_05","observation","Apis mellifera","species","honeybees",1,NA,400,4000,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2011","Plot_5A_2011_Glebe500_05","observation","Apis mellifera","species","honeybees",2,NA,400,4000,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2011","Plot_5A_2011_Glebe500_05","observation","Apis mellifera","species","honeybees",2,NA,400,4000,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2011","Plot_5A_2011_Glebe500_05","observation","Apis mellifera","species","honeybees",2,NA,400,4000,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2011","Plot_5A_2011_Glebe500_05","observation","Apis mellifera","species","honeybees",2,NA,400,4000,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2011","Plot_5A_2011_Glebe500_05","observation","Apis mellifera","species","honeybees",3,NA,400,4000,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2011","Plot_5A_2011_Glebe500_05","observation","Apis mellifera","species","honeybees",2,NA,400,4000,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2011","Plot_5A_2011_Glebe500_05","observation","Apis mellifera","species","honeybees",2,NA,400,4000,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2011","Plot_5A_2011_Glebe500_05","observation","Apis mellifera","species","honeybees",1,NA,400,4000,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2011","Plot_5A_2011_Glebe500_05","observation","Apis mellifera","species","honeybees",1,NA,400,4000,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2011","Plot_5A_2011_Glebe500_05","observation","Apis mellifera","species","honeybees",2,NA,400,4000,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2011","Plot_5A_2011_Glebe500_05","observation","Apis mellifera","species","honeybees",1,NA,400,4000,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2011","Plot_5A_2011_Glebe500_05","observation","Apis mellifera","species","honeybees",2,NA,400,4000,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2011","Plot_5A_2011_Glebe500_05","observation","Apis mellifera","species","honeybees",2,NA,400,4000,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2011","Plot_5A_2011_Glebe500_05","observation","Apis mellifera","species","honeybees",2,NA,400,4000,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2011","Plot_5A_2011_Glebe500_05","observation","Apis mellifera","species","honeybees",3,NA,400,4000,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2011","Plot_6A_2011_Glebe500_05","observation","Apis mellifera","species","honeybees",2,NA,560,5600,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2011","Plot_6A_2011_Glebe500_05","observation","Apis mellifera","species","honeybees",3,NA,560,5600,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2011","Plot_6A_2011_Glebe500_05","observation","Apis mellifera","species","honeybees",1,NA,560,5600,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2011","Plot_6A_2011_Glebe500_05","observation","Apis mellifera","species","honeybees",3,NA,560,5600,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2011","Plot_6A_2011_Glebe500_05","observation","Apis mellifera","species","honeybees",2,NA,560,5600,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2011","Plot_6A_2011_Glebe500_05","observation","Apis mellifera","species","honeybees",4,NA,560,5600,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2011","Plot_6A_2011_Glebe500_05","observation","Apis mellifera","species","honeybees",2,NA,560,5600,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2011","Plot_6A_2011_Glebe500_05","observation","Apis mellifera","species","honeybees",4,NA,560,5600,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2011","Plot_6A_2011_Glebe500_05","observation","Apis mellifera","species","honeybees",4,NA,560,5600,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2011","Plot_6A_2011_Glebe500_05","observation","Apis mellifera","species","honeybees",5,NA,560,5600,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2011","Plot_6A_2011_Glebe500_05","observation","Apis mellifera","species","honeybees",4,NA,560,5600,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2011","Plot_6A_2011_Glebe500_05","observation","Apis mellifera","species","honeybees",5,NA,560,5600,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2011","Plot_6A_2011_Glebe500_05","observation","Apis mellifera","species","honeybees",4,NA,560,5600,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2011","Plot_6A_2011_Glebe500_05","observation","Apis mellifera","species","honeybees",6,NA,560,5600,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2011","Plot_6A_2011_Glebe500_05","observation","Apis mellifera","species","honeybees",3,NA,560,5600,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2011","Plot_6A_2011_Glebe500_05","observation","Apis mellifera","species","honeybees",2,NA,560,5600,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2011","Plot_6A_2011_Glebe500_05","observation","Apis mellifera","species","honeybees",1,NA,560,5600,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2011","Plot_6A_2011_Glebe500_05","observation","Apis mellifera","species","honeybees",1,NA,560,5600,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2011","Plot_6A_2011_Glebe500_05","observation","Apis mellifera","species","honeybees",3,NA,560,5600,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2011","Plot_6A_2011_Glebe500_05","observation","Apis mellifera","species","honeybees",3,NA,560,5600,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2011","Plot_6A_2011_Glebe500_05","observation","Apis mellifera","species","honeybees",2,NA,560,5600,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2011","Plot_6A_2011_Glebe500_05","observation","Apis mellifera","species","honeybees",3,NA,560,5600,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2011","Plot_6A_2011_Glebe500_05","observation","Apis mellifera","species","honeybees",4,NA,560,5600,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2011","Plot_6A_2011_Glebe500_05","observation","Apis mellifera","species","honeybees",4,NA,560,5600,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2011","Plot_6A_2011_Glebe500_05","observation","Apis mellifera","species","honeybees",4,NA,560,5600,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2011","Plot_6A_2011_Glebe500_05","observation","Apis mellifera","species","honeybees",6,NA,560,5600,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2011","Plot_6A_2011_Glebe500_05","observation","Apis mellifera","species","honeybees",3,NA,560,5600,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2011","Plot_6A_2011_Glebe500_05","observation","Apis mellifera","species","honeybees",3,NA,560,5600,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2011","Plot_6A_2011_Glebe500_05","observation","Apis mellifera","species","honeybees",4,NA,560,5600,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2011","Plot_6A_2011_Glebe500_05","observation","Apis mellifera","species","honeybees",3,NA,560,5600,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2011","Plot_5A_2011_Glebe500_05","observation","Apis mellifera","species","honeybees",1,NA,400,4000,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2011","Plot_5A_2011_Glebe500_05","observation","Apis mellifera","species","honeybees",2,NA,400,4000,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2011","Plot_5A_2011_Glebe500_05","observation","Apis mellifera","species","honeybees",2,NA,400,4000,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2011","Plot_5A_2011_Glebe500_05","observation","Apis mellifera","species","honeybees",5,NA,400,4000,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2011","Plot_5A_2011_Glebe500_05","observation","Apis mellifera","species","honeybees",1,NA,400,4000,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2011","Plot_5A_2011_Glebe500_05","observation","Apis mellifera","species","honeybees",6,NA,400,4000,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2011","Plot_5A_2011_Glebe500_05","observation","Apis mellifera","species","honeybees",2,NA,400,4000,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2011","Plot_5A_2011_Glebe500_05","observation","Apis mellifera","species","honeybees",1,NA,400,4000,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2011","Plot_5A_2011_Glebe500_05","observation","Apis mellifera","species","honeybees",2,NA,400,4000,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2011","Plot_5A_2011_Glebe500_05","observation","Apis mellifera","species","honeybees",1,NA,400,4000,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2011","Plot_5A_2011_Glebe500_05","observation","Apis mellifera","species","honeybees",8,NA,400,4000,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2011","Plot_5A_2011_Glebe500_05","observation","Apis mellifera","species","honeybees",7,NA,400,4000,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2011","Plot_5A_2011_Glebe500_05","observation","Apis mellifera","species","honeybees",8,NA,400,4000,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2011","Plot_5A_2011_Glebe500_05","observation","Apis mellifera","species","honeybees",12,NA,400,4000,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2011","Plot_5A_2011_Glebe500_05","observation","Apis mellifera","species","honeybees",12,NA,400,4000,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2011","Plot_5A_2011_Glebe500_05","observation","Apis mellifera","species","honeybees",6,NA,400,4000,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2011","Plot_5A_2011_Glebe500_05","observation","Apis mellifera","species","honeybees",9,NA,400,4000,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2011","Plot_5A_2011_Glebe500_05","observation","Apis mellifera","species","honeybees",5,NA,400,4000,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2011","Plot_5A_2011_Glebe500_05","observation","Apis mellifera","species","honeybees",3,NA,400,4000,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2011","Plot_5A_2011_Glebe500_05","observation","Apis mellifera","species","honeybees",2,NA,400,4000,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2011","Plot_5A_2011_Glebe500_05","observation","Apis mellifera","species","honeybees",1,NA,400,4000,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2011","Plot_5A_2011_Glebe500_05","observation","Apis mellifera","species","honeybees",2,NA,400,4000,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2011","Plot_5A_2011_Glebe500_05","observation","Apis mellifera","species","honeybees",7,NA,400,4000,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2011","Plot_5A_2011_Glebe500_05","observation","Apis mellifera","species","honeybees",1,NA,400,4000,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2011","Plot_5A_2011_Glebe500_05","observation","Apis mellifera","species","honeybees",7,NA,400,4000,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2011","Plot_5A_2011_Glebe500_05","observation","Apis mellifera","species","honeybees",1,NA,400,4000,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2011","Plot_5A_2011_Glebe500_05","observation","Apis mellifera","species","honeybees",3,NA,400,4000,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2011","Plot_5A_2011_Glebe500_05","observation","Apis mellifera","species","honeybees",3,NA,400,4000,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2011","Plot_5A_2011_Glebe500_05","observation","Apis mellifera","species","honeybees",1,NA,400,4000,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2011","Plot_5A_2011_Glebe500_05","observation","Apis mellifera","species","honeybees",8,NA,400,4000,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2011","Plot_5A_2011_Glebe500_05","observation","Apis mellifera","species","honeybees",9,NA,400,4000,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2011","Plot_5A_2011_Glebe500_05","observation","Apis mellifera","species","honeybees",2,NA,400,4000,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2011","Plot_5A_2011_Glebe500_05","observation","Apis mellifera","species","honeybees",4,NA,400,4000,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2011","Plot_5A_2011_Glebe500_05","observation","Apis mellifera","species","honeybees",4,NA,400,4000,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2011","Plot_5A_2011_Glebe500_05","observation","Apis mellifera","species","honeybees",4,NA,400,4000,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2011","Plot_5A_2011_Glebe500_05","observation","Apis mellifera","species","honeybees",9,NA,400,4000,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2011","Plot_5A_2011_Glebe500_05","observation","Apis mellifera","species","honeybees",2,NA,400,4000,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2011","Plot_6A_2011_Glebe500_05","observation","Apis mellifera","species","honeybees",4,NA,560,5600,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2011","Plot_6A_2011_Glebe500_05","observation","Apis mellifera","species","honeybees",1,NA,560,5600,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2011","Plot_6A_2011_Glebe500_05","observation","Apis mellifera","species","honeybees",1,NA,560,5600,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2011","Plot_6A_2011_Glebe500_05","observation","Apis mellifera","species","honeybees",2,NA,560,5600,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2011","Plot_6A_2011_Glebe500_05","observation","Apis mellifera","species","honeybees",1,NA,560,5600,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2011","Plot_6A_2011_Glebe500_05","observation","Apis mellifera","species","honeybees",3,NA,560,5600,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2011","Plot_6A_2011_Glebe500_05","observation","Apis mellifera","species","honeybees",4,NA,560,5600,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2011","Plot_6A_2011_Glebe500_05","observation","Apis mellifera","species","honeybees",7,NA,560,5600,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2011","Plot_6A_2011_Glebe500_05","observation","Apis mellifera","species","honeybees",2,NA,560,5600,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2011","Plot_6A_2011_Glebe500_05","observation","Apis mellifera","species","honeybees",1,NA,560,5600,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2011","Plot_6A_2011_Glebe500_05","observation","Apis mellifera","species","honeybees",1,NA,560,5600,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2011","Plot_6A_2011_Glebe500_05","observation","Apis mellifera","species","honeybees",3,NA,560,5600,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2011","Plot_6A_2011_Glebe500_05","observation","Apis mellifera","species","honeybees",1,NA,560,5600,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2011","Plot_6A_2011_Glebe500_05","observation","Apis mellifera","species","honeybees",1,NA,560,5600,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2011","Plot_6A_2011_Glebe500_05","observation","Apis mellifera","species","honeybees",1,NA,560,5600,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2011","Plot_6A_2011_Glebe500_05","observation","Apis mellifera","species","honeybees",4,NA,560,5600,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2011","Plot_6A_2011_Glebe500_05","observation","Apis mellifera","species","honeybees",8,NA,560,5600,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2011","Plot_6A_2011_Glebe500_05","observation","Apis mellifera","species","honeybees",7,NA,560,5600,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2011","Plot_6A_2011_Glebe500_05","observation","Apis mellifera","species","honeybees",10,NA,560,5600,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2011","Plot_6A_2011_Glebe500_05","observation","Apis mellifera","species","honeybees",4,NA,560,5600,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2011","Plot_6A_2011_Glebe500_05","observation","Apis mellifera","species","honeybees",8,NA,560,5600,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2011","Plot_6A_2011_Glebe500_05","observation","Apis mellifera","species","honeybees",4,NA,560,5600,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2011","Plot_6A_2011_Glebe500_05","observation","Apis mellifera","species","honeybees",3,NA,560,5600,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2011","Plot_6A_2011_Glebe500_05","observation","Apis mellifera","species","honeybees",7,NA,560,5600,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2011","Plot_6A_2011_Glebe500_05","observation","Apis mellifera","species","honeybees",5,NA,560,5600,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2011","Plot_6A_2011_Glebe500_05","observation","Apis mellifera","species","honeybees",7,NA,560,5600,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2011","Plot_6A_2011_Glebe500_05","observation","Apis mellifera","species","honeybees",13,NA,560,5600,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2011","Plot_6A_2011_Glebe500_05","observation","Apis mellifera","species","honeybees",6,NA,560,5600,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2011","Plot_6A_2011_Glebe500_05","observation","Apis mellifera","species","honeybees",7,NA,560,5600,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2011","Plot_6A_2011_Glebe500_05","observation","Apis mellifera","species","honeybees",5,NA,560,5600,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2011","Plot_6A_2011_Glebe500_05","observation","Apis mellifera","species","honeybees",5,NA,560,5600,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2011","Plot_6A_2011_Glebe500_05","observation","Apis mellifera","species","honeybees",3,NA,560,5600,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2011","Plot_6A_2011_Glebe500_05","observation","Apis mellifera","species","honeybees",2,NA,560,5600,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2011","Plot_6A_2011_Glebe500_05","observation","Apis mellifera","species","honeybees",6,NA,560,5600,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2011","Plot_6A_2011_Glebe500_05","observation","Apis mellifera","species","honeybees",1,NA,560,5600,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2011","Plot_6A_2011_Glebe500_05","observation","Apis mellifera","species","honeybees",1,NA,560,5600,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2011","Plot_6A_2011_Glebe500_05","observation","Apis mellifera","species","honeybees",1,NA,560,5600,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2011","Plot_6A_2011_Glebe500_05","observation","Apis mellifera","species","honeybees",2,NA,560,5600,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2011","Plot_6A_2011_Glebe500_05","observation","Apis mellifera","species","honeybees",2,NA,560,5600,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2011","Plot_6A_2011_Glebe500_05","observation","Apis mellifera","species","honeybees",2,NA,560,5600,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2011","Plot_6A_2011_Glebe500_05","observation","Apis mellifera","species","honeybees",3,NA,560,5600,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2011","Plot_6A_2011_Glebe500_05","observation","Apis mellifera","species","honeybees",8,NA,560,5600,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2011","Plot_6A_2011_Glebe500_05","observation","Apis mellifera","species","honeybees",1,NA,560,5600,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2011","Plot_6A_2011_Glebe500_05","observation","Apis mellifera","species","honeybees",5,NA,560,5600,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2011","Plot_6A_2011_Glebe500_05","observation","Apis mellifera","species","honeybees",4,NA,560,5600,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2011","Plot_6A_2011_Glebe500_05","observation","Apis mellifera","species","honeybees",5,NA,560,5600,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2011","Plot_2B_2011_Glebe500_06","observation","Apis mellifera","species","honeybees",2,NA,160,1600,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2011","Plot_2B_2011_Glebe500_06","observation","Apis mellifera","species","honeybees",1,NA,160,1600,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2011","Plot_2B_2011_Glebe500_06","observation","Apis mellifera","species","honeybees",2,NA,160,1600,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2011","Plot_2B_2011_Glebe500_06","observation","Apis mellifera","species","honeybees",2,NA,160,1600,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2011","Plot_2B_2011_Glebe500_06","observation","Apis mellifera","species","honeybees",1,NA,160,1600,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2011","Plot_2B_2011_Glebe500_06","observation","Apis mellifera","species","honeybees",5,NA,160,1600,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2011","Plot_2B_2011_Glebe500_06","observation","Apis mellifera","species","honeybees",4,NA,160,1600,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2011","Plot_2B_2011_Glebe500_06","observation","Apis mellifera","species","honeybees",2,NA,160,1600,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2011","Plot_2B_2011_Glebe500_06","observation","Apis mellifera","species","honeybees",1,NA,160,1600,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2011","Plot_2B_2011_Glebe500_06","observation","Apis mellifera","species","honeybees",2,NA,160,1600,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2011","Plot_2B_2011_Glebe500_06","observation","Apis mellifera","species","honeybees",3,NA,160,1600,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2011","Plot_1B_2011_Glebe500_06","observation","Apis mellifera","species","honeybees",1,NA,160,1600,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2011","Plot_1B_2011_Glebe500_06","observation","Apis mellifera","species","honeybees",1,NA,160,1600,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2011","Plot_1B_2011_Glebe500_06","observation","Apis mellifera","species","honeybees",5,NA,160,1600,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2011","Plot_1B_2011_Glebe500_06","observation","Apis mellifera","species","honeybees",4,NA,160,1600,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2011","Plot_1B_2011_Glebe500_06","observation","Apis mellifera","species","honeybees",2,NA,160,1600,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2011","Plot_1B_2011_Glebe500_06","observation","Apis mellifera","species","honeybees",4,NA,160,1600,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2011","Plot_1B_2011_Glebe500_06","observation","Apis mellifera","species","honeybees",3,NA,160,1600,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2011","Plot_1B_2011_Glebe500_06","observation","Apis mellifera","species","honeybees",3,NA,160,1600,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2011","Plot_1B_2011_Glebe500_06","observation","Apis mellifera","species","honeybees",4,NA,160,1600,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2011","Plot_1B_2011_Glebe500_06","observation","Apis mellifera","species","honeybees",2,NA,160,1600,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2011","Plot_1B_2011_Glebe500_06","observation","Apis mellifera","species","honeybees",1,NA,160,1600,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2011","Plot_1B_2011_Glebe500_06","observation","Apis mellifera","species","honeybees",3,NA,160,1600,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2011","Plot_1B_2011_Glebe500_06","observation","Apis mellifera","species","honeybees",1,NA,160,1600,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2011","Plot_1B_2011_Glebe500_06","observation","Apis mellifera","species","honeybees",3,NA,160,1600,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2011","Plot_1B_2011_Glebe500_06","observation","Apis mellifera","species","honeybees",1,NA,160,1600,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2011","Plot_1B_2011_Glebe500_06","observation","Apis mellifera","species","honeybees",15,NA,160,1600,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2011","Plot_1B_2011_Glebe500_06","observation","Apis mellifera","species","honeybees",4,NA,160,1600,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2011","Plot_1B_2011_Glebe500_06","observation","Apis mellifera","species","honeybees",10,NA,160,1600,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2011","Plot_1B_2011_Glebe500_06","observation","Apis mellifera","species","honeybees",3,NA,160,1600,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2011","Plot_1B_2011_Glebe500_06","observation","Apis mellifera","species","honeybees",3,NA,160,1600,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2011","Plot_1B_2011_Glebe500_06","observation","Apis mellifera","species","honeybees",4,NA,160,1600,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2011","Plot_1B_2011_Glebe500_06","observation","Apis mellifera","species","honeybees",7,NA,160,1600,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2011","Plot_1B_2011_Glebe500_06","observation","Apis mellifera","species","honeybees",6,NA,160,1600,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2011","Plot_1B_2011_Glebe500_06","observation","Apis mellifera","species","honeybees",4,NA,160,1600,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2011","Plot_1B_2011_Glebe500_06","observation","Apis mellifera","species","honeybees",4,NA,160,1600,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2011","Plot_1B_2011_Glebe500_06","observation","Apis mellifera","species","honeybees",4,NA,160,1600,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2011","Plot_1B_2011_Glebe500_06","observation","Apis mellifera","species","honeybees",10,NA,160,1600,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2011","Plot_1B_2011_Glebe500_06","observation","Apis mellifera","species","honeybees",5,NA,160,1600,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2011","Plot_1B_2011_Glebe500_06","observation","Apis mellifera","species","honeybees",13,NA,160,1600,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2011","Plot_1B_2011_Glebe500_06","observation","Apis mellifera","species","honeybees",5,NA,160,1600,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2011","Plot_1B_2011_Glebe500_06","observation","Apis mellifera","species","honeybees",9,NA,160,1600,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2011","Plot_2B_2011_Glebe500_06","observation","Apis mellifera","species","honeybees",12,NA,160,1600,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2011","Plot_2B_2011_Glebe500_06","observation","Apis mellifera","species","honeybees",9,NA,160,1600,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2011","Plot_2B_2011_Glebe500_06","observation","Apis mellifera","species","honeybees",7,NA,160,1600,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2011","Plot_2B_2011_Glebe500_06","observation","Apis mellifera","species","honeybees",5,NA,160,1600,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2011","Plot_2B_2011_Glebe500_06","observation","Apis mellifera","species","honeybees",4,NA,160,1600,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2011","Plot_2B_2011_Glebe500_06","observation","Apis mellifera","species","honeybees",4,NA,160,1600,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2011","Plot_2B_2011_Glebe500_06","observation","Apis mellifera","species","honeybees",4,NA,160,1600,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2011","Plot_2B_2011_Glebe500_06","observation","Apis mellifera","species","honeybees",6,NA,160,1600,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2011","Plot_2B_2011_Glebe500_06","observation","Apis mellifera","species","honeybees",2,NA,160,1600,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2011","Plot_2B_2011_Glebe500_06","observation","Apis mellifera","species","honeybees",1,NA,160,1600,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2011","Plot_2B_2011_Glebe500_06","observation","Apis mellifera","species","honeybees",4,NA,160,1600,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2011","Plot_2B_2011_Glebe500_06","observation","Apis mellifera","species","honeybees",1,NA,160,1600,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2011","Plot_2B_2011_Glebe500_06","observation","Apis mellifera","species","honeybees",1,NA,160,1600,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2011","Plot_2B_2011_Glebe500_06","observation","Apis mellifera","species","honeybees",2,NA,160,1600,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2011","Plot_2B_2011_Glebe500_06","observation","Apis mellifera","species","honeybees",4,NA,160,1600,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2011","Plot_2B_2011_Glebe500_06","observation","Apis mellifera","species","honeybees",1,NA,160,1600,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2012","Plot_1A_2012_Glebe500_05","observation","Apis mellifera","species","honeybees",1,NA,240,2400,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2012","Plot_1A_2012_Glebe500_05","observation","Apis mellifera","species","honeybees",1,NA,240,2400,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2012","Plot_1A_2012_Glebe500_05","observation","Apis mellifera","species","honeybees",1,NA,240,2400,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2012","Plot_1A_2012_Glebe500_05","observation","Apis mellifera","species","honeybees",1,NA,240,2400,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2012","Plot_1A_2012_Glebe500_05","observation","Apis mellifera","species","honeybees",4,NA,240,2400,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2012","Plot_1A_2012_Glebe500_05","observation","Apis mellifera","species","honeybees",1,NA,240,2400,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2012","Plot_1A_2012_Glebe500_05","observation","Apis mellifera","species","honeybees",4,NA,240,2400,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2012","Plot_1A_2012_Glebe500_05","observation","Apis mellifera","species","honeybees",1,NA,240,2400,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2012","Plot_1A_2012_Glebe500_05","observation","Apis mellifera","species","honeybees",1,NA,240,2400,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2012","Plot_1A_2012_Glebe500_05","observation","Apis mellifera","species","honeybees",1,NA,240,2400,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2012","Plot_1A_2012_Glebe500_05","observation","Apis mellifera","species","honeybees",1,NA,240,2400,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2012","Plot_1A_2012_Glebe500_05","observation","Apis mellifera","species","honeybees",2,NA,240,2400,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2012","Plot_1A_2012_Glebe500_05","observation","Apis mellifera","species","honeybees",2,NA,240,2400,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2012","Plot_1A_2012_Glebe500_05","observation","Apis mellifera","species","honeybees",1,NA,240,2400,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2012","Plot_1A_2012_Glebe500_05","observation","Apis mellifera","species","honeybees",2,NA,240,2400,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2012","Plot_1A_2012_Glebe500_05","observation","Apis mellifera","species","honeybees",2,NA,240,2400,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2012","Plot_1A_2012_Glebe500_05","observation","Apis mellifera","species","honeybees",1,NA,240,2400,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2012","Plot_1A_2012_Glebe500_05","observation","Apis mellifera","species","honeybees",1,NA,240,2400,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2012","Plot_1B_2012_Glebe500_05","observation","Apis mellifera","species","honeybees",2,NA,240,2400,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2012","Plot_1B_2012_Glebe500_05","observation","Apis mellifera","species","honeybees",3,NA,240,2400,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2012","Plot_1B_2012_Glebe500_05","observation","Apis mellifera","species","honeybees",6,NA,240,2400,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2012","Plot_1B_2012_Glebe500_05","observation","Apis mellifera","species","honeybees",2,NA,240,2400,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2012","Plot_1B_2012_Glebe500_05","observation","Apis mellifera","species","honeybees",3,NA,240,2400,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2012","Plot_1B_2012_Glebe500_05","observation","Apis mellifera","species","honeybees",1,NA,240,2400,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2012","Plot_1B_2012_Glebe500_05","observation","Apis mellifera","species","honeybees",3,NA,240,2400,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2012","Plot_1B_2012_Glebe500_05","observation","Apis mellifera","species","honeybees",2,NA,240,2400,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2012","Plot_1B_2012_Glebe500_05","observation","Apis mellifera","species","honeybees",1,NA,240,2400,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2012","Plot_1B_2012_Glebe500_05","observation","Apis mellifera","species","honeybees",1,NA,240,2400,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2012","Plot_1B_2012_Glebe500_05","observation","Apis mellifera","species","honeybees",1,NA,240,2400,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2012","Plot_1B_2012_Glebe500_05","observation","Apis mellifera","species","honeybees",2,NA,240,2400,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2012","Plot_1B_2012_Glebe500_05","observation","Apis mellifera","species","honeybees",1,NA,240,2400,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2012","Plot_1B_2012_Glebe500_05","observation","Apis mellifera","species","honeybees",1,NA,240,2400,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2012","Plot_1B_2012_Glebe500_05","observation","Apis mellifera","species","honeybees",2,NA,240,2400,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2012","Plot_1B_2012_Glebe500_05","observation","Apis mellifera","species","honeybees",1,NA,240,2400,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2012","Plot_1B_2012_Glebe500_05","observation","Apis mellifera","species","honeybees",1,NA,240,2400,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2012","Plot_1B_2012_Glebe500_05","observation","Apis mellifera","species","honeybees",5,NA,240,2400,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2012","Plot_1B_2012_Glebe500_05","observation","Apis mellifera","species","honeybees",5,NA,240,2400,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2012","Plot_1B_2012_Glebe500_05","observation","Apis mellifera","species","honeybees",2,NA,240,2400,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2012","Plot_1B_2012_Glebe500_05","observation","Apis mellifera","species","honeybees",5,NA,240,2400,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2012","Plot_1B_2012_Glebe500_05","observation","Apis mellifera","species","honeybees",2,NA,240,2400,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2012","Plot_1B_2012_Glebe500_05","observation","Apis mellifera","species","honeybees",1,NA,240,2400,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2012","Plot_1B_2012_Glebe500_05","observation","Apis mellifera","species","honeybees",5,NA,240,2400,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2012","Plot_1B_2012_Glebe500_05","observation","Apis mellifera","species","honeybees",2,NA,240,2400,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2012","Plot_1B_2012_Glebe500_05","observation","Apis mellifera","species","honeybees",2,NA,240,2400,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2012","Plot_1B_2012_Glebe500_05","observation","Apis mellifera","species","honeybees",3,NA,240,2400,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2012","Plot_1B_2012_Glebe500_05","observation","Apis mellifera","species","honeybees",4,NA,240,2400,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2012","Plot_1B_2012_Glebe500_05","observation","Apis mellifera","species","honeybees",1,NA,240,2400,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2012","Plot_1C_2012_Glebe500_05","observation","Apis mellifera","species","honeybees",3,NA,240,2400,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2012","Plot_1C_2012_Glebe500_05","observation","Apis mellifera","species","honeybees",2,NA,240,2400,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2012","Plot_1C_2012_Glebe500_05","observation","Apis mellifera","species","honeybees",1,NA,240,2400,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2012","Plot_1C_2012_Glebe500_05","observation","Apis mellifera","species","honeybees",3,NA,240,2400,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2012","Plot_1C_2012_Glebe500_05","observation","Apis mellifera","species","honeybees",2,NA,240,2400,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2012","Plot_1C_2012_Glebe500_05","observation","Apis mellifera","species","honeybees",3,NA,240,2400,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2012","Plot_1C_2012_Glebe500_05","observation","Apis mellifera","species","honeybees",7,NA,240,2400,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2012","Plot_1C_2012_Glebe500_05","observation","Apis mellifera","species","honeybees",1,NA,240,2400,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2012","Plot_1C_2012_Glebe500_05","observation","Apis mellifera","species","honeybees",2,NA,240,2400,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2012","Plot_1C_2012_Glebe500_05","observation","Apis mellifera","species","honeybees",2,NA,240,2400,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2012","Plot_1C_2012_Glebe500_05","observation","Apis mellifera","species","honeybees",2,NA,240,2400,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2012","Plot_1C_2012_Glebe500_05","observation","Apis mellifera","species","honeybees",2,NA,240,2400,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2012","Plot_1C_2012_Glebe500_05","observation","Apis mellifera","species","honeybees",4,NA,240,2400,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2012","Plot_1C_2012_Glebe500_05","observation","Apis mellifera","species","honeybees",3,NA,240,2400,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2012","Plot_1C_2012_Glebe500_05","observation","Apis mellifera","species","honeybees",1,NA,240,2400,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2012","Plot_1C_2012_Glebe500_05","observation","Apis mellifera","species","honeybees",6,NA,240,2400,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2012","Plot_1C_2012_Glebe500_05","observation","Apis mellifera","species","honeybees",1,NA,240,2400,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2012","Plot_1C_2012_Glebe500_05","observation","Apis mellifera","species","honeybees",2,NA,240,2400,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2012","Plot_1C_2012_Glebe500_05","observation","Apis mellifera","species","honeybees",2,NA,240,2400,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2012","Plot_1C_2012_Glebe500_05","observation","Apis mellifera","species","honeybees",1,NA,240,2400,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2012","Plot_1C_2012_Glebe500_05","observation","Apis mellifera","species","honeybees",5,NA,240,2400,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2012","Plot_1C_2012_Glebe500_05","observation","Apis mellifera","species","honeybees",9,NA,240,2400,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2012","Plot_1C_2012_Glebe500_05","observation","Apis mellifera","species","honeybees",3,NA,240,2400,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2012","Plot_1C_2012_Glebe500_05","observation","Apis mellifera","species","honeybees",2,NA,240,2400,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2012","Plot_1C_2012_Glebe500_05","observation","Apis mellifera","species","honeybees",7,NA,240,2400,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2012","Plot_3A_2012_Glebe500_05","observation","Apis mellifera","species","honeybees",1,NA,240,2400,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2012","Plot_3A_2012_Glebe500_05","observation","Apis mellifera","species","honeybees",4,NA,240,2400,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2012","Plot_3A_2012_Glebe500_05","observation","Apis mellifera","species","honeybees",3,NA,240,2400,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2012","Plot_3A_2012_Glebe500_05","observation","Apis mellifera","species","honeybees",3,NA,240,2400,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2012","Plot_3A_2012_Glebe500_05","observation","Apis mellifera","species","honeybees",1,NA,240,2400,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2012","Plot_3A_2012_Glebe500_05","observation","Apis mellifera","species","honeybees",1,NA,240,2400,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2012","Plot_3A_2012_Glebe500_05","observation","Apis mellifera","species","honeybees",2,NA,240,2400,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2012","Plot_3A_2012_Glebe500_05","observation","Apis mellifera","species","honeybees",4,NA,240,2400,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2012","Plot_3A_2012_Glebe500_05","observation","Apis mellifera","species","honeybees",2,NA,240,2400,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2012","Plot_3A_2012_Glebe500_05","observation","Apis mellifera","species","honeybees",7,NA,240,2400,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2012","Plot_3A_2012_Glebe500_05","observation","Apis mellifera","species","honeybees",1,NA,240,2400,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2012","Plot_3A_2012_Glebe500_05","observation","Apis mellifera","species","honeybees",2,NA,240,2400,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2012","Plot_3A_2012_Glebe500_05","observation","Apis mellifera","species","honeybees",4,NA,240,2400,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2012","Plot_3A_2012_Glebe500_05","observation","Apis mellifera","species","honeybees",3,NA,240,2400,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2012","Plot_3A_2012_Glebe500_05","observation","Apis mellifera","species","honeybees",3,NA,240,2400,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2012","Plot_3A_2012_Glebe500_05","observation","Apis mellifera","species","honeybees",2,NA,240,2400,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2012","Plot_3A_2012_Glebe500_05","observation","Apis mellifera","species","honeybees",2,NA,240,2400,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2012","Plot_3A_2012_Glebe500_05","observation","Apis mellifera","species","honeybees",5,NA,240,2400,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2012","Plot_3A_2012_Glebe500_05","observation","Apis mellifera","species","honeybees",2,NA,240,2400,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2012","Plot_3A_2012_Glebe500_05","observation","Apis mellifera","species","honeybees",2,NA,240,2400,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2012","Plot_3A_2012_Glebe500_05","observation","Apis mellifera","species","honeybees",4,NA,240,2400,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2012","Plot_3A_2012_Glebe500_05","observation","Apis mellifera","species","honeybees",2,NA,240,2400,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2012","Plot_3A_2012_Glebe500_05","observation","Apis mellifera","species","honeybees",2,NA,240,2400,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2012","Plot_3A_2012_Glebe500_05","observation","Apis mellifera","species","honeybees",4,NA,240,2400,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2012","Plot_3A_2012_Glebe500_05","observation","Apis mellifera","species","honeybees",1,NA,240,2400,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2012","Plot_3A_2012_Glebe500_05","observation","Apis mellifera","species","honeybees",1,NA,240,2400,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2012","Plot_3A_2012_Glebe500_05","observation","Apis mellifera","species","honeybees",2,NA,240,2400,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2012","Plot_3A_2012_Glebe500_05","observation","Apis mellifera","species","honeybees",2,NA,240,2400,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2012","Plot_3A_2012_Glebe500_05","observation","Apis mellifera","species","honeybees",2,NA,240,2400,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2012","Plot_3A_2012_Glebe500_05","observation","Apis mellifera","species","honeybees",2,NA,240,2400,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2012","Plot_3A_2012_Glebe500_05","observation","Apis mellifera","species","honeybees",2,NA,240,2400,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2012","Plot_3A_2012_Glebe500_05","observation","Apis mellifera","species","honeybees",2,NA,240,2400,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2012","Plot_3A_2012_Glebe500_05","observation","Apis mellifera","species","honeybees",1,NA,240,2400,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2012","Plot_3A_2012_Glebe500_05","observation","Apis mellifera","species","honeybees",2,NA,240,2400,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2012","Plot_3A_2012_Glebe500_05","observation","Apis mellifera","species","honeybees",1,NA,240,2400,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2012","Plot_3A_2012_Glebe500_05","observation","Apis mellifera","species","honeybees",2,NA,240,2400,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2012","Plot_3B_2012_Glebe500_05","observation","Apis mellifera","species","honeybees",2,NA,320,3200,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2012","Plot_3B_2012_Glebe500_05","observation","Apis mellifera","species","honeybees",3,NA,320,3200,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2012","Plot_3B_2012_Glebe500_05","observation","Apis mellifera","species","honeybees",4,NA,320,3200,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2012","Plot_3B_2012_Glebe500_05","observation","Apis mellifera","species","honeybees",1,NA,320,3200,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2012","Plot_3B_2012_Glebe500_05","observation","Apis mellifera","species","honeybees",1,NA,320,3200,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2012","Plot_3B_2012_Glebe500_05","observation","Apis mellifera","species","honeybees",1,NA,320,3200,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2012","Plot_3B_2012_Glebe500_05","observation","Apis mellifera","species","honeybees",1,NA,320,3200,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2012","Plot_3B_2012_Glebe500_05","observation","Apis mellifera","species","honeybees",1,NA,320,3200,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2012","Plot_3B_2012_Glebe500_05","observation","Apis mellifera","species","honeybees",1,NA,320,3200,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2012","Plot_3B_2012_Glebe500_05","observation","Apis mellifera","species","honeybees",3,NA,320,3200,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2012","Plot_3B_2012_Glebe500_05","observation","Apis mellifera","species","honeybees",3,NA,320,3200,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2012","Plot_3B_2012_Glebe500_05","observation","Apis mellifera","species","honeybees",2,NA,320,3200,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2012","Plot_3B_2012_Glebe500_05","observation","Apis mellifera","species","honeybees",4,NA,320,3200,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2012","Plot_3B_2012_Glebe500_05","observation","Apis mellifera","species","honeybees",6,NA,320,3200,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2012","Plot_3B_2012_Glebe500_05","observation","Apis mellifera","species","honeybees",1,NA,320,3200,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2012","Plot_3B_2012_Glebe500_05","observation","Apis mellifera","species","honeybees",2,NA,320,3200,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2012","Plot_3B_2012_Glebe500_05","observation","Apis mellifera","species","honeybees",6,NA,320,3200,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2012","Plot_3B_2012_Glebe500_05","observation","Apis mellifera","species","honeybees",1,NA,320,3200,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2012","Plot_3B_2012_Glebe500_05","observation","Apis mellifera","species","honeybees",2,NA,320,3200,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2012","Plot_3B_2012_Glebe500_05","observation","Apis mellifera","species","honeybees",2,NA,320,3200,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2012","Plot_3B_2012_Glebe500_05","observation","Apis mellifera","species","honeybees",4,NA,320,3200,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2012","Plot_3B_2012_Glebe500_05","observation","Apis mellifera","species","honeybees",3,NA,320,3200,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2012","Plot_3B_2012_Glebe500_05","observation","Apis mellifera","species","honeybees",1,NA,320,3200,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2012","Plot_3B_2012_Glebe500_05","observation","Apis mellifera","species","honeybees",4,NA,320,3200,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2012","Plot_3B_2012_Glebe500_05","observation","Apis mellifera","species","honeybees",2,NA,320,3200,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2012","Plot_3B_2012_Glebe500_05","observation","Apis mellifera","species","honeybees",2,NA,320,3200,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2012","Plot_3B_2012_Glebe500_05","observation","Apis mellifera","species","honeybees",1,NA,320,3200,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2012","Plot_3B_2012_Glebe500_05","observation","Apis mellifera","species","honeybees",2,NA,320,3200,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2012","Plot_3B_2012_Glebe500_05","observation","Apis mellifera","species","honeybees",5,NA,320,3200,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2012","Plot_3B_2012_Glebe500_05","observation","Apis mellifera","species","honeybees",1,NA,320,3200,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2012","Plot_3B_2012_Glebe500_05","observation","Apis mellifera","species","honeybees",2,NA,320,3200,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2012","Plot_3B_2012_Glebe500_05","observation","Apis mellifera","species","honeybees",2,NA,320,3200,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2012","Plot_3B_2012_Glebe500_05","observation","Apis mellifera","species","honeybees",1,NA,320,3200,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2012","Plot_3B_2012_Glebe500_05","observation","Apis mellifera","species","honeybees",2,NA,320,3200,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2012","Plot_3B_2012_Glebe500_05","observation","Apis mellifera","species","honeybees",3,NA,320,3200,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2012","Plot_3B_2012_Glebe500_05","observation","Apis mellifera","species","honeybees",2,NA,320,3200,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2012","Plot_3B_2012_Glebe500_05","observation","Apis mellifera","species","honeybees",1,NA,320,3200,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2012","Plot_3B_2012_Glebe500_05","observation","Apis mellifera","species","honeybees",3,NA,320,3200,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2012","Plot_3B_2012_Glebe500_05","observation","Apis mellifera","species","honeybees",1,NA,320,3200,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2012","Plot_3B_2012_Glebe500_05","observation","Apis mellifera","species","honeybees",2,NA,320,3200,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2012","Plot_3B_2012_Glebe500_05","observation","Apis mellifera","species","honeybees",1,NA,320,3200,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2012","Plot_3B_2012_Glebe500_05","observation","Apis mellifera","species","honeybees",3,NA,320,3200,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2012","Plot_3B_2012_Glebe500_05","observation","Apis mellifera","species","honeybees",1,NA,320,3200,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2012","Plot_4C_2012_Glebe500_05","observation","Apis mellifera","species","honeybees",1,NA,280,2800,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2012","Plot_4C_2012_Glebe500_05","observation","Apis mellifera","species","honeybees",5,NA,280,2800,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2012","Plot_4C_2012_Glebe500_05","observation","Apis mellifera","species","honeybees",2,NA,280,2800,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2012","Plot_4C_2012_Glebe500_05","observation","Apis mellifera","species","honeybees",1,NA,280,2800,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2012","Plot_4C_2012_Glebe500_05","observation","Apis mellifera","species","honeybees",2,NA,280,2800,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2012","Plot_4C_2012_Glebe500_05","observation","Apis mellifera","species","honeybees",2,NA,280,2800,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2012","Plot_4C_2012_Glebe500_05","observation","Apis mellifera","species","honeybees",3,NA,280,2800,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2012","Plot_4C_2012_Glebe500_05","observation","Apis mellifera","species","honeybees",1,NA,280,2800,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2012","Plot_4C_2012_Glebe500_05","observation","Apis mellifera","species","honeybees",2,NA,280,2800,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2012","Plot_4C_2012_Glebe500_05","observation","Apis mellifera","species","honeybees",1,NA,280,2800,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2012","Plot_4C_2012_Glebe500_05","observation","Apis mellifera","species","honeybees",2,NA,280,2800,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2012","Plot_4C_2012_Glebe500_05","observation","Apis mellifera","species","honeybees",3,NA,280,2800,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2012","Plot_4C_2012_Glebe500_05","observation","Apis mellifera","species","honeybees",1,NA,280,2800,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2012","Plot_4C_2012_Glebe500_05","observation","Apis mellifera","species","honeybees",4,NA,280,2800,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2012","Plot_4C_2012_Glebe500_05","observation","Apis mellifera","species","honeybees",1,NA,280,2800,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2012","Plot_4C_2012_Glebe500_05","observation","Apis mellifera","species","honeybees",2,NA,280,2800,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2012","Plot_4C_2012_Glebe500_05","observation","Apis mellifera","species","honeybees",1,NA,280,2800,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2012","Plot_4C_2012_Glebe500_05","observation","Apis mellifera","species","honeybees",1,NA,280,2800,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2012","Plot_4C_2012_Glebe500_05","observation","Apis mellifera","species","honeybees",5,NA,280,2800,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2012","Plot_4C_2012_Glebe500_05","observation","Apis mellifera","species","honeybees",2,NA,280,2800,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2012","Plot_4C_2012_Glebe500_05","observation","Apis mellifera","species","honeybees",4,NA,280,2800,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2012","Plot_4C_2012_Glebe500_05","observation","Apis mellifera","species","honeybees",7,NA,280,2800,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2012","Plot_4C_2012_Glebe500_05","observation","Apis mellifera","species","honeybees",6,NA,280,2800,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2012","Plot_4C_2012_Glebe500_05","observation","Apis mellifera","species","honeybees",5,NA,280,2800,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2012","Plot_4C_2012_Glebe500_05","observation","Apis mellifera","species","honeybees",3,NA,280,2800,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2012","Plot_4C_2012_Glebe500_05","observation","Apis mellifera","species","honeybees",2,NA,280,2800,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2012","Plot_4C_2012_Glebe500_05","observation","Apis mellifera","species","honeybees",2,NA,280,2800,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2012","Plot_4C_2012_Glebe500_05","observation","Apis mellifera","species","honeybees",2,NA,280,2800,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2012","Plot_4C_2012_Glebe500_05","observation","Apis mellifera","species","honeybees",4,NA,280,2800,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2012","Plot_4C_2012_Glebe500_05","observation","Apis mellifera","species","honeybees",1,NA,280,2800,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2012","Plot_4C_2012_Glebe500_05","observation","Apis mellifera","species","honeybees",2,NA,280,2800,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2012","Plot_4C_2012_Glebe500_05","observation","Apis mellifera","species","honeybees",5,NA,280,2800,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2012","Plot_4C_2012_Glebe500_05","observation","Apis mellifera","species","honeybees",3,NA,280,2800,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2012","Plot_4C_2012_Glebe500_05","observation","Apis mellifera","species","honeybees",2,NA,280,2800,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2012","Plot_4C_2012_Glebe500_05","observation","Apis mellifera","species","honeybees",2,NA,280,2800,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2012","Plot_4C_2012_Glebe500_05","observation","Apis mellifera","species","honeybees",2,NA,280,2800,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2012","Plot_4C_2012_Glebe500_05","observation","Apis mellifera","species","honeybees",4,NA,280,2800,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2012","Plot_4C_2012_Glebe500_05","observation","Apis mellifera","species","honeybees",1,NA,280,2800,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2012","Plot_4C_2012_Glebe500_05","observation","Apis mellifera","species","honeybees",2,NA,280,2800,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2012","Plot_1B_2012_Glebe500_05","observation","Geotrigona subterranea","species","other_wild_bees",1,NA,240,2400,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2012","Plot_1B_2012_Glebe500_05","observation","Geotrigona subterranea","species","other_wild_bees",1,NA,240,2400,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2012","Plot_1B_2012_Glebe500_05","observation","Geotrigona subterranea","species","other_wild_bees",1,NA,240,2400,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Fabiana_Oliveira_da_Silva_Malus_domestica_Brazil_2012","Plot_1B_2012_Glebe500_05","observation","Melipona quadrifasciata anthidioides","species","other_wild_bees",1,NA,240,2400,"In each orchad, visitors of four pairs of trees were observed for five minutes each, for a total of 20 minutes of sampling. Sampling was further repeated on at least two dates",NA
"Finbarr_G_Horgan_Abelmoschus_esculentus_Philippines_2015","Iloilo_wet","Plant observations","Xylocopa sp 1","morphospecies","other_wild_bees",3,9.85,60,NA,"Sampled during at 30 and 60 days after planting, 5 patches were assessed at each sampling for 6 mins",NA
"Finbarr_G_Horgan_Abelmoschus_esculentus_Philippines_2015","Bukidnon02_wet","Plant observations","Lasioglossum albescens","species","other_wild_bees",2,4.65,60,NA,"Sampled during at 30 and 60 days after planting, 5 patches were assessed at each sampling for 6 mins",NA
"Finbarr_G_Horgan_Abelmoschus_esculentus_Philippines_2015","Bukidnon02_dry","Plant observations","Amegilla zonata","species","other_wild_bees",1,3.75,60,NA,"Sampled during at 30 and 60 days after planting, 5 patches were assessed at each sampling for 6 mins",NA
"Finbarr_G_Horgan_Abelmoschus_esculentus_Philippines_2015","Iloilo_wet","Plant observations","Lasioglossum sp4","morphospecies","other_wild_bees",3,9.85,60,NA,"Sampled during at 30 and 60 days after planting, 5 patches were assessed at each sampling for 6 mins",NA
"Finbarr_G_Horgan_Abelmoschus_esculentus_Philippines_2015","IRRI500_wet","Plant observations","Lasioglossum sp4","morphospecies","other_wild_bees",1,11.25,60,NA,"Sampled during at 30 and 60 days after planting, 5 patches were assessed at each sampling for 6 mins",NA
"Finbarr_G_Horgan_Abelmoschus_esculentus_Philippines_2015","Bukidnon02_dry","Plant observations","Appias sp 1","morphospecies","lepidoptera",1,3.75,60,NA,"Sampled during at 30 and 60 days after planting, 5 patches were assessed at each sampling for 6 mins",NA
"Finbarr_G_Horgan_Abelmoschus_esculentus_Philippines_2015","IRRI700_dry","Plant observations","Appias sp 1","morphospecies","lepidoptera",1,3.75,60,NA,"Sampled during at 30 and 60 days after planting, 5 patches were assessed at each sampling for 6 mins",NA
"Finbarr_G_Horgan_Abelmoschus_esculentus_Philippines_2015","Tanay_wet","Plant observations","Appias sp 1","morphospecies","lepidoptera",1,9.85,60,NA,"Sampled during at 30 and 60 days after planting, 5 patches were assessed at each sampling for 6 mins",NA
"Finbarr_G_Horgan_Abelmoschus_esculentus_Philippines_2015","Bukidnon01_wet","Plant observations","Eurema hecabe","species","lepidoptera",1,11.25,60,NA,"Sampled during at 30 and 60 days after planting, 5 patches were assessed at each sampling for 6 mins",NA
"Finbarr_G_Horgan_Abelmoschus_esculentus_Philippines_2015","Bukidnon02_dry","Plant observations","Eurema hecabe","species","lepidoptera",1,3.75,60,NA,"Sampled during at 30 and 60 days after planting, 5 patches were assessed at each sampling for 6 mins",NA
"Finbarr_G_Horgan_Abelmoschus_esculentus_Philippines_2015","IRRI700_wet","Plant observations","Eurema hecabe","species","lepidoptera",1,4.65,60,NA,"Sampled during at 30 and 60 days after planting, 5 patches were assessed at each sampling for 6 mins",NA
"Finbarr_G_Horgan_Abelmoschus_esculentus_Philippines_2015","Tanay_wet","Plant observations","Eurema hecabe","species","lepidoptera",1,9.85,60,NA,"Sampled during at 30 and 60 days after planting, 5 patches were assessed at each sampling for 6 mins",NA
"Finbarr_G_Horgan_Abelmoschus_esculentus_Philippines_2015","Bukidnon01_dry","Plant observations","Catochrysops sp 2","morphospecies","lepidoptera",3,12.7,60,NA,"Sampled during at 30 and 60 days after planting, 5 patches were assessed at each sampling for 6 mins",NA
"Finbarr_G_Horgan_Abelmoschus_esculentus_Philippines_2015","Bukidnon02_wet","Plant observations","Catochrysops sp 2","morphospecies","lepidoptera",2,4.65,60,NA,"Sampled during at 30 and 60 days after planting, 5 patches were assessed at each sampling for 6 mins",NA
"Finbarr_G_Horgan_Abelmoschus_esculentus_Philippines_2015","Iloilo_dry","Plant observations","Catochrysops sp 2","morphospecies","lepidoptera",2,4.65,60,NA,"Sampled during at 30 and 60 days after planting, 5 patches were assessed at each sampling for 6 mins",NA
"Finbarr_G_Horgan_Abelmoschus_esculentus_Philippines_2015","Tanay_dry","Plant observations","Catochrysops sp 2","morphospecies","lepidoptera",2,4.65,60,NA,"Sampled during at 30 and 60 days after planting, 5 patches were assessed at each sampling for 6 mins",NA
"Finbarr_G_Horgan_Abelmoschus_esculentus_Philippines_2015","Tanay_wet","Plant observations","Satyridae (sp 1)","morphospecies","lepidoptera",1,9.85,60,NA,"Sampled during at 30 and 60 days after planting, 5 patches were assessed at each sampling for 6 mins",NA
"Finbarr_G_Horgan_Abelmoschus_esculentus_Philippines_2015","IRRI700_wet","Plant observations","Parnara guttata","species","lepidoptera",1,4.65,60,NA,"Sampled during at 30 and 60 days after planting, 5 patches were assessed at each sampling for 6 mins",NA
"Finbarr_G_Horgan_Abelmoschus_esculentus_Philippines_2015","Tanay_wet","Plant observations","Parnara guttata","species","lepidoptera",1,9.85,60,NA,"Sampled during at 30 and 60 days after planting, 5 patches were assessed at each sampling for 6 mins",NA
"Finbarr_G_Horgan_Cucumis_sativus_Philippines_2015","Bukidnon01_dry","Plant observations","Apis cercana","species","honeybees",4,12.7,60,NA,"Sampled during at 30 and 60 days after planting, 5 patches were assessed at each sampling for 6 mins",NA
"Finbarr_G_Horgan_Cucumis_sativus_Philippines_2015","Iloilo_wet","Plant observations","Xylocopa nr. latipes","species","other_wild_bees",1,9.85,60,NA,"Sampled during at 30 and 60 days after planting, 5 patches were assessed at each sampling for 6 mins",NA
"Finbarr_G_Horgan_Cucumis_sativus_Philippines_2015","Tanay_dry","Plant observations","Xylocopa sp 1","morphospecies","other_wild_bees",4,4.65,60,NA,"Sampled during at 30 and 60 days after planting, 5 patches were assessed at each sampling for 6 mins",NA
"Finbarr_G_Horgan_Cucumis_sativus_Philippines_2015","Tanay_dry","Plant observations","Trigona clypearis","species","other_wild_bees",6,4.65,60,NA,"Sampled during at 30 and 60 days after planting, 5 patches were assessed at each sampling for 6 mins",NA
"Finbarr_G_Horgan_Cucumis_sativus_Philippines_2015","Bukidnon01_wet","Plant observations","Lasioglossum albescens","species","other_wild_bees",1,11.25,60,NA,"Sampled during at 30 and 60 days after planting, 5 patches were assessed at each sampling for 6 mins",NA
"Finbarr_G_Horgan_Cucumis_sativus_Philippines_2015","Iloilo_wet","Plant observations","Lasioglossum albescens","species","other_wild_bees",1,9.85,60,NA,"Sampled during at 30 and 60 days after planting, 5 patches were assessed at each sampling for 6 mins",NA
"Finbarr_G_Horgan_Cucumis_sativus_Philippines_2015","Tanay_wet","Plant observations","Lasioglossum albescens","species","other_wild_bees",1,9.85,60,NA,"Sampled during at 30 and 60 days after planting, 5 patches were assessed at each sampling for 6 mins",NA
"Finbarr_G_Horgan_Cucumis_sativus_Philippines_2015","Bukidnon01_dry","Plant observations","Amegilla zonata","species","other_wild_bees",4,12.7,60,NA,"Sampled during at 30 and 60 days after planting, 5 patches were assessed at each sampling for 6 mins",NA
"Finbarr_G_Horgan_Cucumis_sativus_Philippines_2015","Bukidnon01_wet","Plant observations","Amegilla zonata","species","other_wild_bees",3,11.25,60,NA,"Sampled during at 30 and 60 days after planting, 5 patches were assessed at each sampling for 6 mins",NA
"Finbarr_G_Horgan_Cucumis_sativus_Philippines_2015","Bukidnon02_dry","Plant observations","Amegilla zonata","species","other_wild_bees",2,3.75,60,NA,"Sampled during at 30 and 60 days after planting, 5 patches were assessed at each sampling for 6 mins",NA
"Finbarr_G_Horgan_Cucumis_sativus_Philippines_2015","Iloilo_wet","Plant observations","Amegilla zonata","species","other_wild_bees",1,9.85,60,NA,"Sampled during at 30 and 60 days after planting, 5 patches were assessed at each sampling for 6 mins",NA
"Finbarr_G_Horgan_Cucumis_sativus_Philippines_2015","IRRI700_wet","Plant observations","Amegilla zonata","species","other_wild_bees",2,4.65,60,NA,"Sampled during at 30 and 60 days after planting, 5 patches were assessed at each sampling for 6 mins",NA
"Finbarr_G_Horgan_Cucumis_sativus_Philippines_2015","Tanay_wet","Plant observations","Amegilla zonata","species","other_wild_bees",3,9.85,60,NA,"Sampled during at 30 and 60 days after planting, 5 patches were assessed at each sampling for 6 mins",NA
"Finbarr_G_Horgan_Cucumis_sativus_Philippines_2015","Bukidnon01_wet","Plant observations","Lasioglossum sp4","morphospecies","other_wild_bees",1,11.25,60,NA,"Sampled during at 30 and 60 days after planting, 5 patches were assessed at each sampling for 6 mins",NA
"Finbarr_G_Horgan_Cucumis_sativus_Philippines_2015","Bukidnon02_wet","Plant observations","Lasioglossum sp4","morphospecies","other_wild_bees",1,4.65,60,NA,"Sampled during at 30 and 60 days after planting, 5 patches were assessed at each sampling for 6 mins",NA
"Finbarr_G_Horgan_Cucumis_sativus_Philippines_2015","Tanay_wet","Plant observations","Lasioglossum sp4","morphospecies","other_wild_bees",1,9.85,60,NA,"Sampled during at 30 and 60 days after planting, 5 patches were assessed at each sampling for 6 mins",NA
"Finbarr_G_Horgan_Cucumis_sativus_Philippines_2015","Bukidnon01_dry","Plant observations","Lasioglossum sp 5","morphospecies","other_wild_bees",17,12.7,60,NA,"Sampled during at 30 and 60 days after planting, 5 patches were assessed at each sampling for 6 mins",NA
"Finbarr_G_Horgan_Cucumis_sativus_Philippines_2015","Bukidnon02_dry","Plant observations","Lasioglossum sp 5","morphospecies","other_wild_bees",3,3.75,60,NA,"Sampled during at 30 and 60 days after planting, 5 patches were assessed at each sampling for 6 mins",NA
"Finbarr_G_Horgan_Cucumis_sativus_Philippines_2015","Tanay_dry","Plant observations","Lasioglossum sp 6","morphospecies","other_wild_bees",8,4.65,60,NA,"Sampled during at 30 and 60 days after planting, 5 patches were assessed at each sampling for 6 mins",NA
"Finbarr_G_Horgan_Cucumis_sativus_Philippines_2015","Tanay_dry","Plant observations","Catochrysops sp 1","morphospecies","lepidoptera",1,4.65,60,NA,"Sampled during at 30 and 60 days after planting, 5 patches were assessed at each sampling for 6 mins",NA
"Finbarr_G_Horgan_Cucumis_sativus_Philippines_2015","Bukidnon01_dry","Plant observations","Appias sp 1","morphospecies","lepidoptera",1,12.7,60,NA,"Sampled during at 30 and 60 days after planting, 5 patches were assessed at each sampling for 6 mins",NA
"Finbarr_G_Horgan_Cucumis_sativus_Philippines_2015","Bukidnon01_wet","Plant observations","Appias sp 1","morphospecies","lepidoptera",1,11.25,60,NA,"Sampled during at 30 and 60 days after planting, 5 patches were assessed at each sampling for 6 mins",NA
"Finbarr_G_Horgan_Cucumis_sativus_Philippines_2015","IRRI500_wet","Plant observations","Appias sp 1","morphospecies","lepidoptera",1,11.25,60,NA,"Sampled during at 30 and 60 days after planting, 5 patches were assessed at each sampling for 6 mins",NA
"Finbarr_G_Horgan_Cucumis_sativus_Philippines_2015","Bukidnon02_dry","Plant observations","Eurema hecabe","species","lepidoptera",1,3.75,60,NA,"Sampled during at 30 and 60 days after planting, 5 patches were assessed at each sampling for 6 mins",NA
"Finbarr_G_Horgan_Cucumis_sativus_Philippines_2015","IRRI700_dry","Plant observations","Eurema hecabe","species","lepidoptera",3,3.75,60,NA,"Sampled during at 30 and 60 days after planting, 5 patches were assessed at each sampling for 6 mins",NA
"Finbarr_G_Horgan_Cucumis_sativus_Philippines_2015","IRRI700_wet","Plant observations","Eurema hecabe","species","lepidoptera",2,4.65,60,NA,"Sampled during at 30 and 60 days after planting, 5 patches were assessed at each sampling for 6 mins",NA
"Finbarr_G_Horgan_Cucumis_sativus_Philippines_2015","Bukidnon01_wet","Plant observations","Catochrysops sp 2","morphospecies","lepidoptera",1,11.25,60,NA,"Sampled during at 30 and 60 days after planting, 5 patches were assessed at each sampling for 6 mins",NA
"Finbarr_G_Horgan_Cucumis_sativus_Philippines_2015","Bukidnon02_wet","Plant observations","Catochrysops sp 2","morphospecies","lepidoptera",1,4.65,60,NA,"Sampled during at 30 and 60 days after planting, 5 patches were assessed at each sampling for 6 mins",NA
"Finbarr_G_Horgan_Cucumis_sativus_Philippines_2015","Iloilo_dry","Plant observations","Catochrysops sp 2","morphospecies","lepidoptera",1,4.65,60,NA,"Sampled during at 30 and 60 days after planting, 5 patches were assessed at each sampling for 6 mins",NA
"Finbarr_G_Horgan_Cucumis_sativus_Philippines_2015","Tanay_dry","Plant observations","Catochrysops sp 2","morphospecies","lepidoptera",3,4.65,60,NA,"Sampled during at 30 and 60 days after planting, 5 patches were assessed at each sampling for 6 mins",NA
"Finbarr_G_Horgan_Cucumis_sativus_Philippines_2015","Tanay_wet","Plant observations","Satyridae (sp 1)","morphospecies","lepidoptera",5,9.85,60,NA,"Sampled during at 30 and 60 days after planting, 5 patches were assessed at each sampling for 6 mins",NA
"Finbarr_G_Horgan_Cucumis_sativus_Philippines_2015","Bukidnon02_wet","Plant observations","Parnara guttata","species","lepidoptera",1,4.65,60,NA,"Sampled during at 30 and 60 days after planting, 5 patches were assessed at each sampling for 6 mins",NA
"Finbarr_G_Horgan_Cucumis_sativus_Philippines_2015","Iloilo_wet","Plant observations","Parnara guttata","species","lepidoptera",6,9.85,60,NA,"Sampled during at 30 and 60 days after planting, 5 patches were assessed at each sampling for 6 mins",NA
"Finbarr_G_Horgan_Cucumis_sativus_Philippines_2015","IRRI700_wet","Plant observations","Parnara guttata","species","lepidoptera",1,4.65,60,NA,"Sampled during at 30 and 60 days after planting, 5 patches were assessed at each sampling for 6 mins",NA
"Finbarr_G_Horgan_Lagenaria_siceraria_Philippines_2015","Tanay_dry","Plant observations","Apis cercana","species","honeybees",2,4.65,60,NA,"Sampled during at 30 and 60 days after planting, 5 patches were assessed at each sampling for 6 mins",NA
"Finbarr_G_Horgan_Lagenaria_siceraria_Philippines_2015","Iloilo_wet","Plant observations","Xylocopa nr. latipes","species","other_wild_bees",2,9.85,60,NA,"Sampled during at 30 and 60 days after planting, 5 patches were assessed at each sampling for 6 mins",NA
"Finbarr_G_Horgan_Lagenaria_siceraria_Philippines_2015","Tanay_dry","Plant observations","Xylocopa nr. latipes","species","other_wild_bees",1,4.65,60,NA,"Sampled during at 30 and 60 days after planting, 5 patches were assessed at each sampling for 6 mins",NA
"Finbarr_G_Horgan_Lagenaria_siceraria_Philippines_2015","Bukidnon01_wet","Plant observations","Amegilla zonata","species","other_wild_bees",1,11.25,60,NA,"Sampled during at 30 and 60 days after planting, 5 patches were assessed at each sampling for 6 mins",NA
"Finbarr_G_Horgan_Lagenaria_siceraria_Philippines_2015","Bukidnon02_wet","Plant observations","Amegilla zonata","species","other_wild_bees",1,4.65,60,NA,"Sampled during at 30 and 60 days after planting, 5 patches were assessed at each sampling for 6 mins",NA
"Finbarr_G_Horgan_Lagenaria_siceraria_Philippines_2015","IRRI500_wet","Plant observations","Amegilla zonata","species","other_wild_bees",1,11.25,60,NA,"Sampled during at 30 and 60 days after planting, 5 patches were assessed at each sampling for 6 mins",NA
"Finbarr_G_Horgan_Lagenaria_siceraria_Philippines_2015","Bukidnon01_wet","Plant observations","Lasioglossum sp4","morphospecies","other_wild_bees",1,11.25,60,NA,"Sampled during at 30 and 60 days after planting, 5 patches were assessed at each sampling for 6 mins",NA
"Finbarr_G_Horgan_Lagenaria_siceraria_Philippines_2015","Tanay_dry","Plant observations","Lasioglossum sp4","morphospecies","other_wild_bees",2,4.65,60,NA,"Sampled during at 30 and 60 days after planting, 5 patches were assessed at each sampling for 6 mins",NA
"Finbarr_G_Horgan_Lagenaria_siceraria_Philippines_2015","Bukidnon01_wet","Plant observations","Eurema hecabe","species","lepidoptera",1,11.25,60,NA,"Sampled during at 30 and 60 days after planting, 5 patches were assessed at each sampling for 6 mins",NA
"Finbarr_G_Horgan_Lagenaria_siceraria_Philippines_2015","Bukidnon02_dry","Plant observations","Eurema hecabe","species","lepidoptera",1,3.75,60,NA,"Sampled during at 30 and 60 days after planting, 5 patches were assessed at each sampling for 6 mins",NA
"Finbarr_G_Horgan_Lagenaria_siceraria_Philippines_2015","Bukidnon02_wet","Plant observations","Eurema hecabe","species","lepidoptera",1,4.65,60,NA,"Sampled during at 30 and 60 days after planting, 5 patches were assessed at each sampling for 6 mins",NA
"Finbarr_G_Horgan_Lagenaria_siceraria_Philippines_2015","IRRI700_wet","Plant observations","Eurema hecabe","species","lepidoptera",1,4.65,60,NA,"Sampled during at 30 and 60 days after planting, 5 patches were assessed at each sampling for 6 mins",NA
"Finbarr_G_Horgan_Lagenaria_siceraria_Philippines_2015","Iloilo_wet","Plant observations","Catochrysops sp 2","morphospecies","lepidoptera",1,9.85,60,NA,"Sampled during at 30 and 60 days after planting, 5 patches were assessed at each sampling for 6 mins",NA
"Finbarr_G_Horgan_Lagenaria_siceraria_Philippines_2015","IRRI500_dry","Plant observations","Catochrysops sp 2","morphospecies","lepidoptera",1,12.7,60,NA,"Sampled during at 30 and 60 days after planting, 5 patches were assessed at each sampling for 6 mins",NA
"Finbarr_G_Horgan_Lagenaria_siceraria_Philippines_2015","IRRI500_wet","Plant observations","Catochrysops sp 2","morphospecies","lepidoptera",1,11.25,60,NA,"Sampled during at 30 and 60 days after planting, 5 patches were assessed at each sampling for 6 mins",NA
"Finbarr_G_Horgan_Lagenaria_siceraria_Philippines_2015","IRRI700_dry","Plant observations","Catochrysops sp 2","morphospecies","lepidoptera",8,3.75,60,NA,"Sampled during at 30 and 60 days after planting, 5 patches were assessed at each sampling for 6 mins",NA
"Finbarr_G_Horgan_Lagenaria_siceraria_Philippines_2015","IRRI700_wet","Plant observations","Catochrysops sp 2","morphospecies","lepidoptera",1,4.65,60,NA,"Sampled during at 30 and 60 days after planting, 5 patches were assessed at each sampling for 6 mins",NA
"Finbarr_G_Horgan_Lagenaria_siceraria_Philippines_2015","Tanay_dry","Plant observations","Catochrysops sp 2","morphospecies","lepidoptera",2,4.65,60,NA,"Sampled during at 30 and 60 days after planting, 5 patches were assessed at each sampling for 6 mins",NA
"Finbarr_G_Horgan_Lagenaria_siceraria_Philippines_2015","Tanay_wet","Plant observations","Catochrysops sp 2","morphospecies","lepidoptera",1,9.85,60,NA,"Sampled during at 30 and 60 days after planting, 5 patches were assessed at each sampling for 6 mins",NA
"Finbarr_G_Horgan_Lagenaria_siceraria_Philippines_2015","IRRI700_wet","Plant observations","Potanthus lydia lydia","species","lepidoptera",1,4.65,60,NA,"Sampled during at 30 and 60 days after planting, 5 patches were assessed at each sampling for 6 mins",NA
"Finbarr_G_Horgan_Lagenaria_siceraria_Philippines_2015","Bukidnon01_dry","Plant observations","Noctuidae (sp 1)","morphospecies","lepidoptera",2,12.7,60,NA,"Sampled during at 30 and 60 days after planting, 5 patches were assessed at each sampling for 6 mins",NA
"Finbarr_G_Horgan_Lagenaria_siceraria_Philippines_2015","Bukidnon01_dry","Plant observations","Noctuidae (sp 2)","morphospecies","lepidoptera",2,12.7,60,NA,"Sampled during at 30 and 60 days after planting, 5 patches were assessed at each sampling for 6 mins",NA
"Finbarr_G_Horgan_Lagenaria_siceraria_Philippines_2015","IRRI500_wet","Plant observations","Sphingidae (sp 1)","morphospecies","lepidoptera",3,11.25,60,NA,"Sampled during at 30 and 60 days after planting, 5 patches were assessed at each sampling for 6 mins",NA
"Finbarr_G_Horgan_Luffa_acutangula_Philippines_2015","Bukidnon01_dry","Plant observations","Apis cercana","species","honeybees",9,12.7,60,NA,"Sampled during at 30 and 60 days after planting, 5 patches were assessed at each sampling for 6 mins",NA
"Finbarr_G_Horgan_Luffa_acutangula_Philippines_2015","Bukidnon02_dry","Plant observations","Apis cercana","species","honeybees",15,3.75,60,NA,"Sampled during at 30 and 60 days after planting, 5 patches were assessed at each sampling for 6 mins",NA
"Finbarr_G_Horgan_Luffa_acutangula_Philippines_2015","Tanay_dry","Plant observations","Apis cercana","species","honeybees",4,4.65,60,NA,"Sampled during at 30 and 60 days after planting, 5 patches were assessed at each sampling for 6 mins",NA
"Finbarr_G_Horgan_Luffa_acutangula_Philippines_2015","Bukidnon01_dry","Plant observations","Xylocopa nr. latipes","species","other_wild_bees",1,12.7,60,NA,"Sampled during at 30 and 60 days after planting, 5 patches were assessed at each sampling for 6 mins",NA
"Finbarr_G_Horgan_Luffa_acutangula_Philippines_2015","Bukidnon01_wet","Plant observations","Xylocopa nr. latipes","species","other_wild_bees",10,11.25,60,NA,"Sampled during at 30 and 60 days after planting, 5 patches were assessed at each sampling for 6 mins",NA
"Finbarr_G_Horgan_Luffa_acutangula_Philippines_2015","Bukidnon02_dry","Plant observations","Xylocopa nr. latipes","species","other_wild_bees",2,3.75,60,NA,"Sampled during at 30 and 60 days after planting, 5 patches were assessed at each sampling for 6 mins",NA
"Finbarr_G_Horgan_Luffa_acutangula_Philippines_2015","Bukidnon02_wet","Plant observations","Xylocopa nr. latipes","species","other_wild_bees",1,4.65,60,NA,"Sampled during at 30 and 60 days after planting, 5 patches were assessed at each sampling for 6 mins",NA
"Finbarr_G_Horgan_Luffa_acutangula_Philippines_2015","Iloilo_dry","Plant observations","Xylocopa nr. latipes","species","other_wild_bees",3,4.65,60,NA,"Sampled during at 30 and 60 days after planting, 5 patches were assessed at each sampling for 6 mins",NA
"Finbarr_G_Horgan_Luffa_acutangula_Philippines_2015","Iloilo_wet","Plant observations","Xylocopa nr. latipes","species","other_wild_bees",3,9.85,60,NA,"Sampled during at 30 and 60 days after planting, 5 patches were assessed at each sampling for 6 mins",NA
"Finbarr_G_Horgan_Luffa_acutangula_Philippines_2015","IRRI500_dry","Plant observations","Xylocopa nr. latipes","species","other_wild_bees",2,12.7,60,NA,"Sampled during at 30 and 60 days after planting, 5 patches were assessed at each sampling for 6 mins",NA
"Finbarr_G_Horgan_Luffa_acutangula_Philippines_2015","IRRI500_wet","Plant observations","Xylocopa nr. latipes","species","other_wild_bees",4,11.25,60,NA,"Sampled during at 30 and 60 days after planting, 5 patches were assessed at each sampling for 6 mins",NA
"Finbarr_G_Horgan_Luffa_acutangula_Philippines_2015","Tanay_dry","Plant observations","Xylocopa nr. latipes","species","other_wild_bees",3,4.65,60,NA,"Sampled during at 30 and 60 days after planting, 5 patches were assessed at each sampling for 6 mins",NA
"Finbarr_G_Horgan_Luffa_acutangula_Philippines_2015","Tanay_wet","Plant observations","Xylocopa nr. latipes","species","other_wild_bees",2,9.85,60,NA,"Sampled during at 30 and 60 days after planting, 5 patches were assessed at each sampling for 6 mins",NA
"Finbarr_G_Horgan_Luffa_acutangula_Philippines_2015","Bukidnon01_dry","Plant observations","Xylocopa sp 1","morphospecies","other_wild_bees",3,12.7,60,NA,"Sampled during at 30 and 60 days after planting, 5 patches were assessed at each sampling for 6 mins",NA
"Finbarr_G_Horgan_Luffa_acutangula_Philippines_2015","Bukidnon01_wet","Plant observations","Xylocopa sp 1","morphospecies","other_wild_bees",2,11.25,60,NA,"Sampled during at 30 and 60 days after planting, 5 patches were assessed at each sampling for 6 mins",NA
"Finbarr_G_Horgan_Luffa_acutangula_Philippines_2015","Bukidnon02_dry","Plant observations","Xylocopa sp 1","morphospecies","other_wild_bees",4,3.75,60,NA,"Sampled during at 30 and 60 days after planting, 5 patches were assessed at each sampling for 6 mins",NA
"Finbarr_G_Horgan_Luffa_acutangula_Philippines_2015","Iloilo_wet","Plant observations","Xylocopa sp 1","morphospecies","other_wild_bees",1,9.85,60,NA,"Sampled during at 30 and 60 days after planting, 5 patches were assessed at each sampling for 6 mins",NA
"Finbarr_G_Horgan_Luffa_acutangula_Philippines_2015","Tanay_dry","Plant observations","Xylocopa sp 1","morphospecies","other_wild_bees",5,4.65,60,NA,"Sampled during at 30 and 60 days after planting, 5 patches were assessed at each sampling for 6 mins",NA
"Finbarr_G_Horgan_Luffa_acutangula_Philippines_2015","Tanay_wet","Plant observations","Xylocopa sp 1","morphospecies","other_wild_bees",1,9.85,60,NA,"Sampled during at 30 and 60 days after planting, 5 patches were assessed at each sampling for 6 mins",NA
"Finbarr_G_Horgan_Luffa_acutangula_Philippines_2015","Bukidnon02_dry","Plant observations","Lassioglossum sp 1","morphospecies","other_wild_bees",3,3.75,60,NA,"Sampled during at 30 and 60 days after planting, 5 patches were assessed at each sampling for 6 mins",NA
"Finbarr_G_Horgan_Luffa_acutangula_Philippines_2015","IRRI500_dry","Plant observations","Lassioglossum sp 1","morphospecies","other_wild_bees",4,12.7,60,NA,"Sampled during at 30 and 60 days after planting, 5 patches were assessed at each sampling for 6 mins",NA
"Finbarr_G_Horgan_Luffa_acutangula_Philippines_2015","Bukidnon01_wet","Plant observations","Lasioglossum albescens","species","other_wild_bees",2,11.25,60,NA,"Sampled during at 30 and 60 days after planting, 5 patches were assessed at each sampling for 6 mins",NA
"Finbarr_G_Horgan_Luffa_acutangula_Philippines_2015","Bukidnon02_dry","Plant observations","Lasioglossum sp 2","morphospecies","other_wild_bees",1,3.75,60,NA,"Sampled during at 30 and 60 days after planting, 5 patches were assessed at each sampling for 6 mins",NA
"Finbarr_G_Horgan_Luffa_acutangula_Philippines_2015","Bukidnon01_dry","Plant observations","Amegilla zonata","species","other_wild_bees",3,12.7,60,NA,"Sampled during at 30 and 60 days after planting, 5 patches were assessed at each sampling for 6 mins",NA
"Finbarr_G_Horgan_Luffa_acutangula_Philippines_2015","Bukidnon01_wet","Plant observations","Amegilla zonata","species","other_wild_bees",6,11.25,60,NA,"Sampled during at 30 and 60 days after planting, 5 patches were assessed at each sampling for 6 mins",NA
"Finbarr_G_Horgan_Luffa_acutangula_Philippines_2015","Bukidnon02_dry","Plant observations","Amegilla zonata","species","other_wild_bees",1,3.75,60,NA,"Sampled during at 30 and 60 days after planting, 5 patches were assessed at each sampling for 6 mins",NA
"Finbarr_G_Horgan_Luffa_acutangula_Philippines_2015","Bukidnon02_wet","Plant observations","Amegilla zonata","species","other_wild_bees",1,4.65,60,NA,"Sampled during at 30 and 60 days after planting, 5 patches were assessed at each sampling for 6 mins",NA
"Finbarr_G_Horgan_Luffa_acutangula_Philippines_2015","Bukidnon01_dry","Plant observations","Lasioglossum sp4","morphospecies","other_wild_bees",1,12.7,60,NA,"Sampled during at 30 and 60 days after planting, 5 patches were assessed at each sampling for 6 mins",NA
"Finbarr_G_Horgan_Luffa_acutangula_Philippines_2015","Bukidnon02_dry","Plant observations","Lasioglossum sp4","morphospecies","other_wild_bees",1,3.75,60,NA,"Sampled during at 30 and 60 days after planting, 5 patches were assessed at each sampling for 6 mins",NA
"Finbarr_G_Horgan_Luffa_acutangula_Philippines_2015","Iloilo_wet","Plant observations","Lasioglossum sp4","morphospecies","other_wild_bees",1,9.85,60,NA,"Sampled during at 30 and 60 days after planting, 5 patches were assessed at each sampling for 6 mins",NA
"Finbarr_G_Horgan_Luffa_acutangula_Philippines_2015","IRRI700_dry","Plant observations","Lasioglossum sp4","morphospecies","other_wild_bees",3,3.75,60,NA,"Sampled during at 30 and 60 days after planting, 5 patches were assessed at each sampling for 6 mins",NA
"Finbarr_G_Horgan_Luffa_acutangula_Philippines_2015","Tanay_dry","Plant observations","Lasioglossum sp4","morphospecies","other_wild_bees",6,4.65,60,NA,"Sampled during at 30 and 60 days after planting, 5 patches were assessed at each sampling for 6 mins",NA
"Finbarr_G_Horgan_Luffa_acutangula_Philippines_2015","Bukidnon02_dry","Plant observations","Apidae sp 2","morphospecies","other_wild_bees",1,3.75,60,NA,"Sampled during at 30 and 60 days after planting, 5 patches were assessed at each sampling for 6 mins",NA
"Finbarr_G_Horgan_Luffa_acutangula_Philippines_2015","IRRI700_wet","Plant observations","Apidae sp 3","morphospecies","other_wild_bees",3,4.65,60,NA,"Sampled during at 30 and 60 days after planting, 5 patches were assessed at each sampling for 6 mins",NA
"Finbarr_G_Horgan_Luffa_acutangula_Philippines_2015","Bukidnon02_dry","Plant observations","Lasioglossum sp 5","morphospecies","other_wild_bees",1,3.75,60,NA,"Sampled during at 30 and 60 days after planting, 5 patches were assessed at each sampling for 6 mins",NA
"Finbarr_G_Horgan_Luffa_acutangula_Philippines_2015","IRRI700_wet","Plant observations","Melanitis leda","species","lepidoptera",5,4.65,60,NA,"Sampled during at 30 and 60 days after planting, 5 patches were assessed at each sampling for 6 mins",NA
"Finbarr_G_Horgan_Luffa_acutangula_Philippines_2015","Bukidnon01_dry","Plant observations","Appias sp 1","morphospecies","lepidoptera",1,12.7,60,NA,"Sampled during at 30 and 60 days after planting, 5 patches were assessed at each sampling for 6 mins",NA
"Finbarr_G_Horgan_Luffa_acutangula_Philippines_2015","IRRI500_wet","Plant observations","Appias sp 1","morphospecies","lepidoptera",1,11.25,60,NA,"Sampled during at 30 and 60 days after planting, 5 patches were assessed at each sampling for 6 mins",NA
"Finbarr_G_Horgan_Luffa_acutangula_Philippines_2015","IRRI700_wet","Plant observations","Appias sp 1","morphospecies","lepidoptera",1,4.65,60,NA,"Sampled during at 30 and 60 days after planting, 5 patches were assessed at each sampling for 6 mins",NA
"Finbarr_G_Horgan_Luffa_acutangula_Philippines_2015","Tanay_wet","Plant observations","Appias sp 1","morphospecies","lepidoptera",1,9.85,60,NA,"Sampled during at 30 and 60 days after planting, 5 patches were assessed at each sampling for 6 mins",NA
"Finbarr_G_Horgan_Luffa_acutangula_Philippines_2015","Bukidnon02_wet","Plant observations","Eurema hecabe","species","lepidoptera",2,4.65,60,NA,"Sampled during at 30 and 60 days after planting, 5 patches were assessed at each sampling for 6 mins",NA
"Finbarr_G_Horgan_Luffa_acutangula_Philippines_2015","Iloilo_dry","Plant observations","Eurema hecabe","species","lepidoptera",2,4.65,60,NA,"Sampled during at 30 and 60 days after planting, 5 patches were assessed at each sampling for 6 mins",NA
"Finbarr_G_Horgan_Luffa_acutangula_Philippines_2015","Iloilo_wet","Plant observations","Eurema hecabe","species","lepidoptera",2,9.85,60,NA,"Sampled during at 30 and 60 days after planting, 5 patches were assessed at each sampling for 6 mins",NA
"Finbarr_G_Horgan_Luffa_acutangula_Philippines_2015","IRRI500_wet","Plant observations","Eurema hecabe","species","lepidoptera",1,11.25,60,NA,"Sampled during at 30 and 60 days after planting, 5 patches were assessed at each sampling for 6 mins",NA
"Finbarr_G_Horgan_Luffa_acutangula_Philippines_2015","IRRI700_dry","Plant observations","Eurema hecabe","species","lepidoptera",1,3.75,60,NA,"Sampled during at 30 and 60 days after planting, 5 patches were assessed at each sampling for 6 mins",NA
"Finbarr_G_Horgan_Luffa_acutangula_Philippines_2015","IRRI700_wet","Plant observations","Eurema hecabe","species","lepidoptera",1,4.65,60,NA,"Sampled during at 30 and 60 days after planting, 5 patches were assessed at each sampling for 6 mins",NA
"Finbarr_G_Horgan_Luffa_acutangula_Philippines_2015","Tanay_wet","Plant observations","Eurema hecabe","species","lepidoptera",1,9.85,60,NA,"Sampled during at 30 and 60 days after planting, 5 patches were assessed at each sampling for 6 mins",NA
"Finbarr_G_Horgan_Luffa_acutangula_Philippines_2015","Bukidnon02_wet","Plant observations","Catochrysops sp 2","morphospecies","lepidoptera",2,4.65,60,NA,"Sampled during at 30 and 60 days after planting, 5 patches were assessed at each sampling for 6 mins",NA
"Finbarr_G_Horgan_Luffa_acutangula_Philippines_2015","Iloilo_wet","Plant observations","Catochrysops sp 2","morphospecies","lepidoptera",1,9.85,60,NA,"Sampled during at 30 and 60 days after planting, 5 patches were assessed at each sampling for 6 mins",NA
"Finbarr_G_Horgan_Luffa_acutangula_Philippines_2015","Tanay_wet","Plant observations","Satyridae (sp 1)","morphospecies","lepidoptera",2,9.85,60,NA,"Sampled during at 30 and 60 days after planting, 5 patches were assessed at each sampling for 6 mins",NA
"Finbarr_G_Horgan_Luffa_acutangula_Philippines_2015","Bukidnon01_dry","Plant observations","Parnara guttata","species","lepidoptera",2,12.7,60,NA,"Sampled during at 30 and 60 days after planting, 5 patches were assessed at each sampling for 6 mins",NA
"Finbarr_G_Horgan_Luffa_acutangula_Philippines_2015","Bukidnon02_wet","Plant observations","Parnara guttata","species","lepidoptera",3,4.65,60,NA,"Sampled during at 30 and 60 days after planting, 5 patches were assessed at each sampling for 6 mins",NA
"Finbarr_G_Horgan_Luffa_acutangula_Philippines_2015","Iloilo_wet","Plant observations","Parnara guttata","species","lepidoptera",2,9.85,60,NA,"Sampled during at 30 and 60 days after planting, 5 patches were assessed at each sampling for 6 mins",NA
"Finbarr_G_Horgan_Luffa_acutangula_Philippines_2015","IRRI500_wet","Plant observations","Parnara guttata","species","lepidoptera",9,11.25,60,NA,"Sampled during at 30 and 60 days after planting, 5 patches were assessed at each sampling for 6 mins",NA
"Finbarr_G_Horgan_Luffa_acutangula_Philippines_2015","Tanay_dry","Plant observations","Parnara guttata","species","lepidoptera",2,4.65,60,NA,"Sampled during at 30 and 60 days after planting, 5 patches were assessed at each sampling for 6 mins",NA
"Finbarr_G_Horgan_Luffa_acutangula_Philippines_2015","Tanay_dry","Plant observations","Hespriidae (sp 1)","morphospecies","lepidoptera",2,4.65,60,NA,"Sampled during at 30 and 60 days after planting, 5 patches were assessed at each sampling for 6 mins",NA
"Finbarr_G_Horgan_Luffa_acutangula_Philippines_2015","IRRI500_wet","Plant observations","Amata sp 1","morphospecies","lepidoptera",1,11.25,60,NA,"Sampled during at 30 and 60 days after planting, 5 patches were assessed at each sampling for 6 mins",NA
"Finbarr_G_Horgan_Luffa_acutangula_Philippines_2015","IRRI700_wet","Plant observations","Amata sp 1","morphospecies","lepidoptera",2,4.65,60,NA,"Sampled during at 30 and 60 days after planting, 5 patches were assessed at each sampling for 6 mins",NA
"Finbarr_G_Horgan_Luffa_acutangula_Philippines_2015","Iloilo_dry","Plant observations","Sphingidae (sp 1)","morphospecies","lepidoptera",1,4.65,60,NA,"Sampled during at 30 and 60 days after planting, 5 patches were assessed at each sampling for 6 mins",NA
"Finbarr_G_Horgan_Luffa_acutangula_Philippines_2015","IRRI500_wet","Plant observations","Sphingidae (sp 1)","morphospecies","lepidoptera",10,11.25,60,NA,"Sampled during at 30 and 60 days after planting, 5 patches were assessed at each sampling for 6 mins",NA
"Finbarr_G_Horgan_Luffa_acutangula_Philippines_2015","IRRI700_wet","Plant observations","Sphingidae (sp 1)","morphospecies","lepidoptera",5,4.65,60,NA,"Sampled during at 30 and 60 days after planting, 5 patches were assessed at each sampling for 6 mins",NA
"Finbarr_G_Horgan_Momordica_charantia_Philippines_2015","Tanay_dry","Plant observations","Apis cercana","species","honeybees",2,4.65,60,NA,"Sampled during at 30 and 60 days after planting, 5 patches were assessed at each sampling for 6 mins",NA
"Finbarr_G_Horgan_Momordica_charantia_Philippines_2015","Bukidnon01_wet","Plant observations","Xylocopa nr. latipes","species","other_wild_bees",1,11.25,60,NA,"Sampled during at 30 and 60 days after planting, 5 patches were assessed at each sampling for 6 mins",NA
"Finbarr_G_Horgan_Momordica_charantia_Philippines_2015","Iloilo_dry","Plant observations","Xylocopa nr. latipes","species","other_wild_bees",4,4.65,60,NA,"Sampled during at 30 and 60 days after planting, 5 patches were assessed at each sampling for 6 mins",NA
"Finbarr_G_Horgan_Momordica_charantia_Philippines_2015","Iloilo_wet","Plant observations","Xylocopa nr. latipes","species","other_wild_bees",2,9.85,60,NA,"Sampled during at 30 and 60 days after planting, 5 patches were assessed at each sampling for 6 mins",NA
"Finbarr_G_Horgan_Momordica_charantia_Philippines_2015","IRRI500_wet","Plant observations","Xylocopa nr. latipes","species","other_wild_bees",2,11.25,60,NA,"Sampled during at 30 and 60 days after planting, 5 patches were assessed at each sampling for 6 mins",NA
"Finbarr_G_Horgan_Momordica_charantia_Philippines_2015","Tanay_dry","Plant observations","Xylocopa nr. latipes","species","other_wild_bees",1,4.65,60,NA,"Sampled during at 30 and 60 days after planting, 5 patches were assessed at each sampling for 6 mins",NA
"Finbarr_G_Horgan_Momordica_charantia_Philippines_2015","Tanay_wet","Plant observations","Xylocopa nr. latipes","species","other_wild_bees",2,9.85,60,NA,"Sampled during at 30 and 60 days after planting, 5 patches were assessed at each sampling for 6 mins",NA
"Finbarr_G_Horgan_Momordica_charantia_Philippines_2015","Bukidnon02_dry","Plant observations","Xylocopa sp 1","morphospecies","other_wild_bees",1,3.75,60,NA,"Sampled during at 30 and 60 days after planting, 5 patches were assessed at each sampling for 6 mins",NA
"Finbarr_G_Horgan_Momordica_charantia_Philippines_2015","Iloilo_wet","Plant observations","Xylocopa sp 1","morphospecies","other_wild_bees",1,9.85,60,NA,"Sampled during at 30 and 60 days after planting, 5 patches were assessed at each sampling for 6 mins",NA
"Finbarr_G_Horgan_Momordica_charantia_Philippines_2015","Bukidnon01_dry","Plant observations","Lassioglossum sp 1","morphospecies","other_wild_bees",7,12.7,60,NA,"Sampled during at 30 and 60 days after planting, 5 patches were assessed at each sampling for 6 mins",NA
"Finbarr_G_Horgan_Momordica_charantia_Philippines_2015","Bukidnon02_dry","Plant observations","Lassioglossum sp 1","morphospecies","other_wild_bees",2,3.75,60,NA,"Sampled during at 30 and 60 days after planting, 5 patches were assessed at each sampling for 6 mins",NA
"Finbarr_G_Horgan_Momordica_charantia_Philippines_2015","Tanay_dry","Plant observations","Trigona clypearis","species","other_wild_bees",23,4.65,60,NA,"Sampled during at 30 and 60 days after planting, 5 patches were assessed at each sampling for 6 mins",NA
"Finbarr_G_Horgan_Momordica_charantia_Philippines_2015","Bukidnon01_wet","Plant observations","Lasioglossum albescens","species","other_wild_bees",1,11.25,60,NA,"Sampled during at 30 and 60 days after planting, 5 patches were assessed at each sampling for 6 mins",NA
"Finbarr_G_Horgan_Momordica_charantia_Philippines_2015","Bukidnon02_wet","Plant observations","Lasioglossum albescens","species","other_wild_bees",1,4.65,60,NA,"Sampled during at 30 and 60 days after planting, 5 patches were assessed at each sampling for 6 mins",NA
"Finbarr_G_Horgan_Momordica_charantia_Philippines_2015","Tanay_dry","Plant observations","Lasioglossum sp 2","morphospecies","other_wild_bees",1,4.65,60,NA,"Sampled during at 30 and 60 days after planting, 5 patches were assessed at each sampling for 6 mins",NA
"Finbarr_G_Horgan_Momordica_charantia_Philippines_2015","Tanay_dry","Plant observations","Apidae (sp 1)","morphospecies","other_wild_bees",2,4.65,60,NA,"Sampled during at 30 and 60 days after planting, 5 patches were assessed at each sampling for 6 mins",NA
"Finbarr_G_Horgan_Momordica_charantia_Philippines_2015","Bukidnon01_dry","Plant observations","Amegilla zonata","species","other_wild_bees",1,12.7,60,NA,"Sampled during at 30 and 60 days after planting, 5 patches were assessed at each sampling for 6 mins",NA
"Finbarr_G_Horgan_Momordica_charantia_Philippines_2015","Bukidnon01_wet","Plant observations","Amegilla zonata","species","other_wild_bees",8,11.25,60,NA,"Sampled during at 30 and 60 days after planting, 5 patches were assessed at each sampling for 6 mins",NA
"Finbarr_G_Horgan_Momordica_charantia_Philippines_2015","Bukidnon02_dry","Plant observations","Amegilla zonata","species","other_wild_bees",1,3.75,60,NA,"Sampled during at 30 and 60 days after planting, 5 patches were assessed at each sampling for 6 mins",NA
"Finbarr_G_Horgan_Momordica_charantia_Philippines_2015","IRRI500_wet","Plant observations","Amegilla zonata","species","other_wild_bees",4,11.25,60,NA,"Sampled during at 30 and 60 days after planting, 5 patches were assessed at each sampling for 6 mins",NA
"Finbarr_G_Horgan_Momordica_charantia_Philippines_2015","IRRI700_dry","Plant observations","Amegilla zonata","species","other_wild_bees",1,3.75,60,NA,"Sampled during at 30 and 60 days after planting, 5 patches were assessed at each sampling for 6 mins",NA
"Finbarr_G_Horgan_Momordica_charantia_Philippines_2015","Tanay_dry","Plant observations","Amegilla zonata","species","other_wild_bees",7,4.65,60,NA,"Sampled during at 30 and 60 days after planting, 5 patches were assessed at each sampling for 6 mins",NA
"Finbarr_G_Horgan_Momordica_charantia_Philippines_2015","Tanay_wet","Plant observations","Amegilla zonata","species","other_wild_bees",1,9.85,60,NA,"Sampled during at 30 and 60 days after planting, 5 patches were assessed at each sampling for 6 mins",NA
"Finbarr_G_Horgan_Momordica_charantia_Philippines_2015","Bukidnon01_wet","Plant observations","Lasioglossum sp4","morphospecies","other_wild_bees",3,11.25,60,NA,"Sampled during at 30 and 60 days after planting, 5 patches were assessed at each sampling for 6 mins",NA
"Finbarr_G_Horgan_Momordica_charantia_Philippines_2015","Bukidnon02_wet","Plant observations","Lasioglossum sp4","morphospecies","other_wild_bees",1,4.65,60,NA,"Sampled during at 30 and 60 days after planting, 5 patches were assessed at each sampling for 6 mins",NA
"Finbarr_G_Horgan_Momordica_charantia_Philippines_2015","Iloilo_wet","Plant observations","Lasioglossum sp4","morphospecies","other_wild_bees",1,9.85,60,NA,"Sampled during at 30 and 60 days after planting, 5 patches were assessed at each sampling for 6 mins",NA
"Finbarr_G_Horgan_Momordica_charantia_Philippines_2015","Tanay_dry","Plant observations","Lasioglossum sp4","morphospecies","other_wild_bees",8,4.65,60,NA,"Sampled during at 30 and 60 days after planting, 5 patches were assessed at each sampling for 6 mins",NA
"Finbarr_G_Horgan_Momordica_charantia_Philippines_2015","Bukidnon02_dry","Plant observations","Lasioglossum sp 5","morphospecies","other_wild_bees",6,3.75,60,NA,"Sampled during at 30 and 60 days after planting, 5 patches were assessed at each sampling for 6 mins",NA
"Finbarr_G_Horgan_Momordica_charantia_Philippines_2015","IRRI700_wet","Plant observations","Lasioglossum sp 6","morphospecies","other_wild_bees",1,4.65,60,NA,"Sampled during at 30 and 60 days after planting, 5 patches were assessed at each sampling for 6 mins",NA
"Finbarr_G_Horgan_Momordica_charantia_Philippines_2015","Tanay_dry","Plant observations","Lasioglossum sp 6","morphospecies","other_wild_bees",36,4.65,60,NA,"Sampled during at 30 and 60 days after planting, 5 patches were assessed at each sampling for 6 mins",NA
"Finbarr_G_Horgan_Momordica_charantia_Philippines_2015","Tanay_dry","Plant observations","Catochrysops sp 1","morphospecies","lepidoptera",4,4.65,60,NA,"Sampled during at 30 and 60 days after planting, 5 patches were assessed at each sampling for 6 mins",NA
"Finbarr_G_Horgan_Momordica_charantia_Philippines_2015","Bukidnon01_dry","Plant observations","Appias sp 1","morphospecies","lepidoptera",2,12.7,60,NA,"Sampled during at 30 and 60 days after planting, 5 patches were assessed at each sampling for 6 mins",NA
"Finbarr_G_Horgan_Momordica_charantia_Philippines_2015","Bukidnon01_wet","Plant observations","Appias sp 1","morphospecies","lepidoptera",2,11.25,60,NA,"Sampled during at 30 and 60 days after planting, 5 patches were assessed at each sampling for 6 mins",NA
"Finbarr_G_Horgan_Momordica_charantia_Philippines_2015","Bukidnon02_dry","Plant observations","Appias sp 1","morphospecies","lepidoptera",1,3.75,60,NA,"Sampled during at 30 and 60 days after planting, 5 patches were assessed at each sampling for 6 mins",NA
"Finbarr_G_Horgan_Momordica_charantia_Philippines_2015","Bukidnon02_wet","Plant observations","Appias sp 1","morphospecies","lepidoptera",1,4.65,60,NA,"Sampled during at 30 and 60 days after planting, 5 patches were assessed at each sampling for 6 mins",NA
"Finbarr_G_Horgan_Momordica_charantia_Philippines_2015","IRRI500_dry","Plant observations","Appias sp 1","morphospecies","lepidoptera",1,12.7,60,NA,"Sampled during at 30 and 60 days after planting, 5 patches were assessed at each sampling for 6 mins",NA
"Finbarr_G_Horgan_Momordica_charantia_Philippines_2015","IRRI500_wet","Plant observations","Appias sp 1","morphospecies","lepidoptera",4,11.25,60,NA,"Sampled during at 30 and 60 days after planting, 5 patches were assessed at each sampling for 6 mins",NA
"Finbarr_G_Horgan_Momordica_charantia_Philippines_2015","IRRI700_wet","Plant observations","Appias sp 1","morphospecies","lepidoptera",1,4.65,60,NA,"Sampled during at 30 and 60 days after planting, 5 patches were assessed at each sampling for 6 mins",NA
"Finbarr_G_Horgan_Momordica_charantia_Philippines_2015","Tanay_dry","Plant observations","Appias sp 1","morphospecies","lepidoptera",2,4.65,60,NA,"Sampled during at 30 and 60 days after planting, 5 patches were assessed at each sampling for 6 mins",NA
"Finbarr_G_Horgan_Momordica_charantia_Philippines_2015","Tanay_wet","Plant observations","Appias sp 1","morphospecies","lepidoptera",3,9.85,60,NA,"Sampled during at 30 and 60 days after planting, 5 patches were assessed at each sampling for 6 mins",NA
"Finbarr_G_Horgan_Momordica_charantia_Philippines_2015","Bukidnon01_dry","Plant observations","Eurema hecabe","species","lepidoptera",2,12.7,60,NA,"Sampled during at 30 and 60 days after planting, 5 patches were assessed at each sampling for 6 mins",NA
"Finbarr_G_Horgan_Momordica_charantia_Philippines_2015","Bukidnon02_dry","Plant observations","Eurema hecabe","species","lepidoptera",1,3.75,60,NA,"Sampled during at 30 and 60 days after planting, 5 patches were assessed at each sampling for 6 mins",NA
"Finbarr_G_Horgan_Momordica_charantia_Philippines_2015","Bukidnon02_wet","Plant observations","Eurema hecabe","species","lepidoptera",2,4.65,60,NA,"Sampled during at 30 and 60 days after planting, 5 patches were assessed at each sampling for 6 mins",NA
"Finbarr_G_Horgan_Momordica_charantia_Philippines_2015","Iloilo_wet","Plant observations","Eurema hecabe","species","lepidoptera",1,9.85,60,NA,"Sampled during at 30 and 60 days after planting, 5 patches were assessed at each sampling for 6 mins",NA
"Finbarr_G_Horgan_Momordica_charantia_Philippines_2015","IRRI700_dry","Plant observations","Eurema hecabe","species","lepidoptera",2,3.75,60,NA,"Sampled during at 30 and 60 days after planting, 5 patches were assessed at each sampling for 6 mins",NA
"Finbarr_G_Horgan_Momordica_charantia_Philippines_2015","Tanay_wet","Plant observations","Eurema hecabe","species","lepidoptera",2,9.85,60,NA,"Sampled during at 30 and 60 days after planting, 5 patches were assessed at each sampling for 6 mins",NA
"Finbarr_G_Horgan_Momordica_charantia_Philippines_2015","Iloilo_dry","Plant observations","Catochrysops sp 2","morphospecies","lepidoptera",4,4.65,60,NA,"Sampled during at 30 and 60 days after planting, 5 patches were assessed at each sampling for 6 mins",NA
"Finbarr_G_Horgan_Momordica_charantia_Philippines_2015","IRRI500_dry","Plant observations","Catochrysops sp 2","morphospecies","lepidoptera",2,12.7,60,NA,"Sampled during at 30 and 60 days after planting, 5 patches were assessed at each sampling for 6 mins",NA
"Finbarr_G_Horgan_Momordica_charantia_Philippines_2015","IRRI500_wet","Plant observations","Catochrysops sp 2","morphospecies","lepidoptera",3,11.25,60,NA,"Sampled during at 30 and 60 days after planting, 5 patches were assessed at each sampling for 6 mins",NA
"Finbarr_G_Horgan_Momordica_charantia_Philippines_2015","IRRI700_dry","Plant observations","Catochrysops sp 2","morphospecies","lepidoptera",1,3.75,60,NA,"Sampled during at 30 and 60 days after planting, 5 patches were assessed at each sampling for 6 mins",NA
"Finbarr_G_Horgan_Momordica_charantia_Philippines_2015","Tanay_dry","Plant observations","Catochrysops sp 2","morphospecies","lepidoptera",8,4.65,60,NA,"Sampled during at 30 and 60 days after planting, 5 patches were assessed at each sampling for 6 mins",NA
"Finbarr_G_Horgan_Momordica_charantia_Philippines_2015","Tanay_wet","Plant observations","Satyridae (sp 1)","morphospecies","lepidoptera",3,9.85,60,NA,"Sampled during at 30 and 60 days after planting, 5 patches were assessed at each sampling for 6 mins",NA
"Finbarr_G_Horgan_Momordica_charantia_Philippines_2015","Tanay_wet","Plant observations","Pelopidas mathias","species","lepidoptera",1,9.85,60,NA,"Sampled during at 30 and 60 days after planting, 5 patches were assessed at each sampling for 6 mins",NA
"Finbarr_G_Horgan_Momordica_charantia_Philippines_2015","Bukidnon01_wet","Plant observations","Parnara guttata","species","lepidoptera",1,11.25,60,NA,"Sampled during at 30 and 60 days after planting, 5 patches were assessed at each sampling for 6 mins",NA
"Finbarr_G_Horgan_Momordica_charantia_Philippines_2015","Bukidnon02_dry","Plant observations","Parnara guttata","species","lepidoptera",7,3.75,60,NA,"Sampled during at 30 and 60 days after planting, 5 patches were assessed at each sampling for 6 mins",NA
"Finbarr_G_Horgan_Momordica_charantia_Philippines_2015","Iloilo_wet","Plant observations","Parnara guttata","species","lepidoptera",7,9.85,60,NA,"Sampled during at 30 and 60 days after planting, 5 patches were assessed at each sampling for 6 mins",NA
"Finbarr_G_Horgan_Momordica_charantia_Philippines_2015","IRRI500_wet","Plant observations","Parnara guttata","species","lepidoptera",3,11.25,60,NA,"Sampled during at 30 and 60 days after planting, 5 patches were assessed at each sampling for 6 mins",NA
"Finbarr_G_Horgan_Momordica_charantia_Philippines_2015","IRRI700_wet","Plant observations","Parnara guttata","species","lepidoptera",1,4.65,60,NA,"Sampled during at 30 and 60 days after planting, 5 patches were assessed at each sampling for 6 mins",NA
"Finbarr_G_Horgan_Momordica_charantia_Philippines_2015","Tanay_wet","Plant observations","Parnara guttata","species","lepidoptera",8,9.85,60,NA,"Sampled during at 30 and 60 days after planting, 5 patches were assessed at each sampling for 6 mins",NA
"Finbarr_G_Horgan_Momordica_charantia_Philippines_2015","Bukidnon01_dry","Plant observations","Potanthus lydia lydia","species","lepidoptera",1,12.7,60,NA,"Sampled during at 30 and 60 days after planting, 5 patches were assessed at each sampling for 6 mins",NA
"Finbarr_G_Horgan_Momordica_charantia_Philippines_2015","Bukidnon02_dry","Plant observations","Potanthus lydia lydia","species","lepidoptera",2,3.75,60,NA,"Sampled during at 30 and 60 days after planting, 5 patches were assessed at each sampling for 6 mins",NA
"Finbarr_G_Horgan_Momordica_charantia_Philippines_2015","IRRI700_wet","Plant observations","Potanthus lydia lydia","species","lepidoptera",5,4.65,60,NA,"Sampled during at 30 and 60 days after planting, 5 patches were assessed at each sampling for 6 mins",NA
"Frank_Jauker_Brassica_napus_Germany_2006","OSR_07","netting","Andrena bicolor","species","other_wild_bees",1,1600,120,NA,"Six 2000m transects were sampled. Sampling was conducted in a 20 x 20 m area every 100 m. Here results represent samping points with pollinator records from oilseed rape.  At point stops, wild bees and hoverflies were sampled for 20 min using insect nets. There were 5 sampling rounds, so some fields turn up more than once, if oilseed rape was in bloom over more than one sampling round",NA
"Frank_Jauker_Brassica_napus_Germany_2006","OSR_18","netting","Andrena chrysosceles","species","other_wild_bees",1,1200,90,NA,"Six 2000m transects were sampled. Sampling was conducted in a 20 x 20 m area every 100 m. Here results represent samping points with pollinator records from oilseed rape.  At point stops, wild bees and hoverflies were sampled for 20 min using insect nets. There were 5 sampling rounds, so some fields turn up more than once, if oilseed rape was in bloom over more than one sampling round",NA
"Frank_Jauker_Brassica_napus_Germany_2006","OSR_07","netting","Andrena chrysosceles","species","other_wild_bees",1,1600,120,NA,"Six 2000m transects were sampled. Sampling was conducted in a 20 x 20 m area every 100 m. Here results represent samping points with pollinator records from oilseed rape.  At point stops, wild bees and hoverflies were sampled for 20 min using insect nets. There were 5 sampling rounds, so some fields turn up more than once, if oilseed rape was in bloom over more than one sampling round",NA
"Frank_Jauker_Brassica_napus_Germany_2006","OSR_10","netting","Andrena cineraria","species","other_wild_bees",1,800,60,NA,"Six 2000m transects were sampled. Sampling was conducted in a 20 x 20 m area every 100 m. Here results represent samping points with pollinator records from oilseed rape.  At point stops, wild bees and hoverflies were sampled for 20 min using insect nets. There were 5 sampling rounds, so some fields turn up more than once, if oilseed rape was in bloom over more than one sampling round",NA
"Frank_Jauker_Brassica_napus_Germany_2006","OSR_14","netting","Andrena cineraria","species","other_wild_bees",1,800,60,NA,"Six 2000m transects were sampled. Sampling was conducted in a 20 x 20 m area every 100 m. Here results represent samping points with pollinator records from oilseed rape.  At point stops, wild bees and hoverflies were sampled for 20 min using insect nets. There were 5 sampling rounds, so some fields turn up more than once, if oilseed rape was in bloom over more than one sampling round",NA
"Frank_Jauker_Brassica_napus_Germany_2006","OSR_15","netting","Andrena cineraria","species","other_wild_bees",1,400,30,NA,"Six 2000m transects were sampled. Sampling was conducted in a 20 x 20 m area every 100 m. Here results represent samping points with pollinator records from oilseed rape.  At point stops, wild bees and hoverflies were sampled for 20 min using insect nets. There were 5 sampling rounds, so some fields turn up more than once, if oilseed rape was in bloom over more than one sampling round",NA
"Frank_Jauker_Brassica_napus_Germany_2006","OSR_04","netting","Andrena cineraria","species","other_wild_bees",1,400,30,NA,"Six 2000m transects were sampled. Sampling was conducted in a 20 x 20 m area every 100 m. Here results represent samping points with pollinator records from oilseed rape.  At point stops, wild bees and hoverflies were sampled for 20 min using insect nets. There were 5 sampling rounds, so some fields turn up more than once, if oilseed rape was in bloom over more than one sampling round",NA
"Frank_Jauker_Brassica_napus_Germany_2006","OSR_05","netting","Andrena cineraria","species","other_wild_bees",2,400,30,NA,"Six 2000m transects were sampled. Sampling was conducted in a 20 x 20 m area every 100 m. Here results represent samping points with pollinator records from oilseed rape.  At point stops, wild bees and hoverflies were sampled for 20 min using insect nets. There were 5 sampling rounds, so some fields turn up more than once, if oilseed rape was in bloom over more than one sampling round",NA
"Frank_Jauker_Brassica_napus_Germany_2006","OSR_21","netting","Andrena cineraria","species","other_wild_bees",1,800,60,NA,"Six 2000m transects were sampled. Sampling was conducted in a 20 x 20 m area every 100 m. Here results represent samping points with pollinator records from oilseed rape.  At point stops, wild bees and hoverflies were sampled for 20 min using insect nets. There were 5 sampling rounds, so some fields turn up more than once, if oilseed rape was in bloom over more than one sampling round",NA
"Frank_Jauker_Brassica_napus_Germany_2006","OSR_06","netting","Andrena cineraria","species","other_wild_bees",1,1200,90,NA,"Six 2000m transects were sampled. Sampling was conducted in a 20 x 20 m area every 100 m. Here results represent samping points with pollinator records from oilseed rape.  At point stops, wild bees and hoverflies were sampled for 20 min using insect nets. There were 5 sampling rounds, so some fields turn up more than once, if oilseed rape was in bloom over more than one sampling round",NA
"Frank_Jauker_Brassica_napus_Germany_2006","OSR_01","netting","Andrena cineraria","species","other_wild_bees",1,800,60,NA,"Six 2000m transects were sampled. Sampling was conducted in a 20 x 20 m area every 100 m. Here results represent samping points with pollinator records from oilseed rape.  At point stops, wild bees and hoverflies were sampled for 20 min using insect nets. There were 5 sampling rounds, so some fields turn up more than once, if oilseed rape was in bloom over more than one sampling round",NA
"Frank_Jauker_Brassica_napus_Germany_2006","OSR_07","netting","Andrena cineraria","species","other_wild_bees",1,1600,120,NA,"Six 2000m transects were sampled. Sampling was conducted in a 20 x 20 m area every 100 m. Here results represent samping points with pollinator records from oilseed rape.  At point stops, wild bees and hoverflies were sampled for 20 min using insect nets. There were 5 sampling rounds, so some fields turn up more than once, if oilseed rape was in bloom over more than one sampling round",NA
"Frank_Jauker_Brassica_napus_Germany_2006","OSR_18","netting","Andrena distinguenda","species","other_wild_bees",1,1200,90,NA,"Six 2000m transects were sampled. Sampling was conducted in a 20 x 20 m area every 100 m. Here results represent samping points with pollinator records from oilseed rape.  At point stops, wild bees and hoverflies were sampled for 20 min using insect nets. There were 5 sampling rounds, so some fields turn up more than once, if oilseed rape was in bloom over more than one sampling round",NA
"Frank_Jauker_Brassica_napus_Germany_2006","OSR_07","netting","Andrena flavipes","species","other_wild_bees",2,1600,120,NA,"Six 2000m transects were sampled. Sampling was conducted in a 20 x 20 m area every 100 m. Here results represent samping points with pollinator records from oilseed rape.  At point stops, wild bees and hoverflies were sampled for 20 min using insect nets. There were 5 sampling rounds, so some fields turn up more than once, if oilseed rape was in bloom over more than one sampling round",NA
"Frank_Jauker_Brassica_napus_Germany_2006","OSR_14","netting","Andrena fucata","species","other_wild_bees",1,800,60,NA,"Six 2000m transects were sampled. Sampling was conducted in a 20 x 20 m area every 100 m. Here results represent samping points with pollinator records from oilseed rape.  At point stops, wild bees and hoverflies were sampled for 20 min using insect nets. There were 5 sampling rounds, so some fields turn up more than once, if oilseed rape was in bloom over more than one sampling round",NA
"Frank_Jauker_Brassica_napus_Germany_2006","OSR_01","netting","Andrena gelriae","species","other_wild_bees",1,800,60,NA,"Six 2000m transects were sampled. Sampling was conducted in a 20 x 20 m area every 100 m. Here results represent samping points with pollinator records from oilseed rape.  At point stops, wild bees and hoverflies were sampled for 20 min using insect nets. There were 5 sampling rounds, so some fields turn up more than once, if oilseed rape was in bloom over more than one sampling round",NA
"Frank_Jauker_Brassica_napus_Germany_2006","OSR_09","netting","Andrena gravida","species","other_wild_bees",1,800,60,NA,"Six 2000m transects were sampled. Sampling was conducted in a 20 x 20 m area every 100 m. Here results represent samping points with pollinator records from oilseed rape.  At point stops, wild bees and hoverflies were sampled for 20 min using insect nets. There were 5 sampling rounds, so some fields turn up more than once, if oilseed rape was in bloom over more than one sampling round",NA
"Frank_Jauker_Brassica_napus_Germany_2006","OSR_01","netting","Andrena haemorrhoa","species","other_wild_bees",1,800,60,NA,"Six 2000m transects were sampled. Sampling was conducted in a 20 x 20 m area every 100 m. Here results represent samping points with pollinator records from oilseed rape.  At point stops, wild bees and hoverflies were sampled for 20 min using insect nets. There were 5 sampling rounds, so some fields turn up more than once, if oilseed rape was in bloom over more than one sampling round",NA
"Frank_Jauker_Brassica_napus_Germany_2006","OSR_21","netting","Andrena haemorrhoa","species","other_wild_bees",1,800,60,NA,"Six 2000m transects were sampled. Sampling was conducted in a 20 x 20 m area every 100 m. Here results represent samping points with pollinator records from oilseed rape.  At point stops, wild bees and hoverflies were sampled for 20 min using insect nets. There were 5 sampling rounds, so some fields turn up more than once, if oilseed rape was in bloom over more than one sampling round",NA
"Frank_Jauker_Brassica_napus_Germany_2006","OSR_09","netting","Andrena labiata","species","other_wild_bees",1,800,60,NA,"Six 2000m transects were sampled. Sampling was conducted in a 20 x 20 m area every 100 m. Here results represent samping points with pollinator records from oilseed rape.  At point stops, wild bees and hoverflies were sampled for 20 min using insect nets. There were 5 sampling rounds, so some fields turn up more than once, if oilseed rape was in bloom over more than one sampling round",NA
"Frank_Jauker_Brassica_napus_Germany_2006","OSR_09","netting","Andrena lagopus","species","other_wild_bees",1,800,60,NA,"Six 2000m transects were sampled. Sampling was conducted in a 20 x 20 m area every 100 m. Here results represent samping points with pollinator records from oilseed rape.  At point stops, wild bees and hoverflies were sampled for 20 min using insect nets. There were 5 sampling rounds, so some fields turn up more than once, if oilseed rape was in bloom over more than one sampling round",NA
"Frank_Jauker_Brassica_napus_Germany_2006","OSR_10","netting","Andrena lagopus","species","other_wild_bees",1,800,60,NA,"Six 2000m transects were sampled. Sampling was conducted in a 20 x 20 m area every 100 m. Here results represent samping points with pollinator records from oilseed rape.  At point stops, wild bees and hoverflies were sampled for 20 min using insect nets. There were 5 sampling rounds, so some fields turn up more than once, if oilseed rape was in bloom over more than one sampling round",NA
"Frank_Jauker_Brassica_napus_Germany_2006","OSR_07","netting","Andrena lagopus","species","other_wild_bees",1,1600,120,NA,"Six 2000m transects were sampled. Sampling was conducted in a 20 x 20 m area every 100 m. Here results represent samping points with pollinator records from oilseed rape.  At point stops, wild bees and hoverflies were sampled for 20 min using insect nets. There were 5 sampling rounds, so some fields turn up more than once, if oilseed rape was in bloom over more than one sampling round",NA
"Frank_Jauker_Brassica_napus_Germany_2006","OSR_01","netting","Andrena minutula-aggregate","morphospecies","other_wild_bees",3,800,60,NA,"Six 2000m transects were sampled. Sampling was conducted in a 20 x 20 m area every 100 m. Here results represent samping points with pollinator records from oilseed rape.  At point stops, wild bees and hoverflies were sampled for 20 min using insect nets. There were 5 sampling rounds, so some fields turn up more than once, if oilseed rape was in bloom over more than one sampling round",NA
"Frank_Jauker_Brassica_napus_Germany_2006","OSR_14","netting","Andrena minutula-aggregate","morphospecies","other_wild_bees",2,800,60,NA,"Six 2000m transects were sampled. Sampling was conducted in a 20 x 20 m area every 100 m. Here results represent samping points with pollinator records from oilseed rape.  At point stops, wild bees and hoverflies were sampled for 20 min using insect nets. There were 5 sampling rounds, so some fields turn up more than once, if oilseed rape was in bloom over more than one sampling round",NA
"Frank_Jauker_Brassica_napus_Germany_2006","OSR_05","netting","Andrena minutula-aggregate","morphospecies","other_wild_bees",1,400,30,NA,"Six 2000m transects were sampled. Sampling was conducted in a 20 x 20 m area every 100 m. Here results represent samping points with pollinator records from oilseed rape.  At point stops, wild bees and hoverflies were sampled for 20 min using insect nets. There were 5 sampling rounds, so some fields turn up more than once, if oilseed rape was in bloom over more than one sampling round",NA
"Frank_Jauker_Brassica_napus_Germany_2006","OSR_10","netting","Andrena minutula-aggregate","morphospecies","other_wild_bees",2,800,60,NA,"Six 2000m transects were sampled. Sampling was conducted in a 20 x 20 m area every 100 m. Here results represent samping points with pollinator records from oilseed rape.  At point stops, wild bees and hoverflies were sampled for 20 min using insect nets. There were 5 sampling rounds, so some fields turn up more than once, if oilseed rape was in bloom over more than one sampling round",NA
"Frank_Jauker_Brassica_napus_Germany_2006","OSR_07","netting","Andrena minutula-aggregate","morphospecies","other_wild_bees",1,1600,120,NA,"Six 2000m transects were sampled. Sampling was conducted in a 20 x 20 m area every 100 m. Here results represent samping points with pollinator records from oilseed rape.  At point stops, wild bees and hoverflies were sampled for 20 min using insect nets. There were 5 sampling rounds, so some fields turn up more than once, if oilseed rape was in bloom over more than one sampling round",NA
"Frank_Jauker_Brassica_napus_Germany_2006","OSR_01","netting","Andrena nigroaenea","species","other_wild_bees",1,800,60,NA,"Six 2000m transects were sampled. Sampling was conducted in a 20 x 20 m area every 100 m. Here results represent samping points with pollinator records from oilseed rape.  At point stops, wild bees and hoverflies were sampled for 20 min using insect nets. There were 5 sampling rounds, so some fields turn up more than once, if oilseed rape was in bloom over more than one sampling round",NA
"Frank_Jauker_Brassica_napus_Germany_2006","OSR_15","netting","Andrena nigroaenea","species","other_wild_bees",1,400,30,NA,"Six 2000m transects were sampled. Sampling was conducted in a 20 x 20 m area every 100 m. Here results represent samping points with pollinator records from oilseed rape.  At point stops, wild bees and hoverflies were sampled for 20 min using insect nets. There were 5 sampling rounds, so some fields turn up more than once, if oilseed rape was in bloom over more than one sampling round",NA
"Frank_Jauker_Brassica_napus_Germany_2006","OSR_05","netting","Andrena nigroaenea","species","other_wild_bees",1,400,30,NA,"Six 2000m transects were sampled. Sampling was conducted in a 20 x 20 m area every 100 m. Here results represent samping points with pollinator records from oilseed rape.  At point stops, wild bees and hoverflies were sampled for 20 min using insect nets. There were 5 sampling rounds, so some fields turn up more than once, if oilseed rape was in bloom over more than one sampling round",NA
"Frank_Jauker_Brassica_napus_Germany_2006","OSR_12","netting","Andrena nigroaenea","species","other_wild_bees",1,1200,90,NA,"Six 2000m transects were sampled. Sampling was conducted in a 20 x 20 m area every 100 m. Here results represent samping points with pollinator records from oilseed rape.  At point stops, wild bees and hoverflies were sampled for 20 min using insect nets. There were 5 sampling rounds, so some fields turn up more than once, if oilseed rape was in bloom over more than one sampling round",NA
"Frank_Jauker_Brassica_napus_Germany_2006","OSR_14","netting","Andrena nigroaenea","species","other_wild_bees",2,800,60,NA,"Six 2000m transects were sampled. Sampling was conducted in a 20 x 20 m area every 100 m. Here results represent samping points with pollinator records from oilseed rape.  At point stops, wild bees and hoverflies were sampled for 20 min using insect nets. There were 5 sampling rounds, so some fields turn up more than once, if oilseed rape was in bloom over more than one sampling round",NA
"Frank_Jauker_Brassica_napus_Germany_2006","OSR_05","netting","Andrena nitida","species","other_wild_bees",1,400,30,NA,"Six 2000m transects were sampled. Sampling was conducted in a 20 x 20 m area every 100 m. Here results represent samping points with pollinator records from oilseed rape.  At point stops, wild bees and hoverflies were sampled for 20 min using insect nets. There were 5 sampling rounds, so some fields turn up more than once, if oilseed rape was in bloom over more than one sampling round",NA
"Frank_Jauker_Brassica_napus_Germany_2006","OSR_01","netting","Apis melifera","species","honeybees",3,800,60,NA,"Six 2000m transects were sampled. Sampling was conducted in a 20 x 20 m area every 100 m. Here results represent samping points with pollinator records from oilseed rape.  At point stops, wild bees and hoverflies were sampled for 20 min using insect nets. There were 5 sampling rounds, so some fields turn up more than once, if oilseed rape was in bloom over more than one sampling round",NA
"Frank_Jauker_Brassica_napus_Germany_2006","OSR_02","netting","Apis melifera","species","honeybees",2,400,30,NA,"Six 2000m transects were sampled. Sampling was conducted in a 20 x 20 m area every 100 m. Here results represent samping points with pollinator records from oilseed rape.  At point stops, wild bees and hoverflies were sampled for 20 min using insect nets. There were 5 sampling rounds, so some fields turn up more than once, if oilseed rape was in bloom over more than one sampling round",NA
"Frank_Jauker_Brassica_napus_Germany_2006","OSR_09","netting","Apis melifera","species","honeybees",12,800,60,NA,"Six 2000m transects were sampled. Sampling was conducted in a 20 x 20 m area every 100 m. Here results represent samping points with pollinator records from oilseed rape.  At point stops, wild bees and hoverflies were sampled for 20 min using insect nets. There were 5 sampling rounds, so some fields turn up more than once, if oilseed rape was in bloom over more than one sampling round",NA
"Frank_Jauker_Brassica_napus_Germany_2006","OSR_12","netting","Apis melifera","species","honeybees",1,1200,90,NA,"Six 2000m transects were sampled. Sampling was conducted in a 20 x 20 m area every 100 m. Here results represent samping points with pollinator records from oilseed rape.  At point stops, wild bees and hoverflies were sampled for 20 min using insect nets. There were 5 sampling rounds, so some fields turn up more than once, if oilseed rape was in bloom over more than one sampling round",NA
"Frank_Jauker_Brassica_napus_Germany_2006","OSR_13","netting","Apis melifera","species","honeybees",11,800,60,NA,"Six 2000m transects were sampled. Sampling was conducted in a 20 x 20 m area every 100 m. Here results represent samping points with pollinator records from oilseed rape.  At point stops, wild bees and hoverflies were sampled for 20 min using insect nets. There were 5 sampling rounds, so some fields turn up more than once, if oilseed rape was in bloom over more than one sampling round",NA
"Frank_Jauker_Brassica_napus_Germany_2006","OSR_14","netting","Apis melifera","species","honeybees",23,800,60,NA,"Six 2000m transects were sampled. Sampling was conducted in a 20 x 20 m area every 100 m. Here results represent samping points with pollinator records from oilseed rape.  At point stops, wild bees and hoverflies were sampled for 20 min using insect nets. There were 5 sampling rounds, so some fields turn up more than once, if oilseed rape was in bloom over more than one sampling round",NA
"Frank_Jauker_Brassica_napus_Germany_2006","OSR_16","netting","Apis melifera","species","honeybees",20,800,60,NA,"Six 2000m transects were sampled. Sampling was conducted in a 20 x 20 m area every 100 m. Here results represent samping points with pollinator records from oilseed rape.  At point stops, wild bees and hoverflies were sampled for 20 min using insect nets. There were 5 sampling rounds, so some fields turn up more than once, if oilseed rape was in bloom over more than one sampling round",NA
"Frank_Jauker_Brassica_napus_Germany_2006","OSR_18","netting","Apis melifera","species","honeybees",5,1200,90,NA,"Six 2000m transects were sampled. Sampling was conducted in a 20 x 20 m area every 100 m. Here results represent samping points with pollinator records from oilseed rape.  At point stops, wild bees and hoverflies were sampled for 20 min using insect nets. There were 5 sampling rounds, so some fields turn up more than once, if oilseed rape was in bloom over more than one sampling round",NA
"Frank_Jauker_Brassica_napus_Germany_2006","OSR_24","netting","Apis melifera","species","honeybees",6,400,30,NA,"Six 2000m transects were sampled. Sampling was conducted in a 20 x 20 m area every 100 m. Here results represent samping points with pollinator records from oilseed rape.  At point stops, wild bees and hoverflies were sampled for 20 min using insect nets. There were 5 sampling rounds, so some fields turn up more than once, if oilseed rape was in bloom over more than one sampling round",NA
"Frank_Jauker_Brassica_napus_Germany_2006","OSR_07","netting","Apis melifera","species","honeybees",2,1600,120,NA,"Six 2000m transects were sampled. Sampling was conducted in a 20 x 20 m area every 100 m. Here results represent samping points with pollinator records from oilseed rape.  At point stops, wild bees and hoverflies were sampled for 20 min using insect nets. There were 5 sampling rounds, so some fields turn up more than once, if oilseed rape was in bloom over more than one sampling round",NA
"Frank_Jauker_Brassica_napus_Germany_2006","OSR_05","netting","Apis melifera","species","honeybees",5,400,30,NA,"Six 2000m transects were sampled. Sampling was conducted in a 20 x 20 m area every 100 m. Here results represent samping points with pollinator records from oilseed rape.  At point stops, wild bees and hoverflies were sampled for 20 min using insect nets. There were 5 sampling rounds, so some fields turn up more than once, if oilseed rape was in bloom over more than one sampling round",NA
"Frank_Jauker_Brassica_napus_Germany_2006","OSR_19","netting","Apis melifera","species","honeybees",1,400,30,NA,"Six 2000m transects were sampled. Sampling was conducted in a 20 x 20 m area every 100 m. Here results represent samping points with pollinator records from oilseed rape.  At point stops, wild bees and hoverflies were sampled for 20 min using insect nets. There were 5 sampling rounds, so some fields turn up more than once, if oilseed rape was in bloom over more than one sampling round",NA
"Frank_Jauker_Brassica_napus_Germany_2006","OSR_20","netting","Apis melifera","species","honeybees",5,400,30,NA,"Six 2000m transects were sampled. Sampling was conducted in a 20 x 20 m area every 100 m. Here results represent samping points with pollinator records from oilseed rape.  At point stops, wild bees and hoverflies were sampled for 20 min using insect nets. There were 5 sampling rounds, so some fields turn up more than once, if oilseed rape was in bloom over more than one sampling round",NA
"Frank_Jauker_Brassica_napus_Germany_2006","OSR_21","netting","Apis melifera","species","honeybees",18,800,60,NA,"Six 2000m transects were sampled. Sampling was conducted in a 20 x 20 m area every 100 m. Here results represent samping points with pollinator records from oilseed rape.  At point stops, wild bees and hoverflies were sampled for 20 min using insect nets. There were 5 sampling rounds, so some fields turn up more than once, if oilseed rape was in bloom over more than one sampling round",NA
"Frank_Jauker_Brassica_napus_Germany_2006","OSR_22","netting","Apis melifera","species","honeybees",3,400,30,NA,"Six 2000m transects were sampled. Sampling was conducted in a 20 x 20 m area every 100 m. Here results represent samping points with pollinator records from oilseed rape.  At point stops, wild bees and hoverflies were sampled for 20 min using insect nets. There were 5 sampling rounds, so some fields turn up more than once, if oilseed rape was in bloom over more than one sampling round",NA
"Frank_Jauker_Brassica_napus_Germany_2006","OSR_23","netting","Apis melifera","species","honeybees",6,800,60,NA,"Six 2000m transects were sampled. Sampling was conducted in a 20 x 20 m area every 100 m. Here results represent samping points with pollinator records from oilseed rape.  At point stops, wild bees and hoverflies were sampled for 20 min using insect nets. There were 5 sampling rounds, so some fields turn up more than once, if oilseed rape was in bloom over more than one sampling round",NA
"Frank_Jauker_Brassica_napus_Germany_2006","OSR_09","netting","Apis melifera","species","honeybees",2,800,60,NA,"Six 2000m transects were sampled. Sampling was conducted in a 20 x 20 m area every 100 m. Here results represent samping points with pollinator records from oilseed rape.  At point stops, wild bees and hoverflies were sampled for 20 min using insect nets. There were 5 sampling rounds, so some fields turn up more than once, if oilseed rape was in bloom over more than one sampling round",NA
"Frank_Jauker_Brassica_napus_Germany_2006","OSR_16","netting","Apis melifera","species","honeybees",1,800,60,NA,"Six 2000m transects were sampled. Sampling was conducted in a 20 x 20 m area every 100 m. Here results represent samping points with pollinator records from oilseed rape.  At point stops, wild bees and hoverflies were sampled for 20 min using insect nets. There were 5 sampling rounds, so some fields turn up more than once, if oilseed rape was in bloom over more than one sampling round",NA
"Frank_Jauker_Brassica_napus_Germany_2006","OSR_18","netting","Apis melifera","species","honeybees",2,1200,90,NA,"Six 2000m transects were sampled. Sampling was conducted in a 20 x 20 m area every 100 m. Here results represent samping points with pollinator records from oilseed rape.  At point stops, wild bees and hoverflies were sampled for 20 min using insect nets. There were 5 sampling rounds, so some fields turn up more than once, if oilseed rape was in bloom over more than one sampling round",NA
"Frank_Jauker_Brassica_napus_Germany_2006","OSR_13","netting","Apis melifera","species","honeybees",2,800,60,NA,"Six 2000m transects were sampled. Sampling was conducted in a 20 x 20 m area every 100 m. Here results represent samping points with pollinator records from oilseed rape.  At point stops, wild bees and hoverflies were sampled for 20 min using insect nets. There were 5 sampling rounds, so some fields turn up more than once, if oilseed rape was in bloom over more than one sampling round",NA
"Frank_Jauker_Brassica_napus_Germany_2006","OSR_18","netting","Apis melifera","species","honeybees",2,1200,90,NA,"Six 2000m transects were sampled. Sampling was conducted in a 20 x 20 m area every 100 m. Here results represent samping points with pollinator records from oilseed rape.  At point stops, wild bees and hoverflies were sampled for 20 min using insect nets. There were 5 sampling rounds, so some fields turn up more than once, if oilseed rape was in bloom over more than one sampling round",NA
"Frank_Jauker_Brassica_napus_Germany_2006","OSR_07","netting","Apis melifera","species","honeybees",16,1600,120,NA,"Six 2000m transects were sampled. Sampling was conducted in a 20 x 20 m area every 100 m. Here results represent samping points with pollinator records from oilseed rape.  At point stops, wild bees and hoverflies were sampled for 20 min using insect nets. There were 5 sampling rounds, so some fields turn up more than once, if oilseed rape was in bloom over more than one sampling round",NA
"Frank_Jauker_Brassica_napus_Germany_2006","OSR_07","netting","Apis melifera","species","honeybees",3,1600,120,NA,"Six 2000m transects were sampled. Sampling was conducted in a 20 x 20 m area every 100 m. Here results represent samping points with pollinator records from oilseed rape.  At point stops, wild bees and hoverflies were sampled for 20 min using insect nets. There were 5 sampling rounds, so some fields turn up more than once, if oilseed rape was in bloom over more than one sampling round",NA
"Frank_Jauker_Brassica_napus_Germany_2006","OSR_23","netting","Apis melifera","species","honeybees",1,800,60,NA,"Six 2000m transects were sampled. Sampling was conducted in a 20 x 20 m area every 100 m. Here results represent samping points with pollinator records from oilseed rape.  At point stops, wild bees and hoverflies were sampled for 20 min using insect nets. There were 5 sampling rounds, so some fields turn up more than once, if oilseed rape was in bloom over more than one sampling round",NA
"Frank_Jauker_Brassica_napus_Germany_2006","OSR_01","netting","Bombus lapidarius","species","bumblebees",8,800,60,NA,"Six 2000m transects were sampled. Sampling was conducted in a 20 x 20 m area every 100 m. Here results represent samping points with pollinator records from oilseed rape.  At point stops, wild bees and hoverflies were sampled for 20 min using insect nets. There were 5 sampling rounds, so some fields turn up more than once, if oilseed rape was in bloom over more than one sampling round",NA
"Frank_Jauker_Brassica_napus_Germany_2006","OSR_02","netting","Bombus lapidarius","species","bumblebees",3,400,30,NA,"Six 2000m transects were sampled. Sampling was conducted in a 20 x 20 m area every 100 m. Here results represent samping points with pollinator records from oilseed rape.  At point stops, wild bees and hoverflies were sampled for 20 min using insect nets. There were 5 sampling rounds, so some fields turn up more than once, if oilseed rape was in bloom over more than one sampling round",NA
"Frank_Jauker_Brassica_napus_Germany_2006","OSR_09","netting","Bombus lapidarius","species","bumblebees",13,800,60,NA,"Six 2000m transects were sampled. Sampling was conducted in a 20 x 20 m area every 100 m. Here results represent samping points with pollinator records from oilseed rape.  At point stops, wild bees and hoverflies were sampled for 20 min using insect nets. There were 5 sampling rounds, so some fields turn up more than once, if oilseed rape was in bloom over more than one sampling round",NA
"Frank_Jauker_Brassica_napus_Germany_2006","OSR_14","netting","Bombus lapidarius","species","bumblebees",1,800,60,NA,"Six 2000m transects were sampled. Sampling was conducted in a 20 x 20 m area every 100 m. Here results represent samping points with pollinator records from oilseed rape.  At point stops, wild bees and hoverflies were sampled for 20 min using insect nets. There were 5 sampling rounds, so some fields turn up more than once, if oilseed rape was in bloom over more than one sampling round",NA
"Frank_Jauker_Brassica_napus_Germany_2006","OSR_16","netting","Bombus lapidarius","species","bumblebees",2,800,60,NA,"Six 2000m transects were sampled. Sampling was conducted in a 20 x 20 m area every 100 m. Here results represent samping points with pollinator records from oilseed rape.  At point stops, wild bees and hoverflies were sampled for 20 min using insect nets. There were 5 sampling rounds, so some fields turn up more than once, if oilseed rape was in bloom over more than one sampling round",NA
"Frank_Jauker_Brassica_napus_Germany_2006","OSR_17","netting","Bombus lapidarius","species","bumblebees",1,800,60,NA,"Six 2000m transects were sampled. Sampling was conducted in a 20 x 20 m area every 100 m. Here results represent samping points with pollinator records from oilseed rape.  At point stops, wild bees and hoverflies were sampled for 20 min using insect nets. There were 5 sampling rounds, so some fields turn up more than once, if oilseed rape was in bloom over more than one sampling round",NA
"Frank_Jauker_Brassica_napus_Germany_2006","OSR_18","netting","Bombus lapidarius","species","bumblebees",2,1200,90,NA,"Six 2000m transects were sampled. Sampling was conducted in a 20 x 20 m area every 100 m. Here results represent samping points with pollinator records from oilseed rape.  At point stops, wild bees and hoverflies were sampled for 20 min using insect nets. There were 5 sampling rounds, so some fields turn up more than once, if oilseed rape was in bloom over more than one sampling round",NA
"Frank_Jauker_Brassica_napus_Germany_2006","OSR_04","netting","Bombus lapidarius","species","bumblebees",2,400,30,NA,"Six 2000m transects were sampled. Sampling was conducted in a 20 x 20 m area every 100 m. Here results represent samping points with pollinator records from oilseed rape.  At point stops, wild bees and hoverflies were sampled for 20 min using insect nets. There were 5 sampling rounds, so some fields turn up more than once, if oilseed rape was in bloom over more than one sampling round",NA
"Frank_Jauker_Brassica_napus_Germany_2006","OSR_05","netting","Bombus lapidarius","species","bumblebees",2,400,30,NA,"Six 2000m transects were sampled. Sampling was conducted in a 20 x 20 m area every 100 m. Here results represent samping points with pollinator records from oilseed rape.  At point stops, wild bees and hoverflies were sampled for 20 min using insect nets. There were 5 sampling rounds, so some fields turn up more than once, if oilseed rape was in bloom over more than one sampling round",NA
"Frank_Jauker_Brassica_napus_Germany_2006","OSR_21","netting","Bombus lapidarius","species","bumblebees",1,800,60,NA,"Six 2000m transects were sampled. Sampling was conducted in a 20 x 20 m area every 100 m. Here results represent samping points with pollinator records from oilseed rape.  At point stops, wild bees and hoverflies were sampled for 20 min using insect nets. There were 5 sampling rounds, so some fields turn up more than once, if oilseed rape was in bloom over more than one sampling round",NA
"Frank_Jauker_Brassica_napus_Germany_2006","OSR_22","netting","Bombus lapidarius","species","bumblebees",1,400,30,NA,"Six 2000m transects were sampled. Sampling was conducted in a 20 x 20 m area every 100 m. Here results represent samping points with pollinator records from oilseed rape.  At point stops, wild bees and hoverflies were sampled for 20 min using insect nets. There were 5 sampling rounds, so some fields turn up more than once, if oilseed rape was in bloom over more than one sampling round",NA
"Frank_Jauker_Brassica_napus_Germany_2006","OSR_23","netting","Bombus lapidarius","species","bumblebees",4,800,60,NA,"Six 2000m transects were sampled. Sampling was conducted in a 20 x 20 m area every 100 m. Here results represent samping points with pollinator records from oilseed rape.  At point stops, wild bees and hoverflies were sampled for 20 min using insect nets. There were 5 sampling rounds, so some fields turn up more than once, if oilseed rape was in bloom over more than one sampling round",NA
"Frank_Jauker_Brassica_napus_Germany_2006","OSR_09","netting","Bombus lapidarius","species","bumblebees",1,800,60,NA,"Six 2000m transects were sampled. Sampling was conducted in a 20 x 20 m area every 100 m. Here results represent samping points with pollinator records from oilseed rape.  At point stops, wild bees and hoverflies were sampled for 20 min using insect nets. There were 5 sampling rounds, so some fields turn up more than once, if oilseed rape was in bloom over more than one sampling round",NA
"Frank_Jauker_Brassica_napus_Germany_2006","OSR_10","netting","Bombus lapidarius","species","bumblebees",1,800,60,NA,"Six 2000m transects were sampled. Sampling was conducted in a 20 x 20 m area every 100 m. Here results represent samping points with pollinator records from oilseed rape.  At point stops, wild bees and hoverflies were sampled for 20 min using insect nets. There were 5 sampling rounds, so some fields turn up more than once, if oilseed rape was in bloom over more than one sampling round",NA
"Frank_Jauker_Brassica_napus_Germany_2006","OSR_01","netting","Bombus lapidarius","species","bumblebees",1,800,60,NA,"Six 2000m transects were sampled. Sampling was conducted in a 20 x 20 m area every 100 m. Here results represent samping points with pollinator records from oilseed rape.  At point stops, wild bees and hoverflies were sampled for 20 min using insect nets. There were 5 sampling rounds, so some fields turn up more than once, if oilseed rape was in bloom over more than one sampling round",NA
"Frank_Jauker_Brassica_napus_Germany_2006","OSR_17","netting","Bombus lapidarius","species","bumblebees",1,800,60,NA,"Six 2000m transects were sampled. Sampling was conducted in a 20 x 20 m area every 100 m. Here results represent samping points with pollinator records from oilseed rape.  At point stops, wild bees and hoverflies were sampled for 20 min using insect nets. There were 5 sampling rounds, so some fields turn up more than once, if oilseed rape was in bloom over more than one sampling round",NA
"Frank_Jauker_Brassica_napus_Germany_2006","OSR_13","netting","Bombus lapidarius","species","bumblebees",1,800,60,NA,"Six 2000m transects were sampled. Sampling was conducted in a 20 x 20 m area every 100 m. Here results represent samping points with pollinator records from oilseed rape.  At point stops, wild bees and hoverflies were sampled for 20 min using insect nets. There were 5 sampling rounds, so some fields turn up more than once, if oilseed rape was in bloom over more than one sampling round",NA
"Frank_Jauker_Brassica_napus_Germany_2006","OSR_14","netting","Bombus lapidarius","species","bumblebees",1,800,60,NA,"Six 2000m transects were sampled. Sampling was conducted in a 20 x 20 m area every 100 m. Here results represent samping points with pollinator records from oilseed rape.  At point stops, wild bees and hoverflies were sampled for 20 min using insect nets. There were 5 sampling rounds, so some fields turn up more than once, if oilseed rape was in bloom over more than one sampling round",NA
"Frank_Jauker_Brassica_napus_Germany_2006","OSR_18","netting","Bombus lapidarius","species","bumblebees",3,1200,90,NA,"Six 2000m transects were sampled. Sampling was conducted in a 20 x 20 m area every 100 m. Here results represent samping points with pollinator records from oilseed rape.  At point stops, wild bees and hoverflies were sampled for 20 min using insect nets. There were 5 sampling rounds, so some fields turn up more than once, if oilseed rape was in bloom over more than one sampling round",NA
"Frank_Jauker_Brassica_napus_Germany_2006","OSR_07","netting","Bombus lapidarius","species","bumblebees",6,1600,120,NA,"Six 2000m transects were sampled. Sampling was conducted in a 20 x 20 m area every 100 m. Here results represent samping points with pollinator records from oilseed rape.  At point stops, wild bees and hoverflies were sampled for 20 min using insect nets. There were 5 sampling rounds, so some fields turn up more than once, if oilseed rape was in bloom over more than one sampling round",NA
"Frank_Jauker_Brassica_napus_Germany_2006","OSR_07","netting","Bombus lapidarius","species","bumblebees",1,1600,120,NA,"Six 2000m transects were sampled. Sampling was conducted in a 20 x 20 m area every 100 m. Here results represent samping points with pollinator records from oilseed rape.  At point stops, wild bees and hoverflies were sampled for 20 min using insect nets. There were 5 sampling rounds, so some fields turn up more than once, if oilseed rape was in bloom over more than one sampling round",NA
"Frank_Jauker_Brassica_napus_Germany_2006","OSR_01","netting","Bombus pascuorum","species","bumblebees",2,800,60,NA,"Six 2000m transects were sampled. Sampling was conducted in a 20 x 20 m area every 100 m. Here results represent samping points with pollinator records from oilseed rape.  At point stops, wild bees and hoverflies were sampled for 20 min using insect nets. There were 5 sampling rounds, so some fields turn up more than once, if oilseed rape was in bloom over more than one sampling round",NA
"Frank_Jauker_Brassica_napus_Germany_2006","OSR_18","netting","Bombus pascuorum","species","bumblebees",1,1200,90,NA,"Six 2000m transects were sampled. Sampling was conducted in a 20 x 20 m area every 100 m. Here results represent samping points with pollinator records from oilseed rape.  At point stops, wild bees and hoverflies were sampled for 20 min using insect nets. There were 5 sampling rounds, so some fields turn up more than once, if oilseed rape was in bloom over more than one sampling round",NA
"Frank_Jauker_Brassica_napus_Germany_2006","OSR_07","netting","Bombus pascuorum","species","bumblebees",2,1600,120,NA,"Six 2000m transects were sampled. Sampling was conducted in a 20 x 20 m area every 100 m. Here results represent samping points with pollinator records from oilseed rape.  At point stops, wild bees and hoverflies were sampled for 20 min using insect nets. There were 5 sampling rounds, so some fields turn up more than once, if oilseed rape was in bloom over more than one sampling round",NA
"Frank_Jauker_Brassica_napus_Germany_2006","OSR_13","netting","Bombus pascuorum","species","bumblebees",2,800,60,NA,"Six 2000m transects were sampled. Sampling was conducted in a 20 x 20 m area every 100 m. Here results represent samping points with pollinator records from oilseed rape.  At point stops, wild bees and hoverflies were sampled for 20 min using insect nets. There were 5 sampling rounds, so some fields turn up more than once, if oilseed rape was in bloom over more than one sampling round",NA
"Frank_Jauker_Brassica_napus_Germany_2006","OSR_07","netting","Bombus pascuorum","species","bumblebees",3,1600,120,NA,"Six 2000m transects were sampled. Sampling was conducted in a 20 x 20 m area every 100 m. Here results represent samping points with pollinator records from oilseed rape.  At point stops, wild bees and hoverflies were sampled for 20 min using insect nets. There were 5 sampling rounds, so some fields turn up more than once, if oilseed rape was in bloom over more than one sampling round",NA
"Frank_Jauker_Brassica_napus_Germany_2006","OSR_07","netting","Bombus pascuorum","species","bumblebees",1,1600,120,NA,"Six 2000m transects were sampled. Sampling was conducted in a 20 x 20 m area every 100 m. Here results represent samping points with pollinator records from oilseed rape.  At point stops, wild bees and hoverflies were sampled for 20 min using insect nets. There were 5 sampling rounds, so some fields turn up more than once, if oilseed rape was in bloom over more than one sampling round",NA
"Frank_Jauker_Brassica_napus_Germany_2006","OSR_16","netting","Bombus sylvarum","species","bumblebees",1,800,60,NA,"Six 2000m transects were sampled. Sampling was conducted in a 20 x 20 m area every 100 m. Here results represent samping points with pollinator records from oilseed rape.  At point stops, wild bees and hoverflies were sampled for 20 min using insect nets. There were 5 sampling rounds, so some fields turn up more than once, if oilseed rape was in bloom over more than one sampling round",NA
"Frank_Jauker_Brassica_napus_Germany_2006","OSR_07","netting","Bombus sylvarum","species","bumblebees",1,1600,120,NA,"Six 2000m transects were sampled. Sampling was conducted in a 20 x 20 m area every 100 m. Here results represent samping points with pollinator records from oilseed rape.  At point stops, wild bees and hoverflies were sampled for 20 min using insect nets. There were 5 sampling rounds, so some fields turn up more than once, if oilseed rape was in bloom over more than one sampling round",NA
"Frank_Jauker_Brassica_napus_Germany_2006","OSR_02","netting","Bombus terrestris-aggregate","morphospecies","bumblebees",2,400,30,NA,"Six 2000m transects were sampled. Sampling was conducted in a 20 x 20 m area every 100 m. Here results represent samping points with pollinator records from oilseed rape.  At point stops, wild bees and hoverflies were sampled for 20 min using insect nets. There were 5 sampling rounds, so some fields turn up more than once, if oilseed rape was in bloom over more than one sampling round",NA
"Frank_Jauker_Brassica_napus_Germany_2006","OSR_06","netting","Bombus terrestris-aggregate","morphospecies","bumblebees",2,1200,90,NA,"Six 2000m transects were sampled. Sampling was conducted in a 20 x 20 m area every 100 m. Here results represent samping points with pollinator records from oilseed rape.  At point stops, wild bees and hoverflies were sampled for 20 min using insect nets. There were 5 sampling rounds, so some fields turn up more than once, if oilseed rape was in bloom over more than one sampling round",NA
"Frank_Jauker_Brassica_napus_Germany_2006","OSR_09","netting","Bombus terrestris-aggregate","morphospecies","bumblebees",4,800,60,NA,"Six 2000m transects were sampled. Sampling was conducted in a 20 x 20 m area every 100 m. Here results represent samping points with pollinator records from oilseed rape.  At point stops, wild bees and hoverflies were sampled for 20 min using insect nets. There were 5 sampling rounds, so some fields turn up more than once, if oilseed rape was in bloom over more than one sampling round",NA
"Frank_Jauker_Brassica_napus_Germany_2006","OSR_16","netting","Bombus terrestris-aggregate","morphospecies","bumblebees",1,800,60,NA,"Six 2000m transects were sampled. Sampling was conducted in a 20 x 20 m area every 100 m. Here results represent samping points with pollinator records from oilseed rape.  At point stops, wild bees and hoverflies were sampled for 20 min using insect nets. There were 5 sampling rounds, so some fields turn up more than once, if oilseed rape was in bloom over more than one sampling round",NA
"Frank_Jauker_Brassica_napus_Germany_2006","OSR_18","netting","Bombus terrestris-aggregate","morphospecies","bumblebees",1,1200,90,NA,"Six 2000m transects were sampled. Sampling was conducted in a 20 x 20 m area every 100 m. Here results represent samping points with pollinator records from oilseed rape.  At point stops, wild bees and hoverflies were sampled for 20 min using insect nets. There were 5 sampling rounds, so some fields turn up more than once, if oilseed rape was in bloom over more than one sampling round",NA
"Frank_Jauker_Brassica_napus_Germany_2006","OSR_03","netting","Bombus terrestris-aggregate","morphospecies","bumblebees",1,400,30,NA,"Six 2000m transects were sampled. Sampling was conducted in a 20 x 20 m area every 100 m. Here results represent samping points with pollinator records from oilseed rape.  At point stops, wild bees and hoverflies were sampled for 20 min using insect nets. There were 5 sampling rounds, so some fields turn up more than once, if oilseed rape was in bloom over more than one sampling round",NA
"Frank_Jauker_Brassica_napus_Germany_2006","OSR_05","netting","Bombus terrestris-aggregate","morphospecies","bumblebees",4,400,30,NA,"Six 2000m transects were sampled. Sampling was conducted in a 20 x 20 m area every 100 m. Here results represent samping points with pollinator records from oilseed rape.  At point stops, wild bees and hoverflies were sampled for 20 min using insect nets. There were 5 sampling rounds, so some fields turn up more than once, if oilseed rape was in bloom over more than one sampling round",NA
"Frank_Jauker_Brassica_napus_Germany_2006","OSR_23","netting","Bombus terrestris-aggregate","morphospecies","bumblebees",2,800,60,NA,"Six 2000m transects were sampled. Sampling was conducted in a 20 x 20 m area every 100 m. Here results represent samping points with pollinator records from oilseed rape.  At point stops, wild bees and hoverflies were sampled for 20 min using insect nets. There were 5 sampling rounds, so some fields turn up more than once, if oilseed rape was in bloom over more than one sampling round",NA
"Frank_Jauker_Brassica_napus_Germany_2006","OSR_12","netting","Bombus terrestris-aggregate","morphospecies","bumblebees",1,1200,90,NA,"Six 2000m transects were sampled. Sampling was conducted in a 20 x 20 m area every 100 m. Here results represent samping points with pollinator records from oilseed rape.  At point stops, wild bees and hoverflies were sampled for 20 min using insect nets. There were 5 sampling rounds, so some fields turn up more than once, if oilseed rape was in bloom over more than one sampling round",NA
"Frank_Jauker_Brassica_napus_Germany_2006","OSR_16","netting","Bombus terrestris-aggregate","morphospecies","bumblebees",1,800,60,NA,"Six 2000m transects were sampled. Sampling was conducted in a 20 x 20 m area every 100 m. Here results represent samping points with pollinator records from oilseed rape.  At point stops, wild bees and hoverflies were sampled for 20 min using insect nets. There were 5 sampling rounds, so some fields turn up more than once, if oilseed rape was in bloom over more than one sampling round",NA
"Frank_Jauker_Brassica_napus_Germany_2006","OSR_18","netting","Bombus terrestris-aggregate","morphospecies","bumblebees",1,1200,90,NA,"Six 2000m transects were sampled. Sampling was conducted in a 20 x 20 m area every 100 m. Here results represent samping points with pollinator records from oilseed rape.  At point stops, wild bees and hoverflies were sampled for 20 min using insect nets. There were 5 sampling rounds, so some fields turn up more than once, if oilseed rape was in bloom over more than one sampling round",NA
"Frank_Jauker_Brassica_napus_Germany_2006","OSR_07","netting","Bombus terrestris-aggregate","morphospecies","bumblebees",1,1600,120,NA,"Six 2000m transects were sampled. Sampling was conducted in a 20 x 20 m area every 100 m. Here results represent samping points with pollinator records from oilseed rape.  At point stops, wild bees and hoverflies were sampled for 20 min using insect nets. There were 5 sampling rounds, so some fields turn up more than once, if oilseed rape was in bloom over more than one sampling round",NA
"Frank_Jauker_Brassica_napus_Germany_2006","OSR_10","netting","Hylaeus gredleri","species","other_wild_bees",1,800,60,NA,"Six 2000m transects were sampled. Sampling was conducted in a 20 x 20 m area every 100 m. Here results represent samping points with pollinator records from oilseed rape.  At point stops, wild bees and hoverflies were sampled for 20 min using insect nets. There were 5 sampling rounds, so some fields turn up more than once, if oilseed rape was in bloom over more than one sampling round",NA
"Frank_Jauker_Brassica_napus_Germany_2006","OSR_07","netting","Hylaeus signatus","species","other_wild_bees",1,1600,120,NA,"Six 2000m transects were sampled. Sampling was conducted in a 20 x 20 m area every 100 m. Here results represent samping points with pollinator records from oilseed rape.  At point stops, wild bees and hoverflies were sampled for 20 min using insect nets. There were 5 sampling rounds, so some fields turn up more than once, if oilseed rape was in bloom over more than one sampling round",NA
"Frank_Jauker_Brassica_napus_Germany_2006","OSR_09","netting","Lasioglossum calceatum","species","other_wild_bees",1,800,60,NA,"Six 2000m transects were sampled. Sampling was conducted in a 20 x 20 m area every 100 m. Here results represent samping points with pollinator records from oilseed rape.  At point stops, wild bees and hoverflies were sampled for 20 min using insect nets. There were 5 sampling rounds, so some fields turn up more than once, if oilseed rape was in bloom over more than one sampling round",NA
"Frank_Jauker_Brassica_napus_Germany_2006","OSR_09","netting","Lasioglossum malachurum","species","other_wild_bees",2,800,60,NA,"Six 2000m transects were sampled. Sampling was conducted in a 20 x 20 m area every 100 m. Here results represent samping points with pollinator records from oilseed rape.  At point stops, wild bees and hoverflies were sampled for 20 min using insect nets. There were 5 sampling rounds, so some fields turn up more than once, if oilseed rape was in bloom over more than one sampling round",NA
"Frank_Jauker_Brassica_napus_Germany_2006","OSR_10","netting","Lasioglossum malachurum","species","other_wild_bees",1,800,60,NA,"Six 2000m transects were sampled. Sampling was conducted in a 20 x 20 m area every 100 m. Here results represent samping points with pollinator records from oilseed rape.  At point stops, wild bees and hoverflies were sampled for 20 min using insect nets. There were 5 sampling rounds, so some fields turn up more than once, if oilseed rape was in bloom over more than one sampling round",NA
"Frank_Jauker_Brassica_napus_Germany_2006","OSR_01","netting","Lasioglossum malachurum","species","other_wild_bees",1,800,60,NA,"Six 2000m transects were sampled. Sampling was conducted in a 20 x 20 m area every 100 m. Here results represent samping points with pollinator records from oilseed rape.  At point stops, wild bees and hoverflies were sampled for 20 min using insect nets. There were 5 sampling rounds, so some fields turn up more than once, if oilseed rape was in bloom over more than one sampling round",NA
"Frank_Jauker_Brassica_napus_Germany_2006","OSR_14","netting","Lasioglossum malachurum","species","other_wild_bees",1,800,60,NA,"Six 2000m transects were sampled. Sampling was conducted in a 20 x 20 m area every 100 m. Here results represent samping points with pollinator records from oilseed rape.  At point stops, wild bees and hoverflies were sampled for 20 min using insect nets. There were 5 sampling rounds, so some fields turn up more than once, if oilseed rape was in bloom over more than one sampling round",NA
"Frank_Jauker_Brassica_napus_Germany_2006","OSR_22","netting","Lasioglossum morio","species","other_wild_bees",1,400,30,NA,"Six 2000m transects were sampled. Sampling was conducted in a 20 x 20 m area every 100 m. Here results represent samping points with pollinator records from oilseed rape.  At point stops, wild bees and hoverflies were sampled for 20 min using insect nets. There were 5 sampling rounds, so some fields turn up more than once, if oilseed rape was in bloom over more than one sampling round",NA
"Frank_Jauker_Brassica_napus_Germany_2006","OSR_09","netting","Lasioglossum parvulum","species","other_wild_bees",1,800,60,NA,"Six 2000m transects were sampled. Sampling was conducted in a 20 x 20 m area every 100 m. Here results represent samping points with pollinator records from oilseed rape.  At point stops, wild bees and hoverflies were sampled for 20 min using insect nets. There were 5 sampling rounds, so some fields turn up more than once, if oilseed rape was in bloom over more than one sampling round",NA
"Frank_Jauker_Brassica_napus_Germany_2006","OSR_01","netting","Lasioglossum pauxillum","species","other_wild_bees",1,800,60,NA,"Six 2000m transects were sampled. Sampling was conducted in a 20 x 20 m area every 100 m. Here results represent samping points with pollinator records from oilseed rape.  At point stops, wild bees and hoverflies were sampled for 20 min using insect nets. There were 5 sampling rounds, so some fields turn up more than once, if oilseed rape was in bloom over more than one sampling round",NA
"Frank_Jauker_Brassica_napus_Germany_2006","OSR_05","netting","Lasioglossum pauxillum","species","other_wild_bees",1,400,30,NA,"Six 2000m transects were sampled. Sampling was conducted in a 20 x 20 m area every 100 m. Here results represent samping points with pollinator records from oilseed rape.  At point stops, wild bees and hoverflies were sampled for 20 min using insect nets. There were 5 sampling rounds, so some fields turn up more than once, if oilseed rape was in bloom over more than one sampling round",NA
"Frank_Jauker_Brassica_napus_Germany_2006","OSR_07","netting","Lasioglossum pauxillum","species","other_wild_bees",4,1600,120,NA,"Six 2000m transects were sampled. Sampling was conducted in a 20 x 20 m area every 100 m. Here results represent samping points with pollinator records from oilseed rape.  At point stops, wild bees and hoverflies were sampled for 20 min using insect nets. There were 5 sampling rounds, so some fields turn up more than once, if oilseed rape was in bloom over more than one sampling round",NA
"Frank_Jauker_Brassica_napus_Germany_2006","OSR_09","netting","Lasioglossum villosulum","species","other_wild_bees",1,800,60,NA,"Six 2000m transects were sampled. Sampling was conducted in a 20 x 20 m area every 100 m. Here results represent samping points with pollinator records from oilseed rape.  At point stops, wild bees and hoverflies were sampled for 20 min using insect nets. There were 5 sampling rounds, so some fields turn up more than once, if oilseed rape was in bloom over more than one sampling round",NA
"Frank_Jauker_Brassica_napus_Germany_2006","OSR_01","netting","Lasioglossum xanthopus","species","other_wild_bees",4,800,60,NA,"Six 2000m transects were sampled. Sampling was conducted in a 20 x 20 m area every 100 m. Here results represent samping points with pollinator records from oilseed rape.  At point stops, wild bees and hoverflies were sampled for 20 min using insect nets. There were 5 sampling rounds, so some fields turn up more than once, if oilseed rape was in bloom over more than one sampling round",NA
"Frank_Jauker_Brassica_napus_Germany_2006","OSR_06","netting","Lasioglossum xanthopus","species","other_wild_bees",1,1200,90,NA,"Six 2000m transects were sampled. Sampling was conducted in a 20 x 20 m area every 100 m. Here results represent samping points with pollinator records from oilseed rape.  At point stops, wild bees and hoverflies were sampled for 20 min using insect nets. There were 5 sampling rounds, so some fields turn up more than once, if oilseed rape was in bloom over more than one sampling round",NA
"Frank_Jauker_Brassica_napus_Germany_2006","OSR_09","netting","Lasioglossum xanthopus","species","other_wild_bees",1,800,60,NA,"Six 2000m transects were sampled. Sampling was conducted in a 20 x 20 m area every 100 m. Here results represent samping points with pollinator records from oilseed rape.  At point stops, wild bees and hoverflies were sampled for 20 min using insect nets. There were 5 sampling rounds, so some fields turn up more than once, if oilseed rape was in bloom over more than one sampling round",NA
"Frank_Jauker_Brassica_napus_Germany_2006","OSR_12","netting","Lasioglossum xanthopus","species","other_wild_bees",1,1200,90,NA,"Six 2000m transects were sampled. Sampling was conducted in a 20 x 20 m area every 100 m. Here results represent samping points with pollinator records from oilseed rape.  At point stops, wild bees and hoverflies were sampled for 20 min using insect nets. There were 5 sampling rounds, so some fields turn up more than once, if oilseed rape was in bloom over more than one sampling round",NA
"Frank_Jauker_Brassica_napus_Germany_2006","OSR_13","netting","Lasioglossum xanthopus","species","other_wild_bees",1,800,60,NA,"Six 2000m transects were sampled. Sampling was conducted in a 20 x 20 m area every 100 m. Here results represent samping points with pollinator records from oilseed rape.  At point stops, wild bees and hoverflies were sampled for 20 min using insect nets. There were 5 sampling rounds, so some fields turn up more than once, if oilseed rape was in bloom over more than one sampling round",NA
"Frank_Jauker_Brassica_napus_Germany_2006","OSR_16","netting","Lasioglossum xanthopus","species","other_wild_bees",1,800,60,NA,"Six 2000m transects were sampled. Sampling was conducted in a 20 x 20 m area every 100 m. Here results represent samping points with pollinator records from oilseed rape.  At point stops, wild bees and hoverflies were sampled for 20 min using insect nets. There were 5 sampling rounds, so some fields turn up more than once, if oilseed rape was in bloom over more than one sampling round",NA
"Frank_Jauker_Brassica_napus_Germany_2006","OSR_18","netting","Lasioglossum xanthopus","species","other_wild_bees",1,1200,90,NA,"Six 2000m transects were sampled. Sampling was conducted in a 20 x 20 m area every 100 m. Here results represent samping points with pollinator records from oilseed rape.  At point stops, wild bees and hoverflies were sampled for 20 min using insect nets. There were 5 sampling rounds, so some fields turn up more than once, if oilseed rape was in bloom over more than one sampling round",NA
"Frank_Jauker_Brassica_napus_Germany_2006","OSR_07","netting","Lasioglossum xanthopus","species","other_wild_bees",1,1600,120,NA,"Six 2000m transects were sampled. Sampling was conducted in a 20 x 20 m area every 100 m. Here results represent samping points with pollinator records from oilseed rape.  At point stops, wild bees and hoverflies were sampled for 20 min using insect nets. There were 5 sampling rounds, so some fields turn up more than once, if oilseed rape was in bloom over more than one sampling round",NA
"Frank_Jauker_Brassica_napus_Germany_2006","OSR_08","netting","Lasioglossum xanthopus","species","other_wild_bees",3,400,30,NA,"Six 2000m transects were sampled. Sampling was conducted in a 20 x 20 m area every 100 m. Here results represent samping points with pollinator records from oilseed rape.  At point stops, wild bees and hoverflies were sampled for 20 min using insect nets. There were 5 sampling rounds, so some fields turn up more than once, if oilseed rape was in bloom over more than one sampling round",NA
"Frank_Jauker_Brassica_napus_Germany_2006","OSR_19","netting","Lasioglossum xanthopus","species","other_wild_bees",1,400,30,NA,"Six 2000m transects were sampled. Sampling was conducted in a 20 x 20 m area every 100 m. Here results represent samping points with pollinator records from oilseed rape.  At point stops, wild bees and hoverflies were sampled for 20 min using insect nets. There were 5 sampling rounds, so some fields turn up more than once, if oilseed rape was in bloom over more than one sampling round",NA
"Frank_Jauker_Brassica_napus_Germany_2006","OSR_21","netting","Lasioglossum xanthopus","species","other_wild_bees",1,800,60,NA,"Six 2000m transects were sampled. Sampling was conducted in a 20 x 20 m area every 100 m. Here results represent samping points with pollinator records from oilseed rape.  At point stops, wild bees and hoverflies were sampled for 20 min using insect nets. There were 5 sampling rounds, so some fields turn up more than once, if oilseed rape was in bloom over more than one sampling round",NA
"Frank_Jauker_Brassica_napus_Germany_2006","OSR_20","netting","Lasioglossum xanthopus","species","other_wild_bees",1,400,30,NA,"Six 2000m transects were sampled. Sampling was conducted in a 20 x 20 m area every 100 m. Here results represent samping points with pollinator records from oilseed rape.  At point stops, wild bees and hoverflies were sampled for 20 min using insect nets. There were 5 sampling rounds, so some fields turn up more than once, if oilseed rape was in bloom over more than one sampling round",NA
"Frank_Jauker_Brassica_napus_Germany_2006","OSR_23","netting","Lasioglossum xanthopus","species","other_wild_bees",1,800,60,NA,"Six 2000m transects were sampled. Sampling was conducted in a 20 x 20 m area every 100 m. Here results represent samping points with pollinator records from oilseed rape.  At point stops, wild bees and hoverflies were sampled for 20 min using insect nets. There were 5 sampling rounds, so some fields turn up more than once, if oilseed rape was in bloom over more than one sampling round",NA
"Frank_Jauker_Brassica_napus_Germany_2006","OSR_06","netting","Lasioglossum xanthopus","species","other_wild_bees",3,1200,90,NA,"Six 2000m transects were sampled. Sampling was conducted in a 20 x 20 m area every 100 m. Here results represent samping points with pollinator records from oilseed rape.  At point stops, wild bees and hoverflies were sampled for 20 min using insect nets. There were 5 sampling rounds, so some fields turn up more than once, if oilseed rape was in bloom over more than one sampling round",NA
"Frank_Jauker_Brassica_napus_Germany_2006","OSR_01","netting","Lasioglossum xanthopus","species","other_wild_bees",3,800,60,NA,"Six 2000m transects were sampled. Sampling was conducted in a 20 x 20 m area every 100 m. Here results represent samping points with pollinator records from oilseed rape.  At point stops, wild bees and hoverflies were sampled for 20 min using insect nets. There were 5 sampling rounds, so some fields turn up more than once, if oilseed rape was in bloom over more than one sampling round",NA
"Frank_Jauker_Brassica_napus_Germany_2006","OSR_13","netting","Lasioglossum xanthopus","species","other_wild_bees",1,800,60,NA,"Six 2000m transects were sampled. Sampling was conducted in a 20 x 20 m area every 100 m. Here results represent samping points with pollinator records from oilseed rape.  At point stops, wild bees and hoverflies were sampled for 20 min using insect nets. There were 5 sampling rounds, so some fields turn up more than once, if oilseed rape was in bloom over more than one sampling round",NA
"Frank_Jauker_Brassica_napus_Germany_2006","OSR_18","netting","Lasioglossum xanthopus","species","other_wild_bees",1,1200,90,NA,"Six 2000m transects were sampled. Sampling was conducted in a 20 x 20 m area every 100 m. Here results represent samping points with pollinator records from oilseed rape.  At point stops, wild bees and hoverflies were sampled for 20 min using insect nets. There were 5 sampling rounds, so some fields turn up more than once, if oilseed rape was in bloom over more than one sampling round",NA
"Frank_Jauker_Brassica_napus_Germany_2006","OSR_07","netting","Lasioglossum xanthopus","species","other_wild_bees",2,1600,120,NA,"Six 2000m transects were sampled. Sampling was conducted in a 20 x 20 m area every 100 m. Here results represent samping points with pollinator records from oilseed rape.  At point stops, wild bees and hoverflies were sampled for 20 min using insect nets. There were 5 sampling rounds, so some fields turn up more than once, if oilseed rape was in bloom over more than one sampling round",NA
"Frank_Jauker_Brassica_napus_Germany_2006","OSR_07","netting","Anasimyia lineata","species","syrphids",1,1600,120,NA,"Six 2000m transects were sampled. Sampling was conducted in a 20 x 20 m area every 100 m. Here results represent samping points with pollinator records from oilseed rape.  At point stops, wild bees and hoverflies were sampled for 20 min using insect nets. There were 5 sampling rounds, so some fields turn up more than once, if oilseed rape was in bloom over more than one sampling round",NA
"Frank_Jauker_Brassica_napus_Germany_2006","OSR_23","netting","Chrysotoxum cautum","species","syrphids",1,800,60,NA,"Six 2000m transects were sampled. Sampling was conducted in a 20 x 20 m area every 100 m. Here results represent samping points with pollinator records from oilseed rape.  At point stops, wild bees and hoverflies were sampled for 20 min using insect nets. There were 5 sampling rounds, so some fields turn up more than once, if oilseed rape was in bloom over more than one sampling round",NA
"Frank_Jauker_Brassica_napus_Germany_2006","OSR_06","netting","Episyrphus balteatus","species","syrphids",1,1200,90,NA,"Six 2000m transects were sampled. Sampling was conducted in a 20 x 20 m area every 100 m. Here results represent samping points with pollinator records from oilseed rape.  At point stops, wild bees and hoverflies were sampled for 20 min using insect nets. There were 5 sampling rounds, so some fields turn up more than once, if oilseed rape was in bloom over more than one sampling round",NA
"Frank_Jauker_Brassica_napus_Germany_2006","OSR_12","netting","Episyrphus balteatus","species","syrphids",3,1200,90,NA,"Six 2000m transects were sampled. Sampling was conducted in a 20 x 20 m area every 100 m. Here results represent samping points with pollinator records from oilseed rape.  At point stops, wild bees and hoverflies were sampled for 20 min using insect nets. There were 5 sampling rounds, so some fields turn up more than once, if oilseed rape was in bloom over more than one sampling round",NA
"Frank_Jauker_Brassica_napus_Germany_2006","OSR_13","netting","Episyrphus balteatus","species","syrphids",2,800,60,NA,"Six 2000m transects were sampled. Sampling was conducted in a 20 x 20 m area every 100 m. Here results represent samping points with pollinator records from oilseed rape.  At point stops, wild bees and hoverflies were sampled for 20 min using insect nets. There were 5 sampling rounds, so some fields turn up more than once, if oilseed rape was in bloom over more than one sampling round",NA
"Frank_Jauker_Brassica_napus_Germany_2006","OSR_14","netting","Episyrphus balteatus","species","syrphids",1,800,60,NA,"Six 2000m transects were sampled. Sampling was conducted in a 20 x 20 m area every 100 m. Here results represent samping points with pollinator records from oilseed rape.  At point stops, wild bees and hoverflies were sampled for 20 min using insect nets. There were 5 sampling rounds, so some fields turn up more than once, if oilseed rape was in bloom over more than one sampling round",NA
"Frank_Jauker_Brassica_napus_Germany_2006","OSR_16","netting","Episyrphus balteatus","species","syrphids",2,800,60,NA,"Six 2000m transects were sampled. Sampling was conducted in a 20 x 20 m area every 100 m. Here results represent samping points with pollinator records from oilseed rape.  At point stops, wild bees and hoverflies were sampled for 20 min using insect nets. There were 5 sampling rounds, so some fields turn up more than once, if oilseed rape was in bloom over more than one sampling round",NA
"Frank_Jauker_Brassica_napus_Germany_2006","OSR_07","netting","Episyrphus balteatus","species","syrphids",1,1600,120,NA,"Six 2000m transects were sampled. Sampling was conducted in a 20 x 20 m area every 100 m. Here results represent samping points with pollinator records from oilseed rape.  At point stops, wild bees and hoverflies were sampled for 20 min using insect nets. There were 5 sampling rounds, so some fields turn up more than once, if oilseed rape was in bloom over more than one sampling round",NA
"Frank_Jauker_Brassica_napus_Germany_2006","OSR_22b","netting","Episyrphus balteatus","species","syrphids",1,400,30,NA,"Six 2000m transects were sampled. Sampling was conducted in a 20 x 20 m area every 100 m. Here results represent samping points with pollinator records from oilseed rape.  At point stops, wild bees and hoverflies were sampled for 20 min using insect nets. There were 5 sampling rounds, so some fields turn up more than once, if oilseed rape was in bloom over more than one sampling round",NA
"Frank_Jauker_Brassica_napus_Germany_2006","OSR_22","netting","Episyrphus balteatus","species","syrphids",1,400,30,NA,"Six 2000m transects were sampled. Sampling was conducted in a 20 x 20 m area every 100 m. Here results represent samping points with pollinator records from oilseed rape.  At point stops, wild bees and hoverflies were sampled for 20 min using insect nets. There were 5 sampling rounds, so some fields turn up more than once, if oilseed rape was in bloom over more than one sampling round",NA
"Frank_Jauker_Brassica_napus_Germany_2006","OSR_23","netting","Episyrphus balteatus","species","syrphids",2,800,60,NA,"Six 2000m transects were sampled. Sampling was conducted in a 20 x 20 m area every 100 m. Here results represent samping points with pollinator records from oilseed rape.  At point stops, wild bees and hoverflies were sampled for 20 min using insect nets. There were 5 sampling rounds, so some fields turn up more than once, if oilseed rape was in bloom over more than one sampling round",NA
"Frank_Jauker_Brassica_napus_Germany_2006","OSR_06","netting","Episyrphus balteatus","species","syrphids",2,1200,90,NA,"Six 2000m transects were sampled. Sampling was conducted in a 20 x 20 m area every 100 m. Here results represent samping points with pollinator records from oilseed rape.  At point stops, wild bees and hoverflies were sampled for 20 min using insect nets. There were 5 sampling rounds, so some fields turn up more than once, if oilseed rape was in bloom over more than one sampling round",NA
"Frank_Jauker_Brassica_napus_Germany_2006","OSR_10","netting","Episyrphus balteatus","species","syrphids",1,800,60,NA,"Six 2000m transects were sampled. Sampling was conducted in a 20 x 20 m area every 100 m. Here results represent samping points with pollinator records from oilseed rape.  At point stops, wild bees and hoverflies were sampled for 20 min using insect nets. There were 5 sampling rounds, so some fields turn up more than once, if oilseed rape was in bloom over more than one sampling round",NA
"Frank_Jauker_Brassica_napus_Germany_2006","OSR_01","netting","Episyrphus balteatus","species","syrphids",1,800,60,NA,"Six 2000m transects were sampled. Sampling was conducted in a 20 x 20 m area every 100 m. Here results represent samping points with pollinator records from oilseed rape.  At point stops, wild bees and hoverflies were sampled for 20 min using insect nets. There were 5 sampling rounds, so some fields turn up more than once, if oilseed rape was in bloom over more than one sampling round",NA
"Frank_Jauker_Brassica_napus_Germany_2006","OSR_11","netting","Episyrphus balteatus","species","syrphids",3,800,60,NA,"Six 2000m transects were sampled. Sampling was conducted in a 20 x 20 m area every 100 m. Here results represent samping points with pollinator records from oilseed rape.  At point stops, wild bees and hoverflies were sampled for 20 min using insect nets. There were 5 sampling rounds, so some fields turn up more than once, if oilseed rape was in bloom over more than one sampling round",NA
"Frank_Jauker_Brassica_napus_Germany_2006","OSR_12","netting","Episyrphus balteatus","species","syrphids",1,1200,90,NA,"Six 2000m transects were sampled. Sampling was conducted in a 20 x 20 m area every 100 m. Here results represent samping points with pollinator records from oilseed rape.  At point stops, wild bees and hoverflies were sampled for 20 min using insect nets. There were 5 sampling rounds, so some fields turn up more than once, if oilseed rape was in bloom over more than one sampling round",NA
"Frank_Jauker_Brassica_napus_Germany_2006","OSR_06","netting","Episyrphus balteatus","species","syrphids",1,1200,90,NA,"Six 2000m transects were sampled. Sampling was conducted in a 20 x 20 m area every 100 m. Here results represent samping points with pollinator records from oilseed rape.  At point stops, wild bees and hoverflies were sampled for 20 min using insect nets. There were 5 sampling rounds, so some fields turn up more than once, if oilseed rape was in bloom over more than one sampling round",NA
"Frank_Jauker_Brassica_napus_Germany_2006","OSR_07","netting","Episyrphus balteatus","species","syrphids",7,1600,120,NA,"Six 2000m transects were sampled. Sampling was conducted in a 20 x 20 m area every 100 m. Here results represent samping points with pollinator records from oilseed rape.  At point stops, wild bees and hoverflies were sampled for 20 min using insect nets. There were 5 sampling rounds, so some fields turn up more than once, if oilseed rape was in bloom over more than one sampling round",NA
"Frank_Jauker_Brassica_napus_Germany_2006","OSR_07","netting","Episyrphus balteatus","species","syrphids",3,1600,120,NA,"Six 2000m transects were sampled. Sampling was conducted in a 20 x 20 m area every 100 m. Here results represent samping points with pollinator records from oilseed rape.  At point stops, wild bees and hoverflies were sampled for 20 min using insect nets. There were 5 sampling rounds, so some fields turn up more than once, if oilseed rape was in bloom over more than one sampling round",NA
"Frank_Jauker_Brassica_napus_Germany_2006","OSR_07","netting","Episyrphus balteatus","species","syrphids",2,1600,120,NA,"Six 2000m transects were sampled. Sampling was conducted in a 20 x 20 m area every 100 m. Here results represent samping points with pollinator records from oilseed rape.  At point stops, wild bees and hoverflies were sampled for 20 min using insect nets. There were 5 sampling rounds, so some fields turn up more than once, if oilseed rape was in bloom over more than one sampling round",NA
"Frank_Jauker_Brassica_napus_Germany_2006","OSR_23","netting","Eristalis arbustorum","species","syrphids",1,800,60,NA,"Six 2000m transects were sampled. Sampling was conducted in a 20 x 20 m area every 100 m. Here results represent samping points with pollinator records from oilseed rape.  At point stops, wild bees and hoverflies were sampled for 20 min using insect nets. There were 5 sampling rounds, so some fields turn up more than once, if oilseed rape was in bloom over more than one sampling round",NA
"Frank_Jauker_Brassica_napus_Germany_2006","OSR_07","netting","Eristalis arbustorum","species","syrphids",1,1600,120,NA,"Six 2000m transects were sampled. Sampling was conducted in a 20 x 20 m area every 100 m. Here results represent samping points with pollinator records from oilseed rape.  At point stops, wild bees and hoverflies were sampled for 20 min using insect nets. There were 5 sampling rounds, so some fields turn up more than once, if oilseed rape was in bloom over more than one sampling round",NA
"Frank_Jauker_Brassica_napus_Germany_2006","OSR_01","netting","Eristalis tenax","species","syrphids",1,800,60,NA,"Six 2000m transects were sampled. Sampling was conducted in a 20 x 20 m area every 100 m. Here results represent samping points with pollinator records from oilseed rape.  At point stops, wild bees and hoverflies were sampled for 20 min using insect nets. There were 5 sampling rounds, so some fields turn up more than once, if oilseed rape was in bloom over more than one sampling round",NA
"Frank_Jauker_Brassica_napus_Germany_2006","OSR_09","netting","Eristalis tenax","species","syrphids",1,800,60,NA,"Six 2000m transects were sampled. Sampling was conducted in a 20 x 20 m area every 100 m. Here results represent samping points with pollinator records from oilseed rape.  At point stops, wild bees and hoverflies were sampled for 20 min using insect nets. There were 5 sampling rounds, so some fields turn up more than once, if oilseed rape was in bloom over more than one sampling round",NA
"Frank_Jauker_Brassica_napus_Germany_2006","OSR_16","netting","Eristalis tenax","species","syrphids",1,800,60,NA,"Six 2000m transects were sampled. Sampling was conducted in a 20 x 20 m area every 100 m. Here results represent samping points with pollinator records from oilseed rape.  At point stops, wild bees and hoverflies were sampled for 20 min using insect nets. There were 5 sampling rounds, so some fields turn up more than once, if oilseed rape was in bloom over more than one sampling round",NA
"Frank_Jauker_Brassica_napus_Germany_2006","OSR_22b","netting","Eristalis tenax","species","syrphids",3,400,30,NA,"Six 2000m transects were sampled. Sampling was conducted in a 20 x 20 m area every 100 m. Here results represent samping points with pollinator records from oilseed rape.  At point stops, wild bees and hoverflies were sampled for 20 min using insect nets. There were 5 sampling rounds, so some fields turn up more than once, if oilseed rape was in bloom over more than one sampling round",NA
"Frank_Jauker_Brassica_napus_Germany_2006","OSR_21","netting","Eristalis tenax","species","syrphids",1,800,60,NA,"Six 2000m transects were sampled. Sampling was conducted in a 20 x 20 m area every 100 m. Here results represent samping points with pollinator records from oilseed rape.  At point stops, wild bees and hoverflies were sampled for 20 min using insect nets. There were 5 sampling rounds, so some fields turn up more than once, if oilseed rape was in bloom over more than one sampling round",NA
"Frank_Jauker_Brassica_napus_Germany_2006","OSR_23","netting","Eristalis tenax","species","syrphids",2,800,60,NA,"Six 2000m transects were sampled. Sampling was conducted in a 20 x 20 m area every 100 m. Here results represent samping points with pollinator records from oilseed rape.  At point stops, wild bees and hoverflies were sampled for 20 min using insect nets. There were 5 sampling rounds, so some fields turn up more than once, if oilseed rape was in bloom over more than one sampling round",NA
"Frank_Jauker_Brassica_napus_Germany_2006","OSR_01","netting","Eristalis tenax","species","syrphids",1,800,60,NA,"Six 2000m transects were sampled. Sampling was conducted in a 20 x 20 m area every 100 m. Here results represent samping points with pollinator records from oilseed rape.  At point stops, wild bees and hoverflies were sampled for 20 min using insect nets. There were 5 sampling rounds, so some fields turn up more than once, if oilseed rape was in bloom over more than one sampling round",NA
"Frank_Jauker_Brassica_napus_Germany_2006","OSR_12","netting","Eristalis tenax","species","syrphids",1,1200,90,NA,"Six 2000m transects were sampled. Sampling was conducted in a 20 x 20 m area every 100 m. Here results represent samping points with pollinator records from oilseed rape.  At point stops, wild bees and hoverflies were sampled for 20 min using insect nets. There were 5 sampling rounds, so some fields turn up more than once, if oilseed rape was in bloom over more than one sampling round",NA
"Frank_Jauker_Brassica_napus_Germany_2006","OSR_18","netting","Eristalis tenax","species","syrphids",1,1200,90,NA,"Six 2000m transects were sampled. Sampling was conducted in a 20 x 20 m area every 100 m. Here results represent samping points with pollinator records from oilseed rape.  At point stops, wild bees and hoverflies were sampled for 20 min using insect nets. There were 5 sampling rounds, so some fields turn up more than once, if oilseed rape was in bloom over more than one sampling round",NA
"Frank_Jauker_Brassica_napus_Germany_2006","OSR_12","netting","Eupeodes corollae","species","syrphids",1,1200,90,NA,"Six 2000m transects were sampled. Sampling was conducted in a 20 x 20 m area every 100 m. Here results represent samping points with pollinator records from oilseed rape.  At point stops, wild bees and hoverflies were sampled for 20 min using insect nets. There were 5 sampling rounds, so some fields turn up more than once, if oilseed rape was in bloom over more than one sampling round",NA
"Frank_Jauker_Brassica_napus_Germany_2006","OSR_22b","netting","Eupeodes corollae","species","syrphids",2,400,30,NA,"Six 2000m transects were sampled. Sampling was conducted in a 20 x 20 m area every 100 m. Here results represent samping points with pollinator records from oilseed rape.  At point stops, wild bees and hoverflies were sampled for 20 min using insect nets. There were 5 sampling rounds, so some fields turn up more than once, if oilseed rape was in bloom over more than one sampling round",NA
"Frank_Jauker_Brassica_napus_Germany_2006","OSR_06","netting","Eupeodes corollae","species","syrphids",2,1200,90,NA,"Six 2000m transects were sampled. Sampling was conducted in a 20 x 20 m area every 100 m. Here results represent samping points with pollinator records from oilseed rape.  At point stops, wild bees and hoverflies were sampled for 20 min using insect nets. There were 5 sampling rounds, so some fields turn up more than once, if oilseed rape was in bloom over more than one sampling round",NA
"Frank_Jauker_Brassica_napus_Germany_2006","OSR_07","netting","Eupeodes corollae","species","syrphids",1,1600,120,NA,"Six 2000m transects were sampled. Sampling was conducted in a 20 x 20 m area every 100 m. Here results represent samping points with pollinator records from oilseed rape.  At point stops, wild bees and hoverflies were sampled for 20 min using insect nets. There were 5 sampling rounds, so some fields turn up more than once, if oilseed rape was in bloom over more than one sampling round",NA
"Frank_Jauker_Brassica_napus_Germany_2006","OSR_07","netting","Eupeodes corollae","species","syrphids",1,1600,120,NA,"Six 2000m transects were sampled. Sampling was conducted in a 20 x 20 m area every 100 m. Here results represent samping points with pollinator records from oilseed rape.  At point stops, wild bees and hoverflies were sampled for 20 min using insect nets. There were 5 sampling rounds, so some fields turn up more than once, if oilseed rape was in bloom over more than one sampling round",NA
"Frank_Jauker_Brassica_napus_Germany_2006","OSR_09","netting","Melangyna cincta","species","syrphids",1,800,60,NA,"Six 2000m transects were sampled. Sampling was conducted in a 20 x 20 m area every 100 m. Here results represent samping points with pollinator records from oilseed rape.  At point stops, wild bees and hoverflies were sampled for 20 min using insect nets. There were 5 sampling rounds, so some fields turn up more than once, if oilseed rape was in bloom over more than one sampling round",NA
"Frank_Jauker_Brassica_napus_Germany_2006","OSR_23","netting","Melanostoma spec","genus","syrphids",1,800,60,NA,"Six 2000m transects were sampled. Sampling was conducted in a 20 x 20 m area every 100 m. Here results represent samping points with pollinator records from oilseed rape.  At point stops, wild bees and hoverflies were sampled for 20 min using insect nets. There were 5 sampling rounds, so some fields turn up more than once, if oilseed rape was in bloom over more than one sampling round",NA
"Frank_Jauker_Brassica_napus_Germany_2006","OSR_07","netting","Parhelophilus frutetorum","species","syrphids",1,1600,120,NA,"Six 2000m transects were sampled. Sampling was conducted in a 20 x 20 m area every 100 m. Here results represent samping points with pollinator records from oilseed rape.  At point stops, wild bees and hoverflies were sampled for 20 min using insect nets. There were 5 sampling rounds, so some fields turn up more than once, if oilseed rape was in bloom over more than one sampling round",NA
"Frank_Jauker_Brassica_napus_Germany_2006","OSR_07","netting","Parhelophilus frutetorum","species","syrphids",1,1600,120,NA,"Six 2000m transects were sampled. Sampling was conducted in a 20 x 20 m area every 100 m. Here results represent samping points with pollinator records from oilseed rape.  At point stops, wild bees and hoverflies were sampled for 20 min using insect nets. There were 5 sampling rounds, so some fields turn up more than once, if oilseed rape was in bloom over more than one sampling round",NA
"Frank_Jauker_Brassica_napus_Germany_2006","OSR_05","netting","Scaeva pyrastri","species","syrphids",2,400,30,NA,"Six 2000m transects were sampled. Sampling was conducted in a 20 x 20 m area every 100 m. Here results represent samping points with pollinator records from oilseed rape.  At point stops, wild bees and hoverflies were sampled for 20 min using insect nets. There were 5 sampling rounds, so some fields turn up more than once, if oilseed rape was in bloom over more than one sampling round",NA
"Frank_Jauker_Brassica_napus_Germany_2006","OSR_23","netting","Sphaerophoria spec","genus","syrphids",1,800,60,NA,"Six 2000m transects were sampled. Sampling was conducted in a 20 x 20 m area every 100 m. Here results represent samping points with pollinator records from oilseed rape.  At point stops, wild bees and hoverflies were sampled for 20 min using insect nets. There were 5 sampling rounds, so some fields turn up more than once, if oilseed rape was in bloom over more than one sampling round",NA
"Frank_Jauker_Brassica_napus_Germany_2006","OSR_06","netting","Sphaerophoria spec","genus","syrphids",1,1200,90,NA,"Six 2000m transects were sampled. Sampling was conducted in a 20 x 20 m area every 100 m. Here results represent samping points with pollinator records from oilseed rape.  At point stops, wild bees and hoverflies were sampled for 20 min using insect nets. There were 5 sampling rounds, so some fields turn up more than once, if oilseed rape was in bloom over more than one sampling round",NA
"Frank_Jauker_Brassica_napus_Germany_2006","OSR_11","netting","Sphaerophoria spec","genus","syrphids",1,800,60,NA,"Six 2000m transects were sampled. Sampling was conducted in a 20 x 20 m area every 100 m. Here results represent samping points with pollinator records from oilseed rape.  At point stops, wild bees and hoverflies were sampled for 20 min using insect nets. There were 5 sampling rounds, so some fields turn up more than once, if oilseed rape was in bloom over more than one sampling round",NA
"Frank_Jauker_Brassica_napus_Germany_2006","OSR_07","netting","Sphaerophoria spec","genus","syrphids",4,1600,120,NA,"Six 2000m transects were sampled. Sampling was conducted in a 20 x 20 m area every 100 m. Here results represent samping points with pollinator records from oilseed rape.  At point stops, wild bees and hoverflies were sampled for 20 min using insect nets. There were 5 sampling rounds, so some fields turn up more than once, if oilseed rape was in bloom over more than one sampling round",NA
"Frank_Jauker_Brassica_napus_Germany_2006","OSR_07","netting","Sphaerophoria spec","genus","syrphids",1,1600,120,NA,"Six 2000m transects were sampled. Sampling was conducted in a 20 x 20 m area every 100 m. Here results represent samping points with pollinator records from oilseed rape.  At point stops, wild bees and hoverflies were sampled for 20 min using insect nets. There were 5 sampling rounds, so some fields turn up more than once, if oilseed rape was in bloom over more than one sampling round",NA
"Frank_Jauker_Brassica_napus_Germany_2006","OSR_07","netting","Sphaerophoria spec","genus","syrphids",1,1600,120,NA,"Six 2000m transects were sampled. Sampling was conducted in a 20 x 20 m area every 100 m. Here results represent samping points with pollinator records from oilseed rape.  At point stops, wild bees and hoverflies were sampled for 20 min using insect nets. There were 5 sampling rounds, so some fields turn up more than once, if oilseed rape was in bloom over more than one sampling round",NA
"Frank_Jauker_Brassica_napus_Germany_2006","OSR_09","netting","Syritta pipiens","species","syrphids",1,800,60,NA,"Six 2000m transects were sampled. Sampling was conducted in a 20 x 20 m area every 100 m. Here results represent samping points with pollinator records from oilseed rape.  At point stops, wild bees and hoverflies were sampled for 20 min using insect nets. There were 5 sampling rounds, so some fields turn up more than once, if oilseed rape was in bloom over more than one sampling round",NA
"Frank_Jauker_Brassica_napus_Germany_2006","OSR_07","netting","Syritta pipiens","species","syrphids",1,1600,120,NA,"Six 2000m transects were sampled. Sampling was conducted in a 20 x 20 m area every 100 m. Here results represent samping points with pollinator records from oilseed rape.  At point stops, wild bees and hoverflies were sampled for 20 min using insect nets. There were 5 sampling rounds, so some fields turn up more than once, if oilseed rape was in bloom over more than one sampling round",NA
"Frank_Jauker_Brassica_napus_Germany_2006","OSR_12","netting","Syrphus ribesii","species","syrphids",1,1200,90,NA,"Six 2000m transects were sampled. Sampling was conducted in a 20 x 20 m area every 100 m. Here results represent samping points with pollinator records from oilseed rape.  At point stops, wild bees and hoverflies were sampled for 20 min using insect nets. There were 5 sampling rounds, so some fields turn up more than once, if oilseed rape was in bloom over more than one sampling round",NA
"Frank_Jauker_Brassica_napus_Germany_2006","OSR_13","netting","Syrphus vitripennis","species","syrphids",1,800,60,NA,"Six 2000m transects were sampled. Sampling was conducted in a 20 x 20 m area every 100 m. Here results represent samping points with pollinator records from oilseed rape.  At point stops, wild bees and hoverflies were sampled for 20 min using insect nets. There were 5 sampling rounds, so some fields turn up more than once, if oilseed rape was in bloom over more than one sampling round",NA
"Frank_Jauker_Brassica_napus_Germany_2006","OSR_07","netting","Syrphus vitripennis","species","syrphids",1,1600,120,NA,"Six 2000m transects were sampled. Sampling was conducted in a 20 x 20 m area every 100 m. Here results represent samping points with pollinator records from oilseed rape.  At point stops, wild bees and hoverflies were sampled for 20 min using insect nets. There were 5 sampling rounds, so some fields turn up more than once, if oilseed rape was in bloom over more than one sampling round",NA
"Frank_Jauker_Brassica_napus_Germany_2006","OSR_22","netting","Syrphus vitripennis","species","syrphids",2,400,30,NA,"Six 2000m transects were sampled. Sampling was conducted in a 20 x 20 m area every 100 m. Here results represent samping points with pollinator records from oilseed rape.  At point stops, wild bees and hoverflies were sampled for 20 min using insect nets. There were 5 sampling rounds, so some fields turn up more than once, if oilseed rape was in bloom over more than one sampling round",NA
"Frank_Jauker_Brassica_napus_Germany_2006","OSR_07","netting","Syrphus vitripennis","species","syrphids",2,1600,120,NA,"Six 2000m transects were sampled. Sampling was conducted in a 20 x 20 m area every 100 m. Here results represent samping points with pollinator records from oilseed rape.  At point stops, wild bees and hoverflies were sampled for 20 min using insect nets. There were 5 sampling rounds, so some fields turn up more than once, if oilseed rape was in bloom over more than one sampling round",NA
"Frank_Jauker_Brassica_napus_Germany_2006","OSR_07","netting","Tropidia scita","species","syrphids",2,1600,120,NA,"Six 2000m transects were sampled. Sampling was conducted in a 20 x 20 m area every 100 m. Here results represent samping points with pollinator records from oilseed rape.  At point stops, wild bees and hoverflies were sampled for 20 min using insect nets. There were 5 sampling rounds, so some fields turn up more than once, if oilseed rape was in bloom over more than one sampling round",NA
"Frank_Jauker_Brassica_napus_Germany_2006","OSR_07","netting","Tropidia scita","species","syrphids",1,1600,120,NA,"Six 2000m transects were sampled. Sampling was conducted in a 20 x 20 m area every 100 m. Here results represent samping points with pollinator records from oilseed rape.  At point stops, wild bees and hoverflies were sampled for 20 min using insect nets. There were 5 sampling rounds, so some fields turn up more than once, if oilseed rape was in bloom over more than one sampling round",NA
"Georg_Andersson_Brassica_rapa_Sweden_2010","1.1","Sweepnets","Andrena semilaevis","Species","other_wild_bees",1,NA,NA,NA,"4 pots with turnip plants per site, and	6 temporal replicates",NA
"Georg_Andersson_Brassica_rapa_Sweden_2010","1.1","Sweepnets","Andrena subopaca","Species","other_wild_bees",1,NA,NA,NA,"4 pots with turnip plants per site, and	6 temporal replicates",NA
"Georg_Andersson_Brassica_rapa_Sweden_2010","1.1","Sweepnets","Anthophora quadrimaculata","Species","other_wild_bees",1,NA,NA,NA,"4 pots with turnip plants per site, and	6 temporal replicates",NA
"Georg_Andersson_Brassica_rapa_Sweden_2010","1.1","Sweepnets","Apis mellifera","Species","honeybees",32,NA,NA,NA,"4 pots with turnip plants per site, and	6 temporal replicates",NA
"Georg_Andersson_Brassica_rapa_Sweden_2010","1.1","Sweepnets","Bombus lapidarius","Species","bumblebees",3,NA,NA,NA,"4 pots with turnip plants per site, and	6 temporal replicates",NA
"Georg_Andersson_Brassica_rapa_Sweden_2010","1.1","Sweepnets","Bombus lucorum","Species","bumblebees",1,NA,NA,NA,"4 pots with turnip plants per site, and	6 temporal replicates",NA
"Georg_Andersson_Brassica_rapa_Sweden_2010","1.1","Sweepnets","Bombus pascuorum","Species","bumblebees",1,NA,NA,NA,"4 pots with turnip plants per site, and	6 temporal replicates",NA
"Georg_Andersson_Brassica_rapa_Sweden_2010","1.1","Sweepnets","Bombus pratorum","Species","bumblebees",1,NA,NA,NA,"4 pots with turnip plants per site, and	6 temporal replicates",NA
"Georg_Andersson_Brassica_rapa_Sweden_2010","1.1","Sweepnets","Bombus soroeensis","Species","bumblebees",3,NA,NA,NA,"4 pots with turnip plants per site, and	6 temporal replicates",NA
"Georg_Andersson_Brassica_rapa_Sweden_2010","1.1","Sweepnets","Bombus sp.","Genera","bumblebees",16,NA,NA,NA,"4 pots with turnip plants per site, and	6 temporal replicates",NA
"Georg_Andersson_Brassica_rapa_Sweden_2010","1.1","Sweepnets","Bombus terrestris","Species","bumblebees",2,NA,NA,NA,"4 pots with turnip plants per site, and	6 temporal replicates",NA
"Georg_Andersson_Brassica_rapa_Sweden_2010","1.1","Sweepnets","Colletes daviesanus","Species","other_wild_bees",1,NA,NA,NA,"4 pots with turnip plants per site, and	6 temporal replicates",NA
"Georg_Andersson_Brassica_rapa_Sweden_2010","1.1","Sweepnets","Trypoxylon clavicerum","Species","non_bee_hymenoptera",1,NA,NA,NA,"4 pots with turnip plants per site, and	6 temporal replicates",NA
"Georg_Andersson_Brassica_rapa_Sweden_2010","1.1","Sweepnets","Lasioglossum calceatum","Species","other_wild_bees",2,NA,NA,NA,"4 pots with turnip plants per site, and	6 temporal replicates",NA
"Georg_Andersson_Brassica_rapa_Sweden_2010","1.1","Sweepnets","Lasioglossum rufitarse","Species","other_wild_bees",1,NA,NA,NA,"4 pots with turnip plants per site, and	6 temporal replicates",NA
"Georg_Andersson_Brassica_rapa_Sweden_2010","1.1","Sweepnets","Sphecodes geoffrellus","Species","other_wild_bees",1,NA,NA,NA,"4 pots with turnip plants per site, and	6 temporal replicates",NA
"Georg_Andersson_Brassica_rapa_Sweden_2010","1.1","Sweepnets","Chloromyia formosa","Species","other_flies",1,NA,NA,NA,"4 pots with turnip plants per site, and	6 temporal replicates",NA
"Georg_Andersson_Brassica_rapa_Sweden_2010","1.1","Sweepnets","Episyrphus balteatus","Species","syrphids",15,NA,NA,NA,"4 pots with turnip plants per site, and	6 temporal replicates",NA
"Georg_Andersson_Brassica_rapa_Sweden_2010","1.1","Sweepnets","Eriozona erratica","Species","syrphids",1,NA,NA,NA,"4 pots with turnip plants per site, and	6 temporal replicates",NA
"Georg_Andersson_Brassica_rapa_Sweden_2010","1.1","Sweepnets","Eristalis interrupta","Species","syrphids",1,NA,NA,NA,"4 pots with turnip plants per site, and	6 temporal replicates",NA
"Georg_Andersson_Brassica_rapa_Sweden_2010","1.1","Sweepnets","Eristalis similis","Species","syrphids",1,NA,NA,NA,"4 pots with turnip plants per site, and	6 temporal replicates",NA
"Georg_Andersson_Brassica_rapa_Sweden_2010","1.1","Sweepnets","Eupeodes corollae","Species","syrphids",5,NA,NA,NA,"4 pots with turnip plants per site, and	6 temporal replicates",NA
"Georg_Andersson_Brassica_rapa_Sweden_2010","1.1","Sweepnets","Melanostoma mellinum","Species","syrphids",43,NA,NA,NA,"4 pots with turnip plants per site, and	6 temporal replicates",NA
"Georg_Andersson_Brassica_rapa_Sweden_2010","1.1","Sweepnets","Melanostoma scalare","Species","syrphids",2,NA,NA,NA,"4 pots with turnip plants per site, and	6 temporal replicates",NA
"Georg_Andersson_Brassica_rapa_Sweden_2010","1.1","Sweepnets","Parasyrphus annulatus","Species","syrphids",1,NA,NA,NA,"4 pots with turnip plants per site, and	6 temporal replicates",NA
"Georg_Andersson_Brassica_rapa_Sweden_2010","1.1","Sweepnets","Platycheirus albimanus","Species","syrphids",1,NA,NA,NA,"4 pots with turnip plants per site, and	6 temporal replicates",NA
"Georg_Andersson_Brassica_rapa_Sweden_2010","1.1","Sweepnets","Platycheirus angustatus","Species","syrphids",1,NA,NA,NA,"4 pots with turnip plants per site, and	6 temporal replicates",NA
"Georg_Andersson_Brassica_rapa_Sweden_2010","1.1","Sweepnets","Platycheirus clypeatus","Species","syrphids",4,NA,NA,NA,"4 pots with turnip plants per site, and	6 temporal replicates",NA
"Georg_Andersson_Brassica_rapa_Sweden_2010","1.1","Sweepnets","Scaeva pyrastri","Species","syrphids",1,NA,NA,NA,"4 pots with turnip plants per site, and	6 temporal replicates",NA
"Georg_Andersson_Brassica_rapa_Sweden_2010","1.1","Sweepnets","Scaeva selenitica","Species","syrphids",1,NA,NA,NA,"4 pots with turnip plants per site, and	6 temporal replicates",NA
"Georg_Andersson_Brassica_rapa_Sweden_2010","1.1","Sweepnets","Sphaerophoria scripta","Species","syrphids",4,NA,NA,NA,"4 pots with turnip plants per site, and	6 temporal replicates",NA
"Georg_Andersson_Brassica_rapa_Sweden_2010","1.1","Sweepnets","Sphaerophoria taeniata","Species","syrphids",6,NA,NA,NA,"4 pots with turnip plants per site, and	6 temporal replicates",NA
"Georg_Andersson_Brassica_rapa_Sweden_2010","1.1","Sweepnets","Syritta pipiens","Species","syrphids",4,NA,NA,NA,"4 pots with turnip plants per site, and	6 temporal replicates",NA
"Georg_Andersson_Brassica_rapa_Sweden_2010","2.0.1","Sweepnets","Bombus pascuorum","Species","bumblebees",1,NA,NA,NA,"4 pots with turnip plants per site, and	6 temporal replicates",NA
"Georg_Andersson_Brassica_rapa_Sweden_2010","2.0.1","Sweepnets","Bombus sp.","Genera","bumblebees",9,NA,NA,NA,"4 pots with turnip plants per site, and	6 temporal replicates",NA
"Georg_Andersson_Brassica_rapa_Sweden_2010","2.0.1","Sweepnets","Halictus tumulorum","Species","other_wild_bees",2,NA,NA,NA,"4 pots with turnip plants per site, and	6 temporal replicates",NA
"Georg_Andersson_Brassica_rapa_Sweden_2010","2.0.1","Sweepnets","Lasioglossum albipes","Species","other_wild_bees",1,NA,NA,NA,"4 pots with turnip plants per site, and	6 temporal replicates",NA
"Georg_Andersson_Brassica_rapa_Sweden_2010","2.0.1","Sweepnets","Lasioglossum calceatum","Species","other_wild_bees",1,NA,NA,NA,"4 pots with turnip plants per site, and	6 temporal replicates",NA
"Georg_Andersson_Brassica_rapa_Sweden_2010","2.0.1","Sweepnets","Chloromyia formosa","Species","other_flies",2,NA,NA,NA,"4 pots with turnip plants per site, and	6 temporal replicates",NA
"Georg_Andersson_Brassica_rapa_Sweden_2010","2.0.1","Sweepnets","Cheilosia vernalis","Species","syrphids",1,NA,NA,NA,"4 pots with turnip plants per site, and	6 temporal replicates",NA
"Georg_Andersson_Brassica_rapa_Sweden_2010","2.0.1","Sweepnets","Episyrphus balteatus","Species","syrphids",4,NA,NA,NA,"4 pots with turnip plants per site, and	6 temporal replicates",NA
"Georg_Andersson_Brassica_rapa_Sweden_2010","2.0.1","Sweepnets","Helophilus pendulus","Species","syrphids",1,NA,NA,NA,"4 pots with turnip plants per site, and	6 temporal replicates",NA
"Georg_Andersson_Brassica_rapa_Sweden_2010","2.0.1","Sweepnets","Melanogaster aerosa","Species","syrphids",1,NA,NA,NA,"4 pots with turnip plants per site, and	6 temporal replicates",NA
"Georg_Andersson_Brassica_rapa_Sweden_2010","2.0.1","Sweepnets","Melanostoma mellinum","Species","syrphids",12,NA,NA,NA,"4 pots with turnip plants per site, and	6 temporal replicates",NA
"Georg_Andersson_Brassica_rapa_Sweden_2010","2.0.1","Sweepnets","Melanostoma scalare","Species","syrphids",1,NA,NA,NA,"4 pots with turnip plants per site, and	6 temporal replicates",NA
"Georg_Andersson_Brassica_rapa_Sweden_2010","2.0.1","Sweepnets","Neoascia geniculata","Species","syrphids",1,NA,NA,NA,"4 pots with turnip plants per site, and	6 temporal replicates",NA
"Georg_Andersson_Brassica_rapa_Sweden_2010","2.0.1","Sweepnets","Platycheirus albimanus","Species","syrphids",2,NA,NA,NA,"4 pots with turnip plants per site, and	6 temporal replicates",NA
"Georg_Andersson_Brassica_rapa_Sweden_2010","2.0.1","Sweepnets","Platycheirus angustatus","Species","syrphids",1,NA,NA,NA,"4 pots with turnip plants per site, and	6 temporal replicates",NA
"Georg_Andersson_Brassica_rapa_Sweden_2010","2.0.1","Sweepnets","Platycheirus cf. ambiguus","Species","syrphids",1,NA,NA,NA,"4 pots with turnip plants per site, and	6 temporal replicates",NA
"Georg_Andersson_Brassica_rapa_Sweden_2010","2.0.1","Sweepnets","Platycheirus clypeatus","Species","syrphids",11,NA,NA,NA,"4 pots with turnip plants per site, and	6 temporal replicates",NA
"Georg_Andersson_Brassica_rapa_Sweden_2010","2.0.1","Sweepnets","Platycheirus fulviventris","Species","syrphids",1,NA,NA,NA,"4 pots with turnip plants per site, and	6 temporal replicates",NA
"Georg_Andersson_Brassica_rapa_Sweden_2010","2.0.1","Sweepnets","Sphaerophoria philanta","Species","syrphids",2,NA,NA,NA,"4 pots with turnip plants per site, and	6 temporal replicates",NA
"Georg_Andersson_Brassica_rapa_Sweden_2010","2.0.1","Sweepnets","Sphaerophoria scripta","Species","syrphids",14,NA,NA,NA,"4 pots with turnip plants per site, and	6 temporal replicates",NA
"Georg_Andersson_Brassica_rapa_Sweden_2010","2.0.1","Sweepnets","Sphaerophoria taeniata","Species","syrphids",16,NA,NA,NA,"4 pots with turnip plants per site, and	6 temporal replicates",NA
"Georg_Andersson_Brassica_rapa_Sweden_2010","2.0.1","Sweepnets","Syritta pipiens","Species","syrphids",1,NA,NA,NA,"4 pots with turnip plants per site, and	6 temporal replicates",NA
"Georg_Andersson_Brassica_rapa_Sweden_2010","2.0.2","Sweepnets","Andrena fucata","Species","other_wild_bees",1,NA,NA,NA,"4 pots with turnip plants per site, and	6 temporal replicates",NA
"Georg_Andersson_Brassica_rapa_Sweden_2010","2.0.2","Sweepnets","Andrena semilaevis","Species","other_wild_bees",2,NA,NA,NA,"4 pots with turnip plants per site, and	6 temporal replicates",NA
"Georg_Andersson_Brassica_rapa_Sweden_2010","2.0.2","Sweepnets","Bombus lapidarius","Species","bumblebees",3,NA,NA,NA,"4 pots with turnip plants per site, and	6 temporal replicates",NA
"Georg_Andersson_Brassica_rapa_Sweden_2010","2.0.2","Sweepnets","Bombus lucorum","Species","bumblebees",1,NA,NA,NA,"4 pots with turnip plants per site, and	6 temporal replicates",NA
"Georg_Andersson_Brassica_rapa_Sweden_2010","2.0.2","Sweepnets","Bombus soroeensis","Species","bumblebees",4,NA,NA,NA,"4 pots with turnip plants per site, and	6 temporal replicates",NA
"Georg_Andersson_Brassica_rapa_Sweden_2010","2.0.2","Sweepnets","Bombus sp.","Genera","bumblebees",2,NA,NA,NA,"4 pots with turnip plants per site, and	6 temporal replicates",NA
"Georg_Andersson_Brassica_rapa_Sweden_2010","2.0.2","Sweepnets","Lasioglossum leucopus","Species","other_wild_bees",2,NA,NA,NA,"4 pots with turnip plants per site, and	6 temporal replicates",NA
"Georg_Andersson_Brassica_rapa_Sweden_2010","2.0.2","Sweepnets","Episyrphus balteatus","Species","syrphids",2,NA,NA,NA,"4 pots with turnip plants per site, and	6 temporal replicates",NA
"Georg_Andersson_Brassica_rapa_Sweden_2010","2.0.2","Sweepnets","Eristalinus sepulchralis","Species","syrphids",1,NA,NA,NA,"4 pots with turnip plants per site, and	6 temporal replicates",NA
"Georg_Andersson_Brassica_rapa_Sweden_2010","2.0.2","Sweepnets","Eristalis abusiva","Species","syrphids",2,NA,NA,NA,"4 pots with turnip plants per site, and	6 temporal replicates",NA
"Georg_Andersson_Brassica_rapa_Sweden_2010","2.0.2","Sweepnets","Eristalis arbustorum","Species","syrphids",3,NA,NA,NA,"4 pots with turnip plants per site, and	6 temporal replicates",NA
"Georg_Andersson_Brassica_rapa_Sweden_2010","2.0.2","Sweepnets","Eristalis interrupta","Species","syrphids",1,NA,NA,NA,"4 pots with turnip plants per site, and	6 temporal replicates",NA
"Georg_Andersson_Brassica_rapa_Sweden_2010","2.0.2","Sweepnets","Eumerus strigatus","Species","syrphids",1,NA,NA,NA,"4 pots with turnip plants per site, and	6 temporal replicates",NA
"Georg_Andersson_Brassica_rapa_Sweden_2010","2.0.2","Sweepnets","Eupeodes corollae","Species","syrphids",2,NA,NA,NA,"4 pots with turnip plants per site, and	6 temporal replicates",NA
"Georg_Andersson_Brassica_rapa_Sweden_2010","2.0.2","Sweepnets","Melanostoma mellinum","Species","syrphids",6,NA,NA,NA,"4 pots with turnip plants per site, and	6 temporal replicates",NA
"Georg_Andersson_Brassica_rapa_Sweden_2010","2.0.2","Sweepnets","Neoascia podagrica","Species","syrphids",2,NA,NA,NA,"4 pots with turnip plants per site, and	6 temporal replicates",NA
"Georg_Andersson_Brassica_rapa_Sweden_2010","2.0.2","Sweepnets","Pipiza noctiluca","Species","syrphids",1,NA,NA,NA,"4 pots with turnip plants per site, and	6 temporal replicates",NA
"Georg_Andersson_Brassica_rapa_Sweden_2010","2.0.2","Sweepnets","Platycheirus clypeatus","Species","syrphids",6,NA,NA,NA,"4 pots with turnip plants per site, and	6 temporal replicates",NA
"Georg_Andersson_Brassica_rapa_Sweden_2010","2.0.2","Sweepnets","Rhingia campestris","Species","syrphids",1,NA,NA,NA,"4 pots with turnip plants per site, and	6 temporal replicates",NA
"Georg_Andersson_Brassica_rapa_Sweden_2010","2.0.2","Sweepnets","Sericomyia silentis","Species","syrphids",1,NA,NA,NA,"4 pots with turnip plants per site, and	6 temporal replicates",NA
"Georg_Andersson_Brassica_rapa_Sweden_2010","2.0.2","Sweepnets","Sphaerophoria scripta","Species","syrphids",2,NA,NA,NA,"4 pots with turnip plants per site, and	6 temporal replicates",NA
"Georg_Andersson_Brassica_rapa_Sweden_2010","2.0.2","Sweepnets","Sphaerophoria taeniata","Species","syrphids",1,NA,NA,NA,"4 pots with turnip plants per site, and	6 temporal replicates",NA
"Georg_Andersson_Brassica_rapa_Sweden_2010","2.0.2","Sweepnets","Syritta pipiens","Species","syrphids",17,NA,NA,NA,"4 pots with turnip plants per site, and	6 temporal replicates",NA
"Georg_Andersson_Brassica_rapa_Sweden_2010","2.0.2","Sweepnets","Syrphus torvus","Species","syrphids",1,NA,NA,NA,"4 pots with turnip plants per site, and	6 temporal replicates",NA
"Georg_Andersson_Brassica_rapa_Sweden_2010","2.1","Sweepnets","Bombus sp.","Genera","bumblebees",7,NA,NA,NA,"4 pots with turnip plants per site, and	6 temporal replicates",NA
"Georg_Andersson_Brassica_rapa_Sweden_2010","2.1","Sweepnets","Lasioglossum leucopus","Species","other_wild_bees",2,NA,NA,NA,"4 pots with turnip plants per site, and	6 temporal replicates",NA
"Georg_Andersson_Brassica_rapa_Sweden_2010","2.1","Sweepnets","Lasioglossum minutissimum","Species","other_wild_bees",1,NA,NA,NA,"4 pots with turnip plants per site, and	6 temporal replicates",NA
"Georg_Andersson_Brassica_rapa_Sweden_2010","2.1","Sweepnets","Lasioglossum quadrinotatum","Species","other_wild_bees",1,NA,NA,NA,"4 pots with turnip plants per site, and	6 temporal replicates",NA
"Georg_Andersson_Brassica_rapa_Sweden_2010","2.1","Sweepnets","Megachile versicolor","Species","other_wild_bees",1,NA,NA,NA,"4 pots with turnip plants per site, and	6 temporal replicates",NA
"Georg_Andersson_Brassica_rapa_Sweden_2010","2.1","Sweepnets","Chloromyia formosa","Species","other_flies",2,NA,NA,NA,"4 pots with turnip plants per site, and	6 temporal replicates",NA
"Georg_Andersson_Brassica_rapa_Sweden_2010","2.1","Sweepnets","Sargus iridatus","Species","other_flies",1,NA,NA,NA,"4 pots with turnip plants per site, and	6 temporal replicates",NA
"Georg_Andersson_Brassica_rapa_Sweden_2010","2.1","Sweepnets","Episyrphus balteatus","Species","syrphids",2,NA,NA,NA,"4 pots with turnip plants per site, and	6 temporal replicates",NA
"Georg_Andersson_Brassica_rapa_Sweden_2010","2.1","Sweepnets","Eristalis interrupta","Species","syrphids",4,NA,NA,NA,"4 pots with turnip plants per site, and	6 temporal replicates",NA
"Georg_Andersson_Brassica_rapa_Sweden_2010","2.1","Sweepnets","Helophilus pendulus","Species","syrphids",1,NA,NA,NA,"4 pots with turnip plants per site, and	6 temporal replicates",NA
"Georg_Andersson_Brassica_rapa_Sweden_2010","2.1","Sweepnets","Melanostoma mellinum","Species","syrphids",2,NA,NA,NA,"4 pots with turnip plants per site, and	6 temporal replicates",NA
"Georg_Andersson_Brassica_rapa_Sweden_2010","2.1","Sweepnets","Platycheirus clypeatus","Species","syrphids",3,NA,NA,NA,"4 pots with turnip plants per site, and	6 temporal replicates",NA
"Georg_Andersson_Brassica_rapa_Sweden_2010","2.1","Sweepnets","Sphaerophoria interrupta","Species","syrphids",1,NA,NA,NA,"4 pots with turnip plants per site, and	6 temporal replicates",NA
"Georg_Andersson_Brassica_rapa_Sweden_2010","2.1","Sweepnets","Sphaerophoria scripta","Species","syrphids",8,NA,NA,NA,"4 pots with turnip plants per site, and	6 temporal replicates",NA
"Georg_Andersson_Brassica_rapa_Sweden_2010","2.1","Sweepnets","Sphaerophoria taeniata","Species","syrphids",3,NA,NA,NA,"4 pots with turnip plants per site, and	6 temporal replicates",NA
"Georg_Andersson_Brassica_rapa_Sweden_2010","2.1","Sweepnets","Syritta pipiens","Species","syrphids",3,NA,NA,NA,"4 pots with turnip plants per site, and	6 temporal replicates",NA
"Georg_Andersson_Brassica_rapa_Sweden_2010","2.4","Sweepnets","Andrena fucata","Species","other_wild_bees",1,NA,NA,NA,"4 pots with turnip plants per site, and	6 temporal replicates",NA
"Georg_Andersson_Brassica_rapa_Sweden_2010","2.4","Sweepnets","Apis mellifera","Species","honeybees",4,NA,NA,NA,"4 pots with turnip plants per site, and	6 temporal replicates",NA
"Georg_Andersson_Brassica_rapa_Sweden_2010","2.4","Sweepnets","Bombus lapidarius","Species","bumblebees",1,NA,NA,NA,"4 pots with turnip plants per site, and	6 temporal replicates",NA
"Georg_Andersson_Brassica_rapa_Sweden_2010","2.4","Sweepnets","Bombus lucorum","Species","bumblebees",1,NA,NA,NA,"4 pots with turnip plants per site, and	6 temporal replicates",NA
"Georg_Andersson_Brassica_rapa_Sweden_2010","2.4","Sweepnets","Bombus pascuorum","Species","bumblebees",4,NA,NA,NA,"4 pots with turnip plants per site, and	6 temporal replicates",NA
"Georg_Andersson_Brassica_rapa_Sweden_2010","2.4","Sweepnets","Bombus soroeensis","Species","bumblebees",2,NA,NA,NA,"4 pots with turnip plants per site, and	6 temporal replicates",NA
"Georg_Andersson_Brassica_rapa_Sweden_2010","2.4","Sweepnets","Bombus sp.","Genera","bumblebees",13,NA,NA,NA,"4 pots with turnip plants per site, and	6 temporal replicates",NA
"Georg_Andersson_Brassica_rapa_Sweden_2010","2.4","Sweepnets","Bombus terrestris","Species","bumblebees",2,NA,NA,NA,"4 pots with turnip plants per site, and	6 temporal replicates",NA
"Georg_Andersson_Brassica_rapa_Sweden_2010","2.4","Sweepnets","Halictus tumulorum","Species","other_wild_bees",1,NA,NA,NA,"4 pots with turnip plants per site, and	6 temporal replicates",NA
"Georg_Andersson_Brassica_rapa_Sweden_2010","2.4","Sweepnets","Lasioglossum lativentre","Species","other_wild_bees",1,NA,NA,NA,"4 pots with turnip plants per site, and	6 temporal replicates",NA
"Georg_Andersson_Brassica_rapa_Sweden_2010","2.4","Sweepnets","Lasioglossum leucopus","Species","other_wild_bees",1,NA,NA,NA,"4 pots with turnip plants per site, and	6 temporal replicates",NA
"Georg_Andersson_Brassica_rapa_Sweden_2010","2.4","Sweepnets","Chloromyia formosa","Species","other_flies",3,NA,NA,NA,"4 pots with turnip plants per site, and	6 temporal replicates",NA
"Georg_Andersson_Brassica_rapa_Sweden_2010","2.4","Sweepnets","Cheilosia vernalis","Species","syrphids",1,NA,NA,NA,"4 pots with turnip plants per site, and	6 temporal replicates",NA
"Georg_Andersson_Brassica_rapa_Sweden_2010","2.4","Sweepnets","Episyrphus balteatus","Species","syrphids",9,NA,NA,NA,"4 pots with turnip plants per site, and	6 temporal replicates",NA
"Georg_Andersson_Brassica_rapa_Sweden_2010","2.4","Sweepnets","Eristalis arbustorum","Species","syrphids",6,NA,NA,NA,"4 pots with turnip plants per site, and	6 temporal replicates",NA
"Georg_Andersson_Brassica_rapa_Sweden_2010","2.4","Sweepnets","Eristalis interrupta","Species","syrphids",4,NA,NA,NA,"4 pots with turnip plants per site, and	6 temporal replicates",NA
"Georg_Andersson_Brassica_rapa_Sweden_2010","2.4","Sweepnets","Eristalis lineata","Species","syrphids",2,NA,NA,NA,"4 pots with turnip plants per site, and	6 temporal replicates",NA
"Georg_Andersson_Brassica_rapa_Sweden_2010","2.4","Sweepnets","Eristalis tenax","Species","syrphids",1,NA,NA,NA,"4 pots with turnip plants per site, and	6 temporal replicates",NA
"Georg_Andersson_Brassica_rapa_Sweden_2010","2.4","Sweepnets","Eupeodes corollae","Species","syrphids",10,NA,NA,NA,"4 pots with turnip plants per site, and	6 temporal replicates",NA
"Georg_Andersson_Brassica_rapa_Sweden_2010","2.4","Sweepnets","Helophilus pendulus","Species","syrphids",2,NA,NA,NA,"4 pots with turnip plants per site, and	6 temporal replicates",NA
"Georg_Andersson_Brassica_rapa_Sweden_2010","2.4","Sweepnets","Helophilus trivittatus","Species","syrphids",1,NA,NA,NA,"4 pots with turnip plants per site, and	6 temporal replicates",NA
"Georg_Andersson_Brassica_rapa_Sweden_2010","2.4","Sweepnets","Melanostoma mellinum","Species","syrphids",18,NA,NA,NA,"4 pots with turnip plants per site, and	6 temporal replicates",NA
"Georg_Andersson_Brassica_rapa_Sweden_2010","2.4","Sweepnets","Melanostoma scalare","Species","syrphids",4,NA,NA,NA,"4 pots with turnip plants per site, and	6 temporal replicates",NA
"Georg_Andersson_Brassica_rapa_Sweden_2010","2.4","Sweepnets","Parasyrphus macularis","Species","syrphids",1,NA,NA,NA,"4 pots with turnip plants per site, and	6 temporal replicates",NA
"Georg_Andersson_Brassica_rapa_Sweden_2010","2.4","Sweepnets","Pipiza quadrimaculata","Species","syrphids",1,NA,NA,NA,"4 pots with turnip plants per site, and	6 temporal replicates",NA
"Georg_Andersson_Brassica_rapa_Sweden_2010","2.4","Sweepnets","Pipizella viduata","Species","syrphids",1,NA,NA,NA,"4 pots with turnip plants per site, and	6 temporal replicates",NA
"Georg_Andersson_Brassica_rapa_Sweden_2010","2.4","Sweepnets","Platycheirus albimanus","Species","syrphids",4,NA,NA,NA,"4 pots with turnip plants per site, and	6 temporal replicates",NA
"Georg_Andersson_Brassica_rapa_Sweden_2010","2.4","Sweepnets","Platycheirus angustatus","Species","syrphids",1,NA,NA,NA,"4 pots with turnip plants per site, and	6 temporal replicates",NA
"Georg_Andersson_Brassica_rapa_Sweden_2010","2.4","Sweepnets","Platycheirus clypeatus","Species","syrphids",13,NA,NA,NA,"4 pots with turnip plants per site, and	6 temporal replicates",NA
"Georg_Andersson_Brassica_rapa_Sweden_2010","2.4","Sweepnets","Platycheirus scambus","Species","syrphids",1,NA,NA,NA,"4 pots with turnip plants per site, and	6 temporal replicates",NA
"Georg_Andersson_Brassica_rapa_Sweden_2010","2.4","Sweepnets","Sphaerophoria interrupta","Species","syrphids",5,NA,NA,NA,"4 pots with turnip plants per site, and	6 temporal replicates",NA
"Georg_Andersson_Brassica_rapa_Sweden_2010","2.4","Sweepnets","Sphaerophoria philanta","Species","syrphids",1,NA,NA,NA,"4 pots with turnip plants per site, and	6 temporal replicates",NA
"Georg_Andersson_Brassica_rapa_Sweden_2010","2.4","Sweepnets","Sphaerophoria scripta","Species","syrphids",20,NA,NA,NA,"4 pots with turnip plants per site, and	6 temporal replicates",NA
"Georg_Andersson_Brassica_rapa_Sweden_2010","2.4","Sweepnets","Sphaerophoria taeniata","Species","syrphids",18,NA,NA,NA,"4 pots with turnip plants per site, and	6 temporal replicates",NA
"Georg_Andersson_Brassica_rapa_Sweden_2010","2.4","Sweepnets","Syritta pipiens","Species","syrphids",12,NA,NA,NA,"4 pots with turnip plants per site, and	6 temporal replicates",NA
"Georg_Andersson_Brassica_rapa_Sweden_2010","2.4","Sweepnets","Syrphus ribesii","Species","syrphids",1,NA,NA,NA,"4 pots with turnip plants per site, and	6 temporal replicates",NA
"Georg_Andersson_Brassica_rapa_Sweden_2010","2.4","Sweepnets","Syrphus torvus","Species","syrphids",1,NA,NA,NA,"4 pots with turnip plants per site, and	6 temporal replicates",NA
"Georg_Andersson_Brassica_rapa_Sweden_2010","2.4","Sweepnets","Syrphus vitripennis","Species","syrphids",1,NA,NA,NA,"4 pots with turnip plants per site, and	6 temporal replicates",NA
"Georg_Andersson_Brassica_rapa_Sweden_2010","2.4.2","Sweepnets","Andrena minutula","Species","other_wild_bees",1,NA,NA,NA,"4 pots with turnip plants per site, and	6 temporal replicates",NA
"Georg_Andersson_Brassica_rapa_Sweden_2010","2.4.2","Sweepnets","Andrena subopaca","Species","other_wild_bees",1,NA,NA,NA,"4 pots with turnip plants per site, and	6 temporal replicates",NA
"Georg_Andersson_Brassica_rapa_Sweden_2010","2.4.2","Sweepnets","Andrena wilkella","Species","other_wild_bees",1,NA,NA,NA,"4 pots with turnip plants per site, and	6 temporal replicates",NA
"Georg_Andersson_Brassica_rapa_Sweden_2010","2.4.2","Sweepnets","Apis mellifera","Species","honeybees",33,NA,NA,NA,"4 pots with turnip plants per site, and	6 temporal replicates",NA
"Georg_Andersson_Brassica_rapa_Sweden_2010","2.4.2","Sweepnets","Bombus lapidarius","Species","bumblebees",5,NA,NA,NA,"4 pots with turnip plants per site, and	6 temporal replicates",NA
"Georg_Andersson_Brassica_rapa_Sweden_2010","2.4.2","Sweepnets","Bombus lucorum","Species","bumblebees",3,NA,NA,NA,"4 pots with turnip plants per site, and	6 temporal replicates",NA
"Georg_Andersson_Brassica_rapa_Sweden_2010","2.4.2","Sweepnets","Bombus soroeensis","Species","bumblebees",1,NA,NA,NA,"4 pots with turnip plants per site, and	6 temporal replicates",NA
"Georg_Andersson_Brassica_rapa_Sweden_2010","2.4.2","Sweepnets","Bombus sp.","Genera","bumblebees",10,NA,NA,NA,"4 pots with turnip plants per site, and	6 temporal replicates",NA
"Georg_Andersson_Brassica_rapa_Sweden_2010","2.4.2","Sweepnets","Bombus terrestris","Species","bumblebees",1,NA,NA,NA,"4 pots with turnip plants per site, and	6 temporal replicates",NA
"Georg_Andersson_Brassica_rapa_Sweden_2010","2.4.2","Sweepnets","Lindenius albilabris","Species","non_bee_hymenoptera",1,NA,NA,NA,"4 pots with turnip plants per site, and	6 temporal replicates",NA
"Georg_Andersson_Brassica_rapa_Sweden_2010","2.4.2","Sweepnets","Halictus tumulorum","Species","other_wild_bees",1,NA,NA,NA,"4 pots with turnip plants per site, and	6 temporal replicates",NA
"Georg_Andersson_Brassica_rapa_Sweden_2010","2.4.2","Sweepnets","Lasioglossum leucopus","Species","other_wild_bees",7,NA,NA,NA,"4 pots with turnip plants per site, and	6 temporal replicates",NA
"Georg_Andersson_Brassica_rapa_Sweden_2010","2.4.2","Sweepnets","Chloromyia formosa","Species","other_flies",2,NA,NA,NA,"4 pots with turnip plants per site, and	6 temporal replicates",NA
"Georg_Andersson_Brassica_rapa_Sweden_2010","2.4.2","Sweepnets","Cheilosia cf. vernalis","Species","syrphids",1,NA,NA,NA,"4 pots with turnip plants per site, and	6 temporal replicates",NA
"Georg_Andersson_Brassica_rapa_Sweden_2010","2.4.2","Sweepnets","Episyrphus balteatus","Species","syrphids",7,NA,NA,NA,"4 pots with turnip plants per site, and	6 temporal replicates",NA
"Georg_Andersson_Brassica_rapa_Sweden_2010","2.4.2","Sweepnets","Eristalinus sepulchralis","Species","syrphids",1,NA,NA,NA,"4 pots with turnip plants per site, and	6 temporal replicates",NA
"Georg_Andersson_Brassica_rapa_Sweden_2010","2.4.2","Sweepnets","Eristalis interrupta","Species","syrphids",1,NA,NA,NA,"4 pots with turnip plants per site, and	6 temporal replicates",NA
"Georg_Andersson_Brassica_rapa_Sweden_2010","2.4.2","Sweepnets","Eristalis tenax","Species","syrphids",1,NA,NA,NA,"4 pots with turnip plants per site, and	6 temporal replicates",NA
"Georg_Andersson_Brassica_rapa_Sweden_2010","2.4.2","Sweepnets","Eupeodes corollae","Species","syrphids",2,NA,NA,NA,"4 pots with turnip plants per site, and	6 temporal replicates",NA
"Georg_Andersson_Brassica_rapa_Sweden_2010","2.4.2","Sweepnets","Eupeodes latifasciatus","Species","syrphids",1,NA,NA,NA,"4 pots with turnip plants per site, and	6 temporal replicates",NA
"Georg_Andersson_Brassica_rapa_Sweden_2010","2.4.2","Sweepnets","Eupeodes nielseni","Species","syrphids",1,NA,NA,NA,"4 pots with turnip plants per site, and	6 temporal replicates",NA
"Georg_Andersson_Brassica_rapa_Sweden_2010","2.4.2","Sweepnets","Melanostoma mellinum","Species","syrphids",36,NA,NA,NA,"4 pots with turnip plants per site, and	6 temporal replicates",NA
"Georg_Andersson_Brassica_rapa_Sweden_2010","2.4.2","Sweepnets","Parasyrphus lineolus","Species","syrphids",2,NA,NA,NA,"4 pots with turnip plants per site, and	6 temporal replicates",NA
"Georg_Andersson_Brassica_rapa_Sweden_2010","2.4.2","Sweepnets","Pipizella viduata","Species","syrphids",1,NA,NA,NA,"4 pots with turnip plants per site, and	6 temporal replicates",NA
"Georg_Andersson_Brassica_rapa_Sweden_2010","2.4.2","Sweepnets","Platycheirus albimanus","Species","syrphids",2,NA,NA,NA,"4 pots with turnip plants per site, and	6 temporal replicates",NA
"Georg_Andersson_Brassica_rapa_Sweden_2010","2.4.2","Sweepnets","Platycheirus clypeatus","Species","syrphids",27,NA,NA,NA,"4 pots with turnip plants per site, and	6 temporal replicates",NA
"Georg_Andersson_Brassica_rapa_Sweden_2010","2.4.2","Sweepnets","Scaeva pyrastri","Species","syrphids",1,NA,NA,NA,"4 pots with turnip plants per site, and	6 temporal replicates",NA
"Georg_Andersson_Brassica_rapa_Sweden_2010","2.4.2","Sweepnets","Sphaerophoria scripta","Species","syrphids",5,NA,NA,NA,"4 pots with turnip plants per site, and	6 temporal replicates",NA
"Georg_Andersson_Brassica_rapa_Sweden_2010","2.4.2","Sweepnets","Sphaerophoria taeniata","Species","syrphids",2,NA,NA,NA,"4 pots with turnip plants per site, and	6 temporal replicates",NA
"Georg_Andersson_Brassica_rapa_Sweden_2010","2.4.2","Sweepnets","Syritta pipiens","Species","syrphids",2,NA,NA,NA,"4 pots with turnip plants per site, and	6 temporal replicates",NA
"Georg_Andersson_Brassica_rapa_Sweden_2010","4.1","Sweepnets","Apis mellifera","Species","honeybees",1,NA,NA,NA,"4 pots with turnip plants per site, and	6 temporal replicates",NA
"Georg_Andersson_Brassica_rapa_Sweden_2010","4.1","Sweepnets","Bombus lucorum","Species","bumblebees",1,NA,NA,NA,"4 pots with turnip plants per site, and	6 temporal replicates",NA
"Georg_Andersson_Brassica_rapa_Sweden_2010","4.1","Sweepnets","Bombus sp.","Genera","bumblebees",2,NA,NA,NA,"4 pots with turnip plants per site, and	6 temporal replicates",NA
"Georg_Andersson_Brassica_rapa_Sweden_2010","4.1","Sweepnets","Bombus sylvarum","Species","bumblebees",1,NA,NA,NA,"4 pots with turnip plants per site, and	6 temporal replicates",NA
"Georg_Andersson_Brassica_rapa_Sweden_2010","4.1","Sweepnets","Lasioglossum leucopus","Species","other_wild_bees",2,NA,NA,NA,"4 pots with turnip plants per site, and	6 temporal replicates",NA
"Georg_Andersson_Brassica_rapa_Sweden_2010","4.1","Sweepnets","Episyrphus balteatus","Species","syrphids",12,NA,NA,NA,"4 pots with turnip plants per site, and	6 temporal replicates",NA
"Georg_Andersson_Brassica_rapa_Sweden_2010","4.1","Sweepnets","Eupeodes corollae","Species","syrphids",1,NA,NA,NA,"4 pots with turnip plants per site, and	6 temporal replicates",NA
"Georg_Andersson_Brassica_rapa_Sweden_2010","4.1","Sweepnets","Melanostoma mellinum","Species","syrphids",38,NA,NA,NA,"4 pots with turnip plants per site, and	6 temporal replicates",NA
"Georg_Andersson_Brassica_rapa_Sweden_2010","4.1","Sweepnets","Neoascia podagrica","Species","syrphids",1,NA,NA,NA,"4 pots with turnip plants per site, and	6 temporal replicates",NA
"Georg_Andersson_Brassica_rapa_Sweden_2010","4.1","Sweepnets","Platycheirus angustatus","Species","syrphids",2,NA,NA,NA,"4 pots with turnip plants per site, and	6 temporal replicates",NA
"Georg_Andersson_Brassica_rapa_Sweden_2010","4.1","Sweepnets","Platycheirus clypeatus","Species","syrphids",11,NA,NA,NA,"4 pots with turnip plants per site, and	6 temporal replicates",NA
"Georg_Andersson_Brassica_rapa_Sweden_2010","4.1","Sweepnets","Platycheirus manicatus","Species","syrphids",1,NA,NA,NA,"4 pots with turnip plants per site, and	6 temporal replicates",NA
"Georg_Andersson_Brassica_rapa_Sweden_2010","4.1","Sweepnets","Platycheirus scambus","Species","syrphids",1,NA,NA,NA,"4 pots with turnip plants per site, and	6 temporal replicates",NA
"Georg_Andersson_Brassica_rapa_Sweden_2010","4.1","Sweepnets","Scaeva pyrastri","Species","syrphids",1,NA,NA,NA,"4 pots with turnip plants per site, and	6 temporal replicates",NA
"Georg_Andersson_Brassica_rapa_Sweden_2010","4.1","Sweepnets","Sphaerophoria taeniata","Species","syrphids",1,NA,NA,NA,"4 pots with turnip plants per site, and	6 temporal replicates",NA
"Georg_Andersson_Brassica_rapa_Sweden_2010","4.1","Sweepnets","Andrena semilaevis","Species","other_wild_bees",2,NA,NA,NA,"4 pots with turnip plants per site, and	6 temporal replicates",NA
"Georg_Andersson_Brassica_rapa_Sweden_2010","4.1","Sweepnets","Apis mellifera","Species","honeybees",6,NA,NA,NA,"4 pots with turnip plants per site, and	6 temporal replicates",NA
"Georg_Andersson_Brassica_rapa_Sweden_2010","4.1","Sweepnets","Bombus bohemicus","Species","bumblebees",1,NA,NA,NA,"4 pots with turnip plants per site, and	6 temporal replicates",NA
"Georg_Andersson_Brassica_rapa_Sweden_2010","4.1","Sweepnets","Bombus campestris","Species","bumblebees",1,NA,NA,NA,"4 pots with turnip plants per site, and	6 temporal replicates",NA
"Georg_Andersson_Brassica_rapa_Sweden_2010","4.1","Sweepnets","Bombus hortorum","Species","bumblebees",2,NA,NA,NA,"4 pots with turnip plants per site, and	6 temporal replicates",NA
"Georg_Andersson_Brassica_rapa_Sweden_2010","4.1","Sweepnets","Bombus lapidarius","Species","bumblebees",4,NA,NA,NA,"4 pots with turnip plants per site, and	6 temporal replicates",NA
"Georg_Andersson_Brassica_rapa_Sweden_2010","4.1","Sweepnets","Bombus pascuorum","Species","bumblebees",3,NA,NA,NA,"4 pots with turnip plants per site, and	6 temporal replicates",NA
"Georg_Andersson_Brassica_rapa_Sweden_2010","4.1","Sweepnets","Bombus ruderarius","Species","bumblebees",2,NA,NA,NA,"4 pots with turnip plants per site, and	6 temporal replicates",NA
"Georg_Andersson_Brassica_rapa_Sweden_2010","4.1","Sweepnets","Bombus rupestris","Species","bumblebees",1,NA,NA,NA,"4 pots with turnip plants per site, and	6 temporal replicates",NA
"Georg_Andersson_Brassica_rapa_Sweden_2010","4.1","Sweepnets","Bombus sp.","Genera","bumblebees",11,NA,NA,NA,"4 pots with turnip plants per site, and	6 temporal replicates",NA
"Georg_Andersson_Brassica_rapa_Sweden_2010","4.1","Sweepnets","Bombus sylvarum","Species","bumblebees",1,NA,NA,NA,"4 pots with turnip plants per site, and	6 temporal replicates",NA
"Georg_Andersson_Brassica_rapa_Sweden_2010","4.1","Sweepnets","Bombus terrestris","Species","bumblebees",5,NA,NA,NA,"4 pots with turnip plants per site, and	6 temporal replicates",NA
"Georg_Andersson_Brassica_rapa_Sweden_2010","4.1","Sweepnets","Colletes daviesanus","Species","other_wild_bees",3,NA,NA,NA,"4 pots with turnip plants per site, and	6 temporal replicates",NA
"Georg_Andersson_Brassica_rapa_Sweden_2010","4.1","Sweepnets","Cerceris rybyensis","Species","non_bee_hymenoptera",1,NA,NA,NA,"4 pots with turnip plants per site, and	6 temporal replicates",NA
"Georg_Andersson_Brassica_rapa_Sweden_2010","4.1","Sweepnets","Lindenius albilabris","Species","non_bee_hymenoptera",2,NA,NA,NA,"4 pots with turnip plants per site, and	6 temporal replicates",NA
"Georg_Andersson_Brassica_rapa_Sweden_2010","4.1","Sweepnets","Halictus tumulorum","Species","other_wild_bees",1,NA,NA,NA,"4 pots with turnip plants per site, and	6 temporal replicates",NA
"Georg_Andersson_Brassica_rapa_Sweden_2010","4.1","Sweepnets","Lasioglossum leucopus","Species","other_wild_bees",2,NA,NA,NA,"4 pots with turnip plants per site, and	6 temporal replicates",NA
"Georg_Andersson_Brassica_rapa_Sweden_2010","4.1","Sweepnets","Melitta leporina","Species","other_wild_bees",3,NA,NA,NA,"4 pots with turnip plants per site, and	6 temporal replicates",NA
"Georg_Andersson_Brassica_rapa_Sweden_2010","4.1","Sweepnets","Episyrphus balteatus","Species","syrphids",7,NA,NA,NA,"4 pots with turnip plants per site, and	6 temporal replicates",NA
"Georg_Andersson_Brassica_rapa_Sweden_2010","4.1","Sweepnets","Eupeodes corollae","Species","syrphids",2,NA,NA,NA,"4 pots with turnip plants per site, and	6 temporal replicates",NA
"Georg_Andersson_Brassica_rapa_Sweden_2010","4.1","Sweepnets","Helophilus trivittatus","Species","syrphids",1,NA,NA,NA,"4 pots with turnip plants per site, and	6 temporal replicates",NA
"Georg_Andersson_Brassica_rapa_Sweden_2010","4.1","Sweepnets","Melanostoma mellinum","Species","syrphids",4,NA,NA,NA,"4 pots with turnip plants per site, and	6 temporal replicates",NA
"Georg_Andersson_Brassica_rapa_Sweden_2010","4.1","Sweepnets","Scaeva pyrastri","Species","syrphids",1,NA,NA,NA,"4 pots with turnip plants per site, and	6 temporal replicates",NA
"Georg_Andersson_Brassica_rapa_Sweden_2010","4.1","Sweepnets","Sphaerophoria scripta","Species","syrphids",4,NA,NA,NA,"4 pots with turnip plants per site, and	6 temporal replicates",NA
"Georg_Andersson_Brassica_rapa_Sweden_2010","4.1","Sweepnets","Volucella bombylans","Species","syrphids",1,NA,NA,NA,"4 pots with turnip plants per site, and	6 temporal replicates",NA
"Georg_Andersson_Brassica_rapa_Sweden_2010","4.1.2","Sweepnets","Andrena semilaevis","Species","other_wild_bees",1,NA,NA,NA,"4 pots with turnip plants per site, and	6 temporal replicates",NA
"Georg_Andersson_Brassica_rapa_Sweden_2010","4.1.2","Sweepnets","Apis mellifera","Species","honeybees",6,NA,NA,NA,"4 pots with turnip plants per site, and	6 temporal replicates",NA
"Georg_Andersson_Brassica_rapa_Sweden_2010","4.1.2","Sweepnets","Bombus hortorum","Species","bumblebees",2,NA,NA,NA,"4 pots with turnip plants per site, and	6 temporal replicates",NA
"Georg_Andersson_Brassica_rapa_Sweden_2010","4.1.2","Sweepnets","Bombus lapidarius","Species","bumblebees",9,NA,NA,NA,"4 pots with turnip plants per site, and	6 temporal replicates",NA
"Georg_Andersson_Brassica_rapa_Sweden_2010","4.1.2","Sweepnets","Bombus lucorum","Species","bumblebees",3,NA,NA,NA,"4 pots with turnip plants per site, and	6 temporal replicates",NA
"Georg_Andersson_Brassica_rapa_Sweden_2010","4.1.2","Sweepnets","Bombus ruderarius","Species","bumblebees",1,NA,NA,NA,"4 pots with turnip plants per site, and	6 temporal replicates",NA
"Georg_Andersson_Brassica_rapa_Sweden_2010","4.1.2","Sweepnets","Bombus sp.","Genera","bumblebees",3,NA,NA,NA,"4 pots with turnip plants per site, and	6 temporal replicates",NA
"Georg_Andersson_Brassica_rapa_Sweden_2010","4.1.2","Sweepnets","Bombus sylvarum","Species","bumblebees",2,NA,NA,NA,"4 pots with turnip plants per site, and	6 temporal replicates",NA
"Georg_Andersson_Brassica_rapa_Sweden_2010","4.1.2","Sweepnets","Bombus terrestris","Species","bumblebees",3,NA,NA,NA,"4 pots with turnip plants per site, and	6 temporal replicates",NA
"Georg_Andersson_Brassica_rapa_Sweden_2010","4.1.2","Sweepnets","Halictus tumulorum","Species","other_wild_bees",3,NA,NA,NA,"4 pots with turnip plants per site, and	6 temporal replicates",NA
"Georg_Andersson_Brassica_rapa_Sweden_2010","4.1.2","Sweepnets","Lasioglossum aeratum","Species","other_wild_bees",1,NA,NA,NA,"4 pots with turnip plants per site, and	6 temporal replicates",NA
"Georg_Andersson_Brassica_rapa_Sweden_2010","4.1.2","Sweepnets","Lasioglossum lativentre","Species","other_wild_bees",4,NA,NA,NA,"4 pots with turnip plants per site, and	6 temporal replicates",NA
"Georg_Andersson_Brassica_rapa_Sweden_2010","4.1.2","Sweepnets","Lasioglossum leucopus","Species","other_wild_bees",9,NA,NA,NA,"4 pots with turnip plants per site, and	6 temporal replicates",NA
"Georg_Andersson_Brassica_rapa_Sweden_2010","4.1.2","Sweepnets","Lasioglossum morio","Species","other_wild_bees",2,NA,NA,NA,"4 pots with turnip plants per site, and	6 temporal replicates",NA
"Georg_Andersson_Brassica_rapa_Sweden_2010","4.1.2","Sweepnets","Lasioglossum quadrinotatum","Species","other_wild_bees",4,NA,NA,NA,"4 pots with turnip plants per site, and	6 temporal replicates",NA
"Georg_Andersson_Brassica_rapa_Sweden_2010","4.1.2","Sweepnets","Chloromyia formosa","Species","other_flies",4,NA,NA,NA,"4 pots with turnip plants per site, and	6 temporal replicates",NA
"Georg_Andersson_Brassica_rapa_Sweden_2010","4.1.2","Sweepnets","Nemotelus nigrinus","Species","other_flies",1,NA,NA,NA,"4 pots with turnip plants per site, and	6 temporal replicates",NA
"Georg_Andersson_Brassica_rapa_Sweden_2010","4.1.2","Sweepnets","Eupeodes corollae","Species","syrphids",3,NA,NA,NA,"4 pots with turnip plants per site, and	6 temporal replicates",NA
"Georg_Andersson_Brassica_rapa_Sweden_2010","4.1.2","Sweepnets","Melanostoma mellinum","Species","syrphids",17,NA,NA,NA,"4 pots with turnip plants per site, and	6 temporal replicates",NA
"Georg_Andersson_Brassica_rapa_Sweden_2010","4.1.2","Sweepnets","Platycheirus clypeatus","Species","syrphids",3,NA,NA,NA,"4 pots with turnip plants per site, and	6 temporal replicates",NA
"Georg_Andersson_Brassica_rapa_Sweden_2010","4.1.2","Sweepnets","Sphaerophoria scripta","Species","syrphids",10,NA,NA,NA,"4 pots with turnip plants per site, and	6 temporal replicates",NA
"Georg_Andersson_Brassica_rapa_Sweden_2010","4.1.2","Sweepnets","Syritta pipiens","Species","syrphids",3,NA,NA,NA,"4 pots with turnip plants per site, and	6 temporal replicates",NA
"Georg_Andersson_Brassica_rapa_Sweden_2010","4.4","Sweepnets","Andrena nigroaenea","Species","other_wild_bees",1,NA,NA,NA,"4 pots with turnip plants per site, and	6 temporal replicates",NA
"Georg_Andersson_Brassica_rapa_Sweden_2010","4.4","Sweepnets","Apis mellifera","Species","honeybees",5,NA,NA,NA,"4 pots with turnip plants per site, and	6 temporal replicates",NA
"Georg_Andersson_Brassica_rapa_Sweden_2010","4.4","Sweepnets","Bombus lapidarius","Species","bumblebees",12,NA,NA,NA,"4 pots with turnip plants per site, and	6 temporal replicates",NA
"Georg_Andersson_Brassica_rapa_Sweden_2010","4.4","Sweepnets","Bombus pascuorum","Species","bumblebees",4,NA,NA,NA,"4 pots with turnip plants per site, and	6 temporal replicates",NA
"Georg_Andersson_Brassica_rapa_Sweden_2010","4.4","Sweepnets","Bombus sp.","Genera","bumblebees",47,NA,NA,NA,"4 pots with turnip plants per site, and	6 temporal replicates",NA
"Georg_Andersson_Brassica_rapa_Sweden_2010","4.4","Sweepnets","Bombus terrestris","Species","bumblebees",7,NA,NA,NA,"4 pots with turnip plants per site, and	6 temporal replicates",NA
"Georg_Andersson_Brassica_rapa_Sweden_2010","4.4","Sweepnets","Lindenius albilabris","Species","non_bee_hymenoptera",1,NA,NA,NA,"4 pots with turnip plants per site, and	6 temporal replicates",NA
"Georg_Andersson_Brassica_rapa_Sweden_2010","4.4","Sweepnets","Lasioglossum leucopus","Species","other_wild_bees",1,NA,NA,NA,"4 pots with turnip plants per site, and	6 temporal replicates",NA
"Georg_Andersson_Brassica_rapa_Sweden_2010","4.4","Sweepnets","Lasioglossum villosulum","Species","other_wild_bees",1,NA,NA,NA,"4 pots with turnip plants per site, and	6 temporal replicates",NA
"Georg_Andersson_Brassica_rapa_Sweden_2010","4.4","Sweepnets","Chloromyia formosa","Species","other_flies",1,NA,NA,NA,"4 pots with turnip plants per site, and	6 temporal replicates",NA
"Georg_Andersson_Brassica_rapa_Sweden_2010","4.4","Sweepnets","Cheilosia pagana","Species","syrphids",1,NA,NA,NA,"4 pots with turnip plants per site, and	6 temporal replicates",NA
"Georg_Andersson_Brassica_rapa_Sweden_2010","4.4","Sweepnets","Cheilosia vernalis","Species","syrphids",1,NA,NA,NA,"4 pots with turnip plants per site, and	6 temporal replicates",NA
"Georg_Andersson_Brassica_rapa_Sweden_2010","4.4","Sweepnets","Episyrphus balteatus","Species","syrphids",5,NA,NA,NA,"4 pots with turnip plants per site, and	6 temporal replicates",NA
"Georg_Andersson_Brassica_rapa_Sweden_2010","4.4","Sweepnets","Eristalinus sepulchralis","Species","syrphids",1,NA,NA,NA,"4 pots with turnip plants per site, and	6 temporal replicates",NA
"Georg_Andersson_Brassica_rapa_Sweden_2010","4.4","Sweepnets","Eristalis anthophorina","Species","syrphids",1,NA,NA,NA,"4 pots with turnip plants per site, and	6 temporal replicates",NA
"Georg_Andersson_Brassica_rapa_Sweden_2010","4.4","Sweepnets","Eristalis interrupta","Species","syrphids",1,NA,NA,NA,"4 pots with turnip plants per site, and	6 temporal replicates",NA
"Georg_Andersson_Brassica_rapa_Sweden_2010","4.4","Sweepnets","Eupeodes corollae","Species","syrphids",1,NA,NA,NA,"4 pots with turnip plants per site, and	6 temporal replicates",NA
"Georg_Andersson_Brassica_rapa_Sweden_2010","4.4","Sweepnets","Helophilus trivittatus","Species","syrphids",1,NA,NA,NA,"4 pots with turnip plants per site, and	6 temporal replicates",NA
"Georg_Andersson_Brassica_rapa_Sweden_2010","4.4","Sweepnets","Melanostoma mellinum","Species","syrphids",16,NA,NA,NA,"4 pots with turnip plants per site, and	6 temporal replicates",NA
"Georg_Andersson_Brassica_rapa_Sweden_2010","4.4","Sweepnets","Platycheirus clypeatus","Species","syrphids",3,NA,NA,NA,"4 pots with turnip plants per site, and	6 temporal replicates",NA
"Georg_Andersson_Brassica_rapa_Sweden_2010","4.4","Sweepnets","Sphaerophoria scripta","Species","syrphids",6,NA,NA,NA,"4 pots with turnip plants per site, and	6 temporal replicates",NA
"Georg_Andersson_Brassica_rapa_Sweden_2010","4.4","Sweepnets","Syritta pipiens","Species","syrphids",1,NA,NA,NA,"4 pots with turnip plants per site, and	6 temporal replicates",NA
"Georg_Andersson_Brassica_rapa_Sweden_2010","4.4","Sweepnets","Syrphus vitripennis","Species","syrphids",1,NA,NA,NA,"4 pots with turnip plants per site, and	6 temporal replicates",NA
"Georg_Andersson_Brassica_rapa_Sweden_2010","5.0.1","Sweepnets","Bombus lapidarius","Species","bumblebees",15,NA,NA,NA,"4 pots with turnip plants per site, and	6 temporal replicates",NA
"Georg_Andersson_Brassica_rapa_Sweden_2010","5.0.1","Sweepnets","Bombus lucorum","Species","bumblebees",1,NA,NA,NA,"4 pots with turnip plants per site, and	6 temporal replicates",NA
"Georg_Andersson_Brassica_rapa_Sweden_2010","5.0.1","Sweepnets","Bombus rupestris","Species","bumblebees",3,NA,NA,NA,"4 pots with turnip plants per site, and	6 temporal replicates",NA
"Georg_Andersson_Brassica_rapa_Sweden_2010","5.0.1","Sweepnets","Bombus sp.","Genera","bumblebees",4,NA,NA,NA,"4 pots with turnip plants per site, and	6 temporal replicates",NA
"Georg_Andersson_Brassica_rapa_Sweden_2010","5.0.1","Sweepnets","Bombus terrestris","Species","bumblebees",11,NA,NA,NA,"4 pots with turnip plants per site, and	6 temporal replicates",NA
"Georg_Andersson_Brassica_rapa_Sweden_2010","5.0.1","Sweepnets","Lasioglossum leucopus","Species","other_wild_bees",1,NA,NA,NA,"4 pots with turnip plants per site, and	6 temporal replicates",NA
"Georg_Andersson_Brassica_rapa_Sweden_2010","5.0.1","Sweepnets","Episyrphus balteatus","Species","syrphids",7,NA,NA,NA,"4 pots with turnip plants per site, and	6 temporal replicates",NA
"Georg_Andersson_Brassica_rapa_Sweden_2010","5.0.1","Sweepnets","Eristalis similis","Species","syrphids",1,NA,NA,NA,"4 pots with turnip plants per site, and	6 temporal replicates",NA
"Georg_Andersson_Brassica_rapa_Sweden_2010","5.0.1","Sweepnets","Eupeodes corollae","Species","syrphids",11,NA,NA,NA,"4 pots with turnip plants per site, and	6 temporal replicates",NA
"Georg_Andersson_Brassica_rapa_Sweden_2010","5.0.1","Sweepnets","Melanostoma mellinum","Species","syrphids",3,NA,NA,NA,"4 pots with turnip plants per site, and	6 temporal replicates",NA
"Georg_Andersson_Brassica_rapa_Sweden_2010","5.0.1","Sweepnets","Platycheirus clypeatus","Species","syrphids",1,NA,NA,NA,"4 pots with turnip plants per site, and	6 temporal replicates",NA
"Georg_Andersson_Brassica_rapa_Sweden_2010","5.0.1","Sweepnets","Scaeva pyrastri","Species","syrphids",1,NA,NA,NA,"4 pots with turnip plants per site, and	6 temporal replicates",NA
"Georg_Andersson_Brassica_rapa_Sweden_2010","5.0.1","Sweepnets","Sphaerophoria scripta","Species","syrphids",2,NA,NA,NA,"4 pots with turnip plants per site, and	6 temporal replicates",NA
"Georg_Andersson_Brassica_rapa_Sweden_2010","5.0.1","Sweepnets","Syrphus vitripennis","Species","syrphids",2,NA,NA,NA,"4 pots with turnip plants per site, and	6 temporal replicates",NA
"Georg_Andersson_Brassica_rapa_Sweden_2010","5.4","Sweepnets","Andrena haemorrhoa","Species","other_wild_bees",5,NA,NA,NA,"4 pots with turnip plants per site, and	6 temporal replicates",NA
"Georg_Andersson_Brassica_rapa_Sweden_2010","5.4","Sweepnets","Andrena nigroaenea","Species","other_wild_bees",3,NA,NA,NA,"4 pots with turnip plants per site, and	6 temporal replicates",NA
"Georg_Andersson_Brassica_rapa_Sweden_2010","5.4","Sweepnets","Bombus lapidarius","Species","bumblebees",3,NA,NA,NA,"4 pots with turnip plants per site, and	6 temporal replicates",NA
"Georg_Andersson_Brassica_rapa_Sweden_2010","5.4","Sweepnets","Bombus lucorum","Species","bumblebees",1,NA,NA,NA,"4 pots with turnip plants per site, and	6 temporal replicates",NA
"Georg_Andersson_Brassica_rapa_Sweden_2010","5.4","Sweepnets","Bombus sp.","Genera","bumblebees",5,NA,NA,NA,"4 pots with turnip plants per site, and	6 temporal replicates",NA
"Georg_Andersson_Brassica_rapa_Sweden_2010","5.4","Sweepnets","Bombus terrestris","Species","bumblebees",10,NA,NA,NA,"4 pots with turnip plants per site, and	6 temporal replicates",NA
"Georg_Andersson_Brassica_rapa_Sweden_2010","5.4","Sweepnets","Halictus tumulorum","Species","other_wild_bees",1,NA,NA,NA,"4 pots with turnip plants per site, and	6 temporal replicates",NA
"Georg_Andersson_Brassica_rapa_Sweden_2010","5.4","Sweepnets","Lasioglossum leucopus","Species","other_wild_bees",1,NA,NA,NA,"4 pots with turnip plants per site, and	6 temporal replicates",NA
"Georg_Andersson_Brassica_rapa_Sweden_2010","5.4","Sweepnets","Chloromyia formosa","Species","other_flies",18,NA,NA,NA,"4 pots with turnip plants per site, and	6 temporal replicates",NA
"Georg_Andersson_Brassica_rapa_Sweden_2010","5.4","Sweepnets","Episyrphus balteatus","Species","syrphids",3,NA,NA,NA,"4 pots with turnip plants per site, and	6 temporal replicates",NA
"Georg_Andersson_Brassica_rapa_Sweden_2010","5.4","Sweepnets","Eumerus sogdianus","Species","syrphids",1,NA,NA,NA,"4 pots with turnip plants per site, and	6 temporal replicates",NA
"Georg_Andersson_Brassica_rapa_Sweden_2010","5.4","Sweepnets","Eumerus strigatus","Species","syrphids",1,NA,NA,NA,"4 pots with turnip plants per site, and	6 temporal replicates",NA
"Georg_Andersson_Brassica_rapa_Sweden_2010","5.4","Sweepnets","Eupeodes corollae","Species","syrphids",19,NA,NA,NA,"4 pots with turnip plants per site, and	6 temporal replicates",NA
"Georg_Andersson_Brassica_rapa_Sweden_2010","5.4","Sweepnets","Lejogaster metallina","Species","syrphids",1,NA,NA,NA,"4 pots with turnip plants per site, and	6 temporal replicates",NA
"Georg_Andersson_Brassica_rapa_Sweden_2010","5.4","Sweepnets","Melanostoma mellinum","Species","syrphids",6,NA,NA,NA,"4 pots with turnip plants per site, and	6 temporal replicates",NA
"Georg_Andersson_Brassica_rapa_Sweden_2010","5.4","Sweepnets","Scaeva pyrastri","Species","syrphids",3,NA,NA,NA,"4 pots with turnip plants per site, and	6 temporal replicates",NA
"Georg_Andersson_Brassica_rapa_Sweden_2010","5.4","Sweepnets","Sphaerophoria scripta","Species","syrphids",3,NA,NA,NA,"4 pots with turnip plants per site, and	6 temporal replicates",NA
"Georg_Andersson_Brassica_rapa_Sweden_2010","5.4","Sweepnets","Syrphus vitripennis","Species","syrphids",2,NA,NA,NA,"4 pots with turnip plants per site, and	6 temporal replicates",NA
"Georg_Andersson_Fragaria_ananassa_Sweden_2009","4.01","Pan-traps","Andrena cineraria","Species","other_wild_bees",1,NA,NA,NA,"4 pots with strawberry plants per site, and	3 temporal replicates",NA
"Georg_Andersson_Fragaria_ananassa_Sweden_2009","4.01","Pan-traps","Andrena nigroaenea","Species","other_wild_bees",1,NA,NA,NA,"4 pots with strawberry plants per site, and	3 temporal replicates",NA
"Georg_Andersson_Fragaria_ananassa_Sweden_2009","4.01","Pan-traps","Apis mellifera","Species","honeybees",4,NA,NA,NA,"4 pots with strawberry plants per site, and	3 temporal replicates",NA
"Georg_Andersson_Fragaria_ananassa_Sweden_2009","4.01","Pan-traps","Bombus campestris","Species","bumblebees",1,NA,NA,NA,"4 pots with strawberry plants per site, and	3 temporal replicates",NA
"Georg_Andersson_Fragaria_ananassa_Sweden_2009","4.01","Pan-traps","Bombus hortorum","Species","bumblebees",1,NA,NA,NA,"4 pots with strawberry plants per site, and	3 temporal replicates",NA
"Georg_Andersson_Fragaria_ananassa_Sweden_2009","4.01","Pan-traps","Bombus hypnorum","Species","bumblebees",1,NA,NA,NA,"4 pots with strawberry plants per site, and	3 temporal replicates",NA
"Georg_Andersson_Fragaria_ananassa_Sweden_2009","4.01","Pan-traps","Bombus lapidarius","Species","bumblebees",2,NA,NA,NA,"4 pots with strawberry plants per site, and	3 temporal replicates",NA
"Georg_Andersson_Fragaria_ananassa_Sweden_2009","4.01","Pan-traps","Bombus lucorum","Species","bumblebees",1,NA,NA,NA,"4 pots with strawberry plants per site, and	3 temporal replicates",NA
"Georg_Andersson_Fragaria_ananassa_Sweden_2009","4.01","Pan-traps","Bombus rupestris","Species","bumblebees",1,NA,NA,NA,"4 pots with strawberry plants per site, and	3 temporal replicates",NA
"Georg_Andersson_Fragaria_ananassa_Sweden_2009","4.01","Pan-traps","Bombus sylvarum","Species","bumblebees",1,NA,NA,NA,"4 pots with strawberry plants per site, and	3 temporal replicates",NA
"Georg_Andersson_Fragaria_ananassa_Sweden_2009","4.01","Pan-traps","Bombus terrestris","Species","bumblebees",1,NA,NA,NA,"4 pots with strawberry plants per site, and	3 temporal replicates",NA
"Georg_Andersson_Fragaria_ananassa_Sweden_2009","4.01","Pan-traps","Lasioglossum quadrinotatum","Species","other_wild_bees",2,NA,NA,NA,"4 pots with strawberry plants per site, and	3 temporal replicates",NA
"Georg_Andersson_Fragaria_ananassa_Sweden_2009","4.01","Pan-traps","Sphaerophoria scripta","Species","syrphids",1,NA,NA,NA,"4 pots with strawberry plants per site, and	3 temporal replicates",NA
"Georg_Andersson_Fragaria_ananassa_Sweden_2009","4.2","Pan-traps","Andrena carantonica","Species","other_wild_bees",1,NA,NA,NA,"4 pots with strawberry plants per site, and	3 temporal replicates",NA
"Georg_Andersson_Fragaria_ananassa_Sweden_2009","4.2","Pan-traps","Andrena cineraria","Species","other_wild_bees",1,NA,NA,NA,"4 pots with strawberry plants per site, and	3 temporal replicates",NA
"Georg_Andersson_Fragaria_ananassa_Sweden_2009","4.2","Pan-traps","Andrena fulva","Species","other_wild_bees",1,NA,NA,NA,"4 pots with strawberry plants per site, and	3 temporal replicates",NA
"Georg_Andersson_Fragaria_ananassa_Sweden_2009","4.2","Pan-traps","Andrena helvola","Species","other_wild_bees",1,NA,NA,NA,"4 pots with strawberry plants per site, and	3 temporal replicates",NA
"Georg_Andersson_Fragaria_ananassa_Sweden_2009","4.2","Pan-traps","Apis mellifera","Species","honeybees",9,NA,NA,NA,"4 pots with strawberry plants per site, and	3 temporal replicates",NA
"Georg_Andersson_Fragaria_ananassa_Sweden_2009","4.2","Pan-traps","Bombus hortorum","Species","bumblebees",1,NA,NA,NA,"4 pots with strawberry plants per site, and	3 temporal replicates",NA
"Georg_Andersson_Fragaria_ananassa_Sweden_2009","4.2","Pan-traps","Bombus lapidarius","Species","bumblebees",3,NA,NA,NA,"4 pots with strawberry plants per site, and	3 temporal replicates",NA
"Georg_Andersson_Fragaria_ananassa_Sweden_2009","4.2","Pan-traps","Bombus lucorum","Species","bumblebees",1,NA,NA,NA,"4 pots with strawberry plants per site, and	3 temporal replicates",NA
"Georg_Andersson_Fragaria_ananassa_Sweden_2009","4.2","Pan-traps","Bombus pratorum","Species","bumblebees",1,NA,NA,NA,"4 pots with strawberry plants per site, and	3 temporal replicates",NA
"Georg_Andersson_Fragaria_ananassa_Sweden_2009","4.2","Pan-traps","Bombus rupestris","Species","bumblebees",1,NA,NA,NA,"4 pots with strawberry plants per site, and	3 temporal replicates",NA
"Georg_Andersson_Fragaria_ananassa_Sweden_2009","4.2","Pan-traps","Bombus terrestris","Species","bumblebees",7,NA,NA,NA,"4 pots with strawberry plants per site, and	3 temporal replicates",NA
"Georg_Andersson_Fragaria_ananassa_Sweden_2009","4.2","Pan-traps","Lasioglossum lativentre","Species","other_wild_bees",1,NA,NA,NA,"4 pots with strawberry plants per site, and	3 temporal replicates",NA
"Georg_Andersson_Fragaria_ananassa_Sweden_2009","4.2","Pan-traps","Lasioglossum leucopus","Species","other_wild_bees",2,NA,NA,NA,"4 pots with strawberry plants per site, and	3 temporal replicates",NA
"Georg_Andersson_Fragaria_ananassa_Sweden_2009","4.2","Pan-traps","Lasioglossum quadrinotatum","Species","other_wild_bees",3,NA,NA,NA,"4 pots with strawberry plants per site, and	3 temporal replicates",NA
"Georg_Andersson_Fragaria_ananassa_Sweden_2009","4.2","Pan-traps","Nomada marshamella","Species","other_wild_bees",1,NA,NA,NA,"4 pots with strawberry plants per site, and	3 temporal replicates",NA
"Georg_Andersson_Fragaria_ananassa_Sweden_2009","4.1","Pan-traps","Andrena carantonica","Species","other_wild_bees",1,NA,NA,NA,"4 pots with strawberry plants per site, and	3 temporal replicates",NA
"Georg_Andersson_Fragaria_ananassa_Sweden_2009","4.1","Pan-traps","Andrena haemorrhoa","Species","other_wild_bees",7,NA,NA,NA,"4 pots with strawberry plants per site, and	3 temporal replicates",NA
"Georg_Andersson_Fragaria_ananassa_Sweden_2009","4.1","Pan-traps","Andrena helvola","Species","other_wild_bees",1,NA,NA,NA,"4 pots with strawberry plants per site, and	3 temporal replicates",NA
"Georg_Andersson_Fragaria_ananassa_Sweden_2009","4.1","Pan-traps","Andrena nigroaenea","Species","other_wild_bees",2,NA,NA,NA,"4 pots with strawberry plants per site, and	3 temporal replicates",NA
"Georg_Andersson_Fragaria_ananassa_Sweden_2009","4.1","Pan-traps","Apis mellifera","Species","honeybees",12,NA,NA,NA,"4 pots with strawberry plants per site, and	3 temporal replicates",NA
"Georg_Andersson_Fragaria_ananassa_Sweden_2009","4.1","Pan-traps","Bombus hortorum","Species","bumblebees",6,NA,NA,NA,"4 pots with strawberry plants per site, and	3 temporal replicates",NA
"Georg_Andersson_Fragaria_ananassa_Sweden_2009","4.1","Pan-traps","Bombus lapidarius","Species","bumblebees",2,NA,NA,NA,"4 pots with strawberry plants per site, and	3 temporal replicates",NA
"Georg_Andersson_Fragaria_ananassa_Sweden_2009","4.1","Pan-traps","Bombus pascuorum","Species","bumblebees",2,NA,NA,NA,"4 pots with strawberry plants per site, and	3 temporal replicates",NA
"Georg_Andersson_Fragaria_ananassa_Sweden_2009","4.1","Pan-traps","Bombus terrestris","Species","bumblebees",10,NA,NA,NA,"4 pots with strawberry plants per site, and	3 temporal replicates",NA
"Georg_Andersson_Fragaria_ananassa_Sweden_2009","4.1","Pan-traps","Halictus tumulorum","Species","other_wild_bees",1,NA,NA,NA,"4 pots with strawberry plants per site, and	3 temporal replicates",NA
"Georg_Andersson_Fragaria_ananassa_Sweden_2009","4.1","Pan-traps","Hoplitis claviventris","Species","other_wild_bees",1,NA,NA,NA,"4 pots with strawberry plants per site, and	3 temporal replicates",NA
"Georg_Andersson_Fragaria_ananassa_Sweden_2009","4.1","Pan-traps","Lasioglossum albipes","Species","other_wild_bees",6,NA,NA,NA,"4 pots with strawberry plants per site, and	3 temporal replicates",NA
"Georg_Andersson_Fragaria_ananassa_Sweden_2009","4.1","Pan-traps","Lasioglossum calceatum","Species","other_wild_bees",3,NA,NA,NA,"4 pots with strawberry plants per site, and	3 temporal replicates",NA
"Georg_Andersson_Fragaria_ananassa_Sweden_2009","4.1","Pan-traps","Lasioglossum leucopus","Species","other_wild_bees",11,NA,NA,NA,"4 pots with strawberry plants per site, and	3 temporal replicates",NA
"Georg_Andersson_Fragaria_ananassa_Sweden_2009","4.1","Pan-traps","Lasioglossum quadrinotatum","Species","other_wild_bees",3,NA,NA,NA,"4 pots with strawberry plants per site, and	3 temporal replicates",NA
"Georg_Andersson_Fragaria_ananassa_Sweden_2009","4.1","Pan-traps","Nomada marshamella","Species","other_wild_bees",1,NA,NA,NA,"4 pots with strawberry plants per site, and	3 temporal replicates",NA
"Georg_Andersson_Fragaria_ananassa_Sweden_2009","4.1","Pan-traps","Sphecodes ephippius","Species","other_wild_bees",2,NA,NA,NA,"4 pots with strawberry plants per site, and	3 temporal replicates",NA
"Georg_Andersson_Fragaria_ananassa_Sweden_2009","4.1","Pan-traps","Vespula germanica","Species","non_bee_hymenoptera",2,NA,NA,NA,"4 pots with strawberry plants per site, and	3 temporal replicates",NA
"Georg_Andersson_Fragaria_ananassa_Sweden_2009","4.2","Pan-traps","Andrena fulva","Species","other_wild_bees",1,NA,NA,NA,"4 pots with strawberry plants per site, and	3 temporal replicates",NA
"Georg_Andersson_Fragaria_ananassa_Sweden_2009","4.2","Pan-traps","Andrena haemorrhoa","Species","other_wild_bees",7,NA,NA,NA,"4 pots with strawberry plants per site, and	3 temporal replicates",NA
"Georg_Andersson_Fragaria_ananassa_Sweden_2009","4.2","Pan-traps","Andrena nigroaenea","Species","other_wild_bees",1,NA,NA,NA,"4 pots with strawberry plants per site, and	3 temporal replicates",NA
"Georg_Andersson_Fragaria_ananassa_Sweden_2009","4.2","Pan-traps","Apis mellifera","Species","honeybees",4,NA,NA,NA,"4 pots with strawberry plants per site, and	3 temporal replicates",NA
"Georg_Andersson_Fragaria_ananassa_Sweden_2009","4.2","Pan-traps","Bombus hortorum","Species","bumblebees",6,NA,NA,NA,"4 pots with strawberry plants per site, and	3 temporal replicates",NA
"Georg_Andersson_Fragaria_ananassa_Sweden_2009","4.2","Pan-traps","Bombus lapidarius","Species","bumblebees",2,NA,NA,NA,"4 pots with strawberry plants per site, and	3 temporal replicates",NA
"Georg_Andersson_Fragaria_ananassa_Sweden_2009","4.2","Pan-traps","Bombus lucorum","Species","bumblebees",2,NA,NA,NA,"4 pots with strawberry plants per site, and	3 temporal replicates",NA
"Georg_Andersson_Fragaria_ananassa_Sweden_2009","4.2","Pan-traps","Bombus pascuorum","Species","bumblebees",1,NA,NA,NA,"4 pots with strawberry plants per site, and	3 temporal replicates",NA
"Georg_Andersson_Fragaria_ananassa_Sweden_2009","4.2","Pan-traps","Bombus soroeensis","Species","bumblebees",1,NA,NA,NA,"4 pots with strawberry plants per site, and	3 temporal replicates",NA
"Georg_Andersson_Fragaria_ananassa_Sweden_2009","4.2","Pan-traps","Bombus terrestris","Species","bumblebees",5,NA,NA,NA,"4 pots with strawberry plants per site, and	3 temporal replicates",NA
"Georg_Andersson_Fragaria_ananassa_Sweden_2009","4.2","Pan-traps","Lasioglossum fulvicorne","Species","other_wild_bees",1,NA,NA,NA,"4 pots with strawberry plants per site, and	3 temporal replicates",NA
"Georg_Andersson_Fragaria_ananassa_Sweden_2009","4.2","Pan-traps","Lasioglossum rufitarse","Species","other_wild_bees",1,NA,NA,NA,"4 pots with strawberry plants per site, and	3 temporal replicates",NA
"Georg_Andersson_Fragaria_ananassa_Sweden_2009","4.2","Pan-traps","Merodon equestris","Species","syrphids",1,NA,NA,NA,"4 pots with strawberry plants per site, and	3 temporal replicates",NA
"Georg_Andersson_Fragaria_ananassa_Sweden_2009","4.2","Pan-traps","Nomada ruficornis","Species","other_wild_bees",1,NA,NA,NA,"4 pots with strawberry plants per site, and	3 temporal replicates",NA
"Georg_Andersson_Fragaria_ananassa_Sweden_2009","4.2","Pan-traps","Volucella bombylans","Species","syrphids",4,NA,NA,NA,"4 pots with strawberry plants per site, and	3 temporal replicates",NA
"Georg_Andersson_Fragaria_ananassa_Sweden_2009","4.3","Pan-traps","Andrena haemorrhoa","Species","other_wild_bees",2,NA,NA,NA,"4 pots with strawberry plants per site, and	3 temporal replicates",NA
"Georg_Andersson_Fragaria_ananassa_Sweden_2009","4.3","Pan-traps","Andrena hattorfiana","Species","other_wild_bees",1,NA,NA,NA,"4 pots with strawberry plants per site, and	3 temporal replicates",NA
"Georg_Andersson_Fragaria_ananassa_Sweden_2009","4.3","Pan-traps","Andrena nigroaenea","Species","other_wild_bees",2,NA,NA,NA,"4 pots with strawberry plants per site, and	3 temporal replicates",NA
"Georg_Andersson_Fragaria_ananassa_Sweden_2009","4.3","Pan-traps","Andrena subopaca","Species","other_wild_bees",1,NA,NA,NA,"4 pots with strawberry plants per site, and	3 temporal replicates",NA
"Georg_Andersson_Fragaria_ananassa_Sweden_2009","4.3","Pan-traps","Bombus bohemicus","Species","bumblebees",4,NA,NA,NA,"4 pots with strawberry plants per site, and	3 temporal replicates",NA
"Georg_Andersson_Fragaria_ananassa_Sweden_2009","4.3","Pan-traps","Bombus hortorum","Species","bumblebees",17,NA,NA,NA,"4 pots with strawberry plants per site, and	3 temporal replicates",NA
"Georg_Andersson_Fragaria_ananassa_Sweden_2009","4.3","Pan-traps","Bombus lapidarius","Species","bumblebees",7,NA,NA,NA,"4 pots with strawberry plants per site, and	3 temporal replicates",NA
"Georg_Andersson_Fragaria_ananassa_Sweden_2009","4.3","Pan-traps","Bombus lucorum","Species","bumblebees",2,NA,NA,NA,"4 pots with strawberry plants per site, and	3 temporal replicates",NA
"Georg_Andersson_Fragaria_ananassa_Sweden_2009","4.3","Pan-traps","Bombus muscorum","Species","bumblebees",3,NA,NA,NA,"4 pots with strawberry plants per site, and	3 temporal replicates",NA
"Georg_Andersson_Fragaria_ananassa_Sweden_2009","4.3","Pan-traps","Bombus ruderarius","Species","bumblebees",2,NA,NA,NA,"4 pots with strawberry plants per site, and	3 temporal replicates",NA
"Georg_Andersson_Fragaria_ananassa_Sweden_2009","4.3","Pan-traps","Bombus rupestris","Species","bumblebees",1,NA,NA,NA,"4 pots with strawberry plants per site, and	3 temporal replicates",NA
"Georg_Andersson_Fragaria_ananassa_Sweden_2009","4.3","Pan-traps","Bombus soroeensis","Species","bumblebees",1,NA,NA,NA,"4 pots with strawberry plants per site, and	3 temporal replicates",NA
"Georg_Andersson_Fragaria_ananassa_Sweden_2009","4.3","Pan-traps","Bombus subterraneus","Species","bumblebees",1,NA,NA,NA,"4 pots with strawberry plants per site, and	3 temporal replicates",NA
"Georg_Andersson_Fragaria_ananassa_Sweden_2009","4.3","Pan-traps","Bombus sylvarum","Species","bumblebees",2,NA,NA,NA,"4 pots with strawberry plants per site, and	3 temporal replicates",NA
"Georg_Andersson_Fragaria_ananassa_Sweden_2009","4.3","Pan-traps","Bombus terrestris","Species","bumblebees",26,NA,NA,NA,"4 pots with strawberry plants per site, and	3 temporal replicates",NA
"Georg_Andersson_Fragaria_ananassa_Sweden_2009","4.3","Pan-traps","Halictus tumulorum","Species","other_wild_bees",1,NA,NA,NA,"4 pots with strawberry plants per site, and	3 temporal replicates",NA
"Georg_Andersson_Fragaria_ananassa_Sweden_2009","4.3","Pan-traps","Lasioglossum leucozonium","Species","other_wild_bees",1,NA,NA,NA,"4 pots with strawberry plants per site, and	3 temporal replicates",NA
"Georg_Andersson_Fragaria_ananassa_Sweden_2009","4.3","Pan-traps","Lasioglossum quadrinotatum","Species","other_wild_bees",11,NA,NA,NA,"4 pots with strawberry plants per site, and	3 temporal replicates",NA
"Georg_Andersson_Fragaria_ananassa_Sweden_2009","4.3","Pan-traps","Volucella bombylans","Species","syrphids",1,NA,NA,NA,"4 pots with strawberry plants per site, and	3 temporal replicates",NA
"Georg_Andersson_Fragaria_ananassa_Sweden_2009","4.4","Pan-traps","Andrena nigroaenea","Species","other_wild_bees",2,NA,NA,NA,"4 pots with strawberry plants per site, and	3 temporal replicates",NA
"Georg_Andersson_Fragaria_ananassa_Sweden_2009","4.4","Pan-traps","Apis mellifera","Species","honeybees",3,NA,NA,NA,"4 pots with strawberry plants per site, and	3 temporal replicates",NA
"Georg_Andersson_Fragaria_ananassa_Sweden_2009","4.4","Pan-traps","Bombus hortorum","Species","bumblebees",3,NA,NA,NA,"4 pots with strawberry plants per site, and	3 temporal replicates",NA
"Georg_Andersson_Fragaria_ananassa_Sweden_2009","4.4","Pan-traps","Bombus lapidarius","Species","bumblebees",1,NA,NA,NA,"4 pots with strawberry plants per site, and	3 temporal replicates",NA
"Georg_Andersson_Fragaria_ananassa_Sweden_2009","4.4","Pan-traps","Bombus pascuorum","Species","bumblebees",1,NA,NA,NA,"4 pots with strawberry plants per site, and	3 temporal replicates",NA
"Georg_Andersson_Fragaria_ananassa_Sweden_2009","4.4","Pan-traps","Bombus terrestris","Species","bumblebees",1,NA,NA,NA,"4 pots with strawberry plants per site, and	3 temporal replicates",NA
"Georg_Andersson_Fragaria_ananassa_Sweden_2009","4.4","Pan-traps","Colletes daviesanus","Species","other_wild_bees",1,NA,NA,NA,"4 pots with strawberry plants per site, and	3 temporal replicates",NA
"Georg_Andersson_Fragaria_ananassa_Sweden_2009","4.4","Pan-traps","Lasioglossum calceatum","Species","other_wild_bees",1,NA,NA,NA,"4 pots with strawberry plants per site, and	3 temporal replicates",NA
"Georg_Andersson_Fragaria_ananassa_Sweden_2009","4.4","Pan-traps","Lasioglossum leucopus","Species","other_wild_bees",2,NA,NA,NA,"4 pots with strawberry plants per site, and	3 temporal replicates",NA
"Georg_Andersson_Fragaria_ananassa_Sweden_2009","5.01","Pan-traps","Ancistrocerus oviventris","Species","non_bee_hymenoptera",2,NA,NA,NA,"4 pots with strawberry plants per site, and	3 temporal replicates",NA
"Georg_Andersson_Fragaria_ananassa_Sweden_2009","5.01","Pan-traps","Andrena nigroaenea","Species","other_wild_bees",15,NA,NA,NA,"4 pots with strawberry plants per site, and	3 temporal replicates",NA
"Georg_Andersson_Fragaria_ananassa_Sweden_2009","5.01","Pan-traps","Apis mellifera","Species","honeybees",10,NA,NA,NA,"4 pots with strawberry plants per site, and	3 temporal replicates",NA
"Georg_Andersson_Fragaria_ananassa_Sweden_2009","5.01","Pan-traps","Bombus lapidarius","Species","bumblebees",10,NA,NA,NA,"4 pots with strawberry plants per site, and	3 temporal replicates",NA
"Georg_Andersson_Fragaria_ananassa_Sweden_2009","5.01","Pan-traps","Bombus subterraneus","Species","bumblebees",1,NA,NA,NA,"4 pots with strawberry plants per site, and	3 temporal replicates",NA
"Georg_Andersson_Fragaria_ananassa_Sweden_2009","5.01","Pan-traps","Bombus terrestris","Species","bumblebees",5,NA,NA,NA,"4 pots with strawberry plants per site, and	3 temporal replicates",NA
"Georg_Andersson_Fragaria_ananassa_Sweden_2009","5.01","Pan-traps","Eumerus strigatus","Species","syrphids",2,NA,NA,NA,"4 pots with strawberry plants per site, and	3 temporal replicates",NA
"Georg_Andersson_Fragaria_ananassa_Sweden_2009","5.01","Pan-traps","Eupeodes corollae","Species","syrphids",2,NA,NA,NA,"4 pots with strawberry plants per site, and	3 temporal replicates",NA
"Georg_Andersson_Fragaria_ananassa_Sweden_2009","5.01","Pan-traps","Lasioglossum nitidiusculum","Species","other_wild_bees",2,NA,NA,NA,"4 pots with strawberry plants per site, and	3 temporal replicates",NA
"Georg_Andersson_Fragaria_ananassa_Sweden_2009","5.02","Pan-traps","Andrena haemorrhoa","Species","other_wild_bees",4,NA,NA,NA,"4 pots with strawberry plants per site, and	3 temporal replicates",NA
"Georg_Andersson_Fragaria_ananassa_Sweden_2009","5.02","Pan-traps","Andrena helvola","Species","other_wild_bees",3,NA,NA,NA,"4 pots with strawberry plants per site, and	3 temporal replicates",NA
"Georg_Andersson_Fragaria_ananassa_Sweden_2009","5.02","Pan-traps","Andrena nigroaenea","Species","other_wild_bees",22,NA,NA,NA,"4 pots with strawberry plants per site, and	3 temporal replicates",NA
"Georg_Andersson_Fragaria_ananassa_Sweden_2009","5.02","Pan-traps","Apis mellifera","Species","honeybees",5,NA,NA,NA,"4 pots with strawberry plants per site, and	3 temporal replicates",NA
"Georg_Andersson_Fragaria_ananassa_Sweden_2009","5.02","Pan-traps","Bombus bohemicus","Species","bumblebees",1,NA,NA,NA,"4 pots with strawberry plants per site, and	3 temporal replicates",NA
"Georg_Andersson_Fragaria_ananassa_Sweden_2009","5.02","Pan-traps","Bombus hortorum","Species","bumblebees",4,NA,NA,NA,"4 pots with strawberry plants per site, and	3 temporal replicates",NA
"Georg_Andersson_Fragaria_ananassa_Sweden_2009","5.02","Pan-traps","Bombus hypnorum","Species","bumblebees",1,NA,NA,NA,"4 pots with strawberry plants per site, and	3 temporal replicates",NA
"Georg_Andersson_Fragaria_ananassa_Sweden_2009","5.02","Pan-traps","Bombus lapidarius","Species","bumblebees",2,NA,NA,NA,"4 pots with strawberry plants per site, and	3 temporal replicates",NA
"Georg_Andersson_Fragaria_ananassa_Sweden_2009","5.02","Pan-traps","Bombus muscorum","Species","bumblebees",1,NA,NA,NA,"4 pots with strawberry plants per site, and	3 temporal replicates",NA
"Georg_Andersson_Fragaria_ananassa_Sweden_2009","5.02","Pan-traps","Bombus subterraneus","Species","bumblebees",2,NA,NA,NA,"4 pots with strawberry plants per site, and	3 temporal replicates",NA
"Georg_Andersson_Fragaria_ananassa_Sweden_2009","5.02","Pan-traps","Bombus sylvarum","Species","bumblebees",4,NA,NA,NA,"4 pots with strawberry plants per site, and	3 temporal replicates",NA
"Georg_Andersson_Fragaria_ananassa_Sweden_2009","5.02","Pan-traps","Bombus terrestris","Species","bumblebees",9,NA,NA,NA,"4 pots with strawberry plants per site, and	3 temporal replicates",NA
"Georg_Andersson_Fragaria_ananassa_Sweden_2009","5.02","Pan-traps","Bombus vestalis","Species","bumblebees",1,NA,NA,NA,"4 pots with strawberry plants per site, and	3 temporal replicates",NA
"Georg_Andersson_Fragaria_ananassa_Sweden_2009","5.02","Pan-traps","Chloromyia formosa","Species","other_flies",1,NA,NA,NA,"4 pots with strawberry plants per site, and	3 temporal replicates",NA
"Georg_Andersson_Fragaria_ananassa_Sweden_2009","5.02","Pan-traps","Lasioglossum quadrinotatum","Species","other_wild_bees",3,NA,NA,NA,"4 pots with strawberry plants per site, and	3 temporal replicates",NA
"Georg_Andersson_Fragaria_ananassa_Sweden_2009","5.02","Pan-traps","Nomada marshamella","Species","other_wild_bees",1,NA,NA,NA,"4 pots with strawberry plants per site, and	3 temporal replicates",NA
"Georg_Andersson_Fragaria_ananassa_Sweden_2009","5.1","Pan-traps","Andrena flavipes","Species","other_wild_bees",1,NA,NA,NA,"4 pots with strawberry plants per site, and	3 temporal replicates",NA
"Georg_Andersson_Fragaria_ananassa_Sweden_2009","5.1","Pan-traps","Andrena haemorrhoa","Species","other_wild_bees",4,NA,NA,NA,"4 pots with strawberry plants per site, and	3 temporal replicates",NA
"Georg_Andersson_Fragaria_ananassa_Sweden_2009","5.1","Pan-traps","Andrena nigroaenea","Species","other_wild_bees",7,NA,NA,NA,"4 pots with strawberry plants per site, and	3 temporal replicates",NA
"Georg_Andersson_Fragaria_ananassa_Sweden_2009","5.1","Pan-traps","Bombus hortorum","Species","bumblebees",4,NA,NA,NA,"4 pots with strawberry plants per site, and	3 temporal replicates",NA
"Georg_Andersson_Fragaria_ananassa_Sweden_2009","5.1","Pan-traps","Bombus lapidarius","Species","bumblebees",21,NA,NA,NA,"4 pots with strawberry plants per site, and	3 temporal replicates",NA
"Georg_Andersson_Fragaria_ananassa_Sweden_2009","5.1","Pan-traps","Bombus muscorum","Species","bumblebees",1,NA,NA,NA,"4 pots with strawberry plants per site, and	3 temporal replicates",NA
"Georg_Andersson_Fragaria_ananassa_Sweden_2009","5.1","Pan-traps","Bombus rupestris","Species","bumblebees",1,NA,NA,NA,"4 pots with strawberry plants per site, and	3 temporal replicates",NA
"Georg_Andersson_Fragaria_ananassa_Sweden_2009","5.1","Pan-traps","Bombus subterraneus","Species","bumblebees",2,NA,NA,NA,"4 pots with strawberry plants per site, and	3 temporal replicates",NA
"Georg_Andersson_Fragaria_ananassa_Sweden_2009","5.1","Pan-traps","Bombus terrestris","Species","bumblebees",12,NA,NA,NA,"4 pots with strawberry plants per site, and	3 temporal replicates",NA
"Georg_Andersson_Fragaria_ananassa_Sweden_2009","5.1","Pan-traps","Lasioglossum quadrinotatum","Species","other_wild_bees",1,NA,NA,NA,"4 pots with strawberry plants per site, and	3 temporal replicates",NA
"Georg_Andersson_Fragaria_ananassa_Sweden_2009","5.1","Pan-traps","Melanostoma mellinum","Species","syrphids",1,NA,NA,NA,"4 pots with strawberry plants per site, and	3 temporal replicates",NA
"Georg_Andersson_Fragaria_ananassa_Sweden_2009","5.1","Pan-traps","Platycheirus manicatus","Species","syrphids",1,NA,NA,NA,"4 pots with strawberry plants per site, and	3 temporal replicates",NA
"Georg_Andersson_Fragaria_ananassa_Sweden_2009","5.2","Pan-traps","Andrena haemorrhoa","Species","other_wild_bees",2,NA,NA,NA,"4 pots with strawberry plants per site, and	3 temporal replicates",NA
"Georg_Andersson_Fragaria_ananassa_Sweden_2009","5.2","Pan-traps","Apis mellifera","Species","honeybees",9,NA,NA,NA,"4 pots with strawberry plants per site, and	3 temporal replicates",NA
"Georg_Andersson_Fragaria_ananassa_Sweden_2009","5.2","Pan-traps","Bombus hypnorum","Species","bumblebees",1,NA,NA,NA,"4 pots with strawberry plants per site, and	3 temporal replicates",NA
"Georg_Andersson_Fragaria_ananassa_Sweden_2009","5.2","Pan-traps","Bombus jonellus","Species","bumblebees",1,NA,NA,NA,"4 pots with strawberry plants per site, and	3 temporal replicates",NA
"Georg_Andersson_Fragaria_ananassa_Sweden_2009","5.2","Pan-traps","Bombus lapidarius","Species","bumblebees",1,NA,NA,NA,"4 pots with strawberry plants per site, and	3 temporal replicates",NA
"Georg_Andersson_Fragaria_ananassa_Sweden_2009","5.2","Pan-traps","Bombus pascuorum","Species","bumblebees",1,NA,NA,NA,"4 pots with strawberry plants per site, and	3 temporal replicates",NA
"Georg_Andersson_Fragaria_ananassa_Sweden_2009","5.2","Pan-traps","Bombus ruderarius","Species","bumblebees",1,NA,NA,NA,"4 pots with strawberry plants per site, and	3 temporal replicates",NA
"Georg_Andersson_Fragaria_ananassa_Sweden_2009","5.2","Pan-traps","Bombus terrestris","Species","bumblebees",2,NA,NA,NA,"4 pots with strawberry plants per site, and	3 temporal replicates",NA
"Georg_Andersson_Fragaria_ananassa_Sweden_2009","5.2","Pan-traps","Halictus tumulorum","Species","other_wild_bees",1,NA,NA,NA,"4 pots with strawberry plants per site, and	3 temporal replicates",NA
"Georg_Andersson_Fragaria_ananassa_Sweden_2009","5.2","Pan-traps","Nomada ruficornis","Species","other_wild_bees",1,NA,NA,NA,"4 pots with strawberry plants per site, and	3 temporal replicates",NA
"Georg_Andersson_Fragaria_ananassa_Sweden_2009","5.3","Pan-traps","Andrena nigroaenea","Species","other_wild_bees",6,NA,NA,NA,"4 pots with strawberry plants per site, and	3 temporal replicates",NA
"Georg_Andersson_Fragaria_ananassa_Sweden_2009","5.3","Pan-traps","Apis mellifera","Species","honeybees",4,NA,NA,NA,"4 pots with strawberry plants per site, and	3 temporal replicates",NA
"Georg_Andersson_Fragaria_ananassa_Sweden_2009","5.3","Pan-traps","Bombus hypnorum","Species","bumblebees",1,NA,NA,NA,"4 pots with strawberry plants per site, and	3 temporal replicates",NA
"Georg_Andersson_Fragaria_ananassa_Sweden_2009","5.3","Pan-traps","Bombus lapidarius","Species","bumblebees",2,NA,NA,NA,"4 pots with strawberry plants per site, and	3 temporal replicates",NA
"Georg_Andersson_Fragaria_ananassa_Sweden_2009","5.3","Pan-traps","Bombus muscorum","Species","bumblebees",1,NA,NA,NA,"4 pots with strawberry plants per site, and	3 temporal replicates",NA
"Georg_Andersson_Fragaria_ananassa_Sweden_2009","5.3","Pan-traps","Bombus ruderarius","Species","bumblebees",1,NA,NA,NA,"4 pots with strawberry plants per site, and	3 temporal replicates",NA
"Georg_Andersson_Fragaria_ananassa_Sweden_2009","5.3","Pan-traps","Bombus subterraneus","Species","bumblebees",3,NA,NA,NA,"4 pots with strawberry plants per site, and	3 temporal replicates",NA
"Georg_Andersson_Fragaria_ananassa_Sweden_2009","5.3","Pan-traps","Bombus terrestris","Species","bumblebees",3,NA,NA,NA,"4 pots with strawberry plants per site, and	3 temporal replicates",NA
"Georg_Andersson_Fragaria_ananassa_Sweden_2009","5.3","Pan-traps","Episyrphus balteatus","Species","syrphids",1,NA,NA,NA,"4 pots with strawberry plants per site, and	3 temporal replicates",NA
"Georg_Andersson_Fragaria_ananassa_Sweden_2009","5.3","Pan-traps","Lasioglossum calceatum","Species","other_wild_bees",1,NA,NA,NA,"4 pots with strawberry plants per site, and	3 temporal replicates",NA
"Georg_Andersson_Fragaria_ananassa_Sweden_2009","5.3","Pan-traps","Platycheirus manicatus","Species","syrphids",1,NA,NA,NA,"4 pots with strawberry plants per site, and	3 temporal replicates",NA
"Georg_Andersson_Fragaria_ananassa_Sweden_2009","5.3","Pan-traps","Syritta pipiens","Species","syrphids",1,NA,NA,NA,"4 pots with strawberry plants per site, and	3 temporal replicates",NA
"Georg_Andersson_Fragaria_ananassa_Sweden_2009","5.4","Pan-traps","Andrena nigroaenea","Species","other_wild_bees",11,NA,NA,NA,"4 pots with strawberry plants per site, and	3 temporal replicates",NA
"Georg_Andersson_Fragaria_ananassa_Sweden_2009","5.4","Pan-traps","Apis mellifera","Species","honeybees",8,NA,NA,NA,"4 pots with strawberry plants per site, and	3 temporal replicates",NA
"Georg_Andersson_Fragaria_ananassa_Sweden_2009","5.4","Pan-traps","Bombus lapidarius","Species","bumblebees",1,NA,NA,NA,"4 pots with strawberry plants per site, and	3 temporal replicates",NA
"Georg_Andersson_Fragaria_ananassa_Sweden_2009","5.4","Pan-traps","Bombus terrestris","Species","bumblebees",2,NA,NA,NA,"4 pots with strawberry plants per site, and	3 temporal replicates",NA
"Georg_Andersson_Fragaria_ananassa_Sweden_2009","5.4","Pan-traps","Halictus tumulorum","Species","other_wild_bees",1,NA,NA,NA,"4 pots with strawberry plants per site, and	3 temporal replicates",NA
"Georg_Andersson_Fragaria_ananassa_Sweden_2009","5.4","Pan-traps","Lasioglossum nitidiusculum","Species","other_wild_bees",1,NA,NA,NA,"4 pots with strawberry plants per site, and	3 temporal replicates",NA
"Georg_Andersson_Fragaria_ananassa_Sweden_2009","5.4","Pan-traps","Platycheirus manicatus","Species","syrphids",1,NA,NA,NA,"4 pots with strawberry plants per site, and	3 temporal replicates",NA
"Guiomar_Nates_Parra_Vaccinium_meridionale_Colombia_2013","CASTELLANOS","sweep net","Apis_mellifera","species","honeybees",1,NA,NA,4800,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along four pairs of trees. Sampling was further repeated on four dates during the main flowering period",NA
"Guiomar_Nates_Parra_Vaccinium_meridionale_Colombia_2013","CASTELLANOS","sweep net","Apis_mellifera","species","honeybees",1,NA,NA,4800,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along four pairs of trees. Sampling was further repeated on four dates during the main flowering period",NA
"Guiomar_Nates_Parra_Vaccinium_meridionale_Colombia_2013","CASTELLANOS","sweep net","Apis_mellifera","species","honeybees",1,NA,NA,4800,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along four pairs of trees. Sampling was further repeated on four dates during the main flowering period",NA
"Guiomar_Nates_Parra_Vaccinium_meridionale_Colombia_2013","CASTELLANOS","sweep net","Apis_mellifera","species","honeybees",1,NA,NA,4800,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along four pairs of trees. Sampling was further repeated on four dates during the main flowering period",NA
"Guiomar_Nates_Parra_Vaccinium_meridionale_Colombia_2013","CASTELLANOS","sweep net","Apis_mellifera","species","honeybees",1,NA,NA,4800,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along four pairs of trees. Sampling was further repeated on four dates during the main flowering period",NA
"Guiomar_Nates_Parra_Vaccinium_meridionale_Colombia_2013","CASTELLANOS","sweep net","Apis_mellifera","species","honeybees",1,NA,NA,4800,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along four pairs of trees. Sampling was further repeated on four dates during the main flowering period",NA
"Guiomar_Nates_Parra_Vaccinium_meridionale_Colombia_2013","GONZALEZ","sweep net","Apis_mellifera","species","honeybees",1,NA,NA,4800,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along four pairs of trees. Sampling was further repeated on four dates during the main flowering period",NA
"Guiomar_Nates_Parra_Vaccinium_meridionale_Colombia_2013","GONZALEZ","sweep net","Apis_mellifera","species","honeybees",1,NA,NA,4800,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along four pairs of trees. Sampling was further repeated on four dates during the main flowering period",NA
"Guiomar_Nates_Parra_Vaccinium_meridionale_Colombia_2013","GONZALEZ","sweep net","Apis_mellifera","species","honeybees",1,NA,NA,4800,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along four pairs of trees. Sampling was further repeated on four dates during the main flowering period",NA
"Guiomar_Nates_Parra_Vaccinium_meridionale_Colombia_2013","GONZALEZ","sweep net","Apis_mellifera","species","honeybees",1,NA,NA,4800,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along four pairs of trees. Sampling was further repeated on four dates during the main flowering period",NA
"Guiomar_Nates_Parra_Vaccinium_meridionale_Colombia_2013","GONZALEZ","sweep net","Apis_mellifera","species","honeybees",1,NA,NA,4800,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along four pairs of trees. Sampling was further repeated on four dates during the main flowering period",NA
"Guiomar_Nates_Parra_Vaccinium_meridionale_Colombia_2013","GONZALEZ","sweep net","Apis_mellifera","species","honeybees",1,NA,NA,4800,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along four pairs of trees. Sampling was further repeated on four dates during the main flowering period",NA
"Guiomar_Nates_Parra_Vaccinium_meridionale_Colombia_2013","JIMENEZ","sweep net","Apis_mellifera","species","honeybees",1,NA,NA,4800,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along four pairs of trees. Sampling was further repeated on four dates during the main flowering period",NA
"Guiomar_Nates_Parra_Vaccinium_meridionale_Colombia_2013","JIMENEZ","sweep net","Apis_mellifera","species","honeybees",1,NA,NA,4800,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along four pairs of trees. Sampling was further repeated on four dates during the main flowering period",NA
"Guiomar_Nates_Parra_Vaccinium_meridionale_Colombia_2013","JIMENEZ","sweep net","Apis_mellifera","species","honeybees",1,NA,NA,4800,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along four pairs of trees. Sampling was further repeated on four dates during the main flowering period",NA
"Guiomar_Nates_Parra_Vaccinium_meridionale_Colombia_2013","JIMENEZ","sweep net","Apis_mellifera","species","honeybees",1,NA,NA,4800,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along four pairs of trees. Sampling was further repeated on four dates during the main flowering period",NA
"Guiomar_Nates_Parra_Vaccinium_meridionale_Colombia_2013","JIMENEZ","sweep net","Apis_mellifera","species","honeybees",1,NA,NA,4800,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along four pairs of trees. Sampling was further repeated on four dates during the main flowering period",NA
"Guiomar_Nates_Parra_Vaccinium_meridionale_Colombia_2013","JIMENEZ","sweep net","Apis_mellifera","species","honeybees",1,NA,NA,4800,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along four pairs of trees. Sampling was further repeated on four dates during the main flowering period",NA
"Guiomar_Nates_Parra_Vaccinium_meridionale_Colombia_2013","PENA","sweep net","Apis_mellifera","species","honeybees",1,NA,NA,4800,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along four pairs of trees. Sampling was further repeated on four dates during the main flowering period",NA
"Guiomar_Nates_Parra_Vaccinium_meridionale_Colombia_2013","PENA","sweep net","Apis_mellifera","species","honeybees",1,NA,NA,4800,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along four pairs of trees. Sampling was further repeated on four dates during the main flowering period",NA
"Guiomar_Nates_Parra_Vaccinium_meridionale_Colombia_2013","PENA","sweep net","Apis_mellifera","species","honeybees",1,NA,NA,4800,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along four pairs of trees. Sampling was further repeated on four dates during the main flowering period",NA
"Guiomar_Nates_Parra_Vaccinium_meridionale_Colombia_2013","PENA","sweep net","Apis_mellifera","species","honeybees",1,NA,NA,4800,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along four pairs of trees. Sampling was further repeated on four dates during the main flowering period",NA
"Guiomar_Nates_Parra_Vaccinium_meridionale_Colombia_2013","PENA","sweep net","Apis_mellifera","species","honeybees",1,NA,NA,4800,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along four pairs of trees. Sampling was further repeated on four dates during the main flowering period",NA
"Guiomar_Nates_Parra_Vaccinium_meridionale_Colombia_2013","PENA","sweep net","Apis_mellifera","species","honeybees",1,NA,NA,4800,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along four pairs of trees. Sampling was further repeated on four dates during the main flowering period",NA
"Guiomar_Nates_Parra_Vaccinium_meridionale_Colombia_2013","SIERRA","sweep net","Apis_mellifera","species","honeybees",1,NA,NA,4800,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along four pairs of trees. Sampling was further repeated on four dates during the main flowering period",NA
"Guiomar_Nates_Parra_Vaccinium_meridionale_Colombia_2013","SIERRA","sweep net","Apis_mellifera","species","honeybees",1,NA,NA,4800,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along four pairs of trees. Sampling was further repeated on four dates during the main flowering period",NA
"Guiomar_Nates_Parra_Vaccinium_meridionale_Colombia_2013","SIERRA","sweep net","Apis_mellifera","species","honeybees",1,NA,NA,4800,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along four pairs of trees. Sampling was further repeated on four dates during the main flowering period",NA
"Guiomar_Nates_Parra_Vaccinium_meridionale_Colombia_2013","SIERRA","sweep net","Apis_mellifera","species","honeybees",1,NA,NA,4800,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along four pairs of trees. Sampling was further repeated on four dates during the main flowering period",NA
"Guiomar_Nates_Parra_Vaccinium_meridionale_Colombia_2013","SIERRA","sweep net","Apis_mellifera","species","honeybees",1,NA,NA,4800,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along four pairs of trees. Sampling was further repeated on four dates during the main flowering period",NA
"Guiomar_Nates_Parra_Vaccinium_meridionale_Colombia_2013","SIERRA","sweep net","Apis_mellifera","species","honeybees",1,NA,NA,4800,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along four pairs of trees. Sampling was further repeated on four dates during the main flowering period",NA
"Guiomar_Nates_Parra_Vaccinium_meridionale_Colombia_2013","CASTELLANOS","sweep net","Apis_mellifera","species","honeybees",1,NA,NA,4800,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along four pairs of trees. Sampling was further repeated on four dates during the main flowering period",NA
"Guiomar_Nates_Parra_Vaccinium_meridionale_Colombia_2013","CASTELLANOS","sweep net","Apis_mellifera","species","honeybees",1,NA,NA,4800,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along four pairs of trees. Sampling was further repeated on four dates during the main flowering period",NA
"Guiomar_Nates_Parra_Vaccinium_meridionale_Colombia_2013","CASTELLANOS","sweep net","Apis_mellifera","species","honeybees",1,NA,NA,4800,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along four pairs of trees. Sampling was further repeated on four dates during the main flowering period",NA
"Guiomar_Nates_Parra_Vaccinium_meridionale_Colombia_2013","CASTELLANOS","sweep net","Apis_mellifera","species","honeybees",1,NA,NA,4800,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along four pairs of trees. Sampling was further repeated on four dates during the main flowering period",NA
"Guiomar_Nates_Parra_Vaccinium_meridionale_Colombia_2013","CASTELLANOS","sweep net","Apis_mellifera","species","honeybees",1,NA,NA,4800,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along four pairs of trees. Sampling was further repeated on four dates during the main flowering period",NA
"Guiomar_Nates_Parra_Vaccinium_meridionale_Colombia_2013","CASTELLANOS","sweep net","Apis_mellifera","species","honeybees",1,NA,NA,4800,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along four pairs of trees. Sampling was further repeated on four dates during the main flowering period",NA
"Guiomar_Nates_Parra_Vaccinium_meridionale_Colombia_2013","GONZALEZ","sweep net","Apis_mellifera","species","honeybees",1,NA,NA,4800,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along four pairs of trees. Sampling was further repeated on four dates during the main flowering period",NA
"Guiomar_Nates_Parra_Vaccinium_meridionale_Colombia_2013","GONZALEZ","sweep net","Apis_mellifera","species","honeybees",1,NA,NA,4800,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along four pairs of trees. Sampling was further repeated on four dates during the main flowering period",NA
"Guiomar_Nates_Parra_Vaccinium_meridionale_Colombia_2013","GONZALEZ","sweep net","Apis_mellifera","species","honeybees",1,NA,NA,4800,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along four pairs of trees. Sampling was further repeated on four dates during the main flowering period",NA
"Guiomar_Nates_Parra_Vaccinium_meridionale_Colombia_2013","GONZALEZ","sweep net","Apis_mellifera","species","honeybees",1,NA,NA,4800,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along four pairs of trees. Sampling was further repeated on four dates during the main flowering period",NA
"Guiomar_Nates_Parra_Vaccinium_meridionale_Colombia_2013","GONZALEZ","sweep net","Apis_mellifera","species","honeybees",1,NA,NA,4800,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along four pairs of trees. Sampling was further repeated on four dates during the main flowering period",NA
"Guiomar_Nates_Parra_Vaccinium_meridionale_Colombia_2013","GONZALEZ","sweep net","Apis_mellifera","species","honeybees",1,NA,NA,4800,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along four pairs of trees. Sampling was further repeated on four dates during the main flowering period",NA
"Guiomar_Nates_Parra_Vaccinium_meridionale_Colombia_2013","JIMENEZ","sweep net","Apis_mellifera","species","honeybees",1,NA,NA,4800,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along four pairs of trees. Sampling was further repeated on four dates during the main flowering period",NA
"Guiomar_Nates_Parra_Vaccinium_meridionale_Colombia_2013","JIMENEZ","sweep net","Apis_mellifera","species","honeybees",1,NA,NA,4800,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along four pairs of trees. Sampling was further repeated on four dates during the main flowering period",NA
"Guiomar_Nates_Parra_Vaccinium_meridionale_Colombia_2013","JIMENEZ","sweep net","Apis_mellifera","species","honeybees",1,NA,NA,4800,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along four pairs of trees. Sampling was further repeated on four dates during the main flowering period",NA
"Guiomar_Nates_Parra_Vaccinium_meridionale_Colombia_2013","JIMENEZ","sweep net","Apis_mellifera","species","honeybees",1,NA,NA,4800,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along four pairs of trees. Sampling was further repeated on four dates during the main flowering period",NA
"Guiomar_Nates_Parra_Vaccinium_meridionale_Colombia_2013","JIMENEZ","sweep net","Apis_mellifera","species","honeybees",1,NA,NA,4800,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along four pairs of trees. Sampling was further repeated on four dates during the main flowering period",NA
"Guiomar_Nates_Parra_Vaccinium_meridionale_Colombia_2013","JIMENEZ","sweep net","Apis_mellifera","species","honeybees",1,NA,NA,4800,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along four pairs of trees. Sampling was further repeated on four dates during the main flowering period",NA
"Guiomar_Nates_Parra_Vaccinium_meridionale_Colombia_2013","PENA","sweep net","Apis_mellifera","species","honeybees",1,NA,NA,4800,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along four pairs of trees. Sampling was further repeated on four dates during the main flowering period",NA
"Guiomar_Nates_Parra_Vaccinium_meridionale_Colombia_2013","PENA","sweep net","Apis_mellifera","species","honeybees",1,NA,NA,4800,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along four pairs of trees. Sampling was further repeated on four dates during the main flowering period",NA
"Guiomar_Nates_Parra_Vaccinium_meridionale_Colombia_2013","PENA","sweep net","Apis_mellifera","species","honeybees",1,NA,NA,4800,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along four pairs of trees. Sampling was further repeated on four dates during the main flowering period",NA
"Guiomar_Nates_Parra_Vaccinium_meridionale_Colombia_2013","PENA","sweep net","Apis_mellifera","species","honeybees",1,NA,NA,4800,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along four pairs of trees. Sampling was further repeated on four dates during the main flowering period",NA
"Guiomar_Nates_Parra_Vaccinium_meridionale_Colombia_2013","PENA","sweep net","Apis_mellifera","species","honeybees",1,NA,NA,4800,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along four pairs of trees. Sampling was further repeated on four dates during the main flowering period",NA
"Guiomar_Nates_Parra_Vaccinium_meridionale_Colombia_2013","PENA","sweep net","Apis_mellifera","species","honeybees",1,NA,NA,4800,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along four pairs of trees. Sampling was further repeated on four dates during the main flowering period",NA
"Guiomar_Nates_Parra_Vaccinium_meridionale_Colombia_2013","SIERRA","sweep net","Apis_mellifera","species","honeybees",1,NA,NA,4800,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along four pairs of trees. Sampling was further repeated on four dates during the main flowering period",NA
"Guiomar_Nates_Parra_Vaccinium_meridionale_Colombia_2013","SIERRA","sweep net","Apis_mellifera","species","honeybees",1,NA,NA,4800,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along four pairs of trees. Sampling was further repeated on four dates during the main flowering period",NA
"Guiomar_Nates_Parra_Vaccinium_meridionale_Colombia_2013","SIERRA","sweep net","Apis_mellifera","species","honeybees",1,NA,NA,4800,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along four pairs of trees. Sampling was further repeated on four dates during the main flowering period",NA
"Guiomar_Nates_Parra_Vaccinium_meridionale_Colombia_2013","SIERRA","sweep net","Apis_mellifera","species","honeybees",1,NA,NA,4800,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along four pairs of trees. Sampling was further repeated on four dates during the main flowering period",NA
"Guiomar_Nates_Parra_Vaccinium_meridionale_Colombia_2013","SIERRA","sweep net","Apis_mellifera","species","honeybees",1,NA,NA,4800,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along four pairs of trees. Sampling was further repeated on four dates during the main flowering period",NA
"Guiomar_Nates_Parra_Vaccinium_meridionale_Colombia_2013","SIERRA","sweep net","Apis_mellifera","species","honeybees",1,NA,NA,4800,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along four pairs of trees. Sampling was further repeated on four dates during the main flowering period",NA
"Guiomar_Nates_Parra_Vaccinium_meridionale_Colombia_2013","CASTELLANOS","sweep net","Apis_mellifera","species","honeybees",1,NA,NA,4800,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along four pairs of trees. Sampling was further repeated on four dates during the main flowering period",NA
"Guiomar_Nates_Parra_Vaccinium_meridionale_Colombia_2013","CASTELLANOS","sweep net","Apis_mellifera","species","honeybees",1,NA,NA,4800,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along four pairs of trees. Sampling was further repeated on four dates during the main flowering period",NA
"Guiomar_Nates_Parra_Vaccinium_meridionale_Colombia_2013","CASTELLANOS","sweep net","Apis_mellifera","species","honeybees",1,NA,NA,4800,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along four pairs of trees. Sampling was further repeated on four dates during the main flowering period",NA
"Guiomar_Nates_Parra_Vaccinium_meridionale_Colombia_2013","CASTELLANOS","sweep net","Apis_mellifera","species","honeybees",1,NA,NA,4800,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along four pairs of trees. Sampling was further repeated on four dates during the main flowering period",NA
"Guiomar_Nates_Parra_Vaccinium_meridionale_Colombia_2013","CASTELLANOS","sweep net","Apis_mellifera","species","honeybees",1,NA,NA,4800,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along four pairs of trees. Sampling was further repeated on four dates during the main flowering period",NA
"Guiomar_Nates_Parra_Vaccinium_meridionale_Colombia_2013","CASTELLANOS","sweep net","Apis_mellifera","species","honeybees",1,NA,NA,4800,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along four pairs of trees. Sampling was further repeated on four dates during the main flowering period",NA
"Guiomar_Nates_Parra_Vaccinium_meridionale_Colombia_2013","GONZALEZ","sweep net","Apis_mellifera","species","honeybees",1,NA,NA,4800,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along four pairs of trees. Sampling was further repeated on four dates during the main flowering period",NA
"Guiomar_Nates_Parra_Vaccinium_meridionale_Colombia_2013","GONZALEZ","sweep net","Apis_mellifera","species","honeybees",1,NA,NA,4800,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along four pairs of trees. Sampling was further repeated on four dates during the main flowering period",NA
"Guiomar_Nates_Parra_Vaccinium_meridionale_Colombia_2013","GONZALEZ","sweep net","Apis_mellifera","species","honeybees",1,NA,NA,4800,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along four pairs of trees. Sampling was further repeated on four dates during the main flowering period",NA
"Guiomar_Nates_Parra_Vaccinium_meridionale_Colombia_2013","GONZALEZ","sweep net","Apis_mellifera","species","honeybees",1,NA,NA,4800,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along four pairs of trees. Sampling was further repeated on four dates during the main flowering period",NA
"Guiomar_Nates_Parra_Vaccinium_meridionale_Colombia_2013","GONZALEZ","sweep net","Apis_mellifera","species","honeybees",1,NA,NA,4800,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along four pairs of trees. Sampling was further repeated on four dates during the main flowering period",NA
"Guiomar_Nates_Parra_Vaccinium_meridionale_Colombia_2013","GONZALEZ","sweep net","Apis_mellifera","species","honeybees",1,NA,NA,4800,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along four pairs of trees. Sampling was further repeated on four dates during the main flowering period",NA
"Guiomar_Nates_Parra_Vaccinium_meridionale_Colombia_2013","JIMENEZ","sweep net","Apis_mellifera","species","honeybees",1,NA,NA,4800,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along four pairs of trees. Sampling was further repeated on four dates during the main flowering period",NA
"Guiomar_Nates_Parra_Vaccinium_meridionale_Colombia_2013","JIMENEZ","sweep net","Apis_mellifera","species","honeybees",1,NA,NA,4800,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along four pairs of trees. Sampling was further repeated on four dates during the main flowering period",NA
"Guiomar_Nates_Parra_Vaccinium_meridionale_Colombia_2013","JIMENEZ","sweep net","Apis_mellifera","species","honeybees",1,NA,NA,4800,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along four pairs of trees. Sampling was further repeated on four dates during the main flowering period",NA
"Guiomar_Nates_Parra_Vaccinium_meridionale_Colombia_2013","JIMENEZ","sweep net","Apis_mellifera","species","honeybees",1,NA,NA,4800,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along four pairs of trees. Sampling was further repeated on four dates during the main flowering period",NA
"Guiomar_Nates_Parra_Vaccinium_meridionale_Colombia_2013","JIMENEZ","sweep net","Apis_mellifera","species","honeybees",1,NA,NA,4800,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along four pairs of trees. Sampling was further repeated on four dates during the main flowering period",NA
"Guiomar_Nates_Parra_Vaccinium_meridionale_Colombia_2013","JIMENEZ","sweep net","Apis_mellifera","species","honeybees",1,NA,NA,4800,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along four pairs of trees. Sampling was further repeated on four dates during the main flowering period",NA
"Guiomar_Nates_Parra_Vaccinium_meridionale_Colombia_2013","PENA","sweep net","Apis_mellifera","species","honeybees",1,NA,NA,4800,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along four pairs of trees. Sampling was further repeated on four dates during the main flowering period",NA
"Guiomar_Nates_Parra_Vaccinium_meridionale_Colombia_2013","PENA","sweep net","Apis_mellifera","species","honeybees",1,NA,NA,4800,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along four pairs of trees. Sampling was further repeated on four dates during the main flowering period",NA
"Guiomar_Nates_Parra_Vaccinium_meridionale_Colombia_2013","PENA","sweep net","Apis_mellifera","species","honeybees",1,NA,NA,4800,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along four pairs of trees. Sampling was further repeated on four dates during the main flowering period",NA
"Guiomar_Nates_Parra_Vaccinium_meridionale_Colombia_2013","PENA","sweep net","Apis_mellifera","species","honeybees",1,NA,NA,4800,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along four pairs of trees. Sampling was further repeated on four dates during the main flowering period",NA
"Guiomar_Nates_Parra_Vaccinium_meridionale_Colombia_2013","PENA","sweep net","Apis_mellifera","species","honeybees",1,NA,NA,4800,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along four pairs of trees. Sampling was further repeated on four dates during the main flowering period",NA
"Guiomar_Nates_Parra_Vaccinium_meridionale_Colombia_2013","PENA","sweep net","Apis_mellifera","species","honeybees",1,NA,NA,4800,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along four pairs of trees. Sampling was further repeated on four dates during the main flowering period",NA
"Guiomar_Nates_Parra_Vaccinium_meridionale_Colombia_2013","SIERRA","sweep net","Apis_mellifera","species","honeybees",1,NA,NA,4800,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along four pairs of trees. Sampling was further repeated on four dates during the main flowering period",NA
"Guiomar_Nates_Parra_Vaccinium_meridionale_Colombia_2013","SIERRA","sweep net","Apis_mellifera","species","honeybees",1,NA,NA,4800,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along four pairs of trees. Sampling was further repeated on four dates during the main flowering period",NA
"Guiomar_Nates_Parra_Vaccinium_meridionale_Colombia_2013","SIERRA","sweep net","Apis_mellifera","species","honeybees",1,NA,NA,4800,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along four pairs of trees. Sampling was further repeated on four dates during the main flowering period",NA
"Guiomar_Nates_Parra_Vaccinium_meridionale_Colombia_2013","SIERRA","sweep net","Apis_mellifera","species","honeybees",1,NA,NA,4800,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along four pairs of trees. Sampling was further repeated on four dates during the main flowering period",NA
"Guiomar_Nates_Parra_Vaccinium_meridionale_Colombia_2013","SIERRA","sweep net","Apis_mellifera","species","honeybees",1,NA,NA,4800,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along four pairs of trees. Sampling was further repeated on four dates during the main flowering period",NA
"Guiomar_Nates_Parra_Vaccinium_meridionale_Colombia_2013","SIERRA","sweep net","Apis_mellifera","species","honeybees",1,NA,NA,4800,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along four pairs of trees. Sampling was further repeated on four dates during the main flowering period",NA
"Guiomar_Nates_Parra_Vaccinium_meridionale_Colombia_2013","CASTELLANOS","sweep net","Apis_mellifera","species","honeybees",1,NA,NA,4800,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along four pairs of trees. Sampling was further repeated on four dates during the main flowering period",NA
"Guiomar_Nates_Parra_Vaccinium_meridionale_Colombia_2013","CASTELLANOS","sweep net","Apis_mellifera","species","honeybees",1,NA,NA,4800,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along four pairs of trees. Sampling was further repeated on four dates during the main flowering period",NA
"Guiomar_Nates_Parra_Vaccinium_meridionale_Colombia_2013","CASTELLANOS","sweep net","Apis_mellifera","species","honeybees",1,NA,NA,4800,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along four pairs of trees. Sampling was further repeated on four dates during the main flowering period",NA
"Guiomar_Nates_Parra_Vaccinium_meridionale_Colombia_2013","CASTELLANOS","sweep net","Apis_mellifera","species","honeybees",1,NA,NA,4800,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along four pairs of trees. Sampling was further repeated on four dates during the main flowering period",NA
"Guiomar_Nates_Parra_Vaccinium_meridionale_Colombia_2013","CASTELLANOS","sweep net","Apis_mellifera","species","honeybees",1,NA,NA,4800,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along four pairs of trees. Sampling was further repeated on four dates during the main flowering period",NA
"Guiomar_Nates_Parra_Vaccinium_meridionale_Colombia_2013","CASTELLANOS","sweep net","Apis_mellifera","species","honeybees",1,NA,NA,4800,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along four pairs of trees. Sampling was further repeated on four dates during the main flowering period",NA
"Guiomar_Nates_Parra_Vaccinium_meridionale_Colombia_2013","GONZALEZ","sweep net","Apis_mellifera","species","honeybees",1,NA,NA,4800,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along four pairs of trees. Sampling was further repeated on four dates during the main flowering period",NA
"Guiomar_Nates_Parra_Vaccinium_meridionale_Colombia_2013","GONZALEZ","sweep net","Apis_mellifera","species","honeybees",1,NA,NA,4800,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along four pairs of trees. Sampling was further repeated on four dates during the main flowering period",NA
"Guiomar_Nates_Parra_Vaccinium_meridionale_Colombia_2013","GONZALEZ","sweep net","Apis_mellifera","species","honeybees",1,NA,NA,4800,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along four pairs of trees. Sampling was further repeated on four dates during the main flowering period",NA
"Guiomar_Nates_Parra_Vaccinium_meridionale_Colombia_2013","GONZALEZ","sweep net","Apis_mellifera","species","honeybees",1,NA,NA,4800,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along four pairs of trees. Sampling was further repeated on four dates during the main flowering period",NA
"Guiomar_Nates_Parra_Vaccinium_meridionale_Colombia_2013","GONZALEZ","sweep net","Apis_mellifera","species","honeybees",1,NA,NA,4800,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along four pairs of trees. Sampling was further repeated on four dates during the main flowering period",NA
"Guiomar_Nates_Parra_Vaccinium_meridionale_Colombia_2013","GONZALEZ","sweep net","Apis_mellifera","species","honeybees",1,NA,NA,4800,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along four pairs of trees. Sampling was further repeated on four dates during the main flowering period",NA
"Guiomar_Nates_Parra_Vaccinium_meridionale_Colombia_2013","JIMENEZ","sweep net","Apis_mellifera","species","honeybees",1,NA,NA,4800,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along four pairs of trees. Sampling was further repeated on four dates during the main flowering period",NA
"Guiomar_Nates_Parra_Vaccinium_meridionale_Colombia_2013","JIMENEZ","sweep net","Apis_mellifera","species","honeybees",1,NA,NA,4800,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along four pairs of trees. Sampling was further repeated on four dates during the main flowering period",NA
"Guiomar_Nates_Parra_Vaccinium_meridionale_Colombia_2013","JIMENEZ","sweep net","Apis_mellifera","species","honeybees",1,NA,NA,4800,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along four pairs of trees. Sampling was further repeated on four dates during the main flowering period",NA
"Guiomar_Nates_Parra_Vaccinium_meridionale_Colombia_2013","JIMENEZ","sweep net","Apis_mellifera","species","honeybees",1,NA,NA,4800,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along four pairs of trees. Sampling was further repeated on four dates during the main flowering period",NA
"Guiomar_Nates_Parra_Vaccinium_meridionale_Colombia_2013","JIMENEZ","sweep net","Apis_mellifera","species","honeybees",1,NA,NA,4800,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along four pairs of trees. Sampling was further repeated on four dates during the main flowering period",NA
"Guiomar_Nates_Parra_Vaccinium_meridionale_Colombia_2013","PENA","sweep net","Apis_mellifera","species","honeybees",1,NA,NA,4800,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along four pairs of trees. Sampling was further repeated on four dates during the main flowering period",NA
"Guiomar_Nates_Parra_Vaccinium_meridionale_Colombia_2013","PENA","sweep net","Apis_mellifera","species","honeybees",1,NA,NA,4800,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along four pairs of trees. Sampling was further repeated on four dates during the main flowering period",NA
"Guiomar_Nates_Parra_Vaccinium_meridionale_Colombia_2013","PENA","sweep net","Apis_mellifera","species","honeybees",1,NA,NA,4800,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along four pairs of trees. Sampling was further repeated on four dates during the main flowering period",NA
"Guiomar_Nates_Parra_Vaccinium_meridionale_Colombia_2013","PENA","sweep net","Apis_mellifera","species","honeybees",1,NA,NA,4800,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along four pairs of trees. Sampling was further repeated on four dates during the main flowering period",NA
"Guiomar_Nates_Parra_Vaccinium_meridionale_Colombia_2013","PENA","sweep net","Apis_mellifera","species","honeybees",1,NA,NA,4800,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along four pairs of trees. Sampling was further repeated on four dates during the main flowering period",NA
"Guiomar_Nates_Parra_Vaccinium_meridionale_Colombia_2013","PENA","sweep net","Apis_mellifera","species","honeybees",1,NA,NA,4800,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along four pairs of trees. Sampling was further repeated on four dates during the main flowering period",NA
"Guiomar_Nates_Parra_Vaccinium_meridionale_Colombia_2013","SIERRA","sweep net","Apis_mellifera","species","honeybees",1,NA,NA,4800,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along four pairs of trees. Sampling was further repeated on four dates during the main flowering period",NA
"Guiomar_Nates_Parra_Vaccinium_meridionale_Colombia_2013","SIERRA","sweep net","Apis_mellifera","species","honeybees",1,NA,NA,4800,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along four pairs of trees. Sampling was further repeated on four dates during the main flowering period",NA
"Guiomar_Nates_Parra_Vaccinium_meridionale_Colombia_2013","SIERRA","sweep net","Apis_mellifera","species","honeybees",1,NA,NA,4800,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along four pairs of trees. Sampling was further repeated on four dates during the main flowering period",NA
"Guiomar_Nates_Parra_Vaccinium_meridionale_Colombia_2013","SIERRA","sweep net","Apis_mellifera","species","honeybees",1,NA,NA,4800,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along four pairs of trees. Sampling was further repeated on four dates during the main flowering period",NA
"Guiomar_Nates_Parra_Vaccinium_meridionale_Colombia_2013","SIERRA","sweep net","Apis_mellifera","species","honeybees",1,NA,NA,4800,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along four pairs of trees. Sampling was further repeated on four dates during the main flowering period",NA
"Guiomar_Nates_Parra_Vaccinium_meridionale_Colombia_2013","SIERRA","sweep net","Apis_mellifera","species","honeybees",1,NA,NA,4800,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along four pairs of trees. Sampling was further repeated on four dates during the main flowering period",NA
"Guiomar_Nates_Parra_Vaccinium_meridionale_Colombia_2013","CASTELLANOS","sweep net","Bombus_hortulanus","species","bumblebees",1,NA,NA,4800,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along four pairs of trees. Sampling was further repeated on four dates during the main flowering period",NA
"Guiomar_Nates_Parra_Vaccinium_meridionale_Colombia_2013","CASTELLANOS","sweep net","Bombus_hortulanus","species","bumblebees",1,NA,NA,4800,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along four pairs of trees. Sampling was further repeated on four dates during the main flowering period",NA
"Guiomar_Nates_Parra_Vaccinium_meridionale_Colombia_2013","CASTELLANOS","sweep net","Bombus_hortulanus","species","bumblebees",1,NA,NA,4800,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along four pairs of trees. Sampling was further repeated on four dates during the main flowering period",NA
"Guiomar_Nates_Parra_Vaccinium_meridionale_Colombia_2013","CASTELLANOS","sweep net","Bombus_hortulanus","species","bumblebees",1,NA,NA,4800,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along four pairs of trees. Sampling was further repeated on four dates during the main flowering period",NA
"Guiomar_Nates_Parra_Vaccinium_meridionale_Colombia_2013","GONZALEZ","sweep net","Bombus_hortulanus","species","bumblebees",1,NA,NA,4800,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along four pairs of trees. Sampling was further repeated on four dates during the main flowering period",NA
"Guiomar_Nates_Parra_Vaccinium_meridionale_Colombia_2013","JIMENEZ","sweep net","Bombus_hortulanus","species","bumblebees",1,NA,NA,4800,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along four pairs of trees. Sampling was further repeated on four dates during the main flowering period",NA
"Guiomar_Nates_Parra_Vaccinium_meridionale_Colombia_2013","JIMENEZ","sweep net","Bombus_hortulanus","species","bumblebees",1,NA,NA,4800,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along four pairs of trees. Sampling was further repeated on four dates during the main flowering period",NA
"Guiomar_Nates_Parra_Vaccinium_meridionale_Colombia_2013","JIMENEZ","sweep net","Bombus_hortulanus","species","bumblebees",1,NA,NA,4800,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along four pairs of trees. Sampling was further repeated on four dates during the main flowering period",NA
"Guiomar_Nates_Parra_Vaccinium_meridionale_Colombia_2013","JIMENEZ","sweep net","Bombus_hortulanus","species","bumblebees",1,NA,NA,4800,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along four pairs of trees. Sampling was further repeated on four dates during the main flowering period",NA
"Guiomar_Nates_Parra_Vaccinium_meridionale_Colombia_2013","JIMENEZ","sweep net","Bombus_hortulanus","species","bumblebees",1,NA,NA,4800,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along four pairs of trees. Sampling was further repeated on four dates during the main flowering period",NA
"Guiomar_Nates_Parra_Vaccinium_meridionale_Colombia_2013","SIERRA","sweep net","Bombus_hortulanus","species","bumblebees",1,NA,NA,4800,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along four pairs of trees. Sampling was further repeated on four dates during the main flowering period",NA
"Guiomar_Nates_Parra_Vaccinium_meridionale_Colombia_2013","SIERRA","sweep net","Bombus_hortulanus","species","bumblebees",1,NA,NA,4800,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along four pairs of trees. Sampling was further repeated on four dates during the main flowering period",NA
"Guiomar_Nates_Parra_Vaccinium_meridionale_Colombia_2013","SIERRA","sweep net","Bombus_hortulanus","species","bumblebees",1,NA,NA,4800,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along four pairs of trees. Sampling was further repeated on four dates during the main flowering period",NA
"Guiomar_Nates_Parra_Vaccinium_meridionale_Colombia_2013","SIERRA","sweep net","Bombus_hortulanus","species","bumblebees",1,NA,NA,4800,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along four pairs of trees. Sampling was further repeated on four dates during the main flowering period",NA
"Guiomar_Nates_Parra_Vaccinium_meridionale_Colombia_2013","GONZALEZ","sweep net","Bombus_hortulanus","species","bumblebees",1,NA,NA,4800,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along four pairs of trees. Sampling was further repeated on four dates during the main flowering period",NA
"Guiomar_Nates_Parra_Vaccinium_meridionale_Colombia_2013","JIMENEZ","sweep net","Bombus_hortulanus","species","bumblebees",1,NA,NA,4800,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along four pairs of trees. Sampling was further repeated on four dates during the main flowering period",NA
"Guiomar_Nates_Parra_Vaccinium_meridionale_Colombia_2013","JIMENEZ","sweep net","Bombus_hortulanus","species","bumblebees",1,NA,NA,4800,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along four pairs of trees. Sampling was further repeated on four dates during the main flowering period",NA
"Guiomar_Nates_Parra_Vaccinium_meridionale_Colombia_2013","JIMENEZ","sweep net","Bombus_hortulanus","species","bumblebees",1,NA,NA,4800,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along four pairs of trees. Sampling was further repeated on four dates during the main flowering period",NA
"Guiomar_Nates_Parra_Vaccinium_meridionale_Colombia_2013","JIMENEZ","sweep net","Bombus_hortulanus","species","bumblebees",1,NA,NA,4800,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along four pairs of trees. Sampling was further repeated on four dates during the main flowering period",NA
"Guiomar_Nates_Parra_Vaccinium_meridionale_Colombia_2013","PENA","sweep net","Bombus_hortulanus","species","bumblebees",1,NA,NA,4800,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along four pairs of trees. Sampling was further repeated on four dates during the main flowering period",NA
"Guiomar_Nates_Parra_Vaccinium_meridionale_Colombia_2013","PENA","sweep net","Bombus_hortulanus","species","bumblebees",1,NA,NA,4800,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along four pairs of trees. Sampling was further repeated on four dates during the main flowering period",NA
"Guiomar_Nates_Parra_Vaccinium_meridionale_Colombia_2013","SIERRA","sweep net","Bombus_hortulanus","species","bumblebees",1,NA,NA,4800,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along four pairs of trees. Sampling was further repeated on four dates during the main flowering period",NA
"Guiomar_Nates_Parra_Vaccinium_meridionale_Colombia_2013","SIERRA","sweep net","Bombus_hortulanus","species","bumblebees",1,NA,NA,4800,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along four pairs of trees. Sampling was further repeated on four dates during the main flowering period",NA
"Guiomar_Nates_Parra_Vaccinium_meridionale_Colombia_2013","CASTELLANOS","sweep net","Bombus_hortulanus","species","bumblebees",1,NA,NA,4800,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along four pairs of trees. Sampling was further repeated on four dates during the main flowering period",NA
"Guiomar_Nates_Parra_Vaccinium_meridionale_Colombia_2013","CASTELLANOS","sweep net","Bombus_hortulanus","species","bumblebees",1,NA,NA,4800,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along four pairs of trees. Sampling was further repeated on four dates during the main flowering period",NA
"Guiomar_Nates_Parra_Vaccinium_meridionale_Colombia_2013","CASTELLANOS","sweep net","Bombus_hortulanus","species","bumblebees",1,NA,NA,4800,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along four pairs of trees. Sampling was further repeated on four dates during the main flowering period",NA
"Guiomar_Nates_Parra_Vaccinium_meridionale_Colombia_2013","JIMENEZ","sweep net","Bombus_hortulanus","species","bumblebees",1,NA,NA,4800,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along four pairs of trees. Sampling was further repeated on four dates during the main flowering period",NA
"Guiomar_Nates_Parra_Vaccinium_meridionale_Colombia_2013","JIMENEZ","sweep net","Bombus_hortulanus","species","bumblebees",1,NA,NA,4800,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along four pairs of trees. Sampling was further repeated on four dates during the main flowering period",NA
"Guiomar_Nates_Parra_Vaccinium_meridionale_Colombia_2013","JIMENEZ","sweep net","Bombus_hortulanus","species","bumblebees",1,NA,NA,4800,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along four pairs of trees. Sampling was further repeated on four dates during the main flowering period",NA
"Guiomar_Nates_Parra_Vaccinium_meridionale_Colombia_2013","JIMENEZ","sweep net","Bombus_hortulanus","species","bumblebees",1,NA,NA,4800,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along four pairs of trees. Sampling was further repeated on four dates during the main flowering period",NA
"Guiomar_Nates_Parra_Vaccinium_meridionale_Colombia_2013","PENA","sweep net","Bombus_hortulanus","species","bumblebees",1,NA,NA,4800,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along four pairs of trees. Sampling was further repeated on four dates during the main flowering period",NA
"Guiomar_Nates_Parra_Vaccinium_meridionale_Colombia_2013","SIERRA","sweep net","Bombus_hortulanus","species","bumblebees",1,NA,NA,4800,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along four pairs of trees. Sampling was further repeated on four dates during the main flowering period",NA
"Guiomar_Nates_Parra_Vaccinium_meridionale_Colombia_2013","CASTELLANOS","sweep net","Bombus_hortulanus","species","bumblebees",1,NA,NA,4800,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along four pairs of trees. Sampling was further repeated on four dates during the main flowering period",NA
"Guiomar_Nates_Parra_Vaccinium_meridionale_Colombia_2013","JIMENEZ","sweep net","Bombus_hortulanus","species","bumblebees",1,NA,NA,4800,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along four pairs of trees. Sampling was further repeated on four dates during the main flowering period",NA
"Guiomar_Nates_Parra_Vaccinium_meridionale_Colombia_2013","JIMENEZ","sweep net","Bombus_hortulanus","species","bumblebees",1,NA,NA,4800,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along four pairs of trees. Sampling was further repeated on four dates during the main flowering period",NA
"Guiomar_Nates_Parra_Vaccinium_meridionale_Colombia_2013","JIMENEZ","sweep net","Bombus_hortulanus","species","bumblebees",1,NA,NA,4800,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along four pairs of trees. Sampling was further repeated on four dates during the main flowering period",NA
"Guiomar_Nates_Parra_Vaccinium_meridionale_Colombia_2013","JIMENEZ","sweep net","Bombus_hortulanus","species","bumblebees",1,NA,NA,4800,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along four pairs of trees. Sampling was further repeated on four dates during the main flowering period",NA
"Guiomar_Nates_Parra_Vaccinium_meridionale_Colombia_2013","SIERRA","sweep net","Bombus_hortulanus","species","bumblebees",1,NA,NA,4800,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along four pairs of trees. Sampling was further repeated on four dates during the main flowering period",NA
"Guiomar_Nates_Parra_Vaccinium_meridionale_Colombia_2013","GONZALEZ","sweep net","Bombus.atratus","species","bumblebees",1,NA,NA,4800,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along four pairs of trees. Sampling was further repeated on four dates during the main flowering period",NA
"Guiomar_Nates_Parra_Vaccinium_meridionale_Colombia_2013","GONZALEZ","sweep net","Bombus.atratus","species","bumblebees",1,NA,NA,4800,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along four pairs of trees. Sampling was further repeated on four dates during the main flowering period",NA
"Guiomar_Nates_Parra_Vaccinium_meridionale_Colombia_2013","GONZALEZ","sweep net","Bombus.atratus","species","bumblebees",1,NA,NA,4800,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along four pairs of trees. Sampling was further repeated on four dates during the main flowering period",NA
"Guiomar_Nates_Parra_Vaccinium_meridionale_Colombia_2013","GONZALEZ","sweep net","Bombus.atratus","species","bumblebees",1,NA,NA,4800,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along four pairs of trees. Sampling was further repeated on four dates during the main flowering period",NA
"Guiomar_Nates_Parra_Vaccinium_meridionale_Colombia_2013","SIERRA","sweep net","Bombus.atratus","species","bumblebees",1,NA,NA,4800,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along four pairs of trees. Sampling was further repeated on four dates during the main flowering period",NA
"Guiomar_Nates_Parra_Vaccinium_meridionale_Colombia_2013","SIERRA","sweep net","Bombus.atratus","species","bumblebees",1,NA,NA,4800,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along four pairs of trees. Sampling was further repeated on four dates during the main flowering period",NA
"Guiomar_Nates_Parra_Vaccinium_meridionale_Colombia_2013","CASTELLANOS","sweep net","Bombus.atratus","species","bumblebees",1,NA,NA,4800,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along four pairs of trees. Sampling was further repeated on four dates during the main flowering period",NA
"Guiomar_Nates_Parra_Vaccinium_meridionale_Colombia_2013","GONZALEZ","sweep net","Bombus.atratus","species","bumblebees",1,NA,NA,4800,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along four pairs of trees. Sampling was further repeated on four dates during the main flowering period",NA
"Guiomar_Nates_Parra_Vaccinium_meridionale_Colombia_2013","JIMENEZ","sweep net","Bombus.atratus","species","bumblebees",1,NA,NA,4800,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along four pairs of trees. Sampling was further repeated on four dates during the main flowering period",NA
"Guiomar_Nates_Parra_Vaccinium_meridionale_Colombia_2013","SIERRA","sweep net","Bombus.atratus","species","bumblebees",1,NA,NA,4800,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along four pairs of trees. Sampling was further repeated on four dates during the main flowering period",NA
"Guiomar_Nates_Parra_Vaccinium_meridionale_Colombia_2013","GONZALEZ","sweep net","Bombus.atratus","species","bumblebees",1,NA,NA,4800,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along four pairs of trees. Sampling was further repeated on four dates during the main flowering period",NA
"Guiomar_Nates_Parra_Vaccinium_meridionale_Colombia_2013","GONZALEZ","sweep net","Bombus.atratus","species","bumblebees",1,NA,NA,4800,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along four pairs of trees. Sampling was further repeated on four dates during the main flowering period",NA
"Guiomar_Nates_Parra_Vaccinium_meridionale_Colombia_2013","JIMENEZ","sweep net","Bombus.atratus","species","bumblebees",1,NA,NA,4800,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along four pairs of trees. Sampling was further repeated on four dates during the main flowering period",NA
"Guiomar_Nates_Parra_Vaccinium_meridionale_Colombia_2013","SIERRA","sweep net","Bombus.atratus","species","bumblebees",1,NA,NA,4800,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along four pairs of trees. Sampling was further repeated on four dates during the main flowering period",NA
"Guiomar_Nates_Parra_Vaccinium_meridionale_Colombia_2013","GONZALEZ","sweep net","Halictidae","family","other_wild_bees",1,NA,NA,4800,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along four pairs of trees. Sampling was further repeated on four dates during the main flowering period",NA
"Guiomar_Nates_Parra_Vaccinium_meridionale_Colombia_2013","PENA","sweep net","Halictidae","family","other_wild_bees",1,NA,NA,4800,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along four pairs of trees. Sampling was further repeated on four dates during the main flowering period",NA
"Guiomar_Nates_Parra_Vaccinium_meridionale_Colombia_2013","GONZALEZ","sweep net","Halictidae","family","other_wild_bees",1,NA,NA,4800,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along four pairs of trees. Sampling was further repeated on four dates during the main flowering period",NA
"Guiomar_Nates_Parra_Vaccinium_meridionale_Colombia_2013","GONZALEZ","sweep net","Halictidae","family","other_wild_bees",1,NA,NA,4800,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along four pairs of trees. Sampling was further repeated on four dates during the main flowering period",NA
"Guiomar_Nates_Parra_Vaccinium_meridionale_Colombia_2013","GONZALEZ","sweep net","Halictidae","family","other_wild_bees",1,NA,NA,4800,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along four pairs of trees. Sampling was further repeated on four dates during the main flowering period",NA
"Guiomar_Nates_Parra_Vaccinium_meridionale_Colombia_2013","JIMENEZ","sweep net","Halictidae","family","other_wild_bees",1,NA,NA,4800,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along four pairs of trees. Sampling was further repeated on four dates during the main flowering period",NA
"Guiomar_Nates_Parra_Vaccinium_meridionale_Colombia_2013","GONZALEZ","sweep net","Halictidae","family","other_wild_bees",1,NA,NA,4800,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along four pairs of trees. Sampling was further repeated on four dates during the main flowering period",NA
"Guiomar_Nates_Parra_Vaccinium_meridionale_Colombia_2013","GONZALEZ","sweep net","Halictidae","family","other_wild_bees",1,NA,NA,4800,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along four pairs of trees. Sampling was further repeated on four dates during the main flowering period",NA
"Guiomar_Nates_Parra_Vaccinium_meridionale_Colombia_2013","JIMENEZ","sweep net","Halictidae","family","other_wild_bees",1,NA,NA,4800,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along four pairs of trees. Sampling was further repeated on four dates during the main flowering period",NA
"Guiomar_Nates_Parra_Vaccinium_meridionale_Colombia_2013","SIERRA","sweep net","Halictidae","family","other_wild_bees",1,NA,NA,4800,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along four pairs of trees. Sampling was further repeated on four dates during the main flowering period",NA
"Guiomar_Nates_Parra_Vaccinium_meridionale_Colombia_2013","SIERRA","sweep net","Halictidae","family","other_wild_bees",1,NA,NA,4800,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along four pairs of trees. Sampling was further repeated on four dates during the main flowering period",NA
"Guiomar_Nates_Parra_Vaccinium_meridionale_Colombia_2013","GONZALEZ","sweep net","Halictidae","family","other_wild_bees",1,NA,NA,4800,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along four pairs of trees. Sampling was further repeated on four dates during the main flowering period",NA
"Guiomar_Nates_Parra_Vaccinium_meridionale_Colombia_2013","GONZALEZ","sweep net","Halictidae","family","other_wild_bees",1,NA,NA,4800,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along four pairs of trees. Sampling was further repeated on four dates during the main flowering period",NA
"Guiomar_Nates_Parra_Vaccinium_meridionale_Colombia_2013","JIMENEZ","sweep net","Halictidae","family","other_wild_bees",1,NA,NA,4800,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along four pairs of trees. Sampling was further repeated on four dates during the main flowering period",NA
"Guiomar_Nates_Parra_Vaccinium_meridionale_Colombia_2013","JIMENEZ","sweep net","Halictidae","family","other_wild_bees",1,NA,NA,4800,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along four pairs of trees. Sampling was further repeated on four dates during the main flowering period",NA
"Guiomar_Nates_Parra_Vaccinium_meridionale_Colombia_2013","GONZALEZ","sweep net","Bombus.melaleucus","species","bumblebees",1,NA,NA,4800,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along four pairs of trees. Sampling was further repeated on four dates during the main flowering period",NA
"Guiomar_Nates_Parra_Vaccinium_meridionale_Colombia_2013","JIMENEZ","sweep net","Thygater","genus","other_wild_bees",1,NA,NA,4800,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along four pairs of trees. Sampling was further repeated on four dates during the main flowering period",NA
"Guiomar_Nates_Parra_Vaccinium_meridionale_Colombia_2013","SIERRA","sweep net","Thygater","genus","other_wild_bees",1,NA,NA,4800,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along four pairs of trees. Sampling was further repeated on four dates during the main flowering period",NA
"Guiomar_Nates_Parra_Vaccinium_meridionale_Colombia_2013","SIERRA","sweep net","Thygater","genus","other_wild_bees",1,NA,NA,4800,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along four pairs of trees. Sampling was further repeated on four dates during the main flowering period",NA
"Guiomar_Nates_Parra_Vaccinium_meridionale_Colombia_2013","SIERRA","sweep net","Lepidoptera","order","lepidoptera",1,NA,NA,4800,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along four pairs of trees. Sampling was further repeated on four dates during the main flowering period",NA
"Guiomar_Nates_Parra_Vaccinium_meridionale_Colombia_2013","JIMENEZ","sweep net","Lepidoptera","order","lepidoptera",1,NA,NA,4800,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along four pairs of trees. Sampling was further repeated on four dates during the main flowering period",NA
"Guiomar_Nates_Parra_Vaccinium_meridionale_Colombia_2013","JIMENEZ","sweep net","Lepidoptera","order","lepidoptera",1,NA,NA,4800,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along four pairs of trees. Sampling was further repeated on four dates during the main flowering period",NA
"Guiomar_Nates_Parra_Vaccinium_meridionale_Colombia_2013","JIMENEZ","sweep net","Lepidoptera","order","lepidoptera",1,NA,NA,4800,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along four pairs of trees. Sampling was further repeated on four dates during the main flowering period",NA
"Guiomar_Nates_Parra_Vaccinium_meridionale_Colombia_2013","CASTELLANOS","sweep net","Lepidoptera","order","lepidoptera",1,NA,NA,4800,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along four pairs of trees. Sampling was further repeated on four dates during the main flowering period",NA
"Guiomar_Nates_Parra_Vaccinium_meridionale_Colombia_2013","GONZALEZ","sweep net","Lepidoptera","order","lepidoptera",1,NA,NA,4800,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along four pairs of trees. Sampling was further repeated on four dates during the main flowering period",NA
"Guiomar_Nates_Parra_Vaccinium_meridionale_Colombia_2013","JIMENEZ","sweep net","Lepidoptera","order","lepidoptera",1,NA,NA,4800,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along four pairs of trees. Sampling was further repeated on four dates during the main flowering period",NA
"Guiomar_Nates_Parra_Vaccinium_meridionale_Colombia_2013","JIMENEZ","sweep net","Diptera","order","other_flies",1,NA,NA,4800,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along four pairs of trees. Sampling was further repeated on four dates during the main flowering period",NA
"Guiomar_Nates_Parra_Vaccinium_meridionale_Colombia_2013","PENA","sweep net","Diptera","order","other_flies",1,NA,NA,4800,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along four pairs of trees. Sampling was further repeated on four dates during the main flowering period",NA
"Guiomar_Nates_Parra_Vaccinium_meridionale_Colombia_2013","SIERRA","sweep net","Diptera","order","other_flies",1,NA,NA,4800,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along four pairs of trees. Sampling was further repeated on four dates during the main flowering period",NA
"Guiomar_Nates_Parra_Vaccinium_meridionale_Colombia_2013","JIMENEZ","sweep net","Diptera","order","other_flies",1,NA,NA,4800,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along four pairs of trees. Sampling was further repeated on four dates during the main flowering period",NA
"Guiomar_Nates_Parra_Vaccinium_meridionale_Colombia_2013","JIMENEZ","sweep net","Diptera","order","other_flies",1,NA,NA,4800,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along four pairs of trees. Sampling was further repeated on four dates during the main flowering period",NA
"Guiomar_Nates_Parra_Vaccinium_meridionale_Colombia_2013","JIMENEZ","sweep net","Diptera","order","other_flies",1,NA,NA,4800,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along four pairs of trees. Sampling was further repeated on four dates during the main flowering period",NA
"Guiomar_Nates_Parra_Vaccinium_meridionale_Colombia_2013","JIMENEZ","sweep net","Diptera","order","other_flies",1,NA,NA,4800,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along four pairs of trees. Sampling was further repeated on four dates during the main flowering period",NA
"Guiomar_Nates_Parra_Vaccinium_meridionale_Colombia_2013","PENA","sweep net","Diptera","order","other_flies",1,NA,NA,4800,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along four pairs of trees. Sampling was further repeated on four dates during the main flowering period",NA
"Guiomar_Nates_Parra_Vaccinium_meridionale_Colombia_2013","SIERRA","sweep net","Diptera","order","other_flies",1,NA,NA,4800,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along four pairs of trees. Sampling was further repeated on four dates during the main flowering period",NA
"Guiomar_Nates_Parra_Vaccinium_meridionale_Colombia_2013","SIERRA","sweep net","Diptera","order","other_flies",1,NA,NA,4800,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along four pairs of trees. Sampling was further repeated on four dates during the main flowering period",NA
"Guiomar_Nates_Parra_Vaccinium_meridionale_Colombia_2013","SIERRA","sweep net","Diptera","order","other_flies",1,NA,NA,4800,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along four pairs of trees. Sampling was further repeated on four dates during the main flowering period",NA
"Guiomar_Nates_Parra_Vaccinium_meridionale_Colombia_2013","SIERRA","sweep net","Diptera","order","other_flies",1,NA,NA,4800,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along four pairs of trees. Sampling was further repeated on four dates during the main flowering period",NA
"Guiomar_Nates_Parra_Vaccinium_meridionale_Colombia_2013","JIMENEZ","sweep net","Diptera","order","other_flies",1,NA,NA,4800,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along four pairs of trees. Sampling was further repeated on four dates during the main flowering period",NA
"Guiomar_Nates_Parra_Vaccinium_meridionale_Colombia_2013","GONZALEZ","sweep net","Hymenoptera.(wasps)","suborder","non_bee_hymenoptera",1,NA,NA,4800,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along four pairs of trees. Sampling was further repeated on four dates during the main flowering period",NA
"Guiomar_Nates_Parra_Vaccinium_meridionale_Colombia_2013","JIMENEZ","sweep net","Hymenoptera.(wasps)","suborder","non_bee_hymenoptera",1,NA,NA,4800,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along four pairs of trees. Sampling was further repeated on four dates during the main flowering period",NA
"Guiomar_Nates_Parra_Vaccinium_meridionale_Colombia_2013","JIMENEZ","sweep net","Hymenoptera.(wasps)","suborder","non_bee_hymenoptera",1,NA,NA,4800,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along four pairs of trees. Sampling was further repeated on four dates during the main flowering period",NA
"Guiomar_Nates_Parra_Vaccinium_meridionale_Colombia_2013","SIERRA","sweep net","Hymenoptera.(wasps)","suborder","non_bee_hymenoptera",1,NA,NA,4800,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along four pairs of trees. Sampling was further repeated on four dates during the main flowering period",NA
"Guiomar_Nates_Parra_Vaccinium_meridionale_Colombia_2013","GONZALEZ","sweep net","Hymenoptera.(wasps)","suborder","non_bee_hymenoptera",1,NA,NA,4800,"In each field abundance of floral visitors was analysed by sweep-netting all visitors along four pairs of trees. Sampling was further repeated on four dates during the main flowering period",NA
"Guiomar_Nates_Parra_Vaccinium_meridionale_Colombia_2013","CASTELLANOS","observation","Apis_mellifera","species","honeybees",19,NA,NA,4800,"In each orchad, visitors of four pairs of trees were observed. Sampling was further repeated four times.",NA
"Guiomar_Nates_Parra_Vaccinium_meridionale_Colombia_2013","CASTELLANOS","observation","Apis_mellifera","species","honeybees",17,NA,NA,4800,"In each orchad, visitors of four pairs of trees were observed. Sampling was further repeated four times.",NA
"Guiomar_Nates_Parra_Vaccinium_meridionale_Colombia_2013","CASTELLANOS","observation","Apis_mellifera","species","honeybees",6,NA,NA,4800,"In each orchad, visitors of four pairs of trees were observed. Sampling was further repeated four times.",NA
"Guiomar_Nates_Parra_Vaccinium_meridionale_Colombia_2013","CASTELLANOS","observation","Apis_mellifera","species","honeybees",9,NA,NA,4800,"In each orchad, visitors of four pairs of trees were observed. Sampling was further repeated four times.",NA
"Guiomar_Nates_Parra_Vaccinium_meridionale_Colombia_2013","CASTELLANOS","observation","Apis_mellifera","species","honeybees",6,NA,NA,4800,"In each orchad, visitors of four pairs of trees were observed. Sampling was further repeated four times.",NA
"Guiomar_Nates_Parra_Vaccinium_meridionale_Colombia_2013","CASTELLANOS","observation","Apis_mellifera","species","honeybees",2,NA,NA,4800,"In each orchad, visitors of four pairs of trees were observed. Sampling was further repeated four times.",NA
"Guiomar_Nates_Parra_Vaccinium_meridionale_Colombia_2013","CASTELLANOS","observation","Apis_mellifera","species","honeybees",9,NA,NA,4800,"In each orchad, visitors of four pairs of trees were observed. Sampling was further repeated four times.",NA
"Guiomar_Nates_Parra_Vaccinium_meridionale_Colombia_2013","CASTELLANOS","observation","Apis_mellifera","species","honeybees",5,NA,NA,4800,"In each orchad, visitors of four pairs of trees were observed. Sampling was further repeated four times.",NA
"Guiomar_Nates_Parra_Vaccinium_meridionale_Colombia_2013","GONZALEZ","observation","Apis_mellifera","species","honeybees",9,NA,NA,4800,"In each orchad, visitors of four pairs of trees were observed. Sampling was further repeated four times.",NA
"Guiomar_Nates_Parra_Vaccinium_meridionale_Colombia_2013","GONZALEZ","observation","Apis_mellifera","species","honeybees",1,NA,NA,4800,"In each orchad, visitors of four pairs of trees were observed. Sampling was further repeated four times.",NA
"Guiomar_Nates_Parra_Vaccinium_meridionale_Colombia_2013","GONZALEZ","observation","Apis_mellifera","species","honeybees",19,NA,NA,4800,"In each orchad, visitors of four pairs of trees were observed. Sampling was further repeated four times.",NA
"Guiomar_Nates_Parra_Vaccinium_meridionale_Colombia_2013","GONZALEZ","observation","Apis_mellifera","species","honeybees",6,NA,NA,4800,"In each orchad, visitors of four pairs of trees were observed. Sampling was further repeated four times.",NA
"Guiomar_Nates_Parra_Vaccinium_meridionale_Colombia_2013","GONZALEZ","observation","Apis_mellifera","species","honeybees",12,NA,NA,4800,"In each orchad, visitors of four pairs of trees were observed. Sampling was further repeated four times.",NA
"Guiomar_Nates_Parra_Vaccinium_meridionale_Colombia_2013","GONZALEZ","observation","Apis_mellifera","species","honeybees",5,NA,NA,4800,"In each orchad, visitors of four pairs of trees were observed. Sampling was further repeated four times.",NA
"Guiomar_Nates_Parra_Vaccinium_meridionale_Colombia_2013","GONZALEZ","observation","Apis_mellifera","species","honeybees",4,NA,NA,4800,"In each orchad, visitors of four pairs of trees were observed. Sampling was further repeated four times.",NA
"Guiomar_Nates_Parra_Vaccinium_meridionale_Colombia_2013","GONZALEZ","observation","Apis_mellifera","species","honeybees",3,NA,NA,4800,"In each orchad, visitors of four pairs of trees were observed. Sampling was further repeated four times.",NA
"Guiomar_Nates_Parra_Vaccinium_meridionale_Colombia_2013","JIMENEZ","observation","Apis_mellifera","species","honeybees",15,NA,NA,4800,"In each orchad, visitors of four pairs of trees were observed. Sampling was further repeated four times.",NA
"Guiomar_Nates_Parra_Vaccinium_meridionale_Colombia_2013","JIMENEZ","observation","Apis_mellifera","species","honeybees",7,NA,NA,4800,"In each orchad, visitors of four pairs of trees were observed. Sampling was further repeated four times.",NA
"Guiomar_Nates_Parra_Vaccinium_meridionale_Colombia_2013","JIMENEZ","observation","Apis_mellifera","species","honeybees",7,NA,NA,4800,"In each orchad, visitors of four pairs of trees were observed. Sampling was further repeated four times.",NA
"Guiomar_Nates_Parra_Vaccinium_meridionale_Colombia_2013","JIMENEZ","observation","Apis_mellifera","species","honeybees",9,NA,NA,4800,"In each orchad, visitors of four pairs of trees were observed. Sampling was further repeated four times.",NA
"Guiomar_Nates_Parra_Vaccinium_meridionale_Colombia_2013","JIMENEZ","observation","Apis_mellifera","species","honeybees",10,NA,NA,4800,"In each orchad, visitors of four pairs of trees were observed. Sampling was further repeated four times.",NA
"Guiomar_Nates_Parra_Vaccinium_meridionale_Colombia_2013","JIMENEZ","observation","Apis_mellifera","species","honeybees",3,NA,NA,4800,"In each orchad, visitors of four pairs of trees were observed. Sampling was further repeated four times.",NA
"Guiomar_Nates_Parra_Vaccinium_meridionale_Colombia_2013","JIMENEZ","observation","Apis_mellifera","species","honeybees",7,NA,NA,4800,"In each orchad, visitors of four pairs of trees were observed. Sampling was further repeated four times.",NA
"Guiomar_Nates_Parra_Vaccinium_meridionale_Colombia_2013","JIMENEZ","observation","Apis_mellifera","species","honeybees",6,NA,NA,4800,"In each orchad, visitors of four pairs of trees were observed. Sampling was further repeated four times.",NA
"Guiomar_Nates_Parra_Vaccinium_meridionale_Colombia_2013","PENA","observation","Apis_mellifera","species","honeybees",4,NA,NA,4800,"In each orchad, visitors of four pairs of trees were observed. Sampling was further repeated four times.",NA
"Guiomar_Nates_Parra_Vaccinium_meridionale_Colombia_2013","PENA","observation","Apis_mellifera","species","honeybees",3,NA,NA,4800,"In each orchad, visitors of four pairs of trees were observed. Sampling was further repeated four times.",NA
"Guiomar_Nates_Parra_Vaccinium_meridionale_Colombia_2013","PENA","observation","Apis_mellifera","species","honeybees",3,NA,NA,4800,"In each orchad, visitors of four pairs of trees were observed. Sampling was further repeated four times.",NA
"Guiomar_Nates_Parra_Vaccinium_meridionale_Colombia_2013","PENA","observation","Apis_mellifera","species","honeybees",4,NA,NA,4800,"In each orchad, visitors of four pairs of trees were observed. Sampling was further repeated four times.",NA
"Guiomar_Nates_Parra_Vaccinium_meridionale_Colombia_2013","PENA","observation","Apis_mellifera","species","honeybees",3,NA,NA,4800,"In each orchad, visitors of four pairs of trees were observed. Sampling was further repeated four times.",NA
"Guiomar_Nates_Parra_Vaccinium_meridionale_Colombia_2013","PENA","observation","Apis_mellifera","species","honeybees",6,NA,NA,4800,"In each orchad, visitors of four pairs of trees were observed. Sampling was further repeated four times.",NA
"Guiomar_Nates_Parra_Vaccinium_meridionale_Colombia_2013","PENA","observation","Apis_mellifera","species","honeybees",4,NA,NA,4800,"In each orchad, visitors of four pairs of trees were observed. Sampling was further repeated four times.",NA
"Guiomar_Nates_Parra_Vaccinium_meridionale_Colombia_2013","PENA","observation","Apis_mellifera","species","honeybees",5,NA,NA,4800,"In each orchad, visitors of four pairs of trees were observed. Sampling was further repeated four times.",NA
"Guiomar_Nates_Parra_Vaccinium_meridionale_Colombia_2013","SIERRA","observation","Apis_mellifera","species","honeybees",27,NA,NA,4800,"In each orchad, visitors of four pairs of trees were observed. Sampling was further repeated four times.",NA
"Guiomar_Nates_Parra_Vaccinium_meridionale_Colombia_2013","SIERRA","observation","Apis_mellifera","species","honeybees",5,NA,NA,4800,"In each orchad, visitors of four pairs of trees were observed. Sampling was further repeated four times.",NA
"Guiomar_Nates_Parra_Vaccinium_meridionale_Colombia_2013","SIERRA","observation","Apis_mellifera","species","honeybees",13,NA,NA,4800,"In each orchad, visitors of four pairs of trees were observed. Sampling was further repeated four times.",NA
"Guiomar_Nates_Parra_Vaccinium_meridionale_Colombia_2013","SIERRA","observation","Apis_mellifera","species","honeybees",5,NA,NA,4800,"In each orchad, visitors of four pairs of trees were observed. Sampling was further repeated four times.",NA
"Guiomar_Nates_Parra_Vaccinium_meridionale_Colombia_2013","SIERRA","observation","Apis_mellifera","species","honeybees",9,NA,NA,4800,"In each orchad, visitors of four pairs of trees were observed. Sampling was further repeated four times.",NA
"Guiomar_Nates_Parra_Vaccinium_meridionale_Colombia_2013","SIERRA","observation","Apis_mellifera","species","honeybees",7,NA,NA,4800,"In each orchad, visitors of four pairs of trees were observed. Sampling was further repeated four times.",NA
"Guiomar_Nates_Parra_Vaccinium_meridionale_Colombia_2013","SIERRA","observation","Apis_mellifera","species","honeybees",8,NA,NA,4800,"In each orchad, visitors of four pairs of trees were observed. Sampling was further repeated four times.",NA
"Guiomar_Nates_Parra_Vaccinium_meridionale_Colombia_2013","SIERRA","observation","Apis_mellifera","species","honeybees",7,NA,NA,4800,"In each orchad, visitors of four pairs of trees were observed. Sampling was further repeated four times.",NA
"Guiomar_Nates_Parra_Vaccinium_meridionale_Colombia_2013","CASTELLANOS","observation","Apis_mellifera","species","honeybees",6,NA,NA,4800,"In each orchad, visitors of four pairs of trees were observed. Sampling was further repeated four times.",NA
"Guiomar_Nates_Parra_Vaccinium_meridionale_Colombia_2013","CASTELLANOS","observation","Apis_mellifera","species","honeybees",10,NA,NA,4800,"In each orchad, visitors of four pairs of trees were observed. Sampling was further repeated four times.",NA
"Guiomar_Nates_Parra_Vaccinium_meridionale_Colombia_2013","CASTELLANOS","observation","Apis_mellifera","species","honeybees",13,NA,NA,4800,"In each orchad, visitors of four pairs of trees were observed. Sampling was further repeated four times.",NA
"Guiomar_Nates_Parra_Vaccinium_meridionale_Colombia_2013","CASTELLANOS","observation","Apis_mellifera","species","honeybees",14,NA,NA,4800,"In each orchad, visitors of four pairs of trees were observed. Sampling was further repeated four times.",NA
"Guiomar_Nates_Parra_Vaccinium_meridionale_Colombia_2013","CASTELLANOS","observation","Apis_mellifera","species","honeybees",3,NA,NA,4800,"In each orchad, visitors of four pairs of trees were observed. Sampling was further repeated four times.",NA
"Guiomar_Nates_Parra_Vaccinium_meridionale_Colombia_2013","CASTELLANOS","observation","Apis_mellifera","species","honeybees",1,NA,NA,4800,"In each orchad, visitors of four pairs of trees were observed. Sampling was further repeated four times.",NA
"Guiomar_Nates_Parra_Vaccinium_meridionale_Colombia_2013","CASTELLANOS","observation","Apis_mellifera","species","honeybees",6,NA,NA,4800,"In each orchad, visitors of four pairs of trees were observed. Sampling was further repeated four times.",NA
"Guiomar_Nates_Parra_Vaccinium_meridionale_Colombia_2013","CASTELLANOS","observation","Apis_mellifera","species","honeybees",7,NA,NA,4800,"In each orchad, visitors of four pairs of trees were observed. Sampling was further repeated four times.",NA
"Guiomar_Nates_Parra_Vaccinium_meridionale_Colombia_2013","GONZALEZ","observation","Apis_mellifera","species","honeybees",14,NA,NA,4800,"In each orchad, visitors of four pairs of trees were observed. Sampling was further repeated four times.",NA
"Guiomar_Nates_Parra_Vaccinium_meridionale_Colombia_2013","GONZALEZ","observation","Apis_mellifera","species","honeybees",14,NA,NA,4800,"In each orchad, visitors of four pairs of trees were observed. Sampling was further repeated four times.",NA
"Guiomar_Nates_Parra_Vaccinium_meridionale_Colombia_2013","GONZALEZ","observation","Apis_mellifera","species","honeybees",5,NA,NA,4800,"In each orchad, visitors of four pairs of trees were observed. Sampling was further repeated four times.",NA
"Guiomar_Nates_Parra_Vaccinium_meridionale_Colombia_2013","GONZALEZ","observation","Apis_mellifera","species","honeybees",5,NA,NA,4800,"In each orchad, visitors of four pairs of trees were observed. Sampling was further repeated four times.",NA
"Guiomar_Nates_Parra_Vaccinium_meridionale_Colombia_2013","GONZALEZ","observation","Apis_mellifera","species","honeybees",5,NA,NA,4800,"In each orchad, visitors of four pairs of trees were observed. Sampling was further repeated four times.",NA
"Guiomar_Nates_Parra_Vaccinium_meridionale_Colombia_2013","GONZALEZ","observation","Apis_mellifera","species","honeybees",7,NA,NA,4800,"In each orchad, visitors of four pairs of trees were observed. Sampling was further repeated four times.",NA
"Guiomar_Nates_Parra_Vaccinium_meridionale_Colombia_2013","GONZALEZ","observation","Apis_mellifera","species","honeybees",16,NA,NA,4800,"In each orchad, visitors of four pairs of trees were observed. Sampling was further repeated four times.",NA
"Guiomar_Nates_Parra_Vaccinium_meridionale_Colombia_2013","GONZALEZ","observation","Apis_mellifera","species","honeybees",7,NA,NA,4800,"In each orchad, visitors of four pairs of trees were observed. Sampling was further repeated four times.",NA
"Guiomar_Nates_Parra_Vaccinium_meridionale_Colombia_2013","JIMENEZ","observation","Apis_mellifera","species","honeybees",16,NA,NA,4800,"In each orchad, visitors of four pairs of trees were observed. Sampling was further repeated four times.",NA
"Guiomar_Nates_Parra_Vaccinium_meridionale_Colombia_2013","JIMENEZ","observation","Apis_mellifera","species","honeybees",12,NA,NA,4800,"In each orchad, visitors of four pairs of trees were observed. Sampling was further repeated four times.",NA
"Guiomar_Nates_Parra_Vaccinium_meridionale_Colombia_2013","JIMENEZ","observation","Apis_mellifera","species","honeybees",16,NA,NA,4800,"In each orchad, visitors of four pairs of trees were observed. Sampling was further repeated four times.",NA
"Guiomar_Nates_Parra_Vaccinium_meridionale_Colombia_2013","JIMENEZ","observation","Apis_mellifera","species","honeybees",18,NA,NA,4800,"In each orchad, visitors of four pairs of trees were observed. Sampling was further repeated four times.",NA
"Guiomar_Nates_Parra_Vaccinium_meridionale_Colombia_2013","JIMENEZ","observation","Apis_mellifera","species","honeybees",12,NA,NA,4800,"In each orchad, visitors of four pairs of trees were observed. Sampling was further repeated four times.",NA
"Guiomar_Nates_Parra_Vaccinium_meridionale_Colombia_2013","JIMENEZ","observation","Apis_mellifera","species","honeybees",10,NA,NA,4800,"In each orchad, visitors of four pairs of trees were observed. Sampling was further repeated four times.",NA
"Guiomar_Nates_Parra_Vaccinium_meridionale_Colombia_2013","JIMENEZ","observation","Apis_mellifera","species","honeybees",18,NA,NA,4800,"In each orchad, visitors of four pairs of trees were observed. Sampling was further repeated four times.",NA
"Guiomar_Nates_Parra_Vaccinium_meridionale_Colombia_2013","JIMENEZ","observation","Apis_mellifera","species","honeybees",5,NA,NA,4800,"In each orchad, visitors of four pairs of trees were observed. Sampling was further repeated four times.",NA
"Guiomar_Nates_Parra_Vaccinium_meridionale_Colombia_2013","PENA","observation","Apis_mellifera","species","honeybees",5,NA,NA,4800,"In each orchad, visitors of four pairs of trees were observed. Sampling was further repeated four times.",NA
"Guiomar_Nates_Parra_Vaccinium_meridionale_Colombia_2013","PENA","observation","Apis_mellifera","species","honeybees",6,NA,NA,4800,"In each orchad, visitors of four pairs of trees were observed. Sampling was further repeated four times.",NA
"Guiomar_Nates_Parra_Vaccinium_meridionale_Colombia_2013","PENA","observation","Apis_mellifera","species","honeybees",4,NA,NA,4800,"In each orchad, visitors of four pairs of trees were observed. Sampling was further repeated four times.",NA
"Guiomar_Nates_Parra_Vaccinium_meridionale_Colombia_2013","PENA","observation","Apis_mellifera","species","honeybees",3,NA,NA,4800,"In each orchad, visitors of four pairs of trees were observed. Sampling was further repeated four times.",NA
"Guiomar_Nates_Parra_Vaccinium_meridionale_Colombia_2013","PENA","observation","Apis_mellifera","species","honeybees",5,NA,NA,4800,"In each orchad, visitors of four pairs of trees were observed. Sampling was further repeated four times.",NA
"Guiomar_Nates_Parra_Vaccinium_meridionale_Colombia_2013","PENA","observation","Apis_mellifera","species","honeybees",2,NA,NA,4800,"In each orchad, visitors of four pairs of trees were observed. Sampling was further repeated four times.",NA
"Guiomar_Nates_Parra_Vaccinium_meridionale_Colombia_2013","PENA","observation","Apis_mellifera","species","honeybees",6,NA,NA,4800,"In each orchad, visitors of four pairs of trees were observed. Sampling was further repeated four times.",NA
"Guiomar_Nates_Parra_Vaccinium_meridionale_Colombia_2013","PENA","observation","Apis_mellifera","species","honeybees",4,NA,NA,4800,"In each orchad, visitors of four pairs of trees were observed. Sampling was further repeated four times.",NA
"Guiomar_Nates_Parra_Vaccinium_meridionale_Colombia_2013","SIERRA","observation","Apis_mellifera","species","honeybees",15,NA,NA,4800,"In each orchad, visitors of four pairs of trees were observed. Sampling was further repeated four times.",NA
"Guiomar_Nates_Parra_Vaccinium_meridionale_Colombia_2013","SIERRA","observation","Apis_mellifera","species","honeybees",4,NA,NA,4800,"In each orchad, visitors of four pairs of trees were observed. Sampling was further repeated four times.",NA
"Guiomar_Nates_Parra_Vaccinium_meridionale_Colombia_2013","SIERRA","observation","Apis_mellifera","species","honeybees",8,NA,NA,4800,"In each orchad, visitors of four pairs of trees were observed. Sampling was further repeated four times.",NA
"Guiomar_Nates_Parra_Vaccinium_meridionale_Colombia_2013","SIERRA","observation","Apis_mellifera","species","honeybees",16,NA,NA,4800,"In each orchad, visitors of four pairs of trees were observed. Sampling was further repeated four times.",NA
"Guiomar_Nates_Parra_Vaccinium_meridionale_Colombia_2013","SIERRA","observation","Apis_mellifera","species","honeybees",10,NA,NA,4800,"In each orchad, visitors of four pairs of trees were observed. Sampling was further repeated four times.",NA
"Guiomar_Nates_Parra_Vaccinium_meridionale_Colombia_2013","SIERRA","observation","Apis_mellifera","species","honeybees",16,NA,NA,4800,"In each orchad, visitors of four pairs of trees were observed. Sampling was further repeated four times.",NA
"Guiomar_Nates_Parra_Vaccinium_meridionale_Colombia_2013","SIERRA","observation","Apis_mellifera","species","honeybees",13,NA,NA,4800,"In each orchad, visitors of four pairs of trees were observed. Sampling was further repeated four times.",NA
"Guiomar_Nates_Parra_Vaccinium_meridionale_Colombia_2013","SIERRA","observation","Apis_mellifera","species","honeybees",8,NA,NA,4800,"In each orchad, visitors of four pairs of trees were observed. Sampling was further repeated four times.",NA
"Guiomar_Nates_Parra_Vaccinium_meridionale_Colombia_2013","CASTELLANOS","observation","Apis_mellifera","species","honeybees",15,NA,NA,4800,"In each orchad, visitors of four pairs of trees were observed. Sampling was further repeated four times.",NA
"Guiomar_Nates_Parra_Vaccinium_meridionale_Colombia_2013","CASTELLANOS","observation","Apis_mellifera","species","honeybees",10,NA,NA,4800,"In each orchad, visitors of four pairs of trees were observed. Sampling was further repeated four times.",NA
"Guiomar_Nates_Parra_Vaccinium_meridionale_Colombia_2013","CASTELLANOS","observation","Apis_mellifera","species","honeybees",25,NA,NA,4800,"In each orchad, visitors of four pairs of trees were observed. Sampling was further repeated four times.",NA
"Guiomar_Nates_Parra_Vaccinium_meridionale_Colombia_2013","CASTELLANOS","observation","Apis_mellifera","species","honeybees",18,NA,NA,4800,"In each orchad, visitors of four pairs of trees were observed. Sampling was further repeated four times.",NA
"Guiomar_Nates_Parra_Vaccinium_meridionale_Colombia_2013","CASTELLANOS","observation","Apis_mellifera","species","honeybees",5,NA,NA,4800,"In each orchad, visitors of four pairs of trees were observed. Sampling was further repeated four times.",NA
"Guiomar_Nates_Parra_Vaccinium_meridionale_Colombia_2013","CASTELLANOS","observation","Apis_mellifera","species","honeybees",3,NA,NA,4800,"In each orchad, visitors of four pairs of trees were observed. Sampling was further repeated four times.",NA
"Guiomar_Nates_Parra_Vaccinium_meridionale_Colombia_2013","CASTELLANOS","observation","Apis_mellifera","species","honeybees",3,NA,NA,4800,"In each orchad, visitors of four pairs of trees were observed. Sampling was further repeated four times.",NA
"Guiomar_Nates_Parra_Vaccinium_meridionale_Colombia_2013","CASTELLANOS","observation","Apis_mellifera","species","honeybees",11,NA,NA,4800,"In each orchad, visitors of four pairs of trees were observed. Sampling was further repeated four times.",NA
"Guiomar_Nates_Parra_Vaccinium_meridionale_Colombia_2013","GONZALEZ","observation","Apis_mellifera","species","honeybees",42,NA,NA,4800,"In each orchad, visitors of four pairs of trees were observed. Sampling was further repeated four times.",NA
"Guiomar_Nates_Parra_Vaccinium_meridionale_Colombia_2013","GONZALEZ","observation","Apis_mellifera","species","honeybees",5,NA,NA,4800,"In each orchad, visitors of four pairs of trees were observed. Sampling was further repeated four times.",NA
"Guiomar_Nates_Parra_Vaccinium_meridionale_Colombia_2013","GONZALEZ","observation","Apis_mellifera","species","honeybees",7,NA,NA,4800,"In each orchad, visitors of four pairs of trees were observed. Sampling was further repeated four times.",NA
"Guiomar_Nates_Parra_Vaccinium_meridionale_Colombia_2013","GONZALEZ","observation","Apis_mellifera","species","honeybees",4,NA,NA,4800,"In each orchad, visitors of four pairs of trees were observed. Sampling was further repeated four times.",NA
"Guiomar_Nates_Parra_Vaccinium_meridionale_Colombia_2013","GONZALEZ","observation","Apis_mellifera","species","honeybees",12,NA,NA,4800,"In each orchad, visitors of four pairs of trees were observed. Sampling was further repeated four times.",NA
"Guiomar_Nates_Parra_Vaccinium_meridionale_Colombia_2013","GONZALEZ","observation","Apis_mellifera","species","honeybees",7,NA,NA,4800,"In each orchad, visitors of four pairs of trees were observed. Sampling was further repeated four times.",NA
"Guiomar_Nates_Parra_Vaccinium_meridionale_Colombia_2013","GONZALEZ","observation","Apis_mellifera","species","honeybees",3,NA,NA,4800,"In each orchad, visitors of four pairs of trees were observed. Sampling was further repeated four times.",NA
"Guiomar_Nates_Parra_Vaccinium_meridionale_Colombia_2013","GONZALEZ","observation","Apis_mellifera","species","honeybees",2,NA,NA,4800,"In each orchad, visitors of four pairs of trees were observed. Sampling was further repeated four times.",NA
"Guiomar_Nates_Parra_Vaccinium_meridionale_Colombia_2013","JIMENEZ","observation","Apis_mellifera","species","honeybees",16,NA,NA,4800,"In each orchad, visitors of four pairs of trees were observed. Sampling was further repeated four times.",NA
"Guiomar_Nates_Parra_Vaccinium_meridionale_Colombia_2013","JIMENEZ","observation","Apis_mellifera","species","honeybees",16,NA,NA,4800,"In each orchad, visitors of four pairs of trees were observed. Sampling was further repeated four times.",NA
"Guiomar_Nates_Parra_Vaccinium_meridionale_Colombia_2013","JIMENEZ","observation","Apis_mellifera","species","honeybees",12,NA,NA,4800,"In each orchad, visitors of four pairs of trees were observed. Sampling was further repeated four times.",NA
"Guiomar_Nates_Parra_Vaccinium_meridionale_Colombia_2013","JIMENEZ","observation","Apis_mellifera","species","honeybees",10,NA,NA,4800,"In each orchad, visitors of four pairs of trees were observed. Sampling was further repeated four times.",NA
"Guiomar_Nates_Parra_Vaccinium_meridionale_Colombia_2013","JIMENEZ","observation","Apis_mellifera","species","honeybees",8,NA,NA,4800,"In each orchad, visitors of four pairs of trees were observed. Sampling was further repeated four times.",NA
"Guiomar_Nates_Parra_Vaccinium_meridionale_Colombia_2013","JIMENEZ","observation","Apis_mellifera","species","honeybees",12,NA,NA,4800,"In each orchad, visitors of four pairs of trees were observed. Sampling was further repeated four times.",NA
"Guiomar_Nates_Parra_Vaccinium_meridionale_Colombia_2013","JIMENEZ","observation","Apis_mellifera","species","honeybees",15,NA,NA,4800,"In each orchad, visitors of four pairs of trees were observed. Sampling was further repeated four times.",NA
"Guiomar_Nates_Parra_Vaccinium_meridionale_Colombia_2013","JIMENEZ","observation","Apis_mellifera","species","honeybees",14,NA,NA,4800,"In each orchad, visitors of four pairs of trees were observed. Sampling was further repeated four times.",NA
"Guiomar_Nates_Parra_Vaccinium_meridionale_Colombia_2013","PENA","observation","Apis_mellifera","species","honeybees",6,NA,NA,4800,"In each orchad, visitors of four pairs of trees were observed. Sampling was further repeated four times.",NA
"Guiomar_Nates_Parra_Vaccinium_meridionale_Colombia_2013","PENA","observation","Apis_mellifera","species","honeybees",9,NA,NA,4800,"In each orchad, visitors of four pairs of trees were observed. Sampling was further repeated four times.",NA
"Guiomar_Nates_Parra_Vaccinium_meridionale_Colombia_2013","PENA","observation","Apis_mellifera","species","honeybees",5,NA,NA,4800,"In each orchad, visitors of four pairs of trees were observed. Sampling was further repeated four times.",NA
"Guiomar_Nates_Parra_Vaccinium_meridionale_Colombia_2013","PENA","observation","Apis_mellifera","species","honeybees",5,NA,NA,4800,"In each orchad, visitors of four pairs of trees were observed. Sampling was further repeated four times.",NA
"Guiomar_Nates_Parra_Vaccinium_meridionale_Colombia_2013","PENA","observation","Apis_mellifera","species","honeybees",5,NA,NA,4800,"In each orchad, visitors of four pairs of trees were observed. Sampling was further repeated four times.",NA
"Guiomar_Nates_Parra_Vaccinium_meridionale_Colombia_2013","PENA","observation","Apis_mellifera","species","honeybees",11,NA,NA,4800,"In each orchad, visitors of four pairs of trees were observed. Sampling was further repeated four times.",NA
"Guiomar_Nates_Parra_Vaccinium_meridionale_Colombia_2013","PENA","observation","Apis_mellifera","species","honeybees",5,NA,NA,4800,"In each orchad, visitors of four pairs of trees were observed. Sampling was further repeated four times.",NA
"Guiomar_Nates_Parra_Vaccinium_meridionale_Colombia_2013","PENA","observation","Apis_mellifera","species","honeybees",4,NA,NA,4800,"In each orchad, visitors of four pairs of trees were observed. Sampling was further repeated four times.",NA
"Guiomar_Nates_Parra_Vaccinium_meridionale_Colombia_2013","SIERRA","observation","Apis_mellifera","species","honeybees",7,NA,NA,4800,"In each orchad, visitors of four pairs of trees were observed. Sampling was further repeated four times.",NA
"Guiomar_Nates_Parra_Vaccinium_meridionale_Colombia_2013","SIERRA","observation","Apis_mellifera","species","honeybees",7,NA,NA,4800,"In each orchad, visitors of four pairs of trees were observed. Sampling was further repeated four times.",NA
"Guiomar_Nates_Parra_Vaccinium_meridionale_Colombia_2013","SIERRA","observation","Apis_mellifera","species","honeybees",14,NA,NA,4800,"In each orchad, visitors of four pairs of trees were observed. Sampling was further repeated four times.",NA
"Guiomar_Nates_Parra_Vaccinium_meridionale_Colombia_2013","SIERRA","observation","Apis_mellifera","species","honeybees",9,NA,NA,4800,"In each orchad, visitors of four pairs of trees were observed. Sampling was further repeated four times.",NA
"Guiomar_Nates_Parra_Vaccinium_meridionale_Colombia_2013","SIERRA","observation","Apis_mellifera","species","honeybees",14,NA,NA,4800,"In each orchad, visitors of four pairs of trees were observed. Sampling was further repeated four times.",NA
"Guiomar_Nates_Parra_Vaccinium_meridionale_Colombia_2013","SIERRA","observation","Apis_mellifera","species","honeybees",5,NA,NA,4800,"In each orchad, visitors of four pairs of trees were observed. Sampling was further repeated four times.",NA
"Guiomar_Nates_Parra_Vaccinium_meridionale_Colombia_2013","SIERRA","observation","Apis_mellifera","species","honeybees",11,NA,NA,4800,"In each orchad, visitors of four pairs of trees were observed. Sampling was further repeated four times.",NA
"Guiomar_Nates_Parra_Vaccinium_meridionale_Colombia_2013","SIERRA","observation","Apis_mellifera","species","honeybees",8,NA,NA,4800,"In each orchad, visitors of four pairs of trees were observed. Sampling was further repeated four times.",NA
"Guiomar_Nates_Parra_Vaccinium_meridionale_Colombia_2013","CASTELLANOS","observation","Apis_mellifera","species","honeybees",7,NA,NA,4800,"In each orchad, visitors of four pairs of trees were observed. Sampling was further repeated four times.",NA
"Guiomar_Nates_Parra_Vaccinium_meridionale_Colombia_2013","CASTELLANOS","observation","Apis_mellifera","species","honeybees",11,NA,NA,4800,"In each orchad, visitors of four pairs of trees were observed. Sampling was further repeated four times.",NA
"Guiomar_Nates_Parra_Vaccinium_meridionale_Colombia_2013","CASTELLANOS","observation","Apis_mellifera","species","honeybees",5,NA,NA,4800,"In each orchad, visitors of four pairs of trees were observed. Sampling was further repeated four times.",NA
"Guiomar_Nates_Parra_Vaccinium_meridionale_Colombia_2013","CASTELLANOS","observation","Apis_mellifera","species","honeybees",10,NA,NA,4800,"In each orchad, visitors of four pairs of trees were observed. Sampling was further repeated four times.",NA
"Guiomar_Nates_Parra_Vaccinium_meridionale_Colombia_2013","CASTELLANOS","observation","Apis_mellifera","species","honeybees",8,NA,NA,4800,"In each orchad, visitors of four pairs of trees were observed. Sampling was further repeated four times.",NA
"Guiomar_Nates_Parra_Vaccinium_meridionale_Colombia_2013","CASTELLANOS","observation","Apis_mellifera","species","honeybees",13,NA,NA,4800,"In each orchad, visitors of four pairs of trees were observed. Sampling was further repeated four times.",NA
"Guiomar_Nates_Parra_Vaccinium_meridionale_Colombia_2013","CASTELLANOS","observation","Apis_mellifera","species","honeybees",14,NA,NA,4800,"In each orchad, visitors of four pairs of trees were observed. Sampling was further repeated four times.",NA
"Guiomar_Nates_Parra_Vaccinium_meridionale_Colombia_2013","CASTELLANOS","observation","Apis_mellifera","species","honeybees",6,NA,NA,4800,"In each orchad, visitors of four pairs of trees were observed. Sampling was further repeated four times.",NA
"Guiomar_Nates_Parra_Vaccinium_meridionale_Colombia_2013","GONZALEZ","observation","Apis_mellifera","species","honeybees",6,NA,NA,4800,"In each orchad, visitors of four pairs of trees were observed. Sampling was further repeated four times.",NA
"Guiomar_Nates_Parra_Vaccinium_meridionale_Colombia_2013","GONZALEZ","observation","Apis_mellifera","species","honeybees",30,NA,NA,4800,"In each orchad, visitors of four pairs of trees were observed. Sampling was further repeated four times.",NA
"Guiomar_Nates_Parra_Vaccinium_meridionale_Colombia_2013","GONZALEZ","observation","Apis_mellifera","species","honeybees",9,NA,NA,4800,"In each orchad, visitors of four pairs of trees were observed. Sampling was further repeated four times.",NA
"Guiomar_Nates_Parra_Vaccinium_meridionale_Colombia_2013","GONZALEZ","observation","Apis_mellifera","species","honeybees",3,NA,NA,4800,"In each orchad, visitors of four pairs of trees were observed. Sampling was further repeated four times.",NA
"Guiomar_Nates_Parra_Vaccinium_meridionale_Colombia_2013","GONZALEZ","observation","Apis_mellifera","species","honeybees",5,NA,NA,4800,"In each orchad, visitors of four pairs of trees were observed. Sampling was further repeated four times.",NA
"Guiomar_Nates_Parra_Vaccinium_meridionale_Colombia_2013","GONZALEZ","observation","Apis_mellifera","species","honeybees",3,NA,NA,4800,"In each orchad, visitors of four pairs of trees were observed. Sampling was further repeated four times.",NA
"Guiomar_Nates_Parra_Vaccinium_meridionale_Colombia_2013","GONZALEZ","observation","Apis_mellifera","species","honeybees",4,NA,NA,4800,"In each orchad, visitors of four pairs of trees were observed. Sampling was further repeated four times.",NA
"Guiomar_Nates_Parra_Vaccinium_meridionale_Colombia_2013","GONZALEZ","observation","Apis_mellifera","species","honeybees",4,NA,NA,4800,"In each orchad, visitors of four pairs of trees were observed. Sampling was further repeated four times.",NA
"Guiomar_Nates_Parra_Vaccinium_meridionale_Colombia_2013","JIMENEZ","observation","Apis_mellifera","species","honeybees",6,NA,NA,4800,"In each orchad, visitors of four pairs of trees were observed. Sampling was further repeated four times.",NA
"Guiomar_Nates_Parra_Vaccinium_meridionale_Colombia_2013","JIMENEZ","observation","Apis_mellifera","species","honeybees",3,NA,NA,4800,"In each orchad, visitors of four pairs of trees were observed. Sampling was further repeated four times.",NA
"Guiomar_Nates_Parra_Vaccinium_meridionale_Colombia_2013","JIMENEZ","observation","Apis_mellifera","species","honeybees",11,NA,NA,4800,"In each orchad, visitors of four pairs of trees were observed. Sampling was further repeated four times.",NA
"Guiomar_Nates_Parra_Vaccinium_meridionale_Colombia_2013","JIMENEZ","observation","Apis_mellifera","species","honeybees",8,NA,NA,4800,"In each orchad, visitors of four pairs of trees were observed. Sampling was further repeated four times.",NA
"Guiomar_Nates_Parra_Vaccinium_meridionale_Colombia_2013","JIMENEZ","observation","Apis_mellifera","species","honeybees",4,NA,NA,4800,"In each orchad, visitors of four pairs of trees were observed. Sampling was further repeated four times.",NA
"Guiomar_Nates_Parra_Vaccinium_meridionale_Colombia_2013","JIMENEZ","observation","Apis_mellifera","species","honeybees",7,NA,NA,4800,"In each orchad, visitors of four pairs of trees were observed. Sampling was further repeated four times.",NA
"Guiomar_Nates_Parra_Vaccinium_meridionale_Colombia_2013","JIMENEZ","observation","Apis_mellifera","species","honeybees",8,NA,NA,4800,"In each orchad, visitors of four pairs of trees were observed. Sampling was further repeated four times.",NA
"Guiomar_Nates_Parra_Vaccinium_meridionale_Colombia_2013","JIMENEZ","observation","Apis_mellifera","species","honeybees",4,NA,NA,4800,"In each orchad, visitors of four pairs of trees were observed. Sampling was further repeated four times.",NA
"Guiomar_Nates_Parra_Vaccinium_meridionale_Colombia_2013","PENA","observation","Apis_mellifera","species","honeybees",6,NA,NA,4800,"In each orchad, visitors of four pairs of trees were observed. Sampling was further repeated four times.",NA
"Guiomar_Nates_Parra_Vaccinium_meridionale_Colombia_2013","PENA","observation","Apis_mellifera","species","honeybees",9,NA,NA,4800,"In each orchad, visitors of four pairs of trees were observed. Sampling was further repeated four times.",NA
"Guiomar_Nates_Parra_Vaccinium_meridionale_Colombia_2013","PENA","observation","Apis_mellifera","species","honeybees",8,NA,NA,4800,"In each orchad, visitors of four pairs of trees were observed. Sampling was further repeated four times.",NA
"Guiomar_Nates_Parra_Vaccinium_meridionale_Colombia_2013","PENA","observation","Apis_mellifera","species","honeybees",6,NA,NA,4800,"In each orchad, visitors of four pairs of trees were observed. Sampling was further repeated four times.",NA
"Guiomar_Nates_Parra_Vaccinium_meridionale_Colombia_2013","PENA","observation","Apis_mellifera","species","honeybees",3,NA,NA,4800,"In each orchad, visitors of four pairs of trees were observed. Sampling was further repeated four times.",NA
"Guiomar_Nates_Parra_Vaccinium_meridionale_Colombia_2013","PENA","observation","Apis_mellifera","species","honeybees",4,NA,NA,4800,"In each orchad, visitors of four pairs of trees were observed. Sampling was further repeated four times.",NA
"Guiomar_Nates_Parra_Vaccinium_meridionale_Colombia_2013","PENA","observation","Apis_mellifera","species","honeybees",2,NA,NA,4800,"In each orchad, visitors of four pairs of trees were observed. Sampling was further repeated four times.",NA
"Guiomar_Nates_Parra_Vaccinium_meridionale_Colombia_2013","PENA","observation","Apis_mellifera","species","honeybees",1,NA,NA,4800,"In each orchad, visitors of four pairs of trees were observed. Sampling was further repeated four times.",NA
"Guiomar_Nates_Parra_Vaccinium_meridionale_Colombia_2013","SIERRA","observation","Apis_mellifera","species","honeybees",10,NA,NA,4800,"In each orchad, visitors of four pairs of trees were observed. Sampling was further repeated four times.",NA
"Guiomar_Nates_Parra_Vaccinium_meridionale_Colombia_2013","SIERRA","observation","Apis_mellifera","species","honeybees",6,NA,NA,4800,"In each orchad, visitors of four pairs of trees were observed. Sampling was further repeated four times.",NA
"Guiomar_Nates_Parra_Vaccinium_meridionale_Colombia_2013","SIERRA","observation","Apis_mellifera","species","honeybees",8,NA,NA,4800,"In each orchad, visitors of four pairs of trees were observed. Sampling was further repeated four times.",NA
"Guiomar_Nates_Parra_Vaccinium_meridionale_Colombia_2013","SIERRA","observation","Apis_mellifera","species","honeybees",7,NA,NA,4800,"In each orchad, visitors of four pairs of trees were observed. Sampling was further repeated four times.",NA
"Guiomar_Nates_Parra_Vaccinium_meridionale_Colombia_2013","SIERRA","observation","Apis_mellifera","species","honeybees",7,NA,NA,4800,"In each orchad, visitors of four pairs of trees were observed. Sampling was further repeated four times.",NA
"Guiomar_Nates_Parra_Vaccinium_meridionale_Colombia_2013","SIERRA","observation","Apis_mellifera","species","honeybees",6,NA,NA,4800,"In each orchad, visitors of four pairs of trees were observed. Sampling was further repeated four times.",NA
"Guiomar_Nates_Parra_Vaccinium_meridionale_Colombia_2013","SIERRA","observation","Apis_mellifera","species","honeybees",7,NA,NA,4800,"In each orchad, visitors of four pairs of trees were observed. Sampling was further repeated four times.",NA
"Guiomar_Nates_Parra_Vaccinium_meridionale_Colombia_2013","SIERRA","observation","Apis_mellifera","species","honeybees",5,NA,NA,4800,"In each orchad, visitors of four pairs of trees were observed. Sampling was further repeated four times.",NA
"Guiomar_Nates_Parra_Vaccinium_meridionale_Colombia_2013","CASTELLANOS","observation","Bombus.hortulanus","species","bumblebees",2,NA,NA,4800,"In each orchad, visitors of four pairs of trees were observed. Sampling was further repeated four times.",NA
"Guiomar_Nates_Parra_Vaccinium_meridionale_Colombia_2013","CASTELLANOS","observation","Bombus.hortulanus","species","bumblebees",1,NA,NA,4800,"In each orchad, visitors of four pairs of trees were observed. Sampling was further repeated four times.",NA
"Guiomar_Nates_Parra_Vaccinium_meridionale_Colombia_2013","GONZALEZ","observation","Bombus.hortulanus","species","bumblebees",1,NA,NA,4800,"In each orchad, visitors of four pairs of trees were observed. Sampling was further repeated four times.",NA
"Guiomar_Nates_Parra_Vaccinium_meridionale_Colombia_2013","JIMENEZ","observation","Bombus.hortulanus","species","bumblebees",2,NA,NA,4800,"In each orchad, visitors of four pairs of trees were observed. Sampling was further repeated four times.",NA
"Guiomar_Nates_Parra_Vaccinium_meridionale_Colombia_2013","JIMENEZ","observation","Bombus.hortulanus","species","bumblebees",2,NA,NA,4800,"In each orchad, visitors of four pairs of trees were observed. Sampling was further repeated four times.",NA
"Guiomar_Nates_Parra_Vaccinium_meridionale_Colombia_2013","JIMENEZ","observation","Bombus.hortulanus","species","bumblebees",1,NA,NA,4800,"In each orchad, visitors of four pairs of trees were observed. Sampling was further repeated four times.",NA
"Guiomar_Nates_Parra_Vaccinium_meridionale_Colombia_2013","CASTELLANOS","observation","Bombus.hortulanus","species","bumblebees",1,NA,NA,4800,"In each orchad, visitors of four pairs of trees were observed. Sampling was further repeated four times.",NA
"Guiomar_Nates_Parra_Vaccinium_meridionale_Colombia_2013","GONZALEZ","observation","Bombus.hortulanus","species","bumblebees",1,NA,NA,4800,"In each orchad, visitors of four pairs of trees were observed. Sampling was further repeated four times.",NA
"Guiomar_Nates_Parra_Vaccinium_meridionale_Colombia_2013","JIMENEZ","observation","Bombus.hortulanus","species","bumblebees",1,NA,NA,4800,"In each orchad, visitors of four pairs of trees were observed. Sampling was further repeated four times.",NA
"Guiomar_Nates_Parra_Vaccinium_meridionale_Colombia_2013","JIMENEZ","observation","Bombus.hortulanus","species","bumblebees",1,NA,NA,4800,"In each orchad, visitors of four pairs of trees were observed. Sampling was further repeated four times.",NA
"Guiomar_Nates_Parra_Vaccinium_meridionale_Colombia_2013","JIMENEZ","observation","Bombus.hortulanus","species","bumblebees",1,NA,NA,4800,"In each orchad, visitors of four pairs of trees were observed. Sampling was further repeated four times.",NA
"Guiomar_Nates_Parra_Vaccinium_meridionale_Colombia_2013","GONZALEZ","observation","Bombus.hortulanus","species","bumblebees",1,NA,NA,4800,"In each orchad, visitors of four pairs of trees were observed. Sampling was further repeated four times.",NA
"Guiomar_Nates_Parra_Vaccinium_meridionale_Colombia_2013","JIMENEZ","observation","Bombus.hortulanus","species","bumblebees",2,NA,NA,4800,"In each orchad, visitors of four pairs of trees were observed. Sampling was further repeated four times.",NA
"Guiomar_Nates_Parra_Vaccinium_meridionale_Colombia_2013","JIMENEZ","observation","Bombus.hortulanus","species","bumblebees",7,NA,NA,4800,"In each orchad, visitors of four pairs of trees were observed. Sampling was further repeated four times.",NA
"Guiomar_Nates_Parra_Vaccinium_meridionale_Colombia_2013","JIMENEZ","observation","Bombus.hortulanus","species","bumblebees",2,NA,NA,4800,"In each orchad, visitors of four pairs of trees were observed. Sampling was further repeated four times.",NA
"Guiomar_Nates_Parra_Vaccinium_meridionale_Colombia_2013","PENA","observation","Bombus.hortulanus","species","bumblebees",1,NA,NA,4800,"In each orchad, visitors of four pairs of trees were observed. Sampling was further repeated four times.",NA
"Guiomar_Nates_Parra_Vaccinium_meridionale_Colombia_2013","PENA","observation","Bombus.hortulanus","species","bumblebees",1,NA,NA,4800,"In each orchad, visitors of four pairs of trees were observed. Sampling was further repeated four times.",NA
"Guiomar_Nates_Parra_Vaccinium_meridionale_Colombia_2013","PENA","observation","Bombus.hortulanus","species","bumblebees",2,NA,NA,4800,"In each orchad, visitors of four pairs of trees were observed. Sampling was further repeated four times.",NA
"Guiomar_Nates_Parra_Vaccinium_meridionale_Colombia_2013","SIERRA","observation","Bombus.hortulanus","species","bumblebees",1,NA,NA,4800,"In each orchad, visitors of four pairs of trees were observed. Sampling was further repeated four times.",NA
"Guiomar_Nates_Parra_Vaccinium_meridionale_Colombia_2013","SIERRA","observation","Bombus.hortulanus","species","bumblebees",3,NA,NA,4800,"In each orchad, visitors of four pairs of trees were observed. Sampling was further repeated four times.",NA
"Guiomar_Nates_Parra_Vaccinium_meridionale_Colombia_2013","CASTELLANOS","observation","Bombus.hortulanus","species","bumblebees",1,NA,NA,4800,"In each orchad, visitors of four pairs of trees were observed. Sampling was further repeated four times.",NA
"Guiomar_Nates_Parra_Vaccinium_meridionale_Colombia_2013","JIMENEZ","observation","Bombus.hortulanus","species","bumblebees",4,NA,NA,4800,"In each orchad, visitors of four pairs of trees were observed. Sampling was further repeated four times.",NA
"Guiomar_Nates_Parra_Vaccinium_meridionale_Colombia_2013","JIMENEZ","observation","Bombus.hortulanus","species","bumblebees",1,NA,NA,4800,"In each orchad, visitors of four pairs of trees were observed. Sampling was further repeated four times.",NA
"Guiomar_Nates_Parra_Vaccinium_meridionale_Colombia_2013","JIMENEZ","observation","Bombus.hortulanus","species","bumblebees",6,NA,NA,4800,"In each orchad, visitors of four pairs of trees were observed. Sampling was further repeated four times.",NA
"Guiomar_Nates_Parra_Vaccinium_meridionale_Colombia_2013","JIMENEZ","observation","Bombus.hortulanus","species","bumblebees",1,NA,NA,4800,"In each orchad, visitors of four pairs of trees were observed. Sampling was further repeated four times.",NA
"Guiomar_Nates_Parra_Vaccinium_meridionale_Colombia_2013","SIERRA","observation","Bombus.hortulanus","species","bumblebees",1,NA,NA,4800,"In each orchad, visitors of four pairs of trees were observed. Sampling was further repeated four times.",NA
"Guiomar_Nates_Parra_Vaccinium_meridionale_Colombia_2013","JIMENEZ","observation","Bombus.atratus","species","bumblebees",2,NA,NA,4800,"In each orchad, visitors of four pairs of trees were observed. Sampling was further repeated four times.",NA
"Guiomar_Nates_Parra_Vaccinium_meridionale_Colombia_2013","GONZALEZ","observation","Bombus.atratus","species","bumblebees",2,NA,NA,4800,"In each orchad, visitors of four pairs of trees were observed. Sampling was further repeated four times.",NA
"Guiomar_Nates_Parra_Vaccinium_meridionale_Colombia_2013","GONZALEZ","observation","Bombus.atratus","species","bumblebees",1,NA,NA,4800,"In each orchad, visitors of four pairs of trees were observed. Sampling was further repeated four times.",NA
"Guiomar_Nates_Parra_Vaccinium_meridionale_Colombia_2013","GONZALEZ","observation","Bombus.atratus","species","bumblebees",1,NA,NA,4800,"In each orchad, visitors of four pairs of trees were observed. Sampling was further repeated four times.",NA
"Guiomar_Nates_Parra_Vaccinium_meridionale_Colombia_2013","GONZALEZ","observation","Bombus.atratus","species","bumblebees",2,NA,NA,4800,"In each orchad, visitors of four pairs of trees were observed. Sampling was further repeated four times.",NA
"Guiomar_Nates_Parra_Vaccinium_meridionale_Colombia_2013","JIMENEZ","observation","Bombus.atratus","species","bumblebees",1,NA,NA,4800,"In each orchad, visitors of four pairs of trees were observed. Sampling was further repeated four times.",NA
"Guiomar_Nates_Parra_Vaccinium_meridionale_Colombia_2013","JIMENEZ","observation","Bombus.atratus","species","bumblebees",1,NA,NA,4800,"In each orchad, visitors of four pairs of trees were observed. Sampling was further repeated four times.",NA
"Guiomar_Nates_Parra_Vaccinium_meridionale_Colombia_2013","JIMENEZ","observation","Bombus.atratus","species","bumblebees",2,NA,NA,4800,"In each orchad, visitors of four pairs of trees were observed. Sampling was further repeated four times.",NA
"Guiomar_Nates_Parra_Vaccinium_meridionale_Colombia_2013","SIERRA","observation","Bombus.atratus","species","bumblebees",1,NA,NA,4800,"In each orchad, visitors of four pairs of trees were observed. Sampling was further repeated four times.",NA
"Guiomar_Nates_Parra_Vaccinium_meridionale_Colombia_2013","SIERRA","observation","Bombus.atratus","species","bumblebees",1,NA,NA,4800,"In each orchad, visitors of four pairs of trees were observed. Sampling was further repeated four times.",NA
"Guiomar_Nates_Parra_Vaccinium_meridionale_Colombia_2013","SIERRA","observation","Bombus.atratus","species","bumblebees",1,NA,NA,4800,"In each orchad, visitors of four pairs of trees were observed. Sampling was further repeated four times.",NA
"Guiomar_Nates_Parra_Vaccinium_meridionale_Colombia_2013","SIERRA","observation","Bombus.atratus","species","bumblebees",1,NA,NA,4800,"In each orchad, visitors of four pairs of trees were observed. Sampling was further repeated four times.",NA
"Guiomar_Nates_Parra_Vaccinium_meridionale_Colombia_2013","SIERRA","observation","Bombus.atratus","species","bumblebees",1,NA,NA,4800,"In each orchad, visitors of four pairs of trees were observed. Sampling was further repeated four times.",NA
"Guiomar_Nates_Parra_Vaccinium_meridionale_Colombia_2013","SIERRA","observation","Bombus.atratus","species","bumblebees",1,NA,NA,4800,"In each orchad, visitors of four pairs of trees were observed. Sampling was further repeated four times.",NA
"Guiomar_Nates_Parra_Vaccinium_meridionale_Colombia_2013","GONZALEZ","observation","Halictidae","family","other_wild_bees",10,NA,NA,4800,"In each orchad, visitors of four pairs of trees were observed. Sampling was further repeated four times.",NA
"Guiomar_Nates_Parra_Vaccinium_meridionale_Colombia_2013","GONZALEZ","observation","Halictidae","family","other_wild_bees",10,NA,NA,4800,"In each orchad, visitors of four pairs of trees were observed. Sampling was further repeated four times.",NA
"Guiomar_Nates_Parra_Vaccinium_meridionale_Colombia_2013","GONZALEZ","observation","Halictidae","family","other_wild_bees",1,NA,NA,4800,"In each orchad, visitors of four pairs of trees were observed. Sampling was further repeated four times.",NA
"Guiomar_Nates_Parra_Vaccinium_meridionale_Colombia_2013","GONZALEZ","observation","Halictidae","family","other_wild_bees",1,NA,NA,4800,"In each orchad, visitors of four pairs of trees were observed. Sampling was further repeated four times.",NA
"Guiomar_Nates_Parra_Vaccinium_meridionale_Colombia_2013","GONZALEZ","observation","Halictidae","family","other_wild_bees",6,NA,NA,4800,"In each orchad, visitors of four pairs of trees were observed. Sampling was further repeated four times.",NA
"Guiomar_Nates_Parra_Vaccinium_meridionale_Colombia_2013","GONZALEZ","observation","Halictidae","family","other_wild_bees",3,NA,NA,4800,"In each orchad, visitors of four pairs of trees were observed. Sampling was further repeated four times.",NA
"Guiomar_Nates_Parra_Vaccinium_meridionale_Colombia_2013","JIMENEZ","observation","Halictidae","family","other_wild_bees",1,NA,NA,4800,"In each orchad, visitors of four pairs of trees were observed. Sampling was further repeated four times.",NA
"Guiomar_Nates_Parra_Vaccinium_meridionale_Colombia_2013","JIMENEZ","observation","Halictidae","family","other_wild_bees",3,NA,NA,4800,"In each orchad, visitors of four pairs of trees were observed. Sampling was further repeated four times.",NA
"Guiomar_Nates_Parra_Vaccinium_meridionale_Colombia_2013","JIMENEZ","observation","Halictidae","family","other_wild_bees",1,NA,NA,4800,"In each orchad, visitors of four pairs of trees were observed. Sampling was further repeated four times.",NA
"Guiomar_Nates_Parra_Vaccinium_meridionale_Colombia_2013","JIMENEZ","observation","Thygater","genus","other_wild_bees",2,NA,NA,4800,"In each orchad, visitors of four pairs of trees were observed. Sampling was further repeated four times.",NA
"Guiomar_Nates_Parra_Vaccinium_meridionale_Colombia_2013","JIMENEZ","observation","Thygater","genus","other_wild_bees",1,NA,NA,4800,"In each orchad, visitors of four pairs of trees were observed. Sampling was further repeated four times.",NA
"Guiomar_Nates_Parra_Vaccinium_meridionale_Colombia_2013","JIMENEZ","observation","Diptera","order","other_flies",1,NA,NA,4800,"In each orchad, visitors of four pairs of trees were observed. Sampling was further repeated four times.",NA
"Guiomar_Nates_Parra_Vaccinium_meridionale_Colombia_2013","JIMENEZ","observation","Diptera","order","other_flies",1,NA,NA,4800,"In each orchad, visitors of four pairs of trees were observed. Sampling was further repeated four times.",NA
"Guiomar_Nates_Parra_Vaccinium_meridionale_Colombia_2013","SIERRA","observation","Diptera","order","other_flies",1,NA,NA,4800,"In each orchad, visitors of four pairs of trees were observed. Sampling was further repeated four times.",NA
"Guiomar_Nates_Parra_Vaccinium_meridionale_Colombia_2013","GONZALEZ","observation","Lepidoptera","order","lepidoptera",1,NA,NA,4800,"In each orchad, visitors of four pairs of trees were observed. Sampling was further repeated four times.",NA
"Guiomar_Nates_Parra_Vaccinium_meridionale_Colombia_2013","JIMENEZ","observation","Lepidoptera","order","lepidoptera",1,NA,NA,4800,"In each orchad, visitors of four pairs of trees were observed. Sampling was further repeated four times.",NA
"Guiomar_Nates_Parra_Vaccinium_meridionale_Colombia_2013","GONZALEZ","observation","Lepidoptera","order","lepidoptera",2,NA,NA,4800,"In each orchad, visitors of four pairs of trees were observed. Sampling was further repeated four times.",NA
"Guiomar_Nates_Parra_Vaccinium_meridionale_Colombia_2013","JIMENEZ","observation","Lepidoptera","order","lepidoptera",1,NA,NA,4800,"In each orchad, visitors of four pairs of trees were observed. Sampling was further repeated four times.",NA
"Guiomar_Nates_Parra_Vaccinium_meridionale_Colombia_2013","JIMENEZ","observation","Hymenoptera.(wasps)","suborder","non_bee_hymenoptera",5,NA,NA,4800,"In each orchad, visitors of four pairs of trees were observed. Sampling was further repeated four times.",NA
"Hajnalka_Szentgyorgyi_Fagopyrum_esculentum_Poland_2005","Biala","transects","Anthophora furcata","species","other_wild_bees",1,5400,270,NA,"In each site, two sets of pan traps were placed and a 150 m-long (4-m wide) standardized transect line was set (observer walked this line in 30 min). Four rounds of bee sampling using both methods were conducted during the main flowering period for each crop from May to August 2005",NA
"Hajnalka_Szentgyorgyi_Fagopyrum_esculentum_Poland_2005","Biala","transects","Apis mellifera","species","honeybees",8,5400,270,NA,"In each site, two sets of pan traps were placed and a 150 m-long (4-m wide) standardized transect line was set (observer walked this line in 30 min). Four rounds of bee sampling using both methods were conducted during the main flowering period for each crop from May to August 2005",NA
"Hajnalka_Szentgyorgyi_Fagopyrum_esculentum_Poland_2005","Biala","transects","Dasypoda altercator","species","other_wild_bees",1,5400,270,NA,"In each site, two sets of pan traps were placed and a 150 m-long (4-m wide) standardized transect line was set (observer walked this line in 30 min). Four rounds of bee sampling using both methods were conducted during the main flowering period for each crop from May to August 2005",NA
"Hajnalka_Szentgyorgyi_Fagopyrum_esculentum_Poland_2005","Biala","transects","Eristalis pertimax","species","syrphids",1,5400,270,NA,"In each site, two sets of pan traps were placed and a 150 m-long (4-m wide) standardized transect line was set (observer walked this line in 30 min). Four rounds of bee sampling using both methods were conducted during the main flowering period for each crop from May to August 2005",NA
"Hajnalka_Szentgyorgyi_Fagopyrum_esculentum_Poland_2005","Biala","transects","Lasioglossum zonulum","species","other_wild_bees",1,5400,270,NA,"In each site, two sets of pan traps were placed and a 150 m-long (4-m wide) standardized transect line was set (observer walked this line in 30 min). Four rounds of bee sampling using both methods were conducted during the main flowering period for each crop from May to August 2005",NA
"Hajnalka_Szentgyorgyi_Fagopyrum_esculentum_Poland_2005","Biala","transects","Sphaerophoria scripta","species","syrphids",1,5400,270,NA,"In each site, two sets of pan traps were placed and a 150 m-long (4-m wide) standardized transect line was set (observer walked this line in 30 min). Four rounds of bee sampling using both methods were conducted during the main flowering period for each crop from May to August 2005",NA
"Hajnalka_Szentgyorgyi_Fagopyrum_esculentum_Poland_2005","Biala","transects","Tabanus bovine","species","other_flies",1,5400,270,NA,"In each site, two sets of pan traps were placed and a 150 m-long (4-m wide) standardized transect line was set (observer walked this line in 30 min). Four rounds of bee sampling using both methods were conducted during the main flowering period for each crop from May to August 2005",NA
"Hajnalka_Szentgyorgyi_Fagopyrum_esculentum_Poland_2005","Biala","transects","Apis mellifera","species","honeybees",1,5400,270,NA,"In each site, two sets of pan traps were placed and a 150 m-long (4-m wide) standardized transect line was set (observer walked this line in 30 min). Four rounds of bee sampling using both methods were conducted during the main flowering period for each crop from May to August 2005",NA
"Hajnalka_Szentgyorgyi_Fagopyrum_esculentum_Poland_2005","Branew","transects","Apis mellifera","species","honeybees",67,15600,780,NA,"In each site, two sets of pan traps were placed and a 150 m-long (4-m wide) standardized transect line was set (observer walked this line in 30 min). Four rounds of bee sampling using both methods were conducted during the main flowering period for each crop from May to August 2005",NA
"Hajnalka_Szentgyorgyi_Fagopyrum_esculentum_Poland_2005","Branew","transects","Atylotus rusticus","species","other_flies",2,15600,780,NA,"In each site, two sets of pan traps were placed and a 150 m-long (4-m wide) standardized transect line was set (observer walked this line in 30 min). Four rounds of bee sampling using both methods were conducted during the main flowering period for each crop from May to August 2005",NA
"Hajnalka_Szentgyorgyi_Fagopyrum_esculentum_Poland_2005","Branew","transects","Chloromyia formosa","species","other_flies",3,15600,780,NA,"In each site, two sets of pan traps were placed and a 150 m-long (4-m wide) standardized transect line was set (observer walked this line in 30 min). Four rounds of bee sampling using both methods were conducted during the main flowering period for each crop from May to August 2005",NA
"Hajnalka_Szentgyorgyi_Fagopyrum_esculentum_Poland_2005","Branew","transects","Episyrphus balteatus","species","syrphids",1,15600,780,NA,"In each site, two sets of pan traps were placed and a 150 m-long (4-m wide) standardized transect line was set (observer walked this line in 30 min). Four rounds of bee sampling using both methods were conducted during the main flowering period for each crop from May to August 2005",NA
"Hajnalka_Szentgyorgyi_Fagopyrum_esculentum_Poland_2005","Branew","transects","Sphaerophoria scripta","species","syrphids",1,15600,780,NA,"In each site, two sets of pan traps were placed and a 150 m-long (4-m wide) standardized transect line was set (observer walked this line in 30 min). Four rounds of bee sampling using both methods were conducted during the main flowering period for each crop from May to August 2005",NA
"Hajnalka_Szentgyorgyi_Fagopyrum_esculentum_Poland_2005","Branew","transects","Apis mellifera","species","honeybees",512,15600,780,NA,"In each site, two sets of pan traps were placed and a 150 m-long (4-m wide) standardized transect line was set (observer walked this line in 30 min). Four rounds of bee sampling using both methods were conducted during the main flowering period for each crop from May to August 2005",NA
"Hajnalka_Szentgyorgyi_Fagopyrum_esculentum_Poland_2005","Branew","transects","Atylotus rusticus","species","other_flies",1,15600,780,NA,"In each site, two sets of pan traps were placed and a 150 m-long (4-m wide) standardized transect line was set (observer walked this line in 30 min). Four rounds of bee sampling using both methods were conducted during the main flowering period for each crop from May to August 2005",NA
"Hajnalka_Szentgyorgyi_Fagopyrum_esculentum_Poland_2005","Branew","transects","Episyrphus balteatus","species","syrphids",2,15600,780,NA,"In each site, two sets of pan traps were placed and a 150 m-long (4-m wide) standardized transect line was set (observer walked this line in 30 min). Four rounds of bee sampling using both methods were conducted during the main flowering period for each crop from May to August 2005",NA
"Hajnalka_Szentgyorgyi_Fagopyrum_esculentum_Poland_2005","Branew","transects","Eristalis tenax","species","syrphids",1,15600,780,NA,"In each site, two sets of pan traps were placed and a 150 m-long (4-m wide) standardized transect line was set (observer walked this line in 30 min). Four rounds of bee sampling using both methods were conducted during the main flowering period for each crop from May to August 2005",NA
"Hajnalka_Szentgyorgyi_Fagopyrum_esculentum_Poland_2005","Branew","transects","Melanostoma mellinum","species","syrphids",3,15600,780,NA,"In each site, two sets of pan traps were placed and a 150 m-long (4-m wide) standardized transect line was set (observer walked this line in 30 min). Four rounds of bee sampling using both methods were conducted during the main flowering period for each crop from May to August 2005",NA
"Hajnalka_Szentgyorgyi_Fagopyrum_esculentum_Poland_2005","Branew","transects","Sphaerophoria scripta","species","syrphids",1,15600,780,NA,"In each site, two sets of pan traps were placed and a 150 m-long (4-m wide) standardized transect line was set (observer walked this line in 30 min). Four rounds of bee sampling using both methods were conducted during the main flowering period for each crop from May to August 2005",NA
"Hajnalka_Szentgyorgyi_Fagopyrum_esculentum_Poland_2005","Branew","transects","Andrena coitana","species","other_wild_bees",1,15600,780,NA,"In each site, two sets of pan traps were placed and a 150 m-long (4-m wide) standardized transect line was set (observer walked this line in 30 min). Four rounds of bee sampling using both methods were conducted during the main flowering period for each crop from May to August 2005",NA
"Hajnalka_Szentgyorgyi_Fagopyrum_esculentum_Poland_2005","Branew","transects","Andrena dorsata","species","other_wild_bees",1,15600,780,NA,"In each site, two sets of pan traps were placed and a 150 m-long (4-m wide) standardized transect line was set (observer walked this line in 30 min). Four rounds of bee sampling using both methods were conducted during the main flowering period for each crop from May to August 2005",NA
"Hajnalka_Szentgyorgyi_Fagopyrum_esculentum_Poland_2005","Branew","transects","Apis mellifera","species","honeybees",151,15600,780,NA,"In each site, two sets of pan traps were placed and a 150 m-long (4-m wide) standardized transect line was set (observer walked this line in 30 min). Four rounds of bee sampling using both methods were conducted during the main flowering period for each crop from May to August 2005",NA
"Hajnalka_Szentgyorgyi_Fagopyrum_esculentum_Poland_2005","Branew","transects","Episyrphus balteatus","species","syrphids",5,15600,780,NA,"In each site, two sets of pan traps were placed and a 150 m-long (4-m wide) standardized transect line was set (observer walked this line in 30 min). Four rounds of bee sampling using both methods were conducted during the main flowering period for each crop from May to August 2005",NA
"Hajnalka_Szentgyorgyi_Fagopyrum_esculentum_Poland_2005","Branew","transects","Melanostoma mellinum","species","syrphids",3,15600,780,NA,"In each site, two sets of pan traps were placed and a 150 m-long (4-m wide) standardized transect line was set (observer walked this line in 30 min). Four rounds of bee sampling using both methods were conducted during the main flowering period for each crop from May to August 2005",NA
"Hajnalka_Szentgyorgyi_Fagopyrum_esculentum_Poland_2005","Branew","transects","Melanostoma scalare","species","syrphids",1,15600,780,NA,"In each site, two sets of pan traps were placed and a 150 m-long (4-m wide) standardized transect line was set (observer walked this line in 30 min). Four rounds of bee sampling using both methods were conducted during the main flowering period for each crop from May to August 2005",NA
"Hajnalka_Szentgyorgyi_Fagopyrum_esculentum_Poland_2005","Branew","transects","Specodes reticulates","species","other_wild_bees",1,15600,780,NA,"In each site, two sets of pan traps were placed and a 150 m-long (4-m wide) standardized transect line was set (observer walked this line in 30 min). Four rounds of bee sampling using both methods were conducted during the main flowering period for each crop from May to August 2005",NA
"Hajnalka_Szentgyorgyi_Fagopyrum_esculentum_Poland_2005","Branew","transects","Sphaerophoria scripta","species","syrphids",9,15600,780,NA,"In each site, two sets of pan traps were placed and a 150 m-long (4-m wide) standardized transect line was set (observer walked this line in 30 min). Four rounds of bee sampling using both methods were conducted during the main flowering period for each crop from May to August 2005",NA
"Hajnalka_Szentgyorgyi_Fagopyrum_esculentum_Poland_2005","Kapronie","transects","Apidae","family","other_wild_bees",1,19800,990,NA,"In each site, two sets of pan traps were placed and a 150 m-long (4-m wide) standardized transect line was set (observer walked this line in 30 min). Four rounds of bee sampling using both methods were conducted during the main flowering period for each crop from May to August 2005",NA
"Hajnalka_Szentgyorgyi_Fagopyrum_esculentum_Poland_2005","Kapronie","transects","Apis mellifera","species","honeybees",136,19800,990,NA,"In each site, two sets of pan traps were placed and a 150 m-long (4-m wide) standardized transect line was set (observer walked this line in 30 min). Four rounds of bee sampling using both methods were conducted during the main flowering period for each crop from May to August 2005",NA
"Hajnalka_Szentgyorgyi_Fagopyrum_esculentum_Poland_2005","Kapronie","transects","Bombus jonellus","species","bumblebees",1,19800,990,NA,"In each site, two sets of pan traps were placed and a 150 m-long (4-m wide) standardized transect line was set (observer walked this line in 30 min). Four rounds of bee sampling using both methods were conducted during the main flowering period for each crop from May to August 2005",NA
"Hajnalka_Szentgyorgyi_Fagopyrum_esculentum_Poland_2005","Kapronie","transects","Episyrphus balteatus","species","syrphids",1,19800,990,NA,"In each site, two sets of pan traps were placed and a 150 m-long (4-m wide) standardized transect line was set (observer walked this line in 30 min). Four rounds of bee sampling using both methods were conducted during the main flowering period for each crop from May to August 2005",NA
"Hajnalka_Szentgyorgyi_Fagopyrum_esculentum_Poland_2005","Kapronie","transects","Halictus rubicundus","species","other_wild_bees",1,19800,990,NA,"In each site, two sets of pan traps were placed and a 150 m-long (4-m wide) standardized transect line was set (observer walked this line in 30 min). Four rounds of bee sampling using both methods were conducted during the main flowering period for each crop from May to August 2005",NA
"Hajnalka_Szentgyorgyi_Fagopyrum_esculentum_Poland_2005","Kapronie","transects","Hylaeus brevicornis","species","other_wild_bees",1,19800,990,NA,"In each site, two sets of pan traps were placed and a 150 m-long (4-m wide) standardized transect line was set (observer walked this line in 30 min). Four rounds of bee sampling using both methods were conducted during the main flowering period for each crop from May to August 2005",NA
"Hajnalka_Szentgyorgyi_Fagopyrum_esculentum_Poland_2005","Kapronie","transects","Melanostoma mellinum","species","syrphids",1,19800,990,NA,"In each site, two sets of pan traps were placed and a 150 m-long (4-m wide) standardized transect line was set (observer walked this line in 30 min). Four rounds of bee sampling using both methods were conducted during the main flowering period for each crop from May to August 2005",NA
"Hajnalka_Szentgyorgyi_Fagopyrum_esculentum_Poland_2005","Kapronie","transects","Sphaerophoria scripta","species","syrphids",1,19800,990,NA,"In each site, two sets of pan traps were placed and a 150 m-long (4-m wide) standardized transect line was set (observer walked this line in 30 min). Four rounds of bee sampling using both methods were conducted during the main flowering period for each crop from May to August 2005",NA
"Hajnalka_Szentgyorgyi_Fagopyrum_esculentum_Poland_2005","Kapronie","transects","Syritta pipiens","species","syrphids",1,19800,990,NA,"In each site, two sets of pan traps were placed and a 150 m-long (4-m wide) standardized transect line was set (observer walked this line in 30 min). Four rounds of bee sampling using both methods were conducted during the main flowering period for each crop from May to August 2005",NA
"Hajnalka_Szentgyorgyi_Fagopyrum_esculentum_Poland_2005","Kapronie","transects","Syrphidae","family","syrphids",1,19800,990,NA,"In each site, two sets of pan traps were placed and a 150 m-long (4-m wide) standardized transect line was set (observer walked this line in 30 min). Four rounds of bee sampling using both methods were conducted during the main flowering period for each crop from May to August 2005",NA
"Hajnalka_Szentgyorgyi_Fagopyrum_esculentum_Poland_2005","Kapronie","transects","Systoechus ctenopterus","species","humbleflies",1,19800,990,NA,"In each site, two sets of pan traps were placed and a 150 m-long (4-m wide) standardized transect line was set (observer walked this line in 30 min). Four rounds of bee sampling using both methods were conducted during the main flowering period for each crop from May to August 2005",NA
"Hajnalka_Szentgyorgyi_Fagopyrum_esculentum_Poland_2005","Kapronie","transects","Andrena nigriceps","species","other_wild_bees",2,19800,990,NA,"In each site, two sets of pan traps were placed and a 150 m-long (4-m wide) standardized transect line was set (observer walked this line in 30 min). Four rounds of bee sampling using both methods were conducted during the main flowering period for each crop from May to August 2005",NA
"Hajnalka_Szentgyorgyi_Fagopyrum_esculentum_Poland_2005","Kapronie","transects","Apis mellifera","species","honeybees",345,19800,990,NA,"In each site, two sets of pan traps were placed and a 150 m-long (4-m wide) standardized transect line was set (observer walked this line in 30 min). Four rounds of bee sampling using both methods were conducted during the main flowering period for each crop from May to August 2005",NA
"Hajnalka_Szentgyorgyi_Fagopyrum_esculentum_Poland_2005","Kapronie","transects","Eristalis tenax","species","syrphids",2,19800,990,NA,"In each site, two sets of pan traps were placed and a 150 m-long (4-m wide) standardized transect line was set (observer walked this line in 30 min). Four rounds of bee sampling using both methods were conducted during the main flowering period for each crop from May to August 2005",NA
"Hajnalka_Szentgyorgyi_Fagopyrum_esculentum_Poland_2005","Kapronie","transects","Melanostoma mellinum","species","syrphids",1,19800,990,NA,"In each site, two sets of pan traps were placed and a 150 m-long (4-m wide) standardized transect line was set (observer walked this line in 30 min). Four rounds of bee sampling using both methods were conducted during the main flowering period for each crop from May to August 2005",NA
"Hajnalka_Szentgyorgyi_Fagopyrum_esculentum_Poland_2005","Kapronie","transects","Scathophaga stercoratia","species","other_flies",1,19800,990,NA,"In each site, two sets of pan traps were placed and a 150 m-long (4-m wide) standardized transect line was set (observer walked this line in 30 min). Four rounds of bee sampling using both methods were conducted during the main flowering period for each crop from May to August 2005",NA
"Hajnalka_Szentgyorgyi_Fagopyrum_esculentum_Poland_2005","Kapronie","transects","Syritta pipiens","species","syrphids",3,19800,990,NA,"In each site, two sets of pan traps were placed and a 150 m-long (4-m wide) standardized transect line was set (observer walked this line in 30 min). Four rounds of bee sampling using both methods were conducted during the main flowering period for each crop from May to August 2005",NA
"Hajnalka_Szentgyorgyi_Fagopyrum_esculentum_Poland_2005","Kapronie","transects","Syrphidae","family","syrphids",1,19800,990,NA,"In each site, two sets of pan traps were placed and a 150 m-long (4-m wide) standardized transect line was set (observer walked this line in 30 min). Four rounds of bee sampling using both methods were conducted during the main flowering period for each crop from May to August 2005",NA
"Hajnalka_Szentgyorgyi_Fagopyrum_esculentum_Poland_2005","Kapronie","transects","Systoechus ctenopterus","species","humbleflies",1,19800,990,NA,"In each site, two sets of pan traps were placed and a 150 m-long (4-m wide) standardized transect line was set (observer walked this line in 30 min). Four rounds of bee sampling using both methods were conducted during the main flowering period for each crop from May to August 2005",NA
"Hajnalka_Szentgyorgyi_Fagopyrum_esculentum_Poland_2005","Kapronie","transects","Andrena dorsata","species","other_wild_bees",1,19800,990,NA,"In each site, two sets of pan traps were placed and a 150 m-long (4-m wide) standardized transect line was set (observer walked this line in 30 min). Four rounds of bee sampling using both methods were conducted during the main flowering period for each crop from May to August 2005",NA
"Hajnalka_Szentgyorgyi_Fagopyrum_esculentum_Poland_2005","Kapronie","transects","Apis mellifera","species","honeybees",8,19800,990,NA,"In each site, two sets of pan traps were placed and a 150 m-long (4-m wide) standardized transect line was set (observer walked this line in 30 min). Four rounds of bee sampling using both methods were conducted during the main flowering period for each crop from May to August 2005",NA
"Hajnalka_Szentgyorgyi_Fagopyrum_esculentum_Poland_2005","Kapronie","transects","Specodes puncticeps","species","other_wild_bees",1,19800,990,NA,"In each site, two sets of pan traps were placed and a 150 m-long (4-m wide) standardized transect line was set (observer walked this line in 30 min). Four rounds of bee sampling using both methods were conducted during the main flowering period for each crop from May to August 2005",NA
"Hajnalka_Szentgyorgyi_Fagopyrum_esculentum_Poland_2005","Kapronie","transects","Sphaerophoria scripta","species","syrphids",1,19800,990,NA,"In each site, two sets of pan traps were placed and a 150 m-long (4-m wide) standardized transect line was set (observer walked this line in 30 min). Four rounds of bee sampling using both methods were conducted during the main flowering period for each crop from May to August 2005",NA
"Hajnalka_Szentgyorgyi_Fagopyrum_esculentum_Poland_2005","Kapronie","transects","Andrena nigriceps","species","other_wild_bees",1,19800,990,NA,"In each site, two sets of pan traps were placed and a 150 m-long (4-m wide) standardized transect line was set (observer walked this line in 30 min). Four rounds of bee sampling using both methods were conducted during the main flowering period for each crop from May to August 2005",NA
"Hajnalka_Szentgyorgyi_Fagopyrum_esculentum_Poland_2005","Kapronie","transects","Apis mellifera","species","honeybees",173,19800,990,NA,"In each site, two sets of pan traps were placed and a 150 m-long (4-m wide) standardized transect line was set (observer walked this line in 30 min). Four rounds of bee sampling using both methods were conducted during the main flowering period for each crop from May to August 2005",NA
"Hajnalka_Szentgyorgyi_Fagopyrum_esculentum_Poland_2005","Kapronie","transects","Episyrphus balteatus","species","syrphids",1,19800,990,NA,"In each site, two sets of pan traps were placed and a 150 m-long (4-m wide) standardized transect line was set (observer walked this line in 30 min). Four rounds of bee sampling using both methods were conducted during the main flowering period for each crop from May to August 2005",NA
"Hajnalka_Szentgyorgyi_Fagopyrum_esculentum_Poland_2005","Kapronie","transects","Gymnosoma sp.","genus","other_flies",3,19800,990,NA,"In each site, two sets of pan traps were placed and a 150 m-long (4-m wide) standardized transect line was set (observer walked this line in 30 min). Four rounds of bee sampling using both methods were conducted during the main flowering period for each crop from May to August 2005",NA
"Hajnalka_Szentgyorgyi_Fagopyrum_esculentum_Poland_2005","Kapronie","transects","Helophillus trivittatus","species","syrphids",2,19800,990,NA,"In each site, two sets of pan traps were placed and a 150 m-long (4-m wide) standardized transect line was set (observer walked this line in 30 min). Four rounds of bee sampling using both methods were conducted during the main flowering period for each crop from May to August 2005",NA
"Hajnalka_Szentgyorgyi_Fagopyrum_esculentum_Poland_2005","Kapronie","transects","Sphaerophoria scripta","species","syrphids",2,19800,990,NA,"In each site, two sets of pan traps were placed and a 150 m-long (4-m wide) standardized transect line was set (observer walked this line in 30 min). Four rounds of bee sampling using both methods were conducted during the main flowering period for each crop from May to August 2005",NA
"Hajnalka_Szentgyorgyi_Fagopyrum_esculentum_Poland_2005","Kapronie","transects","Syritta pipiens","species","syrphids",1,19800,990,NA,"In each site, two sets of pan traps were placed and a 150 m-long (4-m wide) standardized transect line was set (observer walked this line in 30 min). Four rounds of bee sampling using both methods were conducted during the main flowering period for each crop from May to August 2005",NA
"Hajnalka_Szentgyorgyi_Fagopyrum_esculentum_Poland_2005","Kapronie","transects","Syrphidae","family","syrphids",10,19800,990,NA,"In each site, two sets of pan traps were placed and a 150 m-long (4-m wide) standardized transect line was set (observer walked this line in 30 min). Four rounds of bee sampling using both methods were conducted during the main flowering period for each crop from May to August 2005",NA
"Hajnalka_Szentgyorgyi_Fagopyrum_esculentum_Poland_2005","Kolonia Branewka","transects","Apis mellifera","species","honeybees",77,15600,780,NA,"In each site, two sets of pan traps were placed and a 150 m-long (4-m wide) standardized transect line was set (observer walked this line in 30 min). Four rounds of bee sampling using both methods were conducted during the main flowering period for each crop from May to August 2005",NA
"Hajnalka_Szentgyorgyi_Fagopyrum_esculentum_Poland_2005","Kolonia Branewka","transects","Rhagio tringarius","species","other_flies",1,15600,780,NA,"In each site, two sets of pan traps were placed and a 150 m-long (4-m wide) standardized transect line was set (observer walked this line in 30 min). Four rounds of bee sampling using both methods were conducted during the main flowering period for each crop from May to August 2005",NA
"Hajnalka_Szentgyorgyi_Fagopyrum_esculentum_Poland_2005","Kolonia Branewka","transects","Syrphidae","family","syrphids",1,15600,780,NA,"In each site, two sets of pan traps were placed and a 150 m-long (4-m wide) standardized transect line was set (observer walked this line in 30 min). Four rounds of bee sampling using both methods were conducted during the main flowering period for each crop from May to August 2005",NA
"Hajnalka_Szentgyorgyi_Fagopyrum_esculentum_Poland_2005","Kolonia Branewka","transects","Apis mellifera","species","honeybees",194,15600,780,NA,"In each site, two sets of pan traps were placed and a 150 m-long (4-m wide) standardized transect line was set (observer walked this line in 30 min). Four rounds of bee sampling using both methods were conducted during the main flowering period for each crop from May to August 2005",NA
"Hajnalka_Szentgyorgyi_Fagopyrum_esculentum_Poland_2005","Kolonia Branewka","transects","Atylotus rusticus","species","other_flies",1,15600,780,NA,"In each site, two sets of pan traps were placed and a 150 m-long (4-m wide) standardized transect line was set (observer walked this line in 30 min). Four rounds of bee sampling using both methods were conducted during the main flowering period for each crop from May to August 2005",NA
"Hajnalka_Szentgyorgyi_Fagopyrum_esculentum_Poland_2005","Kolonia Branewka","transects","Episyrphus balteatus","species","syrphids",3,15600,780,NA,"In each site, two sets of pan traps were placed and a 150 m-long (4-m wide) standardized transect line was set (observer walked this line in 30 min). Four rounds of bee sampling using both methods were conducted during the main flowering period for each crop from May to August 2005",NA
"Hajnalka_Szentgyorgyi_Fagopyrum_esculentum_Poland_2005","Kolonia Branewka","transects","Melanostoma scalare","species","syrphids",1,15600,780,NA,"In each site, two sets of pan traps were placed and a 150 m-long (4-m wide) standardized transect line was set (observer walked this line in 30 min). Four rounds of bee sampling using both methods were conducted during the main flowering period for each crop from May to August 2005",NA
"Hajnalka_Szentgyorgyi_Fagopyrum_esculentum_Poland_2005","Kolonia Branewka","transects","Sphaerophoria scripta","species","syrphids",8,15600,780,NA,"In each site, two sets of pan traps were placed and a 150 m-long (4-m wide) standardized transect line was set (observer walked this line in 30 min). Four rounds of bee sampling using both methods were conducted during the main flowering period for each crop from May to August 2005",NA
"Hajnalka_Szentgyorgyi_Fagopyrum_esculentum_Poland_2005","Kolonia Branewka","transects","Syrphidae","family","syrphids",2,15600,780,NA,"In each site, two sets of pan traps were placed and a 150 m-long (4-m wide) standardized transect line was set (observer walked this line in 30 min). Four rounds of bee sampling using both methods were conducted during the main flowering period for each crop from May to August 2005",NA
"Hajnalka_Szentgyorgyi_Fagopyrum_esculentum_Poland_2005","Kolonia Branewka","transects","Andrena coitana","species","other_wild_bees",1,15600,780,NA,"In each site, two sets of pan traps were placed and a 150 m-long (4-m wide) standardized transect line was set (observer walked this line in 30 min). Four rounds of bee sampling using both methods were conducted during the main flowering period for each crop from May to August 2005",NA
"Hajnalka_Szentgyorgyi_Fagopyrum_esculentum_Poland_2005","Kolonia Branewka","transects","Apis mellifera","species","honeybees",33,15600,780,NA,"In each site, two sets of pan traps were placed and a 150 m-long (4-m wide) standardized transect line was set (observer walked this line in 30 min). Four rounds of bee sampling using both methods were conducted during the main flowering period for each crop from May to August 2005",NA
"Hajnalka_Szentgyorgyi_Fagopyrum_esculentum_Poland_2005","Kolonia Branewka","transects","Evylaeus villosulus","species","other_wild_bees",1,15600,780,NA,"In each site, two sets of pan traps were placed and a 150 m-long (4-m wide) standardized transect line was set (observer walked this line in 30 min). Four rounds of bee sampling using both methods were conducted during the main flowering period for each crop from May to August 2005",NA
"Hajnalka_Szentgyorgyi_Fagopyrum_esculentum_Poland_2005","Kolonia Branewka","transects","Melanostoma mellinum","species","syrphids",1,15600,780,NA,"In each site, two sets of pan traps were placed and a 150 m-long (4-m wide) standardized transect line was set (observer walked this line in 30 min). Four rounds of bee sampling using both methods were conducted during the main flowering period for each crop from May to August 2005",NA
"Hajnalka_Szentgyorgyi_Fagopyrum_esculentum_Poland_2005","Kolonia Branewka","transects","Melanostoma scalare","species","syrphids",1,15600,780,NA,"In each site, two sets of pan traps were placed and a 150 m-long (4-m wide) standardized transect line was set (observer walked this line in 30 min). Four rounds of bee sampling using both methods were conducted during the main flowering period for each crop from May to August 2005",NA
"Hajnalka_Szentgyorgyi_Fagopyrum_esculentum_Poland_2005","Kolonia Branewka","transects","Sphaerophoria scripta","species","syrphids",6,15600,780,NA,"In each site, two sets of pan traps were placed and a 150 m-long (4-m wide) standardized transect line was set (observer walked this line in 30 min). Four rounds of bee sampling using both methods were conducted during the main flowering period for each crop from May to August 2005",NA
"Hajnalka_Szentgyorgyi_Fagopyrum_esculentum_Poland_2005","Kolonia Branewka","transects","Syritta pipiens","species","syrphids",1,15600,780,NA,"In each site, two sets of pan traps were placed and a 150 m-long (4-m wide) standardized transect line was set (observer walked this line in 30 min). Four rounds of bee sampling using both methods were conducted during the main flowering period for each crop from May to August 2005",NA
"Hajnalka_Szentgyorgyi_Fagopyrum_esculentum_Poland_2005","Kolonia Branewka","transects","Syrphidae","family","syrphids",3,15600,780,NA,"In each site, two sets of pan traps were placed and a 150 m-long (4-m wide) standardized transect line was set (observer walked this line in 30 min). Four rounds of bee sampling using both methods were conducted during the main flowering period for each crop from May to August 2005",NA
"Hajnalka_Szentgyorgyi_Fagopyrum_esculentum_Poland_2005","Majdan","transects","Apis mellifera","species","honeybees",25,13200,660,NA,"In each site, two sets of pan traps were placed and a 150 m-long (4-m wide) standardized transect line was set (observer walked this line in 30 min). Four rounds of bee sampling using both methods were conducted during the main flowering period for each crop from May to August 2005",NA
"Hajnalka_Szentgyorgyi_Fagopyrum_esculentum_Poland_2005","Majdan","transects","Eristalis arbustorum","species","syrphids",1,13200,660,NA,"In each site, two sets of pan traps were placed and a 150 m-long (4-m wide) standardized transect line was set (observer walked this line in 30 min). Four rounds of bee sampling using both methods were conducted during the main flowering period for each crop from May to August 2005",NA
"Hajnalka_Szentgyorgyi_Fagopyrum_esculentum_Poland_2005","Majdan","transects","Melanostoma mellinum","species","syrphids",1,13200,660,NA,"In each site, two sets of pan traps were placed and a 150 m-long (4-m wide) standardized transect line was set (observer walked this line in 30 min). Four rounds of bee sampling using both methods were conducted during the main flowering period for each crop from May to August 2005",NA
"Hajnalka_Szentgyorgyi_Fagopyrum_esculentum_Poland_2005","Majdan","transects","Syritta pipiens","species","syrphids",1,13200,660,NA,"In each site, two sets of pan traps were placed and a 150 m-long (4-m wide) standardized transect line was set (observer walked this line in 30 min). Four rounds of bee sampling using both methods were conducted during the main flowering period for each crop from May to August 2005",NA
"Hajnalka_Szentgyorgyi_Fagopyrum_esculentum_Poland_2005","Majdan","transects","Apidae","family","other_wild_bees",1,13200,660,NA,"In each site, two sets of pan traps were placed and a 150 m-long (4-m wide) standardized transect line was set (observer walked this line in 30 min). Four rounds of bee sampling using both methods were conducted during the main flowering period for each crop from May to August 2005",NA
"Hajnalka_Szentgyorgyi_Fagopyrum_esculentum_Poland_2005","Majdan","transects","Apis mellifera","species","honeybees",35,13200,660,NA,"In each site, two sets of pan traps were placed and a 150 m-long (4-m wide) standardized transect line was set (observer walked this line in 30 min). Four rounds of bee sampling using both methods were conducted during the main flowering period for each crop from May to August 2005",NA
"Hajnalka_Szentgyorgyi_Fagopyrum_esculentum_Poland_2005","Majdan","transects","Episyrphus balteatus","species","syrphids",1,13200,660,NA,"In each site, two sets of pan traps were placed and a 150 m-long (4-m wide) standardized transect line was set (observer walked this line in 30 min). Four rounds of bee sampling using both methods were conducted during the main flowering period for each crop from May to August 2005",NA
"Hajnalka_Szentgyorgyi_Fagopyrum_esculentum_Poland_2005","Majdan","transects","Syrphidae","family","syrphids",35,13200,660,NA,"In each site, two sets of pan traps were placed and a 150 m-long (4-m wide) standardized transect line was set (observer walked this line in 30 min). Four rounds of bee sampling using both methods were conducted during the main flowering period for each crop from May to August 2005",NA
"Hajnalka_Szentgyorgyi_Fagopyrum_esculentum_Poland_2005","Majdan","transects","Volucella pelluceris","species","syrphids",1,13200,660,NA,"In each site, two sets of pan traps were placed and a 150 m-long (4-m wide) standardized transect line was set (observer walked this line in 30 min). Four rounds of bee sampling using both methods were conducted during the main flowering period for each crop from May to August 2005",NA
"Hajnalka_Szentgyorgyi_Fagopyrum_esculentum_Poland_2005","Majdan","transects","Apis mellifera","species","honeybees",1,13200,660,NA,"In each site, two sets of pan traps were placed and a 150 m-long (4-m wide) standardized transect line was set (observer walked this line in 30 min). Four rounds of bee sampling using both methods were conducted during the main flowering period for each crop from May to August 2005",NA
"Hajnalka_Szentgyorgyi_Fagopyrum_esculentum_Poland_2005","Majdan","transects","Episyrphus balteatus","species","syrphids",1,13200,660,NA,"In each site, two sets of pan traps were placed and a 150 m-long (4-m wide) standardized transect line was set (observer walked this line in 30 min). Four rounds of bee sampling using both methods were conducted during the main flowering period for each crop from May to August 2005",NA
"Hajnalka_Szentgyorgyi_Fagopyrum_esculentum_Poland_2005","Majdan","transects","Evylaeus sextrigatus","species","other_wild_bees",1,13200,660,NA,"In each site, two sets of pan traps were placed and a 150 m-long (4-m wide) standardized transect line was set (observer walked this line in 30 min). Four rounds of bee sampling using both methods were conducted during the main flowering period for each crop from May to August 2005",NA
"Hajnalka_Szentgyorgyi_Fagopyrum_esculentum_Poland_2005","Majdan","transects","Haemmatopota plurails","species","other_flies",1,13200,660,NA,"In each site, two sets of pan traps were placed and a 150 m-long (4-m wide) standardized transect line was set (observer walked this line in 30 min). Four rounds of bee sampling using both methods were conducted during the main flowering period for each crop from May to August 2005",NA
"Hajnalka_Szentgyorgyi_Fagopyrum_esculentum_Poland_2005","Majdan","transects","Melanostoma mellinum","species","syrphids",1,13200,660,NA,"In each site, two sets of pan traps were placed and a 150 m-long (4-m wide) standardized transect line was set (observer walked this line in 30 min). Four rounds of bee sampling using both methods were conducted during the main flowering period for each crop from May to August 2005",NA
"Hajnalka_Szentgyorgyi_Fagopyrum_esculentum_Poland_2005","Majdan","transects","Sphaerophoria scripta","species","syrphids",1,13200,660,NA,"In each site, two sets of pan traps were placed and a 150 m-long (4-m wide) standardized transect line was set (observer walked this line in 30 min). Four rounds of bee sampling using both methods were conducted during the main flowering period for each crop from May to August 2005",NA
"Hajnalka_Szentgyorgyi_Fagopyrum_esculentum_Poland_2005","Majdan","transects","Syritta pipiens","species","syrphids",1,13200,660,NA,"In each site, two sets of pan traps were placed and a 150 m-long (4-m wide) standardized transect line was set (observer walked this line in 30 min). Four rounds of bee sampling using both methods were conducted during the main flowering period for each crop from May to August 2005",NA
"Hajnalka_Szentgyorgyi_Fagopyrum_esculentum_Poland_2005","Majdan","transects","Apis mellifera","species","honeybees",4,13200,660,NA,"In each site, two sets of pan traps were placed and a 150 m-long (4-m wide) standardized transect line was set (observer walked this line in 30 min). Four rounds of bee sampling using both methods were conducted during the main flowering period for each crop from May to August 2005",NA
"Hajnalka_Szentgyorgyi_Fagopyrum_esculentum_Poland_2005","Wolka Ratajska","transects","Apis mellifera","species","honeybees",14,9600,480,NA,"In each site, two sets of pan traps were placed and a 150 m-long (4-m wide) standardized transect line was set (observer walked this line in 30 min). Four rounds of bee sampling using both methods were conducted during the main flowering period for each crop from May to August 2005",NA
"Hajnalka_Szentgyorgyi_Fagopyrum_esculentum_Poland_2005","Wolka Ratajska","transects","Eristalis tenax","species","syrphids",1,9600,480,NA,"In each site, two sets of pan traps were placed and a 150 m-long (4-m wide) standardized transect line was set (observer walked this line in 30 min). Four rounds of bee sampling using both methods were conducted during the main flowering period for each crop from May to August 2005",NA
"Hajnalka_Szentgyorgyi_Fagopyrum_esculentum_Poland_2005","Wolka Ratajska","transects","Syrphidae","family","syrphids",1,9600,480,NA,"In each site, two sets of pan traps were placed and a 150 m-long (4-m wide) standardized transect line was set (observer walked this line in 30 min). Four rounds of bee sampling using both methods were conducted during the main flowering period for each crop from May to August 2005",NA
"Hajnalka_Szentgyorgyi_Fagopyrum_esculentum_Poland_2005","Wolka Ratajska","transects","Andrena dorsata","species","other_wild_bees",2,9600,480,NA,"In each site, two sets of pan traps were placed and a 150 m-long (4-m wide) standardized transect line was set (observer walked this line in 30 min). Four rounds of bee sampling using both methods were conducted during the main flowering period for each crop from May to August 2005",NA
"Hajnalka_Szentgyorgyi_Fagopyrum_esculentum_Poland_2005","Wolka Ratajska","transects","Apis mellifera","species","honeybees",126,9600,480,NA,"In each site, two sets of pan traps were placed and a 150 m-long (4-m wide) standardized transect line was set (observer walked this line in 30 min). Four rounds of bee sampling using both methods were conducted during the main flowering period for each crop from May to August 2005",NA
"Hajnalka_Szentgyorgyi_Fagopyrum_esculentum_Poland_2005","Wolka Ratajska","transects","Episyrphus balteatus","species","syrphids",5,9600,480,NA,"In each site, two sets of pan traps were placed and a 150 m-long (4-m wide) standardized transect line was set (observer walked this line in 30 min). Four rounds of bee sampling using both methods were conducted during the main flowering period for each crop from May to August 2005",NA
"Hajnalka_Szentgyorgyi_Fagopyrum_esculentum_Poland_2005","Wolka Ratajska","transects","Sphaerophoria scripta","species","syrphids",5,9600,480,NA,"In each site, two sets of pan traps were placed and a 150 m-long (4-m wide) standardized transect line was set (observer walked this line in 30 min). Four rounds of bee sampling using both methods were conducted during the main flowering period for each crop from May to August 2005",NA
"Hajnalka_Szentgyorgyi_Fagopyrum_esculentum_Poland_2005","Wolka Ratajska","transects","Talmerus atricapillus","species","other_flies",1,9600,480,NA,"In each site, two sets of pan traps were placed and a 150 m-long (4-m wide) standardized transect line was set (observer walked this line in 30 min). Four rounds of bee sampling using both methods were conducted during the main flowering period for each crop from May to August 2005",NA
"Hajnalka_Szentgyorgyi_Fagopyrum_esculentum_Poland_2005","Biala","pantraps","Episyrphus balteatus","species","syrphids",1,NA,2866,NA,"In each site, two sets of pan traps were placed and a 150 m-long (4-m wide) standardized transect line was set (observer walked this line in 30 min). Four rounds of bee sampling using both methods were conducted during the main flowering period for each crop from May to August 2005",NA
"Hajnalka_Szentgyorgyi_Fagopyrum_esculentum_Poland_2005","Biala","pantraps","Eristalis tenax","species","syrphids",1,NA,2866,NA,"In each site, two sets of pan traps were placed and a 150 m-long (4-m wide) standardized transect line was set (observer walked this line in 30 min). Four rounds of bee sampling using both methods were conducted during the main flowering period for each crop from May to August 2005",NA
"Hajnalka_Szentgyorgyi_Fagopyrum_esculentum_Poland_2005","Biala","pantraps","Apis mellifera","species","honeybees",1,NA,2866,NA,"In each site, two sets of pan traps were placed and a 150 m-long (4-m wide) standardized transect line was set (observer walked this line in 30 min). Four rounds of bee sampling using both methods were conducted during the main flowering period for each crop from May to August 2005",NA
"Hajnalka_Szentgyorgyi_Fagopyrum_esculentum_Poland_2005","Biala","pantraps","Bombus lucorum","species","bumblebees",1,NA,2866,NA,"In each site, two sets of pan traps were placed and a 150 m-long (4-m wide) standardized transect line was set (observer walked this line in 30 min). Four rounds of bee sampling using both methods were conducted during the main flowering period for each crop from May to August 2005",NA
"Hajnalka_Szentgyorgyi_Fagopyrum_esculentum_Poland_2005","Biala","pantraps","Dasypoda altercator","species","other_wild_bees",2,NA,2866,NA,"In each site, two sets of pan traps were placed and a 150 m-long (4-m wide) standardized transect line was set (observer walked this line in 30 min). Four rounds of bee sampling using both methods were conducted during the main flowering period for each crop from May to August 2005",NA
"Hajnalka_Szentgyorgyi_Fagopyrum_esculentum_Poland_2005","Biala","pantraps","Apis mellifera","species","honeybees",3,NA,2866,NA,"In each site, two sets of pan traps were placed and a 150 m-long (4-m wide) standardized transect line was set (observer walked this line in 30 min). Four rounds of bee sampling using both methods were conducted during the main flowering period for each crop from May to August 2005",NA
"Hajnalka_Szentgyorgyi_Fagopyrum_esculentum_Poland_2005","Biala","pantraps","Bombus lucorum","species","bumblebees",1,NA,2866,NA,"In each site, two sets of pan traps were placed and a 150 m-long (4-m wide) standardized transect line was set (observer walked this line in 30 min). Four rounds of bee sampling using both methods were conducted during the main flowering period for each crop from May to August 2005",NA
"Hajnalka_Szentgyorgyi_Fagopyrum_esculentum_Poland_2005","Biala","pantraps","Apis mellifera","species","honeybees",7,NA,2866,NA,"In each site, two sets of pan traps were placed and a 150 m-long (4-m wide) standardized transect line was set (observer walked this line in 30 min). Four rounds of bee sampling using both methods were conducted during the main flowering period for each crop from May to August 2005",NA
"Hajnalka_Szentgyorgyi_Fagopyrum_esculentum_Poland_2005","Biala","pantraps","Apis mellifera","species","honeybees",1,NA,2866,NA,"In each site, two sets of pan traps were placed and a 150 m-long (4-m wide) standardized transect line was set (observer walked this line in 30 min). Four rounds of bee sampling using both methods were conducted during the main flowering period for each crop from May to August 2005",NA
"Hajnalka_Szentgyorgyi_Fagopyrum_esculentum_Poland_2005","Biala","pantraps","Bombus pratorum","species","bumblebees",1,NA,2866,NA,"In each site, two sets of pan traps were placed and a 150 m-long (4-m wide) standardized transect line was set (observer walked this line in 30 min). Four rounds of bee sampling using both methods were conducted during the main flowering period for each crop from May to August 2005",NA
"Hajnalka_Szentgyorgyi_Fagopyrum_esculentum_Poland_2005","Biala","pantraps","Dasypoda altercator","species","other_wild_bees",3,NA,2866,NA,"In each site, two sets of pan traps were placed and a 150 m-long (4-m wide) standardized transect line was set (observer walked this line in 30 min). Four rounds of bee sampling using both methods were conducted during the main flowering period for each crop from May to August 2005",NA
"Hajnalka_Szentgyorgyi_Fagopyrum_esculentum_Poland_2005","Biala","pantraps","Psithyrus silvestris","species","bumblebees",1,NA,2866,NA,"In each site, two sets of pan traps were placed and a 150 m-long (4-m wide) standardized transect line was set (observer walked this line in 30 min). Four rounds of bee sampling using both methods were conducted during the main flowering period for each crop from May to August 2005",NA
"Hajnalka_Szentgyorgyi_Fagopyrum_esculentum_Poland_2005","Biala","pantraps","Apis mellifera","species","honeybees",2,NA,2866,NA,"In each site, two sets of pan traps were placed and a 150 m-long (4-m wide) standardized transect line was set (observer walked this line in 30 min). Four rounds of bee sampling using both methods were conducted during the main flowering period for each crop from May to August 2005",NA
"Hajnalka_Szentgyorgyi_Fagopyrum_esculentum_Poland_2005","Biala","pantraps","Bombus lucorum","species","bumblebees",1,NA,2866,NA,"In each site, two sets of pan traps were placed and a 150 m-long (4-m wide) standardized transect line was set (observer walked this line in 30 min). Four rounds of bee sampling using both methods were conducted during the main flowering period for each crop from May to August 2005",NA
"Hajnalka_Szentgyorgyi_Fagopyrum_esculentum_Poland_2005","Biala","pantraps","Dasypoda altercator","species","other_wild_bees",2,NA,2866,NA,"In each site, two sets of pan traps were placed and a 150 m-long (4-m wide) standardized transect line was set (observer walked this line in 30 min). Four rounds of bee sampling using both methods were conducted during the main flowering period for each crop from May to August 2005",NA
"Hajnalka_Szentgyorgyi_Fagopyrum_esculentum_Poland_2005","Branew","pantraps","Apidae","family","other_wild_bees",1,NA,5736,NA,"In each site, two sets of pan traps were placed and a 150 m-long (4-m wide) standardized transect line was set (observer walked this line in 30 min). Four rounds of bee sampling using both methods were conducted during the main flowering period for each crop from May to August 2005",NA
"Hajnalka_Szentgyorgyi_Fagopyrum_esculentum_Poland_2005","Branew","pantraps","Apis mellifera","species","honeybees",1,NA,5736,NA,"In each site, two sets of pan traps were placed and a 150 m-long (4-m wide) standardized transect line was set (observer walked this line in 30 min). Four rounds of bee sampling using both methods were conducted during the main flowering period for each crop from May to August 2005",NA
"Hajnalka_Szentgyorgyi_Fagopyrum_esculentum_Poland_2005","Branew","pantraps","Apis mellifera","species","honeybees",1,NA,5736,NA,"In each site, two sets of pan traps were placed and a 150 m-long (4-m wide) standardized transect line was set (observer walked this line in 30 min). Four rounds of bee sampling using both methods were conducted during the main flowering period for each crop from May to August 2005",NA
"Hajnalka_Szentgyorgyi_Fagopyrum_esculentum_Poland_2005","Branew","pantraps","Apis mellifera","species","honeybees",1,NA,5736,NA,"In each site, two sets of pan traps were placed and a 150 m-long (4-m wide) standardized transect line was set (observer walked this line in 30 min). Four rounds of bee sampling using both methods were conducted during the main flowering period for each crop from May to August 2005",NA
"Hajnalka_Szentgyorgyi_Fagopyrum_esculentum_Poland_2005","Branew","pantraps","Episyrphus balteatus","species","syrphids",1,NA,5736,NA,"In each site, two sets of pan traps were placed and a 150 m-long (4-m wide) standardized transect line was set (observer walked this line in 30 min). Four rounds of bee sampling using both methods were conducted during the main flowering period for each crop from May to August 2005",NA
"Hajnalka_Szentgyorgyi_Fagopyrum_esculentum_Poland_2005","Branew","pantraps","Melanostoma mellinum","species","syrphids",1,NA,5736,NA,"In each site, two sets of pan traps were placed and a 150 m-long (4-m wide) standardized transect line was set (observer walked this line in 30 min). Four rounds of bee sampling using both methods were conducted during the main flowering period for each crop from May to August 2005",NA
"Hajnalka_Szentgyorgyi_Fagopyrum_esculentum_Poland_2005","Branew","pantraps","Melanostoma mellinum","species","syrphids",2,NA,5736,NA,"In each site, two sets of pan traps were placed and a 150 m-long (4-m wide) standardized transect line was set (observer walked this line in 30 min). Four rounds of bee sampling using both methods were conducted during the main flowering period for each crop from May to August 2005",NA
"Hajnalka_Szentgyorgyi_Fagopyrum_esculentum_Poland_2005","Branew","pantraps","Melanostoma mellinum","species","syrphids",1,NA,5736,NA,"In each site, two sets of pan traps were placed and a 150 m-long (4-m wide) standardized transect line was set (observer walked this line in 30 min). Four rounds of bee sampling using both methods were conducted during the main flowering period for each crop from May to August 2005",NA
"Hajnalka_Szentgyorgyi_Fagopyrum_esculentum_Poland_2005","Branew","pantraps","Psythirus bohemicus","species","bumblebees",1,NA,5736,NA,"In each site, two sets of pan traps were placed and a 150 m-long (4-m wide) standardized transect line was set (observer walked this line in 30 min). Four rounds of bee sampling using both methods were conducted during the main flowering period for each crop from May to August 2005",NA
"Hajnalka_Szentgyorgyi_Fagopyrum_esculentum_Poland_2005","Branew","pantraps","Apidae","family","other_wild_bees",1,NA,5736,NA,"In each site, two sets of pan traps were placed and a 150 m-long (4-m wide) standardized transect line was set (observer walked this line in 30 min). Four rounds of bee sampling using both methods were conducted during the main flowering period for each crop from May to August 2005",NA
"Hajnalka_Szentgyorgyi_Fagopyrum_esculentum_Poland_2005","Branew","pantraps","Apis mellifera","species","honeybees",1,NA,5736,NA,"In each site, two sets of pan traps were placed and a 150 m-long (4-m wide) standardized transect line was set (observer walked this line in 30 min). Four rounds of bee sampling using both methods were conducted during the main flowering period for each crop from May to August 2005",NA
"Hajnalka_Szentgyorgyi_Fagopyrum_esculentum_Poland_2005","Branew","pantraps","Apis mellifera","species","honeybees",6,NA,5736,NA,"In each site, two sets of pan traps were placed and a 150 m-long (4-m wide) standardized transect line was set (observer walked this line in 30 min). Four rounds of bee sampling using both methods were conducted during the main flowering period for each crop from May to August 2005",NA
"Hajnalka_Szentgyorgyi_Fagopyrum_esculentum_Poland_2005","Branew","pantraps","Apis mellifera","species","honeybees",1,NA,5736,NA,"In each site, two sets of pan traps were placed and a 150 m-long (4-m wide) standardized transect line was set (observer walked this line in 30 min). Four rounds of bee sampling using both methods were conducted during the main flowering period for each crop from May to August 2005",NA
"Hajnalka_Szentgyorgyi_Fagopyrum_esculentum_Poland_2005","Branew","pantraps","Apis mellifera","species","honeybees",8,NA,5736,NA,"In each site, two sets of pan traps were placed and a 150 m-long (4-m wide) standardized transect line was set (observer walked this line in 30 min). Four rounds of bee sampling using both methods were conducted during the main flowering period for each crop from May to August 2005",NA
"Hajnalka_Szentgyorgyi_Fagopyrum_esculentum_Poland_2005","Branew","pantraps","Apis mellifera","species","honeybees",1,NA,5736,NA,"In each site, two sets of pan traps were placed and a 150 m-long (4-m wide) standardized transect line was set (observer walked this line in 30 min). Four rounds of bee sampling using both methods were conducted during the main flowering period for each crop from May to August 2005",NA
"Hajnalka_Szentgyorgyi_Fagopyrum_esculentum_Poland_2005","Branew","pantraps","Atylotus rusticus","species","other_flies",1,NA,5736,NA,"In each site, two sets of pan traps were placed and a 150 m-long (4-m wide) standardized transect line was set (observer walked this line in 30 min). Four rounds of bee sampling using both methods were conducted during the main flowering period for each crop from May to August 2005",NA
"Hajnalka_Szentgyorgyi_Fagopyrum_esculentum_Poland_2005","Branew","pantraps","Episyrphus balteatus","species","syrphids",1,NA,5736,NA,"In each site, two sets of pan traps were placed and a 150 m-long (4-m wide) standardized transect line was set (observer walked this line in 30 min). Four rounds of bee sampling using both methods were conducted during the main flowering period for each crop from May to August 2005",NA
"Hajnalka_Szentgyorgyi_Fagopyrum_esculentum_Poland_2005","Branew","pantraps","Syrphidae","family","syrphids",1,NA,5736,NA,"In each site, two sets of pan traps were placed and a 150 m-long (4-m wide) standardized transect line was set (observer walked this line in 30 min). Four rounds of bee sampling using both methods were conducted during the main flowering period for each crop from May to August 2005",NA
"Hajnalka_Szentgyorgyi_Fagopyrum_esculentum_Poland_2005","Branew","pantraps","Apis mellifera","species","honeybees",7,NA,5736,NA,"In each site, two sets of pan traps were placed and a 150 m-long (4-m wide) standardized transect line was set (observer walked this line in 30 min). Four rounds of bee sampling using both methods were conducted during the main flowering period for each crop from May to August 2005",NA
"Hajnalka_Szentgyorgyi_Fagopyrum_esculentum_Poland_2005","Branew","pantraps","Apis mellifera","species","honeybees",4,NA,5736,NA,"In each site, two sets of pan traps were placed and a 150 m-long (4-m wide) standardized transect line was set (observer walked this line in 30 min). Four rounds of bee sampling using both methods were conducted during the main flowering period for each crop from May to August 2005",NA
"Hajnalka_Szentgyorgyi_Fagopyrum_esculentum_Poland_2005","Branew","pantraps","Apis mellifera","species","honeybees",1,NA,5736,NA,"In each site, two sets of pan traps were placed and a 150 m-long (4-m wide) standardized transect line was set (observer walked this line in 30 min). Four rounds of bee sampling using both methods were conducted during the main flowering period for each crop from May to August 2005",NA
"Hajnalka_Szentgyorgyi_Fagopyrum_esculentum_Poland_2005","Branew","pantraps","Bombus pratorum","species","bumblebees",1,NA,5736,NA,"In each site, two sets of pan traps were placed and a 150 m-long (4-m wide) standardized transect line was set (observer walked this line in 30 min). Four rounds of bee sampling using both methods were conducted during the main flowering period for each crop from May to August 2005",NA
"Hajnalka_Szentgyorgyi_Fagopyrum_esculentum_Poland_2005","Branew","pantraps","Dasypoda altercator","species","other_wild_bees",1,NA,5736,NA,"In each site, two sets of pan traps were placed and a 150 m-long (4-m wide) standardized transect line was set (observer walked this line in 30 min). Four rounds of bee sampling using both methods were conducted during the main flowering period for each crop from May to August 2005",NA
"Hajnalka_Szentgyorgyi_Fagopyrum_esculentum_Poland_2005","Branew","pantraps","Apis mellifera","species","honeybees",4,NA,5736,NA,"In each site, two sets of pan traps were placed and a 150 m-long (4-m wide) standardized transect line was set (observer walked this line in 30 min). Four rounds of bee sampling using both methods were conducted during the main flowering period for each crop from May to August 2005",NA
"Hajnalka_Szentgyorgyi_Fagopyrum_esculentum_Poland_2005","Branew","pantraps","Apis mellifera","species","honeybees",1,NA,5736,NA,"In each site, two sets of pan traps were placed and a 150 m-long (4-m wide) standardized transect line was set (observer walked this line in 30 min). Four rounds of bee sampling using both methods were conducted during the main flowering period for each crop from May to August 2005",NA
"Hajnalka_Szentgyorgyi_Fagopyrum_esculentum_Poland_2005","Branew","pantraps","Atylotus rusticus","species","other_flies",1,NA,5736,NA,"In each site, two sets of pan traps were placed and a 150 m-long (4-m wide) standardized transect line was set (observer walked this line in 30 min). Four rounds of bee sampling using both methods were conducted during the main flowering period for each crop from May to August 2005",NA
"Hajnalka_Szentgyorgyi_Fagopyrum_esculentum_Poland_2005","Branew","pantraps","Atylotus rusticus","species","other_flies",1,NA,5736,NA,"In each site, two sets of pan traps were placed and a 150 m-long (4-m wide) standardized transect line was set (observer walked this line in 30 min). Four rounds of bee sampling using both methods were conducted during the main flowering period for each crop from May to August 2005",NA
"Hajnalka_Szentgyorgyi_Fagopyrum_esculentum_Poland_2005","Branew","pantraps","Dasypoda altercator","species","other_wild_bees",1,NA,5736,NA,"In each site, two sets of pan traps were placed and a 150 m-long (4-m wide) standardized transect line was set (observer walked this line in 30 min). Four rounds of bee sampling using both methods were conducted during the main flowering period for each crop from May to August 2005",NA
"Hajnalka_Szentgyorgyi_Fagopyrum_esculentum_Poland_2005","Branew","pantraps","Andrena coitana","species","other_wild_bees",2,NA,5736,NA,"In each site, two sets of pan traps were placed and a 150 m-long (4-m wide) standardized transect line was set (observer walked this line in 30 min). Four rounds of bee sampling using both methods were conducted during the main flowering period for each crop from May to August 2005",NA
"Hajnalka_Szentgyorgyi_Fagopyrum_esculentum_Poland_2005","Branew","pantraps","Apis mellifera","species","honeybees",6,NA,5736,NA,"In each site, two sets of pan traps were placed and a 150 m-long (4-m wide) standardized transect line was set (observer walked this line in 30 min). Four rounds of bee sampling using both methods were conducted during the main flowering period for each crop from May to August 2005",NA
"Hajnalka_Szentgyorgyi_Fagopyrum_esculentum_Poland_2005","Branew","pantraps","Sphaerophoria scripta","species","syrphids",1,NA,5736,NA,"In each site, two sets of pan traps were placed and a 150 m-long (4-m wide) standardized transect line was set (observer walked this line in 30 min). Four rounds of bee sampling using both methods were conducted during the main flowering period for each crop from May to August 2005",NA
"Hajnalka_Szentgyorgyi_Fagopyrum_esculentum_Poland_2005","Kapronie","pantraps","Seladonia tumulorum","species","other_wild_bees",1,NA,5746,NA,"In each site, two sets of pan traps were placed and a 150 m-long (4-m wide) standardized transect line was set (observer walked this line in 30 min). Four rounds of bee sampling using both methods were conducted during the main flowering period for each crop from May to August 2005",NA
"Hajnalka_Szentgyorgyi_Fagopyrum_esculentum_Poland_2005","Kapronie","pantraps","Bombus pascuorum","species","bumblebees",1,NA,5746,NA,"In each site, two sets of pan traps were placed and a 150 m-long (4-m wide) standardized transect line was set (observer walked this line in 30 min). Four rounds of bee sampling using both methods were conducted during the main flowering period for each crop from May to August 2005",NA
"Hajnalka_Szentgyorgyi_Fagopyrum_esculentum_Poland_2005","Kapronie","pantraps","Chrysotus sp.","genus","other_flies",1,NA,5746,NA,"In each site, two sets of pan traps were placed and a 150 m-long (4-m wide) standardized transect line was set (observer walked this line in 30 min). Four rounds of bee sampling using both methods were conducted during the main flowering period for each crop from May to August 2005",NA
"Hajnalka_Szentgyorgyi_Fagopyrum_esculentum_Poland_2005","Kapronie","pantraps","Dasypoda altercator","species","other_wild_bees",1,NA,5746,NA,"In each site, two sets of pan traps were placed and a 150 m-long (4-m wide) standardized transect line was set (observer walked this line in 30 min). Four rounds of bee sampling using both methods were conducted during the main flowering period for each crop from May to August 2005",NA
"Hajnalka_Szentgyorgyi_Fagopyrum_esculentum_Poland_2005","Kapronie","pantraps","Hylaeus communis","species","other_wild_bees",1,NA,5746,NA,"In each site, two sets of pan traps were placed and a 150 m-long (4-m wide) standardized transect line was set (observer walked this line in 30 min). Four rounds of bee sampling using both methods were conducted during the main flowering period for each crop from May to August 2005",NA
"Hajnalka_Szentgyorgyi_Fagopyrum_esculentum_Poland_2005","Kapronie","pantraps","Apidae","family","other_wild_bees",1,NA,5746,NA,"In each site, two sets of pan traps were placed and a 150 m-long (4-m wide) standardized transect line was set (observer walked this line in 30 min). Four rounds of bee sampling using both methods were conducted during the main flowering period for each crop from May to August 2005",NA
"Hajnalka_Szentgyorgyi_Fagopyrum_esculentum_Poland_2005","Kapronie","pantraps","Apis mellifera","species","honeybees",1,NA,5746,NA,"In each site, two sets of pan traps were placed and a 150 m-long (4-m wide) standardized transect line was set (observer walked this line in 30 min). Four rounds of bee sampling using both methods were conducted during the main flowering period for each crop from May to August 2005",NA
"Hajnalka_Szentgyorgyi_Fagopyrum_esculentum_Poland_2005","Kapronie","pantraps","Myiatropa florea","species","syrphids",1,NA,5746,NA,"In each site, two sets of pan traps were placed and a 150 m-long (4-m wide) standardized transect line was set (observer walked this line in 30 min). Four rounds of bee sampling using both methods were conducted during the main flowering period for each crop from May to August 2005",NA
"Hajnalka_Szentgyorgyi_Fagopyrum_esculentum_Poland_2005","Kapronie","pantraps","Lasioglossum leucozonium","species","other_wild_bees",1,NA,5746,NA,"In each site, two sets of pan traps were placed and a 150 m-long (4-m wide) standardized transect line was set (observer walked this line in 30 min). Four rounds of bee sampling using both methods were conducted during the main flowering period for each crop from May to August 2005",NA
"Hajnalka_Szentgyorgyi_Fagopyrum_esculentum_Poland_2005","Kapronie","pantraps","Apis mellifera","species","honeybees",1,NA,5746,NA,"In each site, two sets of pan traps were placed and a 150 m-long (4-m wide) standardized transect line was set (observer walked this line in 30 min). Four rounds of bee sampling using both methods were conducted during the main flowering period for each crop from May to August 2005",NA
"Hajnalka_Szentgyorgyi_Fagopyrum_esculentum_Poland_2005","Kapronie","pantraps","Bombus pascuorum","species","bumblebees",3,NA,5746,NA,"In each site, two sets of pan traps were placed and a 150 m-long (4-m wide) standardized transect line was set (observer walked this line in 30 min). Four rounds of bee sampling using both methods were conducted during the main flowering period for each crop from May to August 2005",NA
"Hajnalka_Szentgyorgyi_Fagopyrum_esculentum_Poland_2005","Kapronie","pantraps","Dasypoda altercator","species","other_wild_bees",2,NA,5746,NA,"In each site, two sets of pan traps were placed and a 150 m-long (4-m wide) standardized transect line was set (observer walked this line in 30 min). Four rounds of bee sampling using both methods were conducted during the main flowering period for each crop from May to August 2005",NA
"Hajnalka_Szentgyorgyi_Fagopyrum_esculentum_Poland_2005","Kapronie","pantraps","Dasypoda altercator","species","other_wild_bees",3,NA,5746,NA,"In each site, two sets of pan traps were placed and a 150 m-long (4-m wide) standardized transect line was set (observer walked this line in 30 min). Four rounds of bee sampling using both methods were conducted during the main flowering period for each crop from May to August 2005",NA
"Hajnalka_Szentgyorgyi_Fagopyrum_esculentum_Poland_2005","Kapronie","pantraps","Bombus lucorum","species","bumblebees",1,NA,5746,NA,"In each site, two sets of pan traps were placed and a 150 m-long (4-m wide) standardized transect line was set (observer walked this line in 30 min). Four rounds of bee sampling using both methods were conducted during the main flowering period for each crop from May to August 2005",NA
"Hajnalka_Szentgyorgyi_Fagopyrum_esculentum_Poland_2005","Kapronie","pantraps","Bombus lucorum","species","bumblebees",1,NA,5746,NA,"In each site, two sets of pan traps were placed and a 150 m-long (4-m wide) standardized transect line was set (observer walked this line in 30 min). Four rounds of bee sampling using both methods were conducted during the main flowering period for each crop from May to August 2005",NA
"Hajnalka_Szentgyorgyi_Fagopyrum_esculentum_Poland_2005","Kapronie","pantraps","Dasypoda altercator","species","other_wild_bees",1,NA,5746,NA,"In each site, two sets of pan traps were placed and a 150 m-long (4-m wide) standardized transect line was set (observer walked this line in 30 min). Four rounds of bee sampling using both methods were conducted during the main flowering period for each crop from May to August 2005",NA
"Hajnalka_Szentgyorgyi_Fagopyrum_esculentum_Poland_2005","Kapronie","pantraps","Apidae","family","other_wild_bees",1,NA,5746,NA,"In each site, two sets of pan traps were placed and a 150 m-long (4-m wide) standardized transect line was set (observer walked this line in 30 min). Four rounds of bee sampling using both methods were conducted during the main flowering period for each crop from May to August 2005",NA
"Hajnalka_Szentgyorgyi_Fagopyrum_esculentum_Poland_2005","Kapronie","pantraps","Apis mellifera","species","honeybees",1,NA,5746,NA,"In each site, two sets of pan traps were placed and a 150 m-long (4-m wide) standardized transect line was set (observer walked this line in 30 min). Four rounds of bee sampling using both methods were conducted during the main flowering period for each crop from May to August 2005",NA
"Hajnalka_Szentgyorgyi_Fagopyrum_esculentum_Poland_2005","Kapronie","pantraps","Apidae","family","other_wild_bees",1,NA,5746,NA,"In each site, two sets of pan traps were placed and a 150 m-long (4-m wide) standardized transect line was set (observer walked this line in 30 min). Four rounds of bee sampling using both methods were conducted during the main flowering period for each crop from May to August 2005",NA
"Hajnalka_Szentgyorgyi_Fagopyrum_esculentum_Poland_2005","Kapronie","pantraps","Dasypoda altercator","species","other_wild_bees",1,NA,5746,NA,"In each site, two sets of pan traps were placed and a 150 m-long (4-m wide) standardized transect line was set (observer walked this line in 30 min). Four rounds of bee sampling using both methods were conducted during the main flowering period for each crop from May to August 2005",NA
"Hajnalka_Szentgyorgyi_Fagopyrum_esculentum_Poland_2005","Kolonia Branewka","pantraps","Apis mellifera","species","honeybees",1,NA,4306,NA,"In each site, two sets of pan traps were placed and a 150 m-long (4-m wide) standardized transect line was set (observer walked this line in 30 min). Four rounds of bee sampling using both methods were conducted during the main flowering period for each crop from May to August 2005",NA
"Hajnalka_Szentgyorgyi_Fagopyrum_esculentum_Poland_2005","Kolonia Branewka","pantraps","Apis mellifera","species","honeybees",3,NA,4306,NA,"In each site, two sets of pan traps were placed and a 150 m-long (4-m wide) standardized transect line was set (observer walked this line in 30 min). Four rounds of bee sampling using both methods were conducted during the main flowering period for each crop from May to August 2005",NA
"Hajnalka_Szentgyorgyi_Fagopyrum_esculentum_Poland_2005","Kolonia Branewka","pantraps","Bombus hortorum","species","bumblebees",1,NA,4306,NA,"In each site, two sets of pan traps were placed and a 150 m-long (4-m wide) standardized transect line was set (observer walked this line in 30 min). Four rounds of bee sampling using both methods were conducted during the main flowering period for each crop from May to August 2005",NA
"Hajnalka_Szentgyorgyi_Fagopyrum_esculentum_Poland_2005","Kolonia Branewka","pantraps","Apidae","family","other_wild_bees",1,NA,4306,NA,"In each site, two sets of pan traps were placed and a 150 m-long (4-m wide) standardized transect line was set (observer walked this line in 30 min). Four rounds of bee sampling using both methods were conducted during the main flowering period for each crop from May to August 2005",NA
"Hajnalka_Szentgyorgyi_Fagopyrum_esculentum_Poland_2005","Kolonia Branewka","pantraps","Apis mellifera","species","honeybees",10,NA,4306,NA,"In each site, two sets of pan traps were placed and a 150 m-long (4-m wide) standardized transect line was set (observer walked this line in 30 min). Four rounds of bee sampling using both methods were conducted during the main flowering period for each crop from May to August 2005",NA
"Hajnalka_Szentgyorgyi_Fagopyrum_esculentum_Poland_2005","Kolonia Branewka","pantraps","Apis mellifera","species","honeybees",2,NA,4306,NA,"In each site, two sets of pan traps were placed and a 150 m-long (4-m wide) standardized transect line was set (observer walked this line in 30 min). Four rounds of bee sampling using both methods were conducted during the main flowering period for each crop from May to August 2005",NA
"Hajnalka_Szentgyorgyi_Fagopyrum_esculentum_Poland_2005","Kolonia Branewka","pantraps","Atylotus rusticus","species","other_flies",1,NA,4306,NA,"In each site, two sets of pan traps were placed and a 150 m-long (4-m wide) standardized transect line was set (observer walked this line in 30 min). Four rounds of bee sampling using both methods were conducted during the main flowering period for each crop from May to August 2005",NA
"Hajnalka_Szentgyorgyi_Fagopyrum_esculentum_Poland_2005","Kolonia Branewka","pantraps","Syrphidae","family","syrphids",2,NA,4306,NA,"In each site, two sets of pan traps were placed and a 150 m-long (4-m wide) standardized transect line was set (observer walked this line in 30 min). Four rounds of bee sampling using both methods were conducted during the main flowering period for each crop from May to August 2005",NA
"Hajnalka_Szentgyorgyi_Fagopyrum_esculentum_Poland_2005","Kolonia Branewka","pantraps","Apis mellifera","species","honeybees",2,NA,4306,NA,"In each site, two sets of pan traps were placed and a 150 m-long (4-m wide) standardized transect line was set (observer walked this line in 30 min). Four rounds of bee sampling using both methods were conducted during the main flowering period for each crop from May to August 2005",NA
"Hajnalka_Szentgyorgyi_Fagopyrum_esculentum_Poland_2005","Kolonia Branewka","pantraps","Apis mellifera","species","honeybees",5,NA,4306,NA,"In each site, two sets of pan traps were placed and a 150 m-long (4-m wide) standardized transect line was set (observer walked this line in 30 min). Four rounds of bee sampling using both methods were conducted during the main flowering period for each crop from May to August 2005",NA
"Hajnalka_Szentgyorgyi_Fagopyrum_esculentum_Poland_2005","Kolonia Branewka","pantraps","Atylotus rusticus","species","other_flies",1,NA,4306,NA,"In each site, two sets of pan traps were placed and a 150 m-long (4-m wide) standardized transect line was set (observer walked this line in 30 min). Four rounds of bee sampling using both methods were conducted during the main flowering period for each crop from May to August 2005",NA
"Hajnalka_Szentgyorgyi_Fagopyrum_esculentum_Poland_2005","Kolonia Branewka","pantraps","Bombus hortorum","species","bumblebees",1,NA,4306,NA,"In each site, two sets of pan traps were placed and a 150 m-long (4-m wide) standardized transect line was set (observer walked this line in 30 min). Four rounds of bee sampling using both methods were conducted during the main flowering period for each crop from May to August 2005",NA
"Hajnalka_Szentgyorgyi_Fagopyrum_esculentum_Poland_2005","Kolonia Branewka","pantraps","Sphaerophoria scripta","species","syrphids",1,NA,4306,NA,"In each site, two sets of pan traps were placed and a 150 m-long (4-m wide) standardized transect line was set (observer walked this line in 30 min). Four rounds of bee sampling using both methods were conducted during the main flowering period for each crop from May to August 2005",NA
"Hajnalka_Szentgyorgyi_Fagopyrum_esculentum_Poland_2005","Kolonia Branewka","pantraps","Sphaerophoria scripta","species","syrphids",1,NA,4306,NA,"In each site, two sets of pan traps were placed and a 150 m-long (4-m wide) standardized transect line was set (observer walked this line in 30 min). Four rounds of bee sampling using both methods were conducted during the main flowering period for each crop from May to August 2005",NA
"Hajnalka_Szentgyorgyi_Fagopyrum_esculentum_Poland_2005","Kolonia Branewka","pantraps","Apis mellifera","species","honeybees",5,NA,4306,NA,"In each site, two sets of pan traps were placed and a 150 m-long (4-m wide) standardized transect line was set (observer walked this line in 30 min). Four rounds of bee sampling using both methods were conducted during the main flowering period for each crop from May to August 2005",NA
"Hajnalka_Szentgyorgyi_Fagopyrum_esculentum_Poland_2005","Kolonia Branewka","pantraps","Atylotus rusticus","species","other_flies",2,NA,4306,NA,"In each site, two sets of pan traps were placed and a 150 m-long (4-m wide) standardized transect line was set (observer walked this line in 30 min). Four rounds of bee sampling using both methods were conducted during the main flowering period for each crop from May to August 2005",NA
"Hajnalka_Szentgyorgyi_Fagopyrum_esculentum_Poland_2005","Kolonia Branewka","pantraps","Dasypoda altercator","species","other_wild_bees",3,NA,4306,NA,"In each site, two sets of pan traps were placed and a 150 m-long (4-m wide) standardized transect line was set (observer walked this line in 30 min). Four rounds of bee sampling using both methods were conducted during the main flowering period for each crop from May to August 2005",NA
"Hajnalka_Szentgyorgyi_Fagopyrum_esculentum_Poland_2005","Kolonia Branewka","pantraps","Andrena coitana","species","other_wild_bees",1,NA,4306,NA,"In each site, two sets of pan traps were placed and a 150 m-long (4-m wide) standardized transect line was set (observer walked this line in 30 min). Four rounds of bee sampling using both methods were conducted during the main flowering period for each crop from May to August 2005",NA
"Hajnalka_Szentgyorgyi_Fagopyrum_esculentum_Poland_2005","Kolonia Branewka","pantraps","Apis mellifera","species","honeybees",2,NA,4306,NA,"In each site, two sets of pan traps were placed and a 150 m-long (4-m wide) standardized transect line was set (observer walked this line in 30 min). Four rounds of bee sampling using both methods were conducted during the main flowering period for each crop from May to August 2005",NA
"Hajnalka_Szentgyorgyi_Fagopyrum_esculentum_Poland_2005","Kolonia Branewka","pantraps","Atylotus rusticus","species","other_flies",1,NA,4306,NA,"In each site, two sets of pan traps were placed and a 150 m-long (4-m wide) standardized transect line was set (observer walked this line in 30 min). Four rounds of bee sampling using both methods were conducted during the main flowering period for each crop from May to August 2005",NA
"Hajnalka_Szentgyorgyi_Fagopyrum_esculentum_Poland_2005","Kolonia Branewka","pantraps","Dasypoda altercator","species","other_wild_bees",2,NA,4306,NA,"In each site, two sets of pan traps were placed and a 150 m-long (4-m wide) standardized transect line was set (observer walked this line in 30 min). Four rounds of bee sampling using both methods were conducted during the main flowering period for each crop from May to August 2005",NA
"Hajnalka_Szentgyorgyi_Fagopyrum_esculentum_Poland_2005","Majdan","pantraps","Apis mellifera","species","honeybees",3,NA,4291,NA,"In each site, two sets of pan traps were placed and a 150 m-long (4-m wide) standardized transect line was set (observer walked this line in 30 min). Four rounds of bee sampling using both methods were conducted during the main flowering period for each crop from May to August 2005",NA
"Hajnalka_Szentgyorgyi_Fagopyrum_esculentum_Poland_2005","Majdan","pantraps","Apis mellifera","species","honeybees",2,NA,4291,NA,"In each site, two sets of pan traps were placed and a 150 m-long (4-m wide) standardized transect line was set (observer walked this line in 30 min). Four rounds of bee sampling using both methods were conducted during the main flowering period for each crop from May to August 2005",NA
"Hajnalka_Szentgyorgyi_Fagopyrum_esculentum_Poland_2005","Majdan","pantraps","Apis mellifera","species","honeybees",1,NA,4291,NA,"In each site, two sets of pan traps were placed and a 150 m-long (4-m wide) standardized transect line was set (observer walked this line in 30 min). Four rounds of bee sampling using both methods were conducted during the main flowering period for each crop from May to August 2005",NA
"Hajnalka_Szentgyorgyi_Fagopyrum_esculentum_Poland_2005","Majdan","pantraps","Hylaeus communis","species","other_wild_bees",1,NA,4291,NA,"In each site, two sets of pan traps were placed and a 150 m-long (4-m wide) standardized transect line was set (observer walked this line in 30 min). Four rounds of bee sampling using both methods were conducted during the main flowering period for each crop from May to August 2005",NA
"Hajnalka_Szentgyorgyi_Fagopyrum_esculentum_Poland_2005","Majdan","pantraps","Seladonia tumulorum","species","other_wild_bees",1,NA,4291,NA,"In each site, two sets of pan traps were placed and a 150 m-long (4-m wide) standardized transect line was set (observer walked this line in 30 min). Four rounds of bee sampling using both methods were conducted during the main flowering period for each crop from May to August 2005",NA
"Hajnalka_Szentgyorgyi_Fagopyrum_esculentum_Poland_2005","Majdan","pantraps","Apis mellifera","species","honeybees",3,NA,4291,NA,"In each site, two sets of pan traps were placed and a 150 m-long (4-m wide) standardized transect line was set (observer walked this line in 30 min). Four rounds of bee sampling using both methods were conducted during the main flowering period for each crop from May to August 2005",NA
"Hajnalka_Szentgyorgyi_Fagopyrum_esculentum_Poland_2005","Majdan","pantraps","Apis mellifera","species","honeybees",1,NA,4291,NA,"In each site, two sets of pan traps were placed and a 150 m-long (4-m wide) standardized transect line was set (observer walked this line in 30 min). Four rounds of bee sampling using both methods were conducted during the main flowering period for each crop from May to August 2005",NA
"Hajnalka_Szentgyorgyi_Fagopyrum_esculentum_Poland_2005","Majdan","pantraps","Apis mellifera","species","honeybees",3,NA,4291,NA,"In each site, two sets of pan traps were placed and a 150 m-long (4-m wide) standardized transect line was set (observer walked this line in 30 min). Four rounds of bee sampling using both methods were conducted during the main flowering period for each crop from May to August 2005",NA
"Hajnalka_Szentgyorgyi_Fagopyrum_esculentum_Poland_2005","Majdan","pantraps","Chloromyia formosa","species","other_flies",2,NA,4291,NA,"In each site, two sets of pan traps were placed and a 150 m-long (4-m wide) standardized transect line was set (observer walked this line in 30 min). Four rounds of bee sampling using both methods were conducted during the main flowering period for each crop from May to August 2005",NA
"Hajnalka_Szentgyorgyi_Fagopyrum_esculentum_Poland_2005","Majdan","pantraps","Chloromyia formosa","species","other_flies",1,NA,4291,NA,"In each site, two sets of pan traps were placed and a 150 m-long (4-m wide) standardized transect line was set (observer walked this line in 30 min). Four rounds of bee sampling using both methods were conducted during the main flowering period for each crop from May to August 2005",NA
"Hajnalka_Szentgyorgyi_Fagopyrum_esculentum_Poland_2005","Majdan","pantraps","Myiatropa florea","species","syrphids",1,NA,4291,NA,"In each site, two sets of pan traps were placed and a 150 m-long (4-m wide) standardized transect line was set (observer walked this line in 30 min). Four rounds of bee sampling using both methods were conducted during the main flowering period for each crop from May to August 2005",NA
"Hajnalka_Szentgyorgyi_Fagopyrum_esculentum_Poland_2005","Majdan","pantraps","Apis mellifera","species","honeybees",2,NA,4291,NA,"In each site, two sets of pan traps were placed and a 150 m-long (4-m wide) standardized transect line was set (observer walked this line in 30 min). Four rounds of bee sampling using both methods were conducted during the main flowering period for each crop from May to August 2005",NA
"Hajnalka_Szentgyorgyi_Fagopyrum_esculentum_Poland_2005","Majdan","pantraps","Dasypoda altercator","species","other_wild_bees",1,NA,4291,NA,"In each site, two sets of pan traps were placed and a 150 m-long (4-m wide) standardized transect line was set (observer walked this line in 30 min). Four rounds of bee sampling using both methods were conducted during the main flowering period for each crop from May to August 2005",NA
"Hajnalka_Szentgyorgyi_Fagopyrum_esculentum_Poland_2005","Majdan","pantraps","Dasypoda altercator","species","other_wild_bees",1,NA,4291,NA,"In each site, two sets of pan traps were placed and a 150 m-long (4-m wide) standardized transect line was set (observer walked this line in 30 min). Four rounds of bee sampling using both methods were conducted during the main flowering period for each crop from May to August 2005",NA
"Hajnalka_Szentgyorgyi_Fagopyrum_esculentum_Poland_2005","Majdan","pantraps","Rhangio tringarius","species","other_flies",1,NA,4291,NA,"In each site, two sets of pan traps were placed and a 150 m-long (4-m wide) standardized transect line was set (observer walked this line in 30 min). Four rounds of bee sampling using both methods were conducted during the main flowering period for each crop from May to August 2005",NA
"Hajnalka_Szentgyorgyi_Fagopyrum_esculentum_Poland_2005","Majdan","pantraps","Sphaerophoria scripta","species","syrphids",1,NA,4291,NA,"In each site, two sets of pan traps were placed and a 150 m-long (4-m wide) standardized transect line was set (observer walked this line in 30 min). Four rounds of bee sampling using both methods were conducted during the main flowering period for each crop from May to August 2005",NA
"Hajnalka_Szentgyorgyi_Fagopyrum_esculentum_Poland_2005","Majdan","pantraps","Apis mellifera","species","honeybees",2,NA,4291,NA,"In each site, two sets of pan traps were placed and a 150 m-long (4-m wide) standardized transect line was set (observer walked this line in 30 min). Four rounds of bee sampling using both methods were conducted during the main flowering period for each crop from May to August 2005",NA
"Hajnalka_Szentgyorgyi_Fagopyrum_esculentum_Poland_2005","Majdan","pantraps","Apis mellifera","species","honeybees",2,NA,4291,NA,"In each site, two sets of pan traps were placed and a 150 m-long (4-m wide) standardized transect line was set (observer walked this line in 30 min). Four rounds of bee sampling using both methods were conducted during the main flowering period for each crop from May to August 2005",NA
"Hajnalka_Szentgyorgyi_Fagopyrum_esculentum_Poland_2005","Majdan","pantraps","Dasypoda altercator","species","other_wild_bees",2,NA,4291,NA,"In each site, two sets of pan traps were placed and a 150 m-long (4-m wide) standardized transect line was set (observer walked this line in 30 min). Four rounds of bee sampling using both methods were conducted during the main flowering period for each crop from May to August 2005",NA
"Hajnalka_Szentgyorgyi_Fagopyrum_esculentum_Poland_2005","Majdan","pantraps","Dasypoda altercator","species","other_wild_bees",1,NA,4291,NA,"In each site, two sets of pan traps were placed and a 150 m-long (4-m wide) standardized transect line was set (observer walked this line in 30 min). Four rounds of bee sampling using both methods were conducted during the main flowering period for each crop from May to August 2005",NA
"Hajnalka_Szentgyorgyi_Fagopyrum_esculentum_Poland_2005","Wolka Ratajska","pantraps","Apis mellifera","species","honeybees",2,NA,2856,NA,"In each site, two sets of pan traps were placed and a 150 m-long (4-m wide) standardized transect line was set (observer walked this line in 30 min). Four rounds of bee sampling using both methods were conducted during the main flowering period for each crop from May to August 2005",NA
"Hajnalka_Szentgyorgyi_Fagopyrum_esculentum_Poland_2005","Wolka Ratajska","pantraps","Apis mellifera","species","honeybees",5,NA,2856,NA,"In each site, two sets of pan traps were placed and a 150 m-long (4-m wide) standardized transect line was set (observer walked this line in 30 min). Four rounds of bee sampling using both methods were conducted during the main flowering period for each crop from May to August 2005",NA
"Hajnalka_Szentgyorgyi_Fagopyrum_esculentum_Poland_2005","Wolka Ratajska","pantraps","Apis mellifera","species","honeybees",4,NA,2856,NA,"In each site, two sets of pan traps were placed and a 150 m-long (4-m wide) standardized transect line was set (observer walked this line in 30 min). Four rounds of bee sampling using both methods were conducted during the main flowering period for each crop from May to August 2005",NA
"Hajnalka_Szentgyorgyi_Fagopyrum_esculentum_Poland_2005","Wolka Ratajska","pantraps","Bombus veteranus","species","bumblebees",1,NA,2856,NA,"In each site, two sets of pan traps were placed and a 150 m-long (4-m wide) standardized transect line was set (observer walked this line in 30 min). Four rounds of bee sampling using both methods were conducted during the main flowering period for each crop from May to August 2005",NA
"Hajnalka_Szentgyorgyi_Fagopyrum_esculentum_Poland_2005","Wolka Ratajska","pantraps","Chloromyia fromosa","species","other_flies",6,NA,2856,NA,"In each site, two sets of pan traps were placed and a 150 m-long (4-m wide) standardized transect line was set (observer walked this line in 30 min). Four rounds of bee sampling using both methods were conducted during the main flowering period for each crop from May to August 2005",NA
"Hajnalka_Szentgyorgyi_Fagopyrum_esculentum_Poland_2005","Wolka Ratajska","pantraps","Haematopora pluralis","species","other_flies",1,NA,2856,NA,"In each site, two sets of pan traps were placed and a 150 m-long (4-m wide) standardized transect line was set (observer walked this line in 30 min). Four rounds of bee sampling using both methods were conducted during the main flowering period for each crop from May to August 2005",NA
"Hajnalka_Szentgyorgyi_Fagopyrum_esculentum_Poland_2005","Wolka Ratajska","pantraps","Apis mellifera","species","honeybees",1,NA,2856,NA,"In each site, two sets of pan traps were placed and a 150 m-long (4-m wide) standardized transect line was set (observer walked this line in 30 min). Four rounds of bee sampling using both methods were conducted during the main flowering period for each crop from May to August 2005",NA
"Hajnalka_Szentgyorgyi_Fagopyrum_esculentum_Poland_2005","Wolka Ratajska","pantraps","Apis mellifera","species","honeybees",2,NA,2856,NA,"In each site, two sets of pan traps were placed and a 150 m-long (4-m wide) standardized transect line was set (observer walked this line in 30 min). Four rounds of bee sampling using both methods were conducted during the main flowering period for each crop from May to August 2005",NA
"Hajnalka_Szentgyorgyi_Fagopyrum_esculentum_Poland_2005","Wolka Ratajska","pantraps","Bombus pascuorum","species","bumblebees",1,NA,2856,NA,"In each site, two sets of pan traps were placed and a 150 m-long (4-m wide) standardized transect line was set (observer walked this line in 30 min). Four rounds of bee sampling using both methods were conducted during the main flowering period for each crop from May to August 2005",NA
"Hajnalka_Szentgyorgyi_Fagopyrum_esculentum_Poland_2005","Wolka Ratajska","pantraps","Dasypoda altercator","species","other_wild_bees",1,NA,2856,NA,"In each site, two sets of pan traps were placed and a 150 m-long (4-m wide) standardized transect line was set (observer walked this line in 30 min). Four rounds of bee sampling using both methods were conducted during the main flowering period for each crop from May to August 2005",NA
"Hajnalka_Szentgyorgyi_Fagopyrum_esculentum_Poland_2005","Wolka Ratajska","pantraps","Apis mellifera","species","honeybees",2,NA,2856,NA,"In each site, two sets of pan traps were placed and a 150 m-long (4-m wide) standardized transect line was set (observer walked this line in 30 min). Four rounds of bee sampling using both methods were conducted during the main flowering period for each crop from May to August 2005",NA
"Hajnalka_Szentgyorgyi_Fagopyrum_esculentum_Poland_2005","Wolka Ratajska","pantraps","Apis mellifera","species","honeybees",1,NA,2856,NA,"In each site, two sets of pan traps were placed and a 150 m-long (4-m wide) standardized transect line was set (observer walked this line in 30 min). Four rounds of bee sampling using both methods were conducted during the main flowering period for each crop from May to August 2005",NA
"Hajnalka_Szentgyorgyi_Fagopyrum_esculentum_Poland_2005","Wolka Ratajska","pantraps","Apis mellifera","species","honeybees",4,NA,2856,NA,"In each site, two sets of pan traps were placed and a 150 m-long (4-m wide) standardized transect line was set (observer walked this line in 30 min). Four rounds of bee sampling using both methods were conducted during the main flowering period for each crop from May to August 2005",NA
"Hajnalka_Szentgyorgyi_Fagopyrum_esculentum_Poland_2005","Wolka Ratajska","pantraps","Apis mellifera","species","honeybees",1,NA,2856,NA,"In each site, two sets of pan traps were placed and a 150 m-long (4-m wide) standardized transect line was set (observer walked this line in 30 min). Four rounds of bee sampling using both methods were conducted during the main flowering period for each crop from May to August 2005",NA
"Hajnalka_Szentgyorgyi_Fagopyrum_esculentum_Poland_2005","Wolka Ratajska","pantraps","Apis mellifera","species","honeybees",2,NA,2856,NA,"In each site, two sets of pan traps were placed and a 150 m-long (4-m wide) standardized transect line was set (observer walked this line in 30 min). Four rounds of bee sampling using both methods were conducted during the main flowering period for each crop from May to August 2005",NA
"Hajnalka_Szentgyorgyi_Fagopyrum_esculentum_Poland_2005","Wolka Ratajska","pantraps","Dasypoda altercator","species","other_wild_bees",1,NA,2856,NA,"In each site, two sets of pan traps were placed and a 150 m-long (4-m wide) standardized transect line was set (observer walked this line in 30 min). Four rounds of bee sampling using both methods were conducted during the main flowering period for each crop from May to August 2005",NA
"Hajnalka_Szentgyorgyi_Fagopyrum_esculentum_Poland_2005","Wolka Ratajska","pantraps","Melanostoma mellinum","species","syrphids",1,NA,2856,NA,"In each site, two sets of pan traps were placed and a 150 m-long (4-m wide) standardized transect line was set (observer walked this line in 30 min). Four rounds of bee sampling using both methods were conducted during the main flowering period for each crop from May to August 2005",NA
"Heather_Lee_Grab_Fragaria_ananassa_USA_2012","FLZ","sweep netting","Agapostemon sericeus","Species","other_wild_bees",1,NA,NA,NA,"5 pan traps per site 2 m apart.Temporal replicates: 2x per season",NA
"Heather_Lee_Grab_Fragaria_ananassa_USA_2012","FLZ","pan trap","Agapostemon sericeus","Species","other_wild_bees",1,NA,NA,NA,"5 pan traps per site 2 m apart.Temporal replicates: 2x per season",NA
"Heather_Lee_Grab_Fragaria_ananassa_USA_2012","WBT","sweep netting","Agapostemon virescens","Species","other_wild_bees",1,NA,NA,NA,"5 pan traps per site 2 m apart.Temporal replicates: 2x per season",NA
"Heather_Lee_Grab_Fragaria_ananassa_USA_2012","LAG","pan trap","Agapostemon virescens","Species","other_wild_bees",1,NA,NA,NA,"5 pan traps per site 2 m apart.Temporal replicates: 2x per season",NA
"Heather_Lee_Grab_Fragaria_ananassa_USA_2012","GS","pan trap","Agapostemon virescens","Species","other_wild_bees",27,NA,NA,NA,"5 pan traps per site 2 m apart.Temporal replicates: 2x per season",NA
"Heather_Lee_Grab_Fragaria_ananassa_USA_2012","FLZ","pan trap","Andrena allegheniensis","Species","other_wild_bees",1,NA,NA,NA,"5 pan traps per site 2 m apart.Temporal replicates: 2x per season",NA
"Heather_Lee_Grab_Fragaria_ananassa_USA_2012","WH","pan trap","Andrena allegheniensis","Species","other_wild_bees",1,NA,NA,NA,"5 pan traps per site 2 m apart.Temporal replicates: 2x per season",NA
"Heather_Lee_Grab_Fragaria_ananassa_USA_2012","DAR","pan trap","Andrena carlini","Species","other_wild_bees",1,NA,NA,NA,"5 pan traps per site 2 m apart.Temporal replicates: 2x per season",NA
"Heather_Lee_Grab_Fragaria_ananassa_USA_2012","GS","pan trap","Andrena carlini","Species","other_wild_bees",1,NA,NA,NA,"5 pan traps per site 2 m apart.Temporal replicates: 2x per season",NA
"Heather_Lee_Grab_Fragaria_ananassa_USA_2012","WBT","pan trap","Andrena carlini","Species","other_wild_bees",1,NA,NA,NA,"5 pan traps per site 2 m apart.Temporal replicates: 2x per season",NA
"Heather_Lee_Grab_Fragaria_ananassa_USA_2012","REV","pan trap","Andrena carlini","Species","other_wild_bees",6,NA,NA,NA,"5 pan traps per site 2 m apart.Temporal replicates: 2x per season",NA
"Heather_Lee_Grab_Fragaria_ananassa_USA_2012","SLD","sweep netting","Andrena crataegi","Species","other_wild_bees",1,NA,NA,NA,"5 pan traps per site 2 m apart.Temporal replicates: 2x per season",NA
"Heather_Lee_Grab_Fragaria_ananassa_USA_2012","WBT","sweep netting","Andrena crataegi","Species","other_wild_bees",1,NA,NA,NA,"5 pan traps per site 2 m apart.Temporal replicates: 2x per season",NA
"Heather_Lee_Grab_Fragaria_ananassa_USA_2012","WBT","pan trap","Andrena crataegi","Species","other_wild_bees",1,NA,NA,NA,"5 pan traps per site 2 m apart.Temporal replicates: 2x per season",NA
"Heather_Lee_Grab_Fragaria_ananassa_USA_2012","ELD","pan trap","Andrena crataegi","Species","other_wild_bees",1,NA,NA,NA,"5 pan traps per site 2 m apart.Temporal replicates: 2x per season",NA
"Heather_Lee_Grab_Fragaria_ananassa_USA_2012","FV","pan trap","Andrena crataegi","Species","other_wild_bees",1,NA,NA,NA,"5 pan traps per site 2 m apart.Temporal replicates: 2x per season",NA
"Heather_Lee_Grab_Fragaria_ananassa_USA_2012","GS","pan trap","Andrena crataegi","Species","other_wild_bees",2,NA,NA,NA,"5 pan traps per site 2 m apart.Temporal replicates: 2x per season",NA
"Heather_Lee_Grab_Fragaria_ananassa_USA_2012","BT","sweep netting","Andrena cressonii","Species","other_wild_bees",1,NA,NA,NA,"5 pan traps per site 2 m apart.Temporal replicates: 2x per season",NA
"Heather_Lee_Grab_Fragaria_ananassa_USA_2012","FLZ","sweep netting","Andrena cressonii","Species","other_wild_bees",1,NA,NA,NA,"5 pan traps per site 2 m apart.Temporal replicates: 2x per season",NA
"Heather_Lee_Grab_Fragaria_ananassa_USA_2012","WH","sweep netting","Andrena cressonii","Species","other_wild_bees",1,NA,NA,NA,"5 pan traps per site 2 m apart.Temporal replicates: 2x per season",NA
"Heather_Lee_Grab_Fragaria_ananassa_USA_2012","FV","pan trap","Andrena cressonii","Species","other_wild_bees",1,NA,NA,NA,"5 pan traps per site 2 m apart.Temporal replicates: 2x per season",NA
"Heather_Lee_Grab_Fragaria_ananassa_USA_2012","KP","pan trap","Andrena cressonii","Species","other_wild_bees",1,NA,NA,NA,"5 pan traps per site 2 m apart.Temporal replicates: 2x per season",NA
"Heather_Lee_Grab_Fragaria_ananassa_USA_2012","LAG","pan trap","Andrena cressonii","Species","other_wild_bees",1,NA,NA,NA,"5 pan traps per site 2 m apart.Temporal replicates: 2x per season",NA
"Heather_Lee_Grab_Fragaria_ananassa_USA_2012","BH","pan trap","Andrena cressonii","Species","other_wild_bees",1,NA,NA,NA,"5 pan traps per site 2 m apart.Temporal replicates: 2x per season",NA
"Heather_Lee_Grab_Fragaria_ananassa_USA_2012","BS","pan trap","Andrena cressonii","Species","other_wild_bees",2,NA,NA,NA,"5 pan traps per site 2 m apart.Temporal replicates: 2x per season",NA
"Heather_Lee_Grab_Fragaria_ananassa_USA_2012","ELD","pan trap","Andrena cressonii","Species","other_wild_bees",1,NA,NA,NA,"5 pan traps per site 2 m apart.Temporal replicates: 2x per season",NA
"Heather_Lee_Grab_Fragaria_ananassa_USA_2012","ELD","pan trap","Andrena cressonii","Species","other_wild_bees",4,NA,NA,NA,"5 pan traps per site 2 m apart.Temporal replicates: 2x per season",NA
"Heather_Lee_Grab_Fragaria_ananassa_USA_2012","FLZ","pan trap","Andrena cressonii","Species","other_wild_bees",1,NA,NA,NA,"5 pan traps per site 2 m apart.Temporal replicates: 2x per season",NA
"Heather_Lee_Grab_Fragaria_ananassa_USA_2012","GS","pan trap","Andrena cressonii","Species","other_wild_bees",1,NA,NA,NA,"5 pan traps per site 2 m apart.Temporal replicates: 2x per season",NA
"Heather_Lee_Grab_Fragaria_ananassa_USA_2012","WBT","pan trap","Andrena cressonii","Species","other_wild_bees",5,NA,NA,NA,"5 pan traps per site 2 m apart.Temporal replicates: 2x per season",NA
"Heather_Lee_Grab_Fragaria_ananassa_USA_2012","ELD","pan trap","Andrena erigeniae","Species","other_wild_bees",1,NA,NA,NA,"5 pan traps per site 2 m apart.Temporal replicates: 2x per season",NA
"Heather_Lee_Grab_Fragaria_ananassa_USA_2012","FLZ","pan trap","Andrena erigeniae","Species","other_wild_bees",1,NA,NA,NA,"5 pan traps per site 2 m apart.Temporal replicates: 2x per season",NA
"Heather_Lee_Grab_Fragaria_ananassa_USA_2012","SQ","pan trap","Andrena erigeniae","Species","other_wild_bees",1,NA,NA,NA,"5 pan traps per site 2 m apart.Temporal replicates: 2x per season",NA
"Heather_Lee_Grab_Fragaria_ananassa_USA_2012","WH","pan trap","Andrena erigeniae","Species","other_wild_bees",1,NA,NA,NA,"5 pan traps per site 2 m apart.Temporal replicates: 2x per season",NA
"Heather_Lee_Grab_Fragaria_ananassa_USA_2012","BT","pan trap","Andrena erythronii","Species","other_wild_bees",3,NA,NA,NA,"5 pan traps per site 2 m apart.Temporal replicates: 2x per season",NA
"Heather_Lee_Grab_Fragaria_ananassa_USA_2012","GRS","pan trap","Andrena erythronii","Species","other_wild_bees",1,NA,NA,NA,"5 pan traps per site 2 m apart.Temporal replicates: 2x per season",NA
"Heather_Lee_Grab_Fragaria_ananassa_USA_2012","WBT","pan trap","Andrena erythronii","Species","other_wild_bees",1,NA,NA,NA,"5 pan traps per site 2 m apart.Temporal replicates: 2x per season",NA
"Heather_Lee_Grab_Fragaria_ananassa_USA_2012","BH","pan trap","Andrena erythronii","Species","other_wild_bees",1,NA,NA,NA,"5 pan traps per site 2 m apart.Temporal replicates: 2x per season",NA
"Heather_Lee_Grab_Fragaria_ananassa_USA_2012","LAG","pan trap","Andrena erythronii","Species","other_wild_bees",2,NA,NA,NA,"5 pan traps per site 2 m apart.Temporal replicates: 2x per season",NA
"Heather_Lee_Grab_Fragaria_ananassa_USA_2012","FLZ","pan trap","Andrena imitatrix","Species","other_wild_bees",1,NA,NA,NA,"5 pan traps per site 2 m apart.Temporal replicates: 2x per season",NA
"Heather_Lee_Grab_Fragaria_ananassa_USA_2012","SQ","pan trap","Andrena imitatrix","Species","other_wild_bees",1,NA,NA,NA,"5 pan traps per site 2 m apart.Temporal replicates: 2x per season",NA
"Heather_Lee_Grab_Fragaria_ananassa_USA_2012","ELD","pan trap","Andrena imitatrix","Species","other_wild_bees",1,NA,NA,NA,"5 pan traps per site 2 m apart.Temporal replicates: 2x per season",NA
"Heather_Lee_Grab_Fragaria_ananassa_USA_2012","WH","pan trap","Andrena imitatrix","Species","other_wild_bees",1,NA,NA,NA,"5 pan traps per site 2 m apart.Temporal replicates: 2x per season",NA
"Heather_Lee_Grab_Fragaria_ananassa_USA_2012","BT","pan trap","Andrena melanochroa","Species","other_wild_bees",1,NA,NA,NA,"5 pan traps per site 2 m apart.Temporal replicates: 2x per season",NA
"Heather_Lee_Grab_Fragaria_ananassa_USA_2012","ELD","pan trap","Andrena miserabilis","Species","other_wild_bees",2,NA,NA,NA,"5 pan traps per site 2 m apart.Temporal replicates: 2x per season",NA
"Heather_Lee_Grab_Fragaria_ananassa_USA_2012","ELD","pan trap","Andrena miserabilis","Species","other_wild_bees",1,NA,NA,NA,"5 pan traps per site 2 m apart.Temporal replicates: 2x per season",NA
"Heather_Lee_Grab_Fragaria_ananassa_USA_2012","WBT","pan trap","Andrena miserabilis","Species","other_wild_bees",1,NA,NA,NA,"5 pan traps per site 2 m apart.Temporal replicates: 2x per season",NA
"Heather_Lee_Grab_Fragaria_ananassa_USA_2012","BS","pan trap","Andrena miserabilis","Species","other_wild_bees",1,NA,NA,NA,"5 pan traps per site 2 m apart.Temporal replicates: 2x per season",NA
"Heather_Lee_Grab_Fragaria_ananassa_USA_2012","BS","pan trap","Andrena miserabilis","Species","other_wild_bees",1,NA,NA,NA,"5 pan traps per site 2 m apart.Temporal replicates: 2x per season",NA
"Heather_Lee_Grab_Fragaria_ananassa_USA_2012","DAR","pan trap","Andrena miserabilis","Species","other_wild_bees",1,NA,NA,NA,"5 pan traps per site 2 m apart.Temporal replicates: 2x per season",NA
"Heather_Lee_Grab_Fragaria_ananassa_USA_2012","ELD","pan trap","Andrena miserabilis","Species","other_wild_bees",2,NA,NA,NA,"5 pan traps per site 2 m apart.Temporal replicates: 2x per season",NA
"Heather_Lee_Grab_Fragaria_ananassa_USA_2012","SQ","pan trap","Andrena miserabilis","Species","other_wild_bees",1,NA,NA,NA,"5 pan traps per site 2 m apart.Temporal replicates: 2x per season",NA
"Heather_Lee_Grab_Fragaria_ananassa_USA_2012","WH","pan trap","Andrena miserabilis","Species","other_wild_bees",1,NA,NA,NA,"5 pan traps per site 2 m apart.Temporal replicates: 2x per season",NA
"Heather_Lee_Grab_Fragaria_ananassa_USA_2012","BH","sweep netting","Andrena nasonii","Species","other_wild_bees",3,NA,NA,NA,"5 pan traps per site 2 m apart.Temporal replicates: 2x per season",NA
"Heather_Lee_Grab_Fragaria_ananassa_USA_2012","BH","sweep netting","Andrena nasonii","Species","other_wild_bees",5,NA,NA,NA,"5 pan traps per site 2 m apart.Temporal replicates: 2x per season",NA
"Heather_Lee_Grab_Fragaria_ananassa_USA_2012","BT","sweep netting","Andrena nasonii","Species","other_wild_bees",3,NA,NA,NA,"5 pan traps per site 2 m apart.Temporal replicates: 2x per season",NA
"Heather_Lee_Grab_Fragaria_ananassa_USA_2012","ELD","sweep netting","Andrena nasonii","Species","other_wild_bees",3,NA,NA,NA,"5 pan traps per site 2 m apart.Temporal replicates: 2x per season",NA
"Heather_Lee_Grab_Fragaria_ananassa_USA_2012","FLZ","sweep netting","Andrena nasonii","Species","other_wild_bees",1,NA,NA,NA,"5 pan traps per site 2 m apart.Temporal replicates: 2x per season",NA
"Heather_Lee_Grab_Fragaria_ananassa_USA_2012","FV","sweep netting","Andrena nasonii","Species","other_wild_bees",3,NA,NA,NA,"5 pan traps per site 2 m apart.Temporal replicates: 2x per season",NA
"Heather_Lee_Grab_Fragaria_ananassa_USA_2012","GRS","sweep netting","Andrena nasonii","Species","other_wild_bees",1,NA,NA,NA,"5 pan traps per site 2 m apart.Temporal replicates: 2x per season",NA
"Heather_Lee_Grab_Fragaria_ananassa_USA_2012","KP","sweep netting","Andrena nasonii","Species","other_wild_bees",2,NA,NA,NA,"5 pan traps per site 2 m apart.Temporal replicates: 2x per season",NA
"Heather_Lee_Grab_Fragaria_ananassa_USA_2012","REV","sweep netting","Andrena nasonii","Species","other_wild_bees",1,NA,NA,NA,"5 pan traps per site 2 m apart.Temporal replicates: 2x per season",NA
"Heather_Lee_Grab_Fragaria_ananassa_USA_2012","SQ","sweep netting","Andrena nasonii","Species","other_wild_bees",5,NA,NA,NA,"5 pan traps per site 2 m apart.Temporal replicates: 2x per season",NA
"Heather_Lee_Grab_Fragaria_ananassa_USA_2012","SLD","sweep netting","Andrena nasonii","Species","other_wild_bees",1,NA,NA,NA,"5 pan traps per site 2 m apart.Temporal replicates: 2x per season",NA
"Heather_Lee_Grab_Fragaria_ananassa_USA_2012","WH","sweep netting","Andrena nasonii","Species","other_wild_bees",4,NA,NA,NA,"5 pan traps per site 2 m apart.Temporal replicates: 2x per season",NA
"Heather_Lee_Grab_Fragaria_ananassa_USA_2012","WBT","sweep netting","Andrena nasonii","Species","other_wild_bees",3,NA,NA,NA,"5 pan traps per site 2 m apart.Temporal replicates: 2x per season",NA
"Heather_Lee_Grab_Fragaria_ananassa_USA_2012","BH","pan trap","Andrena nasonii","Species","other_wild_bees",6,NA,NA,NA,"5 pan traps per site 2 m apart.Temporal replicates: 2x per season",NA
"Heather_Lee_Grab_Fragaria_ananassa_USA_2012","BS","pan trap","Andrena nasonii","Species","other_wild_bees",2,NA,NA,NA,"5 pan traps per site 2 m apart.Temporal replicates: 2x per season",NA
"Heather_Lee_Grab_Fragaria_ananassa_USA_2012","BT","pan trap","Andrena nasonii","Species","other_wild_bees",9,NA,NA,NA,"5 pan traps per site 2 m apart.Temporal replicates: 2x per season",NA
"Heather_Lee_Grab_Fragaria_ananassa_USA_2012","BT","pan trap","Andrena nasonii","Species","other_wild_bees",5,NA,NA,NA,"5 pan traps per site 2 m apart.Temporal replicates: 2x per season",NA
"Heather_Lee_Grab_Fragaria_ananassa_USA_2012","DAR","pan trap","Andrena nasonii","Species","other_wild_bees",3,NA,NA,NA,"5 pan traps per site 2 m apart.Temporal replicates: 2x per season",NA
"Heather_Lee_Grab_Fragaria_ananassa_USA_2012","ELD","pan trap","Andrena nasonii","Species","other_wild_bees",8,NA,NA,NA,"5 pan traps per site 2 m apart.Temporal replicates: 2x per season",NA
"Heather_Lee_Grab_Fragaria_ananassa_USA_2012","ELD","pan trap","Andrena nasonii","Species","other_wild_bees",2,NA,NA,NA,"5 pan traps per site 2 m apart.Temporal replicates: 2x per season",NA
"Heather_Lee_Grab_Fragaria_ananassa_USA_2012","FLZ","pan trap","Andrena nasonii","Species","other_wild_bees",1,NA,NA,NA,"5 pan traps per site 2 m apart.Temporal replicates: 2x per season",NA
"Heather_Lee_Grab_Fragaria_ananassa_USA_2012","FV","pan trap","Andrena nasonii","Species","other_wild_bees",5,NA,NA,NA,"5 pan traps per site 2 m apart.Temporal replicates: 2x per season",NA
"Heather_Lee_Grab_Fragaria_ananassa_USA_2012","FV","pan trap","Andrena nasonii","Species","other_wild_bees",1,NA,NA,NA,"5 pan traps per site 2 m apart.Temporal replicates: 2x per season",NA
"Heather_Lee_Grab_Fragaria_ananassa_USA_2012","GRS","pan trap","Andrena nasonii","Species","other_wild_bees",1,NA,NA,NA,"5 pan traps per site 2 m apart.Temporal replicates: 2x per season",NA
"Heather_Lee_Grab_Fragaria_ananassa_USA_2012","KP","pan trap","Andrena nasonii","Species","other_wild_bees",5,NA,NA,NA,"5 pan traps per site 2 m apart.Temporal replicates: 2x per season",NA
"Heather_Lee_Grab_Fragaria_ananassa_USA_2012","KP","pan trap","Andrena nasonii","Species","other_wild_bees",5,NA,NA,NA,"5 pan traps per site 2 m apart.Temporal replicates: 2x per season",NA
"Heather_Lee_Grab_Fragaria_ananassa_USA_2012","LAG","pan trap","Andrena nasonii","Species","other_wild_bees",1,NA,NA,NA,"5 pan traps per site 2 m apart.Temporal replicates: 2x per season",NA
"Heather_Lee_Grab_Fragaria_ananassa_USA_2012","REV","pan trap","Andrena nasonii","Species","other_wild_bees",1,NA,NA,NA,"5 pan traps per site 2 m apart.Temporal replicates: 2x per season",NA
"Heather_Lee_Grab_Fragaria_ananassa_USA_2012","SQ","pan trap","Andrena nasonii","Species","other_wild_bees",3,NA,NA,NA,"5 pan traps per site 2 m apart.Temporal replicates: 2x per season",NA
"Heather_Lee_Grab_Fragaria_ananassa_USA_2012","SQ","pan trap","Andrena nasonii","Species","other_wild_bees",2,NA,NA,NA,"5 pan traps per site 2 m apart.Temporal replicates: 2x per season",NA
"Heather_Lee_Grab_Fragaria_ananassa_USA_2012","SLD","pan trap","Andrena nasonii","Species","other_wild_bees",1,NA,NA,NA,"5 pan traps per site 2 m apart.Temporal replicates: 2x per season",NA
"Heather_Lee_Grab_Fragaria_ananassa_USA_2012","SLD","pan trap","Andrena nasonii","Species","other_wild_bees",4,NA,NA,NA,"5 pan traps per site 2 m apart.Temporal replicates: 2x per season",NA
"Heather_Lee_Grab_Fragaria_ananassa_USA_2012","WH","pan trap","Andrena nasonii","Species","other_wild_bees",2,NA,NA,NA,"5 pan traps per site 2 m apart.Temporal replicates: 2x per season",NA
"Heather_Lee_Grab_Fragaria_ananassa_USA_2012","WH","pan trap","Andrena nasonii","Species","other_wild_bees",6,NA,NA,NA,"5 pan traps per site 2 m apart.Temporal replicates: 2x per season",NA
"Heather_Lee_Grab_Fragaria_ananassa_USA_2012","WBT","pan trap","Andrena nasonii","Species","other_wild_bees",3,NA,NA,NA,"5 pan traps per site 2 m apart.Temporal replicates: 2x per season",NA
"Heather_Lee_Grab_Fragaria_ananassa_USA_2012","BH","pan trap","Andrena nasonii","Species","other_wild_bees",27,NA,NA,NA,"5 pan traps per site 2 m apart.Temporal replicates: 2x per season",NA
"Heather_Lee_Grab_Fragaria_ananassa_USA_2012","BH","pan trap","Andrena nasonii","Species","other_wild_bees",1,NA,NA,NA,"5 pan traps per site 2 m apart.Temporal replicates: 2x per season",NA
"Heather_Lee_Grab_Fragaria_ananassa_USA_2012","BS","pan trap","Andrena nasonii","Species","other_wild_bees",11,NA,NA,NA,"5 pan traps per site 2 m apart.Temporal replicates: 2x per season",NA
"Heather_Lee_Grab_Fragaria_ananassa_USA_2012","BS","pan trap","Andrena nasonii","Species","other_wild_bees",1,NA,NA,NA,"5 pan traps per site 2 m apart.Temporal replicates: 2x per season",NA
"Heather_Lee_Grab_Fragaria_ananassa_USA_2012","BT","pan trap","Andrena nasonii","Species","other_wild_bees",7,NA,NA,NA,"5 pan traps per site 2 m apart.Temporal replicates: 2x per season",NA
"Heather_Lee_Grab_Fragaria_ananassa_USA_2012","BT","pan trap","Andrena nasonii","Species","other_wild_bees",17,NA,NA,NA,"5 pan traps per site 2 m apart.Temporal replicates: 2x per season",NA
"Heather_Lee_Grab_Fragaria_ananassa_USA_2012","DAR","pan trap","Andrena nasonii","Species","other_wild_bees",7,NA,NA,NA,"5 pan traps per site 2 m apart.Temporal replicates: 2x per season",NA
"Heather_Lee_Grab_Fragaria_ananassa_USA_2012","ELD","pan trap","Andrena nasonii","Species","other_wild_bees",12,NA,NA,NA,"5 pan traps per site 2 m apart.Temporal replicates: 2x per season",NA
"Heather_Lee_Grab_Fragaria_ananassa_USA_2012","ELD","pan trap","Andrena nasonii","Species","other_wild_bees",11,NA,NA,NA,"5 pan traps per site 2 m apart.Temporal replicates: 2x per season",NA
"Heather_Lee_Grab_Fragaria_ananassa_USA_2012","ELD","pan trap","Andrena nasonii","Species","other_wild_bees",4,NA,NA,NA,"5 pan traps per site 2 m apart.Temporal replicates: 2x per season",NA
"Heather_Lee_Grab_Fragaria_ananassa_USA_2012","ELD","pan trap","Andrena nasonii","Species","other_wild_bees",11,NA,NA,NA,"5 pan traps per site 2 m apart.Temporal replicates: 2x per season",NA
"Heather_Lee_Grab_Fragaria_ananassa_USA_2012","ELD","pan trap","Andrena nasonii","Species","other_wild_bees",6,NA,NA,NA,"5 pan traps per site 2 m apart.Temporal replicates: 2x per season",NA
"Heather_Lee_Grab_Fragaria_ananassa_USA_2012","FLZ","pan trap","Andrena nasonii","Species","other_wild_bees",38,NA,NA,NA,"5 pan traps per site 2 m apart.Temporal replicates: 2x per season",NA
"Heather_Lee_Grab_Fragaria_ananassa_USA_2012","FLZ","pan trap","Andrena nasonii","Species","other_wild_bees",1,NA,NA,NA,"5 pan traps per site 2 m apart.Temporal replicates: 2x per season",NA
"Heather_Lee_Grab_Fragaria_ananassa_USA_2012","FLZ","pan trap","Andrena nasonii","Species","other_wild_bees",1,NA,NA,NA,"5 pan traps per site 2 m apart.Temporal replicates: 2x per season",NA
"Heather_Lee_Grab_Fragaria_ananassa_USA_2012","FLZ","pan trap","Andrena nasonii","Species","other_wild_bees",1,NA,NA,NA,"5 pan traps per site 2 m apart.Temporal replicates: 2x per season",NA
"Heather_Lee_Grab_Fragaria_ananassa_USA_2012","FV","pan trap","Andrena nasonii","Species","other_wild_bees",5,NA,NA,NA,"5 pan traps per site 2 m apart.Temporal replicates: 2x per season",NA
"Heather_Lee_Grab_Fragaria_ananassa_USA_2012","FV","pan trap","Andrena nasonii","Species","other_wild_bees",1,NA,NA,NA,"5 pan traps per site 2 m apart.Temporal replicates: 2x per season",NA
"Heather_Lee_Grab_Fragaria_ananassa_USA_2012","FV","pan trap","Andrena nasonii","Species","other_wild_bees",1,NA,NA,NA,"5 pan traps per site 2 m apart.Temporal replicates: 2x per season",NA
"Heather_Lee_Grab_Fragaria_ananassa_USA_2012","GS","pan trap","Andrena nasonii","Species","other_wild_bees",1,NA,NA,NA,"5 pan traps per site 2 m apart.Temporal replicates: 2x per season",NA
"Heather_Lee_Grab_Fragaria_ananassa_USA_2012","GS","pan trap","Andrena nasonii","Species","other_wild_bees",2,NA,NA,NA,"5 pan traps per site 2 m apart.Temporal replicates: 2x per season",NA
"Heather_Lee_Grab_Fragaria_ananassa_USA_2012","GRS","pan trap","Andrena nasonii","Species","other_wild_bees",1,NA,NA,NA,"5 pan traps per site 2 m apart.Temporal replicates: 2x per season",NA
"Heather_Lee_Grab_Fragaria_ananassa_USA_2012","GRS","pan trap","Andrena nasonii","Species","other_wild_bees",2,NA,NA,NA,"5 pan traps per site 2 m apart.Temporal replicates: 2x per season",NA
"Heather_Lee_Grab_Fragaria_ananassa_USA_2012","LAG","pan trap","Andrena nasonii","Species","other_wild_bees",1,NA,NA,NA,"5 pan traps per site 2 m apart.Temporal replicates: 2x per season",NA
"Heather_Lee_Grab_Fragaria_ananassa_USA_2012","REV","pan trap","Andrena nasonii","Species","other_wild_bees",2,NA,NA,NA,"5 pan traps per site 2 m apart.Temporal replicates: 2x per season",NA
"Heather_Lee_Grab_Fragaria_ananassa_USA_2012","SQ","pan trap","Andrena nasonii","Species","other_wild_bees",3,NA,NA,NA,"5 pan traps per site 2 m apart.Temporal replicates: 2x per season",NA
"Heather_Lee_Grab_Fragaria_ananassa_USA_2012","SQ","pan trap","Andrena nasonii","Species","other_wild_bees",4,NA,NA,NA,"5 pan traps per site 2 m apart.Temporal replicates: 2x per season",NA
"Heather_Lee_Grab_Fragaria_ananassa_USA_2012","WH","pan trap","Andrena nasonii","Species","other_wild_bees",17,NA,NA,NA,"5 pan traps per site 2 m apart.Temporal replicates: 2x per season",NA
"Heather_Lee_Grab_Fragaria_ananassa_USA_2012","WH","pan trap","Andrena nasonii","Species","other_wild_bees",1,NA,NA,NA,"5 pan traps per site 2 m apart.Temporal replicates: 2x per season",NA
"Heather_Lee_Grab_Fragaria_ananassa_USA_2012","WBT","pan trap","Andrena nasonii","Species","other_wild_bees",2,NA,NA,NA,"5 pan traps per site 2 m apart.Temporal replicates: 2x per season",NA
"Heather_Lee_Grab_Fragaria_ananassa_USA_2012","WBT","pan trap","Andrena nasonii","Species","other_wild_bees",2,NA,NA,NA,"5 pan traps per site 2 m apart.Temporal replicates: 2x per season",NA
"Heather_Lee_Grab_Fragaria_ananassa_USA_2012","KP","pan trap","Andrena perplexa","Species","other_wild_bees",1,NA,NA,NA,"5 pan traps per site 2 m apart.Temporal replicates: 2x per season",NA
"Heather_Lee_Grab_Fragaria_ananassa_USA_2012","WBT","sweep netting","Andrena regularis","Species","other_wild_bees",1,NA,NA,NA,"5 pan traps per site 2 m apart.Temporal replicates: 2x per season",NA
"Heather_Lee_Grab_Fragaria_ananassa_USA_2012","KP","pan trap","Andrena regularis","Species","other_wild_bees",1,NA,NA,NA,"5 pan traps per site 2 m apart.Temporal replicates: 2x per season",NA
"Heather_Lee_Grab_Fragaria_ananassa_USA_2012","BH","pan trap","Andrena regularis","Species","other_wild_bees",1,NA,NA,NA,"5 pan traps per site 2 m apart.Temporal replicates: 2x per season",NA
"Heather_Lee_Grab_Fragaria_ananassa_USA_2012","ELD","pan trap","Andrena regularis","Species","other_wild_bees",1,NA,NA,NA,"5 pan traps per site 2 m apart.Temporal replicates: 2x per season",NA
"Heather_Lee_Grab_Fragaria_ananassa_USA_2012","GS","pan trap","Andrena regularis","Species","other_wild_bees",1,NA,NA,NA,"5 pan traps per site 2 m apart.Temporal replicates: 2x per season",NA
"Heather_Lee_Grab_Fragaria_ananassa_USA_2012","GRS","sweep netting","Andrena rugosa","Species","other_wild_bees",1,NA,NA,NA,"5 pan traps per site 2 m apart.Temporal replicates: 2x per season",NA
"Heather_Lee_Grab_Fragaria_ananassa_USA_2012","DAR","pan trap","Andrena rugosa","Species","other_wild_bees",1,NA,NA,NA,"5 pan traps per site 2 m apart.Temporal replicates: 2x per season",NA
"Heather_Lee_Grab_Fragaria_ananassa_USA_2012","ELD","pan trap","Andrena rugosa","Species","other_wild_bees",3,NA,NA,NA,"5 pan traps per site 2 m apart.Temporal replicates: 2x per season",NA
"Heather_Lee_Grab_Fragaria_ananassa_USA_2012","GRS","pan trap","Andrena rugosa","Species","other_wild_bees",1,NA,NA,NA,"5 pan traps per site 2 m apart.Temporal replicates: 2x per season",NA
"Heather_Lee_Grab_Fragaria_ananassa_USA_2012","SLD","pan trap","Andrena rugosa","Species","other_wild_bees",1,NA,NA,NA,"5 pan traps per site 2 m apart.Temporal replicates: 2x per season",NA
"Heather_Lee_Grab_Fragaria_ananassa_USA_2012","DAR","pan trap","Andrena rugosa","Species","other_wild_bees",4,NA,NA,NA,"5 pan traps per site 2 m apart.Temporal replicates: 2x per season",NA
"Heather_Lee_Grab_Fragaria_ananassa_USA_2012","ELD","pan trap","Andrena rugosa","Species","other_wild_bees",1,NA,NA,NA,"5 pan traps per site 2 m apart.Temporal replicates: 2x per season",NA
"Heather_Lee_Grab_Fragaria_ananassa_USA_2012","FLZ","pan trap","Andrena rugosa","Species","other_wild_bees",1,NA,NA,NA,"5 pan traps per site 2 m apart.Temporal replicates: 2x per season",NA
"Heather_Lee_Grab_Fragaria_ananassa_USA_2012","SQ","pan trap","Andrena rugosa","Species","other_wild_bees",3,NA,NA,NA,"5 pan traps per site 2 m apart.Temporal replicates: 2x per season",NA
"Heather_Lee_Grab_Fragaria_ananassa_USA_2012","SQ","pan trap","Andrena rugosa","Species","other_wild_bees",1,NA,NA,NA,"5 pan traps per site 2 m apart.Temporal replicates: 2x per season",NA
"Heather_Lee_Grab_Fragaria_ananassa_USA_2012","ELD","pan trap","Andrena vicina","Species","other_wild_bees",1,NA,NA,NA,"5 pan traps per site 2 m apart.Temporal replicates: 2x per season",NA
"Heather_Lee_Grab_Fragaria_ananassa_USA_2012","SQ","pan trap","Andrena vicina","Species","other_wild_bees",1,NA,NA,NA,"5 pan traps per site 2 m apart.Temporal replicates: 2x per season",NA
"Heather_Lee_Grab_Fragaria_ananassa_USA_2012","WH","pan trap","Andrena vicina","Species","other_wild_bees",2,NA,NA,NA,"5 pan traps per site 2 m apart.Temporal replicates: 2x per season",NA
"Heather_Lee_Grab_Fragaria_ananassa_USA_2012","SQ","pan trap","Andrena vicina","Species","other_wild_bees",2,NA,NA,NA,"5 pan traps per site 2 m apart.Temporal replicates: 2x per season",NA
"Heather_Lee_Grab_Fragaria_ananassa_USA_2012","BH","sweep netting","Apis mellifera","Species","honeybees",15,NA,NA,NA,"5 pan traps per site 2 m apart.Temporal replicates: 2x per season",NA
"Heather_Lee_Grab_Fragaria_ananassa_USA_2012","BT","sweep netting","Apis mellifera","Species","honeybees",11,NA,NA,NA,"5 pan traps per site 2 m apart.Temporal replicates: 2x per season",NA
"Heather_Lee_Grab_Fragaria_ananassa_USA_2012","FLZ","sweep netting","Apis mellifera","Species","honeybees",1,NA,NA,NA,"5 pan traps per site 2 m apart.Temporal replicates: 2x per season",NA
"Heather_Lee_Grab_Fragaria_ananassa_USA_2012","GRS","sweep netting","Apis mellifera","Species","honeybees",6,NA,NA,NA,"5 pan traps per site 2 m apart.Temporal replicates: 2x per season",NA
"Heather_Lee_Grab_Fragaria_ananassa_USA_2012","KP","sweep netting","Apis mellifera","Species","honeybees",9,NA,NA,NA,"5 pan traps per site 2 m apart.Temporal replicates: 2x per season",NA
"Heather_Lee_Grab_Fragaria_ananassa_USA_2012","LAG","sweep netting","Apis mellifera","Species","honeybees",7,NA,NA,NA,"5 pan traps per site 2 m apart.Temporal replicates: 2x per season",NA
"Heather_Lee_Grab_Fragaria_ananassa_USA_2012","REV","sweep netting","Apis mellifera","Species","honeybees",1,NA,NA,NA,"5 pan traps per site 2 m apart.Temporal replicates: 2x per season",NA
"Heather_Lee_Grab_Fragaria_ananassa_USA_2012","SQ","sweep netting","Apis mellifera","Species","honeybees",3,NA,NA,NA,"5 pan traps per site 2 m apart.Temporal replicates: 2x per season",NA
"Heather_Lee_Grab_Fragaria_ananassa_USA_2012","SLD","sweep netting","Apis mellifera","Species","honeybees",6,NA,NA,NA,"5 pan traps per site 2 m apart.Temporal replicates: 2x per season",NA
"Heather_Lee_Grab_Fragaria_ananassa_USA_2012","WH","sweep netting","Apis mellifera","Species","honeybees",1,NA,NA,NA,"5 pan traps per site 2 m apart.Temporal replicates: 2x per season",NA
"Heather_Lee_Grab_Fragaria_ananassa_USA_2012","WBT","sweep netting","Apis mellifera","Species","honeybees",22,NA,NA,NA,"5 pan traps per site 2 m apart.Temporal replicates: 2x per season",NA
"Heather_Lee_Grab_Fragaria_ananassa_USA_2012","BS","pan trap","Apis mellifera","Species","honeybees",3,NA,NA,NA,"5 pan traps per site 2 m apart.Temporal replicates: 2x per season",NA
"Heather_Lee_Grab_Fragaria_ananassa_USA_2012","BS","pan trap","Apis mellifera","Species","honeybees",5,NA,NA,NA,"5 pan traps per site 2 m apart.Temporal replicates: 2x per season",NA
"Heather_Lee_Grab_Fragaria_ananassa_USA_2012","ELD","pan trap","Apis mellifera","Species","honeybees",2,NA,NA,NA,"5 pan traps per site 2 m apart.Temporal replicates: 2x per season",NA
"Heather_Lee_Grab_Fragaria_ananassa_USA_2012","ELD","pan trap","Apis mellifera","Species","honeybees",1,NA,NA,NA,"5 pan traps per site 2 m apart.Temporal replicates: 2x per season",NA
"Heather_Lee_Grab_Fragaria_ananassa_USA_2012","FV","pan trap","Apis mellifera","Species","honeybees",1,NA,NA,NA,"5 pan traps per site 2 m apart.Temporal replicates: 2x per season",NA
"Heather_Lee_Grab_Fragaria_ananassa_USA_2012","GS","pan trap","Apis mellifera","Species","honeybees",2,NA,NA,NA,"5 pan traps per site 2 m apart.Temporal replicates: 2x per season",NA
"Heather_Lee_Grab_Fragaria_ananassa_USA_2012","GS","pan trap","Apis mellifera","Species","honeybees",1,NA,NA,NA,"5 pan traps per site 2 m apart.Temporal replicates: 2x per season",NA
"Heather_Lee_Grab_Fragaria_ananassa_USA_2012","GRS","pan trap","Apis mellifera","Species","honeybees",5,NA,NA,NA,"5 pan traps per site 2 m apart.Temporal replicates: 2x per season",NA
"Heather_Lee_Grab_Fragaria_ananassa_USA_2012","GRS","pan trap","Apis mellifera","Species","honeybees",1,NA,NA,NA,"5 pan traps per site 2 m apart.Temporal replicates: 2x per season",NA
"Heather_Lee_Grab_Fragaria_ananassa_USA_2012","LAG","pan trap","Apis mellifera","Species","honeybees",12,NA,NA,NA,"5 pan traps per site 2 m apart.Temporal replicates: 2x per season",NA
"Heather_Lee_Grab_Fragaria_ananassa_USA_2012","REV","pan trap","Apis mellifera","Species","honeybees",2,NA,NA,NA,"5 pan traps per site 2 m apart.Temporal replicates: 2x per season",NA
"Heather_Lee_Grab_Fragaria_ananassa_USA_2012","WH","pan trap","Apis mellifera","Species","honeybees",2,NA,NA,NA,"5 pan traps per site 2 m apart.Temporal replicates: 2x per season",NA
"Heather_Lee_Grab_Fragaria_ananassa_USA_2012","BH","pan trap","Apis mellifera","Species","honeybees",1,NA,NA,NA,"5 pan traps per site 2 m apart.Temporal replicates: 2x per season",NA
"Heather_Lee_Grab_Fragaria_ananassa_USA_2012","BH","pan trap","Apis mellifera","Species","honeybees",1,NA,NA,NA,"5 pan traps per site 2 m apart.Temporal replicates: 2x per season",NA
"Heather_Lee_Grab_Fragaria_ananassa_USA_2012","BS","pan trap","Apis mellifera","Species","honeybees",2,NA,NA,NA,"5 pan traps per site 2 m apart.Temporal replicates: 2x per season",NA
"Heather_Lee_Grab_Fragaria_ananassa_USA_2012","BT","pan trap","Apis mellifera","Species","honeybees",1,NA,NA,NA,"5 pan traps per site 2 m apart.Temporal replicates: 2x per season",NA
"Heather_Lee_Grab_Fragaria_ananassa_USA_2012","ELD","pan trap","Apis mellifera","Species","honeybees",2,NA,NA,NA,"5 pan traps per site 2 m apart.Temporal replicates: 2x per season",NA
"Heather_Lee_Grab_Fragaria_ananassa_USA_2012","ELD","pan trap","Apis mellifera","Species","honeybees",9,NA,NA,NA,"5 pan traps per site 2 m apart.Temporal replicates: 2x per season",NA
"Heather_Lee_Grab_Fragaria_ananassa_USA_2012","ELD","pan trap","Apis mellifera","Species","honeybees",3,NA,NA,NA,"5 pan traps per site 2 m apart.Temporal replicates: 2x per season",NA
"Heather_Lee_Grab_Fragaria_ananassa_USA_2012","FLZ","pan trap","Apis mellifera","Species","honeybees",2,NA,NA,NA,"5 pan traps per site 2 m apart.Temporal replicates: 2x per season",NA
"Heather_Lee_Grab_Fragaria_ananassa_USA_2012","FLZ","pan trap","Apis mellifera","Species","honeybees",1,NA,NA,NA,"5 pan traps per site 2 m apart.Temporal replicates: 2x per season",NA
"Heather_Lee_Grab_Fragaria_ananassa_USA_2012","FV","pan trap","Apis mellifera","Species","honeybees",1,NA,NA,NA,"5 pan traps per site 2 m apart.Temporal replicates: 2x per season",NA
"Heather_Lee_Grab_Fragaria_ananassa_USA_2012","FV","pan trap","Apis mellifera","Species","honeybees",1,NA,NA,NA,"5 pan traps per site 2 m apart.Temporal replicates: 2x per season",NA
"Heather_Lee_Grab_Fragaria_ananassa_USA_2012","FV","pan trap","Apis mellifera","Species","honeybees",4,NA,NA,NA,"5 pan traps per site 2 m apart.Temporal replicates: 2x per season",NA
"Heather_Lee_Grab_Fragaria_ananassa_USA_2012","FV","pan trap","Apis mellifera","Species","honeybees",4,NA,NA,NA,"5 pan traps per site 2 m apart.Temporal replicates: 2x per season",NA
"Heather_Lee_Grab_Fragaria_ananassa_USA_2012","FV","pan trap","Apis mellifera","Species","honeybees",5,NA,NA,NA,"5 pan traps per site 2 m apart.Temporal replicates: 2x per season",NA
"Heather_Lee_Grab_Fragaria_ananassa_USA_2012","GS","pan trap","Apis mellifera","Species","honeybees",1,NA,NA,NA,"5 pan traps per site 2 m apart.Temporal replicates: 2x per season",NA
"Heather_Lee_Grab_Fragaria_ananassa_USA_2012","GS","pan trap","Apis mellifera","Species","honeybees",1,NA,NA,NA,"5 pan traps per site 2 m apart.Temporal replicates: 2x per season",NA
"Heather_Lee_Grab_Fragaria_ananassa_USA_2012","GRS","pan trap","Apis mellifera","Species","honeybees",1,NA,NA,NA,"5 pan traps per site 2 m apart.Temporal replicates: 2x per season",NA
"Heather_Lee_Grab_Fragaria_ananassa_USA_2012","KP","pan trap","Apis mellifera","Species","honeybees",1,NA,NA,NA,"5 pan traps per site 2 m apart.Temporal replicates: 2x per season",NA
"Heather_Lee_Grab_Fragaria_ananassa_USA_2012","SQ","pan trap","Apis mellifera","Species","honeybees",1,NA,NA,NA,"5 pan traps per site 2 m apart.Temporal replicates: 2x per season",NA
"Heather_Lee_Grab_Fragaria_ananassa_USA_2012","WH","pan trap","Apis mellifera","Species","honeybees",1,NA,NA,NA,"5 pan traps per site 2 m apart.Temporal replicates: 2x per season",NA
"Heather_Lee_Grab_Fragaria_ananassa_USA_2012","WBT","pan trap","Apis mellifera","Species","honeybees",1,NA,NA,NA,"5 pan traps per site 2 m apart.Temporal replicates: 2x per season",NA
"Heather_Lee_Grab_Fragaria_ananassa_USA_2012","FV","pan trap","Augochlora pura","Species","other_wild_bees",1,NA,NA,NA,"5 pan traps per site 2 m apart.Temporal replicates: 2x per season",NA
"Heather_Lee_Grab_Fragaria_ananassa_USA_2012","WBT","pan trap","Augochlora pura","Species","other_wild_bees",2,NA,NA,NA,"5 pan traps per site 2 m apart.Temporal replicates: 2x per season",NA
"Heather_Lee_Grab_Fragaria_ananassa_USA_2012","BT","sweep netting","Augochlorella aurata","Species","other_wild_bees",1,NA,NA,NA,"5 pan traps per site 2 m apart.Temporal replicates: 2x per season",NA
"Heather_Lee_Grab_Fragaria_ananassa_USA_2012","ELD","sweep netting","Augochlorella aurata","Species","other_wild_bees",1,NA,NA,NA,"5 pan traps per site 2 m apart.Temporal replicates: 2x per season",NA
"Heather_Lee_Grab_Fragaria_ananassa_USA_2012","FLZ","sweep netting","Augochlorella aurata","Species","other_wild_bees",1,NA,NA,NA,"5 pan traps per site 2 m apart.Temporal replicates: 2x per season",NA
"Heather_Lee_Grab_Fragaria_ananassa_USA_2012","FV","sweep netting","Augochlorella aurata","Species","other_wild_bees",2,NA,NA,NA,"5 pan traps per site 2 m apart.Temporal replicates: 2x per season",NA
"Heather_Lee_Grab_Fragaria_ananassa_USA_2012","SLD","sweep netting","Augochlorella aurata","Species","other_wild_bees",1,NA,NA,NA,"5 pan traps per site 2 m apart.Temporal replicates: 2x per season",NA
"Heather_Lee_Grab_Fragaria_ananassa_USA_2012","BH","pan trap","Augochlorella aurata","Species","other_wild_bees",3,NA,NA,NA,"5 pan traps per site 2 m apart.Temporal replicates: 2x per season",NA
"Heather_Lee_Grab_Fragaria_ananassa_USA_2012","BH","pan trap","Augochlorella aurata","Species","other_wild_bees",1,NA,NA,NA,"5 pan traps per site 2 m apart.Temporal replicates: 2x per season",NA
"Heather_Lee_Grab_Fragaria_ananassa_USA_2012","BS","pan trap","Augochlorella aurata","Species","other_wild_bees",3,NA,NA,NA,"5 pan traps per site 2 m apart.Temporal replicates: 2x per season",NA
"Heather_Lee_Grab_Fragaria_ananassa_USA_2012","DAR","pan trap","Augochlorella aurata","Species","other_wild_bees",3,NA,NA,NA,"5 pan traps per site 2 m apart.Temporal replicates: 2x per season",NA
"Heather_Lee_Grab_Fragaria_ananassa_USA_2012","ELD","pan trap","Augochlorella aurata","Species","other_wild_bees",2,NA,NA,NA,"5 pan traps per site 2 m apart.Temporal replicates: 2x per season",NA
"Heather_Lee_Grab_Fragaria_ananassa_USA_2012","ELD","pan trap","Augochlorella aurata","Species","other_wild_bees",2,NA,NA,NA,"5 pan traps per site 2 m apart.Temporal replicates: 2x per season",NA
"Heather_Lee_Grab_Fragaria_ananassa_USA_2012","FLZ","pan trap","Augochlorella aurata","Species","other_wild_bees",2,NA,NA,NA,"5 pan traps per site 2 m apart.Temporal replicates: 2x per season",NA
"Heather_Lee_Grab_Fragaria_ananassa_USA_2012","FV","pan trap","Augochlorella aurata","Species","other_wild_bees",1,NA,NA,NA,"5 pan traps per site 2 m apart.Temporal replicates: 2x per season",NA
"Heather_Lee_Grab_Fragaria_ananassa_USA_2012","FV","pan trap","Augochlorella aurata","Species","other_wild_bees",4,NA,NA,NA,"5 pan traps per site 2 m apart.Temporal replicates: 2x per season",NA
"Heather_Lee_Grab_Fragaria_ananassa_USA_2012","GS","pan trap","Augochlorella aurata","Species","other_wild_bees",2,NA,NA,NA,"5 pan traps per site 2 m apart.Temporal replicates: 2x per season",NA
"Heather_Lee_Grab_Fragaria_ananassa_USA_2012","GRS","pan trap","Augochlorella aurata","Species","other_wild_bees",2,NA,NA,NA,"5 pan traps per site 2 m apart.Temporal replicates: 2x per season",NA
"Heather_Lee_Grab_Fragaria_ananassa_USA_2012","KP","pan trap","Augochlorella aurata","Species","other_wild_bees",3,NA,NA,NA,"5 pan traps per site 2 m apart.Temporal replicates: 2x per season",NA
"Heather_Lee_Grab_Fragaria_ananassa_USA_2012","SLD","pan trap","Augochlorella aurata","Species","other_wild_bees",1,NA,NA,NA,"5 pan traps per site 2 m apart.Temporal replicates: 2x per season",NA
"Heather_Lee_Grab_Fragaria_ananassa_USA_2012","WH","pan trap","Augochlorella aurata","Species","other_wild_bees",1,NA,NA,NA,"5 pan traps per site 2 m apart.Temporal replicates: 2x per season",NA
"Heather_Lee_Grab_Fragaria_ananassa_USA_2012","WBT","pan trap","Augochlorella aurata","Species","other_wild_bees",2,NA,NA,NA,"5 pan traps per site 2 m apart.Temporal replicates: 2x per season",NA
"Heather_Lee_Grab_Fragaria_ananassa_USA_2012","WBT","pan trap","Augochlorella aurata","Species","other_wild_bees",1,NA,NA,NA,"5 pan traps per site 2 m apart.Temporal replicates: 2x per season",NA
"Heather_Lee_Grab_Fragaria_ananassa_USA_2012","BH","pan trap","Augochlorella aurata","Species","other_wild_bees",12,NA,NA,NA,"5 pan traps per site 2 m apart.Temporal replicates: 2x per season",NA
"Heather_Lee_Grab_Fragaria_ananassa_USA_2012","BH","pan trap","Augochlorella aurata","Species","other_wild_bees",1,NA,NA,NA,"5 pan traps per site 2 m apart.Temporal replicates: 2x per season",NA
"Heather_Lee_Grab_Fragaria_ananassa_USA_2012","BS","pan trap","Augochlorella aurata","Species","other_wild_bees",3,NA,NA,NA,"5 pan traps per site 2 m apart.Temporal replicates: 2x per season",NA
"Heather_Lee_Grab_Fragaria_ananassa_USA_2012","BS","pan trap","Augochlorella aurata","Species","other_wild_bees",1,NA,NA,NA,"5 pan traps per site 2 m apart.Temporal replicates: 2x per season",NA
"Heather_Lee_Grab_Fragaria_ananassa_USA_2012","DAR","pan trap","Augochlorella aurata","Species","other_wild_bees",3,NA,NA,NA,"5 pan traps per site 2 m apart.Temporal replicates: 2x per season",NA
"Heather_Lee_Grab_Fragaria_ananassa_USA_2012","ELD","pan trap","Augochlorella aurata","Species","other_wild_bees",6,NA,NA,NA,"5 pan traps per site 2 m apart.Temporal replicates: 2x per season",NA
"Heather_Lee_Grab_Fragaria_ananassa_USA_2012","ELD","pan trap","Augochlorella aurata","Species","other_wild_bees",2,NA,NA,NA,"5 pan traps per site 2 m apart.Temporal replicates: 2x per season",NA
"Heather_Lee_Grab_Fragaria_ananassa_USA_2012","ELD","pan trap","Augochlorella aurata","Species","other_wild_bees",1,NA,NA,NA,"5 pan traps per site 2 m apart.Temporal replicates: 2x per season",NA
"Heather_Lee_Grab_Fragaria_ananassa_USA_2012","FLZ","pan trap","Augochlorella aurata","Species","other_wild_bees",2,NA,NA,NA,"5 pan traps per site 2 m apart.Temporal replicates: 2x per season",NA
"Heather_Lee_Grab_Fragaria_ananassa_USA_2012","FLZ","pan trap","Augochlorella aurata","Species","other_wild_bees",4,NA,NA,NA,"5 pan traps per site 2 m apart.Temporal replicates: 2x per season",NA
"Heather_Lee_Grab_Fragaria_ananassa_USA_2012","FV","pan trap","Augochlorella aurata","Species","other_wild_bees",2,NA,NA,NA,"5 pan traps per site 2 m apart.Temporal replicates: 2x per season",NA
"Heather_Lee_Grab_Fragaria_ananassa_USA_2012","GRS","pan trap","Augochlorella aurata","Species","other_wild_bees",1,NA,NA,NA,"5 pan traps per site 2 m apart.Temporal replicates: 2x per season",NA
"Heather_Lee_Grab_Fragaria_ananassa_USA_2012","GRS","pan trap","Augochlorella aurata","Species","other_wild_bees",1,NA,NA,NA,"5 pan traps per site 2 m apart.Temporal replicates: 2x per season",NA
"Heather_Lee_Grab_Fragaria_ananassa_USA_2012","KP","pan trap","Augochlorella aurata","Species","other_wild_bees",1,NA,NA,NA,"5 pan traps per site 2 m apart.Temporal replicates: 2x per season",NA
"Heather_Lee_Grab_Fragaria_ananassa_USA_2012","SQ","pan trap","Augochlorella aurata","Species","other_wild_bees",2,NA,NA,NA,"5 pan traps per site 2 m apart.Temporal replicates: 2x per season",NA
"Heather_Lee_Grab_Fragaria_ananassa_USA_2012","SQ","pan trap","Augochlorella aurata","Species","other_wild_bees",1,NA,NA,NA,"5 pan traps per site 2 m apart.Temporal replicates: 2x per season",NA
"Heather_Lee_Grab_Fragaria_ananassa_USA_2012","WH","pan trap","Augochlorella aurata","Species","other_wild_bees",1,NA,NA,NA,"5 pan traps per site 2 m apart.Temporal replicates: 2x per season",NA
"Heather_Lee_Grab_Fragaria_ananassa_USA_2012","WH","pan trap","Augochlorella aurata","Species","other_wild_bees",12,NA,NA,NA,"5 pan traps per site 2 m apart.Temporal replicates: 2x per season",NA
"Heather_Lee_Grab_Fragaria_ananassa_USA_2012","WBT","pan trap","Augochlorella aurata","Species","other_wild_bees",9,NA,NA,NA,"5 pan traps per site 2 m apart.Temporal replicates: 2x per season",NA
"Heather_Lee_Grab_Fragaria_ananassa_USA_2012","WBT","pan trap","Augochlorella aurata","Species","other_wild_bees",1,NA,NA,NA,"5 pan traps per site 2 m apart.Temporal replicates: 2x per season",NA
"Heather_Lee_Grab_Fragaria_ananassa_USA_2012","BS","pan trap","Bombus impatiens","Species","bumblebees",1,NA,NA,NA,"5 pan traps per site 2 m apart.Temporal replicates: 2x per season",NA
"Heather_Lee_Grab_Fragaria_ananassa_USA_2012","BT","pan trap","Bombus impatiens","Species","bumblebees",1,NA,NA,NA,"5 pan traps per site 2 m apart.Temporal replicates: 2x per season",NA
"Heather_Lee_Grab_Fragaria_ananassa_USA_2012","KP","pan trap","Bombus impatiens","Species","bumblebees",1,NA,NA,NA,"5 pan traps per site 2 m apart.Temporal replicates: 2x per season",NA
"Heather_Lee_Grab_Fragaria_ananassa_USA_2012","LAG","pan trap","Bombus impatiens","Species","bumblebees",1,NA,NA,NA,"5 pan traps per site 2 m apart.Temporal replicates: 2x per season",NA
"Heather_Lee_Grab_Fragaria_ananassa_USA_2012","ELD","sweep netting","Ceratina calcarata","Species","other_wild_bees",4,NA,NA,NA,"5 pan traps per site 2 m apart.Temporal replicates: 2x per season",NA
"Heather_Lee_Grab_Fragaria_ananassa_USA_2012","FLZ","sweep netting","Ceratina calcarata","Species","other_wild_bees",6,NA,NA,NA,"5 pan traps per site 2 m apart.Temporal replicates: 2x per season",NA
"Heather_Lee_Grab_Fragaria_ananassa_USA_2012","KP","sweep netting","Ceratina calcarata","Species","other_wild_bees",3,NA,NA,NA,"5 pan traps per site 2 m apart.Temporal replicates: 2x per season",NA
"Heather_Lee_Grab_Fragaria_ananassa_USA_2012","WH","sweep netting","Ceratina calcarata","Species","other_wild_bees",6,NA,NA,NA,"5 pan traps per site 2 m apart.Temporal replicates: 2x per season",NA
"Heather_Lee_Grab_Fragaria_ananassa_USA_2012","BT","pan trap","Ceratina calcarata","Species","other_wild_bees",1,NA,NA,NA,"5 pan traps per site 2 m apart.Temporal replicates: 2x per season",NA
"Heather_Lee_Grab_Fragaria_ananassa_USA_2012","ELD","pan trap","Ceratina calcarata","Species","other_wild_bees",5,NA,NA,NA,"5 pan traps per site 2 m apart.Temporal replicates: 2x per season",NA
"Heather_Lee_Grab_Fragaria_ananassa_USA_2012","FV","pan trap","Ceratina calcarata","Species","other_wild_bees",1,NA,NA,NA,"5 pan traps per site 2 m apart.Temporal replicates: 2x per season",NA
"Heather_Lee_Grab_Fragaria_ananassa_USA_2012","GRS","pan trap","Ceratina calcarata","Species","other_wild_bees",1,NA,NA,NA,"5 pan traps per site 2 m apart.Temporal replicates: 2x per season",NA
"Heather_Lee_Grab_Fragaria_ananassa_USA_2012","KP","pan trap","Ceratina calcarata","Species","other_wild_bees",1,NA,NA,NA,"5 pan traps per site 2 m apart.Temporal replicates: 2x per season",NA
"Heather_Lee_Grab_Fragaria_ananassa_USA_2012","WH","pan trap","Ceratina calcarata","Species","other_wild_bees",1,NA,NA,NA,"5 pan traps per site 2 m apart.Temporal replicates: 2x per season",NA
"Heather_Lee_Grab_Fragaria_ananassa_USA_2012","DAR","pan trap","Ceratina calcarata","Species","other_wild_bees",6,NA,NA,NA,"5 pan traps per site 2 m apart.Temporal replicates: 2x per season",NA
"Heather_Lee_Grab_Fragaria_ananassa_USA_2012","ELD","pan trap","Ceratina calcarata","Species","other_wild_bees",9,NA,NA,NA,"5 pan traps per site 2 m apart.Temporal replicates: 2x per season",NA
"Heather_Lee_Grab_Fragaria_ananassa_USA_2012","ELD","pan trap","Ceratina calcarata","Species","other_wild_bees",6,NA,NA,NA,"5 pan traps per site 2 m apart.Temporal replicates: 2x per season",NA
"Heather_Lee_Grab_Fragaria_ananassa_USA_2012","FLZ","pan trap","Ceratina calcarata","Species","other_wild_bees",2,NA,NA,NA,"5 pan traps per site 2 m apart.Temporal replicates: 2x per season",NA
"Heather_Lee_Grab_Fragaria_ananassa_USA_2012","FV","pan trap","Ceratina calcarata","Species","other_wild_bees",56,NA,NA,NA,"5 pan traps per site 2 m apart.Temporal replicates: 2x per season",NA
"Heather_Lee_Grab_Fragaria_ananassa_USA_2012","GS","pan trap","Ceratina calcarata","Species","other_wild_bees",3,NA,NA,NA,"5 pan traps per site 2 m apart.Temporal replicates: 2x per season",NA
"Heather_Lee_Grab_Fragaria_ananassa_USA_2012","REV","pan trap","Ceratina calcarata","Species","other_wild_bees",1,NA,NA,NA,"5 pan traps per site 2 m apart.Temporal replicates: 2x per season",NA
"Heather_Lee_Grab_Fragaria_ananassa_USA_2012","SL","pan trap","Ceratina calcarata","Species","other_wild_bees",1,NA,NA,NA,"5 pan traps per site 2 m apart.Temporal replicates: 2x per season",NA
"Heather_Lee_Grab_Fragaria_ananassa_USA_2012","WBT","pan trap","Ceratina calcarata","Species","other_wild_bees",9,NA,NA,NA,"5 pan traps per site 2 m apart.Temporal replicates: 2x per season",NA
"Heather_Lee_Grab_Fragaria_ananassa_USA_2012","KP","sweep netting","Ceratina dupla","Species","other_wild_bees",3,NA,NA,NA,"5 pan traps per site 2 m apart.Temporal replicates: 2x per season",NA
"Heather_Lee_Grab_Fragaria_ananassa_USA_2012","WH","sweep netting","Ceratina dupla","Species","other_wild_bees",15,NA,NA,NA,"5 pan traps per site 2 m apart.Temporal replicates: 2x per season",NA
"Heather_Lee_Grab_Fragaria_ananassa_USA_2012","ELD","pan trap","Ceratina dupla","Species","other_wild_bees",1,NA,NA,NA,"5 pan traps per site 2 m apart.Temporal replicates: 2x per season",NA
"Heather_Lee_Grab_Fragaria_ananassa_USA_2012","FV","pan trap","Ceratina dupla","Species","other_wild_bees",2,NA,NA,NA,"5 pan traps per site 2 m apart.Temporal replicates: 2x per season",NA
"Heather_Lee_Grab_Fragaria_ananassa_USA_2012","GS","pan trap","Ceratina dupla","Species","other_wild_bees",1,NA,NA,NA,"5 pan traps per site 2 m apart.Temporal replicates: 2x per season",NA
"Heather_Lee_Grab_Fragaria_ananassa_USA_2012","BT","sweep netting","Ceratina mikmaqi","Species","other_wild_bees",2,NA,NA,NA,"5 pan traps per site 2 m apart.Temporal replicates: 2x per season",NA
"Heather_Lee_Grab_Fragaria_ananassa_USA_2012","DAR","sweep netting","Ceratina mikmaqi","Species","other_wild_bees",1,NA,NA,NA,"5 pan traps per site 2 m apart.Temporal replicates: 2x per season",NA
"Heather_Lee_Grab_Fragaria_ananassa_USA_2012","ELD","sweep netting","Ceratina mikmaqi","Species","other_wild_bees",1,NA,NA,NA,"5 pan traps per site 2 m apart.Temporal replicates: 2x per season",NA
"Heather_Lee_Grab_Fragaria_ananassa_USA_2012","BS","pan trap","Ceratina mikmaqi","Species","other_wild_bees",2,NA,NA,NA,"5 pan traps per site 2 m apart.Temporal replicates: 2x per season",NA
"Heather_Lee_Grab_Fragaria_ananassa_USA_2012","BS","pan trap","Ceratina mikmaqi","Species","other_wild_bees",1,NA,NA,NA,"5 pan traps per site 2 m apart.Temporal replicates: 2x per season",NA
"Heather_Lee_Grab_Fragaria_ananassa_USA_2012","ELD","pan trap","Ceratina mikmaqi","Species","other_wild_bees",3,NA,NA,NA,"5 pan traps per site 2 m apart.Temporal replicates: 2x per season",NA
"Heather_Lee_Grab_Fragaria_ananassa_USA_2012","ELD","pan trap","Ceratina mikmaqi","Species","other_wild_bees",42,NA,NA,NA,"5 pan traps per site 2 m apart.Temporal replicates: 2x per season",NA
"Heather_Lee_Grab_Fragaria_ananassa_USA_2012","ELD","pan trap","Ceratina mikmaqi","Species","other_wild_bees",1,NA,NA,NA,"5 pan traps per site 2 m apart.Temporal replicates: 2x per season",NA
"Heather_Lee_Grab_Fragaria_ananassa_USA_2012","KP","pan trap","Ceratina mikmaqi","Species","other_wild_bees",1,NA,NA,NA,"5 pan traps per site 2 m apart.Temporal replicates: 2x per season",NA
"Heather_Lee_Grab_Fragaria_ananassa_USA_2012","LAG","pan trap","Ceratina mikmaqi","Species","other_wild_bees",1,NA,NA,NA,"5 pan traps per site 2 m apart.Temporal replicates: 2x per season",NA
"Heather_Lee_Grab_Fragaria_ananassa_USA_2012","BH","sweep netting","Halictus confusus","Species","other_wild_bees",1,NA,NA,NA,"5 pan traps per site 2 m apart.Temporal replicates: 2x per season",NA
"Heather_Lee_Grab_Fragaria_ananassa_USA_2012","BT","sweep netting","Halictus confusus","Species","other_wild_bees",8,NA,NA,NA,"5 pan traps per site 2 m apart.Temporal replicates: 2x per season",NA
"Heather_Lee_Grab_Fragaria_ananassa_USA_2012","WBT","sweep netting","Halictus confusus","Species","other_wild_bees",1,NA,NA,NA,"5 pan traps per site 2 m apart.Temporal replicates: 2x per season",NA
"Heather_Lee_Grab_Fragaria_ananassa_USA_2012","BH","pan trap","Halictus confusus","Species","other_wild_bees",1,NA,NA,NA,"5 pan traps per site 2 m apart.Temporal replicates: 2x per season",NA
"Heather_Lee_Grab_Fragaria_ananassa_USA_2012","BS","pan trap","Halictus confusus","Species","other_wild_bees",1,NA,NA,NA,"5 pan traps per site 2 m apart.Temporal replicates: 2x per season",NA
"Heather_Lee_Grab_Fragaria_ananassa_USA_2012","BS","pan trap","Halictus confusus","Species","other_wild_bees",4,NA,NA,NA,"5 pan traps per site 2 m apart.Temporal replicates: 2x per season",NA
"Heather_Lee_Grab_Fragaria_ananassa_USA_2012","BS","pan trap","Halictus confusus","Species","other_wild_bees",2,NA,NA,NA,"5 pan traps per site 2 m apart.Temporal replicates: 2x per season",NA
"Heather_Lee_Grab_Fragaria_ananassa_USA_2012","BT","pan trap","Halictus confusus","Species","other_wild_bees",1,NA,NA,NA,"5 pan traps per site 2 m apart.Temporal replicates: 2x per season",NA
"Heather_Lee_Grab_Fragaria_ananassa_USA_2012","ELD","pan trap","Halictus confusus","Species","other_wild_bees",3,NA,NA,NA,"5 pan traps per site 2 m apart.Temporal replicates: 2x per season",NA
"Heather_Lee_Grab_Fragaria_ananassa_USA_2012","ELD","pan trap","Halictus confusus","Species","other_wild_bees",4,NA,NA,NA,"5 pan traps per site 2 m apart.Temporal replicates: 2x per season",NA
"Heather_Lee_Grab_Fragaria_ananassa_USA_2012","ELD","pan trap","Halictus confusus","Species","other_wild_bees",1,NA,NA,NA,"5 pan traps per site 2 m apart.Temporal replicates: 2x per season",NA
"Heather_Lee_Grab_Fragaria_ananassa_USA_2012","GS","pan trap","Halictus confusus","Species","other_wild_bees",1,NA,NA,NA,"5 pan traps per site 2 m apart.Temporal replicates: 2x per season",NA
"Heather_Lee_Grab_Fragaria_ananassa_USA_2012","GRS","pan trap","Halictus confusus","Species","other_wild_bees",1,NA,NA,NA,"5 pan traps per site 2 m apart.Temporal replicates: 2x per season",NA
"Heather_Lee_Grab_Fragaria_ananassa_USA_2012","KP","pan trap","Halictus confusus","Species","other_wild_bees",14,NA,NA,NA,"5 pan traps per site 2 m apart.Temporal replicates: 2x per season",NA
"Heather_Lee_Grab_Fragaria_ananassa_USA_2012","DAR","pan trap","Halictus ligatus","Species","other_wild_bees",3,NA,NA,NA,"5 pan traps per site 2 m apart.Temporal replicates: 2x per season",NA
"Heather_Lee_Grab_Fragaria_ananassa_USA_2012","ELD","pan trap","Halictus ligatus","Species","other_wild_bees",1,NA,NA,NA,"5 pan traps per site 2 m apart.Temporal replicates: 2x per season",NA
"Heather_Lee_Grab_Fragaria_ananassa_USA_2012","WH","sweep netting","Hoplitis producta","Species","other_wild_bees",1,NA,NA,NA,"5 pan traps per site 2 m apart.Temporal replicates: 2x per season",NA
"Heather_Lee_Grab_Fragaria_ananassa_USA_2012","GS","pan trap","Hoplitis producta","Species","other_wild_bees",1,NA,NA,NA,"5 pan traps per site 2 m apart.Temporal replicates: 2x per season",NA
"Heather_Lee_Grab_Fragaria_ananassa_USA_2012","GRS","pan trap","Hoplitis simplex","Species","other_wild_bees",1,NA,NA,NA,"5 pan traps per site 2 m apart.Temporal replicates: 2x per season",NA
"Heather_Lee_Grab_Fragaria_ananassa_USA_2012","WH","pan trap","Hylaeus affinis","Species","other_wild_bees",1,NA,NA,NA,"5 pan traps per site 2 m apart.Temporal replicates: 2x per season",NA
"Heather_Lee_Grab_Fragaria_ananassa_USA_2012","LAG","pan trap","Hylaeus annulatus","Species","other_wild_bees",1,NA,NA,NA,"5 pan traps per site 2 m apart.Temporal replicates: 2x per season",NA
"Heather_Lee_Grab_Fragaria_ananassa_USA_2012","ELD","sweep netting","Hylaeus mesillae","Species","other_wild_bees",1,NA,NA,NA,"5 pan traps per site 2 m apart.Temporal replicates: 2x per season",NA
"Heather_Lee_Grab_Fragaria_ananassa_USA_2012","GRS","sweep netting","Hylaeus mesillae","Species","other_wild_bees",1,NA,NA,NA,"5 pan traps per site 2 m apart.Temporal replicates: 2x per season",NA
"Heather_Lee_Grab_Fragaria_ananassa_USA_2012","BS","pan trap","Hylaeus mesillae","Species","other_wild_bees",1,NA,NA,NA,"5 pan traps per site 2 m apart.Temporal replicates: 2x per season",NA
"Heather_Lee_Grab_Fragaria_ananassa_USA_2012","FLZ","pan trap","Hylaeus mesillae","Species","other_wild_bees",1,NA,NA,NA,"5 pan traps per site 2 m apart.Temporal replicates: 2x per season",NA
"Heather_Lee_Grab_Fragaria_ananassa_USA_2012","FLZ","pan trap","Hylaeus mesillae","Species","other_wild_bees",1,NA,NA,NA,"5 pan traps per site 2 m apart.Temporal replicates: 2x per season",NA
"Heather_Lee_Grab_Fragaria_ananassa_USA_2012","KP","pan trap","Hylaeus mesillae","Species","other_wild_bees",4,NA,NA,NA,"5 pan traps per site 2 m apart.Temporal replicates: 2x per season",NA
"Heather_Lee_Grab_Fragaria_ananassa_USA_2012","BS","pan trap","Lasioglossum abanci","Species","other_wild_bees",1,NA,NA,NA,"5 pan traps per site 2 m apart.Temporal replicates: 2x per season",NA
"Heather_Lee_Grab_Fragaria_ananassa_USA_2012","KP","pan trap","Lasioglossum abanci","Species","other_wild_bees",1,NA,NA,NA,"5 pan traps per site 2 m apart.Temporal replicates: 2x per season",NA
"Heather_Lee_Grab_Fragaria_ananassa_USA_2012","BS","pan trap","Lasioglossum admirandum","Species","other_wild_bees",2,NA,NA,NA,"5 pan traps per site 2 m apart.Temporal replicates: 2x per season",NA
"Heather_Lee_Grab_Fragaria_ananassa_USA_2012","BT","pan trap","Lasioglossum admirandum","Species","other_wild_bees",1,NA,NA,NA,"5 pan traps per site 2 m apart.Temporal replicates: 2x per season",NA
"Heather_Lee_Grab_Fragaria_ananassa_USA_2012","ELD","pan trap","Lasioglossum admirandum","Species","other_wild_bees",1,NA,NA,NA,"5 pan traps per site 2 m apart.Temporal replicates: 2x per season",NA
"Heather_Lee_Grab_Fragaria_ananassa_USA_2012","WH","pan trap","Lasioglossum admirandum","Species","other_wild_bees",1,NA,NA,NA,"5 pan traps per site 2 m apart.Temporal replicates: 2x per season",NA
"Heather_Lee_Grab_Fragaria_ananassa_USA_2012","BT","pan trap","Lasioglossum admirandum","Species","other_wild_bees",1,NA,NA,NA,"5 pan traps per site 2 m apart.Temporal replicates: 2x per season",NA
"Heather_Lee_Grab_Fragaria_ananassa_USA_2012","DAR","pan trap","Lasioglossum admirandum","Species","other_wild_bees",1,NA,NA,NA,"5 pan traps per site 2 m apart.Temporal replicates: 2x per season",NA
"Heather_Lee_Grab_Fragaria_ananassa_USA_2012","ELD","pan trap","Lasioglossum admirandum","Species","other_wild_bees",2,NA,NA,NA,"5 pan traps per site 2 m apart.Temporal replicates: 2x per season",NA
"Heather_Lee_Grab_Fragaria_ananassa_USA_2012","KP","pan trap","Lasioglossum admirandum","Species","other_wild_bees",1,NA,NA,NA,"5 pan traps per site 2 m apart.Temporal replicates: 2x per season",NA
"Heather_Lee_Grab_Fragaria_ananassa_USA_2012","REV","pan trap","Lasioglossum admirandum","Species","other_wild_bees",1,NA,NA,NA,"5 pan traps per site 2 m apart.Temporal replicates: 2x per season",NA
"Heather_Lee_Grab_Fragaria_ananassa_USA_2012","SL","pan trap","Lasioglossum admirandum","Species","other_wild_bees",1,NA,NA,NA,"5 pan traps per site 2 m apart.Temporal replicates: 2x per season",NA
"Heather_Lee_Grab_Fragaria_ananassa_USA_2012","BT","sweep netting","Lasioglossum coriaceum","Species","other_wild_bees",1,NA,NA,NA,"5 pan traps per site 2 m apart.Temporal replicates: 2x per season",NA
"Heather_Lee_Grab_Fragaria_ananassa_USA_2012","ELD","pan trap","Lasioglossum coriaceum","Species","other_wild_bees",1,NA,NA,NA,"5 pan traps per site 2 m apart.Temporal replicates: 2x per season",NA
"Heather_Lee_Grab_Fragaria_ananassa_USA_2012","ELD","pan trap","Lasioglossum coriaceum","Species","other_wild_bees",1,NA,NA,NA,"5 pan traps per site 2 m apart.Temporal replicates: 2x per season",NA
"Heather_Lee_Grab_Fragaria_ananassa_USA_2012","FLZ","pan trap","Lasioglossum coriaceum","Species","other_wild_bees",1,NA,NA,NA,"5 pan traps per site 2 m apart.Temporal replicates: 2x per season",NA
"Heather_Lee_Grab_Fragaria_ananassa_USA_2012","ELD","pan trap","Lasioglossum coriaceum","Species","other_wild_bees",1,NA,NA,NA,"5 pan traps per site 2 m apart.Temporal replicates: 2x per season",NA
"Heather_Lee_Grab_Fragaria_ananassa_USA_2012","SL","pan trap","Lasioglossum coriaceum","Species","other_wild_bees",2,NA,NA,NA,"5 pan traps per site 2 m apart.Temporal replicates: 2x per season",NA
"Heather_Lee_Grab_Fragaria_ananassa_USA_2012","WH","pan trap","Lasioglossum coriaceum","Species","other_wild_bees",7,NA,NA,NA,"5 pan traps per site 2 m apart.Temporal replicates: 2x per season",NA
"Heather_Lee_Grab_Fragaria_ananassa_USA_2012","WH","pan trap","Lasioglossum coriaceum","Species","other_wild_bees",1,NA,NA,NA,"5 pan traps per site 2 m apart.Temporal replicates: 2x per season",NA
"Heather_Lee_Grab_Fragaria_ananassa_USA_2012","FV","sweep netting","Lasioglossum ephialtum","Species","other_wild_bees",1,NA,NA,NA,"5 pan traps per site 2 m apart.Temporal replicates: 2x per season",NA
"Heather_Lee_Grab_Fragaria_ananassa_USA_2012","BT","pan trap","Lasioglossum ephialtum","Species","other_wild_bees",2,NA,NA,NA,"5 pan traps per site 2 m apart.Temporal replicates: 2x per season",NA
"Heather_Lee_Grab_Fragaria_ananassa_USA_2012","BT","pan trap","Lasioglossum ephialtum","Species","other_wild_bees",1,NA,NA,NA,"5 pan traps per site 2 m apart.Temporal replicates: 2x per season",NA
"Heather_Lee_Grab_Fragaria_ananassa_USA_2012","SLD","pan trap","Lasioglossum ephialtum","Species","other_wild_bees",2,NA,NA,NA,"5 pan traps per site 2 m apart.Temporal replicates: 2x per season",NA
"Heather_Lee_Grab_Fragaria_ananassa_USA_2012","BT","pan trap","Lasioglossum ephialtum","Species","other_wild_bees",1,NA,NA,NA,"5 pan traps per site 2 m apart.Temporal replicates: 2x per season",NA
"Heather_Lee_Grab_Fragaria_ananassa_USA_2012","BT","pan trap","Lasioglossum ephialtum","Species","other_wild_bees",1,NA,NA,NA,"5 pan traps per site 2 m apart.Temporal replicates: 2x per season",NA
"Heather_Lee_Grab_Fragaria_ananassa_USA_2012","FLZ","pan trap","Lasioglossum ephialtum","Species","other_wild_bees",1,NA,NA,NA,"5 pan traps per site 2 m apart.Temporal replicates: 2x per season",NA
"Heather_Lee_Grab_Fragaria_ananassa_USA_2012","LAG","pan trap","Lasioglossum ephialtum","Species","other_wild_bees",2,NA,NA,NA,"5 pan traps per site 2 m apart.Temporal replicates: 2x per season",NA
"Heather_Lee_Grab_Fragaria_ananassa_USA_2012","REV","pan trap","Lasioglossum ephialtum","Species","other_wild_bees",1,NA,NA,NA,"5 pan traps per site 2 m apart.Temporal replicates: 2x per season",NA
"Heather_Lee_Grab_Fragaria_ananassa_USA_2012","FLZ","pan trap","Lasioglossum foxii","Species","other_wild_bees",1,NA,NA,NA,"5 pan traps per site 2 m apart.Temporal replicates: 2x per season",NA
"Heather_Lee_Grab_Fragaria_ananassa_USA_2012","BT","pan trap","Lasioglossum foxii","Species","other_wild_bees",1,NA,NA,NA,"5 pan traps per site 2 m apart.Temporal replicates: 2x per season",NA
"Heather_Lee_Grab_Fragaria_ananassa_USA_2012","ELD","pan trap","Lasioglossum foxii","Species","other_wild_bees",1,NA,NA,NA,"5 pan traps per site 2 m apart.Temporal replicates: 2x per season",NA
"Heather_Lee_Grab_Fragaria_ananassa_USA_2012","WH","pan trap","Lasioglossum foxii","Species","other_wild_bees",1,NA,NA,NA,"5 pan traps per site 2 m apart.Temporal replicates: 2x per season",NA
"Heather_Lee_Grab_Fragaria_ananassa_USA_2012","BH","sweep netting","Lasioglossum hitchensi","Species","other_wild_bees",3,NA,NA,NA,"5 pan traps per site 2 m apart.Temporal replicates: 2x per season",NA
"Heather_Lee_Grab_Fragaria_ananassa_USA_2012","SQ","sweep netting","Lasioglossum hitchensi","Species","other_wild_bees",2,NA,NA,NA,"5 pan traps per site 2 m apart.Temporal replicates: 2x per season",NA
"Heather_Lee_Grab_Fragaria_ananassa_USA_2012","SLD","sweep netting","Lasioglossum hitchensi","Species","other_wild_bees",1,NA,NA,NA,"5 pan traps per site 2 m apart.Temporal replicates: 2x per season",NA
"Heather_Lee_Grab_Fragaria_ananassa_USA_2012","WH","sweep netting","Lasioglossum hitchensi","Species","other_wild_bees",2,NA,NA,NA,"5 pan traps per site 2 m apart.Temporal replicates: 2x per season",NA
"Heather_Lee_Grab_Fragaria_ananassa_USA_2012","WBT","sweep netting","Lasioglossum hitchensi","Species","other_wild_bees",1,NA,NA,NA,"5 pan traps per site 2 m apart.Temporal replicates: 2x per season",NA
"Heather_Lee_Grab_Fragaria_ananassa_USA_2012","BH","pan trap","Lasioglossum hitchensi","Species","other_wild_bees",2,NA,NA,NA,"5 pan traps per site 2 m apart.Temporal replicates: 2x per season",NA
"Heather_Lee_Grab_Fragaria_ananassa_USA_2012","BS","pan trap","Lasioglossum hitchensi","Species","other_wild_bees",4,NA,NA,NA,"5 pan traps per site 2 m apart.Temporal replicates: 2x per season",NA
"Heather_Lee_Grab_Fragaria_ananassa_USA_2012","BS","pan trap","Lasioglossum hitchensi","Species","other_wild_bees",4,NA,NA,NA,"5 pan traps per site 2 m apart.Temporal replicates: 2x per season",NA
"Heather_Lee_Grab_Fragaria_ananassa_USA_2012","BT","pan trap","Lasioglossum hitchensi","Species","other_wild_bees",2,NA,NA,NA,"5 pan traps per site 2 m apart.Temporal replicates: 2x per season",NA
"Heather_Lee_Grab_Fragaria_ananassa_USA_2012","ELD","pan trap","Lasioglossum hitchensi","Species","other_wild_bees",4,NA,NA,NA,"5 pan traps per site 2 m apart.Temporal replicates: 2x per season",NA
"Heather_Lee_Grab_Fragaria_ananassa_USA_2012","ELD","pan trap","Lasioglossum hitchensi","Species","other_wild_bees",5,NA,NA,NA,"5 pan traps per site 2 m apart.Temporal replicates: 2x per season",NA
"Heather_Lee_Grab_Fragaria_ananassa_USA_2012","FLZ","pan trap","Lasioglossum hitchensi","Species","other_wild_bees",1,NA,NA,NA,"5 pan traps per site 2 m apart.Temporal replicates: 2x per season",NA
"Heather_Lee_Grab_Fragaria_ananassa_USA_2012","FLZ","pan trap","Lasioglossum hitchensi","Species","other_wild_bees",1,NA,NA,NA,"5 pan traps per site 2 m apart.Temporal replicates: 2x per season",NA
"Heather_Lee_Grab_Fragaria_ananassa_USA_2012","FV","pan trap","Lasioglossum hitchensi","Species","other_wild_bees",2,NA,NA,NA,"5 pan traps per site 2 m apart.Temporal replicates: 2x per season",NA
"Heather_Lee_Grab_Fragaria_ananassa_USA_2012","REV","pan trap","Lasioglossum hitchensi","Species","other_wild_bees",4,NA,NA,NA,"5 pan traps per site 2 m apart.Temporal replicates: 2x per season",NA
"Heather_Lee_Grab_Fragaria_ananassa_USA_2012","SLD","pan trap","Lasioglossum hitchensi","Species","other_wild_bees",6,NA,NA,NA,"5 pan traps per site 2 m apart.Temporal replicates: 2x per season",NA
"Heather_Lee_Grab_Fragaria_ananassa_USA_2012","WH","pan trap","Lasioglossum hitchensi","Species","other_wild_bees",1,NA,NA,NA,"5 pan traps per site 2 m apart.Temporal replicates: 2x per season",NA
"Heather_Lee_Grab_Fragaria_ananassa_USA_2012","WBT","pan trap","Lasioglossum hitchensi","Species","other_wild_bees",5,NA,NA,NA,"5 pan traps per site 2 m apart.Temporal replicates: 2x per season",NA
"Heather_Lee_Grab_Fragaria_ananassa_USA_2012","WBT","pan trap","Lasioglossum hitchensi","Species","other_wild_bees",1,NA,NA,NA,"5 pan traps per site 2 m apart.Temporal replicates: 2x per season",NA
"Heather_Lee_Grab_Fragaria_ananassa_USA_2012","BH","pan trap","Lasioglossum hitchensi","Species","other_wild_bees",1,NA,NA,NA,"5 pan traps per site 2 m apart.Temporal replicates: 2x per season",NA
"Heather_Lee_Grab_Fragaria_ananassa_USA_2012","BH","pan trap","Lasioglossum hitchensi","Species","other_wild_bees",3,NA,NA,NA,"5 pan traps per site 2 m apart.Temporal replicates: 2x per season",NA
"Heather_Lee_Grab_Fragaria_ananassa_USA_2012","BS","pan trap","Lasioglossum hitchensi","Species","other_wild_bees",10,NA,NA,NA,"5 pan traps per site 2 m apart.Temporal replicates: 2x per season",NA
"Heather_Lee_Grab_Fragaria_ananassa_USA_2012","BS","pan trap","Lasioglossum hitchensi","Species","other_wild_bees",1,NA,NA,NA,"5 pan traps per site 2 m apart.Temporal replicates: 2x per season",NA
"Heather_Lee_Grab_Fragaria_ananassa_USA_2012","BT","pan trap","Lasioglossum hitchensi","Species","other_wild_bees",4,NA,NA,NA,"5 pan traps per site 2 m apart.Temporal replicates: 2x per season",NA
"Heather_Lee_Grab_Fragaria_ananassa_USA_2012","BT","pan trap","Lasioglossum hitchensi","Species","other_wild_bees",7,NA,NA,NA,"5 pan traps per site 2 m apart.Temporal replicates: 2x per season",NA
"Heather_Lee_Grab_Fragaria_ananassa_USA_2012","DAR","pan trap","Lasioglossum hitchensi","Species","other_wild_bees",1,NA,NA,NA,"5 pan traps per site 2 m apart.Temporal replicates: 2x per season",NA
"Heather_Lee_Grab_Fragaria_ananassa_USA_2012","ELD","pan trap","Lasioglossum hitchensi","Species","other_wild_bees",1,NA,NA,NA,"5 pan traps per site 2 m apart.Temporal replicates: 2x per season",NA
"Heather_Lee_Grab_Fragaria_ananassa_USA_2012","FV","pan trap","Lasioglossum hitchensi","Species","other_wild_bees",1,NA,NA,NA,"5 pan traps per site 2 m apart.Temporal replicates: 2x per season",NA
"Heather_Lee_Grab_Fragaria_ananassa_USA_2012","FV","pan trap","Lasioglossum hitchensi","Species","other_wild_bees",1,NA,NA,NA,"5 pan traps per site 2 m apart.Temporal replicates: 2x per season",NA
"Heather_Lee_Grab_Fragaria_ananassa_USA_2012","GS","pan trap","Lasioglossum hitchensi","Species","other_wild_bees",1,NA,NA,NA,"5 pan traps per site 2 m apart.Temporal replicates: 2x per season",NA
"Heather_Lee_Grab_Fragaria_ananassa_USA_2012","GRS","pan trap","Lasioglossum hitchensi","Species","other_wild_bees",5,NA,NA,NA,"5 pan traps per site 2 m apart.Temporal replicates: 2x per season",NA
"Heather_Lee_Grab_Fragaria_ananassa_USA_2012","GRS","pan trap","Lasioglossum hitchensi","Species","other_wild_bees",1,NA,NA,NA,"5 pan traps per site 2 m apart.Temporal replicates: 2x per season",NA
"Heather_Lee_Grab_Fragaria_ananassa_USA_2012","KP","pan trap","Lasioglossum hitchensi","Species","other_wild_bees",1,NA,NA,NA,"5 pan traps per site 2 m apart.Temporal replicates: 2x per season",NA
"Heather_Lee_Grab_Fragaria_ananassa_USA_2012","LAG","pan trap","Lasioglossum hitchensi","Species","other_wild_bees",1,NA,NA,NA,"5 pan traps per site 2 m apart.Temporal replicates: 2x per season",NA
"Heather_Lee_Grab_Fragaria_ananassa_USA_2012","REV","pan trap","Lasioglossum hitchensi","Species","other_wild_bees",1,NA,NA,NA,"5 pan traps per site 2 m apart.Temporal replicates: 2x per season",NA
"Heather_Lee_Grab_Fragaria_ananassa_USA_2012","SL","pan trap","Lasioglossum hitchensi","Species","other_wild_bees",1,NA,NA,NA,"5 pan traps per site 2 m apart.Temporal replicates: 2x per season",NA
"Heather_Lee_Grab_Fragaria_ananassa_USA_2012","WH","pan trap","Lasioglossum hitchensi","Species","other_wild_bees",1,NA,NA,NA,"5 pan traps per site 2 m apart.Temporal replicates: 2x per season",NA
"Heather_Lee_Grab_Fragaria_ananassa_USA_2012","WH","pan trap","Lasioglossum hitchensi","Species","other_wild_bees",1,NA,NA,NA,"5 pan traps per site 2 m apart.Temporal replicates: 2x per season",NA
"Heather_Lee_Grab_Fragaria_ananassa_USA_2012","WBT","pan trap","Lasioglossum hitchensi","Species","other_wild_bees",1,NA,NA,NA,"5 pan traps per site 2 m apart.Temporal replicates: 2x per season",NA
"Heather_Lee_Grab_Fragaria_ananassa_USA_2012","WBT","pan trap","Lasioglossum hitchensi","Species","other_wild_bees",1,NA,NA,NA,"5 pan traps per site 2 m apart.Temporal replicates: 2x per season",NA
"Heather_Lee_Grab_Fragaria_ananassa_USA_2012","KP","sweep netting","Lasioglossum imitatum","Species","other_wild_bees",1,NA,NA,NA,"5 pan traps per site 2 m apart.Temporal replicates: 2x per season",NA
"Heather_Lee_Grab_Fragaria_ananassa_USA_2012","SQ","sweep netting","Lasioglossum imitatum","Species","other_wild_bees",1,NA,NA,NA,"5 pan traps per site 2 m apart.Temporal replicates: 2x per season",NA
"Heather_Lee_Grab_Fragaria_ananassa_USA_2012","BH","pan trap","Lasioglossum imitatum","Species","other_wild_bees",2,NA,NA,NA,"5 pan traps per site 2 m apart.Temporal replicates: 2x per season",NA
"Heather_Lee_Grab_Fragaria_ananassa_USA_2012","BS","pan trap","Lasioglossum imitatum","Species","other_wild_bees",1,NA,NA,NA,"5 pan traps per site 2 m apart.Temporal replicates: 2x per season",NA
"Heather_Lee_Grab_Fragaria_ananassa_USA_2012","DAR","pan trap","Lasioglossum imitatum","Species","other_wild_bees",4,NA,NA,NA,"5 pan traps per site 2 m apart.Temporal replicates: 2x per season",NA
"Heather_Lee_Grab_Fragaria_ananassa_USA_2012","ELD","pan trap","Lasioglossum imitatum","Species","other_wild_bees",2,NA,NA,NA,"5 pan traps per site 2 m apart.Temporal replicates: 2x per season",NA
"Heather_Lee_Grab_Fragaria_ananassa_USA_2012","FLZ","pan trap","Lasioglossum imitatum","Species","other_wild_bees",1,NA,NA,NA,"5 pan traps per site 2 m apart.Temporal replicates: 2x per season",NA
"Heather_Lee_Grab_Fragaria_ananassa_USA_2012","KP","pan trap","Lasioglossum imitatum","Species","other_wild_bees",1,NA,NA,NA,"5 pan traps per site 2 m apart.Temporal replicates: 2x per season",NA
"Heather_Lee_Grab_Fragaria_ananassa_USA_2012","BH","pan trap","Lasioglossum imitatum","Species","other_wild_bees",1,NA,NA,NA,"5 pan traps per site 2 m apart.Temporal replicates: 2x per season",NA
"Heather_Lee_Grab_Fragaria_ananassa_USA_2012","BS","pan trap","Lasioglossum imitatum","Species","other_wild_bees",2,NA,NA,NA,"5 pan traps per site 2 m apart.Temporal replicates: 2x per season",NA
"Heather_Lee_Grab_Fragaria_ananassa_USA_2012","BT","pan trap","Lasioglossum imitatum","Species","other_wild_bees",2,NA,NA,NA,"5 pan traps per site 2 m apart.Temporal replicates: 2x per season",NA
"Heather_Lee_Grab_Fragaria_ananassa_USA_2012","BT","pan trap","Lasioglossum imitatum","Species","other_wild_bees",4,NA,NA,NA,"5 pan traps per site 2 m apart.Temporal replicates: 2x per season",NA
"Heather_Lee_Grab_Fragaria_ananassa_USA_2012","DAR","pan trap","Lasioglossum imitatum","Species","other_wild_bees",1,NA,NA,NA,"5 pan traps per site 2 m apart.Temporal replicates: 2x per season",NA
"Heather_Lee_Grab_Fragaria_ananassa_USA_2012","FV","pan trap","Lasioglossum imitatum","Species","other_wild_bees",3,NA,NA,NA,"5 pan traps per site 2 m apart.Temporal replicates: 2x per season",NA
"Heather_Lee_Grab_Fragaria_ananassa_USA_2012","FV","pan trap","Lasioglossum imitatum","Species","other_wild_bees",1,NA,NA,NA,"5 pan traps per site 2 m apart.Temporal replicates: 2x per season",NA
"Heather_Lee_Grab_Fragaria_ananassa_USA_2012","GRS","pan trap","Lasioglossum imitatum","Species","other_wild_bees",1,NA,NA,NA,"5 pan traps per site 2 m apart.Temporal replicates: 2x per season",NA
"Heather_Lee_Grab_Fragaria_ananassa_USA_2012","KP","pan trap","Lasioglossum imitatum","Species","other_wild_bees",3,NA,NA,NA,"5 pan traps per site 2 m apart.Temporal replicates: 2x per season",NA
"Heather_Lee_Grab_Fragaria_ananassa_USA_2012","SQ","pan trap","Lasioglossum imitatum","Species","other_wild_bees",1,NA,NA,NA,"5 pan traps per site 2 m apart.Temporal replicates: 2x per season",NA
"Heather_Lee_Grab_Fragaria_ananassa_USA_2012","WH","pan trap","Lasioglossum imitatum","Species","other_wild_bees",1,NA,NA,NA,"5 pan traps per site 2 m apart.Temporal replicates: 2x per season",NA
"Heather_Lee_Grab_Fragaria_ananassa_USA_2012","WH","pan trap","Lasioglossum imitatum","Species","other_wild_bees",1,NA,NA,NA,"5 pan traps per site 2 m apart.Temporal replicates: 2x per season",NA
"Heather_Lee_Grab_Fragaria_ananassa_USA_2012","BH","pan trap","Lasioglossum leavissimum","Species","other_wild_bees",4,NA,NA,NA,"5 pan traps per site 2 m apart.Temporal replicates: 2x per season",NA
"Heather_Lee_Grab_Fragaria_ananassa_USA_2012","FV","pan trap","Lasioglossum leavissimum","Species","other_wild_bees",1,NA,NA,NA,"5 pan traps per site 2 m apart.Temporal replicates: 2x per season",NA
"Heather_Lee_Grab_Fragaria_ananassa_USA_2012","BH","pan trap","Lasioglossum leavissimum","Species","other_wild_bees",6,NA,NA,NA,"5 pan traps per site 2 m apart.Temporal replicates: 2x per season",NA
"Heather_Lee_Grab_Fragaria_ananassa_USA_2012","GRS","pan trap","Lasioglossum leavissimum","Species","other_wild_bees",1,NA,NA,NA,"5 pan traps per site 2 m apart.Temporal replicates: 2x per season",NA
"Heather_Lee_Grab_Fragaria_ananassa_USA_2012","WBT","pan trap","Lasioglossum leavissimum","Species","other_wild_bees",1,NA,NA,NA,"5 pan traps per site 2 m apart.Temporal replicates: 2x per season",NA
"Heather_Lee_Grab_Fragaria_ananassa_USA_2012","LAG","pan trap","Lasioglossum leucocomum","Species","other_wild_bees",2,NA,NA,NA,"5 pan traps per site 2 m apart.Temporal replicates: 2x per season",NA
"Heather_Lee_Grab_Fragaria_ananassa_USA_2012","DAR","pan trap","Lasioglossum lineatulum","Species","other_wild_bees",1,NA,NA,NA,"5 pan traps per site 2 m apart.Temporal replicates: 2x per season",NA
"Heather_Lee_Grab_Fragaria_ananassa_USA_2012","WH","pan trap","Lasioglossum obscurum","Species","other_wild_bees",1,NA,NA,NA,"5 pan traps per site 2 m apart.Temporal replicates: 2x per season",NA
"Heather_Lee_Grab_Fragaria_ananassa_USA_2012","WBT","sweep netting","Lasioglossum paradmirandum","Species","other_wild_bees",1,NA,NA,NA,"5 pan traps per site 2 m apart.Temporal replicates: 2x per season",NA
"Heather_Lee_Grab_Fragaria_ananassa_USA_2012","GRS","pan trap","Lasioglossum paradmirandum","Species","other_wild_bees",7,NA,NA,NA,"5 pan traps per site 2 m apart.Temporal replicates: 2x per season",NA
"Heather_Lee_Grab_Fragaria_ananassa_USA_2012","WBT","sweep netting","Lasioglossum pectorale","Species","other_wild_bees",2,NA,NA,NA,"5 pan traps per site 2 m apart.Temporal replicates: 2x per season",NA
"Heather_Lee_Grab_Fragaria_ananassa_USA_2012","WBT","pan trap","Lasioglossum pectorale","Species","other_wild_bees",1,NA,NA,NA,"5 pan traps per site 2 m apart.Temporal replicates: 2x per season",NA
"Heather_Lee_Grab_Fragaria_ananassa_USA_2012","DAR","pan trap","Lasioglossum pectorale","Species","other_wild_bees",1,NA,NA,NA,"5 pan traps per site 2 m apart.Temporal replicates: 2x per season",NA
"Heather_Lee_Grab_Fragaria_ananassa_USA_2012","GRS","pan trap","Lasioglossum pectorale","Species","other_wild_bees",2,NA,NA,NA,"5 pan traps per site 2 m apart.Temporal replicates: 2x per season",NA
"Heather_Lee_Grab_Fragaria_ananassa_USA_2012","FV","sweep netting","Lasioglossum perpunctatum","Species","other_wild_bees",4,NA,NA,NA,"5 pan traps per site 2 m apart.Temporal replicates: 2x per season",NA
"Heather_Lee_Grab_Fragaria_ananassa_USA_2012","FV","pan trap","Lasioglossum perpunctatum","Species","other_wild_bees",3,NA,NA,NA,"5 pan traps per site 2 m apart.Temporal replicates: 2x per season",NA
"Heather_Lee_Grab_Fragaria_ananassa_USA_2012","FV","pan trap","Lasioglossum perpunctatum","Species","other_wild_bees",2,NA,NA,NA,"5 pan traps per site 2 m apart.Temporal replicates: 2x per season",NA
"Heather_Lee_Grab_Fragaria_ananassa_USA_2012","DAR","pan trap","Lasioglossum perpunctatum","Species","other_wild_bees",5,NA,NA,NA,"5 pan traps per site 2 m apart.Temporal replicates: 2x per season",NA
"Heather_Lee_Grab_Fragaria_ananassa_USA_2012","FLZ","pan trap","Lasioglossum perpunctatum","Species","other_wild_bees",1,NA,NA,NA,"5 pan traps per site 2 m apart.Temporal replicates: 2x per season",NA
"Heather_Lee_Grab_Fragaria_ananassa_USA_2012","WBT","pan trap","Lasioglossum perpunctatum","Species","other_wild_bees",1,NA,NA,NA,"5 pan traps per site 2 m apart.Temporal replicates: 2x per season",NA
"Heather_Lee_Grab_Fragaria_ananassa_USA_2012","DAR","pan trap","Lasioglossum pilosum","Species","other_wild_bees",3,NA,NA,NA,"5 pan traps per site 2 m apart.Temporal replicates: 2x per season",NA
"Heather_Lee_Grab_Fragaria_ananassa_USA_2012","BS","pan trap","Lasioglossum versatum","Species","other_wild_bees",2,NA,NA,NA,"5 pan traps per site 2 m apart.Temporal replicates: 2x per season",NA
"Heather_Lee_Grab_Fragaria_ananassa_USA_2012","BS","pan trap","Lasioglossum versatum","Species","other_wild_bees",3,NA,NA,NA,"5 pan traps per site 2 m apart.Temporal replicates: 2x per season",NA
"Heather_Lee_Grab_Fragaria_ananassa_USA_2012","BT","pan trap","Lasioglossum versatum","Species","other_wild_bees",1,NA,NA,NA,"5 pan traps per site 2 m apart.Temporal replicates: 2x per season",NA
"Heather_Lee_Grab_Fragaria_ananassa_USA_2012","BT","pan trap","Lasioglossum versatum","Species","other_wild_bees",3,NA,NA,NA,"5 pan traps per site 2 m apart.Temporal replicates: 2x per season",NA
"Heather_Lee_Grab_Fragaria_ananassa_USA_2012","ELD","pan trap","Lasioglossum versatum","Species","other_wild_bees",1,NA,NA,NA,"5 pan traps per site 2 m apart.Temporal replicates: 2x per season",NA
"Heather_Lee_Grab_Fragaria_ananassa_USA_2012","ELD","pan trap","Lasioglossum versatum","Species","other_wild_bees",3,NA,NA,NA,"5 pan traps per site 2 m apart.Temporal replicates: 2x per season",NA
"Heather_Lee_Grab_Fragaria_ananassa_USA_2012","FV","pan trap","Lasioglossum versatum","Species","other_wild_bees",2,NA,NA,NA,"5 pan traps per site 2 m apart.Temporal replicates: 2x per season",NA
"Heather_Lee_Grab_Fragaria_ananassa_USA_2012","GRS","pan trap","Lasioglossum versatum","Species","other_wild_bees",1,NA,NA,NA,"5 pan traps per site 2 m apart.Temporal replicates: 2x per season",NA
"Heather_Lee_Grab_Fragaria_ananassa_USA_2012","GRS","pan trap","Lasioglossum versatum","Species","other_wild_bees",1,NA,NA,NA,"5 pan traps per site 2 m apart.Temporal replicates: 2x per season",NA
"Heather_Lee_Grab_Fragaria_ananassa_USA_2012","LAG","pan trap","Lasioglossum versatum","Species","other_wild_bees",1,NA,NA,NA,"5 pan traps per site 2 m apart.Temporal replicates: 2x per season",NA
"Heather_Lee_Grab_Fragaria_ananassa_USA_2012","REV","pan trap","Lasioglossum versatum","Species","other_wild_bees",1,NA,NA,NA,"5 pan traps per site 2 m apart.Temporal replicates: 2x per season",NA
"Heather_Lee_Grab_Fragaria_ananassa_USA_2012","WH","pan trap","Lasioglossum versatum","Species","other_wild_bees",1,NA,NA,NA,"5 pan traps per site 2 m apart.Temporal replicates: 2x per season",NA
"Heather_Lee_Grab_Fragaria_ananassa_USA_2012","WBT","pan trap","Lasioglossum versatum","Species","other_wild_bees",1,NA,NA,NA,"5 pan traps per site 2 m apart.Temporal replicates: 2x per season",NA
"Heather_Lee_Grab_Fragaria_ananassa_USA_2012","BS","pan trap","Lasioglossum versatum","Species","other_wild_bees",4,NA,NA,NA,"5 pan traps per site 2 m apart.Temporal replicates: 2x per season",NA
"Heather_Lee_Grab_Fragaria_ananassa_USA_2012","BS","pan trap","Lasioglossum versatum","Species","other_wild_bees",1,NA,NA,NA,"5 pan traps per site 2 m apart.Temporal replicates: 2x per season",NA
"Heather_Lee_Grab_Fragaria_ananassa_USA_2012","BT","pan trap","Lasioglossum versatum","Species","other_wild_bees",3,NA,NA,NA,"5 pan traps per site 2 m apart.Temporal replicates: 2x per season",NA
"Heather_Lee_Grab_Fragaria_ananassa_USA_2012","BT","pan trap","Lasioglossum versatum","Species","other_wild_bees",3,NA,NA,NA,"5 pan traps per site 2 m apart.Temporal replicates: 2x per season",NA
"Heather_Lee_Grab_Fragaria_ananassa_USA_2012","DAR","pan trap","Lasioglossum versatum","Species","other_wild_bees",1,NA,NA,NA,"5 pan traps per site 2 m apart.Temporal replicates: 2x per season",NA
"Heather_Lee_Grab_Fragaria_ananassa_USA_2012","KP","pan trap","Lasioglossum versatum","Species","other_wild_bees",2,NA,NA,NA,"5 pan traps per site 2 m apart.Temporal replicates: 2x per season",NA
"Heather_Lee_Grab_Fragaria_ananassa_USA_2012","LAG","pan trap","Lasioglossum versatum","Species","other_wild_bees",8,NA,NA,NA,"5 pan traps per site 2 m apart.Temporal replicates: 2x per season",NA
"Heather_Lee_Grab_Fragaria_ananassa_USA_2012","LAG","pan trap","Lasioglossum versatum","Species","other_wild_bees",1,NA,NA,NA,"5 pan traps per site 2 m apart.Temporal replicates: 2x per season",NA
"Heather_Lee_Grab_Fragaria_ananassa_USA_2012","REV","pan trap","Lasioglossum versatum","Species","other_wild_bees",1,NA,NA,NA,"5 pan traps per site 2 m apart.Temporal replicates: 2x per season",NA
"Heather_Lee_Grab_Fragaria_ananassa_USA_2012","SL","pan trap","Lasioglossum versatum","Species","other_wild_bees",7,NA,NA,NA,"5 pan traps per site 2 m apart.Temporal replicates: 2x per season",NA
"Heather_Lee_Grab_Fragaria_ananassa_USA_2012","WH","pan trap","Lasioglossum versatum","Species","other_wild_bees",4,NA,NA,NA,"5 pan traps per site 2 m apart.Temporal replicates: 2x per season",NA
"Heather_Lee_Grab_Fragaria_ananassa_USA_2012","WBT","pan trap","Lasioglossum versatum","Species","other_wild_bees",1,NA,NA,NA,"5 pan traps per site 2 m apart.Temporal replicates: 2x per season",NA
"Heather_Lee_Grab_Fragaria_ananassa_USA_2012","BH","pan trap","Lasioglossum zephyrum","Species","other_wild_bees",2,NA,NA,NA,"5 pan traps per site 2 m apart.Temporal replicates: 2x per season",NA
"Heather_Lee_Grab_Fragaria_ananassa_USA_2012","BS","pan trap","Lasioglossum zonulun","Species","other_wild_bees",1,NA,NA,NA,"5 pan traps per site 2 m apart.Temporal replicates: 2x per season",NA
"Heather_Lee_Grab_Fragaria_ananassa_USA_2012","FLZ","pan trap","Lasioglossum zonulun","Species","other_wild_bees",1,NA,NA,NA,"5 pan traps per site 2 m apart.Temporal replicates: 2x per season",NA
"Heather_Lee_Grab_Fragaria_ananassa_USA_2012","KP","pan trap","Lasioglossum zonulun","Species","other_wild_bees",1,NA,NA,NA,"5 pan traps per site 2 m apart.Temporal replicates: 2x per season",NA
"Heather_Lee_Grab_Fragaria_ananassa_USA_2012","KP","pan trap","Lasioglossum zonulun","Species","other_wild_bees",1,NA,NA,NA,"5 pan traps per site 2 m apart.Temporal replicates: 2x per season",NA
"Heather_Lee_Grab_Fragaria_ananassa_USA_2012","WBT","pan trap","Lasioglossum zonulun","Species","other_wild_bees",1,NA,NA,NA,"5 pan traps per site 2 m apart.Temporal replicates: 2x per season",NA
"Heather_Lee_Grab_Fragaria_ananassa_USA_2012","GS","pan trap","Nomada armatella","Species","other_wild_bees",2,NA,NA,NA,"5 pan traps per site 2 m apart.Temporal replicates: 2x per season",NA
"Heather_Lee_Grab_Fragaria_ananassa_USA_2012","GS","pan trap","Nomada luteoloides","Species","other_wild_bees",1,NA,NA,NA,"5 pan traps per site 2 m apart.Temporal replicates: 2x per season",NA
"Heather_Lee_Grab_Fragaria_ananassa_USA_2012","WH","pan trap","Osmia albiventris","Species","other_wild_bees",1,NA,NA,NA,"5 pan traps per site 2 m apart.Temporal replicates: 2x per season",NA
"Heather_Lee_Grab_Fragaria_ananassa_USA_2012","ELD","pan trap","Osmia pumila","Species","other_wild_bees",2,NA,NA,NA,"5 pan traps per site 2 m apart.Temporal replicates: 2x per season",NA
"Heather_Lee_Grab_Fragaria_ananassa_USA_2012","SQ","pan trap","Osmia pumila","Species","other_wild_bees",1,NA,NA,NA,"5 pan traps per site 2 m apart.Temporal replicates: 2x per season",NA
"Heather_Lee_Grab_Fragaria_ananassa_USA_2012","WH","pan trap","Osmia pumila","Species","other_wild_bees",1,NA,NA,NA,"5 pan traps per site 2 m apart.Temporal replicates: 2x per season",NA
"Heather_Lee_Grab_Fragaria_ananassa_USA_2012","BS","pan trap","Sphecodes sp3","Species","other_wild_bees",1,NA,NA,NA,"5 pan traps per site 2 m apart.Temporal replicates: 2x per season",NA
"Heather_Lee_Grab_Fragaria_ananassa_USA_2012","DAR","pan trap","Sphecodes sp3","Species","other_wild_bees",1,NA,NA,NA,"5 pan traps per site 2 m apart.Temporal replicates: 2x per season",NA
"Heather_Lee_Grab_Fragaria_ananassa_USA_2012","KP","pan trap","Sphecodes sp4","Species","other_wild_bees",17,NA,NA,NA,"5 pan traps per site 2 m apart.Temporal replicates: 2x per season",NA
"Heather_Lee_Grab_Fragaria_ananassa_USA_2012","WH","pan trap","Xylocopa virginica","Species","other_wild_bees",1,NA,NA,NA,"5 pan traps per site 2 m apart.Temporal replicates: 2x per season",NA
"Hisatomo_Taki_Fagopyrum_esculentum_Japan_2007","1","netting form flower","Apis cerana","species","honeybees",3,NA,NA,NA,"Measures per site: 10 plants, 3 sampling rounds in each year

",NA
"Hisatomo_Taki_Fagopyrum_esculentum_Japan_2007","1","netting form flower","Apis mellifera","species","honeybees",14,NA,NA,NA,"Measures per site: 10 plants, 3 sampling rounds in each year

",NA
"Hisatomo_Taki_Fagopyrum_esculentum_Japan_2007","1","netting form flower","Chrysomya pinguis","species","other_flies",1,NA,NA,NA,"Measures per site: 10 plants, 3 sampling rounds in each year

",NA
"Hisatomo_Taki_Fagopyrum_esculentum_Japan_2007","1","netting form flower","Eristalis (Eoeristaris) cerealis","species","syrphids",2,NA,NA,NA,"Measures per site: 10 plants, 3 sampling rounds in each year

",NA
"Hisatomo_Taki_Fagopyrum_esculentum_Japan_2007","1","netting form flower","Erythrocera genalis","species","other_flies",1,NA,NA,NA,"Measures per site: 10 plants, 3 sampling rounds in each year

",NA
"Hisatomo_Taki_Fagopyrum_esculentum_Japan_2007","1","netting form flower","Formica japonica","species","non_bee_hymenoptera",3,NA,NA,NA,"Measures per site: 10 plants, 3 sampling rounds in each year

",NA
"Hisatomo_Taki_Fagopyrum_esculentum_Japan_2007","1","netting form flower","Gametis jucunda","species","beetles",5,NA,NA,NA,"Measures per site: 10 plants, 3 sampling rounds in each year

",NA
"Hisatomo_Taki_Fagopyrum_esculentum_Japan_2007","1","netting form flower","Megacampsomeris grossa","species","non_bee_hymenoptera",1,NA,NA,NA,"Measures per site: 10 plants, 3 sampling rounds in each year

",NA
"Hisatomo_Taki_Fagopyrum_esculentum_Japan_2007","1","netting form flower","Parnara guttata","species","lepidoptera",2,NA,NA,NA,"Measures per site: 10 plants, 3 sampling rounds in each year

",NA
"Hisatomo_Taki_Fagopyrum_esculentum_Japan_2007","1","netting form flower","Phytomia zonata","species","syrphids",4,NA,NA,NA,"Measures per site: 10 plants, 3 sampling rounds in each year

",NA
"Hisatomo_Taki_Fagopyrum_esculentum_Japan_2007","1","netting form flower","Stomorhina obsoleta","species","other_flies",2,NA,NA,NA,"Measures per site: 10 plants, 3 sampling rounds in each year

",NA
"Hisatomo_Taki_Fagopyrum_esculentum_Japan_2007","2","netting form flower","Apis cerana","species","honeybees",2,NA,NA,NA,"Measures per site: 10 plants, 3 sampling rounds in each year

",NA
"Hisatomo_Taki_Fagopyrum_esculentum_Japan_2007","2","netting form flower","Apis mellifera","species","honeybees",15,NA,NA,NA,"Measures per site: 10 plants, 3 sampling rounds in each year

",NA
"Hisatomo_Taki_Fagopyrum_esculentum_Japan_2007","2","netting form flower","Boettcherisca peregrina","species","other_flies",1,NA,NA,NA,"Measures per site: 10 plants, 3 sampling rounds in each year

",NA
"Hisatomo_Taki_Fagopyrum_esculentum_Japan_2007","2","netting form flower","Bradysia sp.","morphospecies","other_flies",1,NA,NA,NA,"Measures per site: 10 plants, 3 sampling rounds in each year

",NA
"Hisatomo_Taki_Fagopyrum_esculentum_Japan_2007","2","netting form flower","Epeolus japonicus","species","other_wild_bees",1,NA,NA,NA,"Measures per site: 10 plants, 3 sampling rounds in each year

",NA
"Hisatomo_Taki_Fagopyrum_esculentum_Japan_2007","2","netting form flower","Eristalis tenax","species","syrphids",1,NA,NA,NA,"Measures per site: 10 plants, 3 sampling rounds in each year

",NA
"Hisatomo_Taki_Fagopyrum_esculentum_Japan_2007","2","netting form flower","Formica japonica","species","non_bee_hymenoptera",2,NA,NA,NA,"Measures per site: 10 plants, 3 sampling rounds in each year

",NA
"Hisatomo_Taki_Fagopyrum_esculentum_Japan_2007","2","netting form flower","Gametis jucunda","species","beetles",2,NA,NA,NA,"Measures per site: 10 plants, 3 sampling rounds in each year

",NA
"Hisatomo_Taki_Fagopyrum_esculentum_Japan_2007","2","netting form flower","Megacampsomeris grossa","species","non_bee_hymenoptera",1,NA,NA,NA,"Measures per site: 10 plants, 3 sampling rounds in each year

",NA
"Hisatomo_Taki_Fagopyrum_esculentum_Japan_2007","2","netting form flower","Neophryxe psychidis","species","other_flies",1,NA,NA,NA,"Measures per site: 10 plants, 3 sampling rounds in each year

",NA
"Hisatomo_Taki_Fagopyrum_esculentum_Japan_2007","2","netting form flower","Parnara guttata","species","lepidoptera",3,NA,NA,NA,"Measures per site: 10 plants, 3 sampling rounds in each year

",NA
"Hisatomo_Taki_Fagopyrum_esculentum_Japan_2007","2","netting form flower","Phytomia zonata","species","syrphids",3,NA,NA,NA,"Measures per site: 10 plants, 3 sampling rounds in each year

",NA
"Hisatomo_Taki_Fagopyrum_esculentum_Japan_2007","2","netting form flower","Stomorhina obsoleta","species","other_flies",1,NA,NA,NA,"Measures per site: 10 plants, 3 sampling rounds in each year

",NA
"Hisatomo_Taki_Fagopyrum_esculentum_Japan_2007","3","netting form flower","Apis cerana","species","honeybees",6,NA,NA,NA,"Measures per site: 10 plants, 3 sampling rounds in each year

",NA
"Hisatomo_Taki_Fagopyrum_esculentum_Japan_2007","3","netting form flower","Apis mellifera","species","honeybees",15,NA,NA,NA,"Measures per site: 10 plants, 3 sampling rounds in each year

",NA
"Hisatomo_Taki_Fagopyrum_esculentum_Japan_2007","3","netting form flower","Coelioxys hiroba","species","other_wild_bees",1,NA,NA,NA,"Measures per site: 10 plants, 3 sampling rounds in each year

",NA
"Hisatomo_Taki_Fagopyrum_esculentum_Japan_2007","3","netting form flower","Eumenes sp","morphospecies","non_bee_hymenoptera",1,NA,NA,NA,"Measures per site: 10 plants, 3 sampling rounds in each year

",NA
"Hisatomo_Taki_Fagopyrum_esculentum_Japan_2007","3","netting form flower","Gametis jucunda","species","beetles",2,NA,NA,NA,"Measures per site: 10 plants, 3 sampling rounds in each year

",NA
"Hisatomo_Taki_Fagopyrum_esculentum_Japan_2007","3","netting form flower","Hylaeus nippon","species","other_wild_bees",1,NA,NA,NA,"Measures per site: 10 plants, 3 sampling rounds in each year

",NA
"Hisatomo_Taki_Fagopyrum_esculentum_Japan_2007","3","netting form flower","Phytomia zonata","species","syrphids",2,NA,NA,NA,"Measures per site: 10 plants, 3 sampling rounds in each year

",NA
"Hisatomo_Taki_Fagopyrum_esculentum_Japan_2007","3","netting form flower","Polistes nipponensis","species","non_bee_hymenoptera",1,NA,NA,NA,"Measures per site: 10 plants, 3 sampling rounds in each year

",NA
"Hisatomo_Taki_Fagopyrum_esculentum_Japan_2007","3","netting form flower","Stomorhina obsoleta","species","other_flies",1,NA,NA,NA,"Measures per site: 10 plants, 3 sampling rounds in each year

",NA
"Hisatomo_Taki_Fagopyrum_esculentum_Japan_2007","3","netting form flower","Xylocopa appendiculata circumvolans","species","other_wild_bees",1,NA,NA,NA,"Measures per site: 10 plants, 3 sampling rounds in each year

",NA
"Hisatomo_Taki_Fagopyrum_esculentum_Japan_2007","4","netting form flower","Apis cerana","species","honeybees",6,NA,NA,NA,"Measures per site: 10 plants, 3 sampling rounds in each year

",NA
"Hisatomo_Taki_Fagopyrum_esculentum_Japan_2007","4","netting form flower","Apis mellifera","species","honeybees",9,NA,NA,NA,"Measures per site: 10 plants, 3 sampling rounds in each year

",NA
"Hisatomo_Taki_Fagopyrum_esculentum_Japan_2007","4","netting form flower","Athalia infumata","species","non_bee_hymenoptera",1,NA,NA,NA,"Measures per site: 10 plants, 3 sampling rounds in each year

",NA
"Hisatomo_Taki_Fagopyrum_esculentum_Japan_2007","4","netting form flower","Camponotus japonicus","species","non_bee_hymenoptera",2,NA,NA,NA,"Measures per site: 10 plants, 3 sampling rounds in each year

",NA
"Hisatomo_Taki_Fagopyrum_esculentum_Japan_2007","4","netting form flower","Campsomeriella annulata","species","non_bee_hymenoptera",1,NA,NA,NA,"Measures per site: 10 plants, 3 sampling rounds in each year

",NA
"Hisatomo_Taki_Fagopyrum_esculentum_Japan_2007","4","netting form flower","Colletes patellatus","species","other_wild_bees",1,NA,NA,NA,"Measures per site: 10 plants, 3 sampling rounds in each year

",NA
"Hisatomo_Taki_Fagopyrum_esculentum_Japan_2007","4","netting form flower","Eristalis (Eoeristaris) cerealis","species","syrphids",3,NA,NA,NA,"Measures per site: 10 plants, 3 sampling rounds in each year

",NA
"Hisatomo_Taki_Fagopyrum_esculentum_Japan_2007","4","netting form flower","Eumenes sp","morphospecies","non_bee_hymenoptera",1,NA,NA,NA,"Measures per site: 10 plants, 3 sampling rounds in each year

",NA
"Hisatomo_Taki_Fagopyrum_esculentum_Japan_2007","4","netting form flower","Formica japonica","species","non_bee_hymenoptera",6,NA,NA,NA,"Measures per site: 10 plants, 3 sampling rounds in each year

",NA
"Hisatomo_Taki_Fagopyrum_esculentum_Japan_2007","4","netting form flower","Gametis jucunda","species","beetles",1,NA,NA,NA,"Measures per site: 10 plants, 3 sampling rounds in each year

",NA
"Hisatomo_Taki_Fagopyrum_esculentum_Japan_2007","4","netting form flower","Lasioglossum occidens","species","other_wild_bees",5,NA,NA,NA,"Measures per site: 10 plants, 3 sampling rounds in each year

",NA
"Hisatomo_Taki_Fagopyrum_esculentum_Japan_2007","4","netting form flower","Lucilia papuensis","species","other_flies",1,NA,NA,NA,"Measures per site: 10 plants, 3 sampling rounds in each year

",NA
"Hisatomo_Taki_Fagopyrum_esculentum_Japan_2007","4","netting form flower","Myorhina uniseta","species","other_flies",1,NA,NA,NA,"Measures per site: 10 plants, 3 sampling rounds in each year

",NA
"Hisatomo_Taki_Fagopyrum_esculentum_Japan_2007","4","netting form flower","Oreumenes decoratus","species","non_bee_hymenoptera",1,NA,NA,NA,"Measures per site: 10 plants, 3 sampling rounds in each year

",NA
"Hisatomo_Taki_Fagopyrum_esculentum_Japan_2007","4","netting form flower","Parnara guttata","species","lepidoptera",3,NA,NA,NA,"Measures per site: 10 plants, 3 sampling rounds in each year

",NA
"Hisatomo_Taki_Fagopyrum_esculentum_Japan_2007","4","netting form flower","Phytomia zonata","species","syrphids",1,NA,NA,NA,"Measures per site: 10 plants, 3 sampling rounds in each year

",NA
"Hisatomo_Taki_Fagopyrum_esculentum_Japan_2007","4","netting form flower","Stomorhina obsoleta","species","other_flies",5,NA,NA,NA,"Measures per site: 10 plants, 3 sampling rounds in each year

",NA
"Hisatomo_Taki_Fagopyrum_esculentum_Japan_2007","4","netting form flower","Stratiomys japonica","species","syrphids",1,NA,NA,NA,"Measures per site: 10 plants, 3 sampling rounds in each year

",NA
"Hisatomo_Taki_Fagopyrum_esculentum_Japan_2007","4","netting form flower","Zenillia albipila","species","other_flies",1,NA,NA,NA,"Measures per site: 10 plants, 3 sampling rounds in each year

",NA
"Hisatomo_Taki_Fagopyrum_esculentum_Japan_2007","5","netting form flower","Apis mellifera","species","honeybees",9,NA,NA,NA,"Measures per site: 10 plants, 3 sampling rounds in each year

",NA
"Hisatomo_Taki_Fagopyrum_esculentum_Japan_2007","5","netting form flower","Athalia rosae","species","non_bee_hymenoptera",1,NA,NA,NA,"Measures per site: 10 plants, 3 sampling rounds in each year

",NA
"Hisatomo_Taki_Fagopyrum_esculentum_Japan_2007","5","netting form flower","Aulacophora indica","species","beetles",2,NA,NA,NA,"Measures per site: 10 plants, 3 sampling rounds in each year

",NA
"Hisatomo_Taki_Fagopyrum_esculentum_Japan_2007","5","netting form flower","Dolerus similis","species","non_bee_hymenoptera",1,NA,NA,NA,"Measures per site: 10 plants, 3 sampling rounds in each year

",NA
"Hisatomo_Taki_Fagopyrum_esculentum_Japan_2007","5","netting form flower","Eristalis (Eoeristaris) cerealis","species","syrphids",1,NA,NA,NA,"Measures per site: 10 plants, 3 sampling rounds in each year

",NA
"Hisatomo_Taki_Fagopyrum_esculentum_Japan_2007","5","netting form flower","Formica japonica","species","non_bee_hymenoptera",3,NA,NA,NA,"Measures per site: 10 plants, 3 sampling rounds in each year

",NA
"Hisatomo_Taki_Fagopyrum_esculentum_Japan_2007","5","netting form flower","Gametis jucunda","species","beetles",1,NA,NA,NA,"Measures per site: 10 plants, 3 sampling rounds in each year

",NA
"Hisatomo_Taki_Fagopyrum_esculentum_Japan_2007","5","netting form flower","Lasioglossum occidens","species","other_wild_bees",2,NA,NA,NA,"Measures per site: 10 plants, 3 sampling rounds in each year

",NA
"Hisatomo_Taki_Fagopyrum_esculentum_Japan_2007","5","netting form flower","Lucilia papuensis","species","other_flies",1,NA,NA,NA,"Measures per site: 10 plants, 3 sampling rounds in each year

",NA
"Hisatomo_Taki_Fagopyrum_esculentum_Japan_2007","5","netting form flower","Parnara guttata","species","lepidoptera",4,NA,NA,NA,"Measures per site: 10 plants, 3 sampling rounds in each year

",NA
"Hisatomo_Taki_Fagopyrum_esculentum_Japan_2007","5","netting form flower","Phytomia zonata","species","syrphids",2,NA,NA,NA,"Measures per site: 10 plants, 3 sampling rounds in each year

",NA
"Hisatomo_Taki_Fagopyrum_esculentum_Japan_2007","5","netting form flower","Sphaerophoria sp.","morphospecies","syrphids",1,NA,NA,NA,"Measures per site: 10 plants, 3 sampling rounds in each year

",NA
"Hisatomo_Taki_Fagopyrum_esculentum_Japan_2007","5","netting form flower","Stomorhina obsoleta","species","other_flies",3,NA,NA,NA,"Measures per site: 10 plants, 3 sampling rounds in each year

",NA
"Hisatomo_Taki_Fagopyrum_esculentum_Japan_2007","6","netting form flower","Apis cerana","species","honeybees",10,NA,NA,NA,"Measures per site: 10 plants, 3 sampling rounds in each year

",NA
"Hisatomo_Taki_Fagopyrum_esculentum_Japan_2007","6","netting form flower","Apis mellifera","species","honeybees",5,NA,NA,NA,"Measures per site: 10 plants, 3 sampling rounds in each year

",NA
"Hisatomo_Taki_Fagopyrum_esculentum_Japan_2007","6","netting form flower","Exorista (Podotachin) sorbillans","species","other_flies",1,NA,NA,NA,"Measures per site: 10 plants, 3 sampling rounds in each year

",NA
"Hisatomo_Taki_Fagopyrum_esculentum_Japan_2007","6","netting form flower","Formica japonica","species","non_bee_hymenoptera",12,NA,NA,NA,"Measures per site: 10 plants, 3 sampling rounds in each year

",NA
"Hisatomo_Taki_Fagopyrum_esculentum_Japan_2007","6","netting form flower","Gametis jucunda","species","beetles",1,NA,NA,NA,"Measures per site: 10 plants, 3 sampling rounds in each year

",NA
"Hisatomo_Taki_Fagopyrum_esculentum_Japan_2007","6","netting form flower","Hylaeus floralis","species","other_wild_bees",2,NA,NA,NA,"Measures per site: 10 plants, 3 sampling rounds in each year

",NA
"Hisatomo_Taki_Fagopyrum_esculentum_Japan_2007","6","netting form flower","Hylaeus nippon","species","other_wild_bees",1,NA,NA,NA,"Measures per site: 10 plants, 3 sampling rounds in each year

",NA
"Hisatomo_Taki_Fagopyrum_esculentum_Japan_2007","6","netting form flower","Lipotriches yasumatsui","species","other_wild_bees",1,NA,NA,NA,"Measures per site: 10 plants, 3 sampling rounds in each year

",NA
"Hisatomo_Taki_Fagopyrum_esculentum_Japan_2007","6","netting form flower","Lucilia papuensis","species","other_flies",2,NA,NA,NA,"Measures per site: 10 plants, 3 sampling rounds in each year

",NA
"Hisatomo_Taki_Fagopyrum_esculentum_Japan_2007","6","netting form flower","Megachile humilis","species","other_wild_bees",1,NA,NA,NA,"Measures per site: 10 plants, 3 sampling rounds in each year

",NA
"Hisatomo_Taki_Fagopyrum_esculentum_Japan_2007","6","netting form flower","Phytomia zonata","species","syrphids",2,NA,NA,NA,"Measures per site: 10 plants, 3 sampling rounds in each year

",NA
"Hisatomo_Taki_Fagopyrum_esculentum_Japan_2007","6","netting form flower","Stomorhina obsoleta","species","other_flies",4,NA,NA,NA,"Measures per site: 10 plants, 3 sampling rounds in each year

",NA
"Hisatomo_Taki_Fagopyrum_esculentum_Japan_2007","7","netting form flower","Apis cerana","species","honeybees",25,NA,NA,NA,"Measures per site: 10 plants, 3 sampling rounds in each year

",NA
"Hisatomo_Taki_Fagopyrum_esculentum_Japan_2007","7","netting form flower","Apis mellifera","species","honeybees",5,NA,NA,NA,"Measures per site: 10 plants, 3 sampling rounds in each year

",NA
"Hisatomo_Taki_Fagopyrum_esculentum_Japan_2007","7","netting form flower","Camponotus japonicus","species","non_bee_hymenoptera",1,NA,NA,NA,"Measures per site: 10 plants, 3 sampling rounds in each year

",NA
"Hisatomo_Taki_Fagopyrum_esculentum_Japan_2007","7","netting form flower","Campsomeriella annulata","species","non_bee_hymenoptera",1,NA,NA,NA,"Measures per site: 10 plants, 3 sampling rounds in each year

",NA
"Hisatomo_Taki_Fagopyrum_esculentum_Japan_2007","7","netting form flower","Cerceris japonica","species","non_bee_hymenoptera",1,NA,NA,NA,"Measures per site: 10 plants, 3 sampling rounds in each year

",NA
"Hisatomo_Taki_Fagopyrum_esculentum_Japan_2007","7","netting form flower","Chrysomya pinguis","species","other_flies",1,NA,NA,NA,"Measures per site: 10 plants, 3 sampling rounds in each year

",NA
"Hisatomo_Taki_Fagopyrum_esculentum_Japan_2007","7","netting form flower","Eristalis tenax","species","syrphids",2,NA,NA,NA,"Measures per site: 10 plants, 3 sampling rounds in each year

",NA
"Hisatomo_Taki_Fagopyrum_esculentum_Japan_2007","7","netting form flower","Formica japonica","species","non_bee_hymenoptera",9,NA,NA,NA,"Measures per site: 10 plants, 3 sampling rounds in each year

",NA
"Hisatomo_Taki_Fagopyrum_esculentum_Japan_2007","7","netting form flower","Lasioglossum occidens","species","other_wild_bees",1,NA,NA,NA,"Measures per site: 10 plants, 3 sampling rounds in each year

",NA
"Hisatomo_Taki_Fagopyrum_esculentum_Japan_2007","7","netting form flower","Lucilia papuensis","species","other_flies",1,NA,NA,NA,"Measures per site: 10 plants, 3 sampling rounds in each year

",NA
"Hisatomo_Taki_Fagopyrum_esculentum_Japan_2007","7","netting form flower","Megachile tsurugensis","species","other_wild_bees",1,NA,NA,NA,"Measures per site: 10 plants, 3 sampling rounds in each year

",NA
"Hisatomo_Taki_Fagopyrum_esculentum_Japan_2007","7","netting form flower","Parnara guttata","species","lepidoptera",1,NA,NA,NA,"Measures per site: 10 plants, 3 sampling rounds in each year

",NA
"Hisatomo_Taki_Fagopyrum_esculentum_Japan_2007","7","netting form flower","Stomorhina obsoleta","species","other_flies",3,NA,NA,NA,"Measures per site: 10 plants, 3 sampling rounds in each year

",NA
"Hisatomo_Taki_Fagopyrum_esculentum_Japan_2007","8","netting form flower","Apis cerana","species","honeybees",15,NA,NA,NA,"Measures per site: 10 plants, 3 sampling rounds in each year

",NA
"Hisatomo_Taki_Fagopyrum_esculentum_Japan_2007","8","netting form flower","Episyrphus balteatus","species","syrphids",1,NA,NA,NA,"Measures per site: 10 plants, 3 sampling rounds in each year

",NA
"Hisatomo_Taki_Fagopyrum_esculentum_Japan_2007","8","netting form flower","Eristalis (Eoeristaris) cerealis","species","syrphids",2,NA,NA,NA,"Measures per site: 10 plants, 3 sampling rounds in each year

",NA
"Hisatomo_Taki_Fagopyrum_esculentum_Japan_2007","8","netting form flower","Eristalis tenax","species","syrphids",4,NA,NA,NA,"Measures per site: 10 plants, 3 sampling rounds in each year

",NA
"Hisatomo_Taki_Fagopyrum_esculentum_Japan_2007","8","netting form flower","Formica japonica","species","non_bee_hymenoptera",4,NA,NA,NA,"Measures per site: 10 plants, 3 sampling rounds in each year

",NA
"Hisatomo_Taki_Fagopyrum_esculentum_Japan_2007","8","netting form flower","Gametis jucunda","species","beetles",1,NA,NA,NA,"Measures per site: 10 plants, 3 sampling rounds in each year

",NA
"Hisatomo_Taki_Fagopyrum_esculentum_Japan_2007","8","netting form flower","Lucilia papuensis","species","other_flies",1,NA,NA,NA,"Measures per site: 10 plants, 3 sampling rounds in each year

",NA
"Hisatomo_Taki_Fagopyrum_esculentum_Japan_2007","8","netting form flower","Paragus quadrifasciatus","species","syrphids",1,NA,NA,NA,"Measures per site: 10 plants, 3 sampling rounds in each year

",NA
"Hisatomo_Taki_Fagopyrum_esculentum_Japan_2007","8","netting form flower","Parasarcophaga albiceps","species","other_flies",1,NA,NA,NA,"Measures per site: 10 plants, 3 sampling rounds in each year

",NA
"Hisatomo_Taki_Fagopyrum_esculentum_Japan_2007","8","netting form flower","Parnara guttata","species","lepidoptera",1,NA,NA,NA,"Measures per site: 10 plants, 3 sampling rounds in each year

",NA
"Hisatomo_Taki_Fagopyrum_esculentum_Japan_2007","8","netting form flower","Phytomia zonata","species","syrphids",1,NA,NA,NA,"Measures per site: 10 plants, 3 sampling rounds in each year

",NA
"Hisatomo_Taki_Fagopyrum_esculentum_Japan_2007","8","netting form flower","Stomorhina obsoleta","species","other_flies",3,NA,NA,NA,"Measures per site: 10 plants, 3 sampling rounds in each year

",NA
"Hisatomo_Taki_Fagopyrum_esculentum_Japan_2007","9","netting form flower","Apis cerana","species","honeybees",20,NA,NA,NA,"Measures per site: 10 plants, 3 sampling rounds in each year

",NA
"Hisatomo_Taki_Fagopyrum_esculentum_Japan_2007","9","netting form flower","Apis mellifera","species","honeybees",1,NA,NA,NA,"Measures per site: 10 plants, 3 sampling rounds in each year

",NA
"Hisatomo_Taki_Fagopyrum_esculentum_Japan_2007","9","netting form flower","Eristalinus (Lathyrophthalmus) quinquestriatus","species","syrphids",1,NA,NA,NA,"Measures per site: 10 plants, 3 sampling rounds in each year

",NA
"Hisatomo_Taki_Fagopyrum_esculentum_Japan_2007","9","netting form flower","Eristalis (Eoeristaris) cerealis","species","syrphids",2,NA,NA,NA,"Measures per site: 10 plants, 3 sampling rounds in each year

",NA
"Hisatomo_Taki_Fagopyrum_esculentum_Japan_2007","9","netting form flower","Eristalis tenax","species","syrphids",2,NA,NA,NA,"Measures per site: 10 plants, 3 sampling rounds in each year

",NA
"Hisatomo_Taki_Fagopyrum_esculentum_Japan_2007","9","netting form flower","Formica japonica","species","non_bee_hymenoptera",6,NA,NA,NA,"Measures per site: 10 plants, 3 sampling rounds in each year

",NA
"Hisatomo_Taki_Fagopyrum_esculentum_Japan_2007","9","netting form flower","Lasioglossum occidens","species","other_wild_bees",1,NA,NA,NA,"Measures per site: 10 plants, 3 sampling rounds in each year

",NA
"Hisatomo_Taki_Fagopyrum_esculentum_Japan_2007","9","netting form flower","Parasarcophaga similis","species","other_flies",1,NA,NA,NA,"Measures per site: 10 plants, 3 sampling rounds in each year

",NA
"Hisatomo_Taki_Fagopyrum_esculentum_Japan_2007","9","netting form flower","Parasarcophaga unguitigris","species","other_flies",1,NA,NA,NA,"Measures per site: 10 plants, 3 sampling rounds in each year

",NA
"Hisatomo_Taki_Fagopyrum_esculentum_Japan_2007","9","netting form flower","Parnara guttata","species","lepidoptera",1,NA,NA,NA,"Measures per site: 10 plants, 3 sampling rounds in each year

",NA
"Hisatomo_Taki_Fagopyrum_esculentum_Japan_2007","9","netting form flower","Sphaerophoria sp.","morphospecies","syrphids",1,NA,NA,NA,"Measures per site: 10 plants, 3 sampling rounds in each year

",NA
"Hisatomo_Taki_Fagopyrum_esculentum_Japan_2007","9","netting form flower","Stomorhina obsoleta","species","other_flies",4,NA,NA,NA,"Measures per site: 10 plants, 3 sampling rounds in each year

",NA
"Hisatomo_Taki_Fagopyrum_esculentum_Japan_2007","10","netting form flower","Amobia sp","morphospecies","other_flies",1,NA,NA,NA,"Measures per site: 10 plants, 3 sampling rounds in each year

",NA
"Hisatomo_Taki_Fagopyrum_esculentum_Japan_2007","10","netting form flower","Apis cerana","species","honeybees",3,NA,NA,NA,"Measures per site: 10 plants, 3 sampling rounds in each year

",NA
"Hisatomo_Taki_Fagopyrum_esculentum_Japan_2007","10","netting form flower","Apis mellifera","species","honeybees",11,NA,NA,NA,"Measures per site: 10 plants, 3 sampling rounds in each year

",NA
"Hisatomo_Taki_Fagopyrum_esculentum_Japan_2007","10","netting form flower","Arge nipponensis","species","non_bee_hymenoptera",1,NA,NA,NA,"Measures per site: 10 plants, 3 sampling rounds in each year

",NA
"Hisatomo_Taki_Fagopyrum_esculentum_Japan_2007","10","netting form flower","Camponotus obscuripes","species","non_bee_hymenoptera",1,NA,NA,NA,"Measures per site: 10 plants, 3 sampling rounds in each year

",NA
"Hisatomo_Taki_Fagopyrum_esculentum_Japan_2007","10","netting form flower","Chrysolina exanthematica","species","beetles",1,NA,NA,NA,"Measures per site: 10 plants, 3 sampling rounds in each year

",NA
"Hisatomo_Taki_Fagopyrum_esculentum_Japan_2007","10","netting form flower","Chrysomya pinguis","species","other_flies",3,NA,NA,NA,"Measures per site: 10 plants, 3 sampling rounds in each year

",NA
"Hisatomo_Taki_Fagopyrum_esculentum_Japan_2007","10","netting form flower","Eristalinus (Lathyrophthalmus) quinquestriatus","species","syrphids",1,NA,NA,NA,"Measures per site: 10 plants, 3 sampling rounds in each year

",NA
"Hisatomo_Taki_Fagopyrum_esculentum_Japan_2007","10","netting form flower","Eristalis (Eoeristaris) cerealis","species","syrphids",3,NA,NA,NA,"Measures per site: 10 plants, 3 sampling rounds in each year

",NA
"Hisatomo_Taki_Fagopyrum_esculentum_Japan_2007","10","netting form flower","Formica japonica","species","non_bee_hymenoptera",3,NA,NA,NA,"Measures per site: 10 plants, 3 sampling rounds in each year

",NA
"Hisatomo_Taki_Fagopyrum_esculentum_Japan_2007","10","netting form flower","Gametis jucunda","species","beetles",1,NA,NA,NA,"Measures per site: 10 plants, 3 sampling rounds in each year

",NA
"Hisatomo_Taki_Fagopyrum_esculentum_Japan_2007","10","netting form flower","Lasioglossum occidens","species","other_wild_bees",6,NA,NA,NA,"Measures per site: 10 plants, 3 sampling rounds in each year

",NA
"Hisatomo_Taki_Fagopyrum_esculentum_Japan_2007","10","netting form flower","Lucilia papuensis","species","other_flies",3,NA,NA,NA,"Measures per site: 10 plants, 3 sampling rounds in each year

",NA
"Hisatomo_Taki_Fagopyrum_esculentum_Japan_2007","10","netting form flower","Megacampsomeris grossa","species","non_bee_hymenoptera",1,NA,NA,NA,"Measures per site: 10 plants, 3 sampling rounds in each year

",NA
"Hisatomo_Taki_Fagopyrum_esculentum_Japan_2007","10","netting form flower","Parnara guttata","species","lepidoptera",2,NA,NA,NA,"Measures per site: 10 plants, 3 sampling rounds in each year

",NA
"Hisatomo_Taki_Fagopyrum_esculentum_Japan_2007","10","netting form flower","Polistes nipponensis","species","non_bee_hymenoptera",1,NA,NA,NA,"Measures per site: 10 plants, 3 sampling rounds in each year

",NA
"Hisatomo_Taki_Fagopyrum_esculentum_Japan_2007","10","netting form flower","Polistes snelleni","species","non_bee_hymenoptera",1,NA,NA,NA,"Measures per site: 10 plants, 3 sampling rounds in each year

",NA
"Hisatomo_Taki_Fagopyrum_esculentum_Japan_2007","10","netting form flower","Stomorhina obsoleta","species","other_flies",1,NA,NA,NA,"Measures per site: 10 plants, 3 sampling rounds in each year

",NA
"Hisatomo_Taki_Fagopyrum_esculentum_Japan_2007","11","netting form flower","Apis cerana","species","honeybees",5,NA,NA,NA,"Measures per site: 10 plants, 3 sampling rounds in each year

",NA
"Hisatomo_Taki_Fagopyrum_esculentum_Japan_2007","11","netting form flower","Apis mellifera","species","honeybees",12,NA,NA,NA,"Measures per site: 10 plants, 3 sampling rounds in each year

",NA
"Hisatomo_Taki_Fagopyrum_esculentum_Japan_2007","11","netting form flower","Boettcherisca peregrina","species","other_flies",1,NA,NA,NA,"Measures per site: 10 plants, 3 sampling rounds in each year

",NA
"Hisatomo_Taki_Fagopyrum_esculentum_Japan_2007","11","netting form flower","Camponotus japonicus","species","non_bee_hymenoptera",1,NA,NA,NA,"Measures per site: 10 plants, 3 sampling rounds in each year

",NA
"Hisatomo_Taki_Fagopyrum_esculentum_Japan_2007","11","netting form flower","Eristalinus (Lathyrophthalmus) quinquestriatus","species","syrphids",1,NA,NA,NA,"Measures per site: 10 plants, 3 sampling rounds in each year

",NA
"Hisatomo_Taki_Fagopyrum_esculentum_Japan_2007","11","netting form flower","Formica japonica","species","non_bee_hymenoptera",5,NA,NA,NA,"Measures per site: 10 plants, 3 sampling rounds in each year

",NA
"Hisatomo_Taki_Fagopyrum_esculentum_Japan_2007","11","netting form flower","Gametis jucunda","species","beetles",2,NA,NA,NA,"Measures per site: 10 plants, 3 sampling rounds in each year

",NA
"Hisatomo_Taki_Fagopyrum_esculentum_Japan_2007","11","netting form flower","Lasioglossum occidens","species","other_wild_bees",1,NA,NA,NA,"Measures per site: 10 plants, 3 sampling rounds in each year

",NA
"Hisatomo_Taki_Fagopyrum_esculentum_Japan_2007","11","netting form flower","Lucilia papuensis","species","other_flies",2,NA,NA,NA,"Measures per site: 10 plants, 3 sampling rounds in each year

",NA
"Hisatomo_Taki_Fagopyrum_esculentum_Japan_2007","11","netting form flower","Megacampsomeris grossa","species","non_bee_hymenoptera",1,NA,NA,NA,"Measures per site: 10 plants, 3 sampling rounds in each year

",NA
"Hisatomo_Taki_Fagopyrum_esculentum_Japan_2007","11","netting form flower","Musca hervei","species","other_flies",1,NA,NA,NA,"Measures per site: 10 plants, 3 sampling rounds in each year

",NA
"Hisatomo_Taki_Fagopyrum_esculentum_Japan_2007","11","netting form flower","Pales sp.","morphospecies","other_flies",1,NA,NA,NA,"Measures per site: 10 plants, 3 sampling rounds in each year

",NA
"Hisatomo_Taki_Fagopyrum_esculentum_Japan_2007","11","netting form flower","Parnara guttata","species","lepidoptera",3,NA,NA,NA,"Measures per site: 10 plants, 3 sampling rounds in each year

",NA
"Hisatomo_Taki_Fagopyrum_esculentum_Japan_2007","11","netting form flower","Sphaerophoria sp.","morphospecies","syrphids",2,NA,NA,NA,"Measures per site: 10 plants, 3 sampling rounds in each year

",NA
"Hisatomo_Taki_Fagopyrum_esculentum_Japan_2007","11","netting form flower","Stomorhina obsoleta","species","other_flies",2,NA,NA,NA,"Measures per site: 10 plants, 3 sampling rounds in each year

",NA
"Hisatomo_Taki_Fagopyrum_esculentum_Japan_2007","12","netting form flower","Apis cerana","species","honeybees",9,NA,NA,NA,"Measures per site: 10 plants, 3 sampling rounds in each year

",NA
"Hisatomo_Taki_Fagopyrum_esculentum_Japan_2007","12","netting form flower","Apis mellifera","species","honeybees",8,NA,NA,NA,"Measures per site: 10 plants, 3 sampling rounds in each year

",NA
"Hisatomo_Taki_Fagopyrum_esculentum_Japan_2007","12","netting form flower","Chrysomya pinguis","species","other_flies",1,NA,NA,NA,"Measures per site: 10 plants, 3 sampling rounds in each year

",NA
"Hisatomo_Taki_Fagopyrum_esculentum_Japan_2007","12","netting form flower","Colletes esakii","species","other_wild_bees",1,NA,NA,NA,"Measures per site: 10 plants, 3 sampling rounds in each year

",NA
"Hisatomo_Taki_Fagopyrum_esculentum_Japan_2007","12","netting form flower","Colletes patellatus","species","other_wild_bees",1,NA,NA,NA,"Measures per site: 10 plants, 3 sampling rounds in each year

",NA
"Hisatomo_Taki_Fagopyrum_esculentum_Japan_2007","12","netting form flower","Gametis jucunda","species","beetles",1,NA,NA,NA,"Measures per site: 10 plants, 3 sampling rounds in each year

",NA
"Hisatomo_Taki_Fagopyrum_esculentum_Japan_2007","12","netting form flower","Lucilia papuensis","species","other_flies",1,NA,NA,NA,"Measures per site: 10 plants, 3 sampling rounds in each year

",NA
"Hisatomo_Taki_Fagopyrum_esculentum_Japan_2007","12","netting form flower","Neomyia timorensis","species","other_flies",1,NA,NA,NA,"Measures per site: 10 plants, 3 sampling rounds in each year

",NA
"Hisatomo_Taki_Fagopyrum_esculentum_Japan_2007","12","netting form flower","Onesia nartshukae complex","species","other_flies",1,NA,NA,NA,"Measures per site: 10 plants, 3 sampling rounds in each year

",NA
"Hisatomo_Taki_Fagopyrum_esculentum_Japan_2007","12","netting form flower","Parnara guttata","species","lepidoptera",1,NA,NA,NA,"Measures per site: 10 plants, 3 sampling rounds in each year

",NA
"Hisatomo_Taki_Fagopyrum_esculentum_Japan_2007","12","netting form flower","Phytomia zonata","species","syrphids",2,NA,NA,NA,"Measures per site: 10 plants, 3 sampling rounds in each year

",NA
"Hisatomo_Taki_Fagopyrum_esculentum_Japan_2007","12","netting form flower","Stomorhina obsoleta","species","other_flies",3,NA,NA,NA,"Measures per site: 10 plants, 3 sampling rounds in each year

",NA
"Hisatomo_Taki_Fagopyrum_esculentum_Japan_2007","12","netting form flower","Tachytes etruscus","species","non_bee_hymenoptera",1,NA,NA,NA,"Measures per site: 10 plants, 3 sampling rounds in each year

",NA
"Hisatomo_Taki_Fagopyrum_esculentum_Japan_2007","12","netting form flower","Tachytes fruticis","species","non_bee_hymenoptera",1,NA,NA,NA,"Measures per site: 10 plants, 3 sampling rounds in each year

",NA
"Hisatomo_Taki_Fagopyrum_esculentum_Japan_2007","12","netting form flower","Xylocopa appendiculata circumvolans","species","other_wild_bees",1,NA,NA,NA,"Measures per site: 10 plants, 3 sampling rounds in each year

",NA
"Hisatomo_Taki_Fagopyrum_esculentum_Japan_2007","13","netting form flower","Apis cerana","species","honeybees",5,NA,NA,NA,"Measures per site: 10 plants, 3 sampling rounds in each year

",NA
"Hisatomo_Taki_Fagopyrum_esculentum_Japan_2007","13","netting form flower","Apis mellifera","species","honeybees",6,NA,NA,NA,"Measures per site: 10 plants, 3 sampling rounds in each year

",NA
"Hisatomo_Taki_Fagopyrum_esculentum_Japan_2007","13","netting form flower","Cetonia roelofsi","species","beetles",1,NA,NA,NA,"Measures per site: 10 plants, 3 sampling rounds in each year

",NA
"Hisatomo_Taki_Fagopyrum_esculentum_Japan_2007","13","netting form flower","Colletes patellatus","species","other_wild_bees",1,NA,NA,NA,"Measures per site: 10 plants, 3 sampling rounds in each year

",NA
"Hisatomo_Taki_Fagopyrum_esculentum_Japan_2007","13","netting form flower","Dolerus similis","species","non_bee_hymenoptera",1,NA,NA,NA,"Measures per site: 10 plants, 3 sampling rounds in each year

",NA
"Hisatomo_Taki_Fagopyrum_esculentum_Japan_2007","13","netting form flower","Eristalinus (Lathyrophthalmus) quinquestriatus","species","syrphids",1,NA,NA,NA,"Measures per site: 10 plants, 3 sampling rounds in each year

",NA
"Hisatomo_Taki_Fagopyrum_esculentum_Japan_2007","13","netting form flower","Eristalis tenax","species","syrphids",1,NA,NA,NA,"Measures per site: 10 plants, 3 sampling rounds in each year

",NA
"Hisatomo_Taki_Fagopyrum_esculentum_Japan_2007","13","netting form flower","Formica japonica","species","non_bee_hymenoptera",16,NA,NA,NA,"Measures per site: 10 plants, 3 sampling rounds in each year

",NA
"Hisatomo_Taki_Fagopyrum_esculentum_Japan_2007","13","netting form flower","Hylaeus floralis","species","other_wild_bees",1,NA,NA,NA,"Measures per site: 10 plants, 3 sampling rounds in each year

",NA
"Hisatomo_Taki_Fagopyrum_esculentum_Japan_2007","13","netting form flower","Hylaeus nippon","species","other_wild_bees",2,NA,NA,NA,"Measures per site: 10 plants, 3 sampling rounds in each year

",NA
"Hisatomo_Taki_Fagopyrum_esculentum_Japan_2007","13","netting form flower","Lucilia ampullacea","species","other_flies",1,NA,NA,NA,"Measures per site: 10 plants, 3 sampling rounds in each year

",NA
"Hisatomo_Taki_Fagopyrum_esculentum_Japan_2007","13","netting form flower","Megachile tsurugensis","species","other_wild_bees",1,NA,NA,NA,"Measures per site: 10 plants, 3 sampling rounds in each year

",NA
"Hisatomo_Taki_Fagopyrum_esculentum_Japan_2007","13","netting form flower","Onesia nartshukae complex","species","other_flies",1,NA,NA,NA,"Measures per site: 10 plants, 3 sampling rounds in each year

",NA
"Hisatomo_Taki_Fagopyrum_esculentum_Japan_2007","13","netting form flower","Parasarcophaga unguitigris","species","other_flies",1,NA,NA,NA,"Measures per site: 10 plants, 3 sampling rounds in each year

",NA
"Hisatomo_Taki_Fagopyrum_esculentum_Japan_2007","13","netting form flower","Parnara guttata","species","lepidoptera",1,NA,NA,NA,"Measures per site: 10 plants, 3 sampling rounds in each year

",NA
"Hisatomo_Taki_Fagopyrum_esculentum_Japan_2007","13","netting form flower","Pelopidas mathias","species","lepidoptera",1,NA,NA,NA,"Measures per site: 10 plants, 3 sampling rounds in each year

",NA
"Hisatomo_Taki_Fagopyrum_esculentum_Japan_2007","13","netting form flower","Phytomia zonata","species","syrphids",3,NA,NA,NA,"Measures per site: 10 plants, 3 sampling rounds in each year

",NA
"Hisatomo_Taki_Fagopyrum_esculentum_Japan_2007","13","netting form flower","Polytremis pellucida","species","lepidoptera",1,NA,NA,NA,"Measures per site: 10 plants, 3 sampling rounds in each year

",NA
"Hisatomo_Taki_Fagopyrum_esculentum_Japan_2007","13","netting form flower","Scolia oculata","species","non_bee_hymenoptera",1,NA,NA,NA,"Measures per site: 10 plants, 3 sampling rounds in each year

",NA
"Hisatomo_Taki_Fagopyrum_esculentum_Japan_2007","13","netting form flower","Sphaerophoria sp.","morphospecies","syrphids",1,NA,NA,NA,"Measures per site: 10 plants, 3 sampling rounds in each year

",NA
"Hisatomo_Taki_Fagopyrum_esculentum_Japan_2007","13","netting form flower","Stomorhina obsoleta","species","other_flies",3,NA,NA,NA,"Measures per site: 10 plants, 3 sampling rounds in each year

",NA
"Hisatomo_Taki_Fagopyrum_esculentum_Japan_2007","14","netting form flower","Apis cerana","species","honeybees",12,NA,NA,NA,"Measures per site: 10 plants, 3 sampling rounds in each year

",NA
"Hisatomo_Taki_Fagopyrum_esculentum_Japan_2007","14","netting form flower","Apis mellifera","species","honeybees",16,NA,NA,NA,"Measures per site: 10 plants, 3 sampling rounds in each year

",NA
"Hisatomo_Taki_Fagopyrum_esculentum_Japan_2007","14","netting form flower","Boettcherisca peregrina","species","other_flies",1,NA,NA,NA,"Measures per site: 10 plants, 3 sampling rounds in each year

",NA
"Hisatomo_Taki_Fagopyrum_esculentum_Japan_2007","14","netting form flower","Delia platura","species","other_flies",1,NA,NA,NA,"Measures per site: 10 plants, 3 sampling rounds in each year

",NA
"Hisatomo_Taki_Fagopyrum_esculentum_Japan_2007","14","netting form flower","Formica japonica","species","non_bee_hymenoptera",12,NA,NA,NA,"Measures per site: 10 plants, 3 sampling rounds in each year

",NA
"Hisatomo_Taki_Fagopyrum_esculentum_Japan_2007","14","netting form flower","Parasarcophaga similis","species","other_flies",1,NA,NA,NA,"Measures per site: 10 plants, 3 sampling rounds in each year

",NA
"Hisatomo_Taki_Fagopyrum_esculentum_Japan_2007","14","netting form flower","Sphaerophoria sp.","morphospecies","syrphids",1,NA,NA,NA,"Measures per site: 10 plants, 3 sampling rounds in each year

",NA
"Hisatomo_Taki_Fagopyrum_esculentum_Japan_2007","14","netting form flower","Stomorhina obsoleta","species","other_flies",1,NA,NA,NA,"Measures per site: 10 plants, 3 sampling rounds in each year

",NA
"Hisatomo_Taki_Fagopyrum_esculentum_Japan_2007","15","netting form flower","Apis cerana","species","honeybees",12,NA,NA,NA,"Measures per site: 10 plants, 3 sampling rounds in each year

",NA
"Hisatomo_Taki_Fagopyrum_esculentum_Japan_2007","15","netting form flower","Apis mellifera","species","honeybees",1,NA,NA,NA,"Measures per site: 10 plants, 3 sampling rounds in each year

",NA
"Hisatomo_Taki_Fagopyrum_esculentum_Japan_2007","15","netting form flower","Chrysomya pinguis","species","other_flies",2,NA,NA,NA,"Measures per site: 10 plants, 3 sampling rounds in each year

",NA
"Hisatomo_Taki_Fagopyrum_esculentum_Japan_2007","15","netting form flower","Eristalinus (Lathyrophthalmus) quinquestriatus","species","syrphids",1,NA,NA,NA,"Measures per site: 10 plants, 3 sampling rounds in each year

",NA
"Hisatomo_Taki_Fagopyrum_esculentum_Japan_2007","15","netting form flower","Eristalinus (Lathyrophthalmus) tarsalis","species","syrphids",1,NA,NA,NA,"Measures per site: 10 plants, 3 sampling rounds in each year

",NA
"Hisatomo_Taki_Fagopyrum_esculentum_Japan_2007","15","netting form flower","Eristalis (Eoeristaris) cerealis","species","syrphids",1,NA,NA,NA,"Measures per site: 10 plants, 3 sampling rounds in each year

",NA
"Hisatomo_Taki_Fagopyrum_esculentum_Japan_2007","15","netting form flower","Formica japonica","species","non_bee_hymenoptera",4,NA,NA,NA,"Measures per site: 10 plants, 3 sampling rounds in each year

",NA
"Hisatomo_Taki_Fagopyrum_esculentum_Japan_2007","15","netting form flower","Gametis jucunda","species","beetles",4,NA,NA,NA,"Measures per site: 10 plants, 3 sampling rounds in each year

",NA
"Hisatomo_Taki_Fagopyrum_esculentum_Japan_2007","15","netting form flower","Hylaeus floralis","species","other_wild_bees",1,NA,NA,NA,"Measures per site: 10 plants, 3 sampling rounds in each year

",NA
"Hisatomo_Taki_Fagopyrum_esculentum_Japan_2007","15","netting form flower","Lasioglossum occidens","species","other_wild_bees",1,NA,NA,NA,"Measures per site: 10 plants, 3 sampling rounds in each year

",NA
"Hisatomo_Taki_Fagopyrum_esculentum_Japan_2007","15","netting form flower","Lucilia papuensis","species","other_flies",3,NA,NA,NA,"Measures per site: 10 plants, 3 sampling rounds in each year

",NA
"Hisatomo_Taki_Fagopyrum_esculentum_Japan_2007","15","netting form flower","Parnara guttata","species","lepidoptera",5,NA,NA,NA,"Measures per site: 10 plants, 3 sampling rounds in each year

",NA
"Hisatomo_Taki_Fagopyrum_esculentum_Japan_2007","15","netting form flower","Phytomia zonata","species","syrphids",2,NA,NA,NA,"Measures per site: 10 plants, 3 sampling rounds in each year

",NA
"Hisatomo_Taki_Fagopyrum_esculentum_Japan_2007","15","netting form flower","Stomorhina obsoleta","species","other_flies",3,NA,NA,NA,"Measures per site: 10 plants, 3 sampling rounds in each year

",NA
"Hisatomo_Taki_Fagopyrum_esculentum_Japan_2008","1","netting form flower","Apis cerana","species","honeybees",2,NA,NA,NA,"Measures per site: 20 plants, 3 sampling rounds in each year

",NA
"Hisatomo_Taki_Fagopyrum_esculentum_Japan_2008","1","netting form flower","Apis mellifera","species","honeybees",2,NA,NA,NA,"Measures per site: 20 plants, 3 sampling rounds in each year

",NA
"Hisatomo_Taki_Fagopyrum_esculentum_Japan_2008","1","netting form flower","Eristalis (Eoeristaris) cerealis","species","syrphids",1,NA,NA,NA,"Measures per site: 20 plants, 3 sampling rounds in each year

",NA
"Hisatomo_Taki_Fagopyrum_esculentum_Japan_2008","1","netting form flower","Eristalis tenax","species","syrphids",2,NA,NA,NA,"Measures per site: 20 plants, 3 sampling rounds in each year

",NA
"Hisatomo_Taki_Fagopyrum_esculentum_Japan_2008","1","netting form flower","Gametis jucunda","species","beetles",4,NA,NA,NA,"Measures per site: 20 plants, 3 sampling rounds in each year

",NA
"Hisatomo_Taki_Fagopyrum_esculentum_Japan_2008","1","netting form flower","Lasioglossum sibiriacum","species","other_wild_bees",1,NA,NA,NA,"Measures per site: 20 plants, 3 sampling rounds in each year

",NA
"Hisatomo_Taki_Fagopyrum_esculentum_Japan_2008","1","netting form flower","Lucilia papuensis","species","other_flies",2,NA,NA,NA,"Measures per site: 20 plants, 3 sampling rounds in each year

",NA
"Hisatomo_Taki_Fagopyrum_esculentum_Japan_2008","1","netting form flower","Phytomia zonata","species","syrphids",3,NA,NA,NA,"Measures per site: 20 plants, 3 sampling rounds in each year

",NA
"Hisatomo_Taki_Fagopyrum_esculentum_Japan_2008","1","netting form flower","Sphaerophoria sp.","genera","syrphids",4,NA,NA,NA,"Measures per site: 20 plants, 3 sampling rounds in each year

",NA
"Hisatomo_Taki_Fagopyrum_esculentum_Japan_2008","1","netting form flower","Stomorhina obsoleta","species","other_flies",3,NA,NA,NA,"Measures per site: 20 plants, 3 sampling rounds in each year

",NA
"Hisatomo_Taki_Fagopyrum_esculentum_Japan_2008","1","netting form flower","Tachinidae sp.","family","other_flies",1,NA,NA,NA,"Measures per site: 20 plants, 3 sampling rounds in each year

",NA
"Hisatomo_Taki_Fagopyrum_esculentum_Japan_2008","2","netting form flower","Apis cerana","species","honeybees",3,NA,NA,NA,"Measures per site: 20 plants, 3 sampling rounds in each year

",NA
"Hisatomo_Taki_Fagopyrum_esculentum_Japan_2008","2","netting form flower","Apis mellifera","species","honeybees",4,NA,NA,NA,"Measures per site: 20 plants, 3 sampling rounds in each year

",NA
"Hisatomo_Taki_Fagopyrum_esculentum_Japan_2008","2","netting form flower","Byasa alcinous","species","lepidoptera",1,NA,NA,NA,"Measures per site: 20 plants, 3 sampling rounds in each year

",NA
"Hisatomo_Taki_Fagopyrum_esculentum_Japan_2008","2","netting form flower","Chalicodoma sculpturalis","species","other_wild_bees",1,NA,NA,NA,"Measures per site: 20 plants, 3 sampling rounds in each year

",NA
"Hisatomo_Taki_Fagopyrum_esculentum_Japan_2008","2","netting form flower","Eupeodes","species","syrphids",1,NA,NA,NA,"Measures per site: 20 plants, 3 sampling rounds in each year

",NA
"Hisatomo_Taki_Fagopyrum_esculentum_Japan_2008","2","netting form flower","Formica japonica","species","non_bee_hymenoptera",1,NA,NA,NA,"Measures per site: 20 plants, 3 sampling rounds in each year

",NA
"Hisatomo_Taki_Fagopyrum_esculentum_Japan_2008","2","netting form flower","Gametis jucunda","species","beetles",4,NA,NA,NA,"Measures per site: 20 plants, 3 sampling rounds in each year

",NA
"Hisatomo_Taki_Fagopyrum_esculentum_Japan_2008","2","netting form flower","Hylaeus nippon","species","other_wild_bees",1,NA,NA,NA,"Measures per site: 20 plants, 3 sampling rounds in each year

",NA
"Hisatomo_Taki_Fagopyrum_esculentum_Japan_2008","2","netting form flower","Musca hervei","species","other_flies",1,NA,NA,NA,"Measures per site: 20 plants, 3 sampling rounds in each year

",NA
"Hisatomo_Taki_Fagopyrum_esculentum_Japan_2008","2","netting form flower","Phytomia zonata","species","syrphids",4,NA,NA,NA,"Measures per site: 20 plants, 3 sampling rounds in each year

",NA
"Hisatomo_Taki_Fagopyrum_esculentum_Japan_2008","2","netting form flower","Sphaerophoria sp.","genera","syrphids",3,NA,NA,NA,"Measures per site: 20 plants, 3 sampling rounds in each year

",NA
"Hisatomo_Taki_Fagopyrum_esculentum_Japan_2008","2","netting form flower","Stomorhina obsoleta","species","other_flies",2,NA,NA,NA,"Measures per site: 20 plants, 3 sampling rounds in each year

",NA
"Hisatomo_Taki_Fagopyrum_esculentum_Japan_2008","2","netting form flower","Tachinidae sp.","family","other_flies",5,NA,NA,NA,"Measures per site: 20 plants, 3 sampling rounds in each year

",NA
"Hisatomo_Taki_Fagopyrum_esculentum_Japan_2008","2","netting form flower","Thoressa varia","species","lepidoptera",1,NA,NA,NA,"Measures per site: 20 plants, 3 sampling rounds in each year

",NA
"Hisatomo_Taki_Fagopyrum_esculentum_Japan_2008","2","netting form flower","Vespula flaviceps","species","non_bee_hymenoptera",1,NA,NA,NA,"Measures per site: 20 plants, 3 sampling rounds in each year

",NA
"Hisatomo_Taki_Fagopyrum_esculentum_Japan_2008","3","netting form flower","Anterhynchium flavomarginatum","species","non_bee_hymenoptera",1,NA,NA,NA,"Measures per site: 20 plants, 3 sampling rounds in each year

",NA
"Hisatomo_Taki_Fagopyrum_esculentum_Japan_2008","3","netting form flower","Apis cerana","species","honeybees",2,NA,NA,NA,"Measures per site: 20 plants, 3 sampling rounds in each year

",NA
"Hisatomo_Taki_Fagopyrum_esculentum_Japan_2008","3","netting form flower","Apis mellifera","species","honeybees",7,NA,NA,NA,"Measures per site: 20 plants, 3 sampling rounds in each year

",NA
"Hisatomo_Taki_Fagopyrum_esculentum_Japan_2008","3","netting form flower","Atylotus hasegawai","species","other_flies",1,NA,NA,NA,"Measures per site: 20 plants, 3 sampling rounds in each year

",NA
"Hisatomo_Taki_Fagopyrum_esculentum_Japan_2008","3","netting form flower","Aulacophora nigripennis","species","beetles",1,NA,NA,NA,"Measures per site: 20 plants, 3 sampling rounds in each year

",NA
"Hisatomo_Taki_Fagopyrum_esculentum_Japan_2008","3","netting form flower","Colletes vogti","species","other_wild_bees",1,NA,NA,NA,"Measures per site: 20 plants, 3 sampling rounds in each year

",NA
"Hisatomo_Taki_Fagopyrum_esculentum_Japan_2008","3","netting form flower","Formica japonica","species","non_bee_hymenoptera",4,NA,NA,NA,"Measures per site: 20 plants, 3 sampling rounds in each year

",NA
"Hisatomo_Taki_Fagopyrum_esculentum_Japan_2008","3","netting form flower","Gametis jucunda","species","beetles",2,NA,NA,NA,"Measures per site: 20 plants, 3 sampling rounds in each year

",NA
"Hisatomo_Taki_Fagopyrum_esculentum_Japan_2008","3","netting form flower","Lucilia papuensis","species","other_flies",1,NA,NA,NA,"Measures per site: 20 plants, 3 sampling rounds in each year

",NA
"Hisatomo_Taki_Fagopyrum_esculentum_Japan_2008","3","netting form flower","Sphaerophoria sp.","genera","syrphids",1,NA,NA,NA,"Measures per site: 20 plants, 3 sampling rounds in each year

",NA
"Hisatomo_Taki_Fagopyrum_esculentum_Japan_2008","3","netting form flower","Stomorhina obsoleta","species","other_flies",3,NA,NA,NA,"Measures per site: 20 plants, 3 sampling rounds in each year

",NA
"Hisatomo_Taki_Fagopyrum_esculentum_Japan_2008","4","netting form flower","Apis cerana","species","honeybees",1,NA,NA,NA,"Measures per site: 20 plants, 3 sampling rounds in each year

",NA
"Hisatomo_Taki_Fagopyrum_esculentum_Japan_2008","4","netting form flower","Apis mellifera","species","honeybees",7,NA,NA,NA,"Measures per site: 20 plants, 3 sampling rounds in each year

",NA
"Hisatomo_Taki_Fagopyrum_esculentum_Japan_2008","4","netting form flower","Chrysomya pinguis","species","other_flies",1,NA,NA,NA,"Measures per site: 20 plants, 3 sampling rounds in each year

",NA
"Hisatomo_Taki_Fagopyrum_esculentum_Japan_2008","4","netting form flower","Coccinella septempunctata","species","beetles",1,NA,NA,NA,"Measures per site: 20 plants, 3 sampling rounds in each year

",NA
"Hisatomo_Taki_Fagopyrum_esculentum_Japan_2008","4","netting form flower","Colletes vogti","species","other_wild_bees",1,NA,NA,NA,"Measures per site: 20 plants, 3 sampling rounds in each year

",NA
"Hisatomo_Taki_Fagopyrum_esculentum_Japan_2008","4","netting form flower","Eristalis (Eoeristaris) cerealis","species","syrphids",2,NA,NA,NA,"Measures per site: 20 plants, 3 sampling rounds in each year

",NA
"Hisatomo_Taki_Fagopyrum_esculentum_Japan_2008","4","netting form flower","Eumenes sp","genera","non_bee_hymenoptera",1,NA,NA,NA,"Measures per site: 20 plants, 3 sampling rounds in each year

",NA
"Hisatomo_Taki_Fagopyrum_esculentum_Japan_2008","4","netting form flower","Formica japonica","species","non_bee_hymenoptera",4,NA,NA,NA,"Measures per site: 20 plants, 3 sampling rounds in each year

",NA
"Hisatomo_Taki_Fagopyrum_esculentum_Japan_2008","4","netting form flower","Gametis jucunda","species","beetles",4,NA,NA,NA,"Measures per site: 20 plants, 3 sampling rounds in each year

",NA
"Hisatomo_Taki_Fagopyrum_esculentum_Japan_2008","4","netting form flower","Lucilia papuensis","species","other_flies",4,NA,NA,NA,"Measures per site: 20 plants, 3 sampling rounds in each year

",NA
"Hisatomo_Taki_Fagopyrum_esculentum_Japan_2008","4","netting form flower","Megachile tsurugensis","species","other_wild_bees",1,NA,NA,NA,"Measures per site: 20 plants, 3 sampling rounds in each year

",NA
"Hisatomo_Taki_Fagopyrum_esculentum_Japan_2008","4","netting form flower","Neomyia timorensis","species","other_flies",2,NA,NA,NA,"Measures per site: 20 plants, 3 sampling rounds in each year

",NA
"Hisatomo_Taki_Fagopyrum_esculentum_Japan_2008","4","netting form flower","Parnara guttata","species","lepidoptera",1,NA,NA,NA,"Measures per site: 20 plants, 3 sampling rounds in each year

",NA
"Hisatomo_Taki_Fagopyrum_esculentum_Japan_2008","4","netting form flower","Phytomia zonata","species","syrphids",3,NA,NA,NA,"Measures per site: 20 plants, 3 sampling rounds in each year

",NA
"Hisatomo_Taki_Fagopyrum_esculentum_Japan_2008","4","netting form flower","Sarcophaga septentrionalis","species","other_flies",1,NA,NA,NA,"Measures per site: 20 plants, 3 sampling rounds in each year

",NA
"Hisatomo_Taki_Fagopyrum_esculentum_Japan_2008","4","netting form flower","Sphaerophoria sp.","genera","syrphids",3,NA,NA,NA,"Measures per site: 20 plants, 3 sampling rounds in each year

",NA
"Hisatomo_Taki_Fagopyrum_esculentum_Japan_2008","4","netting form flower","Sphecodes nambui","species","other_wild_bees",1,NA,NA,NA,"Measures per site: 20 plants, 3 sampling rounds in each year

",NA
"Hisatomo_Taki_Fagopyrum_esculentum_Japan_2008","4","netting form flower","Stomorhina obsoleta","species","other_flies",8,NA,NA,NA,"Measures per site: 20 plants, 3 sampling rounds in each year

",NA
"Hisatomo_Taki_Fagopyrum_esculentum_Japan_2008","4","netting form flower","Tachinidae sp.","family","other_flies",3,NA,NA,NA,"Measures per site: 20 plants, 3 sampling rounds in each year

",NA
"Hisatomo_Taki_Fagopyrum_esculentum_Japan_2008","4","netting form flower","Vespa analis","species","non_bee_hymenoptera",1,NA,NA,NA,"Measures per site: 20 plants, 3 sampling rounds in each year

",NA
"Hisatomo_Taki_Fagopyrum_esculentum_Japan_2008","4","netting form flower","Vespa ducalis","species","non_bee_hymenoptera",1,NA,NA,NA,"Measures per site: 20 plants, 3 sampling rounds in each year

",NA
"Hisatomo_Taki_Fagopyrum_esculentum_Japan_2008","5","netting form flower","Apis mellifera","species","honeybees",4,NA,NA,NA,"Measures per site: 20 plants, 3 sampling rounds in each year

",NA
"Hisatomo_Taki_Fagopyrum_esculentum_Japan_2008","5","netting form flower","Athalia rosae ruficornis","species","non_bee_hymenoptera",1,NA,NA,NA,"Measures per site: 20 plants, 3 sampling rounds in each year

",NA
"Hisatomo_Taki_Fagopyrum_esculentum_Japan_2008","5","netting form flower","Aulacophora nigripennis","species","beetles",1,NA,NA,NA,"Measures per site: 20 plants, 3 sampling rounds in each year

",NA
"Hisatomo_Taki_Fagopyrum_esculentum_Japan_2008","5","netting form flower","Chalicodoma sculpturalis","species","other_wild_bees",1,NA,NA,NA,"Measures per site: 20 plants, 3 sampling rounds in each year

",NA
"Hisatomo_Taki_Fagopyrum_esculentum_Japan_2008","5","netting form flower","Epistorophe aino","species","syrphids",1,NA,NA,NA,"Measures per site: 20 plants, 3 sampling rounds in each year

",NA
"Hisatomo_Taki_Fagopyrum_esculentum_Japan_2008","5","netting form flower","Eristalinus (Lathyrophthalmus) tarsalis","species","syrphids",1,NA,NA,NA,"Measures per site: 20 plants, 3 sampling rounds in each year

",NA
"Hisatomo_Taki_Fagopyrum_esculentum_Japan_2008","5","netting form flower","Eristalis tenax","species","syrphids",2,NA,NA,NA,"Measures per site: 20 plants, 3 sampling rounds in each year

",NA
"Hisatomo_Taki_Fagopyrum_esculentum_Japan_2008","5","netting form flower","Formica japonica","species","non_bee_hymenoptera",4,NA,NA,NA,"Measures per site: 20 plants, 3 sampling rounds in each year

",NA
"Hisatomo_Taki_Fagopyrum_esculentum_Japan_2008","5","netting form flower","Gametis jucunda","species","beetles",4,NA,NA,NA,"Measures per site: 20 plants, 3 sampling rounds in each year

",NA
"Hisatomo_Taki_Fagopyrum_esculentum_Japan_2008","5","netting form flower","Parnara guttata","species","lepidoptera",3,NA,NA,NA,"Measures per site: 20 plants, 3 sampling rounds in each year

",NA
"Hisatomo_Taki_Fagopyrum_esculentum_Japan_2008","5","netting form flower","Penthetria japonica","species","other_flies",1,NA,NA,NA,"Measures per site: 20 plants, 3 sampling rounds in each year

",NA
"Hisatomo_Taki_Fagopyrum_esculentum_Japan_2008","5","netting form flower","Phytomia zonata","species","syrphids",3,NA,NA,NA,"Measures per site: 20 plants, 3 sampling rounds in each year

",NA
"Hisatomo_Taki_Fagopyrum_esculentum_Japan_2008","5","netting form flower","Sphaerophoria sp.","genera","syrphids",1,NA,NA,NA,"Measures per site: 20 plants, 3 sampling rounds in each year

",NA
"Hisatomo_Taki_Fagopyrum_esculentum_Japan_2008","5","netting form flower","Stomorhina obsoleta","species","other_flies",3,NA,NA,NA,"Measures per site: 20 plants, 3 sampling rounds in each year

",NA
"Hisatomo_Taki_Fagopyrum_esculentum_Japan_2008","5","netting form flower","Tachinidae sp.","family","other_flies",2,NA,NA,NA,"Measures per site: 20 plants, 3 sampling rounds in each year

",NA
"Hisatomo_Taki_Fagopyrum_esculentum_Japan_2008","6","netting form flower","Apis cerana","species","honeybees",13,NA,NA,NA,"Measures per site: 20 plants, 3 sampling rounds in each year

",NA
"Hisatomo_Taki_Fagopyrum_esculentum_Japan_2008","6","netting form flower","Apis mellifera","species","honeybees",1,NA,NA,NA,"Measures per site: 20 plants, 3 sampling rounds in each year

",NA
"Hisatomo_Taki_Fagopyrum_esculentum_Japan_2008","6","netting form flower","Epistorophe aino","species","syrphids",1,NA,NA,NA,"Measures per site: 20 plants, 3 sampling rounds in each year

",NA
"Hisatomo_Taki_Fagopyrum_esculentum_Japan_2008","6","netting form flower","Eumenes sp","genera","non_bee_hymenoptera",1,NA,NA,NA,"Measures per site: 20 plants, 3 sampling rounds in each year

",NA
"Hisatomo_Taki_Fagopyrum_esculentum_Japan_2008","6","netting form flower","Formica japonica","species","non_bee_hymenoptera",9,NA,NA,NA,"Measures per site: 20 plants, 3 sampling rounds in each year

",NA
"Hisatomo_Taki_Fagopyrum_esculentum_Japan_2008","6","netting form flower","Gametis jucunda","species","beetles",1,NA,NA,NA,"Measures per site: 20 plants, 3 sampling rounds in each year

",NA
"Hisatomo_Taki_Fagopyrum_esculentum_Japan_2008","6","netting form flower","Lucilia papuensis","species","other_flies",1,NA,NA,NA,"Measures per site: 20 plants, 3 sampling rounds in each year

",NA
"Hisatomo_Taki_Fagopyrum_esculentum_Japan_2008","6","netting form flower","Megachile tsurugensis","species","other_wild_bees",1,NA,NA,NA,"Measures per site: 20 plants, 3 sampling rounds in each year

",NA
"Hisatomo_Taki_Fagopyrum_esculentum_Japan_2008","6","netting form flower","Neomyia timorensis","species","other_flies",1,NA,NA,NA,"Measures per site: 20 plants, 3 sampling rounds in each year

",NA
"Hisatomo_Taki_Fagopyrum_esculentum_Japan_2008","6","netting form flower","Phytomia zonata","species","syrphids",2,NA,NA,NA,"Measures per site: 20 plants, 3 sampling rounds in each year

",NA
"Hisatomo_Taki_Fagopyrum_esculentum_Japan_2008","6","netting form flower","Pipiza sp.","morphospecies","syrphids",1,NA,NA,NA,"Measures per site: 20 plants, 3 sampling rounds in each year

",NA
"Hisatomo_Taki_Fagopyrum_esculentum_Japan_2008","6","netting form flower","Sphaerophoria sp.","genera","syrphids",1,NA,NA,NA,"Measures per site: 20 plants, 3 sampling rounds in each year

",NA
"Hisatomo_Taki_Fagopyrum_esculentum_Japan_2008","6","netting form flower","Tachinidae sp.","family","other_flies",1,NA,NA,NA,"Measures per site: 20 plants, 3 sampling rounds in each year

",NA
"Hisatomo_Taki_Fagopyrum_esculentum_Japan_2008","7","netting form flower","Apis cerana","species","honeybees",6,NA,NA,NA,"Measures per site: 20 plants, 3 sampling rounds in each year

",NA
"Hisatomo_Taki_Fagopyrum_esculentum_Japan_2008","7","netting form flower","Apis mellifera","species","honeybees",5,NA,NA,NA,"Measures per site: 20 plants, 3 sampling rounds in each year

",NA
"Hisatomo_Taki_Fagopyrum_esculentum_Japan_2008","7","netting form flower","Camponotus japonicus","species","non_bee_hymenoptera",2,NA,NA,NA,"Measures per site: 20 plants, 3 sampling rounds in each year

",NA
"Hisatomo_Taki_Fagopyrum_esculentum_Japan_2008","7","netting form flower","Cerceris sp.","morphospecies","non_bee_hymenoptera",1,NA,NA,NA,"Measures per site: 20 plants, 3 sampling rounds in each year

",NA
"Hisatomo_Taki_Fagopyrum_esculentum_Japan_2008","7","netting form flower","Episrphus balteatus","species","syrphids",1,NA,NA,NA,"Measures per site: 20 plants, 3 sampling rounds in each year

",NA
"Hisatomo_Taki_Fagopyrum_esculentum_Japan_2008","7","netting form flower","Formica japonica","species","non_bee_hymenoptera",9,NA,NA,NA,"Measures per site: 20 plants, 3 sampling rounds in each year

",NA
"Hisatomo_Taki_Fagopyrum_esculentum_Japan_2008","7","netting form flower","Gametis jucunda","species","beetles",1,NA,NA,NA,"Measures per site: 20 plants, 3 sampling rounds in each year

",NA
"Hisatomo_Taki_Fagopyrum_esculentum_Japan_2008","7","netting form flower","Lucilia papuensis","species","other_flies",1,NA,NA,NA,"Measures per site: 20 plants, 3 sampling rounds in each year

",NA
"Hisatomo_Taki_Fagopyrum_esculentum_Japan_2008","7","netting form flower","Melanostoma sp.","genera","syrphids",1,NA,NA,NA,"Measures per site: 20 plants, 3 sampling rounds in each year

",NA
"Hisatomo_Taki_Fagopyrum_esculentum_Japan_2008","7","netting form flower","Phytomia zonata","species","syrphids",1,NA,NA,NA,"Measures per site: 20 plants, 3 sampling rounds in each year

",NA
"Hisatomo_Taki_Fagopyrum_esculentum_Japan_2008","7","netting form flower","Pipiza sp.","morphospecies","syrphids",1,NA,NA,NA,"Measures per site: 20 plants, 3 sampling rounds in each year

",NA
"Hisatomo_Taki_Fagopyrum_esculentum_Japan_2008","7","netting form flower","Sphaerophoria sp.","genera","syrphids",1,NA,NA,NA,"Measures per site: 20 plants, 3 sampling rounds in each year

",NA
"Hisatomo_Taki_Fagopyrum_esculentum_Japan_2008","7","netting form flower","Stomorhina obsoleta","species","other_flies",1,NA,NA,NA,"Measures per site: 20 plants, 3 sampling rounds in each year

",NA
"Hisatomo_Taki_Fagopyrum_esculentum_Japan_2008","8","netting form flower","Allograpta iavana","species","syrphids",1,NA,NA,NA,"Measures per site: 20 plants, 3 sampling rounds in each year

",NA
"Hisatomo_Taki_Fagopyrum_esculentum_Japan_2008","8","netting form flower","Apis cerana","species","honeybees",7,NA,NA,NA,"Measures per site: 20 plants, 3 sampling rounds in each year

",NA
"Hisatomo_Taki_Fagopyrum_esculentum_Japan_2008","8","netting form flower","Camponotus japonicus","species","non_bee_hymenoptera",1,NA,NA,NA,"Measures per site: 20 plants, 3 sampling rounds in each year

",NA
"Hisatomo_Taki_Fagopyrum_esculentum_Japan_2008","8","netting form flower","Chrysomya pinguis","species","other_flies",1,NA,NA,NA,"Measures per site: 20 plants, 3 sampling rounds in each year

",NA
"Hisatomo_Taki_Fagopyrum_esculentum_Japan_2008","8","netting form flower","Eristalis tenax","species","syrphids",3,NA,NA,NA,"Measures per site: 20 plants, 3 sampling rounds in each year

",NA
"Hisatomo_Taki_Fagopyrum_esculentum_Japan_2008","8","netting form flower","Formica japonica","species","non_bee_hymenoptera",7,NA,NA,NA,"Measures per site: 20 plants, 3 sampling rounds in each year

",NA
"Hisatomo_Taki_Fagopyrum_esculentum_Japan_2008","8","netting form flower","Halictus aerarius","species","other_wild_bees",1,NA,NA,NA,"Measures per site: 20 plants, 3 sampling rounds in each year

",NA
"Hisatomo_Taki_Fagopyrum_esculentum_Japan_2008","8","netting form flower","Hylaeus floralis","species","other_wild_bees",1,NA,NA,NA,"Measures per site: 20 plants, 3 sampling rounds in each year

",NA
"Hisatomo_Taki_Fagopyrum_esculentum_Japan_2008","8","netting form flower","Lasioglossum occidens","species","other_wild_bees",2,NA,NA,NA,"Measures per site: 20 plants, 3 sampling rounds in each year

",NA
"Hisatomo_Taki_Fagopyrum_esculentum_Japan_2008","8","netting form flower","Lucilia papuensis","species","other_flies",1,NA,NA,NA,"Measures per site: 20 plants, 3 sampling rounds in each year

",NA
"Hisatomo_Taki_Fagopyrum_esculentum_Japan_2008","8","netting form flower","Mallota tricolor?","species","syrphids",1,NA,NA,NA,"Measures per site: 20 plants, 3 sampling rounds in each year

",NA
"Hisatomo_Taki_Fagopyrum_esculentum_Japan_2008","8","netting form flower","Megachile tsurugensis","species","other_wild_bees",1,NA,NA,NA,"Measures per site: 20 plants, 3 sampling rounds in each year

",NA
"Hisatomo_Taki_Fagopyrum_esculentum_Japan_2008","8","netting form flower","Melinda okazakii","species","other_flies",1,NA,NA,NA,"Measures per site: 20 plants, 3 sampling rounds in each year

",NA
"Hisatomo_Taki_Fagopyrum_esculentum_Japan_2008","8","netting form flower","Onesia pusilla","species","other_flies",1,NA,NA,NA,"Measures per site: 20 plants, 3 sampling rounds in each year

",NA
"Hisatomo_Taki_Fagopyrum_esculentum_Japan_2008","8","netting form flower","Paragus quadrifasciata","species","syrphids",1,NA,NA,NA,"Measures per site: 20 plants, 3 sampling rounds in each year

",NA
"Hisatomo_Taki_Fagopyrum_esculentum_Japan_2008","8","netting form flower","Sphaerophoria sp.","genera","syrphids",1,NA,NA,NA,"Measures per site: 20 plants, 3 sampling rounds in each year

",NA
"Hisatomo_Taki_Fagopyrum_esculentum_Japan_2008","8","netting form flower","Stomorhina obsoleta","species","other_flies",1,NA,NA,NA,"Measures per site: 20 plants, 3 sampling rounds in each year

",NA
"Hisatomo_Taki_Fagopyrum_esculentum_Japan_2008","8","netting form flower","Tachinidae sp.","family","other_flies",3,NA,NA,NA,"Measures per site: 20 plants, 3 sampling rounds in each year

",NA
"Hisatomo_Taki_Fagopyrum_esculentum_Japan_2008","8","netting form flower","Vespa simillima","species","non_bee_hymenoptera",1,NA,NA,NA,"Measures per site: 20 plants, 3 sampling rounds in each year

",NA
"Hisatomo_Taki_Fagopyrum_esculentum_Japan_2008","8","netting form flower","Xylocopa appendiculata circumvolans","species","other_wild_bees",1,NA,NA,NA,"Measures per site: 20 plants, 3 sampling rounds in each year

",NA
"Hisatomo_Taki_Fagopyrum_esculentum_Japan_2008","9","netting form flower","Apis cerana","species","honeybees",5,NA,NA,NA,"Measures per site: 20 plants, 3 sampling rounds in each year

",NA
"Hisatomo_Taki_Fagopyrum_esculentum_Japan_2008","9","netting form flower","Chrysomya pinguis","species","other_flies",1,NA,NA,NA,"Measures per site: 20 plants, 3 sampling rounds in each year

",NA
"Hisatomo_Taki_Fagopyrum_esculentum_Japan_2008","9","netting form flower","Epistorophe shibakawae","species","syrphids",1,NA,NA,NA,"Measures per site: 20 plants, 3 sampling rounds in each year

",NA
"Hisatomo_Taki_Fagopyrum_esculentum_Japan_2008","9","netting form flower","Eristalinus (Lathyrophthalmus) tarsalis","species","syrphids",1,NA,NA,NA,"Measures per site: 20 plants, 3 sampling rounds in each year

",NA
"Hisatomo_Taki_Fagopyrum_esculentum_Japan_2008","9","netting form flower","Eristalis (Eoeristaris) cerealis","species","syrphids",1,NA,NA,NA,"Measures per site: 20 plants, 3 sampling rounds in each year

",NA
"Hisatomo_Taki_Fagopyrum_esculentum_Japan_2008","9","netting form flower","Eristalis tenax","species","syrphids",2,NA,NA,NA,"Measures per site: 20 plants, 3 sampling rounds in each year

",NA
"Hisatomo_Taki_Fagopyrum_esculentum_Japan_2008","9","netting form flower","Eumenes sp","genera","non_bee_hymenoptera",1,NA,NA,NA,"Measures per site: 20 plants, 3 sampling rounds in each year

",NA
"Hisatomo_Taki_Fagopyrum_esculentum_Japan_2008","9","netting form flower","Formica japonica","species","non_bee_hymenoptera",5,NA,NA,NA,"Measures per site: 20 plants, 3 sampling rounds in each year

",NA
"Hisatomo_Taki_Fagopyrum_esculentum_Japan_2008","9","netting form flower","Hylaeus floralis","species","other_wild_bees",3,NA,NA,NA,"Measures per site: 20 plants, 3 sampling rounds in each year

",NA
"Hisatomo_Taki_Fagopyrum_esculentum_Japan_2008","9","netting form flower","Hylaeus nippon","species","other_wild_bees",2,NA,NA,NA,"Measures per site: 20 plants, 3 sampling rounds in each year

",NA
"Hisatomo_Taki_Fagopyrum_esculentum_Japan_2008","9","netting form flower","Lucilia ampullacea","species","other_flies",1,NA,NA,NA,"Measures per site: 20 plants, 3 sampling rounds in each year

",NA
"Hisatomo_Taki_Fagopyrum_esculentum_Japan_2008","9","netting form flower","Lycaena phlaeas","species","lepidoptera",1,NA,NA,NA,"Measures per site: 20 plants, 3 sampling rounds in each year

",NA
"Hisatomo_Taki_Fagopyrum_esculentum_Japan_2008","9","netting form flower","Onesia pusilla","species","other_flies",1,NA,NA,NA,"Measures per site: 20 plants, 3 sampling rounds in each year

",NA
"Hisatomo_Taki_Fagopyrum_esculentum_Japan_2008","9","netting form flower","Paragus jazanus","species","syrphids",1,NA,NA,NA,"Measures per site: 20 plants, 3 sampling rounds in each year

",NA
"Hisatomo_Taki_Fagopyrum_esculentum_Japan_2008","9","netting form flower","Sarcophaga albiceps","species","other_flies",1,NA,NA,NA,"Measures per site: 20 plants, 3 sampling rounds in each year

",NA
"Hisatomo_Taki_Fagopyrum_esculentum_Japan_2008","9","netting form flower","Sarcophaga horii","species","other_flies",1,NA,NA,NA,"Measures per site: 20 plants, 3 sampling rounds in each year

",NA
"Hisatomo_Taki_Fagopyrum_esculentum_Japan_2008","9","netting form flower","Sphaerophoria sp.","genera","syrphids",1,NA,NA,NA,"Measures per site: 20 plants, 3 sampling rounds in each year

",NA
"Hisatomo_Taki_Fagopyrum_esculentum_Japan_2008","9","netting form flower","Stomorhina obsoleta","species","other_flies",2,NA,NA,NA,"Measures per site: 20 plants, 3 sampling rounds in each year

",NA
"Hisatomo_Taki_Fagopyrum_esculentum_Japan_2008","9","netting form flower","Tachinidae sp.","family","other_flies",6,NA,NA,NA,"Measures per site: 20 plants, 3 sampling rounds in each year

",NA
"Hisatomo_Taki_Fagopyrum_esculentum_Japan_2008","9","netting form flower","Vespa simillima","species","non_bee_hymenoptera",2,NA,NA,NA,"Measures per site: 20 plants, 3 sampling rounds in each year

",NA
"Hisatomo_Taki_Fagopyrum_esculentum_Japan_2008","9","netting form flower","Vespula flaviceps","species","non_bee_hymenoptera",1,NA,NA,NA,"Measures per site: 20 plants, 3 sampling rounds in each year

",NA
"Hisatomo_Taki_Fagopyrum_esculentum_Japan_2008","10","netting form flower","Apis mellifera","species","honeybees",7,NA,NA,NA,"Measures per site: 20 plants, 3 sampling rounds in each year

",NA
"Hisatomo_Taki_Fagopyrum_esculentum_Japan_2008","10","netting form flower","Betasyrphus seriarius","species","syrphids",1,NA,NA,NA,"Measures per site: 20 plants, 3 sampling rounds in each year

",NA
"Hisatomo_Taki_Fagopyrum_esculentum_Japan_2008","10","netting form flower","Camponotus japonicus","species","non_bee_hymenoptera",1,NA,NA,NA,"Measures per site: 20 plants, 3 sampling rounds in each year

",NA
"Hisatomo_Taki_Fagopyrum_esculentum_Japan_2008","10","netting form flower","Camponotus obscuripes","species","non_bee_hymenoptera",3,NA,NA,NA,"Measures per site: 20 plants, 3 sampling rounds in each year

",NA
"Hisatomo_Taki_Fagopyrum_esculentum_Japan_2008","10","netting form flower","Chrysomya pinguis","species","other_flies",1,NA,NA,NA,"Measures per site: 20 plants, 3 sampling rounds in each year

",NA
"Hisatomo_Taki_Fagopyrum_esculentum_Japan_2008","10","netting form flower","Eristalis (Eoeristaris) cerealis","species","syrphids",4,NA,NA,NA,"Measures per site: 20 plants, 3 sampling rounds in each year

",NA
"Hisatomo_Taki_Fagopyrum_esculentum_Japan_2008","10","netting form flower","Eristalis tenax","species","syrphids",2,NA,NA,NA,"Measures per site: 20 plants, 3 sampling rounds in each year

",NA
"Hisatomo_Taki_Fagopyrum_esculentum_Japan_2008","10","netting form flower","Formica japonica","species","non_bee_hymenoptera",12,NA,NA,NA,"Measures per site: 20 plants, 3 sampling rounds in each year

",NA
"Hisatomo_Taki_Fagopyrum_esculentum_Japan_2008","10","netting form flower","Gametis jucunda","species","beetles",2,NA,NA,NA,"Measures per site: 20 plants, 3 sampling rounds in each year

",NA
"Hisatomo_Taki_Fagopyrum_esculentum_Japan_2008","10","netting form flower","Lasioglossum occidens","species","other_wild_bees",1,NA,NA,NA,"Measures per site: 20 plants, 3 sampling rounds in each year

",NA
"Hisatomo_Taki_Fagopyrum_esculentum_Japan_2008","10","netting form flower","Lucilia caesar","species","other_flies",1,NA,NA,NA,"Measures per site: 20 plants, 3 sampling rounds in each year

",NA
"Hisatomo_Taki_Fagopyrum_esculentum_Japan_2008","10","netting form flower","Megacampsomeris grossa","species","non_bee_hymenoptera",1,NA,NA,NA,"Measures per site: 20 plants, 3 sampling rounds in each year

",NA
"Hisatomo_Taki_Fagopyrum_esculentum_Japan_2008","10","netting form flower","Musca domestica","species","other_flies",1,NA,NA,NA,"Measures per site: 20 plants, 3 sampling rounds in each year

",NA
"Hisatomo_Taki_Fagopyrum_esculentum_Japan_2008","10","netting form flower","Stomorhina obsoleta","species","other_flies",1,NA,NA,NA,"Measures per site: 20 plants, 3 sampling rounds in each year

",NA
"Hisatomo_Taki_Fagopyrum_esculentum_Japan_2008","10","netting form flower","Tachinidae sp.","family","other_flies",1,NA,NA,NA,"Measures per site: 20 plants, 3 sampling rounds in each year

",NA
"Hisatomo_Taki_Fagopyrum_esculentum_Japan_2008","10","netting form flower","Vespa simillima","species","non_bee_hymenoptera",1,NA,NA,NA,"Measures per site: 20 plants, 3 sampling rounds in each year

",NA
"Hisatomo_Taki_Fagopyrum_esculentum_Japan_2008","10","netting form flower","Vespula flaviceps","species","non_bee_hymenoptera",1,NA,NA,NA,"Measures per site: 20 plants, 3 sampling rounds in each year

",NA
"Hisatomo_Taki_Fagopyrum_esculentum_Japan_2008","11","netting form flower","Apis cerana","species","honeybees",4,NA,NA,NA,"Measures per site: 20 plants, 3 sampling rounds in each year

",NA
"Hisatomo_Taki_Fagopyrum_esculentum_Japan_2008","11","netting form flower","Apis mellifera","species","honeybees",8,NA,NA,NA,"Measures per site: 20 plants, 3 sampling rounds in each year

",NA
"Hisatomo_Taki_Fagopyrum_esculentum_Japan_2008","11","netting form flower","Betasyrphus seriarius","species","syrphids",1,NA,NA,NA,"Measures per site: 20 plants, 3 sampling rounds in each year

",NA
"Hisatomo_Taki_Fagopyrum_esculentum_Japan_2008","11","netting form flower","Camponotus japonicus","species","non_bee_hymenoptera",1,NA,NA,NA,"Measures per site: 20 plants, 3 sampling rounds in each year

",NA
"Hisatomo_Taki_Fagopyrum_esculentum_Japan_2008","11","netting form flower","Chrysomya pinguis","species","other_flies",1,NA,NA,NA,"Measures per site: 20 plants, 3 sampling rounds in each year

",NA
"Hisatomo_Taki_Fagopyrum_esculentum_Japan_2008","11","netting form flower","Eristalis (Eoeristaris) cerealis","species","syrphids",1,NA,NA,NA,"Measures per site: 20 plants, 3 sampling rounds in each year

",NA
"Hisatomo_Taki_Fagopyrum_esculentum_Japan_2008","11","netting form flower","Eristalis tenax","species","syrphids",3,NA,NA,NA,"Measures per site: 20 plants, 3 sampling rounds in each year

",NA
"Hisatomo_Taki_Fagopyrum_esculentum_Japan_2008","11","netting form flower","Formica japonica","species","non_bee_hymenoptera",4,NA,NA,NA,"Measures per site: 20 plants, 3 sampling rounds in each year

",NA
"Hisatomo_Taki_Fagopyrum_esculentum_Japan_2008","11","netting form flower","Gametis jucunda","species","beetles",4,NA,NA,NA,"Measures per site: 20 plants, 3 sampling rounds in each year

",NA
"Hisatomo_Taki_Fagopyrum_esculentum_Japan_2008","11","netting form flower","Megacampsomeris grossa","species","non_bee_hymenoptera",1,NA,NA,NA,"Measures per site: 20 plants, 3 sampling rounds in each year

",NA
"Hisatomo_Taki_Fagopyrum_esculentum_Japan_2008","11","netting form flower","Parnara guttata","species","lepidoptera",1,NA,NA,NA,"Measures per site: 20 plants, 3 sampling rounds in each year

",NA
"Hisatomo_Taki_Fagopyrum_esculentum_Japan_2008","11","netting form flower","Stomorhina obsoleta","species","other_flies",2,NA,NA,NA,"Measures per site: 20 plants, 3 sampling rounds in each year

",NA
"Hisatomo_Taki_Fagopyrum_esculentum_Japan_2008","11","netting form flower","Tachinidae sp.","family","other_flies",2,NA,NA,NA,"Measures per site: 20 plants, 3 sampling rounds in each year

",NA
"Hisatomo_Taki_Fagopyrum_esculentum_Japan_2008","11","netting form flower","Vespula flaviceps","species","non_bee_hymenoptera",3,NA,NA,NA,"Measures per site: 20 plants, 3 sampling rounds in each year

",NA
"Hisatomo_Taki_Fagopyrum_esculentum_Japan_2008","12","netting form flower","Apis cerana","species","honeybees",7,NA,NA,NA,"Measures per site: 20 plants, 3 sampling rounds in each year

",NA
"Hisatomo_Taki_Fagopyrum_esculentum_Japan_2008","12","netting form flower","Apis mellifera","species","honeybees",7,NA,NA,NA,"Measures per site: 20 plants, 3 sampling rounds in each year

",NA
"Hisatomo_Taki_Fagopyrum_esculentum_Japan_2008","12","netting form flower","Eristalinus (Lathyrophthalmus) quinquestriata","species","syrphids",1,NA,NA,NA,"Measures per site: 20 plants, 3 sampling rounds in each year

",NA
"Hisatomo_Taki_Fagopyrum_esculentum_Japan_2008","12","netting form flower","Eristalinus (Lathyrophthalmus) tarsalis","species","syrphids",1,NA,NA,NA,"Measures per site: 20 plants, 3 sampling rounds in each year

",NA
"Hisatomo_Taki_Fagopyrum_esculentum_Japan_2008","12","netting form flower","Eristalis (Eoeristaris) cerealis","species","syrphids",1,NA,NA,NA,"Measures per site: 20 plants, 3 sampling rounds in each year

",NA
"Hisatomo_Taki_Fagopyrum_esculentum_Japan_2008","12","netting form flower","Formica japonica","species","non_bee_hymenoptera",17,NA,NA,NA,"Measures per site: 20 plants, 3 sampling rounds in each year

",NA
"Hisatomo_Taki_Fagopyrum_esculentum_Japan_2008","12","netting form flower","Hylaeus nippon","species","other_wild_bees",1,NA,NA,NA,"Measures per site: 20 plants, 3 sampling rounds in each year

",NA
"Hisatomo_Taki_Fagopyrum_esculentum_Japan_2008","12","netting form flower","Lasioglossum occidens","species","other_wild_bees",2,NA,NA,NA,"Measures per site: 20 plants, 3 sampling rounds in each year

",NA
"Hisatomo_Taki_Fagopyrum_esculentum_Japan_2008","12","netting form flower","Limnophora septentrionalis","species","other_flies",1,NA,NA,NA,"Measures per site: 20 plants, 3 sampling rounds in each year

",NA
"Hisatomo_Taki_Fagopyrum_esculentum_Japan_2008","12","netting form flower","Sphaerophoria sp.","genera","syrphids",1,NA,NA,NA,"Measures per site: 20 plants, 3 sampling rounds in each year

",NA
"Hisatomo_Taki_Fagopyrum_esculentum_Japan_2008","12","netting form flower","Stomorhina obsoleta","species","other_flies",3,NA,NA,NA,"Measures per site: 20 plants, 3 sampling rounds in each year

",NA
"Hisatomo_Taki_Fagopyrum_esculentum_Japan_2008","12","netting form flower","Tachinidae sp.","family","other_flies",6,NA,NA,NA,"Measures per site: 20 plants, 3 sampling rounds in each year

",NA
"Hisatomo_Taki_Fagopyrum_esculentum_Japan_2008","12","netting form flower","Vespula flaviceps","species","non_bee_hymenoptera",2,NA,NA,NA,"Measures per site: 20 plants, 3 sampling rounds in each year

",NA
"Hisatomo_Taki_Fagopyrum_esculentum_Japan_2008","13","netting form flower","Apis cerana","species","honeybees",3,NA,NA,NA,"Measures per site: 20 plants, 3 sampling rounds in each year

",NA
"Hisatomo_Taki_Fagopyrum_esculentum_Japan_2008","13","netting form flower","Apis mellifera","species","honeybees",6,NA,NA,NA,"Measures per site: 20 plants, 3 sampling rounds in each year

",NA
"Hisatomo_Taki_Fagopyrum_esculentum_Japan_2008","13","netting form flower","Chrysomya pinguis","species","other_flies",2,NA,NA,NA,"Measures per site: 20 plants, 3 sampling rounds in each year

",NA
"Hisatomo_Taki_Fagopyrum_esculentum_Japan_2008","13","netting form flower","Colletes vogti","species","other_wild_bees",1,NA,NA,NA,"Measures per site: 20 plants, 3 sampling rounds in each year

",NA
"Hisatomo_Taki_Fagopyrum_esculentum_Japan_2008","13","netting form flower","Formica japonica","species","non_bee_hymenoptera",6,NA,NA,NA,"Measures per site: 20 plants, 3 sampling rounds in each year

",NA
"Hisatomo_Taki_Fagopyrum_esculentum_Japan_2008","13","netting form flower","Gametis jucunda","species","beetles",6,NA,NA,NA,"Measures per site: 20 plants, 3 sampling rounds in each year

",NA
"Hisatomo_Taki_Fagopyrum_esculentum_Japan_2008","13","netting form flower","Hylaeus floralis","species","other_wild_bees",1,NA,NA,NA,"Measures per site: 20 plants, 3 sampling rounds in each year

",NA
"Hisatomo_Taki_Fagopyrum_esculentum_Japan_2008","13","netting form flower","Hylaeus nippon","species","other_wild_bees",1,NA,NA,NA,"Measures per site: 20 plants, 3 sampling rounds in each year

",NA
"Hisatomo_Taki_Fagopyrum_esculentum_Japan_2008","13","netting form flower","Lucilia papuensis","species","other_flies",2,NA,NA,NA,"Measures per site: 20 plants, 3 sampling rounds in each year

",NA
"Hisatomo_Taki_Fagopyrum_esculentum_Japan_2008","13","netting form flower","Lycaena phlaeas","species","lepidoptera",1,NA,NA,NA,"Measures per site: 20 plants, 3 sampling rounds in each year

",NA
"Hisatomo_Taki_Fagopyrum_esculentum_Japan_2008","13","netting form flower","Parnara guttata","species","lepidoptera",3,NA,NA,NA,"Measures per site: 20 plants, 3 sampling rounds in each year

",NA
"Hisatomo_Taki_Fagopyrum_esculentum_Japan_2008","13","netting form flower","Phytomia zonata","species","syrphids",1,NA,NA,NA,"Measures per site: 20 plants, 3 sampling rounds in each year

",NA
"Hisatomo_Taki_Fagopyrum_esculentum_Japan_2008","13","netting form flower","Sarcophaga septentrionalis","species","other_flies",1,NA,NA,NA,"Measures per site: 20 plants, 3 sampling rounds in each year

",NA
"Hisatomo_Taki_Fagopyrum_esculentum_Japan_2008","13","netting form flower","Sphaerophoria sp.","genera","syrphids",1,NA,NA,NA,"Measures per site: 20 plants, 3 sampling rounds in each year

",NA
"Hisatomo_Taki_Fagopyrum_esculentum_Japan_2008","13","netting form flower","Stomorhina obsoleta","species","other_flies",3,NA,NA,NA,"Measures per site: 20 plants, 3 sampling rounds in each year

",NA
"Hisatomo_Taki_Fagopyrum_esculentum_Japan_2008","13","netting form flower","Tachinidae sp.","family","other_flies",2,NA,NA,NA,"Measures per site: 20 plants, 3 sampling rounds in each year

",NA
"Hisatomo_Taki_Fagopyrum_esculentum_Japan_2008","14","netting form flower","Apis cerana","species","honeybees",3,NA,NA,NA,"Measures per site: 20 plants, 3 sampling rounds in each year

",NA
"Hisatomo_Taki_Fagopyrum_esculentum_Japan_2008","14","netting form flower","Apis mellifera","species","honeybees",3,NA,NA,NA,"Measures per site: 20 plants, 3 sampling rounds in each year

",NA
"Hisatomo_Taki_Fagopyrum_esculentum_Japan_2008","14","netting form flower","Eristalis (Eoeristaris) cerealis","species","syrphids",1,NA,NA,NA,"Measures per site: 20 plants, 3 sampling rounds in each year

",NA
"Hisatomo_Taki_Fagopyrum_esculentum_Japan_2008","14","netting form flower","Eumenes sp","genera","non_bee_hymenoptera",1,NA,NA,NA,"Measures per site: 20 plants, 3 sampling rounds in each year

",NA
"Hisatomo_Taki_Fagopyrum_esculentum_Japan_2008","14","netting form flower","Formica japonica","species","non_bee_hymenoptera",7,NA,NA,NA,"Measures per site: 20 plants, 3 sampling rounds in each year

",NA
"Hisatomo_Taki_Fagopyrum_esculentum_Japan_2008","14","netting form flower","Gametis jucunda","species","beetles",2,NA,NA,NA,"Measures per site: 20 plants, 3 sampling rounds in each year

",NA
"Hisatomo_Taki_Fagopyrum_esculentum_Japan_2008","14","netting form flower","Hylaeus nippon","species","other_wild_bees",2,NA,NA,NA,"Measures per site: 20 plants, 3 sampling rounds in each year

",NA
"Hisatomo_Taki_Fagopyrum_esculentum_Japan_2008","14","netting form flower","Myorhina ugamskii","species","other_flies",1,NA,NA,NA,"Measures per site: 20 plants, 3 sampling rounds in each year

",NA
"Hisatomo_Taki_Fagopyrum_esculentum_Japan_2008","14","netting form flower","Sphaerophoria sp.","genera","syrphids",1,NA,NA,NA,"Measures per site: 20 plants, 3 sampling rounds in each year

",NA
"Hisatomo_Taki_Fagopyrum_esculentum_Japan_2008","14","netting form flower","Stomorhina obsoleta","species","other_flies",1,NA,NA,NA,"Measures per site: 20 plants, 3 sampling rounds in each year

",NA
"Hisatomo_Taki_Fagopyrum_esculentum_Japan_2008","15","netting form flower","Apis cerana","species","honeybees",15,NA,NA,NA,"Measures per site: 20 plants, 3 sampling rounds in each year

",NA
"Hisatomo_Taki_Fagopyrum_esculentum_Japan_2008","15","netting form flower","Chrysomya pinguis","species","other_flies",1,NA,NA,NA,"Measures per site: 20 plants, 3 sampling rounds in each year

",NA
"Hisatomo_Taki_Fagopyrum_esculentum_Japan_2008","15","netting form flower","Eristalinus (Lathyrophthalmus) quinquestriata","species","syrphids",1,NA,NA,NA,"Measures per site: 20 plants, 3 sampling rounds in each year

",NA
"Hisatomo_Taki_Fagopyrum_esculentum_Japan_2008","15","netting form flower","Eristalis (Eoeristaris) cerealis","species","syrphids",1,NA,NA,NA,"Measures per site: 20 plants, 3 sampling rounds in each year

",NA
"Hisatomo_Taki_Fagopyrum_esculentum_Japan_2008","15","netting form flower","Eristalis tenax","species","syrphids",3,NA,NA,NA,"Measures per site: 20 plants, 3 sampling rounds in each year

",NA
"Hisatomo_Taki_Fagopyrum_esculentum_Japan_2008","15","netting form flower","Eumenes sp","genera","non_bee_hymenoptera",1,NA,NA,NA,"Measures per site: 20 plants, 3 sampling rounds in each year

",NA
"Hisatomo_Taki_Fagopyrum_esculentum_Japan_2008","15","netting form flower","Formica japonica","species","non_bee_hymenoptera",12,NA,NA,NA,"Measures per site: 20 plants, 3 sampling rounds in each year

",NA
"Hisatomo_Taki_Fagopyrum_esculentum_Japan_2008","15","netting form flower","Gametis jucunda","species","beetles",5,NA,NA,NA,"Measures per site: 20 plants, 3 sampling rounds in each year

",NA
"Hisatomo_Taki_Fagopyrum_esculentum_Japan_2008","15","netting form flower","Lucilia papuensis","species","other_flies",3,NA,NA,NA,"Measures per site: 20 plants, 3 sampling rounds in each year

",NA
"Hisatomo_Taki_Fagopyrum_esculentum_Japan_2008","15","netting form flower","Phytomia zonata","species","syrphids",1,NA,NA,NA,"Measures per site: 20 plants, 3 sampling rounds in each year

",NA
"Hisatomo_Taki_Fagopyrum_esculentum_Japan_2008","15","netting form flower","Sphaerophoria sp.","genera","syrphids",1,NA,NA,NA,"Measures per site: 20 plants, 3 sampling rounds in each year

",NA
"Hisatomo_Taki_Fagopyrum_esculentum_Japan_2008","15","netting form flower","Stomorhina obsoleta","species","other_flies",4,NA,NA,NA,"Measures per site: 20 plants, 3 sampling rounds in each year

",NA
"Hisatomo_Taki_Fagopyrum_esculentum_Japan_2008","16","netting form flower","Amobia oculata","species","other_flies",1,NA,NA,NA,"Measures per site: 20 plants, 3 sampling rounds in each year

",NA
"Hisatomo_Taki_Fagopyrum_esculentum_Japan_2008","16","netting form flower","Apis cerana","species","honeybees",1,NA,NA,NA,"Measures per site: 20 plants, 3 sampling rounds in each year

",NA
"Hisatomo_Taki_Fagopyrum_esculentum_Japan_2008","16","netting form flower","Formica japonica","species","non_bee_hymenoptera",4,NA,NA,NA,"Measures per site: 20 plants, 3 sampling rounds in each year

",NA
"Hisatomo_Taki_Fagopyrum_esculentum_Japan_2008","16","netting form flower","Gametis jucunda","species","beetles",1,NA,NA,NA,"Measures per site: 20 plants, 3 sampling rounds in each year

",NA
"Hisatomo_Taki_Fagopyrum_esculentum_Japan_2008","16","netting form flower","Parnara guttata","species","lepidoptera",1,NA,NA,NA,"Measures per site: 20 plants, 3 sampling rounds in each year

",NA
"Hisatomo_Taki_Fagopyrum_esculentum_Japan_2008","16","netting form flower","Sarcophaga albiceps","species","other_flies",1,NA,NA,NA,"Measures per site: 20 plants, 3 sampling rounds in each year

",NA
"Hisatomo_Taki_Fagopyrum_esculentum_Japan_2008","16","netting form flower","Sarcophaga melanur","species","other_flies",1,NA,NA,NA,"Measures per site: 20 plants, 3 sampling rounds in each year

",NA
"Hisatomo_Taki_Fagopyrum_esculentum_Japan_2008","16","netting form flower","Sarcophaga peregrina","species","other_flies",1,NA,NA,NA,"Measures per site: 20 plants, 3 sampling rounds in each year

",NA
"Hisatomo_Taki_Fagopyrum_esculentum_Japan_2008","16","netting form flower","Sepedon aenescens","species","other_flies",1,NA,NA,NA,"Measures per site: 20 plants, 3 sampling rounds in each year

",NA
"Hisatomo_Taki_Fagopyrum_esculentum_Japan_2008","16","netting form flower","Sphaerophoria sp.","genera","syrphids",5,NA,NA,NA,"Measures per site: 20 plants, 3 sampling rounds in each year

",NA
"Hisatomo_Taki_Fagopyrum_esculentum_Japan_2008","16","netting form flower","Stomorhina obsoleta","species","other_flies",6,NA,NA,NA,"Measures per site: 20 plants, 3 sampling rounds in each year

",NA
"Hisatomo_Taki_Fagopyrum_esculentum_Japan_2008","16","netting form flower","Tachinidae sp.","family","other_flies",1,NA,NA,NA,"Measures per site: 20 plants, 3 sampling rounds in each year

",NA
"Hisatomo_Taki_Fagopyrum_esculentum_Japan_2008","16","netting form flower","Zizeeria maha","species","lepidoptera",1,NA,NA,NA,"Measures per site: 20 plants, 3 sampling rounds in each year

",NA
"Hisatomo_Taki_Fagopyrum_esculentum_Japan_2008","17","netting form flower","Apis mellifera","species","honeybees",4,NA,NA,NA,"Measures per site: 20 plants, 3 sampling rounds in each year

",NA
"Hisatomo_Taki_Fagopyrum_esculentum_Japan_2008","17","netting form flower","Chrysomya pinguis","species","other_flies",1,NA,NA,NA,"Measures per site: 20 plants, 3 sampling rounds in each year

",NA
"Hisatomo_Taki_Fagopyrum_esculentum_Japan_2008","17","netting form flower","Eristalis (Eoeristaris) cerealis","species","syrphids",1,NA,NA,NA,"Measures per site: 20 plants, 3 sampling rounds in each year

",NA
"Hisatomo_Taki_Fagopyrum_esculentum_Japan_2008","17","netting form flower","Eristalis tenax","species","syrphids",1,NA,NA,NA,"Measures per site: 20 plants, 3 sampling rounds in each year

",NA
"Hisatomo_Taki_Fagopyrum_esculentum_Japan_2008","17","netting form flower","Formica japonica","species","non_bee_hymenoptera",2,NA,NA,NA,"Measures per site: 20 plants, 3 sampling rounds in each year

",NA
"Hisatomo_Taki_Fagopyrum_esculentum_Japan_2008","17","netting form flower","Gametis jucunda","species","beetles",4,NA,NA,NA,"Measures per site: 20 plants, 3 sampling rounds in each year

",NA
"Hisatomo_Taki_Fagopyrum_esculentum_Japan_2008","17","netting form flower","Hylaeus floralis","species","other_wild_bees",1,NA,NA,NA,"Measures per site: 20 plants, 3 sampling rounds in each year

",NA
"Hisatomo_Taki_Fagopyrum_esculentum_Japan_2008","17","netting form flower","Lucilia papuensis","species","other_flies",1,NA,NA,NA,"Measures per site: 20 plants, 3 sampling rounds in each year

",NA
"Hisatomo_Taki_Fagopyrum_esculentum_Japan_2008","17","netting form flower","Parnara guttata","species","lepidoptera",3,NA,NA,NA,"Measures per site: 20 plants, 3 sampling rounds in each year

",NA
"Hisatomo_Taki_Fagopyrum_esculentum_Japan_2008","17","netting form flower","Sphaerophoria sp.","genera","syrphids",2,NA,NA,NA,"Measures per site: 20 plants, 3 sampling rounds in each year

",NA
"Hisatomo_Taki_Fagopyrum_esculentum_Japan_2008","17","netting form flower","Stomorhina obsoleta","species","other_flies",7,NA,NA,NA,"Measures per site: 20 plants, 3 sampling rounds in each year

",NA
"Hisatomo_Taki_Fagopyrum_esculentum_Japan_2008","17","netting form flower","Tachinidae sp.","family","other_flies",1,NA,NA,NA,"Measures per site: 20 plants, 3 sampling rounds in each year

",NA
"Hisatomo_Taki_Fagopyrum_esculentum_Japan_2008","17","netting form flower","Thoressa varia","species","lepidoptera",1,NA,NA,NA,"Measures per site: 20 plants, 3 sampling rounds in each year

",NA
"Ignasi_Bartomeus_Brassica_napus_Sweden_2013","1","Transect","Anthomyiidae sp5","morphospecies","non_bee_hymenoptera",2,100,30,NA,"2 transects (50 m, 15 min. each)",NA
"Ignasi_Bartomeus_Brassica_napus_Sweden_2013","1","Transect","Bibionidae sp1","morphospecies","other_flies",2,100,30,NA,"2 transects (50 m, 15 min. each)",NA
"Ignasi_Bartomeus_Brassica_napus_Sweden_2013","1","Transect","Bombus lapidarius","species","bumblebees",1,100,30,NA,"2 transects (50 m, 15 min. each)",NA
"Ignasi_Bartomeus_Brassica_napus_Sweden_2013","1","Transect","Bombus ruderarius","species","bumblebees",2,100,30,NA,"2 transects (50 m, 15 min. each)",NA
"Ignasi_Bartomeus_Brassica_napus_Sweden_2013","1","Transect","Bombus terrestris","species","bumblebees",1,100,30,NA,"2 transects (50 m, 15 min. each)",NA
"Ignasi_Bartomeus_Brassica_napus_Sweden_2013","1","Transect","Eristalis picea","species","syrphids",1,100,30,NA,"2 transects (50 m, 15 min. each)",NA
"Ignasi_Bartomeus_Brassica_napus_Sweden_2013","1","Transect","Melanostoma mellinum","species","syrphids",2,100,30,NA,"2 transects (50 m, 15 min. each)",NA
"Ignasi_Bartomeus_Brassica_napus_Sweden_2013","1","Transect","Pieris napi","species","lepidoptera",2,100,30,NA,"2 transects (50 m, 15 min. each)",NA
"Ignasi_Bartomeus_Brassica_napus_Sweden_2013","1","Transect","Platycheirus Scambus","species","syrphids",1,100,30,NA,"2 transects (50 m, 15 min. each)",NA
"Ignasi_Bartomeus_Brassica_napus_Sweden_2013","1","Transect","Sphaerophoria scripta","species","syrphids",1,100,30,NA,"2 transects (50 m, 15 min. each)",NA
"Ignasi_Bartomeus_Brassica_napus_Sweden_2013","2","Transect","Andrena sp1","morphospecies","other_wild_bees",3,100,30,NA,"2 transects (50 m, 15 min. each)",NA
"Ignasi_Bartomeus_Brassica_napus_Sweden_2013","2","Transect","Andrena sp3","morphospecies","other_wild_bees",1,100,30,NA,"2 transects (50 m, 15 min. each)",NA
"Ignasi_Bartomeus_Brassica_napus_Sweden_2013","2","Transect","Bibionidae sp1","morphospecies","other_flies",2,100,30,NA,"2 transects (50 m, 15 min. each)",NA
"Ignasi_Bartomeus_Brassica_napus_Sweden_2013","2","Transect","Bombus lucorum","species","bumblebees",1,100,30,NA,"2 transects (50 m, 15 min. each)",NA
"Ignasi_Bartomeus_Brassica_napus_Sweden_2013","2","Transect","Bombus ruderarius","species","bumblebees",1,100,30,NA,"2 transects (50 m, 15 min. each)",NA
"Ignasi_Bartomeus_Brassica_napus_Sweden_2013","2","Transect","Empididae sp1","morphospecies","other_flies",3,100,30,NA,"2 transects (50 m, 15 min. each)",NA
"Ignasi_Bartomeus_Brassica_napus_Sweden_2013","2","Transect","Melanostoma mellinum","species","syrphids",1,100,30,NA,"2 transects (50 m, 15 min. each)",NA
"Ignasi_Bartomeus_Brassica_napus_Sweden_2013","2","Transect","Muscidae sp3","morphospecies","other_flies",1,100,30,NA,"2 transects (50 m, 15 min. each)",NA
"Ignasi_Bartomeus_Brassica_napus_Sweden_2013","2","Transect","Muscidae sp5","morphospecies","other_flies",1,100,30,NA,"2 transects (50 m, 15 min. each)",NA
"Ignasi_Bartomeus_Brassica_napus_Sweden_2013","2","Transect","Parasyrphus annulatus","species","syrphids",1,100,30,NA,"2 transects (50 m, 15 min. each)",NA
"Ignasi_Bartomeus_Brassica_napus_Sweden_2013","2","Transect","Platycheirus peltatus","species","syrphids",2,100,30,NA,"2 transects (50 m, 15 min. each)",NA
"Ignasi_Bartomeus_Brassica_napus_Sweden_2013","2","Transect","Stratiomydae sp1","morphospecies","other_flies",1,100,30,NA,"2 transects (50 m, 15 min. each)",NA
"Ignasi_Bartomeus_Brassica_napus_Sweden_2013","3","Transect","Anthomyiidae sp4","morphospecies","non_bee_hymenoptera",1,100,30,NA,"2 transects (50 m, 15 min. each)",NA
"Ignasi_Bartomeus_Brassica_napus_Sweden_2013","3","Transect","Anthomyiidae sp5","morphospecies","non_bee_hymenoptera",2,100,30,NA,"2 transects (50 m, 15 min. each)",NA
"Ignasi_Bartomeus_Brassica_napus_Sweden_2013","3","Transect","Cantharis obscura","species","beetles",1,100,30,NA,"2 transects (50 m, 15 min. each)",NA
"Ignasi_Bartomeus_Brassica_napus_Sweden_2013","3","Transect","Ceratina sp1","morphospecies","other_wild_bees",1,100,30,NA,"2 transects (50 m, 15 min. each)",NA
"Ignasi_Bartomeus_Brassica_napus_Sweden_2013","3","Transect","Empididae sp1","morphospecies","other_flies",5,100,30,NA,"2 transects (50 m, 15 min. each)",NA
"Ignasi_Bartomeus_Brassica_napus_Sweden_2013","3","Transect","Epistrophe grossulariae","species","syrphids",1,100,30,NA,"2 transects (50 m, 15 min. each)",NA
"Ignasi_Bartomeus_Brassica_napus_Sweden_2013","3","Transect","Eristalis picea","species","syrphids",2,100,30,NA,"2 transects (50 m, 15 min. each)",NA
"Ignasi_Bartomeus_Brassica_napus_Sweden_2013","3","Transect","Muscidae sp1","morphospecies","other_flies",1,100,30,NA,"2 transects (50 m, 15 min. each)",NA
"Ignasi_Bartomeus_Brassica_napus_Sweden_2013","3","Transect","Muscidae sp2","morphospecies","other_flies",1,100,30,NA,"2 transects (50 m, 15 min. each)",NA
"Ignasi_Bartomeus_Brassica_napus_Sweden_2013","3","Transect","Muscidae sp3","morphospecies","other_flies",1,100,30,NA,"2 transects (50 m, 15 min. each)",NA
"Ignasi_Bartomeus_Brassica_napus_Sweden_2013","3","Transect","Muscidae sp7","morphospecies","other_flies",1,100,30,NA,"2 transects (50 m, 15 min. each)",NA
"Ignasi_Bartomeus_Brassica_napus_Sweden_2013","3","Transect","Pachyprotasis rapae","species","non_bee_hymenoptera",2,100,30,NA,"2 transects (50 m, 15 min. each)",NA
"Ignasi_Bartomeus_Brassica_napus_Sweden_2013","3","Transect","Platycheirus albimanus","species","syrphids",3,100,30,NA,"2 transects (50 m, 15 min. each)",NA
"Ignasi_Bartomeus_Brassica_napus_Sweden_2013","3","Transect","Rhingia campestris","species","syrphids",7,100,30,NA,"2 transects (50 m, 15 min. each)",NA
"Ignasi_Bartomeus_Brassica_napus_Sweden_2013","3","Transect","Scathophaga sp1","morphospecies","other_flies",1,100,30,NA,"2 transects (50 m, 15 min. each)",NA
"Ignasi_Bartomeus_Brassica_napus_Sweden_2013","4","Transect","Anthomyiidae sp5","morphospecies","non_bee_hymenoptera",2,100,30,NA,"2 transects (50 m, 15 min. each)",NA
"Ignasi_Bartomeus_Brassica_napus_Sweden_2013","4","Transect","Bibionidae sp1","morphospecies","other_flies",8,100,30,NA,"2 transects (50 m, 15 min. each)",NA
"Ignasi_Bartomeus_Brassica_napus_Sweden_2013","4","Transect","Empididae sp1","morphospecies","other_flies",7,100,30,NA,"2 transects (50 m, 15 min. each)",NA
"Ignasi_Bartomeus_Brassica_napus_Sweden_2013","4","Transect","Eristalis interrupta","species","syrphids",1,100,30,NA,"2 transects (50 m, 15 min. each)",NA
"Ignasi_Bartomeus_Brassica_napus_Sweden_2013","4","Transect","Eristalis lineata","species","syrphids",1,100,30,NA,"2 transects (50 m, 15 min. each)",NA
"Ignasi_Bartomeus_Brassica_napus_Sweden_2013","4","Transect","Eristalis pertinax","species","syrphids",1,100,30,NA,"2 transects (50 m, 15 min. each)",NA
"Ignasi_Bartomeus_Brassica_napus_Sweden_2013","4","Transect","Eristalis picea","species","syrphids",1,100,30,NA,"2 transects (50 m, 15 min. each)",NA
"Ignasi_Bartomeus_Brassica_napus_Sweden_2013","4","Transect","Muscidae sp3","morphospecies","other_flies",3,100,30,NA,"2 transects (50 m, 15 min. each)",NA
"Ignasi_Bartomeus_Brassica_napus_Sweden_2013","4","Transect","Rhagionidae sp1","morphospecies","other_flies",2,100,30,NA,"2 transects (50 m, 15 min. each)",NA
"Ignasi_Bartomeus_Brassica_napus_Sweden_2013","4","Transect","Rhingia campestris","species","syrphids",4,100,30,NA,"2 transects (50 m, 15 min. each)",NA
"Ignasi_Bartomeus_Brassica_napus_Sweden_2013","5","Transect","Agromyzidae sp1","morphospecies","other_flies",1,100,30,NA,"2 transects (50 m, 15 min. each)",NA
"Ignasi_Bartomeus_Brassica_napus_Sweden_2013","5","Transect","Anthomyiidae sp1","morphospecies","non_bee_hymenoptera",1,100,30,NA,"2 transects (50 m, 15 min. each)",NA
"Ignasi_Bartomeus_Brassica_napus_Sweden_2013","5","Transect","Anthomyiidae sp2","morphospecies","non_bee_hymenoptera",3,100,30,NA,"2 transects (50 m, 15 min. each)",NA
"Ignasi_Bartomeus_Brassica_napus_Sweden_2013","5","Transect","Anthomyiidae sp3","morphospecies","non_bee_hymenoptera",1,100,30,NA,"2 transects (50 m, 15 min. each)",NA
"Ignasi_Bartomeus_Brassica_napus_Sweden_2013","5","Transect","Anthomyiidae sp5","morphospecies","non_bee_hymenoptera",2,100,30,NA,"2 transects (50 m, 15 min. each)",NA
"Ignasi_Bartomeus_Brassica_napus_Sweden_2013","5","Transect","Bombus terrestris","species","bumblebees",1,100,30,NA,"2 transects (50 m, 15 min. each)",NA
"Ignasi_Bartomeus_Brassica_napus_Sweden_2013","5","Transect","Megasyrphus erraticus","species","syrphids",1,100,30,NA,"2 transects (50 m, 15 min. each)",NA
"Ignasi_Bartomeus_Brassica_napus_Sweden_2013","5","Transect","Muscidae sp6","morphospecies","other_flies",1,100,30,NA,"2 transects (50 m, 15 min. each)",NA
"Ignasi_Bartomeus_Brassica_napus_Sweden_2013","5","Transect","Platycheirus europaeus","species","syrphids",1,100,30,NA,"2 transects (50 m, 15 min. each)",NA
"Ignasi_Bartomeus_Brassica_napus_Sweden_2013","5","Transect","Platycheirus immarginatus","species","syrphids",1,100,30,NA,"2 transects (50 m, 15 min. each)",NA
"Ignasi_Bartomeus_Brassica_napus_Sweden_2013","5","Transect","Platycheirus jaerensis","species","syrphids",1,100,30,NA,"2 transects (50 m, 15 min. each)",NA
"Ignasi_Bartomeus_Brassica_napus_Sweden_2013","5","Transect","Platycheirus peltatus","species","syrphids",1,100,30,NA,"2 transects (50 m, 15 min. each)",NA
"Ignasi_Bartomeus_Brassica_napus_Sweden_2013","5","Transect","Sphaerophoria scripta","species","syrphids",1,100,30,NA,"2 transects (50 m, 15 min. each)",NA
"Ignasi_Bartomeus_Brassica_napus_Sweden_2013","6","Transect","Andrena sp1","morphospecies","other_wild_bees",2,100,30,NA,"2 transects (50 m, 15 min. each)",NA
"Ignasi_Bartomeus_Brassica_napus_Sweden_2013","6","Transect","Anthomyiidae sp5","morphospecies","non_bee_hymenoptera",1,100,30,NA,"2 transects (50 m, 15 min. each)",NA
"Ignasi_Bartomeus_Brassica_napus_Sweden_2013","6","Transect","Bombus lapidarius","species","bumblebees",1,100,30,NA,"2 transects (50 m, 15 min. each)",NA
"Ignasi_Bartomeus_Brassica_napus_Sweden_2013","6","Transect","Bombus lucorum","species","bumblebees",1,100,30,NA,"2 transects (50 m, 15 min. each)",NA
"Ignasi_Bartomeus_Brassica_napus_Sweden_2013","6","Transect","Bombus pascuorum","species","bumblebees",1,100,30,NA,"2 transects (50 m, 15 min. each)",NA
"Ignasi_Bartomeus_Brassica_napus_Sweden_2013","6","Transect","Bombus ruderarius","species","bumblebees",1,100,30,NA,"2 transects (50 m, 15 min. each)",NA
"Ignasi_Bartomeus_Brassica_napus_Sweden_2013","6","Transect","Bombus terrestris","species","bumblebees",3,100,30,NA,"2 transects (50 m, 15 min. each)",NA
"Ignasi_Bartomeus_Brassica_napus_Sweden_2013","6","Transect","Calliphoridae sp2","morphospecies","other_flies",1,100,30,NA,"2 transects (50 m, 15 min. each)",NA
"Ignasi_Bartomeus_Brassica_napus_Sweden_2013","6","Transect","Cantharis fusca","species","beetles",1,100,30,NA,"2 transects (50 m, 15 min. each)",NA
"Ignasi_Bartomeus_Brassica_napus_Sweden_2013","6","Transect","Cantharis obscura","species","beetles",1,100,30,NA,"2 transects (50 m, 15 min. each)",NA
"Ignasi_Bartomeus_Brassica_napus_Sweden_2013","6","Transect","Epistrophe flava","species","syrphids",1,100,30,NA,"2 transects (50 m, 15 min. each)",NA
"Ignasi_Bartomeus_Brassica_napus_Sweden_2013","6","Transect","Epistrophe grossulariae","species","syrphids",1,100,30,NA,"2 transects (50 m, 15 min. each)",NA
"Ignasi_Bartomeus_Brassica_napus_Sweden_2013","6","Transect","Eristalinus sepulchralis","species","syrphids",1,100,30,NA,"2 transects (50 m, 15 min. each)",NA
"Ignasi_Bartomeus_Brassica_napus_Sweden_2013","6","Transect","Eristalis interrupta","species","syrphids",5,100,30,NA,"2 transects (50 m, 15 min. each)",NA
"Ignasi_Bartomeus_Brassica_napus_Sweden_2013","6","Transect","Heliophilus pendulus","species","syrphids",3,100,30,NA,"2 transects (50 m, 15 min. each)",NA
"Ignasi_Bartomeus_Brassica_napus_Sweden_2013","6","Transect","Melanostoma scalare","species","syrphids",1,100,30,NA,"2 transects (50 m, 15 min. each)",NA
"Ignasi_Bartomeus_Brassica_napus_Sweden_2013","6","Transect","Muscidae sp1","morphospecies","other_flies",1,100,30,NA,"2 transects (50 m, 15 min. each)",NA
"Ignasi_Bartomeus_Brassica_napus_Sweden_2013","6","Transect","Platycheirus peltatus","species","syrphids",1,100,30,NA,"2 transects (50 m, 15 min. each)",NA
"Ignasi_Bartomeus_Brassica_napus_Sweden_2013","6","Transect","Rhingia campestris","species","syrphids",1,100,30,NA,"2 transects (50 m, 15 min. each)",NA
"Ignasi_Bartomeus_Brassica_napus_Sweden_2013","6","Transect","Sarcophagidae sp1","morphospecies","other_flies",1,100,30,NA,"2 transects (50 m, 15 min. each)",NA
"Ignasi_Bartomeus_Brassica_napus_Sweden_2013","7","Transect","Andrena sp2","morphospecies","other_wild_bees",1,100,30,NA,"2 transects (50 m, 15 min. each)",NA
"Ignasi_Bartomeus_Brassica_napus_Sweden_2013","7","Transect","Andrena sp6","morphospecies","other_wild_bees",2,100,30,NA,"2 transects (50 m, 15 min. each)",NA
"Ignasi_Bartomeus_Brassica_napus_Sweden_2013","7","Transect","Bombus lucorum","species","bumblebees",1,100,30,NA,"2 transects (50 m, 15 min. each)",NA
"Ignasi_Bartomeus_Brassica_napus_Sweden_2013","7","Transect","Bombus terrestris","species","bumblebees",1,100,30,NA,"2 transects (50 m, 15 min. each)",NA
"Ignasi_Bartomeus_Brassica_napus_Sweden_2013","7","Transect","Cantharis pellucida","species","beetles",1,100,30,NA,"2 transects (50 m, 15 min. each)",NA
"Ignasi_Bartomeus_Brassica_napus_Sweden_2013","7","Transect","Empididae sp1","morphospecies","other_flies",1,100,30,NA,"2 transects (50 m, 15 min. each)",NA
"Ignasi_Bartomeus_Brassica_napus_Sweden_2013","7","Transect","Epistrophe grossulariae","species","syrphids",1,100,30,NA,"2 transects (50 m, 15 min. each)",NA
"Ignasi_Bartomeus_Brassica_napus_Sweden_2013","7","Transect","Epistrophe nitidicollis","species","syrphids",2,100,30,NA,"2 transects (50 m, 15 min. each)",NA
"Ignasi_Bartomeus_Brassica_napus_Sweden_2013","7","Transect","Eristalis interrupta","species","syrphids",3,100,30,NA,"2 transects (50 m, 15 min. each)",NA
"Ignasi_Bartomeus_Brassica_napus_Sweden_2013","7","Transect","Eristalis lineata","species","syrphids",1,100,30,NA,"2 transects (50 m, 15 min. each)",NA
"Ignasi_Bartomeus_Brassica_napus_Sweden_2013","7","Transect","Eristalis picea","species","syrphids",2,100,30,NA,"2 transects (50 m, 15 min. each)",NA
"Ignasi_Bartomeus_Brassica_napus_Sweden_2013","7","Transect","Ichneumonidae sp1","morphospecies","non_bee_hymenoptera",1,100,30,NA,"2 transects (50 m, 15 min. each)",NA
"Ignasi_Bartomeus_Brassica_napus_Sweden_2013","7","Transect","Muscidae sp1","morphospecies","other_flies",2,100,30,NA,"2 transects (50 m, 15 min. each)",NA
"Ignasi_Bartomeus_Brassica_napus_Sweden_2013","7","Transect","Muscidae sp4","morphospecies","other_flies",1,100,30,NA,"2 transects (50 m, 15 min. each)",NA
"Ignasi_Bartomeus_Brassica_napus_Sweden_2013","7","Transect","Muscidae sp5","morphospecies","other_flies",1,100,30,NA,"2 transects (50 m, 15 min. each)",NA
"Ignasi_Bartomeus_Brassica_napus_Sweden_2013","7","Transect","Platycheirus Scambus","species","syrphids",1,100,30,NA,"2 transects (50 m, 15 min. each)",NA
"Ignasi_Bartomeus_Brassica_napus_Sweden_2013","7","Transect","Rhagonycha limbata","species","beetles",1,100,30,NA,"2 transects (50 m, 15 min. each)",NA
"Ignasi_Bartomeus_Brassica_napus_Sweden_2013","7","Transect","Scathophaga sp2","morphospecies","other_flies",1,100,30,NA,"2 transects (50 m, 15 min. each)",NA
"Ignasi_Bartomeus_Brassica_napus_Sweden_2013","7","Transect","Tachinidae sp1","morphospecies","other_flies",1,100,30,NA,"2 transects (50 m, 15 min. each)",NA
"Ignasi_Bartomeus_Brassica_napus_Sweden_2013","8","Transect","Andrena sp5","morphospecies","other_wild_bees",1,100,30,NA,"2 transects (50 m, 15 min. each)",NA
"Ignasi_Bartomeus_Brassica_napus_Sweden_2013","8","Transect","Bibionidae sp1","morphospecies","other_flies",1,100,30,NA,"2 transects (50 m, 15 min. each)",NA
"Ignasi_Bartomeus_Brassica_napus_Sweden_2013","8","Transect","Bombus lapidarius","species","bumblebees",1,100,30,NA,"2 transects (50 m, 15 min. each)",NA
"Ignasi_Bartomeus_Brassica_napus_Sweden_2013","8","Transect","Bombus lucorum","species","bumblebees",2,100,30,NA,"2 transects (50 m, 15 min. each)",NA
"Ignasi_Bartomeus_Brassica_napus_Sweden_2013","8","Transect","Bombus ruderarius","species","bumblebees",1,100,30,NA,"2 transects (50 m, 15 min. each)",NA
"Ignasi_Bartomeus_Brassica_napus_Sweden_2013","8","Transect","Bombus terrestris","species","bumblebees",1,100,30,NA,"2 transects (50 m, 15 min. each)",NA
"Ignasi_Bartomeus_Brassica_napus_Sweden_2013","8","Transect","Cantharis livida","species","beetles",1,100,30,NA,"2 transects (50 m, 15 min. each)",NA
"Ignasi_Bartomeus_Brassica_napus_Sweden_2013","8","Transect","Eupeodes lundbecki","species","syrphids",1,100,30,NA,"2 transects (50 m, 15 min. each)",NA
"Ignasi_Bartomeus_Brassica_napus_Sweden_2013","8","Transect","Melanostoma mellinum","species","syrphids",1,100,30,NA,"2 transects (50 m, 15 min. each)",NA
"Ignasi_Bartomeus_Brassica_napus_Sweden_2013","8","Transect","Melanostoma scalare","species","syrphids",1,100,30,NA,"2 transects (50 m, 15 min. each)",NA
"Ignasi_Bartomeus_Brassica_napus_Sweden_2013","8","Transect","Muscidae sp1","morphospecies","other_flies",1,100,30,NA,"2 transects (50 m, 15 min. each)",NA
"Ignasi_Bartomeus_Brassica_napus_Sweden_2013","8","Transect","Muscidae sp8","morphospecies","other_flies",1,100,30,NA,"2 transects (50 m, 15 min. each)",NA
"Ignasi_Bartomeus_Brassica_napus_Sweden_2013","8","Transect","Platycheirus manicatus","species","syrphids",1,100,30,NA,"2 transects (50 m, 15 min. each)",NA
"Ignasi_Bartomeus_Brassica_napus_Sweden_2013","8","Transect","Platycheirus peltatus","species","syrphids",1,100,30,NA,"2 transects (50 m, 15 min. each)",NA
"Ignasi_Bartomeus_Brassica_napus_Sweden_2013","8","Transect","Scathophaga sp1","morphospecies","other_flies",1,100,30,NA,"2 transects (50 m, 15 min. each)",NA
"Ignasi_Bartomeus_Brassica_napus_Sweden_2013","9","Transect","Anthomyiidae sp5","morphospecies","non_bee_hymenoptera",1,100,30,NA,"2 transects (50 m, 15 min. each)",NA
"Ignasi_Bartomeus_Brassica_napus_Sweden_2013","9","Transect","Bibionidae sp1","morphospecies","other_flies",6,100,30,NA,"2 transects (50 m, 15 min. each)",NA
"Ignasi_Bartomeus_Brassica_napus_Sweden_2013","9","Transect","Bibionidae sp3","morphospecies","other_flies",1,100,30,NA,"2 transects (50 m, 15 min. each)",NA
"Ignasi_Bartomeus_Brassica_napus_Sweden_2013","9","Transect","Cantharis nigricans","species","beetles",1,100,30,NA,"2 transects (50 m, 15 min. each)",NA
"Ignasi_Bartomeus_Brassica_napus_Sweden_2013","9","Transect","Cheilosia albitarsis","species","syrphids",1,100,30,NA,"2 transects (50 m, 15 min. each)",NA
"Ignasi_Bartomeus_Brassica_napus_Sweden_2013","9","Transect","Empididae sp1","morphospecies","other_flies",3,100,30,NA,"2 transects (50 m, 15 min. each)",NA
"Ignasi_Bartomeus_Brassica_napus_Sweden_2013","9","Transect","Muscidae sp8","morphospecies","other_flies",1,100,30,NA,"2 transects (50 m, 15 min. each)",NA
"Ignasi_Bartomeus_Brassica_napus_Sweden_2013","9","Transect","Pachyprotasis rapae","species","non_bee_hymenoptera",1,100,30,NA,"2 transects (50 m, 15 min. each)",NA
"Ignasi_Bartomeus_Brassica_napus_Sweden_2013","9","Transect","Scathophaga sp1","morphospecies","other_flies",1,100,30,NA,"2 transects (50 m, 15 min. each)",NA
"Ignasi_Bartomeus_Brassica_napus_Sweden_2013","9","Transect","Scathophaga sp3","morphospecies","other_flies",1,100,30,NA,"2 transects (50 m, 15 min. each)",NA
"Ignasi_Bartomeus_Brassica_napus_Sweden_2013","9","Transect","Sphaerophoria scripta","species","syrphids",1,100,30,NA,"2 transects (50 m, 15 min. each)",NA
"Ignasi_Bartomeus_Brassica_napus_Sweden_2013","10","Transect","Anthomyiidae sp3","morphospecies","non_bee_hymenoptera",1,100,30,NA,"2 transects (50 m, 15 min. each)",NA
"Ignasi_Bartomeus_Brassica_napus_Sweden_2013","10","Transect","Anthomyiidae sp4","morphospecies","non_bee_hymenoptera",1,100,30,NA,"2 transects (50 m, 15 min. each)",NA
"Ignasi_Bartomeus_Brassica_napus_Sweden_2013","10","Transect","Bibionidae sp1","morphospecies","other_flies",3,100,30,NA,"2 transects (50 m, 15 min. each)",NA
"Ignasi_Bartomeus_Brassica_napus_Sweden_2013","10","Transect","Bibionidae sp2","morphospecies","other_flies",1,100,30,NA,"2 transects (50 m, 15 min. each)",NA
"Ignasi_Bartomeus_Brassica_napus_Sweden_2013","10","Transect","Bombus lapidarius","species","bumblebees",1,100,30,NA,"2 transects (50 m, 15 min. each)",NA
"Ignasi_Bartomeus_Brassica_napus_Sweden_2013","10","Transect","Cantharis nigricans","species","beetles",1,100,30,NA,"2 transects (50 m, 15 min. each)",NA
"Ignasi_Bartomeus_Brassica_napus_Sweden_2013","10","Transect","Cheilosia pagana","species","syrphids",1,100,30,NA,"2 transects (50 m, 15 min. each)",NA
"Ignasi_Bartomeus_Brassica_napus_Sweden_2013","10","Transect","Dolorus nitens","species","non_bee_hymenoptera",1,100,30,NA,"2 transects (50 m, 15 min. each)",NA
"Ignasi_Bartomeus_Brassica_napus_Sweden_2013","10","Transect","Heliophilus hybridus","species","syrphids",1,100,30,NA,"2 transects (50 m, 15 min. each)",NA
"Ignasi_Bartomeus_Brassica_napus_Sweden_2013","10","Transect","Melanostoma mellinum","species","syrphids",2,100,30,NA,"2 transects (50 m, 15 min. each)",NA
"Ignasi_Bartomeus_Brassica_napus_Sweden_2013","10","Transect","Muscidae sp2","morphospecies","other_flies",1,100,30,NA,"2 transects (50 m, 15 min. each)",NA
"Ignasi_Bartomeus_Brassica_napus_Sweden_2013","10","Transect","Muscidae sp8","morphospecies","other_flies",1,100,30,NA,"2 transects (50 m, 15 min. each)",NA
"Ignasi_Bartomeus_Brassica_napus_Sweden_2013","10","Transect","Sphaerophoria scripta","species","syrphids",5,100,30,NA,"2 transects (50 m, 15 min. each)",NA
"Ignasi_Bartomeus_Brassica_napus_Sweden_2013","11","Transect","Bombus hortorum","species","bumblebees",1,100,30,NA,"2 transects (50 m, 15 min. each)",NA
"Ignasi_Bartomeus_Brassica_napus_Sweden_2013","11","Transect","Calliphoridae sp1","morphospecies","other_flies",3,100,30,NA,"2 transects (50 m, 15 min. each)",NA
"Ignasi_Bartomeus_Brassica_napus_Sweden_2013","11","Transect","Cantharis nigricans","species","beetles",1,100,30,NA,"2 transects (50 m, 15 min. each)",NA
"Ignasi_Bartomeus_Brassica_napus_Sweden_2013","11","Transect","Eristalis picea","species","syrphids",1,100,30,NA,"2 transects (50 m, 15 min. each)",NA
"Ignasi_Bartomeus_Brassica_napus_Sweden_2013","11","Transect","Eupeodes lundbecki","species","syrphids",1,100,30,NA,"2 transects (50 m, 15 min. each)",NA
"Ignasi_Bartomeus_Brassica_napus_Sweden_2013","11","Transect","Heliophilus trivatlatus","species","syrphids",1,100,30,NA,"2 transects (50 m, 15 min. each)",NA
"Ignasi_Bartomeus_Brassica_napus_Sweden_2013","11","Transect","Melanostoma mellinum","species","syrphids",1,100,30,NA,"2 transects (50 m, 15 min. each)",NA
"Ignasi_Bartomeus_Brassica_napus_Sweden_2013","11","Transect","Muscidae sp8","morphospecies","other_flies",1,100,30,NA,"2 transects (50 m, 15 min. each)",NA
"Ignasi_Bartomeus_Brassica_napus_Sweden_2013","11","Transect","Platycheirus europaeus","species","syrphids",1,100,30,NA,"2 transects (50 m, 15 min. each)",NA
"Ignasi_Bartomeus_Brassica_napus_Sweden_2013","11","Transect","Platycheirus immarginatus","species","syrphids",2,100,30,NA,"2 transects (50 m, 15 min. each)",NA
"Ignasi_Bartomeus_Brassica_napus_Sweden_2013","11","Transect","Platycheirus peltatus","species","syrphids",3,100,30,NA,"2 transects (50 m, 15 min. each)",NA
"Ignasi_Bartomeus_Brassica_napus_Sweden_2013","11","Transect","Platycheirus Scambus","species","syrphids",1,100,30,NA,"2 transects (50 m, 15 min. each)",NA
"Ignasi_Bartomeus_Brassica_napus_Sweden_2013","11","Transect","Rhingia campestris","species","syrphids",2,100,30,NA,"2 transects (50 m, 15 min. each)",NA
"Ignasi_Bartomeus_Brassica_napus_Sweden_2013","11","Transect","Sphaerophoria scripta","species","syrphids",2,100,30,NA,"2 transects (50 m, 15 min. each)",NA
"Ignasi_Bartomeus_Brassica_napus_Sweden_2013","11","Transect","Sphaerophoria virgata","species","syrphids",1,100,30,NA,"2 transects (50 m, 15 min. each)",NA
"Ignasi_Bartomeus_Brassica_napus_Sweden_2013","11","Transect","Syritta pipiens","species","syrphids",1,100,30,NA,"2 transects (50 m, 15 min. each)",NA
"Ignasi_Bartomeus_Brassica_napus_Sweden_2013","12","Transect","Andrena sp1","morphospecies","other_wild_bees",1,100,30,NA,"2 transects (50 m, 15 min. each)",NA
"Ignasi_Bartomeus_Brassica_napus_Sweden_2013","12","Transect","Andrena sp7","morphospecies","other_wild_bees",1,100,30,NA,"2 transects (50 m, 15 min. each)",NA
"Ignasi_Bartomeus_Brassica_napus_Sweden_2013","12","Transect","Cheilosia albitarsis","species","syrphids",1,100,30,NA,"2 transects (50 m, 15 min. each)",NA
"Ignasi_Bartomeus_Brassica_napus_Sweden_2013","12","Transect","Eristalinus sepulchralis","species","syrphids",2,100,30,NA,"2 transects (50 m, 15 min. each)",NA
"Ignasi_Bartomeus_Brassica_napus_Sweden_2013","12","Transect","Eristalis abusiva","species","syrphids",1,100,30,NA,"2 transects (50 m, 15 min. each)",NA
"Ignasi_Bartomeus_Brassica_napus_Sweden_2013","12","Transect","Eupeodes lundbecki","species","syrphids",1,100,30,NA,"2 transects (50 m, 15 min. each)",NA
"Ignasi_Bartomeus_Brassica_napus_Sweden_2013","12","Transect","Heliophilus pendulus","species","syrphids",1,100,30,NA,"2 transects (50 m, 15 min. each)",NA
"Ignasi_Bartomeus_Brassica_napus_Sweden_2013","12","Transect","Platycheirus immarginatus","species","syrphids",1,100,30,NA,"2 transects (50 m, 15 min. each)",NA
"Ignasi_Bartomeus_Brassica_napus_Sweden_2013","12","Transect","Platycheirus manicatus","species","syrphids",1,100,30,NA,"2 transects (50 m, 15 min. each)",NA
"Ignasi_Bartomeus_Brassica_napus_Sweden_2013","12","Transect","Sphaerophoria scripta","species","syrphids",1,100,30,NA,"2 transects (50 m, 15 min. each)",NA
"Ignasi_Bartomeus_Brassica_napus_Sweden_2013","13","Transect","Anthomyiidae sp2","morphospecies","non_bee_hymenoptera",1,100,30,NA,"2 transects (50 m, 15 min. each)",NA
"Ignasi_Bartomeus_Brassica_napus_Sweden_2013","13","Transect","Anthomyiidae sp3","morphospecies","non_bee_hymenoptera",3,100,30,NA,"2 transects (50 m, 15 min. each)",NA
"Ignasi_Bartomeus_Brassica_napus_Sweden_2013","13","Transect","Bibionidae sp1","morphospecies","other_flies",1,100,30,NA,"2 transects (50 m, 15 min. each)",NA
"Ignasi_Bartomeus_Brassica_napus_Sweden_2013","13","Transect","Cheilosia albitarsis","species","syrphids",1,100,30,NA,"2 transects (50 m, 15 min. each)",NA
"Ignasi_Bartomeus_Brassica_napus_Sweden_2013","13","Transect","Dolores haematodes","species","non_bee_hymenoptera",1,100,30,NA,"2 transects (50 m, 15 min. each)",NA
"Ignasi_Bartomeus_Brassica_napus_Sweden_2013","13","Transect","Limonius pilosus","species","beetles",1,100,30,NA,"2 transects (50 m, 15 min. each)",NA
"Ignasi_Bartomeus_Brassica_napus_Sweden_2013","13","Transect","Melanostoma mellinum","species","syrphids",1,100,30,NA,"2 transects (50 m, 15 min. each)",NA
"Ignasi_Bartomeus_Brassica_napus_Sweden_2013","13","Transect","Muscidae sp2","morphospecies","other_flies",1,100,30,NA,"2 transects (50 m, 15 min. each)",NA
"Ignasi_Bartomeus_Brassica_napus_Sweden_2013","13","Transect","Muscidae sp6","morphospecies","other_flies",1,100,30,NA,"2 transects (50 m, 15 min. each)",NA
"Ignasi_Bartomeus_Brassica_napus_Sweden_2013","13","Transect","Muscidae sp8","morphospecies","other_flies",1,100,30,NA,"2 transects (50 m, 15 min. each)",NA
"Ignasi_Bartomeus_Brassica_napus_Sweden_2013","13","Transect","Scathophaga sp3","morphospecies","other_flies",1,100,30,NA,"2 transects (50 m, 15 min. each)",NA
"Ignasi_Bartomeus_Brassica_napus_Sweden_2013","13","Transect","Sphaerophoria scripta","species","syrphids",2,100,30,NA,"2 transects (50 m, 15 min. each)",NA
"Ignasi_Bartomeus_Brassica_napus_Sweden_2013","14","Transect","Athous vittatus","species","beetles",1,100,30,NA,"2 transects (50 m, 15 min. each)",NA
"Ignasi_Bartomeus_Brassica_napus_Sweden_2013","14","Transect","Bibionidae sp1","morphospecies","other_flies",1,100,30,NA,"2 transects (50 m, 15 min. each)",NA
"Ignasi_Bartomeus_Brassica_napus_Sweden_2013","14","Transect","Cantharis nigricans","species","beetles",1,100,30,NA,"2 transects (50 m, 15 min. each)",NA
"Ignasi_Bartomeus_Brassica_napus_Sweden_2013","14","Transect","Cantharis pellucida","species","beetles",2,100,30,NA,"2 transects (50 m, 15 min. each)",NA
"Ignasi_Bartomeus_Brassica_napus_Sweden_2013","14","Transect","Corymbites sp1","morphospecies","beetles",1,100,30,NA,"2 transects (50 m, 15 min. each)",NA
"Ignasi_Bartomeus_Brassica_napus_Sweden_2013","14","Transect","Dolichopodidae sp1","morphospecies","other_flies",1,100,30,NA,"2 transects (50 m, 15 min. each)",NA
"Ignasi_Bartomeus_Brassica_napus_Sweden_2013","14","Transect","Eristalis interrupta","species","syrphids",2,100,30,NA,"2 transects (50 m, 15 min. each)",NA
"Ignasi_Bartomeus_Brassica_napus_Sweden_2013","14","Transect","Eristalis lineata","species","syrphids",1,100,30,NA,"2 transects (50 m, 15 min. each)",NA
"Ignasi_Bartomeus_Brassica_napus_Sweden_2013","14","Transect","Platycheirus peltatus","species","syrphids",1,100,30,NA,"2 transects (50 m, 15 min. each)",NA
"Ignasi_Bartomeus_Brassica_napus_Sweden_2013","14","Transect","Sarcophagidae sp1","morphospecies","other_flies",1,100,30,NA,"2 transects (50 m, 15 min. each)",NA
"Ignasi_Bartomeus_Brassica_napus_Sweden_2013","14","Transect","Sphaerophoria scripta","species","syrphids",3,100,30,NA,"2 transects (50 m, 15 min. each)",NA
"Ignasi_Bartomeus_Brassica_napus_Sweden_2013","15","Transect","Andrena sp1","morphospecies","other_wild_bees",1,100,30,NA,"2 transects (50 m, 15 min. each)",NA
"Ignasi_Bartomeus_Brassica_napus_Sweden_2013","15","Transect","Andrena sp2","morphospecies","other_wild_bees",1,100,30,NA,"2 transects (50 m, 15 min. each)",NA
"Ignasi_Bartomeus_Brassica_napus_Sweden_2013","15","Transect","Andrena sp4","morphospecies","other_wild_bees",1,100,30,NA,"2 transects (50 m, 15 min. each)",NA
"Ignasi_Bartomeus_Brassica_napus_Sweden_2013","15","Transect","Andrena sp6","morphospecies","other_wild_bees",1,100,30,NA,"2 transects (50 m, 15 min. each)",NA
"Ignasi_Bartomeus_Brassica_napus_Sweden_2013","15","Transect","Bibionidae sp1","morphospecies","other_flies",3,100,30,NA,"2 transects (50 m, 15 min. each)",NA
"Ignasi_Bartomeus_Brassica_napus_Sweden_2013","15","Transect","Bombus lapidarius","species","bumblebees",1,100,30,NA,"2 transects (50 m, 15 min. each)",NA
"Ignasi_Bartomeus_Brassica_napus_Sweden_2013","15","Transect","Bombus lucorum","species","bumblebees",1,100,30,NA,"2 transects (50 m, 15 min. each)",NA
"Ignasi_Bartomeus_Brassica_napus_Sweden_2013","15","Transect","Bombus ruderarius","species","bumblebees",1,100,30,NA,"2 transects (50 m, 15 min. each)",NA
"Ignasi_Bartomeus_Brassica_napus_Sweden_2013","15","Transect","Cheilosia gigantea","species","syrphids",1,100,30,NA,"2 transects (50 m, 15 min. each)",NA
"Ignasi_Bartomeus_Brassica_napus_Sweden_2013","15","Transect","Cheilosia vicina","species","syrphids",1,100,30,NA,"2 transects (50 m, 15 min. each)",NA
"Ignasi_Bartomeus_Brassica_napus_Sweden_2013","15","Transect","Eristalis picea","species","syrphids",1,100,30,NA,"2 transects (50 m, 15 min. each)",NA
"Ignasi_Bartomeus_Brassica_napus_Sweden_2013","15","Transect","Platycheirus Scambus","species","syrphids",2,100,30,NA,"2 transects (50 m, 15 min. each)",NA
"Ignasi_Bartomeus_Brassica_napus_Sweden_2013","15","Transect","Sphaerophoria scripta","species","syrphids",1,100,30,NA,"2 transects (50 m, 15 min. each)",NA
"Ignasi_Bartomeus_Brassica_napus_Sweden_2013","15","Transect","Tachinidae sp2","morphospecies","other_flies",1,100,30,NA,"2 transects (50 m, 15 min. each)",NA
"Ignasi_Bartomeus_Brassica_napus_Sweden_2013","1","Plant observations","A_mellifera","species","honeybees",1,3,30,100,"2 rounds (3 sites: 0.5m2, 5 min. each)",NA
"Ignasi_Bartomeus_Brassica_napus_Sweden_2013","1","Plant observations","A_mellifera","species","honeybees",4,3,30,300,"2 rounds (3 sites: 0.5m2, 5 min. each)",NA
"Ignasi_Bartomeus_Brassica_napus_Sweden_2013","1","Plant observations","A_mellifera","species","honeybees",2,3,30,500,"2 rounds (3 sites: 0.5m2, 5 min. each)",NA
"Ignasi_Bartomeus_Brassica_napus_Sweden_2013","1","Plant observations","A_mellifera","species","honeybees",1,3,30,200,"2 rounds (3 sites: 0.5m2, 5 min. each)",NA
"Ignasi_Bartomeus_Brassica_napus_Sweden_2013","1","Plant observations","A_mellifera","species","honeybees",3,3,30,150,"2 rounds (3 sites: 0.5m2, 5 min. each)",NA
"Ignasi_Bartomeus_Brassica_napus_Sweden_2013","1","Plant observations","A_mellifera","species","honeybees",2,3,30,200,"2 rounds (3 sites: 0.5m2, 5 min. each)",NA
"Ignasi_Bartomeus_Brassica_napus_Sweden_2013","2","Plant observations","A_mellifera","species","honeybees",2,3,30,450,"2 rounds (3 sites: 0.5m2, 5 min. each)",NA
"Ignasi_Bartomeus_Brassica_napus_Sweden_2013","3","Plant observations","A_mellifera","species","honeybees",1,3,30,400,"2 rounds (3 sites: 0.5m2, 5 min. each)",NA
"Ignasi_Bartomeus_Brassica_napus_Sweden_2013","3","Plant observations","A_mellifera","species","honeybees",1,3,30,200,"2 rounds (3 sites: 0.5m2, 5 min. each)",NA
"Ignasi_Bartomeus_Brassica_napus_Sweden_2013","3","Plant observations","A_mellifera","species","honeybees",2,3,30,225,"2 rounds (3 sites: 0.5m2, 5 min. each)",NA
"Ignasi_Bartomeus_Brassica_napus_Sweden_2013","4","Plant observations","A_mellifera","species","honeybees",7,3,30,300,"2 rounds (3 sites: 0.5m2, 5 min. each)",NA
"Ignasi_Bartomeus_Brassica_napus_Sweden_2013","4","Plant observations","A_mellifera","species","honeybees",1,3,30,300,"2 rounds (3 sites: 0.5m2, 5 min. each)",NA
"Ignasi_Bartomeus_Brassica_napus_Sweden_2013","4","Plant observations","A_mellifera","species","honeybees",3,3,30,375,"2 rounds (3 sites: 0.5m2, 5 min. each)",NA
"Ignasi_Bartomeus_Brassica_napus_Sweden_2013","6","Plant observations","A_mellifera","species","honeybees",1,3,30,350,"2 rounds (3 sites: 0.5m2, 5 min. each)",NA
"Ignasi_Bartomeus_Brassica_napus_Sweden_2013","6","Plant observations","A_mellifera","species","honeybees",5,3,30,300,"2 rounds (3 sites: 0.5m2, 5 min. each)",NA
"Ignasi_Bartomeus_Brassica_napus_Sweden_2013","7","Plant observations","A_mellifera","species","honeybees",4,3,30,200,"2 rounds (3 sites: 0.5m2, 5 min. each)",NA
"Ignasi_Bartomeus_Brassica_napus_Sweden_2013","7","Plant observations","A_mellifera","species","honeybees",3,3,30,350,"2 rounds (3 sites: 0.5m2, 5 min. each)",NA
"Ignasi_Bartomeus_Brassica_napus_Sweden_2013","7","Plant observations","A_mellifera","species","honeybees",2,3,30,525,"2 rounds (3 sites: 0.5m2, 5 min. each)",NA
"Ignasi_Bartomeus_Brassica_napus_Sweden_2013","7","Plant observations","A_mellifera","species","honeybees",11,3,30,300,"2 rounds (3 sites: 0.5m2, 5 min. each)",NA
"Ignasi_Bartomeus_Brassica_napus_Sweden_2013","7","Plant observations","A_mellifera","species","honeybees",3,3,30,200,"2 rounds (3 sites: 0.5m2, 5 min. each)",NA
"Ignasi_Bartomeus_Brassica_napus_Sweden_2013","7","Plant observations","A_mellifera","species","honeybees",2,3,30,75,"2 rounds (3 sites: 0.5m2, 5 min. each)",NA
"Ignasi_Bartomeus_Brassica_napus_Sweden_2013","7","Plant observations","A_mellifera","species","honeybees",3,3,30,150,"2 rounds (3 sites: 0.5m2, 5 min. each)",NA
"Ignasi_Bartomeus_Brassica_napus_Sweden_2013","8","Plant observations","A_mellifera","species","honeybees",1,3,30,300,"2 rounds (3 sites: 0.5m2, 5 min. each)",NA
"Ignasi_Bartomeus_Brassica_napus_Sweden_2013","9","Plant observations","A_mellifera","species","honeybees",1,3,30,250,"2 rounds (3 sites: 0.5m2, 5 min. each)",NA
"Ignasi_Bartomeus_Brassica_napus_Sweden_2013","9","Plant observations","A_mellifera","species","honeybees",1,3,30,150,"2 rounds (3 sites: 0.5m2, 5 min. each)",NA
"Ignasi_Bartomeus_Brassica_napus_Sweden_2013","10","Plant observations","A_mellifera","species","honeybees",2,3,30,125,"2 rounds (3 sites: 0.5m2, 5 min. each)",NA
"Ignasi_Bartomeus_Brassica_napus_Sweden_2013","10","Plant observations","A_mellifera","species","honeybees",2,3,30,125,"2 rounds (3 sites: 0.5m2, 5 min. each)",NA
"Ignasi_Bartomeus_Brassica_napus_Sweden_2013","12","Plant observations","A_mellifera","species","honeybees",1,3,30,50,"2 rounds (3 sites: 0.5m2, 5 min. each)",NA
"Ignasi_Bartomeus_Brassica_napus_Sweden_2013","12","Plant observations","A_mellifera","species","honeybees",1,3,30,100,"2 rounds (3 sites: 0.5m2, 5 min. each)",NA
"Ignasi_Bartomeus_Brassica_napus_Sweden_2013","12","Plant observations","A_mellifera","species","honeybees",1,3,30,250,"2 rounds (3 sites: 0.5m2, 5 min. each)",NA
"Ignasi_Bartomeus_Brassica_napus_Sweden_2013","12","Plant observations","A_mellifera","species","honeybees",1,3,30,250,"2 rounds (3 sites: 0.5m2, 5 min. each)",NA
"Ignasi_Bartomeus_Brassica_napus_Sweden_2013","12","Plant observations","A_mellifera","species","honeybees",1,3,30,100,"2 rounds (3 sites: 0.5m2, 5 min. each)",NA
"Ignasi_Bartomeus_Brassica_napus_Sweden_2013","12","Plant observations","A_mellifera","species","honeybees",1,3,30,100,"2 rounds (3 sites: 0.5m2, 5 min. each)",NA
"Ignasi_Bartomeus_Brassica_napus_Sweden_2013","12","Plant observations","A_mellifera","species","honeybees",2,3,30,250,"2 rounds (3 sites: 0.5m2, 5 min. each)",NA
"Ignasi_Bartomeus_Brassica_napus_Sweden_2013","13","Plant observations","A_mellifera","species","honeybees",1,3,30,175,"2 rounds (3 sites: 0.5m2, 5 min. each)",NA
"Ignasi_Bartomeus_Brassica_napus_Sweden_2013","13","Plant observations","A_mellifera","species","honeybees",2,3,30,350,"2 rounds (3 sites: 0.5m2, 5 min. each)",NA
"Ignasi_Bartomeus_Brassica_napus_Sweden_2013","13","Plant observations","A_mellifera","species","honeybees",1,3,30,150,"2 rounds (3 sites: 0.5m2, 5 min. each)",NA
"Ignasi_Bartomeus_Brassica_napus_Sweden_2013","14","Plant observations","A_mellifera","species","honeybees",1,3,30,50,"2 rounds (3 sites: 0.5m2, 5 min. each)",NA
"Ignasi_Bartomeus_Brassica_napus_Sweden_2013","15","Plant observations","A_mellifera","species","honeybees",1,3,30,375,"2 rounds (3 sites: 0.5m2, 5 min. each)",NA
"Ignasi_Bartomeus_Brassica_napus_Sweden_2013","2","Plant observations","Wild_Bees","superfamily","other_wild_bees",2,3,30,300,"2 rounds (3 sites: 0.5m2, 5 min. each)","Apoidea?"
"Ignasi_Bartomeus_Brassica_napus_Sweden_2013","3","Plant observations","Wild_Bees","superfamily","other_wild_bees",1,3,30,300,"2 rounds (3 sites: 0.5m2, 5 min. each)","Apoidea?"
"Ignasi_Bartomeus_Brassica_napus_Sweden_2013","6","Plant observations","Wild_Bees","superfamily","other_wild_bees",2,3,30,100,"2 rounds (3 sites: 0.5m2, 5 min. each)","Apoidea?"
"Ignasi_Bartomeus_Brassica_napus_Sweden_2013","8","Plant observations","Wild_Bees","superfamily","other_wild_bees",1,3,30,300,"2 rounds (3 sites: 0.5m2, 5 min. each)","Apoidea?"
"Ignasi_Bartomeus_Brassica_napus_Sweden_2013","8","Plant observations","Wild_Bees","superfamily","other_wild_bees",2,3,30,300,"2 rounds (3 sites: 0.5m2, 5 min. each)","Apoidea?"
"Ignasi_Bartomeus_Brassica_napus_Sweden_2013","11","Plant observations","Wild_Bees","superfamily","other_wild_bees",1,3,30,75,"2 rounds (3 sites: 0.5m2, 5 min. each)","Apoidea?"
"Ignasi_Bartomeus_Brassica_napus_Sweden_2013","14","Plant observations","Wild_Bees","superfamily","other_wild_bees",1,3,30,200,"2 rounds (3 sites: 0.5m2, 5 min. each)","Apoidea?"
"Ignasi_Bartomeus_Brassica_napus_Sweden_2013","15","Plant observations","Wild_Bees","superfamily","other_wild_bees",6,3,30,200,"2 rounds (3 sites: 0.5m2, 5 min. each)","Apoidea?"
"Ignasi_Bartomeus_Brassica_napus_Sweden_2013","2","Plant observations","Symphyta","genus","non_bee_hymenoptera",1,3,30,450,"2 rounds (3 sites: 0.5m2, 5 min. each)",NA
"Ignasi_Bartomeus_Brassica_napus_Sweden_2013","2","Plant observations","Symphyta","genus","non_bee_hymenoptera",1,3,30,300,"2 rounds (3 sites: 0.5m2, 5 min. each)",NA
"Ignasi_Bartomeus_Brassica_napus_Sweden_2013","1","Plant observations","B_lapidarius","species","bumblebees",1,3,30,200,"2 rounds (3 sites: 0.5m2, 5 min. each)",NA
"Ignasi_Bartomeus_Brassica_napus_Sweden_2013","1","Plant observations","B_lapidarius","species","bumblebees",1,3,30,450,"2 rounds (3 sites: 0.5m2, 5 min. each)",NA
"Ignasi_Bartomeus_Brassica_napus_Sweden_2013","5","Plant observations","B_lapidarius","species","bumblebees",1,3,30,450,"2 rounds (3 sites: 0.5m2, 5 min. each)",NA
"Ignasi_Bartomeus_Brassica_napus_Sweden_2013","5","Plant observations","B_lapidarius","species","bumblebees",1,3,30,350,"2 rounds (3 sites: 0.5m2, 5 min. each)",NA
"Ignasi_Bartomeus_Brassica_napus_Sweden_2013","7","Plant observations","B_lapidarius","species","bumblebees",1,3,30,350,"2 rounds (3 sites: 0.5m2, 5 min. each)",NA
"Ignasi_Bartomeus_Brassica_napus_Sweden_2013","8","Plant observations","B_lapidarius","species","bumblebees",1,3,30,300,"2 rounds (3 sites: 0.5m2, 5 min. each)",NA
"Ignasi_Bartomeus_Brassica_napus_Sweden_2013","8","Plant observations","B_lapidarius","species","bumblebees",1,3,30,225,"2 rounds (3 sites: 0.5m2, 5 min. each)",NA
"Ignasi_Bartomeus_Brassica_napus_Sweden_2013","8","Plant observations","B_lapidarius","species","bumblebees",1,3,30,200,"2 rounds (3 sites: 0.5m2, 5 min. each)",NA
"Ignasi_Bartomeus_Brassica_napus_Sweden_2013","15","Plant observations","B_lapidarius","species","bumblebees",1,3,30,300,"2 rounds (3 sites: 0.5m2, 5 min. each)",NA
"Ignasi_Bartomeus_Brassica_napus_Sweden_2013","1","Plant observations","B_terrestris","species","bumblebees",1,3,30,300,"2 rounds (3 sites: 0.5m2, 5 min. each)",NA
"Ignasi_Bartomeus_Brassica_napus_Sweden_2013","2","Plant observations","B_terrestris","species","bumblebees",6,3,30,750,"2 rounds (3 sites: 0.5m2, 5 min. each)",NA
"Ignasi_Bartomeus_Brassica_napus_Sweden_2013","3","Plant observations","B_terrestris","species","bumblebees",4,3,30,200,"2 rounds (3 sites: 0.5m2, 5 min. each)",NA
"Ignasi_Bartomeus_Brassica_napus_Sweden_2013","7","Plant observations","B_terrestris","species","bumblebees",1,3,30,200,"2 rounds (3 sites: 0.5m2, 5 min. each)",NA
"Ignasi_Bartomeus_Brassica_napus_Sweden_2013","7","Plant observations","B_terrestris","species","bumblebees",1,3,30,350,"2 rounds (3 sites: 0.5m2, 5 min. each)",NA
"Ignasi_Bartomeus_Brassica_napus_Sweden_2013","2","Plant observations","B_lucorum","species","bumblebees",3,3,30,450,"2 rounds (3 sites: 0.5m2, 5 min. each)",NA
"Ignasi_Bartomeus_Brassica_napus_Sweden_2013","6","Plant observations","B_lucorum","species","bumblebees",3,3,30,100,"2 rounds (3 sites: 0.5m2, 5 min. each)",NA
"Ignasi_Bartomeus_Brassica_napus_Sweden_2013","7","Plant observations","B_lucorum","species","bumblebees",4,3,30,150,"2 rounds (3 sites: 0.5m2, 5 min. each)",NA
"Ignasi_Bartomeus_Brassica_napus_Sweden_2013","8","Plant observations","B_lucorum","species","bumblebees",1,3,30,375,"2 rounds (3 sites: 0.5m2, 5 min. each)",NA
"Ignasi_Bartomeus_Brassica_napus_Sweden_2013","11","Plant observations","B_lucorum","species","bumblebees",4,3,30,250,"2 rounds (3 sites: 0.5m2, 5 min. each)",NA
"Ignasi_Bartomeus_Brassica_napus_Sweden_2013","1","Plant observations","Syrhipds","family","syrphids",3,3,30,150,"2 rounds (3 sites: 0.5m2, 5 min. each)",NA
"Ignasi_Bartomeus_Brassica_napus_Sweden_2013","1","Plant observations","Syrhipds","family","syrphids",1,3,30,375,"2 rounds (3 sites: 0.5m2, 5 min. each)",NA
"Ignasi_Bartomeus_Brassica_napus_Sweden_2013","2","Plant observations","Syrhipds","family","syrphids",1,3,30,700,"2 rounds (3 sites: 0.5m2, 5 min. each)",NA
"Ignasi_Bartomeus_Brassica_napus_Sweden_2013","2","Plant observations","Syrhipds","family","syrphids",1,3,30,450,"2 rounds (3 sites: 0.5m2, 5 min. each)",NA
"Ignasi_Bartomeus_Brassica_napus_Sweden_2013","2","Plant observations","Syrhipds","family","syrphids",1,3,30,600,"2 rounds (3 sites: 0.5m2, 5 min. each)",NA
"Ignasi_Bartomeus_Brassica_napus_Sweden_2013","2","Plant observations","Syrhipds","family","syrphids",1,3,30,300,"2 rounds (3 sites: 0.5m2, 5 min. each)",NA
"Ignasi_Bartomeus_Brassica_napus_Sweden_2013","2","Plant observations","Syrhipds","family","syrphids",1,3,30,750,"2 rounds (3 sites: 0.5m2, 5 min. each)",NA
"Ignasi_Bartomeus_Brassica_napus_Sweden_2013","3","Plant observations","Syrhipds","family","syrphids",3,3,30,400,"2 rounds (3 sites: 0.5m2, 5 min. each)",NA
"Ignasi_Bartomeus_Brassica_napus_Sweden_2013","3","Plant observations","Syrhipds","family","syrphids",3,3,30,375,"2 rounds (3 sites: 0.5m2, 5 min. each)",NA
"Ignasi_Bartomeus_Brassica_napus_Sweden_2013","3","Plant observations","Syrhipds","family","syrphids",2,3,30,200,"2 rounds (3 sites: 0.5m2, 5 min. each)",NA
"Ignasi_Bartomeus_Brassica_napus_Sweden_2013","3","Plant observations","Syrhipds","family","syrphids",1,3,30,400,"2 rounds (3 sites: 0.5m2, 5 min. each)",NA
"Ignasi_Bartomeus_Brassica_napus_Sweden_2013","3","Plant observations","Syrhipds","family","syrphids",3,3,30,200,"2 rounds (3 sites: 0.5m2, 5 min. each)",NA
"Ignasi_Bartomeus_Brassica_napus_Sweden_2013","3","Plant observations","Syrhipds","family","syrphids",3,3,30,225,"2 rounds (3 sites: 0.5m2, 5 min. each)",NA
"Ignasi_Bartomeus_Brassica_napus_Sweden_2013","3","Plant observations","Syrhipds","family","syrphids",1,3,30,450,"2 rounds (3 sites: 0.5m2, 5 min. each)",NA
"Ignasi_Bartomeus_Brassica_napus_Sweden_2013","3","Plant observations","Syrhipds","family","syrphids",1,3,30,450,"2 rounds (3 sites: 0.5m2, 5 min. each)",NA
"Ignasi_Bartomeus_Brassica_napus_Sweden_2013","4","Plant observations","Syrhipds","family","syrphids",2,3,30,525,"2 rounds (3 sites: 0.5m2, 5 min. each)",NA
"Ignasi_Bartomeus_Brassica_napus_Sweden_2013","4","Plant observations","Syrhipds","family","syrphids",1,3,30,400,"2 rounds (3 sites: 0.5m2, 5 min. each)",NA
"Ignasi_Bartomeus_Brassica_napus_Sweden_2013","4","Plant observations","Syrhipds","family","syrphids",1,3,30,300,"2 rounds (3 sites: 0.5m2, 5 min. each)",NA
"Ignasi_Bartomeus_Brassica_napus_Sweden_2013","4","Plant observations","Syrhipds","family","syrphids",1,3,30,375,"2 rounds (3 sites: 0.5m2, 5 min. each)",NA
"Ignasi_Bartomeus_Brassica_napus_Sweden_2013","5","Plant observations","Syrhipds","family","syrphids",2,3,30,300,"2 rounds (3 sites: 0.5m2, 5 min. each)",NA
"Ignasi_Bartomeus_Brassica_napus_Sweden_2013","5","Plant observations","Syrhipds","family","syrphids",3,3,30,500,"2 rounds (3 sites: 0.5m2, 5 min. each)",NA
"Ignasi_Bartomeus_Brassica_napus_Sweden_2013","5","Plant observations","Syrhipds","family","syrphids",4,3,30,600,"2 rounds (3 sites: 0.5m2, 5 min. each)",NA
"Ignasi_Bartomeus_Brassica_napus_Sweden_2013","5","Plant observations","Syrhipds","family","syrphids",2,3,30,300,"2 rounds (3 sites: 0.5m2, 5 min. each)",NA
"Ignasi_Bartomeus_Brassica_napus_Sweden_2013","6","Plant observations","Syrhipds","family","syrphids",2,3,30,350,"2 rounds (3 sites: 0.5m2, 5 min. each)",NA
"Ignasi_Bartomeus_Brassica_napus_Sweden_2013","6","Plant observations","Syrhipds","family","syrphids",1,3,30,200,"2 rounds (3 sites: 0.5m2, 5 min. each)",NA
"Ignasi_Bartomeus_Brassica_napus_Sweden_2013","6","Plant observations","Syrhipds","family","syrphids",1,3,30,250,"2 rounds (3 sites: 0.5m2, 5 min. each)",NA
"Ignasi_Bartomeus_Brassica_napus_Sweden_2013","6","Plant observations","Syrhipds","family","syrphids",1,3,30,175,"2 rounds (3 sites: 0.5m2, 5 min. each)",NA
"Ignasi_Bartomeus_Brassica_napus_Sweden_2013","7","Plant observations","Syrhipds","family","syrphids",1,3,30,200,"2 rounds (3 sites: 0.5m2, 5 min. each)",NA
"Ignasi_Bartomeus_Brassica_napus_Sweden_2013","7","Plant observations","Syrhipds","family","syrphids",1,3,30,125,"2 rounds (3 sites: 0.5m2, 5 min. each)",NA
"Ignasi_Bartomeus_Brassica_napus_Sweden_2013","7","Plant observations","Syrhipds","family","syrphids",1,3,30,200,"2 rounds (3 sites: 0.5m2, 5 min. each)",NA
"Ignasi_Bartomeus_Brassica_napus_Sweden_2013","7","Plant observations","Syrhipds","family","syrphids",2,3,30,350,"2 rounds (3 sites: 0.5m2, 5 min. each)",NA
"Ignasi_Bartomeus_Brassica_napus_Sweden_2013","7","Plant observations","Syrhipds","family","syrphids",3,3,30,300,"2 rounds (3 sites: 0.5m2, 5 min. each)",NA
"Ignasi_Bartomeus_Brassica_napus_Sweden_2013","8","Plant observations","Syrhipds","family","syrphids",2,3,30,100,"2 rounds (3 sites: 0.5m2, 5 min. each)",NA
"Ignasi_Bartomeus_Brassica_napus_Sweden_2013","8","Plant observations","Syrhipds","family","syrphids",1,3,30,150,"2 rounds (3 sites: 0.5m2, 5 min. each)",NA
"Ignasi_Bartomeus_Brassica_napus_Sweden_2013","8","Plant observations","Syrhipds","family","syrphids",1,3,30,300,"2 rounds (3 sites: 0.5m2, 5 min. each)",NA
"Ignasi_Bartomeus_Brassica_napus_Sweden_2013","8","Plant observations","Syrhipds","family","syrphids",1,3,30,200,"2 rounds (3 sites: 0.5m2, 5 min. each)",NA
"Ignasi_Bartomeus_Brassica_napus_Sweden_2013","8","Plant observations","Syrhipds","family","syrphids",1,3,30,250,"2 rounds (3 sites: 0.5m2, 5 min. each)",NA
"Ignasi_Bartomeus_Brassica_napus_Sweden_2013","9","Plant observations","Syrhipds","family","syrphids",1,3,30,250,"2 rounds (3 sites: 0.5m2, 5 min. each)",NA
"Ignasi_Bartomeus_Brassica_napus_Sweden_2013","9","Plant observations","Syrhipds","family","syrphids",1,3,30,250,"2 rounds (3 sites: 0.5m2, 5 min. each)",NA
"Ignasi_Bartomeus_Brassica_napus_Sweden_2013","10","Plant observations","Syrhipds","family","syrphids",1,3,30,125,"2 rounds (3 sites: 0.5m2, 5 min. each)",NA
"Ignasi_Bartomeus_Brassica_napus_Sweden_2013","10","Plant observations","Syrhipds","family","syrphids",3,3,30,125,"2 rounds (3 sites: 0.5m2, 5 min. each)",NA
"Ignasi_Bartomeus_Brassica_napus_Sweden_2013","10","Plant observations","Syrhipds","family","syrphids",1,3,30,125,"2 rounds (3 sites: 0.5m2, 5 min. each)",NA
"Ignasi_Bartomeus_Brassica_napus_Sweden_2013","10","Plant observations","Syrhipds","family","syrphids",1,3,30,125,"2 rounds (3 sites: 0.5m2, 5 min. each)",NA
"Ignasi_Bartomeus_Brassica_napus_Sweden_2013","11","Plant observations","Syrhipds","family","syrphids",1,3,30,75,"2 rounds (3 sites: 0.5m2, 5 min. each)",NA
"Ignasi_Bartomeus_Brassica_napus_Sweden_2013","11","Plant observations","Syrhipds","family","syrphids",2,3,30,100,"2 rounds (3 sites: 0.5m2, 5 min. each)",NA
"Ignasi_Bartomeus_Brassica_napus_Sweden_2013","11","Plant observations","Syrhipds","family","syrphids",1,3,30,75,"2 rounds (3 sites: 0.5m2, 5 min. each)",NA
"Ignasi_Bartomeus_Brassica_napus_Sweden_2013","11","Plant observations","Syrhipds","family","syrphids",1,3,30,250,"2 rounds (3 sites: 0.5m2, 5 min. each)",NA
"Ignasi_Bartomeus_Brassica_napus_Sweden_2013","11","Plant observations","Syrhipds","family","syrphids",2,3,30,250,"2 rounds (3 sites: 0.5m2, 5 min. each)",NA
"Ignasi_Bartomeus_Brassica_napus_Sweden_2013","12","Plant observations","Syrhipds","family","syrphids",3,3,30,50,"2 rounds (3 sites: 0.5m2, 5 min. each)",NA
"Ignasi_Bartomeus_Brassica_napus_Sweden_2013","12","Plant observations","Syrhipds","family","syrphids",3,3,30,100,"2 rounds (3 sites: 0.5m2, 5 min. each)",NA
"Ignasi_Bartomeus_Brassica_napus_Sweden_2013","12","Plant observations","Syrhipds","family","syrphids",4,3,30,100,"2 rounds (3 sites: 0.5m2, 5 min. each)",NA
"Ignasi_Bartomeus_Brassica_napus_Sweden_2013","12","Plant observations","Syrhipds","family","syrphids",2,3,30,100,"2 rounds (3 sites: 0.5m2, 5 min. each)",NA
"Ignasi_Bartomeus_Brassica_napus_Sweden_2013","12","Plant observations","Syrhipds","family","syrphids",4,3,30,100,"2 rounds (3 sites: 0.5m2, 5 min. each)",NA
"Ignasi_Bartomeus_Brassica_napus_Sweden_2013","12","Plant observations","Syrhipds","family","syrphids",1,3,30,100,"2 rounds (3 sites: 0.5m2, 5 min. each)",NA
"Ignasi_Bartomeus_Brassica_napus_Sweden_2013","13","Plant observations","Syrhipds","family","syrphids",4,3,30,400,"2 rounds (3 sites: 0.5m2, 5 min. each)",NA
"Ignasi_Bartomeus_Brassica_napus_Sweden_2013","13","Plant observations","Syrhipds","family","syrphids",1,3,30,175,"2 rounds (3 sites: 0.5m2, 5 min. each)",NA
"Ignasi_Bartomeus_Brassica_napus_Sweden_2013","13","Plant observations","Syrhipds","family","syrphids",1,3,30,300,"2 rounds (3 sites: 0.5m2, 5 min. each)",NA
"Ignasi_Bartomeus_Brassica_napus_Sweden_2013","13","Plant observations","Syrhipds","family","syrphids",2,3,30,350,"2 rounds (3 sites: 0.5m2, 5 min. each)",NA
"Ignasi_Bartomeus_Brassica_napus_Sweden_2013","13","Plant observations","Syrhipds","family","syrphids",2,3,30,150,"2 rounds (3 sites: 0.5m2, 5 min. each)",NA
"Ignasi_Bartomeus_Brassica_napus_Sweden_2013","13","Plant observations","Syrhipds","family","syrphids",2,3,30,400,"2 rounds (3 sites: 0.5m2, 5 min. each)",NA
"Ignasi_Bartomeus_Brassica_napus_Sweden_2013","14","Plant observations","Syrhipds","family","syrphids",4,3,30,100,"2 rounds (3 sites: 0.5m2, 5 min. each)",NA
"Ignasi_Bartomeus_Brassica_napus_Sweden_2013","14","Plant observations","Syrhipds","family","syrphids",3,3,30,200,"2 rounds (3 sites: 0.5m2, 5 min. each)",NA
"Ignasi_Bartomeus_Brassica_napus_Sweden_2013","14","Plant observations","Syrhipds","family","syrphids",1,3,30,200,"2 rounds (3 sites: 0.5m2, 5 min. each)",NA
"Ignasi_Bartomeus_Brassica_napus_Sweden_2013","14","Plant observations","Syrhipds","family","syrphids",2,3,30,150,"2 rounds (3 sites: 0.5m2, 5 min. each)",NA
"Ignasi_Bartomeus_Brassica_napus_Sweden_2013","14","Plant observations","Syrhipds","family","syrphids",1,3,30,200,"2 rounds (3 sites: 0.5m2, 5 min. each)",NA
"Ignasi_Bartomeus_Brassica_napus_Sweden_2013","15","Plant observations","Syrhipds","family","syrphids",1,3,30,250,"2 rounds (3 sites: 0.5m2, 5 min. each)",NA
"Ignasi_Bartomeus_Brassica_napus_Sweden_2013","1","Plant observations","Other_Dipterans","order","other_flies",1,3,30,200,"2 rounds (3 sites: 0.5m2, 5 min. each)",NA
"Ignasi_Bartomeus_Brassica_napus_Sweden_2013","1","Plant observations","Other_Dipterans","order","other_flies",1,3,30,500,"2 rounds (3 sites: 0.5m2, 5 min. each)",NA
"Ignasi_Bartomeus_Brassica_napus_Sweden_2013","1","Plant observations","Other_Dipterans","order","other_flies",1,3,30,50,"2 rounds (3 sites: 0.5m2, 5 min. each)",NA
"Ignasi_Bartomeus_Brassica_napus_Sweden_2013","1","Plant observations","Other_Dipterans","order","other_flies",1,3,30,150,"2 rounds (3 sites: 0.5m2, 5 min. each)",NA
"Ignasi_Bartomeus_Brassica_napus_Sweden_2013","1","Plant observations","Other_Dipterans","order","other_flies",5,3,30,150,"2 rounds (3 sites: 0.5m2, 5 min. each)",NA
"Ignasi_Bartomeus_Brassica_napus_Sweden_2013","1","Plant observations","Other_Dipterans","order","other_flies",2,3,30,250,"2 rounds (3 sites: 0.5m2, 5 min. each)",NA
"Ignasi_Bartomeus_Brassica_napus_Sweden_2013","1","Plant observations","Other_Dipterans","order","other_flies",1,3,30,375,"2 rounds (3 sites: 0.5m2, 5 min. each)",NA
"Ignasi_Bartomeus_Brassica_napus_Sweden_2013","1","Plant observations","Other_Dipterans","order","other_flies",2,3,30,200,"2 rounds (3 sites: 0.5m2, 5 min. each)",NA
"Ignasi_Bartomeus_Brassica_napus_Sweden_2013","2","Plant observations","Other_Dipterans","order","other_flies",2,3,30,750,"2 rounds (3 sites: 0.5m2, 5 min. each)",NA
"Ignasi_Bartomeus_Brassica_napus_Sweden_2013","2","Plant observations","Other_Dipterans","order","other_flies",2,3,30,600,"2 rounds (3 sites: 0.5m2, 5 min. each)",NA
"Ignasi_Bartomeus_Brassica_napus_Sweden_2013","2","Plant observations","Other_Dipterans","order","other_flies",1,3,30,700,"2 rounds (3 sites: 0.5m2, 5 min. each)",NA
"Ignasi_Bartomeus_Brassica_napus_Sweden_2013","2","Plant observations","Other_Dipterans","order","other_flies",5,3,30,450,"2 rounds (3 sites: 0.5m2, 5 min. each)",NA
"Ignasi_Bartomeus_Brassica_napus_Sweden_2013","2","Plant observations","Other_Dipterans","order","other_flies",3,3,30,600,"2 rounds (3 sites: 0.5m2, 5 min. each)",NA
"Ignasi_Bartomeus_Brassica_napus_Sweden_2013","2","Plant observations","Other_Dipterans","order","other_flies",1,3,30,300,"2 rounds (3 sites: 0.5m2, 5 min. each)",NA
"Ignasi_Bartomeus_Brassica_napus_Sweden_2013","2","Plant observations","Other_Dipterans","order","other_flies",3,3,30,500,"2 rounds (3 sites: 0.5m2, 5 min. each)",NA
"Ignasi_Bartomeus_Brassica_napus_Sweden_2013","2","Plant observations","Other_Dipterans","order","other_flies",2,3,30,750,"2 rounds (3 sites: 0.5m2, 5 min. each)",NA
"Ignasi_Bartomeus_Brassica_napus_Sweden_2013","3","Plant observations","Other_Dipterans","order","other_flies",1,3,30,400,"2 rounds (3 sites: 0.5m2, 5 min. each)",NA
"Ignasi_Bartomeus_Brassica_napus_Sweden_2013","3","Plant observations","Other_Dipterans","order","other_flies",1,3,30,375,"2 rounds (3 sites: 0.5m2, 5 min. each)",NA
"Ignasi_Bartomeus_Brassica_napus_Sweden_2013","3","Plant observations","Other_Dipterans","order","other_flies",2,3,30,200,"2 rounds (3 sites: 0.5m2, 5 min. each)",NA
"Ignasi_Bartomeus_Brassica_napus_Sweden_2013","3","Plant observations","Other_Dipterans","order","other_flies",1,3,30,400,"2 rounds (3 sites: 0.5m2, 5 min. each)",NA
"Ignasi_Bartomeus_Brassica_napus_Sweden_2013","3","Plant observations","Other_Dipterans","order","other_flies",1,3,30,800,"2 rounds (3 sites: 0.5m2, 5 min. each)",NA
"Ignasi_Bartomeus_Brassica_napus_Sweden_2013","3","Plant observations","Other_Dipterans","order","other_flies",3,3,30,200,"2 rounds (3 sites: 0.5m2, 5 min. each)",NA
"Ignasi_Bartomeus_Brassica_napus_Sweden_2013","3","Plant observations","Other_Dipterans","order","other_flies",4,3,30,300,"2 rounds (3 sites: 0.5m2, 5 min. each)",NA
"Ignasi_Bartomeus_Brassica_napus_Sweden_2013","3","Plant observations","Other_Dipterans","order","other_flies",2,3,30,225,"2 rounds (3 sites: 0.5m2, 5 min. each)",NA
"Ignasi_Bartomeus_Brassica_napus_Sweden_2013","3","Plant observations","Other_Dipterans","order","other_flies",1,3,30,450,"2 rounds (3 sites: 0.5m2, 5 min. each)",NA
"Ignasi_Bartomeus_Brassica_napus_Sweden_2013","3","Plant observations","Other_Dipterans","order","other_flies",1,3,30,450,"2 rounds (3 sites: 0.5m2, 5 min. each)",NA
"Ignasi_Bartomeus_Brassica_napus_Sweden_2013","3","Plant observations","Other_Dipterans","order","other_flies",1,3,30,450,"2 rounds (3 sites: 0.5m2, 5 min. each)",NA
"Ignasi_Bartomeus_Brassica_napus_Sweden_2013","4","Plant observations","Other_Dipterans","order","other_flies",1,3,30,525,"2 rounds (3 sites: 0.5m2, 5 min. each)",NA
"Ignasi_Bartomeus_Brassica_napus_Sweden_2013","4","Plant observations","Other_Dipterans","order","other_flies",3,3,30,400,"2 rounds (3 sites: 0.5m2, 5 min. each)",NA
"Ignasi_Bartomeus_Brassica_napus_Sweden_2013","4","Plant observations","Other_Dipterans","order","other_flies",6,3,30,750,"2 rounds (3 sites: 0.5m2, 5 min. each)",NA
"Ignasi_Bartomeus_Brassica_napus_Sweden_2013","4","Plant observations","Other_Dipterans","order","other_flies",3,3,30,500,"2 rounds (3 sites: 0.5m2, 5 min. each)",NA
"Ignasi_Bartomeus_Brassica_napus_Sweden_2013","4","Plant observations","Other_Dipterans","order","other_flies",3,3,30,500,"2 rounds (3 sites: 0.5m2, 5 min. each)",NA
"Ignasi_Bartomeus_Brassica_napus_Sweden_2013","4","Plant observations","Other_Dipterans","order","other_flies",2,3,30,450,"2 rounds (3 sites: 0.5m2, 5 min. each)",NA
"Ignasi_Bartomeus_Brassica_napus_Sweden_2013","4","Plant observations","Other_Dipterans","order","other_flies",4,3,30,300,"2 rounds (3 sites: 0.5m2, 5 min. each)",NA
"Ignasi_Bartomeus_Brassica_napus_Sweden_2013","4","Plant observations","Other_Dipterans","order","other_flies",1,3,30,300,"2 rounds (3 sites: 0.5m2, 5 min. each)",NA
"Ignasi_Bartomeus_Brassica_napus_Sweden_2013","4","Plant observations","Other_Dipterans","order","other_flies",1,3,30,300,"2 rounds (3 sites: 0.5m2, 5 min. each)",NA
"Ignasi_Bartomeus_Brassica_napus_Sweden_2013","4","Plant observations","Other_Dipterans","order","other_flies",2,3,30,200,"2 rounds (3 sites: 0.5m2, 5 min. each)",NA
"Ignasi_Bartomeus_Brassica_napus_Sweden_2013","4","Plant observations","Other_Dipterans","order","other_flies",3,3,30,375,"2 rounds (3 sites: 0.5m2, 5 min. each)",NA
"Ignasi_Bartomeus_Brassica_napus_Sweden_2013","4","Plant observations","Other_Dipterans","order","other_flies",1,3,30,150,"2 rounds (3 sites: 0.5m2, 5 min. each)",NA
"Ignasi_Bartomeus_Brassica_napus_Sweden_2013","5","Plant observations","Other_Dipterans","order","other_flies",4,3,30,300,"2 rounds (3 sites: 0.5m2, 5 min. each)",NA
"Ignasi_Bartomeus_Brassica_napus_Sweden_2013","5","Plant observations","Other_Dipterans","order","other_flies",4,3,30,500,"2 rounds (3 sites: 0.5m2, 5 min. each)",NA
"Ignasi_Bartomeus_Brassica_napus_Sweden_2013","5","Plant observations","Other_Dipterans","order","other_flies",3,3,30,600,"2 rounds (3 sites: 0.5m2, 5 min. each)",NA
"Ignasi_Bartomeus_Brassica_napus_Sweden_2013","5","Plant observations","Other_Dipterans","order","other_flies",3,3,30,450,"2 rounds (3 sites: 0.5m2, 5 min. each)",NA
"Ignasi_Bartomeus_Brassica_napus_Sweden_2013","5","Plant observations","Other_Dipterans","order","other_flies",1,3,30,300,"2 rounds (3 sites: 0.5m2, 5 min. each)",NA
"Ignasi_Bartomeus_Brassica_napus_Sweden_2013","5","Plant observations","Other_Dipterans","order","other_flies",3,3,30,300,"2 rounds (3 sites: 0.5m2, 5 min. each)",NA
"Ignasi_Bartomeus_Brassica_napus_Sweden_2013","5","Plant observations","Other_Dipterans","order","other_flies",1,3,30,350,"2 rounds (3 sites: 0.5m2, 5 min. each)",NA
"Ignasi_Bartomeus_Brassica_napus_Sweden_2013","5","Plant observations","Other_Dipterans","order","other_flies",2,3,30,450,"2 rounds (3 sites: 0.5m2, 5 min. each)",NA
"Ignasi_Bartomeus_Brassica_napus_Sweden_2013","5","Plant observations","Other_Dipterans","order","other_flies",1,3,30,350,"2 rounds (3 sites: 0.5m2, 5 min. each)",NA
"Ignasi_Bartomeus_Brassica_napus_Sweden_2013","5","Plant observations","Other_Dipterans","order","other_flies",3,3,30,200,"2 rounds (3 sites: 0.5m2, 5 min. each)",NA
"Ignasi_Bartomeus_Brassica_napus_Sweden_2013","5","Plant observations","Other_Dipterans","order","other_flies",1,3,30,200,"2 rounds (3 sites: 0.5m2, 5 min. each)",NA
"Ignasi_Bartomeus_Brassica_napus_Sweden_2013","6","Plant observations","Other_Dipterans","order","other_flies",4,3,30,375,"2 rounds (3 sites: 0.5m2, 5 min. each)",NA
"Ignasi_Bartomeus_Brassica_napus_Sweden_2013","6","Plant observations","Other_Dipterans","order","other_flies",3,3,30,350,"2 rounds (3 sites: 0.5m2, 5 min. each)",NA
"Ignasi_Bartomeus_Brassica_napus_Sweden_2013","6","Plant observations","Other_Dipterans","order","other_flies",2,3,30,200,"2 rounds (3 sites: 0.5m2, 5 min. each)",NA
"Ignasi_Bartomeus_Brassica_napus_Sweden_2013","6","Plant observations","Other_Dipterans","order","other_flies",3,3,30,300,"2 rounds (3 sites: 0.5m2, 5 min. each)",NA
"Ignasi_Bartomeus_Brassica_napus_Sweden_2013","6","Plant observations","Other_Dipterans","order","other_flies",3,3,30,350,"2 rounds (3 sites: 0.5m2, 5 min. each)",NA
"Ignasi_Bartomeus_Brassica_napus_Sweden_2013","6","Plant observations","Other_Dipterans","order","other_flies",3,3,30,250,"2 rounds (3 sites: 0.5m2, 5 min. each)",NA
"Ignasi_Bartomeus_Brassica_napus_Sweden_2013","7","Plant observations","Other_Dipterans","order","other_flies",1,3,30,200,"2 rounds (3 sites: 0.5m2, 5 min. each)",NA
"Ignasi_Bartomeus_Brassica_napus_Sweden_2013","7","Plant observations","Other_Dipterans","order","other_flies",5,3,30,125,"2 rounds (3 sites: 0.5m2, 5 min. each)",NA
"Ignasi_Bartomeus_Brassica_napus_Sweden_2013","7","Plant observations","Other_Dipterans","order","other_flies",4,3,30,200,"2 rounds (3 sites: 0.5m2, 5 min. each)",NA
"Ignasi_Bartomeus_Brassica_napus_Sweden_2013","7","Plant observations","Other_Dipterans","order","other_flies",2,3,30,350,"2 rounds (3 sites: 0.5m2, 5 min. each)",NA
"Ignasi_Bartomeus_Brassica_napus_Sweden_2013","7","Plant observations","Other_Dipterans","order","other_flies",1,3,30,350,"2 rounds (3 sites: 0.5m2, 5 min. each)",NA
"Ignasi_Bartomeus_Brassica_napus_Sweden_2013","7","Plant observations","Other_Dipterans","order","other_flies",1,3,30,525,"2 rounds (3 sites: 0.5m2, 5 min. each)",NA
"Ignasi_Bartomeus_Brassica_napus_Sweden_2013","8","Plant observations","Other_Dipterans","order","other_flies",3,3,30,100,"2 rounds (3 sites: 0.5m2, 5 min. each)",NA
"Ignasi_Bartomeus_Brassica_napus_Sweden_2013","8","Plant observations","Other_Dipterans","order","other_flies",3,3,30,300,"2 rounds (3 sites: 0.5m2, 5 min. each)",NA
"Ignasi_Bartomeus_Brassica_napus_Sweden_2013","8","Plant observations","Other_Dipterans","order","other_flies",4,3,30,375,"2 rounds (3 sites: 0.5m2, 5 min. each)",NA
"Ignasi_Bartomeus_Brassica_napus_Sweden_2013","8","Plant observations","Other_Dipterans","order","other_flies",1,3,30,225,"2 rounds (3 sites: 0.5m2, 5 min. each)",NA
"Ignasi_Bartomeus_Brassica_napus_Sweden_2013","8","Plant observations","Other_Dipterans","order","other_flies",1,3,30,150,"2 rounds (3 sites: 0.5m2, 5 min. each)",NA
"Ignasi_Bartomeus_Brassica_napus_Sweden_2013","8","Plant observations","Other_Dipterans","order","other_flies",4,3,30,300,"2 rounds (3 sites: 0.5m2, 5 min. each)",NA
"Ignasi_Bartomeus_Brassica_napus_Sweden_2013","8","Plant observations","Other_Dipterans","order","other_flies",1,3,30,100,"2 rounds (3 sites: 0.5m2, 5 min. each)",NA
"Ignasi_Bartomeus_Brassica_napus_Sweden_2013","9","Plant observations","Other_Dipterans","order","other_flies",1,3,30,300,"2 rounds (3 sites: 0.5m2, 5 min. each)",NA
"Ignasi_Bartomeus_Brassica_napus_Sweden_2013","9","Plant observations","Other_Dipterans","order","other_flies",1,3,30,250,"2 rounds (3 sites: 0.5m2, 5 min. each)",NA
"Ignasi_Bartomeus_Brassica_napus_Sweden_2013","9","Plant observations","Other_Dipterans","order","other_flies",3,3,30,150,"2 rounds (3 sites: 0.5m2, 5 min. each)",NA
"Ignasi_Bartomeus_Brassica_napus_Sweden_2013","9","Plant observations","Other_Dipterans","order","other_flies",2,3,30,300,"2 rounds (3 sites: 0.5m2, 5 min. each)",NA
"Ignasi_Bartomeus_Brassica_napus_Sweden_2013","9","Plant observations","Other_Dipterans","order","other_flies",2,3,30,250,"2 rounds (3 sites: 0.5m2, 5 min. each)",NA
"Ignasi_Bartomeus_Brassica_napus_Sweden_2013","9","Plant observations","Other_Dipterans","order","other_flies",2,3,30,250,"2 rounds (3 sites: 0.5m2, 5 min. each)",NA
"Ignasi_Bartomeus_Brassica_napus_Sweden_2013","9","Plant observations","Other_Dipterans","order","other_flies",1,3,30,125,"2 rounds (3 sites: 0.5m2, 5 min. each)",NA
"Ignasi_Bartomeus_Brassica_napus_Sweden_2013","9","Plant observations","Other_Dipterans","order","other_flies",1,3,30,200,"2 rounds (3 sites: 0.5m2, 5 min. each)",NA
"Ignasi_Bartomeus_Brassica_napus_Sweden_2013","9","Plant observations","Other_Dipterans","order","other_flies",2,3,30,200,"2 rounds (3 sites: 0.5m2, 5 min. each)",NA
"Ignasi_Bartomeus_Brassica_napus_Sweden_2013","9","Plant observations","Other_Dipterans","order","other_flies",1,3,30,200,"2 rounds (3 sites: 0.5m2, 5 min. each)",NA
"Ignasi_Bartomeus_Brassica_napus_Sweden_2013","10","Plant observations","Other_Dipterans","order","other_flies",2,3,30,125,"2 rounds (3 sites: 0.5m2, 5 min. each)",NA
"Ignasi_Bartomeus_Brassica_napus_Sweden_2013","10","Plant observations","Other_Dipterans","order","other_flies",2,3,30,200,"2 rounds (3 sites: 0.5m2, 5 min. each)",NA
"Ignasi_Bartomeus_Brassica_napus_Sweden_2013","10","Plant observations","Other_Dipterans","order","other_flies",2,3,30,100,"2 rounds (3 sites: 0.5m2, 5 min. each)",NA
"Ignasi_Bartomeus_Brassica_napus_Sweden_2013","10","Plant observations","Other_Dipterans","order","other_flies",1,3,30,125,"2 rounds (3 sites: 0.5m2, 5 min. each)",NA
"Ignasi_Bartomeus_Brassica_napus_Sweden_2013","10","Plant observations","Other_Dipterans","order","other_flies",1,3,30,125,"2 rounds (3 sites: 0.5m2, 5 min. each)",NA
"Ignasi_Bartomeus_Brassica_napus_Sweden_2013","10","Plant observations","Other_Dipterans","order","other_flies",2,3,30,150,"2 rounds (3 sites: 0.5m2, 5 min. each)",NA
"Ignasi_Bartomeus_Brassica_napus_Sweden_2013","11","Plant observations","Other_Dipterans","order","other_flies",5,3,30,75,"2 rounds (3 sites: 0.5m2, 5 min. each)",NA
"Ignasi_Bartomeus_Brassica_napus_Sweden_2013","11","Plant observations","Other_Dipterans","order","other_flies",1,3,30,150,"2 rounds (3 sites: 0.5m2, 5 min. each)",NA
"Ignasi_Bartomeus_Brassica_napus_Sweden_2013","11","Plant observations","Other_Dipterans","order","other_flies",2,3,30,150,"2 rounds (3 sites: 0.5m2, 5 min. each)",NA
"Ignasi_Bartomeus_Brassica_napus_Sweden_2013","11","Plant observations","Other_Dipterans","order","other_flies",1,3,30,250,"2 rounds (3 sites: 0.5m2, 5 min. each)",NA
"Ignasi_Bartomeus_Brassica_napus_Sweden_2013","11","Plant observations","Other_Dipterans","order","other_flies",2,3,30,250,"2 rounds (3 sites: 0.5m2, 5 min. each)",NA
"Ignasi_Bartomeus_Brassica_napus_Sweden_2013","11","Plant observations","Other_Dipterans","order","other_flies",2,3,30,75,"2 rounds (3 sites: 0.5m2, 5 min. each)",NA
"Ignasi_Bartomeus_Brassica_napus_Sweden_2013","12","Plant observations","Other_Dipterans","order","other_flies",1,3,30,250,"2 rounds (3 sites: 0.5m2, 5 min. each)",NA
"Ignasi_Bartomeus_Brassica_napus_Sweden_2013","12","Plant observations","Other_Dipterans","order","other_flies",1,3,30,250,"2 rounds (3 sites: 0.5m2, 5 min. each)",NA
"Ignasi_Bartomeus_Brassica_napus_Sweden_2013","13","Plant observations","Other_Dipterans","order","other_flies",2,3,30,400,"2 rounds (3 sites: 0.5m2, 5 min. each)",NA
"Ignasi_Bartomeus_Brassica_napus_Sweden_2013","13","Plant observations","Other_Dipterans","order","other_flies",1,3,30,400,"2 rounds (3 sites: 0.5m2, 5 min. each)",NA
"Ignasi_Bartomeus_Brassica_napus_Sweden_2013","13","Plant observations","Other_Dipterans","order","other_flies",2,3,30,400,"2 rounds (3 sites: 0.5m2, 5 min. each)",NA
"Ignasi_Bartomeus_Brassica_napus_Sweden_2013","13","Plant observations","Other_Dipterans","order","other_flies",1,3,30,300,"2 rounds (3 sites: 0.5m2, 5 min. each)",NA
"Ignasi_Bartomeus_Brassica_napus_Sweden_2013","13","Plant observations","Other_Dipterans","order","other_flies",1,3,30,400,"2 rounds (3 sites: 0.5m2, 5 min. each)",NA
"Ignasi_Bartomeus_Brassica_napus_Sweden_2013","13","Plant observations","Other_Dipterans","order","other_flies",1,3,30,400,"2 rounds (3 sites: 0.5m2, 5 min. each)",NA
"Ignasi_Bartomeus_Brassica_napus_Sweden_2013","14","Plant observations","Other_Dipterans","order","other_flies",1,3,30,375,"2 rounds (3 sites: 0.5m2, 5 min. each)",NA
"Ignasi_Bartomeus_Brassica_napus_Sweden_2013","14","Plant observations","Other_Dipterans","order","other_flies",3,3,30,250,"2 rounds (3 sites: 0.5m2, 5 min. each)",NA
"Ignasi_Bartomeus_Brassica_napus_Sweden_2013","14","Plant observations","Other_Dipterans","order","other_flies",3,3,30,150,"2 rounds (3 sites: 0.5m2, 5 min. each)",NA
"Ignasi_Bartomeus_Brassica_napus_Sweden_2013","14","Plant observations","Other_Dipterans","order","other_flies",1,3,30,250,"2 rounds (3 sites: 0.5m2, 5 min. each)",NA
"Ignasi_Bartomeus_Brassica_napus_Sweden_2013","14","Plant observations","Other_Dipterans","order","other_flies",1,3,30,250,"2 rounds (3 sites: 0.5m2, 5 min. each)",NA
"Ignasi_Bartomeus_Brassica_napus_Sweden_2013","15","Plant observations","Other_Dipterans","order","other_flies",3,3,30,300,"2 rounds (3 sites: 0.5m2, 5 min. each)",NA
"Ignasi_Bartomeus_Brassica_napus_Sweden_2013","15","Plant observations","Other_Dipterans","order","other_flies",1,3,30,200,"2 rounds (3 sites: 0.5m2, 5 min. each)",NA
"Ignasi_Bartomeus_Brassica_napus_Sweden_2013","15","Plant observations","Other_Dipterans","order","other_flies",1,3,30,50,"2 rounds (3 sites: 0.5m2, 5 min. each)",NA
"Ignasi_Bartomeus_Brassica_napus_Sweden_2013","15","Plant observations","Other_Dipterans","order","other_flies",2,3,30,50,"2 rounds (3 sites: 0.5m2, 5 min. each)",NA
"Ignasi_Bartomeus_Brassica_napus_Sweden_2013","15","Plant observations","Other_Dipterans","order","other_flies",1,3,30,50,"2 rounds (3 sites: 0.5m2, 5 min. each)",NA
"Ignasi_Bartomeus_Brassica_napus_Sweden_2013","15","Plant observations","Other_Dipterans","order","other_flies",1,3,30,200,"2 rounds (3 sites: 0.5m2, 5 min. each)",NA
"Ignasi_Bartomeus_Brassica_napus_Sweden_2013","15","Plant observations","Other_Dipterans","order","other_flies",2,3,30,100,"2 rounds (3 sites: 0.5m2, 5 min. each)",NA
"Ignasi_Bartomeus_Brassica_napus_Sweden_2013","1","Plant observations","Pieris_napi","species","lepidoptera",1,3,30,100,"2 rounds (3 sites: 0.5m2, 5 min. each)",NA
"Ignasi_Bartomeus_Brassica_napus_Sweden_2013","1","Plant observations","Pieris_napi","species","lepidoptera",1,3,30,450,"2 rounds (3 sites: 0.5m2, 5 min. each)",NA
"Ignasi_Bartomeus_Brassica_napus_Sweden_2013","13","Plant observations","Pieris_napi","species","lepidoptera",1,3,30,175,"2 rounds (3 sites: 0.5m2, 5 min. each)",NA
"Ignasi_Bartomeus_Brassica_napus_Sweden_2013","2","Plant observations","Cerambycidae","family","beetles",1,3,30,300,"2 rounds (3 sites: 0.5m2, 5 min. each)",NA
"Ignasi_Bartomeus_Brassica_napus_Sweden_2013","8","Plant observations","Cerambycidae","family","beetles",1,3,30,225,"2 rounds (3 sites: 0.5m2, 5 min. each)",NA
"Ignasi_Bartomeus_Brassica_napus_Sweden_2013","8","Plant observations","Cerambycidae","family","beetles",1,3,30,200,"2 rounds (3 sites: 0.5m2, 5 min. each)",NA
"Ignasi_Bartomeus_Brassica_napus_Sweden_2013","11","Plant observations","Cerambycidae","family","beetles",1,3,30,250,"2 rounds (3 sites: 0.5m2, 5 min. each)",NA
"Ignasi_Bartomeus_Brassica_napus_Sweden_2013","11","Plant observations","Cerambycidae","family","beetles",1,3,30,50,"2 rounds (3 sites: 0.5m2, 5 min. each)",NA
"Ignasi_Bartomeus_Brassica_napus_Sweden_2013","13","Plant observations","Cerambycidae","family","beetles",1,3,30,175,"2 rounds (3 sites: 0.5m2, 5 min. each)",NA
"Ignasi_Bartomeus_Brassica_napus_Sweden_2013","14","Plant observations","Cerambycidae","family","beetles",1,3,30,300,"2 rounds (3 sites: 0.5m2, 5 min. each)",NA
"Ignasi_Bartomeus_Brassica_napus_Sweden_2013","14","Plant observations","Elateridae","family","beetles",1,3,30,200,"2 rounds (3 sites: 0.5m2, 5 min. each)",NA
"Ignasi_Bartomeus_Brassica_napus_Sweden_2013","15","Plant observations","Elateridae","family","beetles",1,3,30,200,"2 rounds (3 sites: 0.5m2, 5 min. each)",NA
"Ignasi_Bartomeus_Brassica_napus_Sweden_2013","6","Plant observations","Curcumelidae","family","other",1,3,30,200,"2 rounds (3 sites: 0.5m2, 5 min. each)",NA
"Ignasi_Bartomeus_Brassica_napus_Sweden_2013","15","Plant observations","Curcumelidae","family","other",1,3,30,250,"2 rounds (3 sites: 0.5m2, 5 min. each)",NA
"Ignasi_Bartomeus_Brassica_napus_Sweden_2013","10","Plant observations","Chrysomelidae","family","beetles",1,3,30,125,"2 rounds (3 sites: 0.5m2, 5 min. each)",NA
"Jens_Astrom_Malus_domestica_Norway_2013","Close1","sweep net","Bombus_lucorum","species","bumblebees",1,1200,120,NA,"In each field abundance and richness of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least four dates during the main flowering period. Visitation rates were measured by observing a fixed number of open flowers and counting the number of those that are visited by a pollinator.",NA
"Jens_Astrom_Malus_domestica_Norway_2013","Close2","sweep net","Bombus_lucorum","species","bumblebees",1,1200,120,NA,"In each field abundance and richness of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least four dates during the main flowering period. Visitation rates were measured by observing a fixed number of open flowers and counting the number of those that are visited by a pollinator.",NA
"Jens_Astrom_Malus_domestica_Norway_2013","Close3","sweep net","Bombus_lucorum","species","bumblebees",1,1200,120,NA,"In each field abundance and richness of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least four dates during the main flowering period. Visitation rates were measured by observing a fixed number of open flowers and counting the number of those that are visited by a pollinator.",NA
"Jens_Astrom_Malus_domestica_Norway_2013","Close3","sweep net","Bombus_lucorum","species","bumblebees",1,1200,120,NA,"In each field abundance and richness of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least four dates during the main flowering period. Visitation rates were measured by observing a fixed number of open flowers and counting the number of those that are visited by a pollinator.",NA
"Jens_Astrom_Malus_domestica_Norway_2013","Dist2","sweep net","Bombus_lucorum","species","bumblebees",2,1200,120,NA,"In each field abundance and richness of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least four dates during the main flowering period. Visitation rates were measured by observing a fixed number of open flowers and counting the number of those that are visited by a pollinator.",NA
"Jens_Astrom_Malus_domestica_Norway_2013","Dist2","sweep net","Bombus_lucorum","species","bumblebees",3,1200,120,NA,"In each field abundance and richness of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least four dates during the main flowering period. Visitation rates were measured by observing a fixed number of open flowers and counting the number of those that are visited by a pollinator.",NA
"Jens_Astrom_Malus_domestica_Norway_2013","Dist2","sweep net","Bombus_lucorum","species","bumblebees",1,1200,120,NA,"In each field abundance and richness of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least four dates during the main flowering period. Visitation rates were measured by observing a fixed number of open flowers and counting the number of those that are visited by a pollinator.",NA
"Jens_Astrom_Malus_domestica_Norway_2013","Dist2","sweep net","Bombus_lucorum","species","bumblebees",1,1200,120,NA,"In each field abundance and richness of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least four dates during the main flowering period. Visitation rates were measured by observing a fixed number of open flowers and counting the number of those that are visited by a pollinator.",NA
"Jens_Astrom_Malus_domestica_Norway_2013","Dist2","sweep net","Bombus_lucorum","species","bumblebees",2,1200,120,NA,"In each field abundance and richness of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least four dates during the main flowering period. Visitation rates were measured by observing a fixed number of open flowers and counting the number of those that are visited by a pollinator.",NA
"Jens_Astrom_Malus_domestica_Norway_2013","Dist2","sweep net","Bombus_lucorum","species","bumblebees",2,1200,120,NA,"In each field abundance and richness of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least four dates during the main flowering period. Visitation rates were measured by observing a fixed number of open flowers and counting the number of those that are visited by a pollinator.",NA
"Jens_Astrom_Malus_domestica_Norway_2013","Dist2","sweep net","Bombus_lucorum","species","bumblebees",1,1200,120,NA,"In each field abundance and richness of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least four dates during the main flowering period. Visitation rates were measured by observing a fixed number of open flowers and counting the number of those that are visited by a pollinator.",NA
"Jens_Astrom_Malus_domestica_Norway_2013","Dist2","sweep net","Bombus_lucorum","species","bumblebees",1,1200,120,NA,"In each field abundance and richness of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least four dates during the main flowering period. Visitation rates were measured by observing a fixed number of open flowers and counting the number of those that are visited by a pollinator.",NA
"Jens_Astrom_Malus_domestica_Norway_2013","Dist2","sweep net","Bombus_lucorum","species","bumblebees",1,1200,120,NA,"In each field abundance and richness of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least four dates during the main flowering period. Visitation rates were measured by observing a fixed number of open flowers and counting the number of those that are visited by a pollinator.",NA
"Jens_Astrom_Malus_domestica_Norway_2013","Dist2","sweep net","Bombus_lucorum","species","bumblebees",1,1200,120,NA,"In each field abundance and richness of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least four dates during the main flowering period. Visitation rates were measured by observing a fixed number of open flowers and counting the number of those that are visited by a pollinator.",NA
"Jens_Astrom_Malus_domestica_Norway_2013","Dist2","sweep net","Bombus_lucorum","species","bumblebees",2,1200,120,NA,"In each field abundance and richness of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least four dates during the main flowering period. Visitation rates were measured by observing a fixed number of open flowers and counting the number of those that are visited by a pollinator.",NA
"Jens_Astrom_Malus_domestica_Norway_2013","Dist2","sweep net","Bombus_lucorum","species","bumblebees",1,1200,120,NA,"In each field abundance and richness of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least four dates during the main flowering period. Visitation rates were measured by observing a fixed number of open flowers and counting the number of those that are visited by a pollinator.",NA
"Jens_Astrom_Malus_domestica_Norway_2013","Dist2","sweep net","Bombus_lucorum","species","bumblebees",1,1200,120,NA,"In each field abundance and richness of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least four dates during the main flowering period. Visitation rates were measured by observing a fixed number of open flowers and counting the number of those that are visited by a pollinator.",NA
"Jens_Astrom_Malus_domestica_Norway_2013","Dist2","sweep net","Bombus_lucorum","species","bumblebees",1,1200,120,NA,"In each field abundance and richness of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least four dates during the main flowering period. Visitation rates were measured by observing a fixed number of open flowers and counting the number of those that are visited by a pollinator.",NA
"Jens_Astrom_Malus_domestica_Norway_2013","Dist2","sweep net","Bombus_lucorum","species","bumblebees",1,1200,120,NA,"In each field abundance and richness of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least four dates during the main flowering period. Visitation rates were measured by observing a fixed number of open flowers and counting the number of those that are visited by a pollinator.",NA
"Jens_Astrom_Malus_domestica_Norway_2013","Dist2","sweep net","Bombus_lucorum","species","bumblebees",2,1200,120,NA,"In each field abundance and richness of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least four dates during the main flowering period. Visitation rates were measured by observing a fixed number of open flowers and counting the number of those that are visited by a pollinator.",NA
"Jens_Astrom_Malus_domestica_Norway_2013","Dist2","sweep net","Bombus_lucorum","species","bumblebees",1,1200,120,NA,"In each field abundance and richness of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least four dates during the main flowering period. Visitation rates were measured by observing a fixed number of open flowers and counting the number of those that are visited by a pollinator.",NA
"Jens_Astrom_Malus_domestica_Norway_2013","Dist4","sweep net","Bombus_lucorum","species","bumblebees",1,1200,120,NA,"In each field abundance and richness of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least four dates during the main flowering period. Visitation rates were measured by observing a fixed number of open flowers and counting the number of those that are visited by a pollinator.",NA
"Jens_Astrom_Malus_domestica_Norway_2013","Dist4","sweep net","Bombus_lucorum","species","bumblebees",1,1200,120,NA,"In each field abundance and richness of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least four dates during the main flowering period. Visitation rates were measured by observing a fixed number of open flowers and counting the number of those that are visited by a pollinator.",NA
"Jens_Astrom_Malus_domestica_Norway_2013","Dist4","sweep net","Bombus_lucorum","species","bumblebees",1,1200,120,NA,"In each field abundance and richness of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least four dates during the main flowering period. Visitation rates were measured by observing a fixed number of open flowers and counting the number of those that are visited by a pollinator.",NA
"Jens_Astrom_Malus_domestica_Norway_2013","Dist4","sweep net","Bombus_lucorum","species","bumblebees",1,1200,120,NA,"In each field abundance and richness of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least four dates during the main flowering period. Visitation rates were measured by observing a fixed number of open flowers and counting the number of those that are visited by a pollinator.",NA
"Jens_Astrom_Malus_domestica_Norway_2013","Dist4","sweep net","Bombus_lucorum","species","bumblebees",1,1200,120,NA,"In each field abundance and richness of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least four dates during the main flowering period. Visitation rates were measured by observing a fixed number of open flowers and counting the number of those that are visited by a pollinator.",NA
"Jens_Astrom_Malus_domestica_Norway_2013","Dist4","sweep net","Bombus_lucorum","species","bumblebees",1,1200,120,NA,"In each field abundance and richness of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least four dates during the main flowering period. Visitation rates were measured by observing a fixed number of open flowers and counting the number of those that are visited by a pollinator.",NA
"Jens_Astrom_Malus_domestica_Norway_2013","Dist4","sweep net","Bombus_lucorum","species","bumblebees",1,1200,120,NA,"In each field abundance and richness of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least four dates during the main flowering period. Visitation rates were measured by observing a fixed number of open flowers and counting the number of those that are visited by a pollinator.",NA
"Jens_Astrom_Malus_domestica_Norway_2013","Dist4","sweep net","Bombus_lucorum","species","bumblebees",1,1200,120,NA,"In each field abundance and richness of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least four dates during the main flowering period. Visitation rates were measured by observing a fixed number of open flowers and counting the number of those that are visited by a pollinator.",NA
"Jens_Astrom_Malus_domestica_Norway_2013","Dist4","sweep net","Bombus_lucorum","species","bumblebees",1,1200,120,NA,"In each field abundance and richness of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least four dates during the main flowering period. Visitation rates were measured by observing a fixed number of open flowers and counting the number of those that are visited by a pollinator.",NA
"Jens_Astrom_Malus_domestica_Norway_2013","Dist4","sweep net","Bombus_lucorum","species","bumblebees",1,1200,120,NA,"In each field abundance and richness of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least four dates during the main flowering period. Visitation rates were measured by observing a fixed number of open flowers and counting the number of those that are visited by a pollinator.",NA
"Jens_Astrom_Malus_domestica_Norway_2013","Dist4","sweep net","Bombus_lucorum","species","bumblebees",1,1200,120,NA,"In each field abundance and richness of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least four dates during the main flowering period. Visitation rates were measured by observing a fixed number of open flowers and counting the number of those that are visited by a pollinator.",NA
"Jens_Astrom_Malus_domestica_Norway_2013","Dist4","sweep net","Bombus_lucorum","species","bumblebees",1,1200,120,NA,"In each field abundance and richness of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least four dates during the main flowering period. Visitation rates were measured by observing a fixed number of open flowers and counting the number of those that are visited by a pollinator.",NA
"Jens_Astrom_Malus_domestica_Norway_2013","Dist4","sweep net","Bombus_lucorum","species","bumblebees",1,1200,120,NA,"In each field abundance and richness of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least four dates during the main flowering period. Visitation rates were measured by observing a fixed number of open flowers and counting the number of those that are visited by a pollinator.",NA
"Jens_Astrom_Malus_domestica_Norway_2013","Dist4","sweep net","Bombus_lucorum","species","bumblebees",1,1200,120,NA,"In each field abundance and richness of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least four dates during the main flowering period. Visitation rates were measured by observing a fixed number of open flowers and counting the number of those that are visited by a pollinator.",NA
"Jens_Astrom_Malus_domestica_Norway_2013","Dist5","sweep net","Bombus_lucorum","species","bumblebees",2,1200,120,NA,"In each field abundance and richness of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least four dates during the main flowering period. Visitation rates were measured by observing a fixed number of open flowers and counting the number of those that are visited by a pollinator.",NA
"Jens_Astrom_Malus_domestica_Norway_2013","Dist5","sweep net","Bombus_lucorum","species","bumblebees",1,1200,120,NA,"In each field abundance and richness of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least four dates during the main flowering period. Visitation rates were measured by observing a fixed number of open flowers and counting the number of those that are visited by a pollinator.",NA
"Jens_Astrom_Malus_domestica_Norway_2013","Dist5","sweep net","Bombus_lucorum","species","bumblebees",1,1200,120,NA,"In each field abundance and richness of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least four dates during the main flowering period. Visitation rates were measured by observing a fixed number of open flowers and counting the number of those that are visited by a pollinator.",NA
"Jens_Astrom_Malus_domestica_Norway_2013","Dist5","sweep net","Bombus_lucorum","species","bumblebees",1,1200,120,NA,"In each field abundance and richness of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least four dates during the main flowering period. Visitation rates were measured by observing a fixed number of open flowers and counting the number of those that are visited by a pollinator.",NA
"Jens_Astrom_Malus_domestica_Norway_2013","Dist5","sweep net","Bombus_lucorum","species","bumblebees",1,1200,120,NA,"In each field abundance and richness of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least four dates during the main flowering period. Visitation rates were measured by observing a fixed number of open flowers and counting the number of those that are visited by a pollinator.",NA
"Jens_Astrom_Malus_domestica_Norway_2013","Med1","sweep net","Bombus_lucorum","species","bumblebees",1,1200,120,NA,"In each field abundance and richness of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least four dates during the main flowering period. Visitation rates were measured by observing a fixed number of open flowers and counting the number of those that are visited by a pollinator.",NA
"Jens_Astrom_Malus_domestica_Norway_2013","Med1","sweep net","Bombus_lucorum","species","bumblebees",1,1200,120,NA,"In each field abundance and richness of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least four dates during the main flowering period. Visitation rates were measured by observing a fixed number of open flowers and counting the number of those that are visited by a pollinator.",NA
"Jens_Astrom_Malus_domestica_Norway_2013","Med1","sweep net","Bombus_lucorum","species","bumblebees",1,1200,120,NA,"In each field abundance and richness of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least four dates during the main flowering period. Visitation rates were measured by observing a fixed number of open flowers and counting the number of those that are visited by a pollinator.",NA
"Jens_Astrom_Malus_domestica_Norway_2013","Med4","sweep net","Bombus_lucorum","species","bumblebees",1,1200,120,NA,"In each field abundance and richness of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least four dates during the main flowering period. Visitation rates were measured by observing a fixed number of open flowers and counting the number of those that are visited by a pollinator.",NA
"Jens_Astrom_Malus_domestica_Norway_2013","Med5","sweep net","Bombus_lucorum","species","bumblebees",1,1200,120,NA,"In each field abundance and richness of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least four dates during the main flowering period. Visitation rates were measured by observing a fixed number of open flowers and counting the number of those that are visited by a pollinator.",NA
"Jens_Astrom_Malus_domestica_Norway_2013","Dist2","sweep net","Bombus_terrestris","species","bumblebees",1,1200,120,NA,"In each field abundance and richness of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least four dates during the main flowering period. Visitation rates were measured by observing a fixed number of open flowers and counting the number of those that are visited by a pollinator.",NA
"Jens_Astrom_Malus_domestica_Norway_2013","Close1","sweep net","Bombus_pratorum","species","bumblebees",1,1200,120,NA,"In each field abundance and richness of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least four dates during the main flowering period. Visitation rates were measured by observing a fixed number of open flowers and counting the number of those that are visited by a pollinator.",NA
"Jens_Astrom_Malus_domestica_Norway_2013","Close1","sweep net","Bombus_pratorum","species","bumblebees",1,1200,120,NA,"In each field abundance and richness of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least four dates during the main flowering period. Visitation rates were measured by observing a fixed number of open flowers and counting the number of those that are visited by a pollinator.",NA
"Jens_Astrom_Malus_domestica_Norway_2013","Close3","sweep net","Bombus_pratorum","species","bumblebees",2,1200,120,NA,"In each field abundance and richness of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least four dates during the main flowering period. Visitation rates were measured by observing a fixed number of open flowers and counting the number of those that are visited by a pollinator.",NA
"Jens_Astrom_Malus_domestica_Norway_2013","Close3","sweep net","Bombus_pratorum","species","bumblebees",1,1200,120,NA,"In each field abundance and richness of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least four dates during the main flowering period. Visitation rates were measured by observing a fixed number of open flowers and counting the number of those that are visited by a pollinator.",NA
"Jens_Astrom_Malus_domestica_Norway_2013","Close3","sweep net","Bombus_pratorum","species","bumblebees",1,1200,120,NA,"In each field abundance and richness of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least four dates during the main flowering period. Visitation rates were measured by observing a fixed number of open flowers and counting the number of those that are visited by a pollinator.",NA
"Jens_Astrom_Malus_domestica_Norway_2013","Close4","sweep net","Bombus_pratorum","species","bumblebees",1,1200,120,NA,"In each field abundance and richness of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least four dates during the main flowering period. Visitation rates were measured by observing a fixed number of open flowers and counting the number of those that are visited by a pollinator.",NA
"Jens_Astrom_Malus_domestica_Norway_2013","Close4","sweep net","Bombus_pratorum","species","bumblebees",2,1200,120,NA,"In each field abundance and richness of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least four dates during the main flowering period. Visitation rates were measured by observing a fixed number of open flowers and counting the number of those that are visited by a pollinator.",NA
"Jens_Astrom_Malus_domestica_Norway_2013","Close4","sweep net","Bombus_pratorum","species","bumblebees",1,1200,120,NA,"In each field abundance and richness of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least four dates during the main flowering period. Visitation rates were measured by observing a fixed number of open flowers and counting the number of those that are visited by a pollinator.",NA
"Jens_Astrom_Malus_domestica_Norway_2013","Dist2","sweep net","Bombus_pratorum","species","bumblebees",1,1200,120,NA,"In each field abundance and richness of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least four dates during the main flowering period. Visitation rates were measured by observing a fixed number of open flowers and counting the number of those that are visited by a pollinator.",NA
"Jens_Astrom_Malus_domestica_Norway_2013","Dist2","sweep net","Bombus_pratorum","species","bumblebees",2,1200,120,NA,"In each field abundance and richness of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least four dates during the main flowering period. Visitation rates were measured by observing a fixed number of open flowers and counting the number of those that are visited by a pollinator.",NA
"Jens_Astrom_Malus_domestica_Norway_2013","Dist2","sweep net","Bombus_pratorum","species","bumblebees",1,1200,120,NA,"In each field abundance and richness of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least four dates during the main flowering period. Visitation rates were measured by observing a fixed number of open flowers and counting the number of those that are visited by a pollinator.",NA
"Jens_Astrom_Malus_domestica_Norway_2013","Dist2","sweep net","Bombus_pratorum","species","bumblebees",1,1200,120,NA,"In each field abundance and richness of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least four dates during the main flowering period. Visitation rates were measured by observing a fixed number of open flowers and counting the number of those that are visited by a pollinator.",NA
"Jens_Astrom_Malus_domestica_Norway_2013","Dist2","sweep net","Bombus_pratorum","species","bumblebees",2,1200,120,NA,"In each field abundance and richness of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least four dates during the main flowering period. Visitation rates were measured by observing a fixed number of open flowers and counting the number of those that are visited by a pollinator.",NA
"Jens_Astrom_Malus_domestica_Norway_2013","Dist2","sweep net","Bombus_pratorum","species","bumblebees",1,1200,120,NA,"In each field abundance and richness of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least four dates during the main flowering period. Visitation rates were measured by observing a fixed number of open flowers and counting the number of those that are visited by a pollinator.",NA
"Jens_Astrom_Malus_domestica_Norway_2013","Dist2","sweep net","Bombus_pratorum","species","bumblebees",1,1200,120,NA,"In each field abundance and richness of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least four dates during the main flowering period. Visitation rates were measured by observing a fixed number of open flowers and counting the number of those that are visited by a pollinator.",NA
"Jens_Astrom_Malus_domestica_Norway_2013","Dist4","sweep net","Bombus_pratorum","species","bumblebees",1,1200,120,NA,"In each field abundance and richness of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least four dates during the main flowering period. Visitation rates were measured by observing a fixed number of open flowers and counting the number of those that are visited by a pollinator.",NA
"Jens_Astrom_Malus_domestica_Norway_2013","Dist4","sweep net","Bombus_pratorum","species","bumblebees",1,1200,120,NA,"In each field abundance and richness of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least four dates during the main flowering period. Visitation rates were measured by observing a fixed number of open flowers and counting the number of those that are visited by a pollinator.",NA
"Jens_Astrom_Malus_domestica_Norway_2013","Dist4","sweep net","Bombus_pratorum","species","bumblebees",1,1200,120,NA,"In each field abundance and richness of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least four dates during the main flowering period. Visitation rates were measured by observing a fixed number of open flowers and counting the number of those that are visited by a pollinator.",NA
"Jens_Astrom_Malus_domestica_Norway_2013","Dist4","sweep net","Bombus_pratorum","species","bumblebees",1,1200,120,NA,"In each field abundance and richness of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least four dates during the main flowering period. Visitation rates were measured by observing a fixed number of open flowers and counting the number of those that are visited by a pollinator.",NA
"Jens_Astrom_Malus_domestica_Norway_2013","Dist4","sweep net","Bombus_pratorum","species","bumblebees",1,1200,120,NA,"In each field abundance and richness of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least four dates during the main flowering period. Visitation rates were measured by observing a fixed number of open flowers and counting the number of those that are visited by a pollinator.",NA
"Jens_Astrom_Malus_domestica_Norway_2013","Dist4","sweep net","Bombus_pratorum","species","bumblebees",1,1200,120,NA,"In each field abundance and richness of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least four dates during the main flowering period. Visitation rates were measured by observing a fixed number of open flowers and counting the number of those that are visited by a pollinator.",NA
"Jens_Astrom_Malus_domestica_Norway_2013","Dist4","sweep net","Bombus_pratorum","species","bumblebees",1,1200,120,NA,"In each field abundance and richness of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least four dates during the main flowering period. Visitation rates were measured by observing a fixed number of open flowers and counting the number of those that are visited by a pollinator.",NA
"Jens_Astrom_Malus_domestica_Norway_2013","Dist4","sweep net","Bombus_pratorum","species","bumblebees",1,1200,120,NA,"In each field abundance and richness of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least four dates during the main flowering period. Visitation rates were measured by observing a fixed number of open flowers and counting the number of those that are visited by a pollinator.",NA
"Jens_Astrom_Malus_domestica_Norway_2013","Dist4","sweep net","Bombus_pratorum","species","bumblebees",1,1200,120,NA,"In each field abundance and richness of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least four dates during the main flowering period. Visitation rates were measured by observing a fixed number of open flowers and counting the number of those that are visited by a pollinator.",NA
"Jens_Astrom_Malus_domestica_Norway_2013","Dist4","sweep net","Bombus_pratorum","species","bumblebees",1,1200,120,NA,"In each field abundance and richness of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least four dates during the main flowering period. Visitation rates were measured by observing a fixed number of open flowers and counting the number of those that are visited by a pollinator.",NA
"Jens_Astrom_Malus_domestica_Norway_2013","Dist4","sweep net","Bombus_pratorum","species","bumblebees",1,1200,120,NA,"In each field abundance and richness of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least four dates during the main flowering period. Visitation rates were measured by observing a fixed number of open flowers and counting the number of those that are visited by a pollinator.",NA
"Jens_Astrom_Malus_domestica_Norway_2013","Dist4","sweep net","Bombus_pratorum","species","bumblebees",1,1200,120,NA,"In each field abundance and richness of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least four dates during the main flowering period. Visitation rates were measured by observing a fixed number of open flowers and counting the number of those that are visited by a pollinator.",NA
"Jens_Astrom_Malus_domestica_Norway_2013","Med1","sweep net","Bombus_pratorum","species","bumblebees",1,1200,120,NA,"In each field abundance and richness of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least four dates during the main flowering period. Visitation rates were measured by observing a fixed number of open flowers and counting the number of those that are visited by a pollinator.",NA
"Jens_Astrom_Malus_domestica_Norway_2013","Med5","sweep net","Bombus_pratorum","species","bumblebees",1,1200,120,NA,"In each field abundance and richness of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least four dates during the main flowering period. Visitation rates were measured by observing a fixed number of open flowers and counting the number of those that are visited by a pollinator.",NA
"Jens_Astrom_Malus_domestica_Norway_2013","Close1","sweep net","Bombus_pascuorum","species","bumblebees",1,1200,120,NA,"In each field abundance and richness of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least four dates during the main flowering period. Visitation rates were measured by observing a fixed number of open flowers and counting the number of those that are visited by a pollinator.",NA
"Jens_Astrom_Malus_domestica_Norway_2013","Close1","sweep net","Bombus_pascuorum","species","bumblebees",1,1200,120,NA,"In each field abundance and richness of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least four dates during the main flowering period. Visitation rates were measured by observing a fixed number of open flowers and counting the number of those that are visited by a pollinator.",NA
"Jens_Astrom_Malus_domestica_Norway_2013","Close1","sweep net","Bombus_pascuorum","species","bumblebees",1,1200,120,NA,"In each field abundance and richness of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least four dates during the main flowering period. Visitation rates were measured by observing a fixed number of open flowers and counting the number of those that are visited by a pollinator.",NA
"Jens_Astrom_Malus_domestica_Norway_2013","Close3","sweep net","Bombus_pascuorum","species","bumblebees",1,1200,120,NA,"In each field abundance and richness of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least four dates during the main flowering period. Visitation rates were measured by observing a fixed number of open flowers and counting the number of those that are visited by a pollinator.",NA
"Jens_Astrom_Malus_domestica_Norway_2013","Close3","sweep net","Bombus_pascuorum","species","bumblebees",1,1200,120,NA,"In each field abundance and richness of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least four dates during the main flowering period. Visitation rates were measured by observing a fixed number of open flowers and counting the number of those that are visited by a pollinator.",NA
"Jens_Astrom_Malus_domestica_Norway_2013","Close3","sweep net","Bombus_pascuorum","species","bumblebees",1,1200,120,NA,"In each field abundance and richness of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least four dates during the main flowering period. Visitation rates were measured by observing a fixed number of open flowers and counting the number of those that are visited by a pollinator.",NA
"Jens_Astrom_Malus_domestica_Norway_2013","Close3","sweep net","Bombus_pascuorum","species","bumblebees",1,1200,120,NA,"In each field abundance and richness of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least four dates during the main flowering period. Visitation rates were measured by observing a fixed number of open flowers and counting the number of those that are visited by a pollinator.",NA
"Jens_Astrom_Malus_domestica_Norway_2013","Close3","sweep net","Bombus_pascuorum","species","bumblebees",1,1200,120,NA,"In each field abundance and richness of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least four dates during the main flowering period. Visitation rates were measured by observing a fixed number of open flowers and counting the number of those that are visited by a pollinator.",NA
"Jens_Astrom_Malus_domestica_Norway_2013","Close3","sweep net","Bombus_pascuorum","species","bumblebees",1,1200,120,NA,"In each field abundance and richness of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least four dates during the main flowering period. Visitation rates were measured by observing a fixed number of open flowers and counting the number of those that are visited by a pollinator.",NA
"Jens_Astrom_Malus_domestica_Norway_2013","Close3","sweep net","Bombus_pascuorum","species","bumblebees",1,1200,120,NA,"In each field abundance and richness of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least four dates during the main flowering period. Visitation rates were measured by observing a fixed number of open flowers and counting the number of those that are visited by a pollinator.",NA
"Jens_Astrom_Malus_domestica_Norway_2013","Close3","sweep net","Bombus_pascuorum","species","bumblebees",2,1200,120,NA,"In each field abundance and richness of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least four dates during the main flowering period. Visitation rates were measured by observing a fixed number of open flowers and counting the number of those that are visited by a pollinator.",NA
"Jens_Astrom_Malus_domestica_Norway_2013","Close3","sweep net","Bombus_pascuorum","species","bumblebees",1,1200,120,NA,"In each field abundance and richness of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least four dates during the main flowering period. Visitation rates were measured by observing a fixed number of open flowers and counting the number of those that are visited by a pollinator.",NA
"Jens_Astrom_Malus_domestica_Norway_2013","Close3","sweep net","Bombus_pascuorum","species","bumblebees",1,1200,120,NA,"In each field abundance and richness of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least four dates during the main flowering period. Visitation rates were measured by observing a fixed number of open flowers and counting the number of those that are visited by a pollinator.",NA
"Jens_Astrom_Malus_domestica_Norway_2013","Dist2","sweep net","Bombus_pascuorum","species","bumblebees",1,1200,120,NA,"In each field abundance and richness of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least four dates during the main flowering period. Visitation rates were measured by observing a fixed number of open flowers and counting the number of those that are visited by a pollinator.",NA
"Jens_Astrom_Malus_domestica_Norway_2013","Dist2","sweep net","Bombus_pascuorum","species","bumblebees",1,1200,120,NA,"In each field abundance and richness of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least four dates during the main flowering period. Visitation rates were measured by observing a fixed number of open flowers and counting the number of those that are visited by a pollinator.",NA
"Jens_Astrom_Malus_domestica_Norway_2013","Dist2","sweep net","Bombus_pascuorum","species","bumblebees",1,1200,120,NA,"In each field abundance and richness of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least four dates during the main flowering period. Visitation rates were measured by observing a fixed number of open flowers and counting the number of those that are visited by a pollinator.",NA
"Jens_Astrom_Malus_domestica_Norway_2013","Dist2","sweep net","Bombus_pascuorum","species","bumblebees",1,1200,120,NA,"In each field abundance and richness of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least four dates during the main flowering period. Visitation rates were measured by observing a fixed number of open flowers and counting the number of those that are visited by a pollinator.",NA
"Jens_Astrom_Malus_domestica_Norway_2013","Dist4","sweep net","Bombus_pascuorum","species","bumblebees",1,1200,120,NA,"In each field abundance and richness of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least four dates during the main flowering period. Visitation rates were measured by observing a fixed number of open flowers and counting the number of those that are visited by a pollinator.",NA
"Jens_Astrom_Malus_domestica_Norway_2013","Dist4","sweep net","Bombus_pascuorum","species","bumblebees",1,1200,120,NA,"In each field abundance and richness of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least four dates during the main flowering period. Visitation rates were measured by observing a fixed number of open flowers and counting the number of those that are visited by a pollinator.",NA
"Jens_Astrom_Malus_domestica_Norway_2013","Dist4","sweep net","Bombus_pascuorum","species","bumblebees",1,1200,120,NA,"In each field abundance and richness of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least four dates during the main flowering period. Visitation rates were measured by observing a fixed number of open flowers and counting the number of those that are visited by a pollinator.",NA
"Jens_Astrom_Malus_domestica_Norway_2013","Dist4","sweep net","Bombus_pascuorum","species","bumblebees",1,1200,120,NA,"In each field abundance and richness of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least four dates during the main flowering period. Visitation rates were measured by observing a fixed number of open flowers and counting the number of those that are visited by a pollinator.",NA
"Jens_Astrom_Malus_domestica_Norway_2013","Dist4","sweep net","Bombus_pascuorum","species","bumblebees",1,1200,120,NA,"In each field abundance and richness of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least four dates during the main flowering period. Visitation rates were measured by observing a fixed number of open flowers and counting the number of those that are visited by a pollinator.",NA
"Jens_Astrom_Malus_domestica_Norway_2013","Dist4","sweep net","Bombus_pascuorum","species","bumblebees",1,1200,120,NA,"In each field abundance and richness of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least four dates during the main flowering period. Visitation rates were measured by observing a fixed number of open flowers and counting the number of those that are visited by a pollinator.",NA
"Jens_Astrom_Malus_domestica_Norway_2013","Dist4","sweep net","Bombus_pascuorum","species","bumblebees",1,1200,120,NA,"In each field abundance and richness of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least four dates during the main flowering period. Visitation rates were measured by observing a fixed number of open flowers and counting the number of those that are visited by a pollinator.",NA
"Jens_Astrom_Malus_domestica_Norway_2013","Dist4","sweep net","Bombus_pascuorum","species","bumblebees",1,1200,120,NA,"In each field abundance and richness of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least four dates during the main flowering period. Visitation rates were measured by observing a fixed number of open flowers and counting the number of those that are visited by a pollinator.",NA
"Jens_Astrom_Malus_domestica_Norway_2013","Dist5","sweep net","Bombus_pascuorum","species","bumblebees",1,1200,120,NA,"In each field abundance and richness of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least four dates during the main flowering period. Visitation rates were measured by observing a fixed number of open flowers and counting the number of those that are visited by a pollinator.",NA
"Jens_Astrom_Malus_domestica_Norway_2013","Med1","sweep net","Bombus_pascuorum","species","bumblebees",1,1200,120,NA,"In each field abundance and richness of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least four dates during the main flowering period. Visitation rates were measured by observing a fixed number of open flowers and counting the number of those that are visited by a pollinator.",NA
"Jens_Astrom_Malus_domestica_Norway_2013","Med1","sweep net","Bombus_pascuorum","species","bumblebees",1,1200,120,NA,"In each field abundance and richness of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least four dates during the main flowering period. Visitation rates were measured by observing a fixed number of open flowers and counting the number of those that are visited by a pollinator.",NA
"Jens_Astrom_Malus_domestica_Norway_2013","Dist2","sweep net","Bombus_bohemicus","species","bumblebees",1,1200,120,NA,"In each field abundance and richness of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least four dates during the main flowering period. Visitation rates were measured by observing a fixed number of open flowers and counting the number of those that are visited by a pollinator.",NA
"Jens_Astrom_Malus_domestica_Norway_2013","Med5","sweep net","Bombus_bohemicus","species","bumblebees",1,1200,120,NA,"In each field abundance and richness of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least four dates during the main flowering period. Visitation rates were measured by observing a fixed number of open flowers and counting the number of those that are visited by a pollinator.",NA
"Jens_Astrom_Malus_domestica_Norway_2013","Close4","sweep net","Bombus_hypnorum","species","bumblebees",1,1200,120,NA,"In each field abundance and richness of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least four dates during the main flowering period. Visitation rates were measured by observing a fixed number of open flowers and counting the number of those that are visited by a pollinator.",NA
"Jens_Astrom_Malus_domestica_Norway_2013","Dist4","sweep net","Bombus_hypnorum","species","bumblebees",1,1200,120,NA,"In each field abundance and richness of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least four dates during the main flowering period. Visitation rates were measured by observing a fixed number of open flowers and counting the number of those that are visited by a pollinator.",NA
"Jens_Astrom_Malus_domestica_Norway_2013","Med1","sweep net","Bombus_hypnorum","species","bumblebees",1,1200,120,NA,"In each field abundance and richness of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least four dates during the main flowering period. Visitation rates were measured by observing a fixed number of open flowers and counting the number of those that are visited by a pollinator.",NA
"Jens_Astrom_Malus_domestica_Norway_2013","Close1","sweep net","Bombus_lapidarius","species","bumblebees",1,1200,120,NA,"In each field abundance and richness of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least four dates during the main flowering period. Visitation rates were measured by observing a fixed number of open flowers and counting the number of those that are visited by a pollinator.",NA
"Jens_Astrom_Malus_domestica_Norway_2013","Close2","sweep net","Bombus_lapidarius","species","bumblebees",1,1200,120,NA,"In each field abundance and richness of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least four dates during the main flowering period. Visitation rates were measured by observing a fixed number of open flowers and counting the number of those that are visited by a pollinator.",NA
"Jens_Astrom_Malus_domestica_Norway_2013","Dist2","sweep net","Bombus_lapidarius","species","bumblebees",1,1200,120,NA,"In each field abundance and richness of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least four dates during the main flowering period. Visitation rates were measured by observing a fixed number of open flowers and counting the number of those that are visited by a pollinator.",NA
"Jens_Astrom_Malus_domestica_Norway_2013","Dist2","sweep net","Bombus_lapidarius","species","bumblebees",1,1200,120,NA,"In each field abundance and richness of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least four dates during the main flowering period. Visitation rates were measured by observing a fixed number of open flowers and counting the number of those that are visited by a pollinator.",NA
"Jens_Astrom_Malus_domestica_Norway_2013","Dist4","sweep net","Bombus_lapidarius","species","bumblebees",1,1200,120,NA,"In each field abundance and richness of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least four dates during the main flowering period. Visitation rates were measured by observing a fixed number of open flowers and counting the number of those that are visited by a pollinator.",NA
"Jens_Astrom_Malus_domestica_Norway_2013","Dist4","sweep net","Bombus_lapidarius","species","bumblebees",1,1200,120,NA,"In each field abundance and richness of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least four dates during the main flowering period. Visitation rates were measured by observing a fixed number of open flowers and counting the number of those that are visited by a pollinator.",NA
"Jens_Astrom_Malus_domestica_Norway_2013","Dist4","sweep net","Bombus_lapidarius","species","bumblebees",1,1200,120,NA,"In each field abundance and richness of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least four dates during the main flowering period. Visitation rates were measured by observing a fixed number of open flowers and counting the number of those that are visited by a pollinator.",NA
"Jens_Astrom_Malus_domestica_Norway_2013","Dist5","sweep net","Bombus_lapidarius","species","bumblebees",1,1200,120,NA,"In each field abundance and richness of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least four dates during the main flowering period. Visitation rates were measured by observing a fixed number of open flowers and counting the number of those that are visited by a pollinator.",NA
"Jens_Astrom_Malus_domestica_Norway_2013","Dist5","sweep net","Bombus_lapidarius","species","bumblebees",1,1200,120,NA,"In each field abundance and richness of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least four dates during the main flowering period. Visitation rates were measured by observing a fixed number of open flowers and counting the number of those that are visited by a pollinator.",NA
"Jens_Astrom_Malus_domestica_Norway_2013","Med3","sweep net","Bombus_lapidarius","species","bumblebees",1,1200,120,NA,"In each field abundance and richness of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least four dates during the main flowering period. Visitation rates were measured by observing a fixed number of open flowers and counting the number of those that are visited by a pollinator.",NA
"Jens_Astrom_Malus_domestica_Norway_2013","Med3","sweep net","Bombus_lapidarius","species","bumblebees",1,1200,120,NA,"In each field abundance and richness of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least four dates during the main flowering period. Visitation rates were measured by observing a fixed number of open flowers and counting the number of those that are visited by a pollinator.",NA
"Jens_Astrom_Malus_domestica_Norway_2013","Med4","sweep net","Bombus_lapidarius","species","bumblebees",1,1200,120,NA,"In each field abundance and richness of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least four dates during the main flowering period. Visitation rates were measured by observing a fixed number of open flowers and counting the number of those that are visited by a pollinator.",NA
"Jens_Astrom_Malus_domestica_Norway_2013","Close1","sweep net","Bombus_ruderarius","species","bumblebees",1,1200,120,NA,"In each field abundance and richness of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least four dates during the main flowering period. Visitation rates were measured by observing a fixed number of open flowers and counting the number of those that are visited by a pollinator.",NA
"Jens_Astrom_Malus_domestica_Norway_2013","Close1","sweep net","Bombus_ruderarius","species","bumblebees",1,1200,120,NA,"In each field abundance and richness of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least four dates during the main flowering period. Visitation rates were measured by observing a fixed number of open flowers and counting the number of those that are visited by a pollinator.",NA
"Jens_Astrom_Malus_domestica_Norway_2013","Close3","sweep net","Bombus_ruderarius","species","bumblebees",1,1200,120,NA,"In each field abundance and richness of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least four dates during the main flowering period. Visitation rates were measured by observing a fixed number of open flowers and counting the number of those that are visited by a pollinator.",NA
"Jens_Astrom_Malus_domestica_Norway_2013","Dist3","sweep net","Bombus_ruderarius","species","bumblebees",1,1200,120,NA,"In each field abundance and richness of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least four dates during the main flowering period. Visitation rates were measured by observing a fixed number of open flowers and counting the number of those that are visited by a pollinator.",NA
"Jens_Astrom_Malus_domestica_Norway_2013","Med1","sweep net","Bombus_ruderarius","species","bumblebees",1,1200,120,NA,"In each field abundance and richness of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least four dates during the main flowering period. Visitation rates were measured by observing a fixed number of open flowers and counting the number of those that are visited by a pollinator.",NA
"Jens_Astrom_Malus_domestica_Norway_2013","Med3","sweep net","Bombus_ruderarius","species","bumblebees",1,1200,120,NA,"In each field abundance and richness of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least four dates during the main flowering period. Visitation rates were measured by observing a fixed number of open flowers and counting the number of those that are visited by a pollinator.",NA
"Jens_Astrom_Malus_domestica_Norway_2013","Close1","sweep net","Bombus_spp.","genus","bumblebees",1,1200,120,NA,"In each field abundance and richness of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least four dates during the main flowering period. Visitation rates were measured by observing a fixed number of open flowers and counting the number of those that are visited by a pollinator.",NA
"Jens_Astrom_Malus_domestica_Norway_2013","Close1","sweep net","Bombus_spp.","genus","bumblebees",1,1200,120,NA,"In each field abundance and richness of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least four dates during the main flowering period. Visitation rates were measured by observing a fixed number of open flowers and counting the number of those that are visited by a pollinator.",NA
"Jens_Astrom_Malus_domestica_Norway_2013","Close2","sweep net","Bombus_spp.","genus","bumblebees",1,1200,120,NA,"In each field abundance and richness of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least four dates during the main flowering period. Visitation rates were measured by observing a fixed number of open flowers and counting the number of those that are visited by a pollinator.",NA
"Jens_Astrom_Malus_domestica_Norway_2013","Close2","sweep net","Bombus_spp.","genus","bumblebees",1,1200,120,NA,"In each field abundance and richness of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least four dates during the main flowering period. Visitation rates were measured by observing a fixed number of open flowers and counting the number of those that are visited by a pollinator.",NA
"Jens_Astrom_Malus_domestica_Norway_2013","Close3","sweep net","Bombus_spp.","genus","bumblebees",1,1200,120,NA,"In each field abundance and richness of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least four dates during the main flowering period. Visitation rates were measured by observing a fixed number of open flowers and counting the number of those that are visited by a pollinator.",NA
"Jens_Astrom_Malus_domestica_Norway_2013","Dist4","sweep net","Bombus_spp.","genus","bumblebees",1,1200,120,NA,"In each field abundance and richness of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least four dates during the main flowering period. Visitation rates were measured by observing a fixed number of open flowers and counting the number of those that are visited by a pollinator.",NA
"Jens_Astrom_Malus_domestica_Norway_2013","Dist5","sweep net","Bombus_spp.","genus","bumblebees",1,1200,120,NA,"In each field abundance and richness of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least four dates during the main flowering period. Visitation rates were measured by observing a fixed number of open flowers and counting the number of those that are visited by a pollinator.",NA
"Jens_Astrom_Malus_domestica_Norway_2013","Dist5","sweep net","Bombus_spp.","genus","bumblebees",1,1200,120,NA,"In each field abundance and richness of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least four dates during the main flowering period. Visitation rates were measured by observing a fixed number of open flowers and counting the number of those that are visited by a pollinator.",NA
"Jens_Astrom_Malus_domestica_Norway_2013","Dist5","sweep net","Bombus_spp.","genus","bumblebees",1,1200,120,NA,"In each field abundance and richness of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least four dates during the main flowering period. Visitation rates were measured by observing a fixed number of open flowers and counting the number of those that are visited by a pollinator.",NA
"Jens_Astrom_Malus_domestica_Norway_2013","Med5","sweep net","Bombus_spp.","genus","bumblebees",1,1200,120,NA,"In each field abundance and richness of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least four dates during the main flowering period. Visitation rates were measured by observing a fixed number of open flowers and counting the number of those that are visited by a pollinator.",NA
"Jens_Astrom_Malus_domestica_Norway_2013","Close3","sweep net","Solitary_bee_spp.","subfamily","other_wild_bees",1,1200,120,NA,"In each field abundance and richness of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least four dates during the main flowering period. Visitation rates were measured by observing a fixed number of open flowers and counting the number of those that are visited by a pollinator.","Apoidea?"
"Jens_Astrom_Malus_domestica_Norway_2013","Close3","sweep net","Solitary_bee_spp.","subfamily","other_wild_bees",1,1200,120,NA,"In each field abundance and richness of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least four dates during the main flowering period. Visitation rates were measured by observing a fixed number of open flowers and counting the number of those that are visited by a pollinator.","Apoidea?"
"Jens_Astrom_Malus_domestica_Norway_2013","Close3","sweep net","Solitary_bee_spp.","subfamily","other_wild_bees",1,1200,120,NA,"In each field abundance and richness of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least four dates during the main flowering period. Visitation rates were measured by observing a fixed number of open flowers and counting the number of those that are visited by a pollinator.","Apoidea?"
"Jens_Astrom_Malus_domestica_Norway_2013","Dist4","sweep net","Solitary_bee_spp.","subfamily","other_wild_bees",1,1200,120,NA,"In each field abundance and richness of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least four dates during the main flowering period. Visitation rates were measured by observing a fixed number of open flowers and counting the number of those that are visited by a pollinator.","Apoidea?"
"Jens_Astrom_Malus_domestica_Norway_2013","Dist4","sweep net","Solitary_bee_spp.","subfamily","other_wild_bees",1,1200,120,NA,"In each field abundance and richness of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least four dates during the main flowering period. Visitation rates were measured by observing a fixed number of open flowers and counting the number of those that are visited by a pollinator.","Apoidea?"
"Jens_Astrom_Malus_domestica_Norway_2013","Dist4","sweep net","Solitary_bee_spp.","subfamily","other_wild_bees",2,1200,120,NA,"In each field abundance and richness of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least four dates during the main flowering period. Visitation rates were measured by observing a fixed number of open flowers and counting the number of those that are visited by a pollinator.","Apoidea?"
"Jens_Astrom_Malus_domestica_Norway_2013","Dist4","sweep net","Solitary_bee_spp.","subfamily","other_wild_bees",1,1200,120,NA,"In each field abundance and richness of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least four dates during the main flowering period. Visitation rates were measured by observing a fixed number of open flowers and counting the number of those that are visited by a pollinator.","Apoidea?"
"Jens_Astrom_Malus_domestica_Norway_2013","Dist4","sweep net","Solitary_bee_spp.","subfamily","other_wild_bees",1,1200,120,NA,"In each field abundance and richness of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least four dates during the main flowering period. Visitation rates were measured by observing a fixed number of open flowers and counting the number of those that are visited by a pollinator.","Apoidea?"
"Jens_Astrom_Malus_domestica_Norway_2013","Med1","sweep net","Solitary_bee_spp.","subfamily","other_wild_bees",1,1200,120,NA,"In each field abundance and richness of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least four dates during the main flowering period. Visitation rates were measured by observing a fixed number of open flowers and counting the number of those that are visited by a pollinator.","Apoidea?"
"Jens_Astrom_Malus_domestica_Norway_2013","Med1","sweep net","Solitary_bee_spp.","subfamily","other_wild_bees",1,1200,120,NA,"In each field abundance and richness of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least four dates during the main flowering period. Visitation rates were measured by observing a fixed number of open flowers and counting the number of those that are visited by a pollinator.","Apoidea?"
"Jens_Astrom_Malus_domestica_Norway_2013","Med3","sweep net","Empididae_spp.","family","other_flies",1,1200,120,NA,"In each field abundance and richness of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least four dates during the main flowering period. Visitation rates were measured by observing a fixed number of open flowers and counting the number of those that are visited by a pollinator.",NA
"Jens_Astrom_Malus_domestica_Norway_2013","Med3","sweep net","Empididae_spp.","family","other_flies",1,1200,120,NA,"In each field abundance and richness of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least four dates during the main flowering period. Visitation rates were measured by observing a fixed number of open flowers and counting the number of those that are visited by a pollinator.",NA
"Jens_Astrom_Malus_domestica_Norway_2013","Med3","sweep net","Empididae_spp.","family","other_flies",1,1200,120,NA,"In each field abundance and richness of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least four dates during the main flowering period. Visitation rates were measured by observing a fixed number of open flowers and counting the number of those that are visited by a pollinator.",NA
"Jens_Astrom_Malus_domestica_Norway_2013","Close1","sweep net","Vespidae_spp.","family","non_bee_hymenoptera",1,1200,120,NA,"In each field abundance and richness of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least four dates during the main flowering period. Visitation rates were measured by observing a fixed number of open flowers and counting the number of those that are visited by a pollinator.",NA
"Jens_Astrom_Malus_domestica_Norway_2013","Close1","sweep net","Vespidae_spp.","family","non_bee_hymenoptera",1,1200,120,NA,"In each field abundance and richness of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least four dates during the main flowering period. Visitation rates were measured by observing a fixed number of open flowers and counting the number of those that are visited by a pollinator.",NA
"Jens_Astrom_Malus_domestica_Norway_2013","Close1","sweep net","Vespidae_spp.","family","non_bee_hymenoptera",1,1200,120,NA,"In each field abundance and richness of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least four dates during the main flowering period. Visitation rates were measured by observing a fixed number of open flowers and counting the number of those that are visited by a pollinator.",NA
"Jens_Astrom_Malus_domestica_Norway_2013","Close2","sweep net","Vespidae_spp.","family","non_bee_hymenoptera",1,1200,120,NA,"In each field abundance and richness of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least four dates during the main flowering period. Visitation rates were measured by observing a fixed number of open flowers and counting the number of those that are visited by a pollinator.",NA
"Jens_Astrom_Malus_domestica_Norway_2013","Dist2","sweep net","Vespidae_spp.","family","non_bee_hymenoptera",1,1200,120,NA,"In each field abundance and richness of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least four dates during the main flowering period. Visitation rates were measured by observing a fixed number of open flowers and counting the number of those that are visited by a pollinator.",NA
"Jens_Astrom_Malus_domestica_Norway_2013","Dist4","sweep net","Vespidae_spp.","family","non_bee_hymenoptera",1,1200,120,NA,"In each field abundance and richness of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least four dates during the main flowering period. Visitation rates were measured by observing a fixed number of open flowers and counting the number of those that are visited by a pollinator.",NA
"Jens_Astrom_Malus_domestica_Norway_2013","Med1","sweep net","Vespidae_spp.","family","non_bee_hymenoptera",1,1200,120,NA,"In each field abundance and richness of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least four dates during the main flowering period. Visitation rates were measured by observing a fixed number of open flowers and counting the number of those that are visited by a pollinator.",NA
"Jens_Astrom_Malus_domestica_Norway_2013","Close2","sweep net","Platycheirus_albimanus","species","syrphids",1,1200,120,NA,"In each field abundance and richness of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least four dates during the main flowering period. Visitation rates were measured by observing a fixed number of open flowers and counting the number of those that are visited by a pollinator.",NA
"Jens_Astrom_Malus_domestica_Norway_2013","Close3","sweep net","Platycheirus_albimanus","species","syrphids",1,1200,120,NA,"In each field abundance and richness of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least four dates during the main flowering period. Visitation rates were measured by observing a fixed number of open flowers and counting the number of those that are visited by a pollinator.",NA
"Jens_Astrom_Malus_domestica_Norway_2013","Close3","sweep net","Platycheirus_albimanus","species","syrphids",1,1200,120,NA,"In each field abundance and richness of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least four dates during the main flowering period. Visitation rates were measured by observing a fixed number of open flowers and counting the number of those that are visited by a pollinator.",NA
"Jens_Astrom_Malus_domestica_Norway_2013","Close4","sweep net","Platycheirus_albimanus","species","syrphids",1,1200,120,NA,"In each field abundance and richness of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least four dates during the main flowering period. Visitation rates were measured by observing a fixed number of open flowers and counting the number of those that are visited by a pollinator.",NA
"Jens_Astrom_Malus_domestica_Norway_2013","Close4","sweep net","Platycheirus_albimanus","species","syrphids",1,1200,120,NA,"In each field abundance and richness of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least four dates during the main flowering period. Visitation rates were measured by observing a fixed number of open flowers and counting the number of those that are visited by a pollinator.",NA
"Jens_Astrom_Malus_domestica_Norway_2013","Close4","sweep net","Platycheirus_albimanus","species","syrphids",1,1200,120,NA,"In each field abundance and richness of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least four dates during the main flowering period. Visitation rates were measured by observing a fixed number of open flowers and counting the number of those that are visited by a pollinator.",NA
"Jens_Astrom_Malus_domestica_Norway_2013","Dist2","sweep net","Platycheirus_albimanus","species","syrphids",1,1200,120,NA,"In each field abundance and richness of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least four dates during the main flowering period. Visitation rates were measured by observing a fixed number of open flowers and counting the number of those that are visited by a pollinator.",NA
"Jens_Astrom_Malus_domestica_Norway_2013","Med5","sweep net","Platycheirus_albimanus","species","syrphids",1,1200,120,NA,"In each field abundance and richness of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least four dates during the main flowering period. Visitation rates were measured by observing a fixed number of open flowers and counting the number of those that are visited by a pollinator.",NA
"Jens_Astrom_Malus_domestica_Norway_2013","Close1","sweep net","Melanostoma_mellinum","species","syrphids",1,1200,120,NA,"In each field abundance and richness of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least four dates during the main flowering period. Visitation rates were measured by observing a fixed number of open flowers and counting the number of those that are visited by a pollinator.",NA
"Jens_Astrom_Malus_domestica_Norway_2013","Close1","sweep net","Melanostoma_mellinum","species","syrphids",2,1200,120,NA,"In each field abundance and richness of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least four dates during the main flowering period. Visitation rates were measured by observing a fixed number of open flowers and counting the number of those that are visited by a pollinator.",NA
"Jens_Astrom_Malus_domestica_Norway_2013","Close3","sweep net","Melanostoma_mellinum","species","syrphids",1,1200,120,NA,"In each field abundance and richness of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least four dates during the main flowering period. Visitation rates were measured by observing a fixed number of open flowers and counting the number of those that are visited by a pollinator.",NA
"Jens_Astrom_Malus_domestica_Norway_2013","Close3","sweep net","Melanostoma_mellinum","species","syrphids",1,1200,120,NA,"In each field abundance and richness of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least four dates during the main flowering period. Visitation rates were measured by observing a fixed number of open flowers and counting the number of those that are visited by a pollinator.",NA
"Jens_Astrom_Malus_domestica_Norway_2013","Dist5","sweep net","Melanostoma_mellinum","species","syrphids",1,1200,120,NA,"In each field abundance and richness of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least four dates during the main flowering period. Visitation rates were measured by observing a fixed number of open flowers and counting the number of those that are visited by a pollinator.",NA
"Jens_Astrom_Malus_domestica_Norway_2013","Med4","sweep net","Melanostoma_mellinum","species","syrphids",1,1200,120,NA,"In each field abundance and richness of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least four dates during the main flowering period. Visitation rates were measured by observing a fixed number of open flowers and counting the number of those that are visited by a pollinator.",NA
"Jens_Astrom_Malus_domestica_Norway_2013","Med4","sweep net","Melanostoma_mellinum","species","syrphids",1,1200,120,NA,"In each field abundance and richness of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least four dates during the main flowering period. Visitation rates were measured by observing a fixed number of open flowers and counting the number of those that are visited by a pollinator.",NA
"Jens_Astrom_Malus_domestica_Norway_2013","Med4","sweep net","Melanostoma_mellinum","species","syrphids",1,1200,120,NA,"In each field abundance and richness of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least four dates during the main flowering period. Visitation rates were measured by observing a fixed number of open flowers and counting the number of those that are visited by a pollinator.",NA
"Jens_Astrom_Malus_domestica_Norway_2013","Med5","sweep net","Melanostoma_mellinum","species","syrphids",1,1200,120,NA,"In each field abundance and richness of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least four dates during the main flowering period. Visitation rates were measured by observing a fixed number of open flowers and counting the number of those that are visited by a pollinator.",NA
"Jens_Astrom_Malus_domestica_Norway_2013","Close4","sweep net","Parasyrphus_sp","genus","syrphids",1,1200,120,NA,"In each field abundance and richness of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least four dates during the main flowering period. Visitation rates were measured by observing a fixed number of open flowers and counting the number of those that are visited by a pollinator.",NA
"Jens_Astrom_Malus_domestica_Norway_2013","Dist4","sweep net","Parasyrphus_sp","genus","syrphids",1,1200,120,NA,"In each field abundance and richness of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least four dates during the main flowering period. Visitation rates were measured by observing a fixed number of open flowers and counting the number of those that are visited by a pollinator.",NA
"Jens_Astrom_Malus_domestica_Norway_2013","Dist4","sweep net","Parasyrphus_sp","genus","syrphids",1,1200,120,NA,"In each field abundance and richness of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least four dates during the main flowering period. Visitation rates were measured by observing a fixed number of open flowers and counting the number of those that are visited by a pollinator.",NA
"Jens_Astrom_Malus_domestica_Norway_2013","Med1","sweep net","Parasyrphus_sp","genus","syrphids",1,1200,120,NA,"In each field abundance and richness of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least four dates during the main flowering period. Visitation rates were measured by observing a fixed number of open flowers and counting the number of those that are visited by a pollinator.",NA
"Jens_Astrom_Malus_domestica_Norway_2013","Close3","sweep net","Epistrophe_eligans","species","syrphids",1,1200,120,NA,"In each field abundance and richness of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least four dates during the main flowering period. Visitation rates were measured by observing a fixed number of open flowers and counting the number of those that are visited by a pollinator.",NA
"Jens_Astrom_Malus_domestica_Norway_2013","Close3","sweep net","Platycheirus_jaerensis","species","syrphids",1,1200,120,NA,"In each field abundance and richness of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least four dates during the main flowering period. Visitation rates were measured by observing a fixed number of open flowers and counting the number of those that are visited by a pollinator.",NA
"Jens_Astrom_Malus_domestica_Norway_2013","Close3","sweep net","Chrysotoxum_fasciolatum","species","syrphids",1,1200,120,NA,"In each field abundance and richness of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least four dates during the main flowering period. Visitation rates were measured by observing a fixed number of open flowers and counting the number of those that are visited by a pollinator.",NA
"Jens_Astrom_Malus_domestica_Norway_2013","Med5","sweep net","Chrysotoxum_fasciolatum","species","syrphids",1,1200,120,NA,"In each field abundance and richness of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least four dates during the main flowering period. Visitation rates were measured by observing a fixed number of open flowers and counting the number of those that are visited by a pollinator.",NA
"Jens_Astrom_Malus_domestica_Norway_2013","Close4","sweep net","Eristalis_interrupta","species","syrphids",1,1200,120,NA,"In each field abundance and richness of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least four dates during the main flowering period. Visitation rates were measured by observing a fixed number of open flowers and counting the number of those that are visited by a pollinator.",NA
"Jens_Astrom_Malus_domestica_Norway_2013","Close3","sweep net","Platycheirus_sp.","genus","syrphids",1,1200,120,NA,"In each field abundance and richness of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least four dates during the main flowering period. Visitation rates were measured by observing a fixed number of open flowers and counting the number of those that are visited by a pollinator.",NA
"Jens_Astrom_Malus_domestica_Norway_2013","Close3","sweep net","Platycheirus_sp.","genus","syrphids",1,1200,120,NA,"In each field abundance and richness of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least four dates during the main flowering period. Visitation rates were measured by observing a fixed number of open flowers and counting the number of those that are visited by a pollinator.",NA
"Jens_Astrom_Malus_domestica_Norway_2013","Close4","sweep net","Syrphus_vitripennis","species","syrphids",1,1200,120,NA,"In each field abundance and richness of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least four dates during the main flowering period. Visitation rates were measured by observing a fixed number of open flowers and counting the number of those that are visited by a pollinator.",NA
"Jens_Astrom_Malus_domestica_Norway_2013","Dist4","sweep net","Syrphus_vitripennis","species","syrphids",1,1200,120,NA,"In each field abundance and richness of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least four dates during the main flowering period. Visitation rates were measured by observing a fixed number of open flowers and counting the number of those that are visited by a pollinator.",NA
"Jens_Astrom_Malus_domestica_Norway_2013","Dist4","sweep net","Syrphus_vitripennis","species","syrphids",1,1200,120,NA,"In each field abundance and richness of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least four dates during the main flowering period. Visitation rates were measured by observing a fixed number of open flowers and counting the number of those that are visited by a pollinator.",NA
"Jens_Astrom_Malus_domestica_Norway_2013","Close4","sweep net","Epistrophella_euchroma","species","syrphids",1,1200,120,NA,"In each field abundance and richness of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least four dates during the main flowering period. Visitation rates were measured by observing a fixed number of open flowers and counting the number of those that are visited by a pollinator.",NA
"Jens_Astrom_Malus_domestica_Norway_2013","Dist3","sweep net","Leucozona_lucorum","species","syrphids",1,1200,120,NA,"In each field abundance and richness of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least four dates during the main flowering period. Visitation rates were measured by observing a fixed number of open flowers and counting the number of those that are visited by a pollinator.",NA
"Jens_Astrom_Malus_domestica_Norway_2013","Dist4","sweep net","Parasyrphus_vittiger","species","syrphids",1,1200,120,NA,"In each field abundance and richness of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least four dates during the main flowering period. Visitation rates were measured by observing a fixed number of open flowers and counting the number of those that are visited by a pollinator.",NA
"Jens_Astrom_Malus_domestica_Norway_2013","Dist4","sweep net","Parasyrphus_vittiger","species","syrphids",1,1200,120,NA,"In each field abundance and richness of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least four dates during the main flowering period. Visitation rates were measured by observing a fixed number of open flowers and counting the number of those that are visited by a pollinator.",NA
"Jens_Astrom_Malus_domestica_Norway_2013","Med1","sweep net","Parasyrphus_vittiger","species","syrphids",1,1200,120,NA,"In each field abundance and richness of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least four dates during the main flowering period. Visitation rates were measured by observing a fixed number of open flowers and counting the number of those that are visited by a pollinator.",NA
"Jens_Astrom_Malus_domestica_Norway_2013","Dist4","sweep net","Syrphus_ribestri","species","syrphids",1,1200,120,NA,"In each field abundance and richness of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least four dates during the main flowering period. Visitation rates were measured by observing a fixed number of open flowers and counting the number of those that are visited by a pollinator.",NA
"Jens_Astrom_Malus_domestica_Norway_2013","Dist4","sweep net","Syrphus_ribestri","species","syrphids",2,1200,120,NA,"In each field abundance and richness of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least four dates during the main flowering period. Visitation rates were measured by observing a fixed number of open flowers and counting the number of those that are visited by a pollinator.",NA
"Jens_Astrom_Malus_domestica_Norway_2013","Dist4","sweep net","Meliscaeva_cinctella","species","syrphids",2,1200,120,NA,"In each field abundance and richness of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least four dates during the main flowering period. Visitation rates were measured by observing a fixed number of open flowers and counting the number of those that are visited by a pollinator.",NA
"Jens_Astrom_Malus_domestica_Norway_2013","Dist4","sweep net","Meliscaeva_cinctella","species","syrphids",1,1200,120,NA,"In each field abundance and richness of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least four dates during the main flowering period. Visitation rates were measured by observing a fixed number of open flowers and counting the number of those that are visited by a pollinator.",NA
"Jens_Astrom_Malus_domestica_Norway_2013","Dist4","sweep net","Meliscaeva_cinctella","species","syrphids",1,1200,120,NA,"In each field abundance and richness of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least four dates during the main flowering period. Visitation rates were measured by observing a fixed number of open flowers and counting the number of those that are visited by a pollinator.",NA
"Jens_Astrom_Malus_domestica_Norway_2013","Dist4","sweep net","Meliscaeva_cinctella","species","syrphids",1,1200,120,NA,"In each field abundance and richness of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least four dates during the main flowering period. Visitation rates were measured by observing a fixed number of open flowers and counting the number of those that are visited by a pollinator.",NA
"Jens_Astrom_Malus_domestica_Norway_2013","Dist4","sweep net","Syrphus_torvus","species","syrphids",1,1200,120,NA,"In each field abundance and richness of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least four dates during the main flowering period. Visitation rates were measured by observing a fixed number of open flowers and counting the number of those that are visited by a pollinator.",NA
"Jens_Astrom_Malus_domestica_Norway_2013","Dist4","sweep net","Dasysyrphus_hilaris","species","syrphids",1,1200,120,NA,"In each field abundance and richness of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least four dates during the main flowering period. Visitation rates were measured by observing a fixed number of open flowers and counting the number of those that are visited by a pollinator.",NA
"Jens_Astrom_Malus_domestica_Norway_2013","Dist4","sweep net","Dasysyrphus_hilaris","species","syrphids",1,1200,120,NA,"In each field abundance and richness of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least four dates during the main flowering period. Visitation rates were measured by observing a fixed number of open flowers and counting the number of those that are visited by a pollinator.",NA
"Jens_Astrom_Malus_domestica_Norway_2013","Dist4","sweep net","Parasyrphus_lineolus","species","syrphids",1,1200,120,NA,"In each field abundance and richness of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least four dates during the main flowering period. Visitation rates were measured by observing a fixed number of open flowers and counting the number of those that are visited by a pollinator.",NA
"Jens_Astrom_Malus_domestica_Norway_2013","Dist4","sweep net","Parasyrphus_lineolus","species","syrphids",1,1200,120,NA,"In each field abundance and richness of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least four dates during the main flowering period. Visitation rates were measured by observing a fixed number of open flowers and counting the number of those that are visited by a pollinator.",NA
"Jens_Astrom_Malus_domestica_Norway_2013","Dist4","sweep net","Rhingia_campestris","species","syrphids",1,1200,120,NA,"In each field abundance and richness of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least four dates during the main flowering period. Visitation rates were measured by observing a fixed number of open flowers and counting the number of those that are visited by a pollinator.",NA
"Jens_Astrom_Malus_domestica_Norway_2013","Dist4","sweep net","Orthonevra_geniculata","species","syrphids",1,1200,120,NA,"In each field abundance and richness of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least four dates during the main flowering period. Visitation rates were measured by observing a fixed number of open flowers and counting the number of those that are visited by a pollinator.",NA
"Jens_Astrom_Malus_domestica_Norway_2013","Dist5","sweep net","Chrysotoxum_arcuatum","species","syrphids",1,1200,120,NA,"In each field abundance and richness of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least four dates during the main flowering period. Visitation rates were measured by observing a fixed number of open flowers and counting the number of those that are visited by a pollinator.",NA
"Jens_Astrom_Malus_domestica_Norway_2013","Med3","sweep net","Platycheirus_nielseni_","species","syrphids",1,1200,120,NA,"In each field abundance and richness of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least four dates during the main flowering period. Visitation rates were measured by observing a fixed number of open flowers and counting the number of those that are visited by a pollinator.",NA
"Jens_Astrom_Malus_domestica_Norway_2013","Med5","sweep net","Melanogaster_sp.","genus","other_flies",1,1200,120,NA,"In each field abundance and richness of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least four dates during the main flowering period. Visitation rates were measured by observing a fixed number of open flowers and counting the number of those that are visited by a pollinator.",NA
"Jens_Astrom_Malus_domestica_Norway_2013","Med5","sweep net","Epistrophe_sp.","genus","syrphids",1,1200,120,NA,"In each field abundance and richness of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least four dates during the main flowering period. Visitation rates were measured by observing a fixed number of open flowers and counting the number of those that are visited by a pollinator.",NA
"Jens_Astrom_Malus_domestica_Norway_2013","Close1","sweep net","Syrphidae_sp.","family","syrphids",1,1200,120,NA,"In each field abundance and richness of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least four dates during the main flowering period. Visitation rates were measured by observing a fixed number of open flowers and counting the number of those that are visited by a pollinator.",NA
"Jens_Astrom_Malus_domestica_Norway_2013","Close1","sweep net","Syrphidae_sp.","family","syrphids",5,1200,120,NA,"In each field abundance and richness of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least four dates during the main flowering period. Visitation rates were measured by observing a fixed number of open flowers and counting the number of those that are visited by a pollinator.",NA
"Jens_Astrom_Malus_domestica_Norway_2013","Close1","sweep net","Syrphidae_sp.","family","syrphids",1,1200,120,NA,"In each field abundance and richness of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least four dates during the main flowering period. Visitation rates were measured by observing a fixed number of open flowers and counting the number of those that are visited by a pollinator.",NA
"Jens_Astrom_Malus_domestica_Norway_2013","Close1","sweep net","Syrphidae_sp.","family","syrphids",1,1200,120,NA,"In each field abundance and richness of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least four dates during the main flowering period. Visitation rates were measured by observing a fixed number of open flowers and counting the number of those that are visited by a pollinator.",NA
"Jens_Astrom_Malus_domestica_Norway_2013","Close1","sweep net","Syrphidae_sp.","family","syrphids",2,1200,120,NA,"In each field abundance and richness of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least four dates during the main flowering period. Visitation rates were measured by observing a fixed number of open flowers and counting the number of those that are visited by a pollinator.",NA
"Jens_Astrom_Malus_domestica_Norway_2013","Close1","sweep net","Syrphidae_sp.","family","syrphids",4,1200,120,NA,"In each field abundance and richness of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least four dates during the main flowering period. Visitation rates were measured by observing a fixed number of open flowers and counting the number of those that are visited by a pollinator.",NA
"Jens_Astrom_Malus_domestica_Norway_2013","Close1","sweep net","Syrphidae_sp.","family","syrphids",1,1200,120,NA,"In each field abundance and richness of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least four dates during the main flowering period. Visitation rates were measured by observing a fixed number of open flowers and counting the number of those that are visited by a pollinator.",NA
"Jens_Astrom_Malus_domestica_Norway_2013","Close1","sweep net","Syrphidae_sp.","family","syrphids",4,1200,120,NA,"In each field abundance and richness of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least four dates during the main flowering period. Visitation rates were measured by observing a fixed number of open flowers and counting the number of those that are visited by a pollinator.",NA
"Jens_Astrom_Malus_domestica_Norway_2013","Close1","sweep net","Syrphidae_sp.","family","syrphids",3,1200,120,NA,"In each field abundance and richness of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least four dates during the main flowering period. Visitation rates were measured by observing a fixed number of open flowers and counting the number of those that are visited by a pollinator.",NA
"Jens_Astrom_Malus_domestica_Norway_2013","Close1","sweep net","Syrphidae_sp.","family","syrphids",1,1200,120,NA,"In each field abundance and richness of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least four dates during the main flowering period. Visitation rates were measured by observing a fixed number of open flowers and counting the number of those that are visited by a pollinator.",NA
"Jens_Astrom_Malus_domestica_Norway_2013","Close2","sweep net","Syrphidae_sp.","family","syrphids",1,1200,120,NA,"In each field abundance and richness of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least four dates during the main flowering period. Visitation rates were measured by observing a fixed number of open flowers and counting the number of those that are visited by a pollinator.",NA
"Jens_Astrom_Malus_domestica_Norway_2013","Close2","sweep net","Syrphidae_sp.","family","syrphids",1,1200,120,NA,"In each field abundance and richness of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least four dates during the main flowering period. Visitation rates were measured by observing a fixed number of open flowers and counting the number of those that are visited by a pollinator.",NA
"Jens_Astrom_Malus_domestica_Norway_2013","Close2","sweep net","Syrphidae_sp.","family","syrphids",1,1200,120,NA,"In each field abundance and richness of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least four dates during the main flowering period. Visitation rates were measured by observing a fixed number of open flowers and counting the number of those that are visited by a pollinator.",NA
"Jens_Astrom_Malus_domestica_Norway_2013","Close3","sweep net","Syrphidae_sp.","family","syrphids",1,1200,120,NA,"In each field abundance and richness of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least four dates during the main flowering period. Visitation rates were measured by observing a fixed number of open flowers and counting the number of those that are visited by a pollinator.",NA
"Jens_Astrom_Malus_domestica_Norway_2013","Close3","sweep net","Syrphidae_sp.","family","syrphids",1,1200,120,NA,"In each field abundance and richness of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least four dates during the main flowering period. Visitation rates were measured by observing a fixed number of open flowers and counting the number of those that are visited by a pollinator.",NA
"Jens_Astrom_Malus_domestica_Norway_2013","Close3","sweep net","Syrphidae_sp.","family","syrphids",1,1200,120,NA,"In each field abundance and richness of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least four dates during the main flowering period. Visitation rates were measured by observing a fixed number of open flowers and counting the number of those that are visited by a pollinator.",NA
"Jens_Astrom_Malus_domestica_Norway_2013","Close3","sweep net","Syrphidae_sp.","family","syrphids",1,1200,120,NA,"In each field abundance and richness of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least four dates during the main flowering period. Visitation rates were measured by observing a fixed number of open flowers and counting the number of those that are visited by a pollinator.",NA
"Jens_Astrom_Malus_domestica_Norway_2013","Close3","sweep net","Syrphidae_sp.","family","syrphids",1,1200,120,NA,"In each field abundance and richness of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least four dates during the main flowering period. Visitation rates were measured by observing a fixed number of open flowers and counting the number of those that are visited by a pollinator.",NA
"Jens_Astrom_Malus_domestica_Norway_2013","Close4","sweep net","Syrphidae_sp.","family","syrphids",2,1200,120,NA,"In each field abundance and richness of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least four dates during the main flowering period. Visitation rates were measured by observing a fixed number of open flowers and counting the number of those that are visited by a pollinator.",NA
"Jens_Astrom_Malus_domestica_Norway_2013","Dist2","sweep net","Syrphidae_sp.","family","syrphids",1,1200,120,NA,"In each field abundance and richness of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least four dates during the main flowering period. Visitation rates were measured by observing a fixed number of open flowers and counting the number of those that are visited by a pollinator.",NA
"Jens_Astrom_Malus_domestica_Norway_2013","Dist2","sweep net","Syrphidae_sp.","family","syrphids",1,1200,120,NA,"In each field abundance and richness of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least four dates during the main flowering period. Visitation rates were measured by observing a fixed number of open flowers and counting the number of those that are visited by a pollinator.",NA
"Jens_Astrom_Malus_domestica_Norway_2013","Dist2","sweep net","Syrphidae_sp.","family","syrphids",1,1200,120,NA,"In each field abundance and richness of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least four dates during the main flowering period. Visitation rates were measured by observing a fixed number of open flowers and counting the number of those that are visited by a pollinator.",NA
"Jens_Astrom_Malus_domestica_Norway_2013","Dist3","sweep net","Syrphidae_sp.","family","syrphids",2,1200,120,NA,"In each field abundance and richness of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least four dates during the main flowering period. Visitation rates were measured by observing a fixed number of open flowers and counting the number of those that are visited by a pollinator.",NA
"Jens_Astrom_Malus_domestica_Norway_2013","Dist3","sweep net","Syrphidae_sp.","family","syrphids",1,1200,120,NA,"In each field abundance and richness of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least four dates during the main flowering period. Visitation rates were measured by observing a fixed number of open flowers and counting the number of those that are visited by a pollinator.",NA
"Jens_Astrom_Malus_domestica_Norway_2013","Dist3","sweep net","Syrphidae_sp.","family","syrphids",1,1200,120,NA,"In each field abundance and richness of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least four dates during the main flowering period. Visitation rates were measured by observing a fixed number of open flowers and counting the number of those that are visited by a pollinator.",NA
"Jens_Astrom_Malus_domestica_Norway_2013","Dist4","sweep net","Syrphidae_sp.","family","syrphids",3,1200,120,NA,"In each field abundance and richness of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least four dates during the main flowering period. Visitation rates were measured by observing a fixed number of open flowers and counting the number of those that are visited by a pollinator.",NA
"Jens_Astrom_Malus_domestica_Norway_2013","Dist4","sweep net","Syrphidae_sp.","family","syrphids",7,1200,120,NA,"In each field abundance and richness of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least four dates during the main flowering period. Visitation rates were measured by observing a fixed number of open flowers and counting the number of those that are visited by a pollinator.",NA
"Jens_Astrom_Malus_domestica_Norway_2013","Dist4","sweep net","Syrphidae_sp.","family","syrphids",1,1200,120,NA,"In each field abundance and richness of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least four dates during the main flowering period. Visitation rates were measured by observing a fixed number of open flowers and counting the number of those that are visited by a pollinator.",NA
"Jens_Astrom_Malus_domestica_Norway_2013","Dist4","sweep net","Syrphidae_sp.","family","syrphids",2,1200,120,NA,"In each field abundance and richness of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least four dates during the main flowering period. Visitation rates were measured by observing a fixed number of open flowers and counting the number of those that are visited by a pollinator.",NA
"Jens_Astrom_Malus_domestica_Norway_2013","Dist4","sweep net","Syrphidae_sp.","family","syrphids",1,1200,120,NA,"In each field abundance and richness of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least four dates during the main flowering period. Visitation rates were measured by observing a fixed number of open flowers and counting the number of those that are visited by a pollinator.",NA
"Jens_Astrom_Malus_domestica_Norway_2013","Dist4","sweep net","Syrphidae_sp.","family","syrphids",10,1200,120,NA,"In each field abundance and richness of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least four dates during the main flowering period. Visitation rates were measured by observing a fixed number of open flowers and counting the number of those that are visited by a pollinator.",NA
"Jens_Astrom_Malus_domestica_Norway_2013","Dist4","sweep net","Syrphidae_sp.","family","syrphids",1,1200,120,NA,"In each field abundance and richness of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least four dates during the main flowering period. Visitation rates were measured by observing a fixed number of open flowers and counting the number of those that are visited by a pollinator.",NA
"Jens_Astrom_Malus_domestica_Norway_2013","Dist4","sweep net","Syrphidae_sp.","family","syrphids",1,1200,120,NA,"In each field abundance and richness of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least four dates during the main flowering period. Visitation rates were measured by observing a fixed number of open flowers and counting the number of those that are visited by a pollinator.",NA
"Jens_Astrom_Malus_domestica_Norway_2013","Dist4","sweep net","Syrphidae_sp.","family","syrphids",7,1200,120,NA,"In each field abundance and richness of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least four dates during the main flowering period. Visitation rates were measured by observing a fixed number of open flowers and counting the number of those that are visited by a pollinator.",NA
"Jens_Astrom_Malus_domestica_Norway_2013","Dist4","sweep net","Syrphidae_sp.","family","syrphids",1,1200,120,NA,"In each field abundance and richness of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least four dates during the main flowering period. Visitation rates were measured by observing a fixed number of open flowers and counting the number of those that are visited by a pollinator.",NA
"Jens_Astrom_Malus_domestica_Norway_2013","Dist4","sweep net","Syrphidae_sp.","family","syrphids",1,1200,120,NA,"In each field abundance and richness of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least four dates during the main flowering period. Visitation rates were measured by observing a fixed number of open flowers and counting the number of those that are visited by a pollinator.",NA
"Jens_Astrom_Malus_domestica_Norway_2013","Dist4","sweep net","Syrphidae_sp.","family","syrphids",3,1200,120,NA,"In each field abundance and richness of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least four dates during the main flowering period. Visitation rates were measured by observing a fixed number of open flowers and counting the number of those that are visited by a pollinator.",NA
"Jens_Astrom_Malus_domestica_Norway_2013","Dist5","sweep net","Syrphidae_sp.","family","syrphids",1,1200,120,NA,"In each field abundance and richness of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least four dates during the main flowering period. Visitation rates were measured by observing a fixed number of open flowers and counting the number of those that are visited by a pollinator.",NA
"Jens_Astrom_Malus_domestica_Norway_2013","Med1","sweep net","Syrphidae_sp.","family","syrphids",1,1200,120,NA,"In each field abundance and richness of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least four dates during the main flowering period. Visitation rates were measured by observing a fixed number of open flowers and counting the number of those that are visited by a pollinator.",NA
"Jens_Astrom_Malus_domestica_Norway_2013","Med1","sweep net","Syrphidae_sp.","family","syrphids",1,1200,120,NA,"In each field abundance and richness of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least four dates during the main flowering period. Visitation rates were measured by observing a fixed number of open flowers and counting the number of those that are visited by a pollinator.",NA
"Jens_Astrom_Malus_domestica_Norway_2013","Med1","sweep net","Syrphidae_sp.","family","syrphids",3,1200,120,NA,"In each field abundance and richness of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least four dates during the main flowering period. Visitation rates were measured by observing a fixed number of open flowers and counting the number of those that are visited by a pollinator.",NA
"Jens_Astrom_Malus_domestica_Norway_2013","Med1","sweep net","Syrphidae_sp.","family","syrphids",1,1200,120,NA,"In each field abundance and richness of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least four dates during the main flowering period. Visitation rates were measured by observing a fixed number of open flowers and counting the number of those that are visited by a pollinator.",NA
"Jens_Astrom_Malus_domestica_Norway_2013","Med1","sweep net","Syrphidae_sp.","family","syrphids",2,1200,120,NA,"In each field abundance and richness of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least four dates during the main flowering period. Visitation rates were measured by observing a fixed number of open flowers and counting the number of those that are visited by a pollinator.",NA
"Jens_Astrom_Malus_domestica_Norway_2013","Med1","sweep net","Syrphidae_sp.","family","syrphids",2,1200,120,NA,"In each field abundance and richness of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least four dates during the main flowering period. Visitation rates were measured by observing a fixed number of open flowers and counting the number of those that are visited by a pollinator.",NA
"Jens_Astrom_Malus_domestica_Norway_2013","Med1","sweep net","Syrphidae_sp.","family","syrphids",1,1200,120,NA,"In each field abundance and richness of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least four dates during the main flowering period. Visitation rates were measured by observing a fixed number of open flowers and counting the number of those that are visited by a pollinator.",NA
"Jens_Astrom_Malus_domestica_Norway_2013","Med1","sweep net","Syrphidae_sp.","family","syrphids",1,1200,120,NA,"In each field abundance and richness of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least four dates during the main flowering period. Visitation rates were measured by observing a fixed number of open flowers and counting the number of those that are visited by a pollinator.",NA
"Jens_Astrom_Malus_domestica_Norway_2013","Med1","sweep net","Syrphidae_sp.","family","syrphids",1,1200,120,NA,"In each field abundance and richness of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least four dates during the main flowering period. Visitation rates were measured by observing a fixed number of open flowers and counting the number of those that are visited by a pollinator.",NA
"Jens_Astrom_Malus_domestica_Norway_2013","Med1","sweep net","Syrphidae_sp.","family","syrphids",1,1200,120,NA,"In each field abundance and richness of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least four dates during the main flowering period. Visitation rates were measured by observing a fixed number of open flowers and counting the number of those that are visited by a pollinator.",NA
"Jens_Astrom_Malus_domestica_Norway_2013","Med1","sweep net","Syrphidae_sp.","family","syrphids",1,1200,120,NA,"In each field abundance and richness of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least four dates during the main flowering period. Visitation rates were measured by observing a fixed number of open flowers and counting the number of those that are visited by a pollinator.",NA
"Jens_Astrom_Malus_domestica_Norway_2013","Med1","sweep net","Syrphidae_sp.","family","syrphids",1,1200,120,NA,"In each field abundance and richness of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least four dates during the main flowering period. Visitation rates were measured by observing a fixed number of open flowers and counting the number of those that are visited by a pollinator.",NA
"Jens_Astrom_Malus_domestica_Norway_2013","Med1","sweep net","Syrphidae_sp.","family","syrphids",1,1200,120,NA,"In each field abundance and richness of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least four dates during the main flowering period. Visitation rates were measured by observing a fixed number of open flowers and counting the number of those that are visited by a pollinator.",NA
"Jens_Astrom_Malus_domestica_Norway_2013","Med2","sweep net","Syrphidae_sp.","family","syrphids",1,1200,120,NA,"In each field abundance and richness of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least four dates during the main flowering period. Visitation rates were measured by observing a fixed number of open flowers and counting the number of those that are visited by a pollinator.",NA
"Jens_Astrom_Malus_domestica_Norway_2013","Med2","sweep net","Syrphidae_sp.","family","syrphids",1,1200,120,NA,"In each field abundance and richness of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least four dates during the main flowering period. Visitation rates were measured by observing a fixed number of open flowers and counting the number of those that are visited by a pollinator.",NA
"Jens_Astrom_Malus_domestica_Norway_2013","Med2","sweep net","Syrphidae_sp.","family","syrphids",1,1200,120,NA,"In each field abundance and richness of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least four dates during the main flowering period. Visitation rates were measured by observing a fixed number of open flowers and counting the number of those that are visited by a pollinator.",NA
"Jens_Astrom_Malus_domestica_Norway_2013","Med2","sweep net","Syrphidae_sp.","family","syrphids",1,1200,120,NA,"In each field abundance and richness of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least four dates during the main flowering period. Visitation rates were measured by observing a fixed number of open flowers and counting the number of those that are visited by a pollinator.",NA
"Jens_Astrom_Malus_domestica_Norway_2013","Med3","sweep net","Syrphidae_sp.","family","syrphids",1,1200,120,NA,"In each field abundance and richness of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least four dates during the main flowering period. Visitation rates were measured by observing a fixed number of open flowers and counting the number of those that are visited by a pollinator.",NA
"Jens_Astrom_Malus_domestica_Norway_2013","Med5","sweep net","Syrphidae_sp.","family","syrphids",1,1200,120,NA,"In each field abundance and richness of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least four dates during the main flowering period. Visitation rates were measured by observing a fixed number of open flowers and counting the number of those that are visited by a pollinator.",NA
"Jens_Astrom_Malus_domestica_Norway_2013","Med5","sweep net","Syrphidae_sp.","family","syrphids",1,1200,120,NA,"In each field abundance and richness of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least four dates during the main flowering period. Visitation rates were measured by observing a fixed number of open flowers and counting the number of those that are visited by a pollinator.",NA
"Jens_Astrom_Malus_domestica_Norway_2013","Med5","sweep net","Syrphidae_sp.","family","syrphids",1,1200,120,NA,"In each field abundance and richness of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least four dates during the main flowering period. Visitation rates were measured by observing a fixed number of open flowers and counting the number of those that are visited by a pollinator.",NA
"Jens_Astrom_Malus_domestica_Norway_2013","Med5","sweep net","Syrphidae_sp.","family","syrphids",1,1200,120,NA,"In each field abundance and richness of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least four dates during the main flowering period. Visitation rates were measured by observing a fixed number of open flowers and counting the number of those that are visited by a pollinator.",NA
"Jens_Astrom_Malus_domestica_Norway_2013","Med5","sweep net","Syrphidae_sp.","family","syrphids",1,1200,120,NA,"In each field abundance and richness of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least four dates during the main flowering period. Visitation rates were measured by observing a fixed number of open flowers and counting the number of those that are visited by a pollinator.",NA
"Jens_Astrom_Malus_domestica_Norway_2013","Med5","sweep net","Syrphidae_sp.","family","syrphids",1,1200,120,NA,"In each field abundance and richness of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least four dates during the main flowering period. Visitation rates were measured by observing a fixed number of open flowers and counting the number of those that are visited by a pollinator.",NA
"Jens_Astrom_Malus_domestica_Norway_2013","Med5","sweep net","Syrphidae_sp.","family","syrphids",1,1200,120,NA,"In each field abundance and richness of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least four dates during the main flowering period. Visitation rates were measured by observing a fixed number of open flowers and counting the number of those that are visited by a pollinator.",NA
"Jens_Astrom_Malus_domestica_Norway_2013","Med5","sweep net","Syrphidae_sp.","family","syrphids",1,1200,120,NA,"In each field abundance and richness of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least four dates during the main flowering period. Visitation rates were measured by observing a fixed number of open flowers and counting the number of those that are visited by a pollinator.",NA
"Jens_Astrom_Malus_domestica_Norway_2013","Med5","sweep net","Syrphidae_sp.","family","syrphids",1,1200,120,NA,"In each field abundance and richness of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least four dates during the main flowering period. Visitation rates were measured by observing a fixed number of open flowers and counting the number of those that are visited by a pollinator.",NA
"Jens_Astrom_Malus_domestica_Norway_2013","Close1","observations","Apis_mellifera","species","honeybees",13,NA,NA,6000,"In each field abundance and richness of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least four dates during the main flowering period. Visitation rates were measured by observing a fixed number of open flowers and counting the number of those that are visited by a pollinator.",NA
"Jens_Astrom_Malus_domestica_Norway_2013","Close1","observations","Apis_mellifera","species","honeybees",3,NA,NA,6000,"In each field abundance and richness of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least four dates during the main flowering period. Visitation rates were measured by observing a fixed number of open flowers and counting the number of those that are visited by a pollinator.",NA
"Jens_Astrom_Malus_domestica_Norway_2013","Close1","observations","Apis_mellifera","species","honeybees",6,NA,NA,6000,"In each field abundance and richness of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least four dates during the main flowering period. Visitation rates were measured by observing a fixed number of open flowers and counting the number of those that are visited by a pollinator.",NA
"Jens_Astrom_Malus_domestica_Norway_2013","Close1","observations","Apis_mellifera","species","honeybees",2,NA,NA,6000,"In each field abundance and richness of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least four dates during the main flowering period. Visitation rates were measured by observing a fixed number of open flowers and counting the number of those that are visited by a pollinator.",NA
"Jens_Astrom_Malus_domestica_Norway_2013","Close1","observations","Apis_mellifera","species","honeybees",10,NA,NA,6000,"In each field abundance and richness of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least four dates during the main flowering period. Visitation rates were measured by observing a fixed number of open flowers and counting the number of those that are visited by a pollinator.",NA
"Jens_Astrom_Malus_domestica_Norway_2013","Close1","observations","Apis_mellifera","species","honeybees",5,NA,NA,6000,"In each field abundance and richness of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least four dates during the main flowering period. Visitation rates were measured by observing a fixed number of open flowers and counting the number of those that are visited by a pollinator.",NA
"Jens_Astrom_Malus_domestica_Norway_2013","Close1","observations","Apis_mellifera","species","honeybees",2,NA,NA,6000,"In each field abundance and richness of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least four dates during the main flowering period. Visitation rates were measured by observing a fixed number of open flowers and counting the number of those that are visited by a pollinator.",NA
"Jens_Astrom_Malus_domestica_Norway_2013","Close1","observations","Apis_mellifera","species","honeybees",8,NA,NA,6000,"In each field abundance and richness of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least four dates during the main flowering period. Visitation rates were measured by observing a fixed number of open flowers and counting the number of those that are visited by a pollinator.",NA
"Jens_Astrom_Malus_domestica_Norway_2013","Close1","observations","Apis_mellifera","species","honeybees",6,NA,NA,6000,"In each field abundance and richness of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least four dates during the main flowering period. Visitation rates were measured by observing a fixed number of open flowers and counting the number of those that are visited by a pollinator.",NA
"Jens_Astrom_Malus_domestica_Norway_2013","Close1","observations","Apis_mellifera","species","honeybees",1,NA,NA,6000,"In each field abundance and richness of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least four dates during the main flowering period. Visitation rates were measured by observing a fixed number of open flowers and counting the number of those that are visited by a pollinator.",NA
"Jens_Astrom_Malus_domestica_Norway_2013","Close1","observations","Apis_mellifera","species","honeybees",2,NA,NA,6000,"In each field abundance and richness of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least four dates during the main flowering period. Visitation rates were measured by observing a fixed number of open flowers and counting the number of those that are visited by a pollinator.",NA
"Jens_Astrom_Malus_domestica_Norway_2013","Close1","observations","Apis_mellifera","species","honeybees",7,NA,NA,6000,"In each field abundance and richness of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least four dates during the main flowering period. Visitation rates were measured by observing a fixed number of open flowers and counting the number of those that are visited by a pollinator.",NA
"Jens_Astrom_Malus_domestica_Norway_2013","Close1","observations","Apis_mellifera","species","honeybees",4,NA,NA,6000,"In each field abundance and richness of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least four dates during the main flowering period. Visitation rates were measured by observing a fixed number of open flowers and counting the number of those that are visited by a pollinator.",NA
"Jens_Astrom_Malus_domestica_Norway_2013","Close1","observations","Apis_mellifera","species","honeybees",7,NA,NA,6000,"In each field abundance and richness of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least four dates during the main flowering period. Visitation rates were measured by observing a fixed number of open flowers and counting the number of those that are visited by a pollinator.",NA
"Jens_Astrom_Malus_domestica_Norway_2013","Close1","observations","Apis_mellifera","species","honeybees",1,NA,NA,6000,"In each field abundance and richness of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least four dates during the main flowering period. Visitation rates were measured by observing a fixed number of open flowers and counting the number of those that are visited by a pollinator.",NA
"Jens_Astrom_Malus_domestica_Norway_2013","Close2","observations","Apis_mellifera","species","honeybees",6,NA,NA,6000,"In each field abundance and richness of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least four dates during the main flowering period. Visitation rates were measured by observing a fixed number of open flowers and counting the number of those that are visited by a pollinator.",NA
"Jens_Astrom_Malus_domestica_Norway_2013","Close2","observations","Apis_mellifera","species","honeybees",8,NA,NA,6000,"In each field abundance and richness of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least four dates during the main flowering period. Visitation rates were measured by observing a fixed number of open flowers and counting the number of those that are visited by a pollinator.",NA
"Jens_Astrom_Malus_domestica_Norway_2013","Close2","observations","Apis_mellifera","species","honeybees",3,NA,NA,6000,"In each field abundance and richness of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least four dates during the main flowering period. Visitation rates were measured by observing a fixed number of open flowers and counting the number of those that are visited by a pollinator.",NA
"Jens_Astrom_Malus_domestica_Norway_2013","Close2","observations","Apis_mellifera","species","honeybees",8,NA,NA,6000,"In each field abundance and richness of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least four dates during the main flowering period. Visitation rates were measured by observing a fixed number of open flowers and counting the number of those that are visited by a pollinator.",NA
"Jens_Astrom_Malus_domestica_Norway_2013","Close2","observations","Apis_mellifera","species","honeybees",10,NA,NA,6000,"In each field abundance and richness of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least four dates during the main flowering period. Visitation rates were measured by observing a fixed number of open flowers and counting the number of those that are visited by a pollinator.",NA
"Jens_Astrom_Malus_domestica_Norway_2013","Close2","observations","Apis_mellifera","species","honeybees",3,NA,NA,6000,"In each field abundance and richness of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least four dates during the main flowering period. Visitation rates were measured by observing a fixed number of open flowers and counting the number of those that are visited by a pollinator.",NA
"Jens_Astrom_Malus_domestica_Norway_2013","Close2","observations","Apis_mellifera","species","honeybees",3,NA,NA,6000,"In each field abundance and richness of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least four dates during the main flowering period. Visitation rates were measured by observing a fixed number of open flowers and counting the number of those that are visited by a pollinator.",NA
"Jens_Astrom_Malus_domestica_Norway_2013","Close2","observations","Apis_mellifera","species","honeybees",5,NA,NA,6000,"In each field abundance and richness of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least four dates during the main flowering period. Visitation rates were measured by observing a fixed number of open flowers and counting the number of those that are visited by a pollinator.",NA
"Jens_Astrom_Malus_domestica_Norway_2013","Close2","observations","Apis_mellifera","species","honeybees",3,NA,NA,6000,"In each field abundance and richness of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least four dates during the main flowering period. Visitation rates were measured by observing a fixed number of open flowers and counting the number of those that are visited by a pollinator.",NA
"Jens_Astrom_Malus_domestica_Norway_2013","Close2","observations","Apis_mellifera","species","honeybees",13,NA,NA,6000,"In each field abundance and richness of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least four dates during the main flowering period. Visitation rates were measured by observing a fixed number of open flowers and counting the number of those that are visited by a pollinator.",NA
"Jens_Astrom_Malus_domestica_Norway_2013","Close2","observations","Apis_mellifera","species","honeybees",7,NA,NA,6000,"In each field abundance and richness of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least four dates during the main flowering period. Visitation rates were measured by observing a fixed number of open flowers and counting the number of those that are visited by a pollinator.",NA
"Jens_Astrom_Malus_domestica_Norway_2013","Close2","observations","Apis_mellifera","species","honeybees",2,NA,NA,6000,"In each field abundance and richness of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least four dates during the main flowering period. Visitation rates were measured by observing a fixed number of open flowers and counting the number of those that are visited by a pollinator.",NA
"Jens_Astrom_Malus_domestica_Norway_2013","Close3","observations","Apis_mellifera","species","honeybees",1,NA,NA,6000,"In each field abundance and richness of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least four dates during the main flowering period. Visitation rates were measured by observing a fixed number of open flowers and counting the number of those that are visited by a pollinator.",NA
"Jens_Astrom_Malus_domestica_Norway_2013","Close3","observations","Apis_mellifera","species","honeybees",3,NA,NA,6000,"In each field abundance and richness of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least four dates during the main flowering period. Visitation rates were measured by observing a fixed number of open flowers and counting the number of those that are visited by a pollinator.",NA
"Jens_Astrom_Malus_domestica_Norway_2013","Close3","observations","Apis_mellifera","species","honeybees",4,NA,NA,6000,"In each field abundance and richness of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least four dates during the main flowering period. Visitation rates were measured by observing a fixed number of open flowers and counting the number of those that are visited by a pollinator.",NA
"Jens_Astrom_Malus_domestica_Norway_2013","Close3","observations","Apis_mellifera","species","honeybees",1,NA,NA,6000,"In each field abundance and richness of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least four dates during the main flowering period. Visitation rates were measured by observing a fixed number of open flowers and counting the number of those that are visited by a pollinator.",NA
"Jens_Astrom_Malus_domestica_Norway_2013","Close3","observations","Apis_mellifera","species","honeybees",1,NA,NA,6000,"In each field abundance and richness of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least four dates during the main flowering period. Visitation rates were measured by observing a fixed number of open flowers and counting the number of those that are visited by a pollinator.",NA
"Jens_Astrom_Malus_domestica_Norway_2013","Close3","observations","Apis_mellifera","species","honeybees",2,NA,NA,6000,"In each field abundance and richness of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least four dates during the main flowering period. Visitation rates were measured by observing a fixed number of open flowers and counting the number of those that are visited by a pollinator.",NA
"Jens_Astrom_Malus_domestica_Norway_2013","Close3","observations","Apis_mellifera","species","honeybees",2,NA,NA,6000,"In each field abundance and richness of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least four dates during the main flowering period. Visitation rates were measured by observing a fixed number of open flowers and counting the number of those that are visited by a pollinator.",NA
"Jens_Astrom_Malus_domestica_Norway_2013","Close3","observations","Apis_mellifera","species","honeybees",1,NA,NA,6000,"In each field abundance and richness of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least four dates during the main flowering period. Visitation rates were measured by observing a fixed number of open flowers and counting the number of those that are visited by a pollinator.",NA
"Jens_Astrom_Malus_domestica_Norway_2013","Close3","observations","Apis_mellifera","species","honeybees",2,NA,NA,6000,"In each field abundance and richness of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least four dates during the main flowering period. Visitation rates were measured by observing a fixed number of open flowers and counting the number of those that are visited by a pollinator.",NA
"Jens_Astrom_Malus_domestica_Norway_2013","Close3","observations","Apis_mellifera","species","honeybees",5,NA,NA,6000,"In each field abundance and richness of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least four dates during the main flowering period. Visitation rates were measured by observing a fixed number of open flowers and counting the number of those that are visited by a pollinator.",NA
"Jens_Astrom_Malus_domestica_Norway_2013","Close3","observations","Apis_mellifera","species","honeybees",3,NA,NA,6000,"In each field abundance and richness of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least four dates during the main flowering period. Visitation rates were measured by observing a fixed number of open flowers and counting the number of those that are visited by a pollinator.",NA
"Jens_Astrom_Malus_domestica_Norway_2013","Close4","observations","Apis_mellifera","species","honeybees",2,NA,NA,6000,"In each field abundance and richness of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least four dates during the main flowering period. Visitation rates were measured by observing a fixed number of open flowers and counting the number of those that are visited by a pollinator.",NA
"Jens_Astrom_Malus_domestica_Norway_2013","Close4","observations","Apis_mellifera","species","honeybees",4,NA,NA,6000,"In each field abundance and richness of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least four dates during the main flowering period. Visitation rates were measured by observing a fixed number of open flowers and counting the number of those that are visited by a pollinator.",NA
"Jens_Astrom_Malus_domestica_Norway_2013","Close4","observations","Apis_mellifera","species","honeybees",4,NA,NA,6000,"In each field abundance and richness of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least four dates during the main flowering period. Visitation rates were measured by observing a fixed number of open flowers and counting the number of those that are visited by a pollinator.",NA
"Jens_Astrom_Malus_domestica_Norway_2013","Close4","observations","Apis_mellifera","species","honeybees",3,NA,NA,6000,"In each field abundance and richness of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least four dates during the main flowering period. Visitation rates were measured by observing a fixed number of open flowers and counting the number of those that are visited by a pollinator.",NA
"Jens_Astrom_Malus_domestica_Norway_2013","Close4","observations","Apis_mellifera","species","honeybees",2,NA,NA,6000,"In each field abundance and richness of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least four dates during the main flowering period. Visitation rates were measured by observing a fixed number of open flowers and counting the number of those that are visited by a pollinator.",NA
"Jens_Astrom_Malus_domestica_Norway_2013","Close4","observations","Apis_mellifera","species","honeybees",2,NA,NA,6000,"In each field abundance and richness of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least four dates during the main flowering period. Visitation rates were measured by observing a fixed number of open flowers and counting the number of those that are visited by a pollinator.",NA
"Jens_Astrom_Malus_domestica_Norway_2013","Close4","observations","Apis_mellifera","species","honeybees",6,NA,NA,6000,"In each field abundance and richness of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least four dates during the main flowering period. Visitation rates were measured by observing a fixed number of open flowers and counting the number of those that are visited by a pollinator.",NA
"Jens_Astrom_Malus_domestica_Norway_2013","Close4","observations","Apis_mellifera","species","honeybees",4,NA,NA,6000,"In each field abundance and richness of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least four dates during the main flowering period. Visitation rates were measured by observing a fixed number of open flowers and counting the number of those that are visited by a pollinator.",NA
"Jens_Astrom_Malus_domestica_Norway_2013","Dist2","observations","Apis_mellifera","species","honeybees",1,NA,NA,6000,"In each field abundance and richness of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least four dates during the main flowering period. Visitation rates were measured by observing a fixed number of open flowers and counting the number of those that are visited by a pollinator.",NA
"Jens_Astrom_Malus_domestica_Norway_2013","Dist2","observations","Apis_mellifera","species","honeybees",5,NA,NA,6000,"In each field abundance and richness of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least four dates during the main flowering period. Visitation rates were measured by observing a fixed number of open flowers and counting the number of those that are visited by a pollinator.",NA
"Jens_Astrom_Malus_domestica_Norway_2013","Dist2","observations","Apis_mellifera","species","honeybees",4,NA,NA,6000,"In each field abundance and richness of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least four dates during the main flowering period. Visitation rates were measured by observing a fixed number of open flowers and counting the number of those that are visited by a pollinator.",NA
"Jens_Astrom_Malus_domestica_Norway_2013","Dist2","observations","Apis_mellifera","species","honeybees",1,NA,NA,6000,"In each field abundance and richness of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least four dates during the main flowering period. Visitation rates were measured by observing a fixed number of open flowers and counting the number of those that are visited by a pollinator.",NA
"Jens_Astrom_Malus_domestica_Norway_2013","Dist2","observations","Apis_mellifera","species","honeybees",1,NA,NA,6000,"In each field abundance and richness of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least four dates during the main flowering period. Visitation rates were measured by observing a fixed number of open flowers and counting the number of those that are visited by a pollinator.",NA
"Jens_Astrom_Malus_domestica_Norway_2013","Dist2","observations","Apis_mellifera","species","honeybees",1,NA,NA,6000,"In each field abundance and richness of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least four dates during the main flowering period. Visitation rates were measured by observing a fixed number of open flowers and counting the number of those that are visited by a pollinator.",NA
"Jens_Astrom_Malus_domestica_Norway_2013","Dist2","observations","Apis_mellifera","species","honeybees",2,NA,NA,6000,"In each field abundance and richness of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least four dates during the main flowering period. Visitation rates were measured by observing a fixed number of open flowers and counting the number of those that are visited by a pollinator.",NA
"Jens_Astrom_Malus_domestica_Norway_2013","Dist2","observations","Apis_mellifera","species","honeybees",6,NA,NA,6000,"In each field abundance and richness of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least four dates during the main flowering period. Visitation rates were measured by observing a fixed number of open flowers and counting the number of those that are visited by a pollinator.",NA
"Jens_Astrom_Malus_domestica_Norway_2013","Dist3","observations","Apis_mellifera","species","honeybees",3,NA,NA,6000,"In each field abundance and richness of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least four dates during the main flowering period. Visitation rates were measured by observing a fixed number of open flowers and counting the number of those that are visited by a pollinator.",NA
"Jens_Astrom_Malus_domestica_Norway_2013","Dist3","observations","Apis_mellifera","species","honeybees",4,NA,NA,6000,"In each field abundance and richness of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least four dates during the main flowering period. Visitation rates were measured by observing a fixed number of open flowers and counting the number of those that are visited by a pollinator.",NA
"Jens_Astrom_Malus_domestica_Norway_2013","Dist3","observations","Apis_mellifera","species","honeybees",5,NA,NA,6000,"In each field abundance and richness of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least four dates during the main flowering period. Visitation rates were measured by observing a fixed number of open flowers and counting the number of those that are visited by a pollinator.",NA
"Jens_Astrom_Malus_domestica_Norway_2013","Dist3","observations","Apis_mellifera","species","honeybees",1,NA,NA,6000,"In each field abundance and richness of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least four dates during the main flowering period. Visitation rates were measured by observing a fixed number of open flowers and counting the number of those that are visited by a pollinator.",NA
"Jens_Astrom_Malus_domestica_Norway_2013","Dist3","observations","Apis_mellifera","species","honeybees",1,NA,NA,6000,"In each field abundance and richness of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least four dates during the main flowering period. Visitation rates were measured by observing a fixed number of open flowers and counting the number of those that are visited by a pollinator.",NA
"Jens_Astrom_Malus_domestica_Norway_2013","Dist3","observations","Apis_mellifera","species","honeybees",4,NA,NA,6000,"In each field abundance and richness of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least four dates during the main flowering period. Visitation rates were measured by observing a fixed number of open flowers and counting the number of those that are visited by a pollinator.",NA
"Jens_Astrom_Malus_domestica_Norway_2013","Dist3","observations","Apis_mellifera","species","honeybees",1,NA,NA,6000,"In each field abundance and richness of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least four dates during the main flowering period. Visitation rates were measured by observing a fixed number of open flowers and counting the number of those that are visited by a pollinator.",NA
"Jens_Astrom_Malus_domestica_Norway_2013","Dist3","observations","Apis_mellifera","species","honeybees",2,NA,NA,6000,"In each field abundance and richness of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least four dates during the main flowering period. Visitation rates were measured by observing a fixed number of open flowers and counting the number of those that are visited by a pollinator.",NA
"Jens_Astrom_Malus_domestica_Norway_2013","Dist4","observations","Apis_mellifera","species","honeybees",3,NA,NA,6000,"In each field abundance and richness of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least four dates during the main flowering period. Visitation rates were measured by observing a fixed number of open flowers and counting the number of those that are visited by a pollinator.",NA
"Jens_Astrom_Malus_domestica_Norway_2013","Dist4","observations","Apis_mellifera","species","honeybees",7,NA,NA,6000,"In each field abundance and richness of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least four dates during the main flowering period. Visitation rates were measured by observing a fixed number of open flowers and counting the number of those that are visited by a pollinator.",NA
"Jens_Astrom_Malus_domestica_Norway_2013","Dist4","observations","Apis_mellifera","species","honeybees",15,NA,NA,6000,"In each field abundance and richness of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least four dates during the main flowering period. Visitation rates were measured by observing a fixed number of open flowers and counting the number of those that are visited by a pollinator.",NA
"Jens_Astrom_Malus_domestica_Norway_2013","Dist4","observations","Apis_mellifera","species","honeybees",3,NA,NA,6000,"In each field abundance and richness of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least four dates during the main flowering period. Visitation rates were measured by observing a fixed number of open flowers and counting the number of those that are visited by a pollinator.",NA
"Jens_Astrom_Malus_domestica_Norway_2013","Dist4","observations","Apis_mellifera","species","honeybees",6,NA,NA,6000,"In each field abundance and richness of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least four dates during the main flowering period. Visitation rates were measured by observing a fixed number of open flowers and counting the number of those that are visited by a pollinator.",NA
"Jens_Astrom_Malus_domestica_Norway_2013","Dist4","observations","Apis_mellifera","species","honeybees",4,NA,NA,6000,"In each field abundance and richness of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least four dates during the main flowering period. Visitation rates were measured by observing a fixed number of open flowers and counting the number of those that are visited by a pollinator.",NA
"Jens_Astrom_Malus_domestica_Norway_2013","Dist4","observations","Apis_mellifera","species","honeybees",5,NA,NA,6000,"In each field abundance and richness of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least four dates during the main flowering period. Visitation rates were measured by observing a fixed number of open flowers and counting the number of those that are visited by a pollinator.",NA
"Jens_Astrom_Malus_domestica_Norway_2013","Dist4","observations","Apis_mellifera","species","honeybees",6,NA,NA,6000,"In each field abundance and richness of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least four dates during the main flowering period. Visitation rates were measured by observing a fixed number of open flowers and counting the number of those that are visited by a pollinator.",NA
"Jens_Astrom_Malus_domestica_Norway_2013","Dist4","observations","Apis_mellifera","species","honeybees",4,NA,NA,6000,"In each field abundance and richness of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least four dates during the main flowering period. Visitation rates were measured by observing a fixed number of open flowers and counting the number of those that are visited by a pollinator.",NA
"Jens_Astrom_Malus_domestica_Norway_2013","Dist4","observations","Apis_mellifera","species","honeybees",4,NA,NA,6000,"In each field abundance and richness of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least four dates during the main flowering period. Visitation rates were measured by observing a fixed number of open flowers and counting the number of those that are visited by a pollinator.",NA
"Jens_Astrom_Malus_domestica_Norway_2013","Dist4","observations","Apis_mellifera","species","honeybees",5,NA,NA,6000,"In each field abundance and richness of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least four dates during the main flowering period. Visitation rates were measured by observing a fixed number of open flowers and counting the number of those that are visited by a pollinator.",NA
"Jens_Astrom_Malus_domestica_Norway_2013","Dist4","observations","Apis_mellifera","species","honeybees",9,NA,NA,6000,"In each field abundance and richness of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least four dates during the main flowering period. Visitation rates were measured by observing a fixed number of open flowers and counting the number of those that are visited by a pollinator.",NA
"Jens_Astrom_Malus_domestica_Norway_2013","Dist4","observations","Apis_mellifera","species","honeybees",18,NA,NA,6000,"In each field abundance and richness of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least four dates during the main flowering period. Visitation rates were measured by observing a fixed number of open flowers and counting the number of those that are visited by a pollinator.",NA
"Jens_Astrom_Malus_domestica_Norway_2013","Dist4","observations","Apis_mellifera","species","honeybees",14,NA,NA,6000,"In each field abundance and richness of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least four dates during the main flowering period. Visitation rates were measured by observing a fixed number of open flowers and counting the number of those that are visited by a pollinator.",NA
"Jens_Astrom_Malus_domestica_Norway_2013","Dist4","observations","Apis_mellifera","species","honeybees",12,NA,NA,6000,"In each field abundance and richness of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least four dates during the main flowering period. Visitation rates were measured by observing a fixed number of open flowers and counting the number of those that are visited by a pollinator.",NA
"Jens_Astrom_Malus_domestica_Norway_2013","Dist4","observations","Apis_mellifera","species","honeybees",3,NA,NA,6000,"In each field abundance and richness of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least four dates during the main flowering period. Visitation rates were measured by observing a fixed number of open flowers and counting the number of those that are visited by a pollinator.",NA
"Jens_Astrom_Malus_domestica_Norway_2013","Dist5","observations","Apis_mellifera","species","honeybees",1,NA,NA,6000,"In each field abundance and richness of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least four dates during the main flowering period. Visitation rates were measured by observing a fixed number of open flowers and counting the number of those that are visited by a pollinator.",NA
"Jens_Astrom_Malus_domestica_Norway_2013","Dist5","observations","Apis_mellifera","species","honeybees",2,NA,NA,6000,"In each field abundance and richness of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least four dates during the main flowering period. Visitation rates were measured by observing a fixed number of open flowers and counting the number of those that are visited by a pollinator.",NA
"Jens_Astrom_Malus_domestica_Norway_2013","Dist5","observations","Apis_mellifera","species","honeybees",2,NA,NA,6000,"In each field abundance and richness of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least four dates during the main flowering period. Visitation rates were measured by observing a fixed number of open flowers and counting the number of those that are visited by a pollinator.",NA
"Jens_Astrom_Malus_domestica_Norway_2013","Dist5","observations","Apis_mellifera","species","honeybees",1,NA,NA,6000,"In each field abundance and richness of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least four dates during the main flowering period. Visitation rates were measured by observing a fixed number of open flowers and counting the number of those that are visited by a pollinator.",NA
"Jens_Astrom_Malus_domestica_Norway_2013","Dist5","observations","Apis_mellifera","species","honeybees",1,NA,NA,6000,"In each field abundance and richness of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least four dates during the main flowering period. Visitation rates were measured by observing a fixed number of open flowers and counting the number of those that are visited by a pollinator.",NA
"Jens_Astrom_Malus_domestica_Norway_2013","Dist5","observations","Apis_mellifera","species","honeybees",1,NA,NA,6000,"In each field abundance and richness of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least four dates during the main flowering period. Visitation rates were measured by observing a fixed number of open flowers and counting the number of those that are visited by a pollinator.",NA
"Jens_Astrom_Malus_domestica_Norway_2013","Med1","observations","Apis_mellifera","species","honeybees",6,NA,NA,6000,"In each field abundance and richness of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least four dates during the main flowering period. Visitation rates were measured by observing a fixed number of open flowers and counting the number of those that are visited by a pollinator.",NA
"Jens_Astrom_Malus_domestica_Norway_2013","Med1","observations","Apis_mellifera","species","honeybees",3,NA,NA,6000,"In each field abundance and richness of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least four dates during the main flowering period. Visitation rates were measured by observing a fixed number of open flowers and counting the number of those that are visited by a pollinator.",NA
"Jens_Astrom_Malus_domestica_Norway_2013","Med1","observations","Apis_mellifera","species","honeybees",10,NA,NA,6000,"In each field abundance and richness of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least four dates during the main flowering period. Visitation rates were measured by observing a fixed number of open flowers and counting the number of those that are visited by a pollinator.",NA
"Jens_Astrom_Malus_domestica_Norway_2013","Med1","observations","Apis_mellifera","species","honeybees",1,NA,NA,6000,"In each field abundance and richness of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least four dates during the main flowering period. Visitation rates were measured by observing a fixed number of open flowers and counting the number of those that are visited by a pollinator.",NA
"Jens_Astrom_Malus_domestica_Norway_2013","Med1","observations","Apis_mellifera","species","honeybees",5,NA,NA,6000,"In each field abundance and richness of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least four dates during the main flowering period. Visitation rates were measured by observing a fixed number of open flowers and counting the number of those that are visited by a pollinator.",NA
"Jens_Astrom_Malus_domestica_Norway_2013","Med1","observations","Apis_mellifera","species","honeybees",7,NA,NA,6000,"In each field abundance and richness of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least four dates during the main flowering period. Visitation rates were measured by observing a fixed number of open flowers and counting the number of those that are visited by a pollinator.",NA
"Jens_Astrom_Malus_domestica_Norway_2013","Med2","observations","Apis_mellifera","species","honeybees",1,NA,NA,6000,"In each field abundance and richness of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least four dates during the main flowering period. Visitation rates were measured by observing a fixed number of open flowers and counting the number of those that are visited by a pollinator.",NA
"Jens_Astrom_Malus_domestica_Norway_2013","Med2","observations","Apis_mellifera","species","honeybees",2,NA,NA,6000,"In each field abundance and richness of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least four dates during the main flowering period. Visitation rates were measured by observing a fixed number of open flowers and counting the number of those that are visited by a pollinator.",NA
"Jens_Astrom_Malus_domestica_Norway_2013","Med2","observations","Apis_mellifera","species","honeybees",3,NA,NA,6000,"In each field abundance and richness of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least four dates during the main flowering period. Visitation rates were measured by observing a fixed number of open flowers and counting the number of those that are visited by a pollinator.",NA
"Jens_Astrom_Malus_domestica_Norway_2013","Med2","observations","Apis_mellifera","species","honeybees",2,NA,NA,6000,"In each field abundance and richness of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least four dates during the main flowering period. Visitation rates were measured by observing a fixed number of open flowers and counting the number of those that are visited by a pollinator.",NA
"Jens_Astrom_Malus_domestica_Norway_2013","Med2","observations","Apis_mellifera","species","honeybees",3,NA,NA,6000,"In each field abundance and richness of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least four dates during the main flowering period. Visitation rates were measured by observing a fixed number of open flowers and counting the number of those that are visited by a pollinator.",NA
"Jens_Astrom_Malus_domestica_Norway_2013","Med2","observations","Apis_mellifera","species","honeybees",3,NA,NA,6000,"In each field abundance and richness of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least four dates during the main flowering period. Visitation rates were measured by observing a fixed number of open flowers and counting the number of those that are visited by a pollinator.",NA
"Jens_Astrom_Malus_domestica_Norway_2013","Med2","observations","Apis_mellifera","species","honeybees",1,NA,NA,6000,"In each field abundance and richness of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least four dates during the main flowering period. Visitation rates were measured by observing a fixed number of open flowers and counting the number of those that are visited by a pollinator.",NA
"Jens_Astrom_Malus_domestica_Norway_2013","Med2","observations","Apis_mellifera","species","honeybees",2,NA,NA,6000,"In each field abundance and richness of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least four dates during the main flowering period. Visitation rates were measured by observing a fixed number of open flowers and counting the number of those that are visited by a pollinator.",NA
"Jens_Astrom_Malus_domestica_Norway_2013","Med2","observations","Apis_mellifera","species","honeybees",2,NA,NA,6000,"In each field abundance and richness of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least four dates during the main flowering period. Visitation rates were measured by observing a fixed number of open flowers and counting the number of those that are visited by a pollinator.",NA
"Jens_Astrom_Malus_domestica_Norway_2013","Med3","observations","Apis_mellifera","species","honeybees",3,NA,NA,6000,"In each field abundance and richness of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least four dates during the main flowering period. Visitation rates were measured by observing a fixed number of open flowers and counting the number of those that are visited by a pollinator.",NA
"Jens_Astrom_Malus_domestica_Norway_2013","Med3","observations","Apis_mellifera","species","honeybees",3,NA,NA,6000,"In each field abundance and richness of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least four dates during the main flowering period. Visitation rates were measured by observing a fixed number of open flowers and counting the number of those that are visited by a pollinator.",NA
"Jens_Astrom_Malus_domestica_Norway_2013","Med3","observations","Apis_mellifera","species","honeybees",2,NA,NA,6000,"In each field abundance and richness of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least four dates during the main flowering period. Visitation rates were measured by observing a fixed number of open flowers and counting the number of those that are visited by a pollinator.",NA
"Jens_Astrom_Malus_domestica_Norway_2013","Med3","observations","Apis_mellifera","species","honeybees",4,NA,NA,6000,"In each field abundance and richness of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least four dates during the main flowering period. Visitation rates were measured by observing a fixed number of open flowers and counting the number of those that are visited by a pollinator.",NA
"Jens_Astrom_Malus_domestica_Norway_2013","Med3","observations","Apis_mellifera","species","honeybees",2,NA,NA,6000,"In each field abundance and richness of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least four dates during the main flowering period. Visitation rates were measured by observing a fixed number of open flowers and counting the number of those that are visited by a pollinator.",NA
"Jens_Astrom_Malus_domestica_Norway_2013","Med3","observations","Apis_mellifera","species","honeybees",1,NA,NA,6000,"In each field abundance and richness of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least four dates during the main flowering period. Visitation rates were measured by observing a fixed number of open flowers and counting the number of those that are visited by a pollinator.",NA
"Jens_Astrom_Malus_domestica_Norway_2013","Med3","observations","Apis_mellifera","species","honeybees",5,NA,NA,6000,"In each field abundance and richness of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least four dates during the main flowering period. Visitation rates were measured by observing a fixed number of open flowers and counting the number of those that are visited by a pollinator.",NA
"Jens_Astrom_Malus_domestica_Norway_2013","Med3","observations","Apis_mellifera","species","honeybees",1,NA,NA,6000,"In each field abundance and richness of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least four dates during the main flowering period. Visitation rates were measured by observing a fixed number of open flowers and counting the number of those that are visited by a pollinator.",NA
"Jens_Astrom_Malus_domestica_Norway_2013","Med3","observations","Apis_mellifera","species","honeybees",1,NA,NA,6000,"In each field abundance and richness of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least four dates during the main flowering period. Visitation rates were measured by observing a fixed number of open flowers and counting the number of those that are visited by a pollinator.",NA
"Jens_Astrom_Malus_domestica_Norway_2013","Med3","observations","Apis_mellifera","species","honeybees",4,NA,NA,6000,"In each field abundance and richness of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least four dates during the main flowering period. Visitation rates were measured by observing a fixed number of open flowers and counting the number of those that are visited by a pollinator.",NA
"Jens_Astrom_Malus_domestica_Norway_2013","Med3","observations","Apis_mellifera","species","honeybees",2,NA,NA,6000,"In each field abundance and richness of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least four dates during the main flowering period. Visitation rates were measured by observing a fixed number of open flowers and counting the number of those that are visited by a pollinator.",NA
"Jens_Astrom_Malus_domestica_Norway_2013","Med4","observations","Apis_mellifera","species","honeybees",5,NA,NA,6000,"In each field abundance and richness of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least four dates during the main flowering period. Visitation rates were measured by observing a fixed number of open flowers and counting the number of those that are visited by a pollinator.",NA
"Jens_Astrom_Malus_domestica_Norway_2013","Med4","observations","Apis_mellifera","species","honeybees",14,NA,NA,6000,"In each field abundance and richness of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least four dates during the main flowering period. Visitation rates were measured by observing a fixed number of open flowers and counting the number of those that are visited by a pollinator.",NA
"Jens_Astrom_Malus_domestica_Norway_2013","Med4","observations","Apis_mellifera","species","honeybees",3,NA,NA,6000,"In each field abundance and richness of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least four dates during the main flowering period. Visitation rates were measured by observing a fixed number of open flowers and counting the number of those that are visited by a pollinator.",NA
"Jens_Astrom_Malus_domestica_Norway_2013","Med4","observations","Apis_mellifera","species","honeybees",4,NA,NA,6000,"In each field abundance and richness of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least four dates during the main flowering period. Visitation rates were measured by observing a fixed number of open flowers and counting the number of those that are visited by a pollinator.",NA
"Jens_Astrom_Malus_domestica_Norway_2013","Med4","observations","Apis_mellifera","species","honeybees",4,NA,NA,6000,"In each field abundance and richness of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least four dates during the main flowering period. Visitation rates were measured by observing a fixed number of open flowers and counting the number of those that are visited by a pollinator.",NA
"Jens_Astrom_Malus_domestica_Norway_2013","Med4","observations","Apis_mellifera","species","honeybees",6,NA,NA,6000,"In each field abundance and richness of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least four dates during the main flowering period. Visitation rates were measured by observing a fixed number of open flowers and counting the number of those that are visited by a pollinator.",NA
"Jens_Astrom_Malus_domestica_Norway_2013","Med4","observations","Apis_mellifera","species","honeybees",1,NA,NA,6000,"In each field abundance and richness of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least four dates during the main flowering period. Visitation rates were measured by observing a fixed number of open flowers and counting the number of those that are visited by a pollinator.",NA
"Jens_Astrom_Malus_domestica_Norway_2013","Med4","observations","Apis_mellifera","species","honeybees",5,NA,NA,6000,"In each field abundance and richness of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least four dates during the main flowering period. Visitation rates were measured by observing a fixed number of open flowers and counting the number of those that are visited by a pollinator.",NA
"Jens_Astrom_Malus_domestica_Norway_2013","Med4","observations","Apis_mellifera","species","honeybees",4,NA,NA,6000,"In each field abundance and richness of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least four dates during the main flowering period. Visitation rates were measured by observing a fixed number of open flowers and counting the number of those that are visited by a pollinator.",NA
"Jens_Astrom_Malus_domestica_Norway_2013","Med4","observations","Apis_mellifera","species","honeybees",3,NA,NA,6000,"In each field abundance and richness of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least four dates during the main flowering period. Visitation rates were measured by observing a fixed number of open flowers and counting the number of those that are visited by a pollinator.",NA
"Jens_Astrom_Malus_domestica_Norway_2013","Med4","observations","Apis_mellifera","species","honeybees",1,NA,NA,6000,"In each field abundance and richness of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least four dates during the main flowering period. Visitation rates were measured by observing a fixed number of open flowers and counting the number of those that are visited by a pollinator.",NA
"Jens_Astrom_Malus_domestica_Norway_2013","Med4","observations","Apis_mellifera","species","honeybees",3,NA,NA,6000,"In each field abundance and richness of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least four dates during the main flowering period. Visitation rates were measured by observing a fixed number of open flowers and counting the number of those that are visited by a pollinator.",NA
"Jens_Astrom_Malus_domestica_Norway_2013","Med4","observations","Apis_mellifera","species","honeybees",1,NA,NA,6000,"In each field abundance and richness of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least four dates during the main flowering period. Visitation rates were measured by observing a fixed number of open flowers and counting the number of those that are visited by a pollinator.",NA
"Jens_Astrom_Malus_domestica_Norway_2013","Med4","observations","Apis_mellifera","species","honeybees",5,NA,NA,6000,"In each field abundance and richness of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least four dates during the main flowering period. Visitation rates were measured by observing a fixed number of open flowers and counting the number of those that are visited by a pollinator.",NA
"Jens_Astrom_Malus_domestica_Norway_2013","Med4","observations","Apis_mellifera","species","honeybees",1,NA,NA,6000,"In each field abundance and richness of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least four dates during the main flowering period. Visitation rates were measured by observing a fixed number of open flowers and counting the number of those that are visited by a pollinator.",NA
"Jens_Astrom_Malus_domestica_Norway_2013","Med4","observations","Apis_mellifera","species","honeybees",1,NA,NA,6000,"In each field abundance and richness of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least four dates during the main flowering period. Visitation rates were measured by observing a fixed number of open flowers and counting the number of those that are visited by a pollinator.",NA
"Jens_Astrom_Malus_domestica_Norway_2013","Med5","observations","Apis_mellifera","species","honeybees",5,NA,NA,6000,"In each field abundance and richness of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least four dates during the main flowering period. Visitation rates were measured by observing a fixed number of open flowers and counting the number of those that are visited by a pollinator.",NA
"Jens_Astrom_Malus_domestica_Norway_2013","Med5","observations","Apis_mellifera","species","honeybees",5,NA,NA,6000,"In each field abundance and richness of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least four dates during the main flowering period. Visitation rates were measured by observing a fixed number of open flowers and counting the number of those that are visited by a pollinator.",NA
"Jens_Astrom_Malus_domestica_Norway_2013","Med5","observations","Apis_mellifera","species","honeybees",6,NA,NA,6000,"In each field abundance and richness of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least four dates during the main flowering period. Visitation rates were measured by observing a fixed number of open flowers and counting the number of those that are visited by a pollinator.",NA
"Jens_Astrom_Malus_domestica_Norway_2013","Med5","observations","Apis_mellifera","species","honeybees",4,NA,NA,6000,"In each field abundance and richness of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least four dates during the main flowering period. Visitation rates were measured by observing a fixed number of open flowers and counting the number of those that are visited by a pollinator.",NA
"Jens_Astrom_Malus_domestica_Norway_2013","Med5","observations","Apis_mellifera","species","honeybees",7,NA,NA,6000,"In each field abundance and richness of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least four dates during the main flowering period. Visitation rates were measured by observing a fixed number of open flowers and counting the number of those that are visited by a pollinator.",NA
"Jens_Astrom_Malus_domestica_Norway_2013","Med5","observations","Apis_mellifera","species","honeybees",1,NA,NA,6000,"In each field abundance and richness of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least four dates during the main flowering period. Visitation rates were measured by observing a fixed number of open flowers and counting the number of those that are visited by a pollinator.",NA
"Jens_Astrom_Malus_domestica_Norway_2013","Med5","observations","Apis_mellifera","species","honeybees",3,NA,NA,6000,"In each field abundance and richness of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least four dates during the main flowering period. Visitation rates were measured by observing a fixed number of open flowers and counting the number of those that are visited by a pollinator.",NA
"Jens_Astrom_Malus_domestica_Norway_2013","Close1","observations","Bombus_spp.","genus","bumblebees",1,NA,NA,6000,"In each field abundance and richness of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least four dates during the main flowering period. Visitation rates were measured by observing a fixed number of open flowers and counting the number of those that are visited by a pollinator.",NA
"Jens_Astrom_Malus_domestica_Norway_2013","Close1","observations","Bombus_spp.","genus","bumblebees",1,NA,NA,6000,"In each field abundance and richness of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least four dates during the main flowering period. Visitation rates were measured by observing a fixed number of open flowers and counting the number of those that are visited by a pollinator.",NA
"Jens_Astrom_Malus_domestica_Norway_2013","Close3","observations","Bombus_spp.","genus","bumblebees",1,NA,NA,6000,"In each field abundance and richness of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least four dates during the main flowering period. Visitation rates were measured by observing a fixed number of open flowers and counting the number of those that are visited by a pollinator.",NA
"Jens_Astrom_Malus_domestica_Norway_2013","Close4","observations","Bombus_spp.","genus","bumblebees",3,NA,NA,6000,"In each field abundance and richness of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least four dates during the main flowering period. Visitation rates were measured by observing a fixed number of open flowers and counting the number of those that are visited by a pollinator.",NA
"Jens_Astrom_Malus_domestica_Norway_2013","Dist2","observations","Bombus_spp.","genus","bumblebees",2,NA,NA,6000,"In each field abundance and richness of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least four dates during the main flowering period. Visitation rates were measured by observing a fixed number of open flowers and counting the number of those that are visited by a pollinator.",NA
"Jens_Astrom_Malus_domestica_Norway_2013","Dist2","observations","Bombus_spp.","genus","bumblebees",3,NA,NA,6000,"In each field abundance and richness of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least four dates during the main flowering period. Visitation rates were measured by observing a fixed number of open flowers and counting the number of those that are visited by a pollinator.",NA
"Jens_Astrom_Malus_domestica_Norway_2013","Dist2","observations","Bombus_spp.","genus","bumblebees",3,NA,NA,6000,"In each field abundance and richness of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least four dates during the main flowering period. Visitation rates were measured by observing a fixed number of open flowers and counting the number of those that are visited by a pollinator.",NA
"Jens_Astrom_Malus_domestica_Norway_2013","Dist2","observations","Bombus_spp.","genus","bumblebees",2,NA,NA,6000,"In each field abundance and richness of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least four dates during the main flowering period. Visitation rates were measured by observing a fixed number of open flowers and counting the number of those that are visited by a pollinator.",NA
"Jens_Astrom_Malus_domestica_Norway_2013","Dist2","observations","Bombus_spp.","genus","bumblebees",2,NA,NA,6000,"In each field abundance and richness of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least four dates during the main flowering period. Visitation rates were measured by observing a fixed number of open flowers and counting the number of those that are visited by a pollinator.",NA
"Jens_Astrom_Malus_domestica_Norway_2013","Dist2","observations","Bombus_spp.","genus","bumblebees",1,NA,NA,6000,"In each field abundance and richness of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least four dates during the main flowering period. Visitation rates were measured by observing a fixed number of open flowers and counting the number of those that are visited by a pollinator.",NA
"Jens_Astrom_Malus_domestica_Norway_2013","Dist2","observations","Bombus_spp.","genus","bumblebees",2,NA,NA,6000,"In each field abundance and richness of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least four dates during the main flowering period. Visitation rates were measured by observing a fixed number of open flowers and counting the number of those that are visited by a pollinator.",NA
"Jens_Astrom_Malus_domestica_Norway_2013","Dist2","observations","Bombus_spp.","genus","bumblebees",2,NA,NA,6000,"In each field abundance and richness of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least four dates during the main flowering period. Visitation rates were measured by observing a fixed number of open flowers and counting the number of those that are visited by a pollinator.",NA
"Jens_Astrom_Malus_domestica_Norway_2013","Dist2","observations","Bombus_spp.","genus","bumblebees",1,NA,NA,6000,"In each field abundance and richness of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least four dates during the main flowering period. Visitation rates were measured by observing a fixed number of open flowers and counting the number of those that are visited by a pollinator.",NA
"Jens_Astrom_Malus_domestica_Norway_2013","Dist2","observations","Bombus_spp.","genus","bumblebees",1,NA,NA,6000,"In each field abundance and richness of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least four dates during the main flowering period. Visitation rates were measured by observing a fixed number of open flowers and counting the number of those that are visited by a pollinator.",NA
"Jens_Astrom_Malus_domestica_Norway_2013","Dist4","observations","Bombus_spp.","genus","bumblebees",1,NA,NA,6000,"In each field abundance and richness of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least four dates during the main flowering period. Visitation rates were measured by observing a fixed number of open flowers and counting the number of those that are visited by a pollinator.",NA
"Jens_Astrom_Malus_domestica_Norway_2013","Dist4","observations","Bombus_spp.","genus","bumblebees",1,NA,NA,6000,"In each field abundance and richness of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least four dates during the main flowering period. Visitation rates were measured by observing a fixed number of open flowers and counting the number of those that are visited by a pollinator.",NA
"Jens_Astrom_Malus_domestica_Norway_2013","Dist4","observations","Bombus_spp.","genus","bumblebees",1,NA,NA,6000,"In each field abundance and richness of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least four dates during the main flowering period. Visitation rates were measured by observing a fixed number of open flowers and counting the number of those that are visited by a pollinator.",NA
"Jens_Astrom_Malus_domestica_Norway_2013","Dist4","observations","Bombus_spp.","genus","bumblebees",1,NA,NA,6000,"In each field abundance and richness of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least four dates during the main flowering period. Visitation rates were measured by observing a fixed number of open flowers and counting the number of those that are visited by a pollinator.",NA
"Jens_Astrom_Malus_domestica_Norway_2013","Dist4","observations","Bombus_spp.","genus","bumblebees",1,NA,NA,6000,"In each field abundance and richness of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least four dates during the main flowering period. Visitation rates were measured by observing a fixed number of open flowers and counting the number of those that are visited by a pollinator.",NA
"Jens_Astrom_Malus_domestica_Norway_2013","Dist4","observations","Bombus_spp.","genus","bumblebees",3,NA,NA,6000,"In each field abundance and richness of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least four dates during the main flowering period. Visitation rates were measured by observing a fixed number of open flowers and counting the number of those that are visited by a pollinator.",NA
"Jens_Astrom_Malus_domestica_Norway_2013","Dist4","observations","Bombus_spp.","genus","bumblebees",2,NA,NA,6000,"In each field abundance and richness of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least four dates during the main flowering period. Visitation rates were measured by observing a fixed number of open flowers and counting the number of those that are visited by a pollinator.",NA
"Jens_Astrom_Malus_domestica_Norway_2013","Dist5","observations","Bombus_spp.","genus","bumblebees",2,NA,NA,6000,"In each field abundance and richness of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least four dates during the main flowering period. Visitation rates were measured by observing a fixed number of open flowers and counting the number of those that are visited by a pollinator.",NA
"Jens_Astrom_Malus_domestica_Norway_2013","Dist5","observations","Bombus_spp.","genus","bumblebees",1,NA,NA,6000,"In each field abundance and richness of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least four dates during the main flowering period. Visitation rates were measured by observing a fixed number of open flowers and counting the number of those that are visited by a pollinator.",NA
"Jens_Astrom_Malus_domestica_Norway_2013","Dist5","observations","Bombus_spp.","genus","bumblebees",1,NA,NA,6000,"In each field abundance and richness of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least four dates during the main flowering period. Visitation rates were measured by observing a fixed number of open flowers and counting the number of those that are visited by a pollinator.",NA
"Jens_Astrom_Malus_domestica_Norway_2013","Dist5","observations","Bombus_spp.","genus","bumblebees",1,NA,NA,6000,"In each field abundance and richness of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least four dates during the main flowering period. Visitation rates were measured by observing a fixed number of open flowers and counting the number of those that are visited by a pollinator.",NA
"Jens_Astrom_Malus_domestica_Norway_2013","Dist5","observations","Bombus_spp.","genus","bumblebees",1,NA,NA,6000,"In each field abundance and richness of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least four dates during the main flowering period. Visitation rates were measured by observing a fixed number of open flowers and counting the number of those that are visited by a pollinator.",NA
"Jens_Astrom_Malus_domestica_Norway_2013","Dist5","observations","Bombus_spp.","genus","bumblebees",1,NA,NA,6000,"In each field abundance and richness of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least four dates during the main flowering period. Visitation rates were measured by observing a fixed number of open flowers and counting the number of those that are visited by a pollinator.",NA
"Jens_Astrom_Malus_domestica_Norway_2013","Med1","observations","Bombus_spp.","genus","bumblebees",1,NA,NA,6000,"In each field abundance and richness of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least four dates during the main flowering period. Visitation rates were measured by observing a fixed number of open flowers and counting the number of those that are visited by a pollinator.",NA
"Jens_Astrom_Malus_domestica_Norway_2013","Med1","observations","Bombus_spp.","genus","bumblebees",1,NA,NA,6000,"In each field abundance and richness of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least four dates during the main flowering period. Visitation rates were measured by observing a fixed number of open flowers and counting the number of those that are visited by a pollinator.",NA
"Jens_Astrom_Malus_domestica_Norway_2013","Med4","observations","Bombus_spp.","genus","bumblebees",1,NA,NA,6000,"In each field abundance and richness of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least four dates during the main flowering period. Visitation rates were measured by observing a fixed number of open flowers and counting the number of those that are visited by a pollinator.",NA
"Jens_Astrom_Malus_domestica_Norway_2013","Close1","observations","Syrphidae_spp.","family","syrphids",3,NA,NA,6000,"In each field abundance and richness of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least four dates during the main flowering period. Visitation rates were measured by observing a fixed number of open flowers and counting the number of those that are visited by a pollinator.",NA
"Jens_Astrom_Malus_domestica_Norway_2013","Close1","observations","Syrphidae_spp.","family","syrphids",1,NA,NA,6000,"In each field abundance and richness of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least four dates during the main flowering period. Visitation rates were measured by observing a fixed number of open flowers and counting the number of those that are visited by a pollinator.",NA
"Jens_Astrom_Malus_domestica_Norway_2013","Close1","observations","Syrphidae_spp.","family","syrphids",1,NA,NA,6000,"In each field abundance and richness of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least four dates during the main flowering period. Visitation rates were measured by observing a fixed number of open flowers and counting the number of those that are visited by a pollinator.",NA
"Jens_Astrom_Malus_domestica_Norway_2013","Close1","observations","Syrphidae_spp.","family","syrphids",1,NA,NA,6000,"In each field abundance and richness of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least four dates during the main flowering period. Visitation rates were measured by observing a fixed number of open flowers and counting the number of those that are visited by a pollinator.",NA
"Jens_Astrom_Malus_domestica_Norway_2013","Close1","observations","Syrphidae_spp.","family","syrphids",2,NA,NA,6000,"In each field abundance and richness of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least four dates during the main flowering period. Visitation rates were measured by observing a fixed number of open flowers and counting the number of those that are visited by a pollinator.",NA
"Jens_Astrom_Malus_domestica_Norway_2013","Close2","observations","Syrphidae_spp.","family","syrphids",1,NA,NA,6000,"In each field abundance and richness of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least four dates during the main flowering period. Visitation rates were measured by observing a fixed number of open flowers and counting the number of those that are visited by a pollinator.",NA
"Jens_Astrom_Malus_domestica_Norway_2013","Close2","observations","Syrphidae_spp.","family","syrphids",1,NA,NA,6000,"In each field abundance and richness of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least four dates during the main flowering period. Visitation rates were measured by observing a fixed number of open flowers and counting the number of those that are visited by a pollinator.",NA
"Jens_Astrom_Malus_domestica_Norway_2013","Close3","observations","Syrphidae_spp.","family","syrphids",1,NA,NA,6000,"In each field abundance and richness of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least four dates during the main flowering period. Visitation rates were measured by observing a fixed number of open flowers and counting the number of those that are visited by a pollinator.",NA
"Jens_Astrom_Malus_domestica_Norway_2013","Close3","observations","Syrphidae_spp.","family","syrphids",1,NA,NA,6000,"In each field abundance and richness of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least four dates during the main flowering period. Visitation rates were measured by observing a fixed number of open flowers and counting the number of those that are visited by a pollinator.",NA
"Jens_Astrom_Malus_domestica_Norway_2013","Close3","observations","Syrphidae_spp.","family","syrphids",1,NA,NA,6000,"In each field abundance and richness of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least four dates during the main flowering period. Visitation rates were measured by observing a fixed number of open flowers and counting the number of those that are visited by a pollinator.",NA
"Jens_Astrom_Malus_domestica_Norway_2013","Close3","observations","Syrphidae_spp.","family","syrphids",4,NA,NA,6000,"In each field abundance and richness of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least four dates during the main flowering period. Visitation rates were measured by observing a fixed number of open flowers and counting the number of those that are visited by a pollinator.",NA
"Jens_Astrom_Malus_domestica_Norway_2013","Close3","observations","Syrphidae_spp.","family","syrphids",2,NA,NA,6000,"In each field abundance and richness of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least four dates during the main flowering period. Visitation rates were measured by observing a fixed number of open flowers and counting the number of those that are visited by a pollinator.",NA
"Jens_Astrom_Malus_domestica_Norway_2013","Close3","observations","Syrphidae_spp.","family","syrphids",1,NA,NA,6000,"In each field abundance and richness of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least four dates during the main flowering period. Visitation rates were measured by observing a fixed number of open flowers and counting the number of those that are visited by a pollinator.",NA
"Jens_Astrom_Malus_domestica_Norway_2013","Close4","observations","Syrphidae_spp.","family","syrphids",4,NA,NA,6000,"In each field abundance and richness of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least four dates during the main flowering period. Visitation rates were measured by observing a fixed number of open flowers and counting the number of those that are visited by a pollinator.",NA
"Jens_Astrom_Malus_domestica_Norway_2013","Close4","observations","Syrphidae_spp.","family","syrphids",3,NA,NA,6000,"In each field abundance and richness of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least four dates during the main flowering period. Visitation rates were measured by observing a fixed number of open flowers and counting the number of those that are visited by a pollinator.",NA
"Jens_Astrom_Malus_domestica_Norway_2013","Dist2","observations","Syrphidae_spp.","family","syrphids",1,NA,NA,6000,"In each field abundance and richness of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least four dates during the main flowering period. Visitation rates were measured by observing a fixed number of open flowers and counting the number of those that are visited by a pollinator.",NA
"Jens_Astrom_Malus_domestica_Norway_2013","Dist2","observations","Syrphidae_spp.","family","syrphids",1,NA,NA,6000,"In each field abundance and richness of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least four dates during the main flowering period. Visitation rates were measured by observing a fixed number of open flowers and counting the number of those that are visited by a pollinator.",NA
"Jens_Astrom_Malus_domestica_Norway_2013","Dist2","observations","Syrphidae_spp.","family","syrphids",1,NA,NA,6000,"In each field abundance and richness of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least four dates during the main flowering period. Visitation rates were measured by observing a fixed number of open flowers and counting the number of those that are visited by a pollinator.",NA
"Jens_Astrom_Malus_domestica_Norway_2013","Dist3","observations","Syrphidae_spp.","family","syrphids",1,NA,NA,6000,"In each field abundance and richness of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least four dates during the main flowering period. Visitation rates were measured by observing a fixed number of open flowers and counting the number of those that are visited by a pollinator.",NA
"Jens_Astrom_Malus_domestica_Norway_2013","Dist3","observations","Syrphidae_spp.","family","syrphids",1,NA,NA,6000,"In each field abundance and richness of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least four dates during the main flowering period. Visitation rates were measured by observing a fixed number of open flowers and counting the number of those that are visited by a pollinator.",NA
"Jens_Astrom_Malus_domestica_Norway_2013","Dist3","observations","Syrphidae_spp.","family","syrphids",1,NA,NA,6000,"In each field abundance and richness of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least four dates during the main flowering period. Visitation rates were measured by observing a fixed number of open flowers and counting the number of those that are visited by a pollinator.",NA
"Jens_Astrom_Malus_domestica_Norway_2013","Dist3","observations","Syrphidae_spp.","family","syrphids",4,NA,NA,6000,"In each field abundance and richness of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least four dates during the main flowering period. Visitation rates were measured by observing a fixed number of open flowers and counting the number of those that are visited by a pollinator.",NA
"Jens_Astrom_Malus_domestica_Norway_2013","Dist3","observations","Syrphidae_spp.","family","syrphids",2,NA,NA,6000,"In each field abundance and richness of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least four dates during the main flowering period. Visitation rates were measured by observing a fixed number of open flowers and counting the number of those that are visited by a pollinator.",NA
"Jens_Astrom_Malus_domestica_Norway_2013","Dist4","observations","Syrphidae_spp.","family","syrphids",1,NA,NA,6000,"In each field abundance and richness of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least four dates during the main flowering period. Visitation rates were measured by observing a fixed number of open flowers and counting the number of those that are visited by a pollinator.",NA
"Jens_Astrom_Malus_domestica_Norway_2013","Dist4","observations","Syrphidae_spp.","family","syrphids",3,NA,NA,6000,"In each field abundance and richness of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least four dates during the main flowering period. Visitation rates were measured by observing a fixed number of open flowers and counting the number of those that are visited by a pollinator.",NA
"Jens_Astrom_Malus_domestica_Norway_2013","Dist4","observations","Syrphidae_spp.","family","syrphids",3,NA,NA,6000,"In each field abundance and richness of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least four dates during the main flowering period. Visitation rates were measured by observing a fixed number of open flowers and counting the number of those that are visited by a pollinator.",NA
"Jens_Astrom_Malus_domestica_Norway_2013","Dist4","observations","Syrphidae_spp.","family","syrphids",3,NA,NA,6000,"In each field abundance and richness of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least four dates during the main flowering period. Visitation rates were measured by observing a fixed number of open flowers and counting the number of those that are visited by a pollinator.",NA
"Jens_Astrom_Malus_domestica_Norway_2013","Dist4","observations","Syrphidae_spp.","family","syrphids",3,NA,NA,6000,"In each field abundance and richness of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least four dates during the main flowering period. Visitation rates were measured by observing a fixed number of open flowers and counting the number of those that are visited by a pollinator.",NA
"Jens_Astrom_Malus_domestica_Norway_2013","Dist4","observations","Syrphidae_spp.","family","syrphids",8,NA,NA,6000,"In each field abundance and richness of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least four dates during the main flowering period. Visitation rates were measured by observing a fixed number of open flowers and counting the number of those that are visited by a pollinator.",NA
"Jens_Astrom_Malus_domestica_Norway_2013","Dist4","observations","Syrphidae_spp.","family","syrphids",5,NA,NA,6000,"In each field abundance and richness of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least four dates during the main flowering period. Visitation rates were measured by observing a fixed number of open flowers and counting the number of those that are visited by a pollinator.",NA
"Jens_Astrom_Malus_domestica_Norway_2013","Dist4","observations","Syrphidae_spp.","family","syrphids",7,NA,NA,6000,"In each field abundance and richness of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least four dates during the main flowering period. Visitation rates were measured by observing a fixed number of open flowers and counting the number of those that are visited by a pollinator.",NA
"Jens_Astrom_Malus_domestica_Norway_2013","Dist4","observations","Syrphidae_spp.","family","syrphids",1,NA,NA,6000,"In each field abundance and richness of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least four dates during the main flowering period. Visitation rates were measured by observing a fixed number of open flowers and counting the number of those that are visited by a pollinator.",NA
"Jens_Astrom_Malus_domestica_Norway_2013","Dist5","observations","Syrphidae_spp.","family","syrphids",1,NA,NA,6000,"In each field abundance and richness of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least four dates during the main flowering period. Visitation rates were measured by observing a fixed number of open flowers and counting the number of those that are visited by a pollinator.",NA
"Jens_Astrom_Malus_domestica_Norway_2013","Dist5","observations","Syrphidae_spp.","family","syrphids",2,NA,NA,6000,"In each field abundance and richness of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least four dates during the main flowering period. Visitation rates were measured by observing a fixed number of open flowers and counting the number of those that are visited by a pollinator.",NA
"Jens_Astrom_Malus_domestica_Norway_2013","Dist5","observations","Syrphidae_spp.","family","syrphids",1,NA,NA,6000,"In each field abundance and richness of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least four dates during the main flowering period. Visitation rates were measured by observing a fixed number of open flowers and counting the number of those that are visited by a pollinator.",NA
"Jens_Astrom_Malus_domestica_Norway_2013","Dist5","observations","Syrphidae_spp.","family","syrphids",1,NA,NA,6000,"In each field abundance and richness of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least four dates during the main flowering period. Visitation rates were measured by observing a fixed number of open flowers and counting the number of those that are visited by a pollinator.",NA
"Jens_Astrom_Malus_domestica_Norway_2013","Dist5","observations","Syrphidae_spp.","family","syrphids",1,NA,NA,6000,"In each field abundance and richness of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least four dates during the main flowering period. Visitation rates were measured by observing a fixed number of open flowers and counting the number of those that are visited by a pollinator.",NA
"Jens_Astrom_Malus_domestica_Norway_2013","Dist5","observations","Syrphidae_spp.","family","syrphids",3,NA,NA,6000,"In each field abundance and richness of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least four dates during the main flowering period. Visitation rates were measured by observing a fixed number of open flowers and counting the number of those that are visited by a pollinator.",NA
"Jens_Astrom_Malus_domestica_Norway_2013","Med1","observations","Syrphidae_spp.","family","syrphids",4,NA,NA,6000,"In each field abundance and richness of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least four dates during the main flowering period. Visitation rates were measured by observing a fixed number of open flowers and counting the number of those that are visited by a pollinator.",NA
"Jens_Astrom_Malus_domestica_Norway_2013","Med1","observations","Syrphidae_spp.","family","syrphids",2,NA,NA,6000,"In each field abundance and richness of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least four dates during the main flowering period. Visitation rates were measured by observing a fixed number of open flowers and counting the number of those that are visited by a pollinator.",NA
"Jens_Astrom_Malus_domestica_Norway_2013","Med1","observations","Syrphidae_spp.","family","syrphids",1,NA,NA,6000,"In each field abundance and richness of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least four dates during the main flowering period. Visitation rates were measured by observing a fixed number of open flowers and counting the number of those that are visited by a pollinator.",NA
"Jens_Astrom_Malus_domestica_Norway_2013","Med2","observations","Syrphidae_spp.","family","syrphids",1,NA,NA,6000,"In each field abundance and richness of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least four dates during the main flowering period. Visitation rates were measured by observing a fixed number of open flowers and counting the number of those that are visited by a pollinator.",NA
"Jens_Astrom_Malus_domestica_Norway_2013","Med3","observations","Syrphidae_spp.","family","syrphids",3,NA,NA,6000,"In each field abundance and richness of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least four dates during the main flowering period. Visitation rates were measured by observing a fixed number of open flowers and counting the number of those that are visited by a pollinator.",NA
"Jens_Astrom_Malus_domestica_Norway_2013","Med3","observations","Syrphidae_spp.","family","syrphids",1,NA,NA,6000,"In each field abundance and richness of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least four dates during the main flowering period. Visitation rates were measured by observing a fixed number of open flowers and counting the number of those that are visited by a pollinator.",NA
"Jens_Astrom_Malus_domestica_Norway_2013","Med3","observations","Syrphidae_spp.","family","syrphids",1,NA,NA,6000,"In each field abundance and richness of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least four dates during the main flowering period. Visitation rates were measured by observing a fixed number of open flowers and counting the number of those that are visited by a pollinator.",NA
"Jens_Astrom_Malus_domestica_Norway_2013","Med4","observations","Syrphidae_spp.","family","syrphids",1,NA,NA,6000,"In each field abundance and richness of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least four dates during the main flowering period. Visitation rates were measured by observing a fixed number of open flowers and counting the number of those that are visited by a pollinator.",NA
"Jens_Astrom_Malus_domestica_Norway_2013","Med5","observations","Syrphidae_spp.","family","syrphids",2,NA,NA,6000,"In each field abundance and richness of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least four dates during the main flowering period. Visitation rates were measured by observing a fixed number of open flowers and counting the number of those that are visited by a pollinator.",NA
"Jens_Astrom_Malus_domestica_Norway_2013","Med5","observations","Syrphidae_spp.","family","syrphids",1,NA,NA,6000,"In each field abundance and richness of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least four dates during the main flowering period. Visitation rates were measured by observing a fixed number of open flowers and counting the number of those that are visited by a pollinator.",NA
"Jens_Astrom_Malus_domestica_Norway_2013","Med5","observations","Syrphidae_spp.","family","syrphids",1,NA,NA,6000,"In each field abundance and richness of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least four dates during the main flowering period. Visitation rates were measured by observing a fixed number of open flowers and counting the number of those that are visited by a pollinator.",NA
"Jens_Astrom_Malus_domestica_Norway_2013","Close2","observations","Other_Diptera_spp.","order","other_flies",1,NA,NA,6000,"In each field abundance and richness of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least four dates during the main flowering period. Visitation rates were measured by observing a fixed number of open flowers and counting the number of those that are visited by a pollinator.",NA
"Jens_Astrom_Malus_domestica_Norway_2013","Close2","observations","Other_Diptera_spp.","order","other_flies",1,NA,NA,6000,"In each field abundance and richness of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least four dates during the main flowering period. Visitation rates were measured by observing a fixed number of open flowers and counting the number of those that are visited by a pollinator.",NA
"Jens_Astrom_Malus_domestica_Norway_2013","Close2","observations","Other_Diptera_spp.","order","other_flies",2,NA,NA,6000,"In each field abundance and richness of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least four dates during the main flowering period. Visitation rates were measured by observing a fixed number of open flowers and counting the number of those that are visited by a pollinator.",NA
"Jens_Astrom_Malus_domestica_Norway_2013","Close3","observations","Other_Diptera_spp.","order","other_flies",2,NA,NA,6000,"In each field abundance and richness of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least four dates during the main flowering period. Visitation rates were measured by observing a fixed number of open flowers and counting the number of those that are visited by a pollinator.",NA
"Jens_Astrom_Malus_domestica_Norway_2013","Close3","observations","Other_Diptera_spp.","order","other_flies",2,NA,NA,6000,"In each field abundance and richness of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least four dates during the main flowering period. Visitation rates were measured by observing a fixed number of open flowers and counting the number of those that are visited by a pollinator.",NA
"Jens_Astrom_Malus_domestica_Norway_2013","Close3","observations","Other_Diptera_spp.","order","other_flies",1,NA,NA,6000,"In each field abundance and richness of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least four dates during the main flowering period. Visitation rates were measured by observing a fixed number of open flowers and counting the number of those that are visited by a pollinator.",NA
"Jens_Astrom_Malus_domestica_Norway_2013","Close3","observations","Other_Diptera_spp.","order","other_flies",3,NA,NA,6000,"In each field abundance and richness of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least four dates during the main flowering period. Visitation rates were measured by observing a fixed number of open flowers and counting the number of those that are visited by a pollinator.",NA
"Jens_Astrom_Malus_domestica_Norway_2013","Med2","observations","Other_Diptera_spp.","order","other_flies",2,NA,NA,6000,"In each field abundance and richness of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least four dates during the main flowering period. Visitation rates were measured by observing a fixed number of open flowers and counting the number of those that are visited by a pollinator.",NA
"Jens_Astrom_Malus_domestica_Norway_2013","Med2","observations","Other_Diptera_spp.","order","other_flies",3,NA,NA,6000,"In each field abundance and richness of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least four dates during the main flowering period. Visitation rates were measured by observing a fixed number of open flowers and counting the number of those that are visited by a pollinator.",NA
"Jens_Astrom_Malus_domestica_Norway_2013","Med2","observations","Other_Diptera_spp.","order","other_flies",1,NA,NA,6000,"In each field abundance and richness of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least four dates during the main flowering period. Visitation rates were measured by observing a fixed number of open flowers and counting the number of those that are visited by a pollinator.",NA
"Jens_Astrom_Malus_domestica_Norway_2013","Med2","observations","Other_Diptera_spp.","order","other_flies",3,NA,NA,6000,"In each field abundance and richness of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least four dates during the main flowering period. Visitation rates were measured by observing a fixed number of open flowers and counting the number of those that are visited by a pollinator.",NA
"Jens_Astrom_Malus_domestica_Norway_2013","Med2","observations","Other_Diptera_spp.","order","other_flies",3,NA,NA,6000,"In each field abundance and richness of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least four dates during the main flowering period. Visitation rates were measured by observing a fixed number of open flowers and counting the number of those that are visited by a pollinator.",NA
"Jens_Astrom_Malus_domestica_Norway_2013","Med5","observations","Other_Diptera_spp.","order","other_flies",1,NA,NA,6000,"In each field abundance and richness of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least four dates during the main flowering period. Visitation rates were measured by observing a fixed number of open flowers and counting the number of those that are visited by a pollinator.",NA
"Jens_Astrom_Malus_domestica_Norway_2013","Med5","observations","Other_Diptera_spp.","order","other_flies",1,NA,NA,6000,"In each field abundance and richness of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least four dates during the main flowering period. Visitation rates were measured by observing a fixed number of open flowers and counting the number of those that are visited by a pollinator.",NA
"Jens_Astrom_Malus_domestica_Norway_2013","Dist3","observations","Vespidae_spp.","family","non_bee_hymenoptera",1,NA,NA,6000,"In each field abundance and richness of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least four dates during the main flowering period. Visitation rates were measured by observing a fixed number of open flowers and counting the number of those that are visited by a pollinator.",NA
"Jens_Astrom_Malus_domestica_Norway_2013","Close3","observations","Other_spp.","order","unknown",1,NA,NA,6000,"In each field abundance and richness of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least four dates during the main flowering period. Visitation rates were measured by observing a fixed number of open flowers and counting the number of those that are visited by a pollinator.",NA
"Jens_Astrom_Malus_domestica_Norway_2013","Close3","observations","Other_spp.","order","unknown",1,NA,NA,6000,"In each field abundance and richness of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least four dates during the main flowering period. Visitation rates were measured by observing a fixed number of open flowers and counting the number of those that are visited by a pollinator.",NA
"Jens_Astrom_Malus_domestica_Norway_2013","Close4","observations","Other_spp.","order","unknown",1,NA,NA,6000,"In each field abundance and richness of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least four dates during the main flowering period. Visitation rates were measured by observing a fixed number of open flowers and counting the number of those that are visited by a pollinator.",NA
"Jens_Astrom_Malus_domestica_Norway_2013","Close4","observations","Other_spp.","order","unknown",1,NA,NA,6000,"In each field abundance and richness of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least four dates during the main flowering period. Visitation rates were measured by observing a fixed number of open flowers and counting the number of those that are visited by a pollinator.",NA
"Jens_Astrom_Malus_domestica_Norway_2013","Close4","observations","Other_spp.","order","unknown",3,NA,NA,6000,"In each field abundance and richness of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least four dates during the main flowering period. Visitation rates were measured by observing a fixed number of open flowers and counting the number of those that are visited by a pollinator.",NA
"Jens_Astrom_Malus_domestica_Norway_2013","Close4","observations","Other_spp.","order","unknown",1,NA,NA,6000,"In each field abundance and richness of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least four dates during the main flowering period. Visitation rates were measured by observing a fixed number of open flowers and counting the number of those that are visited by a pollinator.",NA
"Jens_Astrom_Malus_domestica_Norway_2013","Close4","observations","Other_spp.","order","unknown",1,NA,NA,6000,"In each field abundance and richness of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least four dates during the main flowering period. Visitation rates were measured by observing a fixed number of open flowers and counting the number of those that are visited by a pollinator.",NA
"Jens_Astrom_Malus_domestica_Norway_2013","Close4","observations","Other_spp.","order","unknown",4,NA,NA,6000,"In each field abundance and richness of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least four dates during the main flowering period. Visitation rates were measured by observing a fixed number of open flowers and counting the number of those that are visited by a pollinator.",NA
"Jens_Astrom_Malus_domestica_Norway_2013","Dist4","observations","Other_spp.","order","unknown",1,NA,NA,6000,"In each field abundance and richness of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least four dates during the main flowering period. Visitation rates were measured by observing a fixed number of open flowers and counting the number of those that are visited by a pollinator.",NA
"Jens_Astrom_Malus_domestica_Norway_2013","Med1","observations","Other_spp.","order","unknown",1,NA,NA,6000,"In each field abundance and richness of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least four dates during the main flowering period. Visitation rates were measured by observing a fixed number of open flowers and counting the number of those that are visited by a pollinator.",NA
"Jens_Astrom_Malus_domestica_Norway_2013","Med3","observations","Other_spp.","order","unknown",1,NA,NA,6000,"In each field abundance and richness of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least four dates during the main flowering period. Visitation rates were measured by observing a fixed number of open flowers and counting the number of those that are visited by a pollinator.",NA
"Jens_Astrom_Malus_domestica_Norway_2013","Med5","observations","Other_spp.","order","unknown",1,NA,NA,6000,"In each field abundance and richness of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least four dates during the main flowering period. Visitation rates were measured by observing a fixed number of open flowers and counting the number of those that are visited by a pollinator.",NA
"Jens_Astrom_Malus_domestica_Norway_2013","Med5","observations","Other_spp.","order","unknown",1,NA,NA,6000,"In each field abundance and richness of floral visitors was analysed by sweep-netting all visitors along six 25 m long and 2 m wide transects for five minutes each, for a total of 30 minutes of sampling. Sampling was further repeated on at least four dates during the main flowering period. Visitation rates were measured by observing a fixed number of open flowers and counting the number of those that are visited by a pollinator.",NA
"Jeroen_Scheper_Brassica_napus_Netherlands_2011","Lettele","transects","Andrena_angustior","species","other_wild_bees",1,600,60,NA,"Two 150 x 1 m transect per field, 15 min each (two sampling rounds per field)",NA
"Jeroen_Scheper_Brassica_napus_Netherlands_2011","Deventer","transects","Andrena_barbilabris","species","other_wild_bees",2,600,60,NA,"Two 150 x 1 m transect per field, 15 min each (two sampling rounds per field)",NA
"Jeroen_Scheper_Brassica_napus_Netherlands_2011","Doetinchem","transects","Andrena_chrysosceles","species","other_wild_bees",1,600,60,NA,"Two 150 x 1 m transect per field, 15 min each (two sampling rounds per field)",NA
"Jeroen_Scheper_Brassica_napus_Netherlands_2011","Doetinchem","transects","Andrena_dorsata","species","other_wild_bees",1,600,60,NA,"Two 150 x 1 m transect per field, 15 min each (two sampling rounds per field)",NA
"Jeroen_Scheper_Brassica_napus_Netherlands_2011","Schalkhaar","transects","Andrena_dorsata","species","other_wild_bees",1,600,60,NA,"Two 150 x 1 m transect per field, 15 min each (two sampling rounds per field)",NA
"Jeroen_Scheper_Brassica_napus_Netherlands_2011","Lettele","transects","Andrena_dorsata","species","other_wild_bees",1,600,60,NA,"Two 150 x 1 m transect per field, 15 min each (two sampling rounds per field)",NA
"Jeroen_Scheper_Brassica_napus_Netherlands_2011","Lengel","transects","Andrena_flavipes","species","other_wild_bees",2,600,60,NA,"Two 150 x 1 m transect per field, 15 min each (two sampling rounds per field)",NA
"Jeroen_Scheper_Brassica_napus_Netherlands_2011","Lettele","transects","Andrena_flavipes","species","other_wild_bees",1,600,60,NA,"Two 150 x 1 m transect per field, 15 min each (two sampling rounds per field)",NA
"Jeroen_Scheper_Brassica_napus_Netherlands_2011","Doetinchem","transects","Andrena_fucata","species","other_wild_bees",1,600,60,NA,"Two 150 x 1 m transect per field, 15 min each (two sampling rounds per field)",NA
"Jeroen_Scheper_Brassica_napus_Netherlands_2011","Doetinchem","transects","Andrena_haemorrhoa","species","other_wild_bees",1,600,60,NA,"Two 150 x 1 m transect per field, 15 min each (two sampling rounds per field)",NA
"Jeroen_Scheper_Brassica_napus_Netherlands_2011","Bussloo","transects","Andrena_haemorrhoa","species","other_wild_bees",1,600,60,NA,"Two 150 x 1 m transect per field, 15 min each (two sampling rounds per field)",NA
"Jeroen_Scheper_Brassica_napus_Netherlands_2011","Lettele","transects","Andrena_haemorrhoa","species","other_wild_bees",1,600,60,NA,"Two 150 x 1 m transect per field, 15 min each (two sampling rounds per field)",NA
"Jeroen_Scheper_Brassica_napus_Netherlands_2011","Lengel","transects","Andrena_nigroaenea","species","other_wild_bees",1,600,60,NA,"Two 150 x 1 m transect per field, 15 min each (two sampling rounds per field)",NA
"Jeroen_Scheper_Brassica_napus_Netherlands_2011","Doetinchem","transects","Andrena_nitida","species","other_wild_bees",2,600,60,NA,"Two 150 x 1 m transect per field, 15 min each (two sampling rounds per field)",NA
"Jeroen_Scheper_Brassica_napus_Netherlands_2011","Bussloo","transects","Andrena_nitida","species","other_wild_bees",2,600,60,NA,"Two 150 x 1 m transect per field, 15 min each (two sampling rounds per field)",NA
"Jeroen_Scheper_Brassica_napus_Netherlands_2011","Deventer","transects","Andrena_nitida","species","other_wild_bees",1,600,60,NA,"Two 150 x 1 m transect per field, 15 min each (two sampling rounds per field)",NA
"Jeroen_Scheper_Brassica_napus_Netherlands_2011","Deventer","transects","Andrena_tibialis","species","other_wild_bees",1,600,60,NA,"Two 150 x 1 m transect per field, 15 min each (two sampling rounds per field)",NA
"Jeroen_Scheper_Brassica_napus_Netherlands_2011","Doetinchem","transects","Apis_mellifera","species","honeybees",7,600,60,NA,"Two 150 x 1 m transect per field, 15 min each (two sampling rounds per field)",NA
"Jeroen_Scheper_Brassica_napus_Netherlands_2011","Doetinchem","transects","Apis_mellifera","species","honeybees",44,600,60,NA,"Two 150 x 1 m transect per field, 15 min each (two sampling rounds per field)",NA
"Jeroen_Scheper_Brassica_napus_Netherlands_2011","Kloosterhaar","transects","Apis_mellifera","species","honeybees",3,600,60,NA,"Two 150 x 1 m transect per field, 15 min each (two sampling rounds per field)",NA
"Jeroen_Scheper_Brassica_napus_Netherlands_2011","Lengel","transects","Apis_mellifera","species","honeybees",73,600,60,NA,"Two 150 x 1 m transect per field, 15 min each (two sampling rounds per field)",NA
"Jeroen_Scheper_Brassica_napus_Netherlands_2011","Lengel","transects","Apis_mellifera","species","honeybees",15,600,60,NA,"Two 150 x 1 m transect per field, 15 min each (two sampling rounds per field)",NA
"Jeroen_Scheper_Brassica_napus_Netherlands_2011","Bussloo","transects","Apis_mellifera","species","honeybees",113,600,60,NA,"Two 150 x 1 m transect per field, 15 min each (two sampling rounds per field)",NA
"Jeroen_Scheper_Brassica_napus_Netherlands_2011","Bussloo","transects","Apis_mellifera","species","honeybees",35,600,60,NA,"Two 150 x 1 m transect per field, 15 min each (two sampling rounds per field)",NA
"Jeroen_Scheper_Brassica_napus_Netherlands_2011","Gelselaar","transects","Apis_mellifera","species","honeybees",39,600,60,NA,"Two 150 x 1 m transect per field, 15 min each (two sampling rounds per field)",NA
"Jeroen_Scheper_Brassica_napus_Netherlands_2011","Schalkhaar","transects","Apis_mellifera","species","honeybees",29,600,60,NA,"Two 150 x 1 m transect per field, 15 min each (two sampling rounds per field)",NA
"Jeroen_Scheper_Brassica_napus_Netherlands_2011","Schalkhaar","transects","Apis_mellifera","species","honeybees",3,600,60,NA,"Two 150 x 1 m transect per field, 15 min each (two sampling rounds per field)",NA
"Jeroen_Scheper_Brassica_napus_Netherlands_2011","Deventer","transects","Apis_mellifera","species","honeybees",22,600,60,NA,"Two 150 x 1 m transect per field, 15 min each (two sampling rounds per field)",NA
"Jeroen_Scheper_Brassica_napus_Netherlands_2011","Deventer","transects","Apis_mellifera","species","honeybees",8,600,60,NA,"Two 150 x 1 m transect per field, 15 min each (two sampling rounds per field)",NA
"Jeroen_Scheper_Brassica_napus_Netherlands_2011","Lettele","transects","Apis_mellifera","species","honeybees",22,600,60,NA,"Two 150 x 1 m transect per field, 15 min each (two sampling rounds per field)",NA
"Jeroen_Scheper_Brassica_napus_Netherlands_2011","Lettele","transects","Apis_mellifera","species","honeybees",22,600,60,NA,"Two 150 x 1 m transect per field, 15 min each (two sampling rounds per field)",NA
"Jeroen_Scheper_Brassica_napus_Netherlands_2011","Doetinchem","transects","Bombus_lucorum_terrestris","species","bumblebees",14,600,60,NA,"Two 150 x 1 m transect per field, 15 min each (two sampling rounds per field)",NA
"Jeroen_Scheper_Brassica_napus_Netherlands_2011","Doetinchem","transects","Bombus_lucorum_terrestris","species","bumblebees",60,600,60,NA,"Two 150 x 1 m transect per field, 15 min each (two sampling rounds per field)",NA
"Jeroen_Scheper_Brassica_napus_Netherlands_2011","Lengel","transects","Bombus_lucorum_terrestris","species","bumblebees",4,600,60,NA,"Two 150 x 1 m transect per field, 15 min each (two sampling rounds per field)",NA
"Jeroen_Scheper_Brassica_napus_Netherlands_2011","Bussloo","transects","Bombus_lucorum_terrestris","species","bumblebees",1,600,60,NA,"Two 150 x 1 m transect per field, 15 min each (two sampling rounds per field)",NA
"Jeroen_Scheper_Brassica_napus_Netherlands_2011","Bussloo","transects","Bombus_lucorum_terrestris","species","bumblebees",2,600,60,NA,"Two 150 x 1 m transect per field, 15 min each (two sampling rounds per field)",NA
"Jeroen_Scheper_Brassica_napus_Netherlands_2011","Gelselaar","transects","Bombus_lucorum_terrestris","species","bumblebees",9,600,60,NA,"Two 150 x 1 m transect per field, 15 min each (two sampling rounds per field)",NA
"Jeroen_Scheper_Brassica_napus_Netherlands_2011","Gelselaar","transects","Bombus_lucorum_terrestris","species","bumblebees",24,600,60,NA,"Two 150 x 1 m transect per field, 15 min each (two sampling rounds per field)",NA
"Jeroen_Scheper_Brassica_napus_Netherlands_2011","Schalkhaar","transects","Bombus_lucorum_terrestris","species","bumblebees",1,600,60,NA,"Two 150 x 1 m transect per field, 15 min each (two sampling rounds per field)",NA
"Jeroen_Scheper_Brassica_napus_Netherlands_2011","Schalkhaar","transects","Bombus_lucorum_terrestris","species","bumblebees",1,600,60,NA,"Two 150 x 1 m transect per field, 15 min each (two sampling rounds per field)",NA
"Jeroen_Scheper_Brassica_napus_Netherlands_2011","Deventer","transects","Bombus_lucorum_terrestris","species","bumblebees",7,600,60,NA,"Two 150 x 1 m transect per field, 15 min each (two sampling rounds per field)",NA
"Jeroen_Scheper_Brassica_napus_Netherlands_2011","Deventer","transects","Bombus_lucorum_terrestris","species","bumblebees",11,600,60,NA,"Two 150 x 1 m transect per field, 15 min each (two sampling rounds per field)",NA
"Jeroen_Scheper_Brassica_napus_Netherlands_2011","Lettele","transects","Bombus_lucorum_terrestris","species","bumblebees",20,600,60,NA,"Two 150 x 1 m transect per field, 15 min each (two sampling rounds per field)",NA
"Jeroen_Scheper_Brassica_napus_Netherlands_2011","Doetinchem","transects","Bombus_lapidarius","species","bumblebees",7,600,60,NA,"Two 150 x 1 m transect per field, 15 min each (two sampling rounds per field)",NA
"Jeroen_Scheper_Brassica_napus_Netherlands_2011","Doetinchem","transects","Bombus_lapidarius","species","bumblebees",34,600,60,NA,"Two 150 x 1 m transect per field, 15 min each (two sampling rounds per field)",NA
"Jeroen_Scheper_Brassica_napus_Netherlands_2011","Lengel","transects","Bombus_lapidarius","species","bumblebees",1,600,60,NA,"Two 150 x 1 m transect per field, 15 min each (two sampling rounds per field)",NA
"Jeroen_Scheper_Brassica_napus_Netherlands_2011","Lengel","transects","Bombus_lapidarius","species","bumblebees",1,600,60,NA,"Two 150 x 1 m transect per field, 15 min each (two sampling rounds per field)",NA
"Jeroen_Scheper_Brassica_napus_Netherlands_2011","Bussloo","transects","Bombus_lapidarius","species","bumblebees",7,600,60,NA,"Two 150 x 1 m transect per field, 15 min each (two sampling rounds per field)",NA
"Jeroen_Scheper_Brassica_napus_Netherlands_2011","Gelselaar","transects","Bombus_lapidarius","species","bumblebees",1,600,60,NA,"Two 150 x 1 m transect per field, 15 min each (two sampling rounds per field)",NA
"Jeroen_Scheper_Brassica_napus_Netherlands_2011","Gelselaar","transects","Bombus_lapidarius","species","bumblebees",21,600,60,NA,"Two 150 x 1 m transect per field, 15 min each (two sampling rounds per field)",NA
"Jeroen_Scheper_Brassica_napus_Netherlands_2011","Schalkhaar","transects","Bombus_lapidarius","species","bumblebees",1,600,60,NA,"Two 150 x 1 m transect per field, 15 min each (two sampling rounds per field)",NA
"Jeroen_Scheper_Brassica_napus_Netherlands_2011","Schalkhaar","transects","Bombus_lapidarius","species","bumblebees",7,600,60,NA,"Two 150 x 1 m transect per field, 15 min each (two sampling rounds per field)",NA
"Jeroen_Scheper_Brassica_napus_Netherlands_2011","Deventer","transects","Bombus_lapidarius","species","bumblebees",3,600,60,NA,"Two 150 x 1 m transect per field, 15 min each (two sampling rounds per field)",NA
"Jeroen_Scheper_Brassica_napus_Netherlands_2011","Deventer","transects","Bombus_lapidarius","species","bumblebees",2,600,60,NA,"Two 150 x 1 m transect per field, 15 min each (two sampling rounds per field)",NA
"Jeroen_Scheper_Brassica_napus_Netherlands_2011","Lettele","transects","Bombus_lapidarius","species","bumblebees",1,600,60,NA,"Two 150 x 1 m transect per field, 15 min each (two sampling rounds per field)",NA
"Jeroen_Scheper_Brassica_napus_Netherlands_2011","Lettele","transects","Bombus_lapidarius","species","bumblebees",7,600,60,NA,"Two 150 x 1 m transect per field, 15 min each (two sampling rounds per field)",NA
"Jeroen_Scheper_Brassica_napus_Netherlands_2011","Gelselaar","transects","Bombus_pratorum","species","bumblebees",1,600,60,NA,"Two 150 x 1 m transect per field, 15 min each (two sampling rounds per field)",NA
"Jeroen_Scheper_Brassica_napus_Netherlands_2011","Doetinchem","transects","Bombus_pascuorum","species","bumblebees",1,600,60,NA,"Two 150 x 1 m transect per field, 15 min each (two sampling rounds per field)",NA
"Jeroen_Scheper_Brassica_napus_Netherlands_2011","Bussloo","transects","Bombus_pascuorum","species","bumblebees",1,600,60,NA,"Two 150 x 1 m transect per field, 15 min each (two sampling rounds per field)",NA
"Jeroen_Scheper_Brassica_napus_Netherlands_2011","Bussloo","transects","Bombus_pascuorum","species","bumblebees",1,600,60,NA,"Two 150 x 1 m transect per field, 15 min each (two sampling rounds per field)",NA
"Jeroen_Scheper_Brassica_napus_Netherlands_2011","Gelselaar","transects","Bombus_pascuorum","species","bumblebees",4,600,60,NA,"Two 150 x 1 m transect per field, 15 min each (two sampling rounds per field)",NA
"Jeroen_Scheper_Brassica_napus_Netherlands_2011","Deventer","transects","Bombus_pascuorum","species","bumblebees",1,600,60,NA,"Two 150 x 1 m transect per field, 15 min each (two sampling rounds per field)",NA
"Jeroen_Scheper_Brassica_napus_Netherlands_2011","Lengel","transects","Bombus_spp.","genus","bumblebees",4,600,60,NA,"Two 150 x 1 m transect per field, 15 min each (two sampling rounds per field)",NA
"Jeroen_Scheper_Brassica_napus_Netherlands_2011","Bussloo","transects","Bombus_spp.","genus","bumblebees",3,600,60,NA,"Two 150 x 1 m transect per field, 15 min each (two sampling rounds per field)",NA
"Jeroen_Scheper_Brassica_napus_Netherlands_2011","Gelselaar","transects","Bombus_spp.","genus","bumblebees",2,600,60,NA,"Two 150 x 1 m transect per field, 15 min each (two sampling rounds per field)",NA
"Jeroen_Scheper_Brassica_napus_Netherlands_2011","Gelselaar","transects","Bombus_spp.","genus","bumblebees",6,600,60,NA,"Two 150 x 1 m transect per field, 15 min each (two sampling rounds per field)",NA
"Jeroen_Scheper_Brassica_napus_Netherlands_2011","Schalkhaar","transects","Bombus_spp.","genus","bumblebees",2,600,60,NA,"Two 150 x 1 m transect per field, 15 min each (two sampling rounds per field)",NA
"Jeroen_Scheper_Brassica_napus_Netherlands_2011","Schalkhaar","transects","Bombus_spp.","genus","bumblebees",1,600,60,NA,"Two 150 x 1 m transect per field, 15 min each (two sampling rounds per field)",NA
"Jeroen_Scheper_Brassica_napus_Netherlands_2011","Deventer","transects","Bombus_spp.","genus","bumblebees",1,600,60,NA,"Two 150 x 1 m transect per field, 15 min each (two sampling rounds per field)",NA
"Jeroen_Scheper_Brassica_napus_Netherlands_2011","Deventer","transects","Bombus_spp.","genus","bumblebees",3,600,60,NA,"Two 150 x 1 m transect per field, 15 min each (two sampling rounds per field)",NA
"Jeroen_Scheper_Brassica_napus_Netherlands_2011","Lettele","transects","Bombus_spp.","genus","bumblebees",7,600,60,NA,"Two 150 x 1 m transect per field, 15 min each (two sampling rounds per field)",NA
"Jeroen_Scheper_Brassica_napus_Netherlands_2011","Doetinchem","transects","Episyrphus_balteatus","species","syrphids",1,600,60,NA,"Two 150 x 1 m transect per field, 15 min each (two sampling rounds per field)",NA
"Jeroen_Scheper_Brassica_napus_Netherlands_2011","Doetinchem","transects","Eristalis_arbustorum","species","syrphids",2,600,60,NA,"Two 150 x 1 m transect per field, 15 min each (two sampling rounds per field)",NA
"Jeroen_Scheper_Brassica_napus_Netherlands_2011","Bussloo","transects","Eristalis_arbustorum","species","syrphids",1,600,60,NA,"Two 150 x 1 m transect per field, 15 min each (two sampling rounds per field)",NA
"Jeroen_Scheper_Brassica_napus_Netherlands_2011","Gelselaar","transects","Eristalis_arbustorum","species","syrphids",2,600,60,NA,"Two 150 x 1 m transect per field, 15 min each (two sampling rounds per field)",NA
"Jeroen_Scheper_Brassica_napus_Netherlands_2011","Schalkhaar","transects","Eristalis_arbustorum","species","syrphids",3,600,60,NA,"Two 150 x 1 m transect per field, 15 min each (two sampling rounds per field)",NA
"Jeroen_Scheper_Brassica_napus_Netherlands_2011","Schalkhaar","transects","Eristalis_arbustorum","species","syrphids",1,600,60,NA,"Two 150 x 1 m transect per field, 15 min each (two sampling rounds per field)",NA
"Jeroen_Scheper_Brassica_napus_Netherlands_2011","Lettele","transects","Eristalis_arbustorum","species","syrphids",1,600,60,NA,"Two 150 x 1 m transect per field, 15 min each (two sampling rounds per field)",NA
"Jeroen_Scheper_Brassica_napus_Netherlands_2011","Gelselaar","transects","Eristalis_intricaria","species","syrphids",1,600,60,NA,"Two 150 x 1 m transect per field, 15 min each (two sampling rounds per field)",NA
"Jeroen_Scheper_Brassica_napus_Netherlands_2011","Schalkhaar","transects","Eristalis_intricaria","species","syrphids",1,600,60,NA,"Two 150 x 1 m transect per field, 15 min each (two sampling rounds per field)",NA
"Jeroen_Scheper_Brassica_napus_Netherlands_2011","Deventer","transects","Eristalis_intricaria","species","syrphids",1,600,60,NA,"Two 150 x 1 m transect per field, 15 min each (two sampling rounds per field)",NA
"Jeroen_Scheper_Brassica_napus_Netherlands_2011","Lettele","transects","Eristalis_pertinax","species","syrphids",1,600,60,NA,"Two 150 x 1 m transect per field, 15 min each (two sampling rounds per field)",NA
"Jeroen_Scheper_Brassica_napus_Netherlands_2011","Doetinchem","transects","Eristalis_similis","species","syrphids",1,600,60,NA,"Two 150 x 1 m transect per field, 15 min each (two sampling rounds per field)",NA
"Jeroen_Scheper_Brassica_napus_Netherlands_2011","Lengel","transects","Eristalis_similis","species","syrphids",1,600,60,NA,"Two 150 x 1 m transect per field, 15 min each (two sampling rounds per field)",NA
"Jeroen_Scheper_Brassica_napus_Netherlands_2011","Bussloo","transects","Eristalis_similis","species","syrphids",1,600,60,NA,"Two 150 x 1 m transect per field, 15 min each (two sampling rounds per field)",NA
"Jeroen_Scheper_Brassica_napus_Netherlands_2011","Gelselaar","transects","Eristalis_similis","species","syrphids",5,600,60,NA,"Two 150 x 1 m transect per field, 15 min each (two sampling rounds per field)",NA
"Jeroen_Scheper_Brassica_napus_Netherlands_2011","Schalkhaar","transects","Eristalis_similis","species","syrphids",5,600,60,NA,"Two 150 x 1 m transect per field, 15 min each (two sampling rounds per field)",NA
"Jeroen_Scheper_Brassica_napus_Netherlands_2011","Deventer","transects","Eristalis_similis","species","syrphids",1,600,60,NA,"Two 150 x 1 m transect per field, 15 min each (two sampling rounds per field)",NA
"Jeroen_Scheper_Brassica_napus_Netherlands_2011","Doetinchem","transects","Eristalis_tenax","species","syrphids",3,600,60,NA,"Two 150 x 1 m transect per field, 15 min each (two sampling rounds per field)",NA
"Jeroen_Scheper_Brassica_napus_Netherlands_2011","Doetinchem","transects","Eristalis_tenax","species","syrphids",3,600,60,NA,"Two 150 x 1 m transect per field, 15 min each (two sampling rounds per field)",NA
"Jeroen_Scheper_Brassica_napus_Netherlands_2011","Lengel","transects","Eristalis_tenax","species","syrphids",2,600,60,NA,"Two 150 x 1 m transect per field, 15 min each (two sampling rounds per field)",NA
"Jeroen_Scheper_Brassica_napus_Netherlands_2011","Lengel","transects","Eristalis_tenax","species","syrphids",3,600,60,NA,"Two 150 x 1 m transect per field, 15 min each (two sampling rounds per field)",NA
"Jeroen_Scheper_Brassica_napus_Netherlands_2011","Bussloo","transects","Eristalis_tenax","species","syrphids",8,600,60,NA,"Two 150 x 1 m transect per field, 15 min each (two sampling rounds per field)",NA
"Jeroen_Scheper_Brassica_napus_Netherlands_2011","Gelselaar","transects","Eristalis_tenax","species","syrphids",15,600,60,NA,"Two 150 x 1 m transect per field, 15 min each (two sampling rounds per field)",NA
"Jeroen_Scheper_Brassica_napus_Netherlands_2011","Schalkhaar","transects","Eristalis_tenax","species","syrphids",11,600,60,NA,"Two 150 x 1 m transect per field, 15 min each (two sampling rounds per field)",NA
"Jeroen_Scheper_Brassica_napus_Netherlands_2011","Deventer","transects","Eristalis_tenax","species","syrphids",2,600,60,NA,"Two 150 x 1 m transect per field, 15 min each (two sampling rounds per field)",NA
"Jeroen_Scheper_Brassica_napus_Netherlands_2011","Lettele","transects","Eristalis_tenax","species","syrphids",5,600,60,NA,"Two 150 x 1 m transect per field, 15 min each (two sampling rounds per field)",NA
"Jeroen_Scheper_Brassica_napus_Netherlands_2011","Doetinchem","transects","Eristalis_sp.","genus","syrphids",2,600,60,NA,"Two 150 x 1 m transect per field, 15 min each (two sampling rounds per field)",NA
"Jeroen_Scheper_Brassica_napus_Netherlands_2011","Doetinchem","transects","Eristalis_sp.","genus","syrphids",1,600,60,NA,"Two 150 x 1 m transect per field, 15 min each (two sampling rounds per field)",NA
"Jeroen_Scheper_Brassica_napus_Netherlands_2011","Gelselaar","transects","Eristalis_sp.","genus","syrphids",1,600,60,NA,"Two 150 x 1 m transect per field, 15 min each (two sampling rounds per field)",NA
"Jeroen_Scheper_Brassica_napus_Netherlands_2011","Gelselaar","transects","Eristalis_sp.","genus","syrphids",1,600,60,NA,"Two 150 x 1 m transect per field, 15 min each (two sampling rounds per field)",NA
"Jeroen_Scheper_Brassica_napus_Netherlands_2011","Schalkhaar","transects","Eristalis_sp.","genus","syrphids",1,600,60,NA,"Two 150 x 1 m transect per field, 15 min each (two sampling rounds per field)",NA
"Jeroen_Scheper_Brassica_napus_Netherlands_2011","Bussloo","transects","Helophilus_pendulus","species","syrphids",1,600,60,NA,"Two 150 x 1 m transect per field, 15 min each (two sampling rounds per field)",NA
"Jeroen_Scheper_Brassica_napus_Netherlands_2011","Bussloo","transects","Helophilus_pendulus","species","syrphids",2,600,60,NA,"Two 150 x 1 m transect per field, 15 min each (two sampling rounds per field)",NA
"Jeroen_Scheper_Brassica_napus_Netherlands_2011","Gelselaar","transects","Helophilus_pendulus","species","syrphids",2,600,60,NA,"Two 150 x 1 m transect per field, 15 min each (two sampling rounds per field)",NA
"Jeroen_Scheper_Brassica_napus_Netherlands_2011","Lettele","transects","Helophilus_pendulus","species","syrphids",2,600,60,NA,"Two 150 x 1 m transect per field, 15 min each (two sampling rounds per field)",NA
"Jeroen_Scheper_Brassica_napus_Netherlands_2011","Schalkhaar","transects","Helophilus_trivittatus","species","syrphids",2,600,60,NA,"Two 150 x 1 m transect per field, 15 min each (two sampling rounds per field)",NA
"Jeroen_Scheper_Brassica_napus_Netherlands_2011","Schalkhaar","transects","Helophilus_trivittatus","species","syrphids",1,600,60,NA,"Two 150 x 1 m transect per field, 15 min each (two sampling rounds per field)",NA
"Jeroen_Scheper_Brassica_napus_Netherlands_2011","Deventer","transects","Helophilus_trivittatus","species","syrphids",1,600,60,NA,"Two 150 x 1 m transect per field, 15 min each (two sampling rounds per field)",NA
"Jeroen_Scheper_Brassica_napus_Netherlands_2011","Lettele","transects","Helophilus_trivittatus","species","syrphids",1,600,60,NA,"Two 150 x 1 m transect per field, 15 min each (two sampling rounds per field)",NA
"Jeroen_Scheper_Brassica_napus_Netherlands_2011","Lettele","transects","Helophilus_trivittatus","species","syrphids",2,600,60,NA,"Two 150 x 1 m transect per field, 15 min each (two sampling rounds per field)",NA
"Jeroen_Scheper_Brassica_napus_Netherlands_2011","Doetinchem","transects","hymenoptera_sp.","order","non_bee_hymenoptera",2,600,60,NA,"Two 150 x 1 m transect per field, 15 min each (two sampling rounds per field)",NA
"Jeroen_Scheper_Brassica_napus_Netherlands_2011","Lengel","transects","hymenoptera_sp.","order","non_bee_hymenoptera",2,600,60,NA,"Two 150 x 1 m transect per field, 15 min each (two sampling rounds per field)",NA
"Jeroen_Scheper_Brassica_napus_Netherlands_2011","Bussloo","transects","hymenoptera_sp.","order","non_bee_hymenoptera",1,600,60,NA,"Two 150 x 1 m transect per field, 15 min each (two sampling rounds per field)",NA
"Jeroen_Scheper_Brassica_napus_Netherlands_2011","Doetinchem","transects","Lasioglossum_sexnotatum","species","other_wild_bees",1,600,60,NA,"Two 150 x 1 m transect per field, 15 min each (two sampling rounds per field)",NA
"Jeroen_Scheper_Brassica_napus_Netherlands_2011","Doetinchem","transects","Melanostoma_mellinum","species","syrphids",11,600,60,NA,"Two 150 x 1 m transect per field, 15 min each (two sampling rounds per field)",NA
"Jeroen_Scheper_Brassica_napus_Netherlands_2011","Lengel","transects","Melanostoma_mellinum","species","syrphids",1,600,60,NA,"Two 150 x 1 m transect per field, 15 min each (two sampling rounds per field)",NA
"Jeroen_Scheper_Brassica_napus_Netherlands_2011","Lengel","transects","Melanostoma_mellinum","species","syrphids",1,600,60,NA,"Two 150 x 1 m transect per field, 15 min each (two sampling rounds per field)",NA
"Jeroen_Scheper_Brassica_napus_Netherlands_2011","Gelselaar","transects","Melanostoma_mellinum","species","syrphids",1,600,60,NA,"Two 150 x 1 m transect per field, 15 min each (two sampling rounds per field)",NA
"Jeroen_Scheper_Brassica_napus_Netherlands_2011","Deventer","transects","Melanostoma_mellinum","species","syrphids",1,600,60,NA,"Two 150 x 1 m transect per field, 15 min each (two sampling rounds per field)",NA
"Jeroen_Scheper_Brassica_napus_Netherlands_2011","Deventer","transects","Melanostoma_scalare","species","syrphids",1,600,60,NA,"Two 150 x 1 m transect per field, 15 min each (two sampling rounds per field)",NA
"Jeroen_Scheper_Brassica_napus_Netherlands_2011","Doetinchem","transects","Myathropa_florea","species","syrphids",2,600,60,NA,"Two 150 x 1 m transect per field, 15 min each (two sampling rounds per field)",NA
"Jeroen_Scheper_Brassica_napus_Netherlands_2011","Bussloo","transects","Rhingia_campestris","species","syrphids",2,600,60,NA,"Two 150 x 1 m transect per field, 15 min each (two sampling rounds per field)",NA
"Jeroen_Scheper_Brassica_napus_Netherlands_2011","Gelselaar","transects","Scaeva_pirastry","species","syrphids",1,600,60,NA,"Two 150 x 1 m transect per field, 15 min each (two sampling rounds per field)",NA
"Jeroen_Scheper_Brassica_napus_Netherlands_2011","Gelselaar","transects","Syritta_pipiens","species","syrphids",1,600,60,NA,"Two 150 x 1 m transect per field, 15 min each (two sampling rounds per field)",NA
"Jeroen_Scheper_Brassica_napus_Netherlands_2011","Schalkhaar","transects","Syritta_pipiens","species","syrphids",1,600,60,NA,"Two 150 x 1 m transect per field, 15 min each (two sampling rounds per field)",NA
"Jeroen_Scheper_Brassica_napus_Netherlands_2011","Doetinchem","transects","syrphidae","family","syrphids",2,600,60,NA,"Two 150 x 1 m transect per field, 15 min each (two sampling rounds per field)",NA
"Jeroen_Scheper_Brassica_napus_Netherlands_2011","Doetinchem","transects","syrphidae","family","syrphids",3,600,60,NA,"Two 150 x 1 m transect per field, 15 min each (two sampling rounds per field)",NA
"Jeroen_Scheper_Brassica_napus_Netherlands_2011","Kloosterhaar","transects","syrphidae","family","syrphids",1,600,60,NA,"Two 150 x 1 m transect per field, 15 min each (two sampling rounds per field)",NA
"Jeroen_Scheper_Brassica_napus_Netherlands_2011","Lengel","transects","syrphidae","family","syrphids",5,600,60,NA,"Two 150 x 1 m transect per field, 15 min each (two sampling rounds per field)",NA
"Jeroen_Scheper_Brassica_napus_Netherlands_2011","Bussloo","transects","syrphidae","family","syrphids",1,600,60,NA,"Two 150 x 1 m transect per field, 15 min each (two sampling rounds per field)",NA
"Jeroen_Scheper_Brassica_napus_Netherlands_2011","Gelselaar","transects","syrphidae","family","syrphids",5,600,60,NA,"Two 150 x 1 m transect per field, 15 min each (two sampling rounds per field)",NA
"Jeroen_Scheper_Brassica_napus_Netherlands_2011","Schalkhaar","transects","syrphidae","family","syrphids",5,600,60,NA,"Two 150 x 1 m transect per field, 15 min each (two sampling rounds per field)",NA
"Jeroen_Scheper_Brassica_napus_Netherlands_2011","Schalkhaar","transects","syrphidae","family","syrphids",9,600,60,NA,"Two 150 x 1 m transect per field, 15 min each (two sampling rounds per field)",NA
"Jeroen_Scheper_Brassica_napus_Netherlands_2011","Deventer","transects","syrphidae","family","syrphids",1,600,60,NA,"Two 150 x 1 m transect per field, 15 min each (two sampling rounds per field)",NA
"Jeroen_Scheper_Brassica_napus_Netherlands_2011","Lettele","transects","syrphidae","family","syrphids",7,600,60,NA,"Two 150 x 1 m transect per field, 15 min each (two sampling rounds per field)",NA
"Jeroen_Scheper_Brassica_napus_Netherlands_2011","Gelselaar","transects","Syrphus_ribesii","species","syrphids",1,600,60,NA,"Two 150 x 1 m transect per field, 15 min each (two sampling rounds per field)",NA
"Jeroen_Scheper_Brassica_napus_Netherlands_2011","Kloosterhaar","transects","Volucella_bombylans","species","syrphids",1,600,60,NA,"Two 150 x 1 m transect per field, 15 min each (two sampling rounds per field)",NA
"Jeroen_Scheper_Brassica_napus_Netherlands_2011","Bussloo","transects","Volucella_bombylans","species","syrphids",1,600,60,NA,"Two 150 x 1 m transect per field, 15 min each (two sampling rounds per field)",NA
"Jeroen_Scheper_Brassica_napus_several_countries_2012","Bussloo","transects","Andrena_carantonica","species","other_wild_bees",1,600,60,NA,"Two rounds per field. Each sampling round consists in two 150 x 1 m transect (15 min each)",NA
"Jeroen_Scheper_Brassica_napus_several_countries_2012","Doetinchem","transects","Andrena_cineraria","species","other_wild_bees",1,600,60,NA,"Two rounds per field. Each sampling round consists in two 150 x 1 m transect (15 min each)",NA
"Jeroen_Scheper_Brassica_napus_several_countries_2012","Kloosterhaar","transects","Andrena_cineraria","species","other_wild_bees",1,600,60,NA,"Two rounds per field. Each sampling round consists in two 150 x 1 m transect (15 min each)",NA
"Jeroen_Scheper_Brassica_napus_several_countries_2012","Bussloo","transects","Andrena_cineraria","species","other_wild_bees",1,600,60,NA,"Two rounds per field. Each sampling round consists in two 150 x 1 m transect (15 min each)",NA
"Jeroen_Scheper_Brassica_napus_several_countries_2012","Doetinchem","transects","Andrena_dorsata","species","other_wild_bees",1,600,60,NA,"Two rounds per field. Each sampling round consists in two 150 x 1 m transect (15 min each)",NA
"Jeroen_Scheper_Brassica_napus_several_countries_2012","Doetinchem","transects","Andrena_flavipes","species","other_wild_bees",1,600,60,NA,"Two rounds per field. Each sampling round consists in two 150 x 1 m transect (15 min each)",NA
"Jeroen_Scheper_Brassica_napus_several_countries_2012","Doetinchem","transects","Andrena_flavipes","species","other_wild_bees",2,600,60,NA,"Two rounds per field. Each sampling round consists in two 150 x 1 m transect (15 min each)",NA
"Jeroen_Scheper_Brassica_napus_several_countries_2012","Bussloo","transects","Andrena_fulva","species","other_wild_bees",1,600,60,NA,"Two rounds per field. Each sampling round consists in two 150 x 1 m transect (15 min each)",NA
"Jeroen_Scheper_Brassica_napus_several_countries_2012","Schalkhaar","transects","Andrena_fulva","species","other_wild_bees",1,600,60,NA,"Two rounds per field. Each sampling round consists in two 150 x 1 m transect (15 min each)",NA
"Jeroen_Scheper_Brassica_napus_several_countries_2012","Doetinchem","transects","Andrena_haemorrhoa","species","other_wild_bees",4,600,60,NA,"Two rounds per field. Each sampling round consists in two 150 x 1 m transect (15 min each)",NA
"Jeroen_Scheper_Brassica_napus_several_countries_2012","Kloosterhaar","transects","Andrena_haemorrhoa","species","other_wild_bees",1,600,60,NA,"Two rounds per field. Each sampling round consists in two 150 x 1 m transect (15 min each)",NA
"Jeroen_Scheper_Brassica_napus_several_countries_2012","Lengel","transects","Andrena_haemorrhoa","species","other_wild_bees",1,600,60,NA,"Two rounds per field. Each sampling round consists in two 150 x 1 m transect (15 min each)",NA
"Jeroen_Scheper_Brassica_napus_several_countries_2012","Bussloo","transects","Andrena_haemorrhoa","species","other_wild_bees",1,600,60,NA,"Two rounds per field. Each sampling round consists in two 150 x 1 m transect (15 min each)",NA
"Jeroen_Scheper_Brassica_napus_several_countries_2012","Gelselaar","transects","Andrena_haemorrhoa","species","other_wild_bees",1,600,60,NA,"Two rounds per field. Each sampling round consists in two 150 x 1 m transect (15 min each)",NA
"Jeroen_Scheper_Brassica_napus_several_countries_2012","Bussloo","transects","Andrena_labiata","species","other_wild_bees",1,600,60,NA,"Two rounds per field. Each sampling round consists in two 150 x 1 m transect (15 min each)",NA
"Jeroen_Scheper_Brassica_napus_several_countries_2012","Kloosterhaar","transects","Andrena_nigroaenea","species","other_wild_bees",1,600,60,NA,"Two rounds per field. Each sampling round consists in two 150 x 1 m transect (15 min each)",NA
"Jeroen_Scheper_Brassica_napus_several_countries_2012","Kloosterhaar","transects","Andrena_nitida","species","other_wild_bees",1,600,60,NA,"Two rounds per field. Each sampling round consists in two 150 x 1 m transect (15 min each)",NA
"Jeroen_Scheper_Brassica_napus_several_countries_2012","Gelselaar","transects","Andrena_nitida","species","other_wild_bees",2,600,60,NA,"Two rounds per field. Each sampling round consists in two 150 x 1 m transect (15 min each)",NA
"Jeroen_Scheper_Brassica_napus_several_countries_2012","Schalkhaar","transects","Andrena_nitida","species","other_wild_bees",3,600,60,NA,"Two rounds per field. Each sampling round consists in two 150 x 1 m transect (15 min each)",NA
"Jeroen_Scheper_Brassica_napus_several_countries_2012","Bussloo","transects","Andrena_subopaca","species","other_wild_bees",1,600,60,NA,"Two rounds per field. Each sampling round consists in two 150 x 1 m transect (15 min each)",NA
"Jeroen_Scheper_Brassica_napus_several_countries_2012","Lengel","transects","Andrena_tibialis","species","other_wild_bees",1,600,60,NA,"Two rounds per field. Each sampling round consists in two 150 x 1 m transect (15 min each)",NA
"Jeroen_Scheper_Brassica_napus_several_countries_2012","Doetinchem","transects","Apis_mellifera","species","honeybees",41,600,60,NA,"Two rounds per field. Each sampling round consists in two 150 x 1 m transect (15 min each)",NA
"Jeroen_Scheper_Brassica_napus_several_countries_2012","Doetinchem","transects","Apis_mellifera","species","honeybees",28,600,60,NA,"Two rounds per field. Each sampling round consists in two 150 x 1 m transect (15 min each)",NA
"Jeroen_Scheper_Brassica_napus_several_countries_2012","Kloosterhaar","transects","Apis_mellifera","species","honeybees",24,600,60,NA,"Two rounds per field. Each sampling round consists in two 150 x 1 m transect (15 min each)",NA
"Jeroen_Scheper_Brassica_napus_several_countries_2012","Kloosterhaar","transects","Apis_mellifera","species","honeybees",48,600,60,NA,"Two rounds per field. Each sampling round consists in two 150 x 1 m transect (15 min each)",NA
"Jeroen_Scheper_Brassica_napus_several_countries_2012","Lengel","transects","Apis_mellifera","species","honeybees",92,600,60,NA,"Two rounds per field. Each sampling round consists in two 150 x 1 m transect (15 min each)",NA
"Jeroen_Scheper_Brassica_napus_several_countries_2012","Lengel","transects","Apis_mellifera","species","honeybees",55,600,60,NA,"Two rounds per field. Each sampling round consists in two 150 x 1 m transect (15 min each)",NA
"Jeroen_Scheper_Brassica_napus_several_countries_2012","Bussloo","transects","Apis_mellifera","species","honeybees",152,600,60,NA,"Two rounds per field. Each sampling round consists in two 150 x 1 m transect (15 min each)",NA
"Jeroen_Scheper_Brassica_napus_several_countries_2012","Bussloo","transects","Apis_mellifera","species","honeybees",36,600,60,NA,"Two rounds per field. Each sampling round consists in two 150 x 1 m transect (15 min each)",NA
"Jeroen_Scheper_Brassica_napus_several_countries_2012","Gelselaar","transects","Apis_mellifera","species","honeybees",68,600,60,NA,"Two rounds per field. Each sampling round consists in two 150 x 1 m transect (15 min each)",NA
"Jeroen_Scheper_Brassica_napus_several_countries_2012","Gelselaar","transects","Apis_mellifera","species","honeybees",64,600,60,NA,"Two rounds per field. Each sampling round consists in two 150 x 1 m transect (15 min each)",NA
"Jeroen_Scheper_Brassica_napus_several_countries_2012","Schalkhaar","transects","Apis_mellifera","species","honeybees",111,600,60,NA,"Two rounds per field. Each sampling round consists in two 150 x 1 m transect (15 min each)",NA
"Jeroen_Scheper_Brassica_napus_several_countries_2012","Schalkhaar","transects","Apis_mellifera","species","honeybees",6,600,60,NA,"Two rounds per field. Each sampling round consists in two 150 x 1 m transect (15 min each)",NA
"Jeroen_Scheper_Brassica_napus_several_countries_2012","Doetinchem","transects","Bombus_lucorum_terrestris","species","bumblebees",1,600,60,NA,"Two rounds per field. Each sampling round consists in two 150 x 1 m transect (15 min each)",NA
"Jeroen_Scheper_Brassica_napus_several_countries_2012","Doetinchem","transects","Bombus_lucorum_terrestris","species","bumblebees",2,600,60,NA,"Two rounds per field. Each sampling round consists in two 150 x 1 m transect (15 min each)",NA
"Jeroen_Scheper_Brassica_napus_several_countries_2012","Kloosterhaar","transects","Bombus_lucorum_terrestris","species","bumblebees",2,600,60,NA,"Two rounds per field. Each sampling round consists in two 150 x 1 m transect (15 min each)",NA
"Jeroen_Scheper_Brassica_napus_several_countries_2012","Lengel","transects","Bombus_lucorum_terrestris","species","bumblebees",10,600,60,NA,"Two rounds per field. Each sampling round consists in two 150 x 1 m transect (15 min each)",NA
"Jeroen_Scheper_Brassica_napus_several_countries_2012","Bussloo","transects","Bombus_lucorum_terrestris","species","bumblebees",1,600,60,NA,"Two rounds per field. Each sampling round consists in two 150 x 1 m transect (15 min each)",NA
"Jeroen_Scheper_Brassica_napus_several_countries_2012","Bussloo","transects","Bombus_lucorum_terrestris","species","bumblebees",1,600,60,NA,"Two rounds per field. Each sampling round consists in two 150 x 1 m transect (15 min each)",NA
"Jeroen_Scheper_Brassica_napus_several_countries_2012","Gelselaar","transects","Bombus_lucorum_terrestris","species","bumblebees",2,600,60,NA,"Two rounds per field. Each sampling round consists in two 150 x 1 m transect (15 min each)",NA
"Jeroen_Scheper_Brassica_napus_several_countries_2012","Schalkhaar","transects","Bombus_lucorum_terrestris","species","bumblebees",4,600,60,NA,"Two rounds per field. Each sampling round consists in two 150 x 1 m transect (15 min each)",NA
"Jeroen_Scheper_Brassica_napus_several_countries_2012","Schalkhaar","transects","Bombus_lucorum_terrestris","species","bumblebees",1,600,60,NA,"Two rounds per field. Each sampling round consists in two 150 x 1 m transect (15 min each)",NA
"Jeroen_Scheper_Brassica_napus_several_countries_2012","Kloosterhaar","transects","Bombus_lapidarius","species","bumblebees",1,600,60,NA,"Two rounds per field. Each sampling round consists in two 150 x 1 m transect (15 min each)",NA
"Jeroen_Scheper_Brassica_napus_several_countries_2012","Lengel","transects","Bombus_lapidarius","species","bumblebees",2,600,60,NA,"Two rounds per field. Each sampling round consists in two 150 x 1 m transect (15 min each)",NA
"Jeroen_Scheper_Brassica_napus_several_countries_2012","Gelselaar","transects","Episyrphus_balteatus","species","syrphids",1,600,60,NA,"Two rounds per field. Each sampling round consists in two 150 x 1 m transect (15 min each)",NA
"Jeroen_Scheper_Brassica_napus_several_countries_2012","Kloosterhaar","transects","Eristalis_arbustorum","species","syrphids",4,600,60,NA,"Two rounds per field. Each sampling round consists in two 150 x 1 m transect (15 min each)",NA
"Jeroen_Scheper_Brassica_napus_several_countries_2012","Bussloo","transects","Eristalis_arbustorum","species","syrphids",1,600,60,NA,"Two rounds per field. Each sampling round consists in two 150 x 1 m transect (15 min each)",NA
"Jeroen_Scheper_Brassica_napus_several_countries_2012","Gelselaar","transects","Eristalis_arbustorum","species","syrphids",1,600,60,NA,"Two rounds per field. Each sampling round consists in two 150 x 1 m transect (15 min each)",NA
"Jeroen_Scheper_Brassica_napus_several_countries_2012","Kloosterhaar","transects","Eristalis_intricaria","species","syrphids",1,600,60,NA,"Two rounds per field. Each sampling round consists in two 150 x 1 m transect (15 min each)",NA
"Jeroen_Scheper_Brassica_napus_several_countries_2012","Kloosterhaar","transects","Eristalis_pertinax","species","syrphids",4,600,60,NA,"Two rounds per field. Each sampling round consists in two 150 x 1 m transect (15 min each)",NA
"Jeroen_Scheper_Brassica_napus_several_countries_2012","Kloosterhaar","transects","Eristalis_pertinax","species","syrphids",1,600,60,NA,"Two rounds per field. Each sampling round consists in two 150 x 1 m transect (15 min each)",NA
"Jeroen_Scheper_Brassica_napus_several_countries_2012","Bussloo","transects","Eristalis_pertinax","species","syrphids",2,600,60,NA,"Two rounds per field. Each sampling round consists in two 150 x 1 m transect (15 min each)",NA
"Jeroen_Scheper_Brassica_napus_several_countries_2012","Gelselaar","transects","Eristalis_pertinax","species","syrphids",1,600,60,NA,"Two rounds per field. Each sampling round consists in two 150 x 1 m transect (15 min each)",NA
"Jeroen_Scheper_Brassica_napus_several_countries_2012","Schalkhaar","transects","Eristalis_pertinax","species","syrphids",2,600,60,NA,"Two rounds per field. Each sampling round consists in two 150 x 1 m transect (15 min each)",NA
"Jeroen_Scheper_Brassica_napus_several_countries_2012","Schalkhaar","transects","Eristalis_pertinax","species","syrphids",4,600,60,NA,"Two rounds per field. Each sampling round consists in two 150 x 1 m transect (15 min each)",NA
"Jeroen_Scheper_Brassica_napus_several_countries_2012","Doetinchem","transects","Eristalis_tenax","species","syrphids",2,600,60,NA,"Two rounds per field. Each sampling round consists in two 150 x 1 m transect (15 min each)",NA
"Jeroen_Scheper_Brassica_napus_several_countries_2012","Kloosterhaar","transects","Eristalis_tenax","species","syrphids",3,600,60,NA,"Two rounds per field. Each sampling round consists in two 150 x 1 m transect (15 min each)",NA
"Jeroen_Scheper_Brassica_napus_several_countries_2012","Bussloo","transects","Eristalis_tenax","species","syrphids",1,600,60,NA,"Two rounds per field. Each sampling round consists in two 150 x 1 m transect (15 min each)",NA
"Jeroen_Scheper_Brassica_napus_several_countries_2012","Gelselaar","transects","Eristalis_tenax","species","syrphids",2,600,60,NA,"Two rounds per field. Each sampling round consists in two 150 x 1 m transect (15 min each)",NA
"Jeroen_Scheper_Brassica_napus_several_countries_2012","Schalkhaar","transects","Eristalis_tenax","species","syrphids",1,600,60,NA,"Two rounds per field. Each sampling round consists in two 150 x 1 m transect (15 min each)",NA
"Jeroen_Scheper_Brassica_napus_several_countries_2012","Doetinchem","transects","Eristalis_sp.","genus","syrphids",4,600,60,NA,"Two rounds per field. Each sampling round consists in two 150 x 1 m transect (15 min each)",NA
"Jeroen_Scheper_Brassica_napus_several_countries_2012","Kloosterhaar","transects","Eristalis_sp.","genus","syrphids",8,600,60,NA,"Two rounds per field. Each sampling round consists in two 150 x 1 m transect (15 min each)",NA
"Jeroen_Scheper_Brassica_napus_several_countries_2012","Kloosterhaar","transects","Eristalis_sp.","genus","syrphids",5,600,60,NA,"Two rounds per field. Each sampling round consists in two 150 x 1 m transect (15 min each)",NA
"Jeroen_Scheper_Brassica_napus_several_countries_2012","Lengel","transects","Eristalis_sp.","genus","syrphids",1,600,60,NA,"Two rounds per field. Each sampling round consists in two 150 x 1 m transect (15 min each)",NA
"Jeroen_Scheper_Brassica_napus_several_countries_2012","Lengel","transects","Eristalis_sp.","genus","syrphids",3,600,60,NA,"Two rounds per field. Each sampling round consists in two 150 x 1 m transect (15 min each)",NA
"Jeroen_Scheper_Brassica_napus_several_countries_2012","Bussloo","transects","Eristalis_sp.","genus","syrphids",3,600,60,NA,"Two rounds per field. Each sampling round consists in two 150 x 1 m transect (15 min each)",NA
"Jeroen_Scheper_Brassica_napus_several_countries_2012","Gelselaar","transects","Eristalis_sp.","genus","syrphids",4,600,60,NA,"Two rounds per field. Each sampling round consists in two 150 x 1 m transect (15 min each)",NA
"Jeroen_Scheper_Brassica_napus_several_countries_2012","Gelselaar","transects","Eristalis_sp.","genus","syrphids",2,600,60,NA,"Two rounds per field. Each sampling round consists in two 150 x 1 m transect (15 min each)",NA
"Jeroen_Scheper_Brassica_napus_several_countries_2012","Schalkhaar","transects","Eupeodes_luniger","species","syrphids",2,600,60,NA,"Two rounds per field. Each sampling round consists in two 150 x 1 m transect (15 min each)",NA
"Jeroen_Scheper_Brassica_napus_several_countries_2012","Bussloo","transects","Eupeodes_nitens","species","syrphids",1,600,60,NA,"Two rounds per field. Each sampling round consists in two 150 x 1 m transect (15 min each)",NA
"Jeroen_Scheper_Brassica_napus_several_countries_2012","Kloosterhaar","transects","Helophilus_pendulus","species","syrphids",2,600,60,NA,"Two rounds per field. Each sampling round consists in two 150 x 1 m transect (15 min each)",NA
"Jeroen_Scheper_Brassica_napus_several_countries_2012","Lengel","transects","Helophilus_pendulus","species","syrphids",1,600,60,NA,"Two rounds per field. Each sampling round consists in two 150 x 1 m transect (15 min each)",NA
"Jeroen_Scheper_Brassica_napus_several_countries_2012","Bussloo","transects","Helophilus_pendulus","species","syrphids",3,600,60,NA,"Two rounds per field. Each sampling round consists in two 150 x 1 m transect (15 min each)",NA
"Jeroen_Scheper_Brassica_napus_several_countries_2012","Gelselaar","transects","Helophilus_pendulus","species","syrphids",2,600,60,NA,"Two rounds per field. Each sampling round consists in two 150 x 1 m transect (15 min each)",NA
"Jeroen_Scheper_Brassica_napus_several_countries_2012","Schalkhaar","transects","Helophilus_pendulus","species","syrphids",1,600,60,NA,"Two rounds per field. Each sampling round consists in two 150 x 1 m transect (15 min each)",NA
"Jeroen_Scheper_Brassica_napus_several_countries_2012","Schalkhaar","transects","Helophilus_pendulus","species","syrphids",2,600,60,NA,"Two rounds per field. Each sampling round consists in two 150 x 1 m transect (15 min each)",NA
"Jeroen_Scheper_Brassica_napus_several_countries_2012","Kloosterhaar","transects","Helophilus_trivittatus","species","syrphids",14,600,60,NA,"Two rounds per field. Each sampling round consists in two 150 x 1 m transect (15 min each)",NA
"Jeroen_Scheper_Brassica_napus_several_countries_2012","Lengel","transects","Helophilus_trivittatus","species","syrphids",1,600,60,NA,"Two rounds per field. Each sampling round consists in two 150 x 1 m transect (15 min each)",NA
"Jeroen_Scheper_Brassica_napus_several_countries_2012","Bussloo","transects","Helophilus_trivittatus","species","syrphids",2,600,60,NA,"Two rounds per field. Each sampling round consists in two 150 x 1 m transect (15 min each)",NA
"Jeroen_Scheper_Brassica_napus_several_countries_2012","Schalkhaar","transects","Helophilus_trivittatus","species","syrphids",1,600,60,NA,"Two rounds per field. Each sampling round consists in two 150 x 1 m transect (15 min each)",NA
"Jeroen_Scheper_Brassica_napus_several_countries_2012","Doetinchem","transects","hymenoptera_sp.","order","non_bee_hymenoptera",2,600,60,NA,"Two rounds per field. Each sampling round consists in two 150 x 1 m transect (15 min each)",NA
"Jeroen_Scheper_Brassica_napus_several_countries_2012","Kloosterhaar","transects","hymenoptera_sp.","order","non_bee_hymenoptera",1,600,60,NA,"Two rounds per field. Each sampling round consists in two 150 x 1 m transect (15 min each)",NA
"Jeroen_Scheper_Brassica_napus_several_countries_2012","Lengel","transects","hymenoptera_sp.","order","non_bee_hymenoptera",1,600,60,NA,"Two rounds per field. Each sampling round consists in two 150 x 1 m transect (15 min each)",NA
"Jeroen_Scheper_Brassica_napus_several_countries_2012","Bussloo","transects","hymenoptera_sp.","order","non_bee_hymenoptera",1,600,60,NA,"Two rounds per field. Each sampling round consists in two 150 x 1 m transect (15 min each)",NA
"Jeroen_Scheper_Brassica_napus_several_countries_2012","Gelselaar","transects","hymenoptera_sp.","order","non_bee_hymenoptera",1,600,60,NA,"Two rounds per field. Each sampling round consists in two 150 x 1 m transect (15 min each)",NA
"Jeroen_Scheper_Brassica_napus_several_countries_2012","Doetinchem","transects","Lasioglossum_sexstrigatum","species","other_wild_bees",1,600,60,NA,"Two rounds per field. Each sampling round consists in two 150 x 1 m transect (15 min each)",NA
"Jeroen_Scheper_Brassica_napus_several_countries_2012","Kloosterhaar","transects","Melanostoma_mellinum","species","syrphids",4,600,60,NA,"Two rounds per field. Each sampling round consists in two 150 x 1 m transect (15 min each)",NA
"Jeroen_Scheper_Brassica_napus_several_countries_2012","Lengel","transects","Melanostoma_mellinum","species","syrphids",1,600,60,NA,"Two rounds per field. Each sampling round consists in two 150 x 1 m transect (15 min each)",NA
"Jeroen_Scheper_Brassica_napus_several_countries_2012","Bussloo","transects","Melanostoma_mellinum","species","syrphids",1,600,60,NA,"Two rounds per field. Each sampling round consists in two 150 x 1 m transect (15 min each)",NA
"Jeroen_Scheper_Brassica_napus_several_countries_2012","Doetinchem","transects","Myathropa_florea","species","syrphids",1,600,60,NA,"Two rounds per field. Each sampling round consists in two 150 x 1 m transect (15 min each)",NA
"Jeroen_Scheper_Brassica_napus_several_countries_2012","Bussloo","transects","Myathropa_florea","species","syrphids",1,600,60,NA,"Two rounds per field. Each sampling round consists in two 150 x 1 m transect (15 min each)",NA
"Jeroen_Scheper_Brassica_napus_several_countries_2012","Gelselaar","transects","Myathropa_florea","species","syrphids",2,600,60,NA,"Two rounds per field. Each sampling round consists in two 150 x 1 m transect (15 min each)",NA
"Jeroen_Scheper_Brassica_napus_several_countries_2012","Lengel","transects","Osmia_bicornis","species","other_wild_bees",1,600,60,NA,"Two rounds per field. Each sampling round consists in two 150 x 1 m transect (15 min each)",NA
"Jeroen_Scheper_Brassica_napus_several_countries_2012","Bussloo","transects","Parasyrphus_nigritarsis","species","syrphids",1,600,60,NA,"Two rounds per field. Each sampling round consists in two 150 x 1 m transect (15 min each)",NA
"Jeroen_Scheper_Brassica_napus_several_countries_2012","Doetinchem","transects","Rhingia_campestris","species","syrphids",1,600,60,NA,"Two rounds per field. Each sampling round consists in two 150 x 1 m transect (15 min each)",NA
"Jeroen_Scheper_Brassica_napus_several_countries_2012","Lengel","transects","Rhingia_campestris","species","syrphids",1,600,60,NA,"Two rounds per field. Each sampling round consists in two 150 x 1 m transect (15 min each)",NA
"Jeroen_Scheper_Brassica_napus_several_countries_2012","Bussloo","transects","Rhingia_campestris","species","syrphids",4,600,60,NA,"Two rounds per field. Each sampling round consists in two 150 x 1 m transect (15 min each)",NA
"Jeroen_Scheper_Brassica_napus_several_countries_2012","Bussloo","transects","Rhingia_campestris","species","syrphids",1,600,60,NA,"Two rounds per field. Each sampling round consists in two 150 x 1 m transect (15 min each)",NA
"Jeroen_Scheper_Brassica_napus_several_countries_2012","Gelselaar","transects","Rhingia_campestris","species","syrphids",14,600,60,NA,"Two rounds per field. Each sampling round consists in two 150 x 1 m transect (15 min each)",NA
"Jeroen_Scheper_Brassica_napus_several_countries_2012","Gelselaar","transects","Rhingia_campestris","species","syrphids",5,600,60,NA,"Two rounds per field. Each sampling round consists in two 150 x 1 m transect (15 min each)",NA
"Jeroen_Scheper_Brassica_napus_several_countries_2012","Kloosterhaar","transects","Scaeva_selenitica","species","syrphids",2,600,60,NA,"Two rounds per field. Each sampling round consists in two 150 x 1 m transect (15 min each)",NA
"Jeroen_Scheper_Brassica_napus_several_countries_2012","Schalkhaar","transects","Syritta_pipiens","species","syrphids",1,600,60,NA,"Two rounds per field. Each sampling round consists in two 150 x 1 m transect (15 min each)",NA
"Jeroen_Scheper_Brassica_napus_several_countries_2012","Doetinchem","transects","syrphidae","family","syrphids",4,600,60,NA,"Two rounds per field. Each sampling round consists in two 150 x 1 m transect (15 min each)",NA
"Jeroen_Scheper_Brassica_napus_several_countries_2012","Kloosterhaar","transects","syrphidae","family","syrphids",6,600,60,NA,"Two rounds per field. Each sampling round consists in two 150 x 1 m transect (15 min each)",NA
"Jeroen_Scheper_Brassica_napus_several_countries_2012","Kloosterhaar","transects","syrphidae","family","syrphids",9,600,60,NA,"Two rounds per field. Each sampling round consists in two 150 x 1 m transect (15 min each)",NA
"Jeroen_Scheper_Brassica_napus_several_countries_2012","Lengel","transects","syrphidae","family","syrphids",3,600,60,NA,"Two rounds per field. Each sampling round consists in two 150 x 1 m transect (15 min each)",NA
"Jeroen_Scheper_Brassica_napus_several_countries_2012","Bussloo","transects","syrphidae","family","syrphids",4,600,60,NA,"Two rounds per field. Each sampling round consists in two 150 x 1 m transect (15 min each)",NA
"Jeroen_Scheper_Brassica_napus_several_countries_2012","Bussloo","transects","syrphidae","family","syrphids",13,600,60,NA,"Two rounds per field. Each sampling round consists in two 150 x 1 m transect (15 min each)",NA
"Jeroen_Scheper_Brassica_napus_several_countries_2012","Gelselaar","transects","syrphidae","family","syrphids",2,600,60,NA,"Two rounds per field. Each sampling round consists in two 150 x 1 m transect (15 min each)",NA
"Jeroen_Scheper_Brassica_napus_several_countries_2012","Gelselaar","transects","syrphidae","family","syrphids",5,600,60,NA,"Two rounds per field. Each sampling round consists in two 150 x 1 m transect (15 min each)",NA
"Jeroen_Scheper_Brassica_napus_several_countries_2012","Schalkhaar","transects","syrphidae","family","syrphids",5,600,60,NA,"Two rounds per field. Each sampling round consists in two 150 x 1 m transect (15 min each)",NA
"Jeroen_Scheper_Brassica_napus_several_countries_2012","Schalkhaar","transects","syrphidae","family","syrphids",2,600,60,NA,"Two rounds per field. Each sampling round consists in two 150 x 1 m transect (15 min each)",NA
"Jeroen_Scheper_Brassica_napus_several_countries_2012","Bussloo","transects","Syrphus_ribesii","species","syrphids",1,600,60,NA,"Two rounds per field. Each sampling round consists in two 150 x 1 m transect (15 min each)",NA
"Jeroen_Scheper_Brassica_napus_several_countries_2012","Gelselaar","transects","Syrphus_ribesii","species","syrphids",3,600,60,NA,"Two rounds per field. Each sampling round consists in two 150 x 1 m transect (15 min each)",NA
"Jeroen_Scheper_Brassica_napus_several_countries_2012","Kloosterhaar","transects","Syrphus_vitripennis","species","syrphids",1,600,60,NA,"Two rounds per field. Each sampling round consists in two 150 x 1 m transect (15 min each)",NA
"Jeroen_Scheper_Helianthus_annuus_France_2015","SF5","Standardized transect walks","Andrena flavipes","species","other_wild_bees",2,600,NA,NA,"Measures per site: per site 2 x 150m2 transects (one edge, one centre), per site 10 x plant pairs from edge to centre of field (5m intervals between pairs). Temporal replicates:	two sampling rounds for transect surveys",NA
"Jeroen_Scheper_Helianthus_annuus_France_2015","SF10","Standardized transect walks","Andrena flavipes","species","other_wild_bees",1,600,NA,NA,"Measures per site: per site 2 x 150m2 transects (one edge, one centre), per site 10 x plant pairs from edge to centre of field (5m intervals between pairs). Temporal replicates:	two sampling rounds for transect surveys",NA
"Jeroen_Scheper_Helianthus_annuus_France_2015","SF11","Standardized transect walks","Andrena flavipes","species","other_wild_bees",2,600,NA,NA,"Measures per site: per site 2 x 150m2 transects (one edge, one centre), per site 10 x plant pairs from edge to centre of field (5m intervals between pairs). Temporal replicates:	two sampling rounds for transect surveys",NA
"Jeroen_Scheper_Helianthus_annuus_France_2015","SF13","Standardized transect walks","Andrena flavipes","species","other_wild_bees",2,600,NA,NA,"Measures per site: per site 2 x 150m2 transects (one edge, one centre), per site 10 x plant pairs from edge to centre of field (5m intervals between pairs). Temporal replicates:	two sampling rounds for transect surveys",NA
"Jeroen_Scheper_Helianthus_annuus_France_2015","SF14","Standardized transect walks","Andrena flavipes","species","other_wild_bees",1,600,NA,NA,"Measures per site: per site 2 x 150m2 transects (one edge, one centre), per site 10 x plant pairs from edge to centre of field (5m intervals between pairs). Temporal replicates:	two sampling rounds for transect surveys",NA
"Jeroen_Scheper_Helianthus_annuus_France_2015","SF15","Standardized transect walks","Andrena flavipes","species","other_wild_bees",1,600,NA,NA,"Measures per site: per site 2 x 150m2 transects (one edge, one centre), per site 10 x plant pairs from edge to centre of field (5m intervals between pairs). Temporal replicates:	two sampling rounds for transect surveys",NA
"Jeroen_Scheper_Helianthus_annuus_France_2015","SF23","Standardized transect walks","Andrena flavipes","species","other_wild_bees",1,600,NA,NA,"Measures per site: per site 2 x 150m2 transects (one edge, one centre), per site 10 x plant pairs from edge to centre of field (5m intervals between pairs). Temporal replicates:	two sampling rounds for transect surveys",NA
"Jeroen_Scheper_Helianthus_annuus_France_2015","SF1","Standardized transect walks","Apis mellifera","species","honeybees",216,600,NA,NA,"Measures per site: per site 2 x 150m2 transects (one edge, one centre), per site 10 x plant pairs from edge to centre of field (5m intervals between pairs). Temporal replicates:	two sampling rounds for transect surveys",NA
"Jeroen_Scheper_Helianthus_annuus_France_2015","SF2","Standardized transect walks","Apis mellifera","species","honeybees",420,600,NA,NA,"Measures per site: per site 2 x 150m2 transects (one edge, one centre), per site 10 x plant pairs from edge to centre of field (5m intervals between pairs). Temporal replicates:	two sampling rounds for transect surveys",NA
"Jeroen_Scheper_Helianthus_annuus_France_2015","SF3","Standardized transect walks","Apis mellifera","species","honeybees",102,600,NA,NA,"Measures per site: per site 2 x 150m2 transects (one edge, one centre), per site 10 x plant pairs from edge to centre of field (5m intervals between pairs). Temporal replicates:	two sampling rounds for transect surveys",NA
"Jeroen_Scheper_Helianthus_annuus_France_2015","SF4","Standardized transect walks","Apis mellifera","species","honeybees",13,600,NA,NA,"Measures per site: per site 2 x 150m2 transects (one edge, one centre), per site 10 x plant pairs from edge to centre of field (5m intervals between pairs). Temporal replicates:	two sampling rounds for transect surveys",NA
"Jeroen_Scheper_Helianthus_annuus_France_2015","SF5","Standardized transect walks","Apis mellifera","species","honeybees",197,600,NA,NA,"Measures per site: per site 2 x 150m2 transects (one edge, one centre), per site 10 x plant pairs from edge to centre of field (5m intervals between pairs). Temporal replicates:	two sampling rounds for transect surveys",NA
"Jeroen_Scheper_Helianthus_annuus_France_2015","SF6","Standardized transect walks","Apis mellifera","species","honeybees",44,600,NA,NA,"Measures per site: per site 2 x 150m2 transects (one edge, one centre), per site 10 x plant pairs from edge to centre of field (5m intervals between pairs). Temporal replicates:	two sampling rounds for transect surveys",NA
"Jeroen_Scheper_Helianthus_annuus_France_2015","SF7","Standardized transect walks","Apis mellifera","species","honeybees",1683,600,NA,NA,"Measures per site: per site 2 x 150m2 transects (one edge, one centre), per site 10 x plant pairs from edge to centre of field (5m intervals between pairs). Temporal replicates:	two sampling rounds for transect surveys",NA
"Jeroen_Scheper_Helianthus_annuus_France_2015","SF8","Standardized transect walks","Apis mellifera","species","honeybees",550,600,NA,NA,"Measures per site: per site 2 x 150m2 transects (one edge, one centre), per site 10 x plant pairs from edge to centre of field (5m intervals between pairs). Temporal replicates:	two sampling rounds for transect surveys",NA
"Jeroen_Scheper_Helianthus_annuus_France_2015","SF9","Standardized transect walks","Apis mellifera","species","honeybees",1297,600,NA,NA,"Measures per site: per site 2 x 150m2 transects (one edge, one centre), per site 10 x plant pairs from edge to centre of field (5m intervals between pairs). Temporal replicates:	two sampling rounds for transect surveys",NA
"Jeroen_Scheper_Helianthus_annuus_France_2015","SF10","Standardized transect walks","Apis mellifera","species","honeybees",385,600,NA,NA,"Measures per site: per site 2 x 150m2 transects (one edge, one centre), per site 10 x plant pairs from edge to centre of field (5m intervals between pairs). Temporal replicates:	two sampling rounds for transect surveys",NA
"Jeroen_Scheper_Helianthus_annuus_France_2015","SF11","Standardized transect walks","Apis mellifera","species","honeybees",566,600,NA,NA,"Measures per site: per site 2 x 150m2 transects (one edge, one centre), per site 10 x plant pairs from edge to centre of field (5m intervals between pairs). Temporal replicates:	two sampling rounds for transect surveys",NA
"Jeroen_Scheper_Helianthus_annuus_France_2015","SF12","Standardized transect walks","Apis mellifera","species","honeybees",170,600,NA,NA,"Measures per site: per site 2 x 150m2 transects (one edge, one centre), per site 10 x plant pairs from edge to centre of field (5m intervals between pairs). Temporal replicates:	two sampling rounds for transect surveys",NA
"Jeroen_Scheper_Helianthus_annuus_France_2015","SF13","Standardized transect walks","Apis mellifera","species","honeybees",1001,600,NA,NA,"Measures per site: per site 2 x 150m2 transects (one edge, one centre), per site 10 x plant pairs from edge to centre of field (5m intervals between pairs). Temporal replicates:	two sampling rounds for transect surveys",NA
"Jeroen_Scheper_Helianthus_annuus_France_2015","SF14","Standardized transect walks","Apis mellifera","species","honeybees",298,600,NA,NA,"Measures per site: per site 2 x 150m2 transects (one edge, one centre), per site 10 x plant pairs from edge to centre of field (5m intervals between pairs). Temporal replicates:	two sampling rounds for transect surveys",NA
"Jeroen_Scheper_Helianthus_annuus_France_2015","SF15","Standardized transect walks","Apis mellifera","species","honeybees",86,600,NA,NA,"Measures per site: per site 2 x 150m2 transects (one edge, one centre), per site 10 x plant pairs from edge to centre of field (5m intervals between pairs). Temporal replicates:	two sampling rounds for transect surveys",NA
"Jeroen_Scheper_Helianthus_annuus_France_2015","SF16","Standardized transect walks","Apis mellifera","species","honeybees",451,600,NA,NA,"Measures per site: per site 2 x 150m2 transects (one edge, one centre), per site 10 x plant pairs from edge to centre of field (5m intervals between pairs). Temporal replicates:	two sampling rounds for transect surveys",NA
"Jeroen_Scheper_Helianthus_annuus_France_2015","SF17","Standardized transect walks","Apis mellifera","species","honeybees",1019,600,NA,NA,"Measures per site: per site 2 x 150m2 transects (one edge, one centre), per site 10 x plant pairs from edge to centre of field (5m intervals between pairs). Temporal replicates:	two sampling rounds for transect surveys",NA
"Jeroen_Scheper_Helianthus_annuus_France_2015","SF18","Standardized transect walks","Apis mellifera","species","honeybees",532,600,NA,NA,"Measures per site: per site 2 x 150m2 transects (one edge, one centre), per site 10 x plant pairs from edge to centre of field (5m intervals between pairs). Temporal replicates:	two sampling rounds for transect surveys",NA
"Jeroen_Scheper_Helianthus_annuus_France_2015","SF19","Standardized transect walks","Apis mellifera","species","honeybees",274,600,NA,NA,"Measures per site: per site 2 x 150m2 transects (one edge, one centre), per site 10 x plant pairs from edge to centre of field (5m intervals between pairs). Temporal replicates:	two sampling rounds for transect surveys",NA
"Jeroen_Scheper_Helianthus_annuus_France_2015","SF20","Standardized transect walks","Apis mellifera","species","honeybees",1141,600,NA,NA,"Measures per site: per site 2 x 150m2 transects (one edge, one centre), per site 10 x plant pairs from edge to centre of field (5m intervals between pairs). Temporal replicates:	two sampling rounds for transect surveys",NA
"Jeroen_Scheper_Helianthus_annuus_France_2015","SF21","Standardized transect walks","Apis mellifera","species","honeybees",222,600,NA,NA,"Measures per site: per site 2 x 150m2 transects (one edge, one centre), per site 10 x plant pairs from edge to centre of field (5m intervals between pairs). Temporal replicates:	two sampling rounds for transect surveys",NA
"Jeroen_Scheper_Helianthus_annuus_France_2015","SF22","Standardized transect walks","Apis mellifera","species","honeybees",752,600,NA,NA,"Measures per site: per site 2 x 150m2 transects (one edge, one centre), per site 10 x plant pairs from edge to centre of field (5m intervals between pairs). Temporal replicates:	two sampling rounds for transect surveys",NA
"Jeroen_Scheper_Helianthus_annuus_France_2015","SF23","Standardized transect walks","Apis mellifera","species","honeybees",602,600,NA,NA,"Measures per site: per site 2 x 150m2 transects (one edge, one centre), per site 10 x plant pairs from edge to centre of field (5m intervals between pairs). Temporal replicates:	two sampling rounds for transect surveys",NA
"Jeroen_Scheper_Helianthus_annuus_France_2015","SF24","Standardized transect walks","Apis mellifera","species","honeybees",282,600,NA,NA,"Measures per site: per site 2 x 150m2 transects (one edge, one centre), per site 10 x plant pairs from edge to centre of field (5m intervals between pairs). Temporal replicates:	two sampling rounds for transect surveys",NA
"Jeroen_Scheper_Helianthus_annuus_France_2015","SF1","Standardized transect walks","Bombus hortorum","species","bumblebees",1,600,NA,NA,"Measures per site: per site 2 x 150m2 transects (one edge, one centre), per site 10 x plant pairs from edge to centre of field (5m intervals between pairs). Temporal replicates:	two sampling rounds for transect surveys",NA
"Jeroen_Scheper_Helianthus_annuus_France_2015","SF2","Standardized transect walks","Bombus hortorum","species","bumblebees",1,600,NA,NA,"Measures per site: per site 2 x 150m2 transects (one edge, one centre), per site 10 x plant pairs from edge to centre of field (5m intervals between pairs). Temporal replicates:	two sampling rounds for transect surveys",NA
"Jeroen_Scheper_Helianthus_annuus_France_2015","SF5","Standardized transect walks","Bombus hortorum","species","bumblebees",1,600,NA,NA,"Measures per site: per site 2 x 150m2 transects (one edge, one centre), per site 10 x plant pairs from edge to centre of field (5m intervals between pairs). Temporal replicates:	two sampling rounds for transect surveys",NA
"Jeroen_Scheper_Helianthus_annuus_France_2015","SF6","Standardized transect walks","Bombus hortorum","species","bumblebees",2,600,NA,NA,"Measures per site: per site 2 x 150m2 transects (one edge, one centre), per site 10 x plant pairs from edge to centre of field (5m intervals between pairs). Temporal replicates:	two sampling rounds for transect surveys",NA
"Jeroen_Scheper_Helianthus_annuus_France_2015","SF14","Standardized transect walks","Bombus hortorum","species","bumblebees",2,600,NA,NA,"Measures per site: per site 2 x 150m2 transects (one edge, one centre), per site 10 x plant pairs from edge to centre of field (5m intervals between pairs). Temporal replicates:	two sampling rounds for transect surveys",NA
"Jeroen_Scheper_Helianthus_annuus_France_2015","SF1","Standardized transect walks","Bombus lapidarius","species","bumblebees",3,600,NA,NA,"Measures per site: per site 2 x 150m2 transects (one edge, one centre), per site 10 x plant pairs from edge to centre of field (5m intervals between pairs). Temporal replicates:	two sampling rounds for transect surveys",NA
"Jeroen_Scheper_Helianthus_annuus_France_2015","SF2","Standardized transect walks","Bombus lapidarius","species","bumblebees",22,600,NA,NA,"Measures per site: per site 2 x 150m2 transects (one edge, one centre), per site 10 x plant pairs from edge to centre of field (5m intervals between pairs). Temporal replicates:	two sampling rounds for transect surveys",NA
"Jeroen_Scheper_Helianthus_annuus_France_2015","SF3","Standardized transect walks","Bombus lapidarius","species","bumblebees",33,600,NA,NA,"Measures per site: per site 2 x 150m2 transects (one edge, one centre), per site 10 x plant pairs from edge to centre of field (5m intervals between pairs). Temporal replicates:	two sampling rounds for transect surveys",NA
"Jeroen_Scheper_Helianthus_annuus_France_2015","SF4","Standardized transect walks","Bombus lapidarius","species","bumblebees",5,600,NA,NA,"Measures per site: per site 2 x 150m2 transects (one edge, one centre), per site 10 x plant pairs from edge to centre of field (5m intervals between pairs). Temporal replicates:	two sampling rounds for transect surveys",NA
"Jeroen_Scheper_Helianthus_annuus_France_2015","SF5","Standardized transect walks","Bombus lapidarius","species","bumblebees",24,600,NA,NA,"Measures per site: per site 2 x 150m2 transects (one edge, one centre), per site 10 x plant pairs from edge to centre of field (5m intervals between pairs). Temporal replicates:	two sampling rounds for transect surveys",NA
"Jeroen_Scheper_Helianthus_annuus_France_2015","SF6","Standardized transect walks","Bombus lapidarius","species","bumblebees",25,600,NA,NA,"Measures per site: per site 2 x 150m2 transects (one edge, one centre), per site 10 x plant pairs from edge to centre of field (5m intervals between pairs). Temporal replicates:	two sampling rounds for transect surveys",NA
"Jeroen_Scheper_Helianthus_annuus_France_2015","SF7","Standardized transect walks","Bombus lapidarius","species","bumblebees",7,600,NA,NA,"Measures per site: per site 2 x 150m2 transects (one edge, one centre), per site 10 x plant pairs from edge to centre of field (5m intervals between pairs). Temporal replicates:	two sampling rounds for transect surveys",NA
"Jeroen_Scheper_Helianthus_annuus_France_2015","SF8","Standardized transect walks","Bombus lapidarius","species","bumblebees",12,600,NA,NA,"Measures per site: per site 2 x 150m2 transects (one edge, one centre), per site 10 x plant pairs from edge to centre of field (5m intervals between pairs). Temporal replicates:	two sampling rounds for transect surveys",NA
"Jeroen_Scheper_Helianthus_annuus_France_2015","SF9","Standardized transect walks","Bombus lapidarius","species","bumblebees",7,600,NA,NA,"Measures per site: per site 2 x 150m2 transects (one edge, one centre), per site 10 x plant pairs from edge to centre of field (5m intervals between pairs). Temporal replicates:	two sampling rounds for transect surveys",NA
"Jeroen_Scheper_Helianthus_annuus_France_2015","SF10","Standardized transect walks","Bombus lapidarius","species","bumblebees",10,600,NA,NA,"Measures per site: per site 2 x 150m2 transects (one edge, one centre), per site 10 x plant pairs from edge to centre of field (5m intervals between pairs). Temporal replicates:	two sampling rounds for transect surveys",NA
"Jeroen_Scheper_Helianthus_annuus_France_2015","SF11","Standardized transect walks","Bombus lapidarius","species","bumblebees",7,600,NA,NA,"Measures per site: per site 2 x 150m2 transects (one edge, one centre), per site 10 x plant pairs from edge to centre of field (5m intervals between pairs). Temporal replicates:	two sampling rounds for transect surveys",NA
"Jeroen_Scheper_Helianthus_annuus_France_2015","SF13","Standardized transect walks","Bombus lapidarius","species","bumblebees",21,600,NA,NA,"Measures per site: per site 2 x 150m2 transects (one edge, one centre), per site 10 x plant pairs from edge to centre of field (5m intervals between pairs). Temporal replicates:	two sampling rounds for transect surveys",NA
"Jeroen_Scheper_Helianthus_annuus_France_2015","SF14","Standardized transect walks","Bombus lapidarius","species","bumblebees",19,600,NA,NA,"Measures per site: per site 2 x 150m2 transects (one edge, one centre), per site 10 x plant pairs from edge to centre of field (5m intervals between pairs). Temporal replicates:	two sampling rounds for transect surveys",NA
"Jeroen_Scheper_Helianthus_annuus_France_2015","SF15","Standardized transect walks","Bombus lapidarius","species","bumblebees",22,600,NA,NA,"Measures per site: per site 2 x 150m2 transects (one edge, one centre), per site 10 x plant pairs from edge to centre of field (5m intervals between pairs). Temporal replicates:	two sampling rounds for transect surveys",NA
"Jeroen_Scheper_Helianthus_annuus_France_2015","SF16","Standardized transect walks","Bombus lapidarius","species","bumblebees",8,600,NA,NA,"Measures per site: per site 2 x 150m2 transects (one edge, one centre), per site 10 x plant pairs from edge to centre of field (5m intervals between pairs). Temporal replicates:	two sampling rounds for transect surveys",NA
"Jeroen_Scheper_Helianthus_annuus_France_2015","SF17","Standardized transect walks","Bombus lapidarius","species","bumblebees",10,600,NA,NA,"Measures per site: per site 2 x 150m2 transects (one edge, one centre), per site 10 x plant pairs from edge to centre of field (5m intervals between pairs). Temporal replicates:	two sampling rounds for transect surveys",NA
"Jeroen_Scheper_Helianthus_annuus_France_2015","SF18","Standardized transect walks","Bombus lapidarius","species","bumblebees",3,600,NA,NA,"Measures per site: per site 2 x 150m2 transects (one edge, one centre), per site 10 x plant pairs from edge to centre of field (5m intervals between pairs). Temporal replicates:	two sampling rounds for transect surveys",NA
"Jeroen_Scheper_Helianthus_annuus_France_2015","SF19","Standardized transect walks","Bombus lapidarius","species","bumblebees",1,600,NA,NA,"Measures per site: per site 2 x 150m2 transects (one edge, one centre), per site 10 x plant pairs from edge to centre of field (5m intervals between pairs). Temporal replicates:	two sampling rounds for transect surveys",NA
"Jeroen_Scheper_Helianthus_annuus_France_2015","SF20","Standardized transect walks","Bombus lapidarius","species","bumblebees",2,600,NA,NA,"Measures per site: per site 2 x 150m2 transects (one edge, one centre), per site 10 x plant pairs from edge to centre of field (5m intervals between pairs). Temporal replicates:	two sampling rounds for transect surveys",NA
"Jeroen_Scheper_Helianthus_annuus_France_2015","SF21","Standardized transect walks","Bombus lapidarius","species","bumblebees",1,600,NA,NA,"Measures per site: per site 2 x 150m2 transects (one edge, one centre), per site 10 x plant pairs from edge to centre of field (5m intervals between pairs). Temporal replicates:	two sampling rounds for transect surveys",NA
"Jeroen_Scheper_Helianthus_annuus_France_2015","SF22","Standardized transect walks","Bombus lapidarius","species","bumblebees",14,600,NA,NA,"Measures per site: per site 2 x 150m2 transects (one edge, one centre), per site 10 x plant pairs from edge to centre of field (5m intervals between pairs). Temporal replicates:	two sampling rounds for transect surveys",NA
"Jeroen_Scheper_Helianthus_annuus_France_2015","SF24","Standardized transect walks","Bombus lapidarius","species","bumblebees",3,600,NA,NA,"Measures per site: per site 2 x 150m2 transects (one edge, one centre), per site 10 x plant pairs from edge to centre of field (5m intervals between pairs). Temporal replicates:	two sampling rounds for transect surveys",NA
"Jeroen_Scheper_Helianthus_annuus_France_2015","SF8","Standardized transect walks","Bombus pascuorum","species","bumblebees",3,600,NA,NA,"Measures per site: per site 2 x 150m2 transects (one edge, one centre), per site 10 x plant pairs from edge to centre of field (5m intervals between pairs). Temporal replicates:	two sampling rounds for transect surveys",NA
"Jeroen_Scheper_Helianthus_annuus_France_2015","SF15","Standardized transect walks","Bombus pascuorum","species","bumblebees",3,600,NA,NA,"Measures per site: per site 2 x 150m2 transects (one edge, one centre), per site 10 x plant pairs from edge to centre of field (5m intervals between pairs). Temporal replicates:	two sampling rounds for transect surveys",NA
"Jeroen_Scheper_Helianthus_annuus_France_2015","SF16","Standardized transect walks","Bombus pascuorum","species","bumblebees",3,600,NA,NA,"Measures per site: per site 2 x 150m2 transects (one edge, one centre), per site 10 x plant pairs from edge to centre of field (5m intervals between pairs). Temporal replicates:	two sampling rounds for transect surveys",NA
"Jeroen_Scheper_Helianthus_annuus_France_2015","SF21","Standardized transect walks","Bombus pascuorum","species","bumblebees",1,600,NA,NA,"Measures per site: per site 2 x 150m2 transects (one edge, one centre), per site 10 x plant pairs from edge to centre of field (5m intervals between pairs). Temporal replicates:	two sampling rounds for transect surveys",NA
"Jeroen_Scheper_Helianthus_annuus_France_2015","SF1","Standardized transect walks","Bombus sp.","genus","bumblebees",1,600,NA,NA,"Measures per site: per site 2 x 150m2 transects (one edge, one centre), per site 10 x plant pairs from edge to centre of field (5m intervals between pairs). Temporal replicates:	two sampling rounds for transect surveys",NA
"Jeroen_Scheper_Helianthus_annuus_France_2015","SF5","Standardized transect walks","Bombus sp.","genus","bumblebees",1,600,NA,NA,"Measures per site: per site 2 x 150m2 transects (one edge, one centre), per site 10 x plant pairs from edge to centre of field (5m intervals between pairs). Temporal replicates:	two sampling rounds for transect surveys",NA
"Jeroen_Scheper_Helianthus_annuus_France_2015","SF6","Standardized transect walks","Bombus sp.","genus","bumblebees",2,600,NA,NA,"Measures per site: per site 2 x 150m2 transects (one edge, one centre), per site 10 x plant pairs from edge to centre of field (5m intervals between pairs). Temporal replicates:	two sampling rounds for transect surveys",NA
"Jeroen_Scheper_Helianthus_annuus_France_2015","SF8","Standardized transect walks","Bombus sp.","genus","bumblebees",1,600,NA,NA,"Measures per site: per site 2 x 150m2 transects (one edge, one centre), per site 10 x plant pairs from edge to centre of field (5m intervals between pairs). Temporal replicates:	two sampling rounds for transect surveys",NA
"Jeroen_Scheper_Helianthus_annuus_France_2015","SF9","Standardized transect walks","Bombus sp.","genus","bumblebees",1,600,NA,NA,"Measures per site: per site 2 x 150m2 transects (one edge, one centre), per site 10 x plant pairs from edge to centre of field (5m intervals between pairs). Temporal replicates:	two sampling rounds for transect surveys",NA
"Jeroen_Scheper_Helianthus_annuus_France_2015","SF13","Standardized transect walks","Bombus sp.","genus","bumblebees",2,600,NA,NA,"Measures per site: per site 2 x 150m2 transects (one edge, one centre), per site 10 x plant pairs from edge to centre of field (5m intervals between pairs). Temporal replicates:	two sampling rounds for transect surveys",NA
"Jeroen_Scheper_Helianthus_annuus_France_2015","SF14","Standardized transect walks","Bombus sp.","genus","bumblebees",1,600,NA,NA,"Measures per site: per site 2 x 150m2 transects (one edge, one centre), per site 10 x plant pairs from edge to centre of field (5m intervals between pairs). Temporal replicates:	two sampling rounds for transect surveys",NA
"Jeroen_Scheper_Helianthus_annuus_France_2015","SF16","Standardized transect walks","Bombus sp.","genus","bumblebees",1,600,NA,NA,"Measures per site: per site 2 x 150m2 transects (one edge, one centre), per site 10 x plant pairs from edge to centre of field (5m intervals between pairs). Temporal replicates:	two sampling rounds for transect surveys",NA
"Jeroen_Scheper_Helianthus_annuus_France_2015","SF17","Standardized transect walks","Bombus sp.","genus","bumblebees",1,600,NA,NA,"Measures per site: per site 2 x 150m2 transects (one edge, one centre), per site 10 x plant pairs from edge to centre of field (5m intervals between pairs). Temporal replicates:	two sampling rounds for transect surveys",NA
"Jeroen_Scheper_Helianthus_annuus_France_2015","SF21","Standardized transect walks","Bombus sp.","genus","bumblebees",1,600,NA,NA,"Measures per site: per site 2 x 150m2 transects (one edge, one centre), per site 10 x plant pairs from edge to centre of field (5m intervals between pairs). Temporal replicates:	two sampling rounds for transect surveys",NA
"Jeroen_Scheper_Helianthus_annuus_France_2015","SF24","Standardized transect walks","Bombus sp.","genus","bumblebees",1,600,NA,NA,"Measures per site: per site 2 x 150m2 transects (one edge, one centre), per site 10 x plant pairs from edge to centre of field (5m intervals between pairs). Temporal replicates:	two sampling rounds for transect surveys",NA
"Jeroen_Scheper_Helianthus_annuus_France_2015","SF1","Standardized transect walks","Bombus terrestris-complex","species complex","bumblebees",1,600,NA,NA,"Measures per site: per site 2 x 150m2 transects (one edge, one centre), per site 10 x plant pairs from edge to centre of field (5m intervals between pairs). Temporal replicates:	two sampling rounds for transect surveys",NA
"Jeroen_Scheper_Helianthus_annuus_France_2015","SF2","Standardized transect walks","Bombus terrestris-complex","species complex","bumblebees",25,600,NA,NA,"Measures per site: per site 2 x 150m2 transects (one edge, one centre), per site 10 x plant pairs from edge to centre of field (5m intervals between pairs). Temporal replicates:	two sampling rounds for transect surveys",NA
"Jeroen_Scheper_Helianthus_annuus_France_2015","SF3","Standardized transect walks","Bombus terrestris-complex","species complex","bumblebees",6,600,NA,NA,"Measures per site: per site 2 x 150m2 transects (one edge, one centre), per site 10 x plant pairs from edge to centre of field (5m intervals between pairs). Temporal replicates:	two sampling rounds for transect surveys",NA
"Jeroen_Scheper_Helianthus_annuus_France_2015","SF4","Standardized transect walks","Bombus terrestris-complex","species complex","bumblebees",12,600,NA,NA,"Measures per site: per site 2 x 150m2 transects (one edge, one centre), per site 10 x plant pairs from edge to centre of field (5m intervals between pairs). Temporal replicates:	two sampling rounds for transect surveys",NA
"Jeroen_Scheper_Helianthus_annuus_France_2015","SF5","Standardized transect walks","Bombus terrestris-complex","species complex","bumblebees",23,600,NA,NA,"Measures per site: per site 2 x 150m2 transects (one edge, one centre), per site 10 x plant pairs from edge to centre of field (5m intervals between pairs). Temporal replicates:	two sampling rounds for transect surveys",NA
"Jeroen_Scheper_Helianthus_annuus_France_2015","SF6","Standardized transect walks","Bombus terrestris-complex","species complex","bumblebees",29,600,NA,NA,"Measures per site: per site 2 x 150m2 transects (one edge, one centre), per site 10 x plant pairs from edge to centre of field (5m intervals between pairs). Temporal replicates:	two sampling rounds for transect surveys",NA
"Jeroen_Scheper_Helianthus_annuus_France_2015","SF7","Standardized transect walks","Bombus terrestris-complex","species complex","bumblebees",16,600,NA,NA,"Measures per site: per site 2 x 150m2 transects (one edge, one centre), per site 10 x plant pairs from edge to centre of field (5m intervals between pairs). Temporal replicates:	two sampling rounds for transect surveys",NA
"Jeroen_Scheper_Helianthus_annuus_France_2015","SF8","Standardized transect walks","Bombus terrestris-complex","species complex","bumblebees",19,600,NA,NA,"Measures per site: per site 2 x 150m2 transects (one edge, one centre), per site 10 x plant pairs from edge to centre of field (5m intervals between pairs). Temporal replicates:	two sampling rounds for transect surveys",NA
"Jeroen_Scheper_Helianthus_annuus_France_2015","SF9","Standardized transect walks","Bombus terrestris-complex","species complex","bumblebees",11,600,NA,NA,"Measures per site: per site 2 x 150m2 transects (one edge, one centre), per site 10 x plant pairs from edge to centre of field (5m intervals between pairs). Temporal replicates:	two sampling rounds for transect surveys",NA
"Jeroen_Scheper_Helianthus_annuus_France_2015","SF10","Standardized transect walks","Bombus terrestris-complex","species complex","bumblebees",6,600,NA,NA,"Measures per site: per site 2 x 150m2 transects (one edge, one centre), per site 10 x plant pairs from edge to centre of field (5m intervals between pairs). Temporal replicates:	two sampling rounds for transect surveys",NA
"Jeroen_Scheper_Helianthus_annuus_France_2015","SF11","Standardized transect walks","Bombus terrestris-complex","species complex","bumblebees",2,600,NA,NA,"Measures per site: per site 2 x 150m2 transects (one edge, one centre), per site 10 x plant pairs from edge to centre of field (5m intervals between pairs). Temporal replicates:	two sampling rounds for transect surveys",NA
"Jeroen_Scheper_Helianthus_annuus_France_2015","SF13","Standardized transect walks","Bombus terrestris-complex","species complex","bumblebees",17,600,NA,NA,"Measures per site: per site 2 x 150m2 transects (one edge, one centre), per site 10 x plant pairs from edge to centre of field (5m intervals between pairs). Temporal replicates:	two sampling rounds for transect surveys",NA
"Jeroen_Scheper_Helianthus_annuus_France_2015","SF14","Standardized transect walks","Bombus terrestris-complex","species complex","bumblebees",22,600,NA,NA,"Measures per site: per site 2 x 150m2 transects (one edge, one centre), per site 10 x plant pairs from edge to centre of field (5m intervals between pairs). Temporal replicates:	two sampling rounds for transect surveys",NA
"Jeroen_Scheper_Helianthus_annuus_France_2015","SF15","Standardized transect walks","Bombus terrestris-complex","species complex","bumblebees",12,600,NA,NA,"Measures per site: per site 2 x 150m2 transects (one edge, one centre), per site 10 x plant pairs from edge to centre of field (5m intervals between pairs). Temporal replicates:	two sampling rounds for transect surveys",NA
"Jeroen_Scheper_Helianthus_annuus_France_2015","SF16","Standardized transect walks","Bombus terrestris-complex","species complex","bumblebees",18,600,NA,NA,"Measures per site: per site 2 x 150m2 transects (one edge, one centre), per site 10 x plant pairs from edge to centre of field (5m intervals between pairs). Temporal replicates:	two sampling rounds for transect surveys",NA
"Jeroen_Scheper_Helianthus_annuus_France_2015","SF17","Standardized transect walks","Bombus terrestris-complex","species complex","bumblebees",5,600,NA,NA,"Measures per site: per site 2 x 150m2 transects (one edge, one centre), per site 10 x plant pairs from edge to centre of field (5m intervals between pairs). Temporal replicates:	two sampling rounds for transect surveys",NA
"Jeroen_Scheper_Helianthus_annuus_France_2015","SF18","Standardized transect walks","Bombus terrestris-complex","species complex","bumblebees",5,600,NA,NA,"Measures per site: per site 2 x 150m2 transects (one edge, one centre), per site 10 x plant pairs from edge to centre of field (5m intervals between pairs). Temporal replicates:	two sampling rounds for transect surveys",NA
"Jeroen_Scheper_Helianthus_annuus_France_2015","SF19","Standardized transect walks","Bombus terrestris-complex","species complex","bumblebees",4,600,NA,NA,"Measures per site: per site 2 x 150m2 transects (one edge, one centre), per site 10 x plant pairs from edge to centre of field (5m intervals between pairs). Temporal replicates:	two sampling rounds for transect surveys",NA
"Jeroen_Scheper_Helianthus_annuus_France_2015","SF20","Standardized transect walks","Bombus terrestris-complex","species complex","bumblebees",5,600,NA,NA,"Measures per site: per site 2 x 150m2 transects (one edge, one centre), per site 10 x plant pairs from edge to centre of field (5m intervals between pairs). Temporal replicates:	two sampling rounds for transect surveys",NA
"Jeroen_Scheper_Helianthus_annuus_France_2015","SF21","Standardized transect walks","Bombus terrestris-complex","species complex","bumblebees",2,600,NA,NA,"Measures per site: per site 2 x 150m2 transects (one edge, one centre), per site 10 x plant pairs from edge to centre of field (5m intervals between pairs). Temporal replicates:	two sampling rounds for transect surveys",NA
"Jeroen_Scheper_Helianthus_annuus_France_2015","SF22","Standardized transect walks","Bombus terrestris-complex","species complex","bumblebees",11,600,NA,NA,"Measures per site: per site 2 x 150m2 transects (one edge, one centre), per site 10 x plant pairs from edge to centre of field (5m intervals between pairs). Temporal replicates:	two sampling rounds for transect surveys",NA
"Jeroen_Scheper_Helianthus_annuus_France_2015","SF24","Standardized transect walks","Bombus terrestris-complex","species complex","bumblebees",11,600,NA,NA,"Measures per site: per site 2 x 150m2 transects (one edge, one centre), per site 10 x plant pairs from edge to centre of field (5m intervals between pairs). Temporal replicates:	two sampling rounds for transect surveys",NA
"Jeroen_Scheper_Helianthus_annuus_France_2015","SF23","Standardized transect walks","Ceratina cucurbitina","species","other_wild_bees",1,600,NA,NA,"Measures per site: per site 2 x 150m2 transects (one edge, one centre), per site 10 x plant pairs from edge to centre of field (5m intervals between pairs). Temporal replicates:	two sampling rounds for transect surveys",NA
"Jeroen_Scheper_Helianthus_annuus_France_2015","SF1","Standardized transect walks","solitary bee","morphospecies","other_wild_bees",5,600,NA,NA,"Measures per site: per site 2 x 150m2 transects (one edge, one centre), per site 10 x plant pairs from edge to centre of field (5m intervals between pairs). Temporal replicates:	two sampling rounds for transect surveys",NA
"Jeroen_Scheper_Helianthus_annuus_France_2015","SF2","Standardized transect walks","solitary bee","morphospecies","other_wild_bees",2,600,NA,NA,"Measures per site: per site 2 x 150m2 transects (one edge, one centre), per site 10 x plant pairs from edge to centre of field (5m intervals between pairs). Temporal replicates:	two sampling rounds for transect surveys",NA
"Jeroen_Scheper_Helianthus_annuus_France_2015","SF3","Standardized transect walks","solitary bee","morphospecies","other_wild_bees",3,600,NA,NA,"Measures per site: per site 2 x 150m2 transects (one edge, one centre), per site 10 x plant pairs from edge to centre of field (5m intervals between pairs). Temporal replicates:	two sampling rounds for transect surveys",NA
"Jeroen_Scheper_Helianthus_annuus_France_2015","SF5","Standardized transect walks","solitary bee","morphospecies","other_wild_bees",11,600,NA,NA,"Measures per site: per site 2 x 150m2 transects (one edge, one centre), per site 10 x plant pairs from edge to centre of field (5m intervals between pairs). Temporal replicates:	two sampling rounds for transect surveys",NA
"Jeroen_Scheper_Helianthus_annuus_France_2015","SF6","Standardized transect walks","solitary bee","morphospecies","other_wild_bees",8,600,NA,NA,"Measures per site: per site 2 x 150m2 transects (one edge, one centre), per site 10 x plant pairs from edge to centre of field (5m intervals between pairs). Temporal replicates:	two sampling rounds for transect surveys",NA
"Jeroen_Scheper_Helianthus_annuus_France_2015","SF7","Standardized transect walks","solitary bee","morphospecies","other_wild_bees",3,600,NA,NA,"Measures per site: per site 2 x 150m2 transects (one edge, one centre), per site 10 x plant pairs from edge to centre of field (5m intervals between pairs). Temporal replicates:	two sampling rounds for transect surveys",NA
"Jeroen_Scheper_Helianthus_annuus_France_2015","SF8","Standardized transect walks","solitary bee","morphospecies","other_wild_bees",1,600,NA,NA,"Measures per site: per site 2 x 150m2 transects (one edge, one centre), per site 10 x plant pairs from edge to centre of field (5m intervals between pairs). Temporal replicates:	two sampling rounds for transect surveys",NA
"Jeroen_Scheper_Helianthus_annuus_France_2015","SF9","Standardized transect walks","solitary bee","morphospecies","other_wild_bees",1,600,NA,NA,"Measures per site: per site 2 x 150m2 transects (one edge, one centre), per site 10 x plant pairs from edge to centre of field (5m intervals between pairs). Temporal replicates:	two sampling rounds for transect surveys",NA
"Jeroen_Scheper_Helianthus_annuus_France_2015","SF10","Standardized transect walks","solitary bee","morphospecies","other_wild_bees",5,600,NA,NA,"Measures per site: per site 2 x 150m2 transects (one edge, one centre), per site 10 x plant pairs from edge to centre of field (5m intervals between pairs). Temporal replicates:	two sampling rounds for transect surveys",NA
"Jeroen_Scheper_Helianthus_annuus_France_2015","SF11","Standardized transect walks","solitary bee","morphospecies","other_wild_bees",9,600,NA,NA,"Measures per site: per site 2 x 150m2 transects (one edge, one centre), per site 10 x plant pairs from edge to centre of field (5m intervals between pairs). Temporal replicates:	two sampling rounds for transect surveys",NA
"Jeroen_Scheper_Helianthus_annuus_France_2015","SF13","Standardized transect walks","solitary bee","morphospecies","other_wild_bees",2,600,NA,NA,"Measures per site: per site 2 x 150m2 transects (one edge, one centre), per site 10 x plant pairs from edge to centre of field (5m intervals between pairs). Temporal replicates:	two sampling rounds for transect surveys",NA
"Jeroen_Scheper_Helianthus_annuus_France_2015","SF15","Standardized transect walks","solitary bee","morphospecies","other_wild_bees",5,600,NA,NA,"Measures per site: per site 2 x 150m2 transects (one edge, one centre), per site 10 x plant pairs from edge to centre of field (5m intervals between pairs). Temporal replicates:	two sampling rounds for transect surveys",NA
"Jeroen_Scheper_Helianthus_annuus_France_2015","SF17","Standardized transect walks","solitary bee","morphospecies","other_wild_bees",1,600,NA,NA,"Measures per site: per site 2 x 150m2 transects (one edge, one centre), per site 10 x plant pairs from edge to centre of field (5m intervals between pairs). Temporal replicates:	two sampling rounds for transect surveys",NA
"Jeroen_Scheper_Helianthus_annuus_France_2015","SF19","Standardized transect walks","solitary bee","morphospecies","other_wild_bees",2,600,NA,NA,"Measures per site: per site 2 x 150m2 transects (one edge, one centre), per site 10 x plant pairs from edge to centre of field (5m intervals between pairs). Temporal replicates:	two sampling rounds for transect surveys",NA
"Jeroen_Scheper_Helianthus_annuus_France_2015","SF20","Standardized transect walks","solitary bee","morphospecies","other_wild_bees",3,600,NA,NA,"Measures per site: per site 2 x 150m2 transects (one edge, one centre), per site 10 x plant pairs from edge to centre of field (5m intervals between pairs). Temporal replicates:	two sampling rounds for transect surveys",NA
"Jeroen_Scheper_Helianthus_annuus_France_2015","SF21","Standardized transect walks","solitary bee","morphospecies","other_wild_bees",3,600,NA,NA,"Measures per site: per site 2 x 150m2 transects (one edge, one centre), per site 10 x plant pairs from edge to centre of field (5m intervals between pairs). Temporal replicates:	two sampling rounds for transect surveys",NA
"Jeroen_Scheper_Helianthus_annuus_France_2015","SF22","Standardized transect walks","solitary bee","morphospecies","other_wild_bees",1,600,NA,NA,"Measures per site: per site 2 x 150m2 transects (one edge, one centre), per site 10 x plant pairs from edge to centre of field (5m intervals between pairs). Temporal replicates:	two sampling rounds for transect surveys",NA
"Jeroen_Scheper_Helianthus_annuus_France_2015","SF23","Standardized transect walks","solitary bee","morphospecies","other_wild_bees",4,600,NA,NA,"Measures per site: per site 2 x 150m2 transects (one edge, one centre), per site 10 x plant pairs from edge to centre of field (5m intervals between pairs). Temporal replicates:	two sampling rounds for transect surveys",NA
"Jeroen_Scheper_Helianthus_annuus_France_2015","SF4","Standardized transect walks","Halictinae sp.","subfamily","other_wild_bees",1,600,NA,NA,"Measures per site: per site 2 x 150m2 transects (one edge, one centre), per site 10 x plant pairs from edge to centre of field (5m intervals between pairs). Temporal replicates:	two sampling rounds for transect surveys",NA
"Jeroen_Scheper_Helianthus_annuus_France_2015","SF5","Standardized transect walks","Halictinae sp.","subfamily","other_wild_bees",2,600,NA,NA,"Measures per site: per site 2 x 150m2 transects (one edge, one centre), per site 10 x plant pairs from edge to centre of field (5m intervals between pairs). Temporal replicates:	two sampling rounds for transect surveys",NA
"Jeroen_Scheper_Helianthus_annuus_France_2015","SF6","Standardized transect walks","Halictinae sp.","subfamily","other_wild_bees",1,600,NA,NA,"Measures per site: per site 2 x 150m2 transects (one edge, one centre), per site 10 x plant pairs from edge to centre of field (5m intervals between pairs). Temporal replicates:	two sampling rounds for transect surveys",NA
"Jeroen_Scheper_Helianthus_annuus_France_2015","SF9","Standardized transect walks","Halictinae sp.","subfamily","other_wild_bees",2,600,NA,NA,"Measures per site: per site 2 x 150m2 transects (one edge, one centre), per site 10 x plant pairs from edge to centre of field (5m intervals between pairs). Temporal replicates:	two sampling rounds for transect surveys",NA
"Jeroen_Scheper_Helianthus_annuus_France_2015","SF16","Standardized transect walks","Halictinae sp.","subfamily","other_wild_bees",1,600,NA,NA,"Measures per site: per site 2 x 150m2 transects (one edge, one centre), per site 10 x plant pairs from edge to centre of field (5m intervals between pairs). Temporal replicates:	two sampling rounds for transect surveys",NA
"Jeroen_Scheper_Helianthus_annuus_France_2015","SF1","Standardized transect walks","Halictus scabiosae","species","other_wild_bees",2,600,NA,NA,"Measures per site: per site 2 x 150m2 transects (one edge, one centre), per site 10 x plant pairs from edge to centre of field (5m intervals between pairs). Temporal replicates:	two sampling rounds for transect surveys",NA
"Jeroen_Scheper_Helianthus_annuus_France_2015","SF6","Standardized transect walks","Halictus scabiosae","species","other_wild_bees",1,600,NA,NA,"Measures per site: per site 2 x 150m2 transects (one edge, one centre), per site 10 x plant pairs from edge to centre of field (5m intervals between pairs). Temporal replicates:	two sampling rounds for transect surveys",NA
"Jeroen_Scheper_Helianthus_annuus_France_2015","SF8","Standardized transect walks","Halictus scabiosae","species","other_wild_bees",1,600,NA,NA,"Measures per site: per site 2 x 150m2 transects (one edge, one centre), per site 10 x plant pairs from edge to centre of field (5m intervals between pairs). Temporal replicates:	two sampling rounds for transect surveys",NA
"Jeroen_Scheper_Helianthus_annuus_France_2015","SF9","Standardized transect walks","Halictus scabiosae","species","other_wild_bees",1,600,NA,NA,"Measures per site: per site 2 x 150m2 transects (one edge, one centre), per site 10 x plant pairs from edge to centre of field (5m intervals between pairs). Temporal replicates:	two sampling rounds for transect surveys",NA
"Jeroen_Scheper_Helianthus_annuus_France_2015","SF10","Standardized transect walks","Halictus scabiosae","species","other_wild_bees",1,600,NA,NA,"Measures per site: per site 2 x 150m2 transects (one edge, one centre), per site 10 x plant pairs from edge to centre of field (5m intervals between pairs). Temporal replicates:	two sampling rounds for transect surveys",NA
"Jeroen_Scheper_Helianthus_annuus_France_2015","SF11","Standardized transect walks","Halictus scabiosae","species","other_wild_bees",1,600,NA,NA,"Measures per site: per site 2 x 150m2 transects (one edge, one centre), per site 10 x plant pairs from edge to centre of field (5m intervals between pairs). Temporal replicates:	two sampling rounds for transect surveys",NA
"Jeroen_Scheper_Helianthus_annuus_France_2015","SF13","Standardized transect walks","Halictus scabiosae","species","other_wild_bees",1,600,NA,NA,"Measures per site: per site 2 x 150m2 transects (one edge, one centre), per site 10 x plant pairs from edge to centre of field (5m intervals between pairs). Temporal replicates:	two sampling rounds for transect surveys",NA
"Jeroen_Scheper_Helianthus_annuus_France_2015","SF15","Standardized transect walks","Halictus scabiosae","species","other_wild_bees",3,600,NA,NA,"Measures per site: per site 2 x 150m2 transects (one edge, one centre), per site 10 x plant pairs from edge to centre of field (5m intervals between pairs). Temporal replicates:	two sampling rounds for transect surveys",NA
"Jeroen_Scheper_Helianthus_annuus_France_2015","SF20","Standardized transect walks","Halictus scabiosae","species","other_wild_bees",1,600,NA,NA,"Measures per site: per site 2 x 150m2 transects (one edge, one centre), per site 10 x plant pairs from edge to centre of field (5m intervals between pairs). Temporal replicates:	two sampling rounds for transect surveys",NA
"Jeroen_Scheper_Helianthus_annuus_France_2015","SF12","Standardized transect walks","Lasioglossum calceatum","species","other_wild_bees",1,600,NA,NA,"Measures per site: per site 2 x 150m2 transects (one edge, one centre), per site 10 x plant pairs from edge to centre of field (5m intervals between pairs). Temporal replicates:	two sampling rounds for transect surveys",NA
"Jeroen_Scheper_Helianthus_annuus_France_2015","SF22","Standardized transect walks","Lasioglossum laticeps","species","other_wild_bees",1,600,NA,NA,"Measures per site: per site 2 x 150m2 transects (one edge, one centre), per site 10 x plant pairs from edge to centre of field (5m intervals between pairs). Temporal replicates:	two sampling rounds for transect surveys",NA
"Jeroen_Scheper_Helianthus_annuus_France_2015","SF2","Standardized transect walks","Lasioglossum leucozonium","species","other_wild_bees",1,600,NA,NA,"Measures per site: per site 2 x 150m2 transects (one edge, one centre), per site 10 x plant pairs from edge to centre of field (5m intervals between pairs). Temporal replicates:	two sampling rounds for transect surveys",NA
"Jeroen_Scheper_Helianthus_annuus_France_2015","SF1","Standardized transect walks","Lasioglossum malachurum","species","other_wild_bees",2,600,NA,NA,"Measures per site: per site 2 x 150m2 transects (one edge, one centre), per site 10 x plant pairs from edge to centre of field (5m intervals between pairs). Temporal replicates:	two sampling rounds for transect surveys",NA
"Jeroen_Scheper_Helianthus_annuus_France_2015","SF3","Standardized transect walks","Lasioglossum malachurum","species","other_wild_bees",1,600,NA,NA,"Measures per site: per site 2 x 150m2 transects (one edge, one centre), per site 10 x plant pairs from edge to centre of field (5m intervals between pairs). Temporal replicates:	two sampling rounds for transect surveys",NA
"Jeroen_Scheper_Helianthus_annuus_France_2015","SF5","Standardized transect walks","Lasioglossum malachurum","species","other_wild_bees",4,600,NA,NA,"Measures per site: per site 2 x 150m2 transects (one edge, one centre), per site 10 x plant pairs from edge to centre of field (5m intervals between pairs). Temporal replicates:	two sampling rounds for transect surveys",NA
"Jeroen_Scheper_Helianthus_annuus_France_2015","SF6","Standardized transect walks","Lasioglossum malachurum","species","other_wild_bees",3,600,NA,NA,"Measures per site: per site 2 x 150m2 transects (one edge, one centre), per site 10 x plant pairs from edge to centre of field (5m intervals between pairs). Temporal replicates:	two sampling rounds for transect surveys",NA
"Jeroen_Scheper_Helianthus_annuus_France_2015","SF7","Standardized transect walks","Lasioglossum malachurum","species","other_wild_bees",3,600,NA,NA,"Measures per site: per site 2 x 150m2 transects (one edge, one centre), per site 10 x plant pairs from edge to centre of field (5m intervals between pairs). Temporal replicates:	two sampling rounds for transect surveys",NA
"Jeroen_Scheper_Helianthus_annuus_France_2015","SF8","Standardized transect walks","Lasioglossum malachurum","species","other_wild_bees",3,600,NA,NA,"Measures per site: per site 2 x 150m2 transects (one edge, one centre), per site 10 x plant pairs from edge to centre of field (5m intervals between pairs). Temporal replicates:	two sampling rounds for transect surveys",NA
"Jeroen_Scheper_Helianthus_annuus_France_2015","SF10","Standardized transect walks","Lasioglossum malachurum","species","other_wild_bees",2,600,NA,NA,"Measures per site: per site 2 x 150m2 transects (one edge, one centre), per site 10 x plant pairs from edge to centre of field (5m intervals between pairs). Temporal replicates:	two sampling rounds for transect surveys",NA
"Jeroen_Scheper_Helianthus_annuus_France_2015","SF11","Standardized transect walks","Lasioglossum malachurum","species","other_wild_bees",1,600,NA,NA,"Measures per site: per site 2 x 150m2 transects (one edge, one centre), per site 10 x plant pairs from edge to centre of field (5m intervals between pairs). Temporal replicates:	two sampling rounds for transect surveys",NA
"Jeroen_Scheper_Helianthus_annuus_France_2015","SF13","Standardized transect walks","Lasioglossum malachurum","species","other_wild_bees",3,600,NA,NA,"Measures per site: per site 2 x 150m2 transects (one edge, one centre), per site 10 x plant pairs from edge to centre of field (5m intervals between pairs). Temporal replicates:	two sampling rounds for transect surveys",NA
"Jeroen_Scheper_Helianthus_annuus_France_2015","SF14","Standardized transect walks","Lasioglossum malachurum","species","other_wild_bees",2,600,NA,NA,"Measures per site: per site 2 x 150m2 transects (one edge, one centre), per site 10 x plant pairs from edge to centre of field (5m intervals between pairs). Temporal replicates:	two sampling rounds for transect surveys",NA
"Jeroen_Scheper_Helianthus_annuus_France_2015","SF15","Standardized transect walks","Lasioglossum malachurum","species","other_wild_bees",4,600,NA,NA,"Measures per site: per site 2 x 150m2 transects (one edge, one centre), per site 10 x plant pairs from edge to centre of field (5m intervals between pairs). Temporal replicates:	two sampling rounds for transect surveys",NA
"Jeroen_Scheper_Helianthus_annuus_France_2015","SF16","Standardized transect walks","Lasioglossum malachurum","species","other_wild_bees",1,600,NA,NA,"Measures per site: per site 2 x 150m2 transects (one edge, one centre), per site 10 x plant pairs from edge to centre of field (5m intervals between pairs). Temporal replicates:	two sampling rounds for transect surveys",NA
"Jeroen_Scheper_Helianthus_annuus_France_2015","SF18","Standardized transect walks","Lasioglossum malachurum","species","other_wild_bees",1,600,NA,NA,"Measures per site: per site 2 x 150m2 transects (one edge, one centre), per site 10 x plant pairs from edge to centre of field (5m intervals between pairs). Temporal replicates:	two sampling rounds for transect surveys",NA
"Jeroen_Scheper_Helianthus_annuus_France_2015","SF20","Standardized transect walks","Lasioglossum malachurum","species","other_wild_bees",3,600,NA,NA,"Measures per site: per site 2 x 150m2 transects (one edge, one centre), per site 10 x plant pairs from edge to centre of field (5m intervals between pairs). Temporal replicates:	two sampling rounds for transect surveys",NA
"Jeroen_Scheper_Helianthus_annuus_France_2015","SF1","Standardized transect walks","Lasioglossum pauxillum","species","other_wild_bees",1,600,NA,NA,"Measures per site: per site 2 x 150m2 transects (one edge, one centre), per site 10 x plant pairs from edge to centre of field (5m intervals between pairs). Temporal replicates:	two sampling rounds for transect surveys",NA
"Jeroen_Scheper_Helianthus_annuus_France_2015","SF5","Standardized transect walks","Lasioglossum pauxillum","species","other_wild_bees",3,600,NA,NA,"Measures per site: per site 2 x 150m2 transects (one edge, one centre), per site 10 x plant pairs from edge to centre of field (5m intervals between pairs). Temporal replicates:	two sampling rounds for transect surveys",NA
"Jeroen_Scheper_Helianthus_annuus_France_2015","SF16","Standardized transect walks","Lasioglossum pauxillum","species","other_wild_bees",1,600,NA,NA,"Measures per site: per site 2 x 150m2 transects (one edge, one centre), per site 10 x plant pairs from edge to centre of field (5m intervals between pairs). Temporal replicates:	two sampling rounds for transect surveys",NA
"Jeroen_Scheper_Helianthus_annuus_France_2015","SF11","Standardized transect walks","Lasioglossum puncticolle","species","other_wild_bees",4,600,NA,NA,"Measures per site: per site 2 x 150m2 transects (one edge, one centre), per site 10 x plant pairs from edge to centre of field (5m intervals between pairs). Temporal replicates:	two sampling rounds for transect surveys",NA
"Jeroen_Scheper_Helianthus_annuus_France_2015","SF21","Standardized transect walks","Lasioglossum puncticolle","species","other_wild_bees",1,600,NA,NA,"Measures per site: per site 2 x 150m2 transects (one edge, one centre), per site 10 x plant pairs from edge to centre of field (5m intervals between pairs). Temporal replicates:	two sampling rounds for transect surveys",NA
"Jeroen_Scheper_Helianthus_annuus_France_2015","SF5","Standardized transect walks","Lasioglossum subhirtum","species","other_wild_bees",2,600,NA,NA,"Measures per site: per site 2 x 150m2 transects (one edge, one centre), per site 10 x plant pairs from edge to centre of field (5m intervals between pairs). Temporal replicates:	two sampling rounds for transect surveys",NA
"Jeroen_Scheper_Helianthus_annuus_France_2015","SF6","Standardized transect walks","Lasioglossum subhirtum","species","other_wild_bees",1,600,NA,NA,"Measures per site: per site 2 x 150m2 transects (one edge, one centre), per site 10 x plant pairs from edge to centre of field (5m intervals between pairs). Temporal replicates:	two sampling rounds for transect surveys",NA
"Jeroen_Scheper_Helianthus_annuus_France_2015","SF8","Standardized transect walks","Lasioglossum subhirtum","species","other_wild_bees",6,600,NA,NA,"Measures per site: per site 2 x 150m2 transects (one edge, one centre), per site 10 x plant pairs from edge to centre of field (5m intervals between pairs). Temporal replicates:	two sampling rounds for transect surveys",NA
"Jeroen_Scheper_Helianthus_annuus_France_2015","SF9","Standardized transect walks","Lasioglossum subhirtum","species","other_wild_bees",2,600,NA,NA,"Measures per site: per site 2 x 150m2 transects (one edge, one centre), per site 10 x plant pairs from edge to centre of field (5m intervals between pairs). Temporal replicates:	two sampling rounds for transect surveys",NA
"Jeroen_Scheper_Helianthus_annuus_France_2015","SF13","Standardized transect walks","Lasioglossum subhirtum","species","other_wild_bees",1,600,NA,NA,"Measures per site: per site 2 x 150m2 transects (one edge, one centre), per site 10 x plant pairs from edge to centre of field (5m intervals between pairs). Temporal replicates:	two sampling rounds for transect surveys",NA
"Jeroen_Scheper_Helianthus_annuus_France_2015","SF10","Standardized transect walks","Anthidium septemspinosum","species","other_wild_bees",1,600,NA,NA,"Measures per site: per site 2 x 150m2 transects (one edge, one centre), per site 10 x plant pairs from edge to centre of field (5m intervals between pairs). Temporal replicates:	two sampling rounds for transect surveys",NA
"Jeroen_Scheper_Helianthus_annuus_France_2015","SF7","Standardized transect walks","Megachile rotundata","species","other_wild_bees",1,600,NA,NA,"Measures per site: per site 2 x 150m2 transects (one edge, one centre), per site 10 x plant pairs from edge to centre of field (5m intervals between pairs). Temporal replicates:	two sampling rounds for transect surveys",NA
"Jeroen_Scheper_Helianthus_annuus_France_2015","SF5","Standardized transect walks","Osmia spinulosa","species","other_wild_bees",1,600,NA,NA,"Measures per site: per site 2 x 150m2 transects (one edge, one centre), per site 10 x plant pairs from edge to centre of field (5m intervals between pairs). Temporal replicates:	two sampling rounds for transect surveys",NA
"Jeroen_Scheper_Helianthus_annuus_France_2015","SF13","Standardized transect walks","Osmia spinulosa","species","other_wild_bees",1,600,NA,NA,"Measures per site: per site 2 x 150m2 transects (one edge, one centre), per site 10 x plant pairs from edge to centre of field (5m intervals between pairs). Temporal replicates:	two sampling rounds for transect surveys",NA
"Jeroen_Scheper_Helianthus_annuus_France_2015","SF14","Standardized transect walks","Osmia spinulosa","species","other_wild_bees",1,600,NA,NA,"Measures per site: per site 2 x 150m2 transects (one edge, one centre), per site 10 x plant pairs from edge to centre of field (5m intervals between pairs). Temporal replicates:	two sampling rounds for transect surveys",NA
"Jeroen_Scheper_Helianthus_annuus_France_2015","SF18","Standardized transect walks","Eristalis pertinax","species","syrphids",1,600,NA,NA,"Measures per site: per site 2 x 150m2 transects (one edge, one centre), per site 10 x plant pairs from edge to centre of field (5m intervals between pairs). Temporal replicates:	two sampling rounds for transect surveys",NA
"Jeroen_Scheper_Helianthus_annuus_France_2015","SF18","Standardized transect walks","Eristalis sp.","genus","syrphids",2,600,NA,NA,"Measures per site: per site 2 x 150m2 transects (one edge, one centre), per site 10 x plant pairs from edge to centre of field (5m intervals between pairs). Temporal replicates:	two sampling rounds for transect surveys",NA
"Jeroen_Scheper_Helianthus_annuus_France_2015","SF2","Standardized transect walks","Eristalis sp.","genus","syrphids",1,600,NA,NA,"Measures per site: per site 2 x 150m2 transects (one edge, one centre), per site 10 x plant pairs from edge to centre of field (5m intervals between pairs). Temporal replicates:	two sampling rounds for transect surveys",NA
"Jeroen_Scheper_Helianthus_annuus_France_2015","SF9","Standardized transect walks","Eristalis sp.","genus","syrphids",1,600,NA,NA,"Measures per site: per site 2 x 150m2 transects (one edge, one centre), per site 10 x plant pairs from edge to centre of field (5m intervals between pairs). Temporal replicates:	two sampling rounds for transect surveys",NA
"Jeroen_Scheper_Helianthus_annuus_France_2015","SF17","Standardized transect walks","Eristalis sp.","genus","syrphids",2,600,NA,NA,"Measures per site: per site 2 x 150m2 transects (one edge, one centre), per site 10 x plant pairs from edge to centre of field (5m intervals between pairs). Temporal replicates:	two sampling rounds for transect surveys",NA
"Jeroen_Scheper_Helianthus_annuus_France_2015","SF19","Standardized transect walks","Eristalis sp.","genus","syrphids",1,600,NA,NA,"Measures per site: per site 2 x 150m2 transects (one edge, one centre), per site 10 x plant pairs from edge to centre of field (5m intervals between pairs). Temporal replicates:	two sampling rounds for transect surveys",NA
"Jeroen_Scheper_Helianthus_annuus_France_2015","SF21","Standardized transect walks","Eristalis sp.","genus","syrphids",2,600,NA,NA,"Measures per site: per site 2 x 150m2 transects (one edge, one centre), per site 10 x plant pairs from edge to centre of field (5m intervals between pairs). Temporal replicates:	two sampling rounds for transect surveys",NA
"Jeroen_Scheper_Helianthus_annuus_France_2015","SF22","Standardized transect walks","Eristalis sp.","genus","syrphids",1,600,NA,NA,"Measures per site: per site 2 x 150m2 transects (one edge, one centre), per site 10 x plant pairs from edge to centre of field (5m intervals between pairs). Temporal replicates:	two sampling rounds for transect surveys",NA
"Jeroen_Scheper_Helianthus_annuus_France_2015","SF18","Standardized transect walks","Eristalis tenax","species","syrphids",1,600,NA,NA,"Measures per site: per site 2 x 150m2 transects (one edge, one centre), per site 10 x plant pairs from edge to centre of field (5m intervals between pairs). Temporal replicates:	two sampling rounds for transect surveys",NA
"Jeroen_Scheper_Helianthus_annuus_France_2015","SF18","Standardized transect walks","Eupeodus corollae","species","syrphids",1,600,NA,NA,"Measures per site: per site 2 x 150m2 transects (one edge, one centre), per site 10 x plant pairs from edge to centre of field (5m intervals between pairs). Temporal replicates:	two sampling rounds for transect surveys",NA
"Jeroen_Scheper_Helianthus_annuus_France_2015","SF17","Standardized transect walks","Eupeodus sp.","genus","syrphids",2,600,NA,NA,"Measures per site: per site 2 x 150m2 transects (one edge, one centre), per site 10 x plant pairs from edge to centre of field (5m intervals between pairs). Temporal replicates:	two sampling rounds for transect surveys",NA
"Jeroen_Scheper_Helianthus_annuus_France_2015","SF2","Standardized transect walks","Melanostoma mellinum","species","syrphids",1,600,NA,NA,"Measures per site: per site 2 x 150m2 transects (one edge, one centre), per site 10 x plant pairs from edge to centre of field (5m intervals between pairs). Temporal replicates:	two sampling rounds for transect surveys",NA
"Jeroen_Scheper_Helianthus_annuus_France_2015","SF5","Standardized transect walks","Melanostoma mellinum","species","syrphids",1,600,NA,NA,"Measures per site: per site 2 x 150m2 transects (one edge, one centre), per site 10 x plant pairs from edge to centre of field (5m intervals between pairs). Temporal replicates:	two sampling rounds for transect surveys",NA
"Jeroen_Scheper_Helianthus_annuus_France_2015","SF2","Standardized transect walks","Sphaerophoria scripta","species","syrphids",1,600,NA,NA,"Measures per site: per site 2 x 150m2 transects (one edge, one centre), per site 10 x plant pairs from edge to centre of field (5m intervals between pairs). Temporal replicates:	two sampling rounds for transect surveys",NA
"Jeroen_Scheper_Helianthus_annuus_France_2015","SF1","Standardized transect walks","Syrphidae sp.","family","syrphids",1,600,NA,NA,"Measures per site: per site 2 x 150m2 transects (one edge, one centre), per site 10 x plant pairs from edge to centre of field (5m intervals between pairs). Temporal replicates:	two sampling rounds for transect surveys",NA
"Jeroen_Scheper_Helianthus_annuus_France_2015","SF2","Standardized transect walks","Syrphidae sp.","family","syrphids",1,600,NA,NA,"Measures per site: per site 2 x 150m2 transects (one edge, one centre), per site 10 x plant pairs from edge to centre of field (5m intervals between pairs). Temporal replicates:	two sampling rounds for transect surveys",NA
"Jeroen_Scheper_Helianthus_annuus_France_2015","SF5","Standardized transect walks","Syrphidae sp.","family","syrphids",2,600,NA,NA,"Measures per site: per site 2 x 150m2 transects (one edge, one centre), per site 10 x plant pairs from edge to centre of field (5m intervals between pairs). Temporal replicates:	two sampling rounds for transect surveys",NA
"Jeroen_Scheper_Helianthus_annuus_France_2015","SF7","Standardized transect walks","Syrphidae sp.","family","syrphids",1,600,NA,NA,"Measures per site: per site 2 x 150m2 transects (one edge, one centre), per site 10 x plant pairs from edge to centre of field (5m intervals between pairs). Temporal replicates:	two sampling rounds for transect surveys",NA
"Jeroen_Scheper_Helianthus_annuus_France_2015","SF8","Standardized transect walks","Syrphidae sp.","family","syrphids",1,600,NA,NA,"Measures per site: per site 2 x 150m2 transects (one edge, one centre), per site 10 x plant pairs from edge to centre of field (5m intervals between pairs). Temporal replicates:	two sampling rounds for transect surveys",NA
"Jeroen_Scheper_Helianthus_annuus_France_2015","SF9","Standardized transect walks","Syrphidae sp.","family","syrphids",4,600,NA,NA,"Measures per site: per site 2 x 150m2 transects (one edge, one centre), per site 10 x plant pairs from edge to centre of field (5m intervals between pairs). Temporal replicates:	two sampling rounds for transect surveys",NA
"Jeroen_Scheper_Helianthus_annuus_France_2015","SF10","Standardized transect walks","Syrphidae sp.","family","syrphids",1,600,NA,NA,"Measures per site: per site 2 x 150m2 transects (one edge, one centre), per site 10 x plant pairs from edge to centre of field (5m intervals between pairs). Temporal replicates:	two sampling rounds for transect surveys",NA
"Jeroen_Scheper_Helianthus_annuus_France_2015","SF21","Standardized transect walks","Syrphidae sp.","family","syrphids",1,600,NA,NA,"Measures per site: per site 2 x 150m2 transects (one edge, one centre), per site 10 x plant pairs from edge to centre of field (5m intervals between pairs). Temporal replicates:	two sampling rounds for transect surveys",NA
"Jessica_D_Petersen_Cucurbita_pepo_USA_2011","Wickham","observation","Apis mellifera","species","honeybees",0.0596249296289598,792,90,NA,"Abundance information refers to average flower visits (frequency). The number of bees visiting pumpkin flowers in each field was counted three times. In each round, three 88 m-long transects. Each transect was surveyed for 10 min. The total number of visits was divided by the total number of flowers to achieve a visitation frequency for each bee species per sampling round. Visitation frequencies were averaged across the three sampling rounds",NA
"Jessica_D_Petersen_Cucurbita_pepo_USA_2011","Tomion","observation","Apis mellifera","species","honeybees",0.0222587187569457,792,90,NA,"Abundance information refers to average flower visits (frequency). The number of bees visiting pumpkin flowers in each field was counted three times. In each round, three 88 m-long transects. Each transect was surveyed for 10 min. The total number of visits was divided by the total number of flowers to achieve a visitation frequency for each bee species per sampling round. Visitation frequencies were averaged across the three sampling rounds",NA
"Jessica_D_Petersen_Cucurbita_pepo_USA_2011","Tim3","observation","Apis mellifera","species","honeybees",0.00490759911049766,792,90,NA,"Abundance information refers to average flower visits (frequency). The number of bees visiting pumpkin flowers in each field was counted three times. In each round, three 88 m-long transects. Each transect was surveyed for 10 min. The total number of visits was divided by the total number of flowers to achieve a visitation frequency for each bee species per sampling round. Visitation frequencies were averaged across the three sampling rounds",NA
"Jessica_D_Petersen_Cucurbita_pepo_USA_2011","Tim2","observation","Apis mellifera","species","honeybees",0.00420208784926778,792,90,NA,"Abundance information refers to average flower visits (frequency). The number of bees visiting pumpkin flowers in each field was counted three times. In each round, three 88 m-long transects. Each transect was surveyed for 10 min. The total number of visits was divided by the total number of flowers to achieve a visitation frequency for each bee species per sampling round. Visitation frequencies were averaged across the three sampling rounds",NA
"Jessica_D_Petersen_Cucurbita_pepo_USA_2011","Tim1","observation","Apis mellifera","species","honeybees",0.00372012811037201,792,90,NA,"Abundance information refers to average flower visits (frequency). The number of bees visiting pumpkin flowers in each field was counted three times. In each round, three 88 m-long transects. Each transect was surveyed for 10 min. The total number of visits was divided by the total number of flowers to achieve a visitation frequency for each bee species per sampling round. Visitation frequencies were averaged across the three sampling rounds",NA
"Jessica_D_Petersen_Cucurbita_pepo_USA_2011","RS","observation","Apis mellifera","species","honeybees",0.0581185235352714,792,90,NA,"Abundance information refers to average flower visits (frequency). The number of bees visiting pumpkin flowers in each field was counted three times. In each round, three 88 m-long transects. Each transect was surveyed for 10 min. The total number of visits was divided by the total number of flowers to achieve a visitation frequency for each bee species per sampling round. Visitation frequencies were averaged across the three sampling rounds",NA
"Jessica_D_Petersen_Cucurbita_pepo_USA_2011","RN","observation","Apis mellifera","species","honeybees",0.0687064629240072,792,90,NA,"Abundance information refers to average flower visits (frequency). The number of bees visiting pumpkin flowers in each field was counted three times. In each round, three 88 m-long transects. Each transect was surveyed for 10 min. The total number of visits was divided by the total number of flowers to achieve a visitation frequency for each bee species per sampling round. Visitation frequencies were averaged across the three sampling rounds",NA
"Jessica_D_Petersen_Cucurbita_pepo_USA_2011","RidgeChapel","observation","Apis mellifera","species","honeybees",0.00889537082050451,792,90,NA,"Abundance information refers to average flower visits (frequency). The number of bees visiting pumpkin flowers in each field was counted three times. In each round, three 88 m-long transects. Each transect was surveyed for 10 min. The total number of visits was divided by the total number of flowers to achieve a visitation frequency for each bee species per sampling round. Visitation frequencies were averaged across the three sampling rounds",NA
"Jessica_D_Petersen_Cucurbita_pepo_USA_2011","P382","observation","Apis mellifera","species","honeybees",0.0571266698319214,792,90,NA,"Abundance information refers to average flower visits (frequency). The number of bees visiting pumpkin flowers in each field was counted three times. In each round, three 88 m-long transects. Each transect was surveyed for 10 min. The total number of visits was divided by the total number of flowers to achieve a visitation frequency for each bee species per sampling round. Visitation frequencies were averaged across the three sampling rounds",NA
"Jessica_D_Petersen_Cucurbita_pepo_USA_2011","P34","observation","Apis mellifera","species","honeybees",0.0229233578554016,792,90,NA,"Abundance information refers to average flower visits (frequency). The number of bees visiting pumpkin flowers in each field was counted three times. In each round, three 88 m-long transects. Each transect was surveyed for 10 min. The total number of visits was divided by the total number of flowers to achieve a visitation frequency for each bee species per sampling round. Visitation frequencies were averaged across the three sampling rounds",NA
"Jessica_D_Petersen_Cucurbita_pepo_USA_2011","P316","observation","Apis mellifera","species","honeybees",0.0271123139852629,792,90,NA,"Abundance information refers to average flower visits (frequency). The number of bees visiting pumpkin flowers in each field was counted three times. In each round, three 88 m-long transects. Each transect was surveyed for 10 min. The total number of visits was divided by the total number of flowers to achieve a visitation frequency for each bee species per sampling round. Visitation frequencies were averaged across the three sampling rounds",NA
"Jessica_D_Petersen_Cucurbita_pepo_USA_2011","P105","observation","Apis mellifera","species","honeybees",0.0724595278751051,792,90,NA,"Abundance information refers to average flower visits (frequency). The number of bees visiting pumpkin flowers in each field was counted three times. In each round, three 88 m-long transects. Each transect was surveyed for 10 min. The total number of visits was divided by the total number of flowers to achieve a visitation frequency for each bee species per sampling round. Visitation frequencies were averaged across the three sampling rounds",NA
"Jessica_D_Petersen_Cucurbita_pepo_USA_2011","P10","observation","Apis mellifera","species","honeybees",0.033943388512365,792,90,NA,"Abundance information refers to average flower visits (frequency). The number of bees visiting pumpkin flowers in each field was counted three times. In each round, three 88 m-long transects. Each transect was surveyed for 10 min. The total number of visits was divided by the total number of flowers to achieve a visitation frequency for each bee species per sampling round. Visitation frequencies were averaged across the three sampling rounds",NA
"Jessica_D_Petersen_Cucurbita_pepo_USA_2011","Meadville","observation","Apis mellifera","species","honeybees",0.0164603878302176,792,90,NA,"Abundance information refers to average flower visits (frequency). The number of bees visiting pumpkin flowers in each field was counted three times. In each round, three 88 m-long transects. Each transect was surveyed for 10 min. The total number of visits was divided by the total number of flowers to achieve a visitation frequency for each bee species per sampling round. Visitation frequencies were averaged across the three sampling rounds",NA
"Jessica_D_Petersen_Cucurbita_pepo_USA_2011","Mason","observation","Apis mellifera","species","honeybees",0.00363111660799797,792,90,NA,"Abundance information refers to average flower visits (frequency). The number of bees visiting pumpkin flowers in each field was counted three times. In each round, three 88 m-long transects. Each transect was surveyed for 10 min. The total number of visits was divided by the total number of flowers to achieve a visitation frequency for each bee species per sampling round. Visitation frequencies were averaged across the three sampling rounds",NA
"Jessica_D_Petersen_Cucurbita_pepo_USA_2011","Magog","observation","Apis mellifera","species","honeybees",0.00788970099837196,792,90,NA,"Abundance information refers to average flower visits (frequency). The number of bees visiting pumpkin flowers in each field was counted three times. In each round, three 88 m-long transects. Each transect was surveyed for 10 min. The total number of visits was divided by the total number of flowers to achieve a visitation frequency for each bee species per sampling round. Visitation frequencies were averaged across the three sampling rounds",NA
"Jessica_D_Petersen_Cucurbita_pepo_USA_2011","Macs","observation","Apis mellifera","species","honeybees",0.00436425863844006,792,90,NA,"Abundance information refers to average flower visits (frequency). The number of bees visiting pumpkin flowers in each field was counted three times. In each round, three 88 m-long transects. Each transect was surveyed for 10 min. The total number of visits was divided by the total number of flowers to achieve a visitation frequency for each bee species per sampling round. Visitation frequencies were averaged across the three sampling rounds",NA
"Jessica_D_Petersen_Cucurbita_pepo_USA_2011","Ma6","observation","Apis mellifera","species","honeybees",0.0179695569727356,792,90,NA,"Abundance information refers to average flower visits (frequency). The number of bees visiting pumpkin flowers in each field was counted three times. In each round, three 88 m-long transects. Each transect was surveyed for 10 min. The total number of visits was divided by the total number of flowers to achieve a visitation frequency for each bee species per sampling round. Visitation frequencies were averaged across the three sampling rounds",NA
"Jessica_D_Petersen_Cucurbita_pepo_USA_2011","Hz2","observation","Apis mellifera","species","honeybees",0.0258755576322692,792,90,NA,"Abundance information refers to average flower visits (frequency). The number of bees visiting pumpkin flowers in each field was counted three times. In each round, three 88 m-long transects. Each transect was surveyed for 10 min. The total number of visits was divided by the total number of flowers to achieve a visitation frequency for each bee species per sampling round. Visitation frequencies were averaged across the three sampling rounds",NA
"Jessica_D_Petersen_Cucurbita_pepo_USA_2011","HWY251","observation","Apis mellifera","species","honeybees",0.0556893448386532,792,90,NA,"Abundance information refers to average flower visits (frequency). The number of bees visiting pumpkin flowers in each field was counted three times. In each round, three 88 m-long transects. Each transect was surveyed for 10 min. The total number of visits was divided by the total number of flowers to achieve a visitation frequency for each bee species per sampling round. Visitation frequencies were averaged across the three sampling rounds",NA
"Jessica_D_Petersen_Cucurbita_pepo_USA_2011","GroMoore","observation","Apis mellifera","species","honeybees",0.0278242998919809,792,90,NA,"Abundance information refers to average flower visits (frequency). The number of bees visiting pumpkin flowers in each field was counted three times. In each round, three 88 m-long transects. Each transect was surveyed for 10 min. The total number of visits was divided by the total number of flowers to achieve a visitation frequency for each bee species per sampling round. Visitation frequencies were averaged across the three sampling rounds",NA
"Jessica_D_Petersen_Cucurbita_pepo_USA_2011","Gates","observation","Apis mellifera","species","honeybees",0.072381271849357,792,90,NA,"Abundance information refers to average flower visits (frequency). The number of bees visiting pumpkin flowers in each field was counted three times. In each round, three 88 m-long transects. Each transect was surveyed for 10 min. The total number of visits was divided by the total number of flowers to achieve a visitation frequency for each bee species per sampling round. Visitation frequencies were averaged across the three sampling rounds",NA
"Jessica_D_Petersen_Cucurbita_pepo_USA_2011","Fish","observation","Apis mellifera","species","honeybees",0.00458671632055202,792,90,NA,"Abundance information refers to average flower visits (frequency). The number of bees visiting pumpkin flowers in each field was counted three times. In each round, three 88 m-long transects. Each transect was surveyed for 10 min. The total number of visits was divided by the total number of flowers to achieve a visitation frequency for each bee species per sampling round. Visitation frequencies were averaged across the three sampling rounds",NA
"Jessica_D_Petersen_Cucurbita_pepo_USA_2011","Alpaca","observation","Apis mellifera","species","honeybees",0.013477842632855,792,90,NA,"Abundance information refers to average flower visits (frequency). The number of bees visiting pumpkin flowers in each field was counted three times. In each round, three 88 m-long transects. Each transect was surveyed for 10 min. The total number of visits was divided by the total number of flowers to achieve a visitation frequency for each bee species per sampling round. Visitation frequencies were averaged across the three sampling rounds",NA
"Jessica_D_Petersen_Cucurbita_pepo_USA_2011","Wickham","observation","Augochlora pura","species","other_wild_bees",0.00626593806921676,792,90,NA,"Abundance information refers to average flower visits (frequency). The number of bees visiting pumpkin flowers in each field was counted three times. In each round, three 88 m-long transects. Each transect was surveyed for 10 min. The total number of visits was divided by the total number of flowers to achieve a visitation frequency for each bee species per sampling round. Visitation frequencies were averaged across the three sampling rounds",NA
"Jessica_D_Petersen_Cucurbita_pepo_USA_2011","Tim2","observation","Augochlora pura","species","other_wild_bees",0.000799360511590728,792,90,NA,"Abundance information refers to average flower visits (frequency). The number of bees visiting pumpkin flowers in each field was counted three times. In each round, three 88 m-long transects. Each transect was surveyed for 10 min. The total number of visits was divided by the total number of flowers to achieve a visitation frequency for each bee species per sampling round. Visitation frequencies were averaged across the three sampling rounds",NA
"Jessica_D_Petersen_Cucurbita_pepo_USA_2011","Tim1","observation","Augochlora pura","species","other_wild_bees",0.000903342366757001,792,90,NA,"Abundance information refers to average flower visits (frequency). The number of bees visiting pumpkin flowers in each field was counted three times. In each round, three 88 m-long transects. Each transect was surveyed for 10 min. The total number of visits was divided by the total number of flowers to achieve a visitation frequency for each bee species per sampling round. Visitation frequencies were averaged across the three sampling rounds",NA
"Jessica_D_Petersen_Cucurbita_pepo_USA_2011","Magog","observation","Augochlora pura","species","other_wild_bees",0.00185185185185185,792,90,NA,"Abundance information refers to average flower visits (frequency). The number of bees visiting pumpkin flowers in each field was counted three times. In each round, three 88 m-long transects. Each transect was surveyed for 10 min. The total number of visits was divided by the total number of flowers to achieve a visitation frequency for each bee species per sampling round. Visitation frequencies were averaged across the three sampling rounds",NA
"Jessica_D_Petersen_Cucurbita_pepo_USA_2011","GroMoore","observation","Augochlora pura","species","other_wild_bees",0.00224117549361548,792,90,NA,"Abundance information refers to average flower visits (frequency). The number of bees visiting pumpkin flowers in each field was counted three times. In each round, three 88 m-long transects. Each transect was surveyed for 10 min. The total number of visits was divided by the total number of flowers to achieve a visitation frequency for each bee species per sampling round. Visitation frequencies were averaged across the three sampling rounds",NA
"Jessica_D_Petersen_Cucurbita_pepo_USA_2011","Gates","observation","Augochlora pura","species","other_wild_bees",0.00236406619385343,792,90,NA,"Abundance information refers to average flower visits (frequency). The number of bees visiting pumpkin flowers in each field was counted three times. In each round, three 88 m-long transects. Each transect was surveyed for 10 min. The total number of visits was divided by the total number of flowers to achieve a visitation frequency for each bee species per sampling round. Visitation frequencies were averaged across the three sampling rounds",NA
"Jessica_D_Petersen_Cucurbita_pepo_USA_2011","Fish","observation","Augochlora pura","species","other_wild_bees",0.00763843873043311,792,90,NA,"Abundance information refers to average flower visits (frequency). The number of bees visiting pumpkin flowers in each field was counted three times. In each round, three 88 m-long transects. Each transect was surveyed for 10 min. The total number of visits was divided by the total number of flowers to achieve a visitation frequency for each bee species per sampling round. Visitation frequencies were averaged across the three sampling rounds",NA
"Jessica_D_Petersen_Cucurbita_pepo_USA_2011","Wickham","observation","Bombus impatiens","species","bumblebees",0.00522803397844795,792,90,NA,"Abundance information refers to average flower visits (frequency). The number of bees visiting pumpkin flowers in each field was counted three times. In each round, three 88 m-long transects. Each transect was surveyed for 10 min. The total number of visits was divided by the total number of flowers to achieve a visitation frequency for each bee species per sampling round. Visitation frequencies were averaged across the three sampling rounds",NA
"Jessica_D_Petersen_Cucurbita_pepo_USA_2011","Tomion","observation","Bombus impatiens","species","bumblebees",0.00414823561753386,792,90,NA,"Abundance information refers to average flower visits (frequency). The number of bees visiting pumpkin flowers in each field was counted three times. In each round, three 88 m-long transects. Each transect was surveyed for 10 min. The total number of visits was divided by the total number of flowers to achieve a visitation frequency for each bee species per sampling round. Visitation frequencies were averaged across the three sampling rounds",NA
"Jessica_D_Petersen_Cucurbita_pepo_USA_2011","Tim3","observation","Bombus impatiens","species","bumblebees",0.00756127159768924,792,90,NA,"Abundance information refers to average flower visits (frequency). The number of bees visiting pumpkin flowers in each field was counted three times. In each round, three 88 m-long transects. Each transect was surveyed for 10 min. The total number of visits was divided by the total number of flowers to achieve a visitation frequency for each bee species per sampling round. Visitation frequencies were averaged across the three sampling rounds",NA
"Jessica_D_Petersen_Cucurbita_pepo_USA_2011","Tim2","observation","Bombus impatiens","species","bumblebees",0.0107845105065937,792,90,NA,"Abundance information refers to average flower visits (frequency). The number of bees visiting pumpkin flowers in each field was counted three times. In each round, three 88 m-long transects. Each transect was surveyed for 10 min. The total number of visits was divided by the total number of flowers to achieve a visitation frequency for each bee species per sampling round. Visitation frequencies were averaged across the three sampling rounds",NA
"Jessica_D_Petersen_Cucurbita_pepo_USA_2011","Tim1","observation","Bombus impatiens","species","bumblebees",0.00415224621758353,792,90,NA,"Abundance information refers to average flower visits (frequency). The number of bees visiting pumpkin flowers in each field was counted three times. In each round, three 88 m-long transects. Each transect was surveyed for 10 min. The total number of visits was divided by the total number of flowers to achieve a visitation frequency for each bee species per sampling round. Visitation frequencies were averaged across the three sampling rounds",NA
"Jessica_D_Petersen_Cucurbita_pepo_USA_2011","RS","observation","Bombus impatiens","species","bumblebees",0.0125914265688217,792,90,NA,"Abundance information refers to average flower visits (frequency). The number of bees visiting pumpkin flowers in each field was counted three times. In each round, three 88 m-long transects. Each transect was surveyed for 10 min. The total number of visits was divided by the total number of flowers to achieve a visitation frequency for each bee species per sampling round. Visitation frequencies were averaged across the three sampling rounds",NA
"Jessica_D_Petersen_Cucurbita_pepo_USA_2011","RN","observation","Bombus impatiens","species","bumblebees",0.0255718923448254,792,90,NA,"Abundance information refers to average flower visits (frequency). The number of bees visiting pumpkin flowers in each field was counted three times. In each round, three 88 m-long transects. Each transect was surveyed for 10 min. The total number of visits was divided by the total number of flowers to achieve a visitation frequency for each bee species per sampling round. Visitation frequencies were averaged across the three sampling rounds",NA
"Jessica_D_Petersen_Cucurbita_pepo_USA_2011","RidgeChapel","observation","Bombus impatiens","species","bumblebees",0.0100540341256346,792,90,NA,"Abundance information refers to average flower visits (frequency). The number of bees visiting pumpkin flowers in each field was counted three times. In each round, three 88 m-long transects. Each transect was surveyed for 10 min. The total number of visits was divided by the total number of flowers to achieve a visitation frequency for each bee species per sampling round. Visitation frequencies were averaged across the three sampling rounds",NA
"Jessica_D_Petersen_Cucurbita_pepo_USA_2011","P382","observation","Bombus impatiens","species","bumblebees",0.0021143723189759,792,90,NA,"Abundance information refers to average flower visits (frequency). The number of bees visiting pumpkin flowers in each field was counted three times. In each round, three 88 m-long transects. Each transect was surveyed for 10 min. The total number of visits was divided by the total number of flowers to achieve a visitation frequency for each bee species per sampling round. Visitation frequencies were averaged across the three sampling rounds",NA
"Jessica_D_Petersen_Cucurbita_pepo_USA_2011","P34","observation","Bombus impatiens","species","bumblebees",0.0053743961352657,792,90,NA,"Abundance information refers to average flower visits (frequency). The number of bees visiting pumpkin flowers in each field was counted three times. In each round, three 88 m-long transects. Each transect was surveyed for 10 min. The total number of visits was divided by the total number of flowers to achieve a visitation frequency for each bee species per sampling round. Visitation frequencies were averaged across the three sampling rounds",NA
"Jessica_D_Petersen_Cucurbita_pepo_USA_2011","P316","observation","Bombus impatiens","species","bumblebees",0.00945983368663781,792,90,NA,"Abundance information refers to average flower visits (frequency). The number of bees visiting pumpkin flowers in each field was counted three times. In each round, three 88 m-long transects. Each transect was surveyed for 10 min. The total number of visits was divided by the total number of flowers to achieve a visitation frequency for each bee species per sampling round. Visitation frequencies were averaged across the three sampling rounds",NA
"Jessica_D_Petersen_Cucurbita_pepo_USA_2011","P105","observation","Bombus impatiens","species","bumblebees",0.0102123224010882,792,90,NA,"Abundance information refers to average flower visits (frequency). The number of bees visiting pumpkin flowers in each field was counted three times. In each round, three 88 m-long transects. Each transect was surveyed for 10 min. The total number of visits was divided by the total number of flowers to achieve a visitation frequency for each bee species per sampling round. Visitation frequencies were averaged across the three sampling rounds",NA
"Jessica_D_Petersen_Cucurbita_pepo_USA_2011","P10","observation","Bombus impatiens","species","bumblebees",0.000983284169124877,792,90,NA,"Abundance information refers to average flower visits (frequency). The number of bees visiting pumpkin flowers in each field was counted three times. In each round, three 88 m-long transects. Each transect was surveyed for 10 min. The total number of visits was divided by the total number of flowers to achieve a visitation frequency for each bee species per sampling round. Visitation frequencies were averaged across the three sampling rounds",NA
"Jessica_D_Petersen_Cucurbita_pepo_USA_2011","Meadville","observation","Bombus impatiens","species","bumblebees",0.0186060762882931,792,90,NA,"Abundance information refers to average flower visits (frequency). The number of bees visiting pumpkin flowers in each field was counted three times. In each round, three 88 m-long transects. Each transect was surveyed for 10 min. The total number of visits was divided by the total number of flowers to achieve a visitation frequency for each bee species per sampling round. Visitation frequencies were averaged across the three sampling rounds",NA
"Jessica_D_Petersen_Cucurbita_pepo_USA_2011","Mason","observation","Bombus impatiens","species","bumblebees",0.0148632999385474,792,90,NA,"Abundance information refers to average flower visits (frequency). The number of bees visiting pumpkin flowers in each field was counted three times. In each round, three 88 m-long transects. Each transect was surveyed for 10 min. The total number of visits was divided by the total number of flowers to achieve a visitation frequency for each bee species per sampling round. Visitation frequencies were averaged across the three sampling rounds",NA
"Jessica_D_Petersen_Cucurbita_pepo_USA_2011","Magog","observation","Bombus impatiens","species","bumblebees",0.00323624595469256,792,90,NA,"Abundance information refers to average flower visits (frequency). The number of bees visiting pumpkin flowers in each field was counted three times. In each round, three 88 m-long transects. Each transect was surveyed for 10 min. The total number of visits was divided by the total number of flowers to achieve a visitation frequency for each bee species per sampling round. Visitation frequencies were averaged across the three sampling rounds",NA
"Jessica_D_Petersen_Cucurbita_pepo_USA_2011","Macs","observation","Bombus impatiens","species","bumblebees",0.0243665083979367,792,90,NA,"Abundance information refers to average flower visits (frequency). The number of bees visiting pumpkin flowers in each field was counted three times. In each round, three 88 m-long transects. Each transect was surveyed for 10 min. The total number of visits was divided by the total number of flowers to achieve a visitation frequency for each bee species per sampling round. Visitation frequencies were averaged across the three sampling rounds",NA
"Jessica_D_Petersen_Cucurbita_pepo_USA_2011","Ma6","observation","Bombus impatiens","species","bumblebees",0.00226953705309501,792,90,NA,"Abundance information refers to average flower visits (frequency). The number of bees visiting pumpkin flowers in each field was counted three times. In each round, three 88 m-long transects. Each transect was surveyed for 10 min. The total number of visits was divided by the total number of flowers to achieve a visitation frequency for each bee species per sampling round. Visitation frequencies were averaged across the three sampling rounds",NA
"Jessica_D_Petersen_Cucurbita_pepo_USA_2011","Hz2","observation","Bombus impatiens","species","bumblebees",0.00140646976090014,792,90,NA,"Abundance information refers to average flower visits (frequency). The number of bees visiting pumpkin flowers in each field was counted three times. In each round, three 88 m-long transects. Each transect was surveyed for 10 min. The total number of visits was divided by the total number of flowers to achieve a visitation frequency for each bee species per sampling round. Visitation frequencies were averaged across the three sampling rounds",NA
"Jessica_D_Petersen_Cucurbita_pepo_USA_2011","HWY251","observation","Bombus impatiens","species","bumblebees",0.0158035091543957,792,90,NA,"Abundance information refers to average flower visits (frequency). The number of bees visiting pumpkin flowers in each field was counted three times. In each round, three 88 m-long transects. Each transect was surveyed for 10 min. The total number of visits was divided by the total number of flowers to achieve a visitation frequency for each bee species per sampling round. Visitation frequencies were averaged across the three sampling rounds",NA
"Jessica_D_Petersen_Cucurbita_pepo_USA_2011","GroMoore","observation","Bombus impatiens","species","bumblebees",0.0110264753005,792,90,NA,"Abundance information refers to average flower visits (frequency). The number of bees visiting pumpkin flowers in each field was counted three times. In each round, three 88 m-long transects. Each transect was surveyed for 10 min. The total number of visits was divided by the total number of flowers to achieve a visitation frequency for each bee species per sampling round. Visitation frequencies were averaged across the three sampling rounds",NA
"Jessica_D_Petersen_Cucurbita_pepo_USA_2011","Gates","observation","Bombus impatiens","species","bumblebees",0.00514184397163121,792,90,NA,"Abundance information refers to average flower visits (frequency). The number of bees visiting pumpkin flowers in each field was counted three times. In each round, three 88 m-long transects. Each transect was surveyed for 10 min. The total number of visits was divided by the total number of flowers to achieve a visitation frequency for each bee species per sampling round. Visitation frequencies were averaged across the three sampling rounds",NA
"Jessica_D_Petersen_Cucurbita_pepo_USA_2011","Fish","observation","Bombus impatiens","species","bumblebees",0.0241951172394589,792,90,NA,"Abundance information refers to average flower visits (frequency). The number of bees visiting pumpkin flowers in each field was counted three times. In each round, three 88 m-long transects. Each transect was surveyed for 10 min. The total number of visits was divided by the total number of flowers to achieve a visitation frequency for each bee species per sampling round. Visitation frequencies were averaged across the three sampling rounds",NA
"Jessica_D_Petersen_Cucurbita_pepo_USA_2011","Alpaca","observation","Bombus impatiens","species","bumblebees",0.00939761791139744,792,90,NA,"Abundance information refers to average flower visits (frequency). The number of bees visiting pumpkin flowers in each field was counted three times. In each round, three 88 m-long transects. Each transect was surveyed for 10 min. The total number of visits was divided by the total number of flowers to achieve a visitation frequency for each bee species per sampling round. Visitation frequencies were averaged across the three sampling rounds",NA
"Jessica_D_Petersen_Cucurbita_pepo_USA_2011","Tim2","observation","Lasioglossum (Dialictus) ephialtum","species","other_wild_bees",0.000799360511590728,792,90,NA,"Abundance information refers to average flower visits (frequency). The number of bees visiting pumpkin flowers in each field was counted three times. In each round, three 88 m-long transects. Each transect was surveyed for 10 min. The total number of visits was divided by the total number of flowers to achieve a visitation frequency for each bee species per sampling round. Visitation frequencies were averaged across the three sampling rounds",NA
"Jessica_D_Petersen_Cucurbita_pepo_USA_2011","Hz2","observation","Lasioglossum (Dialictus) mitchelli","species","other_wild_bees",0.000603864734299517,792,90,NA,"Abundance information refers to average flower visits (frequency). The number of bees visiting pumpkin flowers in each field was counted three times. In each round, three 88 m-long transects. Each transect was surveyed for 10 min. The total number of visits was divided by the total number of flowers to achieve a visitation frequency for each bee species per sampling round. Visitation frequencies were averaged across the three sampling rounds",NA
"Jessica_D_Petersen_Cucurbita_pepo_USA_2011","HWY251","observation","Lasioglossum (Dialictus) mitchelli","species","other_wild_bees",0.000507356671740233,792,90,NA,"Abundance information refers to average flower visits (frequency). The number of bees visiting pumpkin flowers in each field was counted three times. In each round, three 88 m-long transects. Each transect was surveyed for 10 min. The total number of visits was divided by the total number of flowers to achieve a visitation frequency for each bee species per sampling round. Visitation frequencies were averaged across the three sampling rounds",NA
"Jessica_D_Petersen_Cucurbita_pepo_USA_2011","GroMoore","observation","Lasioglossum (Dialictus) pilosum","species","other_wild_bees",0.000816993464052288,792,90,NA,"Abundance information refers to average flower visits (frequency). The number of bees visiting pumpkin flowers in each field was counted three times. In each round, three 88 m-long transects. Each transect was surveyed for 10 min. The total number of visits was divided by the total number of flowers to achieve a visitation frequency for each bee species per sampling round. Visitation frequencies were averaged across the three sampling rounds",NA
"Jessica_D_Petersen_Cucurbita_pepo_USA_2011","Gates","observation","Lasioglossum (Dialictus) pilosum","species","other_wild_bees",0.00444444444444444,792,90,NA,"Abundance information refers to average flower visits (frequency). The number of bees visiting pumpkin flowers in each field was counted three times. In each round, three 88 m-long transects. Each transect was surveyed for 10 min. The total number of visits was divided by the total number of flowers to achieve a visitation frequency for each bee species per sampling round. Visitation frequencies were averaged across the three sampling rounds",NA
"Jessica_D_Petersen_Cucurbita_pepo_USA_2011","P316","observation","Lasioglossum (Dialictus) versatum","species","other_wild_bees",0.003003003003003,792,90,NA,"Abundance information refers to average flower visits (frequency). The number of bees visiting pumpkin flowers in each field was counted three times. In each round, three 88 m-long transects. Each transect was surveyed for 10 min. The total number of visits was divided by the total number of flowers to achieve a visitation frequency for each bee species per sampling round. Visitation frequencies were averaged across the three sampling rounds",NA
"Jessica_D_Petersen_Cucurbita_pepo_USA_2011","HWY251","observation","Lasioglossum (Dialictus) versatum","species","other_wild_bees",0.00101471334348047,792,90,NA,"Abundance information refers to average flower visits (frequency). The number of bees visiting pumpkin flowers in each field was counted three times. In each round, three 88 m-long transects. Each transect was surveyed for 10 min. The total number of visits was divided by the total number of flowers to achieve a visitation frequency for each bee species per sampling round. Visitation frequencies were averaged across the three sampling rounds",NA
"Jessica_D_Petersen_Cucurbita_pepo_USA_2011","P34","observation","Lasioglossum (Dialictus) zephyrum","species","other_wild_bees",0.00255427841634738,792,90,NA,"Abundance information refers to average flower visits (frequency). The number of bees visiting pumpkin flowers in each field was counted three times. In each round, three 88 m-long transects. Each transect was surveyed for 10 min. The total number of visits was divided by the total number of flowers to achieve a visitation frequency for each bee species per sampling round. Visitation frequencies were averaged across the three sampling rounds",NA
"Jessica_D_Petersen_Cucurbita_pepo_USA_2011","Tim1","observation","Lasioglossum (Lasioglossum) zonulum","species","other_wild_bees",0.000903342366757001,792,90,NA,"Abundance information refers to average flower visits (frequency). The number of bees visiting pumpkin flowers in each field was counted three times. In each round, three 88 m-long transects. Each transect was surveyed for 10 min. The total number of visits was divided by the total number of flowers to achieve a visitation frequency for each bee species per sampling round. Visitation frequencies were averaged across the three sampling rounds",NA
"Jessica_D_Petersen_Cucurbita_pepo_USA_2011","Fish","observation","Lasioglossum (Lasioglossum) zonulum","species","other_wild_bees",0.00142450142450142,792,90,NA,"Abundance information refers to average flower visits (frequency). The number of bees visiting pumpkin flowers in each field was counted three times. In each round, three 88 m-long transects. Each transect was surveyed for 10 min. The total number of visits was divided by the total number of flowers to achieve a visitation frequency for each bee species per sampling round. Visitation frequencies were averaged across the three sampling rounds",NA
"Jessica_D_Petersen_Cucurbita_pepo_USA_2011","Wickham","observation","Melissodes bimaculata","species","other_wild_bees",0.000871459694989107,792,90,NA,"Abundance information refers to average flower visits (frequency). The number of bees visiting pumpkin flowers in each field was counted three times. In each round, three 88 m-long transects. Each transect was surveyed for 10 min. The total number of visits was divided by the total number of flowers to achieve a visitation frequency for each bee species per sampling round. Visitation frequencies were averaged across the three sampling rounds",NA
"Jessica_D_Petersen_Cucurbita_pepo_USA_2011","Tomion","observation","Melissodes bimaculata","species","other_wild_bees",0.00169012274275432,792,90,NA,"Abundance information refers to average flower visits (frequency). The number of bees visiting pumpkin flowers in each field was counted three times. In each round, three 88 m-long transects. Each transect was surveyed for 10 min. The total number of visits was divided by the total number of flowers to achieve a visitation frequency for each bee species per sampling round. Visitation frequencies were averaged across the three sampling rounds",NA
"Jessica_D_Petersen_Cucurbita_pepo_USA_2011","Tim1","observation","Melissodes bimaculata","species","other_wild_bees",0.00382731897494414,792,90,NA,"Abundance information refers to average flower visits (frequency). The number of bees visiting pumpkin flowers in each field was counted three times. In each round, three 88 m-long transects. Each transect was surveyed for 10 min. The total number of visits was divided by the total number of flowers to achieve a visitation frequency for each bee species per sampling round. Visitation frequencies were averaged across the three sampling rounds",NA
"Jessica_D_Petersen_Cucurbita_pepo_USA_2011","RN","observation","Melissodes bimaculata","species","other_wild_bees",0.00278148312830394,792,90,NA,"Abundance information refers to average flower visits (frequency). The number of bees visiting pumpkin flowers in each field was counted three times. In each round, three 88 m-long transects. Each transect was surveyed for 10 min. The total number of visits was divided by the total number of flowers to achieve a visitation frequency for each bee species per sampling round. Visitation frequencies were averaged across the three sampling rounds",NA
"Jessica_D_Petersen_Cucurbita_pepo_USA_2011","P34","observation","Melissodes bimaculata","species","other_wild_bees",0.00127713920817369,792,90,NA,"Abundance information refers to average flower visits (frequency). The number of bees visiting pumpkin flowers in each field was counted three times. In each round, three 88 m-long transects. Each transect was surveyed for 10 min. The total number of visits was divided by the total number of flowers to achieve a visitation frequency for each bee species per sampling round. Visitation frequencies were averaged across the three sampling rounds",NA
"Jessica_D_Petersen_Cucurbita_pepo_USA_2011","P316","observation","Melissodes bimaculata","species","other_wild_bees",0.00070323488045007,792,90,NA,"Abundance information refers to average flower visits (frequency). The number of bees visiting pumpkin flowers in each field was counted three times. In each round, three 88 m-long transects. Each transect was surveyed for 10 min. The total number of visits was divided by the total number of flowers to achieve a visitation frequency for each bee species per sampling round. Visitation frequencies were averaged across the three sampling rounds",NA
"Jessica_D_Petersen_Cucurbita_pepo_USA_2011","P10","observation","Melissodes bimaculata","species","other_wild_bees",0.00113378684807256,792,90,NA,"Abundance information refers to average flower visits (frequency). The number of bees visiting pumpkin flowers in each field was counted three times. In each round, three 88 m-long transects. Each transect was surveyed for 10 min. The total number of visits was divided by the total number of flowers to achieve a visitation frequency for each bee species per sampling round. Visitation frequencies were averaged across the three sampling rounds",NA
"Jessica_D_Petersen_Cucurbita_pepo_USA_2011","Meadville","observation","Melissodes bimaculata","species","other_wild_bees",0.00308641975308642,792,90,NA,"Abundance information refers to average flower visits (frequency). The number of bees visiting pumpkin flowers in each field was counted three times. In each round, three 88 m-long transects. Each transect was surveyed for 10 min. The total number of visits was divided by the total number of flowers to achieve a visitation frequency for each bee species per sampling round. Visitation frequencies were averaged across the three sampling rounds",NA
"Jessica_D_Petersen_Cucurbita_pepo_USA_2011","Magog","observation","Melissodes bimaculata","species","other_wild_bees",0.00237106265143648,792,90,NA,"Abundance information refers to average flower visits (frequency). The number of bees visiting pumpkin flowers in each field was counted three times. In each round, three 88 m-long transects. Each transect was surveyed for 10 min. The total number of visits was divided by the total number of flowers to achieve a visitation frequency for each bee species per sampling round. Visitation frequencies were averaged across the three sampling rounds",NA
"Jessica_D_Petersen_Cucurbita_pepo_USA_2011","HWY251","observation","Melissodes bimaculata","species","other_wild_bees",0.0015757327401163,792,90,NA,"Abundance information refers to average flower visits (frequency). The number of bees visiting pumpkin flowers in each field was counted three times. In each round, three 88 m-long transects. Each transect was surveyed for 10 min. The total number of visits was divided by the total number of flowers to achieve a visitation frequency for each bee species per sampling round. Visitation frequencies were averaged across the three sampling rounds",NA
"Jessica_D_Petersen_Cucurbita_pepo_USA_2011","GroMoore","observation","Melissodes bimaculata","species","other_wild_bees",0.00267225581850202,792,90,NA,"Abundance information refers to average flower visits (frequency). The number of bees visiting pumpkin flowers in each field was counted three times. In each round, three 88 m-long transects. Each transect was surveyed for 10 min. The total number of visits was divided by the total number of flowers to achieve a visitation frequency for each bee species per sampling round. Visitation frequencies were averaged across the three sampling rounds",NA
"Jessica_D_Petersen_Cucurbita_pepo_USA_2011","Gates","observation","Melissodes bimaculata","species","other_wild_bees",0.0167230605364812,792,90,NA,"Abundance information refers to average flower visits (frequency). The number of bees visiting pumpkin flowers in each field was counted three times. In each round, three 88 m-long transects. Each transect was surveyed for 10 min. The total number of visits was divided by the total number of flowers to achieve a visitation frequency for each bee species per sampling round. Visitation frequencies were averaged across the three sampling rounds",NA
"Jessica_D_Petersen_Cucurbita_pepo_USA_2011","Fish","observation","Melissodes bimaculata","species","other_wild_bees",0.00580698449346133,792,90,NA,"Abundance information refers to average flower visits (frequency). The number of bees visiting pumpkin flowers in each field was counted three times. In each round, three 88 m-long transects. Each transect was surveyed for 10 min. The total number of visits was divided by the total number of flowers to achieve a visitation frequency for each bee species per sampling round. Visitation frequencies were averaged across the three sampling rounds",NA
"Jessica_D_Petersen_Cucurbita_pepo_USA_2011","Wickham","observation","Peponapis pruniosa","species","other_wild_bees",0.0296112194868729,792,90,NA,"Abundance information refers to average flower visits (frequency). The number of bees visiting pumpkin flowers in each field was counted three times. In each round, three 88 m-long transects. Each transect was surveyed for 10 min. The total number of visits was divided by the total number of flowers to achieve a visitation frequency for each bee species per sampling round. Visitation frequencies were averaged across the three sampling rounds",NA
"Jessica_D_Petersen_Cucurbita_pepo_USA_2011","Tomion","observation","Peponapis pruniosa","species","other_wild_bees",0.0120204560426598,792,90,NA,"Abundance information refers to average flower visits (frequency). The number of bees visiting pumpkin flowers in each field was counted three times. In each round, three 88 m-long transects. Each transect was surveyed for 10 min. The total number of visits was divided by the total number of flowers to achieve a visitation frequency for each bee species per sampling round. Visitation frequencies were averaged across the three sampling rounds",NA
"Jessica_D_Petersen_Cucurbita_pepo_USA_2011","Tim3","observation","Peponapis pruniosa","species","other_wild_bees",0.513474453807911,792,90,NA,"Abundance information refers to average flower visits (frequency). The number of bees visiting pumpkin flowers in each field was counted three times. In each round, three 88 m-long transects. Each transect was surveyed for 10 min. The total number of visits was divided by the total number of flowers to achieve a visitation frequency for each bee species per sampling round. Visitation frequencies were averaged across the three sampling rounds",NA
"Jessica_D_Petersen_Cucurbita_pepo_USA_2011","Tim2","observation","Peponapis pruniosa","species","other_wild_bees",0.0319171310507807,792,90,NA,"Abundance information refers to average flower visits (frequency). The number of bees visiting pumpkin flowers in each field was counted three times. In each round, three 88 m-long transects. Each transect was surveyed for 10 min. The total number of visits was divided by the total number of flowers to achieve a visitation frequency for each bee species per sampling round. Visitation frequencies were averaged across the three sampling rounds",NA
"Jessica_D_Petersen_Cucurbita_pepo_USA_2011","Tim1","observation","Peponapis pruniosa","species","other_wild_bees",0.151738327175978,792,90,NA,"Abundance information refers to average flower visits (frequency). The number of bees visiting pumpkin flowers in each field was counted three times. In each round, three 88 m-long transects. Each transect was surveyed for 10 min. The total number of visits was divided by the total number of flowers to achieve a visitation frequency for each bee species per sampling round. Visitation frequencies were averaged across the three sampling rounds",NA
"Jessica_D_Petersen_Cucurbita_pepo_USA_2011","RS","observation","Peponapis pruniosa","species","other_wild_bees",0.00403508771929825,792,90,NA,"Abundance information refers to average flower visits (frequency). The number of bees visiting pumpkin flowers in each field was counted three times. In each round, three 88 m-long transects. Each transect was surveyed for 10 min. The total number of visits was divided by the total number of flowers to achieve a visitation frequency for each bee species per sampling round. Visitation frequencies were averaged across the three sampling rounds",NA
"Jessica_D_Petersen_Cucurbita_pepo_USA_2011","RN","observation","Peponapis pruniosa","species","other_wild_bees",0.0123005288747314,792,90,NA,"Abundance information refers to average flower visits (frequency). The number of bees visiting pumpkin flowers in each field was counted three times. In each round, three 88 m-long transects. Each transect was surveyed for 10 min. The total number of visits was divided by the total number of flowers to achieve a visitation frequency for each bee species per sampling round. Visitation frequencies were averaged across the three sampling rounds",NA
"Jessica_D_Petersen_Cucurbita_pepo_USA_2011","RidgeChapel","observation","Peponapis pruniosa","species","other_wild_bees",0.0212983750520744,792,90,NA,"Abundance information refers to average flower visits (frequency). The number of bees visiting pumpkin flowers in each field was counted three times. In each round, three 88 m-long transects. Each transect was surveyed for 10 min. The total number of visits was divided by the total number of flowers to achieve a visitation frequency for each bee species per sampling round. Visitation frequencies were averaged across the three sampling rounds",NA
"Jessica_D_Petersen_Cucurbita_pepo_USA_2011","P382","observation","Peponapis pruniosa","species","other_wild_bees",0.042986214819095,792,90,NA,"Abundance information refers to average flower visits (frequency). The number of bees visiting pumpkin flowers in each field was counted three times. In each round, three 88 m-long transects. Each transect was surveyed for 10 min. The total number of visits was divided by the total number of flowers to achieve a visitation frequency for each bee species per sampling round. Visitation frequencies were averaged across the three sampling rounds",NA
"Jessica_D_Petersen_Cucurbita_pepo_USA_2011","P34","observation","Peponapis pruniosa","species","other_wild_bees",0.0563812875621432,792,90,NA,"Abundance information refers to average flower visits (frequency). The number of bees visiting pumpkin flowers in each field was counted three times. In each round, three 88 m-long transects. Each transect was surveyed for 10 min. The total number of visits was divided by the total number of flowers to achieve a visitation frequency for each bee species per sampling round. Visitation frequencies were averaged across the three sampling rounds",NA
"Jessica_D_Petersen_Cucurbita_pepo_USA_2011","P316","observation","Peponapis pruniosa","species","other_wild_bees",0.00393700385495979,792,90,NA,"Abundance information refers to average flower visits (frequency). The number of bees visiting pumpkin flowers in each field was counted three times. In each round, three 88 m-long transects. Each transect was surveyed for 10 min. The total number of visits was divided by the total number of flowers to achieve a visitation frequency for each bee species per sampling round. Visitation frequencies were averaged across the three sampling rounds",NA
"Jessica_D_Petersen_Cucurbita_pepo_USA_2011","P105","observation","Peponapis pruniosa","species","other_wild_bees",0.0497772729565752,792,90,NA,"Abundance information refers to average flower visits (frequency). The number of bees visiting pumpkin flowers in each field was counted three times. In each round, three 88 m-long transects. Each transect was surveyed for 10 min. The total number of visits was divided by the total number of flowers to achieve a visitation frequency for each bee species per sampling round. Visitation frequencies were averaged across the three sampling rounds",NA
"Jessica_D_Petersen_Cucurbita_pepo_USA_2011","P10","observation","Peponapis pruniosa","species","other_wild_bees",0.0127503380073391,792,90,NA,"Abundance information refers to average flower visits (frequency). The number of bees visiting pumpkin flowers in each field was counted three times. In each round, three 88 m-long transects. Each transect was surveyed for 10 min. The total number of visits was divided by the total number of flowers to achieve a visitation frequency for each bee species per sampling round. Visitation frequencies were averaged across the three sampling rounds",NA
"Jessica_D_Petersen_Cucurbita_pepo_USA_2011","Meadville","observation","Peponapis pruniosa","species","other_wild_bees",0.0150968831921685,792,90,NA,"Abundance information refers to average flower visits (frequency). The number of bees visiting pumpkin flowers in each field was counted three times. In each round, three 88 m-long transects. Each transect was surveyed for 10 min. The total number of visits was divided by the total number of flowers to achieve a visitation frequency for each bee species per sampling round. Visitation frequencies were averaged across the three sampling rounds",NA
"Jessica_D_Petersen_Cucurbita_pepo_USA_2011","Mason","observation","Peponapis pruniosa","species","other_wild_bees",0.0473204322531651,792,90,NA,"Abundance information refers to average flower visits (frequency). The number of bees visiting pumpkin flowers in each field was counted three times. In each round, three 88 m-long transects. Each transect was surveyed for 10 min. The total number of visits was divided by the total number of flowers to achieve a visitation frequency for each bee species per sampling round. Visitation frequencies were averaged across the three sampling rounds",NA
"Jessica_D_Petersen_Cucurbita_pepo_USA_2011","Magog","observation","Peponapis pruniosa","species","other_wild_bees",0.300280335689993,792,90,NA,"Abundance information refers to average flower visits (frequency). The number of bees visiting pumpkin flowers in each field was counted three times. In each round, three 88 m-long transects. Each transect was surveyed for 10 min. The total number of visits was divided by the total number of flowers to achieve a visitation frequency for each bee species per sampling round. Visitation frequencies were averaged across the three sampling rounds",NA
"Jessica_D_Petersen_Cucurbita_pepo_USA_2011","Macs","observation","Peponapis pruniosa","species","other_wild_bees",0.00164932206878451,792,90,NA,"Abundance information refers to average flower visits (frequency). The number of bees visiting pumpkin flowers in each field was counted three times. In each round, three 88 m-long transects. Each transect was surveyed for 10 min. The total number of visits was divided by the total number of flowers to achieve a visitation frequency for each bee species per sampling round. Visitation frequencies were averaged across the three sampling rounds",NA
"Jessica_D_Petersen_Cucurbita_pepo_USA_2011","Ma6","observation","Peponapis pruniosa","species","other_wild_bees",0.014188021582313,792,90,NA,"Abundance information refers to average flower visits (frequency). The number of bees visiting pumpkin flowers in each field was counted three times. In each round, three 88 m-long transects. Each transect was surveyed for 10 min. The total number of visits was divided by the total number of flowers to achieve a visitation frequency for each bee species per sampling round. Visitation frequencies were averaged across the three sampling rounds",NA
"Jessica_D_Petersen_Cucurbita_pepo_USA_2011","Hz2","observation","Peponapis pruniosa","species","other_wild_bees",0.0113346123066796,792,90,NA,"Abundance information refers to average flower visits (frequency). The number of bees visiting pumpkin flowers in each field was counted three times. In each round, three 88 m-long transects. Each transect was surveyed for 10 min. The total number of visits was divided by the total number of flowers to achieve a visitation frequency for each bee species per sampling round. Visitation frequencies were averaged across the three sampling rounds",NA
"Jessica_D_Petersen_Cucurbita_pepo_USA_2011","HWY251","observation","Peponapis pruniosa","species","other_wild_bees",0.038821192519339,792,90,NA,"Abundance information refers to average flower visits (frequency). The number of bees visiting pumpkin flowers in each field was counted three times. In each round, three 88 m-long transects. Each transect was surveyed for 10 min. The total number of visits was divided by the total number of flowers to achieve a visitation frequency for each bee species per sampling round. Visitation frequencies were averaged across the three sampling rounds",NA
"Jessica_D_Petersen_Cucurbita_pepo_USA_2011","GroMoore","observation","Peponapis pruniosa","species","other_wild_bees",0.0430142647049739,792,90,NA,"Abundance information refers to average flower visits (frequency). The number of bees visiting pumpkin flowers in each field was counted three times. In each round, three 88 m-long transects. Each transect was surveyed for 10 min. The total number of visits was divided by the total number of flowers to achieve a visitation frequency for each bee species per sampling round. Visitation frequencies were averaged across the three sampling rounds",NA
"Jessica_D_Petersen_Cucurbita_pepo_USA_2011","Gates","observation","Peponapis pruniosa","species","other_wild_bees",0.0565712407540055,792,90,NA,"Abundance information refers to average flower visits (frequency). The number of bees visiting pumpkin flowers in each field was counted three times. In each round, three 88 m-long transects. Each transect was surveyed for 10 min. The total number of visits was divided by the total number of flowers to achieve a visitation frequency for each bee species per sampling round. Visitation frequencies were averaged across the three sampling rounds",NA
"Jessica_D_Petersen_Cucurbita_pepo_USA_2011","Fish","observation","Peponapis pruniosa","species","other_wild_bees",0.0658058650622428,792,90,NA,"Abundance information refers to average flower visits (frequency). The number of bees visiting pumpkin flowers in each field was counted three times. In each round, three 88 m-long transects. Each transect was surveyed for 10 min. The total number of visits was divided by the total number of flowers to achieve a visitation frequency for each bee species per sampling round. Visitation frequencies were averaged across the three sampling rounds",NA
"Jessica_D_Petersen_Cucurbita_pepo_USA_2011","Alpaca","observation","Peponapis pruniosa","species","other_wild_bees",0.0105840232919301,792,90,NA,"Abundance information refers to average flower visits (frequency). The number of bees visiting pumpkin flowers in each field was counted three times. In each round, three 88 m-long transects. Each transect was surveyed for 10 min. The total number of visits was divided by the total number of flowers to achieve a visitation frequency for each bee species per sampling round. Visitation frequencies were averaged across the three sampling rounds",NA
"Jessica_D_Petersen_Cucurbita_pepo_USA_2011","Alpaca","observation","Triepeolus remigatus","species","other_wild_bees",0.000974658869395711,792,90,NA,"Abundance information refers to average flower visits (frequency). The number of bees visiting pumpkin flowers in each field was counted three times. In each round, three 88 m-long transects. Each transect was surveyed for 10 min. The total number of visits was divided by the total number of flowers to achieve a visitation frequency for each bee species per sampling round. Visitation frequencies were averaged across the three sampling rounds",NA
"Johan_Ekroos_Vicia_faba_Sweden_2016","L1763","transect counts","Bombus pascuorum","species","bumblebees",1,300,NA,NA,"4 potted field bean plants per landscape; 100 m transect counts for pollinator densities.	3 sampling rounds (pollinators)",NA
"Johan_Ekroos_Vicia_faba_Sweden_2016","L3274","transect counts","Bombus hypnorum","species","bumblebees",6,300,NA,NA,"4 potted field bean plants per landscape; 100 m transect counts for pollinator densities.	3 sampling rounds (pollinators)",NA
"Johan_Ekroos_Vicia_faba_Sweden_2016","L3274","transect counts","Bombus lapidarius","species","bumblebees",3,300,NA,NA,"4 potted field bean plants per landscape; 100 m transect counts for pollinator densities.	3 sampling rounds (pollinators)",NA
"Johan_Ekroos_Vicia_faba_Sweden_2016","L3274","transect counts","Bombus terrestris/lucorum","species","bumblebees",1,300,NA,NA,"4 potted field bean plants per landscape; 100 m transect counts for pollinator densities.	3 sampling rounds (pollinators)",NA
"Johan_Ekroos_Vicia_faba_Sweden_2016","L3274","transect counts","Bombus sylvarum","species","bumblebees",1,300,NA,NA,"4 potted field bean plants per landscape; 100 m transect counts for pollinator densities.	3 sampling rounds (pollinators)",NA
"Johan_Ekroos_Vicia_faba_Sweden_2016","L3274","transect counts","Bombus sp","genera","bumblebees",2,300,NA,NA,"4 potted field bean plants per landscape; 100 m transect counts for pollinator densities.	3 sampling rounds (pollinators)",NA
"Johan_Ekroos_Vicia_faba_Sweden_2016","M1444","transect counts","Bombus lapidarius","species","bumblebees",3,300,NA,NA,"4 potted field bean plants per landscape; 100 m transect counts for pollinator densities.	3 sampling rounds (pollinators)",NA
"Johan_Ekroos_Vicia_faba_Sweden_2016","M16814","transect counts","Bombus sylvarum","species","bumblebees",1,300,NA,NA,"4 potted field bean plants per landscape; 100 m transect counts for pollinator densities.	3 sampling rounds (pollinators)",NA
"Johan_Ekroos_Vicia_faba_Sweden_2016","M3398","transect counts","Bombus lapidarius","species","bumblebees",4,300,NA,NA,"4 potted field bean plants per landscape; 100 m transect counts for pollinator densities.	3 sampling rounds (pollinators)",NA
"Johan_Ekroos_Vicia_faba_Sweden_2016","M3398","transect counts","Bombus terrestris/lucorum","species","bumblebees",2,300,NA,NA,"4 potted field bean plants per landscape; 100 m transect counts for pollinator densities.	3 sampling rounds (pollinators)",NA
"Johan_Ekroos_Vicia_faba_Sweden_2016","M3398","transect counts","Bombus ruderarius","species","bumblebees",1,300,NA,NA,"4 potted field bean plants per landscape; 100 m transect counts for pollinator densities.	3 sampling rounds (pollinators)",NA
"Johan_Ekroos_Vicia_faba_Sweden_2016","M3398","transect counts","Bombus sylvarum","species","bumblebees",3,300,NA,NA,"4 potted field bean plants per landscape; 100 m transect counts for pollinator densities.	3 sampling rounds (pollinators)",NA
"Johan_Ekroos_Vicia_faba_Sweden_2016","M3398","transect counts","Bombus sp","genera","bumblebees",5,300,NA,NA,"4 potted field bean plants per landscape; 100 m transect counts for pollinator densities.	3 sampling rounds (pollinators)",NA
"Johan_Ekroos_Vicia_faba_Sweden_2016","M3655","transect counts","Bombus hortorum","species","bumblebees",1,300,NA,NA,"4 potted field bean plants per landscape; 100 m transect counts for pollinator densities.	3 sampling rounds (pollinators)",NA
"Johan_Ekroos_Vicia_faba_Sweden_2016","M3655","transect counts","Bombus lapidarius","species","bumblebees",1,300,NA,NA,"4 potted field bean plants per landscape; 100 m transect counts for pollinator densities.	3 sampling rounds (pollinators)",NA
"Johan_Ekroos_Vicia_faba_Sweden_2016","M3655","transect counts","Bombus terrestris/lucorum","species","bumblebees",2,300,NA,NA,"4 potted field bean plants per landscape; 100 m transect counts for pollinator densities.	3 sampling rounds (pollinators)",NA
"Johan_Ekroos_Vicia_faba_Sweden_2016","M3655","transect counts","Bombus sp","genera","bumblebees",2,300,NA,NA,"4 potted field bean plants per landscape; 100 m transect counts for pollinator densities.	3 sampling rounds (pollinators)",NA
"Johan_Ekroos_Vicia_faba_Sweden_2016","M3801","transect counts","Bombus hortorum","species","bumblebees",6,300,NA,NA,"4 potted field bean plants per landscape; 100 m transect counts for pollinator densities.	3 sampling rounds (pollinators)",NA
"Johan_Ekroos_Vicia_faba_Sweden_2016","M3801","transect counts","Bombus lapidarius","species","bumblebees",5,300,NA,NA,"4 potted field bean plants per landscape; 100 m transect counts for pollinator densities.	3 sampling rounds (pollinators)",NA
"Johan_Ekroos_Vicia_faba_Sweden_2016","M3801","transect counts","Bombus pascuorum","species","bumblebees",2,300,NA,NA,"4 potted field bean plants per landscape; 100 m transect counts for pollinator densities.	3 sampling rounds (pollinators)",NA
"Johan_Ekroos_Vicia_faba_Sweden_2016","M3801","transect counts","Bombus terrestris/lucorum","species","bumblebees",11,300,NA,NA,"4 potted field bean plants per landscape; 100 m transect counts for pollinator densities.	3 sampling rounds (pollinators)",NA
"Johan_Ekroos_Vicia_faba_Sweden_2016","M3801","transect counts","Bombus sylvarum","species","bumblebees",5,300,NA,NA,"4 potted field bean plants per landscape; 100 m transect counts for pollinator densities.	3 sampling rounds (pollinators)",NA
"Johan_Ekroos_Vicia_faba_Sweden_2016","M3801","transect counts","Bombus sp","genera","bumblebees",3,300,NA,NA,"4 potted field bean plants per landscape; 100 m transect counts for pollinator densities.	3 sampling rounds (pollinators)",NA
"Johan_Ekroos_Vicia_faba_Sweden_2016","M5978","transect counts","Bombus bohemicus","species","bumblebees",1,300,NA,NA,"4 potted field bean plants per landscape; 100 m transect counts for pollinator densities.	3 sampling rounds (pollinators)",NA
"Johan_Ekroos_Vicia_faba_Sweden_2016","M5978","transect counts","Bombus hortorum","species","bumblebees",3,300,NA,NA,"4 potted field bean plants per landscape; 100 m transect counts for pollinator densities.	3 sampling rounds (pollinators)",NA
"Johan_Ekroos_Vicia_faba_Sweden_2016","M5978","transect counts","Bombus humilis","species","bumblebees",1,300,NA,NA,"4 potted field bean plants per landscape; 100 m transect counts for pollinator densities.	3 sampling rounds (pollinators)",NA
"Johan_Ekroos_Vicia_faba_Sweden_2016","M5978","transect counts","Bombus lapidarius","species","bumblebees",2,300,NA,NA,"4 potted field bean plants per landscape; 100 m transect counts for pollinator densities.	3 sampling rounds (pollinators)",NA
"Johan_Ekroos_Vicia_faba_Sweden_2016","M5978","transect counts","Bombus pascuorum","species","bumblebees",1,300,NA,NA,"4 potted field bean plants per landscape; 100 m transect counts for pollinator densities.	3 sampling rounds (pollinators)",NA
"Johan_Ekroos_Vicia_faba_Sweden_2016","M5978","transect counts","Bombus terrestris/lucorum","species","bumblebees",9,300,NA,NA,"4 potted field bean plants per landscape; 100 m transect counts for pollinator densities.	3 sampling rounds (pollinators)",NA
"Johan_Ekroos_Vicia_faba_Sweden_2016","M5978","transect counts","Bombus sylvarum","species","bumblebees",12,300,NA,NA,"4 potted field bean plants per landscape; 100 m transect counts for pollinator densities.	3 sampling rounds (pollinators)",NA
"Johan_Ekroos_Vicia_faba_Sweden_2016","M5980","transect counts","Bombus pascuorum","species","bumblebees",1,300,NA,NA,"4 potted field bean plants per landscape; 100 m transect counts for pollinator densities.	3 sampling rounds (pollinators)",NA
"Johan_Ekroos_Vicia_faba_Sweden_2016","M5980","transect counts","Bombus sylvarum","species","bumblebees",2,300,NA,NA,"4 potted field bean plants per landscape; 100 m transect counts for pollinator densities.	3 sampling rounds (pollinators)",NA
"Johan_Ekroos_Vicia_faba_Sweden_2016","M5980","transect counts","Bombus sp","genera","bumblebees",1,300,NA,NA,"4 potted field bean plants per landscape; 100 m transect counts for pollinator densities.	3 sampling rounds (pollinators)",NA
"Johan_Ekroos_Vicia_faba_Sweden_2016","M6471","transect counts","Bombus pascuorum","species","bumblebees",1,300,NA,NA,"4 potted field bean plants per landscape; 100 m transect counts for pollinator densities.	3 sampling rounds (pollinators)",NA
"Johan_Ekroos_Vicia_faba_Sweden_2016","M6516","transect counts","Bombus hortorum","species","bumblebees",5,300,NA,NA,"4 potted field bean plants per landscape; 100 m transect counts for pollinator densities.	3 sampling rounds (pollinators)",NA
"Johan_Ekroos_Vicia_faba_Sweden_2016","M6516","transect counts","Bombus lapidarius","species","bumblebees",4,300,NA,NA,"4 potted field bean plants per landscape; 100 m transect counts for pollinator densities.	3 sampling rounds (pollinators)",NA
"Johan_Ekroos_Vicia_faba_Sweden_2016","M6516","transect counts","Bombus terrestris/lucorum","species","bumblebees",2,300,NA,NA,"4 potted field bean plants per landscape; 100 m transect counts for pollinator densities.	3 sampling rounds (pollinators)",NA
"Johan_Ekroos_Vicia_faba_Sweden_2016","M6516","transect counts","Bombus subterraneus","species","bumblebees",1,300,NA,NA,"4 potted field bean plants per landscape; 100 m transect counts for pollinator densities.	3 sampling rounds (pollinators)",NA
"Johan_Ekroos_Vicia_faba_Sweden_2016","M6516","transect counts","Bombus sp","genera","bumblebees",3,300,NA,NA,"4 potted field bean plants per landscape; 100 m transect counts for pollinator densities.	3 sampling rounds (pollinators)",NA
"Johan_Ekroos_Vicia_faba_Sweden_2016","M6625","transect counts","Bombus hypnorum","species","bumblebees",1,300,NA,NA,"4 potted field bean plants per landscape; 100 m transect counts for pollinator densities.	3 sampling rounds (pollinators)",NA
"Johan_Ekroos_Vicia_faba_Sweden_2016","M6625","transect counts","Bombus terrestris/lucorum","species","bumblebees",1,300,NA,NA,"4 potted field bean plants per landscape; 100 m transect counts for pollinator densities.	3 sampling rounds (pollinators)",NA
"Johan_Ekroos_Vicia_faba_Sweden_2016","M6625","transect counts","Bombus sylvarum","species","bumblebees",1,300,NA,NA,"4 potted field bean plants per landscape; 100 m transect counts for pollinator densities.	3 sampling rounds (pollinators)",NA
"Johan_Ekroos_Vicia_faba_Sweden_2016","M7056","transect counts","Bombus hortorum","species","bumblebees",1,300,NA,NA,"4 potted field bean plants per landscape; 100 m transect counts for pollinator densities.	3 sampling rounds (pollinators)",NA
"Johan_Ekroos_Vicia_faba_Sweden_2016","M7056","transect counts","Bombus hypnorum","species","bumblebees",14,300,NA,NA,"4 potted field bean plants per landscape; 100 m transect counts for pollinator densities.	3 sampling rounds (pollinators)",NA
"Johan_Ekroos_Vicia_faba_Sweden_2016","M7056","transect counts","Bombus lapidarius","species","bumblebees",3,300,NA,NA,"4 potted field bean plants per landscape; 100 m transect counts for pollinator densities.	3 sampling rounds (pollinators)",NA
"Johan_Ekroos_Vicia_faba_Sweden_2016","M7056","transect counts","Bombus pascuorum","species","bumblebees",2,300,NA,NA,"4 potted field bean plants per landscape; 100 m transect counts for pollinator densities.	3 sampling rounds (pollinators)",NA
"Johan_Ekroos_Vicia_faba_Sweden_2016","M7056","transect counts","Bombus pratorum","species","bumblebees",3,300,NA,NA,"4 potted field bean plants per landscape; 100 m transect counts for pollinator densities.	3 sampling rounds (pollinators)",NA
"Johan_Ekroos_Vicia_faba_Sweden_2016","M7056","transect counts","Bombus terrestris/lucorum","species","bumblebees",5,300,NA,NA,"4 potted field bean plants per landscape; 100 m transect counts for pollinator densities.	3 sampling rounds (pollinators)",NA
"Johan_Ekroos_Vicia_faba_Sweden_2016","M7056","transect counts","Bombus sylvarum","species","bumblebees",7,300,NA,NA,"4 potted field bean plants per landscape; 100 m transect counts for pollinator densities.	3 sampling rounds (pollinators)",NA
"Johan_Ekroos_Vicia_faba_Sweden_2016","M7056","transect counts","Bombus sp","genera","bumblebees",10,300,NA,NA,"4 potted field bean plants per landscape; 100 m transect counts for pollinator densities.	3 sampling rounds (pollinators)",NA
"Johan_Ekroos_Vicia_faba_Sweden_2016","M8377","transect counts","Bombus lapidarius","species","bumblebees",2,300,NA,NA,"4 potted field bean plants per landscape; 100 m transect counts for pollinator densities.	3 sampling rounds (pollinators)",NA
"Johan_Ekroos_Vicia_faba_Sweden_2016","M8718","transect counts","Bombus lapidarius","species","bumblebees",1,300,NA,NA,"4 potted field bean plants per landscape; 100 m transect counts for pollinator densities.	3 sampling rounds (pollinators)",NA
"Johan_Ekroos_Vicia_faba_Sweden_2016","M8718","transect counts","Bombus pascuorum","species","bumblebees",7,300,NA,NA,"4 potted field bean plants per landscape; 100 m transect counts for pollinator densities.	3 sampling rounds (pollinators)",NA
"Johan_Ekroos_Vicia_faba_Sweden_2016","M8718","transect counts","Bombus terrestris/lucorum","species","bumblebees",1,300,NA,NA,"4 potted field bean plants per landscape; 100 m transect counts for pollinator densities.	3 sampling rounds (pollinators)",NA
"Johan_Ekroos_Vicia_faba_Sweden_2016","M8718","transect counts","Bombus sp","genera","bumblebees",2,300,NA,NA,"4 potted field bean plants per landscape; 100 m transect counts for pollinator densities.	3 sampling rounds (pollinators)",NA
"Johan_Ekroos_Vicia_faba_Sweden_2016","M8762","transect counts","Bombus lapidarius","species","bumblebees",2,300,NA,NA,"4 potted field bean plants per landscape; 100 m transect counts for pollinator densities.	3 sampling rounds (pollinators)",NA
"Johan_Ekroos_Vicia_faba_Sweden_2016","M8762","transect counts","Bombus pascuorum","species","bumblebees",2,300,NA,NA,"4 potted field bean plants per landscape; 100 m transect counts for pollinator densities.	3 sampling rounds (pollinators)",NA
"Johan_Ekroos_Vicia_faba_Sweden_2016","M8762","transect counts","Bombus pratorum","species","bumblebees",1,300,NA,NA,"4 potted field bean plants per landscape; 100 m transect counts for pollinator densities.	3 sampling rounds (pollinators)",NA
"Johan_Ekroos_Vicia_faba_Sweden_2016","M8762","transect counts","Bombus terrestris/lucorum","species","bumblebees",1,300,NA,NA,"4 potted field bean plants per landscape; 100 m transect counts for pollinator densities.	3 sampling rounds (pollinators)",NA
"Johan_Ekroos_Vicia_faba_Sweden_2016","M8762","transect counts","Bombus sp","genera","bumblebees",1,300,NA,NA,"4 potted field bean plants per landscape; 100 m transect counts for pollinator densities.	3 sampling rounds (pollinators)",NA
"Juliana_Hipolito_Coffea_arabica_Brazil_2013","C01","sweepnet","Apis mellifera","species","honeybees",10,200,40,120,"4 transects (25 m long) for 5 minutes each per plot. 2 sampling rounds in one season",NA
"Juliana_Hipolito_Coffea_arabica_Brazil_2013","C01","sweepnet","Lycidae","morphospecies","beetles",1,200,40,120,"4 transects (25 m long) for 5 minutes each per plot. 2 sampling rounds in one season",NA
"Juliana_Hipolito_Coffea_arabica_Brazil_2013","C02","sweepnet","Augochloropsis sp.1","genera","other_wild_bees",1,200,40,120,"4 transects (25 m long) for 5 minutes each per plot. 2 sampling rounds in one season",NA
"Juliana_Hipolito_Coffea_arabica_Brazil_2013","C03","sweepnet","Cerambycidae","morphospecies","beetles",1,200,40,120,"4 transects (25 m long) for 5 minutes each per plot. 2 sampling rounds in one season",NA
"Juliana_Hipolito_Coffea_arabica_Brazil_2013","C04","sweepnet","Chrysomelidae","morphospecies","beetles",3,200,40,120,"4 transects (25 m long) for 5 minutes each per plot. 2 sampling rounds in one season",NA
"Juliana_Hipolito_Coffea_arabica_Brazil_2013","C04","sweepnet","Crabronidae sp1","morphospecies","non_bee_hymenoptera",1,200,40,120,"4 transects (25 m long) for 5 minutes each per plot. 2 sampling rounds in one season",NA
"Juliana_Hipolito_Coffea_arabica_Brazil_2013","C04","sweepnet","Ripiphoridae","morphospecies","beetles",1,200,40,120,"4 transects (25 m long) for 5 minutes each per plot. 2 sampling rounds in one season",NA
"Juliana_Hipolito_Coffea_arabica_Brazil_2013","C05","sweepnet","Apis mellifera","species","honeybees",22,200,40,120,"4 transects (25 m long) for 5 minutes each per plot. 2 sampling rounds in one season",NA
"Juliana_Hipolito_Coffea_arabica_Brazil_2013","C05","sweepnet","Asilidae","morphospecies","other_flies",1,200,40,120,"4 transects (25 m long) for 5 minutes each per plot. 2 sampling rounds in one season",NA
"Juliana_Hipolito_Coffea_arabica_Brazil_2013","C05","sweepnet","Crabronidae sp2","morphospecies","non_bee_hymenoptera",1,200,40,120,"4 transects (25 m long) for 5 minutes each per plot. 2 sampling rounds in one season",NA
"Juliana_Hipolito_Coffea_arabica_Brazil_2013","C05","sweepnet","Dermestidae","morphospecies","beetles",1,200,40,120,"4 transects (25 m long) for 5 minutes each per plot. 2 sampling rounds in one season",NA
"Juliana_Hipolito_Coffea_arabica_Brazil_2013","C07","sweepnet","Bibionidae sp.","morphospecies","other_flies",1,200,40,120,"4 transects (25 m long) for 5 minutes each per plot. 2 sampling rounds in one season",NA
"Juliana_Hipolito_Coffea_arabica_Brazil_2013","C07","sweepnet","Bibionidae sp.1","morphospecies","other_flies",1,200,40,120,"4 transects (25 m long) for 5 minutes each per plot. 2 sampling rounds in one season",NA
"Juliana_Hipolito_Coffea_arabica_Brazil_2013","C07","sweepnet","Chrysops varians","species","other_flies",1,200,40,120,"4 transects (25 m long) for 5 minutes each per plot. 2 sampling rounds in one season",NA
"Juliana_Hipolito_Coffea_arabica_Brazil_2013","C07","sweepnet","Eichoichemus sp.","genera","other_flies",1,200,40,120,"4 transects (25 m long) for 5 minutes each per plot. 2 sampling rounds in one season",NA
"Juliana_Hipolito_Coffea_arabica_Brazil_2013","C07","sweepnet","Fanniidae? Sp.2","morphospecies","other_flies",1,200,40,120,"4 transects (25 m long) for 5 minutes each per plot. 2 sampling rounds in one season",NA
"Juliana_Hipolito_Coffea_arabica_Brazil_2013","C07","sweepnet","Ocyptamus gastrostactus","species","syrphids",2,200,40,120,"4 transects (25 m long) for 5 minutes each per plot. 2 sampling rounds in one season",NA
"Juliana_Hipolito_Coffea_arabica_Brazil_2013","C07","sweepnet","Ornidia obesa","species","syrphids",2,200,40,120,"4 transects (25 m long) for 5 minutes each per plot. 2 sampling rounds in one season",NA
"Juliana_Hipolito_Coffea_arabica_Brazil_2013","C07","sweepnet","Pseudodorus clavatus","species","syrphids",1,200,40,120,"4 transects (25 m long) for 5 minutes each per plot. 2 sampling rounds in one season",NA
"Juliana_Hipolito_Coffea_arabica_Brazil_2013","C08","sweepnet","Apis mellifera","species","honeybees",7,200,40,120,"4 transects (25 m long) for 5 minutes each per plot. 2 sampling rounds in one season",NA
"Juliana_Hipolito_Coffea_arabica_Brazil_2013","C08","sweepnet","Centris (Centris) aenea","species","other_wild_bees",2,200,40,120,"4 transects (25 m long) for 5 minutes each per plot. 2 sampling rounds in one season",NA
"Juliana_Hipolito_Coffea_arabica_Brazil_2013","C08","sweepnet","Centris (Centris) decolorata","species","other_wild_bees",1,200,40,120,"4 transects (25 m long) for 5 minutes each per plot. 2 sampling rounds in one season",NA
"Juliana_Hipolito_Coffea_arabica_Brazil_2013","C08","sweepnet","Efferia sp.1","genera","other_flies",1,200,40,120,"4 transects (25 m long) for 5 minutes each per plot. 2 sampling rounds in one season",NA
"Juliana_Hipolito_Coffea_arabica_Brazil_2013","C08","sweepnet","Lepidoptera","morphospecies","lepidoptera",1,200,40,120,"4 transects (25 m long) for 5 minutes each per plot. 2 sampling rounds in one season",NA
"Juliana_Hipolito_Coffea_arabica_Brazil_2013","C08","sweepnet","Neuroptera sp.2","morphospecies","other",1,200,40,120,"4 transects (25 m long) for 5 minutes each per plot. 2 sampling rounds in one season",NA
"Juliana_Hipolito_Coffea_arabica_Brazil_2013","C08","sweepnet","Orthoptera sp.1","morphospecies","other",1,200,40,120,"4 transects (25 m long) for 5 minutes each per plot. 2 sampling rounds in one season",NA
"Juliana_Hipolito_Coffea_arabica_Brazil_2013","C09","sweepnet","Apis mellifera","species","honeybees",9,200,40,120,"4 transects (25 m long) for 5 minutes each per plot. 2 sampling rounds in one season",NA
"Juliana_Hipolito_Coffea_arabica_Brazil_2013","C09","sweepnet","Bombus brevivillus","species","bumblebees",2,200,40,120,"4 transects (25 m long) for 5 minutes each per plot. 2 sampling rounds in one season",NA
"Juliana_Hipolito_Coffea_arabica_Brazil_2013","C09","sweepnet","Ceratitis capitata","species","other_flies",1,200,40,120,"4 transects (25 m long) for 5 minutes each per plot. 2 sampling rounds in one season",NA
"Juliana_Hipolito_Coffea_arabica_Brazil_2013","C09","sweepnet","Chrysomelidae","morphospecies","beetles",1,200,40,120,"4 transects (25 m long) for 5 minutes each per plot. 2 sampling rounds in one season",NA
"Juliana_Hipolito_Coffea_arabica_Brazil_2013","C09","sweepnet","Ichneumonidae sp.2","morphospecies","non_bee_hymenoptera",1,200,40,120,"4 transects (25 m long) for 5 minutes each per plot. 2 sampling rounds in one season",NA
"Juliana_Hipolito_Coffea_arabica_Brazil_2013","C09","sweepnet","Lepidoptera","morphospecies","lepidoptera",3,200,40,120,"4 transects (25 m long) for 5 minutes each per plot. 2 sampling rounds in one season",NA
"Juliana_Hipolito_Coffea_arabica_Brazil_2013","C09","sweepnet","Odonata sp.1","morphospecies","other",1,200,40,120,"4 transects (25 m long) for 5 minutes each per plot. 2 sampling rounds in one season",NA
"Juliana_Hipolito_Coffea_arabica_Brazil_2013","C09","sweepnet","Polybia sp.1","genera","non_bee_hymenoptera",1,200,40,120,"4 transects (25 m long) for 5 minutes each per plot. 2 sampling rounds in one season",NA
"Juliana_Hipolito_Coffea_arabica_Brazil_2013","C09","sweepnet","Stenotabanus sp?","genera","other_flies",1,200,40,120,"4 transects (25 m long) for 5 minutes each per plot. 2 sampling rounds in one season",NA
"Juliana_Hipolito_Coffea_arabica_Brazil_2013","C09","sweepnet","Trigona spinipes","species","other_wild_bees",2,200,40,120,"4 transects (25 m long) for 5 minutes each per plot. 2 sampling rounds in one season",NA
"Juliana_Hipolito_Coffea_arabica_Brazil_2013","C09","sweepnet","Xylocopa N. grisescens","species","other_wild_bees",1,200,40,120,"4 transects (25 m long) for 5 minutes each per plot. 2 sampling rounds in one season",NA
"Juliana_Hipolito_Coffea_arabica_Brazil_2013","C10","sweepnet","Apis mellifera","species","honeybees",2,200,40,120,"4 transects (25 m long) for 5 minutes each per plot. 2 sampling rounds in one season",NA
"Juliana_Hipolito_Coffea_arabica_Brazil_2013","C10","sweepnet","Polybia sp.2","genera","non_bee_hymenoptera",1,200,40,120,"4 transects (25 m long) for 5 minutes each per plot. 2 sampling rounds in one season",NA
"Juliana_Hipolito_Coffea_arabica_Brazil_2013","C10","sweepnet","Villa sp.","genera","humbleflies",1,200,40,120,"4 transects (25 m long) for 5 minutes each per plot. 2 sampling rounds in one season",NA
"Juliana_Hipolito_Coffea_arabica_Brazil_2013","C11","sweepnet","Apis mellifera","species","honeybees",2,200,40,120,"4 transects (25 m long) for 5 minutes each per plot. 2 sampling rounds in one season",NA
"Juliana_Hipolito_Coffea_arabica_Brazil_2013","C11","sweepnet","Brachygastra lecheguana","species","non_bee_hymenoptera",1,200,40,120,"4 transects (25 m long) for 5 minutes each per plot. 2 sampling rounds in one season",NA
"Juliana_Hipolito_Coffea_arabica_Brazil_2013","C11","sweepnet","Symphyta sp1","genera","non_bee_hymenoptera",1,200,40,120,"4 transects (25 m long) for 5 minutes each per plot. 2 sampling rounds in one season",NA
"Juliana_Hipolito_Coffea_arabica_Brazil_2013","C12","sweepnet","Apis mellifera","species","honeybees",8,200,40,120,"4 transects (25 m long) for 5 minutes each per plot. 2 sampling rounds in one season",NA
"Juliana_Hipolito_Coffea_arabica_Brazil_2013","C12","sweepnet","Brachygastra lecheguana","species","non_bee_hymenoptera",1,200,40,120,"4 transects (25 m long) for 5 minutes each per plot. 2 sampling rounds in one season",NA
"Juliana_Hipolito_Coffea_arabica_Brazil_2013","C12","sweepnet","Diptera sp.3","morphospecies","other_flies",1,200,40,120,"4 transects (25 m long) for 5 minutes each per plot. 2 sampling rounds in one season",NA
"Juliana_Hipolito_Coffea_arabica_Brazil_2013","C12","sweepnet","Symphyta sp1","genera","non_bee_hymenoptera",1,200,40,120,"4 transects (25 m long) for 5 minutes each per plot. 2 sampling rounds in one season",NA
"Juliana_Hipolito_Coffea_arabica_Brazil_2013","C13","sweepnet","Apis mellifera","species","honeybees",3,200,40,120,"4 transects (25 m long) for 5 minutes each per plot. 2 sampling rounds in one season",NA
"Juliana_Hipolito_Coffea_arabica_Brazil_2013","C13","sweepnet","Brachygastra lecheguana","species","non_bee_hymenoptera",1,200,40,120,"4 transects (25 m long) for 5 minutes each per plot. 2 sampling rounds in one season",NA
"Juliana_Hipolito_Coffea_arabica_Brazil_2013","C14","sweepnet","Apis mellifera","species","honeybees",1,200,40,120,"4 transects (25 m long) for 5 minutes each per plot. 2 sampling rounds in one season",NA
"Juliana_Hipolito_Coffea_arabica_Brazil_2013","C14","sweepnet","Geotrigona subterranea","species","other_wild_bees",2,200,40,120,"4 transects (25 m long) for 5 minutes each per plot. 2 sampling rounds in one season",NA
"Juliana_Hipolito_Coffea_arabica_Brazil_2013","C14","sweepnet","Polybia ignobilis","species","non_bee_hymenoptera",1,200,40,120,"4 transects (25 m long) for 5 minutes each per plot. 2 sampling rounds in one season",NA
"Juliana_Hipolito_Coffea_arabica_Brazil_2013","C14","sweepnet","Trigona spinipes","species","other_wild_bees",2,200,40,120,"4 transects (25 m long) for 5 minutes each per plot. 2 sampling rounds in one season",NA
"Juliana_Hipolito_Coffea_arabica_Brazil_2013","C15","sweepnet","Ripiphoridae","morphospecies","beetles",1,200,40,120,"4 transects (25 m long) for 5 minutes each per plot. 2 sampling rounds in one season",NA
"Juliana_Hipolito_Coffea_arabica_Brazil_2013","C17","sweepnet","Apis mellifera","species","honeybees",11,200,40,120,"4 transects (25 m long) for 5 minutes each per plot. 2 sampling rounds in one season",NA
"Juliana_Hipolito_Coffea_arabica_Brazil_2013","C17","sweepnet","Bombus brevivillus","species","bumblebees",1,200,40,120,"4 transects (25 m long) for 5 minutes each per plot. 2 sampling rounds in one season",NA
"Juliana_Hipolito_Coffea_arabica_Brazil_2013","C17","sweepnet","Centris (Centris) flavifrons","species","other_wild_bees",1,200,40,120,"4 transects (25 m long) for 5 minutes each per plot. 2 sampling rounds in one season",NA
"Juliana_Hipolito_Coffea_arabica_Brazil_2013","C17","sweepnet","Hemipenthes sp.","genera","humbleflies",1,200,40,120,"4 transects (25 m long) for 5 minutes each per plot. 2 sampling rounds in one season",NA
"Juliana_Hipolito_Coffea_arabica_Brazil_2013","C17","sweepnet","Polybia ignobilis","species","non_bee_hymenoptera",1,200,40,120,"4 transects (25 m long) for 5 minutes each per plot. 2 sampling rounds in one season",NA
"Juliana_Hipolito_Coffea_arabica_Brazil_2013","C17","sweepnet","Synoeca cyanea","species","non_bee_hymenoptera",1,200,40,120,"4 transects (25 m long) for 5 minutes each per plot. 2 sampling rounds in one season",NA
"Juliana_Hipolito_Coffea_arabica_Brazil_2013","C17","sweepnet","Xylocopa schonherria","species","other_wild_bees",1,200,40,120,"4 transects (25 m long) for 5 minutes each per plot. 2 sampling rounds in one season",NA
"Juliana_Hipolito_Coffea_arabica_Brazil_2013","C18","sweepnet","Apis mellifera","species","honeybees",1,200,40,120,"4 transects (25 m long) for 5 minutes each per plot. 2 sampling rounds in one season",NA
"Juliana_Hipolito_Coffea_arabica_Brazil_2013","C18","sweepnet","Bracronidae sp1","morphospecies","non_bee_hymenoptera",1,200,40,120,"4 transects (25 m long) for 5 minutes each per plot. 2 sampling rounds in one season",NA
"Juliana_Hipolito_Coffea_arabica_Brazil_2013","C18","sweepnet","Calliphoridae sp.1","morphospecies","other_flies",2,200,40,120,"4 transects (25 m long) for 5 minutes each per plot. 2 sampling rounds in one season",NA
"Juliana_Hipolito_Coffea_arabica_Brazil_2013","C18","sweepnet","Chalcididae sp.1","morphospecies","non_bee_hymenoptera",1,200,40,120,"4 transects (25 m long) for 5 minutes each per plot. 2 sampling rounds in one season",NA
"Juliana_Hipolito_Coffea_arabica_Brazil_2013","C18","sweepnet","Omicron sp.1","genera","non_bee_hymenoptera",1,200,40,120,"4 transects (25 m long) for 5 minutes each per plot. 2 sampling rounds in one season",NA
"Juliana_Hipolito_Coffea_arabica_Brazil_2013","C18","sweepnet","Paratrigona lineata","species","other_wild_bees",1,200,40,120,"4 transects (25 m long) for 5 minutes each per plot. 2 sampling rounds in one season",NA
"Juliana_Hipolito_Coffea_arabica_Brazil_2013","C19","sweepnet","Apis mellifera","species","honeybees",29,200,40,120,"4 transects (25 m long) for 5 minutes each per plot. 2 sampling rounds in one season",NA
"Juliana_Hipolito_Coffea_arabica_Brazil_2013","C19","sweepnet","Ceratitis capitata","species","other_flies",1,200,40,120,"4 transects (25 m long) for 5 minutes each per plot. 2 sampling rounds in one season",NA
"Juliana_Hipolito_Coffea_arabica_Brazil_2013","C19","sweepnet","Chalcididae sp2","morphospecies","non_bee_hymenoptera",1,200,40,120,"4 transects (25 m long) for 5 minutes each per plot. 2 sampling rounds in one season",NA
"Juliana_Hipolito_Coffea_arabica_Brazil_2013","C19","sweepnet","Scoliidae sp.1","genera","non_bee_hymenoptera",1,200,40,120,"4 transects (25 m long) for 5 minutes each per plot. 2 sampling rounds in one season",NA
"Juliana_Hipolito_Coffea_arabica_Brazil_2013","C19","sweepnet","Trigona spinipes","species","other_wild_bees",1,200,40,120,"4 transects (25 m long) for 5 minutes each per plot. 2 sampling rounds in one season",NA
"Juliana_Hipolito_Coffea_arabica_Brazil_2013","C20","sweepnet","Lepidoptera","morphospecies","lepidoptera",4,200,40,120,"4 transects (25 m long) for 5 minutes each per plot. 2 sampling rounds in one season",NA
"Juliana_Hipolito_Coffea_arabica_Brazil_2013","C21","sweepnet","Symphyta sp1","genera","non_bee_hymenoptera",1,200,40,120,"4 transects (25 m long) for 5 minutes each per plot. 2 sampling rounds in one season",NA
"Juliana_Hipolito_Coffea_arabica_Brazil_2013","O01","sweepnet","Centris (Hemisiela)tarsata","species","other_wild_bees",2,200,40,120,"4 transects (25 m long) for 5 minutes each per plot. 2 sampling rounds in one season",NA
"Juliana_Hipolito_Coffea_arabica_Brazil_2013","O03","sweepnet","Centris (Hemisiela)tarsata","species","other_wild_bees",1,200,40,120,"4 transects (25 m long) for 5 minutes each per plot. 2 sampling rounds in one season",NA
"Juliana_Hipolito_Coffea_arabica_Brazil_2013","O03","sweepnet","Lepidoptera sp 5","morphospecies","lepidoptera",2,200,40,120,"4 transects (25 m long) for 5 minutes each per plot. 2 sampling rounds in one season",NA
"Juliana_Hipolito_Coffea_arabica_Brazil_2013","O03","sweepnet","Trigona spinipes","species","other_wild_bees",1,200,40,120,"4 transects (25 m long) for 5 minutes each per plot. 2 sampling rounds in one season",NA
"Juliana_Hipolito_Coffea_arabica_Brazil_2013","O04","sweepnet","Bombus morio","species","bumblebees",1,200,40,120,"4 transects (25 m long) for 5 minutes each per plot. 2 sampling rounds in one season",NA
"Juliana_Hipolito_Coffea_arabica_Brazil_2013","O06","sweepnet","Augochloropsis sp.1","genera","other_wild_bees",1,200,40,120,"4 transects (25 m long) for 5 minutes each per plot. 2 sampling rounds in one season",NA
"Juliana_Hipolito_Coffea_arabica_Brazil_2013","O06","sweepnet","Ceratitis capitata","species","other_flies",1,200,40,120,"4 transects (25 m long) for 5 minutes each per plot. 2 sampling rounds in one season",NA
"Juliana_Hipolito_Coffea_arabica_Brazil_2013","O06","sweepnet","Exomalopsis cfr. iridipennis","species","other_wild_bees",1,200,40,120,"4 transects (25 m long) for 5 minutes each per plot. 2 sampling rounds in one season",NA
"Juliana_Hipolito_Coffea_arabica_Brazil_2013","O08","sweepnet","Geotrigona subterranea","species","other_wild_bees",1,200,40,120,"4 transects (25 m long) for 5 minutes each per plot. 2 sampling rounds in one season",NA
"Juliana_Hipolito_Coffea_arabica_Brazil_2013","O09","sweepnet","Centris (Centris) aenea","species","other_wild_bees",1,200,40,120,"4 transects (25 m long) for 5 minutes each per plot. 2 sampling rounds in one season",NA
"Juliana_Hipolito_Coffea_arabica_Brazil_2013","O09","sweepnet","Dialictus sp.1","genera","other_wild_bees",1,200,40,120,"4 transects (25 m long) for 5 minutes each per plot. 2 sampling rounds in one season",NA
"Juliana_Hipolito_Coffea_arabica_Brazil_2013","O09","sweepnet","Toxomerus floralis","species","syrphids",1,200,40,120,"4 transects (25 m long) for 5 minutes each per plot. 2 sampling rounds in one season",NA
"Juliana_Hipolito_Coffea_arabica_Brazil_2013","O11","sweepnet","Curculionidae","morphospecies","beetles",4,200,40,120,"4 transects (25 m long) for 5 minutes each per plot. 2 sampling rounds in one season",NA
"Juliana_Hipolito_Coffea_arabica_Brazil_2013","O12","sweepnet","Bombus brevivillus","species","bumblebees",2,200,40,120,"4 transects (25 m long) for 5 minutes each per plot. 2 sampling rounds in one season",NA
"Juliana_Hipolito_Coffea_arabica_Brazil_2013","O12","sweepnet","Ripiphoridae","morphospecies","beetles",1,200,40,120,"4 transects (25 m long) for 5 minutes each per plot. 2 sampling rounds in one season",NA
"Juliana_Hipolito_Coffea_arabica_Brazil_2013","O14","sweepnet","Exomalopsis cf. lugens","species","other_wild_bees",1,200,40,120,"4 transects (25 m long) for 5 minutes each per plot. 2 sampling rounds in one season",NA
"Juliana_Hipolito_Coffea_arabica_Brazil_2013","O16","sweepnet","Brachygastra lecheguana","species","non_bee_hymenoptera",1,200,40,120,"4 transects (25 m long) for 5 minutes each per plot. 2 sampling rounds in one season",NA
"Juliana_Hipolito_Coffea_arabica_Brazil_2013","O17","sweepnet","Lepidoptera","morphospecies","lepidoptera",4,200,40,120,"4 transects (25 m long) for 5 minutes each per plot. 2 sampling rounds in one season",NA
"Juliana_Hipolito_Coffea_arabica_Brazil_2013","O18","sweepnet","Apis mellifera","species","honeybees",2,200,40,120,"4 transects (25 m long) for 5 minutes each per plot. 2 sampling rounds in one season",NA
"Juliana_Hipolito_Coffea_arabica_Brazil_2013","O18","sweepnet","Synoeca cyanea","species","non_bee_hymenoptera",1,200,40,120,"4 transects (25 m long) for 5 minutes each per plot. 2 sampling rounds in one season",NA
"Juliana_Hipolito_Coffea_arabica_Brazil_2013","O18","sweepnet","Sphecidae sp1","morphospecies","non_bee_hymenoptera",2,200,40,120,"4 transects (25 m long) for 5 minutes each per plot. 2 sampling rounds in one season",NA
"Juliana_Hipolito_Coffea_arabica_Brazil_2013","O18","sweepnet","Trigona sp2","genera","other_wild_bees",1,200,40,120,"4 transects (25 m long) for 5 minutes each per plot. 2 sampling rounds in one season",NA
"Juliana_Hipolito_Coffea_arabica_Brazil_2013","O18","sweepnet","Trigona spinipes","species","other_wild_bees",2,200,40,120,"4 transects (25 m long) for 5 minutes each per plot. 2 sampling rounds in one season",NA
"Juliana_Hipolito_Coffea_arabica_Brazil_2014","C01","sweepnet","Apis mellifera","species","honeybees",4,200,40,120,"4 transects (25 m long) for 5 minutes each per plot. 2 sampling rounds in one season",NA
"Juliana_Hipolito_Coffea_arabica_Brazil_2014","C01","sweepnet","Lepidoptera sp 1","morphospecies","lepidoptera",2,200,40,120,"4 transects (25 m long) for 5 minutes each per plot. 2 sampling rounds in one season",NA
"Juliana_Hipolito_Coffea_arabica_Brazil_2014","C01","sweepnet","Lepidoptera sp 2","morphospecies","lepidoptera",1,200,40,120,"4 transects (25 m long) for 5 minutes each per plot. 2 sampling rounds in one season",NA
"Juliana_Hipolito_Coffea_arabica_Brazil_2014","C01","sweepnet","Lepidoptera sp 3","morphospecies","lepidoptera",1,200,40,120,"4 transects (25 m long) for 5 minutes each per plot. 2 sampling rounds in one season",NA
"Juliana_Hipolito_Coffea_arabica_Brazil_2014","C03","sweepnet","Bombus brevivillus","species","bumblebees",1,200,40,120,"4 transects (25 m long) for 5 minutes each per plot. 2 sampling rounds in one season",NA
"Juliana_Hipolito_Coffea_arabica_Brazil_2014","C03","sweepnet","Bombus brevivillus","species","bumblebees",1,200,40,120,"4 transects (25 m long) for 5 minutes each per plot. 2 sampling rounds in one season",NA
"Juliana_Hipolito_Coffea_arabica_Brazil_2014","C03","sweepnet","Geotrigona subterranea","species","other_wild_bees",1,200,40,120,"4 transects (25 m long) for 5 minutes each per plot. 2 sampling rounds in one season",NA
"Juliana_Hipolito_Coffea_arabica_Brazil_2014","C03","sweepnet","Partamona sp.1","genera","other_wild_bees",1,200,40,120,"4 transects (25 m long) for 5 minutes each per plot. 2 sampling rounds in one season",NA
"Juliana_Hipolito_Coffea_arabica_Brazil_2014","C03","sweepnet","Plebeia sp.1","genera","other_wild_bees",1,200,40,120,"4 transects (25 m long) for 5 minutes each per plot. 2 sampling rounds in one season",NA
"Juliana_Hipolito_Coffea_arabica_Brazil_2014","C03","sweepnet","Trigona spinipes","species","other_wild_bees",3,200,40,120,"4 transects (25 m long) for 5 minutes each per plot. 2 sampling rounds in one season",NA
"Juliana_Hipolito_Coffea_arabica_Brazil_2014","C04","sweepnet","Apis mellifera","species","honeybees",5,200,40,120,"4 transects (25 m long) for 5 minutes each per plot. 2 sampling rounds in one season",NA
"Juliana_Hipolito_Coffea_arabica_Brazil_2014","C04","sweepnet","Bombus brevivillus","species","bumblebees",1,200,40,120,"4 transects (25 m long) for 5 minutes each per plot. 2 sampling rounds in one season",NA
"Juliana_Hipolito_Coffea_arabica_Brazil_2014","C04","sweepnet","Bombus brevivillus","species","bumblebees",1,200,40,120,"4 transects (25 m long) for 5 minutes each per plot. 2 sampling rounds in one season",NA
"Juliana_Hipolito_Coffea_arabica_Brazil_2014","C04","sweepnet","Trigona spinipes","species","other_wild_bees",1,200,40,120,"4 transects (25 m long) for 5 minutes each per plot. 2 sampling rounds in one season",NA
"Juliana_Hipolito_Coffea_arabica_Brazil_2014","C05","sweepnet","Apis mellifera","species","honeybees",4,200,40,120,"4 transects (25 m long) for 5 minutes each per plot. 2 sampling rounds in one season",NA
"Juliana_Hipolito_Coffea_arabica_Brazil_2014","C05","sweepnet","Crabronidae sp1","morphospecies","non_bee_hymenoptera",1,200,40,120,"4 transects (25 m long) for 5 minutes each per plot. 2 sampling rounds in one season",NA
"Juliana_Hipolito_Coffea_arabica_Brazil_2014","C05","sweepnet","Crabronidae sp2","morphospecies","non_bee_hymenoptera",1,200,40,120,"4 transects (25 m long) for 5 minutes each per plot. 2 sampling rounds in one season",NA
"Juliana_Hipolito_Coffea_arabica_Brazil_2014","C07","sweepnet","Apis mellifera","species","honeybees",14,200,40,120,"4 transects (25 m long) for 5 minutes each per plot. 2 sampling rounds in one season",NA
"Juliana_Hipolito_Coffea_arabica_Brazil_2014","C07","sweepnet","Apis mellifera","species","honeybees",5,200,40,120,"4 transects (25 m long) for 5 minutes each per plot. 2 sampling rounds in one season",NA
"Juliana_Hipolito_Coffea_arabica_Brazil_2014","C07","sweepnet","Bombus brevivillus","species","bumblebees",1,200,40,120,"4 transects (25 m long) for 5 minutes each per plot. 2 sampling rounds in one season",NA
"Juliana_Hipolito_Coffea_arabica_Brazil_2014","C07","sweepnet","Ceratitis capitata","species","other_flies",1,200,40,120,"4 transects (25 m long) for 5 minutes each per plot. 2 sampling rounds in one season",NA
"Juliana_Hipolito_Coffea_arabica_Brazil_2014","C07","sweepnet","Coleoptera sp1","morphospecies","beetles",3,200,40,120,"4 transects (25 m long) for 5 minutes each per plot. 2 sampling rounds in one season",NA
"Juliana_Hipolito_Coffea_arabica_Brazil_2014","C07","sweepnet","Lepidoptera sp3","morphospecies","lepidoptera",1,200,40,120,"4 transects (25 m long) for 5 minutes each per plot. 2 sampling rounds in one season",NA
"Juliana_Hipolito_Coffea_arabica_Brazil_2014","C07","sweepnet","Lepidoptera sp4","morphospecies","lepidoptera",1,200,40,120,"4 transects (25 m long) for 5 minutes each per plot. 2 sampling rounds in one season",NA
"Juliana_Hipolito_Coffea_arabica_Brazil_2014","C07","sweepnet","Palpada furcata","species","syrphids",1,200,40,120,"4 transects (25 m long) for 5 minutes each per plot. 2 sampling rounds in one season",NA
"Juliana_Hipolito_Coffea_arabica_Brazil_2014","C07","sweepnet","Polybia ignobilis","species","non_bee_hymenoptera",1,200,40,120,"4 transects (25 m long) for 5 minutes each per plot. 2 sampling rounds in one season",NA
"Juliana_Hipolito_Coffea_arabica_Brazil_2014","C07","sweepnet","Synoeca cyanea","species","non_bee_hymenoptera",1,200,40,120,"4 transects (25 m long) for 5 minutes each per plot. 2 sampling rounds in one season",NA
"Juliana_Hipolito_Coffea_arabica_Brazil_2014","C07","sweepnet","Trigona spinipes","species","other_wild_bees",4,200,40,120,"4 transects (25 m long) for 5 minutes each per plot. 2 sampling rounds in one season",NA
"Juliana_Hipolito_Coffea_arabica_Brazil_2014","C08","sweepnet","Apis mellifera","species","honeybees",4,200,40,120,"4 transects (25 m long) for 5 minutes each per plot. 2 sampling rounds in one season",NA
"Juliana_Hipolito_Coffea_arabica_Brazil_2014","C08","sweepnet","Ceratitis capitata","species","other_flies",1,200,40,120,"4 transects (25 m long) for 5 minutes each per plot. 2 sampling rounds in one season",NA
"Juliana_Hipolito_Coffea_arabica_Brazil_2014","C08","sweepnet","Coleoptera sp1","morphospecies","beetles",6,200,40,120,"4 transects (25 m long) for 5 minutes each per plot. 2 sampling rounds in one season",NA
"Juliana_Hipolito_Coffea_arabica_Brazil_2014","C08","sweepnet","Lepidoptera","morphospecies","lepidoptera",1,200,40,120,"4 transects (25 m long) for 5 minutes each per plot. 2 sampling rounds in one season",NA
"Juliana_Hipolito_Coffea_arabica_Brazil_2014","C09","sweepnet","Apis mellifera","species","honeybees",10,200,40,120,"4 transects (25 m long) for 5 minutes each per plot. 2 sampling rounds in one season",NA
"Juliana_Hipolito_Coffea_arabica_Brazil_2014","C09","sweepnet","Geotrigona subterranea","species","other_wild_bees",1,200,40,120,"4 transects (25 m long) for 5 minutes each per plot. 2 sampling rounds in one season",NA
"Juliana_Hipolito_Coffea_arabica_Brazil_2014","C09","sweepnet","Hemiptera sp.6","morphospecies","other",1,200,40,120,"4 transects (25 m long) for 5 minutes each per plot. 2 sampling rounds in one season",NA
"Juliana_Hipolito_Coffea_arabica_Brazil_2014","C09","sweepnet","Lepidoptera","morphospecies","lepidoptera",1,200,40,120,"4 transects (25 m long) for 5 minutes each per plot. 2 sampling rounds in one season",NA
"Juliana_Hipolito_Coffea_arabica_Brazil_2014","C12","sweepnet","Apis mellifera","species","honeybees",4,200,40,120,"4 transects (25 m long) for 5 minutes each per plot. 2 sampling rounds in one season",NA
"Juliana_Hipolito_Coffea_arabica_Brazil_2014","C12","sweepnet","Diptera sp.4","morphospecies","other_flies",1,200,40,120,"4 transects (25 m long) for 5 minutes each per plot. 2 sampling rounds in one season",NA
"Juliana_Hipolito_Coffea_arabica_Brazil_2014","C15","sweepnet","Apis mellifera","species","honeybees",3,200,40,120,"4 transects (25 m long) for 5 minutes each per plot. 2 sampling rounds in one season",NA
"Juliana_Hipolito_Coffea_arabica_Brazil_2014","C15","sweepnet","Brachygastra lecheguana","species","non_bee_hymenoptera",1,200,40,120,"4 transects (25 m long) for 5 minutes each per plot. 2 sampling rounds in one season",NA
"Juliana_Hipolito_Coffea_arabica_Brazil_2014","C15","sweepnet","Fanniidae? Sp.2","morphospecies","other_flies",1,200,40,120,"4 transects (25 m long) for 5 minutes each per plot. 2 sampling rounds in one season",NA
"Juliana_Hipolito_Coffea_arabica_Brazil_2014","C15","sweepnet","Symphyta sp1","genera","non_bee_hymenoptera",1,200,40,120,"4 transects (25 m long) for 5 minutes each per plot. 2 sampling rounds in one season",NA
"Juliana_Hipolito_Coffea_arabica_Brazil_2014","C17","sweepnet","Apis mellifera","species","honeybees",13,200,40,120,"4 transects (25 m long) for 5 minutes each per plot. 2 sampling rounds in one season",NA
"Juliana_Hipolito_Coffea_arabica_Brazil_2014","C17","sweepnet","Bombus brevivillus","species","bumblebees",2,200,40,120,"4 transects (25 m long) for 5 minutes each per plot. 2 sampling rounds in one season",NA
"Juliana_Hipolito_Coffea_arabica_Brazil_2014","C17","sweepnet","Ceratitis sp.1","genera","other_flies",1,200,40,120,"4 transects (25 m long) for 5 minutes each per plot. 2 sampling rounds in one season",NA
"Juliana_Hipolito_Coffea_arabica_Brazil_2014","C17","sweepnet","Mischicyttatus rotundicollis","species","non_bee_hymenoptera",1,200,40,120,"4 transects (25 m long) for 5 minutes each per plot. 2 sampling rounds in one season",NA
"Juliana_Hipolito_Coffea_arabica_Brazil_2014","C17","sweepnet","Scoliidae sp.1","genera","non_bee_hymenoptera",1,200,40,120,"4 transects (25 m long) for 5 minutes each per plot. 2 sampling rounds in one season",NA
"Juliana_Hipolito_Coffea_arabica_Brazil_2014","C17","sweepnet","Trigona spinipes","species","other_wild_bees",1,200,40,120,"4 transects (25 m long) for 5 minutes each per plot. 2 sampling rounds in one season",NA
"Juliana_Hipolito_Coffea_arabica_Brazil_2014","C21","sweepnet","Apis mellifera","species","honeybees",3,200,40,120,"4 transects (25 m long) for 5 minutes each per plot. 2 sampling rounds in one season",NA
"Juliana_Hipolito_Coffea_arabica_Brazil_2014","C21","sweepnet","Synoeca cyanea","species","non_bee_hymenoptera",1,200,40,120,"4 transects (25 m long) for 5 minutes each per plot. 2 sampling rounds in one season",NA
"Juliana_Hipolito_Coffea_arabica_Brazil_2014","C7","sweepnet","Ceratitis sp.1","genera","other_flies",1,200,40,120,"4 transects (25 m long) for 5 minutes each per plot. 2 sampling rounds in one season",NA
"Juliana_Hipolito_Coffea_arabica_Brazil_2014","C7","sweepnet","Nannotrigona testaceicornes","species","other_wild_bees",6,200,40,120,"4 transects (25 m long) for 5 minutes each per plot. 2 sampling rounds in one season",NA
"Juliana_Hipolito_Coffea_arabica_Brazil_2014","C7","sweepnet","Palpada pygolampus","species","syrphids",1,200,40,120,"4 transects (25 m long) for 5 minutes each per plot. 2 sampling rounds in one season",NA
"Juliana_Hipolito_Coffea_arabica_Brazil_2014","C7","sweepnet","Partamona sp.1","genera","other_wild_bees",1,200,40,120,"4 transects (25 m long) for 5 minutes each per plot. 2 sampling rounds in one season",NA
"Juliana_Hipolito_Coffea_arabica_Brazil_2014","C7","sweepnet","Trigona spinipes","species","other_wild_bees",3,200,40,120,"4 transects (25 m long) for 5 minutes each per plot. 2 sampling rounds in one season",NA
"Juliana_Hipolito_Coffea_arabica_Brazil_2014","O01","sweepnet","Apis mellifera","species","honeybees",1,200,40,120,"4 transects (25 m long) for 5 minutes each per plot. 2 sampling rounds in one season",NA
"Juliana_Hipolito_Coffea_arabica_Brazil_2014","O01","sweepnet","Centris (Hemisiela)tarsata","species","other_wild_bees",1,200,40,120,"4 transects (25 m long) for 5 minutes each per plot. 2 sampling rounds in one season",NA
"Juliana_Hipolito_Coffea_arabica_Brazil_2014","O01","sweepnet","Ceratina (Calloceratina) chloris","species","other_wild_bees",1,200,40,120,"4 transects (25 m long) for 5 minutes each per plot. 2 sampling rounds in one season",NA
"Juliana_Hipolito_Coffea_arabica_Brazil_2014","O03","sweepnet","Bombus brevivillus","species","bumblebees",1,200,40,120,"4 transects (25 m long) for 5 minutes each per plot. 2 sampling rounds in one season",NA
"Juliana_Hipolito_Coffea_arabica_Brazil_2014","O03","sweepnet","Centris sp","genera","other_wild_bees",1,200,40,120,"4 transects (25 m long) for 5 minutes each per plot. 2 sampling rounds in one season",NA
"Juliana_Hipolito_Coffea_arabica_Brazil_2014","O03","sweepnet","Hymenoptera sp","morphospecies","non_bee_hymenoptera",1,200,40,120,"4 transects (25 m long) for 5 minutes each per plot. 2 sampling rounds in one season",NA
"Juliana_Hipolito_Coffea_arabica_Brazil_2014","O04","sweepnet","Ceratina (Calloceratina) chloris","species","other_wild_bees",1,200,40,120,"4 transects (25 m long) for 5 minutes each per plot. 2 sampling rounds in one season",NA
"Juliana_Hipolito_Coffea_arabica_Brazil_2014","O07","sweepnet","Trigona spinipes","species","other_wild_bees",8,200,40,120,"4 transects (25 m long) for 5 minutes each per plot. 2 sampling rounds in one season",NA
"Juliana_Hipolito_Coffea_arabica_Brazil_2014","O08","sweepnet","Nannotrigona testaceicornes","species","other_wild_bees",2,200,40,120,"4 transects (25 m long) for 5 minutes each per plot. 2 sampling rounds in one season",NA
"Juliana_Hipolito_Coffea_arabica_Brazil_2014","O09","sweepnet","Chrysomelidae","morphospecies","beetles",3,200,40,120,"4 transects (25 m long) for 5 minutes each per plot. 2 sampling rounds in one season",NA
"Juliana_Hipolito_Coffea_arabica_Brazil_2014","O09","sweepnet","Dialictus sp.1","genera","other_wild_bees",1,200,40,120,"4 transects (25 m long) for 5 minutes each per plot. 2 sampling rounds in one season",NA
"Juliana_Hipolito_Coffea_arabica_Brazil_2014","O09","sweepnet","Hymenoptera","morphospecies","non_bee_hymenoptera",3,200,40,120,"4 transects (25 m long) for 5 minutes each per plot. 2 sampling rounds in one season",NA
"Juliana_Hipolito_Coffea_arabica_Brazil_2014","O13","sweepnet","Tachinidae sp.1","genera","other_flies",1,200,40,120,"4 transects (25 m long) for 5 minutes each per plot. 2 sampling rounds in one season",NA
"Juliana_Hipolito_Coffea_arabica_Brazil_2014","O14","sweepnet","Apis mellifera","species","honeybees",1,200,40,120,"4 transects (25 m long) for 5 minutes each per plot. 2 sampling rounds in one season",NA
"Juliana_Hipolito_Coffea_arabica_Brazil_2014","O14","sweepnet","Bombus brevivillus","species","bumblebees",1,200,40,120,"4 transects (25 m long) for 5 minutes each per plot. 2 sampling rounds in one season",NA
"Juliana_Hipolito_Coffea_arabica_Brazil_2014","O14","sweepnet","Brachygastra lecheguana","species","non_bee_hymenoptera",1,200,40,120,"4 transects (25 m long) for 5 minutes each per plot. 2 sampling rounds in one season",NA
"Juliana_Hipolito_Coffea_arabica_Brazil_2014","O14","sweepnet","Hymenoptera","morphospecies","non_bee_hymenoptera",7,200,40,120,"4 transects (25 m long) for 5 minutes each per plot. 2 sampling rounds in one season",NA
"Juliana_Hipolito_Coffea_arabica_Brazil_2014","O14","sweepnet","Melolonthidae","morphospecies","beetles",1,200,40,120,"4 transects (25 m long) for 5 minutes each per plot. 2 sampling rounds in one season",NA
"Juliana_Hipolito_Coffea_arabica_Brazil_2014","O14","sweepnet","Polybia sericea","species","non_bee_hymenoptera",2,200,40,120,"4 transects (25 m long) for 5 minutes each per plot. 2 sampling rounds in one season",NA
"Juliana_Hipolito_Coffea_arabica_Brazil_2014","O14","sweepnet","Trigona spinipes","species","other_wild_bees",1,200,40,120,"4 transects (25 m long) for 5 minutes each per plot. 2 sampling rounds in one season",NA
"Juliana_Hipolito_Coffea_arabica_Brazil_2014","O15","sweepnet","Symphyta sp1","genera","non_bee_hymenoptera",1,200,40,120,"4 transects (25 m long) for 5 minutes each per plot. 2 sampling rounds in one season",NA
"Juliana_Hipolito_Coffea_arabica_Brazil_2014","O16","sweepnet","Bracronidae sp1","morphospecies","non_bee_hymenoptera",1,200,40,120,"4 transects (25 m long) for 5 minutes each per plot. 2 sampling rounds in one season",NA
"Juliana_Hipolito_Coffea_arabica_Brazil_2014","O17","sweepnet","Melolonthidae","morphospecies","beetles",7,200,40,120,"4 transects (25 m long) for 5 minutes each per plot. 2 sampling rounds in one season",NA
"Juliana_Hipolito_Mangifera_indica_Brazil_2005","1","insect collection","Apis mellifera","species","honeybees",1,NA,2880,NA,"2 trees were selected in each field and insects were collected at 1 hour intervals over 24 hours",NA
"Juliana_Hipolito_Mangifera_indica_Brazil_2005","2","insect collection","Apis mellifera","species","honeybees",16,NA,1440,NA,"2 trees were selected in each field and insects were collected at 1 hour intervals over 24 hours",NA
"Juliana_Hipolito_Mangifera_indica_Brazil_2005","3","insect collection","Apis mellifera","species","honeybees",7,NA,1440,NA,"2 trees were selected in each field and insects were collected at 1 hour intervals over 24 hours",NA
"Juliana_Hipolito_Mangifera_indica_Brazil_2005","4","insect collection","Apis mellifera","species","honeybees",10,NA,1440,NA,"2 trees were selected in each field and insects were collected at 1 hour intervals over 24 hours",NA
"Juliana_Hipolito_Mangifera_indica_Brazil_2005","1","insect collection","Megachilidae sp1","morphospecies","other_wild_bees",1,NA,2880,NA,"2 trees were selected in each field and insects were collected at 1 hour intervals over 24 hours",NA
"Juliana_Hipolito_Mangifera_indica_Brazil_2005","2","insect collection","Megachilidae sp1","morphospecies","other_wild_bees",1,NA,1440,NA,"2 trees were selected in each field and insects were collected at 1 hour intervals over 24 hours",NA
"Juliana_Hipolito_Mangifera_indica_Brazil_2005","3","insect collection","Megachilidae sp1","morphospecies","other_wild_bees",2,NA,1440,NA,"2 trees were selected in each field and insects were collected at 1 hour intervals over 24 hours",NA
"Juliana_Hipolito_Mangifera_indica_Brazil_2005","1","insect collection","Halictidae sp1","morphospecies","other_wild_bees",1,NA,2880,NA,"2 trees were selected in each field and insects were collected at 1 hour intervals over 24 hours",NA
"Juliana_Hipolito_Mangifera_indica_Brazil_2005","3","insect collection","Trigonini","family","other_wild_bees",5,NA,1440,NA,"2 trees were selected in each field and insects were collected at 1 hour intervals over 24 hours","Apidae"
"Juliana_Hipolito_Mangifera_indica_Brazil_2005","4","insect collection","Trigonini","family","other_wild_bees",3,NA,1440,NA,"2 trees were selected in each field and insects were collected at 1 hour intervals over 24 hours","Apidae"
"Juliana_Hipolito_Mangifera_indica_Brazil_2005","1","insect collection","Hymenoptera","order","non_bee_hymenoptera",1,NA,2880,NA,"2 trees were selected in each field and insects were collected at 1 hour intervals over 24 hours",NA
"Juliana_Hipolito_Mangifera_indica_Brazil_2005","1","insect collection","Coleoptera sp1","morphospecies","beetles",16,NA,2880,NA,"2 trees were selected in each field and insects were collected at 1 hour intervals over 24 hours",NA
"Juliana_Hipolito_Mangifera_indica_Brazil_2005","2","insect collection","Coleoptera sp1","morphospecies","beetles",1,NA,1440,NA,"2 trees were selected in each field and insects were collected at 1 hour intervals over 24 hours",NA
"Juliana_Hipolito_Mangifera_indica_Brazil_2005","1","insect collection","Coleoptera sp2","morphospecies","beetles",2,NA,2880,NA,"2 trees were selected in each field and insects were collected at 1 hour intervals over 24 hours",NA
"Juliana_Hipolito_Mangifera_indica_Brazil_2005","2","insect collection","Coleoptera sp2","morphospecies","beetles",2,NA,1440,NA,"2 trees were selected in each field and insects were collected at 1 hour intervals over 24 hours",NA
"Juliana_Hipolito_Mangifera_indica_Brazil_2005","1","insect collection","Coleoptera sp3","morphospecies","beetles",2,NA,2880,NA,"2 trees were selected in each field and insects were collected at 1 hour intervals over 24 hours",NA
"Juliana_Hipolito_Mangifera_indica_Brazil_2005","3","insect collection","Coleoptera sp3","morphospecies","beetles",2,NA,1440,NA,"2 trees were selected in each field and insects were collected at 1 hour intervals over 24 hours",NA
"Juliana_Hipolito_Mangifera_indica_Brazil_2005","1","insect collection","Coleoptera sp4","morphospecies","beetles",7,NA,2880,NA,"2 trees were selected in each field and insects were collected at 1 hour intervals over 24 hours",NA
"Juliana_Hipolito_Mangifera_indica_Brazil_2005","1","insect collection","Coleoptera sp5","morphospecies","beetles",1,NA,2880,NA,"2 trees were selected in each field and insects were collected at 1 hour intervals over 24 hours",NA
"Juliana_Hipolito_Mangifera_indica_Brazil_2005","1","insect collection","Coleoptera sp5","morphospecies","beetles",2,NA,2880,NA,"2 trees were selected in each field and insects were collected at 1 hour intervals over 24 hours",NA
"Juliana_Hipolito_Mangifera_indica_Brazil_2005","1","insect collection","Coleoptera sp6","morphospecies","beetles",1,NA,2880,NA,"2 trees were selected in each field and insects were collected at 1 hour intervals over 24 hours",NA
"Juliana_Hipolito_Mangifera_indica_Brazil_2005","1","insect collection","Coleoptera sp7","morphospecies","beetles",1,NA,2880,NA,"2 trees were selected in each field and insects were collected at 1 hour intervals over 24 hours",NA
"Juliana_Hipolito_Mangifera_indica_Brazil_2005","2","insect collection","Coleoptera sp8","morphospecies","beetles",1,NA,1440,NA,"2 trees were selected in each field and insects were collected at 1 hour intervals over 24 hours",NA
"Juliana_Hipolito_Mangifera_indica_Brazil_2005","2","insect collection","Coleoptera sp9","morphospecies","beetles",1,NA,1440,NA,"2 trees were selected in each field and insects were collected at 1 hour intervals over 24 hours",NA
"Juliana_Hipolito_Mangifera_indica_Brazil_2005","3","insect collection","Coleoptera sp10","morphospecies","beetles",1,NA,1440,NA,"2 trees were selected in each field and insects were collected at 1 hour intervals over 24 hours",NA
"Juliana_Hipolito_Mangifera_indica_Brazil_2005","3","insect collection","Coleoptera sp11","morphospecies","beetles",1,NA,1440,NA,"2 trees were selected in each field and insects were collected at 1 hour intervals over 24 hours",NA
"Juliana_Hipolito_Mangifera_indica_Brazil_2005","1","insect collection","Vespidae sp1","morphospecies","non_bee_hymenoptera",14,NA,2880,NA,"2 trees were selected in each field and insects were collected at 1 hour intervals over 24 hours",NA
"Juliana_Hipolito_Mangifera_indica_Brazil_2005","1","insect collection","Vespidae sp1","morphospecies","non_bee_hymenoptera",2,NA,2880,NA,"2 trees were selected in each field and insects were collected at 1 hour intervals over 24 hours",NA
"Juliana_Hipolito_Mangifera_indica_Brazil_2005","3","insect collection","Vespidae sp1","morphospecies","non_bee_hymenoptera",1,NA,1440,NA,"2 trees were selected in each field and insects were collected at 1 hour intervals over 24 hours",NA
"Juliana_Hipolito_Mangifera_indica_Brazil_2005","4","insect collection","Vespidae sp1","morphospecies","non_bee_hymenoptera",2,NA,1440,NA,"2 trees were selected in each field and insects were collected at 1 hour intervals over 24 hours",NA
"Juliana_Hipolito_Mangifera_indica_Brazil_2005","1","insect collection","Vespidae sp2","morphospecies","non_bee_hymenoptera",5,NA,2880,NA,"2 trees were selected in each field and insects were collected at 1 hour intervals over 24 hours",NA
"Juliana_Hipolito_Mangifera_indica_Brazil_2005","2","insect collection","Vespidae sp2","morphospecies","non_bee_hymenoptera",1,NA,1440,NA,"2 trees were selected in each field and insects were collected at 1 hour intervals over 24 hours",NA
"Juliana_Hipolito_Mangifera_indica_Brazil_2005","3","insect collection","Vespidae sp2","morphospecies","non_bee_hymenoptera",1,NA,1440,NA,"2 trees were selected in each field and insects were collected at 1 hour intervals over 24 hours",NA
"Juliana_Hipolito_Mangifera_indica_Brazil_2005","4","insect collection","Vespidae sp2","morphospecies","non_bee_hymenoptera",1,NA,1440,NA,"2 trees were selected in each field and insects were collected at 1 hour intervals over 24 hours",NA
"Juliana_Hipolito_Mangifera_indica_Brazil_2005","1","insect collection","Vespidae sp3","morphospecies","non_bee_hymenoptera",7,NA,2880,NA,"2 trees were selected in each field and insects were collected at 1 hour intervals over 24 hours",NA
"Juliana_Hipolito_Mangifera_indica_Brazil_2005","2","insect collection","Vespidae sp3","morphospecies","non_bee_hymenoptera",1,NA,1440,NA,"2 trees were selected in each field and insects were collected at 1 hour intervals over 24 hours",NA
"Juliana_Hipolito_Mangifera_indica_Brazil_2005","4","insect collection","Vespidae sp3","morphospecies","non_bee_hymenoptera",2,NA,1440,NA,"2 trees were selected in each field and insects were collected at 1 hour intervals over 24 hours",NA
"Juliana_Hipolito_Mangifera_indica_Brazil_2005","1","insect collection","Vespidae sp5","morphospecies","non_bee_hymenoptera",6,NA,2880,NA,"2 trees were selected in each field and insects were collected at 1 hour intervals over 24 hours",NA
"Juliana_Hipolito_Mangifera_indica_Brazil_2005","2","insect collection","Vespidae sp5","morphospecies","non_bee_hymenoptera",7,NA,1440,NA,"2 trees were selected in each field and insects were collected at 1 hour intervals over 24 hours",NA
"Juliana_Hipolito_Mangifera_indica_Brazil_2005","3","insect collection","Vespidae sp5","morphospecies","non_bee_hymenoptera",9,NA,1440,NA,"2 trees were selected in each field and insects were collected at 1 hour intervals over 24 hours",NA
"Juliana_Hipolito_Mangifera_indica_Brazil_2005","4","insect collection","Vespidae sp5","morphospecies","non_bee_hymenoptera",3,NA,1440,NA,"2 trees were selected in each field and insects were collected at 1 hour intervals over 24 hours",NA
"Juliana_Hipolito_Mangifera_indica_Brazil_2005","2","insect collection","Pompilidae sp1","morphospecies","non_bee_hymenoptera",1,NA,1440,NA,"2 trees were selected in each field and insects were collected at 1 hour intervals over 24 hours",NA
"Juliana_Hipolito_Mangifera_indica_Brazil_2005","3","insect collection","Polistes sp","genus","non_bee_hymenoptera",2,NA,1440,NA,"2 trees were selected in each field and insects were collected at 1 hour intervals over 24 hours",NA
"Juliana_Hipolito_Mangifera_indica_Brazil_2005","1","insect collection","Vespidae spn","morphospecies","non_bee_hymenoptera",28,NA,2880,NA,"2 trees were selected in each field and insects were collected at 1 hour intervals over 24 hours",NA
"Juliana_Hipolito_Mangifera_indica_Brazil_2005","1","insect collection","Vespidae spn","morphospecies","non_bee_hymenoptera",2,NA,2880,NA,"2 trees were selected in each field and insects were collected at 1 hour intervals over 24 hours",NA
"Juliana_Hipolito_Mangifera_indica_Brazil_2005","2","insect collection","Vespidae spn","morphospecies","non_bee_hymenoptera",49,NA,1440,NA,"2 trees were selected in each field and insects were collected at 1 hour intervals over 24 hours",NA
"Juliana_Hipolito_Mangifera_indica_Brazil_2005","3","insect collection","Vespidae spn","morphospecies","non_bee_hymenoptera",34,NA,1440,NA,"2 trees were selected in each field and insects were collected at 1 hour intervals over 24 hours",NA
"Juliana_Hipolito_Mangifera_indica_Brazil_2005","4","insect collection","Vespidae spn","morphospecies","non_bee_hymenoptera",7,NA,1440,NA,"2 trees were selected in each field and insects were collected at 1 hour intervals over 24 hours",NA
"Juliana_Hipolito_Mangifera_indica_Brazil_2005","1","insect collection","Lepidoptera","order","lepidoptera",11,NA,2880,NA,"2 trees were selected in each field and insects were collected at 1 hour intervals over 24 hours",NA
"Juliana_Hipolito_Mangifera_indica_Brazil_2005","1","insect collection","Lepidoptera","order","lepidoptera",2,NA,2880,NA,"2 trees were selected in each field and insects were collected at 1 hour intervals over 24 hours",NA
"Juliana_Hipolito_Mangifera_indica_Brazil_2005","2","insect collection","Lepidoptera","order","lepidoptera",7,NA,1440,NA,"2 trees were selected in each field and insects were collected at 1 hour intervals over 24 hours",NA
"Juliana_Hipolito_Mangifera_indica_Brazil_2005","3","insect collection","Lepidoptera","order","lepidoptera",5,NA,1440,NA,"2 trees were selected in each field and insects were collected at 1 hour intervals over 24 hours",NA
"Juliana_Hipolito_Mangifera_indica_Brazil_2005","1","insect collection","Culicidae sp1","morphospecies","other_flies",1,NA,2880,NA,"2 trees were selected in each field and insects were collected at 1 hour intervals over 24 hours",NA
"Juliana_Hipolito_Mangifera_indica_Brazil_2005","1","insect collection","Culicidae sp2","morphospecies","other_flies",4,NA,2880,NA,"2 trees were selected in each field and insects were collected at 1 hour intervals over 24 hours",NA
"Juliana_Hipolito_Mangifera_indica_Brazil_2005","1","insect collection","Culicidae sp2","morphospecies","other_flies",3,NA,2880,NA,"2 trees were selected in each field and insects were collected at 1 hour intervals over 24 hours",NA
"Juliana_Hipolito_Mangifera_indica_Brazil_2005","1","insect collection","Culicidae sp3","morphospecies","other_flies",1,NA,2880,NA,"2 trees were selected in each field and insects were collected at 1 hour intervals over 24 hours",NA
"Juliana_Hipolito_Mangifera_indica_Brazil_2005","1","insect collection","Culicidae sp4","morphospecies","other_flies",1,NA,2880,NA,"2 trees were selected in each field and insects were collected at 1 hour intervals over 24 hours",NA
"Juliana_Hipolito_Mangifera_indica_Brazil_2005","1","insect collection","Culicidae sp4","morphospecies","other_flies",3,NA,2880,NA,"2 trees were selected in each field and insects were collected at 1 hour intervals over 24 hours",NA
"Juliana_Hipolito_Mangifera_indica_Brazil_2005","1","insect collection","Empididae sp","family","other_flies",286,NA,2880,NA,"2 trees were selected in each field and insects were collected at 1 hour intervals over 24 hours",NA
"Juliana_Hipolito_Mangifera_indica_Brazil_2005","1","insect collection","Empididae sp","family","other_flies",46,NA,2880,NA,"2 trees were selected in each field and insects were collected at 1 hour intervals over 24 hours",NA
"Juliana_Hipolito_Mangifera_indica_Brazil_2005","2","insect collection","Empididae sp","family","other_flies",4,NA,1440,NA,"2 trees were selected in each field and insects were collected at 1 hour intervals over 24 hours",NA
"Juliana_Hipolito_Mangifera_indica_Brazil_2005","3","insect collection","Empididae sp","family","other_flies",133,NA,1440,NA,"2 trees were selected in each field and insects were collected at 1 hour intervals over 24 hours",NA
"Juliana_Hipolito_Mangifera_indica_Brazil_2005","4","insect collection","Empididae sp","family","other_flies",46,NA,1440,NA,"2 trees were selected in each field and insects were collected at 1 hour intervals over 24 hours",NA
"Juliana_Hipolito_Mangifera_indica_Brazil_2005","1","insect collection","Dolichopodidae","family","other_flies",2,NA,2880,NA,"2 trees were selected in each field and insects were collected at 1 hour intervals over 24 hours",NA
"Juliana_Hipolito_Mangifera_indica_Brazil_2005","3","insect collection","Dolichopodidae","family","other_flies",1,NA,1440,NA,"2 trees were selected in each field and insects were collected at 1 hour intervals over 24 hours",NA
"Juliana_Hipolito_Mangifera_indica_Brazil_2005","4","insect collection","Dolichopodidae","family","other_flies",4,NA,1440,NA,"2 trees were selected in each field and insects were collected at 1 hour intervals over 24 hours",NA
"Juliana_Hipolito_Mangifera_indica_Brazil_2005","1","insect collection","Milichiidae","family","other_flies",2,NA,2880,NA,"2 trees were selected in each field and insects were collected at 1 hour intervals over 24 hours",NA
"Juliana_Hipolito_Mangifera_indica_Brazil_2005","3","insect collection","Milichiidae","family","other_flies",4,NA,1440,NA,"2 trees were selected in each field and insects were collected at 1 hour intervals over 24 hours",NA
"Juliana_Hipolito_Mangifera_indica_Brazil_2005","1","insect collection","Muscidae","family","other_flies",197,NA,2880,NA,"2 trees were selected in each field and insects were collected at 1 hour intervals over 24 hours",NA
"Juliana_Hipolito_Mangifera_indica_Brazil_2005","1","insect collection","Muscidae","family","other_flies",23,NA,2880,NA,"2 trees were selected in each field and insects were collected at 1 hour intervals over 24 hours",NA
"Juliana_Hipolito_Mangifera_indica_Brazil_2005","2","insect collection","Muscidae","family","other_flies",36,NA,1440,NA,"2 trees were selected in each field and insects were collected at 1 hour intervals over 24 hours",NA
"Juliana_Hipolito_Mangifera_indica_Brazil_2005","3","insect collection","Muscidae","family","other_flies",26,NA,1440,NA,"2 trees were selected in each field and insects were collected at 1 hour intervals over 24 hours",NA
"Juliana_Hipolito_Mangifera_indica_Brazil_2005","4","insect collection","Muscidae","family","other_flies",26,NA,1440,NA,"2 trees were selected in each field and insects were collected at 1 hour intervals over 24 hours",NA
"Juliana_Hipolito_Mangifera_indica_Brazil_2005","1","insect collection","Otitidae","family","other_flies",2,NA,2880,NA,"2 trees were selected in each field and insects were collected at 1 hour intervals over 24 hours",NA
"Juliana_Hipolito_Mangifera_indica_Brazil_2005","1","insect collection","Sarcophagidae","family","other_flies",1,NA,2880,NA,"2 trees were selected in each field and insects were collected at 1 hour intervals over 24 hours",NA
"Juliana_Hipolito_Mangifera_indica_Brazil_2005","2","insect collection","Sarcophagidae","family","other_flies",1,NA,1440,NA,"2 trees were selected in each field and insects were collected at 1 hour intervals over 24 hours",NA
"Juliana_Hipolito_Mangifera_indica_Brazil_2005","3","insect collection","Sarcophagidae","family","other_flies",1,NA,1440,NA,"2 trees were selected in each field and insects were collected at 1 hour intervals over 24 hours",NA
"Juliana_Hipolito_Mangifera_indica_Brazil_2005","1","insect collection","Stratiomyoidae","family","syrphids",1,NA,2880,NA,"2 trees were selected in each field and insects were collected at 1 hour intervals over 24 hours",NA
"Juliana_Hipolito_Mangifera_indica_Brazil_2005","1","insect collection","Syrphus sp","genus","syrphids",2,NA,2880,NA,"2 trees were selected in each field and insects were collected at 1 hour intervals over 24 hours",NA
"Juliana_Hipolito_Mangifera_indica_Brazil_2005","2","insect collection","Syrphus sp","genus","syrphids",1,NA,1440,NA,"2 trees were selected in each field and insects were collected at 1 hour intervals over 24 hours",NA
"Juliana_Hipolito_Mangifera_indica_Brazil_2005","3","insect collection","Syrphidae","family","syrphids",1,NA,1440,NA,"2 trees were selected in each field and insects were collected at 1 hour intervals over 24 hours",NA
"Juliana_Hipolito_Mangifera_indica_Brazil_2005","3","insect collection","Salpinigaster sp","genus","syrphids",1,NA,1440,NA,"2 trees were selected in each field and insects were collected at 1 hour intervals over 24 hours",NA
"Juliana_Hipolito_Mangifera_indica_Brazil_2005","1","insect collection","Tachinidae","family","other_flies",1,NA,2880,NA,"2 trees were selected in each field and insects were collected at 1 hour intervals over 24 hours",NA
"Juliana_Hipolito_Mangifera_indica_Brazil_2005","3","insect collection","Tachinidae","family","other_flies",1,NA,1440,NA,"2 trees were selected in each field and insects were collected at 1 hour intervals over 24 hours",NA
"Juliana_Hipolito_Mangifera_indica_Brazil_2005","1","insect collection","Tanypezidae","family","other_flies",1,NA,2880,NA,"2 trees were selected in each field and insects were collected at 1 hour intervals over 24 hours",NA
"Juliana_Hipolito_Mangifera_indica_Brazil_2005","1","insect collection","Tephritidae","family","other_flies",38,NA,2880,NA,"2 trees were selected in each field and insects were collected at 1 hour intervals over 24 hours",NA
"Juliana_Hipolito_Mangifera_indica_Brazil_2005","2","insect collection","Tephritidae","family","other_flies",5,NA,1440,NA,"2 trees were selected in each field and insects were collected at 1 hour intervals over 24 hours",NA
"Juliana_Hipolito_Mangifera_indica_Brazil_2005","3","insect collection","Tephritidae","family","other_flies",5,NA,1440,NA,"2 trees were selected in each field and insects were collected at 1 hour intervals over 24 hours",NA
"Juliana_Hipolito_Mangifera_indica_Brazil_2005","4","insect collection","Tephritidae","family","other_flies",1,NA,1440,NA,"2 trees were selected in each field and insects were collected at 1 hour intervals over 24 hours",NA
"Juliana_Hipolito_Mangifera_indica_Brazil_2005","1","insect collection","Tipulidaesp","family","other_flies",6,NA,2880,NA,"2 trees were selected in each field and insects were collected at 1 hour intervals over 24 hours",NA
"Juliana_Hipolito_Mangifera_indica_Brazil_2005","1","insect collection","Tipulidaesp","family","other_flies",1,NA,2880,NA,"2 trees were selected in each field and insects were collected at 1 hour intervals over 24 hours",NA
"Juliana_Hipolito_Mangifera_indica_Brazil_2005","3","insect collection","Tipulidaesp","family","other_flies",1,NA,1440,NA,"2 trees were selected in each field and insects were collected at 1 hour intervals over 24 hours",NA
"Juliana_Hipolito_Mangifera_indica_Brazil_2005","4","insect collection","Tipulidaesp","family","other_flies",2,NA,1440,NA,"2 trees were selected in each field and insects were collected at 1 hour intervals over 24 hours",NA
"Juliana_Hipolito_Mangifera_indica_Brazil_2005","1","insect collection","Chironomidae sp.","family","other_flies",2,NA,2880,NA,"2 trees were selected in each field and insects were collected at 1 hour intervals over 24 hours",NA
"Juliana_Hipolito_Mangifera_indica_Brazil_2005","1","insect collection","Chironomidae sp.","family","other_flies",1,NA,2880,NA,"2 trees were selected in each field and insects were collected at 1 hour intervals over 24 hours",NA
"Juliana_Hipolito_Mangifera_indica_Brazil_2005","2","insect collection","Chironomidae sp.","family","other_flies",2,NA,1440,NA,"2 trees were selected in each field and insects were collected at 1 hour intervals over 24 hours",NA
"Juliana_Hipolito_Mangifera_indica_Brazil_2005","3","insect collection","Chironomidae sp.","family","other_flies",3,NA,1440,NA,"2 trees were selected in each field and insects were collected at 1 hour intervals over 24 hours",NA
"Juliana_Hipolito_Mangifera_indica_Brazil_2005","1","insect collection","Calliphoridae sp.","family","other_flies",21,NA,2880,NA,"2 trees were selected in each field and insects were collected at 1 hour intervals over 24 hours",NA
"Juliana_Hipolito_Mangifera_indica_Brazil_2005","1","insect collection","Calliphoridae sp.","family","other_flies",5,NA,2880,NA,"2 trees were selected in each field and insects were collected at 1 hour intervals over 24 hours",NA
"Juliana_Hipolito_Mangifera_indica_Brazil_2005","2","insect collection","Calliphoridae sp.","family","other_flies",7,NA,1440,NA,"2 trees were selected in each field and insects were collected at 1 hour intervals over 24 hours",NA
"Juliana_Hipolito_Mangifera_indica_Brazil_2005","3","insect collection","Calliphoridae sp.","family","other_flies",10,NA,1440,NA,"2 trees were selected in each field and insects were collected at 1 hour intervals over 24 hours",NA
"Juliana_Hipolito_Mangifera_indica_Brazil_2005","4","insect collection","Calliphoridae sp.","family","other_flies",23,NA,1440,NA,"2 trees were selected in each field and insects were collected at 1 hour intervals over 24 hours",NA
"Juliana_Hipolito_Mangifera_indica_Brazil_2005","1","insect collection","Diptera","order","other_flies",18,NA,2880,NA,"2 trees were selected in each field and insects were collected at 1 hour intervals over 24 hours",NA
"Juliana_Hipolito_Mangifera_indica_Brazil_2005","2","insect collection","Diptera","order","other_flies",1,NA,1440,NA,"2 trees were selected in each field and insects were collected at 1 hour intervals over 24 hours",NA
"Katherine_LW_Burns_Malus_domestica_Ireland_2018","c.IAJ.C","transects","Bombus lucorum agg","morphospecies","bumblebees",15,2400,57,NA,"3 sampling rounds in one season; one 200mx4m observation transect per plot",NA
"Katherine_LW_Burns_Malus_domestica_Ireland_2018","c.IAJ.C","transects","Apis mellifera","species","honeybees",148,2400,57,NA,"3 sampling rounds in one season; one 200mx4m observation transect per plot",NA
"Katherine_LW_Burns_Malus_domestica_Ireland_2018","c.IAJ.C","transects","Andrena haemorrhoa","species","other_wild_bees",2,2400,57,NA,"3 sampling rounds in one season; one 200mx4m observation transect per plot",NA
"Katherine_LW_Burns_Malus_domestica_Ireland_2018","c.IAJ.C","transects","Lasioglossum sp1","morphospecies","other_wild_bees",1,2400,57,NA,"3 sampling rounds in one season; one 200mx4m observation transect per plot",NA
"Katherine_LW_Burns_Malus_domestica_Ireland_2018","c.IAJ.E","transects","Bombus lucorum agg","morphospecies","bumblebees",9,2400,53,NA,"3 sampling rounds in one season; one 200mx4m observation transect per plot",NA
"Katherine_LW_Burns_Malus_domestica_Ireland_2018","c.IAJ.E","transects","Bombus pascuorum","species","bumblebees",1,2400,53,NA,"3 sampling rounds in one season; one 200mx4m observation transect per plot",NA
"Katherine_LW_Burns_Malus_domestica_Ireland_2018","c.IAJ.E","transects","Apis mellifera","species","honeybees",76,2400,53,NA,"3 sampling rounds in one season; one 200mx4m observation transect per plot",NA
"Katherine_LW_Burns_Malus_domestica_Ireland_2018","c.IAJ.E","transects","Eristalis intricarius","species","syrphids",1,2400,53,NA,"3 sampling rounds in one season; one 200mx4m observation transect per plot",NA
"Katherine_LW_Burns_Malus_domestica_Ireland_2018","c.IAJ.E","transects","Eristalis","genus","syrphids",1,2400,53,NA,"3 sampling rounds in one season; one 200mx4m observation transect per plot",NA
"Katherine_LW_Burns_Malus_domestica_Ireland_2018","c.IAJ.E","transects","Rhingia campestris","species","syrphids",2,2400,53,NA,"3 sampling rounds in one season; one 200mx4m observation transect per plot",NA
"Katherine_LW_Burns_Malus_domestica_Ireland_2018","c.IAJ.E","transects","Vespula sp1","morphospecies","non_bee_hymenoptera",1,2400,53,NA,"3 sampling rounds in one season; one 200mx4m observation transect per plot",NA
"Katherine_LW_Burns_Malus_domestica_Ireland_2018","c.IAJ.E","transects","Andrena haemorrhoa","species","other_wild_bees",2,2400,53,NA,"3 sampling rounds in one season; one 200mx4m observation transect per plot",NA
"Katherine_LW_Burns_Malus_domestica_Ireland_2018","c.IAJ.E","transects","Halictidae","family","other_wild_bees",1,2400,53,NA,"3 sampling rounds in one season; one 200mx4m observation transect per plot",NA
"Katherine_LW_Burns_Malus_domestica_Ireland_2018","c.LHO.C","transects","Bombus lucorum agg","morphospecies","bumblebees",5,2400,52,NA,"3 sampling rounds in one season; one 200mx4m observation transect per plot",NA
"Katherine_LW_Burns_Malus_domestica_Ireland_2018","c.LHO.C","transects","Apis mellifera","species","honeybees",93,2400,52,NA,"3 sampling rounds in one season; one 200mx4m observation transect per plot",NA
"Katherine_LW_Burns_Malus_domestica_Ireland_2018","c.LHO.C","transects","Eristalis pertinax","species","syrphids",2,2400,52,NA,"3 sampling rounds in one season; one 200mx4m observation transect per plot",NA
"Katherine_LW_Burns_Malus_domestica_Ireland_2018","c.LHO.C","transects","Eristalis","genus","syrphids",9,2400,52,NA,"3 sampling rounds in one season; one 200mx4m observation transect per plot",NA
"Katherine_LW_Burns_Malus_domestica_Ireland_2018","c.LHO.C","transects","Helophilus pendulus","species","syrphids",1,2400,52,NA,"3 sampling rounds in one season; one 200mx4m observation transect per plot",NA
"Katherine_LW_Burns_Malus_domestica_Ireland_2018","c.LHO.C","transects","Helophilus","genus","syrphids",4,2400,52,NA,"3 sampling rounds in one season; one 200mx4m observation transect per plot",NA
"Katherine_LW_Burns_Malus_domestica_Ireland_2018","c.LHO.C","transects","Platycheirus albimanus","species","syrphids",1,2400,52,NA,"3 sampling rounds in one season; one 200mx4m observation transect per plot",NA
"Katherine_LW_Burns_Malus_domestica_Ireland_2018","c.LHO.C","transects","Diptera","order","other_flies",4,2400,52,NA,"3 sampling rounds in one season; one 200mx4m observation transect per plot",NA
"Katherine_LW_Burns_Malus_domestica_Ireland_2018","c.LHO.C","transects","Andrena cineraria","species","other_wild_bees",1,2400,52,NA,"3 sampling rounds in one season; one 200mx4m observation transect per plot",NA
"Katherine_LW_Burns_Malus_domestica_Ireland_2018","c.LHO.C","transects","Andrena haemorrhoa","species","other_wild_bees",6,2400,52,NA,"3 sampling rounds in one season; one 200mx4m observation transect per plot",NA
"Katherine_LW_Burns_Malus_domestica_Ireland_2018","c.LHO.C","transects","Andrena","genus","other_wild_bees",1,2400,52,NA,"3 sampling rounds in one season; one 200mx4m observation transect per plot",NA
"Katherine_LW_Burns_Malus_domestica_Ireland_2018","c.LHO.E","transects","Bombus lucorum agg","morphospecies","bumblebees",7,2400,65,NA,"3 sampling rounds in one season; one 200mx4m observation transect per plot",NA
"Katherine_LW_Burns_Malus_domestica_Ireland_2018","c.LHO.E","transects","Bombus pascuorum","species","bumblebees",1,2400,65,NA,"3 sampling rounds in one season; one 200mx4m observation transect per plot",NA
"Katherine_LW_Burns_Malus_domestica_Ireland_2018","c.LHO.E","transects","Apis mellifera","species","honeybees",31,2400,65,NA,"3 sampling rounds in one season; one 200mx4m observation transect per plot",NA
"Katherine_LW_Burns_Malus_domestica_Ireland_2018","c.LHO.E","transects","Eristalis pertinax","species","syrphids",2,2400,65,NA,"3 sampling rounds in one season; one 200mx4m observation transect per plot",NA
"Katherine_LW_Burns_Malus_domestica_Ireland_2018","c.LHO.E","transects","Eristalis","genus","syrphids",4,2400,65,NA,"3 sampling rounds in one season; one 200mx4m observation transect per plot",NA
"Katherine_LW_Burns_Malus_domestica_Ireland_2018","c.LHO.E","transects","Helophilus","genus","syrphids",1,2400,65,NA,"3 sampling rounds in one season; one 200mx4m observation transect per plot",NA
"Katherine_LW_Burns_Malus_domestica_Ireland_2018","c.LHO.E","transects","Diptera","order","other_flies",2,2400,65,NA,"3 sampling rounds in one season; one 200mx4m observation transect per plot",NA
"Katherine_LW_Burns_Malus_domestica_Ireland_2018","c.LHO.E","transects","Vespula sp1","morphospecies","non_bee_hymenoptera",2,2400,65,NA,"3 sampling rounds in one season; one 200mx4m observation transect per plot",NA
"Katherine_LW_Burns_Malus_domestica_Ireland_2018","c.LHO.E","transects","Andrena haemorrhoa","species","other_wild_bees",1,2400,65,NA,"3 sampling rounds in one season; one 200mx4m observation transect per plot",NA
"Katherine_LW_Burns_Malus_domestica_Ireland_2018","c.LHO.E","transects","Andrena","genus","other_wild_bees",2,2400,65,NA,"3 sampling rounds in one season; one 200mx4m observation transect per plot",NA
"Katherine_LW_Burns_Malus_domestica_Ireland_2018","c.LHO.E","transects","Hymenoptera","order","other_wild_bees",1,2400,65,NA,"3 sampling rounds in one season; one 200mx4m observation transect per plot",NA
"Katherine_LW_Burns_Malus_domestica_Ireland_2018","c.LWO.C","transects","Bombus lucorum agg","morphospecies","bumblebees",10,2400,56,NA,"3 sampling rounds in one season; one 200mx4m observation transect per plot",NA
"Katherine_LW_Burns_Malus_domestica_Ireland_2018","c.LWO.C","transects","Apis mellifera","species","honeybees",141,2400,56,NA,"3 sampling rounds in one season; one 200mx4m observation transect per plot",NA
"Katherine_LW_Burns_Malus_domestica_Ireland_2018","c.LWO.E","transects","Bombus hortorum","species","bumblebees",1,2400,56,NA,"3 sampling rounds in one season; one 200mx4m observation transect per plot",NA
"Katherine_LW_Burns_Malus_domestica_Ireland_2018","c.LWO.E","transects","Bombus lucorum agg","morphospecies","bumblebees",3,2400,56,NA,"3 sampling rounds in one season; one 200mx4m observation transect per plot",NA
"Katherine_LW_Burns_Malus_domestica_Ireland_2018","c.LWO.E","transects","Bombus pratorum","species","bumblebees",1,2400,56,NA,"3 sampling rounds in one season; one 200mx4m observation transect per plot",NA
"Katherine_LW_Burns_Malus_domestica_Ireland_2018","c.LWO.E","transects","Apis mellifera","species","honeybees",50,2400,56,NA,"3 sampling rounds in one season; one 200mx4m observation transect per plot",NA
"Katherine_LW_Burns_Malus_domestica_Ireland_2018","c.LWO.E","transects","Eristalis","genus","syrphids",1,2400,56,NA,"3 sampling rounds in one season; one 200mx4m observation transect per plot",NA
"Katherine_LW_Burns_Malus_domestica_Ireland_2018","c.LWO.E","transects","Syrphidae","family","syrphids",1,2400,56,NA,"3 sampling rounds in one season; one 200mx4m observation transect per plot",NA
"Katherine_LW_Burns_Malus_domestica_Ireland_2018","c.LWO.E","transects","Rhingia campestris","species","syrphids",2,2400,56,NA,"3 sampling rounds in one season; one 200mx4m observation transect per plot",NA
"Katherine_LW_Burns_Malus_domestica_Ireland_2018","c.LWO.E","transects","Diptera","order","other_flies",1,2400,56,NA,"3 sampling rounds in one season; one 200mx4m observation transect per plot",NA
"Katherine_LW_Burns_Malus_domestica_Ireland_2018","c.LWO.E","transects","Tipula sp1","morphospecies","other_flies",1,2400,56,NA,"3 sampling rounds in one season; one 200mx4m observation transect per plot",NA
"Katherine_LW_Burns_Malus_domestica_Ireland_2018","c.LWO.E","transects","Andrena haemorrhoa","species","other_wild_bees",3,2400,56,NA,"3 sampling rounds in one season; one 200mx4m observation transect per plot",NA
"Katherine_LW_Burns_Malus_domestica_Ireland_2018","c.LWO.E","transects","Nomada","genus","other_wild_bees",1,2400,56,NA,"3 sampling rounds in one season; one 200mx4m observation transect per plot",NA
"Katherine_LW_Burns_Malus_domestica_Ireland_2018","c.LWO.E","transects","Sphecodes sp1","morphospecies","other_wild_bees",1,2400,56,NA,"3 sampling rounds in one season; one 200mx4m observation transect per plot",NA
"Katherine_LW_Burns_Malus_domestica_Ireland_2018","c.LWO.E","transects","Hymenoptera","order","other_wild_bees",1,2400,56,NA,"3 sampling rounds in one season; one 200mx4m observation transect per plot",NA
"Katherine_LW_Burns_Malus_domestica_Ireland_2018","c.MFO.C","transects","Bombus lucorum agg","morphospecies","bumblebees",4,2400,58,NA,"3 sampling rounds in one season; one 200mx4m observation transect per plot",NA
"Katherine_LW_Burns_Malus_domestica_Ireland_2018","c.MFO.C","transects","Bombus pratorum","species","bumblebees",1,2400,58,NA,"3 sampling rounds in one season; one 200mx4m observation transect per plot",NA
"Katherine_LW_Burns_Malus_domestica_Ireland_2018","c.MFO.C","transects","Apis mellifera","species","honeybees",36,2400,58,NA,"3 sampling rounds in one season; one 200mx4m observation transect per plot",NA
"Katherine_LW_Burns_Malus_domestica_Ireland_2018","c.MFO.C","transects","Eristalis pertinax","species","syrphids",1,2400,58,NA,"3 sampling rounds in one season; one 200mx4m observation transect per plot",NA
"Katherine_LW_Burns_Malus_domestica_Ireland_2018","c.MFO.C","transects","Eristalis","genus","syrphids",2,2400,58,NA,"3 sampling rounds in one season; one 200mx4m observation transect per plot",NA
"Katherine_LW_Burns_Malus_domestica_Ireland_2018","c.MFO.C","transects","Andrena","genus","other_wild_bees",2,2400,58,NA,"3 sampling rounds in one season; one 200mx4m observation transect per plot",NA
"Katherine_LW_Burns_Malus_domestica_Ireland_2018","c.MFO.E","transects","Bombus lapidarius","species","bumblebees",1,2400,53,NA,"3 sampling rounds in one season; one 200mx4m observation transect per plot",NA
"Katherine_LW_Burns_Malus_domestica_Ireland_2018","c.MFO.E","transects","Bombus lucorum agg","morphospecies","bumblebees",5,2400,53,NA,"3 sampling rounds in one season; one 200mx4m observation transect per plot",NA
"Katherine_LW_Burns_Malus_domestica_Ireland_2018","c.MFO.E","transects","Apis mellifera","species","honeybees",25,2400,53,NA,"3 sampling rounds in one season; one 200mx4m observation transect per plot",NA
"Katherine_LW_Burns_Malus_domestica_Ireland_2018","c.MFO.E","transects","Eristalis pertinax","species","syrphids",1,2400,53,NA,"3 sampling rounds in one season; one 200mx4m observation transect per plot",NA
"Katherine_LW_Burns_Malus_domestica_Ireland_2018","c.MFO.E","transects","Eristalis","genus","syrphids",2,2400,53,NA,"3 sampling rounds in one season; one 200mx4m observation transect per plot",NA
"Katherine_LW_Burns_Malus_domestica_Ireland_2018","c.MFO.E","transects","Rhingia campestris","species","syrphids",2,2400,53,NA,"3 sampling rounds in one season; one 200mx4m observation transect per plot",NA
"Katherine_LW_Burns_Malus_domestica_Ireland_2018","c.MFO.E","transects","Andrena haemorrhoa","species","other_wild_bees",2,2400,53,NA,"3 sampling rounds in one season; one 200mx4m observation transect per plot",NA
"Katherine_LW_Burns_Malus_domestica_Ireland_2018","c.MFO.E","transects","Andrena","genus","other_wild_bees",1,2400,53,NA,"3 sampling rounds in one season; one 200mx4m observation transect per plot",NA
"Katherine_LW_Burns_Malus_domestica_Ireland_2018","d.BAF.C","transects","Bombus hortorum","species","bumblebees",1,3200,88,NA,"4 sampling rounds in one season; one 200mx4m observation transect per plot",NA
"Katherine_LW_Burns_Malus_domestica_Ireland_2018","d.BAF.C","transects","Bombus lucorum agg","morphospecies","bumblebees",51,3200,88,NA,"4 sampling rounds in one season; one 200mx4m observation transect per plot",NA
"Katherine_LW_Burns_Malus_domestica_Ireland_2018","d.BAF.C","transects","Bombus pascuorum","species","bumblebees",2,3200,88,NA,"4 sampling rounds in one season; one 200mx4m observation transect per plot",NA
"Katherine_LW_Burns_Malus_domestica_Ireland_2018","d.BAF.C","transects","Apis mellifera","species","honeybees",14,3200,88,NA,"4 sampling rounds in one season; one 200mx4m observation transect per plot",NA
"Katherine_LW_Burns_Malus_domestica_Ireland_2018","d.BAF.C","transects","Eristalis pertinax","species","syrphids",1,3200,88,NA,"4 sampling rounds in one season; one 200mx4m observation transect per plot",NA
"Katherine_LW_Burns_Malus_domestica_Ireland_2018","d.BAF.C","transects","Eristalis","genus","syrphids",7,3200,88,NA,"4 sampling rounds in one season; one 200mx4m observation transect per plot",NA
"Katherine_LW_Burns_Malus_domestica_Ireland_2018","d.BAF.C","transects","Helophilus pendulus","species","syrphids",1,3200,88,NA,"4 sampling rounds in one season; one 200mx4m observation transect per plot",NA
"Katherine_LW_Burns_Malus_domestica_Ireland_2018","d.BAF.C","transects","Helophilus trivittatus","species","syrphids",1,3200,88,NA,"4 sampling rounds in one season; one 200mx4m observation transect per plot",NA
"Katherine_LW_Burns_Malus_domestica_Ireland_2018","d.BAF.C","transects","Helophilus","genus","syrphids",1,3200,88,NA,"4 sampling rounds in one season; one 200mx4m observation transect per plot",NA
"Katherine_LW_Burns_Malus_domestica_Ireland_2018","d.BAF.C","transects","Syrphidae","family","syrphids",2,3200,88,NA,"4 sampling rounds in one season; one 200mx4m observation transect per plot",NA
"Katherine_LW_Burns_Malus_domestica_Ireland_2018","d.BAF.C","transects","Platycheirus albimanus","species","syrphids",3,3200,88,NA,"4 sampling rounds in one season; one 200mx4m observation transect per plot",NA
"Katherine_LW_Burns_Malus_domestica_Ireland_2018","d.BAF.C","transects","Rhingia campestris","species","syrphids",3,3200,88,NA,"4 sampling rounds in one season; one 200mx4m observation transect per plot",NA
"Katherine_LW_Burns_Malus_domestica_Ireland_2018","d.BAF.C","transects","Diptera","order","other_flies",2,3200,88,NA,"4 sampling rounds in one season; one 200mx4m observation transect per plot",NA
"Katherine_LW_Burns_Malus_domestica_Ireland_2018","d.BAF.C","transects","Vanessa atalanta","species","lepidoptera",1,3200,88,NA,"4 sampling rounds in one season; one 200mx4m observation transect per plot",NA
"Katherine_LW_Burns_Malus_domestica_Ireland_2018","d.BAF.C","transects","Andrena cineraria","species","other_wild_bees",3,3200,88,NA,"4 sampling rounds in one season; one 200mx4m observation transect per plot",NA
"Katherine_LW_Burns_Malus_domestica_Ireland_2018","d.BAF.C","transects","Andrena haemorrhoa","species","other_wild_bees",3,3200,88,NA,"4 sampling rounds in one season; one 200mx4m observation transect per plot",NA
"Katherine_LW_Burns_Malus_domestica_Ireland_2018","d.BAF.C","transects","Andrena","genus","other_wild_bees",1,3200,88,NA,"4 sampling rounds in one season; one 200mx4m observation transect per plot",NA
"Katherine_LW_Burns_Malus_domestica_Ireland_2018","d.BAF.C","transects","Nomada","genus","other_wild_bees",1,3200,88,NA,"4 sampling rounds in one season; one 200mx4m observation transect per plot",NA
"Katherine_LW_Burns_Malus_domestica_Ireland_2018","d.BAF.C","transects","Hymenoptera","order","other_wild_bees",3,3200,88,NA,"4 sampling rounds in one season; one 200mx4m observation transect per plot",NA
"Katherine_LW_Burns_Malus_domestica_Ireland_2018","d.BAF.E","transects","Bombus lucorum agg","morphospecies","bumblebees",45,3200,74,NA,"4 sampling rounds in one season; one 200mx4m observation transect per plot",NA
"Katherine_LW_Burns_Malus_domestica_Ireland_2018","d.BAF.E","transects","Bombus pascuorum","species","bumblebees",2,3200,74,NA,"4 sampling rounds in one season; one 200mx4m observation transect per plot",NA
"Katherine_LW_Burns_Malus_domestica_Ireland_2018","d.BAF.E","transects","Bombus pratorum","species","bumblebees",5,3200,74,NA,"4 sampling rounds in one season; one 200mx4m observation transect per plot",NA
"Katherine_LW_Burns_Malus_domestica_Ireland_2018","d.BAF.E","transects","Apis mellifera","species","honeybees",2,3200,74,NA,"4 sampling rounds in one season; one 200mx4m observation transect per plot",NA
"Katherine_LW_Burns_Malus_domestica_Ireland_2018","d.BAF.E","transects","Eristalis pertinax","species","syrphids",2,3200,74,NA,"4 sampling rounds in one season; one 200mx4m observation transect per plot",NA
"Katherine_LW_Burns_Malus_domestica_Ireland_2018","d.BAF.E","transects","Eristalis","genus","syrphids",3,3200,74,NA,"4 sampling rounds in one season; one 200mx4m observation transect per plot",NA
"Katherine_LW_Burns_Malus_domestica_Ireland_2018","d.BAF.E","transects","Helophilus pendulus","species","syrphids",1,3200,74,NA,"4 sampling rounds in one season; one 200mx4m observation transect per plot",NA
"Katherine_LW_Burns_Malus_domestica_Ireland_2018","d.BAF.E","transects","Syrphidae","family","syrphids",1,3200,74,NA,"4 sampling rounds in one season; one 200mx4m observation transect per plot",NA
"Katherine_LW_Burns_Malus_domestica_Ireland_2018","d.BAF.E","transects","Rhingia campestris","species","syrphids",8,3200,74,NA,"4 sampling rounds in one season; one 200mx4m observation transect per plot",NA
"Katherine_LW_Burns_Malus_domestica_Ireland_2018","d.BAF.E","transects","Syrphus ribesii","species","syrphids",2,3200,74,NA,"4 sampling rounds in one season; one 200mx4m observation transect per plot",NA
"Katherine_LW_Burns_Malus_domestica_Ireland_2018","d.BAF.E","transects","Coleoptera","order","beetles",1,3200,74,NA,"4 sampling rounds in one season; one 200mx4m observation transect per plot",NA
"Katherine_LW_Burns_Malus_domestica_Ireland_2018","d.BAF.E","transects","Diptera","order","other_flies",1,3200,74,NA,"4 sampling rounds in one season; one 200mx4m observation transect per plot",NA
"Katherine_LW_Burns_Malus_domestica_Ireland_2018","d.BAF.E","transects","Andrena cineraria","species","other_wild_bees",1,3200,74,NA,"4 sampling rounds in one season; one 200mx4m observation transect per plot",NA
"Katherine_LW_Burns_Malus_domestica_Ireland_2018","d.BAF.E","transects","Andrena haemorrhoa","species","other_wild_bees",3,3200,74,NA,"4 sampling rounds in one season; one 200mx4m observation transect per plot",NA
"Katherine_LW_Burns_Malus_domestica_Ireland_2018","d.BAF.E","transects","Nomada marshamella","species","other_wild_bees",1,3200,74,NA,"4 sampling rounds in one season; one 200mx4m observation transect per plot",NA
"Katherine_LW_Burns_Malus_domestica_Ireland_2018","d.BAF.E","transects","Colletes succinctus","species","other_wild_bees",1,3200,74,NA,"4 sampling rounds in one season; one 200mx4m observation transect per plot",NA
"Katherine_LW_Burns_Malus_domestica_Ireland_2018","d.IAJ.C","transects","Bombus lapidarius","species","bumblebees",1,3200,91,NA,"4 sampling rounds in one season; one 200mx4m observation transect per plot",NA
"Katherine_LW_Burns_Malus_domestica_Ireland_2018","d.IAJ.C","transects","Bombus lucorum agg","morphospecies","bumblebees",7,3200,91,NA,"4 sampling rounds in one season; one 200mx4m observation transect per plot",NA
"Katherine_LW_Burns_Malus_domestica_Ireland_2018","d.IAJ.C","transects","Apis mellifera","species","honeybees",10,3200,91,NA,"4 sampling rounds in one season; one 200mx4m observation transect per plot",NA
"Katherine_LW_Burns_Malus_domestica_Ireland_2018","d.IAJ.C","transects","Diptera","order","other_flies",3,3200,91,NA,"4 sampling rounds in one season; one 200mx4m observation transect per plot",NA
"Katherine_LW_Burns_Malus_domestica_Ireland_2018","d.IAJ.C","transects","Eristalis arbustorum","species","syrphids",1,3200,91,NA,"4 sampling rounds in one season; one 200mx4m observation transect per plot",NA
"Katherine_LW_Burns_Malus_domestica_Ireland_2018","d.IAJ.C","transects","Eristalis nemorum","species","syrphids",1,3200,91,NA,"4 sampling rounds in one season; one 200mx4m observation transect per plot",NA
"Katherine_LW_Burns_Malus_domestica_Ireland_2018","d.IAJ.C","transects","Eristalis pertinax","species","syrphids",4,3200,91,NA,"4 sampling rounds in one season; one 200mx4m observation transect per plot",NA
"Katherine_LW_Burns_Malus_domestica_Ireland_2018","d.IAJ.C","transects","Eristalis","genus","syrphids",4,3200,91,NA,"4 sampling rounds in one season; one 200mx4m observation transect per plot",NA
"Katherine_LW_Burns_Malus_domestica_Ireland_2018","d.IAJ.C","transects","Helophilus","genus","syrphids",2,3200,91,NA,"4 sampling rounds in one season; one 200mx4m observation transect per plot",NA
"Katherine_LW_Burns_Malus_domestica_Ireland_2018","d.IAJ.C","transects","Helophilus","genus","syrphids",1,3200,91,NA,"4 sampling rounds in one season; one 200mx4m observation transect per plot",NA
"Katherine_LW_Burns_Malus_domestica_Ireland_2018","d.IAJ.C","transects","Melanostoma scalare","species","syrphids",1,3200,91,NA,"4 sampling rounds in one season; one 200mx4m observation transect per plot",NA
"Katherine_LW_Burns_Malus_domestica_Ireland_2018","d.IAJ.C","transects","Syrphidae","family","syrphids",4,3200,91,NA,"4 sampling rounds in one season; one 200mx4m observation transect per plot",NA
"Katherine_LW_Burns_Malus_domestica_Ireland_2018","d.IAJ.C","transects","Platycheirus albimanus","species","syrphids",5,3200,91,NA,"4 sampling rounds in one season; one 200mx4m observation transect per plot",NA
"Katherine_LW_Burns_Malus_domestica_Ireland_2018","d.IAJ.E","transects","Andrena haemorrhoa","species","other_wild_bees",4,3200,91,NA,"4 sampling rounds in one season; one 200mx4m observation transect per plot",NA
"Katherine_LW_Burns_Malus_domestica_Ireland_2018","d.IAJ.E","transects","Bombus lapidarius","species","bumblebees",1,3200,79,NA,"4 sampling rounds in one season; one 200mx4m observation transect per plot",NA
"Katherine_LW_Burns_Malus_domestica_Ireland_2018","d.IAJ.E","transects","Bombus lucorum agg","morphospecies","bumblebees",11,3200,79,NA,"4 sampling rounds in one season; one 200mx4m observation transect per plot",NA
"Katherine_LW_Burns_Malus_domestica_Ireland_2018","d.IAJ.E","transects","Bombus pratorum","species","bumblebees",1,3200,79,NA,"4 sampling rounds in one season; one 200mx4m observation transect per plot",NA
"Katherine_LW_Burns_Malus_domestica_Ireland_2018","d.IAJ.E","transects","Apis mellifera","species","honeybees",14,3200,79,NA,"4 sampling rounds in one season; one 200mx4m observation transect per plot",NA
"Katherine_LW_Burns_Malus_domestica_Ireland_2018","d.IAJ.E","transects","Eristalis intricarius","species","syrphids",1,3200,79,NA,"4 sampling rounds in one season; one 200mx4m observation transect per plot",NA
"Katherine_LW_Burns_Malus_domestica_Ireland_2018","d.IAJ.E","transects","Eristalis pertinax","species","syrphids",2,3200,79,NA,"4 sampling rounds in one season; one 200mx4m observation transect per plot",NA
"Katherine_LW_Burns_Malus_domestica_Ireland_2018","d.IAJ.E","transects","Eristalis","genus","syrphids",13,3200,79,NA,"4 sampling rounds in one season; one 200mx4m observation transect per plot",NA
"Katherine_LW_Burns_Malus_domestica_Ireland_2018","d.IAJ.E","transects","Syrphidae","family","syrphids",4,3200,79,NA,"4 sampling rounds in one season; one 200mx4m observation transect per plot",NA
"Katherine_LW_Burns_Malus_domestica_Ireland_2018","d.IAJ.E","transects","Parasyrphus punctulatus","species","syrphids",1,3200,79,NA,"4 sampling rounds in one season; one 200mx4m observation transect per plot",NA
"Katherine_LW_Burns_Malus_domestica_Ireland_2018","d.IAJ.E","transects","Volucella bombylans","species","syrphids",1,3200,79,NA,"4 sampling rounds in one season; one 200mx4m observation transect per plot",NA
"Katherine_LW_Burns_Malus_domestica_Ireland_2018","d.IAJ.E","transects","Diptera","order","other_flies",2,3200,79,NA,"4 sampling rounds in one season; one 200mx4m observation transect per plot",NA
"Katherine_LW_Burns_Malus_domestica_Ireland_2018","d.IAJ.E","transects","Andrena cineraria","species","other_wild_bees",1,3200,79,NA,"4 sampling rounds in one season; one 200mx4m observation transect per plot",NA
"Katherine_LW_Burns_Malus_domestica_Ireland_2018","d.IAJ.E","transects","Andrena","genus","other_wild_bees",1,3200,79,NA,"4 sampling rounds in one season; one 200mx4m observation transect per plot",NA
"Katherine_LW_Burns_Malus_domestica_Ireland_2018","d.IAJ.E","transects","Colletes succinctus","species","other_wild_bees",2,3200,79,NA,"4 sampling rounds in one season; one 200mx4m observation transect per plot",NA
"Katherine_LW_Burns_Malus_domestica_Ireland_2018","d.LIA.C","transects","Bombus lucorum agg","morphospecies","bumblebees",26,3200,87,NA,"4 sampling rounds in one season; one 200mx4m observation transect per plot",NA
"Katherine_LW_Burns_Malus_domestica_Ireland_2018","d.LIA.C","transects","Bombus pascuorum","species","bumblebees",2,3200,87,NA,"4 sampling rounds in one season; one 200mx4m observation transect per plot",NA
"Katherine_LW_Burns_Malus_domestica_Ireland_2018","d.LIA.C","transects","Bombus pratorum","species","bumblebees",1,3200,87,NA,"4 sampling rounds in one season; one 200mx4m observation transect per plot",NA
"Katherine_LW_Burns_Malus_domestica_Ireland_2018","d.LIA.C","transects","Apis mellifera","species","honeybees",48,3200,87,NA,"4 sampling rounds in one season; one 200mx4m observation transect per plot",NA
"Katherine_LW_Burns_Malus_domestica_Ireland_2018","d.LIA.C","transects","Eristalis pertinax","species","syrphids",1,3200,87,NA,"4 sampling rounds in one season; one 200mx4m observation transect per plot",NA
"Katherine_LW_Burns_Malus_domestica_Ireland_2018","d.LIA.C","transects","Eristalis","genus","syrphids",2,3200,87,NA,"4 sampling rounds in one season; one 200mx4m observation transect per plot",NA
"Katherine_LW_Burns_Malus_domestica_Ireland_2018","d.LIA.C","transects","Helophilus","genus","syrphids",1,3200,87,NA,"4 sampling rounds in one season; one 200mx4m observation transect per plot",NA
"Katherine_LW_Burns_Malus_domestica_Ireland_2018","d.LIA.C","transects","Melanostoma scalare","species","syrphids",1,3200,87,NA,"4 sampling rounds in one season; one 200mx4m observation transect per plot",NA
"Katherine_LW_Burns_Malus_domestica_Ireland_2018","d.LIA.C","transects","Syrphidae","family","syrphids",2,3200,87,NA,"4 sampling rounds in one season; one 200mx4m observation transect per plot",NA
"Katherine_LW_Burns_Malus_domestica_Ireland_2018","d.LIA.C","transects","Platycheirus albimanus","species","syrphids",2,3200,87,NA,"4 sampling rounds in one season; one 200mx4m observation transect per plot",NA
"Katherine_LW_Burns_Malus_domestica_Ireland_2018","d.LIA.C","transects","Rhingia campestris","species","syrphids",1,3200,87,NA,"4 sampling rounds in one season; one 200mx4m observation transect per plot",NA
"Katherine_LW_Burns_Malus_domestica_Ireland_2018","d.LIA.C","transects","Syrphus ribesii","species","syrphids",1,3200,87,NA,"4 sampling rounds in one season; one 200mx4m observation transect per plot",NA
"Katherine_LW_Burns_Malus_domestica_Ireland_2018","d.LIA.C","transects","Mesembrina sp1","morphospecies","other_flies",1,3200,87,NA,"4 sampling rounds in one season; one 200mx4m observation transect per plot",NA
"Katherine_LW_Burns_Malus_domestica_Ireland_2018","d.LIA.C","transects","Diptera","order","other_flies",1,3200,87,NA,"4 sampling rounds in one season; one 200mx4m observation transect per plot",NA
"Katherine_LW_Burns_Malus_domestica_Ireland_2018","d.LIA.C","transects","Andrena haemorrhoa","species","other_wild_bees",1,3200,87,NA,"4 sampling rounds in one season; one 200mx4m observation transect per plot",NA
"Katherine_LW_Burns_Malus_domestica_Ireland_2018","d.LIA.C","transects","Andrena","genus","other_wild_bees",1,3200,87,NA,"4 sampling rounds in one season; one 200mx4m observation transect per plot",NA
"Katherine_LW_Burns_Malus_domestica_Ireland_2018","d.LIA.C","transects","Nomada marshamella","species","other_wild_bees",1,3200,87,NA,"4 sampling rounds in one season; one 200mx4m observation transect per plot",NA
"Katherine_LW_Burns_Malus_domestica_Ireland_2018","d.LIA.E","transects","Bombus hortorum","species","bumblebees",7,3200,88,NA,"4 sampling rounds in one season; one 200mx4m observation transect per plot",NA
"Katherine_LW_Burns_Malus_domestica_Ireland_2018","d.LIA.E","transects","Bombus lapidarius","species","bumblebees",1,3200,88,NA,"4 sampling rounds in one season; one 200mx4m observation transect per plot",NA
"Katherine_LW_Burns_Malus_domestica_Ireland_2018","d.LIA.E","transects","Bombus lucorum agg","morphospecies","bumblebees",10,3200,88,NA,"4 sampling rounds in one season; one 200mx4m observation transect per plot",NA
"Katherine_LW_Burns_Malus_domestica_Ireland_2018","d.LIA.E","transects","Bombus pascuorum","species","bumblebees",1,3200,88,NA,"4 sampling rounds in one season; one 200mx4m observation transect per plot",NA
"Katherine_LW_Burns_Malus_domestica_Ireland_2018","d.LIA.E","transects","Bombus pratorum","species","bumblebees",3,3200,88,NA,"4 sampling rounds in one season; one 200mx4m observation transect per plot",NA
"Katherine_LW_Burns_Malus_domestica_Ireland_2018","d.LIA.E","transects","Apis mellifera","species","honeybees",57,3200,88,NA,"4 sampling rounds in one season; one 200mx4m observation transect per plot",NA
"Katherine_LW_Burns_Malus_domestica_Ireland_2018","d.LIA.E","transects","Eristalis","genus","syrphids",5,3200,88,NA,"4 sampling rounds in one season; one 200mx4m observation transect per plot",NA
"Katherine_LW_Burns_Malus_domestica_Ireland_2018","d.LIA.E","transects","Helophilus pendulus","species","syrphids",1,3200,88,NA,"4 sampling rounds in one season; one 200mx4m observation transect per plot",NA
"Katherine_LW_Burns_Malus_domestica_Ireland_2018","d.LIA.E","transects","Melanostoma dubium","species","syrphids",1,3200,88,NA,"4 sampling rounds in one season; one 200mx4m observation transect per plot",NA
"Katherine_LW_Burns_Malus_domestica_Ireland_2018","d.LIA.E","transects","Melanostoma scalare","species","syrphids",3,3200,88,NA,"4 sampling rounds in one season; one 200mx4m observation transect per plot",NA
"Katherine_LW_Burns_Malus_domestica_Ireland_2018","d.LIA.E","transects","Syrphidae","family","syrphids",2,3200,88,NA,"4 sampling rounds in one season; one 200mx4m observation transect per plot",NA
"Katherine_LW_Burns_Malus_domestica_Ireland_2018","d.LIA.E","transects","Platycheirus albimanus","species","syrphids",1,3200,88,NA,"4 sampling rounds in one season; one 200mx4m observation transect per plot",NA
"Katherine_LW_Burns_Malus_domestica_Ireland_2018","d.LIA.E","transects","Rhingia campestris","species","syrphids",6,3200,88,NA,"4 sampling rounds in one season; one 200mx4m observation transect per plot",NA
"Katherine_LW_Burns_Malus_domestica_Ireland_2018","d.LIA.E","transects","Coleoptera","order","beetles",2,3200,88,NA,"4 sampling rounds in one season; one 200mx4m observation transect per plot",NA
"Katherine_LW_Burns_Malus_domestica_Ireland_2018","d.LIA.E","transects","Diptera","order","other_flies",5,3200,88,NA,"4 sampling rounds in one season; one 200mx4m observation transect per plot",NA
"Katherine_LW_Burns_Malus_domestica_Ireland_2018","d.LIA.E","transects","Hymenoptera","order","other_wild_bees",1,3200,88,NA,"4 sampling rounds in one season; one 200mx4m observation transect per plot",NA
"Katherine_LW_Burns_Malus_domestica_Ireland_2018","d.LIA.E","transects","Andrena haemorrhoa","species","other_wild_bees",1,3200,88,NA,"4 sampling rounds in one season; one 200mx4m observation transect per plot",NA
"Katherine_LW_Burns_Malus_domestica_Ireland_2018","d.LIA.E","transects","Andrena lapponica","species","other_wild_bees",1,3200,88,NA,"4 sampling rounds in one season; one 200mx4m observation transect per plot",NA
"Katherine_LW_Burns_Malus_domestica_Ireland_2018","d.LIA.E","transects","Andrena","genus","other_wild_bees",1,3200,88,NA,"4 sampling rounds in one season; one 200mx4m observation transect per plot",NA
"Katherine_LW_Burns_Malus_domestica_Ireland_2018","d.LIA.E","transects","Nomada marshamella","species","other_wild_bees",2,3200,88,NA,"4 sampling rounds in one season; one 200mx4m observation transect per plot",NA
"Katherine_LW_Burns_Malus_domestica_Ireland_2018","d.LIA.E","transects","Hymenoptera","order","other_wild_bees",1,3200,88,NA,"4 sampling rounds in one season; one 200mx4m observation transect per plot",NA
"Katherine_LW_Burns_Malus_domestica_Ireland_2018","d.TAF.C","transects","Bombus lapidarius","species","bumblebees",1,3200,95,NA,"4 sampling rounds in one season; one 200mx4m observation transect per plot",NA
"Katherine_LW_Burns_Malus_domestica_Ireland_2018","d.TAF.C","transects","Bombus lucorum agg","morphospecies","bumblebees",10,3200,95,NA,"4 sampling rounds in one season; one 200mx4m observation transect per plot",NA
"Katherine_LW_Burns_Malus_domestica_Ireland_2018","d.TAF.C","transects","Bombus pascuorum","species","bumblebees",1,3200,95,NA,"4 sampling rounds in one season; one 200mx4m observation transect per plot",NA
"Katherine_LW_Burns_Malus_domestica_Ireland_2018","d.TAF.C","transects","Apis mellifera","species","honeybees",1,3200,95,NA,"4 sampling rounds in one season; one 200mx4m observation transect per plot",NA
"Katherine_LW_Burns_Malus_domestica_Ireland_2018","d.TAF.C","transects","Diptera","order","other_flies",2,3200,95,NA,"4 sampling rounds in one season; one 200mx4m observation transect per plot",NA
"Katherine_LW_Burns_Malus_domestica_Ireland_2018","d.TAF.C","transects","Eristalis arbustorum","species","syrphids",1,3200,95,NA,"4 sampling rounds in one season; one 200mx4m observation transect per plot",NA
"Katherine_LW_Burns_Malus_domestica_Ireland_2018","d.TAF.C","transects","Eristalis pertinax","species","syrphids",7,3200,95,NA,"4 sampling rounds in one season; one 200mx4m observation transect per plot",NA
"Katherine_LW_Burns_Malus_domestica_Ireland_2018","d.TAF.C","transects","Eristalis","genus","syrphids",15,3200,95,NA,"4 sampling rounds in one season; one 200mx4m observation transect per plot",NA
"Katherine_LW_Burns_Malus_domestica_Ireland_2018","d.TAF.C","transects","Helophilus pendulus","species","syrphids",1,3200,95,NA,"4 sampling rounds in one season; one 200mx4m observation transect per plot",NA
"Katherine_LW_Burns_Malus_domestica_Ireland_2018","d.TAF.C","transects","Syrphidae","family","syrphids",1,3200,95,NA,"4 sampling rounds in one season; one 200mx4m observation transect per plot",NA
"Katherine_LW_Burns_Malus_domestica_Ireland_2018","d.TAF.C","transects","Platycheirus albimanus","species","syrphids",1,3200,95,NA,"4 sampling rounds in one season; one 200mx4m observation transect per plot",NA
"Katherine_LW_Burns_Malus_domestica_Ireland_2018","d.TAF.C","transects","Coleoptera","order","beetles",1,3200,95,NA,"4 sampling rounds in one season; one 200mx4m observation transect per plot",NA
"Katherine_LW_Burns_Malus_domestica_Ireland_2018","d.TAF.C","transects","Diptera","order","other_flies",5,3200,95,NA,"4 sampling rounds in one season; one 200mx4m observation transect per plot",NA
"Katherine_LW_Burns_Malus_domestica_Ireland_2018","d.TAF.C","transects","Andrena haemorrhoa","species","other_wild_bees",2,3200,95,NA,"4 sampling rounds in one season; one 200mx4m observation transect per plot",NA
"Katherine_LW_Burns_Malus_domestica_Ireland_2018","d.TAF.C","transects","Hymenoptera","order","other_wild_bees",1,3200,95,NA,"4 sampling rounds in one season; one 200mx4m observation transect per plot",NA
"Katherine_LW_Burns_Malus_domestica_Ireland_2018","d.TAF.E","transects","Bombus lucorum agg","morphospecies","bumblebees",7,3200,85,NA,"4 sampling rounds in one season; one 200mx4m observation transect per plot",NA
"Katherine_LW_Burns_Malus_domestica_Ireland_2018","d.TAF.E","transects","Apis mellifera","species","honeybees",2,3200,85,NA,"4 sampling rounds in one season; one 200mx4m observation transect per plot",NA
"Katherine_LW_Burns_Malus_domestica_Ireland_2018","d.TAF.E","transects","Eristalis pertinax","species","syrphids",4,3200,85,NA,"4 sampling rounds in one season; one 200mx4m observation transect per plot",NA
"Katherine_LW_Burns_Malus_domestica_Ireland_2018","d.TAF.E","transects","Eristalis","genus","syrphids",10,3200,85,NA,"4 sampling rounds in one season; one 200mx4m observation transect per plot",NA
"Katherine_LW_Burns_Malus_domestica_Ireland_2018","d.TAF.E","transects","Syrphidae","family","syrphids",2,3200,85,NA,"4 sampling rounds in one season; one 200mx4m observation transect per plot",NA
"Katherine_LW_Burns_Malus_domestica_Ireland_2018","d.TAF.E","transects","Rhingia campestris","species","other_flies",2,3200,85,NA,"4 sampling rounds in one season; one 200mx4m observation transect per plot",NA
"Katherine_LW_Burns_Malus_domestica_Ireland_2018","d.TAF.E","transects","Diptera","order","other_flies",1,3200,85,NA,"4 sampling rounds in one season; one 200mx4m observation transect per plot",NA
"Katherine_LW_Burns_Malus_domestica_Ireland_2018","d.TAF.E","transects","Andrena cineraria","species","other_wild_bees",2,3200,85,NA,"4 sampling rounds in one season; one 200mx4m observation transect per plot",NA
"Katherine_LW_Burns_Malus_domestica_Ireland_2018","d.TAF.E","transects","Andrena haemorrhoa","species","other_wild_bees",3,3200,85,NA,"4 sampling rounds in one season; one 200mx4m observation transect per plot",NA
"Katherine_LW_Burns_Malus_domestica_Ireland_2018","d.TAF.E","transects","Hymenoptera","order","other_wild_bees",2,3200,85,NA,"4 sampling rounds in one season; one 200mx4m observation transect per plot",NA
"Katherine_LW_Burns_Malus_domestica_Ireland_2018","c.IAJ.C","plant observations","Apis mellifera","species","honeybees",20,6,90,325,"3 sampling rounds in one season; two 1m2 focal plant observations per plot",NA
"Katherine_LW_Burns_Malus_domestica_Ireland_2018","c.IAJ.C","plant observations","Platycheirus albimanus","species","syrphids",1,6,90,325,"3 sampling rounds in one season; two 1m2 focal plant observations per plot",NA
"Katherine_LW_Burns_Malus_domestica_Ireland_2018","c.IAJ.C","plant observations","Andrena haemorrhoa","species","other_wild_bees",1,6,90,325,"3 sampling rounds in one season; two 1m2 focal plant observations per plot",NA
"Katherine_LW_Burns_Malus_domestica_Ireland_2018","c.IAJ.C","plant observations","Andrena","genus","other_wild_bees",2,6,90,325,"3 sampling rounds in one season; two 1m2 focal plant observations per plot",NA
"Katherine_LW_Burns_Malus_domestica_Ireland_2018","c.IAJ.E","plant observations","Apis mellifera","species","honeybees",27,6,90,203,"3 sampling rounds in one season; two 1m2 focal plant observations per plot",NA
"Katherine_LW_Burns_Malus_domestica_Ireland_2018","c.IAJ.E","plant observations","Hymenoptera","order","other_wild_bees",1,6,90,203,"3 sampling rounds in one season; two 1m2 focal plant observations per plot",NA
"Katherine_LW_Burns_Malus_domestica_Ireland_2018","c.IAJ.E","plant observations","Andrena haemorrhoa","species","other_wild_bees",1,6,90,203,"3 sampling rounds in one season; two 1m2 focal plant observations per plot",NA
"Katherine_LW_Burns_Malus_domestica_Ireland_2018","c.IAJ.E","plant observations","Andrena","genus","other_wild_bees",1,6,90,203,"3 sampling rounds in one season; two 1m2 focal plant observations per plot",NA
"Katherine_LW_Burns_Malus_domestica_Ireland_2018","c.LHO.C","plant observations","Bombus hortorum","species","bumblebees",1,6,90,197,"3 sampling rounds in one season; two 1m2 focal plant observations per plot",NA
"Katherine_LW_Burns_Malus_domestica_Ireland_2018","c.LHO.C","plant observations","Apis mellifera","species","honeybees",19,6,90,197,"3 sampling rounds in one season; two 1m2 focal plant observations per plot",NA
"Katherine_LW_Burns_Malus_domestica_Ireland_2018","c.LHO.C","plant observations","Eristalis","genus","syrphids",4,6,90,197,"3 sampling rounds in one season; two 1m2 focal plant observations per plot",NA
"Katherine_LW_Burns_Malus_domestica_Ireland_2018","c.LHO.C","plant observations","Helophilus hybridus","species","syrphids",1,6,90,197,"3 sampling rounds in one season; two 1m2 focal plant observations per plot",NA
"Katherine_LW_Burns_Malus_domestica_Ireland_2018","c.LHO.C","plant observations","Helophilus","genus","syrphids",2,6,90,197,"3 sampling rounds in one season; two 1m2 focal plant observations per plot",NA
"Katherine_LW_Burns_Malus_domestica_Ireland_2018","c.LHO.C","plant observations","Syrphidae","family","syrphids",1,6,90,197,"3 sampling rounds in one season; two 1m2 focal plant observations per plot",NA
"Katherine_LW_Burns_Malus_domestica_Ireland_2018","c.LHO.C","plant observations","Platycheirus albimanus","species","syrphids",1,6,90,197,"3 sampling rounds in one season; two 1m2 focal plant observations per plot",NA
"Katherine_LW_Burns_Malus_domestica_Ireland_2018","c.LHO.C","plant observations","Andrena haemorrhoa","species","other_wild_bees",1,6,90,197,"3 sampling rounds in one season; two 1m2 focal plant observations per plot",NA
"Katherine_LW_Burns_Malus_domestica_Ireland_2018","c.LHO.C","plant observations","Andrena","genus","other_wild_bees",2,6,90,197,"3 sampling rounds in one season; two 1m2 focal plant observations per plot",NA
"Katherine_LW_Burns_Malus_domestica_Ireland_2018","c.LHO.E","plant observations","Apis mellifera","species","honeybees",10,6,90,186,"3 sampling rounds in one season; two 1m2 focal plant observations per plot",NA
"Katherine_LW_Burns_Malus_domestica_Ireland_2018","c.LHO.E","plant observations","Eristalis","genus","syrphids",1,6,90,186,"3 sampling rounds in one season; two 1m2 focal plant observations per plot",NA
"Katherine_LW_Burns_Malus_domestica_Ireland_2018","c.LHO.E","plant observations","Helophilus","genus","syrphids",1,6,90,186,"3 sampling rounds in one season; two 1m2 focal plant observations per plot",NA
"Katherine_LW_Burns_Malus_domestica_Ireland_2018","c.LHO.E","plant observations","Diptera","order","other_flies",5,6,90,186,"3 sampling rounds in one season; two 1m2 focal plant observations per plot",NA
"Katherine_LW_Burns_Malus_domestica_Ireland_2018","c.LHO.E","plant observations","Vespula sp1","morphospecies","non_bee_hymenoptera",1,6,90,186,"3 sampling rounds in one season; two 1m2 focal plant observations per plot",NA
"Katherine_LW_Burns_Malus_domestica_Ireland_2018","c.LHO.E","plant observations","Andrena","genus","other_wild_bees",1,6,90,186,"3 sampling rounds in one season; two 1m2 focal plant observations per plot",NA
"Katherine_LW_Burns_Malus_domestica_Ireland_2018","c.LWO.C","plant observations","Apis mellifera","species","honeybees",28,6,90,196,"3 sampling rounds in one season; two 1m2 focal plant observations per plot",NA
"Katherine_LW_Burns_Malus_domestica_Ireland_2018","c.LWO.C","plant observations","Volucella bombylans","species","syrphids",1,6,90,196,"3 sampling rounds in one season; two 1m2 focal plant observations per plot",NA
"Katherine_LW_Burns_Malus_domestica_Ireland_2018","c.LWO.C","plant observations","Diptera","order","other_flies",1,6,90,196,"3 sampling rounds in one season; two 1m2 focal plant observations per plot",NA
"Katherine_LW_Burns_Malus_domestica_Ireland_2018","c.LWO.C","plant observations","Andrena haemorrhoa","species","other_wild_bees",1,6,90,196,"3 sampling rounds in one season; two 1m2 focal plant observations per plot",NA
"Katherine_LW_Burns_Malus_domestica_Ireland_2018","c.LWO.C","plant observations","Andrena","genus","other_wild_bees",1,6,90,196,"3 sampling rounds in one season; two 1m2 focal plant observations per plot",NA
"Katherine_LW_Burns_Malus_domestica_Ireland_2018","c.LWO.E","plant observations","Bombus lucorum agg","morphospecies","bumblebees",1,6,90,272,"3 sampling rounds in one season; two 1m2 focal plant observations per plot",NA
"Katherine_LW_Burns_Malus_domestica_Ireland_2018","c.LWO.E","plant observations","Apis mellifera","species","honeybees",18,6,90,272,"3 sampling rounds in one season; two 1m2 focal plant observations per plot",NA
"Katherine_LW_Burns_Malus_domestica_Ireland_2018","c.LWO.E","plant observations","Syrphidae","family","syrphids",1,6,90,272,"3 sampling rounds in one season; two 1m2 focal plant observations per plot",NA
"Katherine_LW_Burns_Malus_domestica_Ireland_2018","c.LWO.E","plant observations","Diptera","order","other_flies",3,6,90,272,"3 sampling rounds in one season; two 1m2 focal plant observations per plot",NA
"Katherine_LW_Burns_Malus_domestica_Ireland_2018","c.LWO.E","plant observations","Andrena haemorrhoa","species","other_wild_bees",2,6,90,272,"3 sampling rounds in one season; two 1m2 focal plant observations per plot",NA
"Katherine_LW_Burns_Malus_domestica_Ireland_2018","c.LWO.E","plant observations","Andrena","genus","other_wild_bees",1,6,90,272,"3 sampling rounds in one season; two 1m2 focal plant observations per plot",NA
"Katherine_LW_Burns_Malus_domestica_Ireland_2018","c.LWO.E","plant observations","Hymenoptera","order","other_wild_bees",1,6,90,272,"3 sampling rounds in one season; two 1m2 focal plant observations per plot",NA
"Katherine_LW_Burns_Malus_domestica_Ireland_2018","c.MFO.C","plant observations","Bombus lucorum agg","morphospecies","bumblebees",1,6,90,229,"3 sampling rounds in one season; two 1m2 focal plant observations per plot",NA
"Katherine_LW_Burns_Malus_domestica_Ireland_2018","c.MFO.C","plant observations","Apis mellifera","species","honeybees",12,6,90,229,"3 sampling rounds in one season; two 1m2 focal plant observations per plot",NA
"Katherine_LW_Burns_Malus_domestica_Ireland_2018","c.MFO.C","plant observations","Eristalis","genus","syrphids",1,6,90,229,"3 sampling rounds in one season; two 1m2 focal plant observations per plot",NA
"Katherine_LW_Burns_Malus_domestica_Ireland_2018","c.MFO.C","plant observations","Syrphidae","family","syrphids",1,6,90,229,"3 sampling rounds in one season; two 1m2 focal plant observations per plot",NA
"Katherine_LW_Burns_Malus_domestica_Ireland_2018","c.MFO.C","plant observations","Andrena haemorrhoa","species","other_wild_bees",2,6,90,229,"3 sampling rounds in one season; two 1m2 focal plant observations per plot",NA
"Katherine_LW_Burns_Malus_domestica_Ireland_2018","c.MFO.E","plant observations","Bombus lucorum agg","morphospecies","bumblebees",3,6,90,232,"3 sampling rounds in one season; two 1m2 focal plant observations per plot",NA
"Katherine_LW_Burns_Malus_domestica_Ireland_2018","c.MFO.E","plant observations","Apis mellifera","species","honeybees",6,6,90,232,"3 sampling rounds in one season; two 1m2 focal plant observations per plot",NA
"Katherine_LW_Burns_Malus_domestica_Ireland_2018","c.MFO.E","plant observations","Scathophaga sp1","morphospecies","other_flies",2,6,90,232,"3 sampling rounds in one season; two 1m2 focal plant observations per plot",NA
"Katherine_LW_Burns_Malus_domestica_Ireland_2018","c.MFO.E","plant observations","Andrena haemorrhoa","species","other_wild_bees",1,6,90,232,"3 sampling rounds in one season; two 1m2 focal plant observations per plot",NA
"Katherine_LW_Burns_Malus_domestica_Ireland_2018","d.BAF.C","plant observations","Bombus lucorum agg","morphospecies","bumblebees",4,8,120,456,"4 sampling rounds in one season; two 1m2 focal plant observations per plot",NA
"Katherine_LW_Burns_Malus_domestica_Ireland_2018","d.BAF.C","plant observations","Apis mellifera","species","honeybees",4,8,120,456,"4 sampling rounds in one season; two 1m2 focal plant observations per plot",NA
"Katherine_LW_Burns_Malus_domestica_Ireland_2018","d.BAF.C","plant observations","Eristalis","genus","syrphids",2,8,120,456,"4 sampling rounds in one season; two 1m2 focal plant observations per plot",NA
"Katherine_LW_Burns_Malus_domestica_Ireland_2018","d.BAF.C","plant observations","Helophilus","genus","syrphids",1,8,120,456,"4 sampling rounds in one season; two 1m2 focal plant observations per plot",NA
"Katherine_LW_Burns_Malus_domestica_Ireland_2018","d.BAF.C","plant observations","Andrena haemorrhoa","species","other_wild_bees",2,8,120,456,"4 sampling rounds in one season; two 1m2 focal plant observations per plot",NA
"Katherine_LW_Burns_Malus_domestica_Ireland_2018","d.BAF.E","plant observations","Bombus lucorum agg","morphospecies","bumblebees",3,8,120,368,"4 sampling rounds in one season; two 1m2 focal plant observations per plot",NA
"Katherine_LW_Burns_Malus_domestica_Ireland_2018","d.BAF.E","plant observations","Bombus pascuorum","species","bumblebees",1,8,120,368,"4 sampling rounds in one season; two 1m2 focal plant observations per plot",NA
"Katherine_LW_Burns_Malus_domestica_Ireland_2018","d.BAF.E","plant observations","Bombus pratorum","species","bumblebees",1,8,120,368,"4 sampling rounds in one season; two 1m2 focal plant observations per plot",NA
"Katherine_LW_Burns_Malus_domestica_Ireland_2018","d.BAF.E","plant observations","Apis mellifera","species","honeybees",7,8,120,368,"4 sampling rounds in one season; two 1m2 focal plant observations per plot",NA
"Katherine_LW_Burns_Malus_domestica_Ireland_2018","d.BAF.E","plant observations","Eristalis","genus","syrphids",6,8,120,368,"4 sampling rounds in one season; two 1m2 focal plant observations per plot",NA
"Katherine_LW_Burns_Malus_domestica_Ireland_2018","d.BAF.E","plant observations","Helophilus","genus","syrphids",3,8,120,368,"4 sampling rounds in one season; two 1m2 focal plant observations per plot",NA
"Katherine_LW_Burns_Malus_domestica_Ireland_2018","d.BAF.E","plant observations","Syrphidae","family","syrphids",2,8,120,368,"4 sampling rounds in one season; two 1m2 focal plant observations per plot",NA
"Katherine_LW_Burns_Malus_domestica_Ireland_2018","d.BAF.E","plant observations","Platycheirus albimanus","species","syrphids",1,8,120,368,"4 sampling rounds in one season; two 1m2 focal plant observations per plot",NA
"Katherine_LW_Burns_Malus_domestica_Ireland_2018","d.BAF.E","plant observations","Rhingia campestris","species","syrphids",10,8,120,368,"4 sampling rounds in one season; two 1m2 focal plant observations per plot",NA
"Katherine_LW_Burns_Malus_domestica_Ireland_2018","d.BAF.E","plant observations","Muscidae","family","other_flies",1,8,120,368,"4 sampling rounds in one season; two 1m2 focal plant observations per plot",NA
"Katherine_LW_Burns_Malus_domestica_Ireland_2018","d.BAF.E","plant observations","Andrena haemorrhoa","species","other_wild_bees",2,8,120,368,"4 sampling rounds in one season; two 1m2 focal plant observations per plot",NA
"Katherine_LW_Burns_Malus_domestica_Ireland_2018","d.IAJ.C","plant observations","Bombus lucorum agg","morphospecies","bumblebees",5,8,120,313,"4 sampling rounds in one season; two 1m2 focal plant observations per plot",NA
"Katherine_LW_Burns_Malus_domestica_Ireland_2018","d.IAJ.C","plant observations","Apis mellifera","species","honeybees",2,8,120,313,"4 sampling rounds in one season; two 1m2 focal plant observations per plot",NA
"Katherine_LW_Burns_Malus_domestica_Ireland_2018","d.IAJ.C","plant observations","Eristalis intricarius","species","syrphids",1,8,120,313,"4 sampling rounds in one season; two 1m2 focal plant observations per plot",NA
"Katherine_LW_Burns_Malus_domestica_Ireland_2018","d.IAJ.C","plant observations","Eristalis pertinax","species","syrphids",3,8,120,313,"4 sampling rounds in one season; two 1m2 focal plant observations per plot",NA
"Katherine_LW_Burns_Malus_domestica_Ireland_2018","d.IAJ.C","plant observations","Eristalis","genus","syrphids",18,8,120,313,"4 sampling rounds in one season; two 1m2 focal plant observations per plot",NA
"Katherine_LW_Burns_Malus_domestica_Ireland_2018","d.IAJ.C","plant observations","Syrphidae","family","syrphids",4,8,120,313,"4 sampling rounds in one season; two 1m2 focal plant observations per plot",NA
"Katherine_LW_Burns_Malus_domestica_Ireland_2018","d.IAJ.C","plant observations","Andrena haemorrhoa","species","other_wild_bees",4,8,120,313,"4 sampling rounds in one season; two 1m2 focal plant observations per plot",NA
"Katherine_LW_Burns_Malus_domestica_Ireland_2018","d.IAJ.C","plant observations","Andrena","genus","other_wild_bees",1,8,120,313,"4 sampling rounds in one season; two 1m2 focal plant observations per plot",NA
"Katherine_LW_Burns_Malus_domestica_Ireland_2018","d.IAJ.C","plant observations","Hymenoptera","order","other_wild_bees",1,8,120,313,"4 sampling rounds in one season; two 1m2 focal plant observations per plot",NA
"Katherine_LW_Burns_Malus_domestica_Ireland_2018","d.IAJ.E","plant observations","Bombus lucorum agg","morphospecies","bumblebees",5,8,120,247,"4 sampling rounds in one season; two 1m2 focal plant observations per plot",NA
"Katherine_LW_Burns_Malus_domestica_Ireland_2018","d.IAJ.E","plant observations","Apis mellifera","species","honeybees",8,8,120,247,"4 sampling rounds in one season; two 1m2 focal plant observations per plot",NA
"Katherine_LW_Burns_Malus_domestica_Ireland_2018","d.IAJ.E","plant observations","Eristalis pertinax","species","syrphids",1,8,120,247,"4 sampling rounds in one season; two 1m2 focal plant observations per plot",NA
"Katherine_LW_Burns_Malus_domestica_Ireland_2018","d.IAJ.E","plant observations","Eristalis","genus","syrphids",8,8,120,247,"4 sampling rounds in one season; two 1m2 focal plant observations per plot",NA
"Katherine_LW_Burns_Malus_domestica_Ireland_2018","d.IAJ.E","plant observations","Syrphidae","family","syrphids",1,8,120,247,"4 sampling rounds in one season; two 1m2 focal plant observations per plot",NA
"Katherine_LW_Burns_Malus_domestica_Ireland_2018","d.IAJ.E","plant observations","Andrena haemorrhoa","species","other_wild_bees",1,8,120,247,"4 sampling rounds in one season; two 1m2 focal plant observations per plot",NA
"Katherine_LW_Burns_Malus_domestica_Ireland_2018","d.IAJ.E","plant observations","Andrena","genus","other_wild_bees",1,8,120,247,"4 sampling rounds in one season; two 1m2 focal plant observations per plot",NA
"Katherine_LW_Burns_Malus_domestica_Ireland_2018","d.IAJ.E","plant observations","Halictus rubicundus","species","other_wild_bees",1,8,120,247,"4 sampling rounds in one season; two 1m2 focal plant observations per plot",NA
"Katherine_LW_Burns_Malus_domestica_Ireland_2018","d.LIA.C","plant observations","Bombus pascuorum","species","bumblebees",1,8,120,246,"4 sampling rounds in one season; two 1m2 focal plant observations per plot",NA
"Katherine_LW_Burns_Malus_domestica_Ireland_2018","d.LIA.C","plant observations","Bombus pratorum","species","bumblebees",4,8,120,246,"4 sampling rounds in one season; two 1m2 focal plant observations per plot",NA
"Katherine_LW_Burns_Malus_domestica_Ireland_2018","d.LIA.C","plant observations","Apis mellifera","species","honeybees",15,8,120,246,"4 sampling rounds in one season; two 1m2 focal plant observations per plot",NA
"Katherine_LW_Burns_Malus_domestica_Ireland_2018","d.LIA.C","plant observations","Eristalis","genus","syrphids",2,8,120,246,"4 sampling rounds in one season; two 1m2 focal plant observations per plot",NA
"Katherine_LW_Burns_Malus_domestica_Ireland_2018","d.LIA.C","plant observations","Melanostoma millinum","species","syrphids",1,8,120,246,"4 sampling rounds in one season; two 1m2 focal plant observations per plot",NA
"Katherine_LW_Burns_Malus_domestica_Ireland_2018","d.LIA.C","plant observations","Syrphidae","family","syrphids",2,8,120,246,"4 sampling rounds in one season; two 1m2 focal plant observations per plot",NA
"Katherine_LW_Burns_Malus_domestica_Ireland_2018","d.LIA.C","plant observations","Platycheirus albimanus","species","syrphids",1,8,120,246,"4 sampling rounds in one season; two 1m2 focal plant observations per plot",NA
"Katherine_LW_Burns_Malus_domestica_Ireland_2018","d.LIA.C","plant observations","Diptera","order","other_flies",1,8,120,246,"4 sampling rounds in one season; two 1m2 focal plant observations per plot",NA
"Katherine_LW_Burns_Malus_domestica_Ireland_2018","d.LIA.E","plant observations","Bombus lucorum agg","morphospecies","bumblebees",1,8,120,197,"4 sampling rounds in one season; two 1m2 focal plant observations per plot",NA
"Katherine_LW_Burns_Malus_domestica_Ireland_2018","d.LIA.E","plant observations","Bombus pratorum","species","bumblebees",2,8,120,197,"4 sampling rounds in one season; two 1m2 focal plant observations per plot",NA
"Katherine_LW_Burns_Malus_domestica_Ireland_2018","d.LIA.E","plant observations","Apis mellifera","species","honeybees",8,8,120,197,"4 sampling rounds in one season; two 1m2 focal plant observations per plot",NA
"Katherine_LW_Burns_Malus_domestica_Ireland_2018","d.LIA.E","plant observations","Eristalis pertinax","species","syrphids",2,8,120,197,"4 sampling rounds in one season; two 1m2 focal plant observations per plot",NA
"Katherine_LW_Burns_Malus_domestica_Ireland_2018","d.LIA.E","plant observations","Eristalis","genus","syrphids",5,8,120,197,"4 sampling rounds in one season; two 1m2 focal plant observations per plot",NA
"Katherine_LW_Burns_Malus_domestica_Ireland_2018","d.LIA.E","plant observations","Syrphidae","family","syrphids",10,8,120,197,"4 sampling rounds in one season; two 1m2 focal plant observations per plot",NA
"Katherine_LW_Burns_Malus_domestica_Ireland_2018","d.LIA.E","plant observations","Platycheirus albimanus","species","syrphids",1,8,120,197,"4 sampling rounds in one season; two 1m2 focal plant observations per plot",NA
"Katherine_LW_Burns_Malus_domestica_Ireland_2018","d.LIA.E","plant observations","Rhingia campestris","species","syrphids",3,8,120,197,"4 sampling rounds in one season; two 1m2 focal plant observations per plot",NA
"Katherine_LW_Burns_Malus_domestica_Ireland_2018","d.LIA.E","plant observations","Diptera","order","other_flies",1,8,120,197,"4 sampling rounds in one season; two 1m2 focal plant observations per plot",NA
"Katherine_LW_Burns_Malus_domestica_Ireland_2018","d.LIA.E","plant observations","Nomada ruficornis","species","other_wild_bees",1,8,120,197,"4 sampling rounds in one season; two 1m2 focal plant observations per plot",NA
"Katherine_LW_Burns_Malus_domestica_Ireland_2018","d.LIA.E","plant observations","Nomada","genus","other_wild_bees",4,8,120,197,"4 sampling rounds in one season; two 1m2 focal plant observations per plot",NA
"Katherine_LW_Burns_Malus_domestica_Ireland_2018","d.TAF.C","plant observations","Bombus hortorum","species","bumblebees",2,8,120,297,"4 sampling rounds in one season; two 1m2 focal plant observations per plot",NA
"Katherine_LW_Burns_Malus_domestica_Ireland_2018","d.TAF.C","plant observations","Bombus lucorum agg","morphospecies","bumblebees",2,8,120,297,"4 sampling rounds in one season; two 1m2 focal plant observations per plot",NA
"Katherine_LW_Burns_Malus_domestica_Ireland_2018","d.TAF.C","plant observations","Apis mellifera","species","honeybees",4,8,120,297,"4 sampling rounds in one season; two 1m2 focal plant observations per plot",NA
"Katherine_LW_Burns_Malus_domestica_Ireland_2018","d.TAF.C","plant observations","Eristalis arbustorum","species","syrphids",1,8,120,297,"4 sampling rounds in one season; two 1m2 focal plant observations per plot",NA
"Katherine_LW_Burns_Malus_domestica_Ireland_2018","d.TAF.C","plant observations","Eristalis pertinax","species","syrphids",1,8,120,297,"4 sampling rounds in one season; two 1m2 focal plant observations per plot",NA
"Katherine_LW_Burns_Malus_domestica_Ireland_2018","d.TAF.C","plant observations","Eristalis","genus","syrphids",4,8,120,297,"4 sampling rounds in one season; two 1m2 focal plant observations per plot",NA
"Katherine_LW_Burns_Malus_domestica_Ireland_2018","d.TAF.C","plant observations","Syrphidae","family","syrphids",1,8,120,297,"4 sampling rounds in one season; two 1m2 focal plant observations per plot",NA
"Katherine_LW_Burns_Malus_domestica_Ireland_2018","d.TAF.C","plant observations","Muscidae","family","other_flies",4,8,120,297,"4 sampling rounds in one season; two 1m2 focal plant observations per plot",NA
"Katherine_LW_Burns_Malus_domestica_Ireland_2018","d.TAF.C","plant observations","Diptera","order","other_flies",2,8,120,297,"4 sampling rounds in one season; two 1m2 focal plant observations per plot",NA
"Katherine_LW_Burns_Malus_domestica_Ireland_2018","d.TAF.C","plant observations","Andrena haemorrhoa","species","other_wild_bees",1,8,120,297,"4 sampling rounds in one season; two 1m2 focal plant observations per plot",NA
"Katherine_LW_Burns_Malus_domestica_Ireland_2018","d.TAF.E","plant observations","Bombus lucorum agg","morphospecies","bumblebees",1,8,120,264,"4 sampling rounds in one season; two 1m2 focal plant observations per plot",NA
"Katherine_LW_Burns_Malus_domestica_Ireland_2018","d.TAF.E","plant observations","Bombus pascuorum","species","bumblebees",1,8,120,264,"4 sampling rounds in one season; two 1m2 focal plant observations per plot",NA
"Katherine_LW_Burns_Malus_domestica_Ireland_2018","d.TAF.E","plant observations","Apis mellifera","species","honeybees",6,8,120,264,"4 sampling rounds in one season; two 1m2 focal plant observations per plot",NA
"Katherine_LW_Burns_Malus_domestica_Ireland_2018","d.TAF.E","plant observations","Eristalis pertinax","species","syrphids",2,8,120,264,"4 sampling rounds in one season; two 1m2 focal plant observations per plot",NA
"Katherine_LW_Burns_Malus_domestica_Ireland_2018","d.TAF.E","plant observations","Eristalis","genus","syrphids",3,8,120,264,"4 sampling rounds in one season; two 1m2 focal plant observations per plot",NA
"Katherine_LW_Burns_Malus_domestica_Ireland_2018","d.TAF.E","plant observations","Andrena cineraria","species","other_wild_bees",1,8,120,264,"4 sampling rounds in one season; two 1m2 focal plant observations per plot",NA
"Katherine_LW_Burns_Vicia_faba_Ireland_2018","BDF.18.C","plant observations","Bombus hortorum","species","bumblebees",1,10,150,579,"5 sampling rounds in one season; two 1m2 focal plant observations per plot per visit",NA
"Katherine_LW_Burns_Vicia_faba_Ireland_2018","BDF.18.C","plant observations","Bombus lapidarius","species","bumblebees",3,10,150,579,"5 sampling rounds in one season; two 1m2 focal plant observations per plot per visit",NA
"Katherine_LW_Burns_Vicia_faba_Ireland_2018","BDF.18.C","plant observations","Bombus lucorum agg","morphospecies","bumblebees",1,10,150,579,"5 sampling rounds in one season; two 1m2 focal plant observations per plot per visit",NA
"Katherine_LW_Burns_Vicia_faba_Ireland_2018","BDF.18.C","plant observations","Apis mellifera","species","honeybees",2,10,150,579,"5 sampling rounds in one season; two 1m2 focal plant observations per plot per visit",NA
"Katherine_LW_Burns_Vicia_faba_Ireland_2018","BDF.18.C","plant observations","Muscidae sp1","morphospecies","other_flies",1,10,150,579,"5 sampling rounds in one season; two 1m2 focal plant observations per plot per visit",NA
"Katherine_LW_Burns_Vicia_faba_Ireland_2018","BDF.18.E","plant observations","Bombus hortorum","species","bumblebees",3,10,150,549,"5 sampling rounds in one season; two 1m2 focal plant observations per plot per visit",NA
"Katherine_LW_Burns_Vicia_faba_Ireland_2018","BDF.18.E","plant observations","Bombus lapidarius","species","bumblebees",2,10,150,549,"5 sampling rounds in one season; two 1m2 focal plant observations per plot per visit",NA
"Katherine_LW_Burns_Vicia_faba_Ireland_2018","BDF.18.E","plant observations","Bombus lucorum agg","morphospecies","bumblebees",1,10,150,549,"5 sampling rounds in one season; two 1m2 focal plant observations per plot per visit",NA
"Katherine_LW_Burns_Vicia_faba_Ireland_2018","BDF.18.E","plant observations","Bombus pascuorum","species","bumblebees",1,10,150,549,"5 sampling rounds in one season; two 1m2 focal plant observations per plot per visit",NA
"Katherine_LW_Burns_Vicia_faba_Ireland_2018","SBF.18.C","plant observations","Apis mellifera","species","honeybees",10,10,150,512,"5 sampling rounds in one season; two 1m2 focal plant observations per plot per visit",NA
"Katherine_LW_Burns_Vicia_faba_Ireland_2018","SBF.18.E","plant observations","Apis mellifera","species","honeybees",10,10,150,686,"5 sampling rounds in one season; two 1m2 focal plant observations per plot per visit",NA
"Katherine_LW_Burns_Vicia_faba_Ireland_2019","JGF.19.C","plant observations","Bombus lapidarius","species","bumblebees",4,8,240,581,"4 sampling rounds in one season; two 1m2 focal plant observations per plot per visit",NA
"Katherine_LW_Burns_Vicia_faba_Ireland_2019","JGF.19.C","plant observations","Bombus lucorum","species","bumblebees",1,8,240,581,"4 sampling rounds in one season; two 1m2 focal plant observations per plot per visit",NA
"Katherine_LW_Burns_Vicia_faba_Ireland_2019","JGF.19.C","plant observations","Bombus lucorum agg","morphospecies","bumblebees",8,8,240,581,"4 sampling rounds in one season; two 1m2 focal plant observations per plot per visit",NA
"Katherine_LW_Burns_Vicia_faba_Ireland_2019","JGF.19.C","plant observations","Bombus pratorum","species","bumblebees",1,8,240,581,"4 sampling rounds in one season; two 1m2 focal plant observations per plot per visit",NA
"Katherine_LW_Burns_Vicia_faba_Ireland_2019","KSF.19.C","plant observations","Bombus lucorum agg","morphospecies","bumblebees",6,8,240,567,"4 sampling rounds in one season; two 1m2 focal plant observations per plot per visit",NA
"Katherine_LW_Burns_Vicia_faba_Ireland_2019","KSF.19.C","plant observations","Bombus pratorum","species","bumblebees",1,8,240,567,"4 sampling rounds in one season; two 1m2 focal plant observations per plot per visit",NA
"Katherine_LW_Burns_Vicia_faba_Ireland_2019","KSF.19.C","plant observations","Apis mellifera","species","honeybees",5,8,240,567,"4 sampling rounds in one season; two 1m2 focal plant observations per plot per visit",NA
"Katherine_LW_Burns_Vicia_faba_Ireland_2019","KSF.19.E","plant observations","Bombus lucorum agg","morphospecies","bumblebees",5,8,240,576,"4 sampling rounds in one season; two 1m2 focal plant observations per plot per visit",NA
"Katherine_LW_Burns_Vicia_faba_Ireland_2019","KSF.19.E","plant observations","Apis mellifera","species","honeybees",11,8,240,576,"4 sampling rounds in one season; two 1m2 focal plant observations per plot per visit",NA
"Katherine_LW_Burns_Vicia_faba_Ireland_2019","NGF.19.C","plant observations","Bombus lapidarius","species","bumblebees",2,8,240,745,"4 sampling rounds in one season; two 1m2 focal plant observations per plot per visit",NA
"Katherine_LW_Burns_Vicia_faba_Ireland_2019","NGF.19.C","plant observations","Bombus lucorum","species","bumblebees",1,8,240,745,"4 sampling rounds in one season; two 1m2 focal plant observations per plot per visit",NA
"Katherine_LW_Burns_Vicia_faba_Ireland_2019","NGF.19.C","plant observations","Bombus lucorum agg","morphospecies","bumblebees",26,8,240,745,"4 sampling rounds in one season; two 1m2 focal plant observations per plot per visit",NA
"Katherine_LW_Burns_Vicia_faba_Ireland_2019","NGF.19.C","plant observations","Bombus pratorum","species","bumblebees",1,8,240,745,"4 sampling rounds in one season; two 1m2 focal plant observations per plot per visit",NA
"Katherine_LW_Burns_Vicia_faba_Ireland_2019","NGF.19.C","plant observations","Apis mellifera","species","honeybees",1,8,240,745,"4 sampling rounds in one season; two 1m2 focal plant observations per plot per visit",NA
"Katherine_LW_Burns_Vicia_faba_Ireland_2019","NGF.19.E","plant observations","Bombus lapidarius","species","bumblebees",3,8,240,629,"4 sampling rounds in one season; two 1m2 focal plant observations per plot per visit",NA
"Katherine_LW_Burns_Vicia_faba_Ireland_2019","NGF.19.E","plant observations","Bombus lucorum agg","morphospecies","bumblebees",20,8,240,629,"4 sampling rounds in one season; two 1m2 focal plant observations per plot per visit",NA
"Katherine_LW_Burns_Vicia_faba_Ireland_2019","NGF.19.E","plant observations","Bombus pratorum","species","bumblebees",1,8,240,629,"4 sampling rounds in one season; two 1m2 focal plant observations per plot per visit",NA
"Katherine_LW_Burns_Vicia_faba_Ireland_2019","NGF.19.E","plant observations","Apis mellifera","species","honeybees",1,8,240,629,"4 sampling rounds in one season; two 1m2 focal plant observations per plot per visit",NA
"Katherine_LW_Burns_Vicia_faba_Ireland_2019","SBF.19.C","plant observations","Bombus lucorum","species","bumblebees",1,8,240,618,"4 sampling rounds in one season; two 1m2 focal plant observations per plot per visit",NA
"Katherine_LW_Burns_Vicia_faba_Ireland_2019","SBF.19.C","plant observations","Bombus lucorum agg","morphospecies","bumblebees",8,8,240,618,"4 sampling rounds in one season; two 1m2 focal plant observations per plot per visit",NA
"Katherine_LW_Burns_Vicia_faba_Ireland_2019","SBF.19.C","plant observations","Apis mellifera","species","honeybees",1,8,240,618,"4 sampling rounds in one season; two 1m2 focal plant observations per plot per visit",NA
"Katherine_LW_Burns_Vicia_faba_Ireland_2019","SBF.19.E","plant observations","Bombus lucorum agg","morphospecies","bumblebees",14,8,240,645,"4 sampling rounds in one season; two 1m2 focal plant observations per plot per visit",NA
"Katherine_LW_Burns_Vicia_faba_Ireland_2019","SBF.19.E","plant observations","Apis mellifera","species","honeybees",8,8,240,645,"4 sampling rounds in one season; two 1m2 focal plant observations per plot per visit",NA
"Katrine_Hansen_Psidium_guajava_Thailand_2019","4","Plant observations","Anthophila sp1","morphospecies","other_wild_bees",4,10,200,17,"At each study site,1-2 flowers within 1 m^2 quadrat on ten different trees were observed. 15+5 minutes of observation per tree. Note: All study sites either had their own A. cerana hives or there would be hives in the surrounding area.",NA
"Katrine_Hansen_Psidium_guajava_Thailand_2019","4","Plant observations","Nomia (Acunomia) strigata","species","other_wild_bees",5,10,200,17,"At each study site,1-2 flowers within 1 m^2 quadrat on ten different trees were observed. 15+5 minutes of observation per tree. Note: All study sites either had their own A. cerana hives or there would be hives in the surrounding area.",NA
"Katrine_Hansen_Psidium_guajava_Thailand_2019","4","Plant observations","Braunsapis cupulifera","species","other_wild_bees",7,10,200,17,"At each study site,1-2 flowers within 1 m^2 quadrat on ten different trees were observed. 15+5 minutes of observation per tree. Note: All study sites either had their own A. cerana hives or there would be hives in the surrounding area.",NA
"Katrine_Hansen_Psidium_guajava_Thailand_2019","4","Plant observations","Ceratina (ceratinidia) nigrolateralis","species","other_wild_bees",10,10,200,17,"At each study site,1-2 flowers within 1 m^2 quadrat on ten different trees were observed. 15+5 minutes of observation per tree. Note: All study sites either had their own A. cerana hives or there would be hives in the surrounding area.",NA
"Katrine_Hansen_Psidium_guajava_Thailand_2019","1","Plant observations","Apis cerana","species","honeybees",6,10,200,20,"At each study site,1-2 flowers within 1 m^2 quadrat on ten different trees were observed. 15+5 minutes of observation per tree. Note: All study sites either had their own A. cerana hives or there would be hives in the surrounding area.",NA
"Katrine_Hansen_Psidium_guajava_Thailand_2020","2","Plant observations","Apis cerana","species","honeybees",58,10,200,18,"At each study site,1-2 flowers within 1 m^2 quadrat on ten different trees were observed. 15+5 minutes of observation per tree. Note: All study sites either had their own A. cerana hives or there would be hives in the surrounding area.",NA
"Katrine_Hansen_Psidium_guajava_Thailand_2019","3","Plant observations","Apis cerana","species","honeybees",54,10,200,20,"At each study site,1-2 flowers within 1 m^2 quadrat on ten different trees were observed. 15+5 minutes of observation per tree. Note: All study sites either had their own A. cerana hives or there would be hives in the surrounding area.",NA
"Katrine_Hansen_Psidium_guajava_Thailand_2020","5","Plant observations","Apis cerana","species","honeybees",6,10,200,19,"At each study site,1-2 flowers within 1 m^2 quadrat on ten different trees were observed. 15+5 minutes of observation per tree. Note: All study sites either had their own A. cerana hives or there would be hives in the surrounding area.",NA
"Katrine_Hansen_Psidium_guajava_Thailand_2020","6","Plant observations","Apis cerana","species","honeybees",72,10,200,20,"At each study site,1-2 flowers within 1 m^2 quadrat on ten different trees were observed. 15+5 minutes of observation per tree. Note: All study sites either had their own A. cerana hives or there would be hives in the surrounding area.",NA
"Katrine_Hansen_Psidium_guajava_Thailand_2019","1","Plant observations","Apis dorsata","species","honeybees",1,10,200,20,"At each study site,1-2 flowers within 1 m^2 quadrat on ten different trees were observed. 15+5 minutes of observation per tree. Note: All study sites either had their own A. cerana hives or there would be hives in the surrounding area.",NA
"Katrine_Hansen_Psidium_guajava_Thailand_2019","1","Plant observations","Apis florea","species","honeybees",2,10,200,20,"At each study site,1-2 flowers within 1 m^2 quadrat on ten different trees were observed. 15+5 minutes of observation per tree. Note: All study sites either had their own A. cerana hives or there would be hives in the surrounding area.",NA
"Katrine_Hansen_Psidium_guajava_Thailand_2020","2","Plant observations","Xylocopa (Koptortosoma) aestuans","species","other_wild_bees",2,10,200,18,"At each study site,1-2 flowers within 1 m^2 quadrat on ten different trees were observed. 15+5 minutes of observation per tree. Note: All study sites either had their own A. cerana hives or there would be hives in the surrounding area.",NA
"Katrine_Hansen_Psidium_guajava_Thailand_2019","3","Plant observations","Xylocopa (Koptortosoma) aestuans","species","other_wild_bees",1,10,200,20,"At each study site,1-2 flowers within 1 m^2 quadrat on ten different trees were observed. 15+5 minutes of observation per tree. Note: All study sites either had their own A. cerana hives or there would be hives in the surrounding area.",NA
"Katrine_Hansen_Psidium_guajava_Thailand_2019","4","Plant observations","Xylocopa (Koptortosoma) aestuans","species","other_wild_bees",11,10,200,17,"At each study site,1-2 flowers within 1 m^2 quadrat on ten different trees were observed. 15+5 minutes of observation per tree. Note: All study sites either had their own A. cerana hives or there would be hives in the surrounding area.",NA
"Katrine_Hansen_Psidium_guajava_Thailand_2019","3","Plant observations","Xylocopa (Mesotrichia) latipes","species","other_wild_bees",4,10,200,20,"At each study site,1-2 flowers within 1 m^2 quadrat on ten different trees were observed. 15+5 minutes of observation per tree. Note: All study sites either had their own A. cerana hives or there would be hives in the surrounding area.",NA
"Katrine_Hansen_Psidium_guajava_Thailand_2019","1","Plant observations","Geniotrigona thoracica","species","other_wild_bees",14,10,200,20,"At each study site,1-2 flowers within 1 m^2 quadrat on ten different trees were observed. 15+5 minutes of observation per tree. Note: All study sites either had their own A. cerana hives or there would be hives in the surrounding area.",NA
"Katrine_Hansen_Psidium_guajava_Thailand_2019","1","Plant observations","Heterotrigona itama","species","other_wild_bees",134,10,200,20,"At each study site,1-2 flowers within 1 m^2 quadrat on ten different trees were observed. 15+5 minutes of observation per tree. Note: All study sites either had their own A. cerana hives or there would be hives in the surrounding area.",NA
"Katrine_Hansen_Psidium_guajava_Thailand_2019","4","Plant observations","Heterotrigona itama","species","other_wild_bees",11,10,200,17,"At each study site,1-2 flowers within 1 m^2 quadrat on ten different trees were observed. 15+5 minutes of observation per tree. Note: All study sites either had their own A. cerana hives or there would be hives in the surrounding area.",NA
"Katrine_Hansen_Psidium_guajava_Thailand_2019","1","Plant observations","Tetragonula (laeviceps gr.)","species","other_wild_bees",7,10,200,20,"At each study site,1-2 flowers within 1 m^2 quadrat on ten different trees were observed. 15+5 minutes of observation per tree. Note: All study sites either had their own A. cerana hives or there would be hives in the surrounding area.",NA
"Katrine_Hansen_Psidium_guajava_Thailand_2020","2","Plant observations","Tetragonula (laeviceps gr.)","species","other_wild_bees",13,10,200,18,"At each study site,1-2 flowers within 1 m^2 quadrat on ten different trees were observed. 15+5 minutes of observation per tree. Note: All study sites either had their own A. cerana hives or there would be hives in the surrounding area.",NA
"Katrine_Hansen_Psidium_guajava_Thailand_2019","4","Plant observations","Tetragonula (laeviceps gr.)","species","other_wild_bees",12,10,200,17,"At each study site,1-2 flowers within 1 m^2 quadrat on ten different trees were observed. 15+5 minutes of observation per tree. Note: All study sites either had their own A. cerana hives or there would be hives in the surrounding area.",NA
"Katrine_Hansen_Psidium_guajava_Thailand_2019","1","Plant observations","Tetragonula (pagdeni gr.)","species","other_wild_bees",9,10,200,20,"At each study site,1-2 flowers within 1 m^2 quadrat on ten different trees were observed. 15+5 minutes of observation per tree. Note: All study sites either had their own A. cerana hives or there would be hives in the surrounding area.",NA
"Katrine_Hansen_Psidium_guajava_Thailand_2019","4","Plant observations","Tetragonula sp.","genus","other_wild_bees",6,10,200,17,"At each study site,1-2 flowers within 1 m^2 quadrat on ten different trees were observed. 15+5 minutes of observation per tree. Note: All study sites either had their own A. cerana hives or there would be hives in the surrounding area.",NA
"Katrine_Hansen_Psidium_guajava_Thailand_2019","1","Plant observations","Meliponines sp.","tribe","other_wild_bees",1,10,200,20,"At each study site,1-2 flowers within 1 m^2 quadrat on ten different trees were observed. 15+5 minutes of observation per tree. Note: All study sites either had their own A. cerana hives or there would be hives in the surrounding area.",NA
"Katrine_Hansen_Psidium_guajava_Thailand_2019","1","Plant observations","Vespa Affinis","species","non_bee_hymenoptera",1,10,200,20,"At each study site,1-2 flowers within 1 m^2 quadrat on ten different trees were observed. 15+5 minutes of observation per tree. Note: All study sites either had their own A. cerana hives or there would be hives in the surrounding area.",NA
"Katrine_Hansen_Psidium_guajava_Thailand_2020","5","Plant observations","Coleoptera sp. 1","morphospecies","beetles",2,10,200,19,"At each study site,1-2 flowers within 1 m^2 quadrat on ten different trees were observed. 15+5 minutes of observation per tree. Note: All study sites either had their own A. cerana hives or there would be hives in the surrounding area.",NA
"Katrine_Hansen_Psidium_guajava_Thailand_2020","5","Plant observations","Coleoptera sp. 2","morphospecies","beetles",7,10,200,19,"At each study site,1-2 flowers within 1 m^2 quadrat on ten different trees were observed. 15+5 minutes of observation per tree. Note: All study sites either had their own A. cerana hives or there would be hives in the surrounding area.",NA
"Katrine_Hansen_Psidium_guajava_Thailand_2020","5","Plant observations","Coleoptera sp. 3","morphospecies","beetles",1,10,200,19,"At each study site,1-2 flowers within 1 m^2 quadrat on ten different trees were observed. 15+5 minutes of observation per tree. Note: All study sites either had their own A. cerana hives or there would be hives in the surrounding area.",NA
"Katrine_Hansen_Psidium_guajava_Thailand_2019","4","Plant observations","Diptera sp. 1","morphospecies","other_flies",19,10,200,17,"At each study site,1-2 flowers within 1 m^2 quadrat on ten different trees were observed. 15+5 minutes of observation per tree. Note: All study sites either had their own A. cerana hives or there would be hives in the surrounding area.",NA
"Katrine_Hansen_Psidium_guajava_Thailand_2019","4","Plant observations","Diptera sp. 2","morphospecies","other_flies",2,10,200,17,"At each study site,1-2 flowers within 1 m^2 quadrat on ten different trees were observed. 15+5 minutes of observation per tree. Note: All study sites either had their own A. cerana hives or there would be hives in the surrounding area.",NA
"Katrine_Hansen_Psidium_guajava_Thailand_2019","4","Plant observations","Diptera sp. 3","morphospecies","other_flies",3,10,200,17,"At each study site,1-2 flowers within 1 m^2 quadrat on ten different trees were observed. 15+5 minutes of observation per tree. Note: All study sites either had their own A. cerana hives or there would be hives in the surrounding area.",NA
"Katrine_Hansen_Psidium_guajava_Thailand_2020","2","Plant observations","Diptera sp. 4","morphospecies","other_flies",15,10,200,18,"At each study site,1-2 flowers within 1 m^2 quadrat on ten different trees were observed. 15+5 minutes of observation per tree. Note: All study sites either had their own A. cerana hives or there would be hives in the surrounding area.",NA
"Katrine_Hansen_Psidium_guajava_Thailand_2020","5","Plant observations","Formicidae sp. 1","morphospecies","non_bee_hymenoptera",4,10,200,19,"At each study site,1-2 flowers within 1 m^2 quadrat on ten different trees were observed. 15+5 minutes of observation per tree. Note: All study sites either had their own A. cerana hives or there would be hives in the surrounding area.",NA
"Katrine_Hansen_Psidium_guajava_Thailand_2019","4","Plant observations","Formicidae sp. 3","morphospecies","non_bee_hymenoptera",2,10,200,17,"At each study site,1-2 flowers within 1 m^2 quadrat on ten different trees were observed. 15+5 minutes of observation per tree. Note: All study sites either had their own A. cerana hives or there would be hives in the surrounding area.",NA
"Katrine_Hansen_Psidium_guajava_Thailand_2020","5","Plant observations","Formicidae sp. 4","morphospecies","non_bee_hymenoptera",1,10,200,19,"At each study site,1-2 flowers within 1 m^2 quadrat on ten different trees were observed. 15+5 minutes of observation per tree. Note: All study sites either had their own A. cerana hives or there would be hives in the surrounding area.",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S1","obs","apis.mellifera","species","honeybees",96,NA,288,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S1","obs","Bombylidae","family","humbleflies",8,NA,288,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S1","obs","episyrphus.balteatus","species","syrphids",3,NA,288,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S1","obs","eristalis.sp","genus","syrphids",25,NA,288,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S1","obs","other.diptera","group","other_flies",49,NA,288,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S1","obs","other.syrphidae","group","syrphids",13,NA,288,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S1","obs","solitary.bee","group","other_wild_bees",9,NA,288,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S1","sweep","Andrena.cineraria","species","other_wild_bees",1,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S1","sweep","Andrena.flavipes","species","other_wild_bees",1,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S1","sweep","Andrena.subopaca","species","other_wild_bees",1,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S1","sweep","Coccinellidae","family","beetles",1,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S1","sweep","Heteropt","group","other",3,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S1","sweep","Meligethies.anaeus","species","beetles",504,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S1","sweep","Parasitica","group","non_bee_hymenoptera",18,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S1","sweep","Syrphidae","family","syrphids",1,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S1","sweep","Syrphidae","family","syrphids",1,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S1","pitfall","Amara.aenea","species","beetles",1,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S1","pitfall","Amara.familiaris","species","beetles",1,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S1","pitfall","Amara.ovata","species","beetles",1,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S1","pitfall","Anchmenus.dorsalis","species","beetles",4,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S1","pitfall","Anisodactylus.binotatus","species","beetles",2,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S1","pitfall","Araneae","group","other",3,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S1","pitfall","Formicidae","family","non_bee_hymenoptera",3,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S1","pitfall","Formicidae","family","non_bee_hymenoptera",3,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S1","pitfall","Gastropoda","group","other",4,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S1","pitfall","Harpalus.rufipes","species","beetles",2,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S1","pitfall","Nebria.salina","species","beetles",4,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S1","pitfall","Poecilus.cupreus","species","beetles",16,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S1","pitfall","Staphylinidae","family","beetles",6,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S1","pitfall","Trechus.quadristriatus","species","beetles",1,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S1","obs","apis.mellifera","species","honeybees",105,NA,288,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S1","obs","Bombus.pascuorum","species","bumblebees",4,NA,288,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S1","obs","bombus.terrestris","species","bumblebees",12,NA,288,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S1","obs","Bombylidae","family","humbleflies",3,NA,288,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S1","obs","eristalis.sp","genus","syrphids",28,NA,288,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S1","obs","other.diptera","group","other_flies",9,NA,288,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S1","obs","other.syrphidae","group","syrphids",3,NA,288,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S1","obs","solitary.bee","group","other_wild_bees",9,NA,288,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S1","pitfall","Agonum.muelleri","species","beetles",5,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S1","pitfall","Amara.ovata","species","beetles",6,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S1","pitfall","Amara.similata","species","beetles",9,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S1","pitfall","Anchmenus.dorsalis","species","beetles",34,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S1","pitfall","Anisodactylus.binotatus","species","beetles",1,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S1","pitfall","Araneae","group","other",1,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S1","pitfall","Asaphdion.flavipes","species","beetles",1,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S1","pitfall","Bembidion.lampros","species","beetles",1,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S1","pitfall","Bembidion.quadrimaculatum","species","beetles",1,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S1","pitfall","Coccinelidae","family","beetles",2,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S1","pitfall","Formicidae","family","non_bee_hymenoptera",27,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S1","pitfall","Formicidae","family","non_bee_hymenoptera",27,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S1","pitfall","Gastropoda","group","other",2,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S1","pitfall","Loricara.pilicornis","species","beetles",1,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S1","pitfall","Nebria.brevicollis","species","beetles",1,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S1","pitfall","Nebria.salina","species","beetles",3,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S1","pitfall","Poecilus.cupreus","species","beetles",25,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S1","pitfall","Pterostichus.melanarius","species","beetles",2,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S1","pitfall","Staphylinidae","family","beetles",4,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S1","sweep","Andrena.gravida","species","other_wild_bees",1,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S1","sweep","Aphids","group","other",1,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S1","sweep","Apis.mellifera","species","honeybees",3,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S1","sweep","Bombus.pascuorum","species","bumblebees",1,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S1","sweep","Bombus.terrestris","species","bumblebees",1,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S1","sweep","Heteropt","group","other",6,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S1","sweep","Lasioglossum.pauxillum","species","other_wild_bees",2,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S1","sweep","Melanostoma.scalare","species","syrphids",1,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S1","sweep","Meligethies.anaeus","species","beetles",666,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S1","sweep","Parasitica","group","non_bee_hymenoptera",16,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S1","sweep","Syrphidae","family","syrphids",1,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S1","sweep","Syrphidae","family","syrphids",1,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S1","pitfall","Amara.ovata","species","beetles",3,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S1","pitfall","Anisodactylus.binotatus","species","beetles",1,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S1","pitfall","Formicidae","family","non_bee_hymenoptera",3,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S1","pitfall","Formicidae","family","non_bee_hymenoptera",3,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S1","pitfall","Nebria.salina","species","beetles",1,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S1","pitfall","Poecilus.cupreus","species","beetles",1,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S1","pitfall","Staphylinidae","family","beetles",2,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S1","obs","apis.mellifera","species","honeybees",152,NA,288,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S1","obs","bombus.lapidarius","species","bumblebees",10,NA,288,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S1","obs","eristalis.sp","genus","syrphids",17,NA,288,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S1","obs","other.diptera","group","other_flies",21,NA,288,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S1","obs","solitary.bee","group","other_wild_bees",12,NA,288,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S1","sweep","Andrena.bicolor","species","other_wild_bees",1,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S1","sweep","Apis.mellifera","species","honeybees",2,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S1","sweep","Bombus.lucorum","species","bumblebees",1,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S1","sweep","Bombus.terrestris","species","bumblebees",1,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S1","sweep","Heteropt","group","other",4,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S1","sweep","Meligethies.anaeus","species","beetles",271,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S1","sweep","Parasitica","group","non_bee_hymenoptera",6,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S1","obs","apis.mellifera","species","honeybees",28,NA,288,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S1","obs","bombus.terrestris","species","bumblebees",9,NA,288,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S1","obs","eristalis.sp","genus","syrphids",6,NA,288,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S1","obs","other.diptera","group","other_flies",18,NA,288,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S1","obs","other.syrphidae","group","syrphids",4,NA,288,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S1","obs","solitary.bee","group","other_wild_bees",4,NA,288,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S1","sweep","Apis.mellifera","species","honeybees",5,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S1","sweep","Bombus.lucorum","species","bumblebees",1,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S1","sweep","Bombus.terrestris","species","bumblebees",1,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S1","sweep","Heteropt","group","other",4,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S1","sweep","Lasioglossum.calceatum","species","other_wild_bees",1,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S1","sweep","Meligethies.anaeus","species","beetles",266,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S1","sweep","Parasitica","group","non_bee_hymenoptera",6,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S1","pitfall","Amara.aenea","species","beetles",2,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S1","pitfall","Amara.ovata","species","beetles",1,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S1","pitfall","Anchmenus.dorsalis","species","beetles",1,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S1","pitfall","Araneae","group","other",1,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S1","pitfall","Formicidae","family","non_bee_hymenoptera",4,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S1","pitfall","Formicidae","family","non_bee_hymenoptera",4,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S1","pitfall","Gastropoda","group","other",4,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S1","pitfall","Harpalus.rufipes","species","beetles",1,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S1","pitfall","Loricara.pilicornis","species","beetles",2,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S1","pitfall","Nebria.salina","species","beetles",6,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S1","pitfall","Poecilus.cupreus","species","beetles",6,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S1","pitfall","Staphylinidae","family","beetles",7,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S1","pitfall","Trechus.quadristriatus","species","beetles",1,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S1","sweep","Melanostoma.spec.","species","syrphids",1,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S10","obs","apis.mellifera","species","honeybees",1240,NA,288,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S10","obs","Bombus.pascuorum","species","bumblebees",6,NA,288,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S10","obs","bombus.terrestris","species","bumblebees",1,NA,288,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S10","obs","other.diptera","group","other_flies",1,NA,288,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S10","obs","other.syrphidae","group","syrphids",1,NA,288,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S10","obs","solitary.bee","group","other_wild_bees",5,NA,288,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S10","sweep","Andrena.cineraria","species","other_wild_bees",1,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S10","sweep","Apis.mellifera","species","honeybees",39,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S10","sweep","Colletes.cunicularius","species","other_wild_bees",1,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S10","sweep","Heteropt","group","other",9,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S10","sweep","Lasioglossum.calceatum","species","other_wild_bees",1,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S10","sweep","Meligethies.anaeus","species","beetles",608,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S10","sweep","Parasitica","group","non_bee_hymenoptera",7,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S10","sweep","Syrphidae","family","syrphids",1,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S10","sweep","Syrphidae","family","syrphids",1,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S10","pitfall","Agonum.muelleri","species","beetles",1,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S10","pitfall","Amara.aenea","species","beetles",1,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S10","pitfall","Amara.ovata","species","beetles",11,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S10","pitfall","Amara.similata","species","beetles",3,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S10","pitfall","Anchmenus.dorsalis","species","beetles",8,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S10","pitfall","Anisodactylus.binotatus","species","beetles",3,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S10","pitfall","Araneae","group","other",11,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S10","pitfall","Asaphdion.flavipes","species","beetles",2,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S10","pitfall","Bembidion.lampros","species","beetles",10,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S10","pitfall","Brachinus.explodens","species","beetles",1,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S10","pitfall","Formicidae","family","non_bee_hymenoptera",4,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S10","pitfall","Formicidae","family","non_bee_hymenoptera",4,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S10","pitfall","Gastropoda","group","other",6,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S10","pitfall","Nebria.salina","species","beetles",2,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S10","pitfall","Poecilus.cupreus","species","beetles",56,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S10","pitfall","Staphylinidae","family","beetles",55,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S10","obs","apis.mellifera","species","honeybees",2162,NA,288,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S10","obs","bombus.lapidarius","species","bumblebees",70,NA,288,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S10","obs","other.diptera","group","other_flies",3,NA,288,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S10","obs","other.syrphidae","group","syrphids",1,NA,288,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S10","obs","solitary.bee","group","other_wild_bees",2,NA,288,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S10","pitfall","Agonum.muelleri","species","beetles",1,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S10","pitfall","Amara.aenea","species","beetles",1,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S10","pitfall","Amara.familiaris","species","beetles",1,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S10","pitfall","Amara.ovata","species","beetles",7,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S10","pitfall","Amara.similata","species","beetles",2,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S10","pitfall","Anchmenus.dorsalis","species","beetles",20,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S10","pitfall","Anisodactylus.binotatus","species","beetles",3,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S10","pitfall","Anisodactylus.signatus","species","beetles",2,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S10","pitfall","Araneae","group","other",10,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S10","pitfall","Bembidion.lampros","species","beetles",6,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S10","pitfall","Clivina.fossor","species","beetles",2,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S10","pitfall","Formicidae","family","non_bee_hymenoptera",2,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S10","pitfall","Formicidae","family","non_bee_hymenoptera",2,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S10","pitfall","Gastropoda","group","other",2,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S10","pitfall","Harpalus.dimidiatus","species","beetles",1,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S10","pitfall","Nebria.salina","species","beetles",4,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S10","pitfall","Poecilus.cupreus","species","beetles",40,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S10","pitfall","Pterostichus.vernalis","species","beetles",1,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S10","pitfall","Staphylinidae","family","beetles",43,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S10","pitfall","Stenolophus.teutonus","species","beetles",1,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S10","pitfall","Trechus.quadristriatus","species","beetles",1,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S10","sweep","Andrena.flavipes","species","other_wild_bees",1,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S10","sweep","Apis.mellifera","species","honeybees",38,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S10","sweep","Heteropt","group","other",4,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S10","sweep","Lasioglossum.laticeps","species","other_wild_bees",1,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S10","sweep","Lasioglossum.pallens","species","other_wild_bees",1,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S10","sweep","Melanostoma.mellinum","species","syrphids",1,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S10","sweep","Meligethies.anaeus","species","beetles",412,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S10","sweep","Parasitica","group","non_bee_hymenoptera",12,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S10","sweep","Syrphidae","family","syrphids",1,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S10","sweep","Syrphidae","family","syrphids",1,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S10","pitfall","Amara.ovata","species","beetles",3,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S10","pitfall","Araneae","group","other",3,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S10","pitfall","Asaphdion.flavipes","species","beetles",1,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S10","pitfall","Bembidion.lampros","species","beetles",2,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S10","pitfall","Cantharidae","species","beetles",1,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S10","pitfall","Formicidae","family","non_bee_hymenoptera",1,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S10","pitfall","Formicidae","family","non_bee_hymenoptera",1,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S10","pitfall","Poecilus.cupreus","species","beetles",25,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S10","pitfall","Staphylinidae","family","beetles",14,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S10","pitfall","Trechus.quadristriatus","species","beetles",1,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S10","sweep","Melanostoma.scalare","species","syrphids",1,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S10","obs","apis.mellifera","species","honeybees",1760,NA,288,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S10","obs","bombus.lapidarius","species","bumblebees",3,NA,288,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S10","obs","bombus.terrestris","species","bumblebees",13,NA,288,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S10","obs","Lepidoptera","group","lepidoptera",1,NA,288,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S10","obs","Lepidoptera","group","lepidoptera",1,NA,288,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S10","obs","other.diptera","group","other_flies",3,NA,288,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S10","obs","solitary.bee","group","other_wild_bees",7,NA,288,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S10","sweep","Apis.mellifera","species","honeybees",68,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S10","sweep","Bombus.terrestris","species","bumblebees",1,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S10","sweep","Colletes.cunicularius","species","other_wild_bees",2,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S10","sweep","Heteropt","group","other",8,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S10","sweep","Lasioglossum.calceatum","species","other_wild_bees",1,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S10","sweep","Meligethies.anaeus","species","beetles",534,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S10","sweep","Parasitica","group","non_bee_hymenoptera",10,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S10","obs","apis.mellifera","species","honeybees",939,NA,288,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S10","obs","bombus.terrestris","species","bumblebees",51,NA,288,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S10","obs","solitary.bee","group","other_wild_bees",1,NA,288,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S10","sweep","Andrena.cineraria","species","other_wild_bees",1,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S10","sweep","Apis.mellifera","species","honeybees",48,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S10","sweep","Bombus.terrestris","species","bumblebees",1,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S10","sweep","Heteropt","group","other",9,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S10","sweep","Lasioglossum.calceatum","species","other_wild_bees",1,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S10","sweep","Meligethies.anaeus","species","beetles",311,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S10","sweep","Parasitica","group","non_bee_hymenoptera",33,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S10","sweep","Syrphidae","family","syrphids",1,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S10","sweep","Syrphidae","family","syrphids",1,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S10","pitfall","Agonum.muelleri","species","beetles",1,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S10","pitfall","Amara.aenea","species","beetles",2,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S10","pitfall","Amara.familiaris","species","beetles",1,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S10","pitfall","Amara.ovata","species","beetles",10,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S10","pitfall","Amara.similata","species","beetles",1,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S10","pitfall","Anchmenus.dorsalis","species","beetles",1,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S10","pitfall","Anisodactylus.binotatus","species","beetles",2,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S10","pitfall","Araneae","group","other",7,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S10","pitfall","Asaphdion.flavipes","species","beetles",2,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S10","pitfall","Bembidion.lampros","species","beetles",4,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S10","pitfall","Bembidion.obtusum","species","beetles",1,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S10","pitfall","Cantharidae","species","beetles",1,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S10","pitfall","Formicidae","family","non_bee_hymenoptera",1,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S10","pitfall","Formicidae","family","non_bee_hymenoptera",1,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S10","pitfall","Gastropoda","group","other",3,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S10","pitfall","Nebria.salina","species","beetles",2,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S10","pitfall","Poecilus.cupreus","species","beetles",69,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S10","pitfall","Staphylinidae","family","beetles",23,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S10","pitfall","Stenolophus.teutonus","species","beetles",1,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S10","pitfall","Trechus.quadristriatus","species","beetles",1,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S10","sweep","Melanostoma.scalare","species","syrphids",1,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S11","obs","apis.mellifera","species","honeybees",39,NA,288,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S11","obs","other.diptera","group","other_flies",16,NA,288,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S11","obs","other.syrphidae","group","syrphids",5,NA,288,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S11","obs","solitary.bee","group","other_wild_bees",4,NA,288,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S11","sweep","Apis.mellifera","species","honeybees",9,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S11","sweep","Heteropt","group","other",15,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S11","sweep","Lasioglossum.malachurum","species","other_wild_bees",1,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S11","sweep","Meligethies.anaeus","species","beetles",737,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S11","sweep","Parasitica","group","non_bee_hymenoptera",41,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S11","sweep","Syrphidae","family","syrphids",12,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S11","sweep","Syrphidae","family","syrphids",12,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S11","pitfall","Agonum.muelleri","species","beetles",2,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S11","pitfall","Amara.ovata","species","beetles",10,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S11","pitfall","Anchmenus.dorsalis","species","beetles",9,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S11","pitfall","Araneae","group","other",3,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S11","pitfall","Carabus.monilis","species","beetles",1,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S11","pitfall","Clivina.fossor","species","beetles",1,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S11","pitfall","Formicidae","family","non_bee_hymenoptera",5,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S11","pitfall","Formicidae","family","non_bee_hymenoptera",5,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S11","pitfall","Gastropoda","group","other",30,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S11","pitfall","Poecilus.cupreus","species","beetles",55,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S11","pitfall","Pterostichus.anthracinus","species","beetles",1,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S11","pitfall","Staphylinidae","family","beetles",21,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S11","sweep","Melanostoma.scalare","species","syrphids",2,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S11","obs","apis.mellifera","species","honeybees",40,NA,288,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S11","obs","other.diptera","group","other_flies",9,NA,288,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S11","obs","solitary.bee","group","other_wild_bees",7,NA,288,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S11","pitfall","Agonum.muelleri","species","beetles",1,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S11","pitfall","Amara.ovata","species","beetles",15,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S11","pitfall","Amara.similata","species","beetles",2,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S11","pitfall","Anchmenus.dorsalis","species","beetles",17,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S11","pitfall","Anisodactylus.binotatus","species","beetles",7,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S11","pitfall","Anisodactylus.signatus","species","beetles",1,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S11","pitfall","Araneae","group","other",6,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S11","pitfall","Bembidion.lampros","species","beetles",5,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S11","pitfall","Carabus.granulatus","species","beetles",2,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S11","pitfall","Carabus.monilis","species","beetles",3,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S11","pitfall","Formicidae","family","non_bee_hymenoptera",4,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S11","pitfall","Formicidae","family","non_bee_hymenoptera",4,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S11","pitfall","Gastropoda","group","other",19,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S11","pitfall","Harpalus.rufipes","species","beetles",1,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S11","pitfall","Nebria.salina","species","beetles",1,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S11","pitfall","Poecilus.cupreus","species","beetles",93,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S11","pitfall","Staphylinidae","family","beetles",30,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S11","sweep","Andrena.bicolor","species","other_wild_bees",1,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S11","sweep","Andrena.haemorrhoa","species","other_wild_bees",1,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S11","sweep","Andrena.nitida","species","other_wild_bees",1,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S11","sweep","Anthophora.plumipes","species","other_wild_bees",1,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S11","sweep","Apis.mellifera","species","honeybees",6,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S11","sweep","Bombus.terrestris","species","bumblebees",1,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S11","sweep","Heteropt","group","other",16,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S11","sweep","Lasioglossum.malachurum","species","other_wild_bees",4,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S11","sweep","Melanostoma.mellinum","species","syrphids",5,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S11","sweep","Melanostoma.scalare","species","syrphids",3,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S11","sweep","Melanostoma.spec.","species","syrphids",4,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S11","sweep","Meligethies.anaeus","species","beetles",594,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S11","sweep","Parasitica","group","non_bee_hymenoptera",16,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S11","sweep","Syrphidae","family","syrphids",1,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S11","sweep","Syrphidae","family","syrphids",1,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S11","pitfall","Amara.ovata","species","beetles",1,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S11","pitfall","Anchmenus.dorsalis","species","beetles",5,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S11","pitfall","Anisodactylus.binotatus","species","beetles",1,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S11","pitfall","Araneae","group","other",2,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S11","pitfall","Formicidae","family","non_bee_hymenoptera",1,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S11","pitfall","Formicidae","family","non_bee_hymenoptera",1,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S11","pitfall","Gastropoda","group","other",3,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S11","pitfall","Poecilus.cupreus","species","beetles",38,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S11","pitfall","Poecilus.versicolor","species","beetles",1,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S11","pitfall","Pterostichus.anthracinus","species","beetles",1,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S11","pitfall","Pterostichus.vernalis","species","beetles",2,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S11","pitfall","Staphylinidae","family","beetles",8,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S11","sweep","Melanostoma.scalare","species","syrphids",1,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S11","obs","apis.mellifera","species","honeybees",11,NA,288,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S11","obs","other.diptera","group","other_flies",5,NA,288,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S11","obs","other.syrphidae","group","syrphids",2,NA,288,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S11","sweep","Apis.mellifera","species","honeybees",3,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S11","sweep","Heteropt","group","other",6,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S11","sweep","Lasioglossum.malachurum","species","other_wild_bees",1,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S11","sweep","Meligethies.anaeus","species","beetles",358,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S11","sweep","Parasitica","group","non_bee_hymenoptera",7,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S11","sweep","Syrphidae","family","syrphids",2,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S11","sweep","Syrphidae","family","syrphids",2,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S11","obs","apis.mellifera","species","honeybees",96,NA,288,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S11","obs","eristalis.sp","genus","syrphids",1,NA,288,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S11","obs","other.diptera","group","other_flies",14,NA,288,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S11","sweep","Andrena.nitida","species","other_wild_bees",1,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S11","sweep","Anthophora.plumipes","species","other_wild_bees",1,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S11","sweep","Apis.mellifera","species","honeybees",3,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S11","sweep","Heteropt","group","other",9,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S11","sweep","Lasioglossum.malachurum","species","other_wild_bees",2,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S11","sweep","Meligethies.anaeus","species","beetles",321,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S11","sweep","Parasitica","group","non_bee_hymenoptera",10,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S11","sweep","Syrphidae","family","syrphids",1,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S11","sweep","Syrphidae","family","syrphids",1,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S11","pitfall","Amara.ovata","species","beetles",1,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S11","pitfall","Anchmenus.dorsalis","species","beetles",7,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S11","pitfall","Araneae","group","other",2,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S11","pitfall","Coccinelidae","family","beetles",1,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S11","pitfall","Formicidae","family","non_bee_hymenoptera",1,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S11","pitfall","Formicidae","family","non_bee_hymenoptera",1,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S11","pitfall","Gastropoda","group","other",22,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S11","pitfall","Poecilus.cupreus","species","beetles",12,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S11","pitfall","Staphylinidae","family","beetles",13,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S11","sweep","Melanostoma.scalare","species","syrphids",2,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S12","obs","apis.mellifera","species","honeybees",189,NA,288,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S12","obs","Bombus.pascuorum","species","bumblebees",49,NA,288,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S12","obs","bombus.terrestris","species","bumblebees",44,NA,288,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S12","obs","Bombylidae","family","humbleflies",18,NA,288,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S12","obs","episyrphus.balteatus","species","syrphids",7,NA,288,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S12","obs","eristalis.sp","genus","syrphids",9,NA,288,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S12","obs","other.diptera","group","other_flies",36,NA,288,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S12","obs","other.syrphidae","group","syrphids",7,NA,288,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S12","obs","solitary.bee","group","other_wild_bees",6,NA,288,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S12","sweep","Andrena.subopaca","species","other_wild_bees",1,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S12","sweep","Apis.mellifera","species","honeybees",30,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S12","sweep","Bombus.pratorum","species","bumblebees",1,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S12","sweep","Bombus.terrestris","species","bumblebees",2,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S12","sweep","Coccinellidae","family","beetles",18,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S12","sweep","Heteropt","group","other",86,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S12","sweep","Lasioglossum.laticeps","species","other_wild_bees",1,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S12","sweep","Meligethies.anaeus","species","beetles",1743,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S12","sweep","Nomada.flavoguttata","species","other_wild_bees",1,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S12","sweep","Parasitica","group","non_bee_hymenoptera",139,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S12","sweep","Syrphidae","family","syrphids",17,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S12","sweep","Syrphidae","family","syrphids",17,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S12","pitfall","Agonum.muelleri","species","beetles",21,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S12","pitfall","Amara.aenea","species","beetles",1,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S12","pitfall","Amara.ovata","species","beetles",5,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S12","pitfall","Amara.similata","species","beetles",3,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S12","pitfall","Anisodactylus.binotatus","species","beetles",1,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S12","pitfall","Araneae","group","other",3,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S12","pitfall","Asaphdion.flavipes","species","beetles",1,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S12","pitfall","Bembidion.lampros","species","beetles",3,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S12","pitfall","Coccinelidae","family","beetles",2,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S12","pitfall","Gastropoda","group","other",4,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S12","pitfall","Nebria.salina","species","beetles",2,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S12","pitfall","Poecilus.cupreus","species","beetles",79,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S12","pitfall","Staphylinidae","family","beetles",24,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S12","pitfall","Trechus.quadristriatus","species","beetles",1,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S12","pitfall","Trichotichnus.nitens","species","beetles",1,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S12","obs","apis.mellifera","species","honeybees",169,NA,288,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S12","obs","Bombus.pascuorum","species","bumblebees",19,NA,288,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S12","obs","bombus.terrestris","species","bumblebees",7,NA,288,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S12","obs","Bombylidae","family","humbleflies",10,NA,288,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S12","obs","episyrphus.balteatus","species","syrphids",7,NA,288,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S12","obs","eristalis.sp","genus","syrphids",2,NA,288,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S12","obs","other.diptera","group","other_flies",14,NA,288,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S12","obs","other.syrphidae","group","syrphids",1,NA,288,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S12","obs","solitary.bee","group","other_wild_bees",55,NA,288,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S12","pitfall","Agonum.muelleri","species","beetles",1,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S12","pitfall","Amara.ovata","species","beetles",16,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S12","pitfall","Amara.similata","species","beetles",4,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S12","pitfall","Anchmenus.dorsalis","species","beetles",9,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S12","pitfall","Anisodactylus.binotatus","species","beetles",1,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S12","pitfall","Araneae","group","other",6,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S12","pitfall","Asaphdion.flavipes","species","beetles",1,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S12","pitfall","Coccinelidae","family","beetles",1,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S12","pitfall","Formicidae","family","non_bee_hymenoptera",3,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S12","pitfall","Formicidae","family","non_bee_hymenoptera",3,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S12","pitfall","Gastropoda","group","other",9,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S12","pitfall","Nebria.brevicollis","species","beetles",1,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S12","pitfall","Nebria.salina","species","beetles",5,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S12","pitfall","Platynus.assimilis","species","beetles",1,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S12","pitfall","Poecilus.cupreus","species","beetles",68,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S12","pitfall","Staphylinidae","family","beetles",7,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S12","sweep","Andrena.helvola","species","other_wild_bees",3,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S12","sweep","Apis.mellifera","species","honeybees",22,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S12","sweep","Bombus.terrestris","species","bumblebees",1,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S12","sweep","Coccinellidae","family","beetles",5,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S12","sweep","Heteropt","group","other",38,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S12","sweep","Lasioglossum.laticeps","species","other_wild_bees",1,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S12","sweep","Melanostoma.mellinum","species","syrphids",4,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S12","sweep","Melanostoma.scalare","species","syrphids",6,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S12","sweep","Melanostoma.spec.","species","syrphids",2,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S12","sweep","Meligethies.anaeus","species","beetles",913,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S12","sweep","Parasitica","group","non_bee_hymenoptera",45,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S12","sweep","Parasyrphus.annulatus","species","syrphids",1,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S12","sweep","Platycheirus.albimanus","species","syrphids",1,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S12","sweep","Syritta.pipiens","species","syrphids",2,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S12","sweep","Syrphidae","family","syrphids",6,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S12","sweep","Syrphidae","family","syrphids",6,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S12","sweep","Syrphus.ribesii","species","syrphids",1,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S12","sweep","Syrphus.vitripennis","species","syrphids",1,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S12","pitfall","Amara.familiaris","species","beetles",1,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S12","pitfall","Amara.ovata","species","beetles",13,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S12","pitfall","Amara.similata","species","beetles",2,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S12","pitfall","Anisodactylus.binotatus","species","beetles",1,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S12","pitfall","Araneae","group","other",2,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S12","pitfall","Bembidion.lampros","species","beetles",1,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S12","pitfall","Gastropoda","group","other",9,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S12","pitfall","Nebria.salina","species","beetles",1,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S12","pitfall","Poecilus.cupreus","species","beetles",66,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S12","pitfall","Staphylinidae","family","beetles",27,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S12","sweep","Melanostoma.spec.","species","syrphids",1,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S12","sweep","Parasyrphus.annulatus","species","syrphids",1,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S12","sweep","Platycheirus.scutatus","species","syrphids",1,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S12","obs","apis.mellifera","species","honeybees",138,NA,288,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S12","obs","bombus.terrestris","species","bumblebees",44,NA,288,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S12","obs","Bombylidae","family","humbleflies",5,NA,288,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S12","obs","episyrphus.balteatus","species","syrphids",6,NA,288,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S12","obs","eristalis.sp","genus","syrphids",12,NA,288,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S12","obs","other.diptera","group","other_flies",11,NA,288,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S12","obs","other.syrphidae","group","syrphids",2,NA,288,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S12","obs","sphaerophoria.sp","genus","syrphids",1,NA,288,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S12","sweep","Apis.mellifera","species","honeybees",15,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S12","sweep","Bombus.pascuorum","species","bumblebees",1,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S12","sweep","Bombus.terrestris","species","bumblebees",2,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S12","sweep","Coccinellidae","family","beetles",4,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S12","sweep","Heteropt","group","other",25,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S12","sweep","Lasioglossum.calceatum","species","other_wild_bees",1,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S12","sweep","Meligethies.anaeus","species","beetles",569,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S12","sweep","Parasitica","group","non_bee_hymenoptera",25,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S12","sweep","Syrphidae","family","syrphids",1,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S12","sweep","Syrphidae","family","syrphids",1,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S12","obs","apis.mellifera","species","honeybees",143,NA,288,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S12","obs","bombus.lapidarius","species","bumblebees",2,NA,288,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S12","obs","bombus.terrestris","species","bumblebees",1,NA,288,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S12","obs","Bombylidae","family","humbleflies",3,NA,288,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S12","obs","episyrphus.balteatus","species","syrphids",6,NA,288,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S12","obs","eristalis.sp","genus","syrphids",5,NA,288,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S12","obs","other.diptera","group","other_flies",13,NA,288,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S12","obs","other.syrphidae","group","syrphids",1,NA,288,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S12","obs","solitary.bee","group","other_wild_bees",6,NA,288,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S12","sweep","Apis.mellifera","species","honeybees",14,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S12","sweep","Bombus.lapidarius","species","bumblebees",1,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S12","sweep","Bombus.terrestris","species","bumblebees",1,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S12","sweep","Coccinellidae","family","beetles",7,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S12","sweep","Heteropt","group","other",29,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S12","sweep","Lasioglossum.laticeps","species","other_wild_bees",2,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S12","sweep","Meligethies.anaeus","species","beetles",290,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S12","sweep","Parasitica","group","non_bee_hymenoptera",11,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S12","sweep","Syrphidae","family","syrphids",3,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S12","sweep","Syrphidae","family","syrphids",3,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S12","pitfall","Amara.ovata","species","beetles",2,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S12","pitfall","Anchmenus.dorsalis","species","beetles",2,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S12","pitfall","Araneae","group","other",10,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S12","pitfall","Asaphdion.flavipes","species","beetles",1,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S12","pitfall","Bembidion.lampros","species","beetles",1,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S12","pitfall","Formicidae","family","non_bee_hymenoptera",3,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S12","pitfall","Formicidae","family","non_bee_hymenoptera",3,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S12","pitfall","Gastropoda","group","other",12,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S12","pitfall","Harpalus.rufipes","species","beetles",1,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S12","pitfall","Nebria.salina","species","beetles",1,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S12","pitfall","Poecilus.cupreus","species","beetles",11,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S12","pitfall","Staphylinidae","family","beetles",14,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S12","sweep","Melanostoma.mellinum","species","syrphids",1,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S12","sweep","Melanostoma.spec.","species","syrphids",3,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S12","sweep","Platycheirus.albimanus","species","syrphids",2,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S13","obs","apis.mellifera","species","honeybees",520,NA,288,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S13","obs","episyrphus.balteatus","species","syrphids",1,NA,288,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S13","obs","eristalis.sp","genus","syrphids",1,NA,288,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S13","obs","other.syrphidae","group","syrphids",3,NA,288,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S13","obs","solitary.bee","group","other_wild_bees",7,NA,288,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S13","sweep","Andrena.flavipes","species","other_wild_bees",1,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S13","sweep","Andrena.minutula","species","other_wild_bees",5,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S13","sweep","Andrena.nitida","species","other_wild_bees",3,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S13","sweep","Apis.mellifera","species","honeybees",13,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S13","sweep","Coccinellidae","family","beetles",3,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S13","sweep","Heteropt","group","other",11,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S13","sweep","Lasioglossum.interruptum","species","other_wild_bees",1,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S13","sweep","Lasioglossum.pauxillum","species","other_wild_bees",20,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S13","sweep","Meligethies.anaeus","species","beetles",659,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S13","sweep","Parasitica","group","non_bee_hymenoptera",107,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S13","sweep","Syrphidae","family","syrphids",1,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S13","sweep","Syrphidae","family","syrphids",1,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S13","pitfall","Amara.ovata","species","beetles",2,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S13","pitfall","Anchmenus.dorsalis","species","beetles",4,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S13","pitfall","Anisodactylus.binotatus","species","beetles",1,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S13","pitfall","Araneae","group","other",6,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S13","pitfall","Cantharidae","species","beetles",1,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S13","pitfall","Gastropoda","group","other",2,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S13","pitfall","Harpalus.affinis","species","beetles",2,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S13","pitfall","Harpalus.signaticornis","species","beetles",1,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S13","pitfall","Nebria.salina","species","beetles",5,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S13","pitfall","Poecilus.cupreus","species","beetles",28,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S13","pitfall","Staphylinidae","family","beetles",45,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S13","obs","apis.mellifera","species","honeybees",922,NA,288,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S13","obs","bombus.lapidarius","species","bumblebees",2,NA,288,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S13","obs","other.syrphidae","group","syrphids",1,NA,288,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S13","obs","solitary.bee","group","other_wild_bees",2,NA,288,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S13","pitfall","Agonum.muelleri","species","beetles",1,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S13","pitfall","Amara.ovata","species","beetles",9,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S13","pitfall","Amara.similata","species","beetles",2,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S13","pitfall","Anchmenus.dorsalis","species","beetles",1,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S13","pitfall","Anisodactylus.binotatus","species","beetles",2,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S13","pitfall","Araneae","group","other",13,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S13","pitfall","Brachinus.explodens","species","beetles",1,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S13","pitfall","Formicidae","family","non_bee_hymenoptera",20,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S13","pitfall","Formicidae","family","non_bee_hymenoptera",20,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S13","pitfall","Gastropoda","group","other",9,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S13","pitfall","Harpalus.affinis","species","beetles",2,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S13","pitfall","Harpalus.distinguendus","species","beetles",3,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S13","pitfall","Harpalus.signaticornis","species","beetles",1,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S13","pitfall","Nebria.salina","species","beetles",6,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S13","pitfall","Poecilus.cupreus","species","beetles",61,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S13","pitfall","Staphylinidae","family","beetles",27,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S13","sweep","Andrena.cineraria","species","other_wild_bees",1,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S13","sweep","Apis.mellifera","species","honeybees",23,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S13","sweep","Heteropt","group","other",7,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S13","sweep","Lasioglossum.laticeps","species","other_wild_bees",1,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S13","sweep","Lasioglossum.pauxillum","species","other_wild_bees",5,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S13","sweep","Melanostoma.mellinum","species","syrphids",1,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S13","sweep","Meligethies.anaeus","species","beetles",565,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S13","sweep","Parasitica","group","non_bee_hymenoptera",38,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S13","pitfall","Amara.ovata","species","beetles",4,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S13","pitfall","Anchmenus.dorsalis","species","beetles",3,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S13","pitfall","Anisodactylus.signatus","species","beetles",1,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S13","pitfall","Araneae","group","other",11,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S13","pitfall","Brachinus.explodens","species","beetles",1,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S13","pitfall","Formicidae","family","non_bee_hymenoptera",2,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S13","pitfall","Formicidae","family","non_bee_hymenoptera",2,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S13","pitfall","Gastropoda","group","other",10,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S13","pitfall","Nebria.salina","species","beetles",5,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S13","pitfall","Poecilus.cupreus","species","beetles",117,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S13","pitfall","Staphylinidae","family","beetles",64,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S13","obs","apis.mellifera","species","honeybees",1103,NA,288,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S13","obs","bombus.lapidarius","species","bumblebees",2,NA,288,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S13","obs","Bombylidae","family","humbleflies",2,NA,288,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S13","obs","other.syrphidae","group","syrphids",1,NA,288,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S13","obs","solitary.bee","group","other_wild_bees",1,NA,288,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S13","sweep","Andrena.flavipes","species","other_wild_bees",1,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S13","sweep","Apis.mellifera","species","honeybees",27,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S13","sweep","Heteropt","group","other",3,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S13","sweep","Lasioglossum.calceatum","species","other_wild_bees",1,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S13","sweep","Lasioglossum.laticeps","species","other_wild_bees",1,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S13","sweep","Lasioglossum.malachurum","species","other_wild_bees",1,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S13","sweep","Lasioglossum.pauxillum","species","other_wild_bees",2,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S13","sweep","Meligethies.anaeus","species","beetles",603,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S13","sweep","Parasitica","group","non_bee_hymenoptera",34,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S13","obs","apis.mellifera","species","honeybees",833,NA,288,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S13","obs","bombus.terrestris","species","bumblebees",6,NA,288,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S13","obs","other.syrphidae","group","syrphids",1,NA,288,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S13","obs","solitary.bee","group","other_wild_bees",5,NA,288,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S13","sweep","Andrena.minutula","species","other_wild_bees",1,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S13","sweep","Apis.mellifera","species","honeybees",30,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S13","sweep","Heteropt","group","other",9,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S13","sweep","Lasioglossum.malachurum","species","other_wild_bees",1,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S13","sweep","Lasioglossum.morio","species","other_wild_bees",1,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S13","sweep","Lasioglossum.pauxillum","species","other_wild_bees",1,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S13","sweep","Meligethies.anaeus","species","beetles",580,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S13","sweep","Parasitica","group","non_bee_hymenoptera",29,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S13","pitfall","Amara.ovata","species","beetles",2,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S13","pitfall","Anchmenus.dorsalis","species","beetles",7,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S13","pitfall","Anisodactylus.binotatus","species","beetles",2,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S13","pitfall","Araneae","group","other",3,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S13","pitfall","Gastropoda","group","other",6,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S13","pitfall","Nebria.salina","species","beetles",4,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S13","pitfall","Poecilus.cupreus","species","beetles",44,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S13","pitfall","Staphylinidae","family","beetles",35,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S14","obs","apis.mellifera","species","honeybees",715,NA,288,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S14","obs","other.diptera","group","other_flies",5,NA,288,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S14","sweep","Apis.mellifera","species","honeybees",22,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S14","sweep","Bombus.lapidarius","species","bumblebees",1,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S14","sweep","Heteropt","group","other",13,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S14","sweep","Meligethies.anaeus","species","beetles",1985,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S14","sweep","Parasitica","group","non_bee_hymenoptera",733,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S14","sweep","Syrphidae","family","syrphids",1,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S14","sweep","Syrphidae","family","syrphids",1,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S14","pitfall","Agonum.muelleri","species","beetles",12,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S14","pitfall","Amara.aenea","species","beetles",1,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S14","pitfall","Amara.ovata","species","beetles",11,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S14","pitfall","Anchmenus.dorsalis","species","beetles",5,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S14","pitfall","Anisodactylus.binotatus","species","beetles",2,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S14","pitfall","Araneae","group","other",3,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S14","pitfall","Asaphdion.flavipes","species","beetles",1,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S14","pitfall","Bembidion.lampros","species","beetles",1,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S14","pitfall","Bembidion.properans","species","beetles",1,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S14","pitfall","Cantharidae","species","beetles",2,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S14","pitfall","Gastropoda","group","other",7,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S14","pitfall","Poecilus.cupreus","species","beetles",55,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S14","pitfall","Staphylinidae","family","beetles",10,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S14","obs","apis.mellifera","species","honeybees",488,NA,288,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S14","obs","eristalis.sp","genus","syrphids",1,NA,288,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S14","obs","other.diptera","group","other_flies",4,NA,288,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S14","obs","solitary.bee","group","other_wild_bees",7,NA,288,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S14","pitfall","Agonum.muelleri","species","beetles",3,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S14","pitfall","Amara.aenea","species","beetles",1,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S14","pitfall","Amara.ovata","species","beetles",21,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S14","pitfall","Amara.similata","species","beetles",2,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S14","pitfall","Araneae","group","other",4,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S14","pitfall","Cantharidae","species","beetles",1,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S14","pitfall","Carabus.nemoralis","species","beetles",1,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S14","pitfall","Formicidae","family","non_bee_hymenoptera",3,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S14","pitfall","Formicidae","family","non_bee_hymenoptera",3,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S14","pitfall","Gastropoda","group","other",7,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S14","pitfall","Nebria.brevicollis","species","beetles",1,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S14","pitfall","Poecilus.cupreus","species","beetles",48,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S14","pitfall","Staphylinidae","family","beetles",5,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S14","pitfall","Stenolophus.teutonus","species","beetles",1,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S14","sweep","Apis.mellifera","species","honeybees",38,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S14","sweep","Heteropt","group","other",1,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S14","sweep","Meligethies.anaeus","species","beetles",790,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S14","sweep","Parasitica","group","non_bee_hymenoptera",115,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S14","sweep","Rhingia.campestris","species","syrphids",1,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S14","pitfall","Agonum.muelleri","species","beetles",2,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S14","pitfall","Amara.ovata","species","beetles",2,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S14","pitfall","Anchmenus.dorsalis","species","beetles",1,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S14","pitfall","Asaphdion.flavipes","species","beetles",1,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S14","pitfall","Bembidion.lampros","species","beetles",1,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S14","pitfall","Carabus.granulatus","species","beetles",1,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S14","pitfall","Gastropoda","group","other",9,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S14","pitfall","Poecilus.cupreus","species","beetles",9,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S14","pitfall","Staphylinidae","family","beetles",12,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S14","sweep","Melanostoma.mellinum","species","syrphids",1,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S14","sweep","Melanostoma.scalare","species","syrphids",2,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S14","obs","apis.mellifera","species","honeybees",395,NA,288,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S14","obs","other.diptera","group","other_flies",8,NA,288,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S14","obs","other.syrphidae","group","syrphids",1,NA,288,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S14","sweep","Apis.mellifera","species","honeybees",30,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S14","sweep","Coccinellidae","family","beetles",1,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S14","sweep","Heteropt","group","other",13,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S14","sweep","Meligethies.anaeus","species","beetles",1041,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S14","sweep","Parasitica","group","non_bee_hymenoptera",135,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S14","obs","apis.mellifera","species","honeybees",540,NA,288,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S14","obs","bombus.lapidarius","species","bumblebees",2,NA,288,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S14","obs","Bombylidae","family","humbleflies",3,NA,288,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S14","obs","other.diptera","group","other_flies",5,NA,288,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S14","obs","solitary.bee","group","other_wild_bees",2,NA,288,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S14","sweep","Andrena.cineraria","species","other_wild_bees",1,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S14","sweep","Apis.mellifera","species","honeybees",20,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S14","sweep","Coccinellidae","family","beetles",2,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S14","sweep","Heteropt","group","other",21,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S14","sweep","Lasioglossum.calceatum","species","other_wild_bees",1,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S14","sweep","Meligethies.anaeus","species","beetles",862,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S14","sweep","Parasitica","group","non_bee_hymenoptera",164,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S14","sweep","Syrphidae","family","syrphids",3,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S14","sweep","Syrphidae","family","syrphids",3,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S14","pitfall","Agonum.muelleri","species","beetles",18,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S14","pitfall","Agonum.sexpunctatum","species","beetles",1,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S14","pitfall","Amara.aenea","species","beetles",4,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S14","pitfall","Amara.familiaris","species","beetles",1,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S14","pitfall","Amara.ovata","species","beetles",24,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S14","pitfall","Amara.similata","species","beetles",4,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S14","pitfall","Anchmenus.dorsalis","species","beetles",2,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S14","pitfall","Anisodactylus.binotatus","species","beetles",1,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S14","pitfall","Araneae","group","other",5,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S14","pitfall","Bembidion.lampros","species","beetles",1,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S14","pitfall","Clivina.collaris","species","beetles",1,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S14","pitfall","Gastropoda","group","other",11,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S14","pitfall","Nebria.salina","species","beetles",4,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S14","pitfall","Poecilus.cupreus","species","beetles",101,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S15","obs","apis.mellifera","species","honeybees",201,NA,288,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S15","obs","solitary.bee","group","other_wild_bees",7,NA,288,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S15","sweep","Apis.mellifera","species","honeybees",6,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S15","sweep","Heteropt","group","other",6,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S15","sweep","Lasioglossum.calceatum","species","other_wild_bees",1,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S15","sweep","Meligethies.anaeus","species","beetles",1070,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S15","sweep","Parasitica","group","non_bee_hymenoptera",26,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S15","sweep","Syrphidae","family","syrphids",3,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S15","sweep","Syrphidae","family","syrphids",3,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S15","pitfall","Agonum.muelleri","species","beetles",5,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S15","pitfall","Amara.aenea","species","beetles",3,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S15","pitfall","Amara.ovata","species","beetles",14,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S15","pitfall","Amara.similata","species","beetles",6,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S15","pitfall","Anchmenus.dorsalis","species","beetles",6,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S15","pitfall","Anisodactylus.binotatus","species","beetles",11,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S15","pitfall","Araneae","group","other",1,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S15","pitfall","Asaphdion.flavipes","species","beetles",3,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S15","pitfall","Badister.bullatus","species","beetles",1,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S15","pitfall","Bembidion.properans","species","beetles",2,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S15","pitfall","Formicidae","family","non_bee_hymenoptera",4,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S15","pitfall","Formicidae","family","non_bee_hymenoptera",4,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S15","pitfall","Gastropoda","group","other",20,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S15","pitfall","Harpalus.affinis","species","beetles",15,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S15","pitfall","Loricara.pilicornis","species","beetles",2,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S15","pitfall","Nebria.salina","species","beetles",6,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S15","pitfall","Poecilus.cupreus","species","beetles",141,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S15","pitfall","Staphylinidae","family","beetles",57,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S15","sweep","Melanostoma.mellinum","species","syrphids",1,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S15","sweep","Melanostoma.scalare","species","syrphids",1,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S15","obs","apis.mellifera","species","honeybees",306,NA,288,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S15","obs","eristalis.sp","genus","syrphids",21,NA,288,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S15","obs","other.diptera","group","other_flies",10,NA,288,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S15","obs","other.syrphidae","group","syrphids",1,NA,288,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S15","obs","solitary.bee","group","other_wild_bees",38,NA,288,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S15","obs","sphaerophoria.sp","genus","syrphids",2,NA,288,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S15","pitfall","Agonum.muelleri","species","beetles",1,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S15","pitfall","Amara.ovata","species","beetles",7,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S15","pitfall","Amara.similata","species","beetles",2,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S15","pitfall","Anisodactylus.binotatus","species","beetles",1,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S15","pitfall","Araneae","group","other",2,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S15","pitfall","Formicidae","family","non_bee_hymenoptera",9,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S15","pitfall","Formicidae","family","non_bee_hymenoptera",9,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S15","pitfall","Gastropoda","group","other",1,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S15","pitfall","Harpalus.affinis","species","beetles",2,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S15","pitfall","Harpalus.distinguendus","species","beetles",1,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S15","pitfall","Loricara.pilicornis","species","beetles",1,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S15","pitfall","Nebria.salina","species","beetles",1,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S15","pitfall","Poecilus.cupreus","species","beetles",55,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S15","pitfall","Staphylinidae","family","beetles",13,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S15","sweep","Andrena.flavipes","species","other_wild_bees",1,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S15","sweep","Andrena.humilis","species","other_wild_bees",1,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S15","sweep","Apis.mellifera","species","honeybees",9,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S15","sweep","Coccinellidae","family","beetles",1,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S15","sweep","Heteropt","group","other",8,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S15","sweep","Lasioglossum.marginatum","species","other_wild_bees",1,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S15","sweep","Melanostoma.scalare","species","syrphids",3,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S15","sweep","Meligethies.anaeus","species","beetles",1233,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S15","sweep","Parasitica","group","non_bee_hymenoptera",22,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S15","pitfall","Amara.ovata","species","beetles",3,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S15","pitfall","Asaphdion.flavipes","species","beetles",1,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S15","pitfall","Clivina.fossor","species","beetles",1,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S15","pitfall","Gastropoda","group","other",3,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S15","pitfall","Poecilus.cupreus","species","beetles",16,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S15","pitfall","Staphylinidae","family","beetles",8,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S15","sweep","Melanostoma.scalare","species","syrphids",1,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S15","obs","apis.mellifera","species","honeybees",209,NA,288,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S15","obs","eristalis.sp","genus","syrphids",1,NA,288,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S15","obs","solitary.bee","group","other_wild_bees",1,NA,288,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S15","obs","sphaerophoria.sp","genus","syrphids",13,NA,288,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S15","sweep","Andrena.cineraria","species","other_wild_bees",1,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S15","sweep","Apis.mellifera","species","honeybees",2,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S15","sweep","Bombus.terrestris","species","bumblebees",1,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S15","sweep","Heteropt","group","other",7,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S15","sweep","Lasioglossum.malachurum","species","other_wild_bees",1,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S15","sweep","Meligethies.anaeus","species","beetles",881,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S15","sweep","Parasitica","group","non_bee_hymenoptera",23,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S15","sweep","Syrphidae","family","syrphids",1,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S15","sweep","Syrphidae","family","syrphids",1,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S15","obs","apis.mellifera","species","honeybees",124,NA,288,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S15","obs","solitary.bee","group","other_wild_bees",6,NA,288,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S15","obs","sphaerophoria.sp","genus","syrphids",2,NA,288,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S15","sweep","Apis.mellifera","species","honeybees",5,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S15","sweep","Coccinellidae","family","beetles",1,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S15","sweep","Heteropt","group","other",2,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S15","sweep","Meligethies.anaeus","species","beetles",439,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S15","sweep","Parasitica","group","non_bee_hymenoptera",12,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S15","sweep","Syrphidae","family","syrphids",1,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S15","sweep","Syrphidae","family","syrphids",1,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S15","pitfall","Agonum.muelleri","species","beetles",2,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S15","pitfall","Agonum.sexpunctatum","species","beetles",3,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S15","pitfall","Amara.ovata","species","beetles",3,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S15","pitfall","Amara.similata","species","beetles",5,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S15","pitfall","Anchmenus.dorsalis","species","beetles",3,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S15","pitfall","Anisodactylus.binotatus","species","beetles",2,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S15","pitfall","Araneae","group","other",6,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S15","pitfall","Asaphdion.flavipes","species","beetles",2,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S15","pitfall","Bembidion.lampros","species","beetles",5,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S15","pitfall","Formicidae","family","non_bee_hymenoptera",7,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S15","pitfall","Formicidae","family","non_bee_hymenoptera",7,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S15","pitfall","Gastropoda","group","other",16,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S15","pitfall","Harpalus.affinis","species","beetles",7,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S15","pitfall","Loricara.pilicornis","species","beetles",3,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S15","pitfall","Nebria.salina","species","beetles",45,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S15","pitfall","Poecilus.cupreus","species","beetles",63,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S15","pitfall","Staphylinidae","family","beetles",37,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S16","obs","apis.mellifera","species","honeybees",196,NA,288,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S16","obs","episyrphus.balteatus","species","syrphids",1,NA,288,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S16","obs","eristalis.sp","genus","syrphids",1,NA,288,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S16","obs","other.diptera","group","other_flies",4,NA,288,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S16","obs","other.syrphidae","group","syrphids",3,NA,288,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S16","obs","solitary.bee","group","other_wild_bees",2,NA,288,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S16","sweep","Andrena.cineraria","species","other_wild_bees",1,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S16","sweep","Meligethies.anaeus","species","beetles",4,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S16","pitfall","Anchmenus.dorsalis","species","beetles",1,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S16","pitfall","Araneae","group","other",2,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S16","pitfall","Harpalus.affinis","species","beetles",1,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S16","pitfall","Nebria.salina","species","beetles",4,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S16","pitfall","Poecilus.cupreus","species","beetles",57,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S16","pitfall","Pterostichus.anthracinus","species","beetles",4,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S16","pitfall","Staphylinidae","family","beetles",12,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S16","obs","apis.mellifera","species","honeybees",138,NA,288,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S16","obs","bombus.lapidarius","species","bumblebees",95,NA,288,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S16","obs","other.diptera","group","other_flies",1,NA,288,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S16","obs","other.syrphidae","group","syrphids",2,NA,288,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S16","obs","solitary.bee","group","other_wild_bees",2,NA,288,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S16","pitfall","Agonum.muelleri","species","beetles",2,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S16","pitfall","Amara.aenea","species","beetles",1,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S16","pitfall","Araneae","group","other",6,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S16","pitfall","Asaphdion.flavipes","species","beetles",2,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S16","pitfall","Clivina.collaris","species","beetles",1,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S16","pitfall","Clivina.fossor","species","beetles",1,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S16","pitfall","Formicidae","family","non_bee_hymenoptera",2,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S16","pitfall","Formicidae","family","non_bee_hymenoptera",2,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S16","pitfall","Nebria.salina","species","beetles",8,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S16","pitfall","Poecilus.cupreus","species","beetles",23,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S16","pitfall","Staphylinidae","family","beetles",14,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S16","sweep","Apis.mellifera","species","honeybees",9,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S16","sweep","Coccinellidae","family","beetles",1,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S16","sweep","Heteropt","group","other",3,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S16","sweep","Meligethies.anaeus","species","beetles",53,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S16","sweep","Parasitica","group","non_bee_hymenoptera",6,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S16","pitfall","Agonum.muelleri","species","beetles",1,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S16","pitfall","Amara.aenea","species","beetles",1,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S16","pitfall","Amara.familiaris","species","beetles",1,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S16","pitfall","Amara.ovata","species","beetles",17,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S16","pitfall","Amara.similata","species","beetles",1,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S16","pitfall","Anchmenus.dorsalis","species","beetles",8,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S16","pitfall","Anisodactylus.binotatus","species","beetles",4,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S16","pitfall","Araneae","group","other",3,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S16","pitfall","Asaphdion.flavipes","species","beetles",1,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S16","pitfall","Clivina.fossor","species","beetles",6,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S16","pitfall","Formicidae","family","non_bee_hymenoptera",1,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S16","pitfall","Formicidae","family","non_bee_hymenoptera",1,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S16","pitfall","Poecilus.cupreus","species","beetles",96,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S16","pitfall","Pterostichus.anthracinus","species","beetles",1,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S16","pitfall","Staphylinidae","family","beetles",50,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S16","obs","apis.mellifera","species","honeybees",182,NA,288,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S16","obs","other.diptera","group","other_flies",1,NA,288,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S16","obs","other.syrphidae","group","syrphids",2,NA,288,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S16","sweep","Heteropt","group","other",1,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S16","sweep","Meligethies.anaeus","species","beetles",29,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S16","sweep","Parasitica","group","non_bee_hymenoptera",11,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S16","obs","apis.mellifera","species","honeybees",136,NA,288,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S16","obs","eristalis.sp","genus","syrphids",4,NA,288,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S16","obs","other.syrphidae","group","syrphids",2,NA,288,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S16","obs","solitary.bee","group","other_wild_bees",1,NA,288,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S16","obs","sphaerophoria.sp","genus","syrphids",3,NA,288,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S16","sweep","Apis.mellifera","species","honeybees",3,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S16","sweep","Meligethies.anaeus","species","beetles",18,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S16","pitfall","Agonum.muelleri","species","beetles",1,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S16","pitfall","Amara.aenea","species","beetles",1,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S16","pitfall","Amara.ovata","species","beetles",9,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S16","pitfall","Anchmenus.dorsalis","species","beetles",1,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S16","pitfall","Anisodactylus.binotatus","species","beetles",4,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S16","pitfall","Araneae","group","other",1,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S16","pitfall","Asaphdion.flavipes","species","beetles",1,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S16","pitfall","Clivina.fossor","species","beetles",2,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S16","pitfall","Coccinelidae","family","beetles",1,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S16","pitfall","Formicidae","family","non_bee_hymenoptera",1,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S16","pitfall","Formicidae","family","non_bee_hymenoptera",1,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S16","pitfall","Gastropoda","group","other",4,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S16","pitfall","Nebria.salina","species","beetles",5,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S16","pitfall","Poecilus.cupreus","species","beetles",32,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S16","pitfall","Pterostichus.anthracinus","species","beetles",10,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S16","pitfall","Pterostichus.vernalis","species","beetles",2,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S16","pitfall","Staphylinidae","family","beetles",32,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S17","obs","apis.mellifera","species","honeybees",141,NA,288,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S17","obs","bombus.terrestris","species","bumblebees",4,NA,288,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S17","obs","other.diptera","group","other_flies",38,NA,288,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S17","obs","solitary.bee","group","other_wild_bees",3,NA,288,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S17","sweep","Apis.mellifera","species","honeybees",9,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S17","sweep","Coccinellidae","family","beetles",1,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S17","sweep","Heteropt","group","other",8,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S17","sweep","Meligethies.anaeus","species","beetles",352,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S17","sweep","Parasitica","group","non_bee_hymenoptera",8,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S17","sweep","Syrphidae","family","syrphids",1,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S17","sweep","Syrphidae","family","syrphids",1,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S17","pitfall","Agonum.muelleri","species","beetles",1,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S17","pitfall","Amara.ovata","species","beetles",3,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S17","pitfall","Anchmenus.dorsalis","species","beetles",6,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S17","pitfall","Anisodactylus.binotatus","species","beetles",1,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S17","pitfall","Formicidae","family","non_bee_hymenoptera",3,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S17","pitfall","Formicidae","family","non_bee_hymenoptera",3,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S17","pitfall","Gastropoda","group","other",2,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S17","pitfall","Nebria.salina","species","beetles",18,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S17","pitfall","Poecilus.cupreus","species","beetles",58,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S17","pitfall","Staphylinidae","family","beetles",36,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S17","pitfall","Trechus.quadristriatus","species","beetles",1,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S17","sweep","Melanostoma.scalare","species","syrphids",1,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S17","obs","apis.mellifera","species","honeybees",127,NA,288,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S17","obs","other.diptera","group","other_flies",12,NA,288,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S17","obs","solitary.bee","group","other_wild_bees",7,NA,288,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S17","pitfall","Agonum.muelleri","species","beetles",1,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S17","pitfall","Anchmenus.dorsalis","species","beetles",2,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S17","pitfall","Anisodactylus.binotatus","species","beetles",1,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S17","pitfall","Araneae","group","other",4,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S17","pitfall","Clivina.fossor","species","beetles",1,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S17","pitfall","Gastropoda","group","other",9,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S17","pitfall","Harpalus.affinis","species","beetles",1,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S17","pitfall","Loricara.pilicornis","species","beetles",1,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S17","pitfall","Nebria.brevicollis","species","beetles",1,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S17","pitfall","Nebria.salina","species","beetles",15,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S17","pitfall","Platynus.assimilis","species","beetles",1,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S17","pitfall","Poecilus.cupreus","species","beetles",17,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S17","pitfall","Pterostichus.vernalis","species","beetles",2,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S17","pitfall","Staphylinidae","family","beetles",9,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S17","pitfall","Stomis.pumicatus","species","beetles",1,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S17","pitfall","Trechus.quadristriatus","species","beetles",1,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S17","sweep","Apis.mellifera","species","honeybees",5,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S17","sweep","Heteropt","group","other",13,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S17","sweep","Melanostoma.spec.","species","syrphids",1,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S17","sweep","Meligethies.anaeus","species","beetles",162,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S17","sweep","Parasitica","group","non_bee_hymenoptera",4,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S17","sweep","Syrphidae","family","syrphids",4,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S17","sweep","Syrphidae","family","syrphids",4,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S17","pitfall","Amara.aenea","species","beetles",1,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S17","pitfall","Amara.familiaris","species","beetles",1,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S17","pitfall","Amara.ovata","species","beetles",2,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S17","pitfall","Anchmenus.dorsalis","species","beetles",9,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S17","pitfall","Anisodactylus.binotatus","species","beetles",3,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S17","pitfall","Araneae","group","other",1,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S17","pitfall","Asaphdion.flavipes","species","beetles",1,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S17","pitfall","Bembidion.lampros","species","beetles",1,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S17","pitfall","Coccinelidae","family","beetles",1,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S17","pitfall","Formicidae","family","non_bee_hymenoptera",1,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S17","pitfall","Formicidae","family","non_bee_hymenoptera",1,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S17","pitfall","Gastropoda","group","other",6,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S17","pitfall","Nebria.salina","species","beetles",16,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S17","pitfall","Poecilus.cupreus","species","beetles",120,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S17","pitfall","Staphylinidae","family","beetles",51,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S17","sweep","Melanostoma.spec.","species","syrphids",1,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S17","obs","apis.mellifera","species","honeybees",118,NA,288,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S17","obs","bombus.terrestris","species","bumblebees",2,NA,288,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S17","obs","other.diptera","group","other_flies",17,NA,288,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S17","obs","other.syrphidae","group","syrphids",2,NA,288,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S17","obs","solitary.bee","group","other_wild_bees",1,NA,288,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S17","sweep","Apis.mellifera","species","honeybees",2,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S17","sweep","Coccinellidae","family","beetles",1,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S17","sweep","Heteropt","group","other",7,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S17","sweep","Meligethies.anaeus","species","beetles",193,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S17","sweep","Parasitica","group","non_bee_hymenoptera",5,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S17","obs","apis.mellifera","species","honeybees",117,NA,288,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S17","obs","other.diptera","group","other_flies",13,NA,288,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S17","obs","other.syrphidae","group","syrphids",1,NA,288,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S17","obs","solitary.bee","group","other_wild_bees",1,NA,288,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S17","sweep","Andrena.haemorrhoa","species","other_wild_bees",1,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S17","sweep","Apis.mellifera","species","honeybees",4,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S17","sweep","Coccinellidae","family","beetles",1,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S17","sweep","Halictus.tumulorum","species","other_wild_bees",1,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S17","sweep","Heteropt","group","other",6,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S17","sweep","Meligethies.anaeus","species","beetles",181,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S17","sweep","Parasitica","group","non_bee_hymenoptera",7,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S17","sweep","Syrphidae","family","syrphids",1,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S17","sweep","Syrphidae","family","syrphids",1,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S17","pitfall","Amara.aenea","species","beetles",4,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S17","pitfall","Amara.familiaris","species","beetles",1,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S17","pitfall","Amara.ovata","species","beetles",18,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S17","pitfall","Amara.similata","species","beetles",3,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S17","pitfall","Anchmenus.dorsalis","species","beetles",3,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S17","pitfall","Anisodactylus.binotatus","species","beetles",5,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S17","pitfall","Araneae","group","other",3,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S17","pitfall","Asaphdion.flavipes","species","beetles",2,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S17","pitfall","Bembidion.lampros","species","beetles",3,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S17","pitfall","Gastropoda","group","other",9,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S17","pitfall","Harpalus.signaticornis","species","beetles",1,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S17","pitfall","Nebria.brevicollis","species","beetles",1,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S17","pitfall","Nebria.salina","species","beetles",27,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S17","pitfall","Poecilus.cupreus","species","beetles",59,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S17","pitfall","Pterostichus.anthracinus","species","beetles",2,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S17","pitfall","Pterostichus.vernalis","species","beetles",2,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S17","pitfall","Staphylinidae","family","beetles",41,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S17","pitfall","Trechus.quadristriatus","species","beetles",1,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S17","sweep","Eristalis.pertinax","species","syrphids",2,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S17","sweep","Melanostoma.scalare","species","syrphids",2,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S18","obs","apis.mellifera","species","honeybees",198,NA,288,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S18","obs","Bombylidae","family","humbleflies",4,NA,288,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S18","obs","other.diptera","group","other_flies",4,NA,288,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S18","obs","other.syrphidae","group","syrphids",1,NA,288,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S18","sweep","Apis.mellifera","species","honeybees",14,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S18","sweep","Coccinellidae","family","beetles",1,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S18","sweep","Heteropt","group","other",7,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S18","sweep","Meligethies.anaeus","species","beetles",282,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S18","sweep","Parasitica","group","non_bee_hymenoptera",7,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S18","sweep","Syrphidae","family","syrphids",2,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S18","sweep","Syrphidae","family","syrphids",2,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S18","pitfall","Amara.aenea","species","beetles",1,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S18","pitfall","Amara.ovata","species","beetles",13,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S18","pitfall","Amara.similata","species","beetles",2,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S18","pitfall","Anchmenus.dorsalis","species","beetles",11,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S18","pitfall","Anisodactylus.binotatus","species","beetles",1,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S18","pitfall","Araneae","group","other",4,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S18","pitfall","Asaphdion.flavipes","species","beetles",1,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S18","pitfall","Bembidion.lampros","species","beetles",1,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S18","pitfall","Bembidion.quadrimaculatum","species","beetles",1,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S18","pitfall","Clivina.fossor","species","beetles",3,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S18","pitfall","Formicidae","family","non_bee_hymenoptera",4,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S18","pitfall","Formicidae","family","non_bee_hymenoptera",4,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S18","pitfall","Gastropoda","group","other",13,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S18","pitfall","Harpalus.rufipes","species","beetles",1,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S18","pitfall","Nebria.salina","species","beetles",4,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S18","pitfall","Poecilus.cupreus","species","beetles",31,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S18","pitfall","Pterostichus.vernalis","species","beetles",2,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S18","pitfall","Staphylinidae","family","beetles",50,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S18","obs","apis.mellifera","species","honeybees",128,NA,288,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S18","obs","solitary.bee","group","other_wild_bees",1,NA,288,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S18","pitfall","Agonum.muelleri","species","beetles",8,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S18","pitfall","Amara.aenea","species","beetles",1,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S18","pitfall","Amara.familiaris","species","beetles",1,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S18","pitfall","Amara.ovata","species","beetles",7,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S18","pitfall","Anchmenus.dorsalis","species","beetles",12,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S18","pitfall","Araneae","group","other",5,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S18","pitfall","Asaphdion.flavipes","species","beetles",1,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S18","pitfall","Coccinelidae","family","beetles",2,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S18","pitfall","Formicidae","family","non_bee_hymenoptera",2,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S18","pitfall","Formicidae","family","non_bee_hymenoptera",2,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S18","pitfall","Gastropoda","group","other",30,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S18","pitfall","Harpalus.affinis","species","beetles",1,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S18","pitfall","Nebria.salina","species","beetles",2,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S18","pitfall","Platynus.assimilis","species","beetles",2,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S18","pitfall","Poecilus.cupreus","species","beetles",41,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S18","pitfall","Staphylinidae","family","beetles",50,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S18","pitfall","Trechus.quadristriatus","species","beetles",1,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S18","sweep","Andrena.nitida","species","other_wild_bees",1,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S18","sweep","Apis.mellifera","species","honeybees",7,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S18","sweep","Heteropt","group","other",10,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S18","sweep","Lasioglossum.laticeps","species","other_wild_bees",1,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S18","sweep","Lasioglossum.pauxillum","species","other_wild_bees",1,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S18","sweep","Melanostoma.scalare","species","syrphids",2,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S18","sweep","Meligethies.anaeus","species","beetles",363,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S18","sweep","Parasitica","group","non_bee_hymenoptera",8,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S18","pitfall","Agonum.muelleri","species","beetles",1,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S18","pitfall","Amara.aenea","species","beetles",2,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S18","pitfall","Amara.familiaris","species","beetles",1,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S18","pitfall","Amara.ovata","species","beetles",17,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S18","pitfall","Amara.plebeja","species","beetles",1,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S18","pitfall","Anchmenus.dorsalis","species","beetles",18,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S18","pitfall","Anisodactylus.binotatus","species","beetles",3,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S18","pitfall","Araneae","group","other",2,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S18","pitfall","Asaphdion.flavipes","species","beetles",1,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S18","pitfall","Carabus.monilis","species","beetles",1,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S18","pitfall","Clivina.fossor","species","beetles",1,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S18","pitfall","Formicidae","family","non_bee_hymenoptera",7,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S18","pitfall","Formicidae","family","non_bee_hymenoptera",7,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S18","pitfall","Gastropoda","group","other",24,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S18","pitfall","Nebria.salina","species","beetles",7,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S18","pitfall","Poecilus.cupreus","species","beetles",89,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S18","pitfall","Pterostichus.anthracinus","species","beetles",1,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S18","pitfall","Staphylinidae","family","beetles",65,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S18","obs","apis.mellifera","species","honeybees",232,NA,288,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S18","obs","other.diptera","group","other_flies",2,NA,288,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S18","obs","other.syrphidae","group","syrphids",1,NA,288,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S18","sweep","Apis.mellifera","species","honeybees",22,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S18","sweep","Bombus.lucorum","species","bumblebees",1,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S18","sweep","Halictus.maculatus","species","other_wild_bees",1,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S18","sweep","Heteropt","group","other",4,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S18","sweep","Meligethies.anaeus","species","beetles",239,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S18","sweep","Parasitica","group","non_bee_hymenoptera",5,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S18","obs","apis.mellifera","species","honeybees",105,NA,288,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S18","obs","other.diptera","group","other_flies",1,NA,288,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S18","sweep","Andrena.cineraria","species","other_wild_bees",1,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S18","sweep","Andrena.haemorrhoa","species","other_wild_bees",1,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S18","sweep","Andrena.helvola","species","other_wild_bees",1,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S18","sweep","Apis.mellifera","species","honeybees",8,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S18","sweep","Heteropt","group","other",3,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S18","sweep","Lasioglossum.laticeps","species","other_wild_bees",1,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S18","sweep","Meligethies.anaeus","species","beetles",123,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S18","sweep","Parasitica","group","non_bee_hymenoptera",3,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S18","pitfall","Agonum.muelleri","species","beetles",6,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S18","pitfall","Amara.ovata","species","beetles",9,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S18","pitfall","Amara.similata","species","beetles",1,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S18","pitfall","Anchmenus.dorsalis","species","beetles",8,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S18","pitfall","Bembidion.lampros","species","beetles",1,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S18","pitfall","Clivina.fossor","species","beetles",1,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S18","pitfall","Formicidae","family","non_bee_hymenoptera",4,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S18","pitfall","Formicidae","family","non_bee_hymenoptera",4,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S18","pitfall","Gastropoda","group","other",12,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S18","pitfall","Harpalus.distinguendus","species","beetles",1,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S18","pitfall","Nebria.salina","species","beetles",1,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S18","pitfall","Platynus.assimilis","species","beetles",2,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S18","pitfall","Poecilus.cupreus","species","beetles",50,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S18","pitfall","Pterostichus.anthracinus","species","beetles",1,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S18","pitfall","Pterostichus.melanarius","species","beetles",5,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S18","pitfall","Staphylinidae","family","beetles",30,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S2","obs","apis.mellifera","species","honeybees",151,NA,288,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S2","obs","other.diptera","group","other_flies",1,NA,288,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S2","obs","other.syrphidae","group","syrphids",4,NA,288,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S2","sweep","Andrena.cineraria","species","other_wild_bees",2,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S2","sweep","Andrena.haemorrhoa","species","other_wild_bees",1,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S2","sweep","Apis.mellifera","species","honeybees",7,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S2","sweep","Coccinellidae","family","beetles",1,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S2","sweep","Heteropt","group","other",8,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S2","sweep","Lasioglossum.laticeps","species","other_wild_bees",1,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S2","sweep","Lasioglossum.pauxillum","species","other_wild_bees",2,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S2","sweep","Meligethies.anaeus","species","beetles",1406,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S2","sweep","Parasitica","group","non_bee_hymenoptera",42,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S2","sweep","Syrphidae","family","syrphids",6,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S2","sweep","Syrphidae","family","syrphids",6,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S2","pitfall","Amara.ovata","species","beetles",2,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S2","pitfall","Amara.similata","species","beetles",4,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S2","pitfall","Anchmenus.dorsalis","species","beetles",14,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S2","pitfall","Araneae","group","other",21,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S2","pitfall","Formicidae","family","non_bee_hymenoptera",8,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S2","pitfall","Formicidae","family","non_bee_hymenoptera",8,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S2","pitfall","Gastropoda","group","other",1,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S2","pitfall","Nebria.salina","species","beetles",4,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S2","pitfall","Poecilus.cupreus","species","beetles",44,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S2","pitfall","Staphylinidae","family","beetles",44,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S2","sweep","Melanostoma.mellinum","species","syrphids",3,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S2","sweep","Melanostoma.scalare","species","syrphids",1,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S2","obs","apis.mellifera","species","honeybees",188,NA,288,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S2","obs","other.diptera","group","other_flies",1,NA,288,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S2","obs","solitary.bee","group","other_wild_bees",3,NA,288,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S2","obs","sphaerophoria.sp","genus","syrphids",1,NA,288,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S2","pitfall","Abax.parallelepipedus","species","beetles",2,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S2","pitfall","Amara.aenea","species","beetles",2,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S2","pitfall","Amara.ovata","species","beetles",4,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S2","pitfall","Amara.similata","species","beetles",3,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S2","pitfall","Anchmenus.dorsalis","species","beetles",25,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S2","pitfall","Araneae","group","other",12,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S2","pitfall","Brachinus.explodens","species","beetles",1,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S2","pitfall","Formicidae","family","non_bee_hymenoptera",24,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S2","pitfall","Formicidae","family","non_bee_hymenoptera",24,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S2","pitfall","Gastropoda","group","other",7,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S2","pitfall","Harpalus.affinis","species","beetles",1,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S2","pitfall","Nebria.salina","species","beetles",1,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S2","pitfall","Platynus.assimilis","species","beetles",1,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S2","pitfall","Poecilus.cupreus","species","beetles",17,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S2","pitfall","Staphylinidae","family","beetles",77,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S2","sweep","Andrena.humilis","species","other_wild_bees",1,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S2","sweep","Apis.mellifera","species","honeybees",3,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S2","sweep","Eristalis.spec.","genus","syrphids",1,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S2","sweep","Heteropt","group","other",8,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S2","sweep","Lasioglossum.calceatum","species","other_wild_bees",1,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S2","sweep","Lasioglossum.laticeps","species","other_wild_bees",1,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S2","sweep","Melanostoma.mellinum","species","syrphids",3,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S2","sweep","Melanostoma.scalare","species","syrphids",1,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S2","sweep","Melanostoma.spec.","species","syrphids",1,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S2","sweep","Meligethies.anaeus","species","beetles",1069,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S2","sweep","Parasitica","group","non_bee_hymenoptera",47,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S2","sweep","Rhingia.campestris","species","syrphids",1,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S2","sweep","Syrphidae","family","syrphids",4,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S2","sweep","Syrphidae","family","syrphids",4,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S2","pitfall","Agonum.muelleri","species","beetles",4,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S2","pitfall","Amara.aenea","species","beetles",2,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S2","pitfall","Amara.ovata","species","beetles",9,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S2","pitfall","Amara.similata","species","beetles",3,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S2","pitfall","Anchmenus.dorsalis","species","beetles",13,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S2","pitfall","Anisodactylus.binotatus","species","beetles",1,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S2","pitfall","Araneae","group","other",16,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S2","pitfall","Bembidion.lampros","species","beetles",2,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S2","pitfall","Coccinelidae","family","beetles",1,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S2","pitfall","Formicidae","family","non_bee_hymenoptera",8,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S2","pitfall","Formicidae","family","non_bee_hymenoptera",8,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S2","pitfall","Gastropoda","group","other",6,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S2","pitfall","Harpalus.distinguendus","species","beetles",1,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S2","pitfall","Nebria.salina","species","beetles",2,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S2","pitfall","Poecilus.cupreus","species","beetles",130,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S2","pitfall","Pterostichus.melanarius","species","beetles",1,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S2","pitfall","Staphylinidae","family","beetles",54,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S2","sweep","Melanostoma.mellinum","species","syrphids",4,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S2","sweep","Melanostoma.scalare","species","syrphids",1,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S2","sweep","Sphaerophoria.spec.","genus","syrphids",1,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S2","obs","apis.mellifera","species","honeybees",55,NA,288,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S2","sweep","Andrena.minutula","species","other_wild_bees",1,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S2","sweep","Apis.mellifera","species","honeybees",8,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S2","sweep","Halictus.tumulorum","species","other_wild_bees",1,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S2","sweep","Heteropt","group","other",4,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S2","sweep","Meligethies.anaeus","species","beetles",1103,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S2","sweep","Parasitica","group","non_bee_hymenoptera",50,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S2","sweep","Syrphidae","family","syrphids",4,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S2","sweep","Syrphidae","family","syrphids",4,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S2","obs","apis.mellifera","species","honeybees",66,NA,288,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S2","obs","bombus.terrestris","species","bumblebees",19,NA,288,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S2","obs","solitary.bee","group","other_wild_bees",11,NA,288,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S2","sweep","Apis.mellifera","species","honeybees",15,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S2","sweep","Heteropt","group","other",8,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S2","sweep","Lasioglossum.calceatum","species","other_wild_bees",1,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S2","sweep","Lasioglossum.morio","species","other_wild_bees",1,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S2","sweep","Lasioglossum.villosulum","species","other_wild_bees",1,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S2","sweep","Meligethies.anaeus","species","beetles",1152,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S2","sweep","Parasitica","group","non_bee_hymenoptera",30,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S2","sweep","Syrphidae","family","syrphids",7,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S2","sweep","Syrphidae","family","syrphids",7,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S2","pitfall","Agonum.muelleri","species","beetles",4,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S2","pitfall","Amara.ovata","species","beetles",5,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S2","pitfall","Amara.similata","species","beetles",1,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S2","pitfall","Anchmenus.dorsalis","species","beetles",42,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S2","pitfall","Anisodactylus.binotatus","species","beetles",1,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S2","pitfall","Araneae","group","other",11,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S2","pitfall","Asaphdion.flavipes","species","beetles",2,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S2","pitfall","Bembidion.lampros","species","beetles",9,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S2","pitfall","Bembidion.quadrimaculatum","species","beetles",1,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S2","pitfall","Clivina.fossor","species","beetles",2,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S2","pitfall","Formicidae","family","non_bee_hymenoptera",37,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S2","pitfall","Formicidae","family","non_bee_hymenoptera",37,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S2","pitfall","Gastropoda","group","other",10,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S2","pitfall","Harpalus.affinis","species","beetles",1,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S2","pitfall","Loricara.pilicornis","species","beetles",2,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S2","pitfall","Nebria.salina","species","beetles",1,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S2","pitfall","Poecilus.cupreus","species","beetles",54,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S2","pitfall","Staphylinidae","family","beetles",90,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S2","sweep","Melanostoma.mellinum","species","syrphids",1,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S2","sweep","Melanostoma.scalare","species","syrphids",2,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S3","obs","apis.mellifera","species","honeybees",371,NA,288,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S3","obs","eristalis.sp","genus","syrphids",1,NA,288,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S3","obs","other.diptera","group","other_flies",9,NA,288,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S3","obs","other.syrphidae","group","syrphids",5,NA,288,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S3","obs","solitary.bee","group","other_wild_bees",7,NA,288,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S3","obs","sphaerophoria.sp","genus","syrphids",4,NA,288,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S3","sweep","Andrena.dorsata","species","other_wild_bees",1,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S3","sweep","Andrena.haemorrhoa","species","other_wild_bees",1,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S3","sweep","Andrena.subopaca","species","other_wild_bees",1,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S3","sweep","Apis.mellifera","species","honeybees",51,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S3","sweep","Colletes.cunicularius","species","other_wild_bees",1,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S3","sweep","Halictus.tumulorum","species","other_wild_bees",1,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S3","sweep","Heteropt","group","other",25,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S3","sweep","Lasioglossum.laticeps","species","other_wild_bees",1,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S3","sweep","Lasioglossum.morio","species","other_wild_bees",1,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S3","sweep","Lasioglossum.pauxillum","species","other_wild_bees",1,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S3","sweep","Meligethies.anaeus","species","beetles",475,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S3","sweep","Parasitica","group","non_bee_hymenoptera",13,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S3","sweep","Syrphidae","family","syrphids",3,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S3","sweep","Syrphidae","family","syrphids",3,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S3","pitfall","Abax.parallelepipedus","species","beetles",1,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S3","pitfall","Agonum.muelleri","species","beetles",1,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S3","pitfall","Amara.ovata","species","beetles",5,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S3","pitfall","Anchmenus.dorsalis","species","beetles",5,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S3","pitfall","Anisodactylus.binotatus","species","beetles",5,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S3","pitfall","Araneae","group","other",23,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S3","pitfall","Brachinus.crepitans","species","beetles",2,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S3","pitfall","Formicidae","family","non_bee_hymenoptera",9,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S3","pitfall","Formicidae","family","non_bee_hymenoptera",9,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S3","pitfall","Gastropoda","group","other",2,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S3","pitfall","Harpalus.affinis","species","beetles",2,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S3","pitfall","Harpalus.distinguendus","species","beetles",2,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S3","pitfall","Poecilus.cupreus","species","beetles",50,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S3","pitfall","Pterostichus.melanarius","species","beetles",1,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S3","pitfall","Staphylinidae","family","beetles",1,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S3","sweep","Melanostoma.scalare","species","syrphids",1,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S3","obs","apis.mellifera","species","honeybees",196,NA,288,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S3","obs","eristalis.sp","genus","syrphids",4,NA,288,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S3","obs","other.diptera","group","other_flies",6,NA,288,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S3","obs","solitary.bee","group","other_wild_bees",5,NA,288,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S3","pitfall","Amara.ovata","species","beetles",1,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S3","pitfall","Amara.similata","species","beetles",1,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S3","pitfall","Anchmenus.dorsalis","species","beetles",10,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S3","pitfall","Anisodactylus.binotatus","species","beetles",2,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S3","pitfall","Anisodactylus.signatus","species","beetles",1,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S3","pitfall","Araneae","group","other",15,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S3","pitfall","Brachinus.crepitans","species","beetles",2,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S3","pitfall","Formicidae","family","non_bee_hymenoptera",34,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S3","pitfall","Formicidae","family","non_bee_hymenoptera",34,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S3","pitfall","Gastropoda","group","other",4,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S3","pitfall","Harpalus.distinguendus","species","beetles",1,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S3","pitfall","Nebria.salina","species","beetles",2,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S3","pitfall","Poecilus.cupreus","species","beetles",17,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S3","pitfall","Staphylinidae","family","beetles",6,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S3","sweep","Andrena.minutula","species","other_wild_bees",1,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S3","sweep","Apis.mellifera","species","honeybees",35,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S3","sweep","Coccinellidae","family","beetles",2,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S3","sweep","Epistrophe.flava","species","syrphids",1,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S3","sweep","Heteropt","group","other",19,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S3","sweep","Lasioglossum.calceatum","species","other_wild_bees",1,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S3","sweep","Lasioglossum.pauxillum","species","other_wild_bees",1,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S3","sweep","Melanostoma.scalare","species","syrphids",1,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S3","sweep","Meligethies.anaeus","species","beetles",439,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S3","sweep","Parasitica","group","non_bee_hymenoptera",5,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S3","sweep","Sphaerophoria.spec.","genus","syrphids",1,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S3","sweep","Syrphidae","family","syrphids",2,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S3","sweep","Syrphidae","family","syrphids",2,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S3","pitfall","Anchmenus.dorsalis","species","beetles",6,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S3","pitfall","Anisodactylus.binotatus","species","beetles",1,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S3","pitfall","Araneae","group","other",10,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S3","pitfall","Gastropoda","group","other",2,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S3","pitfall","Poecilus.cupreus","species","beetles",31,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S3","sweep","Melanostoma.scalare","species","syrphids",5,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S3","obs","apis.mellifera","species","honeybees",231,NA,288,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S3","obs","bombus.terrestris","species","bumblebees",5,NA,288,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S3","obs","Lepidoptera","group","lepidoptera",1,NA,288,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S3","obs","Lepidoptera","group","lepidoptera",1,NA,288,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S3","obs","other.diptera","group","other_flies",4,NA,288,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S3","obs","solitary.bee","group","other_wild_bees",2,NA,288,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S3","sweep","Andrena.gravida","species","other_wild_bees",1,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S3","sweep","Apis.mellifera","species","honeybees",36,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S3","sweep","Heteropt","group","other",19,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S3","sweep","Meligethies.anaeus","species","beetles",329,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S3","sweep","Parasitica","group","non_bee_hymenoptera",9,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S3","sweep","Syrphidae","family","syrphids",1,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S3","sweep","Syrphidae","family","syrphids",1,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S3","obs","apis.mellifera","species","honeybees",242,NA,288,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S3","obs","other.diptera","group","other_flies",1,NA,288,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S3","obs","solitary.bee","group","other_wild_bees",1,NA,288,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S3","sweep","Andrena.fulvata","species","other_wild_bees",1,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S3","sweep","Apis.mellifera","species","honeybees",28,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S3","sweep","Heteropt","group","other",13,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S3","sweep","Lasioglossum.malachurum","species","other_wild_bees",1,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S3","sweep","Meligethies.anaeus","species","beetles",248,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S3","sweep","Parasitica","group","non_bee_hymenoptera",6,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S3","sweep","Syrphidae","family","syrphids",5,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S3","sweep","Syrphidae","family","syrphids",5,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S3","pitfall","Agonum.muelleri","species","beetles",2,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S3","pitfall","Amara.aenea","species","beetles",1,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S3","pitfall","Amara.ovata","species","beetles",4,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S3","pitfall","Amara.similata","species","beetles",1,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S3","pitfall","Anchmenus.dorsalis","species","beetles",15,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S3","pitfall","Anisodactylus.binotatus","species","beetles",5,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S3","pitfall","Araneae","group","other",9,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S3","pitfall","Bembidion.lampros","species","beetles",5,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S3","pitfall","Bembidion.tetracolum","species","beetles",1,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S3","pitfall","Brachinus.crepitans","species","beetles",2,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S3","pitfall","Clivina.fossor","species","beetles",1,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S3","pitfall","Formicidae","family","non_bee_hymenoptera",5,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S3","pitfall","Formicidae","family","non_bee_hymenoptera",5,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S3","pitfall","Gastropoda","group","other",5,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S3","pitfall","Nebria.brevicollis","species","beetles",2,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S3","pitfall","Nebria.salina","species","beetles",5,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S3","pitfall","Poecilus.cupreus","species","beetles",38,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S3","pitfall","Pterostichus.vernalis","species","beetles",2,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S3","pitfall","Staphylinidae","family","beetles",19,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S3","sweep","Melanostoma.scalare","species","syrphids",1,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S3","sweep","Syrphus.torvus","species","syrphids",1,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S4","obs","apis.mellifera","species","honeybees",1424,NA,288,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S4","obs","bombus.lapidarius","species","bumblebees",85,NA,288,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S4","obs","bombus.terrestris","species","bumblebees",12,NA,288,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S4","obs","other.diptera","group","other_flies",2,NA,288,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S4","obs","solitary.bee","group","other_wild_bees",3,NA,288,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S4","sweep","Apis.mellifera","species","honeybees",50,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S4","sweep","Halictus.tumulorum","species","other_wild_bees",2,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S4","sweep","Heteropt","group","other",22,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S4","sweep","Meligethies.anaeus","species","beetles",940,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S4","sweep","Parasitica","group","non_bee_hymenoptera",28,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S4","pitfall","Amara.aenea","species","beetles",2,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S4","pitfall","Amara.convexior","species","beetles",1,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S4","pitfall","Amara.familiaris","species","beetles",1,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S4","pitfall","Amara.montivaga","species","beetles",1,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S4","pitfall","Amara.ovata","species","beetles",19,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S4","pitfall","Amara.similata","species","beetles",14,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S4","pitfall","Anchmenus.dorsalis","species","beetles",14,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S4","pitfall","Anisodactylus.binotatus","species","beetles",7,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S4","pitfall","Araneae","group","other",5,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S4","pitfall","Asaphdion.flavipes","species","beetles",1,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S4","pitfall","Bembidion.lampros","species","beetles",1,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S4","pitfall","Bembidion.properans","species","beetles",2,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S4","pitfall","Brachinus.crepitans","species","beetles",2,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S4","pitfall","Brachinus.explodens","species","beetles",2,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S4","pitfall","Cantharidae","species","beetles",4,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S4","pitfall","Clivina.fossor","species","beetles",1,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S4","pitfall","Demetrias.atricapillus","species","beetles",1,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S4","pitfall","Formicidae","family","non_bee_hymenoptera",2,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S4","pitfall","Formicidae","family","non_bee_hymenoptera",2,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S4","pitfall","Harpalus.affinis","species","beetles",3,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S4","pitfall","Nebria.salina","species","beetles",1,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S4","pitfall","Poecilus.cupreus","species","beetles",116,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S4","pitfall","Staphylinidae","family","beetles",73,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S4","obs","apis.mellifera","species","honeybees",1176,NA,288,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S4","obs","episyrphus.balteatus","species","syrphids",2,NA,288,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S4","obs","other.diptera","group","other_flies",1,NA,288,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S4","obs","other.syrphidae","group","syrphids",1,NA,288,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S4","obs","solitary.bee","group","other_wild_bees",7,NA,288,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S4","pitfall","Agonum.muelleri","species","beetles",3,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S4","pitfall","Amara.ovata","species","beetles",1,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S4","pitfall","Anchmenus.dorsalis","species","beetles",16,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S4","pitfall","Anisodactylus.binotatus","species","beetles",1,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S4","pitfall","Araneae","group","other",2,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S4","pitfall","Carabus.auratus","species","beetles",2,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S4","pitfall","Formicidae","family","non_bee_hymenoptera",6,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S4","pitfall","Formicidae","family","non_bee_hymenoptera",6,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S4","pitfall","Gastropoda","group","other",2,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S4","pitfall","Nebria.brevicollis","species","beetles",2,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S4","pitfall","Nebria.salina","species","beetles",2,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S4","pitfall","Poecilus.cupreus","species","beetles",14,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S4","pitfall","Staphylinidae","family","beetles",15,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S4","sweep","Andrena.minutuloides","species","other_wild_bees",1,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S4","sweep","Apis.mellifera","species","honeybees",47,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S4","sweep","Heteropt","group","other",23,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S4","sweep","Lasioglossum.laticeps","species","other_wild_bees",1,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S4","sweep","Meligethies.anaeus","species","beetles",1084,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S4","sweep","Parasitica","group","non_bee_hymenoptera",42,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S4","sweep","Syrphidae","family","syrphids",2,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S4","sweep","Syrphidae","family","syrphids",2,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S4","pitfall","Agonum.muelleri","species","beetles",1,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S4","pitfall","Amara.similata","species","beetles",1,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S4","pitfall","Anchmenus.dorsalis","species","beetles",2,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S4","pitfall","Anisodactylus.binotatus","species","beetles",2,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S4","pitfall","Araneae","group","other",1,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S4","pitfall","Asaphdion.flavipes","species","beetles",1,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S4","pitfall","Bembidion.lampros","species","beetles",3,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S4","pitfall","Bembidion.obtusum","species","beetles",1,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S4","pitfall","Brachinus.crepitans","species","beetles",7,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S4","pitfall","Carabus.granulatus","species","beetles",1,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S4","pitfall","Clivina.fossor","species","beetles",1,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S4","pitfall","Formicidae","family","non_bee_hymenoptera",2,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S4","pitfall","Formicidae","family","non_bee_hymenoptera",2,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S4","pitfall","Harpalus.distinguendus","species","beetles",1,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S4","pitfall","Harpalus.signaticornis","species","beetles",1,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S4","pitfall","Nebria.salina","species","beetles",1,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S4","pitfall","Poecilus.cupreus","species","beetles",13,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S4","pitfall","Staphylinidae","family","beetles",22,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S4","pitfall","Stenolophus.teutonus","species","beetles",1,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S4","obs","apis.mellifera","species","honeybees",1452,NA,288,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S4","obs","bombus.terrestris","species","bumblebees",5,NA,288,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S4","obs","solitary.bee","group","other_wild_bees",19,NA,288,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S4","sweep","Andrena.minutula","species","other_wild_bees",1,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S4","sweep","Apis.mellifera","species","honeybees",10,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S4","sweep","Halictus.tumulorum","species","other_wild_bees",1,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S4","sweep","Heteropt","group","other",5,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S4","sweep","Lasioglossum.pallens","species","other_wild_bees",1,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S4","sweep","Meligethies.anaeus","species","beetles",1529,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S4","sweep","Parasitica","group","non_bee_hymenoptera",15,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S4","obs","apis.mellifera","species","honeybees",863,NA,288,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S4","obs","bombus.terrestris","species","bumblebees",2,NA,288,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S4","sweep","Apis.mellifera","species","honeybees",31,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S4","sweep","Heteropt","group","other",18,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S4","sweep","Lasioglossum.laticeps","species","other_wild_bees",1,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S4","sweep","Lasioglossum.pauxillum","species","other_wild_bees",1,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S4","sweep","Lasioglossum.villosulum","species","other_wild_bees",1,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S4","sweep","Meligethies.anaeus","species","beetles",1308,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S4","sweep","Parasitica","group","non_bee_hymenoptera",35,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S4","pitfall","Agonum.muelleri","species","beetles",2,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S4","pitfall","Amara.aenea","species","beetles",1,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S4","pitfall","Amara.familiaris","species","beetles",1,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S4","pitfall","Amara.ovata","species","beetles",6,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S4","pitfall","Amara.similata","species","beetles",2,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S4","pitfall","Anchmenus.dorsalis","species","beetles",6,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S4","pitfall","Anisodactylus.binotatus","species","beetles",2,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S4","pitfall","Araneae","group","other",8,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S4","pitfall","Asaphdion.flavipes","species","beetles",2,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S4","pitfall","Bembidion.lampros","species","beetles",4,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S4","pitfall","Bembidion.obtusum","species","beetles",2,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S4","pitfall","Brachinus.crepitans","species","beetles",4,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S4","pitfall","Brachinus.explodens","species","beetles",1,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S4","pitfall","Cantharidae","species","beetles",1,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S4","pitfall","Carabus.auratus","species","beetles",1,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S4","pitfall","Formicidae","family","non_bee_hymenoptera",14,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S4","pitfall","Formicidae","family","non_bee_hymenoptera",14,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S4","pitfall","Harpalus.affinis","species","beetles",2,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S4","pitfall","Harpalus.rubripes","species","beetles",1,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S4","pitfall","Harpalus.rufipes","species","beetles",1,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S4","pitfall","Loricara.pilicornis","species","beetles",2,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S4","pitfall","Nebria.salina","species","beetles",3,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S4","pitfall","Poecilus.cupreus","species","beetles",62,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S4","pitfall","Staphylinidae","family","beetles",20,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S4","sweep","Melanostoma.mellinum","species","syrphids",1,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S4","sweep","Melanostoma.scalare","species","syrphids",1,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S5","obs","apis.mellifera","species","honeybees",1253,NA,288,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S5","obs","Bombus.pascuorum","species","bumblebees",10,NA,288,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S5","obs","Bombylidae","family","humbleflies",3,NA,288,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S5","obs","Lepidoptera","group","lepidoptera",3,NA,288,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S5","obs","Lepidoptera","group","lepidoptera",3,NA,288,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S5","obs","solitary.bee","group","other_wild_bees",4,NA,288,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S5","sweep","Apis.mellifera","species","honeybees",16,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S5","sweep","Heteropt","group","other",1,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S5","sweep","Lasioglossum.laticeps","species","other_wild_bees",3,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S5","sweep","Meligethies.anaeus","species","beetles",302,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S5","sweep","Parasitica","group","non_bee_hymenoptera",9,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S5","pitfall","Amara.aenea","species","beetles",1,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S5","pitfall","Amara.ovata","species","beetles",5,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S5","pitfall","Anchmenus.dorsalis","species","beetles",1,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S5","pitfall","Anisodactylus.binotatus","species","beetles",1,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S5","pitfall","Anisodactylus.signatus","species","beetles",1,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S5","pitfall","Araneae","group","other",19,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S5","pitfall","Bembidion.lampros","species","beetles",2,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S5","pitfall","Cantharidae","species","beetles",1,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S5","pitfall","Formicidae","family","non_bee_hymenoptera",1,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S5","pitfall","Formicidae","family","non_bee_hymenoptera",1,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S5","pitfall","Nebria.salina","species","beetles",3,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S5","pitfall","Poecilus.cupreus","species","beetles",90,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S5","pitfall","Staphylinidae","family","beetles",40,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S5","sweep","Melanostoma.scalare","species","syrphids",2,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S5","obs","apis.mellifera","species","honeybees",1001,NA,288,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S5","obs","bombus.terrestris","species","bumblebees",10,NA,288,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S5","obs","Bombylidae","family","humbleflies",8,NA,288,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S5","obs","other.syrphidae","group","syrphids",1,NA,288,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S5","obs","solitary.bee","group","other_wild_bees",6,NA,288,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S5","pitfall","Amara.ovata","species","beetles",12,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S5","pitfall","Amara.similata","species","beetles",6,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S5","pitfall","Anchmenus.dorsalis","species","beetles",13,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S5","pitfall","Araneae","group","other",40,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S5","pitfall","Bembidion.lampros","species","beetles",1,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S5","pitfall","Formicidae","family","non_bee_hymenoptera",7,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S5","pitfall","Formicidae","family","non_bee_hymenoptera",7,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S5","pitfall","Gastropoda","group","other",1,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S5","pitfall","Harpalus.affinis","species","beetles",2,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S5","pitfall","Harpalus.signaticornis","species","beetles",1,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S5","pitfall","Nebria.salina","species","beetles",4,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S5","pitfall","Poecilus.cupreus","species","beetles",125,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S5","pitfall","Staphylinidae","family","beetles",23,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S5","sweep","Apis.mellifera","species","honeybees",62,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S5","sweep","Halictus.tumulorum","species","other_wild_bees",1,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S5","sweep","Heteropt","group","other",11,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S5","sweep","Lasioglossum.laticeps","species","other_wild_bees",2,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S5","sweep","Meligethies.anaeus","species","beetles",501,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S5","sweep","Parasitica","group","non_bee_hymenoptera",24,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S5","pitfall","Amara.ovata","species","beetles",14,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S5","pitfall","Amara.similata","species","beetles",2,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S5","pitfall","Anchmenus.dorsalis","species","beetles",9,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S5","pitfall","Anisodactylus.binotatus","species","beetles",3,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S5","pitfall","Araneae","group","other",24,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S5","pitfall","Asaphdion.flavipes","species","beetles",1,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S5","pitfall","Bembidion.lampros","species","beetles",4,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S5","pitfall","Carabus.monilis","species","beetles",1,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S5","pitfall","Nebria.salina","species","beetles",10,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S5","pitfall","Poecilus.cupreus","species","beetles",272,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S5","pitfall","Staphylinidae","family","beetles",75,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S5","obs","apis.mellifera","species","honeybees",1017,NA,288,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S5","obs","other.diptera","group","other_flies",1,NA,288,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S5","obs","other.syrphidae","group","syrphids",2,NA,288,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S5","obs","solitary.bee","group","other_wild_bees",2,NA,288,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S5","obs","sphaerophoria.sp","genus","syrphids",3,NA,288,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S5","sweep","Andrena.barbilabris","species","other_wild_bees",1,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S5","sweep","Apis.mellifera","species","honeybees",34,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S5","sweep","Coccinellidae","family","beetles",1,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S5","sweep","Heteropt","group","other",3,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S5","sweep","Lasioglossum.laticeps","species","other_wild_bees",2,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S5","sweep","Lasioglossum.pauxillum","species","other_wild_bees",1,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S5","sweep","Meligethies.anaeus","species","beetles",516,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S5","sweep","Parasitica","group","non_bee_hymenoptera",22,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S5","sweep","Syrphidae","family","syrphids",2,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S5","sweep","Syrphidae","family","syrphids",2,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S5","obs","apis.mellifera","species","honeybees",965,NA,288,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S5","obs","bombus.lapidarius","species","bumblebees",1,NA,288,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S5","obs","bombus.terrestris","species","bumblebees",8,NA,288,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S5","obs","eristalis.sp","genus","syrphids",5,NA,288,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S5","obs","other.diptera","group","other_flies",1,NA,288,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S5","obs","solitary.bee","group","other_wild_bees",1,NA,288,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S5","sweep","Andrena.haemorrhoa","species","other_wild_bees",1,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S5","sweep","Apis.mellifera","species","honeybees",40,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S5","sweep","Coccinellidae","family","beetles",1,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S5","sweep","Heteropt","group","other",3,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S5","sweep","Lasioglossum.laticeps","species","other_wild_bees",3,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S5","sweep","Meligethies.anaeus","species","beetles",410,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S5","sweep","Parasitica","group","non_bee_hymenoptera",15,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S5","pitfall","Amara.aenea","species","beetles",3,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S5","pitfall","Amara.ovata","species","beetles",5,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S5","pitfall","Anchmenus.dorsalis","species","beetles",12,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S5","pitfall","Anisodactylus.binotatus","species","beetles",1,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S5","pitfall","Araneae","group","other",18,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S5","pitfall","Bembidion.lampros","species","beetles",4,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S5","pitfall","Carabus.monilis","species","beetles",1,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S5","pitfall","Formicidae","family","non_bee_hymenoptera",2,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S5","pitfall","Formicidae","family","non_bee_hymenoptera",2,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S5","pitfall","Nebria.salina","species","beetles",15,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S5","pitfall","Poecilus.cupreus","species","beetles",96,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S5","pitfall","Staphylinidae","family","beetles",32,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S6","obs","apis.mellifera","species","honeybees",419,NA,288,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S6","obs","bombus.terrestris","species","bumblebees",7,NA,288,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S6","obs","Bombylidae","family","humbleflies",3,NA,288,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S6","obs","other.diptera","group","other_flies",15,NA,288,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S6","obs","other.syrphidae","group","syrphids",2,NA,288,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S6","obs","solitary.bee","group","other_wild_bees",1,NA,288,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S6","obs","sphaerophoria.sp","genus","syrphids",1,NA,288,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S6","sweep","Andrena.haemorrhoa","species","other_wild_bees",1,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S6","sweep","Apis.mellifera","species","honeybees",25,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S6","sweep","Coccinellidae","family","beetles",1,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S6","sweep","Heteropt","group","other",19,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S6","sweep","Meligethies.anaeus","species","beetles",804,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S6","sweep","Osmia.bicornis","species","other_wild_bees",1,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S6","sweep","Parasitica","group","non_bee_hymenoptera",54,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S6","sweep","Syrphidae","family","syrphids",2,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S6","sweep","Syrphidae","family","syrphids",2,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S6","pitfall","Agonum.muelleri","species","beetles",1,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S6","pitfall","Amara.ovata","species","beetles",4,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S6","pitfall","Amara.similata","species","beetles",1,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S6","pitfall","Anchmenus.dorsalis","species","beetles",8,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S6","pitfall","Anisodactylus.binotatus","species","beetles",3,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S6","pitfall","Araneae","group","other",11,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S6","pitfall","Asaphdion.flavipes","species","beetles",1,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S6","pitfall","Bembidion.lampros","species","beetles",1,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S6","pitfall","Coccinelidae","family","beetles",1,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S6","pitfall","Formicidae","family","non_bee_hymenoptera",1,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S6","pitfall","Formicidae","family","non_bee_hymenoptera",1,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S6","pitfall","Gastropoda","group","other",1,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S6","pitfall","Nebria.brevicollis","species","beetles",1,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S6","pitfall","Nebria.salina","species","beetles",3,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S6","pitfall","Poecilus.cupreus","species","beetles",87,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S6","pitfall","Pterostichus.vernalis","species","beetles",2,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S6","pitfall","Staphylinidae","family","beetles",28,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S6","pitfall","Tachys.bistriatus","species","beetles",1,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S6","pitfall","Trechus.quadristriatus","species","beetles",1,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S6","sweep","Melanostoma.scalare","species","syrphids",2,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S6","sweep","Melanostoma.spec.","species","syrphids",1,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S6","obs","apis.mellifera","species","honeybees",426,NA,288,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S6","obs","Bombylidae","family","humbleflies",19,NA,288,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S6","obs","episyrphus.balteatus","species","syrphids",1,NA,288,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S6","obs","other.diptera","group","other_flies",10,NA,288,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S6","obs","other.syrphidae","group","syrphids",1,NA,288,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S6","obs","solitary.bee","group","other_wild_bees",3,NA,288,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S6","obs","sphaerophoria.sp","genus","syrphids",3,NA,288,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S6","pitfall","Amara.ovata","species","beetles",1,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S6","pitfall","Amara.similata","species","beetles",1,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S6","pitfall","Anchmenus.dorsalis","species","beetles",12,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S6","pitfall","Anisodactylus.binotatus","species","beetles",1,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S6","pitfall","Araneae","group","other",8,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S6","pitfall","Bembidion.lampros","species","beetles",1,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S6","pitfall","Coccinelidae","family","beetles",1,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S6","pitfall","Formicidae","family","non_bee_hymenoptera",64,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S6","pitfall","Formicidae","family","non_bee_hymenoptera",64,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S6","pitfall","Gastropoda","group","other",4,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S6","pitfall","Nebria.salina","species","beetles",1,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S6","pitfall","Platynus.assimilis","species","beetles",1,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S6","pitfall","Poecilus.cupreus","species","beetles",12,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S6","pitfall","Staphylinidae","family","beetles",27,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S6","sweep","Andrena.gravida","species","other_wild_bees",1,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S6","sweep","Apis.mellifera","species","honeybees",18,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S6","sweep","Coccinellidae","family","beetles",2,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S6","sweep","Heteropt","group","other",13,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S6","sweep","Melanostoma.spec.","species","syrphids",2,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S6","sweep","Meligethies.anaeus","species","beetles",604,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S6","sweep","Parasitica","group","non_bee_hymenoptera",9,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S6","sweep","Syrphidae","family","syrphids",1,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S6","sweep","Syrphidae","family","syrphids",1,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S6","pitfall","Amara.aenea","species","beetles",1,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S6","pitfall","Amara.ovata","species","beetles",11,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S6","pitfall","Anchmenus.dorsalis","species","beetles",2,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S6","pitfall","Anisodactylus.binotatus","species","beetles",2,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S6","pitfall","Araneae","group","other",3,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S6","pitfall","Carabus.auronitens","species","beetles",1,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S6","pitfall","Formicidae","family","non_bee_hymenoptera",1,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S6","pitfall","Formicidae","family","non_bee_hymenoptera",1,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S6","pitfall","Gastropoda","group","other",7,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S6","pitfall","Harpalus.affinis","species","beetles",1,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S6","pitfall","Nebria.salina","species","beetles",4,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S6","pitfall","Poecilus.cupreus","species","beetles",78,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S6","pitfall","Staphylinidae","family","beetles",8,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S6","sweep","Syrphus.vitripennis","species","syrphids",1,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S6","obs","apis.mellifera","species","honeybees",432,NA,288,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S6","obs","Bombylidae","family","humbleflies",1,NA,288,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S6","obs","eristalis.sp","genus","syrphids",12,NA,288,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S6","obs","other.diptera","group","other_flies",2,NA,288,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S6","obs","solitary.bee","group","other_wild_bees",4,NA,288,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S6","sweep","Apis.mellifera","species","honeybees",19,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S6","sweep","Heteropt","group","other",14,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S6","sweep","Meligethies.anaeus","species","beetles",216,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S6","sweep","Parasitica","group","non_bee_hymenoptera",20,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S6","sweep","Syrphidae","family","syrphids",3,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S6","sweep","Syrphidae","family","syrphids",3,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S6","obs","apis.mellifera","species","honeybees",332,NA,288,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S6","obs","bombus.terrestris","species","bumblebees",8,NA,288,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S6","obs","Bombylidae","family","humbleflies",1,NA,288,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S6","obs","episyrphus.balteatus","species","syrphids",2,NA,288,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S6","obs","eristalis.sp","genus","syrphids",1,NA,288,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S6","obs","other.diptera","group","other_flies",8,NA,288,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S6","sweep","Andrena.haemorrhoa","species","other_wild_bees",1,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S6","sweep","Apis.mellifera","species","honeybees",14,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S6","sweep","Heteropt","group","other",25,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S6","sweep","Lasioglossum.malachurum","species","other_wild_bees",1,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S6","sweep","Meligethies.anaeus","species","beetles",159,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S6","sweep","Parasitica","group","non_bee_hymenoptera",6,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S6","sweep","Syrphidae","family","syrphids",1,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S6","sweep","Syrphidae","family","syrphids",1,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S6","pitfall","Agonum.muelleri","species","beetles",3,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S6","pitfall","Amara.ovata","species","beetles",1,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S6","pitfall","Amara.similata","species","beetles",1,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S6","pitfall","Anchmenus.dorsalis","species","beetles",6,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S6","pitfall","Araneae","group","other",6,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S6","pitfall","Asaphdion.flavipes","species","beetles",1,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S6","pitfall","Bembidion.properans","species","beetles",1,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S6","pitfall","Carabus.auronitens","species","beetles",1,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S6","pitfall","Clivina.fossor","species","beetles",1,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S6","pitfall","Formicidae","family","non_bee_hymenoptera",4,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S6","pitfall","Formicidae","family","non_bee_hymenoptera",4,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S6","pitfall","Gastropoda","group","other",2,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S6","pitfall","Nebria.salina","species","beetles",1,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S6","pitfall","Platynus.assimilis","species","beetles",1,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S6","pitfall","Poecilus.cupreus","species","beetles",15,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S6","pitfall","Pterostichus.vernalis","species","beetles",2,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S6","pitfall","Staphylinidae","family","beetles",19,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S6","sweep","Melanostoma.scalare","species","syrphids",1,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S7","obs","apis.mellifera","species","honeybees",697,NA,288,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S7","obs","eristalis.sp","genus","syrphids",7,NA,288,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S7","obs","other.diptera","group","other_flies",1,NA,288,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S7","obs","other.syrphidae","group","syrphids",1,NA,288,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S7","obs","solitary.bee","group","other_wild_bees",5,NA,288,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S7","sweep","Andrena.haemorrhoa","species","other_wild_bees",1,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S7","sweep","Apis.mellifera","species","honeybees",24,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S7","sweep","Bombus.terrestris","species","bumblebees",1,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S7","sweep","Heteropt","group","other",3,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S7","sweep","Lasioglossum.fulvicorne","species","other_wild_bees",1,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S7","sweep","Meligethies.anaeus","species","beetles",425,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S7","sweep","Parasitica","group","non_bee_hymenoptera",20,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S7","sweep","Vespidae","family","non_bee_hymenoptera",1,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S7","pitfall","Agonum.muelleri","species","beetles",2,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S7","pitfall","Amara.ovata","species","beetles",10,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S7","pitfall","Amara.similata","species","beetles",1,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S7","pitfall","Anchmenus.dorsalis","species","beetles",16,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S7","pitfall","Araneae","group","other",3,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S7","pitfall","Bembidion.lampros","species","beetles",4,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S7","pitfall","Bembidion.properans","species","beetles",1,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S7","pitfall","Coccinelidae","family","beetles",1,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S7","pitfall","Gastropoda","group","other",41,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S7","pitfall","Harpalus.affinis","species","beetles",2,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S7","pitfall","Harpalus.signaticornis","species","beetles",1,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S7","pitfall","Loricara.pilicornis","species","beetles",1,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S7","pitfall","Nebria.salina","species","beetles",7,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S7","pitfall","Poecilus.cupreus","species","beetles",109,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S7","pitfall","Staphylinidae","family","beetles",32,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S7","obs","apis.mellifera","species","honeybees",357,NA,288,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S7","obs","episyrphus.balteatus","species","syrphids",1,NA,288,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S7","obs","eristalis.sp","genus","syrphids",8,NA,288,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S7","obs","other.diptera","group","other_flies",1,NA,288,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S7","obs","other.syrphidae","group","syrphids",3,NA,288,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S7","obs","solitary.bee","group","other_wild_bees",3,NA,288,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S7","pitfall","Agonum.muelleri","species","beetles",1,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S7","pitfall","Amara.familiaris","species","beetles",1,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S7","pitfall","Amara.ovata","species","beetles",5,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S7","pitfall","Anchmenus.dorsalis","species","beetles",15,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S7","pitfall","Anisodactylus.binotatus","species","beetles",1,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S7","pitfall","Araneae","group","other",2,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S7","pitfall","Bembidion.lampros","species","beetles",1,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S7","pitfall","Formicidae","family","non_bee_hymenoptera",10,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S7","pitfall","Formicidae","family","non_bee_hymenoptera",10,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S7","pitfall","Gastropoda","group","other",14,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S7","pitfall","Harpalus.affinis","species","beetles",2,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S7","pitfall","Nebria.salina","species","beetles",10,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S7","pitfall","Poecilus.cupreus","species","beetles",36,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S7","pitfall","Pterostichus.nigrita","species","beetles",1,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S7","pitfall","Staphylinidae","family","beetles",12,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S7","sweep","Andrena.haemorrhoa","species","other_wild_bees",1,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S7","sweep","Apis.mellifera","species","honeybees",21,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S7","sweep","Heteropt","group","other",2,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S7","sweep","Meligethies.anaeus","species","beetles",377,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S7","sweep","Parasitica","group","non_bee_hymenoptera",12,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S7","sweep","Syrphidae","family","syrphids",1,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S7","sweep","Syrphidae","family","syrphids",1,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S7","pitfall","Agonum.muelleri","species","beetles",1,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S7","pitfall","Amara.aenea","species","beetles",1,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S7","pitfall","Amara.ovata","species","beetles",2,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S7","pitfall","Anchmenus.dorsalis","species","beetles",5,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S7","pitfall","Araneae","group","other",1,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S7","pitfall","Formicidae","family","non_bee_hymenoptera",8,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S7","pitfall","Formicidae","family","non_bee_hymenoptera",8,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S7","pitfall","Gastropoda","group","other",9,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S7","pitfall","Harpalus.affinis","species","beetles",3,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S7","pitfall","Nebria.salina","species","beetles",2,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S7","pitfall","Parophonus.maculicornis","species","beetles",1,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S7","pitfall","Poecilus.cupreus","species","beetles",49,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S7","pitfall","Staphylinidae","family","beetles",10,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S7","sweep","Eristalis.pertinax","species","syrphids",1,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S7","obs","apis.mellifera","species","honeybees",204,NA,288,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S7","obs","bombus.lapidarius","species","bumblebees",1,NA,288,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S7","sweep","Andrena.flavipes","species","other_wild_bees",1,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S7","sweep","Apis.mellifera","species","honeybees",16,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S7","sweep","Bombus.terrestris","species","bumblebees",1,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S7","sweep","Heteropt","group","other",3,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S7","sweep","Lasioglossum.calceatum","species","other_wild_bees",1,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S7","sweep","Lasioglossum.laticeps","species","other_wild_bees",1,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S7","sweep","Meligethies.anaeus","species","beetles",402,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S7","sweep","Parasitica","group","non_bee_hymenoptera",11,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S7","obs","apis.mellifera","species","honeybees",276,NA,288,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S7","obs","bombus.lapidarius","species","bumblebees",2,NA,288,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S7","obs","other.syrphidae","group","syrphids",1,NA,288,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S7","sweep","Andrena.haemorrhoa","species","other_wild_bees",1,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S7","sweep","Andrena.nitida","species","other_wild_bees",1,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S7","sweep","Apis.mellifera","species","honeybees",25,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S7","sweep","Heteropt","group","other",4,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S7","sweep","Meligethies.anaeus","species","beetles",270,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S7","sweep","Parasitica","group","non_bee_hymenoptera",6,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S7","sweep","Syrphidae","family","syrphids",1,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S7","sweep","Syrphidae","family","syrphids",1,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S7","pitfall","Amara.ovata","species","beetles",23,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S7","pitfall","Amara.similata","species","beetles",1,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S7","pitfall","Anchmenus.dorsalis","species","beetles",14,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S7","pitfall","Anisodactylus.binotatus","species","beetles",1,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S7","pitfall","Araneae","group","other",2,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S7","pitfall","Bembidion.lampros","species","beetles",4,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S7","pitfall","Brachinus.explodens","species","beetles",1,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S7","pitfall","Formicidae","family","non_bee_hymenoptera",5,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S7","pitfall","Formicidae","family","non_bee_hymenoptera",5,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S7","pitfall","Gastropoda","group","other",17,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S7","pitfall","Harpalus.affinis","species","beetles",3,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S7","pitfall","Harpalus.distinguendus","species","beetles",1,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S7","pitfall","Nebria.salina","species","beetles",8,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S7","pitfall","Notiophilus.palustris","species","beetles",1,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S7","pitfall","Poecilus.cupreus","species","beetles",121,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S7","pitfall","Staphylinidae","family","beetles",18,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S7","sweep","Melanostoma.scalare","species","syrphids",1,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S8","obs","apis.mellifera","species","honeybees",723,NA,288,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S8","obs","other.diptera","group","other_flies",4,NA,288,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S8","obs","other.syrphidae","group","syrphids",2,NA,288,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S8","sweep","Andrena.bicolor","species","other_wild_bees",1,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S8","sweep","Andrena.carantonica","species","other_wild_bees",1,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S8","sweep","Andrena.nitida","species","other_wild_bees",3,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S8","sweep","Apis.mellifera","species","honeybees",13,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S8","sweep","Bombus.lucorum","species","bumblebees",1,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S8","sweep","Heteropt","group","other",12,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S8","sweep","Meligethies.anaeus","species","beetles",731,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S8","sweep","Parasitica","group","non_bee_hymenoptera",20,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S8","pitfall","Agonum.muelleri","species","beetles",7,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S8","pitfall","Amara.familiaris","species","beetles",1,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S8","pitfall","Amara.ovata","species","beetles",5,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S8","pitfall","Amara.similata","species","beetles",2,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S8","pitfall","Anchmenus.dorsalis","species","beetles",1,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S8","pitfall","Anisodactylus.binotatus","species","beetles",3,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S8","pitfall","Bembidion.lampros","species","beetles",1,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S8","pitfall","Clivina.fossor","species","beetles",4,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S8","pitfall","Coccinelidae","family","beetles",1,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S8","pitfall","Gastropoda","group","other",15,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S8","pitfall","Poecilus.cupreus","species","beetles",2,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S8","pitfall","Pterostichus.vernalis","species","beetles",4,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S8","pitfall","Staphylinidae","family","beetles",11,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S8","pitfall","Trechus.quadristriatus","species","beetles",1,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S8","sweep","Melanostoma.mellinum","species","syrphids",2,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S8","sweep","Melanostoma.scalare","species","syrphids",1,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S8","sweep","Melanostoma.spec.","species","syrphids",1,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S8","obs","apis.mellifera","species","honeybees",536,NA,288,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S8","obs","episyrphus.balteatus","species","syrphids",2,NA,288,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S8","obs","other.diptera","group","other_flies",6,NA,288,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S8","pitfall","Amara.aenea","species","beetles",1,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S8","pitfall","Amara.ovata","species","beetles",25,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S8","pitfall","Amara.similata","species","beetles",1,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S8","pitfall","Anchmenus.dorsalis","species","beetles",2,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S8","pitfall","Anisodactylus.binotatus","species","beetles",1,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S8","pitfall","Araneae","group","other",3,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S8","pitfall","Gastropoda","group","other",9,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S8","pitfall","Harpalus.affinis","species","beetles",1,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S8","pitfall","Nebria.salina","species","beetles",1,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S8","pitfall","Poecilus.cupreus","species","beetles",18,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S8","pitfall","Staphylinidae","family","beetles",15,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S8","sweep","Apis.mellifera","species","honeybees",36,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S8","sweep","Eupeodes.latifasciatus","species","syrphids",1,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S8","sweep","Heteropt","group","other",13,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S8","sweep","Melanostoma.scalare","species","syrphids",4,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S8","sweep","Meligethies.anaeus","species","beetles",775,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S8","sweep","Parasitica","group","non_bee_hymenoptera",91,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S8","sweep","Syrphidae","family","syrphids",5,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S8","sweep","Syrphidae","family","syrphids",5,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S8","pitfall","Agonum.muelleri","species","beetles",2,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S8","pitfall","Amara.ovata","species","beetles",4,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S8","pitfall","Anchmenus.dorsalis","species","beetles",4,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S8","pitfall","Araneae","group","other",2,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S8","pitfall","Bembidion.lampros","species","beetles",5,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S8","pitfall","Clivina.fossor","species","beetles",1,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S8","pitfall","Formicidae","family","non_bee_hymenoptera",6,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S8","pitfall","Formicidae","family","non_bee_hymenoptera",6,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S8","pitfall","Harpalus.distinguendus","species","beetles",1,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S8","pitfall","Poecilus.cupreus","species","beetles",20,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S8","pitfall","Staphylinidae","family","beetles",2,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S8","obs","apis.mellifera","species","honeybees",865,NA,288,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S8","obs","other.diptera","group","other_flies",3,NA,288,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S8","obs","solitary.bee","group","other_wild_bees",1,NA,288,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S8","sweep","Apis.mellifera","species","honeybees",33,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S8","sweep","Heteropt","group","other",13,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S8","sweep","Meligethies.anaeus","species","beetles",547,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S8","sweep","Parasitica","group","non_bee_hymenoptera",79,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S8","obs","apis.mellifera","species","honeybees",654,NA,288,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S8","obs","other.diptera","group","other_flies",3,NA,288,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S8","sweep","Andrena.cineraria","species","other_wild_bees",1,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S8","sweep","Apis.mellifera","species","honeybees",26,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S8","sweep","Coccinellidae","family","beetles",1,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S8","sweep","Heteropt","group","other",3,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S8","sweep","Lasioglossum.calceatum","species","other_wild_bees",1,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S8","sweep","Meligethies.anaeus","species","beetles",384,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S8","sweep","Parasitica","group","non_bee_hymenoptera",54,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S8","sweep","Syrphidae","family","syrphids",2,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S8","sweep","Syrphidae","family","syrphids",2,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S8","pitfall","Agonum.muelleri","species","beetles",1,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S8","pitfall","Amara.ovata","species","beetles",10,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S8","pitfall","Amara.similata","species","beetles",1,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S8","pitfall","Anchmenus.dorsalis","species","beetles",1,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S8","pitfall","Bembidion.lampros","species","beetles",2,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S8","pitfall","Gastropoda","group","other",11,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S8","pitfall","Nebria.salina","species","beetles",1,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S8","pitfall","Poecilus.cupreus","species","beetles",3,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S8","pitfall","Staphylinidae","family","beetles",11,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S9","obs","apis.mellifera","species","honeybees",407,NA,288,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S9","obs","episyrphus.balteatus","species","syrphids",2,NA,288,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S9","obs","eristalis.sp","genus","syrphids",3,NA,288,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S9","obs","other.diptera","group","other_flies",3,NA,288,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S9","obs","other.syrphidae","group","syrphids",2,NA,288,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S9","obs","solitary.bee","group","other_wild_bees",21,NA,288,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S9","sweep","Apis.mellifera","species","honeybees",14,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S9","sweep","Coccinellidae","family","beetles",1,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S9","sweep","Heteropt","group","other",14,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S9","sweep","Lasioglossum.calceatum","species","other_wild_bees",1,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S9","sweep","Meligethies.anaeus","species","beetles",1056,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S9","sweep","Parasitica","group","non_bee_hymenoptera",64,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S9","pitfall","Agonum.muelleri","species","beetles",1,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S9","pitfall","Amara.aenea","species","beetles",2,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S9","pitfall","Amara.ovata","species","beetles",5,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S9","pitfall","Amara.similata","species","beetles",3,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S9","pitfall","Anchmenus.dorsalis","species","beetles",1,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S9","pitfall","Anisodactylus.binotatus","species","beetles",2,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S9","pitfall","Araneae","group","other",8,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S9","pitfall","Brachinus.explodens","species","beetles",1,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S9","pitfall","Formicidae","family","non_bee_hymenoptera",37,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S9","pitfall","Formicidae","family","non_bee_hymenoptera",37,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S9","pitfall","Gastropoda","group","other",3,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S9","pitfall","Harpalus.affinis","species","beetles",1,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S9","pitfall","Harpalus.distinguendus","species","beetles",2,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S9","pitfall","Harpalus.rufipes","species","beetles",4,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S9","pitfall","Loricara.pilicornis","species","beetles",3,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S9","pitfall","Nebria.salina","species","beetles",21,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S9","pitfall","Notiophilus.aestuans","species","beetles",1,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S9","pitfall","Poecilus.cupreus","species","beetles",89,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S9","pitfall","Staphylinidae","family","beetles",38,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S9","obs","apis.mellifera","species","honeybees",841,NA,288,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S9","obs","episyrphus.balteatus","species","syrphids",1,NA,288,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S9","obs","other.diptera","group","other_flies",3,NA,288,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S9","obs","solitary.bee","group","other_wild_bees",8,NA,288,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S9","pitfall","Agonum.muelleri","species","beetles",1,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S9","pitfall","Amara.aenea","species","beetles",2,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S9","pitfall","Amara.ovata","species","beetles",9,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S9","pitfall","Amara.similata","species","beetles",1,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S9","pitfall","Anchmenus.dorsalis","species","beetles",1,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S9","pitfall","Anisodactylus.binotatus","species","beetles",1,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S9","pitfall","Araneae","group","other",13,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S9","pitfall","Asaphdion.flavipes","species","beetles",5,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S9","pitfall","Brachinus.crepitans","species","beetles",2,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S9","pitfall","Brachinus.explodens","species","beetles",1,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S9","pitfall","Cantharidae","species","beetles",2,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S9","pitfall","Formicidae","family","non_bee_hymenoptera",21,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S9","pitfall","Formicidae","family","non_bee_hymenoptera",21,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S9","pitfall","Gastropoda","group","other",9,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S9","pitfall","Harpalus.affinis","species","beetles",3,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S9","pitfall","Harpalus.rufipes","species","beetles",10,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S9","pitfall","Harpalus.signaticornis","species","beetles",1,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S9","pitfall","Loricara.pilicornis","species","beetles",2,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S9","pitfall","Nebria.salina","species","beetles",4,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S9","pitfall","Poecilus.cupreus","species","beetles",28,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S9","pitfall","Pterostichus.melanarius","species","beetles",1,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S9","pitfall","Staphylinidae","family","beetles",12,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S9","sweep","Andrena.bicolor","species","other_wild_bees",1,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S9","sweep","Andrena.minutula","species","other_wild_bees",1,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S9","sweep","Apis.mellifera","species","honeybees",32,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S9","sweep","Heteropt","group","other",14,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S9","sweep","Lasioglossum.calceatum","species","other_wild_bees",1,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S9","sweep","Lasioglossum.laticeps","species","other_wild_bees",6,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S9","sweep","Meligethies.anaeus","species","beetles",844,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S9","sweep","Parasitica","group","non_bee_hymenoptera",68,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S9","pitfall","Agonum.sexpunctatum","species","beetles",1,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S9","pitfall","Amara.aenea","species","beetles",13,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S9","pitfall","Amara.ovata","species","beetles",2,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S9","pitfall","Amara.similata","species","beetles",4,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S9","pitfall","Anchmenus.dorsalis","species","beetles",6,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S9","pitfall","Anisodactylus.binotatus","species","beetles",1,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S9","pitfall","Araneae","group","other",10,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S9","pitfall","Brachinus.crepitans","species","beetles",1,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S9","pitfall","Brachinus.explodens","species","beetles",1,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S9","pitfall","Cantharidae","species","beetles",1,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S9","pitfall","Coccinelidae","family","beetles",1,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S9","pitfall","Formicidae","family","non_bee_hymenoptera",27,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S9","pitfall","Formicidae","family","non_bee_hymenoptera",27,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S9","pitfall","Gastropoda","group","other",3,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S9","pitfall","Harpalus.distinguendus","species","beetles",2,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S9","pitfall","Harpalus.rufipes","species","beetles",4,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S9","pitfall","Harpalus.signaticornis","species","beetles",1,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S9","pitfall","Loricara.pilicornis","species","beetles",1,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S9","pitfall","Nebria.salina","species","beetles",12,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S9","pitfall","Poecilus.cupreus","species","beetles",88,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S9","pitfall","Staphylinidae","family","beetles",29,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S9","obs","apis.mellifera","species","honeybees",967,NA,288,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S9","obs","other.diptera","group","other_flies",1,NA,288,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S9","obs","other.syrphidae","group","syrphids",2,NA,288,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S9","obs","solitary.bee","group","other_wild_bees",9,NA,288,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S9","sweep","Andrena.bicolor","species","other_wild_bees",2,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S9","sweep","Apis.mellifera","species","honeybees",21,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S9","sweep","Coccinellidae","family","beetles",1,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S9","sweep","Heteropt","group","other",12,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S9","sweep","Lasioglossum.calceatum","species","other_wild_bees",1,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S9","sweep","Lasioglossum.laticeps","species","other_wild_bees",3,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S9","sweep","Lasioglossum.malachurum","species","other_wild_bees",2,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S9","sweep","Meligethies.anaeus","species","beetles",608,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S9","sweep","Parasitica","group","non_bee_hymenoptera",38,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S9","obs","apis.mellifera","species","honeybees",389,NA,288,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S9","obs","other.diptera","group","other_flies",3,NA,288,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S9","obs","other.syrphidae","group","syrphids",1,NA,288,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S9","obs","solitary.bee","group","other_wild_bees",7,NA,288,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S9","sweep","Andrena.cineraria","species","other_wild_bees",1,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S9","sweep","Andrena.minutula","species","other_wild_bees",1,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S9","sweep","Apis.mellifera","species","honeybees",15,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S9","sweep","Coccinellidae","family","beetles",3,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S9","sweep","Heteropt","group","other",11,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S9","sweep","Lasioglossum.laticeps","species","other_wild_bees",5,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S9","sweep","Lasioglossum.malachurum","species","other_wild_bees",4,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S9","sweep","Meligethies.anaeus","species","beetles",443,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S9","sweep","Parasitica","group","non_bee_hymenoptera",33,NA,0,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S9","pitfall","Amara.aenea","species","beetles",4,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S9","pitfall","Amara.ovata","species","beetles",7,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S9","pitfall","Amara.similata","species","beetles",1,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S9","pitfall","Anchmenus.dorsalis","species","beetles",1,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S9","pitfall","Anisodactylus.binotatus","species","beetles",4,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S9","pitfall","Araneae","group","other",11,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S9","pitfall","Formicidae","family","non_bee_hymenoptera",12,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S9","pitfall","Formicidae","family","non_bee_hymenoptera",12,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S9","pitfall","Gastropoda","group","other",16,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S9","pitfall","Harpalus.rufipes","species","beetles",4,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S9","pitfall","Loricara.pilicornis","species","beetles",2,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S9","pitfall","Nebria.salina","species","beetles",5,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S9","pitfall","Poecilus.cupreus","species","beetles",48,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Louis_Sutter_Brassica_napus_Switzerland_2014","S9","pitfall","Staphylinidae","family","beetles",24,NA,161280,NA,"4x(2 observations, 2 sweep, and 4 pitfalls) per site",NA
"Luisa_G_Carvalheiro_Helianthus_annuus_South_Africa_2009","carv02_01","sweep net","Apis mellifera L.","species or morphospecies","honeybees",196.875,NA,24,NA,"Total numbe of visitors per 90 sunflower heads. Note that flower abundance (hence sampling effort) varied between sites. 6 (3 x 4min censuses, repeated in the morning and afternoon. Total observation time per plant = 24min)",NA
"Luisa_G_Carvalheiro_Helianthus_annuus_South_Africa_2009","carv02_01","sweep net","Astylus atromaculatus Blanchard *","species or morphospecies","beetles",45,NA,24,NA,"Total numbe of visitors per 90 sunflower heads. Note that flower abundance (hence sampling effort) varied between sites. 6 (3 x 4min censuses, repeated in the morning and afternoon. Total observation time per plant = 24min)",NA
"Luisa_G_Carvalheiro_Helianthus_annuus_South_Africa_2009","carv02_01","sweep net","Carpophilus sp.","species or morphospecies","beetles",11.25,NA,24,NA,"Total numbe of visitors per 90 sunflower heads. Note that flower abundance (hence sampling effort) varied between sites. 6 (3 x 4min censuses, repeated in the morning and afternoon. Total observation time per plant = 24min)",NA
"Luisa_G_Carvalheiro_Helianthus_annuus_South_Africa_2009","carv02_01","sweep net","Heteroptera sp.","species or morphospecies","other",22.5,NA,24,NA,"Total numbe of visitors per 90 sunflower heads. Note that flower abundance (hence sampling effort) varied between sites. 6 (3 x 4min censuses, repeated in the morning and afternoon. Total observation time per plant = 24min)",NA
"Luisa_G_Carvalheiro_Helianthus_annuus_South_Africa_2009","carv02_01","sweep net","Lasioglossum sp.","species or morphospecies","other_wild_bees",0.01,NA,24,NA,"Total numbe of visitors per 90 sunflower heads. Note that flower abundance (hence sampling effort) varied between sites. 6 (3 x 4min censuses, repeated in the morning and afternoon. Total observation time per plant = 24min)",NA
"Luisa_G_Carvalheiro_Helianthus_annuus_South_Africa_2009","carv02_01","sweep net","Sarcophagidae sp.","species or morphospecies","other_flies",0.01,NA,24,NA,"Total numbe of visitors per 90 sunflower heads. Note that flower abundance (hence sampling effort) varied between sites. 6 (3 x 4min censuses, repeated in the morning and afternoon. Total observation time per plant = 24min)",NA
"Luisa_G_Carvalheiro_Helianthus_annuus_South_Africa_2009","carv02_01","sweep net","Syrphidae sp1","species or morphospecies","syrphids",0.01,NA,24,NA,"Total numbe of visitors per 90 sunflower heads. Note that flower abundance (hence sampling effort) varied between sites. 6 (3 x 4min censuses, repeated in the morning and afternoon. Total observation time per plant = 24min)",NA
"Luisa_G_Carvalheiro_Helianthus_annuus_South_Africa_2009","carv02_10","sweep net","Apis mellifera L.","species or morphospecies","honeybees",144,NA,24,NA,"Total numbe of visitors per 90 sunflower heads. Note that flower abundance (hence sampling effort) varied between sites. 6 (3 x 4min censuses, repeated in the morning and afternoon. Total observation time per plant = 24min)",NA
"Luisa_G_Carvalheiro_Helianthus_annuus_South_Africa_2009","carv02_10","sweep net","Baris cf. atrocoerulea (Boheman, 1844)","species or morphospecies","beetles",6,NA,24,NA,"Total numbe of visitors per 90 sunflower heads. Note that flower abundance (hence sampling effort) varied between sites. 6 (3 x 4min censuses, repeated in the morning and afternoon. Total observation time per plant = 24min)",NA
"Luisa_G_Carvalheiro_Helianthus_annuus_South_Africa_2009","carv02_10","sweep net","Caliophoridae sp.","species or morphospecies","other_flies",6,NA,24,NA,"Total numbe of visitors per 90 sunflower heads. Note that flower abundance (hence sampling effort) varied between sites. 6 (3 x 4min censuses, repeated in the morning and afternoon. Total observation time per plant = 24min)",NA
"Luisa_G_Carvalheiro_Helianthus_annuus_South_Africa_2009","carv02_11","sweep net","Apis mellifera L.","species or morphospecies","honeybees",108,NA,24,NA,"Total numbe of visitors per 90 sunflower heads. Note that flower abundance (hence sampling effort) varied between sites. 6 (3 x 4min censuses, repeated in the morning and afternoon. Total observation time per plant = 24min)",NA
"Luisa_G_Carvalheiro_Helianthus_annuus_South_Africa_2009","carv02_11","sweep net","Dioxyna sororcula","species or morphospecies","other_flies",12,NA,24,NA,"Total numbe of visitors per 90 sunflower heads. Note that flower abundance (hence sampling effort) varied between sites. 6 (3 x 4min censuses, repeated in the morning and afternoon. Total observation time per plant = 24min)",NA
"Luisa_G_Carvalheiro_Helianthus_annuus_South_Africa_2009","carv02_11","sweep net","Lasioglossum sp.","species or morphospecies","other_wild_bees",0.01,NA,24,NA,"Total numbe of visitors per 90 sunflower heads. Note that flower abundance (hence sampling effort) varied between sites. 6 (3 x 4min censuses, repeated in the morning and afternoon. Total observation time per plant = 24min)",NA
"Luisa_G_Carvalheiro_Helianthus_annuus_South_Africa_2009","carv02_12","sweep net","Lagria cf. aeneipennis Fahraeus","species or morphospecies","beetles",10,NA,24,NA,"Total numbe of visitors per 90 sunflower heads. Note that flower abundance (hence sampling effort) varied between sites. 6 (3 x 4min censuses, repeated in the morning and afternoon. Total observation time per plant = 24min)",NA
"Luisa_G_Carvalheiro_Helianthus_annuus_South_Africa_2009","carv02_12","sweep net","Apis mellifera L.","species or morphospecies","honeybees",85,NA,24,NA,"Total numbe of visitors per 90 sunflower heads. Note that flower abundance (hence sampling effort) varied between sites. 6 (3 x 4min censuses, repeated in the morning and afternoon. Total observation time per plant = 24min)",NA
"Luisa_G_Carvalheiro_Helianthus_annuus_South_Africa_2009","carv02_12","sweep net","Dioxyna sororcula","species or morphospecies","other_flies",5,NA,24,NA,"Total numbe of visitors per 90 sunflower heads. Note that flower abundance (hence sampling effort) varied between sites. 6 (3 x 4min censuses, repeated in the morning and afternoon. Total observation time per plant = 24min)",NA
"Luisa_G_Carvalheiro_Helianthus_annuus_South_Africa_2009","carv02_12","sweep net","Hypolimnas misippus","species or morphospecies","lepidoptera",0.01,NA,24,NA,"Total numbe of visitors per 90 sunflower heads. Note that flower abundance (hence sampling effort) varied between sites. 6 (3 x 4min censuses, repeated in the morning and afternoon. Total observation time per plant = 24min)",NA
"Luisa_G_Carvalheiro_Helianthus_annuus_South_Africa_2009","carv02_12","sweep net","Lasioglossum sp.","species or morphospecies","other_wild_bees",5,NA,24,NA,"Total numbe of visitors per 90 sunflower heads. Note that flower abundance (hence sampling effort) varied between sites. 6 (3 x 4min censuses, repeated in the morning and afternoon. Total observation time per plant = 24min)",NA
"Luisa_G_Carvalheiro_Helianthus_annuus_South_Africa_2009","carv02_12","sweep net","Melyridae sp1","species or morphospecies","beetles",10,NA,24,NA,"Total numbe of visitors per 90 sunflower heads. Note that flower abundance (hence sampling effort) varied between sites. 6 (3 x 4min censuses, repeated in the morning and afternoon. Total observation time per plant = 24min)",NA
"Luisa_G_Carvalheiro_Helianthus_annuus_South_Africa_2009","carv02_13","sweep net","Apis mellifera L.","species or morphospecies","honeybees",126,NA,24,NA,"Total numbe of visitors per 90 sunflower heads. Note that flower abundance (hence sampling effort) varied between sites. 6 (3 x 4min censuses, repeated in the morning and afternoon. Total observation time per plant = 24min)",NA
"Luisa_G_Carvalheiro_Helianthus_annuus_South_Africa_2009","carv02_13","sweep net","Caliophoridae sp.","species or morphospecies","other_flies",6,NA,24,NA,"Total numbe of visitors per 90 sunflower heads. Note that flower abundance (hence sampling effort) varied between sites. 6 (3 x 4min censuses, repeated in the morning and afternoon. Total observation time per plant = 24min)",NA
"Luisa_G_Carvalheiro_Helianthus_annuus_South_Africa_2009","carv02_13","sweep net","Junonia oenone","species or morphospecies","lepidoptera",0.01,NA,24,NA,"Total numbe of visitors per 90 sunflower heads. Note that flower abundance (hence sampling effort) varied between sites. 6 (3 x 4min censuses, repeated in the morning and afternoon. Total observation time per plant = 24min)",NA
"Luisa_G_Carvalheiro_Helianthus_annuus_South_Africa_2009","carv02_13","sweep net","Lepidoptera white","species or morphospecies","lepidoptera",0.01,NA,24,NA,"Total numbe of visitors per 90 sunflower heads. Note that flower abundance (hence sampling effort) varied between sites. 6 (3 x 4min censuses, repeated in the morning and afternoon. Total observation time per plant = 24min)",NA
"Luisa_G_Carvalheiro_Helianthus_annuus_South_Africa_2009","carv02_13","sweep net","Vespidae sp.","species or morphospecies","non_bee_hymenoptera",6,NA,24,NA,"Total numbe of visitors per 90 sunflower heads. Note that flower abundance (hence sampling effort) varied between sites. 6 (3 x 4min censuses, repeated in the morning and afternoon. Total observation time per plant = 24min)",NA
"Luisa_G_Carvalheiro_Helianthus_annuus_South_Africa_2009","carv02_14","sweep net","Apis mellifera L.","species or morphospecies","honeybees",147.857142857143,NA,24,NA,"Total numbe of visitors per 90 sunflower heads. Note that flower abundance (hence sampling effort) varied between sites. 6 (3 x 4min censuses, repeated in the morning and afternoon. Total observation time per plant = 24min)",NA
"Luisa_G_Carvalheiro_Helianthus_annuus_South_Africa_2009","carv02_14","sweep net","Caliophoridae sp.","species or morphospecies","other_flies",0.01,NA,24,NA,"Total numbe of visitors per 90 sunflower heads. Note that flower abundance (hence sampling effort) varied between sites. 6 (3 x 4min censuses, repeated in the morning and afternoon. Total observation time per plant = 24min)",NA
"Luisa_G_Carvalheiro_Helianthus_annuus_South_Africa_2009","carv02_14","sweep net","Carpophilus sp.","species or morphospecies","beetles",32.1428571428571,NA,24,NA,"Total numbe of visitors per 90 sunflower heads. Note that flower abundance (hence sampling effort) varied between sites. 6 (3 x 4min censuses, repeated in the morning and afternoon. Total observation time per plant = 24min)",NA
"Luisa_G_Carvalheiro_Helianthus_annuus_South_Africa_2009","carv02_14","sweep net","Cynthia cardui","species or morphospecies","lepidoptera",0.01,NA,24,NA,"Total numbe of visitors per 90 sunflower heads. Note that flower abundance (hence sampling effort) varied between sites. 6 (3 x 4min censuses, repeated in the morning and afternoon. Total observation time per plant = 24min)",NA
"Luisa_G_Carvalheiro_Helianthus_annuus_South_Africa_2009","carv02_14","sweep net","Decaria sp.","species or morphospecies","beetles",0.01,NA,24,NA,"Total numbe of visitors per 90 sunflower heads. Note that flower abundance (hence sampling effort) varied between sites. 6 (3 x 4min censuses, repeated in the morning and afternoon. Total observation time per plant = 24min)",NA
"Luisa_G_Carvalheiro_Helianthus_annuus_South_Africa_2009","carv02_14","sweep net","Dioxyna sororcula","species or morphospecies","other_flies",0.01,NA,24,NA,"Total numbe of visitors per 90 sunflower heads. Note that flower abundance (hence sampling effort) varied between sites. 6 (3 x 4min censuses, repeated in the morning and afternoon. Total observation time per plant = 24min)",NA
"Luisa_G_Carvalheiro_Helianthus_annuus_South_Africa_2009","carv02_14","sweep net","Eumerus obliquus","species or morphospecies","syrphids",0.01,NA,24,NA,"Total numbe of visitors per 90 sunflower heads. Note that flower abundance (hence sampling effort) varied between sites. 6 (3 x 4min censuses, repeated in the morning and afternoon. Total observation time per plant = 24min)",NA
"Luisa_G_Carvalheiro_Helianthus_annuus_South_Africa_2009","carv02_14","sweep net","Hesperidae sp2","species or morphospecies","lepidoptera",0.01,NA,24,NA,"Total numbe of visitors per 90 sunflower heads. Note that flower abundance (hence sampling effort) varied between sites. 6 (3 x 4min censuses, repeated in the morning and afternoon. Total observation time per plant = 24min)",NA
"Luisa_G_Carvalheiro_Helianthus_annuus_South_Africa_2009","carv02_14","sweep net","Heteroptera sp1","species or morphospecies","other",6.42857142857143,NA,24,NA,"Total numbe of visitors per 90 sunflower heads. Note that flower abundance (hence sampling effort) varied between sites. 6 (3 x 4min censuses, repeated in the morning and afternoon. Total observation time per plant = 24min)",NA
"Luisa_G_Carvalheiro_Helianthus_annuus_South_Africa_2009","carv02_14","sweep net","Hypolimnas misippus","species or morphospecies","lepidoptera",12.8571428571429,NA,24,NA,"Total numbe of visitors per 90 sunflower heads. Note that flower abundance (hence sampling effort) varied between sites. 6 (3 x 4min censuses, repeated in the morning and afternoon. Total observation time per plant = 24min)",NA
"Luisa_G_Carvalheiro_Helianthus_annuus_South_Africa_2009","carv02_14","sweep net","Lasioglossum sp.","species or morphospecies","other_wild_bees",6.42857142857143,NA,24,NA,"Total numbe of visitors per 90 sunflower heads. Note that flower abundance (hence sampling effort) varied between sites. 6 (3 x 4min censuses, repeated in the morning and afternoon. Total observation time per plant = 24min)",NA
"Luisa_G_Carvalheiro_Helianthus_annuus_South_Africa_2009","carv02_14","sweep net","Macroglossum trochilus (Hubner)","species or morphospecies","lepidoptera",0.01,NA,24,NA,"Total numbe of visitors per 90 sunflower heads. Note that flower abundance (hence sampling effort) varied between sites. 6 (3 x 4min censuses, repeated in the morning and afternoon. Total observation time per plant = 24min)",NA
"Luisa_G_Carvalheiro_Helianthus_annuus_South_Africa_2009","carv02_14","sweep net","Megachile frontalis cf.","species or morphospecies","other_wild_bees",6.42857142857143,NA,24,NA,"Total numbe of visitors per 90 sunflower heads. Note that flower abundance (hence sampling effort) varied between sites. 6 (3 x 4min censuses, repeated in the morning and afternoon. Total observation time per plant = 24min)",NA
"Luisa_G_Carvalheiro_Helianthus_annuus_South_Africa_2009","carv02_14","sweep net","Utetheisa pulchella","species or morphospecies","lepidoptera",0.01,NA,24,NA,"Total numbe of visitors per 90 sunflower heads. Note that flower abundance (hence sampling effort) varied between sites. 6 (3 x 4min censuses, repeated in the morning and afternoon. Total observation time per plant = 24min)",NA
"Luisa_G_Carvalheiro_Helianthus_annuus_South_Africa_2009","carv02_15","sweep net","Lagria cf. aeneipennis Fahraeus","species or morphospecies","beetles",0.01,NA,24,NA,"Total numbe of visitors per 90 sunflower heads. Note that flower abundance (hence sampling effort) varied between sites. 6 (3 x 4min censuses, repeated in the morning and afternoon. Total observation time per plant = 24min)",NA
"Luisa_G_Carvalheiro_Helianthus_annuus_South_Africa_2009","carv02_15","sweep net","Apis mellifera L.","species or morphospecies","honeybees",192,NA,24,NA,"Total numbe of visitors per 90 sunflower heads. Note that flower abundance (hence sampling effort) varied between sites. 6 (3 x 4min censuses, repeated in the morning and afternoon. Total observation time per plant = 24min)",NA
"Luisa_G_Carvalheiro_Helianthus_annuus_South_Africa_2009","carv02_15","sweep net","Betasyrphus adliagatus","species or morphospecies","syrphids",0.01,NA,24,NA,"Total numbe of visitors per 90 sunflower heads. Note that flower abundance (hence sampling effort) varied between sites. 6 (3 x 4min censuses, repeated in the morning and afternoon. Total observation time per plant = 24min)",NA
"Luisa_G_Carvalheiro_Helianthus_annuus_South_Africa_2009","carv02_15","sweep net","Decaria sp.","species or morphospecies","beetles",0.01,NA,24,NA,"Total numbe of visitors per 90 sunflower heads. Note that flower abundance (hence sampling effort) varied between sites. 6 (3 x 4min censuses, repeated in the morning and afternoon. Total observation time per plant = 24min)",NA
"Luisa_G_Carvalheiro_Helianthus_annuus_South_Africa_2009","carv02_15","sweep net","Dioxyna sororcula","species or morphospecies","other_flies",0.01,NA,24,NA,"Total numbe of visitors per 90 sunflower heads. Note that flower abundance (hence sampling effort) varied between sites. 6 (3 x 4min censuses, repeated in the morning and afternoon. Total observation time per plant = 24min)",NA
"Luisa_G_Carvalheiro_Helianthus_annuus_South_Africa_2009","carv02_15","sweep net","Eumerus obliquus","species or morphospecies","syrphids",0.01,NA,24,NA,"Total numbe of visitors per 90 sunflower heads. Note that flower abundance (hence sampling effort) varied between sites. 6 (3 x 4min censuses, repeated in the morning and afternoon. Total observation time per plant = 24min)",NA
"Luisa_G_Carvalheiro_Helianthus_annuus_South_Africa_2009","carv02_15","sweep net","Hypolimnas misippus","species or morphospecies","lepidoptera",18,NA,24,NA,"Total numbe of visitors per 90 sunflower heads. Note that flower abundance (hence sampling effort) varied between sites. 6 (3 x 4min censuses, repeated in the morning and afternoon. Total observation time per plant = 24min)",NA
"Luisa_G_Carvalheiro_Helianthus_annuus_South_Africa_2009","carv02_15","sweep net","moth sp3","species or morphospecies","lepidoptera",0.01,NA,24,NA,"Total numbe of visitors per 90 sunflower heads. Note that flower abundance (hence sampling effort) varied between sites. 6 (3 x 4min censuses, repeated in the morning and afternoon. Total observation time per plant = 24min)",NA
"Luisa_G_Carvalheiro_Helianthus_annuus_South_Africa_2009","carv02_15","sweep net","Sarcophagidae sp.","species or morphospecies","other_flies",0.01,NA,24,NA,"Total numbe of visitors per 90 sunflower heads. Note that flower abundance (hence sampling effort) varied between sites. 6 (3 x 4min censuses, repeated in the morning and afternoon. Total observation time per plant = 24min)",NA
"Luisa_G_Carvalheiro_Helianthus_annuus_South_Africa_2009","carv02_15","sweep net","Tetraloniella ? apicalis (Friese)","species or morphospecies","other_wild_bees",0.01,NA,24,NA,"Total numbe of visitors per 90 sunflower heads. Note that flower abundance (hence sampling effort) varied between sites. 6 (3 x 4min censuses, repeated in the morning and afternoon. Total observation time per plant = 24min)",NA
"Luisa_G_Carvalheiro_Helianthus_annuus_South_Africa_2009","carv02_15","sweep net","Utetheisa pulchella","species or morphospecies","lepidoptera",0.01,NA,24,NA,"Total numbe of visitors per 90 sunflower heads. Note that flower abundance (hence sampling effort) varied between sites. 6 (3 x 4min censuses, repeated in the morning and afternoon. Total observation time per plant = 24min)",NA
"Luisa_G_Carvalheiro_Helianthus_annuus_South_Africa_2009","carv02_16","sweep net","Apis mellifera L.","species or morphospecies","honeybees",118.125,NA,24,NA,"Total numbe of visitors per 90 sunflower heads. Note that flower abundance (hence sampling effort) varied between sites. 6 (3 x 4min censuses, repeated in the morning and afternoon. Total observation time per plant = 24min)",NA
"Luisa_G_Carvalheiro_Helianthus_annuus_South_Africa_2009","carv02_16","sweep net","Caliophoridae sp.","species or morphospecies","other_flies",0.01,NA,24,NA,"Total numbe of visitors per 90 sunflower heads. Note that flower abundance (hence sampling effort) varied between sites. 6 (3 x 4min censuses, repeated in the morning and afternoon. Total observation time per plant = 24min)",NA
"Luisa_G_Carvalheiro_Helianthus_annuus_South_Africa_2009","carv02_16","sweep net","Eumerus obliquus","species or morphospecies","syrphids",0.01,NA,24,NA,"Total numbe of visitors per 90 sunflower heads. Note that flower abundance (hence sampling effort) varied between sites. 6 (3 x 4min censuses, repeated in the morning and afternoon. Total observation time per plant = 24min)",NA
"Luisa_G_Carvalheiro_Helianthus_annuus_South_Africa_2009","carv02_16","sweep net","Heteroptera sp1","species or morphospecies","other",0.01,NA,24,NA,"Total numbe of visitors per 90 sunflower heads. Note that flower abundance (hence sampling effort) varied between sites. 6 (3 x 4min censuses, repeated in the morning and afternoon. Total observation time per plant = 24min)",NA
"Luisa_G_Carvalheiro_Helianthus_annuus_South_Africa_2009","carv02_16","sweep net","Lasioglossum sp.","species or morphospecies","other_wild_bees",5.625,NA,24,NA,"Total numbe of visitors per 90 sunflower heads. Note that flower abundance (hence sampling effort) varied between sites. 6 (3 x 4min censuses, repeated in the morning and afternoon. Total observation time per plant = 24min)",NA
"Luisa_G_Carvalheiro_Helianthus_annuus_South_Africa_2009","carv02_16","sweep net","Sarcophagidae sp.","species or morphospecies","other_flies",5.625,NA,24,NA,"Total numbe of visitors per 90 sunflower heads. Note that flower abundance (hence sampling effort) varied between sites. 6 (3 x 4min censuses, repeated in the morning and afternoon. Total observation time per plant = 24min)",NA
"Luisa_G_Carvalheiro_Helianthus_annuus_South_Africa_2009","carv02_16","sweep net","Syrphidae sp20","species or morphospecies","syrphids",5.625,NA,24,NA,"Total numbe of visitors per 90 sunflower heads. Note that flower abundance (hence sampling effort) varied between sites. 6 (3 x 4min censuses, repeated in the morning and afternoon. Total observation time per plant = 24min)",NA
"Luisa_G_Carvalheiro_Helianthus_annuus_South_Africa_2009","carv02_16","sweep net","Utetheisa pulchella","species or morphospecies","lepidoptera",5.625,NA,24,NA,"Total numbe of visitors per 90 sunflower heads. Note that flower abundance (hence sampling effort) varied between sites. 6 (3 x 4min censuses, repeated in the morning and afternoon. Total observation time per plant = 24min)",NA
"Luisa_G_Carvalheiro_Helianthus_annuus_South_Africa_2009","carv02_17","sweep net","Lagria cf. aeneipennis Fahraeus","species or morphospecies","beetles",4.28571428571429,NA,24,NA,"Total numbe of visitors per 90 sunflower heads. Note that flower abundance (hence sampling effort) varied between sites. 6 (3 x 4min censuses, repeated in the morning and afternoon. Total observation time per plant = 24min)",NA
"Luisa_G_Carvalheiro_Helianthus_annuus_South_Africa_2009","carv02_17","sweep net","Apis mellifera L.","species or morphospecies","honeybees",85.7142857142857,NA,24,NA,"Total numbe of visitors per 90 sunflower heads. Note that flower abundance (hence sampling effort) varied between sites. 6 (3 x 4min censuses, repeated in the morning and afternoon. Total observation time per plant = 24min)",NA
"Luisa_G_Carvalheiro_Helianthus_annuus_South_Africa_2009","carv02_17","sweep net","Hypolimnas misippus","species or morphospecies","lepidoptera",0.01,NA,24,NA,"Total numbe of visitors per 90 sunflower heads. Note that flower abundance (hence sampling effort) varied between sites. 6 (3 x 4min censuses, repeated in the morning and afternoon. Total observation time per plant = 24min)",NA
"Luisa_G_Carvalheiro_Helianthus_annuus_South_Africa_2009","carv02_17","sweep net","Junonia oenone","species or morphospecies","lepidoptera",0.01,NA,24,NA,"Total numbe of visitors per 90 sunflower heads. Note that flower abundance (hence sampling effort) varied between sites. 6 (3 x 4min censuses, repeated in the morning and afternoon. Total observation time per plant = 24min)",NA
"Luisa_G_Carvalheiro_Helianthus_annuus_South_Africa_2009","carv02_17","sweep net","Macroglossum trochilus (Hubner)","species or morphospecies","lepidoptera",0.01,NA,24,NA,"Total numbe of visitors per 90 sunflower heads. Note that flower abundance (hence sampling effort) varied between sites. 6 (3 x 4min censuses, repeated in the morning and afternoon. Total observation time per plant = 24min)",NA
"Luisa_G_Carvalheiro_Helianthus_annuus_South_Africa_2009","carv02_17","sweep net","moth sp5","species or morphospecies","lepidoptera",8.57142857142857,NA,24,NA,"Total numbe of visitors per 90 sunflower heads. Note that flower abundance (hence sampling effort) varied between sites. 6 (3 x 4min censuses, repeated in the morning and afternoon. Total observation time per plant = 24min)",NA
"Luisa_G_Carvalheiro_Helianthus_annuus_South_Africa_2009","carv02_17","sweep net","Utetheisa pulchella","species or morphospecies","lepidoptera",4.28571428571429,NA,24,NA,"Total numbe of visitors per 90 sunflower heads. Note that flower abundance (hence sampling effort) varied between sites. 6 (3 x 4min censuses, repeated in the morning and afternoon. Total observation time per plant = 24min)",NA
"Luisa_G_Carvalheiro_Helianthus_annuus_South_Africa_2009","carv02_18","sweep net","Apis mellifera L.","species or morphospecies","honeybees",98.5714285714286,NA,24,NA,"Total numbe of visitors per 90 sunflower heads. Note that flower abundance (hence sampling effort) varied between sites. 6 (3 x 4min censuses, repeated in the morning and afternoon. Total observation time per plant = 24min)",NA
"Luisa_G_Carvalheiro_Helianthus_annuus_South_Africa_2009","carv02_18","sweep net","Cynthia cardui","species or morphospecies","lepidoptera",0.01,NA,24,NA,"Total numbe of visitors per 90 sunflower heads. Note that flower abundance (hence sampling effort) varied between sites. 6 (3 x 4min censuses, repeated in the morning and afternoon. Total observation time per plant = 24min)",NA
"Luisa_G_Carvalheiro_Helianthus_annuus_South_Africa_2009","carv02_19","sweep net","Apis mellifera L.","species or morphospecies","honeybees",60,NA,24,NA,"Total numbe of visitors per 90 sunflower heads. Note that flower abundance (hence sampling effort) varied between sites. 6 (3 x 4min censuses, repeated in the morning and afternoon. Total observation time per plant = 24min)",NA
"Luisa_G_Carvalheiro_Helianthus_annuus_South_Africa_2009","carv02_19","sweep net","Megachile frontalis cf.","species or morphospecies","other_wild_bees",0.01,NA,24,NA,"Total numbe of visitors per 90 sunflower heads. Note that flower abundance (hence sampling effort) varied between sites. 6 (3 x 4min censuses, repeated in the morning and afternoon. Total observation time per plant = 24min)",NA
"Luisa_G_Carvalheiro_Helianthus_annuus_South_Africa_2009","carv02_19","sweep net","Sarcophagidae sp.","species or morphospecies","other_flies",0.01,NA,24,NA,"Total numbe of visitors per 90 sunflower heads. Note that flower abundance (hence sampling effort) varied between sites. 6 (3 x 4min censuses, repeated in the morning and afternoon. Total observation time per plant = 24min)",NA
"Luisa_G_Carvalheiro_Helianthus_annuus_South_Africa_2009","carv02_02","sweep net","Apis mellifera L.","species or morphospecies","honeybees",120,NA,24,NA,"Total numbe of visitors per 90 sunflower heads. Note that flower abundance (hence sampling effort) varied between sites. 6 (3 x 4min censuses, repeated in the morning and afternoon. Total observation time per plant = 24min)",NA
"Luisa_G_Carvalheiro_Helianthus_annuus_South_Africa_2009","carv02_02","sweep net","Astylus atromaculatus Blanchard *","species or morphospecies","beetles",246,NA,24,NA,"Total numbe of visitors per 90 sunflower heads. Note that flower abundance (hence sampling effort) varied between sites. 6 (3 x 4min censuses, repeated in the morning and afternoon. Total observation time per plant = 24min)",NA
"Luisa_G_Carvalheiro_Helianthus_annuus_South_Africa_2009","carv02_02","sweep net","Carpophilus sp.","species or morphospecies","beetles",6,NA,24,NA,"Total numbe of visitors per 90 sunflower heads. Note that flower abundance (hence sampling effort) varied between sites. 6 (3 x 4min censuses, repeated in the morning and afternoon. Total observation time per plant = 24min)",NA
"Luisa_G_Carvalheiro_Helianthus_annuus_South_Africa_2009","carv02_02","sweep net","Lathrididae sp.","species or morphospecies","beetles",6,NA,24,NA,"Total numbe of visitors per 90 sunflower heads. Note that flower abundance (hence sampling effort) varied between sites. 6 (3 x 4min censuses, repeated in the morning and afternoon. Total observation time per plant = 24min)",NA
"Luisa_G_Carvalheiro_Helianthus_annuus_South_Africa_2009","carv02_02","sweep net","Lepidoptera spY","species or morphospecies","lepidoptera",6,NA,24,NA,"Total numbe of visitors per 90 sunflower heads. Note that flower abundance (hence sampling effort) varied between sites. 6 (3 x 4min censuses, repeated in the morning and afternoon. Total observation time per plant = 24min)",NA
"Luisa_G_Carvalheiro_Helianthus_annuus_South_Africa_2009","carv02_02","sweep net","Syrphidae sp1","species or morphospecies","syrphids",6,NA,24,NA,"Total numbe of visitors per 90 sunflower heads. Note that flower abundance (hence sampling effort) varied between sites. 6 (3 x 4min censuses, repeated in the morning and afternoon. Total observation time per plant = 24min)",NA
"Luisa_G_Carvalheiro_Helianthus_annuus_South_Africa_2009","carv02_20","sweep net","Lagria cf. aeneipennis Fahraeus","species or morphospecies","beetles",0.01,NA,24,NA,"Total numbe of visitors per 90 sunflower heads. Note that flower abundance (hence sampling effort) varied between sites. 6 (3 x 4min censuses, repeated in the morning and afternoon. Total observation time per plant = 24min)",NA
"Luisa_G_Carvalheiro_Helianthus_annuus_South_Africa_2009","carv02_20","sweep net","Apis mellifera L.","species or morphospecies","honeybees",162,NA,24,NA,"Total numbe of visitors per 90 sunflower heads. Note that flower abundance (hence sampling effort) varied between sites. 6 (3 x 4min censuses, repeated in the morning and afternoon. Total observation time per plant = 24min)",NA
"Luisa_G_Carvalheiro_Helianthus_annuus_South_Africa_2009","carv02_20","sweep net","Betasyrphus adliagatus","species or morphospecies","syrphids",0.01,NA,24,NA,"Total numbe of visitors per 90 sunflower heads. Note that flower abundance (hence sampling effort) varied between sites. 6 (3 x 4min censuses, repeated in the morning and afternoon. Total observation time per plant = 24min)",NA
"Luisa_G_Carvalheiro_Helianthus_annuus_South_Africa_2009","carv02_20","sweep net","Caliophoridae sp.","species or morphospecies","other_flies",0.01,NA,24,NA,"Total numbe of visitors per 90 sunflower heads. Note that flower abundance (hence sampling effort) varied between sites. 6 (3 x 4min censuses, repeated in the morning and afternoon. Total observation time per plant = 24min)",NA
"Luisa_G_Carvalheiro_Helianthus_annuus_South_Africa_2009","carv02_20","sweep net","Decaria sp.","species or morphospecies","beetles",0.01,NA,24,NA,"Total numbe of visitors per 90 sunflower heads. Note that flower abundance (hence sampling effort) varied between sites. 6 (3 x 4min censuses, repeated in the morning and afternoon. Total observation time per plant = 24min)",NA
"Luisa_G_Carvalheiro_Helianthus_annuus_South_Africa_2009","carv02_20","sweep net","Dioxyna sororcula","species or morphospecies","other_flies",4.5,NA,24,NA,"Total numbe of visitors per 90 sunflower heads. Note that flower abundance (hence sampling effort) varied between sites. 6 (3 x 4min censuses, repeated in the morning and afternoon. Total observation time per plant = 24min)",NA
"Luisa_G_Carvalheiro_Helianthus_annuus_South_Africa_2009","carv02_20","sweep net","Eudalaca exul cf","species or morphospecies","lepidoptera",0.01,NA,24,NA,"Total numbe of visitors per 90 sunflower heads. Note that flower abundance (hence sampling effort) varied between sites. 6 (3 x 4min censuses, repeated in the morning and afternoon. Total observation time per plant = 24min)",NA
"Luisa_G_Carvalheiro_Helianthus_annuus_South_Africa_2009","carv02_20","sweep net","Junonia oenone","species or morphospecies","lepidoptera",0.01,NA,24,NA,"Total numbe of visitors per 90 sunflower heads. Note that flower abundance (hence sampling effort) varied between sites. 6 (3 x 4min censuses, repeated in the morning and afternoon. Total observation time per plant = 24min)",NA
"Luisa_G_Carvalheiro_Helianthus_annuus_South_Africa_2009","carv02_20","sweep net","Macroglossum trochilus (Hubner)","species or morphospecies","lepidoptera",13.5,NA,24,NA,"Total numbe of visitors per 90 sunflower heads. Note that flower abundance (hence sampling effort) varied between sites. 6 (3 x 4min censuses, repeated in the morning and afternoon. Total observation time per plant = 24min)",NA
"Luisa_G_Carvalheiro_Helianthus_annuus_South_Africa_2009","carv02_20","sweep net","moth sp5","species or morphospecies","lepidoptera",0.01,NA,24,NA,"Total numbe of visitors per 90 sunflower heads. Note that flower abundance (hence sampling effort) varied between sites. 6 (3 x 4min censuses, repeated in the morning and afternoon. Total observation time per plant = 24min)",NA
"Luisa_G_Carvalheiro_Helianthus_annuus_South_Africa_2009","carv02_20","sweep net","Senaspis haemorrhoa","species or morphospecies","syrphids",4.5,NA,24,NA,"Total numbe of visitors per 90 sunflower heads. Note that flower abundance (hence sampling effort) varied between sites. 6 (3 x 4min censuses, repeated in the morning and afternoon. Total observation time per plant = 24min)",NA
"Luisa_G_Carvalheiro_Helianthus_annuus_South_Africa_2009","carv02_20","sweep net","Utetheisa pulchella","species or morphospecies","lepidoptera",9,NA,24,NA,"Total numbe of visitors per 90 sunflower heads. Note that flower abundance (hence sampling effort) varied between sites. 6 (3 x 4min censuses, repeated in the morning and afternoon. Total observation time per plant = 24min)",NA
"Luisa_G_Carvalheiro_Helianthus_annuus_South_Africa_2009","carv02_21","sweep net","Apis mellifera L.","species or morphospecies","honeybees",81,NA,24,NA,"Total numbe of visitors per 90 sunflower heads. Note that flower abundance (hence sampling effort) varied between sites. 6 (3 x 4min censuses, repeated in the morning and afternoon. Total observation time per plant = 24min)",NA
"Luisa_G_Carvalheiro_Helianthus_annuus_South_Africa_2009","carv02_21","sweep net","Betasyrphus adliagatus","species or morphospecies","syrphids",9,NA,24,NA,"Total numbe of visitors per 90 sunflower heads. Note that flower abundance (hence sampling effort) varied between sites. 6 (3 x 4min censuses, repeated in the morning and afternoon. Total observation time per plant = 24min)",NA
"Luisa_G_Carvalheiro_Helianthus_annuus_South_Africa_2009","carv02_21","sweep net","Heteroptera sp1","species or morphospecies","other",4.5,NA,24,NA,"Total numbe of visitors per 90 sunflower heads. Note that flower abundance (hence sampling effort) varied between sites. 6 (3 x 4min censuses, repeated in the morning and afternoon. Total observation time per plant = 24min)",NA
"Luisa_G_Carvalheiro_Helianthus_annuus_South_Africa_2009","carv02_21","sweep net","moth sp5","species or morphospecies","lepidoptera",4.5,NA,24,NA,"Total numbe of visitors per 90 sunflower heads. Note that flower abundance (hence sampling effort) varied between sites. 6 (3 x 4min censuses, repeated in the morning and afternoon. Total observation time per plant = 24min)",NA
"Luisa_G_Carvalheiro_Helianthus_annuus_South_Africa_2009","carv02_22","sweep net","Apis mellifera L.","species or morphospecies","honeybees",70,NA,24,NA,"Total numbe of visitors per 90 sunflower heads. Note that flower abundance (hence sampling effort) varied between sites. 6 (3 x 4min censuses, repeated in the morning and afternoon. Total observation time per plant = 24min)",NA
"Luisa_G_Carvalheiro_Helianthus_annuus_South_Africa_2009","carv02_23","sweep net","Apis mellifera L.","species or morphospecies","honeybees",90,NA,24,NA,"Total numbe of visitors per 90 sunflower heads. Note that flower abundance (hence sampling effort) varied between sites. 6 (3 x 4min censuses, repeated in the morning and afternoon. Total observation time per plant = 24min)",NA
"Luisa_G_Carvalheiro_Helianthus_annuus_South_Africa_2009","carv02_23","sweep net","Carpophilus sp.","species or morphospecies","beetles",11.25,NA,24,NA,"Total numbe of visitors per 90 sunflower heads. Note that flower abundance (hence sampling effort) varied between sites. 6 (3 x 4min censuses, repeated in the morning and afternoon. Total observation time per plant = 24min)",NA
"Luisa_G_Carvalheiro_Helianthus_annuus_South_Africa_2009","carv02_23","sweep net","Heteroptera sp1","species or morphospecies","other",5.625,NA,24,NA,"Total numbe of visitors per 90 sunflower heads. Note that flower abundance (hence sampling effort) varied between sites. 6 (3 x 4min censuses, repeated in the morning and afternoon. Total observation time per plant = 24min)",NA
"Luisa_G_Carvalheiro_Helianthus_annuus_South_Africa_2009","carv02_24","sweep net","Apis mellifera L.","species or morphospecies","honeybees",67.5,NA,24,NA,"Total numbe of visitors per 90 sunflower heads. Note that flower abundance (hence sampling effort) varied between sites. 6 (3 x 4min censuses, repeated in the morning and afternoon. Total observation time per plant = 24min)",NA
"Luisa_G_Carvalheiro_Helianthus_annuus_South_Africa_2009","carv02_24","sweep net","Eumerus obliquus","species or morphospecies","syrphids",5.625,NA,24,NA,"Total numbe of visitors per 90 sunflower heads. Note that flower abundance (hence sampling effort) varied between sites. 6 (3 x 4min censuses, repeated in the morning and afternoon. Total observation time per plant = 24min)",NA
"Luisa_G_Carvalheiro_Helianthus_annuus_South_Africa_2009","carv02_24","sweep net","Monolepta citrinella Jacoby","species or morphospecies","beetles",5.625,NA,24,NA,"Total numbe of visitors per 90 sunflower heads. Note that flower abundance (hence sampling effort) varied between sites. 6 (3 x 4min censuses, repeated in the morning and afternoon. Total observation time per plant = 24min)",NA
"Luisa_G_Carvalheiro_Helianthus_annuus_South_Africa_2009","carv02_25","sweep net","Apis mellifera L.","species or morphospecies","honeybees",26.4705882352941,NA,24,NA,"Total numbe of visitors per 90 sunflower heads. Note that flower abundance (hence sampling effort) varied between sites. 6 (3 x 4min censuses, repeated in the morning and afternoon. Total observation time per plant = 24min)",NA
"Luisa_G_Carvalheiro_Helianthus_annuus_South_Africa_2009","carv02_25","sweep net","Carpophilus sp.","species or morphospecies","beetles",5.29411764705882,NA,24,NA,"Total numbe of visitors per 90 sunflower heads. Note that flower abundance (hence sampling effort) varied between sites. 6 (3 x 4min censuses, repeated in the morning and afternoon. Total observation time per plant = 24min)",NA
"Luisa_G_Carvalheiro_Helianthus_annuus_South_Africa_2009","carv02_25","sweep net","Diptera spX","species or morphospecies","other_flies",10.5882352941176,NA,24,NA,"Total numbe of visitors per 90 sunflower heads. Note that flower abundance (hence sampling effort) varied between sites. 6 (3 x 4min censuses, repeated in the morning and afternoon. Total observation time per plant = 24min)",NA
"Luisa_G_Carvalheiro_Helianthus_annuus_South_Africa_2009","carv02_26","sweep net","Lagria cf. aeneipennis Fahraeus","species or morphospecies","beetles",6,NA,24,NA,"Total numbe of visitors per 90 sunflower heads. Note that flower abundance (hence sampling effort) varied between sites. 6 (3 x 4min censuses, repeated in the morning and afternoon. Total observation time per plant = 24min)",NA
"Luisa_G_Carvalheiro_Helianthus_annuus_South_Africa_2009","carv02_26","sweep net","Apis mellifera L.","species or morphospecies","honeybees",156,NA,24,NA,"Total numbe of visitors per 90 sunflower heads. Note that flower abundance (hence sampling effort) varied between sites. 6 (3 x 4min censuses, repeated in the morning and afternoon. Total observation time per plant = 24min)",NA
"Luisa_G_Carvalheiro_Helianthus_annuus_South_Africa_2009","carv02_26","sweep net","Dioxyna sororcula","species or morphospecies","other_flies",0.01,NA,24,NA,"Total numbe of visitors per 90 sunflower heads. Note that flower abundance (hence sampling effort) varied between sites. 6 (3 x 4min censuses, repeated in the morning and afternoon. Total observation time per plant = 24min)",NA
"Luisa_G_Carvalheiro_Helianthus_annuus_South_Africa_2009","carv02_26","sweep net","Hypolimnas misippus","species or morphospecies","lepidoptera",0.01,NA,24,NA,"Total numbe of visitors per 90 sunflower heads. Note that flower abundance (hence sampling effort) varied between sites. 6 (3 x 4min censuses, repeated in the morning and afternoon. Total observation time per plant = 24min)",NA
"Luisa_G_Carvalheiro_Helianthus_annuus_South_Africa_2009","carv02_26","sweep net","moth sp3","species or morphospecies","lepidoptera",0.01,NA,24,NA,"Total numbe of visitors per 90 sunflower heads. Note that flower abundance (hence sampling effort) varied between sites. 6 (3 x 4min censuses, repeated in the morning and afternoon. Total observation time per plant = 24min)",NA
"Luisa_G_Carvalheiro_Helianthus_annuus_South_Africa_2009","carv02_26","sweep net","moth sp5","species or morphospecies","lepidoptera",0.01,NA,24,NA,"Total numbe of visitors per 90 sunflower heads. Note that flower abundance (hence sampling effort) varied between sites. 6 (3 x 4min censuses, repeated in the morning and afternoon. Total observation time per plant = 24min)",NA
"Luisa_G_Carvalheiro_Helianthus_annuus_South_Africa_2009","carv02_26","sweep net","Syrphidae sp1","species or morphospecies","syrphids",6,NA,24,NA,"Total numbe of visitors per 90 sunflower heads. Note that flower abundance (hence sampling effort) varied between sites. 6 (3 x 4min censuses, repeated in the morning and afternoon. Total observation time per plant = 24min)",NA
"Luisa_G_Carvalheiro_Helianthus_annuus_South_Africa_2009","carv02_26","sweep net","Tetraloniella ? apicalis (Friese)","species or morphospecies","other_wild_bees",6,NA,24,NA,"Total numbe of visitors per 90 sunflower heads. Note that flower abundance (hence sampling effort) varied between sites. 6 (3 x 4min censuses, repeated in the morning and afternoon. Total observation time per plant = 24min)",NA
"Luisa_G_Carvalheiro_Helianthus_annuus_South_Africa_2009","carv02_27","sweep net","Apis mellifera L.","species or morphospecies","honeybees",132,NA,24,NA,"Total numbe of visitors per 90 sunflower heads. Note that flower abundance (hence sampling effort) varied between sites. 6 (3 x 4min censuses, repeated in the morning and afternoon. Total observation time per plant = 24min)",NA
"Luisa_G_Carvalheiro_Helianthus_annuus_South_Africa_2009","carv02_27","sweep net","Caliophoridae sp.","species or morphospecies","other_flies",0.01,NA,24,NA,"Total numbe of visitors per 90 sunflower heads. Note that flower abundance (hence sampling effort) varied between sites. 6 (3 x 4min censuses, repeated in the morning and afternoon. Total observation time per plant = 24min)",NA
"Luisa_G_Carvalheiro_Helianthus_annuus_South_Africa_2009","carv02_27","sweep net","Eumerus obliquus","species or morphospecies","syrphids",0.01,NA,24,NA,"Total numbe of visitors per 90 sunflower heads. Note that flower abundance (hence sampling effort) varied between sites. 6 (3 x 4min censuses, repeated in the morning and afternoon. Total observation time per plant = 24min)",NA
"Luisa_G_Carvalheiro_Helianthus_annuus_South_Africa_2009","carv02_27","sweep net","Heteroptera sp1","species or morphospecies","other",6,NA,24,NA,"Total numbe of visitors per 90 sunflower heads. Note that flower abundance (hence sampling effort) varied between sites. 6 (3 x 4min censuses, repeated in the morning and afternoon. Total observation time per plant = 24min)",NA
"Luisa_G_Carvalheiro_Helianthus_annuus_South_Africa_2009","carv02_27","sweep net","Hypolimnas misippus","species or morphospecies","lepidoptera",0.01,NA,24,NA,"Total numbe of visitors per 90 sunflower heads. Note that flower abundance (hence sampling effort) varied between sites. 6 (3 x 4min censuses, repeated in the morning and afternoon. Total observation time per plant = 24min)",NA
"Luisa_G_Carvalheiro_Helianthus_annuus_South_Africa_2009","carv02_27","sweep net","moth sp5","species or morphospecies","lepidoptera",0.01,NA,24,NA,"Total numbe of visitors per 90 sunflower heads. Note that flower abundance (hence sampling effort) varied between sites. 6 (3 x 4min censuses, repeated in the morning and afternoon. Total observation time per plant = 24min)",NA
"Luisa_G_Carvalheiro_Helianthus_annuus_South_Africa_2009","carv02_27","sweep net","Sarcophagidae sp.","species or morphospecies","other_flies",0.01,NA,24,NA,"Total numbe of visitors per 90 sunflower heads. Note that flower abundance (hence sampling effort) varied between sites. 6 (3 x 4min censuses, repeated in the morning and afternoon. Total observation time per plant = 24min)",NA
"Luisa_G_Carvalheiro_Helianthus_annuus_South_Africa_2009","carv02_27","sweep net","Tetraloniella ? apicalis (Friese)","species or morphospecies","other_wild_bees",0.01,NA,24,NA,"Total numbe of visitors per 90 sunflower heads. Note that flower abundance (hence sampling effort) varied between sites. 6 (3 x 4min censuses, repeated in the morning and afternoon. Total observation time per plant = 24min)",NA
"Luisa_G_Carvalheiro_Helianthus_annuus_South_Africa_2009","carv02_28","sweep net","Apis mellifera L.","species or morphospecies","honeybees",120,NA,24,NA,"Total numbe of visitors per 90 sunflower heads. Note that flower abundance (hence sampling effort) varied between sites. 6 (3 x 4min censuses, repeated in the morning and afternoon. Total observation time per plant = 24min)",NA
"Luisa_G_Carvalheiro_Helianthus_annuus_South_Africa_2009","carv02_28","sweep net","Dioxyna sororcula","species or morphospecies","other_flies",0.01,NA,24,NA,"Total numbe of visitors per 90 sunflower heads. Note that flower abundance (hence sampling effort) varied between sites. 6 (3 x 4min censuses, repeated in the morning and afternoon. Total observation time per plant = 24min)",NA
"Luisa_G_Carvalheiro_Helianthus_annuus_South_Africa_2009","carv02_28","sweep net","Eumerus obliquus","species or morphospecies","syrphids",0.01,NA,24,NA,"Total numbe of visitors per 90 sunflower heads. Note that flower abundance (hence sampling effort) varied between sites. 6 (3 x 4min censuses, repeated in the morning and afternoon. Total observation time per plant = 24min)",NA
"Luisa_G_Carvalheiro_Helianthus_annuus_South_Africa_2009","carv02_28","sweep net","Monolepta citrinella Jacoby","species or morphospecies","beetles",6,NA,24,NA,"Total numbe of visitors per 90 sunflower heads. Note that flower abundance (hence sampling effort) varied between sites. 6 (3 x 4min censuses, repeated in the morning and afternoon. Total observation time per plant = 24min)",NA
"Luisa_G_Carvalheiro_Helianthus_annuus_South_Africa_2009","carv02_29","sweep net","Apis mellifera L.","species or morphospecies","honeybees",160,NA,24,NA,"Total numbe of visitors per 90 sunflower heads. Note that flower abundance (hence sampling effort) varied between sites. 6 (3 x 4min censuses, repeated in the morning and afternoon. Total observation time per plant = 24min)",NA
"Luisa_G_Carvalheiro_Helianthus_annuus_South_Africa_2009","carv02_29","sweep net","Dioxyna sororcula","species or morphospecies","other_flies",0.01,NA,24,NA,"Total numbe of visitors per 90 sunflower heads. Note that flower abundance (hence sampling effort) varied between sites. 6 (3 x 4min censuses, repeated in the morning and afternoon. Total observation time per plant = 24min)",NA
"Luisa_G_Carvalheiro_Helianthus_annuus_South_Africa_2009","carv02_29","sweep net","Eumerus obliquus","species or morphospecies","syrphids",0.01,NA,24,NA,"Total numbe of visitors per 90 sunflower heads. Note that flower abundance (hence sampling effort) varied between sites. 6 (3 x 4min censuses, repeated in the morning and afternoon. Total observation time per plant = 24min)",NA
"Luisa_G_Carvalheiro_Helianthus_annuus_South_Africa_2009","carv02_29","sweep net","Hypolimnas misippus","species or morphospecies","lepidoptera",0.01,NA,24,NA,"Total numbe of visitors per 90 sunflower heads. Note that flower abundance (hence sampling effort) varied between sites. 6 (3 x 4min censuses, repeated in the morning and afternoon. Total observation time per plant = 24min)",NA
"Luisa_G_Carvalheiro_Helianthus_annuus_South_Africa_2009","carv02_29","sweep net","Lasioglossum sp.","species or morphospecies","other_wild_bees",10,NA,24,NA,"Total numbe of visitors per 90 sunflower heads. Note that flower abundance (hence sampling effort) varied between sites. 6 (3 x 4min censuses, repeated in the morning and afternoon. Total observation time per plant = 24min)",NA
"Luisa_G_Carvalheiro_Helianthus_annuus_South_Africa_2009","carv02_29","sweep net","Sarcophagidae sp.","species or morphospecies","other_flies",0.01,NA,24,NA,"Total numbe of visitors per 90 sunflower heads. Note that flower abundance (hence sampling effort) varied between sites. 6 (3 x 4min censuses, repeated in the morning and afternoon. Total observation time per plant = 24min)",NA
"Luisa_G_Carvalheiro_Helianthus_annuus_South_Africa_2009","carv02_29","sweep net","Xylocopa inconstans","species or morphospecies","other_wild_bees",0.05,NA,24,NA,"Total numbe of visitors per 90 sunflower heads. Note that flower abundance (hence sampling effort) varied between sites. 6 (3 x 4min censuses, repeated in the morning and afternoon. Total observation time per plant = 24min)",NA
"Luisa_G_Carvalheiro_Helianthus_annuus_South_Africa_2009","carv02_3","sweep net","Apis mellifera L.","species or morphospecies","honeybees",115.714285714286,NA,24,NA,"Total numbe of visitors per 90 sunflower heads. Note that flower abundance (hence sampling effort) varied between sites. 6 (3 x 4min censuses, repeated in the morning and afternoon. Total observation time per plant = 24min)",NA
"Luisa_G_Carvalheiro_Helianthus_annuus_South_Africa_2009","carv02_3","sweep net","Carpophilus sp.","species or morphospecies","beetles",5.93697478991597,NA,24,NA,"Total numbe of visitors per 90 sunflower heads. Note that flower abundance (hence sampling effort) varied between sites. 6 (3 x 4min censuses, repeated in the morning and afternoon. Total observation time per plant = 24min)",NA
"Luisa_G_Carvalheiro_Helianthus_annuus_South_Africa_2009","carv02_3","sweep net","Heteroptera sp1","species or morphospecies","other",6.42857142857143,NA,24,NA,"Total numbe of visitors per 90 sunflower heads. Note that flower abundance (hence sampling effort) varied between sites. 6 (3 x 4min censuses, repeated in the morning and afternoon. Total observation time per plant = 24min)",NA
"Luisa_G_Carvalheiro_Helianthus_annuus_South_Africa_2009","carv02_3","sweep net","Syrphidae sp1","species or morphospecies","syrphids",6.42857142857143,NA,24,NA,"Total numbe of visitors per 90 sunflower heads. Note that flower abundance (hence sampling effort) varied between sites. 6 (3 x 4min censuses, repeated in the morning and afternoon. Total observation time per plant = 24min)",NA
"Luisa_G_Carvalheiro_Helianthus_annuus_South_Africa_2009","carv02_30","sweep net","Apis mellifera L.","species or morphospecies","honeybees",118.421052631579,NA,24,NA,"Total numbe of visitors per 90 sunflower heads. Note that flower abundance (hence sampling effort) varied between sites. 6 (3 x 4min censuses, repeated in the morning and afternoon. Total observation time per plant = 24min)",NA
"Luisa_G_Carvalheiro_Helianthus_annuus_South_Africa_2009","carv02_30","sweep net","Coleoptera sp1","species or morphospecies","beetles",0.01,NA,24,NA,"Total numbe of visitors per 90 sunflower heads. Note that flower abundance (hence sampling effort) varied between sites. 6 (3 x 4min censuses, repeated in the morning and afternoon. Total observation time per plant = 24min)",NA
"Luisa_G_Carvalheiro_Helianthus_annuus_South_Africa_2009","carv02_30","sweep net","Coleoptera sp5","species or morphospecies","beetles",0.01,NA,24,NA,"Total numbe of visitors per 90 sunflower heads. Note that flower abundance (hence sampling effort) varied between sites. 6 (3 x 4min censuses, repeated in the morning and afternoon. Total observation time per plant = 24min)",NA
"Luisa_G_Carvalheiro_Helianthus_annuus_South_Africa_2009","carv02_30","sweep net","Dioxyna sororcula","species or morphospecies","other_flies",0.01,NA,24,NA,"Total numbe of visitors per 90 sunflower heads. Note that flower abundance (hence sampling effort) varied between sites. 6 (3 x 4min censuses, repeated in the morning and afternoon. Total observation time per plant = 24min)",NA
"Luisa_G_Carvalheiro_Helianthus_annuus_South_Africa_2009","carv02_30","sweep net","Sarcophagidae sp.","species or morphospecies","other_flies",0.01,NA,24,NA,"Total numbe of visitors per 90 sunflower heads. Note that flower abundance (hence sampling effort) varied between sites. 6 (3 x 4min censuses, repeated in the morning and afternoon. Total observation time per plant = 24min)",NA
"Luisa_G_Carvalheiro_Helianthus_annuus_South_Africa_2009","carv02_04","sweep net","Apis mellifera L.","species or morphospecies","honeybees",54,NA,24,NA,"Total numbe of visitors per 90 sunflower heads. Note that flower abundance (hence sampling effort) varied between sites. 6 (3 x 4min censuses, repeated in the morning and afternoon. Total observation time per plant = 24min)",NA
"Luisa_G_Carvalheiro_Helianthus_annuus_South_Africa_2009","carv02_04","sweep net","Betasyrphus adliagatus","species or morphospecies","syrphids",0.01,NA,24,NA,"Total numbe of visitors per 90 sunflower heads. Note that flower abundance (hence sampling effort) varied between sites. 6 (3 x 4min censuses, repeated in the morning and afternoon. Total observation time per plant = 24min)",NA
"Luisa_G_Carvalheiro_Helianthus_annuus_South_Africa_2009","carv02_04","sweep net","Hypolimnas misippus","species or morphospecies","lepidoptera",6,NA,24,NA,"Total numbe of visitors per 90 sunflower heads. Note that flower abundance (hence sampling effort) varied between sites. 6 (3 x 4min censuses, repeated in the morning and afternoon. Total observation time per plant = 24min)",NA
"Luisa_G_Carvalheiro_Helianthus_annuus_South_Africa_2009","carv02_04","sweep net","Lasioglossum sp.","species or morphospecies","other_wild_bees",12,NA,24,NA,"Total numbe of visitors per 90 sunflower heads. Note that flower abundance (hence sampling effort) varied between sites. 6 (3 x 4min censuses, repeated in the morning and afternoon. Total observation time per plant = 24min)",NA
"Luisa_G_Carvalheiro_Helianthus_annuus_South_Africa_2009","carv02_04","sweep net","Meligethes sp.","species or morphospecies","beetles",10,NA,24,NA,"Total numbe of visitors per 90 sunflower heads. Note that flower abundance (hence sampling effort) varied between sites. 6 (3 x 4min censuses, repeated in the morning and afternoon. Total observation time per plant = 24min)",NA
"Luisa_G_Carvalheiro_Helianthus_annuus_South_Africa_2009","carv02_05","sweep net","Apis mellifera L.","species or morphospecies","honeybees",84,NA,24,NA,"Total numbe of visitors per 90 sunflower heads. Note that flower abundance (hence sampling effort) varied between sites. 6 (3 x 4min censuses, repeated in the morning and afternoon. Total observation time per plant = 24min)",NA
"Luisa_G_Carvalheiro_Helianthus_annuus_South_Africa_2009","carv02_05","sweep net","Astylus atromaculatus Blanchard *","species or morphospecies","beetles",6,NA,24,NA,"Total numbe of visitors per 90 sunflower heads. Note that flower abundance (hence sampling effort) varied between sites. 6 (3 x 4min censuses, repeated in the morning and afternoon. Total observation time per plant = 24min)",NA
"Luisa_G_Carvalheiro_Helianthus_annuus_South_Africa_2009","carv02_05","sweep net","Carpophilus sp.","species or morphospecies","beetles",6,NA,24,NA,"Total numbe of visitors per 90 sunflower heads. Note that flower abundance (hence sampling effort) varied between sites. 6 (3 x 4min censuses, repeated in the morning and afternoon. Total observation time per plant = 24min)",NA
"Luisa_G_Carvalheiro_Helianthus_annuus_South_Africa_2009","carv02_05","sweep net","Dioxyna sororcula","species or morphospecies","other_flies",6,NA,24,NA,"Total numbe of visitors per 90 sunflower heads. Note that flower abundance (hence sampling effort) varied between sites. 6 (3 x 4min censuses, repeated in the morning and afternoon. Total observation time per plant = 24min)",NA
"Luisa_G_Carvalheiro_Helianthus_annuus_South_Africa_2009","carv02_05","sweep net","Lasioglossum sp.","species or morphospecies","other_wild_bees",0.01,NA,24,NA,"Total numbe of visitors per 90 sunflower heads. Note that flower abundance (hence sampling effort) varied between sites. 6 (3 x 4min censuses, repeated in the morning and afternoon. Total observation time per plant = 24min)",NA
"Luisa_G_Carvalheiro_Helianthus_annuus_South_Africa_2009","carv02_05","sweep net","Lathrididae sp.","species or morphospecies","beetles",6,NA,24,NA,"Total numbe of visitors per 90 sunflower heads. Note that flower abundance (hence sampling effort) varied between sites. 6 (3 x 4min censuses, repeated in the morning and afternoon. Total observation time per plant = 24min)",NA
"Luisa_G_Carvalheiro_Helianthus_annuus_South_Africa_2009","carv02_05","sweep net","Sarcophagidae sp.","species or morphospecies","other_flies",6,NA,24,NA,"Total numbe of visitors per 90 sunflower heads. Note that flower abundance (hence sampling effort) varied between sites. 6 (3 x 4min censuses, repeated in the morning and afternoon. Total observation time per plant = 24min)",NA
"Luisa_G_Carvalheiro_Helianthus_annuus_South_Africa_2009","carv02_06","sweep net","Apis mellifera L.","species or morphospecies","honeybees",162.857142857143,NA,24,NA,"Total numbe of visitors per 90 sunflower heads. Note that flower abundance (hence sampling effort) varied between sites. 6 (3 x 4min censuses, repeated in the morning and afternoon. Total observation time per plant = 24min)",NA
"Luisa_G_Carvalheiro_Helianthus_annuus_South_Africa_2009","carv02_06","sweep net","Caliophoridae sp.","species or morphospecies","other_flies",0.01,NA,24,NA,"Total numbe of visitors per 90 sunflower heads. Note that flower abundance (hence sampling effort) varied between sites. 6 (3 x 4min censuses, repeated in the morning and afternoon. Total observation time per plant = 24min)",NA
"Luisa_G_Carvalheiro_Helianthus_annuus_South_Africa_2009","carv02_06","sweep net","Lasioglossum sp.","species or morphospecies","other_wild_bees",0.01,NA,24,NA,"Total numbe of visitors per 90 sunflower heads. Note that flower abundance (hence sampling effort) varied between sites. 6 (3 x 4min censuses, repeated in the morning and afternoon. Total observation time per plant = 24min)",NA
"Luisa_G_Carvalheiro_Helianthus_annuus_South_Africa_2009","carv02_07","sweep net","Amata cerbera L.","species or morphospecies","lepidoptera",0.01,NA,24,NA,"Total numbe of visitors per 90 sunflower heads. Note that flower abundance (hence sampling effort) varied between sites. 6 (3 x 4min censuses, repeated in the morning and afternoon. Total observation time per plant = 24min)",NA
"Luisa_G_Carvalheiro_Helianthus_annuus_South_Africa_2009","carv02_07","sweep net","Apis mellifera L.","species or morphospecies","honeybees",336.315789473684,NA,24,NA,"Total numbe of visitors per 90 sunflower heads. Note that flower abundance (hence sampling effort) varied between sites. 6 (3 x 4min censuses, repeated in the morning and afternoon. Total observation time per plant = 24min)",NA
"Luisa_G_Carvalheiro_Helianthus_annuus_South_Africa_2009","carv02_07","sweep net","Belenois thysa","species or morphospecies","lepidoptera",0.01,NA,24,NA,"Total numbe of visitors per 90 sunflower heads. Note that flower abundance (hence sampling effort) varied between sites. 6 (3 x 4min censuses, repeated in the morning and afternoon. Total observation time per plant = 24min)",NA
"Luisa_G_Carvalheiro_Helianthus_annuus_South_Africa_2009","carv02_07","sweep net","Carpophilus sp.","species or morphospecies","beetles",0.01,NA,24,NA,"Total numbe of visitors per 90 sunflower heads. Note that flower abundance (hence sampling effort) varied between sites. 6 (3 x 4min censuses, repeated in the morning and afternoon. Total observation time per plant = 24min)",NA
"Luisa_G_Carvalheiro_Helianthus_annuus_South_Africa_2009","carv02_07","sweep net","Dioxyna sororcula","species or morphospecies","other_flies",0.01,NA,24,NA,"Total numbe of visitors per 90 sunflower heads. Note that flower abundance (hence sampling effort) varied between sites. 6 (3 x 4min censuses, repeated in the morning and afternoon. Total observation time per plant = 24min)",NA
"Luisa_G_Carvalheiro_Helianthus_annuus_South_Africa_2009","carv02_07","sweep net","Hypolimnas misippus","species or morphospecies","lepidoptera",0.01,NA,24,NA,"Total numbe of visitors per 90 sunflower heads. Note that flower abundance (hence sampling effort) varied between sites. 6 (3 x 4min censuses, repeated in the morning and afternoon. Total observation time per plant = 24min)",NA
"Luisa_G_Carvalheiro_Helianthus_annuus_South_Africa_2009","carv02_07","sweep net","Junonia hierta","species or morphospecies","lepidoptera",0.01,NA,24,NA,"Total numbe of visitors per 90 sunflower heads. Note that flower abundance (hence sampling effort) varied between sites. 6 (3 x 4min censuses, repeated in the morning and afternoon. Total observation time per plant = 24min)",NA
"Luisa_G_Carvalheiro_Helianthus_annuus_South_Africa_2009","carv02_07","sweep net","Lasioglossum sp.","species or morphospecies","other_wild_bees",0.01,NA,24,NA,"Total numbe of visitors per 90 sunflower heads. Note that flower abundance (hence sampling effort) varied between sites. 6 (3 x 4min censuses, repeated in the morning and afternoon. Total observation time per plant = 24min)",NA
"Luisa_G_Carvalheiro_Helianthus_annuus_South_Africa_2009","carv02_07","sweep net","Macroglossum trochilus (Hubner)","species or morphospecies","lepidoptera",0.01,NA,24,NA,"Total numbe of visitors per 90 sunflower heads. Note that flower abundance (hence sampling effort) varied between sites. 6 (3 x 4min censuses, repeated in the morning and afternoon. Total observation time per plant = 24min)",NA
"Luisa_G_Carvalheiro_Helianthus_annuus_South_Africa_2009","carv02_07","sweep net","Sarcophagidae sp.","species or morphospecies","other_flies",0.01,NA,24,NA,"Total numbe of visitors per 90 sunflower heads. Note that flower abundance (hence sampling effort) varied between sites. 6 (3 x 4min censuses, repeated in the morning and afternoon. Total observation time per plant = 24min)",NA
"Luisa_G_Carvalheiro_Helianthus_annuus_South_Africa_2009","carv02_07","sweep net","Senaspis haemorrhoa","species or morphospecies","syrphids",4.73684210526316,NA,24,NA,"Total numbe of visitors per 90 sunflower heads. Note that flower abundance (hence sampling effort) varied between sites. 6 (3 x 4min censuses, repeated in the morning and afternoon. Total observation time per plant = 24min)",NA
"Luisa_G_Carvalheiro_Helianthus_annuus_South_Africa_2009","carv02_08","sweep net","Apis mellifera L.","species or morphospecies","honeybees",218.571428571429,NA,24,NA,"Total numbe of visitors per 90 sunflower heads. Note that flower abundance (hence sampling effort) varied between sites. 6 (3 x 4min censuses, repeated in the morning and afternoon. Total observation time per plant = 24min)",NA
"Luisa_G_Carvalheiro_Helianthus_annuus_South_Africa_2009","carv02_08","sweep net","Carpophilus sp.","species or morphospecies","beetles",0.01,NA,24,NA,"Total numbe of visitors per 90 sunflower heads. Note that flower abundance (hence sampling effort) varied between sites. 6 (3 x 4min censuses, repeated in the morning and afternoon. Total observation time per plant = 24min)",NA
"Luisa_G_Carvalheiro_Helianthus_annuus_South_Africa_2009","carv02_08","sweep net","Lasioglossum sp.","species or morphospecies","other_wild_bees",0.01,NA,24,NA,"Total numbe of visitors per 90 sunflower heads. Note that flower abundance (hence sampling effort) varied between sites. 6 (3 x 4min censuses, repeated in the morning and afternoon. Total observation time per plant = 24min)",NA
"Luisa_G_Carvalheiro_Helianthus_annuus_South_Africa_2009","carv02_08","sweep net","Megachile frontalis cf.","species or morphospecies","other_wild_bees",0.01,NA,24,NA,"Total numbe of visitors per 90 sunflower heads. Note that flower abundance (hence sampling effort) varied between sites. 6 (3 x 4min censuses, repeated in the morning and afternoon. Total observation time per plant = 24min)",NA
"Luisa_G_Carvalheiro_Helianthus_annuus_South_Africa_2009","carv02_09","sweep net","Apis mellifera L.","species or morphospecies","honeybees",90,NA,24,NA,"Total numbe of visitors per 90 sunflower heads. Note that flower abundance (hence sampling effort) varied between sites. 6 (3 x 4min censuses, repeated in the morning and afternoon. Total observation time per plant = 24min)",NA
"Luisa_G_Carvalheiro_Helianthus_annuus_South_Africa_2009","carv02_09","sweep net","Sarcophagidae sp.","species or morphospecies","other_flies",5.625,NA,24,NA,"Total numbe of visitors per 90 sunflower heads. Note that flower abundance (hence sampling effort) varied between sites. 6 (3 x 4min censuses, repeated in the morning and afternoon. Total observation time per plant = 24min)",NA
"Luisa_G_Carvalheiro_Helianthus_annuus_South_Africa_2009","carv02_09","sweep net","Tetraloniella ? apicalis (Friese)","species or morphospecies","other_wild_bees",0.01,NA,24,NA,"Total numbe of visitors per 90 sunflower heads. Note that flower abundance (hence sampling effort) varied between sites. 6 (3 x 4min censuses, repeated in the morning and afternoon. Total observation time per plant = 24min)",NA
"Luisa_G_Carvalheiro_Mangifera_indica_South_Africa_2008","carv01_01","sweep net, note that flower abundance (hence sampling effort) varied between sites","Apis mellifera","species or morphospecies","honeybees",1,NA,NA,NA,"sweep net, note that flower abundance (hence sampling effort) varied between sites",NA
"Luisa_G_Carvalheiro_Mangifera_indica_South_Africa_2008","carv01_01","sweep net, note that flower abundance (hence sampling effort) varied between sites","Betassyrphus adligatus","species or morphospecies","syrphids",1,NA,NA,NA,"sweep net, note that flower abundance (hence sampling effort) varied between sites",NA
"Luisa_G_Carvalheiro_Mangifera_indica_South_Africa_2008","carv01_01","sweep net, note that flower abundance (hence sampling effort) varied between sites","Ceratina sp. (Ceratina lunata Friese or Ceratina moerenhouti Vachal)","species or morphospecies","other_wild_bees",6,NA,NA,NA,"sweep net, note that flower abundance (hence sampling effort) varied between sites",NA
"Luisa_G_Carvalheiro_Mangifera_indica_South_Africa_2008","carv01_01","sweep net, note that flower abundance (hence sampling effort) varied between sites","Empididae sp1","species or morphospecies","other_flies",4,NA,NA,NA,"sweep net, note that flower abundance (hence sampling effort) varied between sites",NA
"Luisa_G_Carvalheiro_Mangifera_indica_South_Africa_2008","carv01_01","sweep net, note that flower abundance (hence sampling effort) varied between sites","Ischiodon aegyptius","species or morphospecies","syrphids",1,NA,NA,NA,"sweep net, note that flower abundance (hence sampling effort) varied between sites",NA
"Luisa_G_Carvalheiro_Mangifera_indica_South_Africa_2008","carv01_01","sweep net, note that flower abundance (hence sampling effort) varied between sites","Paragus longiventris","species or morphospecies","syrphids",2,NA,NA,NA,"sweep net, note that flower abundance (hence sampling effort) varied between sites",NA
"Luisa_G_Carvalheiro_Mangifera_indica_South_Africa_2008","carv01_10","sweep net, note that flower abundance (hence sampling effort) varied between sites","Apis mellifera","species or morphospecies","honeybees",3,NA,NA,NA,"sweep net, note that flower abundance (hence sampling effort) varied between sites",NA
"Luisa_G_Carvalheiro_Mangifera_indica_South_Africa_2008","carv01_11","sweep net, note that flower abundance (hence sampling effort) varied between sites","Ceratina sp. (Ceratina lunata Friese or Ceratina moerenhouti Vachal)","species or morphospecies","other_wild_bees",1,NA,NA,NA,"sweep net, note that flower abundance (hence sampling effort) varied between sites",NA
"Luisa_G_Carvalheiro_Mangifera_indica_South_Africa_2008","carv01_12","sweep net, note that flower abundance (hence sampling effort) varied between sites","Apis mellifera","species or morphospecies","honeybees",2,NA,NA,NA,"sweep net, note that flower abundance (hence sampling effort) varied between sites",NA
"Luisa_G_Carvalheiro_Mangifera_indica_South_Africa_2008","carv01_02","sweep net, note that flower abundance (hence sampling effort) varied between sites","Apis mellifera","species or morphospecies","honeybees",3,NA,NA,NA,"sweep net, note that flower abundance (hence sampling effort) varied between sites",NA
"Luisa_G_Carvalheiro_Mangifera_indica_South_Africa_2008","carv01_02","sweep net, note that flower abundance (hence sampling effort) varied between sites","Betassyrphus adligatus","species or morphospecies","syrphids",3,NA,NA,NA,"sweep net, note that flower abundance (hence sampling effort) varied between sites",NA
"Luisa_G_Carvalheiro_Mangifera_indica_South_Africa_2008","carv01_02","sweep net, note that flower abundance (hence sampling effort) varied between sites","Eumerus obliquus","species or morphospecies","syrphids",1,NA,NA,NA,"sweep net, note that flower abundance (hence sampling effort) varied between sites",NA
"Luisa_G_Carvalheiro_Mangifera_indica_South_Africa_2008","carv01_02","sweep net, note that flower abundance (hence sampling effort) varied between sites","Ischiodon aegyptius","species or morphospecies","syrphids",1,NA,NA,NA,"sweep net, note that flower abundance (hence sampling effort) varied between sites",NA
"Luisa_G_Carvalheiro_Mangifera_indica_South_Africa_2008","carv01_03","sweep net, note that flower abundance (hence sampling effort) varied between sites","Empididae sp1","species or morphospecies","other_flies",4,NA,NA,NA,"sweep net, note that flower abundance (hence sampling effort) varied between sites",NA
"Luisa_G_Carvalheiro_Mangifera_indica_South_Africa_2008","carv01_03","sweep net, note that flower abundance (hence sampling effort) varied between sites","Empididae sp2","species or morphospecies","other_flies",4,NA,NA,NA,"sweep net, note that flower abundance (hence sampling effort) varied between sites",NA
"Luisa_G_Carvalheiro_Mangifera_indica_South_Africa_2008","carv01_03","sweep net, note that flower abundance (hence sampling effort) varied between sites","Syrphidae sp2","species or morphospecies","syrphids",1,NA,NA,NA,"sweep net, note that flower abundance (hence sampling effort) varied between sites",NA
"Luisa_G_Carvalheiro_Mangifera_indica_South_Africa_2008","carv01_04","sweep net, note that flower abundance (hence sampling effort) varied between sites","Apis mellifera","species or morphospecies","honeybees",2,NA,NA,NA,"sweep net, note that flower abundance (hence sampling effort) varied between sites",NA
"Luisa_G_Carvalheiro_Mangifera_indica_South_Africa_2008","carv01_04","sweep net, note that flower abundance (hence sampling effort) varied between sites","Eucoilidae sp1","species or morphospecies","non_bee_hymenoptera",1,NA,NA,NA,"sweep net, note that flower abundance (hence sampling effort) varied between sites",NA
"Luisa_G_Carvalheiro_Mangifera_indica_South_Africa_2008","carv01_04","sweep net, note that flower abundance (hence sampling effort) varied between sites","Scymnus cf. capicola Casey, 1899","species or morphospecies","beetles",1,NA,NA,NA,"sweep net, note that flower abundance (hence sampling effort) varied between sites",NA
"Luisa_G_Carvalheiro_Mangifera_indica_South_Africa_2008","carv01_05","sweep net, note that flower abundance (hence sampling effort) varied between sites","Empididae sp1","species or morphospecies","other_flies",2,NA,NA,NA,"sweep net, note that flower abundance (hence sampling effort) varied between sites",NA
"Luisa_G_Carvalheiro_Mangifera_indica_South_Africa_2008","carv01_06","sweep net, note that flower abundance (hence sampling effort) varied between sites","Cratocentrus  sp","species or morphospecies","non_bee_hymenoptera",1,NA,NA,NA,"sweep net, note that flower abundance (hence sampling effort) varied between sites",NA
"Luisa_G_Carvalheiro_Mangifera_indica_South_Africa_2008","carv01_06","sweep net, note that flower abundance (hence sampling effort) varied between sites","Lepidoptera sp.","species or morphospecies","lepidoptera",1,NA,NA,NA,"sweep net, note that flower abundance (hence sampling effort) varied between sites",NA
"Luisa_G_Carvalheiro_Mangifera_indica_South_Africa_2008","carv01_06","sweep net, note that flower abundance (hence sampling effort) varied between sites","Mordellinae sp1","species or morphospecies","beetles",1,NA,NA,NA,"sweep net, note that flower abundance (hence sampling effort) varied between sites",NA
"Luisa_G_Carvalheiro_Mangifera_indica_South_Africa_2008","carv01_06","sweep net, note that flower abundance (hence sampling effort) varied between sites","Xylocopa sp.","species or morphospecies","other_wild_bees",1,NA,NA,NA,"sweep net, note that flower abundance (hence sampling effort) varied between sites",NA
"Luisa_G_Carvalheiro_Mangifera_indica_South_Africa_2008","carv01_07","sweep net, note that flower abundance (hence sampling effort) varied between sites","Apis mellifera","species or morphospecies","honeybees",1,NA,NA,NA,"sweep net, note that flower abundance (hence sampling effort) varied between sites",NA
"Luisa_G_Carvalheiro_Mangifera_indica_South_Africa_2008","carv01_07","sweep net, note that flower abundance (hence sampling effort) varied between sites","Rhyncomya forcipata","species or morphospecies","other_flies",2,NA,NA,NA,"sweep net, note that flower abundance (hence sampling effort) varied between sites",NA
"Luisa_G_Carvalheiro_Mangifera_indica_South_Africa_2008","carv01_08","sweep net, note that flower abundance (hence sampling effort) varied between sites","Apis mellifera","species or morphospecies","honeybees",1,NA,NA,NA,"sweep net, note that flower abundance (hence sampling effort) varied between sites",NA
"Luisa_G_Carvalheiro_Mangifera_indica_South_Africa_2008","carv01_08","sweep net, note that flower abundance (hence sampling effort) varied between sites","Malachiinae sp1","species or morphospecies","beetles",1,NA,NA,NA,"sweep net, note that flower abundance (hence sampling effort) varied between sites",NA
"Luisa_G_Carvalheiro_Mangifera_indica_South_Africa_2008","carv01_08","sweep net, note that flower abundance (hence sampling effort) varied between sites","Rhyncomya forcipata","species or morphospecies","other_flies",3,NA,NA,NA,"sweep net, note that flower abundance (hence sampling effort) varied between sites",NA
"Luisa_G_Carvalheiro_Mangifera_indica_South_Africa_2008","carv01_09","sweep net, note that flower abundance (hence sampling effort) varied between sites","Apis mellifera","species or morphospecies","honeybees",1,NA,NA,NA,"sweep net, note that flower abundance (hence sampling effort) varied between sites",NA
"Luisa_G_Carvalheiro_Mangifera_indica_South_Africa_2008","carv01_09","sweep net, note that flower abundance (hence sampling effort) varied between sites","Diptera sp1","species or morphospecies","other_flies",1,NA,NA,NA,"sweep net, note that flower abundance (hence sampling effort) varied between sites",NA
"Luisa_G_Carvalheiro_Mangifera_indica_South_Africa_2009","carv03_Grovedale_D49","sweep net, note that flower abundance (hence sampling effort) varied between sites","Anoplolepis_sp_2_","morphospecies","non_bee_hymenoptera",1,NA,NA,NA,"sweep net, note that flower abundance (hence sampling effort) varied between sites",NA
"Luisa_G_Carvalheiro_Mangifera_indica_South_Africa_2009","carv03_Grovedale_G12-K","sweep net, note that flower abundance (hence sampling effort) varied between sites","Anoplolepis_sp_2_","morphospecies","non_bee_hymenoptera",40,NA,NA,NA,"sweep net, note that flower abundance (hence sampling effort) varied between sites",NA
"Luisa_G_Carvalheiro_Mangifera_indica_South_Africa_2009","carv03_Grovedale_D50","sweep net, note that flower abundance (hence sampling effort) varied between sites","Anoplolepis_sp_2_","morphospecies","non_bee_hymenoptera",10,NA,NA,NA,"sweep net, note that flower abundance (hence sampling effort) varied between sites",NA
"Luisa_G_Carvalheiro_Mangifera_indica_South_Africa_2009","carv03_Grovedale_D49","sweep net, note that flower abundance (hence sampling effort) varied between sites","Camponotus_sp_1__","morphospecies","non_bee_hymenoptera",5,NA,NA,NA,"sweep net, note that flower abundance (hence sampling effort) varied between sites",NA
"Luisa_G_Carvalheiro_Mangifera_indica_South_Africa_2009","carv03_Grovedale_G12-K","sweep net, note that flower abundance (hence sampling effort) varied between sites","Camponotus_sp_1__","morphospecies","non_bee_hymenoptera",65,NA,NA,NA,"sweep net, note that flower abundance (hence sampling effort) varied between sites",NA
"Luisa_G_Carvalheiro_Mangifera_indica_South_Africa_2009","carv03_Moriah_B53/54","sweep net, note that flower abundance (hence sampling effort) varied between sites","Camponotus_sp_1__","morphospecies","non_bee_hymenoptera",1,NA,NA,NA,"sweep net, note that flower abundance (hence sampling effort) varied between sites",NA
"Luisa_G_Carvalheiro_Mangifera_indica_South_Africa_2009","carv03_Bavaria_L_LE3/6","sweep net, note that flower abundance (hence sampling effort) varied between sites","Camponotus_sp_1__","morphospecies","non_bee_hymenoptera",1,NA,NA,NA,"sweep net, note that flower abundance (hence sampling effort) varied between sites",NA
"Luisa_G_Carvalheiro_Mangifera_indica_South_Africa_2009","carv03_Grovedale_G34","sweep net, note that flower abundance (hence sampling effort) varied between sites","Camponotus_sp_1__","morphospecies","non_bee_hymenoptera",2,NA,NA,NA,"sweep net, note that flower abundance (hence sampling effort) varied between sites",NA
"Luisa_G_Carvalheiro_Mangifera_indica_South_Africa_2009","carv03_Moriah_B48","sweep net, note that flower abundance (hence sampling effort) varied between sites","Camponotus_sp_1__","morphospecies","non_bee_hymenoptera",1,NA,NA,NA,"sweep net, note that flower abundance (hence sampling effort) varied between sites",NA
"Luisa_G_Carvalheiro_Mangifera_indica_South_Africa_2009","carv03_Moriah_B48","sweep net, note that flower abundance (hence sampling effort) varied between sites","Camponotus_sp_1__","morphospecies","non_bee_hymenoptera",2,NA,NA,NA,"sweep net, note that flower abundance (hence sampling effort) varied between sites",NA
"Luisa_G_Carvalheiro_Mangifera_indica_South_Africa_2009","carv03_Moriah_B53/54","sweep net, note that flower abundance (hence sampling effort) varied between sites","Formicidae_sp2__bunduda_","morphospecies","non_bee_hymenoptera",1,NA,NA,NA,"sweep net, note that flower abundance (hence sampling effort) varied between sites",NA
"Luisa_G_Carvalheiro_Mangifera_indica_South_Africa_2009","carv03_Moriah_B48","sweep net, note that flower abundance (hence sampling effort) varied between sites","Formicidae_sp2__bunduda_","morphospecies","non_bee_hymenoptera",2,NA,NA,NA,"sweep net, note that flower abundance (hence sampling effort) varied between sites",NA
"Luisa_G_Carvalheiro_Mangifera_indica_South_Africa_2009","carv03_Grovedale_D50","sweep net, note that flower abundance (hence sampling effort) varied between sites","Tetramorium_sp_1_","morphospecies","non_bee_hymenoptera",2,NA,NA,NA,"sweep net, note that flower abundance (hence sampling effort) varied between sites",NA
"Luisa_G_Carvalheiro_Mangifera_indica_South_Africa_2009","carv03_Grovedale_D24","sweep net, note that flower abundance (hence sampling effort) varied between sites","Tetramorium_sp_1_","morphospecies","non_bee_hymenoptera",1,NA,NA,NA,"sweep net, note that flower abundance (hence sampling effort) varied between sites",NA
"Luisa_G_Carvalheiro_Mangifera_indica_South_Africa_2009","carv03_Grovedale_G12-K","sweep net, note that flower abundance (hence sampling effort) varied between sites","Lepisiota_sp_2_","morphospecies","non_bee_hymenoptera",4,NA,NA,NA,"sweep net, note that flower abundance (hence sampling effort) varied between sites",NA
"Luisa_G_Carvalheiro_Mangifera_indica_South_Africa_2009","carv03_Bavaria_A_AM7","sweep net, note that flower abundance (hence sampling effort) varied between sites","Lepisiota_sp_2_","morphospecies","non_bee_hymenoptera",1,NA,NA,NA,"sweep net, note that flower abundance (hence sampling effort) varied between sites",NA
"Luisa_G_Carvalheiro_Mangifera_indica_South_Africa_2009","carv03_Bavaria_L_FA1","sweep net, note that flower abundance (hence sampling effort) varied between sites","Lepisiota_sp_2_","morphospecies","non_bee_hymenoptera",1,NA,NA,NA,"sweep net, note that flower abundance (hence sampling effort) varied between sites",NA
"Luisa_G_Carvalheiro_Mangifera_indica_South_Africa_2009","carv03_Bavaria_A_AM7","sweep net, note that flower abundance (hence sampling effort) varied between sites","Macrocoma_sp__near_apicicornis","morphospecies","beetles",2,NA,NA,NA,"sweep net, note that flower abundance (hence sampling effort) varied between sites",NA
"Luisa_G_Carvalheiro_Mangifera_indica_South_Africa_2009","carv03_Bavaria_L_LB1","sweep net, note that flower abundance (hence sampling effort) varied between sites","Apionidae_sp1","morphospecies","beetles",1,NA,NA,NA,"sweep net, note that flower abundance (hence sampling effort) varied between sites",NA
"Luisa_G_Carvalheiro_Mangifera_indica_South_Africa_2009","carv03_Bavaria_L_LG2","sweep net, note that flower abundance (hence sampling effort) varied between sites","Apis_mellifera","species","honeybees",1,NA,NA,NA,"sweep net, note that flower abundance (hence sampling effort) varied between sites",NA
"Luisa_G_Carvalheiro_Mangifera_indica_South_Africa_2009","carv03_Grovedale_D49","sweep net, note that flower abundance (hence sampling effort) varied between sites","Apis_mellifera","species","honeybees",1,NA,NA,NA,"sweep net, note that flower abundance (hence sampling effort) varied between sites",NA
"Luisa_G_Carvalheiro_Mangifera_indica_South_Africa_2009","carv03_Grovedale_G12-K","sweep net, note that flower abundance (hence sampling effort) varied between sites","Apis_mellifera","species","honeybees",1.01,NA,NA,NA,"sweep net, note that flower abundance (hence sampling effort) varied between sites",NA
"Luisa_G_Carvalheiro_Mangifera_indica_South_Africa_2009","carv03_Grovedale_G12-K","sweep net, note that flower abundance (hence sampling effort) varied between sites","Apis_mellifera","species","honeybees",1,NA,NA,NA,"sweep net, note that flower abundance (hence sampling effort) varied between sites",NA
"Luisa_G_Carvalheiro_Mangifera_indica_South_Africa_2009","carv03_Moriah_A24","sweep net, note that flower abundance (hence sampling effort) varied between sites","Apis_mellifera","species","honeybees",1,NA,NA,NA,"sweep net, note that flower abundance (hence sampling effort) varied between sites",NA
"Luisa_G_Carvalheiro_Mangifera_indica_South_Africa_2009","carv03_Moriah_C21","sweep net, note that flower abundance (hence sampling effort) varied between sites","Apis_mellifera","species","honeybees",1,NA,NA,NA,"sweep net, note that flower abundance (hence sampling effort) varied between sites",NA
"Luisa_G_Carvalheiro_Mangifera_indica_South_Africa_2009","carv03_Bavaria_A_AL2","sweep net, note that flower abundance (hence sampling effort) varied between sites","Apis_mellifera","species","honeybees",2,NA,NA,NA,"sweep net, note that flower abundance (hence sampling effort) varied between sites",NA
"Luisa_G_Carvalheiro_Mangifera_indica_South_Africa_2009","carv03_Bavaria_A_AU4","sweep net, note that flower abundance (hence sampling effort) varied between sites","Apis_mellifera","species","honeybees",3,NA,NA,NA,"sweep net, note that flower abundance (hence sampling effort) varied between sites",NA
"Luisa_G_Carvalheiro_Mangifera_indica_South_Africa_2009","carv03_Bavaria_L_FA1","sweep net, note that flower abundance (hence sampling effort) varied between sites","Apis_mellifera","species","honeybees",1,NA,NA,NA,"sweep net, note that flower abundance (hence sampling effort) varied between sites",NA
"Luisa_G_Carvalheiro_Mangifera_indica_South_Africa_2009","carv03_Moriah_B48","sweep net, note that flower abundance (hence sampling effort) varied between sites","Apis_mellifera","species","honeybees",1,NA,NA,NA,"sweep net, note that flower abundance (hence sampling effort) varied between sites",NA
"Luisa_G_Carvalheiro_Mangifera_indica_South_Africa_2009","carv03_Grovedale_D50","sweep net, note that flower abundance (hence sampling effort) varied between sites","Belanogaster_sp_","morphospecies","non_bee_hymenoptera",1,NA,NA,NA,"sweep net, note that flower abundance (hence sampling effort) varied between sites",NA
"Luisa_G_Carvalheiro_Mangifera_indica_South_Africa_2009","carv03_Grovedale_D50","sweep net, note that flower abundance (hence sampling effort) varied between sites","Braconidae_sp","family","non_bee_hymenoptera",1,NA,NA,NA,"sweep net, note that flower abundance (hence sampling effort) varied between sites",NA
"Luisa_G_Carvalheiro_Mangifera_indica_South_Africa_2009","carv03_Bavaria_A_AU4","sweep net, note that flower abundance (hence sampling effort) varied between sites","Bruchidius_sp__2","morphospecies","beetles",1,NA,NA,NA,"sweep net, note that flower abundance (hence sampling effort) varied between sites",NA
"Luisa_G_Carvalheiro_Mangifera_indica_South_Africa_2009","carv03_Bavaria_A_AU4","sweep net, note that flower abundance (hence sampling effort) varied between sites","Bruchidius_sp__near_mendosus__Gyllenhal_","morphospecies","beetles",1,NA,NA,NA,"sweep net, note that flower abundance (hence sampling effort) varied between sites",NA
"Luisa_G_Carvalheiro_Mangifera_indica_South_Africa_2009","carv03_Bavaria_L_LG2","sweep net, note that flower abundance (hence sampling effort) varied between sites","Caliophoridae_sp1","morphospecies","other_flies",1,NA,NA,NA,"sweep net, note that flower abundance (hence sampling effort) varied between sites",NA
"Luisa_G_Carvalheiro_Mangifera_indica_South_Africa_2009","carv03_Bavaria_A_AM7","sweep net, note that flower abundance (hence sampling effort) varied between sites","Caliophoridae_sp1","morphospecies","other_flies",1,NA,NA,NA,"sweep net, note that flower abundance (hence sampling effort) varied between sites",NA
"Luisa_G_Carvalheiro_Mangifera_indica_South_Africa_2009","carv03_Grovedale_G12-K","sweep net, note that flower abundance (hence sampling effort) varied between sites","Caliophoridae_sp2","morphospecies","other_flies",1,NA,NA,NA,"sweep net, note that flower abundance (hence sampling effort) varied between sites",NA
"Luisa_G_Carvalheiro_Mangifera_indica_South_Africa_2009","carv03_Moriah_B53/54","sweep net, note that flower abundance (hence sampling effort) varied between sites","Caliophoridae_sp3","morphospecies","other_flies",1,NA,NA,NA,"sweep net, note that flower abundance (hence sampling effort) varied between sites",NA
"Luisa_G_Carvalheiro_Mangifera_indica_South_Africa_2009","carv03_Moriah_A24","sweep net, note that flower abundance (hence sampling effort) varied between sites","Ceratina.sp...inc._labrosa_Friese.","morphospecies","other_wild_bees",1,NA,NA,NA,"sweep net, note that flower abundance (hence sampling effort) varied between sites",NA
"Luisa_G_Carvalheiro_Mangifera_indica_South_Africa_2009","carv03_Moriah_B53/54","sweep net, note that flower abundance (hence sampling effort) varied between sites","Ceratina.sp...inc._labrosa_Friese.","morphospecies","other_wild_bees",1,NA,NA,NA,"sweep net, note that flower abundance (hence sampling effort) varied between sites",NA
"Luisa_G_Carvalheiro_Mangifera_indica_South_Africa_2009","carv03_Moriah_B30","sweep net, note that flower abundance (hence sampling effort) varied between sites","Ceratina.sp...inc._labrosa_Friese.","morphospecies","other_wild_bees",2,NA,NA,NA,"sweep net, note that flower abundance (hence sampling effort) varied between sites",NA
"Luisa_G_Carvalheiro_Mangifera_indica_South_Africa_2009","carv03_Moriah_B48","sweep net, note that flower abundance (hence sampling effort) varied between sites","Ceratina.sp...inc._labrosa_Friese.","morphospecies","other_wild_bees",3,NA,NA,NA,"sweep net, note that flower abundance (hence sampling effort) varied between sites",NA
"Luisa_G_Carvalheiro_Mangifera_indica_South_Africa_2009","carv03_Moriah_B53/54","sweep net, note that flower abundance (hence sampling effort) varied between sites","Chalcidoidea_sp_","superfamily","non_bee_hymenoptera",1,NA,NA,NA,"sweep net, note that flower abundance (hence sampling effort) varied between sites",NA
"Luisa_G_Carvalheiro_Mangifera_indica_South_Africa_2009","carv03_Grovedale_D50","sweep net, note that flower abundance (hence sampling effort) varied between sites","Chalcidoidea_sp_","superfamily","non_bee_hymenoptera",1,NA,NA,NA,"sweep net, note that flower abundance (hence sampling effort) varied between sites",NA
"Luisa_G_Carvalheiro_Mangifera_indica_South_Africa_2009","carv03_Bavaria_L_LE3/6","sweep net, note that flower abundance (hence sampling effort) varied between sites","Chrysidae","family","non_bee_hymenoptera",1,NA,NA,NA,"sweep net, note that flower abundance (hence sampling effort) varied between sites",NA
"Luisa_G_Carvalheiro_Mangifera_indica_South_Africa_2009","carv03_Grovedale_D50","sweep net, note that flower abundance (hence sampling effort) varied between sites","Chrysidae","family","non_bee_hymenoptera",1,NA,NA,NA,"sweep net, note that flower abundance (hence sampling effort) varied between sites",NA
"Luisa_G_Carvalheiro_Mangifera_indica_South_Africa_2009","carv03_Moriah_B48","sweep net, note that flower abundance (hence sampling effort) varied between sites","Chrysidae","family","non_bee_hymenoptera",1,NA,NA,NA,"sweep net, note that flower abundance (hence sampling effort) varied between sites",NA
"Luisa_G_Carvalheiro_Mangifera_indica_South_Africa_2009","carv03_Moriah_B53/54","sweep net, note that flower abundance (hence sampling effort) varied between sites","Hippodamia.variegata..Goeze.","species","beetles",1,NA,NA,NA,"sweep net, note that flower abundance (hence sampling effort) varied between sites",NA
"Luisa_G_Carvalheiro_Mangifera_indica_South_Africa_2009","carv03_Moriah_C21","sweep net, note that flower abundance (hence sampling effort) varied between sites","Hippodamia.variegata..Goeze.","species","beetles",1,NA,NA,NA,"sweep net, note that flower abundance (hence sampling effort) varied between sites",NA
"Luisa_G_Carvalheiro_Mangifera_indica_South_Africa_2009","carv03_Moriah_B30","sweep net, note that flower abundance (hence sampling effort) varied between sites","Hippodamia.variegata..Goeze.","species","beetles",1,NA,NA,NA,"sweep net, note that flower abundance (hence sampling effort) varied between sites",NA
"Luisa_G_Carvalheiro_Mangifera_indica_South_Africa_2009","carv03_Moriah_A24","sweep net, note that flower abundance (hence sampling effort) varied between sites","Exochomus_troberti_Mulsant_1850","species","beetles",1,NA,NA,NA,"sweep net, note that flower abundance (hence sampling effort) varied between sites",NA
"Luisa_G_Carvalheiro_Mangifera_indica_South_Africa_2009","carv03_Grovedale_D50","sweep net, note that flower abundance (hence sampling effort) varied between sites","Heteroptera_10_mm_sp1","morphospecies","other",2,NA,NA,NA,"sweep net, note that flower abundance (hence sampling effort) varied between sites",NA
"Luisa_G_Carvalheiro_Mangifera_indica_South_Africa_2009","carv03_Moriah_B48","sweep net, note that flower abundance (hence sampling effort) varied between sites","Heteroptera_2mm","morphospecies","other",6,NA,NA,NA,"sweep net, note that flower abundance (hence sampling effort) varied between sites",NA
"Luisa_G_Carvalheiro_Mangifera_indica_South_Africa_2009","carv03_Moriah_C21","sweep net, note that flower abundance (hence sampling effort) varied between sites","Heteroptera_5mm","morphospecies","other",1,NA,NA,NA,"sweep net, note that flower abundance (hence sampling effort) varied between sites",NA
"Luisa_G_Carvalheiro_Mangifera_indica_South_Africa_2009","carv03_Moriah_C21","sweep net, note that flower abundance (hence sampling effort) varied between sites","heteroptera_sp3","morphospecies","other",1,NA,NA,NA,"sweep net, note that flower abundance (hence sampling effort) varied between sites",NA
"Luisa_G_Carvalheiro_Mangifera_indica_South_Africa_2009","carv03_Bavaria_L_LB1","sweep net, note that flower abundance (hence sampling effort) varied between sites","Lasioglossum_sp1_cf_","morphospecies","other_wild_bees",1,NA,NA,NA,"sweep net, note that flower abundance (hence sampling effort) varied between sites",NA
"Luisa_G_Carvalheiro_Mangifera_indica_South_Africa_2009","carv03_Moriah_C21","sweep net, note that flower abundance (hence sampling effort) varied between sites","Lasioglossum_sp1_cf_","morphospecies","other_wild_bees",1,NA,NA,NA,"sweep net, note that flower abundance (hence sampling effort) varied between sites",NA
"Luisa_G_Carvalheiro_Mangifera_indica_South_Africa_2009","carv03_Moriah_B30","sweep net, note that flower abundance (hence sampling effort) varied between sites","Lasioglossum_sp1_cf_","morphospecies","other_wild_bees",1,NA,NA,NA,"sweep net, note that flower abundance (hence sampling effort) varied between sites",NA
"Luisa_G_Carvalheiro_Mangifera_indica_South_Africa_2009","carv03_Moriah_B48","sweep net, note that flower abundance (hence sampling effort) varied between sites","Lasioglossum_sp1_cf_","morphospecies","other_wild_bees",1,NA,NA,NA,"sweep net, note that flower abundance (hence sampling effort) varied between sites",NA
"Luisa_G_Carvalheiro_Mangifera_indica_South_Africa_2009","carv03_Bavaria_A_AU4","sweep net, note that flower abundance (hence sampling effort) varied between sites","Malachiinae_sp1","morphospecies","beetles",1,NA,NA,NA,"sweep net, note that flower abundance (hence sampling effort) varied between sites",NA
"Luisa_G_Carvalheiro_Mangifera_indica_South_Africa_2009","carv03_Bavaria_L_LG2","sweep net, note that flower abundance (hence sampling effort) varied between sites","Monolepta_ursulae_Wagner_2003","species","beetles",1,NA,NA,NA,"sweep net, note that flower abundance (hence sampling effort) varied between sites",NA
"Luisa_G_Carvalheiro_Mangifera_indica_South_Africa_2009","carv03_Grovedale_D49","sweep net, note that flower abundance (hence sampling effort) varied between sites","Sarcophagidae.sp","family","other_flies",1,NA,NA,NA,"sweep net, note that flower abundance (hence sampling effort) varied between sites",NA
"Luisa_G_Carvalheiro_Mangifera_indica_South_Africa_2009","carv03_Bavaria_L_LB1","sweep net, note that flower abundance (hence sampling effort) varied between sites","Muscidae..inc.Musca_domestica_L.","species","other_flies",1,NA,NA,NA,"sweep net, note that flower abundance (hence sampling effort) varied between sites",NA
"Luisa_G_Carvalheiro_Mangifera_indica_South_Africa_2009","carv03_Bavaria_L_FA1","sweep net, note that flower abundance (hence sampling effort) varied between sites","Muscidae..inc.Musca_domestica_L.","species","other_flies",1,NA,NA,NA,"sweep net, note that flower abundance (hence sampling effort) varied between sites",NA
"Luisa_G_Carvalheiro_Mangifera_indica_South_Africa_2009","carv03_Grovedale_D42","sweep net, note that flower abundance (hence sampling effort) varied between sites","Muscidae..inc.Musca_domestica_L.","species","other_flies",1,NA,NA,NA,"sweep net, note that flower abundance (hence sampling effort) varied between sites",NA
"Luisa_G_Carvalheiro_Mangifera_indica_South_Africa_2009","carv03_Bavaria_L_LG2","sweep net, note that flower abundance (hence sampling effort) varied between sites","Nitulidae_sp_","family","beetles",1,NA,NA,NA,"sweep net, note that flower abundance (hence sampling effort) varied between sites",NA
"Luisa_G_Carvalheiro_Mangifera_indica_South_Africa_2009","carv03_Grovedale_G12-K","sweep net, note that flower abundance (hence sampling effort) varied between sites","Nitulidae_sp_","family","beetles",1,NA,NA,NA,"sweep net, note that flower abundance (hence sampling effort) varied between sites",NA
"Luisa_G_Carvalheiro_Mangifera_indica_South_Africa_2009","carv03_Grovedale_D50","sweep net, note that flower abundance (hence sampling effort) varied between sites","Nitulidae_sp_","family","beetles",1,NA,NA,NA,"sweep net, note that flower abundance (hence sampling effort) varied between sites",NA
"Luisa_G_Carvalheiro_Mangifera_indica_South_Africa_2009","carv03_Moriah_C21","sweep net, note that flower abundance (hence sampling effort) varied between sites","Nitulidae_sp_","family","beetles",1,NA,NA,NA,"sweep net, note that flower abundance (hence sampling effort) varied between sites",NA
"Luisa_G_Carvalheiro_Mangifera_indica_South_Africa_2009","carv03_Bavaria_L_FC7","sweep net, note that flower abundance (hence sampling effort) varied between sites","Nitulidae_sp_","family","beetles",1,NA,NA,NA,"sweep net, note that flower abundance (hence sampling effort) varied between sites",NA
"Luisa_G_Carvalheiro_Mangifera_indica_South_Africa_2009","carv03_Grovedale_D49","sweep net, note that flower abundance (hence sampling effort) varied between sites","Pagurodactylus_sp2","morphospecies","beetles",1,NA,NA,NA,"sweep net, note that flower abundance (hence sampling effort) varied between sites",NA
"Luisa_G_Carvalheiro_Mangifera_indica_South_Africa_2009","carv03_Moriah_C21","sweep net, note that flower abundance (hence sampling effort) varied between sites","Pedinorrhina__Chondrorrhina__trivittata__Schaum","species","beetles",1,NA,NA,NA,"sweep net, note that flower abundance (hence sampling effort) varied between sites",NA
"Luisa_G_Carvalheiro_Mangifera_indica_South_Africa_2009","carv03_Bavaria_L_LB1","sweep net, note that flower abundance (hence sampling effort) varied between sites","POMPILIDAE_cf","family","non_bee_hymenoptera",1,NA,NA,NA,"sweep net, note that flower abundance (hence sampling effort) varied between sites",NA
"Luisa_G_Carvalheiro_Mangifera_indica_South_Africa_2009","carv03_Moriah_B48","sweep net, note that flower abundance (hence sampling effort) varied between sites","Staphilinidae_sp_","family","beetles",1,NA,NA,NA,"sweep net, note that flower abundance (hence sampling effort) varied between sites",NA
"Luisa_G_Carvalheiro_Mangifera_indica_South_Africa_2009","carv03_Moriah_B53/54","sweep net, note that flower abundance (hence sampling effort) varied between sites","talvez_Allograpta_calopus_","morphospecies","syrphids",1,NA,NA,NA,"sweep net, note that flower abundance (hence sampling effort) varied between sites",NA
"Luisa_G_Carvalheiro_Mangifera_indica_South_Africa_2009","carv03_Bavaria_A_AU4","sweep net, note that flower abundance (hence sampling effort) varied between sites","talvez_Allograpta_calopus_","morphospecies","syrphids",2,NA,NA,NA,"sweep net, note that flower abundance (hence sampling effort) varied between sites",NA
"Luisa_G_Carvalheiro_Mangifera_indica_South_Africa_2009","carv03_Moriah_B30","sweep net, note that flower abundance (hence sampling effort) varied between sites","talvez_Allograpta_calopus_","morphospecies","syrphids",1,NA,NA,NA,"sweep net, note that flower abundance (hence sampling effort) varied between sites",NA
"Luisa_G_Carvalheiro_Mangifera_indica_South_Africa_2009","carv03_Moriah_B53/54","sweep net, note that flower abundance (hence sampling effort) varied between sites","Vespidae_sp_","family","non_bee_hymenoptera",1,NA,NA,NA,"sweep net, note that flower abundance (hence sampling effort) varied between sites",NA
"Maj_Rundlof_Brassica_napus_Sweden_2011","lsk78","transects","Andrena_carantonica","species","other_wild_bees",2,300,30,NA,"Two surveys per field, and surveys were conducted in one 150 x 1 m transect per field, 15 min each",NA
"Maj_Rundlof_Brassica_napus_Sweden_2011","lsk21","transects","Andrena_cineraria","species","other_wild_bees",1,300,30,NA,"Two surveys per field, and surveys were conducted in one 150 x 1 m transect per field, 15 min each",NA
"Maj_Rundlof_Brassica_napus_Sweden_2011","lsk73","transects","Andrena_fulva","species","other_wild_bees",1,300,30,NA,"Two surveys per field, and surveys were conducted in one 150 x 1 m transect per field, 15 min each",NA
"Maj_Rundlof_Brassica_napus_Sweden_2011","lsk08","transects","Andrena_haemorrhoa","species","other_wild_bees",1,300,30,NA,"Two surveys per field, and surveys were conducted in one 150 x 1 m transect per field, 15 min each",NA
"Maj_Rundlof_Brassica_napus_Sweden_2011","lsk12","transects","Andrena_haemorrhoa","species","other_wild_bees",2,300,30,NA,"Two surveys per field, and surveys were conducted in one 150 x 1 m transect per field, 15 min each",NA
"Maj_Rundlof_Brassica_napus_Sweden_2011","lsk21","transects","Andrena_haemorrhoa","species","other_wild_bees",3,300,30,NA,"Two surveys per field, and surveys were conducted in one 150 x 1 m transect per field, 15 min each",NA
"Maj_Rundlof_Brassica_napus_Sweden_2011","lsk48","transects","Andrena_haemorrhoa","species","other_wild_bees",1,300,30,NA,"Two surveys per field, and surveys were conducted in one 150 x 1 m transect per field, 15 min each",NA
"Maj_Rundlof_Brassica_napus_Sweden_2011","lsk78","transects","Andrena_haemorrhoa","species","other_wild_bees",1,300,30,NA,"Two surveys per field, and surveys were conducted in one 150 x 1 m transect per field, 15 min each",NA
"Maj_Rundlof_Brassica_napus_Sweden_2011","lsk02","transects","Andrena_helvola","species","other_wild_bees",1,300,30,NA,"Two surveys per field, and surveys were conducted in one 150 x 1 m transect per field, 15 min each",NA
"Maj_Rundlof_Brassica_napus_Sweden_2011","lsk42","transects","Andrena_nigroaenea","species","other_wild_bees",3,300,30,NA,"Two surveys per field, and surveys were conducted in one 150 x 1 m transect per field, 15 min each",NA
"Maj_Rundlof_Brassica_napus_Sweden_2011","lsk57","transects","Andrena_nigroaenea","species","other_wild_bees",1,300,30,NA,"Two surveys per field, and surveys were conducted in one 150 x 1 m transect per field, 15 min each",NA
"Maj_Rundlof_Brassica_napus_Sweden_2011","lsk73","transects","Andrena_nigroaenea","species","other_wild_bees",2,300,30,NA,"Two surveys per field, and surveys were conducted in one 150 x 1 m transect per field, 15 min each",NA
"Maj_Rundlof_Brassica_napus_Sweden_2011","lsk74","transects","Andrena_nigroaenea","species","other_wild_bees",1,300,30,NA,"Two surveys per field, and surveys were conducted in one 150 x 1 m transect per field, 15 min each",NA
"Maj_Rundlof_Brassica_napus_Sweden_2011","lsk77","transects","Andrena_nigroaenea","species","other_wild_bees",2,300,30,NA,"Two surveys per field, and surveys were conducted in one 150 x 1 m transect per field, 15 min each",NA
"Maj_Rundlof_Brassica_napus_Sweden_2011","lsk78","transects","Andrena_subopaca","species","other_wild_bees",1,300,30,NA,"Two surveys per field, and surveys were conducted in one 150 x 1 m transect per field, 15 min each",NA
"Maj_Rundlof_Brassica_napus_Sweden_2011","lsk02","transects","Apis_mellifera","species","honeybees",1,300,30,NA,"Two surveys per field, and surveys were conducted in one 150 x 1 m transect per field, 15 min each",NA
"Maj_Rundlof_Brassica_napus_Sweden_2011","lsk08","transects","Apis_mellifera","species","honeybees",1,300,30,NA,"Two surveys per field, and surveys were conducted in one 150 x 1 m transect per field, 15 min each",NA
"Maj_Rundlof_Brassica_napus_Sweden_2011","lsk12","transects","Apis_mellifera","species","honeybees",4,300,30,NA,"Two surveys per field, and surveys were conducted in one 150 x 1 m transect per field, 15 min each",NA
"Maj_Rundlof_Brassica_napus_Sweden_2011","lsk14","transects","Apis_mellifera","species","honeybees",34,300,30,NA,"Two surveys per field, and surveys were conducted in one 150 x 1 m transect per field, 15 min each",NA
"Maj_Rundlof_Brassica_napus_Sweden_2011","lsk21","transects","Apis_mellifera","species","honeybees",32,300,30,NA,"Two surveys per field, and surveys were conducted in one 150 x 1 m transect per field, 15 min each",NA
"Maj_Rundlof_Brassica_napus_Sweden_2011","lsk32","transects","Apis_mellifera","species","honeybees",12,300,30,NA,"Two surveys per field, and surveys were conducted in one 150 x 1 m transect per field, 15 min each",NA
"Maj_Rundlof_Brassica_napus_Sweden_2011","lsk42","transects","Apis_mellifera","species","honeybees",1,300,30,NA,"Two surveys per field, and surveys were conducted in one 150 x 1 m transect per field, 15 min each",NA
"Maj_Rundlof_Brassica_napus_Sweden_2011","lsk46","transects","Apis_mellifera","species","honeybees",5,300,30,NA,"Two surveys per field, and surveys were conducted in one 150 x 1 m transect per field, 15 min each",NA
"Maj_Rundlof_Brassica_napus_Sweden_2011","lsk48","transects","Apis_mellifera","species","honeybees",11,300,30,NA,"Two surveys per field, and surveys were conducted in one 150 x 1 m transect per field, 15 min each",NA
"Maj_Rundlof_Brassica_napus_Sweden_2011","lsk59","transects","Apis_mellifera","species","honeybees",22,300,30,NA,"Two surveys per field, and surveys were conducted in one 150 x 1 m transect per field, 15 min each",NA
"Maj_Rundlof_Brassica_napus_Sweden_2011","lsk64","transects","Apis_mellifera","species","honeybees",68,300,30,NA,"Two surveys per field, and surveys were conducted in one 150 x 1 m transect per field, 15 min each",NA
"Maj_Rundlof_Brassica_napus_Sweden_2011","lsk73","transects","Apis_mellifera","species","honeybees",68,300,30,NA,"Two surveys per field, and surveys were conducted in one 150 x 1 m transect per field, 15 min each",NA
"Maj_Rundlof_Brassica_napus_Sweden_2011","lsk74","transects","Apis_mellifera","species","honeybees",24,300,30,NA,"Two surveys per field, and surveys were conducted in one 150 x 1 m transect per field, 15 min each",NA
"Maj_Rundlof_Brassica_napus_Sweden_2011","lsk77","transects","Apis_mellifera","species","honeybees",5,300,30,NA,"Two surveys per field, and surveys were conducted in one 150 x 1 m transect per field, 15 min each",NA
"Maj_Rundlof_Brassica_napus_Sweden_2011","lsk78","transects","Apis_mellifera","species","honeybees",5,300,30,NA,"Two surveys per field, and surveys were conducted in one 150 x 1 m transect per field, 15 min each",NA
"Maj_Rundlof_Brassica_napus_Sweden_2011","lsk12","transects","Bombus_abuterraneus","species","bumblebees",1,300,30,NA,"Two surveys per field, and surveys were conducted in one 150 x 1 m transect per field, 15 min each",NA
"Maj_Rundlof_Brassica_napus_Sweden_2011","lsk64","transects","Bombus_abuterraneus","species","bumblebees",1,300,30,NA,"Two surveys per field, and surveys were conducted in one 150 x 1 m transect per field, 15 min each",NA
"Maj_Rundlof_Brassica_napus_Sweden_2011","lsk48","transects","Bombus_hortorum","species","bumblebees",1,300,30,NA,"Two surveys per field, and surveys were conducted in one 150 x 1 m transect per field, 15 min each",NA
"Maj_Rundlof_Brassica_napus_Sweden_2011","lsk02","transects","Bombus_lapidarius","species","bumblebees",2,300,30,NA,"Two surveys per field, and surveys were conducted in one 150 x 1 m transect per field, 15 min each",NA
"Maj_Rundlof_Brassica_napus_Sweden_2011","lsk12","transects","Bombus_lapidarius","species","bumblebees",3,300,30,NA,"Two surveys per field, and surveys were conducted in one 150 x 1 m transect per field, 15 min each",NA
"Maj_Rundlof_Brassica_napus_Sweden_2011","lsk21","transects","Bombus_lapidarius","species","bumblebees",1,300,30,NA,"Two surveys per field, and surveys were conducted in one 150 x 1 m transect per field, 15 min each",NA
"Maj_Rundlof_Brassica_napus_Sweden_2011","lsk42","transects","Bombus_lapidarius","species","bumblebees",3,300,30,NA,"Two surveys per field, and surveys were conducted in one 150 x 1 m transect per field, 15 min each",NA
"Maj_Rundlof_Brassica_napus_Sweden_2011","lsk48","transects","Bombus_lapidarius","species","bumblebees",2,300,30,NA,"Two surveys per field, and surveys were conducted in one 150 x 1 m transect per field, 15 min each",NA
"Maj_Rundlof_Brassica_napus_Sweden_2011","lsk59","transects","Bombus_lapidarius","species","bumblebees",1,300,30,NA,"Two surveys per field, and surveys were conducted in one 150 x 1 m transect per field, 15 min each",NA
"Maj_Rundlof_Brassica_napus_Sweden_2011","lsk74","transects","Bombus_lapidarius","species","bumblebees",5,300,30,NA,"Two surveys per field, and surveys were conducted in one 150 x 1 m transect per field, 15 min each",NA
"Maj_Rundlof_Brassica_napus_Sweden_2011","lsk78","transects","Bombus_lapidarius","species","bumblebees",1,300,30,NA,"Two surveys per field, and surveys were conducted in one 150 x 1 m transect per field, 15 min each",NA
"Maj_Rundlof_Brassica_napus_Sweden_2011","lsk12","transects","Bombus_terrestris_aggregate","morphospecies","bumblebees",4,300,30,NA,"Two surveys per field, and surveys were conducted in one 150 x 1 m transect per field, 15 min each",NA
"Maj_Rundlof_Brassica_napus_Sweden_2011","lsk14","transects","Bombus_terrestris_aggregate","morphospecies","bumblebees",1,300,30,NA,"Two surveys per field, and surveys were conducted in one 150 x 1 m transect per field, 15 min each",NA
"Maj_Rundlof_Brassica_napus_Sweden_2011","lsk21","transects","Bombus_terrestris_aggregate","morphospecies","bumblebees",1,300,30,NA,"Two surveys per field, and surveys were conducted in one 150 x 1 m transect per field, 15 min each",NA
"Maj_Rundlof_Brassica_napus_Sweden_2011","lsk46","transects","Bombus_terrestris_aggregate","morphospecies","bumblebees",1,300,30,NA,"Two surveys per field, and surveys were conducted in one 150 x 1 m transect per field, 15 min each",NA
"Maj_Rundlof_Brassica_napus_Sweden_2011","lsk48","transects","Bombus_terrestris_aggregate","morphospecies","bumblebees",6,300,30,NA,"Two surveys per field, and surveys were conducted in one 150 x 1 m transect per field, 15 min each",NA
"Maj_Rundlof_Brassica_napus_Sweden_2011","lsk59","transects","Bombus_terrestris_aggregate","morphospecies","bumblebees",2,300,30,NA,"Two surveys per field, and surveys were conducted in one 150 x 1 m transect per field, 15 min each",NA
"Maj_Rundlof_Brassica_napus_Sweden_2011","lsk74","transects","Bombus_terrestris_aggregate","morphospecies","bumblebees",7,300,30,NA,"Two surveys per field, and surveys were conducted in one 150 x 1 m transect per field, 15 min each",NA
"Maj_Rundlof_Brassica_napus_Sweden_2011","lsk77","transects","Bombus_terrestris_aggregate","morphospecies","bumblebees",2,300,30,NA,"Two surveys per field, and surveys were conducted in one 150 x 1 m transect per field, 15 min each",NA
"Maj_Rundlof_Brassica_napus_Sweden_2011","lsk78","transects","Bombus_terrestris_aggregate","morphospecies","bumblebees",1,300,30,NA,"Two surveys per field, and surveys were conducted in one 150 x 1 m transect per field, 15 min each",NA
"Maj_Rundlof_Brassica_napus_Sweden_2011","lsk21","transects","Bombus_sylvarum","species","bumblebees",1,300,30,NA,"Two surveys per field, and surveys were conducted in one 150 x 1 m transect per field, 15 min each",NA
"Maj_Rundlof_Brassica_napus_Sweden_2011","lsk64","transects","Bombus_sylvarum","species","bumblebees",2,300,30,NA,"Two surveys per field, and surveys were conducted in one 150 x 1 m transect per field, 15 min each",NA
"Maj_Rundlof_Brassica_napus_Sweden_2011","lsk73","transects","Bombus_sylvarum","species","bumblebees",1,300,30,NA,"Two surveys per field, and surveys were conducted in one 150 x 1 m transect per field, 15 min each",NA
"Maj_Rundlof_Brassica_napus_Sweden_2011","lsk08","transects","Bombus_spp.","genus","bumblebees",1,300,30,NA,"Two surveys per field, and surveys were conducted in one 150 x 1 m transect per field, 15 min each",NA
"Maj_Rundlof_Brassica_napus_Sweden_2011","lsk12","transects","Bombus_spp.","genus","bumblebees",1,300,30,NA,"Two surveys per field, and surveys were conducted in one 150 x 1 m transect per field, 15 min each",NA
"Maj_Rundlof_Brassica_napus_Sweden_2011","lsk14","transects","Bombus_spp.","genus","bumblebees",4,300,30,NA,"Two surveys per field, and surveys were conducted in one 150 x 1 m transect per field, 15 min each",NA
"Maj_Rundlof_Brassica_napus_Sweden_2011","lsk21","transects","Bombus_spp.","genus","bumblebees",2,300,30,NA,"Two surveys per field, and surveys were conducted in one 150 x 1 m transect per field, 15 min each",NA
"Maj_Rundlof_Brassica_napus_Sweden_2011","lsk32","transects","Bombus_spp.","genus","bumblebees",1,300,30,NA,"Two surveys per field, and surveys were conducted in one 150 x 1 m transect per field, 15 min each",NA
"Maj_Rundlof_Brassica_napus_Sweden_2011","lsk46","transects","Bombus_spp.","genus","bumblebees",3,300,30,NA,"Two surveys per field, and surveys were conducted in one 150 x 1 m transect per field, 15 min each",NA
"Maj_Rundlof_Brassica_napus_Sweden_2011","lsk48","transects","Bombus_spp.","genus","bumblebees",3,300,30,NA,"Two surveys per field, and surveys were conducted in one 150 x 1 m transect per field, 15 min each",NA
"Maj_Rundlof_Brassica_napus_Sweden_2011","lsk57","transects","Bombus_spp.","genus","bumblebees",2,300,30,NA,"Two surveys per field, and surveys were conducted in one 150 x 1 m transect per field, 15 min each",NA
"Maj_Rundlof_Brassica_napus_Sweden_2011","lsk59","transects","Bombus_spp.","genus","bumblebees",2,300,30,NA,"Two surveys per field, and surveys were conducted in one 150 x 1 m transect per field, 15 min each",NA
"Maj_Rundlof_Brassica_napus_Sweden_2011","lsk73","transects","Bombus_spp.","genus","bumblebees",1,300,30,NA,"Two surveys per field, and surveys were conducted in one 150 x 1 m transect per field, 15 min each",NA
"Maj_Rundlof_Brassica_napus_Sweden_2011","lsk77","transects","Bombus_spp.","genus","bumblebees",2,300,30,NA,"Two surveys per field, and surveys were conducted in one 150 x 1 m transect per field, 15 min each",NA
"Maj_Rundlof_Brassica_napus_Sweden_2011","lsk78","transects","Bombus_spp.","genus","bumblebees",2,300,30,NA,"Two surveys per field, and surveys were conducted in one 150 x 1 m transect per field, 15 min each",NA
"Maj_Rundlof_Brassica_napus_Sweden_2011","lsk21","transects","Eristalis_similis","species","syrphids",4,300,30,NA,"Two surveys per field, and surveys were conducted in one 150 x 1 m transect per field, 15 min each",NA
"Maj_Rundlof_Brassica_napus_Sweden_2011","lsk78","transects","Eristalis_similis","species","syrphids",1,300,30,NA,"Two surveys per field, and surveys were conducted in one 150 x 1 m transect per field, 15 min each",NA
"Maj_Rundlof_Brassica_napus_Sweden_2011","lsk77","transects","Helophilus_trivittatus","species","syrphids",1,300,30,NA,"Two surveys per field, and surveys were conducted in one 150 x 1 m transect per field, 15 min each",NA
"Maj_Rundlof_Brassica_napus_Sweden_2011","lsk08","transects","Melanostoma_mellinum","species","syrphids",1,300,30,NA,"Two surveys per field, and surveys were conducted in one 150 x 1 m transect per field, 15 min each",NA
"Maj_Rundlof_Brassica_napus_Sweden_2011","lsk12","transects","Melanostoma_mellinum","species","syrphids",1,300,30,NA,"Two surveys per field, and surveys were conducted in one 150 x 1 m transect per field, 15 min each",NA
"Maj_Rundlof_Brassica_napus_Sweden_2011","lsk21","transects","Melanostoma_mellinum","species","syrphids",2,300,30,NA,"Two surveys per field, and surveys were conducted in one 150 x 1 m transect per field, 15 min each",NA
"Maj_Rundlof_Brassica_napus_Sweden_2011","lsk46","transects","Melanostoma_mellinum","species","syrphids",1,300,30,NA,"Two surveys per field, and surveys were conducted in one 150 x 1 m transect per field, 15 min each",NA
"Maj_Rundlof_Brassica_napus_Sweden_2011","lsk48","transects","Melanostoma_mellinum","species","syrphids",5,300,30,NA,"Two surveys per field, and surveys were conducted in one 150 x 1 m transect per field, 15 min each",NA
"Maj_Rundlof_Brassica_napus_Sweden_2011","lsk78","transects","Melanostoma_mellinum","species","syrphids",2,300,30,NA,"Two surveys per field, and surveys were conducted in one 150 x 1 m transect per field, 15 min each",NA
"Maj_Rundlof_Brassica_napus_Sweden_2011","lsk02","transects","Melanostoma_scalare","species","syrphids",1,300,30,NA,"Two surveys per field, and surveys were conducted in one 150 x 1 m transect per field, 15 min each",NA
"Maj_Rundlof_Brassica_napus_Sweden_2011","lsk12","transects","Melanostoma_scalare","species","syrphids",1,300,30,NA,"Two surveys per field, and surveys were conducted in one 150 x 1 m transect per field, 15 min each",NA
"Maj_Rundlof_Brassica_napus_Sweden_2011","lsk64","transects","Melanostoma_scalare","species","syrphids",1,300,30,NA,"Two surveys per field, and surveys were conducted in one 150 x 1 m transect per field, 15 min each",NA
"Maj_Rundlof_Brassica_napus_Sweden_2011","lsk77","transects","Platycheirus_scutatus","species","syrphids",1,300,30,NA,"Two surveys per field, and surveys were conducted in one 150 x 1 m transect per field, 15 min each",NA
"Maj_Rundlof_Brassica_napus_Sweden_2011","lsk21","transects","Rhingia_rostrata","species","syrphids",1,300,30,NA,"Two surveys per field, and surveys were conducted in one 150 x 1 m transect per field, 15 min each",NA
"Maj_Rundlof_Brassica_napus_Sweden_2011","lsk08","transects","solitary_bee","superfamily","other_wild_bees",3,300,30,NA,"Two surveys per field, and surveys were conducted in one 150 x 1 m transect per field, 15 min each","Apoidea?"
"Maj_Rundlof_Brassica_napus_Sweden_2011","lsk12","transects","solitary_bee","superfamily","other_wild_bees",5,300,30,NA,"Two surveys per field, and surveys were conducted in one 150 x 1 m transect per field, 15 min each","Apoidea?"
"Maj_Rundlof_Brassica_napus_Sweden_2011","lsk21","transects","solitary_bee","superfamily","other_wild_bees",3,300,30,NA,"Two surveys per field, and surveys were conducted in one 150 x 1 m transect per field, 15 min each","Apoidea?"
"Maj_Rundlof_Brassica_napus_Sweden_2011","lsk32","transects","solitary_bee","superfamily","other_wild_bees",3,300,30,NA,"Two surveys per field, and surveys were conducted in one 150 x 1 m transect per field, 15 min each","Apoidea?"
"Maj_Rundlof_Brassica_napus_Sweden_2011","lsk42","transects","solitary_bee","superfamily","other_wild_bees",1,300,30,NA,"Two surveys per field, and surveys were conducted in one 150 x 1 m transect per field, 15 min each","Apoidea?"
"Maj_Rundlof_Brassica_napus_Sweden_2011","lsk46","transects","solitary_bee","superfamily","other_wild_bees",1,300,30,NA,"Two surveys per field, and surveys were conducted in one 150 x 1 m transect per field, 15 min each","Apoidea?"
"Maj_Rundlof_Brassica_napus_Sweden_2011","lsk64","transects","solitary_bee","superfamily","other_wild_bees",1,300,30,NA,"Two surveys per field, and surveys were conducted in one 150 x 1 m transect per field, 15 min each","Apoidea?"
"Maj_Rundlof_Brassica_napus_Sweden_2011","lsk73","transects","solitary_bee","superfamily","other_wild_bees",3,300,30,NA,"Two surveys per field, and surveys were conducted in one 150 x 1 m transect per field, 15 min each","Apoidea?"
"Maj_Rundlof_Brassica_napus_Sweden_2011","lsk74","transects","solitary_bee","superfamily","other_wild_bees",1,300,30,NA,"Two surveys per field, and surveys were conducted in one 150 x 1 m transect per field, 15 min each","Apoidea?"
"Maj_Rundlof_Brassica_napus_Sweden_2011","lsk77","transects","solitary_bee","superfamily","other_wild_bees",1,300,30,NA,"Two surveys per field, and surveys were conducted in one 150 x 1 m transect per field, 15 min each","Apoidea?"
"Maj_Rundlof_Brassica_napus_Sweden_2011","lsk78","transects","solitary_bee","superfamily","other_wild_bees",5,300,30,NA,"Two surveys per field, and surveys were conducted in one 150 x 1 m transect per field, 15 min each","Apoidea?"
"Maj_Rundlof_Brassica_napus_Sweden_2011","lsk02","transects","Syritta_pipiens","species","syrphids",1,300,30,NA,"Two surveys per field, and surveys were conducted in one 150 x 1 m transect per field, 15 min each",NA
"Maj_Rundlof_Brassica_napus_Sweden_2011","lsk02","transects","syrphidae","family","syrphids",13,300,30,NA,"Two surveys per field, and surveys were conducted in one 150 x 1 m transect per field, 15 min each",NA
"Maj_Rundlof_Brassica_napus_Sweden_2011","lsk08","transects","syrphidae","family","syrphids",3,300,30,NA,"Two surveys per field, and surveys were conducted in one 150 x 1 m transect per field, 15 min each",NA
"Maj_Rundlof_Brassica_napus_Sweden_2011","lsk12","transects","syrphidae","family","syrphids",3,300,30,NA,"Two surveys per field, and surveys were conducted in one 150 x 1 m transect per field, 15 min each",NA
"Maj_Rundlof_Brassica_napus_Sweden_2011","lsk14","transects","syrphidae","family","syrphids",2,300,30,NA,"Two surveys per field, and surveys were conducted in one 150 x 1 m transect per field, 15 min each",NA
"Maj_Rundlof_Brassica_napus_Sweden_2011","lsk21","transects","syrphidae","family","syrphids",9,300,30,NA,"Two surveys per field, and surveys were conducted in one 150 x 1 m transect per field, 15 min each",NA
"Maj_Rundlof_Brassica_napus_Sweden_2011","lsk32","transects","syrphidae","family","syrphids",4,300,30,NA,"Two surveys per field, and surveys were conducted in one 150 x 1 m transect per field, 15 min each",NA
"Maj_Rundlof_Brassica_napus_Sweden_2011","lsk42","transects","syrphidae","family","syrphids",1,300,30,NA,"Two surveys per field, and surveys were conducted in one 150 x 1 m transect per field, 15 min each",NA
"Maj_Rundlof_Brassica_napus_Sweden_2011","lsk46","transects","syrphidae","family","syrphids",7,300,30,NA,"Two surveys per field, and surveys were conducted in one 150 x 1 m transect per field, 15 min each",NA
"Maj_Rundlof_Brassica_napus_Sweden_2011","lsk48","transects","syrphidae","family","syrphids",27,300,30,NA,"Two surveys per field, and surveys were conducted in one 150 x 1 m transect per field, 15 min each",NA
"Maj_Rundlof_Brassica_napus_Sweden_2011","lsk59","transects","syrphidae","family","syrphids",3,300,30,NA,"Two surveys per field, and surveys were conducted in one 150 x 1 m transect per field, 15 min each",NA
"Maj_Rundlof_Brassica_napus_Sweden_2011","lsk64","transects","syrphidae","family","syrphids",4,300,30,NA,"Two surveys per field, and surveys were conducted in one 150 x 1 m transect per field, 15 min each",NA
"Maj_Rundlof_Brassica_napus_Sweden_2011","lsk73","transects","syrphidae","family","syrphids",15,300,30,NA,"Two surveys per field, and surveys were conducted in one 150 x 1 m transect per field, 15 min each",NA
"Maj_Rundlof_Brassica_napus_Sweden_2011","lsk74","transects","syrphidae","family","syrphids",6,300,30,NA,"Two surveys per field, and surveys were conducted in one 150 x 1 m transect per field, 15 min each",NA
"Maj_Rundlof_Brassica_napus_Sweden_2011","lsk77","transects","syrphidae","family","syrphids",4,300,30,NA,"Two surveys per field, and surveys were conducted in one 150 x 1 m transect per field, 15 min each",NA
"Maj_Rundlof_Brassica_napus_Sweden_2011","lsk78","transects","syrphidae","family","syrphids",10,300,30,NA,"Two surveys per field, and surveys were conducted in one 150 x 1 m transect per field, 15 min each",NA
"Maj_Rundlof_Brassica_napus_Sweden_2012","lsk73","transects","Andrena_carantonica","species","other_wild_bees",1,300,30,NA,"Two surveys per field, and surveys were conducted in one 150 x 1 m transect per field, 15 min each",NA
"Maj_Rundlof_Brassica_napus_Sweden_2012","lsk48","transects","Andrena_fulva","species","other_wild_bees",1,300,30,NA,"Two surveys per field, and surveys were conducted in one 150 x 1 m transect per field, 15 min each",NA
"Maj_Rundlof_Brassica_napus_Sweden_2012","lsk74","transects","Andrena_fulva","species","other_wild_bees",1,300,30,NA,"Two surveys per field, and surveys were conducted in one 150 x 1 m transect per field, 15 min each",NA
"Maj_Rundlof_Brassica_napus_Sweden_2012","lsk08","transects","Andrena_haemorrhoa","species","other_wild_bees",1,300,30,NA,"Two surveys per field, and surveys were conducted in one 150 x 1 m transect per field, 15 min each",NA
"Maj_Rundlof_Brassica_napus_Sweden_2012","lsk12","transects","Andrena_haemorrhoa","species","other_wild_bees",1,300,30,NA,"Two surveys per field, and surveys were conducted in one 150 x 1 m transect per field, 15 min each",NA
"Maj_Rundlof_Brassica_napus_Sweden_2012","lsk08","transects","Andrena_nigroaenea","species","other_wild_bees",1,300,30,NA,"Two surveys per field, and surveys were conducted in one 150 x 1 m transect per field, 15 min each",NA
"Maj_Rundlof_Brassica_napus_Sweden_2012","lsk14","transects","Andrena_nigroaenea","species","other_wild_bees",1,300,30,NA,"Two surveys per field, and surveys were conducted in one 150 x 1 m transect per field, 15 min each",NA
"Maj_Rundlof_Brassica_napus_Sweden_2012","lsk32","transects","Andrena_nigroaenea","species","other_wild_bees",1,300,30,NA,"Two surveys per field, and surveys were conducted in one 150 x 1 m transect per field, 15 min each",NA
"Maj_Rundlof_Brassica_napus_Sweden_2012","lsk48","transects","Andrena_nigroaenea","species","other_wild_bees",2,300,30,NA,"Two surveys per field, and surveys were conducted in one 150 x 1 m transect per field, 15 min each",NA
"Maj_Rundlof_Brassica_napus_Sweden_2012","lsk77","transects","Andrena_nigroaenea","species","other_wild_bees",1,300,30,NA,"Two surveys per field, and surveys were conducted in one 150 x 1 m transect per field, 15 min each",NA
"Maj_Rundlof_Brassica_napus_Sweden_2012","lsk02","transects","Apis_mellifera","species","honeybees",1,300,30,NA,"Two surveys per field, and surveys were conducted in one 150 x 1 m transect per field, 15 min each",NA
"Maj_Rundlof_Brassica_napus_Sweden_2012","lsk08","transects","Apis_mellifera","species","honeybees",2,300,30,NA,"Two surveys per field, and surveys were conducted in one 150 x 1 m transect per field, 15 min each",NA
"Maj_Rundlof_Brassica_napus_Sweden_2012","lsk14","transects","Apis_mellifera","species","honeybees",39,300,30,NA,"Two surveys per field, and surveys were conducted in one 150 x 1 m transect per field, 15 min each",NA
"Maj_Rundlof_Brassica_napus_Sweden_2012","lsk42","transects","Apis_mellifera","species","honeybees",6,300,30,NA,"Two surveys per field, and surveys were conducted in one 150 x 1 m transect per field, 15 min each",NA
"Maj_Rundlof_Brassica_napus_Sweden_2012","lsk46","transects","Apis_mellifera","species","honeybees",2,300,30,NA,"Two surveys per field, and surveys were conducted in one 150 x 1 m transect per field, 15 min each",NA
"Maj_Rundlof_Brassica_napus_Sweden_2012","lsk48","transects","Apis_mellifera","species","honeybees",1,300,30,NA,"Two surveys per field, and surveys were conducted in one 150 x 1 m transect per field, 15 min each",NA
"Maj_Rundlof_Brassica_napus_Sweden_2012","lsk64","transects","Apis_mellifera","species","honeybees",2,300,30,NA,"Two surveys per field, and surveys were conducted in one 150 x 1 m transect per field, 15 min each",NA
"Maj_Rundlof_Brassica_napus_Sweden_2012","lsk74","transects","Apis_mellifera","species","honeybees",25,300,30,NA,"Two surveys per field, and surveys were conducted in one 150 x 1 m transect per field, 15 min each",NA
"Maj_Rundlof_Brassica_napus_Sweden_2012","lsk77","transects","Apis_mellifera","species","honeybees",4,300,30,NA,"Two surveys per field, and surveys were conducted in one 150 x 1 m transect per field, 15 min each",NA
"Maj_Rundlof_Brassica_napus_Sweden_2012","lsk78","transects","Apis_mellifera","species","honeybees",12,300,30,NA,"Two surveys per field, and surveys were conducted in one 150 x 1 m transect per field, 15 min each",NA
"Maj_Rundlof_Brassica_napus_Sweden_2012","lsk73","transects","Bombus_abuterraneus","species","bumblebees",1,300,30,NA,"Two surveys per field, and surveys were conducted in one 150 x 1 m transect per field, 15 min each",NA
"Maj_Rundlof_Brassica_napus_Sweden_2012","lsk42","transects","Bombus_hortorum","species","bumblebees",1,300,30,NA,"Two surveys per field, and surveys were conducted in one 150 x 1 m transect per field, 15 min each",NA
"Maj_Rundlof_Brassica_napus_Sweden_2012","lsk12","transects","Bombus_lapidarius","species","bumblebees",1,300,30,NA,"Two surveys per field, and surveys were conducted in one 150 x 1 m transect per field, 15 min each",NA
"Maj_Rundlof_Brassica_napus_Sweden_2012","lsk14","transects","Bombus_lapidarius","species","bumblebees",1,300,30,NA,"Two surveys per field, and surveys were conducted in one 150 x 1 m transect per field, 15 min each",NA
"Maj_Rundlof_Brassica_napus_Sweden_2012","lsk42","transects","Bombus_lapidarius","species","bumblebees",1,300,30,NA,"Two surveys per field, and surveys were conducted in one 150 x 1 m transect per field, 15 min each",NA
"Maj_Rundlof_Brassica_napus_Sweden_2012","lsk48","transects","Bombus_lapidarius","species","bumblebees",2,300,30,NA,"Two surveys per field, and surveys were conducted in one 150 x 1 m transect per field, 15 min each",NA
"Maj_Rundlof_Brassica_napus_Sweden_2012","lsk64","transects","Bombus_lapidarius","species","bumblebees",1,300,30,NA,"Two surveys per field, and surveys were conducted in one 150 x 1 m transect per field, 15 min each",NA
"Maj_Rundlof_Brassica_napus_Sweden_2012","lsk73","transects","Bombus_lapidarius","species","bumblebees",1,300,30,NA,"Two surveys per field, and surveys were conducted in one 150 x 1 m transect per field, 15 min each",NA
"Maj_Rundlof_Brassica_napus_Sweden_2012","lsk78","transects","Bombus_lapidarius","species","bumblebees",1,300,30,NA,"Two surveys per field, and surveys were conducted in one 150 x 1 m transect per field, 15 min each",NA
"Maj_Rundlof_Brassica_napus_Sweden_2012","lsk02","transects","Bombus_terrestris_aggregate","morphospecies","bumblebees",1,300,30,NA,"Two surveys per field, and surveys were conducted in one 150 x 1 m transect per field, 15 min each",NA
"Maj_Rundlof_Brassica_napus_Sweden_2012","lsk08","transects","Bombus_terrestris_aggregate","morphospecies","bumblebees",1,300,30,NA,"Two surveys per field, and surveys were conducted in one 150 x 1 m transect per field, 15 min each",NA
"Maj_Rundlof_Brassica_napus_Sweden_2012","lsk21","transects","Bombus_terrestris_aggregate","morphospecies","bumblebees",1,300,30,NA,"Two surveys per field, and surveys were conducted in one 150 x 1 m transect per field, 15 min each",NA
"Maj_Rundlof_Brassica_napus_Sweden_2012","lsk48","transects","Bombus_terrestris_aggregate","morphospecies","bumblebees",3,300,30,NA,"Two surveys per field, and surveys were conducted in one 150 x 1 m transect per field, 15 min each",NA
"Maj_Rundlof_Brassica_napus_Sweden_2012","lsk73","transects","Bombus_terrestris_aggregate","morphospecies","bumblebees",2,300,30,NA,"Two surveys per field, and surveys were conducted in one 150 x 1 m transect per field, 15 min each",NA
"Maj_Rundlof_Brassica_napus_Sweden_2012","lsk77","transects","Bombus_terrestris_aggregate","morphospecies","bumblebees",1,300,30,NA,"Two surveys per field, and surveys were conducted in one 150 x 1 m transect per field, 15 min each",NA
"Maj_Rundlof_Brassica_napus_Sweden_2012","lsk78","transects","Bombus_ruderarius","species","bumblebees",1,300,30,NA,"Two surveys per field, and surveys were conducted in one 150 x 1 m transect per field, 15 min each",NA
"Maj_Rundlof_Brassica_napus_Sweden_2012","lsk48","transects","Bombus_rupestris","species","bumblebees",1,300,30,NA,"Two surveys per field, and surveys were conducted in one 150 x 1 m transect per field, 15 min each",NA
"Maj_Rundlof_Brassica_napus_Sweden_2012","lsk21","transects","Bombus_sylvarum","species","bumblebees",1,300,30,NA,"Two surveys per field, and surveys were conducted in one 150 x 1 m transect per field, 15 min each",NA
"Maj_Rundlof_Brassica_napus_Sweden_2012","lsk73","transects","Bombus_sylvarum","species","bumblebees",1,300,30,NA,"Two surveys per field, and surveys were conducted in one 150 x 1 m transect per field, 15 min each",NA
"Maj_Rundlof_Brassica_napus_Sweden_2012","lsk78","transects","Bombus_sylvarum","species","bumblebees",2,300,30,NA,"Two surveys per field, and surveys were conducted in one 150 x 1 m transect per field, 15 min each",NA
"Maj_Rundlof_Brassica_napus_Sweden_2012","lsk48","transects","Bombus_vestalis","species","bumblebees",2,300,30,NA,"Two surveys per field, and surveys were conducted in one 150 x 1 m transect per field, 15 min each",NA
"Maj_Rundlof_Brassica_napus_Sweden_2012","lsk02","transects","Bombus_spp.","genus","bumblebees",4,300,30,NA,"Two surveys per field, and surveys were conducted in one 150 x 1 m transect per field, 15 min each",NA
"Maj_Rundlof_Brassica_napus_Sweden_2012","lsk08","transects","Bombus_spp.","genus","bumblebees",1,300,30,NA,"Two surveys per field, and surveys were conducted in one 150 x 1 m transect per field, 15 min each",NA
"Maj_Rundlof_Brassica_napus_Sweden_2012","lsk12","transects","Bombus_spp.","genus","bumblebees",3,300,30,NA,"Two surveys per field, and surveys were conducted in one 150 x 1 m transect per field, 15 min each",NA
"Maj_Rundlof_Brassica_napus_Sweden_2012","lsk14","transects","Bombus_spp.","genus","bumblebees",5,300,30,NA,"Two surveys per field, and surveys were conducted in one 150 x 1 m transect per field, 15 min each",NA
"Maj_Rundlof_Brassica_napus_Sweden_2012","lsk21","transects","Bombus_spp.","genus","bumblebees",7,300,30,NA,"Two surveys per field, and surveys were conducted in one 150 x 1 m transect per field, 15 min each",NA
"Maj_Rundlof_Brassica_napus_Sweden_2012","lsk32","transects","Bombus_spp.","genus","bumblebees",6,300,30,NA,"Two surveys per field, and surveys were conducted in one 150 x 1 m transect per field, 15 min each",NA
"Maj_Rundlof_Brassica_napus_Sweden_2012","lsk42","transects","Bombus_spp.","genus","bumblebees",4,300,30,NA,"Two surveys per field, and surveys were conducted in one 150 x 1 m transect per field, 15 min each",NA
"Maj_Rundlof_Brassica_napus_Sweden_2012","lsk46","transects","Bombus_spp.","genus","bumblebees",6,300,30,NA,"Two surveys per field, and surveys were conducted in one 150 x 1 m transect per field, 15 min each",NA
"Maj_Rundlof_Brassica_napus_Sweden_2012","lsk48","transects","Bombus_spp.","genus","bumblebees",10,300,30,NA,"Two surveys per field, and surveys were conducted in one 150 x 1 m transect per field, 15 min each",NA
"Maj_Rundlof_Brassica_napus_Sweden_2012","lsk57","transects","Bombus_spp.","genus","bumblebees",3,300,30,NA,"Two surveys per field, and surveys were conducted in one 150 x 1 m transect per field, 15 min each",NA
"Maj_Rundlof_Brassica_napus_Sweden_2012","lsk64","transects","Bombus_spp.","genus","bumblebees",5,300,30,NA,"Two surveys per field, and surveys were conducted in one 150 x 1 m transect per field, 15 min each",NA
"Maj_Rundlof_Brassica_napus_Sweden_2012","lsk73","transects","Bombus_spp.","genus","bumblebees",4,300,30,NA,"Two surveys per field, and surveys were conducted in one 150 x 1 m transect per field, 15 min each",NA
"Maj_Rundlof_Brassica_napus_Sweden_2012","lsk74","transects","Bombus_spp.","genus","bumblebees",8,300,30,NA,"Two surveys per field, and surveys were conducted in one 150 x 1 m transect per field, 15 min each",NA
"Maj_Rundlof_Brassica_napus_Sweden_2012","lsk77","transects","Bombus_spp.","genus","bumblebees",1,300,30,NA,"Two surveys per field, and surveys were conducted in one 150 x 1 m transect per field, 15 min each",NA
"Maj_Rundlof_Brassica_napus_Sweden_2012","lsk78","transects","Bombus_spp.","genus","bumblebees",10,300,30,NA,"Two surveys per field, and surveys were conducted in one 150 x 1 m transect per field, 15 min each",NA
"Maj_Rundlof_Brassica_napus_Sweden_2012","lsk08","transects","Eristalis_arbustorum","species","syrphids",1,300,30,NA,"Two surveys per field, and surveys were conducted in one 150 x 1 m transect per field, 15 min each",NA
"Maj_Rundlof_Brassica_napus_Sweden_2012","lsk21","transects","Eristalis_arbustorum","species","syrphids",3,300,30,NA,"Two surveys per field, and surveys were conducted in one 150 x 1 m transect per field, 15 min each",NA
"Maj_Rundlof_Brassica_napus_Sweden_2012","lsk48","transects","Eristalis_arbustorum","species","syrphids",2,300,30,NA,"Two surveys per field, and surveys were conducted in one 150 x 1 m transect per field, 15 min each",NA
"Maj_Rundlof_Brassica_napus_Sweden_2012","lsk73","transects","Eristalis_arbustorum","species","syrphids",2,300,30,NA,"Two surveys per field, and surveys were conducted in one 150 x 1 m transect per field, 15 min each",NA
"Maj_Rundlof_Brassica_napus_Sweden_2012","lsk74","transects","Eristalis_arbustorum","species","syrphids",1,300,30,NA,"Two surveys per field, and surveys were conducted in one 150 x 1 m transect per field, 15 min each",NA
"Maj_Rundlof_Brassica_napus_Sweden_2012","lsk78","transects","Eristalis_arbustorum","species","syrphids",6,300,30,NA,"Two surveys per field, and surveys were conducted in one 150 x 1 m transect per field, 15 min each",NA
"Maj_Rundlof_Brassica_napus_Sweden_2012","lsk02","transects","Eristalis_similis","species","syrphids",2,300,30,NA,"Two surveys per field, and surveys were conducted in one 150 x 1 m transect per field, 15 min each",NA
"Maj_Rundlof_Brassica_napus_Sweden_2012","lsk08","transects","Eristalis_similis","species","syrphids",1,300,30,NA,"Two surveys per field, and surveys were conducted in one 150 x 1 m transect per field, 15 min each",NA
"Maj_Rundlof_Brassica_napus_Sweden_2012","lsk14","transects","Eristalis_similis","species","syrphids",1,300,30,NA,"Two surveys per field, and surveys were conducted in one 150 x 1 m transect per field, 15 min each",NA
"Maj_Rundlof_Brassica_napus_Sweden_2012","lsk21","transects","Eristalis_similis","species","syrphids",5,300,30,NA,"Two surveys per field, and surveys were conducted in one 150 x 1 m transect per field, 15 min each",NA
"Maj_Rundlof_Brassica_napus_Sweden_2012","lsk46","transects","Eristalis_similis","species","syrphids",1,300,30,NA,"Two surveys per field, and surveys were conducted in one 150 x 1 m transect per field, 15 min each",NA
"Maj_Rundlof_Brassica_napus_Sweden_2012","lsk78","transects","Eristalis_similis","species","syrphids",1,300,30,NA,"Two surveys per field, and surveys were conducted in one 150 x 1 m transect per field, 15 min each",NA
"Maj_Rundlof_Brassica_napus_Sweden_2012","lsk02","transects","Eristalis_tenax","species","syrphids",2,300,30,NA,"Two surveys per field, and surveys were conducted in one 150 x 1 m transect per field, 15 min each",NA
"Maj_Rundlof_Brassica_napus_Sweden_2012","lsk21","transects","Eristalis_tenax","species","syrphids",7,300,30,NA,"Two surveys per field, and surveys were conducted in one 150 x 1 m transect per field, 15 min each",NA
"Maj_Rundlof_Brassica_napus_Sweden_2012","lsk73","transects","Eristalis_tenax","species","syrphids",1,300,30,NA,"Two surveys per field, and surveys were conducted in one 150 x 1 m transect per field, 15 min each",NA
"Maj_Rundlof_Brassica_napus_Sweden_2012","lsk21","transects","Helophilus_trivittatus","species","syrphids",1,300,30,NA,"Two surveys per field, and surveys were conducted in one 150 x 1 m transect per field, 15 min each",NA
"Maj_Rundlof_Brassica_napus_Sweden_2012","lsk02","transects","Melanostoma_mellinum","species","syrphids",1,300,30,NA,"Two surveys per field, and surveys were conducted in one 150 x 1 m transect per field, 15 min each",NA
"Maj_Rundlof_Brassica_napus_Sweden_2012","lsk08","transects","Melanostoma_mellinum","species","syrphids",2,300,30,NA,"Two surveys per field, and surveys were conducted in one 150 x 1 m transect per field, 15 min each",NA
"Maj_Rundlof_Brassica_napus_Sweden_2012","lsk21","transects","Melanostoma_mellinum","species","syrphids",4,300,30,NA,"Two surveys per field, and surveys were conducted in one 150 x 1 m transect per field, 15 min each",NA
"Maj_Rundlof_Brassica_napus_Sweden_2012","lsk46","transects","Melanostoma_mellinum","species","syrphids",4,300,30,NA,"Two surveys per field, and surveys were conducted in one 150 x 1 m transect per field, 15 min each",NA
"Maj_Rundlof_Brassica_napus_Sweden_2012","lsk73","transects","Melanostoma_mellinum","species","syrphids",1,300,30,NA,"Two surveys per field, and surveys were conducted in one 150 x 1 m transect per field, 15 min each",NA
"Maj_Rundlof_Brassica_napus_Sweden_2012","lsk77","transects","Melanostoma_mellinum","species","syrphids",2,300,30,NA,"Two surveys per field, and surveys were conducted in one 150 x 1 m transect per field, 15 min each",NA
"Maj_Rundlof_Brassica_napus_Sweden_2012","lsk21","transects","Melanostoma_scalare","species","syrphids",1,300,30,NA,"Two surveys per field, and surveys were conducted in one 150 x 1 m transect per field, 15 min each",NA
"Maj_Rundlof_Brassica_napus_Sweden_2012","lsk74","transects","Neoascia_podagrica","species","syrphids",2,300,30,NA,"Two surveys per field, and surveys were conducted in one 150 x 1 m transect per field, 15 min each",NA
"Maj_Rundlof_Brassica_napus_Sweden_2012","lsk02","transects","Platycheirus_scutatus","species","syrphids",1,300,30,NA,"Two surveys per field, and surveys were conducted in one 150 x 1 m transect per field, 15 min each",NA
"Maj_Rundlof_Brassica_napus_Sweden_2012","lsk08","transects","Platycheirus_scutatus","species","syrphids",3,300,30,NA,"Two surveys per field, and surveys were conducted in one 150 x 1 m transect per field, 15 min each",NA
"Maj_Rundlof_Brassica_napus_Sweden_2012","lsk12","transects","Platycheirus_scutatus","species","syrphids",1,300,30,NA,"Two surveys per field, and surveys were conducted in one 150 x 1 m transect per field, 15 min each",NA
"Maj_Rundlof_Brassica_napus_Sweden_2012","lsk21","transects","Platycheirus_scutatus","species","syrphids",3,300,30,NA,"Two surveys per field, and surveys were conducted in one 150 x 1 m transect per field, 15 min each",NA
"Maj_Rundlof_Brassica_napus_Sweden_2012","lsk46","transects","Rhingia_rostrata","species","syrphids",1,300,30,NA,"Two surveys per field, and surveys were conducted in one 150 x 1 m transect per field, 15 min each",NA
"Maj_Rundlof_Brassica_napus_Sweden_2012","lsk74","transects","Rhingia_campestris","species","syrphids",1,300,30,NA,"Two surveys per field, and surveys were conducted in one 150 x 1 m transect per field, 15 min each",NA
"Maj_Rundlof_Brassica_napus_Sweden_2012","lsk02","transects","solitary_bee","superfamily","other_wild_bees",5,300,30,NA,"Two surveys per field, and surveys were conducted in one 150 x 1 m transect per field, 15 min each","Apoidea?"
"Maj_Rundlof_Brassica_napus_Sweden_2012","lsk08","transects","solitary_bee","superfamily","other_wild_bees",2,300,30,NA,"Two surveys per field, and surveys were conducted in one 150 x 1 m transect per field, 15 min each","Apoidea?"
"Maj_Rundlof_Brassica_napus_Sweden_2012","lsk12","transects","solitary_bee","superfamily","other_wild_bees",4,300,30,NA,"Two surveys per field, and surveys were conducted in one 150 x 1 m transect per field, 15 min each","Apoidea?"
"Maj_Rundlof_Brassica_napus_Sweden_2012","lsk14","transects","solitary_bee","superfamily","other_wild_bees",5,300,30,NA,"Two surveys per field, and surveys were conducted in one 150 x 1 m transect per field, 15 min each","Apoidea?"
"Maj_Rundlof_Brassica_napus_Sweden_2012","lsk32","transects","solitary_bee","superfamily","other_wild_bees",3,300,30,NA,"Two surveys per field, and surveys were conducted in one 150 x 1 m transect per field, 15 min each","Apoidea?"
"Maj_Rundlof_Brassica_napus_Sweden_2012","lsk64","transects","solitary_bee","superfamily","other_wild_bees",4,300,30,NA,"Two surveys per field, and surveys were conducted in one 150 x 1 m transect per field, 15 min each","Apoidea?"
"Maj_Rundlof_Brassica_napus_Sweden_2012","lsk73","transects","solitary_bee","superfamily","other_wild_bees",3,300,30,NA,"Two surveys per field, and surveys were conducted in one 150 x 1 m transect per field, 15 min each","Apoidea?"
"Maj_Rundlof_Brassica_napus_Sweden_2012","lsk74","transects","solitary_bee","superfamily","other_wild_bees",1,300,30,NA,"Two surveys per field, and surveys were conducted in one 150 x 1 m transect per field, 15 min each","Apoidea?"
"Maj_Rundlof_Brassica_napus_Sweden_2012","lsk78","transects","solitary_bee","superfamily","other_wild_bees",6,300,30,NA,"Two surveys per field, and surveys were conducted in one 150 x 1 m transect per field, 15 min each","Apoidea?"
"Maj_Rundlof_Brassica_napus_Sweden_2012","lsk02","transects","syrphidae","family","syrphids",29,300,30,NA,"Two surveys per field, and surveys were conducted in one 150 x 1 m transect per field, 15 min each",NA
"Maj_Rundlof_Brassica_napus_Sweden_2012","lsk08","transects","syrphidae","family","syrphids",15,300,30,NA,"Two surveys per field, and surveys were conducted in one 150 x 1 m transect per field, 15 min each",NA
"Maj_Rundlof_Brassica_napus_Sweden_2012","lsk12","transects","syrphidae","family","syrphids",9,300,30,NA,"Two surveys per field, and surveys were conducted in one 150 x 1 m transect per field, 15 min each",NA
"Maj_Rundlof_Brassica_napus_Sweden_2012","lsk14","transects","syrphidae","family","syrphids",7,300,30,NA,"Two surveys per field, and surveys were conducted in one 150 x 1 m transect per field, 15 min each",NA
"Maj_Rundlof_Brassica_napus_Sweden_2012","lsk21","transects","syrphidae","family","syrphids",52,300,30,NA,"Two surveys per field, and surveys were conducted in one 150 x 1 m transect per field, 15 min each",NA
"Maj_Rundlof_Brassica_napus_Sweden_2012","lsk32","transects","syrphidae","family","syrphids",2,300,30,NA,"Two surveys per field, and surveys were conducted in one 150 x 1 m transect per field, 15 min each",NA
"Maj_Rundlof_Brassica_napus_Sweden_2012","lsk42","transects","syrphidae","family","syrphids",2,300,30,NA,"Two surveys per field, and surveys were conducted in one 150 x 1 m transect per field, 15 min each",NA
"Maj_Rundlof_Brassica_napus_Sweden_2012","lsk46","transects","syrphidae","family","syrphids",29,300,30,NA,"Two surveys per field, and surveys were conducted in one 150 x 1 m transect per field, 15 min each",NA
"Maj_Rundlof_Brassica_napus_Sweden_2012","lsk48","transects","syrphidae","family","syrphids",34,300,30,NA,"Two surveys per field, and surveys were conducted in one 150 x 1 m transect per field, 15 min each",NA
"Maj_Rundlof_Brassica_napus_Sweden_2012","lsk57","transects","syrphidae","family","syrphids",10,300,30,NA,"Two surveys per field, and surveys were conducted in one 150 x 1 m transect per field, 15 min each",NA
"Maj_Rundlof_Brassica_napus_Sweden_2012","lsk59","transects","syrphidae","family","syrphids",3,300,30,NA,"Two surveys per field, and surveys were conducted in one 150 x 1 m transect per field, 15 min each",NA
"Maj_Rundlof_Brassica_napus_Sweden_2012","lsk64","transects","syrphidae","family","syrphids",8,300,30,NA,"Two surveys per field, and surveys were conducted in one 150 x 1 m transect per field, 15 min each",NA
"Maj_Rundlof_Brassica_napus_Sweden_2012","lsk73","transects","syrphidae","family","syrphids",39,300,30,NA,"Two surveys per field, and surveys were conducted in one 150 x 1 m transect per field, 15 min each",NA
"Maj_Rundlof_Brassica_napus_Sweden_2012","lsk74","transects","syrphidae","family","syrphids",18,300,30,NA,"Two surveys per field, and surveys were conducted in one 150 x 1 m transect per field, 15 min each",NA
"Maj_Rundlof_Brassica_napus_Sweden_2012","lsk77","transects","syrphidae","family","syrphids",3,300,30,NA,"Two surveys per field, and surveys were conducted in one 150 x 1 m transect per field, 15 min each",NA
"Maj_Rundlof_Brassica_napus_Sweden_2012","lsk78","transects","syrphidae","family","syrphids",43,300,30,NA,"Two surveys per field, and surveys were conducted in one 150 x 1 m transect per field, 15 min each",NA
"Maj_Rundlof_Brassica_napus_Sweden_2012","lsk46","transects","wild_bee_unknown","superfamily","other_wild_bees",3,300,30,NA,"Two surveys per field, and surveys were conducted in one 150 x 1 m transect per field, 15 min each","Apoidea?"
"Maj_Rundlof_Brassica_napus_Sweden_2012","lsk59","transects","wild_bee_unknown","superfamily","other_wild_bees",1,300,30,NA,"Two surveys per field, and surveys were conducted in one 150 x 1 m transect per field, 15 min each","Apoidea?"
"Maj_Rundlof_Brassica_napus_Sweden_2012","lsk73","transects","wild_bee_unknown","superfamily","other_wild_bees",1,300,30,NA,"Two surveys per field, and surveys were conducted in one 150 x 1 m transect per field, 15 min each","Apoidea?"
"Marcos_Minarro_Malus_domestica_Spain_2015","Bus06","Plant observation","Andrena flavipes","species","other_wild_bees",1,47.12,75,2354,"Each orchard was surveyed three times. Each survey was the observation of 5 trees * 5 minutes (25 min). In each tree, we observed an area of about 1m of radius in which number of flowers was counted. When possible, insects were identified to species or caught for a posterior identificaction. An additional capture (10 minutes at each survey) of pollinators visiting apple flowers was made for identification in the lab of species not identifyied in the field sampling. This info was not used for abundance (that is why we only considered plant observaction as sasmpling method) but just to assign relative abundances to specific species from general groups (e.g. wild bees). This is why in some cases total abundances have decimal values. An example: we counted 1 wild bee during surveys but we could not identify the species on the wing. Then we captured 2 wild bees that were identified as L. pauxilium and L. zonulum. Then we assigned abundance 0,5 to each species (1 wild bee/ 2 species).",NA
"Marcos_Minarro_Malus_domestica_Spain_2015","Bus06","Plant observation","Andrena fulva","species","other_wild_bees",1,47.12,75,2354,"Each orchard was surveyed three times. Each survey was the observation of 5 trees * 5 minutes (25 min). In each tree, we observed an area of about 1m of radius in which number of flowers was counted. When possible, insects were identified to species or caught for a posterior identificaction. An additional capture (10 minutes at each survey) of pollinators visiting apple flowers was made for identification in the lab of species not identifyied in the field sampling. This info was not used for abundance (that is why we only considered plant observaction as sasmpling method) but just to assign relative abundances to specific species from general groups (e.g. wild bees). This is why in some cases total abundances have decimal values. An example: we counted 1 wild bee during surveys but we could not identify the species on the wing. Then we captured 2 wild bees that were identified as L. pauxilium and L. zonulum. Then we assigned abundance 0,5 to each species (1 wild bee/ 2 species).",NA
"Marcos_Minarro_Malus_domestica_Spain_2015","Bus06","Plant observation","Andrena minutula","species","other_wild_bees",1,47.12,75,2354,"Each orchard was surveyed three times. Each survey was the observation of 5 trees * 5 minutes (25 min). In each tree, we observed an area of about 1m of radius in which number of flowers was counted. When possible, insects were identified to species or caught for a posterior identificaction. An additional capture (10 minutes at each survey) of pollinators visiting apple flowers was made for identification in the lab of species not identifyied in the field sampling. This info was not used for abundance (that is why we only considered plant observaction as sasmpling method) but just to assign relative abundances to specific species from general groups (e.g. wild bees). This is why in some cases total abundances have decimal values. An example: we counted 1 wild bee during surveys but we could not identify the species on the wing. Then we captured 2 wild bees that were identified as L. pauxilium and L. zonulum. Then we assigned abundance 0,5 to each species (1 wild bee/ 2 species).",NA
"Marcos_Minarro_Malus_domestica_Spain_2015","Bus06","Plant observation","Apis mellifera","species","honeybees",63,47.12,75,2354,"Each orchard was surveyed three times. Each survey was the observation of 5 trees * 5 minutes (25 min). In each tree, we observed an area of about 1m of radius in which number of flowers was counted. When possible, insects were identified to species or caught for a posterior identificaction. An additional capture (10 minutes at each survey) of pollinators visiting apple flowers was made for identification in the lab of species not identifyied in the field sampling. This info was not used for abundance (that is why we only considered plant observaction as sasmpling method) but just to assign relative abundances to specific species from general groups (e.g. wild bees). This is why in some cases total abundances have decimal values. An example: we counted 1 wild bee during surveys but we could not identify the species on the wing. Then we captured 2 wild bees that were identified as L. pauxilium and L. zonulum. Then we assigned abundance 0,5 to each species (1 wild bee/ 2 species).",NA
"Marcos_Minarro_Malus_domestica_Spain_2015","Bus06","Plant observation","Eristalis arbustorum","species","syrphids",1,47.12,75,2354,"Each orchard was surveyed three times. Each survey was the observation of 5 trees * 5 minutes (25 min). In each tree, we observed an area of about 1m of radius in which number of flowers was counted. When possible, insects were identified to species or caught for a posterior identificaction. An additional capture (10 minutes at each survey) of pollinators visiting apple flowers was made for identification in the lab of species not identifyied in the field sampling. This info was not used for abundance (that is why we only considered plant observaction as sasmpling method) but just to assign relative abundances to specific species from general groups (e.g. wild bees). This is why in some cases total abundances have decimal values. An example: we counted 1 wild bee during surveys but we could not identify the species on the wing. Then we captured 2 wild bees that were identified as L. pauxilium and L. zonulum. Then we assigned abundance 0,5 to each species (1 wild bee/ 2 species).",NA
"Marcos_Minarro_Malus_domestica_Spain_2015","Bus06","Plant observation","Eristalis spp.","genus","syrphids",3,47.12,75,2354,"Each orchard was surveyed three times. Each survey was the observation of 5 trees * 5 minutes (25 min). In each tree, we observed an area of about 1m of radius in which number of flowers was counted. When possible, insects were identified to species or caught for a posterior identificaction. An additional capture (10 minutes at each survey) of pollinators visiting apple flowers was made for identification in the lab of species not identifyied in the field sampling. This info was not used for abundance (that is why we only considered plant observaction as sasmpling method) but just to assign relative abundances to specific species from general groups (e.g. wild bees). This is why in some cases total abundances have decimal values. An example: we counted 1 wild bee during surveys but we could not identify the species on the wing. Then we captured 2 wild bees that were identified as L. pauxilium and L. zonulum. Then we assigned abundance 0,5 to each species (1 wild bee/ 2 species).",NA
"Marcos_Minarro_Malus_domestica_Spain_2015","Bus06","Plant observation","Eristalis tenax","species","syrphids",7,47.12,75,2354,"Each orchard was surveyed three times. Each survey was the observation of 5 trees * 5 minutes (25 min). In each tree, we observed an area of about 1m of radius in which number of flowers was counted. When possible, insects were identified to species or caught for a posterior identificaction. An additional capture (10 minutes at each survey) of pollinators visiting apple flowers was made for identification in the lab of species not identifyied in the field sampling. This info was not used for abundance (that is why we only considered plant observaction as sasmpling method) but just to assign relative abundances to specific species from general groups (e.g. wild bees). This is why in some cases total abundances have decimal values. An example: we counted 1 wild bee during surveys but we could not identify the species on the wing. Then we captured 2 wild bees that were identified as L. pauxilium and L. zonulum. Then we assigned abundance 0,5 to each species (1 wild bee/ 2 species).",NA
"Marcos_Minarro_Malus_domestica_Spain_2015","Bus06","Plant observation","Hoverfly","family","syrphids",1,47.12,75,2354,"Each orchard was surveyed three times. Each survey was the observation of 5 trees * 5 minutes (25 min). In each tree, we observed an area of about 1m of radius in which number of flowers was counted. When possible, insects were identified to species or caught for a posterior identificaction. An additional capture (10 minutes at each survey) of pollinators visiting apple flowers was made for identification in the lab of species not identifyied in the field sampling. This info was not used for abundance (that is why we only considered plant observaction as sasmpling method) but just to assign relative abundances to specific species from general groups (e.g. wild bees). This is why in some cases total abundances have decimal values. An example: we counted 1 wild bee during surveys but we could not identify the species on the wing. Then we captured 2 wild bees that were identified as L. pauxilium and L. zonulum. Then we assigned abundance 0,5 to each species (1 wild bee/ 2 species).",NA
"Marcos_Minarro_Malus_domestica_Spain_2015","Bus06","Plant observation","Lasioglossum pauxillum","species","other_wild_bees",0.5,47.12,75,2354,"Each orchard was surveyed three times. Each survey was the observation of 5 trees * 5 minutes (25 min). In each tree, we observed an area of about 1m of radius in which number of flowers was counted. When possible, insects were identified to species or caught for a posterior identificaction. An additional capture (10 minutes at each survey) of pollinators visiting apple flowers was made for identification in the lab of species not identifyied in the field sampling. This info was not used for abundance (that is why we only considered plant observaction as sasmpling method) but just to assign relative abundances to specific species from general groups (e.g. wild bees). This is why in some cases total abundances have decimal values. An example: we counted 1 wild bee during surveys but we could not identify the species on the wing. Then we captured 2 wild bees that were identified as L. pauxilium and L. zonulum. Then we assigned abundance 0,5 to each species (1 wild bee/ 2 species).",NA
"Marcos_Minarro_Malus_domestica_Spain_2015","Bus06","Plant observation","Lasioglossum zonulum","species","other_wild_bees",0.5,47.12,75,2354,"Each orchard was surveyed three times. Each survey was the observation of 5 trees * 5 minutes (25 min). In each tree, we observed an area of about 1m of radius in which number of flowers was counted. When possible, insects were identified to species or caught for a posterior identificaction. An additional capture (10 minutes at each survey) of pollinators visiting apple flowers was made for identification in the lab of species not identifyied in the field sampling. This info was not used for abundance (that is why we only considered plant observaction as sasmpling method) but just to assign relative abundances to specific species from general groups (e.g. wild bees). This is why in some cases total abundances have decimal values. An example: we counted 1 wild bee during surveys but we could not identify the species on the wing. Then we captured 2 wild bees that were identified as L. pauxilium and L. zonulum. Then we assigned abundance 0,5 to each species (1 wild bee/ 2 species).",NA
"Marcos_Minarro_Malus_domestica_Spain_2015","Bus06","Plant observation","Other coleopterans","order","beetles",1,47.12,75,2354,"Each orchard was surveyed three times. Each survey was the observation of 5 trees * 5 minutes (25 min). In each tree, we observed an area of about 1m of radius in which number of flowers was counted. When possible, insects were identified to species or caught for a posterior identificaction. An additional capture (10 minutes at each survey) of pollinators visiting apple flowers was made for identification in the lab of species not identifyied in the field sampling. This info was not used for abundance (that is why we only considered plant observaction as sasmpling method) but just to assign relative abundances to specific species from general groups (e.g. wild bees). This is why in some cases total abundances have decimal values. An example: we counted 1 wild bee during surveys but we could not identify the species on the wing. Then we captured 2 wild bees that were identified as L. pauxilium and L. zonulum. Then we assigned abundance 0,5 to each species (1 wild bee/ 2 species).",NA
"Marcos_Minarro_Malus_domestica_Spain_2015","Bus06","Plant observation","Other dipterans","order","other_flies",4,47.12,75,2354,"Each orchard was surveyed three times. Each survey was the observation of 5 trees * 5 minutes (25 min). In each tree, we observed an area of about 1m of radius in which number of flowers was counted. When possible, insects were identified to species or caught for a posterior identificaction. An additional capture (10 minutes at each survey) of pollinators visiting apple flowers was made for identification in the lab of species not identifyied in the field sampling. This info was not used for abundance (that is why we only considered plant observaction as sasmpling method) but just to assign relative abundances to specific species from general groups (e.g. wild bees). This is why in some cases total abundances have decimal values. An example: we counted 1 wild bee during surveys but we could not identify the species on the wing. Then we captured 2 wild bees that were identified as L. pauxilium and L. zonulum. Then we assigned abundance 0,5 to each species (1 wild bee/ 2 species).",NA
"Marcos_Minarro_Malus_domestica_Spain_2015","Cal17","Plant observation","Apis mellifera","species","honeybees",59,47.12,75,2314,"Each orchard was surveyed three times. Each survey was the observation of 5 trees * 5 minutes (25 min). In each tree, we observed an area of about 1m of radius in which number of flowers was counted. When possible, insects were identified to species or caught for a posterior identificaction. An additional capture (10 minutes at each survey) of pollinators visiting apple flowers was made for identification in the lab of species not identifyied in the field sampling. This info was not used for abundance (that is why we only considered plant observaction as sasmpling method) but just to assign relative abundances to specific species from general groups (e.g. wild bees). This is why in some cases total abundances have decimal values. An example: we counted 1 wild bee during surveys but we could not identify the species on the wing. Then we captured 2 wild bees that were identified as L. pauxilium and L. zonulum. Then we assigned abundance 0,5 to each species (1 wild bee/ 2 species).",NA
"Marcos_Minarro_Malus_domestica_Spain_2015","Cal17","Plant observation","Episyrphus balteatus","species","syrphids",1,47.12,75,2314,"Each orchard was surveyed three times. Each survey was the observation of 5 trees * 5 minutes (25 min). In each tree, we observed an area of about 1m of radius in which number of flowers was counted. When possible, insects were identified to species or caught for a posterior identificaction. An additional capture (10 minutes at each survey) of pollinators visiting apple flowers was made for identification in the lab of species not identifyied in the field sampling. This info was not used for abundance (that is why we only considered plant observaction as sasmpling method) but just to assign relative abundances to specific species from general groups (e.g. wild bees). This is why in some cases total abundances have decimal values. An example: we counted 1 wild bee during surveys but we could not identify the species on the wing. Then we captured 2 wild bees that were identified as L. pauxilium and L. zonulum. Then we assigned abundance 0,5 to each species (1 wild bee/ 2 species).",NA
"Marcos_Minarro_Malus_domestica_Spain_2015","Cal17","Plant observation","Eristalis tenax","species","syrphids",6,47.12,75,2314,"Each orchard was surveyed three times. Each survey was the observation of 5 trees * 5 minutes (25 min). In each tree, we observed an area of about 1m of radius in which number of flowers was counted. When possible, insects were identified to species or caught for a posterior identificaction. An additional capture (10 minutes at each survey) of pollinators visiting apple flowers was made for identification in the lab of species not identifyied in the field sampling. This info was not used for abundance (that is why we only considered plant observaction as sasmpling method) but just to assign relative abundances to specific species from general groups (e.g. wild bees). This is why in some cases total abundances have decimal values. An example: we counted 1 wild bee during surveys but we could not identify the species on the wing. Then we captured 2 wild bees that were identified as L. pauxilium and L. zonulum. Then we assigned abundance 0,5 to each species (1 wild bee/ 2 species).",NA
"Marcos_Minarro_Malus_domestica_Spain_2015","Cal17","Plant observation","Hoverfly","family","syrphids",2,47.12,75,2314,"Each orchard was surveyed three times. Each survey was the observation of 5 trees * 5 minutes (25 min). In each tree, we observed an area of about 1m of radius in which number of flowers was counted. When possible, insects were identified to species or caught for a posterior identificaction. An additional capture (10 minutes at each survey) of pollinators visiting apple flowers was made for identification in the lab of species not identifyied in the field sampling. This info was not used for abundance (that is why we only considered plant observaction as sasmpling method) but just to assign relative abundances to specific species from general groups (e.g. wild bees). This is why in some cases total abundances have decimal values. An example: we counted 1 wild bee during surveys but we could not identify the species on the wing. Then we captured 2 wild bees that were identified as L. pauxilium and L. zonulum. Then we assigned abundance 0,5 to each species (1 wild bee/ 2 species).",NA
"Marcos_Minarro_Malus_domestica_Spain_2015","Cal17","Plant observation","Lepidopterans","order","lepidoptera",1,47.12,75,2314,"Each orchard was surveyed three times. Each survey was the observation of 5 trees * 5 minutes (25 min). In each tree, we observed an area of about 1m of radius in which number of flowers was counted. When possible, insects were identified to species or caught for a posterior identificaction. An additional capture (10 minutes at each survey) of pollinators visiting apple flowers was made for identification in the lab of species not identifyied in the field sampling. This info was not used for abundance (that is why we only considered plant observaction as sasmpling method) but just to assign relative abundances to specific species from general groups (e.g. wild bees). This is why in some cases total abundances have decimal values. An example: we counted 1 wild bee during surveys but we could not identify the species on the wing. Then we captured 2 wild bees that were identified as L. pauxilium and L. zonulum. Then we assigned abundance 0,5 to each species (1 wild bee/ 2 species).",NA
"Marcos_Minarro_Malus_domestica_Spain_2015","Cal17","Plant observation","Other coleopterans","order","beetles",1,47.12,75,2314,"Each orchard was surveyed three times. Each survey was the observation of 5 trees * 5 minutes (25 min). In each tree, we observed an area of about 1m of radius in which number of flowers was counted. When possible, insects were identified to species or caught for a posterior identificaction. An additional capture (10 minutes at each survey) of pollinators visiting apple flowers was made for identification in the lab of species not identifyied in the field sampling. This info was not used for abundance (that is why we only considered plant observaction as sasmpling method) but just to assign relative abundances to specific species from general groups (e.g. wild bees). This is why in some cases total abundances have decimal values. An example: we counted 1 wild bee during surveys but we could not identify the species on the wing. Then we captured 2 wild bees that were identified as L. pauxilium and L. zonulum. Then we assigned abundance 0,5 to each species (1 wild bee/ 2 species).",NA
"Marcos_Minarro_Malus_domestica_Spain_2015","Cal17","Plant observation","Other dipterans","order","other_flies",2,47.12,75,2314,"Each orchard was surveyed three times. Each survey was the observation of 5 trees * 5 minutes (25 min). In each tree, we observed an area of about 1m of radius in which number of flowers was counted. When possible, insects were identified to species or caught for a posterior identificaction. An additional capture (10 minutes at each survey) of pollinators visiting apple flowers was made for identification in the lab of species not identifyied in the field sampling. This info was not used for abundance (that is why we only considered plant observaction as sasmpling method) but just to assign relative abundances to specific species from general groups (e.g. wild bees). This is why in some cases total abundances have decimal values. An example: we counted 1 wild bee during surveys but we could not identify the species on the wing. Then we captured 2 wild bees that were identified as L. pauxilium and L. zonulum. Then we assigned abundance 0,5 to each species (1 wild bee/ 2 species).",NA
"Marcos_Minarro_Malus_domestica_Spain_2015","Cal17","Plant observation","Wild bees","superfamily","other_wild_bees",2,47.12,75,2314,"Each orchard was surveyed three times. Each survey was the observation of 5 trees * 5 minutes (25 min). In each tree, we observed an area of about 1m of radius in which number of flowers was counted. When possible, insects were identified to species or caught for a posterior identificaction. An additional capture (10 minutes at each survey) of pollinators visiting apple flowers was made for identification in the lab of species not identifyied in the field sampling. This info was not used for abundance (that is why we only considered plant observaction as sasmpling method) but just to assign relative abundances to specific species from general groups (e.g. wild bees). This is why in some cases total abundances have decimal values. An example: we counted 1 wild bee during surveys but we could not identify the species on the wing. Then we captured 2 wild bees that were identified as L. pauxilium and L. zonulum. Then we assigned abundance 0,5 to each species (1 wild bee/ 2 species).","Apoidea?"
"Marcos_Minarro_Malus_domestica_Spain_2015","Cam07","Plant observation","Andrena assimilis","species","other_wild_bees",0.667,47.12,75,2746,"Each orchard was surveyed three times. Each survey was the observation of 5 trees * 5 minutes (25 min). In each tree, we observed an area of about 1m of radius in which number of flowers was counted. When possible, insects were identified to species or caught for a posterior identificaction. An additional capture (10 minutes at each survey) of pollinators visiting apple flowers was made for identification in the lab of species not identifyied in the field sampling. This info was not used for abundance (that is why we only considered plant observaction as sasmpling method) but just to assign relative abundances to specific species from general groups (e.g. wild bees). This is why in some cases total abundances have decimal values. An example: we counted 1 wild bee during surveys but we could not identify the species on the wing. Then we captured 2 wild bees that were identified as L. pauxilium and L. zonulum. Then we assigned abundance 0,5 to each species (1 wild bee/ 2 species).",NA
"Marcos_Minarro_Malus_domestica_Spain_2015","Cam07","Plant observation","Andrena dorsata","species","other_wild_bees",0.667,47.12,75,2746,"Each orchard was surveyed three times. Each survey was the observation of 5 trees * 5 minutes (25 min). In each tree, we observed an area of about 1m of radius in which number of flowers was counted. When possible, insects were identified to species or caught for a posterior identificaction. An additional capture (10 minutes at each survey) of pollinators visiting apple flowers was made for identification in the lab of species not identifyied in the field sampling. This info was not used for abundance (that is why we only considered plant observaction as sasmpling method) but just to assign relative abundances to specific species from general groups (e.g. wild bees). This is why in some cases total abundances have decimal values. An example: we counted 1 wild bee during surveys but we could not identify the species on the wing. Then we captured 2 wild bees that were identified as L. pauxilium and L. zonulum. Then we assigned abundance 0,5 to each species (1 wild bee/ 2 species).",NA
"Marcos_Minarro_Malus_domestica_Spain_2015","Cam07","Plant observation","Andrena nigroaenea","species","other_wild_bees",1.667,47.12,75,2746,"Each orchard was surveyed three times. Each survey was the observation of 5 trees * 5 minutes (25 min). In each tree, we observed an area of about 1m of radius in which number of flowers was counted. When possible, insects were identified to species or caught for a posterior identificaction. An additional capture (10 minutes at each survey) of pollinators visiting apple flowers was made for identification in the lab of species not identifyied in the field sampling. This info was not used for abundance (that is why we only considered plant observaction as sasmpling method) but just to assign relative abundances to specific species from general groups (e.g. wild bees). This is why in some cases total abundances have decimal values. An example: we counted 1 wild bee during surveys but we could not identify the species on the wing. Then we captured 2 wild bees that were identified as L. pauxilium and L. zonulum. Then we assigned abundance 0,5 to each species (1 wild bee/ 2 species).",NA
"Marcos_Minarro_Malus_domestica_Spain_2015","Cam07","Plant observation","Apis mellifera","species","honeybees",78,47.12,75,2746,"Each orchard was surveyed three times. Each survey was the observation of 5 trees * 5 minutes (25 min). In each tree, we observed an area of about 1m of radius in which number of flowers was counted. When possible, insects were identified to species or caught for a posterior identificaction. An additional capture (10 minutes at each survey) of pollinators visiting apple flowers was made for identification in the lab of species not identifyied in the field sampling. This info was not used for abundance (that is why we only considered plant observaction as sasmpling method) but just to assign relative abundances to specific species from general groups (e.g. wild bees). This is why in some cases total abundances have decimal values. An example: we counted 1 wild bee during surveys but we could not identify the species on the wing. Then we captured 2 wild bees that were identified as L. pauxilium and L. zonulum. Then we assigned abundance 0,5 to each species (1 wild bee/ 2 species).",NA
"Marcos_Minarro_Malus_domestica_Spain_2015","Cam07","Plant observation","Bombus pratorum","species","bumblebees",1,47.12,75,2746,"Each orchard was surveyed three times. Each survey was the observation of 5 trees * 5 minutes (25 min). In each tree, we observed an area of about 1m of radius in which number of flowers was counted. When possible, insects were identified to species or caught for a posterior identificaction. An additional capture (10 minutes at each survey) of pollinators visiting apple flowers was made for identification in the lab of species not identifyied in the field sampling. This info was not used for abundance (that is why we only considered plant observaction as sasmpling method) but just to assign relative abundances to specific species from general groups (e.g. wild bees). This is why in some cases total abundances have decimal values. An example: we counted 1 wild bee during surveys but we could not identify the species on the wing. Then we captured 2 wild bees that were identified as L. pauxilium and L. zonulum. Then we assigned abundance 0,5 to each species (1 wild bee/ 2 species).",NA
"Marcos_Minarro_Malus_domestica_Spain_2015","Cam07","Plant observation","Eristalis spp.","genus","syrphids",2,47.12,75,2746,"Each orchard was surveyed three times. Each survey was the observation of 5 trees * 5 minutes (25 min). In each tree, we observed an area of about 1m of radius in which number of flowers was counted. When possible, insects were identified to species or caught for a posterior identificaction. An additional capture (10 minutes at each survey) of pollinators visiting apple flowers was made for identification in the lab of species not identifyied in the field sampling. This info was not used for abundance (that is why we only considered plant observaction as sasmpling method) but just to assign relative abundances to specific species from general groups (e.g. wild bees). This is why in some cases total abundances have decimal values. An example: we counted 1 wild bee during surveys but we could not identify the species on the wing. Then we captured 2 wild bees that were identified as L. pauxilium and L. zonulum. Then we assigned abundance 0,5 to each species (1 wild bee/ 2 species).",NA
"Marcos_Minarro_Malus_domestica_Spain_2015","Cam07","Plant observation","Hoverfly","family","syrphids",1,47.12,75,2746,"Each orchard was surveyed three times. Each survey was the observation of 5 trees * 5 minutes (25 min). In each tree, we observed an area of about 1m of radius in which number of flowers was counted. When possible, insects were identified to species or caught for a posterior identificaction. An additional capture (10 minutes at each survey) of pollinators visiting apple flowers was made for identification in the lab of species not identifyied in the field sampling. This info was not used for abundance (that is why we only considered plant observaction as sasmpling method) but just to assign relative abundances to specific species from general groups (e.g. wild bees). This is why in some cases total abundances have decimal values. An example: we counted 1 wild bee during surveys but we could not identify the species on the wing. Then we captured 2 wild bees that were identified as L. pauxilium and L. zonulum. Then we assigned abundance 0,5 to each species (1 wild bee/ 2 species).",NA
"Marcos_Minarro_Malus_domestica_Spain_2015","Cam07","Plant observation","Other coleopterans","order","beetles",1,47.12,75,2746,"Each orchard was surveyed three times. Each survey was the observation of 5 trees * 5 minutes (25 min). In each tree, we observed an area of about 1m of radius in which number of flowers was counted. When possible, insects were identified to species or caught for a posterior identificaction. An additional capture (10 minutes at each survey) of pollinators visiting apple flowers was made for identification in the lab of species not identifyied in the field sampling. This info was not used for abundance (that is why we only considered plant observaction as sasmpling method) but just to assign relative abundances to specific species from general groups (e.g. wild bees). This is why in some cases total abundances have decimal values. An example: we counted 1 wild bee during surveys but we could not identify the species on the wing. Then we captured 2 wild bees that were identified as L. pauxilium and L. zonulum. Then we assigned abundance 0,5 to each species (1 wild bee/ 2 species).",NA
"Marcos_Minarro_Malus_domestica_Spain_2015","Cam07","Plant observation","Other dipterans","order","other_flies",15,47.12,75,2746,"Each orchard was surveyed three times. Each survey was the observation of 5 trees * 5 minutes (25 min). In each tree, we observed an area of about 1m of radius in which number of flowers was counted. When possible, insects were identified to species or caught for a posterior identificaction. An additional capture (10 minutes at each survey) of pollinators visiting apple flowers was made for identification in the lab of species not identifyied in the field sampling. This info was not used for abundance (that is why we only considered plant observaction as sasmpling method) but just to assign relative abundances to specific species from general groups (e.g. wild bees). This is why in some cases total abundances have decimal values. An example: we counted 1 wild bee during surveys but we could not identify the species on the wing. Then we captured 2 wild bees that were identified as L. pauxilium and L. zonulum. Then we assigned abundance 0,5 to each species (1 wild bee/ 2 species).",NA
"Marcos_Minarro_Malus_domestica_Spain_2015","Cay09","Plant observation","Apis mellifera","species","honeybees",60,47.12,75,2467,"Each orchard was surveyed three times. Each survey was the observation of 5 trees * 5 minutes (25 min). In each tree, we observed an area of about 1m of radius in which number of flowers was counted. When possible, insects were identified to species or caught for a posterior identificaction. An additional capture (10 minutes at each survey) of pollinators visiting apple flowers was made for identification in the lab of species not identifyied in the field sampling. This info was not used for abundance (that is why we only considered plant observaction as sasmpling method) but just to assign relative abundances to specific species from general groups (e.g. wild bees). This is why in some cases total abundances have decimal values. An example: we counted 1 wild bee during surveys but we could not identify the species on the wing. Then we captured 2 wild bees that were identified as L. pauxilium and L. zonulum. Then we assigned abundance 0,5 to each species (1 wild bee/ 2 species).",NA
"Marcos_Minarro_Malus_domestica_Spain_2015","Cay09","Plant observation","Bombus pascuorum","species","bumblebees",1,47.12,75,2467,"Each orchard was surveyed three times. Each survey was the observation of 5 trees * 5 minutes (25 min). In each tree, we observed an area of about 1m of radius in which number of flowers was counted. When possible, insects were identified to species or caught for a posterior identificaction. An additional capture (10 minutes at each survey) of pollinators visiting apple flowers was made for identification in the lab of species not identifyied in the field sampling. This info was not used for abundance (that is why we only considered plant observaction as sasmpling method) but just to assign relative abundances to specific species from general groups (e.g. wild bees). This is why in some cases total abundances have decimal values. An example: we counted 1 wild bee during surveys but we could not identify the species on the wing. Then we captured 2 wild bees that were identified as L. pauxilium and L. zonulum. Then we assigned abundance 0,5 to each species (1 wild bee/ 2 species).",NA
"Marcos_Minarro_Malus_domestica_Spain_2015","Cay09","Plant observation","Bombus pratorum","species","bumblebees",1,47.12,75,2467,"Each orchard was surveyed three times. Each survey was the observation of 5 trees * 5 minutes (25 min). In each tree, we observed an area of about 1m of radius in which number of flowers was counted. When possible, insects were identified to species or caught for a posterior identificaction. An additional capture (10 minutes at each survey) of pollinators visiting apple flowers was made for identification in the lab of species not identifyied in the field sampling. This info was not used for abundance (that is why we only considered plant observaction as sasmpling method) but just to assign relative abundances to specific species from general groups (e.g. wild bees). This is why in some cases total abundances have decimal values. An example: we counted 1 wild bee during surveys but we could not identify the species on the wing. Then we captured 2 wild bees that were identified as L. pauxilium and L. zonulum. Then we assigned abundance 0,5 to each species (1 wild bee/ 2 species).",NA
"Marcos_Minarro_Malus_domestica_Spain_2015","Cay09","Plant observation","Bombus terrestris","species","bumblebees",6,47.12,75,2467,"Each orchard was surveyed three times. Each survey was the observation of 5 trees * 5 minutes (25 min). In each tree, we observed an area of about 1m of radius in which number of flowers was counted. When possible, insects were identified to species or caught for a posterior identificaction. An additional capture (10 minutes at each survey) of pollinators visiting apple flowers was made for identification in the lab of species not identifyied in the field sampling. This info was not used for abundance (that is why we only considered plant observaction as sasmpling method) but just to assign relative abundances to specific species from general groups (e.g. wild bees). This is why in some cases total abundances have decimal values. An example: we counted 1 wild bee during surveys but we could not identify the species on the wing. Then we captured 2 wild bees that were identified as L. pauxilium and L. zonulum. Then we assigned abundance 0,5 to each species (1 wild bee/ 2 species).",NA
"Marcos_Minarro_Malus_domestica_Spain_2015","Cay09","Plant observation","Eristalis tenax","species","syrphids",4,47.12,75,2467,"Each orchard was surveyed three times. Each survey was the observation of 5 trees * 5 minutes (25 min). In each tree, we observed an area of about 1m of radius in which number of flowers was counted. When possible, insects were identified to species or caught for a posterior identificaction. An additional capture (10 minutes at each survey) of pollinators visiting apple flowers was made for identification in the lab of species not identifyied in the field sampling. This info was not used for abundance (that is why we only considered plant observaction as sasmpling method) but just to assign relative abundances to specific species from general groups (e.g. wild bees). This is why in some cases total abundances have decimal values. An example: we counted 1 wild bee during surveys but we could not identify the species on the wing. Then we captured 2 wild bees that were identified as L. pauxilium and L. zonulum. Then we assigned abundance 0,5 to each species (1 wild bee/ 2 species).",NA
"Marcos_Minarro_Malus_domestica_Spain_2015","Cay09","Plant observation","Halictus tumulorum","species","other_wild_bees",3,47.12,75,2467,"Each orchard was surveyed three times. Each survey was the observation of 5 trees * 5 minutes (25 min). In each tree, we observed an area of about 1m of radius in which number of flowers was counted. When possible, insects were identified to species or caught for a posterior identificaction. An additional capture (10 minutes at each survey) of pollinators visiting apple flowers was made for identification in the lab of species not identifyied in the field sampling. This info was not used for abundance (that is why we only considered plant observaction as sasmpling method) but just to assign relative abundances to specific species from general groups (e.g. wild bees). This is why in some cases total abundances have decimal values. An example: we counted 1 wild bee during surveys but we could not identify the species on the wing. Then we captured 2 wild bees that were identified as L. pauxilium and L. zonulum. Then we assigned abundance 0,5 to each species (1 wild bee/ 2 species).",NA
"Marcos_Minarro_Malus_domestica_Spain_2015","Cay09","Plant observation","Other coleopterans","order","beetles",1,47.12,75,2467,"Each orchard was surveyed three times. Each survey was the observation of 5 trees * 5 minutes (25 min). In each tree, we observed an area of about 1m of radius in which number of flowers was counted. When possible, insects were identified to species or caught for a posterior identificaction. An additional capture (10 minutes at each survey) of pollinators visiting apple flowers was made for identification in the lab of species not identifyied in the field sampling. This info was not used for abundance (that is why we only considered plant observaction as sasmpling method) but just to assign relative abundances to specific species from general groups (e.g. wild bees). This is why in some cases total abundances have decimal values. An example: we counted 1 wild bee during surveys but we could not identify the species on the wing. Then we captured 2 wild bees that were identified as L. pauxilium and L. zonulum. Then we assigned abundance 0,5 to each species (1 wild bee/ 2 species).",NA
"Marcos_Minarro_Malus_domestica_Spain_2015","Cay09","Plant observation","Other dipterans","order","other_flies",3,47.12,75,2467,"Each orchard was surveyed three times. Each survey was the observation of 5 trees * 5 minutes (25 min). In each tree, we observed an area of about 1m of radius in which number of flowers was counted. When possible, insects were identified to species or caught for a posterior identificaction. An additional capture (10 minutes at each survey) of pollinators visiting apple flowers was made for identification in the lab of species not identifyied in the field sampling. This info was not used for abundance (that is why we only considered plant observaction as sasmpling method) but just to assign relative abundances to specific species from general groups (e.g. wild bees). This is why in some cases total abundances have decimal values. An example: we counted 1 wild bee during surveys but we could not identify the species on the wing. Then we captured 2 wild bees that were identified as L. pauxilium and L. zonulum. Then we assigned abundance 0,5 to each species (1 wild bee/ 2 species).",NA
"Marcos_Minarro_Malus_domestica_Spain_2015","Cay09","Plant observation","Wild bees","superfamily","other_wild_bees",1,47.12,75,2467,"Each orchard was surveyed three times. Each survey was the observation of 5 trees * 5 minutes (25 min). In each tree, we observed an area of about 1m of radius in which number of flowers was counted. When possible, insects were identified to species or caught for a posterior identificaction. An additional capture (10 minutes at each survey) of pollinators visiting apple flowers was made for identification in the lab of species not identifyied in the field sampling. This info was not used for abundance (that is why we only considered plant observaction as sasmpling method) but just to assign relative abundances to specific species from general groups (e.g. wild bees). This is why in some cases total abundances have decimal values. An example: we counted 1 wild bee during surveys but we could not identify the species on the wing. Then we captured 2 wild bees that were identified as L. pauxilium and L. zonulum. Then we assigned abundance 0,5 to each species (1 wild bee/ 2 species).","Apoidea?"
"Marcos_Minarro_Malus_domestica_Spain_2015","Cay09","Plant observation","Xanthandrus comtus","species","syrphids",3,47.12,75,2467,"Each orchard was surveyed three times. Each survey was the observation of 5 trees * 5 minutes (25 min). In each tree, we observed an area of about 1m of radius in which number of flowers was counted. When possible, insects were identified to species or caught for a posterior identificaction. An additional capture (10 minutes at each survey) of pollinators visiting apple flowers was made for identification in the lab of species not identifyied in the field sampling. This info was not used for abundance (that is why we only considered plant observaction as sasmpling method) but just to assign relative abundances to specific species from general groups (e.g. wild bees). This is why in some cases total abundances have decimal values. An example: we counted 1 wild bee during surveys but we could not identify the species on the wing. Then we captured 2 wild bees that were identified as L. pauxilium and L. zonulum. Then we assigned abundance 0,5 to each species (1 wild bee/ 2 species).",NA
"Marcos_Minarro_Malus_domestica_Spain_2015","Cey08","Plant observation","Andrena dorsata","species","other_wild_bees",0.875,47.12,75,2371,"Each orchard was surveyed three times. Each survey was the observation of 5 trees * 5 minutes (25 min). In each tree, we observed an area of about 1m of radius in which number of flowers was counted. When possible, insects were identified to species or caught for a posterior identificaction. An additional capture (10 minutes at each survey) of pollinators visiting apple flowers was made for identification in the lab of species not identifyied in the field sampling. This info was not used for abundance (that is why we only considered plant observaction as sasmpling method) but just to assign relative abundances to specific species from general groups (e.g. wild bees). This is why in some cases total abundances have decimal values. An example: we counted 1 wild bee during surveys but we could not identify the species on the wing. Then we captured 2 wild bees that were identified as L. pauxilium and L. zonulum. Then we assigned abundance 0,5 to each species (1 wild bee/ 2 species).",NA
"Marcos_Minarro_Malus_domestica_Spain_2015","Cey08","Plant observation","Andrena minutula","species","other_wild_bees",0.667,47.12,75,2371,"Each orchard was surveyed three times. Each survey was the observation of 5 trees * 5 minutes (25 min). In each tree, we observed an area of about 1m of radius in which number of flowers was counted. When possible, insects were identified to species or caught for a posterior identificaction. An additional capture (10 minutes at each survey) of pollinators visiting apple flowers was made for identification in the lab of species not identifyied in the field sampling. This info was not used for abundance (that is why we only considered plant observaction as sasmpling method) but just to assign relative abundances to specific species from general groups (e.g. wild bees). This is why in some cases total abundances have decimal values. An example: we counted 1 wild bee during surveys but we could not identify the species on the wing. Then we captured 2 wild bees that were identified as L. pauxilium and L. zonulum. Then we assigned abundance 0,5 to each species (1 wild bee/ 2 species).",NA
"Marcos_Minarro_Malus_domestica_Spain_2015","Cey08","Plant observation","Andrena pilipes","species","other_wild_bees",1,47.12,75,2371,"Each orchard was surveyed three times. Each survey was the observation of 5 trees * 5 minutes (25 min). In each tree, we observed an area of about 1m of radius in which number of flowers was counted. When possible, insects were identified to species or caught for a posterior identificaction. An additional capture (10 minutes at each survey) of pollinators visiting apple flowers was made for identification in the lab of species not identifyied in the field sampling. This info was not used for abundance (that is why we only considered plant observaction as sasmpling method) but just to assign relative abundances to specific species from general groups (e.g. wild bees). This is why in some cases total abundances have decimal values. An example: we counted 1 wild bee during surveys but we could not identify the species on the wing. Then we captured 2 wild bees that were identified as L. pauxilium and L. zonulum. Then we assigned abundance 0,5 to each species (1 wild bee/ 2 species).",NA
"Marcos_Minarro_Malus_domestica_Spain_2015","Cey08","Plant observation","Apis mellifera","species","honeybees",17,47.12,75,2371,"Each orchard was surveyed three times. Each survey was the observation of 5 trees * 5 minutes (25 min). In each tree, we observed an area of about 1m of radius in which number of flowers was counted. When possible, insects were identified to species or caught for a posterior identificaction. An additional capture (10 minutes at each survey) of pollinators visiting apple flowers was made for identification in the lab of species not identifyied in the field sampling. This info was not used for abundance (that is why we only considered plant observaction as sasmpling method) but just to assign relative abundances to specific species from general groups (e.g. wild bees). This is why in some cases total abundances have decimal values. An example: we counted 1 wild bee during surveys but we could not identify the species on the wing. Then we captured 2 wild bees that were identified as L. pauxilium and L. zonulum. Then we assigned abundance 0,5 to each species (1 wild bee/ 2 species).",NA
"Marcos_Minarro_Malus_domestica_Spain_2015","Cey08","Plant observation","Bombus sp.","genus","bumblebees",1,47.12,75,2371,"Each orchard was surveyed three times. Each survey was the observation of 5 trees * 5 minutes (25 min). In each tree, we observed an area of about 1m of radius in which number of flowers was counted. When possible, insects were identified to species or caught for a posterior identificaction. An additional capture (10 minutes at each survey) of pollinators visiting apple flowers was made for identification in the lab of species not identifyied in the field sampling. This info was not used for abundance (that is why we only considered plant observaction as sasmpling method) but just to assign relative abundances to specific species from general groups (e.g. wild bees). This is why in some cases total abundances have decimal values. An example: we counted 1 wild bee during surveys but we could not identify the species on the wing. Then we captured 2 wild bees that were identified as L. pauxilium and L. zonulum. Then we assigned abundance 0,5 to each species (1 wild bee/ 2 species).",NA
"Marcos_Minarro_Malus_domestica_Spain_2015","Cey08","Plant observation","Bombus terrestris","species","bumblebees",2,47.12,75,2371,"Each orchard was surveyed three times. Each survey was the observation of 5 trees * 5 minutes (25 min). In each tree, we observed an area of about 1m of radius in which number of flowers was counted. When possible, insects were identified to species or caught for a posterior identificaction. An additional capture (10 minutes at each survey) of pollinators visiting apple flowers was made for identification in the lab of species not identifyied in the field sampling. This info was not used for abundance (that is why we only considered plant observaction as sasmpling method) but just to assign relative abundances to specific species from general groups (e.g. wild bees). This is why in some cases total abundances have decimal values. An example: we counted 1 wild bee during surveys but we could not identify the species on the wing. Then we captured 2 wild bees that were identified as L. pauxilium and L. zonulum. Then we assigned abundance 0,5 to each species (1 wild bee/ 2 species).",NA
"Marcos_Minarro_Malus_domestica_Spain_2015","Cey08","Plant observation","Empis sp.","genus","other_flies",1,47.12,75,2371,"Each orchard was surveyed three times. Each survey was the observation of 5 trees * 5 minutes (25 min). In each tree, we observed an area of about 1m of radius in which number of flowers was counted. When possible, insects were identified to species or caught for a posterior identificaction. An additional capture (10 minutes at each survey) of pollinators visiting apple flowers was made for identification in the lab of species not identifyied in the field sampling. This info was not used for abundance (that is why we only considered plant observaction as sasmpling method) but just to assign relative abundances to specific species from general groups (e.g. wild bees). This is why in some cases total abundances have decimal values. An example: we counted 1 wild bee during surveys but we could not identify the species on the wing. Then we captured 2 wild bees that were identified as L. pauxilium and L. zonulum. Then we assigned abundance 0,5 to each species (1 wild bee/ 2 species).",NA
"Marcos_Minarro_Malus_domestica_Spain_2015","Cey08","Plant observation","Eristalis similis","species","syrphids",3,47.12,75,2371,"Each orchard was surveyed three times. Each survey was the observation of 5 trees * 5 minutes (25 min). In each tree, we observed an area of about 1m of radius in which number of flowers was counted. When possible, insects were identified to species or caught for a posterior identificaction. An additional capture (10 minutes at each survey) of pollinators visiting apple flowers was made for identification in the lab of species not identifyied in the field sampling. This info was not used for abundance (that is why we only considered plant observaction as sasmpling method) but just to assign relative abundances to specific species from general groups (e.g. wild bees). This is why in some cases total abundances have decimal values. An example: we counted 1 wild bee during surveys but we could not identify the species on the wing. Then we captured 2 wild bees that were identified as L. pauxilium and L. zonulum. Then we assigned abundance 0,5 to each species (1 wild bee/ 2 species).",NA
"Marcos_Minarro_Malus_domestica_Spain_2015","Cey08","Plant observation","Eristalis tenax","species","syrphids",21,47.12,75,2371,"Each orchard was surveyed three times. Each survey was the observation of 5 trees * 5 minutes (25 min). In each tree, we observed an area of about 1m of radius in which number of flowers was counted. When possible, insects were identified to species or caught for a posterior identificaction. An additional capture (10 minutes at each survey) of pollinators visiting apple flowers was made for identification in the lab of species not identifyied in the field sampling. This info was not used for abundance (that is why we only considered plant observaction as sasmpling method) but just to assign relative abundances to specific species from general groups (e.g. wild bees). This is why in some cases total abundances have decimal values. An example: we counted 1 wild bee during surveys but we could not identify the species on the wing. Then we captured 2 wild bees that were identified as L. pauxilium and L. zonulum. Then we assigned abundance 0,5 to each species (1 wild bee/ 2 species).",NA
"Marcos_Minarro_Malus_domestica_Spain_2015","Cey08","Plant observation","Halictidae morpho 4","morphospecies","other_wild_bees",0.875,47.12,75,2371,"Each orchard was surveyed three times. Each survey was the observation of 5 trees * 5 minutes (25 min). In each tree, we observed an area of about 1m of radius in which number of flowers was counted. When possible, insects were identified to species or caught for a posterior identificaction. An additional capture (10 minutes at each survey) of pollinators visiting apple flowers was made for identification in the lab of species not identifyied in the field sampling. This info was not used for abundance (that is why we only considered plant observaction as sasmpling method) but just to assign relative abundances to specific species from general groups (e.g. wild bees). This is why in some cases total abundances have decimal values. An example: we counted 1 wild bee during surveys but we could not identify the species on the wing. Then we captured 2 wild bees that were identified as L. pauxilium and L. zonulum. Then we assigned abundance 0,5 to each species (1 wild bee/ 2 species).",NA
"Marcos_Minarro_Malus_domestica_Spain_2015","Cey08","Plant observation","Halictus crenicornis","species","other_wild_bees",0.875,47.12,75,2371,"Each orchard was surveyed three times. Each survey was the observation of 5 trees * 5 minutes (25 min). In each tree, we observed an area of about 1m of radius in which number of flowers was counted. When possible, insects were identified to species or caught for a posterior identificaction. An additional capture (10 minutes at each survey) of pollinators visiting apple flowers was made for identification in the lab of species not identifyied in the field sampling. This info was not used for abundance (that is why we only considered plant observaction as sasmpling method) but just to assign relative abundances to specific species from general groups (e.g. wild bees). This is why in some cases total abundances have decimal values. An example: we counted 1 wild bee during surveys but we could not identify the species on the wing. Then we captured 2 wild bees that were identified as L. pauxilium and L. zonulum. Then we assigned abundance 0,5 to each species (1 wild bee/ 2 species).",NA
"Marcos_Minarro_Malus_domestica_Spain_2015","Cey08","Plant observation","Halictus tumulorum","species","other_wild_bees",8.375,47.12,75,2371,"Each orchard was surveyed three times. Each survey was the observation of 5 trees * 5 minutes (25 min). In each tree, we observed an area of about 1m of radius in which number of flowers was counted. When possible, insects were identified to species or caught for a posterior identificaction. An additional capture (10 minutes at each survey) of pollinators visiting apple flowers was made for identification in the lab of species not identifyied in the field sampling. This info was not used for abundance (that is why we only considered plant observaction as sasmpling method) but just to assign relative abundances to specific species from general groups (e.g. wild bees). This is why in some cases total abundances have decimal values. An example: we counted 1 wild bee during surveys but we could not identify the species on the wing. Then we captured 2 wild bees that were identified as L. pauxilium and L. zonulum. Then we assigned abundance 0,5 to each species (1 wild bee/ 2 species).",NA
"Marcos_Minarro_Malus_domestica_Spain_2015","Cey08","Plant observation","Lasioglossum calceatum","species","other_wild_bees",0.667,47.12,75,2371,"Each orchard was surveyed three times. Each survey was the observation of 5 trees * 5 minutes (25 min). In each tree, we observed an area of about 1m of radius in which number of flowers was counted. When possible, insects were identified to species or caught for a posterior identificaction. An additional capture (10 minutes at each survey) of pollinators visiting apple flowers was made for identification in the lab of species not identifyied in the field sampling. This info was not used for abundance (that is why we only considered plant observaction as sasmpling method) but just to assign relative abundances to specific species from general groups (e.g. wild bees). This is why in some cases total abundances have decimal values. An example: we counted 1 wild bee during surveys but we could not identify the species on the wing. Then we captured 2 wild bees that were identified as L. pauxilium and L. zonulum. Then we assigned abundance 0,5 to each species (1 wild bee/ 2 species).",NA
"Marcos_Minarro_Malus_domestica_Spain_2015","Cey08","Plant observation","Lasioglossum sp.","genus","other_wild_bees",0.667,47.12,75,2371,"Each orchard was surveyed three times. Each survey was the observation of 5 trees * 5 minutes (25 min). In each tree, we observed an area of about 1m of radius in which number of flowers was counted. When possible, insects were identified to species or caught for a posterior identificaction. An additional capture (10 minutes at each survey) of pollinators visiting apple flowers was made for identification in the lab of species not identifyied in the field sampling. This info was not used for abundance (that is why we only considered plant observaction as sasmpling method) but just to assign relative abundances to specific species from general groups (e.g. wild bees). This is why in some cases total abundances have decimal values. An example: we counted 1 wild bee during surveys but we could not identify the species on the wing. Then we captured 2 wild bees that were identified as L. pauxilium and L. zonulum. Then we assigned abundance 0,5 to each species (1 wild bee/ 2 species).",NA
"Marcos_Minarro_Malus_domestica_Spain_2015","Cey08","Plant observation","Lepidopterans","order","lepidoptera",1,47.12,75,2371,"Each orchard was surveyed three times. Each survey was the observation of 5 trees * 5 minutes (25 min). In each tree, we observed an area of about 1m of radius in which number of flowers was counted. When possible, insects were identified to species or caught for a posterior identificaction. An additional capture (10 minutes at each survey) of pollinators visiting apple flowers was made for identification in the lab of species not identifyied in the field sampling. This info was not used for abundance (that is why we only considered plant observaction as sasmpling method) but just to assign relative abundances to specific species from general groups (e.g. wild bees). This is why in some cases total abundances have decimal values. An example: we counted 1 wild bee during surveys but we could not identify the species on the wing. Then we captured 2 wild bees that were identified as L. pauxilium and L. zonulum. Then we assigned abundance 0,5 to each species (1 wild bee/ 2 species).",NA
"Marcos_Minarro_Malus_domestica_Spain_2015","Cey08","Plant observation","Melanostoma mellinum","species","syrphids",2,47.12,75,2371,"Each orchard was surveyed three times. Each survey was the observation of 5 trees * 5 minutes (25 min). In each tree, we observed an area of about 1m of radius in which number of flowers was counted. When possible, insects were identified to species or caught for a posterior identificaction. An additional capture (10 minutes at each survey) of pollinators visiting apple flowers was made for identification in the lab of species not identifyied in the field sampling. This info was not used for abundance (that is why we only considered plant observaction as sasmpling method) but just to assign relative abundances to specific species from general groups (e.g. wild bees). This is why in some cases total abundances have decimal values. An example: we counted 1 wild bee during surveys but we could not identify the species on the wing. Then we captured 2 wild bees that were identified as L. pauxilium and L. zonulum. Then we assigned abundance 0,5 to each species (1 wild bee/ 2 species).",NA
"Marcos_Minarro_Malus_domestica_Spain_2015","Cey08","Plant observation","Meliscaeva auricollis","species","syrphids",8,47.12,75,2371,"Each orchard was surveyed three times. Each survey was the observation of 5 trees * 5 minutes (25 min). In each tree, we observed an area of about 1m of radius in which number of flowers was counted. When possible, insects were identified to species or caught for a posterior identificaction. An additional capture (10 minutes at each survey) of pollinators visiting apple flowers was made for identification in the lab of species not identifyied in the field sampling. This info was not used for abundance (that is why we only considered plant observaction as sasmpling method) but just to assign relative abundances to specific species from general groups (e.g. wild bees). This is why in some cases total abundances have decimal values. An example: we counted 1 wild bee during surveys but we could not identify the species on the wing. Then we captured 2 wild bees that were identified as L. pauxilium and L. zonulum. Then we assigned abundance 0,5 to each species (1 wild bee/ 2 species).",NA
"Marcos_Minarro_Malus_domestica_Spain_2015","Cey08","Plant observation","Other dipterans","order","other_flies",2,47.12,75,2371,"Each orchard was surveyed three times. Each survey was the observation of 5 trees * 5 minutes (25 min). In each tree, we observed an area of about 1m of radius in which number of flowers was counted. When possible, insects were identified to species or caught for a posterior identificaction. An additional capture (10 minutes at each survey) of pollinators visiting apple flowers was made for identification in the lab of species not identifyied in the field sampling. This info was not used for abundance (that is why we only considered plant observaction as sasmpling method) but just to assign relative abundances to specific species from general groups (e.g. wild bees). This is why in some cases total abundances have decimal values. An example: we counted 1 wild bee during surveys but we could not identify the species on the wing. Then we captured 2 wild bees that were identified as L. pauxilium and L. zonulum. Then we assigned abundance 0,5 to each species (1 wild bee/ 2 species).",NA
"Marcos_Minarro_Malus_domestica_Spain_2015","Cey08","Plant observation","Syrphus vitripennis","species","syrphids",9,47.12,75,2371,"Each orchard was surveyed three times. Each survey was the observation of 5 trees * 5 minutes (25 min). In each tree, we observed an area of about 1m of radius in which number of flowers was counted. When possible, insects were identified to species or caught for a posterior identificaction. An additional capture (10 minutes at each survey) of pollinators visiting apple flowers was made for identification in the lab of species not identifyied in the field sampling. This info was not used for abundance (that is why we only considered plant observaction as sasmpling method) but just to assign relative abundances to specific species from general groups (e.g. wild bees). This is why in some cases total abundances have decimal values. An example: we counted 1 wild bee during surveys but we could not identify the species on the wing. Then we captured 2 wild bees that were identified as L. pauxilium and L. zonulum. Then we assigned abundance 0,5 to each species (1 wild bee/ 2 species).",NA
"Marcos_Minarro_Malus_domestica_Spain_2015","Col13","Plant observation","Apis mellifera","species","honeybees",69,47.12,75,2375,"Each orchard was surveyed three times. Each survey was the observation of 5 trees * 5 minutes (25 min). In each tree, we observed an area of about 1m of radius in which number of flowers was counted. When possible, insects were identified to species or caught for a posterior identificaction. An additional capture (10 minutes at each survey) of pollinators visiting apple flowers was made for identification in the lab of species not identifyied in the field sampling. This info was not used for abundance (that is why we only considered plant observaction as sasmpling method) but just to assign relative abundances to specific species from general groups (e.g. wild bees). This is why in some cases total abundances have decimal values. An example: we counted 1 wild bee during surveys but we could not identify the species on the wing. Then we captured 2 wild bees that were identified as L. pauxilium and L. zonulum. Then we assigned abundance 0,5 to each species (1 wild bee/ 2 species).",NA
"Marcos_Minarro_Malus_domestica_Spain_2015","Col13","Plant observation","Bombus pratorum","species","bumblebees",1,47.12,75,2375,"Each orchard was surveyed three times. Each survey was the observation of 5 trees * 5 minutes (25 min). In each tree, we observed an area of about 1m of radius in which number of flowers was counted. When possible, insects were identified to species or caught for a posterior identificaction. An additional capture (10 minutes at each survey) of pollinators visiting apple flowers was made for identification in the lab of species not identifyied in the field sampling. This info was not used for abundance (that is why we only considered plant observaction as sasmpling method) but just to assign relative abundances to specific species from general groups (e.g. wild bees). This is why in some cases total abundances have decimal values. An example: we counted 1 wild bee during surveys but we could not identify the species on the wing. Then we captured 2 wild bees that were identified as L. pauxilium and L. zonulum. Then we assigned abundance 0,5 to each species (1 wild bee/ 2 species).",NA
"Marcos_Minarro_Malus_domestica_Spain_2015","Col13","Plant observation","Eristalis spp.","genus","syrphids",4,47.12,75,2375,"Each orchard was surveyed three times. Each survey was the observation of 5 trees * 5 minutes (25 min). In each tree, we observed an area of about 1m of radius in which number of flowers was counted. When possible, insects were identified to species or caught for a posterior identificaction. An additional capture (10 minutes at each survey) of pollinators visiting apple flowers was made for identification in the lab of species not identifyied in the field sampling. This info was not used for abundance (that is why we only considered plant observaction as sasmpling method) but just to assign relative abundances to specific species from general groups (e.g. wild bees). This is why in some cases total abundances have decimal values. An example: we counted 1 wild bee during surveys but we could not identify the species on the wing. Then we captured 2 wild bees that were identified as L. pauxilium and L. zonulum. Then we assigned abundance 0,5 to each species (1 wild bee/ 2 species).",NA
"Marcos_Minarro_Malus_domestica_Spain_2015","Col13","Plant observation","Eristalis tenax","species","syrphids",6,47.12,75,2375,"Each orchard was surveyed three times. Each survey was the observation of 5 trees * 5 minutes (25 min). In each tree, we observed an area of about 1m of radius in which number of flowers was counted. When possible, insects were identified to species or caught for a posterior identificaction. An additional capture (10 minutes at each survey) of pollinators visiting apple flowers was made for identification in the lab of species not identifyied in the field sampling. This info was not used for abundance (that is why we only considered plant observaction as sasmpling method) but just to assign relative abundances to specific species from general groups (e.g. wild bees). This is why in some cases total abundances have decimal values. An example: we counted 1 wild bee during surveys but we could not identify the species on the wing. Then we captured 2 wild bees that were identified as L. pauxilium and L. zonulum. Then we assigned abundance 0,5 to each species (1 wild bee/ 2 species).",NA
"Marcos_Minarro_Malus_domestica_Spain_2015","Col13","Plant observation","Other coleopterans","order","beetles",1,47.12,75,2375,"Each orchard was surveyed three times. Each survey was the observation of 5 trees * 5 minutes (25 min). In each tree, we observed an area of about 1m of radius in which number of flowers was counted. When possible, insects were identified to species or caught for a posterior identificaction. An additional capture (10 minutes at each survey) of pollinators visiting apple flowers was made for identification in the lab of species not identifyied in the field sampling. This info was not used for abundance (that is why we only considered plant observaction as sasmpling method) but just to assign relative abundances to specific species from general groups (e.g. wild bees). This is why in some cases total abundances have decimal values. An example: we counted 1 wild bee during surveys but we could not identify the species on the wing. Then we captured 2 wild bees that were identified as L. pauxilium and L. zonulum. Then we assigned abundance 0,5 to each species (1 wild bee/ 2 species).",NA
"Marcos_Minarro_Malus_domestica_Spain_2015","Col13","Plant observation","Other dipterans","order","other_flies",23,47.12,75,2375,"Each orchard was surveyed three times. Each survey was the observation of 5 trees * 5 minutes (25 min). In each tree, we observed an area of about 1m of radius in which number of flowers was counted. When possible, insects were identified to species or caught for a posterior identificaction. An additional capture (10 minutes at each survey) of pollinators visiting apple flowers was made for identification in the lab of species not identifyied in the field sampling. This info was not used for abundance (that is why we only considered plant observaction as sasmpling method) but just to assign relative abundances to specific species from general groups (e.g. wild bees). This is why in some cases total abundances have decimal values. An example: we counted 1 wild bee during surveys but we could not identify the species on the wing. Then we captured 2 wild bees that were identified as L. pauxilium and L. zonulum. Then we assigned abundance 0,5 to each species (1 wild bee/ 2 species).",NA
"Marcos_Minarro_Malus_domestica_Spain_2015","Col13","Plant observation","Wild bees","superfamily","other_wild_bees",2,47.12,75,2375,"Each orchard was surveyed three times. Each survey was the observation of 5 trees * 5 minutes (25 min). In each tree, we observed an area of about 1m of radius in which number of flowers was counted. When possible, insects were identified to species or caught for a posterior identificaction. An additional capture (10 minutes at each survey) of pollinators visiting apple flowers was made for identification in the lab of species not identifyied in the field sampling. This info was not used for abundance (that is why we only considered plant observaction as sasmpling method) but just to assign relative abundances to specific species from general groups (e.g. wild bees). This is why in some cases total abundances have decimal values. An example: we counted 1 wild bee during surveys but we could not identify the species on the wing. Then we captured 2 wild bees that were identified as L. pauxilium and L. zonulum. Then we assigned abundance 0,5 to each species (1 wild bee/ 2 species).","Apoidea?"
"Marcos_Minarro_Malus_domestica_Spain_2015","Gai04","Plant observation","Apis mellifera","species","honeybees",38,47.12,75,2633,"Each orchard was surveyed three times. Each survey was the observation of 5 trees * 5 minutes (25 min). In each tree, we observed an area of about 1m of radius in which number of flowers was counted. When possible, insects were identified to species or caught for a posterior identificaction. An additional capture (10 minutes at each survey) of pollinators visiting apple flowers was made for identification in the lab of species not identifyied in the field sampling. This info was not used for abundance (that is why we only considered plant observaction as sasmpling method) but just to assign relative abundances to specific species from general groups (e.g. wild bees). This is why in some cases total abundances have decimal values. An example: we counted 1 wild bee during surveys but we could not identify the species on the wing. Then we captured 2 wild bees that were identified as L. pauxilium and L. zonulum. Then we assigned abundance 0,5 to each species (1 wild bee/ 2 species).",NA
"Marcos_Minarro_Malus_domestica_Spain_2015","Gai04","Plant observation","Bombus terrestris","species","bumblebees",2,47.12,75,2633,"Each orchard was surveyed three times. Each survey was the observation of 5 trees * 5 minutes (25 min). In each tree, we observed an area of about 1m of radius in which number of flowers was counted. When possible, insects were identified to species or caught for a posterior identificaction. An additional capture (10 minutes at each survey) of pollinators visiting apple flowers was made for identification in the lab of species not identifyied in the field sampling. This info was not used for abundance (that is why we only considered plant observaction as sasmpling method) but just to assign relative abundances to specific species from general groups (e.g. wild bees). This is why in some cases total abundances have decimal values. An example: we counted 1 wild bee during surveys but we could not identify the species on the wing. Then we captured 2 wild bees that were identified as L. pauxilium and L. zonulum. Then we assigned abundance 0,5 to each species (1 wild bee/ 2 species).",NA
"Marcos_Minarro_Malus_domestica_Spain_2015","Gai04","Plant observation","Eristalis similis","species","syrphids",3,47.12,75,2633,"Each orchard was surveyed three times. Each survey was the observation of 5 trees * 5 minutes (25 min). In each tree, we observed an area of about 1m of radius in which number of flowers was counted. When possible, insects were identified to species or caught for a posterior identificaction. An additional capture (10 minutes at each survey) of pollinators visiting apple flowers was made for identification in the lab of species not identifyied in the field sampling. This info was not used for abundance (that is why we only considered plant observaction as sasmpling method) but just to assign relative abundances to specific species from general groups (e.g. wild bees). This is why in some cases total abundances have decimal values. An example: we counted 1 wild bee during surveys but we could not identify the species on the wing. Then we captured 2 wild bees that were identified as L. pauxilium and L. zonulum. Then we assigned abundance 0,5 to each species (1 wild bee/ 2 species).",NA
"Marcos_Minarro_Malus_domestica_Spain_2015","Gai04","Plant observation","Eristalis spp.","genus","syrphids",8,47.12,75,2633,"Each orchard was surveyed three times. Each survey was the observation of 5 trees * 5 minutes (25 min). In each tree, we observed an area of about 1m of radius in which number of flowers was counted. When possible, insects were identified to species or caught for a posterior identificaction. An additional capture (10 minutes at each survey) of pollinators visiting apple flowers was made for identification in the lab of species not identifyied in the field sampling. This info was not used for abundance (that is why we only considered plant observaction as sasmpling method) but just to assign relative abundances to specific species from general groups (e.g. wild bees). This is why in some cases total abundances have decimal values. An example: we counted 1 wild bee during surveys but we could not identify the species on the wing. Then we captured 2 wild bees that were identified as L. pauxilium and L. zonulum. Then we assigned abundance 0,5 to each species (1 wild bee/ 2 species).",NA
"Marcos_Minarro_Malus_domestica_Spain_2015","Gai04","Plant observation","Eristalis tenax","species","syrphids",3,47.12,75,2633,"Each orchard was surveyed three times. Each survey was the observation of 5 trees * 5 minutes (25 min). In each tree, we observed an area of about 1m of radius in which number of flowers was counted. When possible, insects were identified to species or caught for a posterior identificaction. An additional capture (10 minutes at each survey) of pollinators visiting apple flowers was made for identification in the lab of species not identifyied in the field sampling. This info was not used for abundance (that is why we only considered plant observaction as sasmpling method) but just to assign relative abundances to specific species from general groups (e.g. wild bees). This is why in some cases total abundances have decimal values. An example: we counted 1 wild bee during surveys but we could not identify the species on the wing. Then we captured 2 wild bees that were identified as L. pauxilium and L. zonulum. Then we assigned abundance 0,5 to each species (1 wild bee/ 2 species).",NA
"Marcos_Minarro_Malus_domestica_Spain_2015","Gai04","Plant observation","Hoverfly","family","syrphids",4,47.12,75,2633,"Each orchard was surveyed three times. Each survey was the observation of 5 trees * 5 minutes (25 min). In each tree, we observed an area of about 1m of radius in which number of flowers was counted. When possible, insects were identified to species or caught for a posterior identificaction. An additional capture (10 minutes at each survey) of pollinators visiting apple flowers was made for identification in the lab of species not identifyied in the field sampling. This info was not used for abundance (that is why we only considered plant observaction as sasmpling method) but just to assign relative abundances to specific species from general groups (e.g. wild bees). This is why in some cases total abundances have decimal values. An example: we counted 1 wild bee during surveys but we could not identify the species on the wing. Then we captured 2 wild bees that were identified as L. pauxilium and L. zonulum. Then we assigned abundance 0,5 to each species (1 wild bee/ 2 species).",NA
"Marcos_Minarro_Malus_domestica_Spain_2015","Gai04","Plant observation","Other dipterans","order","other_flies",1,47.12,75,2633,"Each orchard was surveyed three times. Each survey was the observation of 5 trees * 5 minutes (25 min). In each tree, we observed an area of about 1m of radius in which number of flowers was counted. When possible, insects were identified to species or caught for a posterior identificaction. An additional capture (10 minutes at each survey) of pollinators visiting apple flowers was made for identification in the lab of species not identifyied in the field sampling. This info was not used for abundance (that is why we only considered plant observaction as sasmpling method) but just to assign relative abundances to specific species from general groups (e.g. wild bees). This is why in some cases total abundances have decimal values. An example: we counted 1 wild bee during surveys but we could not identify the species on the wing. Then we captured 2 wild bees that were identified as L. pauxilium and L. zonulum. Then we assigned abundance 0,5 to each species (1 wild bee/ 2 species).",NA
"Marcos_Minarro_Malus_domestica_Spain_2015","Gai04","Plant observation","Wild bees","superfamily","other_wild_bees",1,47.12,75,2633,"Each orchard was surveyed three times. Each survey was the observation of 5 trees * 5 minutes (25 min). In each tree, we observed an area of about 1m of radius in which number of flowers was counted. When possible, insects were identified to species or caught for a posterior identificaction. An additional capture (10 minutes at each survey) of pollinators visiting apple flowers was made for identification in the lab of species not identifyied in the field sampling. This info was not used for abundance (that is why we only considered plant observaction as sasmpling method) but just to assign relative abundances to specific species from general groups (e.g. wild bees). This is why in some cases total abundances have decimal values. An example: we counted 1 wild bee during surveys but we could not identify the species on the wing. Then we captured 2 wild bees that were identified as L. pauxilium and L. zonulum. Then we assigned abundance 0,5 to each species (1 wild bee/ 2 species).","Apoidea?"
"Marcos_Minarro_Malus_domestica_Spain_2015","Lav16","Plant observation","Andrena dorsata","species","other_wild_bees",1,47.12,75,1895,"Each orchard was surveyed three times. Each survey was the observation of 5 trees * 5 minutes (25 min). In each tree, we observed an area of about 1m of radius in which number of flowers was counted. When possible, insects were identified to species or caught for a posterior identificaction. An additional capture (10 minutes at each survey) of pollinators visiting apple flowers was made for identification in the lab of species not identifyied in the field sampling. This info was not used for abundance (that is why we only considered plant observaction as sasmpling method) but just to assign relative abundances to specific species from general groups (e.g. wild bees). This is why in some cases total abundances have decimal values. An example: we counted 1 wild bee during surveys but we could not identify the species on the wing. Then we captured 2 wild bees that were identified as L. pauxilium and L. zonulum. Then we assigned abundance 0,5 to each species (1 wild bee/ 2 species).",NA
"Marcos_Minarro_Malus_domestica_Spain_2015","Lav16","Plant observation","Andrena flavipes","species","other_wild_bees",1,47.12,75,1895,"Each orchard was surveyed three times. Each survey was the observation of 5 trees * 5 minutes (25 min). In each tree, we observed an area of about 1m of radius in which number of flowers was counted. When possible, insects were identified to species or caught for a posterior identificaction. An additional capture (10 minutes at each survey) of pollinators visiting apple flowers was made for identification in the lab of species not identifyied in the field sampling. This info was not used for abundance (that is why we only considered plant observaction as sasmpling method) but just to assign relative abundances to specific species from general groups (e.g. wild bees). This is why in some cases total abundances have decimal values. An example: we counted 1 wild bee during surveys but we could not identify the species on the wing. Then we captured 2 wild bees that were identified as L. pauxilium and L. zonulum. Then we assigned abundance 0,5 to each species (1 wild bee/ 2 species).",NA
"Marcos_Minarro_Malus_domestica_Spain_2015","Lav16","Plant observation","Andrena nigroaenea","species","other_wild_bees",2,47.12,75,1895,"Each orchard was surveyed three times. Each survey was the observation of 5 trees * 5 minutes (25 min). In each tree, we observed an area of about 1m of radius in which number of flowers was counted. When possible, insects were identified to species or caught for a posterior identificaction. An additional capture (10 minutes at each survey) of pollinators visiting apple flowers was made for identification in the lab of species not identifyied in the field sampling. This info was not used for abundance (that is why we only considered plant observaction as sasmpling method) but just to assign relative abundances to specific species from general groups (e.g. wild bees). This is why in some cases total abundances have decimal values. An example: we counted 1 wild bee during surveys but we could not identify the species on the wing. Then we captured 2 wild bees that were identified as L. pauxilium and L. zonulum. Then we assigned abundance 0,5 to each species (1 wild bee/ 2 species).",NA
"Marcos_Minarro_Malus_domestica_Spain_2015","Lav16","Plant observation","Apis mellifera","species","honeybees",23,47.12,75,1895,"Each orchard was surveyed three times. Each survey was the observation of 5 trees * 5 minutes (25 min). In each tree, we observed an area of about 1m of radius in which number of flowers was counted. When possible, insects were identified to species or caught for a posterior identificaction. An additional capture (10 minutes at each survey) of pollinators visiting apple flowers was made for identification in the lab of species not identifyied in the field sampling. This info was not used for abundance (that is why we only considered plant observaction as sasmpling method) but just to assign relative abundances to specific species from general groups (e.g. wild bees). This is why in some cases total abundances have decimal values. An example: we counted 1 wild bee during surveys but we could not identify the species on the wing. Then we captured 2 wild bees that were identified as L. pauxilium and L. zonulum. Then we assigned abundance 0,5 to each species (1 wild bee/ 2 species).",NA
"Marcos_Minarro_Malus_domestica_Spain_2015","Lav16","Plant observation","Bombus terrestris","species","bumblebees",4,47.12,75,1895,"Each orchard was surveyed three times. Each survey was the observation of 5 trees * 5 minutes (25 min). In each tree, we observed an area of about 1m of radius in which number of flowers was counted. When possible, insects were identified to species or caught for a posterior identificaction. An additional capture (10 minutes at each survey) of pollinators visiting apple flowers was made for identification in the lab of species not identifyied in the field sampling. This info was not used for abundance (that is why we only considered plant observaction as sasmpling method) but just to assign relative abundances to specific species from general groups (e.g. wild bees). This is why in some cases total abundances have decimal values. An example: we counted 1 wild bee during surveys but we could not identify the species on the wing. Then we captured 2 wild bees that were identified as L. pauxilium and L. zonulum. Then we assigned abundance 0,5 to each species (1 wild bee/ 2 species).",NA
"Marcos_Minarro_Malus_domestica_Spain_2015","Lav16","Plant observation","Eristalis spp.","genus","syrphids",3,47.12,75,1895,"Each orchard was surveyed three times. Each survey was the observation of 5 trees * 5 minutes (25 min). In each tree, we observed an area of about 1m of radius in which number of flowers was counted. When possible, insects were identified to species or caught for a posterior identificaction. An additional capture (10 minutes at each survey) of pollinators visiting apple flowers was made for identification in the lab of species not identifyied in the field sampling. This info was not used for abundance (that is why we only considered plant observaction as sasmpling method) but just to assign relative abundances to specific species from general groups (e.g. wild bees). This is why in some cases total abundances have decimal values. An example: we counted 1 wild bee during surveys but we could not identify the species on the wing. Then we captured 2 wild bees that were identified as L. pauxilium and L. zonulum. Then we assigned abundance 0,5 to each species (1 wild bee/ 2 species).",NA
"Marcos_Minarro_Malus_domestica_Spain_2015","Lav16","Plant observation","Eristalis tenax","species","syrphids",5,47.12,75,1895,"Each orchard was surveyed three times. Each survey was the observation of 5 trees * 5 minutes (25 min). In each tree, we observed an area of about 1m of radius in which number of flowers was counted. When possible, insects were identified to species or caught for a posterior identificaction. An additional capture (10 minutes at each survey) of pollinators visiting apple flowers was made for identification in the lab of species not identifyied in the field sampling. This info was not used for abundance (that is why we only considered plant observaction as sasmpling method) but just to assign relative abundances to specific species from general groups (e.g. wild bees). This is why in some cases total abundances have decimal values. An example: we counted 1 wild bee during surveys but we could not identify the species on the wing. Then we captured 2 wild bees that were identified as L. pauxilium and L. zonulum. Then we assigned abundance 0,5 to each species (1 wild bee/ 2 species).",NA
"Marcos_Minarro_Malus_domestica_Spain_2015","Lav16","Plant observation","Halictus scabiosae","species","other_wild_bees",2,47.12,75,1895,"Each orchard was surveyed three times. Each survey was the observation of 5 trees * 5 minutes (25 min). In each tree, we observed an area of about 1m of radius in which number of flowers was counted. When possible, insects were identified to species or caught for a posterior identificaction. An additional capture (10 minutes at each survey) of pollinators visiting apple flowers was made for identification in the lab of species not identifyied in the field sampling. This info was not used for abundance (that is why we only considered plant observaction as sasmpling method) but just to assign relative abundances to specific species from general groups (e.g. wild bees). This is why in some cases total abundances have decimal values. An example: we counted 1 wild bee during surveys but we could not identify the species on the wing. Then we captured 2 wild bees that were identified as L. pauxilium and L. zonulum. Then we assigned abundance 0,5 to each species (1 wild bee/ 2 species).",NA
"Marcos_Minarro_Malus_domestica_Spain_2015","Lav16","Plant observation","Hoverfly","family","syrphids",9,47.12,75,1895,"Each orchard was surveyed three times. Each survey was the observation of 5 trees * 5 minutes (25 min). In each tree, we observed an area of about 1m of radius in which number of flowers was counted. When possible, insects were identified to species or caught for a posterior identificaction. An additional capture (10 minutes at each survey) of pollinators visiting apple flowers was made for identification in the lab of species not identifyied in the field sampling. This info was not used for abundance (that is why we only considered plant observaction as sasmpling method) but just to assign relative abundances to specific species from general groups (e.g. wild bees). This is why in some cases total abundances have decimal values. An example: we counted 1 wild bee during surveys but we could not identify the species on the wing. Then we captured 2 wild bees that were identified as L. pauxilium and L. zonulum. Then we assigned abundance 0,5 to each species (1 wild bee/ 2 species).",NA
"Marcos_Minarro_Malus_domestica_Spain_2015","Lav16","Plant observation","Other coleopterans","order","beetles",1,47.12,75,1895,"Each orchard was surveyed three times. Each survey was the observation of 5 trees * 5 minutes (25 min). In each tree, we observed an area of about 1m of radius in which number of flowers was counted. When possible, insects were identified to species or caught for a posterior identificaction. An additional capture (10 minutes at each survey) of pollinators visiting apple flowers was made for identification in the lab of species not identifyied in the field sampling. This info was not used for abundance (that is why we only considered plant observaction as sasmpling method) but just to assign relative abundances to specific species from general groups (e.g. wild bees). This is why in some cases total abundances have decimal values. An example: we counted 1 wild bee during surveys but we could not identify the species on the wing. Then we captured 2 wild bees that were identified as L. pauxilium and L. zonulum. Then we assigned abundance 0,5 to each species (1 wild bee/ 2 species).",NA
"Marcos_Minarro_Malus_domestica_Spain_2015","Lav16","Plant observation","Other dipterans","order","other_flies",8,47.12,75,1895,"Each orchard was surveyed three times. Each survey was the observation of 5 trees * 5 minutes (25 min). In each tree, we observed an area of about 1m of radius in which number of flowers was counted. When possible, insects were identified to species or caught for a posterior identificaction. An additional capture (10 minutes at each survey) of pollinators visiting apple flowers was made for identification in the lab of species not identifyied in the field sampling. This info was not used for abundance (that is why we only considered plant observaction as sasmpling method) but just to assign relative abundances to specific species from general groups (e.g. wild bees). This is why in some cases total abundances have decimal values. An example: we counted 1 wild bee during surveys but we could not identify the species on the wing. Then we captured 2 wild bees that were identified as L. pauxilium and L. zonulum. Then we assigned abundance 0,5 to each species (1 wild bee/ 2 species).",NA
"Marcos_Minarro_Malus_domestica_Spain_2015","Mas12","Plant observation","Andrena nigroaenea","species","other_wild_bees",1,47.12,75,2322,"Each orchard was surveyed three times. Each survey was the observation of 5 trees * 5 minutes (25 min). In each tree, we observed an area of about 1m of radius in which number of flowers was counted. When possible, insects were identified to species or caught for a posterior identificaction. An additional capture (10 minutes at each survey) of pollinators visiting apple flowers was made for identification in the lab of species not identifyied in the field sampling. This info was not used for abundance (that is why we only considered plant observaction as sasmpling method) but just to assign relative abundances to specific species from general groups (e.g. wild bees). This is why in some cases total abundances have decimal values. An example: we counted 1 wild bee during surveys but we could not identify the species on the wing. Then we captured 2 wild bees that were identified as L. pauxilium and L. zonulum. Then we assigned abundance 0,5 to each species (1 wild bee/ 2 species).",NA
"Marcos_Minarro_Malus_domestica_Spain_2015","Mas12","Plant observation","Andrena pilipes","species","other_wild_bees",1,47.12,75,2322,"Each orchard was surveyed three times. Each survey was the observation of 5 trees * 5 minutes (25 min). In each tree, we observed an area of about 1m of radius in which number of flowers was counted. When possible, insects were identified to species or caught for a posterior identificaction. An additional capture (10 minutes at each survey) of pollinators visiting apple flowers was made for identification in the lab of species not identifyied in the field sampling. This info was not used for abundance (that is why we only considered plant observaction as sasmpling method) but just to assign relative abundances to specific species from general groups (e.g. wild bees). This is why in some cases total abundances have decimal values. An example: we counted 1 wild bee during surveys but we could not identify the species on the wing. Then we captured 2 wild bees that were identified as L. pauxilium and L. zonulum. Then we assigned abundance 0,5 to each species (1 wild bee/ 2 species).",NA
"Marcos_Minarro_Malus_domestica_Spain_2015","Mas12","Plant observation","Apis mellifera","species","honeybees",69,47.12,75,2322,"Each orchard was surveyed three times. Each survey was the observation of 5 trees * 5 minutes (25 min). In each tree, we observed an area of about 1m of radius in which number of flowers was counted. When possible, insects were identified to species or caught for a posterior identificaction. An additional capture (10 minutes at each survey) of pollinators visiting apple flowers was made for identification in the lab of species not identifyied in the field sampling. This info was not used for abundance (that is why we only considered plant observaction as sasmpling method) but just to assign relative abundances to specific species from general groups (e.g. wild bees). This is why in some cases total abundances have decimal values. An example: we counted 1 wild bee during surveys but we could not identify the species on the wing. Then we captured 2 wild bees that were identified as L. pauxilium and L. zonulum. Then we assigned abundance 0,5 to each species (1 wild bee/ 2 species).",NA
"Marcos_Minarro_Malus_domestica_Spain_2015","Mas12","Plant observation","Bombus pascuorum","species","bumblebees",1,47.12,75,2322,"Each orchard was surveyed three times. Each survey was the observation of 5 trees * 5 minutes (25 min). In each tree, we observed an area of about 1m of radius in which number of flowers was counted. When possible, insects were identified to species or caught for a posterior identificaction. An additional capture (10 minutes at each survey) of pollinators visiting apple flowers was made for identification in the lab of species not identifyied in the field sampling. This info was not used for abundance (that is why we only considered plant observaction as sasmpling method) but just to assign relative abundances to specific species from general groups (e.g. wild bees). This is why in some cases total abundances have decimal values. An example: we counted 1 wild bee during surveys but we could not identify the species on the wing. Then we captured 2 wild bees that were identified as L. pauxilium and L. zonulum. Then we assigned abundance 0,5 to each species (1 wild bee/ 2 species).",NA
"Marcos_Minarro_Malus_domestica_Spain_2015","Mas12","Plant observation","Bombus terrestris","species","bumblebees",1,47.12,75,2322,"Each orchard was surveyed three times. Each survey was the observation of 5 trees * 5 minutes (25 min). In each tree, we observed an area of about 1m of radius in which number of flowers was counted. When possible, insects were identified to species or caught for a posterior identificaction. An additional capture (10 minutes at each survey) of pollinators visiting apple flowers was made for identification in the lab of species not identifyied in the field sampling. This info was not used for abundance (that is why we only considered plant observaction as sasmpling method) but just to assign relative abundances to specific species from general groups (e.g. wild bees). This is why in some cases total abundances have decimal values. An example: we counted 1 wild bee during surveys but we could not identify the species on the wing. Then we captured 2 wild bees that were identified as L. pauxilium and L. zonulum. Then we assigned abundance 0,5 to each species (1 wild bee/ 2 species).",NA
"Marcos_Minarro_Malus_domestica_Spain_2015","Mas12","Plant observation","Eristalis similis","species","syrphids",1,47.12,75,2322,"Each orchard was surveyed three times. Each survey was the observation of 5 trees * 5 minutes (25 min). In each tree, we observed an area of about 1m of radius in which number of flowers was counted. When possible, insects were identified to species or caught for a posterior identificaction. An additional capture (10 minutes at each survey) of pollinators visiting apple flowers was made for identification in the lab of species not identifyied in the field sampling. This info was not used for abundance (that is why we only considered plant observaction as sasmpling method) but just to assign relative abundances to specific species from general groups (e.g. wild bees). This is why in some cases total abundances have decimal values. An example: we counted 1 wild bee during surveys but we could not identify the species on the wing. Then we captured 2 wild bees that were identified as L. pauxilium and L. zonulum. Then we assigned abundance 0,5 to each species (1 wild bee/ 2 species).",NA
"Marcos_Minarro_Malus_domestica_Spain_2015","Mas12","Plant observation","Eristalis spp.","genus","syrphids",4,47.12,75,2322,"Each orchard was surveyed three times. Each survey was the observation of 5 trees * 5 minutes (25 min). In each tree, we observed an area of about 1m of radius in which number of flowers was counted. When possible, insects were identified to species or caught for a posterior identificaction. An additional capture (10 minutes at each survey) of pollinators visiting apple flowers was made for identification in the lab of species not identifyied in the field sampling. This info was not used for abundance (that is why we only considered plant observaction as sasmpling method) but just to assign relative abundances to specific species from general groups (e.g. wild bees). This is why in some cases total abundances have decimal values. An example: we counted 1 wild bee during surveys but we could not identify the species on the wing. Then we captured 2 wild bees that were identified as L. pauxilium and L. zonulum. Then we assigned abundance 0,5 to each species (1 wild bee/ 2 species).",NA
"Marcos_Minarro_Malus_domestica_Spain_2015","Mas12","Plant observation","Eristalis tenax","species","syrphids",2,47.12,75,2322,"Each orchard was surveyed three times. Each survey was the observation of 5 trees * 5 minutes (25 min). In each tree, we observed an area of about 1m of radius in which number of flowers was counted. When possible, insects were identified to species or caught for a posterior identificaction. An additional capture (10 minutes at each survey) of pollinators visiting apple flowers was made for identification in the lab of species not identifyied in the field sampling. This info was not used for abundance (that is why we only considered plant observaction as sasmpling method) but just to assign relative abundances to specific species from general groups (e.g. wild bees). This is why in some cases total abundances have decimal values. An example: we counted 1 wild bee during surveys but we could not identify the species on the wing. Then we captured 2 wild bees that were identified as L. pauxilium and L. zonulum. Then we assigned abundance 0,5 to each species (1 wild bee/ 2 species).",NA
"Marcos_Minarro_Malus_domestica_Spain_2015","Mas12","Plant observation","Hoverfly","family","syrphids",1,47.12,75,2322,"Each orchard was surveyed three times. Each survey was the observation of 5 trees * 5 minutes (25 min). In each tree, we observed an area of about 1m of radius in which number of flowers was counted. When possible, insects were identified to species or caught for a posterior identificaction. An additional capture (10 minutes at each survey) of pollinators visiting apple flowers was made for identification in the lab of species not identifyied in the field sampling. This info was not used for abundance (that is why we only considered plant observaction as sasmpling method) but just to assign relative abundances to specific species from general groups (e.g. wild bees). This is why in some cases total abundances have decimal values. An example: we counted 1 wild bee during surveys but we could not identify the species on the wing. Then we captured 2 wild bees that were identified as L. pauxilium and L. zonulum. Then we assigned abundance 0,5 to each species (1 wild bee/ 2 species).",NA
"Marcos_Minarro_Malus_domestica_Spain_2015","Mas12","Plant observation","Other dipterans","order","other_flies",5,47.12,75,2322,"Each orchard was surveyed three times. Each survey was the observation of 5 trees * 5 minutes (25 min). In each tree, we observed an area of about 1m of radius in which number of flowers was counted. When possible, insects were identified to species or caught for a posterior identificaction. An additional capture (10 minutes at each survey) of pollinators visiting apple flowers was made for identification in the lab of species not identifyied in the field sampling. This info was not used for abundance (that is why we only considered plant observaction as sasmpling method) but just to assign relative abundances to specific species from general groups (e.g. wild bees). This is why in some cases total abundances have decimal values. An example: we counted 1 wild bee during surveys but we could not identify the species on the wing. Then we captured 2 wild bees that were identified as L. pauxilium and L. zonulum. Then we assigned abundance 0,5 to each species (1 wild bee/ 2 species).",NA
"Marcos_Minarro_Malus_domestica_Spain_2015","Mas12","Plant observation","Others","others","other",1,47.12,75,2322,"Each orchard was surveyed three times. Each survey was the observation of 5 trees * 5 minutes (25 min). In each tree, we observed an area of about 1m of radius in which number of flowers was counted. When possible, insects were identified to species or caught for a posterior identificaction. An additional capture (10 minutes at each survey) of pollinators visiting apple flowers was made for identification in the lab of species not identifyied in the field sampling. This info was not used for abundance (that is why we only considered plant observaction as sasmpling method) but just to assign relative abundances to specific species from general groups (e.g. wild bees). This is why in some cases total abundances have decimal values. An example: we counted 1 wild bee during surveys but we could not identify the species on the wing. Then we captured 2 wild bees that were identified as L. pauxilium and L. zonulum. Then we assigned abundance 0,5 to each species (1 wild bee/ 2 species).",NA
"Marcos_Minarro_Malus_domestica_Spain_2015","Mas12","Plant observation","Wild bees","superfamily","other_wild_bees",4,47.12,75,2322,"Each orchard was surveyed three times. Each survey was the observation of 5 trees * 5 minutes (25 min). In each tree, we observed an area of about 1m of radius in which number of flowers was counted. When possible, insects were identified to species or caught for a posterior identificaction. An additional capture (10 minutes at each survey) of pollinators visiting apple flowers was made for identification in the lab of species not identifyied in the field sampling. This info was not used for abundance (that is why we only considered plant observaction as sasmpling method) but just to assign relative abundances to specific species from general groups (e.g. wild bees). This is why in some cases total abundances have decimal values. An example: we counted 1 wild bee during surveys but we could not identify the species on the wing. Then we captured 2 wild bees that were identified as L. pauxilium and L. zonulum. Then we assigned abundance 0,5 to each species (1 wild bee/ 2 species).","Apoidea?"
"Marcos_Minarro_Malus_domestica_Spain_2015","Mun24","Plant observation","Andrena nigroaenea","species","other_wild_bees",1,47.12,75,2165,"Each orchard was surveyed three times. Each survey was the observation of 5 trees * 5 minutes (25 min). In each tree, we observed an area of about 1m of radius in which number of flowers was counted. When possible, insects were identified to species or caught for a posterior identificaction. An additional capture (10 minutes at each survey) of pollinators visiting apple flowers was made for identification in the lab of species not identifyied in the field sampling. This info was not used for abundance (that is why we only considered plant observaction as sasmpling method) but just to assign relative abundances to specific species from general groups (e.g. wild bees). This is why in some cases total abundances have decimal values. An example: we counted 1 wild bee during surveys but we could not identify the species on the wing. Then we captured 2 wild bees that were identified as L. pauxilium and L. zonulum. Then we assigned abundance 0,5 to each species (1 wild bee/ 2 species).",NA
"Marcos_Minarro_Malus_domestica_Spain_2015","Mun24","Plant observation","Apis mellifera","species","honeybees",66,47.12,75,2165,"Each orchard was surveyed three times. Each survey was the observation of 5 trees * 5 minutes (25 min). In each tree, we observed an area of about 1m of radius in which number of flowers was counted. When possible, insects were identified to species or caught for a posterior identificaction. An additional capture (10 minutes at each survey) of pollinators visiting apple flowers was made for identification in the lab of species not identifyied in the field sampling. This info was not used for abundance (that is why we only considered plant observaction as sasmpling method) but just to assign relative abundances to specific species from general groups (e.g. wild bees). This is why in some cases total abundances have decimal values. An example: we counted 1 wild bee during surveys but we could not identify the species on the wing. Then we captured 2 wild bees that were identified as L. pauxilium and L. zonulum. Then we assigned abundance 0,5 to each species (1 wild bee/ 2 species).",NA
"Marcos_Minarro_Malus_domestica_Spain_2015","Mun24","Plant observation","Bombus pratorum","species","bumblebees",1,47.12,75,2165,"Each orchard was surveyed three times. Each survey was the observation of 5 trees * 5 minutes (25 min). In each tree, we observed an area of about 1m of radius in which number of flowers was counted. When possible, insects were identified to species or caught for a posterior identificaction. An additional capture (10 minutes at each survey) of pollinators visiting apple flowers was made for identification in the lab of species not identifyied in the field sampling. This info was not used for abundance (that is why we only considered plant observaction as sasmpling method) but just to assign relative abundances to specific species from general groups (e.g. wild bees). This is why in some cases total abundances have decimal values. An example: we counted 1 wild bee during surveys but we could not identify the species on the wing. Then we captured 2 wild bees that were identified as L. pauxilium and L. zonulum. Then we assigned abundance 0,5 to each species (1 wild bee/ 2 species).",NA
"Marcos_Minarro_Malus_domestica_Spain_2015","Mun24","Plant observation","Bombus terrestris","species","bumblebees",1,47.12,75,2165,"Each orchard was surveyed three times. Each survey was the observation of 5 trees * 5 minutes (25 min). In each tree, we observed an area of about 1m of radius in which number of flowers was counted. When possible, insects were identified to species or caught for a posterior identificaction. An additional capture (10 minutes at each survey) of pollinators visiting apple flowers was made for identification in the lab of species not identifyied in the field sampling. This info was not used for abundance (that is why we only considered plant observaction as sasmpling method) but just to assign relative abundances to specific species from general groups (e.g. wild bees). This is why in some cases total abundances have decimal values. An example: we counted 1 wild bee during surveys but we could not identify the species on the wing. Then we captured 2 wild bees that were identified as L. pauxilium and L. zonulum. Then we assigned abundance 0,5 to each species (1 wild bee/ 2 species).",NA
"Marcos_Minarro_Malus_domestica_Spain_2015","Mun24","Plant observation","Other dipterans","order","other_flies",4,47.12,75,2165,"Each orchard was surveyed three times. Each survey was the observation of 5 trees * 5 minutes (25 min). In each tree, we observed an area of about 1m of radius in which number of flowers was counted. When possible, insects were identified to species or caught for a posterior identificaction. An additional capture (10 minutes at each survey) of pollinators visiting apple flowers was made for identification in the lab of species not identifyied in the field sampling. This info was not used for abundance (that is why we only considered plant observaction as sasmpling method) but just to assign relative abundances to specific species from general groups (e.g. wild bees). This is why in some cases total abundances have decimal values. An example: we counted 1 wild bee during surveys but we could not identify the species on the wing. Then we captured 2 wild bees that were identified as L. pauxilium and L. zonulum. Then we assigned abundance 0,5 to each species (1 wild bee/ 2 species).",NA
"Marcos_Minarro_Malus_domestica_Spain_2015","Mun24","Plant observation","Wild bees","superfamily","other_wild_bees",1,47.12,75,2165,"Each orchard was surveyed three times. Each survey was the observation of 5 trees * 5 minutes (25 min). In each tree, we observed an area of about 1m of radius in which number of flowers was counted. When possible, insects were identified to species or caught for a posterior identificaction. An additional capture (10 minutes at each survey) of pollinators visiting apple flowers was made for identification in the lab of species not identifyied in the field sampling. This info was not used for abundance (that is why we only considered plant observaction as sasmpling method) but just to assign relative abundances to specific species from general groups (e.g. wild bees). This is why in some cases total abundances have decimal values. An example: we counted 1 wild bee during surveys but we could not identify the species on the wing. Then we captured 2 wild bees that were identified as L. pauxilium and L. zonulum. Then we assigned abundance 0,5 to each species (1 wild bee/ 2 species).","Apoidea?"
"Marcos_Minarro_Malus_domestica_Spain_2015","Nor22","Plant observation","Andrena dorsata","species","other_wild_bees",1.5,47.12,75,2175,"Each orchard was surveyed three times. Each survey was the observation of 5 trees * 5 minutes (25 min). In each tree, we observed an area of about 1m of radius in which number of flowers was counted. When possible, insects were identified to species or caught for a posterior identificaction. An additional capture (10 minutes at each survey) of pollinators visiting apple flowers was made for identification in the lab of species not identifyied in the field sampling. This info was not used for abundance (that is why we only considered plant observaction as sasmpling method) but just to assign relative abundances to specific species from general groups (e.g. wild bees). This is why in some cases total abundances have decimal values. An example: we counted 1 wild bee during surveys but we could not identify the species on the wing. Then we captured 2 wild bees that were identified as L. pauxilium and L. zonulum. Then we assigned abundance 0,5 to each species (1 wild bee/ 2 species).",NA
"Marcos_Minarro_Malus_domestica_Spain_2015","Nor22","Plant observation","Andrena haemorrhoa","species","other_wild_bees",3,47.12,75,2175,"Each orchard was surveyed three times. Each survey was the observation of 5 trees * 5 minutes (25 min). In each tree, we observed an area of about 1m of radius in which number of flowers was counted. When possible, insects were identified to species or caught for a posterior identificaction. An additional capture (10 minutes at each survey) of pollinators visiting apple flowers was made for identification in the lab of species not identifyied in the field sampling. This info was not used for abundance (that is why we only considered plant observaction as sasmpling method) but just to assign relative abundances to specific species from general groups (e.g. wild bees). This is why in some cases total abundances have decimal values. An example: we counted 1 wild bee during surveys but we could not identify the species on the wing. Then we captured 2 wild bees that were identified as L. pauxilium and L. zonulum. Then we assigned abundance 0,5 to each species (1 wild bee/ 2 species).",NA
"Marcos_Minarro_Malus_domestica_Spain_2015","Nor22","Plant observation","Apis mellifera","species","honeybees",43,47.12,75,2175,"Each orchard was surveyed three times. Each survey was the observation of 5 trees * 5 minutes (25 min). In each tree, we observed an area of about 1m of radius in which number of flowers was counted. When possible, insects were identified to species or caught for a posterior identificaction. An additional capture (10 minutes at each survey) of pollinators visiting apple flowers was made for identification in the lab of species not identifyied in the field sampling. This info was not used for abundance (that is why we only considered plant observaction as sasmpling method) but just to assign relative abundances to specific species from general groups (e.g. wild bees). This is why in some cases total abundances have decimal values. An example: we counted 1 wild bee during surveys but we could not identify the species on the wing. Then we captured 2 wild bees that were identified as L. pauxilium and L. zonulum. Then we assigned abundance 0,5 to each species (1 wild bee/ 2 species).",NA
"Marcos_Minarro_Malus_domestica_Spain_2015","Nor22","Plant observation","Bombus pascuorum","species","bumblebees",1,47.12,75,2175,"Each orchard was surveyed three times. Each survey was the observation of 5 trees * 5 minutes (25 min). In each tree, we observed an area of about 1m of radius in which number of flowers was counted. When possible, insects were identified to species or caught for a posterior identificaction. An additional capture (10 minutes at each survey) of pollinators visiting apple flowers was made for identification in the lab of species not identifyied in the field sampling. This info was not used for abundance (that is why we only considered plant observaction as sasmpling method) but just to assign relative abundances to specific species from general groups (e.g. wild bees). This is why in some cases total abundances have decimal values. An example: we counted 1 wild bee during surveys but we could not identify the species on the wing. Then we captured 2 wild bees that were identified as L. pauxilium and L. zonulum. Then we assigned abundance 0,5 to each species (1 wild bee/ 2 species).",NA
"Marcos_Minarro_Malus_domestica_Spain_2015","Nor22","Plant observation","Bombus pratorum","species","bumblebees",1,47.12,75,2175,"Each orchard was surveyed three times. Each survey was the observation of 5 trees * 5 minutes (25 min). In each tree, we observed an area of about 1m of radius in which number of flowers was counted. When possible, insects were identified to species or caught for a posterior identificaction. An additional capture (10 minutes at each survey) of pollinators visiting apple flowers was made for identification in the lab of species not identifyied in the field sampling. This info was not used for abundance (that is why we only considered plant observaction as sasmpling method) but just to assign relative abundances to specific species from general groups (e.g. wild bees). This is why in some cases total abundances have decimal values. An example: we counted 1 wild bee during surveys but we could not identify the species on the wing. Then we captured 2 wild bees that were identified as L. pauxilium and L. zonulum. Then we assigned abundance 0,5 to each species (1 wild bee/ 2 species).",NA
"Marcos_Minarro_Malus_domestica_Spain_2015","Nor22","Plant observation","Bombus terrestris","species","bumblebees",2,47.12,75,2175,"Each orchard was surveyed three times. Each survey was the observation of 5 trees * 5 minutes (25 min). In each tree, we observed an area of about 1m of radius in which number of flowers was counted. When possible, insects were identified to species or caught for a posterior identificaction. An additional capture (10 minutes at each survey) of pollinators visiting apple flowers was made for identification in the lab of species not identifyied in the field sampling. This info was not used for abundance (that is why we only considered plant observaction as sasmpling method) but just to assign relative abundances to specific species from general groups (e.g. wild bees). This is why in some cases total abundances have decimal values. An example: we counted 1 wild bee during surveys but we could not identify the species on the wing. Then we captured 2 wild bees that were identified as L. pauxilium and L. zonulum. Then we assigned abundance 0,5 to each species (1 wild bee/ 2 species).",NA
"Marcos_Minarro_Malus_domestica_Spain_2015","Nor22","Plant observation","Episyrphus balteatus","species","syrphids",1,47.12,75,2175,"Each orchard was surveyed three times. Each survey was the observation of 5 trees * 5 minutes (25 min). In each tree, we observed an area of about 1m of radius in which number of flowers was counted. When possible, insects were identified to species or caught for a posterior identificaction. An additional capture (10 minutes at each survey) of pollinators visiting apple flowers was made for identification in the lab of species not identifyied in the field sampling. This info was not used for abundance (that is why we only considered plant observaction as sasmpling method) but just to assign relative abundances to specific species from general groups (e.g. wild bees). This is why in some cases total abundances have decimal values. An example: we counted 1 wild bee during surveys but we could not identify the species on the wing. Then we captured 2 wild bees that were identified as L. pauxilium and L. zonulum. Then we assigned abundance 0,5 to each species (1 wild bee/ 2 species).",NA
"Marcos_Minarro_Malus_domestica_Spain_2015","Nor22","Plant observation","Eristalis spp.","genus","syrphids",17,47.12,75,2175,"Each orchard was surveyed three times. Each survey was the observation of 5 trees * 5 minutes (25 min). In each tree, we observed an area of about 1m of radius in which number of flowers was counted. When possible, insects were identified to species or caught for a posterior identificaction. An additional capture (10 minutes at each survey) of pollinators visiting apple flowers was made for identification in the lab of species not identifyied in the field sampling. This info was not used for abundance (that is why we only considered plant observaction as sasmpling method) but just to assign relative abundances to specific species from general groups (e.g. wild bees). This is why in some cases total abundances have decimal values. An example: we counted 1 wild bee during surveys but we could not identify the species on the wing. Then we captured 2 wild bees that were identified as L. pauxilium and L. zonulum. Then we assigned abundance 0,5 to each species (1 wild bee/ 2 species).",NA
"Marcos_Minarro_Malus_domestica_Spain_2015","Nor22","Plant observation","Eristalis tenax","species","syrphids",4,47.12,75,2175,"Each orchard was surveyed three times. Each survey was the observation of 5 trees * 5 minutes (25 min). In each tree, we observed an area of about 1m of radius in which number of flowers was counted. When possible, insects were identified to species or caught for a posterior identificaction. An additional capture (10 minutes at each survey) of pollinators visiting apple flowers was made for identification in the lab of species not identifyied in the field sampling. This info was not used for abundance (that is why we only considered plant observaction as sasmpling method) but just to assign relative abundances to specific species from general groups (e.g. wild bees). This is why in some cases total abundances have decimal values. An example: we counted 1 wild bee during surveys but we could not identify the species on the wing. Then we captured 2 wild bees that were identified as L. pauxilium and L. zonulum. Then we assigned abundance 0,5 to each species (1 wild bee/ 2 species).",NA
"Marcos_Minarro_Malus_domestica_Spain_2015","Nor22","Plant observation","Hemiptera","order","other",1,47.12,75,2175,"Each orchard was surveyed three times. Each survey was the observation of 5 trees * 5 minutes (25 min). In each tree, we observed an area of about 1m of radius in which number of flowers was counted. When possible, insects were identified to species or caught for a posterior identificaction. An additional capture (10 minutes at each survey) of pollinators visiting apple flowers was made for identification in the lab of species not identifyied in the field sampling. This info was not used for abundance (that is why we only considered plant observaction as sasmpling method) but just to assign relative abundances to specific species from general groups (e.g. wild bees). This is why in some cases total abundances have decimal values. An example: we counted 1 wild bee during surveys but we could not identify the species on the wing. Then we captured 2 wild bees that were identified as L. pauxilium and L. zonulum. Then we assigned abundance 0,5 to each species (1 wild bee/ 2 species).",NA
"Marcos_Minarro_Malus_domestica_Spain_2015","Nor22","Plant observation","Lasioglossum pauxillum","species","other_wild_bees",1.5,47.12,75,2175,"Each orchard was surveyed three times. Each survey was the observation of 5 trees * 5 minutes (25 min). In each tree, we observed an area of about 1m of radius in which number of flowers was counted. When possible, insects were identified to species or caught for a posterior identificaction. An additional capture (10 minutes at each survey) of pollinators visiting apple flowers was made for identification in the lab of species not identifyied in the field sampling. This info was not used for abundance (that is why we only considered plant observaction as sasmpling method) but just to assign relative abundances to specific species from general groups (e.g. wild bees). This is why in some cases total abundances have decimal values. An example: we counted 1 wild bee during surveys but we could not identify the species on the wing. Then we captured 2 wild bees that were identified as L. pauxilium and L. zonulum. Then we assigned abundance 0,5 to each species (1 wild bee/ 2 species).",NA
"Marcos_Minarro_Malus_domestica_Spain_2015","Nor22","Plant observation","Lepidopterans","order","lepidoptera",2,47.12,75,2175,"Each orchard was surveyed three times. Each survey was the observation of 5 trees * 5 minutes (25 min). In each tree, we observed an area of about 1m of radius in which number of flowers was counted. When possible, insects were identified to species or caught for a posterior identificaction. An additional capture (10 minutes at each survey) of pollinators visiting apple flowers was made for identification in the lab of species not identifyied in the field sampling. This info was not used for abundance (that is why we only considered plant observaction as sasmpling method) but just to assign relative abundances to specific species from general groups (e.g. wild bees). This is why in some cases total abundances have decimal values. An example: we counted 1 wild bee during surveys but we could not identify the species on the wing. Then we captured 2 wild bees that were identified as L. pauxilium and L. zonulum. Then we assigned abundance 0,5 to each species (1 wild bee/ 2 species).",NA
"Marcos_Minarro_Malus_domestica_Spain_2015","Nor22","Plant observation","Other coleopterans","order","beetles",1,47.12,75,2175,"Each orchard was surveyed three times. Each survey was the observation of 5 trees * 5 minutes (25 min). In each tree, we observed an area of about 1m of radius in which number of flowers was counted. When possible, insects were identified to species or caught for a posterior identificaction. An additional capture (10 minutes at each survey) of pollinators visiting apple flowers was made for identification in the lab of species not identifyied in the field sampling. This info was not used for abundance (that is why we only considered plant observaction as sasmpling method) but just to assign relative abundances to specific species from general groups (e.g. wild bees). This is why in some cases total abundances have decimal values. An example: we counted 1 wild bee during surveys but we could not identify the species on the wing. Then we captured 2 wild bees that were identified as L. pauxilium and L. zonulum. Then we assigned abundance 0,5 to each species (1 wild bee/ 2 species).",NA
"Marcos_Minarro_Malus_domestica_Spain_2015","Nor22","Plant observation","Other dipterans","order","other_flies",8,47.12,75,2175,"Each orchard was surveyed three times. Each survey was the observation of 5 trees * 5 minutes (25 min). In each tree, we observed an area of about 1m of radius in which number of flowers was counted. When possible, insects were identified to species or caught for a posterior identificaction. An additional capture (10 minutes at each survey) of pollinators visiting apple flowers was made for identification in the lab of species not identifyied in the field sampling. This info was not used for abundance (that is why we only considered plant observaction as sasmpling method) but just to assign relative abundances to specific species from general groups (e.g. wild bees). This is why in some cases total abundances have decimal values. An example: we counted 1 wild bee during surveys but we could not identify the species on the wing. Then we captured 2 wild bees that were identified as L. pauxilium and L. zonulum. Then we assigned abundance 0,5 to each species (1 wild bee/ 2 species).",NA
"Marcos_Minarro_Malus_domestica_Spain_2015","Nor22","Plant observation","Wild bees","superfamily","other_wild_bees",3,47.12,75,2175,"Each orchard was surveyed three times. Each survey was the observation of 5 trees * 5 minutes (25 min). In each tree, we observed an area of about 1m of radius in which number of flowers was counted. When possible, insects were identified to species or caught for a posterior identificaction. An additional capture (10 minutes at each survey) of pollinators visiting apple flowers was made for identification in the lab of species not identifyied in the field sampling. This info was not used for abundance (that is why we only considered plant observaction as sasmpling method) but just to assign relative abundances to specific species from general groups (e.g. wild bees). This is why in some cases total abundances have decimal values. An example: we counted 1 wild bee during surveys but we could not identify the species on the wing. Then we captured 2 wild bees that were identified as L. pauxilium and L. zonulum. Then we assigned abundance 0,5 to each species (1 wild bee/ 2 species).","Apoidea?"
"Marcos_Minarro_Malus_domestica_Spain_2015","Obi23","Plant observation","Andrena dorsata","species","other_wild_bees",3,47.12,75,2331,"Each orchard was surveyed three times. Each survey was the observation of 5 trees * 5 minutes (25 min). In each tree, we observed an area of about 1m of radius in which number of flowers was counted. When possible, insects were identified to species or caught for a posterior identificaction. An additional capture (10 minutes at each survey) of pollinators visiting apple flowers was made for identification in the lab of species not identifyied in the field sampling. This info was not used for abundance (that is why we only considered plant observaction as sasmpling method) but just to assign relative abundances to specific species from general groups (e.g. wild bees). This is why in some cases total abundances have decimal values. An example: we counted 1 wild bee during surveys but we could not identify the species on the wing. Then we captured 2 wild bees that were identified as L. pauxilium and L. zonulum. Then we assigned abundance 0,5 to each species (1 wild bee/ 2 species).",NA
"Marcos_Minarro_Malus_domestica_Spain_2015","Obi23","Plant observation","Apis mellifera","species","honeybees",57,47.12,75,2331,"Each orchard was surveyed three times. Each survey was the observation of 5 trees * 5 minutes (25 min). In each tree, we observed an area of about 1m of radius in which number of flowers was counted. When possible, insects were identified to species or caught for a posterior identificaction. An additional capture (10 minutes at each survey) of pollinators visiting apple flowers was made for identification in the lab of species not identifyied in the field sampling. This info was not used for abundance (that is why we only considered plant observaction as sasmpling method) but just to assign relative abundances to specific species from general groups (e.g. wild bees). This is why in some cases total abundances have decimal values. An example: we counted 1 wild bee during surveys but we could not identify the species on the wing. Then we captured 2 wild bees that were identified as L. pauxilium and L. zonulum. Then we assigned abundance 0,5 to each species (1 wild bee/ 2 species).",NA
"Marcos_Minarro_Malus_domestica_Spain_2015","Obi23","Plant observation","Bombus pratorum","species","bumblebees",1,47.12,75,2331,"Each orchard was surveyed three times. Each survey was the observation of 5 trees * 5 minutes (25 min). In each tree, we observed an area of about 1m of radius in which number of flowers was counted. When possible, insects were identified to species or caught for a posterior identificaction. An additional capture (10 minutes at each survey) of pollinators visiting apple flowers was made for identification in the lab of species not identifyied in the field sampling. This info was not used for abundance (that is why we only considered plant observaction as sasmpling method) but just to assign relative abundances to specific species from general groups (e.g. wild bees). This is why in some cases total abundances have decimal values. An example: we counted 1 wild bee during surveys but we could not identify the species on the wing. Then we captured 2 wild bees that were identified as L. pauxilium and L. zonulum. Then we assigned abundance 0,5 to each species (1 wild bee/ 2 species).",NA
"Marcos_Minarro_Malus_domestica_Spain_2015","Obi23","Plant observation","Bombus terrestris","species","bumblebees",13,47.12,75,2331,"Each orchard was surveyed three times. Each survey was the observation of 5 trees * 5 minutes (25 min). In each tree, we observed an area of about 1m of radius in which number of flowers was counted. When possible, insects were identified to species or caught for a posterior identificaction. An additional capture (10 minutes at each survey) of pollinators visiting apple flowers was made for identification in the lab of species not identifyied in the field sampling. This info was not used for abundance (that is why we only considered plant observaction as sasmpling method) but just to assign relative abundances to specific species from general groups (e.g. wild bees). This is why in some cases total abundances have decimal values. An example: we counted 1 wild bee during surveys but we could not identify the species on the wing. Then we captured 2 wild bees that were identified as L. pauxilium and L. zonulum. Then we assigned abundance 0,5 to each species (1 wild bee/ 2 species).",NA
"Marcos_Minarro_Malus_domestica_Spain_2015","Obi23","Plant observation","Eristalis spp.","genus","syrphids",3,47.12,75,2331,"Each orchard was surveyed three times. Each survey was the observation of 5 trees * 5 minutes (25 min). In each tree, we observed an area of about 1m of radius in which number of flowers was counted. When possible, insects were identified to species or caught for a posterior identificaction. An additional capture (10 minutes at each survey) of pollinators visiting apple flowers was made for identification in the lab of species not identifyied in the field sampling. This info was not used for abundance (that is why we only considered plant observaction as sasmpling method) but just to assign relative abundances to specific species from general groups (e.g. wild bees). This is why in some cases total abundances have decimal values. An example: we counted 1 wild bee during surveys but we could not identify the species on the wing. Then we captured 2 wild bees that were identified as L. pauxilium and L. zonulum. Then we assigned abundance 0,5 to each species (1 wild bee/ 2 species).",NA
"Marcos_Minarro_Malus_domestica_Spain_2015","Obi23","Plant observation","Hoverfly","family","syrphids",4,47.12,75,2331,"Each orchard was surveyed three times. Each survey was the observation of 5 trees * 5 minutes (25 min). In each tree, we observed an area of about 1m of radius in which number of flowers was counted. When possible, insects were identified to species or caught for a posterior identificaction. An additional capture (10 minutes at each survey) of pollinators visiting apple flowers was made for identification in the lab of species not identifyied in the field sampling. This info was not used for abundance (that is why we only considered plant observaction as sasmpling method) but just to assign relative abundances to specific species from general groups (e.g. wild bees). This is why in some cases total abundances have decimal values. An example: we counted 1 wild bee during surveys but we could not identify the species on the wing. Then we captured 2 wild bees that were identified as L. pauxilium and L. zonulum. Then we assigned abundance 0,5 to each species (1 wild bee/ 2 species).",NA
"Marcos_Minarro_Malus_domestica_Spain_2015","Obi23","Plant observation","Other dipterans","order","other_flies",7,47.12,75,2331,"Each orchard was surveyed three times. Each survey was the observation of 5 trees * 5 minutes (25 min). In each tree, we observed an area of about 1m of radius in which number of flowers was counted. When possible, insects were identified to species or caught for a posterior identificaction. An additional capture (10 minutes at each survey) of pollinators visiting apple flowers was made for identification in the lab of species not identifyied in the field sampling. This info was not used for abundance (that is why we only considered plant observaction as sasmpling method) but just to assign relative abundances to specific species from general groups (e.g. wild bees). This is why in some cases total abundances have decimal values. An example: we counted 1 wild bee during surveys but we could not identify the species on the wing. Then we captured 2 wild bees that were identified as L. pauxilium and L. zonulum. Then we assigned abundance 0,5 to each species (1 wild bee/ 2 species).",NA
"Marcos_Minarro_Malus_domestica_Spain_2015","Obi23","Plant observation","Wild bees","superfamily","other_wild_bees",8,47.12,75,2331,"Each orchard was surveyed three times. Each survey was the observation of 5 trees * 5 minutes (25 min). In each tree, we observed an area of about 1m of radius in which number of flowers was counted. When possible, insects were identified to species or caught for a posterior identificaction. An additional capture (10 minutes at each survey) of pollinators visiting apple flowers was made for identification in the lab of species not identifyied in the field sampling. This info was not used for abundance (that is why we only considered plant observaction as sasmpling method) but just to assign relative abundances to specific species from general groups (e.g. wild bees). This is why in some cases total abundances have decimal values. An example: we counted 1 wild bee during surveys but we could not identify the species on the wing. Then we captured 2 wild bees that were identified as L. pauxilium and L. zonulum. Then we assigned abundance 0,5 to each species (1 wild bee/ 2 species).","Apoidea?"
"Marcos_Minarro_Malus_domestica_Spain_2015","Pan21","Plant observation","Andrena minutula","species","other_wild_bees",1,47.12,75,1991,"Each orchard was surveyed three times. Each survey was the observation of 5 trees * 5 minutes (25 min). In each tree, we observed an area of about 1m of radius in which number of flowers was counted. When possible, insects were identified to species or caught for a posterior identificaction. An additional capture (10 minutes at each survey) of pollinators visiting apple flowers was made for identification in the lab of species not identifyied in the field sampling. This info was not used for abundance (that is why we only considered plant observaction as sasmpling method) but just to assign relative abundances to specific species from general groups (e.g. wild bees). This is why in some cases total abundances have decimal values. An example: we counted 1 wild bee during surveys but we could not identify the species on the wing. Then we captured 2 wild bees that were identified as L. pauxilium and L. zonulum. Then we assigned abundance 0,5 to each species (1 wild bee/ 2 species).",NA
"Marcos_Minarro_Malus_domestica_Spain_2015","Pan21","Plant observation","Andrena pilipes","species","other_wild_bees",2,47.12,75,1991,"Each orchard was surveyed three times. Each survey was the observation of 5 trees * 5 minutes (25 min). In each tree, we observed an area of about 1m of radius in which number of flowers was counted. When possible, insects were identified to species or caught for a posterior identificaction. An additional capture (10 minutes at each survey) of pollinators visiting apple flowers was made for identification in the lab of species not identifyied in the field sampling. This info was not used for abundance (that is why we only considered plant observaction as sasmpling method) but just to assign relative abundances to specific species from general groups (e.g. wild bees). This is why in some cases total abundances have decimal values. An example: we counted 1 wild bee during surveys but we could not identify the species on the wing. Then we captured 2 wild bees that were identified as L. pauxilium and L. zonulum. Then we assigned abundance 0,5 to each species (1 wild bee/ 2 species).",NA
"Marcos_Minarro_Malus_domestica_Spain_2015","Pan21","Plant observation","Apis mellifera","species","honeybees",50,47.12,75,1991,"Each orchard was surveyed three times. Each survey was the observation of 5 trees * 5 minutes (25 min). In each tree, we observed an area of about 1m of radius in which number of flowers was counted. When possible, insects were identified to species or caught for a posterior identificaction. An additional capture (10 minutes at each survey) of pollinators visiting apple flowers was made for identification in the lab of species not identifyied in the field sampling. This info was not used for abundance (that is why we only considered plant observaction as sasmpling method) but just to assign relative abundances to specific species from general groups (e.g. wild bees). This is why in some cases total abundances have decimal values. An example: we counted 1 wild bee during surveys but we could not identify the species on the wing. Then we captured 2 wild bees that were identified as L. pauxilium and L. zonulum. Then we assigned abundance 0,5 to each species (1 wild bee/ 2 species).",NA
"Marcos_Minarro_Malus_domestica_Spain_2015","Pan21","Plant observation","Bombus pratorum","species","bumblebees",1,47.12,75,1991,"Each orchard was surveyed three times. Each survey was the observation of 5 trees * 5 minutes (25 min). In each tree, we observed an area of about 1m of radius in which number of flowers was counted. When possible, insects were identified to species or caught for a posterior identificaction. An additional capture (10 minutes at each survey) of pollinators visiting apple flowers was made for identification in the lab of species not identifyied in the field sampling. This info was not used for abundance (that is why we only considered plant observaction as sasmpling method) but just to assign relative abundances to specific species from general groups (e.g. wild bees). This is why in some cases total abundances have decimal values. An example: we counted 1 wild bee during surveys but we could not identify the species on the wing. Then we captured 2 wild bees that were identified as L. pauxilium and L. zonulum. Then we assigned abundance 0,5 to each species (1 wild bee/ 2 species).",NA
"Marcos_Minarro_Malus_domestica_Spain_2015","Pan21","Plant observation","Bombus terrestris","species","bumblebees",3,47.12,75,1991,"Each orchard was surveyed three times. Each survey was the observation of 5 trees * 5 minutes (25 min). In each tree, we observed an area of about 1m of radius in which number of flowers was counted. When possible, insects were identified to species or caught for a posterior identificaction. An additional capture (10 minutes at each survey) of pollinators visiting apple flowers was made for identification in the lab of species not identifyied in the field sampling. This info was not used for abundance (that is why we only considered plant observaction as sasmpling method) but just to assign relative abundances to specific species from general groups (e.g. wild bees). This is why in some cases total abundances have decimal values. An example: we counted 1 wild bee during surveys but we could not identify the species on the wing. Then we captured 2 wild bees that were identified as L. pauxilium and L. zonulum. Then we assigned abundance 0,5 to each species (1 wild bee/ 2 species).",NA
"Marcos_Minarro_Malus_domestica_Spain_2015","Pan21","Plant observation","Cantharidae","family","beetles",2,47.12,75,1991,"Each orchard was surveyed three times. Each survey was the observation of 5 trees * 5 minutes (25 min). In each tree, we observed an area of about 1m of radius in which number of flowers was counted. When possible, insects were identified to species or caught for a posterior identificaction. An additional capture (10 minutes at each survey) of pollinators visiting apple flowers was made for identification in the lab of species not identifyied in the field sampling. This info was not used for abundance (that is why we only considered plant observaction as sasmpling method) but just to assign relative abundances to specific species from general groups (e.g. wild bees). This is why in some cases total abundances have decimal values. An example: we counted 1 wild bee during surveys but we could not identify the species on the wing. Then we captured 2 wild bees that were identified as L. pauxilium and L. zonulum. Then we assigned abundance 0,5 to each species (1 wild bee/ 2 species).",NA
"Marcos_Minarro_Malus_domestica_Spain_2015","Pan21","Plant observation","Eristalis tenax","species","syrphids",14,47.12,75,1991,"Each orchard was surveyed three times. Each survey was the observation of 5 trees * 5 minutes (25 min). In each tree, we observed an area of about 1m of radius in which number of flowers was counted. When possible, insects were identified to species or caught for a posterior identificaction. An additional capture (10 minutes at each survey) of pollinators visiting apple flowers was made for identification in the lab of species not identifyied in the field sampling. This info was not used for abundance (that is why we only considered plant observaction as sasmpling method) but just to assign relative abundances to specific species from general groups (e.g. wild bees). This is why in some cases total abundances have decimal values. An example: we counted 1 wild bee during surveys but we could not identify the species on the wing. Then we captured 2 wild bees that were identified as L. pauxilium and L. zonulum. Then we assigned abundance 0,5 to each species (1 wild bee/ 2 species).",NA
"Marcos_Minarro_Malus_domestica_Spain_2015","Pan21","Plant observation","Halictidae morpho 1","morphospecies","other_wild_bees",1,47.12,75,1991,"Each orchard was surveyed three times. Each survey was the observation of 5 trees * 5 minutes (25 min). In each tree, we observed an area of about 1m of radius in which number of flowers was counted. When possible, insects were identified to species or caught for a posterior identificaction. An additional capture (10 minutes at each survey) of pollinators visiting apple flowers was made for identification in the lab of species not identifyied in the field sampling. This info was not used for abundance (that is why we only considered plant observaction as sasmpling method) but just to assign relative abundances to specific species from general groups (e.g. wild bees). This is why in some cases total abundances have decimal values. An example: we counted 1 wild bee during surveys but we could not identify the species on the wing. Then we captured 2 wild bees that were identified as L. pauxilium and L. zonulum. Then we assigned abundance 0,5 to each species (1 wild bee/ 2 species).",NA
"Marcos_Minarro_Malus_domestica_Spain_2015","Pan21","Plant observation","Nomada succinta","species","other_wild_bees",1,47.12,75,1991,"Each orchard was surveyed three times. Each survey was the observation of 5 trees * 5 minutes (25 min). In each tree, we observed an area of about 1m of radius in which number of flowers was counted. When possible, insects were identified to species or caught for a posterior identificaction. An additional capture (10 minutes at each survey) of pollinators visiting apple flowers was made for identification in the lab of species not identifyied in the field sampling. This info was not used for abundance (that is why we only considered plant observaction as sasmpling method) but just to assign relative abundances to specific species from general groups (e.g. wild bees). This is why in some cases total abundances have decimal values. An example: we counted 1 wild bee during surveys but we could not identify the species on the wing. Then we captured 2 wild bees that were identified as L. pauxilium and L. zonulum. Then we assigned abundance 0,5 to each species (1 wild bee/ 2 species).",NA
"Marcos_Minarro_Malus_domestica_Spain_2015","Pan21","Plant observation","Other coleopterans","order","beetles",1,47.12,75,1991,"Each orchard was surveyed three times. Each survey was the observation of 5 trees * 5 minutes (25 min). In each tree, we observed an area of about 1m of radius in which number of flowers was counted. When possible, insects were identified to species or caught for a posterior identificaction. An additional capture (10 minutes at each survey) of pollinators visiting apple flowers was made for identification in the lab of species not identifyied in the field sampling. This info was not used for abundance (that is why we only considered plant observaction as sasmpling method) but just to assign relative abundances to specific species from general groups (e.g. wild bees). This is why in some cases total abundances have decimal values. An example: we counted 1 wild bee during surveys but we could not identify the species on the wing. Then we captured 2 wild bees that were identified as L. pauxilium and L. zonulum. Then we assigned abundance 0,5 to each species (1 wild bee/ 2 species).",NA
"Marcos_Minarro_Malus_domestica_Spain_2015","Pan21","Plant observation","Other dipterans","order","other_flies",9,47.12,75,1991,"Each orchard was surveyed three times. Each survey was the observation of 5 trees * 5 minutes (25 min). In each tree, we observed an area of about 1m of radius in which number of flowers was counted. When possible, insects were identified to species or caught for a posterior identificaction. An additional capture (10 minutes at each survey) of pollinators visiting apple flowers was made for identification in the lab of species not identifyied in the field sampling. This info was not used for abundance (that is why we only considered plant observaction as sasmpling method) but just to assign relative abundances to specific species from general groups (e.g. wild bees). This is why in some cases total abundances have decimal values. An example: we counted 1 wild bee during surveys but we could not identify the species on the wing. Then we captured 2 wild bees that were identified as L. pauxilium and L. zonulum. Then we assigned abundance 0,5 to each species (1 wild bee/ 2 species).",NA
"Marcos_Minarro_Malus_domestica_Spain_2015","Por10","Plant observation","Andrena sp.","genus","other_wild_bees",1,47.12,75,2749,"Each orchard was surveyed three times. Each survey was the observation of 5 trees * 5 minutes (25 min). In each tree, we observed an area of about 1m of radius in which number of flowers was counted. When possible, insects were identified to species or caught for a posterior identificaction. An additional capture (10 minutes at each survey) of pollinators visiting apple flowers was made for identification in the lab of species not identifyied in the field sampling. This info was not used for abundance (that is why we only considered plant observaction as sasmpling method) but just to assign relative abundances to specific species from general groups (e.g. wild bees). This is why in some cases total abundances have decimal values. An example: we counted 1 wild bee during surveys but we could not identify the species on the wing. Then we captured 2 wild bees that were identified as L. pauxilium and L. zonulum. Then we assigned abundance 0,5 to each species (1 wild bee/ 2 species).",NA
"Marcos_Minarro_Malus_domestica_Spain_2015","Por10","Plant observation","Apis mellifera","species","honeybees",32,47.12,75,2749,"Each orchard was surveyed three times. Each survey was the observation of 5 trees * 5 minutes (25 min). In each tree, we observed an area of about 1m of radius in which number of flowers was counted. When possible, insects were identified to species or caught for a posterior identificaction. An additional capture (10 minutes at each survey) of pollinators visiting apple flowers was made for identification in the lab of species not identifyied in the field sampling. This info was not used for abundance (that is why we only considered plant observaction as sasmpling method) but just to assign relative abundances to specific species from general groups (e.g. wild bees). This is why in some cases total abundances have decimal values. An example: we counted 1 wild bee during surveys but we could not identify the species on the wing. Then we captured 2 wild bees that were identified as L. pauxilium and L. zonulum. Then we assigned abundance 0,5 to each species (1 wild bee/ 2 species).",NA
"Marcos_Minarro_Malus_domestica_Spain_2015","Por10","Plant observation","Bombus terrestris","species","bumblebees",1,47.12,75,2749,"Each orchard was surveyed three times. Each survey was the observation of 5 trees * 5 minutes (25 min). In each tree, we observed an area of about 1m of radius in which number of flowers was counted. When possible, insects were identified to species or caught for a posterior identificaction. An additional capture (10 minutes at each survey) of pollinators visiting apple flowers was made for identification in the lab of species not identifyied in the field sampling. This info was not used for abundance (that is why we only considered plant observaction as sasmpling method) but just to assign relative abundances to specific species from general groups (e.g. wild bees). This is why in some cases total abundances have decimal values. An example: we counted 1 wild bee during surveys but we could not identify the species on the wing. Then we captured 2 wild bees that were identified as L. pauxilium and L. zonulum. Then we assigned abundance 0,5 to each species (1 wild bee/ 2 species).",NA
"Marcos_Minarro_Malus_domestica_Spain_2015","Por10","Plant observation","Episyrphus balteatus","species","syrphids",2,47.12,75,2749,"Each orchard was surveyed three times. Each survey was the observation of 5 trees * 5 minutes (25 min). In each tree, we observed an area of about 1m of radius in which number of flowers was counted. When possible, insects were identified to species or caught for a posterior identificaction. An additional capture (10 minutes at each survey) of pollinators visiting apple flowers was made for identification in the lab of species not identifyied in the field sampling. This info was not used for abundance (that is why we only considered plant observaction as sasmpling method) but just to assign relative abundances to specific species from general groups (e.g. wild bees). This is why in some cases total abundances have decimal values. An example: we counted 1 wild bee during surveys but we could not identify the species on the wing. Then we captured 2 wild bees that were identified as L. pauxilium and L. zonulum. Then we assigned abundance 0,5 to each species (1 wild bee/ 2 species).",NA
"Marcos_Minarro_Malus_domestica_Spain_2015","Por10","Plant observation","Eristalis spp.","genus","syrphids",9,47.12,75,2749,"Each orchard was surveyed three times. Each survey was the observation of 5 trees * 5 minutes (25 min). In each tree, we observed an area of about 1m of radius in which number of flowers was counted. When possible, insects were identified to species or caught for a posterior identificaction. An additional capture (10 minutes at each survey) of pollinators visiting apple flowers was made for identification in the lab of species not identifyied in the field sampling. This info was not used for abundance (that is why we only considered plant observaction as sasmpling method) but just to assign relative abundances to specific species from general groups (e.g. wild bees). This is why in some cases total abundances have decimal values. An example: we counted 1 wild bee during surveys but we could not identify the species on the wing. Then we captured 2 wild bees that were identified as L. pauxilium and L. zonulum. Then we assigned abundance 0,5 to each species (1 wild bee/ 2 species).",NA
"Marcos_Minarro_Malus_domestica_Spain_2015","Por10","Plant observation","Eristalis tenax","species","syrphids",4,47.12,75,2749,"Each orchard was surveyed three times. Each survey was the observation of 5 trees * 5 minutes (25 min). In each tree, we observed an area of about 1m of radius in which number of flowers was counted. When possible, insects were identified to species or caught for a posterior identificaction. An additional capture (10 minutes at each survey) of pollinators visiting apple flowers was made for identification in the lab of species not identifyied in the field sampling. This info was not used for abundance (that is why we only considered plant observaction as sasmpling method) but just to assign relative abundances to specific species from general groups (e.g. wild bees). This is why in some cases total abundances have decimal values. An example: we counted 1 wild bee during surveys but we could not identify the species on the wing. Then we captured 2 wild bees that were identified as L. pauxilium and L. zonulum. Then we assigned abundance 0,5 to each species (1 wild bee/ 2 species).",NA
"Marcos_Minarro_Malus_domestica_Spain_2015","Por10","Plant observation","Halictus tumulorum","species","other_wild_bees",0.667,47.12,75,2749,"Each orchard was surveyed three times. Each survey was the observation of 5 trees * 5 minutes (25 min). In each tree, we observed an area of about 1m of radius in which number of flowers was counted. When possible, insects were identified to species or caught for a posterior identificaction. An additional capture (10 minutes at each survey) of pollinators visiting apple flowers was made for identification in the lab of species not identifyied in the field sampling. This info was not used for abundance (that is why we only considered plant observaction as sasmpling method) but just to assign relative abundances to specific species from general groups (e.g. wild bees). This is why in some cases total abundances have decimal values. An example: we counted 1 wild bee during surveys but we could not identify the species on the wing. Then we captured 2 wild bees that were identified as L. pauxilium and L. zonulum. Then we assigned abundance 0,5 to each species (1 wild bee/ 2 species).",NA
"Marcos_Minarro_Malus_domestica_Spain_2015","Por10","Plant observation","Hoverfly","family","syrphids",1,47.12,75,2749,"Each orchard was surveyed three times. Each survey was the observation of 5 trees * 5 minutes (25 min). In each tree, we observed an area of about 1m of radius in which number of flowers was counted. When possible, insects were identified to species or caught for a posterior identificaction. An additional capture (10 minutes at each survey) of pollinators visiting apple flowers was made for identification in the lab of species not identifyied in the field sampling. This info was not used for abundance (that is why we only considered plant observaction as sasmpling method) but just to assign relative abundances to specific species from general groups (e.g. wild bees). This is why in some cases total abundances have decimal values. An example: we counted 1 wild bee during surveys but we could not identify the species on the wing. Then we captured 2 wild bees that were identified as L. pauxilium and L. zonulum. Then we assigned abundance 0,5 to each species (1 wild bee/ 2 species).",NA
"Marcos_Minarro_Malus_domestica_Spain_2015","Por10","Plant observation","Lasioglossum fulvicorne","species","other_wild_bees",0.667,47.12,75,2749,"Each orchard was surveyed three times. Each survey was the observation of 5 trees * 5 minutes (25 min). In each tree, we observed an area of about 1m of radius in which number of flowers was counted. When possible, insects were identified to species or caught for a posterior identificaction. An additional capture (10 minutes at each survey) of pollinators visiting apple flowers was made for identification in the lab of species not identifyied in the field sampling. This info was not used for abundance (that is why we only considered plant observaction as sasmpling method) but just to assign relative abundances to specific species from general groups (e.g. wild bees). This is why in some cases total abundances have decimal values. An example: we counted 1 wild bee during surveys but we could not identify the species on the wing. Then we captured 2 wild bees that were identified as L. pauxilium and L. zonulum. Then we assigned abundance 0,5 to each species (1 wild bee/ 2 species).",NA
"Marcos_Minarro_Malus_domestica_Spain_2015","Por10","Plant observation","Lasioglossum morio","species","other_wild_bees",0.667,47.12,75,2749,"Each orchard was surveyed three times. Each survey was the observation of 5 trees * 5 minutes (25 min). In each tree, we observed an area of about 1m of radius in which number of flowers was counted. When possible, insects were identified to species or caught for a posterior identificaction. An additional capture (10 minutes at each survey) of pollinators visiting apple flowers was made for identification in the lab of species not identifyied in the field sampling. This info was not used for abundance (that is why we only considered plant observaction as sasmpling method) but just to assign relative abundances to specific species from general groups (e.g. wild bees). This is why in some cases total abundances have decimal values. An example: we counted 1 wild bee during surveys but we could not identify the species on the wing. Then we captured 2 wild bees that were identified as L. pauxilium and L. zonulum. Then we assigned abundance 0,5 to each species (1 wild bee/ 2 species).",NA
"Marcos_Minarro_Malus_domestica_Spain_2015","Por10","Plant observation","Other dipterans","order","other_flies",1,47.12,75,2749,"Each orchard was surveyed three times. Each survey was the observation of 5 trees * 5 minutes (25 min). In each tree, we observed an area of about 1m of radius in which number of flowers was counted. When possible, insects were identified to species or caught for a posterior identificaction. An additional capture (10 minutes at each survey) of pollinators visiting apple flowers was made for identification in the lab of species not identifyied in the field sampling. This info was not used for abundance (that is why we only considered plant observaction as sasmpling method) but just to assign relative abundances to specific species from general groups (e.g. wild bees). This is why in some cases total abundances have decimal values. An example: we counted 1 wild bee during surveys but we could not identify the species on the wing. Then we captured 2 wild bees that were identified as L. pauxilium and L. zonulum. Then we assigned abundance 0,5 to each species (1 wild bee/ 2 species).",NA
"Marcos_Minarro_Malus_domestica_Spain_2015","Por10","Plant observation","Oxythyrea funesta","species","beetles",1,47.12,75,2749,"Each orchard was surveyed three times. Each survey was the observation of 5 trees * 5 minutes (25 min). In each tree, we observed an area of about 1m of radius in which number of flowers was counted. When possible, insects were identified to species or caught for a posterior identificaction. An additional capture (10 minutes at each survey) of pollinators visiting apple flowers was made for identification in the lab of species not identifyied in the field sampling. This info was not used for abundance (that is why we only considered plant observaction as sasmpling method) but just to assign relative abundances to specific species from general groups (e.g. wild bees). This is why in some cases total abundances have decimal values. An example: we counted 1 wild bee during surveys but we could not identify the species on the wing. Then we captured 2 wild bees that were identified as L. pauxilium and L. zonulum. Then we assigned abundance 0,5 to each species (1 wild bee/ 2 species).",NA
"Marcos_Minarro_Malus_domestica_Spain_2015","Por10","Plant observation","Sphaerophoria scripta","species","syrphids",2,47.12,75,2749,"Each orchard was surveyed three times. Each survey was the observation of 5 trees * 5 minutes (25 min). In each tree, we observed an area of about 1m of radius in which number of flowers was counted. When possible, insects were identified to species or caught for a posterior identificaction. An additional capture (10 minutes at each survey) of pollinators visiting apple flowers was made for identification in the lab of species not identifyied in the field sampling. This info was not used for abundance (that is why we only considered plant observaction as sasmpling method) but just to assign relative abundances to specific species from general groups (e.g. wild bees). This is why in some cases total abundances have decimal values. An example: we counted 1 wild bee during surveys but we could not identify the species on the wing. Then we captured 2 wild bees that were identified as L. pauxilium and L. zonulum. Then we assigned abundance 0,5 to each species (1 wild bee/ 2 species).",NA
"Marcos_Minarro_Malus_domestica_Spain_2015","Que19","Plant observation","Andrena flavipes","species","other_wild_bees",3,47.12,75,3098,"Each orchard was surveyed three times. Each survey was the observation of 5 trees * 5 minutes (25 min). In each tree, we observed an area of about 1m of radius in which number of flowers was counted. When possible, insects were identified to species or caught for a posterior identificaction. An additional capture (10 minutes at each survey) of pollinators visiting apple flowers was made for identification in the lab of species not identifyied in the field sampling. This info was not used for abundance (that is why we only considered plant observaction as sasmpling method) but just to assign relative abundances to specific species from general groups (e.g. wild bees). This is why in some cases total abundances have decimal values. An example: we counted 1 wild bee during surveys but we could not identify the species on the wing. Then we captured 2 wild bees that were identified as L. pauxilium and L. zonulum. Then we assigned abundance 0,5 to each species (1 wild bee/ 2 species).",NA
"Marcos_Minarro_Malus_domestica_Spain_2015","Que19","Plant observation","Apis mellifera","species","honeybees",84,47.12,75,3098,"Each orchard was surveyed three times. Each survey was the observation of 5 trees * 5 minutes (25 min). In each tree, we observed an area of about 1m of radius in which number of flowers was counted. When possible, insects were identified to species or caught for a posterior identificaction. An additional capture (10 minutes at each survey) of pollinators visiting apple flowers was made for identification in the lab of species not identifyied in the field sampling. This info was not used for abundance (that is why we only considered plant observaction as sasmpling method) but just to assign relative abundances to specific species from general groups (e.g. wild bees). This is why in some cases total abundances have decimal values. An example: we counted 1 wild bee during surveys but we could not identify the species on the wing. Then we captured 2 wild bees that were identified as L. pauxilium and L. zonulum. Then we assigned abundance 0,5 to each species (1 wild bee/ 2 species).",NA
"Marcos_Minarro_Malus_domestica_Spain_2015","Que19","Plant observation","Bombus pascuorum","species","bumblebees",2,47.12,75,3098,"Each orchard was surveyed three times. Each survey was the observation of 5 trees * 5 minutes (25 min). In each tree, we observed an area of about 1m of radius in which number of flowers was counted. When possible, insects were identified to species or caught for a posterior identificaction. An additional capture (10 minutes at each survey) of pollinators visiting apple flowers was made for identification in the lab of species not identifyied in the field sampling. This info was not used for abundance (that is why we only considered plant observaction as sasmpling method) but just to assign relative abundances to specific species from general groups (e.g. wild bees). This is why in some cases total abundances have decimal values. An example: we counted 1 wild bee during surveys but we could not identify the species on the wing. Then we captured 2 wild bees that were identified as L. pauxilium and L. zonulum. Then we assigned abundance 0,5 to each species (1 wild bee/ 2 species).",NA
"Marcos_Minarro_Malus_domestica_Spain_2015","Que19","Plant observation","Episyrphus balteatus","species","syrphids",2,47.12,75,3098,"Each orchard was surveyed three times. Each survey was the observation of 5 trees * 5 minutes (25 min). In each tree, we observed an area of about 1m of radius in which number of flowers was counted. When possible, insects were identified to species or caught for a posterior identificaction. An additional capture (10 minutes at each survey) of pollinators visiting apple flowers was made for identification in the lab of species not identifyied in the field sampling. This info was not used for abundance (that is why we only considered plant observaction as sasmpling method) but just to assign relative abundances to specific species from general groups (e.g. wild bees). This is why in some cases total abundances have decimal values. An example: we counted 1 wild bee during surveys but we could not identify the species on the wing. Then we captured 2 wild bees that were identified as L. pauxilium and L. zonulum. Then we assigned abundance 0,5 to each species (1 wild bee/ 2 species).",NA
"Marcos_Minarro_Malus_domestica_Spain_2015","Que19","Plant observation","Eristalis arbustorum","species","syrphids",0.5,47.12,75,3098,"Each orchard was surveyed three times. Each survey was the observation of 5 trees * 5 minutes (25 min). In each tree, we observed an area of about 1m of radius in which number of flowers was counted. When possible, insects were identified to species or caught for a posterior identificaction. An additional capture (10 minutes at each survey) of pollinators visiting apple flowers was made for identification in the lab of species not identifyied in the field sampling. This info was not used for abundance (that is why we only considered plant observaction as sasmpling method) but just to assign relative abundances to specific species from general groups (e.g. wild bees). This is why in some cases total abundances have decimal values. An example: we counted 1 wild bee during surveys but we could not identify the species on the wing. Then we captured 2 wild bees that were identified as L. pauxilium and L. zonulum. Then we assigned abundance 0,5 to each species (1 wild bee/ 2 species).",NA
"Marcos_Minarro_Malus_domestica_Spain_2015","Que19","Plant observation","Eristalis similis","species","syrphids",4,47.12,75,3098,"Each orchard was surveyed three times. Each survey was the observation of 5 trees * 5 minutes (25 min). In each tree, we observed an area of about 1m of radius in which number of flowers was counted. When possible, insects were identified to species or caught for a posterior identificaction. An additional capture (10 minutes at each survey) of pollinators visiting apple flowers was made for identification in the lab of species not identifyied in the field sampling. This info was not used for abundance (that is why we only considered plant observaction as sasmpling method) but just to assign relative abundances to specific species from general groups (e.g. wild bees). This is why in some cases total abundances have decimal values. An example: we counted 1 wild bee during surveys but we could not identify the species on the wing. Then we captured 2 wild bees that were identified as L. pauxilium and L. zonulum. Then we assigned abundance 0,5 to each species (1 wild bee/ 2 species).",NA
"Marcos_Minarro_Malus_domestica_Spain_2015","Que19","Plant observation","Eristalis tenax","species","syrphids",1.5,47.12,75,3098,"Each orchard was surveyed three times. Each survey was the observation of 5 trees * 5 minutes (25 min). In each tree, we observed an area of about 1m of radius in which number of flowers was counted. When possible, insects were identified to species or caught for a posterior identificaction. An additional capture (10 minutes at each survey) of pollinators visiting apple flowers was made for identification in the lab of species not identifyied in the field sampling. This info was not used for abundance (that is why we only considered plant observaction as sasmpling method) but just to assign relative abundances to specific species from general groups (e.g. wild bees). This is why in some cases total abundances have decimal values. An example: we counted 1 wild bee during surveys but we could not identify the species on the wing. Then we captured 2 wild bees that were identified as L. pauxilium and L. zonulum. Then we assigned abundance 0,5 to each species (1 wild bee/ 2 species).",NA
"Marcos_Minarro_Malus_domestica_Spain_2015","Que19","Plant observation","Hoverfly","family","syrphids",4,47.12,75,3098,"Each orchard was surveyed three times. Each survey was the observation of 5 trees * 5 minutes (25 min). In each tree, we observed an area of about 1m of radius in which number of flowers was counted. When possible, insects were identified to species or caught for a posterior identificaction. An additional capture (10 minutes at each survey) of pollinators visiting apple flowers was made for identification in the lab of species not identifyied in the field sampling. This info was not used for abundance (that is why we only considered plant observaction as sasmpling method) but just to assign relative abundances to specific species from general groups (e.g. wild bees). This is why in some cases total abundances have decimal values. An example: we counted 1 wild bee during surveys but we could not identify the species on the wing. Then we captured 2 wild bees that were identified as L. pauxilium and L. zonulum. Then we assigned abundance 0,5 to each species (1 wild bee/ 2 species).",NA
"Marcos_Minarro_Malus_domestica_Spain_2015","Que19","Plant observation","Other coleopterans","order","beetles",1,47.12,75,3098,"Each orchard was surveyed three times. Each survey was the observation of 5 trees * 5 minutes (25 min). In each tree, we observed an area of about 1m of radius in which number of flowers was counted. When possible, insects were identified to species or caught for a posterior identificaction. An additional capture (10 minutes at each survey) of pollinators visiting apple flowers was made for identification in the lab of species not identifyied in the field sampling. This info was not used for abundance (that is why we only considered plant observaction as sasmpling method) but just to assign relative abundances to specific species from general groups (e.g. wild bees). This is why in some cases total abundances have decimal values. An example: we counted 1 wild bee during surveys but we could not identify the species on the wing. Then we captured 2 wild bees that were identified as L. pauxilium and L. zonulum. Then we assigned abundance 0,5 to each species (1 wild bee/ 2 species).",NA
"Marcos_Minarro_Malus_domestica_Spain_2015","Que19","Plant observation","Other dipterans","order","other_flies",2,47.12,75,3098,"Each orchard was surveyed three times. Each survey was the observation of 5 trees * 5 minutes (25 min). In each tree, we observed an area of about 1m of radius in which number of flowers was counted. When possible, insects were identified to species or caught for a posterior identificaction. An additional capture (10 minutes at each survey) of pollinators visiting apple flowers was made for identification in the lab of species not identifyied in the field sampling. This info was not used for abundance (that is why we only considered plant observaction as sasmpling method) but just to assign relative abundances to specific species from general groups (e.g. wild bees). This is why in some cases total abundances have decimal values. An example: we counted 1 wild bee during surveys but we could not identify the species on the wing. Then we captured 2 wild bees that were identified as L. pauxilium and L. zonulum. Then we assigned abundance 0,5 to each species (1 wild bee/ 2 species).",NA
"Marcos_Minarro_Malus_domestica_Spain_2015","Que19","Plant observation","Oxythyrea funesta","species","beetles",1,47.12,75,3098,"Each orchard was surveyed three times. Each survey was the observation of 5 trees * 5 minutes (25 min). In each tree, we observed an area of about 1m of radius in which number of flowers was counted. When possible, insects were identified to species or caught for a posterior identificaction. An additional capture (10 minutes at each survey) of pollinators visiting apple flowers was made for identification in the lab of species not identifyied in the field sampling. This info was not used for abundance (that is why we only considered plant observaction as sasmpling method) but just to assign relative abundances to specific species from general groups (e.g. wild bees). This is why in some cases total abundances have decimal values. An example: we counted 1 wild bee during surveys but we could not identify the species on the wing. Then we captured 2 wild bees that were identified as L. pauxilium and L. zonulum. Then we assigned abundance 0,5 to each species (1 wild bee/ 2 species).",NA
"Marcos_Minarro_Malus_domestica_Spain_2015","Que19","Plant observation","Wild bees","superfamily","other_wild_bees",1,47.12,75,3098,"Each orchard was surveyed three times. Each survey was the observation of 5 trees * 5 minutes (25 min). In each tree, we observed an area of about 1m of radius in which number of flowers was counted. When possible, insects were identified to species or caught for a posterior identificaction. An additional capture (10 minutes at each survey) of pollinators visiting apple flowers was made for identification in the lab of species not identifyied in the field sampling. This info was not used for abundance (that is why we only considered plant observaction as sasmpling method) but just to assign relative abundances to specific species from general groups (e.g. wild bees). This is why in some cases total abundances have decimal values. An example: we counted 1 wild bee during surveys but we could not identify the species on the wing. Then we captured 2 wild bees that were identified as L. pauxilium and L. zonulum. Then we assigned abundance 0,5 to each species (1 wild bee/ 2 species).","Apoidea?"
"Marcos_Minarro_Malus_domestica_Spain_2015","Qui15","Plant observation","Agrypnus murinus","species","beetles",1,47.12,75,3311,"Each orchard was surveyed three times. Each survey was the observation of 5 trees * 5 minutes (25 min). In each tree, we observed an area of about 1m of radius in which number of flowers was counted. When possible, insects were identified to species or caught for a posterior identificaction. An additional capture (10 minutes at each survey) of pollinators visiting apple flowers was made for identification in the lab of species not identifyied in the field sampling. This info was not used for abundance (that is why we only considered plant observaction as sasmpling method) but just to assign relative abundances to specific species from general groups (e.g. wild bees). This is why in some cases total abundances have decimal values. An example: we counted 1 wild bee during surveys but we could not identify the species on the wing. Then we captured 2 wild bees that were identified as L. pauxilium and L. zonulum. Then we assigned abundance 0,5 to each species (1 wild bee/ 2 species).",NA
"Marcos_Minarro_Malus_domestica_Spain_2015","Qui15","Plant observation","Andrena humilis","species","other_wild_bees",1,47.12,75,3311,"Each orchard was surveyed three times. Each survey was the observation of 5 trees * 5 minutes (25 min). In each tree, we observed an area of about 1m of radius in which number of flowers was counted. When possible, insects were identified to species or caught for a posterior identificaction. An additional capture (10 minutes at each survey) of pollinators visiting apple flowers was made for identification in the lab of species not identifyied in the field sampling. This info was not used for abundance (that is why we only considered plant observaction as sasmpling method) but just to assign relative abundances to specific species from general groups (e.g. wild bees). This is why in some cases total abundances have decimal values. An example: we counted 1 wild bee during surveys but we could not identify the species on the wing. Then we captured 2 wild bees that were identified as L. pauxilium and L. zonulum. Then we assigned abundance 0,5 to each species (1 wild bee/ 2 species).",NA
"Marcos_Minarro_Malus_domestica_Spain_2015","Qui15","Plant observation","Apis mellifera","species","honeybees",46,47.12,75,3311,"Each orchard was surveyed three times. Each survey was the observation of 5 trees * 5 minutes (25 min). In each tree, we observed an area of about 1m of radius in which number of flowers was counted. When possible, insects were identified to species or caught for a posterior identificaction. An additional capture (10 minutes at each survey) of pollinators visiting apple flowers was made for identification in the lab of species not identifyied in the field sampling. This info was not used for abundance (that is why we only considered plant observaction as sasmpling method) but just to assign relative abundances to specific species from general groups (e.g. wild bees). This is why in some cases total abundances have decimal values. An example: we counted 1 wild bee during surveys but we could not identify the species on the wing. Then we captured 2 wild bees that were identified as L. pauxilium and L. zonulum. Then we assigned abundance 0,5 to each species (1 wild bee/ 2 species).",NA
"Marcos_Minarro_Malus_domestica_Spain_2015","Qui15","Plant observation","Bombus terrestris","species","bumblebees",6,47.12,75,3311,"Each orchard was surveyed three times. Each survey was the observation of 5 trees * 5 minutes (25 min). In each tree, we observed an area of about 1m of radius in which number of flowers was counted. When possible, insects were identified to species or caught for a posterior identificaction. An additional capture (10 minutes at each survey) of pollinators visiting apple flowers was made for identification in the lab of species not identifyied in the field sampling. This info was not used for abundance (that is why we only considered plant observaction as sasmpling method) but just to assign relative abundances to specific species from general groups (e.g. wild bees). This is why in some cases total abundances have decimal values. An example: we counted 1 wild bee during surveys but we could not identify the species on the wing. Then we captured 2 wild bees that were identified as L. pauxilium and L. zonulum. Then we assigned abundance 0,5 to each species (1 wild bee/ 2 species).",NA
"Marcos_Minarro_Malus_domestica_Spain_2015","Qui15","Plant observation","Episyrphus balteatus","species","syrphids",2,47.12,75,3311,"Each orchard was surveyed three times. Each survey was the observation of 5 trees * 5 minutes (25 min). In each tree, we observed an area of about 1m of radius in which number of flowers was counted. When possible, insects were identified to species or caught for a posterior identificaction. An additional capture (10 minutes at each survey) of pollinators visiting apple flowers was made for identification in the lab of species not identifyied in the field sampling. This info was not used for abundance (that is why we only considered plant observaction as sasmpling method) but just to assign relative abundances to specific species from general groups (e.g. wild bees). This is why in some cases total abundances have decimal values. An example: we counted 1 wild bee during surveys but we could not identify the species on the wing. Then we captured 2 wild bees that were identified as L. pauxilium and L. zonulum. Then we assigned abundance 0,5 to each species (1 wild bee/ 2 species).",NA
"Marcos_Minarro_Malus_domestica_Spain_2015","Qui15","Plant observation","Eristalis spp.","genus","syrphids",5,47.12,75,3311,"Each orchard was surveyed three times. Each survey was the observation of 5 trees * 5 minutes (25 min). In each tree, we observed an area of about 1m of radius in which number of flowers was counted. When possible, insects were identified to species or caught for a posterior identificaction. An additional capture (10 minutes at each survey) of pollinators visiting apple flowers was made for identification in the lab of species not identifyied in the field sampling. This info was not used for abundance (that is why we only considered plant observaction as sasmpling method) but just to assign relative abundances to specific species from general groups (e.g. wild bees). This is why in some cases total abundances have decimal values. An example: we counted 1 wild bee during surveys but we could not identify the species on the wing. Then we captured 2 wild bees that were identified as L. pauxilium and L. zonulum. Then we assigned abundance 0,5 to each species (1 wild bee/ 2 species).",NA
"Marcos_Minarro_Malus_domestica_Spain_2015","Qui15","Plant observation","Eristalis tenax","species","syrphids",6,47.12,75,3311,"Each orchard was surveyed three times. Each survey was the observation of 5 trees * 5 minutes (25 min). In each tree, we observed an area of about 1m of radius in which number of flowers was counted. When possible, insects were identified to species or caught for a posterior identificaction. An additional capture (10 minutes at each survey) of pollinators visiting apple flowers was made for identification in the lab of species not identifyied in the field sampling. This info was not used for abundance (that is why we only considered plant observaction as sasmpling method) but just to assign relative abundances to specific species from general groups (e.g. wild bees). This is why in some cases total abundances have decimal values. An example: we counted 1 wild bee during surveys but we could not identify the species on the wing. Then we captured 2 wild bees that were identified as L. pauxilium and L. zonulum. Then we assigned abundance 0,5 to each species (1 wild bee/ 2 species).",NA
"Marcos_Minarro_Malus_domestica_Spain_2015","Qui15","Plant observation","Eupeodes corollae","species","syrphids",1,47.12,75,3311,"Each orchard was surveyed three times. Each survey was the observation of 5 trees * 5 minutes (25 min). In each tree, we observed an area of about 1m of radius in which number of flowers was counted. When possible, insects were identified to species or caught for a posterior identificaction. An additional capture (10 minutes at each survey) of pollinators visiting apple flowers was made for identification in the lab of species not identifyied in the field sampling. This info was not used for abundance (that is why we only considered plant observaction as sasmpling method) but just to assign relative abundances to specific species from general groups (e.g. wild bees). This is why in some cases total abundances have decimal values. An example: we counted 1 wild bee during surveys but we could not identify the species on the wing. Then we captured 2 wild bees that were identified as L. pauxilium and L. zonulum. Then we assigned abundance 0,5 to each species (1 wild bee/ 2 species).",NA
"Marcos_Minarro_Malus_domestica_Spain_2015","Qui15","Plant observation","Hoverfly","family","syrphids",1,47.12,75,3311,"Each orchard was surveyed three times. Each survey was the observation of 5 trees * 5 minutes (25 min). In each tree, we observed an area of about 1m of radius in which number of flowers was counted. When possible, insects were identified to species or caught for a posterior identificaction. An additional capture (10 minutes at each survey) of pollinators visiting apple flowers was made for identification in the lab of species not identifyied in the field sampling. This info was not used for abundance (that is why we only considered plant observaction as sasmpling method) but just to assign relative abundances to specific species from general groups (e.g. wild bees). This is why in some cases total abundances have decimal values. An example: we counted 1 wild bee during surveys but we could not identify the species on the wing. Then we captured 2 wild bees that were identified as L. pauxilium and L. zonulum. Then we assigned abundance 0,5 to each species (1 wild bee/ 2 species).",NA
"Marcos_Minarro_Malus_domestica_Spain_2015","Qui15","Plant observation","Lepidopterans","order","lepidoptera",2,47.12,75,3311,"Each orchard was surveyed three times. Each survey was the observation of 5 trees * 5 minutes (25 min). In each tree, we observed an area of about 1m of radius in which number of flowers was counted. When possible, insects were identified to species or caught for a posterior identificaction. An additional capture (10 minutes at each survey) of pollinators visiting apple flowers was made for identification in the lab of species not identifyied in the field sampling. This info was not used for abundance (that is why we only considered plant observaction as sasmpling method) but just to assign relative abundances to specific species from general groups (e.g. wild bees). This is why in some cases total abundances have decimal values. An example: we counted 1 wild bee during surveys but we could not identify the species on the wing. Then we captured 2 wild bees that were identified as L. pauxilium and L. zonulum. Then we assigned abundance 0,5 to each species (1 wild bee/ 2 species).",NA
"Marcos_Minarro_Malus_domestica_Spain_2015","Qui15","Plant observation","Other dipterans","order","other_flies",7,47.12,75,3311,"Each orchard was surveyed three times. Each survey was the observation of 5 trees * 5 minutes (25 min). In each tree, we observed an area of about 1m of radius in which number of flowers was counted. When possible, insects were identified to species or caught for a posterior identificaction. An additional capture (10 minutes at each survey) of pollinators visiting apple flowers was made for identification in the lab of species not identifyied in the field sampling. This info was not used for abundance (that is why we only considered plant observaction as sasmpling method) but just to assign relative abundances to specific species from general groups (e.g. wild bees). This is why in some cases total abundances have decimal values. An example: we counted 1 wild bee during surveys but we could not identify the species on the wing. Then we captured 2 wild bees that were identified as L. pauxilium and L. zonulum. Then we assigned abundance 0,5 to each species (1 wild bee/ 2 species).",NA
"Marcos_Minarro_Malus_domestica_Spain_2015","Qui15","Plant observation","Wild bees","superfamily","other_wild_bees",2,47.12,75,3311,"Each orchard was surveyed three times. Each survey was the observation of 5 trees * 5 minutes (25 min). In each tree, we observed an area of about 1m of radius in which number of flowers was counted. When possible, insects were identified to species or caught for a posterior identificaction. An additional capture (10 minutes at each survey) of pollinators visiting apple flowers was made for identification in the lab of species not identifyied in the field sampling. This info was not used for abundance (that is why we only considered plant observaction as sasmpling method) but just to assign relative abundances to specific species from general groups (e.g. wild bees). This is why in some cases total abundances have decimal values. An example: we counted 1 wild bee during surveys but we could not identify the species on the wing. Then we captured 2 wild bees that were identified as L. pauxilium and L. zonulum. Then we assigned abundance 0,5 to each species (1 wild bee/ 2 species).","Apoidea?"
"Marcos_Minarro_Malus_domestica_Spain_2015","Ria02","Plant observation","Andrena nigroaenea","species","other_wild_bees",1,47.12,75,2046,"Each orchard was surveyed three times. Each survey was the observation of 5 trees * 5 minutes (25 min). In each tree, we observed an area of about 1m of radius in which number of flowers was counted. When possible, insects were identified to species or caught for a posterior identificaction. An additional capture (10 minutes at each survey) of pollinators visiting apple flowers was made for identification in the lab of species not identifyied in the field sampling. This info was not used for abundance (that is why we only considered plant observaction as sasmpling method) but just to assign relative abundances to specific species from general groups (e.g. wild bees). This is why in some cases total abundances have decimal values. An example: we counted 1 wild bee during surveys but we could not identify the species on the wing. Then we captured 2 wild bees that were identified as L. pauxilium and L. zonulum. Then we assigned abundance 0,5 to each species (1 wild bee/ 2 species).",NA
"Marcos_Minarro_Malus_domestica_Spain_2015","Ria02","Plant observation","Apis mellifera","species","honeybees",26,47.12,75,2046,"Each orchard was surveyed three times. Each survey was the observation of 5 trees * 5 minutes (25 min). In each tree, we observed an area of about 1m of radius in which number of flowers was counted. When possible, insects were identified to species or caught for a posterior identificaction. An additional capture (10 minutes at each survey) of pollinators visiting apple flowers was made for identification in the lab of species not identifyied in the field sampling. This info was not used for abundance (that is why we only considered plant observaction as sasmpling method) but just to assign relative abundances to specific species from general groups (e.g. wild bees). This is why in some cases total abundances have decimal values. An example: we counted 1 wild bee during surveys but we could not identify the species on the wing. Then we captured 2 wild bees that were identified as L. pauxilium and L. zonulum. Then we assigned abundance 0,5 to each species (1 wild bee/ 2 species).",NA
"Marcos_Minarro_Malus_domestica_Spain_2015","Ria02","Plant observation","Bombus terrestris","species","bumblebees",1,47.12,75,2046,"Each orchard was surveyed three times. Each survey was the observation of 5 trees * 5 minutes (25 min). In each tree, we observed an area of about 1m of radius in which number of flowers was counted. When possible, insects were identified to species or caught for a posterior identificaction. An additional capture (10 minutes at each survey) of pollinators visiting apple flowers was made for identification in the lab of species not identifyied in the field sampling. This info was not used for abundance (that is why we only considered plant observaction as sasmpling method) but just to assign relative abundances to specific species from general groups (e.g. wild bees). This is why in some cases total abundances have decimal values. An example: we counted 1 wild bee during surveys but we could not identify the species on the wing. Then we captured 2 wild bees that were identified as L. pauxilium and L. zonulum. Then we assigned abundance 0,5 to each species (1 wild bee/ 2 species).",NA
"Marcos_Minarro_Malus_domestica_Spain_2015","Ria02","Plant observation","Eristalis spp.","genus","syrphids",1,47.12,75,2046,"Each orchard was surveyed three times. Each survey was the observation of 5 trees * 5 minutes (25 min). In each tree, we observed an area of about 1m of radius in which number of flowers was counted. When possible, insects were identified to species or caught for a posterior identificaction. An additional capture (10 minutes at each survey) of pollinators visiting apple flowers was made for identification in the lab of species not identifyied in the field sampling. This info was not used for abundance (that is why we only considered plant observaction as sasmpling method) but just to assign relative abundances to specific species from general groups (e.g. wild bees). This is why in some cases total abundances have decimal values. An example: we counted 1 wild bee during surveys but we could not identify the species on the wing. Then we captured 2 wild bees that were identified as L. pauxilium and L. zonulum. Then we assigned abundance 0,5 to each species (1 wild bee/ 2 species).",NA
"Marcos_Minarro_Malus_domestica_Spain_2015","Ria02","Plant observation","Eristalis tenax","species","syrphids",4,47.12,75,2046,"Each orchard was surveyed three times. Each survey was the observation of 5 trees * 5 minutes (25 min). In each tree, we observed an area of about 1m of radius in which number of flowers was counted. When possible, insects were identified to species or caught for a posterior identificaction. An additional capture (10 minutes at each survey) of pollinators visiting apple flowers was made for identification in the lab of species not identifyied in the field sampling. This info was not used for abundance (that is why we only considered plant observaction as sasmpling method) but just to assign relative abundances to specific species from general groups (e.g. wild bees). This is why in some cases total abundances have decimal values. An example: we counted 1 wild bee during surveys but we could not identify the species on the wing. Then we captured 2 wild bees that were identified as L. pauxilium and L. zonulum. Then we assigned abundance 0,5 to each species (1 wild bee/ 2 species).",NA
"Marcos_Minarro_Malus_domestica_Spain_2015","Ria02","Plant observation","Lepidopterans","order","lepidoptera",3,47.12,75,2046,"Each orchard was surveyed three times. Each survey was the observation of 5 trees * 5 minutes (25 min). In each tree, we observed an area of about 1m of radius in which number of flowers was counted. When possible, insects were identified to species or caught for a posterior identificaction. An additional capture (10 minutes at each survey) of pollinators visiting apple flowers was made for identification in the lab of species not identifyied in the field sampling. This info was not used for abundance (that is why we only considered plant observaction as sasmpling method) but just to assign relative abundances to specific species from general groups (e.g. wild bees). This is why in some cases total abundances have decimal values. An example: we counted 1 wild bee during surveys but we could not identify the species on the wing. Then we captured 2 wild bees that were identified as L. pauxilium and L. zonulum. Then we assigned abundance 0,5 to each species (1 wild bee/ 2 species).",NA
"Marcos_Minarro_Malus_domestica_Spain_2015","Ria02","Plant observation","Other coleopterans","order","beetles",3,47.12,75,2046,"Each orchard was surveyed three times. Each survey was the observation of 5 trees * 5 minutes (25 min). In each tree, we observed an area of about 1m of radius in which number of flowers was counted. When possible, insects were identified to species or caught for a posterior identificaction. An additional capture (10 minutes at each survey) of pollinators visiting apple flowers was made for identification in the lab of species not identifyied in the field sampling. This info was not used for abundance (that is why we only considered plant observaction as sasmpling method) but just to assign relative abundances to specific species from general groups (e.g. wild bees). This is why in some cases total abundances have decimal values. An example: we counted 1 wild bee during surveys but we could not identify the species on the wing. Then we captured 2 wild bees that were identified as L. pauxilium and L. zonulum. Then we assigned abundance 0,5 to each species (1 wild bee/ 2 species).",NA
"Marcos_Minarro_Malus_domestica_Spain_2015","Ria02","Plant observation","Other dipterans","order","other_flies",4,47.12,75,2046,"Each orchard was surveyed three times. Each survey was the observation of 5 trees * 5 minutes (25 min). In each tree, we observed an area of about 1m of radius in which number of flowers was counted. When possible, insects were identified to species or caught for a posterior identificaction. An additional capture (10 minutes at each survey) of pollinators visiting apple flowers was made for identification in the lab of species not identifyied in the field sampling. This info was not used for abundance (that is why we only considered plant observaction as sasmpling method) but just to assign relative abundances to specific species from general groups (e.g. wild bees). This is why in some cases total abundances have decimal values. An example: we counted 1 wild bee during surveys but we could not identify the species on the wing. Then we captured 2 wild bees that were identified as L. pauxilium and L. zonulum. Then we assigned abundance 0,5 to each species (1 wild bee/ 2 species).",NA
"Marcos_Minarro_Malus_domestica_Spain_2015","Ria02","Plant observation","Others","others","other",1,47.12,75,2046,"Each orchard was surveyed three times. Each survey was the observation of 5 trees * 5 minutes (25 min). In each tree, we observed an area of about 1m of radius in which number of flowers was counted. When possible, insects were identified to species or caught for a posterior identificaction. An additional capture (10 minutes at each survey) of pollinators visiting apple flowers was made for identification in the lab of species not identifyied in the field sampling. This info was not used for abundance (that is why we only considered plant observaction as sasmpling method) but just to assign relative abundances to specific species from general groups (e.g. wild bees). This is why in some cases total abundances have decimal values. An example: we counted 1 wild bee during surveys but we could not identify the species on the wing. Then we captured 2 wild bees that were identified as L. pauxilium and L. zonulum. Then we assigned abundance 0,5 to each species (1 wild bee/ 2 species).",NA
"Marcos_Minarro_Malus_domestica_Spain_2015","Ria02","Plant observation","Sphaerophoria scripta","species","syrphids",1,47.12,75,2046,"Each orchard was surveyed three times. Each survey was the observation of 5 trees * 5 minutes (25 min). In each tree, we observed an area of about 1m of radius in which number of flowers was counted. When possible, insects were identified to species or caught for a posterior identificaction. An additional capture (10 minutes at each survey) of pollinators visiting apple flowers was made for identification in the lab of species not identifyied in the field sampling. This info was not used for abundance (that is why we only considered plant observaction as sasmpling method) but just to assign relative abundances to specific species from general groups (e.g. wild bees). This is why in some cases total abundances have decimal values. An example: we counted 1 wild bee during surveys but we could not identify the species on the wing. Then we captured 2 wild bees that were identified as L. pauxilium and L. zonulum. Then we assigned abundance 0,5 to each species (1 wild bee/ 2 species).",NA
"Marcos_Minarro_Malus_domestica_Spain_2015","Ria02","Plant observation","Wild bees","superfamily","other_wild_bees",1,47.12,75,2046,"Each orchard was surveyed three times. Each survey was the observation of 5 trees * 5 minutes (25 min). In each tree, we observed an area of about 1m of radius in which number of flowers was counted. When possible, insects were identified to species or caught for a posterior identificaction. An additional capture (10 minutes at each survey) of pollinators visiting apple flowers was made for identification in the lab of species not identifyied in the field sampling. This info was not used for abundance (that is why we only considered plant observaction as sasmpling method) but just to assign relative abundances to specific species from general groups (e.g. wild bees). This is why in some cases total abundances have decimal values. An example: we counted 1 wild bee during surveys but we could not identify the species on the wing. Then we captured 2 wild bees that were identified as L. pauxilium and L. zonulum. Then we assigned abundance 0,5 to each species (1 wild bee/ 2 species).","Apoidea?"
"Marcos_Minarro_Malus_domestica_Spain_2015","Sal20","Plant observation","Andrena flavipes","species","other_wild_bees",2.714,47.12,75,2936,"Each orchard was surveyed three times. Each survey was the observation of 5 trees * 5 minutes (25 min). In each tree, we observed an area of about 1m of radius in which number of flowers was counted. When possible, insects were identified to species or caught for a posterior identificaction. An additional capture (10 minutes at each survey) of pollinators visiting apple flowers was made for identification in the lab of species not identifyied in the field sampling. This info was not used for abundance (that is why we only considered plant observaction as sasmpling method) but just to assign relative abundances to specific species from general groups (e.g. wild bees). This is why in some cases total abundances have decimal values. An example: we counted 1 wild bee during surveys but we could not identify the species on the wing. Then we captured 2 wild bees that were identified as L. pauxilium and L. zonulum. Then we assigned abundance 0,5 to each species (1 wild bee/ 2 species).",NA
"Marcos_Minarro_Malus_domestica_Spain_2015","Sal20","Plant observation","Andrena haemorrhoa","species","other_wild_bees",0.429,47.12,75,2936,"Each orchard was surveyed three times. Each survey was the observation of 5 trees * 5 minutes (25 min). In each tree, we observed an area of about 1m of radius in which number of flowers was counted. When possible, insects were identified to species or caught for a posterior identificaction. An additional capture (10 minutes at each survey) of pollinators visiting apple flowers was made for identification in the lab of species not identifyied in the field sampling. This info was not used for abundance (that is why we only considered plant observaction as sasmpling method) but just to assign relative abundances to specific species from general groups (e.g. wild bees). This is why in some cases total abundances have decimal values. An example: we counted 1 wild bee during surveys but we could not identify the species on the wing. Then we captured 2 wild bees that were identified as L. pauxilium and L. zonulum. Then we assigned abundance 0,5 to each species (1 wild bee/ 2 species).",NA
"Marcos_Minarro_Malus_domestica_Spain_2015","Sal20","Plant observation","Andrena nigroaenea","species","other_wild_bees",0.429,47.12,75,2936,"Each orchard was surveyed three times. Each survey was the observation of 5 trees * 5 minutes (25 min). In each tree, we observed an area of about 1m of radius in which number of flowers was counted. When possible, insects were identified to species or caught for a posterior identificaction. An additional capture (10 minutes at each survey) of pollinators visiting apple flowers was made for identification in the lab of species not identifyied in the field sampling. This info was not used for abundance (that is why we only considered plant observaction as sasmpling method) but just to assign relative abundances to specific species from general groups (e.g. wild bees). This is why in some cases total abundances have decimal values. An example: we counted 1 wild bee during surveys but we could not identify the species on the wing. Then we captured 2 wild bees that were identified as L. pauxilium and L. zonulum. Then we assigned abundance 0,5 to each species (1 wild bee/ 2 species).",NA
"Marcos_Minarro_Malus_domestica_Spain_2015","Sal20","Plant observation","Andrena pilipes","species","other_wild_bees",2.429,47.12,75,2936,"Each orchard was surveyed three times. Each survey was the observation of 5 trees * 5 minutes (25 min). In each tree, we observed an area of about 1m of radius in which number of flowers was counted. When possible, insects were identified to species or caught for a posterior identificaction. An additional capture (10 minutes at each survey) of pollinators visiting apple flowers was made for identification in the lab of species not identifyied in the field sampling. This info was not used for abundance (that is why we only considered plant observaction as sasmpling method) but just to assign relative abundances to specific species from general groups (e.g. wild bees). This is why in some cases total abundances have decimal values. An example: we counted 1 wild bee during surveys but we could not identify the species on the wing. Then we captured 2 wild bees that were identified as L. pauxilium and L. zonulum. Then we assigned abundance 0,5 to each species (1 wild bee/ 2 species).",NA
"Marcos_Minarro_Malus_domestica_Spain_2015","Sal20","Plant observation","Apis mellifera","species","honeybees",48,47.12,75,2936,"Each orchard was surveyed three times. Each survey was the observation of 5 trees * 5 minutes (25 min). In each tree, we observed an area of about 1m of radius in which number of flowers was counted. When possible, insects were identified to species or caught for a posterior identificaction. An additional capture (10 minutes at each survey) of pollinators visiting apple flowers was made for identification in the lab of species not identifyied in the field sampling. This info was not used for abundance (that is why we only considered plant observaction as sasmpling method) but just to assign relative abundances to specific species from general groups (e.g. wild bees). This is why in some cases total abundances have decimal values. An example: we counted 1 wild bee during surveys but we could not identify the species on the wing. Then we captured 2 wild bees that were identified as L. pauxilium and L. zonulum. Then we assigned abundance 0,5 to each species (1 wild bee/ 2 species).",NA
"Marcos_Minarro_Malus_domestica_Spain_2015","Sal20","Plant observation","Bombus pratorum","species","bumblebees",1,47.12,75,2936,"Each orchard was surveyed three times. Each survey was the observation of 5 trees * 5 minutes (25 min). In each tree, we observed an area of about 1m of radius in which number of flowers was counted. When possible, insects were identified to species or caught for a posterior identificaction. An additional capture (10 minutes at each survey) of pollinators visiting apple flowers was made for identification in the lab of species not identifyied in the field sampling. This info was not used for abundance (that is why we only considered plant observaction as sasmpling method) but just to assign relative abundances to specific species from general groups (e.g. wild bees). This is why in some cases total abundances have decimal values. An example: we counted 1 wild bee during surveys but we could not identify the species on the wing. Then we captured 2 wild bees that were identified as L. pauxilium and L. zonulum. Then we assigned abundance 0,5 to each species (1 wild bee/ 2 species).",NA
"Marcos_Minarro_Malus_domestica_Spain_2015","Sal20","Plant observation","Bombus terrestris","species","bumblebees",14,47.12,75,2936,"Each orchard was surveyed three times. Each survey was the observation of 5 trees * 5 minutes (25 min). In each tree, we observed an area of about 1m of radius in which number of flowers was counted. When possible, insects were identified to species or caught for a posterior identificaction. An additional capture (10 minutes at each survey) of pollinators visiting apple flowers was made for identification in the lab of species not identifyied in the field sampling. This info was not used for abundance (that is why we only considered plant observaction as sasmpling method) but just to assign relative abundances to specific species from general groups (e.g. wild bees). This is why in some cases total abundances have decimal values. An example: we counted 1 wild bee during surveys but we could not identify the species on the wing. Then we captured 2 wild bees that were identified as L. pauxilium and L. zonulum. Then we assigned abundance 0,5 to each species (1 wild bee/ 2 species).",NA
"Marcos_Minarro_Malus_domestica_Spain_2015","Sal20","Plant observation","Eristalis tenax","species","syrphids",19,47.12,75,2936,"Each orchard was surveyed three times. Each survey was the observation of 5 trees * 5 minutes (25 min). In each tree, we observed an area of about 1m of radius in which number of flowers was counted. When possible, insects were identified to species or caught for a posterior identificaction. An additional capture (10 minutes at each survey) of pollinators visiting apple flowers was made for identification in the lab of species not identifyied in the field sampling. This info was not used for abundance (that is why we only considered plant observaction as sasmpling method) but just to assign relative abundances to specific species from general groups (e.g. wild bees). This is why in some cases total abundances have decimal values. An example: we counted 1 wild bee during surveys but we could not identify the species on the wing. Then we captured 2 wild bees that were identified as L. pauxilium and L. zonulum. Then we assigned abundance 0,5 to each species (1 wild bee/ 2 species).",NA
"Marcos_Minarro_Malus_domestica_Spain_2015","Sal20","Plant observation","Hoverfly","family","syrphids",1,47.12,75,2936,"Each orchard was surveyed three times. Each survey was the observation of 5 trees * 5 minutes (25 min). In each tree, we observed an area of about 1m of radius in which number of flowers was counted. When possible, insects were identified to species or caught for a posterior identificaction. An additional capture (10 minutes at each survey) of pollinators visiting apple flowers was made for identification in the lab of species not identifyied in the field sampling. This info was not used for abundance (that is why we only considered plant observaction as sasmpling method) but just to assign relative abundances to specific species from general groups (e.g. wild bees). This is why in some cases total abundances have decimal values. An example: we counted 1 wild bee during surveys but we could not identify the species on the wing. Then we captured 2 wild bees that were identified as L. pauxilium and L. zonulum. Then we assigned abundance 0,5 to each species (1 wild bee/ 2 species).",NA
"Marcos_Minarro_Malus_domestica_Spain_2015","Sal20","Plant observation","Lepidopterans","order","lepidoptera",1,47.12,75,2936,"Each orchard was surveyed three times. Each survey was the observation of 5 trees * 5 minutes (25 min). In each tree, we observed an area of about 1m of radius in which number of flowers was counted. When possible, insects were identified to species or caught for a posterior identificaction. An additional capture (10 minutes at each survey) of pollinators visiting apple flowers was made for identification in the lab of species not identifyied in the field sampling. This info was not used for abundance (that is why we only considered plant observaction as sasmpling method) but just to assign relative abundances to specific species from general groups (e.g. wild bees). This is why in some cases total abundances have decimal values. An example: we counted 1 wild bee during surveys but we could not identify the species on the wing. Then we captured 2 wild bees that were identified as L. pauxilium and L. zonulum. Then we assigned abundance 0,5 to each species (1 wild bee/ 2 species).",NA
"Marcos_Minarro_Malus_domestica_Spain_2015","Sal20","Plant observation","Other dipterans","order","other_flies",3,47.12,75,2936,"Each orchard was surveyed three times. Each survey was the observation of 5 trees * 5 minutes (25 min). In each tree, we observed an area of about 1m of radius in which number of flowers was counted. When possible, insects were identified to species or caught for a posterior identificaction. An additional capture (10 minutes at each survey) of pollinators visiting apple flowers was made for identification in the lab of species not identifyied in the field sampling. This info was not used for abundance (that is why we only considered plant observaction as sasmpling method) but just to assign relative abundances to specific species from general groups (e.g. wild bees). This is why in some cases total abundances have decimal values. An example: we counted 1 wild bee during surveys but we could not identify the species on the wing. Then we captured 2 wild bees that were identified as L. pauxilium and L. zonulum. Then we assigned abundance 0,5 to each species (1 wild bee/ 2 species).",NA
"Marcos_Minarro_Malus_domestica_Spain_2015","Sal20","Plant observation","Sarcophaga sp.","genus","other_flies",3,47.12,75,2936,"Each orchard was surveyed three times. Each survey was the observation of 5 trees * 5 minutes (25 min). In each tree, we observed an area of about 1m of radius in which number of flowers was counted. When possible, insects were identified to species or caught for a posterior identificaction. An additional capture (10 minutes at each survey) of pollinators visiting apple flowers was made for identification in the lab of species not identifyied in the field sampling. This info was not used for abundance (that is why we only considered plant observaction as sasmpling method) but just to assign relative abundances to specific species from general groups (e.g. wild bees). This is why in some cases total abundances have decimal values. An example: we counted 1 wild bee during surveys but we could not identify the species on the wing. Then we captured 2 wild bees that were identified as L. pauxilium and L. zonulum. Then we assigned abundance 0,5 to each species (1 wild bee/ 2 species).",NA
"Marcos_Minarro_Malus_domestica_Spain_2015","Sal20","Plant observation","Symphita","genus","non_bee_hymenoptera",1,47.12,75,2936,"Each orchard was surveyed three times. Each survey was the observation of 5 trees * 5 minutes (25 min). In each tree, we observed an area of about 1m of radius in which number of flowers was counted. When possible, insects were identified to species or caught for a posterior identificaction. An additional capture (10 minutes at each survey) of pollinators visiting apple flowers was made for identification in the lab of species not identifyied in the field sampling. This info was not used for abundance (that is why we only considered plant observaction as sasmpling method) but just to assign relative abundances to specific species from general groups (e.g. wild bees). This is why in some cases total abundances have decimal values. An example: we counted 1 wild bee during surveys but we could not identify the species on the wing. Then we captured 2 wild bees that were identified as L. pauxilium and L. zonulum. Then we assigned abundance 0,5 to each species (1 wild bee/ 2 species).",NA
"Marcos_Minarro_Malus_domestica_Spain_2015","Sal20","Plant observation","Tenthredo koehleri","species","non_bee_hymenoptera",1,47.12,75,2936,"Each orchard was surveyed three times. Each survey was the observation of 5 trees * 5 minutes (25 min). In each tree, we observed an area of about 1m of radius in which number of flowers was counted. When possible, insects were identified to species or caught for a posterior identificaction. An additional capture (10 minutes at each survey) of pollinators visiting apple flowers was made for identification in the lab of species not identifyied in the field sampling. This info was not used for abundance (that is why we only considered plant observaction as sasmpling method) but just to assign relative abundances to specific species from general groups (e.g. wild bees). This is why in some cases total abundances have decimal values. An example: we counted 1 wild bee during surveys but we could not identify the species on the wing. Then we captured 2 wild bees that were identified as L. pauxilium and L. zonulum. Then we assigned abundance 0,5 to each species (1 wild bee/ 2 species).",NA
"Marcos_Minarro_Malus_domestica_Spain_2015","San18","Plant observation","Andrena flavipes","species","other_wild_bees",1,47.12,75,3240,"Each orchard was surveyed three times. Each survey was the observation of 5 trees * 5 minutes (25 min). In each tree, we observed an area of about 1m of radius in which number of flowers was counted. When possible, insects were identified to species or caught for a posterior identificaction. An additional capture (10 minutes at each survey) of pollinators visiting apple flowers was made for identification in the lab of species not identifyied in the field sampling. This info was not used for abundance (that is why we only considered plant observaction as sasmpling method) but just to assign relative abundances to specific species from general groups (e.g. wild bees). This is why in some cases total abundances have decimal values. An example: we counted 1 wild bee during surveys but we could not identify the species on the wing. Then we captured 2 wild bees that were identified as L. pauxilium and L. zonulum. Then we assigned abundance 0,5 to each species (1 wild bee/ 2 species).",NA
"Marcos_Minarro_Malus_domestica_Spain_2015","San18","Plant observation","Apis mellifera","species","honeybees",58,47.12,75,3240,"Each orchard was surveyed three times. Each survey was the observation of 5 trees * 5 minutes (25 min). In each tree, we observed an area of about 1m of radius in which number of flowers was counted. When possible, insects were identified to species or caught for a posterior identificaction. An additional capture (10 minutes at each survey) of pollinators visiting apple flowers was made for identification in the lab of species not identifyied in the field sampling. This info was not used for abundance (that is why we only considered plant observaction as sasmpling method) but just to assign relative abundances to specific species from general groups (e.g. wild bees). This is why in some cases total abundances have decimal values. An example: we counted 1 wild bee during surveys but we could not identify the species on the wing. Then we captured 2 wild bees that were identified as L. pauxilium and L. zonulum. Then we assigned abundance 0,5 to each species (1 wild bee/ 2 species).",NA
"Marcos_Minarro_Malus_domestica_Spain_2015","San18","Plant observation","Bombus pascuorum","species","bumblebees",1,47.12,75,3240,"Each orchard was surveyed three times. Each survey was the observation of 5 trees * 5 minutes (25 min). In each tree, we observed an area of about 1m of radius in which number of flowers was counted. When possible, insects were identified to species or caught for a posterior identificaction. An additional capture (10 minutes at each survey) of pollinators visiting apple flowers was made for identification in the lab of species not identifyied in the field sampling. This info was not used for abundance (that is why we only considered plant observaction as sasmpling method) but just to assign relative abundances to specific species from general groups (e.g. wild bees). This is why in some cases total abundances have decimal values. An example: we counted 1 wild bee during surveys but we could not identify the species on the wing. Then we captured 2 wild bees that were identified as L. pauxilium and L. zonulum. Then we assigned abundance 0,5 to each species (1 wild bee/ 2 species).",NA
"Marcos_Minarro_Malus_domestica_Spain_2015","San18","Plant observation","Eristalis tenax","species","syrphids",6,47.12,75,3240,"Each orchard was surveyed three times. Each survey was the observation of 5 trees * 5 minutes (25 min). In each tree, we observed an area of about 1m of radius in which number of flowers was counted. When possible, insects were identified to species or caught for a posterior identificaction. An additional capture (10 minutes at each survey) of pollinators visiting apple flowers was made for identification in the lab of species not identifyied in the field sampling. This info was not used for abundance (that is why we only considered plant observaction as sasmpling method) but just to assign relative abundances to specific species from general groups (e.g. wild bees). This is why in some cases total abundances have decimal values. An example: we counted 1 wild bee during surveys but we could not identify the species on the wing. Then we captured 2 wild bees that were identified as L. pauxilium and L. zonulum. Then we assigned abundance 0,5 to each species (1 wild bee/ 2 species).",NA
"Marcos_Minarro_Malus_domestica_Spain_2015","San18","Plant observation","Hoverfly","family","syrphids",3,47.12,75,3240,"Each orchard was surveyed three times. Each survey was the observation of 5 trees * 5 minutes (25 min). In each tree, we observed an area of about 1m of radius in which number of flowers was counted. When possible, insects were identified to species or caught for a posterior identificaction. An additional capture (10 minutes at each survey) of pollinators visiting apple flowers was made for identification in the lab of species not identifyied in the field sampling. This info was not used for abundance (that is why we only considered plant observaction as sasmpling method) but just to assign relative abundances to specific species from general groups (e.g. wild bees). This is why in some cases total abundances have decimal values. An example: we counted 1 wild bee during surveys but we could not identify the species on the wing. Then we captured 2 wild bees that were identified as L. pauxilium and L. zonulum. Then we assigned abundance 0,5 to each species (1 wild bee/ 2 species).",NA
"Marcos_Minarro_Malus_domestica_Spain_2015","San18","Plant observation","Lepidopterans","order","lepidoptera",3,47.12,75,3240,"Each orchard was surveyed three times. Each survey was the observation of 5 trees * 5 minutes (25 min). In each tree, we observed an area of about 1m of radius in which number of flowers was counted. When possible, insects were identified to species or caught for a posterior identificaction. An additional capture (10 minutes at each survey) of pollinators visiting apple flowers was made for identification in the lab of species not identifyied in the field sampling. This info was not used for abundance (that is why we only considered plant observaction as sasmpling method) but just to assign relative abundances to specific species from general groups (e.g. wild bees). This is why in some cases total abundances have decimal values. An example: we counted 1 wild bee during surveys but we could not identify the species on the wing. Then we captured 2 wild bees that were identified as L. pauxilium and L. zonulum. Then we assigned abundance 0,5 to each species (1 wild bee/ 2 species).",NA
"Marcos_Minarro_Malus_domestica_Spain_2015","San18","Plant observation","Other dipterans","order","other_flies",8,47.12,75,3240,"Each orchard was surveyed three times. Each survey was the observation of 5 trees * 5 minutes (25 min). In each tree, we observed an area of about 1m of radius in which number of flowers was counted. When possible, insects were identified to species or caught for a posterior identificaction. An additional capture (10 minutes at each survey) of pollinators visiting apple flowers was made for identification in the lab of species not identifyied in the field sampling. This info was not used for abundance (that is why we only considered plant observaction as sasmpling method) but just to assign relative abundances to specific species from general groups (e.g. wild bees). This is why in some cases total abundances have decimal values. An example: we counted 1 wild bee during surveys but we could not identify the species on the wing. Then we captured 2 wild bees that were identified as L. pauxilium and L. zonulum. Then we assigned abundance 0,5 to each species (1 wild bee/ 2 species).",NA
"Marcos_Minarro_Malus_domestica_Spain_2015","San18","Plant observation","Wild bees","superfamily","other_wild_bees",1,47.12,75,3240,"Each orchard was surveyed three times. Each survey was the observation of 5 trees * 5 minutes (25 min). In each tree, we observed an area of about 1m of radius in which number of flowers was counted. When possible, insects were identified to species or caught for a posterior identificaction. An additional capture (10 minutes at each survey) of pollinators visiting apple flowers was made for identification in the lab of species not identifyied in the field sampling. This info was not used for abundance (that is why we only considered plant observaction as sasmpling method) but just to assign relative abundances to specific species from general groups (e.g. wild bees). This is why in some cases total abundances have decimal values. An example: we counted 1 wild bee during surveys but we could not identify the species on the wing. Then we captured 2 wild bees that were identified as L. pauxilium and L. zonulum. Then we assigned abundance 0,5 to each species (1 wild bee/ 2 species).","Apoidea?"
"Marcos_Minarro_Malus_domestica_Spain_2015","Sel01","Plant observation","Apis mellifera","species","honeybees",18,47.12,75,2841,"Each orchard was surveyed three times. Each survey was the observation of 5 trees * 5 minutes (25 min). In each tree, we observed an area of about 1m of radius in which number of flowers was counted. When possible, insects were identified to species or caught for a posterior identificaction. An additional capture (10 minutes at each survey) of pollinators visiting apple flowers was made for identification in the lab of species not identifyied in the field sampling. This info was not used for abundance (that is why we only considered plant observaction as sasmpling method) but just to assign relative abundances to specific species from general groups (e.g. wild bees). This is why in some cases total abundances have decimal values. An example: we counted 1 wild bee during surveys but we could not identify the species on the wing. Then we captured 2 wild bees that were identified as L. pauxilium and L. zonulum. Then we assigned abundance 0,5 to each species (1 wild bee/ 2 species).",NA
"Marcos_Minarro_Malus_domestica_Spain_2015","Sel01","Plant observation","Bombus pascuorum","species","bumblebees",5,47.12,75,2841,"Each orchard was surveyed three times. Each survey was the observation of 5 trees * 5 minutes (25 min). In each tree, we observed an area of about 1m of radius in which number of flowers was counted. When possible, insects were identified to species or caught for a posterior identificaction. An additional capture (10 minutes at each survey) of pollinators visiting apple flowers was made for identification in the lab of species not identifyied in the field sampling. This info was not used for abundance (that is why we only considered plant observaction as sasmpling method) but just to assign relative abundances to specific species from general groups (e.g. wild bees). This is why in some cases total abundances have decimal values. An example: we counted 1 wild bee during surveys but we could not identify the species on the wing. Then we captured 2 wild bees that were identified as L. pauxilium and L. zonulum. Then we assigned abundance 0,5 to each species (1 wild bee/ 2 species).",NA
"Marcos_Minarro_Malus_domestica_Spain_2015","Sel01","Plant observation","Bombus pratorum","species","bumblebees",4,47.12,75,2841,"Each orchard was surveyed three times. Each survey was the observation of 5 trees * 5 minutes (25 min). In each tree, we observed an area of about 1m of radius in which number of flowers was counted. When possible, insects were identified to species or caught for a posterior identificaction. An additional capture (10 minutes at each survey) of pollinators visiting apple flowers was made for identification in the lab of species not identifyied in the field sampling. This info was not used for abundance (that is why we only considered plant observaction as sasmpling method) but just to assign relative abundances to specific species from general groups (e.g. wild bees). This is why in some cases total abundances have decimal values. An example: we counted 1 wild bee during surveys but we could not identify the species on the wing. Then we captured 2 wild bees that were identified as L. pauxilium and L. zonulum. Then we assigned abundance 0,5 to each species (1 wild bee/ 2 species).",NA
"Marcos_Minarro_Malus_domestica_Spain_2015","Sel01","Plant observation","Bombus sp.","genus","bumblebees",1,47.12,75,2841,"Each orchard was surveyed three times. Each survey was the observation of 5 trees * 5 minutes (25 min). In each tree, we observed an area of about 1m of radius in which number of flowers was counted. When possible, insects were identified to species or caught for a posterior identificaction. An additional capture (10 minutes at each survey) of pollinators visiting apple flowers was made for identification in the lab of species not identifyied in the field sampling. This info was not used for abundance (that is why we only considered plant observaction as sasmpling method) but just to assign relative abundances to specific species from general groups (e.g. wild bees). This is why in some cases total abundances have decimal values. An example: we counted 1 wild bee during surveys but we could not identify the species on the wing. Then we captured 2 wild bees that were identified as L. pauxilium and L. zonulum. Then we assigned abundance 0,5 to each species (1 wild bee/ 2 species).",NA
"Marcos_Minarro_Malus_domestica_Spain_2015","Sel01","Plant observation","Bombus terrestris","species","bumblebees",24,47.12,75,2841,"Each orchard was surveyed three times. Each survey was the observation of 5 trees * 5 minutes (25 min). In each tree, we observed an area of about 1m of radius in which number of flowers was counted. When possible, insects were identified to species or caught for a posterior identificaction. An additional capture (10 minutes at each survey) of pollinators visiting apple flowers was made for identification in the lab of species not identifyied in the field sampling. This info was not used for abundance (that is why we only considered plant observaction as sasmpling method) but just to assign relative abundances to specific species from general groups (e.g. wild bees). This is why in some cases total abundances have decimal values. An example: we counted 1 wild bee during surveys but we could not identify the species on the wing. Then we captured 2 wild bees that were identified as L. pauxilium and L. zonulum. Then we assigned abundance 0,5 to each species (1 wild bee/ 2 species).",NA
"Marcos_Minarro_Malus_domestica_Spain_2015","Sel01","Plant observation","Eristalis similis","species","syrphids",2.667,47.12,75,2841,"Each orchard was surveyed three times. Each survey was the observation of 5 trees * 5 minutes (25 min). In each tree, we observed an area of about 1m of radius in which number of flowers was counted. When possible, insects were identified to species or caught for a posterior identificaction. An additional capture (10 minutes at each survey) of pollinators visiting apple flowers was made for identification in the lab of species not identifyied in the field sampling. This info was not used for abundance (that is why we only considered plant observaction as sasmpling method) but just to assign relative abundances to specific species from general groups (e.g. wild bees). This is why in some cases total abundances have decimal values. An example: we counted 1 wild bee during surveys but we could not identify the species on the wing. Then we captured 2 wild bees that were identified as L. pauxilium and L. zonulum. Then we assigned abundance 0,5 to each species (1 wild bee/ 2 species).",NA
"Marcos_Minarro_Malus_domestica_Spain_2015","Sel01","Plant observation","Eristalis spp.","genus","syrphids",25,47.12,75,2841,"Each orchard was surveyed three times. Each survey was the observation of 5 trees * 5 minutes (25 min). In each tree, we observed an area of about 1m of radius in which number of flowers was counted. When possible, insects were identified to species or caught for a posterior identificaction. An additional capture (10 minutes at each survey) of pollinators visiting apple flowers was made for identification in the lab of species not identifyied in the field sampling. This info was not used for abundance (that is why we only considered plant observaction as sasmpling method) but just to assign relative abundances to specific species from general groups (e.g. wild bees). This is why in some cases total abundances have decimal values. An example: we counted 1 wild bee during surveys but we could not identify the species on the wing. Then we captured 2 wild bees that were identified as L. pauxilium and L. zonulum. Then we assigned abundance 0,5 to each species (1 wild bee/ 2 species).",NA
"Marcos_Minarro_Malus_domestica_Spain_2015","Sel01","Plant observation","Eristalis tenax","species","syrphids",17.333,47.12,75,2841,"Each orchard was surveyed three times. Each survey was the observation of 5 trees * 5 minutes (25 min). In each tree, we observed an area of about 1m of radius in which number of flowers was counted. When possible, insects were identified to species or caught for a posterior identificaction. An additional capture (10 minutes at each survey) of pollinators visiting apple flowers was made for identification in the lab of species not identifyied in the field sampling. This info was not used for abundance (that is why we only considered plant observaction as sasmpling method) but just to assign relative abundances to specific species from general groups (e.g. wild bees). This is why in some cases total abundances have decimal values. An example: we counted 1 wild bee during surveys but we could not identify the species on the wing. Then we captured 2 wild bees that were identified as L. pauxilium and L. zonulum. Then we assigned abundance 0,5 to each species (1 wild bee/ 2 species).",NA
"Marcos_Minarro_Malus_domestica_Spain_2015","Sel01","Plant observation","Eupeodes corollae","species","syrphids",8.334,47.12,75,2841,"Each orchard was surveyed three times. Each survey was the observation of 5 trees * 5 minutes (25 min). In each tree, we observed an area of about 1m of radius in which number of flowers was counted. When possible, insects were identified to species or caught for a posterior identificaction. An additional capture (10 minutes at each survey) of pollinators visiting apple flowers was made for identification in the lab of species not identifyied in the field sampling. This info was not used for abundance (that is why we only considered plant observaction as sasmpling method) but just to assign relative abundances to specific species from general groups (e.g. wild bees). This is why in some cases total abundances have decimal values. An example: we counted 1 wild bee during surveys but we could not identify the species on the wing. Then we captured 2 wild bees that were identified as L. pauxilium and L. zonulum. Then we assigned abundance 0,5 to each species (1 wild bee/ 2 species).",NA
"Marcos_Minarro_Malus_domestica_Spain_2015","Sel01","Plant observation","Hoverfly","family","syrphids",6,47.12,75,2841,"Each orchard was surveyed three times. Each survey was the observation of 5 trees * 5 minutes (25 min). In each tree, we observed an area of about 1m of radius in which number of flowers was counted. When possible, insects were identified to species or caught for a posterior identificaction. An additional capture (10 minutes at each survey) of pollinators visiting apple flowers was made for identification in the lab of species not identifyied in the field sampling. This info was not used for abundance (that is why we only considered plant observaction as sasmpling method) but just to assign relative abundances to specific species from general groups (e.g. wild bees). This is why in some cases total abundances have decimal values. An example: we counted 1 wild bee during surveys but we could not identify the species on the wing. Then we captured 2 wild bees that were identified as L. pauxilium and L. zonulum. Then we assigned abundance 0,5 to each species (1 wild bee/ 2 species).",NA
"Marcos_Minarro_Malus_domestica_Spain_2015","Sel01","Plant observation","Lasioglossum punctatissimum","species","other_wild_bees",3,47.12,75,2841,"Each orchard was surveyed three times. Each survey was the observation of 5 trees * 5 minutes (25 min). In each tree, we observed an area of about 1m of radius in which number of flowers was counted. When possible, insects were identified to species or caught for a posterior identificaction. An additional capture (10 minutes at each survey) of pollinators visiting apple flowers was made for identification in the lab of species not identifyied in the field sampling. This info was not used for abundance (that is why we only considered plant observaction as sasmpling method) but just to assign relative abundances to specific species from general groups (e.g. wild bees). This is why in some cases total abundances have decimal values. An example: we counted 1 wild bee during surveys but we could not identify the species on the wing. Then we captured 2 wild bees that were identified as L. pauxilium and L. zonulum. Then we assigned abundance 0,5 to each species (1 wild bee/ 2 species).",NA
"Marcos_Minarro_Malus_domestica_Spain_2015","Sel01","Plant observation","Melanostoma mellinum","species","syrphids",3.667,47.12,75,2841,"Each orchard was surveyed three times. Each survey was the observation of 5 trees * 5 minutes (25 min). In each tree, we observed an area of about 1m of radius in which number of flowers was counted. When possible, insects were identified to species or caught for a posterior identificaction. An additional capture (10 minutes at each survey) of pollinators visiting apple flowers was made for identification in the lab of species not identifyied in the field sampling. This info was not used for abundance (that is why we only considered plant observaction as sasmpling method) but just to assign relative abundances to specific species from general groups (e.g. wild bees). This is why in some cases total abundances have decimal values. An example: we counted 1 wild bee during surveys but we could not identify the species on the wing. Then we captured 2 wild bees that were identified as L. pauxilium and L. zonulum. Then we assigned abundance 0,5 to each species (1 wild bee/ 2 species).",NA
"Marcos_Minarro_Malus_domestica_Spain_2015","Sel01","Plant observation","Meliscaeva auricollis","species","syrphids",2.33,47.12,75,2841,"Each orchard was surveyed three times. Each survey was the observation of 5 trees * 5 minutes (25 min). In each tree, we observed an area of about 1m of radius in which number of flowers was counted. When possible, insects were identified to species or caught for a posterior identificaction. An additional capture (10 minutes at each survey) of pollinators visiting apple flowers was made for identification in the lab of species not identifyied in the field sampling. This info was not used for abundance (that is why we only considered plant observaction as sasmpling method) but just to assign relative abundances to specific species from general groups (e.g. wild bees). This is why in some cases total abundances have decimal values. An example: we counted 1 wild bee during surveys but we could not identify the species on the wing. Then we captured 2 wild bees that were identified as L. pauxilium and L. zonulum. Then we assigned abundance 0,5 to each species (1 wild bee/ 2 species).",NA
"Marcos_Minarro_Malus_domestica_Spain_2015","Sel01","Plant observation","Other dipterans","order","other_flies",2,47.12,75,2841,"Each orchard was surveyed three times. Each survey was the observation of 5 trees * 5 minutes (25 min). In each tree, we observed an area of about 1m of radius in which number of flowers was counted. When possible, insects were identified to species or caught for a posterior identificaction. An additional capture (10 minutes at each survey) of pollinators visiting apple flowers was made for identification in the lab of species not identifyied in the field sampling. This info was not used for abundance (that is why we only considered plant observaction as sasmpling method) but just to assign relative abundances to specific species from general groups (e.g. wild bees). This is why in some cases total abundances have decimal values. An example: we counted 1 wild bee during surveys but we could not identify the species on the wing. Then we captured 2 wild bees that were identified as L. pauxilium and L. zonulum. Then we assigned abundance 0,5 to each species (1 wild bee/ 2 species).",NA
"Marcos_Minarro_Malus_domestica_Spain_2015","Sel01","Plant observation","Syrphus ribesii","species","syrphids",3.667,47.12,75,2841,"Each orchard was surveyed three times. Each survey was the observation of 5 trees * 5 minutes (25 min). In each tree, we observed an area of about 1m of radius in which number of flowers was counted. When possible, insects were identified to species or caught for a posterior identificaction. An additional capture (10 minutes at each survey) of pollinators visiting apple flowers was made for identification in the lab of species not identifyied in the field sampling. This info was not used for abundance (that is why we only considered plant observaction as sasmpling method) but just to assign relative abundances to specific species from general groups (e.g. wild bees). This is why in some cases total abundances have decimal values. An example: we counted 1 wild bee during surveys but we could not identify the species on the wing. Then we captured 2 wild bees that were identified as L. pauxilium and L. zonulum. Then we assigned abundance 0,5 to each species (1 wild bee/ 2 species).",NA
"Marcos_Minarro_Malus_domestica_Spain_2015","Sor05","Plant observation","Andrena bicolor","species","other_wild_bees",5,47.12,75,2708,"Each orchard was surveyed three times. Each survey was the observation of 5 trees * 5 minutes (25 min). In each tree, we observed an area of about 1m of radius in which number of flowers was counted. When possible, insects were identified to species or caught for a posterior identificaction. An additional capture (10 minutes at each survey) of pollinators visiting apple flowers was made for identification in the lab of species not identifyied in the field sampling. This info was not used for abundance (that is why we only considered plant observaction as sasmpling method) but just to assign relative abundances to specific species from general groups (e.g. wild bees). This is why in some cases total abundances have decimal values. An example: we counted 1 wild bee during surveys but we could not identify the species on the wing. Then we captured 2 wild bees that were identified as L. pauxilium and L. zonulum. Then we assigned abundance 0,5 to each species (1 wild bee/ 2 species).",NA
"Marcos_Minarro_Malus_domestica_Spain_2015","Sor05","Plant observation","Apis mellifera","species","honeybees",75,47.12,75,2708,"Each orchard was surveyed three times. Each survey was the observation of 5 trees * 5 minutes (25 min). In each tree, we observed an area of about 1m of radius in which number of flowers was counted. When possible, insects were identified to species or caught for a posterior identificaction. An additional capture (10 minutes at each survey) of pollinators visiting apple flowers was made for identification in the lab of species not identifyied in the field sampling. This info was not used for abundance (that is why we only considered plant observaction as sasmpling method) but just to assign relative abundances to specific species from general groups (e.g. wild bees). This is why in some cases total abundances have decimal values. An example: we counted 1 wild bee during surveys but we could not identify the species on the wing. Then we captured 2 wild bees that were identified as L. pauxilium and L. zonulum. Then we assigned abundance 0,5 to each species (1 wild bee/ 2 species).",NA
"Marcos_Minarro_Malus_domestica_Spain_2015","Sor05","Plant observation","Bombus terrestris","species","bumblebees",1,47.12,75,2708,"Each orchard was surveyed three times. Each survey was the observation of 5 trees * 5 minutes (25 min). In each tree, we observed an area of about 1m of radius in which number of flowers was counted. When possible, insects were identified to species or caught for a posterior identificaction. An additional capture (10 minutes at each survey) of pollinators visiting apple flowers was made for identification in the lab of species not identifyied in the field sampling. This info was not used for abundance (that is why we only considered plant observaction as sasmpling method) but just to assign relative abundances to specific species from general groups (e.g. wild bees). This is why in some cases total abundances have decimal values. An example: we counted 1 wild bee during surveys but we could not identify the species on the wing. Then we captured 2 wild bees that were identified as L. pauxilium and L. zonulum. Then we assigned abundance 0,5 to each species (1 wild bee/ 2 species).",NA
"Marcos_Minarro_Malus_domestica_Spain_2015","Sor05","Plant observation","Eristalis interrupta","species","syrphids",1,47.12,75,2708,"Each orchard was surveyed three times. Each survey was the observation of 5 trees * 5 minutes (25 min). In each tree, we observed an area of about 1m of radius in which number of flowers was counted. When possible, insects were identified to species or caught for a posterior identificaction. An additional capture (10 minutes at each survey) of pollinators visiting apple flowers was made for identification in the lab of species not identifyied in the field sampling. This info was not used for abundance (that is why we only considered plant observaction as sasmpling method) but just to assign relative abundances to specific species from general groups (e.g. wild bees). This is why in some cases total abundances have decimal values. An example: we counted 1 wild bee during surveys but we could not identify the species on the wing. Then we captured 2 wild bees that were identified as L. pauxilium and L. zonulum. Then we assigned abundance 0,5 to each species (1 wild bee/ 2 species).",NA
"Marcos_Minarro_Malus_domestica_Spain_2015","Sor05","Plant observation","Eristalis similis","species","syrphids",1.333,47.12,75,2708,"Each orchard was surveyed three times. Each survey was the observation of 5 trees * 5 minutes (25 min). In each tree, we observed an area of about 1m of radius in which number of flowers was counted. When possible, insects were identified to species or caught for a posterior identificaction. An additional capture (10 minutes at each survey) of pollinators visiting apple flowers was made for identification in the lab of species not identifyied in the field sampling. This info was not used for abundance (that is why we only considered plant observaction as sasmpling method) but just to assign relative abundances to specific species from general groups (e.g. wild bees). This is why in some cases total abundances have decimal values. An example: we counted 1 wild bee during surveys but we could not identify the species on the wing. Then we captured 2 wild bees that were identified as L. pauxilium and L. zonulum. Then we assigned abundance 0,5 to each species (1 wild bee/ 2 species).",NA
"Marcos_Minarro_Malus_domestica_Spain_2015","Sor05","Plant observation","Eristalis tenax","species","syrphids",5.667,47.12,75,2708,"Each orchard was surveyed three times. Each survey was the observation of 5 trees * 5 minutes (25 min). In each tree, we observed an area of about 1m of radius in which number of flowers was counted. When possible, insects were identified to species or caught for a posterior identificaction. An additional capture (10 minutes at each survey) of pollinators visiting apple flowers was made for identification in the lab of species not identifyied in the field sampling. This info was not used for abundance (that is why we only considered plant observaction as sasmpling method) but just to assign relative abundances to specific species from general groups (e.g. wild bees). This is why in some cases total abundances have decimal values. An example: we counted 1 wild bee during surveys but we could not identify the species on the wing. Then we captured 2 wild bees that were identified as L. pauxilium and L. zonulum. Then we assigned abundance 0,5 to each species (1 wild bee/ 2 species).",NA
"Marcos_Minarro_Malus_domestica_Spain_2015","Sor05","Plant observation","Helophilus pendulus","species","syrphids",1,47.12,75,2708,"Each orchard was surveyed three times. Each survey was the observation of 5 trees * 5 minutes (25 min). In each tree, we observed an area of about 1m of radius in which number of flowers was counted. When possible, insects were identified to species or caught for a posterior identificaction. An additional capture (10 minutes at each survey) of pollinators visiting apple flowers was made for identification in the lab of species not identifyied in the field sampling. This info was not used for abundance (that is why we only considered plant observaction as sasmpling method) but just to assign relative abundances to specific species from general groups (e.g. wild bees). This is why in some cases total abundances have decimal values. An example: we counted 1 wild bee during surveys but we could not identify the species on the wing. Then we captured 2 wild bees that were identified as L. pauxilium and L. zonulum. Then we assigned abundance 0,5 to each species (1 wild bee/ 2 species).",NA
"Marcos_Minarro_Malus_domestica_Spain_2015","Sor05","Plant observation","Other coleopterans","order","beetles",1,47.12,75,2708,"Each orchard was surveyed three times. Each survey was the observation of 5 trees * 5 minutes (25 min). In each tree, we observed an area of about 1m of radius in which number of flowers was counted. When possible, insects were identified to species or caught for a posterior identificaction. An additional capture (10 minutes at each survey) of pollinators visiting apple flowers was made for identification in the lab of species not identifyied in the field sampling. This info was not used for abundance (that is why we only considered plant observaction as sasmpling method) but just to assign relative abundances to specific species from general groups (e.g. wild bees). This is why in some cases total abundances have decimal values. An example: we counted 1 wild bee during surveys but we could not identify the species on the wing. Then we captured 2 wild bees that were identified as L. pauxilium and L. zonulum. Then we assigned abundance 0,5 to each species (1 wild bee/ 2 species).",NA
"Marcos_Minarro_Malus_domestica_Spain_2015","Sor05","Plant observation","Other dipterans","order","other_flies",2,47.12,75,2708,"Each orchard was surveyed three times. Each survey was the observation of 5 trees * 5 minutes (25 min). In each tree, we observed an area of about 1m of radius in which number of flowers was counted. When possible, insects were identified to species or caught for a posterior identificaction. An additional capture (10 minutes at each survey) of pollinators visiting apple flowers was made for identification in the lab of species not identifyied in the field sampling. This info was not used for abundance (that is why we only considered plant observaction as sasmpling method) but just to assign relative abundances to specific species from general groups (e.g. wild bees). This is why in some cases total abundances have decimal values. An example: we counted 1 wild bee during surveys but we could not identify the species on the wing. Then we captured 2 wild bees that were identified as L. pauxilium and L. zonulum. Then we assigned abundance 0,5 to each species (1 wild bee/ 2 species).",NA
"Marcos_Minarro_Malus_domestica_Spain_2015","Sor05","Plant observation","Oxythyrea funesta","species","beetles",6,47.12,75,2708,"Each orchard was surveyed three times. Each survey was the observation of 5 trees * 5 minutes (25 min). In each tree, we observed an area of about 1m of radius in which number of flowers was counted. When possible, insects were identified to species or caught for a posterior identificaction. An additional capture (10 minutes at each survey) of pollinators visiting apple flowers was made for identification in the lab of species not identifyied in the field sampling. This info was not used for abundance (that is why we only considered plant observaction as sasmpling method) but just to assign relative abundances to specific species from general groups (e.g. wild bees). This is why in some cases total abundances have decimal values. An example: we counted 1 wild bee during surveys but we could not identify the species on the wing. Then we captured 2 wild bees that were identified as L. pauxilium and L. zonulum. Then we assigned abundance 0,5 to each species (1 wild bee/ 2 species).",NA
"Marcos_Minarro_Malus_domestica_Spain_2015","Sor05","Plant observation","Wild bees","superfamily","other_wild_bees",1,47.12,75,2708,"Each orchard was surveyed three times. Each survey was the observation of 5 trees * 5 minutes (25 min). In each tree, we observed an area of about 1m of radius in which number of flowers was counted. When possible, insects were identified to species or caught for a posterior identificaction. An additional capture (10 minutes at each survey) of pollinators visiting apple flowers was made for identification in the lab of species not identifyied in the field sampling. This info was not used for abundance (that is why we only considered plant observaction as sasmpling method) but just to assign relative abundances to specific species from general groups (e.g. wild bees). This is why in some cases total abundances have decimal values. An example: we counted 1 wild bee during surveys but we could not identify the species on the wing. Then we captured 2 wild bees that were identified as L. pauxilium and L. zonulum. Then we assigned abundance 0,5 to each species (1 wild bee/ 2 species).","Apoidea?"
"Marcos_Minarro_Malus_domestica_Spain_2015","Tin25","Plant observation","Andrena nigroaenea","species","other_wild_bees",8,47.12,75,2660,"Each orchard was surveyed three times. Each survey was the observation of 5 trees * 5 minutes (25 min). In each tree, we observed an area of about 1m of radius in which number of flowers was counted. When possible, insects were identified to species or caught for a posterior identificaction. An additional capture (10 minutes at each survey) of pollinators visiting apple flowers was made for identification in the lab of species not identifyied in the field sampling. This info was not used for abundance (that is why we only considered plant observaction as sasmpling method) but just to assign relative abundances to specific species from general groups (e.g. wild bees). This is why in some cases total abundances have decimal values. An example: we counted 1 wild bee during surveys but we could not identify the species on the wing. Then we captured 2 wild bees that were identified as L. pauxilium and L. zonulum. Then we assigned abundance 0,5 to each species (1 wild bee/ 2 species).",NA
"Marcos_Minarro_Malus_domestica_Spain_2015","Tin25","Plant observation","Andrena pilipes","species","other_wild_bees",2,47.12,75,2660,"Each orchard was surveyed three times. Each survey was the observation of 5 trees * 5 minutes (25 min). In each tree, we observed an area of about 1m of radius in which number of flowers was counted. When possible, insects were identified to species or caught for a posterior identificaction. An additional capture (10 minutes at each survey) of pollinators visiting apple flowers was made for identification in the lab of species not identifyied in the field sampling. This info was not used for abundance (that is why we only considered plant observaction as sasmpling method) but just to assign relative abundances to specific species from general groups (e.g. wild bees). This is why in some cases total abundances have decimal values. An example: we counted 1 wild bee during surveys but we could not identify the species on the wing. Then we captured 2 wild bees that were identified as L. pauxilium and L. zonulum. Then we assigned abundance 0,5 to each species (1 wild bee/ 2 species).",NA
"Marcos_Minarro_Malus_domestica_Spain_2015","Tin25","Plant observation","Apis mellifera","species","honeybees",71,47.12,75,2660,"Each orchard was surveyed three times. Each survey was the observation of 5 trees * 5 minutes (25 min). In each tree, we observed an area of about 1m of radius in which number of flowers was counted. When possible, insects were identified to species or caught for a posterior identificaction. An additional capture (10 minutes at each survey) of pollinators visiting apple flowers was made for identification in the lab of species not identifyied in the field sampling. This info was not used for abundance (that is why we only considered plant observaction as sasmpling method) but just to assign relative abundances to specific species from general groups (e.g. wild bees). This is why in some cases total abundances have decimal values. An example: we counted 1 wild bee during surveys but we could not identify the species on the wing. Then we captured 2 wild bees that were identified as L. pauxilium and L. zonulum. Then we assigned abundance 0,5 to each species (1 wild bee/ 2 species).",NA
"Marcos_Minarro_Malus_domestica_Spain_2015","Tin25","Plant observation","Bombus pascuorum","species","bumblebees",1,47.12,75,2660,"Each orchard was surveyed three times. Each survey was the observation of 5 trees * 5 minutes (25 min). In each tree, we observed an area of about 1m of radius in which number of flowers was counted. When possible, insects were identified to species or caught for a posterior identificaction. An additional capture (10 minutes at each survey) of pollinators visiting apple flowers was made for identification in the lab of species not identifyied in the field sampling. This info was not used for abundance (that is why we only considered plant observaction as sasmpling method) but just to assign relative abundances to specific species from general groups (e.g. wild bees). This is why in some cases total abundances have decimal values. An example: we counted 1 wild bee during surveys but we could not identify the species on the wing. Then we captured 2 wild bees that were identified as L. pauxilium and L. zonulum. Then we assigned abundance 0,5 to each species (1 wild bee/ 2 species).",NA
"Marcos_Minarro_Malus_domestica_Spain_2015","Tin25","Plant observation","Bombus terrestris","species","bumblebees",2,47.12,75,2660,"Each orchard was surveyed three times. Each survey was the observation of 5 trees * 5 minutes (25 min). In each tree, we observed an area of about 1m of radius in which number of flowers was counted. When possible, insects were identified to species or caught for a posterior identificaction. An additional capture (10 minutes at each survey) of pollinators visiting apple flowers was made for identification in the lab of species not identifyied in the field sampling. This info was not used for abundance (that is why we only considered plant observaction as sasmpling method) but just to assign relative abundances to specific species from general groups (e.g. wild bees). This is why in some cases total abundances have decimal values. An example: we counted 1 wild bee during surveys but we could not identify the species on the wing. Then we captured 2 wild bees that were identified as L. pauxilium and L. zonulum. Then we assigned abundance 0,5 to each species (1 wild bee/ 2 species).",NA
"Marcos_Minarro_Malus_domestica_Spain_2015","Tin25","Plant observation","Eristalis spp.","genus","syrphids",4,47.12,75,2660,"Each orchard was surveyed three times. Each survey was the observation of 5 trees * 5 minutes (25 min). In each tree, we observed an area of about 1m of radius in which number of flowers was counted. When possible, insects were identified to species or caught for a posterior identificaction. An additional capture (10 minutes at each survey) of pollinators visiting apple flowers was made for identification in the lab of species not identifyied in the field sampling. This info was not used for abundance (that is why we only considered plant observaction as sasmpling method) but just to assign relative abundances to specific species from general groups (e.g. wild bees). This is why in some cases total abundances have decimal values. An example: we counted 1 wild bee during surveys but we could not identify the species on the wing. Then we captured 2 wild bees that were identified as L. pauxilium and L. zonulum. Then we assigned abundance 0,5 to each species (1 wild bee/ 2 species).",NA
"Marcos_Minarro_Malus_domestica_Spain_2015","Tin25","Plant observation","Hoverfly","family","syrphids",1,47.12,75,2660,"Each orchard was surveyed three times. Each survey was the observation of 5 trees * 5 minutes (25 min). In each tree, we observed an area of about 1m of radius in which number of flowers was counted. When possible, insects were identified to species or caught for a posterior identificaction. An additional capture (10 minutes at each survey) of pollinators visiting apple flowers was made for identification in the lab of species not identifyied in the field sampling. This info was not used for abundance (that is why we only considered plant observaction as sasmpling method) but just to assign relative abundances to specific species from general groups (e.g. wild bees). This is why in some cases total abundances have decimal values. An example: we counted 1 wild bee during surveys but we could not identify the species on the wing. Then we captured 2 wild bees that were identified as L. pauxilium and L. zonulum. Then we assigned abundance 0,5 to each species (1 wild bee/ 2 species).",NA
"Marcos_Minarro_Malus_domestica_Spain_2015","Tin25","Plant observation","Lepidopterans","order","lepidoptera",1,47.12,75,2660,"Each orchard was surveyed three times. Each survey was the observation of 5 trees * 5 minutes (25 min). In each tree, we observed an area of about 1m of radius in which number of flowers was counted. When possible, insects were identified to species or caught for a posterior identificaction. An additional capture (10 minutes at each survey) of pollinators visiting apple flowers was made for identification in the lab of species not identifyied in the field sampling. This info was not used for abundance (that is why we only considered plant observaction as sasmpling method) but just to assign relative abundances to specific species from general groups (e.g. wild bees). This is why in some cases total abundances have decimal values. An example: we counted 1 wild bee during surveys but we could not identify the species on the wing. Then we captured 2 wild bees that were identified as L. pauxilium and L. zonulum. Then we assigned abundance 0,5 to each species (1 wild bee/ 2 species).",NA
"Marcos_Minarro_Malus_domestica_Spain_2015","Tin25","Plant observation","Oedemera sp.","genus","beetles",1,47.12,75,2660,"Each orchard was surveyed three times. Each survey was the observation of 5 trees * 5 minutes (25 min). In each tree, we observed an area of about 1m of radius in which number of flowers was counted. When possible, insects were identified to species or caught for a posterior identificaction. An additional capture (10 minutes at each survey) of pollinators visiting apple flowers was made for identification in the lab of species not identifyied in the field sampling. This info was not used for abundance (that is why we only considered plant observaction as sasmpling method) but just to assign relative abundances to specific species from general groups (e.g. wild bees). This is why in some cases total abundances have decimal values. An example: we counted 1 wild bee during surveys but we could not identify the species on the wing. Then we captured 2 wild bees that were identified as L. pauxilium and L. zonulum. Then we assigned abundance 0,5 to each species (1 wild bee/ 2 species).",NA
"Marcos_Minarro_Malus_domestica_Spain_2015","Tin25","Plant observation","Other dipterans","order","other_flies",14,47.12,75,2660,"Each orchard was surveyed three times. Each survey was the observation of 5 trees * 5 minutes (25 min). In each tree, we observed an area of about 1m of radius in which number of flowers was counted. When possible, insects were identified to species or caught for a posterior identificaction. An additional capture (10 minutes at each survey) of pollinators visiting apple flowers was made for identification in the lab of species not identifyied in the field sampling. This info was not used for abundance (that is why we only considered plant observaction as sasmpling method) but just to assign relative abundances to specific species from general groups (e.g. wild bees). This is why in some cases total abundances have decimal values. An example: we counted 1 wild bee during surveys but we could not identify the species on the wing. Then we captured 2 wild bees that were identified as L. pauxilium and L. zonulum. Then we assigned abundance 0,5 to each species (1 wild bee/ 2 species).",NA
"Marcos_Minarro_Malus_domestica_Spain_2015","Tin25","Plant observation","Panorpa sp","genus","other",1,47.12,75,2660,"Each orchard was surveyed three times. Each survey was the observation of 5 trees * 5 minutes (25 min). In each tree, we observed an area of about 1m of radius in which number of flowers was counted. When possible, insects were identified to species or caught for a posterior identificaction. An additional capture (10 minutes at each survey) of pollinators visiting apple flowers was made for identification in the lab of species not identifyied in the field sampling. This info was not used for abundance (that is why we only considered plant observaction as sasmpling method) but just to assign relative abundances to specific species from general groups (e.g. wild bees). This is why in some cases total abundances have decimal values. An example: we counted 1 wild bee during surveys but we could not identify the species on the wing. Then we captured 2 wild bees that were identified as L. pauxilium and L. zonulum. Then we assigned abundance 0,5 to each species (1 wild bee/ 2 species).",NA
"Marcos_Minarro_Malus_domestica_Spain_2015","Tin25","Plant observation","Parasitoide","family","non_bee_hymenoptera",2,47.12,75,2660,"Each orchard was surveyed three times. Each survey was the observation of 5 trees * 5 minutes (25 min). In each tree, we observed an area of about 1m of radius in which number of flowers was counted. When possible, insects were identified to species or caught for a posterior identificaction. An additional capture (10 minutes at each survey) of pollinators visiting apple flowers was made for identification in the lab of species not identifyied in the field sampling. This info was not used for abundance (that is why we only considered plant observaction as sasmpling method) but just to assign relative abundances to specific species from general groups (e.g. wild bees). This is why in some cases total abundances have decimal values. An example: we counted 1 wild bee during surveys but we could not identify the species on the wing. Then we captured 2 wild bees that were identified as L. pauxilium and L. zonulum. Then we assigned abundance 0,5 to each species (1 wild bee/ 2 species).","Ichneumonidae?"
"Marcos_Minarro_Malus_domestica_Spain_2015","Tin25","Plant observation","Symphita","genus","non_bee_hymenoptera",1,47.12,75,2660,"Each orchard was surveyed three times. Each survey was the observation of 5 trees * 5 minutes (25 min). In each tree, we observed an area of about 1m of radius in which number of flowers was counted. When possible, insects were identified to species or caught for a posterior identificaction. An additional capture (10 minutes at each survey) of pollinators visiting apple flowers was made for identification in the lab of species not identifyied in the field sampling. This info was not used for abundance (that is why we only considered plant observaction as sasmpling method) but just to assign relative abundances to specific species from general groups (e.g. wild bees). This is why in some cases total abundances have decimal values. An example: we counted 1 wild bee during surveys but we could not identify the species on the wing. Then we captured 2 wild bees that were identified as L. pauxilium and L. zonulum. Then we assigned abundance 0,5 to each species (1 wild bee/ 2 species).",NA
"Marcos_Minarro_Malus_domestica_Spain_2015","Tin25","Plant observation","Wild bees","superfamily","other_wild_bees",3,47.12,75,2660,"Each orchard was surveyed three times. Each survey was the observation of 5 trees * 5 minutes (25 min). In each tree, we observed an area of about 1m of radius in which number of flowers was counted. When possible, insects were identified to species or caught for a posterior identificaction. An additional capture (10 minutes at each survey) of pollinators visiting apple flowers was made for identification in the lab of species not identifyied in the field sampling. This info was not used for abundance (that is why we only considered plant observaction as sasmpling method) but just to assign relative abundances to specific species from general groups (e.g. wild bees). This is why in some cases total abundances have decimal values. An example: we counted 1 wild bee during surveys but we could not identify the species on the wing. Then we captured 2 wild bees that were identified as L. pauxilium and L. zonulum. Then we assigned abundance 0,5 to each species (1 wild bee/ 2 species).","Apoidea?"
"Marcos_Minarro_Malus_domestica_Spain_2015","Tor03","Plant observation","Apis mellifera","species","honeybees",40,47.12,75,2702,"Each orchard was surveyed three times. Each survey was the observation of 5 trees * 5 minutes (25 min). In each tree, we observed an area of about 1m of radius in which number of flowers was counted. When possible, insects were identified to species or caught for a posterior identificaction. An additional capture (10 minutes at each survey) of pollinators visiting apple flowers was made for identification in the lab of species not identifyied in the field sampling. This info was not used for abundance (that is why we only considered plant observaction as sasmpling method) but just to assign relative abundances to specific species from general groups (e.g. wild bees). This is why in some cases total abundances have decimal values. An example: we counted 1 wild bee during surveys but we could not identify the species on the wing. Then we captured 2 wild bees that were identified as L. pauxilium and L. zonulum. Then we assigned abundance 0,5 to each species (1 wild bee/ 2 species).",NA
"Marcos_Minarro_Malus_domestica_Spain_2015","Tor03","Plant observation","Eristalis spp.","genus","syrphids",1,47.12,75,2702,"Each orchard was surveyed three times. Each survey was the observation of 5 trees * 5 minutes (25 min). In each tree, we observed an area of about 1m of radius in which number of flowers was counted. When possible, insects were identified to species or caught for a posterior identificaction. An additional capture (10 minutes at each survey) of pollinators visiting apple flowers was made for identification in the lab of species not identifyied in the field sampling. This info was not used for abundance (that is why we only considered plant observaction as sasmpling method) but just to assign relative abundances to specific species from general groups (e.g. wild bees). This is why in some cases total abundances have decimal values. An example: we counted 1 wild bee during surveys but we could not identify the species on the wing. Then we captured 2 wild bees that were identified as L. pauxilium and L. zonulum. Then we assigned abundance 0,5 to each species (1 wild bee/ 2 species).",NA
"Marcos_Minarro_Malus_domestica_Spain_2015","Tor03","Plant observation","Eristalis tenax","species","syrphids",2,47.12,75,2702,"Each orchard was surveyed three times. Each survey was the observation of 5 trees * 5 minutes (25 min). In each tree, we observed an area of about 1m of radius in which number of flowers was counted. When possible, insects were identified to species or caught for a posterior identificaction. An additional capture (10 minutes at each survey) of pollinators visiting apple flowers was made for identification in the lab of species not identifyied in the field sampling. This info was not used for abundance (that is why we only considered plant observaction as sasmpling method) but just to assign relative abundances to specific species from general groups (e.g. wild bees). This is why in some cases total abundances have decimal values. An example: we counted 1 wild bee during surveys but we could not identify the species on the wing. Then we captured 2 wild bees that were identified as L. pauxilium and L. zonulum. Then we assigned abundance 0,5 to each species (1 wild bee/ 2 species).",NA
"Marcos_Minarro_Malus_domestica_Spain_2015","Tor03","Plant observation","Lasioglossum cf fulvicorne","species","other_wild_bees",0.5,47.12,75,2702,"Each orchard was surveyed three times. Each survey was the observation of 5 trees * 5 minutes (25 min). In each tree, we observed an area of about 1m of radius in which number of flowers was counted. When possible, insects were identified to species or caught for a posterior identificaction. An additional capture (10 minutes at each survey) of pollinators visiting apple flowers was made for identification in the lab of species not identifyied in the field sampling. This info was not used for abundance (that is why we only considered plant observaction as sasmpling method) but just to assign relative abundances to specific species from general groups (e.g. wild bees). This is why in some cases total abundances have decimal values. An example: we counted 1 wild bee during surveys but we could not identify the species on the wing. Then we captured 2 wild bees that were identified as L. pauxilium and L. zonulum. Then we assigned abundance 0,5 to each species (1 wild bee/ 2 species).",NA
"Marcos_Minarro_Malus_domestica_Spain_2015","Tor03","Plant observation","Lasioglossum pauxillum","species","other_wild_bees",0.5,47.12,75,2702,"Each orchard was surveyed three times. Each survey was the observation of 5 trees * 5 minutes (25 min). In each tree, we observed an area of about 1m of radius in which number of flowers was counted. When possible, insects were identified to species or caught for a posterior identificaction. An additional capture (10 minutes at each survey) of pollinators visiting apple flowers was made for identification in the lab of species not identifyied in the field sampling. This info was not used for abundance (that is why we only considered plant observaction as sasmpling method) but just to assign relative abundances to specific species from general groups (e.g. wild bees). This is why in some cases total abundances have decimal values. An example: we counted 1 wild bee during surveys but we could not identify the species on the wing. Then we captured 2 wild bees that were identified as L. pauxilium and L. zonulum. Then we assigned abundance 0,5 to each species (1 wild bee/ 2 species).",NA
"Marcos_Minarro_Malus_domestica_Spain_2015","Tor03","Plant observation","Lepidopterans","order","lepidoptera",1,47.12,75,2702,"Each orchard was surveyed three times. Each survey was the observation of 5 trees * 5 minutes (25 min). In each tree, we observed an area of about 1m of radius in which number of flowers was counted. When possible, insects were identified to species or caught for a posterior identificaction. An additional capture (10 minutes at each survey) of pollinators visiting apple flowers was made for identification in the lab of species not identifyied in the field sampling. This info was not used for abundance (that is why we only considered plant observaction as sasmpling method) but just to assign relative abundances to specific species from general groups (e.g. wild bees). This is why in some cases total abundances have decimal values. An example: we counted 1 wild bee during surveys but we could not identify the species on the wing. Then we captured 2 wild bees that were identified as L. pauxilium and L. zonulum. Then we assigned abundance 0,5 to each species (1 wild bee/ 2 species).",NA
"Marcos_Minarro_Malus_domestica_Spain_2015","Tor03","Plant observation","Other coleopterans","order","beetles",7,47.12,75,2702,"Each orchard was surveyed three times. Each survey was the observation of 5 trees * 5 minutes (25 min). In each tree, we observed an area of about 1m of radius in which number of flowers was counted. When possible, insects were identified to species or caught for a posterior identificaction. An additional capture (10 minutes at each survey) of pollinators visiting apple flowers was made for identification in the lab of species not identifyied in the field sampling. This info was not used for abundance (that is why we only considered plant observaction as sasmpling method) but just to assign relative abundances to specific species from general groups (e.g. wild bees). This is why in some cases total abundances have decimal values. An example: we counted 1 wild bee during surveys but we could not identify the species on the wing. Then we captured 2 wild bees that were identified as L. pauxilium and L. zonulum. Then we assigned abundance 0,5 to each species (1 wild bee/ 2 species).",NA
"Marcos_Minarro_Malus_domestica_Spain_2015","Tor03","Plant observation","Other dipterans","order","other_flies",6,47.12,75,2702,"Each orchard was surveyed three times. Each survey was the observation of 5 trees * 5 minutes (25 min). In each tree, we observed an area of about 1m of radius in which number of flowers was counted. When possible, insects were identified to species or caught for a posterior identificaction. An additional capture (10 minutes at each survey) of pollinators visiting apple flowers was made for identification in the lab of species not identifyied in the field sampling. This info was not used for abundance (that is why we only considered plant observaction as sasmpling method) but just to assign relative abundances to specific species from general groups (e.g. wild bees). This is why in some cases total abundances have decimal values. An example: we counted 1 wild bee during surveys but we could not identify the species on the wing. Then we captured 2 wild bees that were identified as L. pauxilium and L. zonulum. Then we assigned abundance 0,5 to each species (1 wild bee/ 2 species).",NA
"Marcos_Minarro_Malus_domestica_Spain_2015","Tor03","Plant observation","Sphaerophoria scripta","species","syrphids",6,47.12,75,2702,"Each orchard was surveyed three times. Each survey was the observation of 5 trees * 5 minutes (25 min). In each tree, we observed an area of about 1m of radius in which number of flowers was counted. When possible, insects were identified to species or caught for a posterior identificaction. An additional capture (10 minutes at each survey) of pollinators visiting apple flowers was made for identification in the lab of species not identifyied in the field sampling. This info was not used for abundance (that is why we only considered plant observaction as sasmpling method) but just to assign relative abundances to specific species from general groups (e.g. wild bees). This is why in some cases total abundances have decimal values. An example: we counted 1 wild bee during surveys but we could not identify the species on the wing. Then we captured 2 wild bees that were identified as L. pauxilium and L. zonulum. Then we assigned abundance 0,5 to each species (1 wild bee/ 2 species).",NA
"Marcos_Minarro_Malus_domestica_Spain_2015","Val14","Plant observation","Apis mellifera","species","honeybees",41,47.12,75,1880,"Each orchard was surveyed three times. Each survey was the observation of 5 trees * 5 minutes (25 min). In each tree, we observed an area of about 1m of radius in which number of flowers was counted. When possible, insects were identified to species or caught for a posterior identificaction. An additional capture (10 minutes at each survey) of pollinators visiting apple flowers was made for identification in the lab of species not identifyied in the field sampling. This info was not used for abundance (that is why we only considered plant observaction as sasmpling method) but just to assign relative abundances to specific species from general groups (e.g. wild bees). This is why in some cases total abundances have decimal values. An example: we counted 1 wild bee during surveys but we could not identify the species on the wing. Then we captured 2 wild bees that were identified as L. pauxilium and L. zonulum. Then we assigned abundance 0,5 to each species (1 wild bee/ 2 species).",NA
"Marcos_Minarro_Malus_domestica_Spain_2015","Val14","Plant observation","Bombus terrestris","species","bumblebees",4,47.12,75,1880,"Each orchard was surveyed three times. Each survey was the observation of 5 trees * 5 minutes (25 min). In each tree, we observed an area of about 1m of radius in which number of flowers was counted. When possible, insects were identified to species or caught for a posterior identificaction. An additional capture (10 minutes at each survey) of pollinators visiting apple flowers was made for identification in the lab of species not identifyied in the field sampling. This info was not used for abundance (that is why we only considered plant observaction as sasmpling method) but just to assign relative abundances to specific species from general groups (e.g. wild bees). This is why in some cases total abundances have decimal values. An example: we counted 1 wild bee during surveys but we could not identify the species on the wing. Then we captured 2 wild bees that were identified as L. pauxilium and L. zonulum. Then we assigned abundance 0,5 to each species (1 wild bee/ 2 species).",NA
"Marcos_Minarro_Malus_domestica_Spain_2015","Val14","Plant observation","Episyrphus balteatus","species","syrphids",1,47.12,75,1880,"Each orchard was surveyed three times. Each survey was the observation of 5 trees * 5 minutes (25 min). In each tree, we observed an area of about 1m of radius in which number of flowers was counted. When possible, insects were identified to species or caught for a posterior identificaction. An additional capture (10 minutes at each survey) of pollinators visiting apple flowers was made for identification in the lab of species not identifyied in the field sampling. This info was not used for abundance (that is why we only considered plant observaction as sasmpling method) but just to assign relative abundances to specific species from general groups (e.g. wild bees). This is why in some cases total abundances have decimal values. An example: we counted 1 wild bee during surveys but we could not identify the species on the wing. Then we captured 2 wild bees that were identified as L. pauxilium and L. zonulum. Then we assigned abundance 0,5 to each species (1 wild bee/ 2 species).",NA
"Marcos_Minarro_Malus_domestica_Spain_2015","Val14","Plant observation","Eristalis spp.","genus","syrphids",16,47.12,75,1880,"Each orchard was surveyed three times. Each survey was the observation of 5 trees * 5 minutes (25 min). In each tree, we observed an area of about 1m of radius in which number of flowers was counted. When possible, insects were identified to species or caught for a posterior identificaction. An additional capture (10 minutes at each survey) of pollinators visiting apple flowers was made for identification in the lab of species not identifyied in the field sampling. This info was not used for abundance (that is why we only considered plant observaction as sasmpling method) but just to assign relative abundances to specific species from general groups (e.g. wild bees). This is why in some cases total abundances have decimal values. An example: we counted 1 wild bee during surveys but we could not identify the species on the wing. Then we captured 2 wild bees that were identified as L. pauxilium and L. zonulum. Then we assigned abundance 0,5 to each species (1 wild bee/ 2 species).",NA
"Marcos_Minarro_Malus_domestica_Spain_2015","Val14","Plant observation","Halictus tumulorum","species","other_wild_bees",4,47.12,75,1880,"Each orchard was surveyed three times. Each survey was the observation of 5 trees * 5 minutes (25 min). In each tree, we observed an area of about 1m of radius in which number of flowers was counted. When possible, insects were identified to species or caught for a posterior identificaction. An additional capture (10 minutes at each survey) of pollinators visiting apple flowers was made for identification in the lab of species not identifyied in the field sampling. This info was not used for abundance (that is why we only considered plant observaction as sasmpling method) but just to assign relative abundances to specific species from general groups (e.g. wild bees). This is why in some cases total abundances have decimal values. An example: we counted 1 wild bee during surveys but we could not identify the species on the wing. Then we captured 2 wild bees that were identified as L. pauxilium and L. zonulum. Then we assigned abundance 0,5 to each species (1 wild bee/ 2 species).",NA
"Marcos_Minarro_Malus_domestica_Spain_2015","Val14","Plant observation","Hoverfly","family","syrphids",6,47.12,75,1880,"Each orchard was surveyed three times. Each survey was the observation of 5 trees * 5 minutes (25 min). In each tree, we observed an area of about 1m of radius in which number of flowers was counted. When possible, insects were identified to species or caught for a posterior identificaction. An additional capture (10 minutes at each survey) of pollinators visiting apple flowers was made for identification in the lab of species not identifyied in the field sampling. This info was not used for abundance (that is why we only considered plant observaction as sasmpling method) but just to assign relative abundances to specific species from general groups (e.g. wild bees). This is why in some cases total abundances have decimal values. An example: we counted 1 wild bee during surveys but we could not identify the species on the wing. Then we captured 2 wild bees that were identified as L. pauxilium and L. zonulum. Then we assigned abundance 0,5 to each species (1 wild bee/ 2 species).",NA
"Marcos_Minarro_Malus_domestica_Spain_2015","Val14","Plant observation","Lasioglossum pauxillum","species","other_wild_bees",4,47.12,75,1880,"Each orchard was surveyed three times. Each survey was the observation of 5 trees * 5 minutes (25 min). In each tree, we observed an area of about 1m of radius in which number of flowers was counted. When possible, insects were identified to species or caught for a posterior identificaction. An additional capture (10 minutes at each survey) of pollinators visiting apple flowers was made for identification in the lab of species not identifyied in the field sampling. This info was not used for abundance (that is why we only considered plant observaction as sasmpling method) but just to assign relative abundances to specific species from general groups (e.g. wild bees). This is why in some cases total abundances have decimal values. An example: we counted 1 wild bee during surveys but we could not identify the species on the wing. Then we captured 2 wild bees that were identified as L. pauxilium and L. zonulum. Then we assigned abundance 0,5 to each species (1 wild bee/ 2 species).",NA
"Marcos_Minarro_Malus_domestica_Spain_2015","Val14","Plant observation","Other dipterans","order","other_flies",1,47.12,75,1880,"Each orchard was surveyed three times. Each survey was the observation of 5 trees * 5 minutes (25 min). In each tree, we observed an area of about 1m of radius in which number of flowers was counted. When possible, insects were identified to species or caught for a posterior identificaction. An additional capture (10 minutes at each survey) of pollinators visiting apple flowers was made for identification in the lab of species not identifyied in the field sampling. This info was not used for abundance (that is why we only considered plant observaction as sasmpling method) but just to assign relative abundances to specific species from general groups (e.g. wild bees). This is why in some cases total abundances have decimal values. An example: we counted 1 wild bee during surveys but we could not identify the species on the wing. Then we captured 2 wild bees that were identified as L. pauxilium and L. zonulum. Then we assigned abundance 0,5 to each species (1 wild bee/ 2 species).",NA
"Marcos_Minarro_Malus_domestica_Spain_2015","Val14","Plant observation","Wild bees","superfamily","other_wild_bees",1,47.12,75,1880,"Each orchard was surveyed three times. Each survey was the observation of 5 trees * 5 minutes (25 min). In each tree, we observed an area of about 1m of radius in which number of flowers was counted. When possible, insects were identified to species or caught for a posterior identificaction. An additional capture (10 minutes at each survey) of pollinators visiting apple flowers was made for identification in the lab of species not identifyied in the field sampling. This info was not used for abundance (that is why we only considered plant observaction as sasmpling method) but just to assign relative abundances to specific species from general groups (e.g. wild bees). This is why in some cases total abundances have decimal values. An example: we counted 1 wild bee during surveys but we could not identify the species on the wing. Then we captured 2 wild bees that were identified as L. pauxilium and L. zonulum. Then we assigned abundance 0,5 to each species (1 wild bee/ 2 species).","Apoidea?"
"Marcos_Minarro_Malus_domestica_Spain_2015","Ver11","Plant observation","Andrena bicolor","species","other_wild_bees",0.375,47.12,75,2518,"Each orchard was surveyed three times. Each survey was the observation of 5 trees * 5 minutes (25 min). In each tree, we observed an area of about 1m of radius in which number of flowers was counted. When possible, insects were identified to species or caught for a posterior identificaction. An additional capture (10 minutes at each survey) of pollinators visiting apple flowers was made for identification in the lab of species not identifyied in the field sampling. This info was not used for abundance (that is why we only considered plant observaction as sasmpling method) but just to assign relative abundances to specific species from general groups (e.g. wild bees). This is why in some cases total abundances have decimal values. An example: we counted 1 wild bee during surveys but we could not identify the species on the wing. Then we captured 2 wild bees that were identified as L. pauxilium and L. zonulum. Then we assigned abundance 0,5 to each species (1 wild bee/ 2 species).",NA
"Marcos_Minarro_Malus_domestica_Spain_2015","Ver11","Plant observation","Andrena dorsata","species","other_wild_bees",3.235,47.12,75,2518,"Each orchard was surveyed three times. Each survey was the observation of 5 trees * 5 minutes (25 min). In each tree, we observed an area of about 1m of radius in which number of flowers was counted. When possible, insects were identified to species or caught for a posterior identificaction. An additional capture (10 minutes at each survey) of pollinators visiting apple flowers was made for identification in the lab of species not identifyied in the field sampling. This info was not used for abundance (that is why we only considered plant observaction as sasmpling method) but just to assign relative abundances to specific species from general groups (e.g. wild bees). This is why in some cases total abundances have decimal values. An example: we counted 1 wild bee during surveys but we could not identify the species on the wing. Then we captured 2 wild bees that were identified as L. pauxilium and L. zonulum. Then we assigned abundance 0,5 to each species (1 wild bee/ 2 species).",NA
"Marcos_Minarro_Malus_domestica_Spain_2015","Ver11","Plant observation","Andrena flavipes","species","other_wild_bees",1.125,47.12,75,2518,"Each orchard was surveyed three times. Each survey was the observation of 5 trees * 5 minutes (25 min). In each tree, we observed an area of about 1m of radius in which number of flowers was counted. When possible, insects were identified to species or caught for a posterior identificaction. An additional capture (10 minutes at each survey) of pollinators visiting apple flowers was made for identification in the lab of species not identifyied in the field sampling. This info was not used for abundance (that is why we only considered plant observaction as sasmpling method) but just to assign relative abundances to specific species from general groups (e.g. wild bees). This is why in some cases total abundances have decimal values. An example: we counted 1 wild bee during surveys but we could not identify the species on the wing. Then we captured 2 wild bees that were identified as L. pauxilium and L. zonulum. Then we assigned abundance 0,5 to each species (1 wild bee/ 2 species).",NA
"Marcos_Minarro_Malus_domestica_Spain_2015","Ver11","Plant observation","Andrena minutula","species","other_wild_bees",1.43,47.12,75,2518,"Each orchard was surveyed three times. Each survey was the observation of 5 trees * 5 minutes (25 min). In each tree, we observed an area of about 1m of radius in which number of flowers was counted. When possible, insects were identified to species or caught for a posterior identificaction. An additional capture (10 minutes at each survey) of pollinators visiting apple flowers was made for identification in the lab of species not identifyied in the field sampling. This info was not used for abundance (that is why we only considered plant observaction as sasmpling method) but just to assign relative abundances to specific species from general groups (e.g. wild bees). This is why in some cases total abundances have decimal values. An example: we counted 1 wild bee during surveys but we could not identify the species on the wing. Then we captured 2 wild bees that were identified as L. pauxilium and L. zonulum. Then we assigned abundance 0,5 to each species (1 wild bee/ 2 species).",NA
"Marcos_Minarro_Malus_domestica_Spain_2015","Ver11","Plant observation","Andrena similis","species","other_wild_bees",1.43,47.12,75,2518,"Each orchard was surveyed three times. Each survey was the observation of 5 trees * 5 minutes (25 min). In each tree, we observed an area of about 1m of radius in which number of flowers was counted. When possible, insects were identified to species or caught for a posterior identificaction. An additional capture (10 minutes at each survey) of pollinators visiting apple flowers was made for identification in the lab of species not identifyied in the field sampling. This info was not used for abundance (that is why we only considered plant observaction as sasmpling method) but just to assign relative abundances to specific species from general groups (e.g. wild bees). This is why in some cases total abundances have decimal values. An example: we counted 1 wild bee during surveys but we could not identify the species on the wing. Then we captured 2 wild bees that were identified as L. pauxilium and L. zonulum. Then we assigned abundance 0,5 to each species (1 wild bee/ 2 species).",NA
"Marcos_Minarro_Malus_domestica_Spain_2015","Ver11","Plant observation","Apis mellifera","species","honeybees",16,47.12,75,2518,"Each orchard was surveyed three times. Each survey was the observation of 5 trees * 5 minutes (25 min). In each tree, we observed an area of about 1m of radius in which number of flowers was counted. When possible, insects were identified to species or caught for a posterior identificaction. An additional capture (10 minutes at each survey) of pollinators visiting apple flowers was made for identification in the lab of species not identifyied in the field sampling. This info was not used for abundance (that is why we only considered plant observaction as sasmpling method) but just to assign relative abundances to specific species from general groups (e.g. wild bees). This is why in some cases total abundances have decimal values. An example: we counted 1 wild bee during surveys but we could not identify the species on the wing. Then we captured 2 wild bees that were identified as L. pauxilium and L. zonulum. Then we assigned abundance 0,5 to each species (1 wild bee/ 2 species).",NA
"Marcos_Minarro_Malus_domestica_Spain_2015","Ver11","Plant observation","Bombus pratorum","species","bumblebees",2,47.12,75,2518,"Each orchard was surveyed three times. Each survey was the observation of 5 trees * 5 minutes (25 min). In each tree, we observed an area of about 1m of radius in which number of flowers was counted. When possible, insects were identified to species or caught for a posterior identificaction. An additional capture (10 minutes at each survey) of pollinators visiting apple flowers was made for identification in the lab of species not identifyied in the field sampling. This info was not used for abundance (that is why we only considered plant observaction as sasmpling method) but just to assign relative abundances to specific species from general groups (e.g. wild bees). This is why in some cases total abundances have decimal values. An example: we counted 1 wild bee during surveys but we could not identify the species on the wing. Then we captured 2 wild bees that were identified as L. pauxilium and L. zonulum. Then we assigned abundance 0,5 to each species (1 wild bee/ 2 species).",NA
"Marcos_Minarro_Malus_domestica_Spain_2015","Ver11","Plant observation","Bombus terrestris","species","bumblebees",2,47.12,75,2518,"Each orchard was surveyed three times. Each survey was the observation of 5 trees * 5 minutes (25 min). In each tree, we observed an area of about 1m of radius in which number of flowers was counted. When possible, insects were identified to species or caught for a posterior identificaction. An additional capture (10 minutes at each survey) of pollinators visiting apple flowers was made for identification in the lab of species not identifyied in the field sampling. This info was not used for abundance (that is why we only considered plant observaction as sasmpling method) but just to assign relative abundances to specific species from general groups (e.g. wild bees). This is why in some cases total abundances have decimal values. An example: we counted 1 wild bee during surveys but we could not identify the species on the wing. Then we captured 2 wild bees that were identified as L. pauxilium and L. zonulum. Then we assigned abundance 0,5 to each species (1 wild bee/ 2 species).",NA
"Marcos_Minarro_Malus_domestica_Spain_2015","Ver11","Plant observation","Eristalis spp.","genus","syrphids",5,47.12,75,2518,"Each orchard was surveyed three times. Each survey was the observation of 5 trees * 5 minutes (25 min). In each tree, we observed an area of about 1m of radius in which number of flowers was counted. When possible, insects were identified to species or caught for a posterior identificaction. An additional capture (10 minutes at each survey) of pollinators visiting apple flowers was made for identification in the lab of species not identifyied in the field sampling. This info was not used for abundance (that is why we only considered plant observaction as sasmpling method) but just to assign relative abundances to specific species from general groups (e.g. wild bees). This is why in some cases total abundances have decimal values. An example: we counted 1 wild bee during surveys but we could not identify the species on the wing. Then we captured 2 wild bees that were identified as L. pauxilium and L. zonulum. Then we assigned abundance 0,5 to each species (1 wild bee/ 2 species).",NA
"Marcos_Minarro_Malus_domestica_Spain_2015","Ver11","Plant observation","Eristalis tenax","species","syrphids",5,47.12,75,2518,"Each orchard was surveyed three times. Each survey was the observation of 5 trees * 5 minutes (25 min). In each tree, we observed an area of about 1m of radius in which number of flowers was counted. When possible, insects were identified to species or caught for a posterior identificaction. An additional capture (10 minutes at each survey) of pollinators visiting apple flowers was made for identification in the lab of species not identifyied in the field sampling. This info was not used for abundance (that is why we only considered plant observaction as sasmpling method) but just to assign relative abundances to specific species from general groups (e.g. wild bees). This is why in some cases total abundances have decimal values. An example: we counted 1 wild bee during surveys but we could not identify the species on the wing. Then we captured 2 wild bees that were identified as L. pauxilium and L. zonulum. Then we assigned abundance 0,5 to each species (1 wild bee/ 2 species).",NA
"Marcos_Minarro_Malus_domestica_Spain_2015","Ver11","Plant observation","Eucera sp.","genus","other_wild_bees",1,47.12,75,2518,"Each orchard was surveyed three times. Each survey was the observation of 5 trees * 5 minutes (25 min). In each tree, we observed an area of about 1m of radius in which number of flowers was counted. When possible, insects were identified to species or caught for a posterior identificaction. An additional capture (10 minutes at each survey) of pollinators visiting apple flowers was made for identification in the lab of species not identifyied in the field sampling. This info was not used for abundance (that is why we only considered plant observaction as sasmpling method) but just to assign relative abundances to specific species from general groups (e.g. wild bees). This is why in some cases total abundances have decimal values. An example: we counted 1 wild bee during surveys but we could not identify the species on the wing. Then we captured 2 wild bees that were identified as L. pauxilium and L. zonulum. Then we assigned abundance 0,5 to each species (1 wild bee/ 2 species).",NA
"Marcos_Minarro_Malus_domestica_Spain_2015","Ver11","Plant observation","Halictus (Seladonia) sp.","genus","other_wild_bees",1.43,47.12,75,2518,"Each orchard was surveyed three times. Each survey was the observation of 5 trees * 5 minutes (25 min). In each tree, we observed an area of about 1m of radius in which number of flowers was counted. When possible, insects were identified to species or caught for a posterior identificaction. An additional capture (10 minutes at each survey) of pollinators visiting apple flowers was made for identification in the lab of species not identifyied in the field sampling. This info was not used for abundance (that is why we only considered plant observaction as sasmpling method) but just to assign relative abundances to specific species from general groups (e.g. wild bees). This is why in some cases total abundances have decimal values. An example: we counted 1 wild bee during surveys but we could not identify the species on the wing. Then we captured 2 wild bees that were identified as L. pauxilium and L. zonulum. Then we assigned abundance 0,5 to each species (1 wild bee/ 2 species).",NA
"Marcos_Minarro_Malus_domestica_Spain_2015","Ver11","Plant observation","Halictus tumulorum","species","other_wild_bees",1.43,47.12,75,2518,"Each orchard was surveyed three times. Each survey was the observation of 5 trees * 5 minutes (25 min). In each tree, we observed an area of about 1m of radius in which number of flowers was counted. When possible, insects were identified to species or caught for a posterior identificaction. An additional capture (10 minutes at each survey) of pollinators visiting apple flowers was made for identification in the lab of species not identifyied in the field sampling. This info was not used for abundance (that is why we only considered plant observaction as sasmpling method) but just to assign relative abundances to specific species from general groups (e.g. wild bees). This is why in some cases total abundances have decimal values. An example: we counted 1 wild bee during surveys but we could not identify the species on the wing. Then we captured 2 wild bees that were identified as L. pauxilium and L. zonulum. Then we assigned abundance 0,5 to each species (1 wild bee/ 2 species).",NA
"Marcos_Minarro_Malus_domestica_Spain_2015","Ver11","Plant observation","Hoverfly","family","syrphids",1,47.12,75,2518,"Each orchard was surveyed three times. Each survey was the observation of 5 trees * 5 minutes (25 min). In each tree, we observed an area of about 1m of radius in which number of flowers was counted. When possible, insects were identified to species or caught for a posterior identificaction. An additional capture (10 minutes at each survey) of pollinators visiting apple flowers was made for identification in the lab of species not identifyied in the field sampling. This info was not used for abundance (that is why we only considered plant observaction as sasmpling method) but just to assign relative abundances to specific species from general groups (e.g. wild bees). This is why in some cases total abundances have decimal values. An example: we counted 1 wild bee during surveys but we could not identify the species on the wing. Then we captured 2 wild bees that were identified as L. pauxilium and L. zonulum. Then we assigned abundance 0,5 to each species (1 wild bee/ 2 species).",NA
"Marcos_Minarro_Malus_domestica_Spain_2015","Ver11","Plant observation","Lasioglossum pauxillum","species","other_wild_bees",1.805,47.12,75,2518,"Each orchard was surveyed three times. Each survey was the observation of 5 trees * 5 minutes (25 min). In each tree, we observed an area of about 1m of radius in which number of flowers was counted. When possible, insects were identified to species or caught for a posterior identificaction. An additional capture (10 minutes at each survey) of pollinators visiting apple flowers was made for identification in the lab of species not identifyied in the field sampling. This info was not used for abundance (that is why we only considered plant observaction as sasmpling method) but just to assign relative abundances to specific species from general groups (e.g. wild bees). This is why in some cases total abundances have decimal values. An example: we counted 1 wild bee during surveys but we could not identify the species on the wing. Then we captured 2 wild bees that were identified as L. pauxilium and L. zonulum. Then we assigned abundance 0,5 to each species (1 wild bee/ 2 species).",NA
"Marcos_Minarro_Malus_domestica_Spain_2015","Ver11","Plant observation","Osmia bicornis","species","other_wild_bees",1.75,47.12,75,2518,"Each orchard was surveyed three times. Each survey was the observation of 5 trees * 5 minutes (25 min). In each tree, we observed an area of about 1m of radius in which number of flowers was counted. When possible, insects were identified to species or caught for a posterior identificaction. An additional capture (10 minutes at each survey) of pollinators visiting apple flowers was made for identification in the lab of species not identifyied in the field sampling. This info was not used for abundance (that is why we only considered plant observaction as sasmpling method) but just to assign relative abundances to specific species from general groups (e.g. wild bees). This is why in some cases total abundances have decimal values. An example: we counted 1 wild bee during surveys but we could not identify the species on the wing. Then we captured 2 wild bees that were identified as L. pauxilium and L. zonulum. Then we assigned abundance 0,5 to each species (1 wild bee/ 2 species).",NA
"Marcos_Minarro_Malus_domestica_Spain_2015","Ver11","Plant observation","Other coleopterans","order","beetles",5,47.12,75,2518,"Each orchard was surveyed three times. Each survey was the observation of 5 trees * 5 minutes (25 min). In each tree, we observed an area of about 1m of radius in which number of flowers was counted. When possible, insects were identified to species or caught for a posterior identificaction. An additional capture (10 minutes at each survey) of pollinators visiting apple flowers was made for identification in the lab of species not identifyied in the field sampling. This info was not used for abundance (that is why we only considered plant observaction as sasmpling method) but just to assign relative abundances to specific species from general groups (e.g. wild bees). This is why in some cases total abundances have decimal values. An example: we counted 1 wild bee during surveys but we could not identify the species on the wing. Then we captured 2 wild bees that were identified as L. pauxilium and L. zonulum. Then we assigned abundance 0,5 to each species (1 wild bee/ 2 species).",NA
"Marcos_Minarro_Malus_domestica_Spain_2015","Ver11","Plant observation","Other dipterans","order","other_flies",23,47.12,75,2518,"Each orchard was surveyed three times. Each survey was the observation of 5 trees * 5 minutes (25 min). In each tree, we observed an area of about 1m of radius in which number of flowers was counted. When possible, insects were identified to species or caught for a posterior identificaction. An additional capture (10 minutes at each survey) of pollinators visiting apple flowers was made for identification in the lab of species not identifyied in the field sampling. This info was not used for abundance (that is why we only considered plant observaction as sasmpling method) but just to assign relative abundances to specific species from general groups (e.g. wild bees). This is why in some cases total abundances have decimal values. An example: we counted 1 wild bee during surveys but we could not identify the species on the wing. Then we captured 2 wild bees that were identified as L. pauxilium and L. zonulum. Then we assigned abundance 0,5 to each species (1 wild bee/ 2 species).",NA
"Marcos_Minarro_Malus_domestica_Spain_2015","Ver11","Plant observation","Oxythyrea funesta","species","beetles",4,47.12,75,2518,"Each orchard was surveyed three times. Each survey was the observation of 5 trees * 5 minutes (25 min). In each tree, we observed an area of about 1m of radius in which number of flowers was counted. When possible, insects were identified to species or caught for a posterior identificaction. An additional capture (10 minutes at each survey) of pollinators visiting apple flowers was made for identification in the lab of species not identifyied in the field sampling. This info was not used for abundance (that is why we only considered plant observaction as sasmpling method) but just to assign relative abundances to specific species from general groups (e.g. wild bees). This is why in some cases total abundances have decimal values. An example: we counted 1 wild bee during surveys but we could not identify the species on the wing. Then we captured 2 wild bees that were identified as L. pauxilium and L. zonulum. Then we assigned abundance 0,5 to each species (1 wild bee/ 2 species).",NA
"Marcos_Minarro_Malus_domestica_Spain_2015","Ver11","Plant observation","Platycheirus sp.","genus","syrphids",1,47.12,75,2518,"Each orchard was surveyed three times. Each survey was the observation of 5 trees * 5 minutes (25 min). In each tree, we observed an area of about 1m of radius in which number of flowers was counted. When possible, insects were identified to species or caught for a posterior identificaction. An additional capture (10 minutes at each survey) of pollinators visiting apple flowers was made for identification in the lab of species not identifyied in the field sampling. This info was not used for abundance (that is why we only considered plant observaction as sasmpling method) but just to assign relative abundances to specific species from general groups (e.g. wild bees). This is why in some cases total abundances have decimal values. An example: we counted 1 wild bee during surveys but we could not identify the species on the wing. Then we captured 2 wild bees that were identified as L. pauxilium and L. zonulum. Then we assigned abundance 0,5 to each species (1 wild bee/ 2 species).",NA
"Marcos_Minarro_Malus_domestica_Spain_2015","Ver11","Plant observation","Rhagonycha fulva","species","beetles",1,47.12,75,2518,"Each orchard was surveyed three times. Each survey was the observation of 5 trees * 5 minutes (25 min). In each tree, we observed an area of about 1m of radius in which number of flowers was counted. When possible, insects were identified to species or caught for a posterior identificaction. An additional capture (10 minutes at each survey) of pollinators visiting apple flowers was made for identification in the lab of species not identifyied in the field sampling. This info was not used for abundance (that is why we only considered plant observaction as sasmpling method) but just to assign relative abundances to specific species from general groups (e.g. wild bees). This is why in some cases total abundances have decimal values. An example: we counted 1 wild bee during surveys but we could not identify the species on the wing. Then we captured 2 wild bees that were identified as L. pauxilium and L. zonulum. Then we assigned abundance 0,5 to each species (1 wild bee/ 2 species).",NA
"Marcos_Minarro_Malus_domestica_Spain_2015","Ver11","Plant observation","Wild bees","superfamily","other_wild_bees",1,47.12,75,2518,"Each orchard was surveyed three times. Each survey was the observation of 5 trees * 5 minutes (25 min). In each tree, we observed an area of about 1m of radius in which number of flowers was counted. When possible, insects were identified to species or caught for a posterior identificaction. An additional capture (10 minutes at each survey) of pollinators visiting apple flowers was made for identification in the lab of species not identifyied in the field sampling. This info was not used for abundance (that is why we only considered plant observaction as sasmpling method) but just to assign relative abundances to specific species from general groups (e.g. wild bees). This is why in some cases total abundances have decimal values. An example: we counted 1 wild bee during surveys but we could not identify the species on the wing. Then we captured 2 wild bees that were identified as L. pauxilium and L. zonulum. Then we assigned abundance 0,5 to each species (1 wild bee/ 2 species).","Apoidea?"
"Marcos_Minarro_Malus_domestica_Spain_2016","Bus06","Plant observation","Andrena nigroaenea","species","other_wild_bees",1,47.12,75,930,"Each orchard was surveyed three times. Each survey was the observation of 5 trees * 5 minutes (25 min). In each tree, we observed an area of about 1m of radius in which number of flowers was counted. When possible, insects were identified to species or caught for a posterior identificaction. An additional capture (10 minutes at each survey) of pollinators visiting apple flowers was made for identification in the lab of species not identifyied in the field sampling. This info was not used for abundance (that is why we only considered plant observaction as sasmpling method) but just to assign relative abundances to specific species from general groups (e.g. wild bees). This is why in some cases total abundances have decimal values. An example: we counted 1 wild bee during surveys but we could not identify the species on the wing. Then we captured 2 wild bees that were identified as L. pauxilium and L. zonulum. Then we assigned abundance 0,5 to each species (1 wild bee/ 2 species).",NA
"Marcos_Minarro_Malus_domestica_Spain_2016","Bus06","Plant observation","Apis mellifera","species","honeybees",60,47.12,75,930,"Each orchard was surveyed three times. Each survey was the observation of 5 trees * 5 minutes (25 min). In each tree, we observed an area of about 1m of radius in which number of flowers was counted. When possible, insects were identified to species or caught for a posterior identificaction. An additional capture (10 minutes at each survey) of pollinators visiting apple flowers was made for identification in the lab of species not identifyied in the field sampling. This info was not used for abundance (that is why we only considered plant observaction as sasmpling method) but just to assign relative abundances to specific species from general groups (e.g. wild bees). This is why in some cases total abundances have decimal values. An example: we counted 1 wild bee during surveys but we could not identify the species on the wing. Then we captured 2 wild bees that were identified as L. pauxilium and L. zonulum. Then we assigned abundance 0,5 to each species (1 wild bee/ 2 species).",NA
"Marcos_Minarro_Malus_domestica_Spain_2016","Bus06","Plant observation","Episyrphus balteatus","species","syrphids",3.333,47.12,75,930,"Each orchard was surveyed three times. Each survey was the observation of 5 trees * 5 minutes (25 min). In each tree, we observed an area of about 1m of radius in which number of flowers was counted. When possible, insects were identified to species or caught for a posterior identificaction. An additional capture (10 minutes at each survey) of pollinators visiting apple flowers was made for identification in the lab of species not identifyied in the field sampling. This info was not used for abundance (that is why we only considered plant observaction as sasmpling method) but just to assign relative abundances to specific species from general groups (e.g. wild bees). This is why in some cases total abundances have decimal values. An example: we counted 1 wild bee during surveys but we could not identify the species on the wing. Then we captured 2 wild bees that were identified as L. pauxilium and L. zonulum. Then we assigned abundance 0,5 to each species (1 wild bee/ 2 species).",NA
"Marcos_Minarro_Malus_domestica_Spain_2016","Bus06","Plant observation","Eristalis tenax","species","syrphids",4,47.12,75,930,"Each orchard was surveyed three times. Each survey was the observation of 5 trees * 5 minutes (25 min). In each tree, we observed an area of about 1m of radius in which number of flowers was counted. When possible, insects were identified to species or caught for a posterior identificaction. An additional capture (10 minutes at each survey) of pollinators visiting apple flowers was made for identification in the lab of species not identifyied in the field sampling. This info was not used for abundance (that is why we only considered plant observaction as sasmpling method) but just to assign relative abundances to specific species from general groups (e.g. wild bees). This is why in some cases total abundances have decimal values. An example: we counted 1 wild bee during surveys but we could not identify the species on the wing. Then we captured 2 wild bees that were identified as L. pauxilium and L. zonulum. Then we assigned abundance 0,5 to each species (1 wild bee/ 2 species).",NA
"Marcos_Minarro_Malus_domestica_Spain_2016","Bus06","Plant observation","Hoverfly","family","syrphids",1,47.12,75,930,"Each orchard was surveyed three times. Each survey was the observation of 5 trees * 5 minutes (25 min). In each tree, we observed an area of about 1m of radius in which number of flowers was counted. When possible, insects were identified to species or caught for a posterior identificaction. An additional capture (10 minutes at each survey) of pollinators visiting apple flowers was made for identification in the lab of species not identifyied in the field sampling. This info was not used for abundance (that is why we only considered plant observaction as sasmpling method) but just to assign relative abundances to specific species from general groups (e.g. wild bees). This is why in some cases total abundances have decimal values. An example: we counted 1 wild bee during surveys but we could not identify the species on the wing. Then we captured 2 wild bees that were identified as L. pauxilium and L. zonulum. Then we assigned abundance 0,5 to each species (1 wild bee/ 2 species).",NA
"Marcos_Minarro_Malus_domestica_Spain_2016","Bus06","Plant observation","Lasioglossum malachurum","species","other_wild_bees",1.5,47.12,75,930,"Each orchard was surveyed three times. Each survey was the observation of 5 trees * 5 minutes (25 min). In each tree, we observed an area of about 1m of radius in which number of flowers was counted. When possible, insects were identified to species or caught for a posterior identificaction. An additional capture (10 minutes at each survey) of pollinators visiting apple flowers was made for identification in the lab of species not identifyied in the field sampling. This info was not used for abundance (that is why we only considered plant observaction as sasmpling method) but just to assign relative abundances to specific species from general groups (e.g. wild bees). This is why in some cases total abundances have decimal values. An example: we counted 1 wild bee during surveys but we could not identify the species on the wing. Then we captured 2 wild bees that were identified as L. pauxilium and L. zonulum. Then we assigned abundance 0,5 to each species (1 wild bee/ 2 species).",NA
"Marcos_Minarro_Malus_domestica_Spain_2016","Bus06","Plant observation","Lasioglossum pauxillum","species","other_wild_bees",0.5,47.12,75,930,"Each orchard was surveyed three times. Each survey was the observation of 5 trees * 5 minutes (25 min). In each tree, we observed an area of about 1m of radius in which number of flowers was counted. When possible, insects were identified to species or caught for a posterior identificaction. An additional capture (10 minutes at each survey) of pollinators visiting apple flowers was made for identification in the lab of species not identifyied in the field sampling. This info was not used for abundance (that is why we only considered plant observaction as sasmpling method) but just to assign relative abundances to specific species from general groups (e.g. wild bees). This is why in some cases total abundances have decimal values. An example: we counted 1 wild bee during surveys but we could not identify the species on the wing. Then we captured 2 wild bees that were identified as L. pauxilium and L. zonulum. Then we assigned abundance 0,5 to each species (1 wild bee/ 2 species).",NA
"Marcos_Minarro_Malus_domestica_Spain_2016","Bus06","Plant observation","Other dipterans","order","other_flies",1,47.12,75,930,"Each orchard was surveyed three times. Each survey was the observation of 5 trees * 5 minutes (25 min). In each tree, we observed an area of about 1m of radius in which number of flowers was counted. When possible, insects were identified to species or caught for a posterior identificaction. An additional capture (10 minutes at each survey) of pollinators visiting apple flowers was made for identification in the lab of species not identifyied in the field sampling. This info was not used for abundance (that is why we only considered plant observaction as sasmpling method) but just to assign relative abundances to specific species from general groups (e.g. wild bees). This is why in some cases total abundances have decimal values. An example: we counted 1 wild bee during surveys but we could not identify the species on the wing. Then we captured 2 wild bees that were identified as L. pauxilium and L. zonulum. Then we assigned abundance 0,5 to each species (1 wild bee/ 2 species).",NA
"Marcos_Minarro_Malus_domestica_Spain_2016","Bus06","Plant observation","Oxythyrea funesta","species","beetles",1,47.12,75,930,"Each orchard was surveyed three times. Each survey was the observation of 5 trees * 5 minutes (25 min). In each tree, we observed an area of about 1m of radius in which number of flowers was counted. When possible, insects were identified to species or caught for a posterior identificaction. An additional capture (10 minutes at each survey) of pollinators visiting apple flowers was made for identification in the lab of species not identifyied in the field sampling. This info was not used for abundance (that is why we only considered plant observaction as sasmpling method) but just to assign relative abundances to specific species from general groups (e.g. wild bees). This is why in some cases total abundances have decimal values. An example: we counted 1 wild bee during surveys but we could not identify the species on the wing. Then we captured 2 wild bees that were identified as L. pauxilium and L. zonulum. Then we assigned abundance 0,5 to each species (1 wild bee/ 2 species).",NA
"Marcos_Minarro_Malus_domestica_Spain_2016","Bus06","Plant observation","Sphaerophoria scripta","species","syrphids",1.7,47.12,75,930,"Each orchard was surveyed three times. Each survey was the observation of 5 trees * 5 minutes (25 min). In each tree, we observed an area of about 1m of radius in which number of flowers was counted. When possible, insects were identified to species or caught for a posterior identificaction. An additional capture (10 minutes at each survey) of pollinators visiting apple flowers was made for identification in the lab of species not identifyied in the field sampling. This info was not used for abundance (that is why we only considered plant observaction as sasmpling method) but just to assign relative abundances to specific species from general groups (e.g. wild bees). This is why in some cases total abundances have decimal values. An example: we counted 1 wild bee during surveys but we could not identify the species on the wing. Then we captured 2 wild bees that were identified as L. pauxilium and L. zonulum. Then we assigned abundance 0,5 to each species (1 wild bee/ 2 species).",NA
"Marcos_Minarro_Malus_domestica_Spain_2016","Cal17","Plant observation","Andrena flavipes","species","other_wild_bees",2,47.12,75,1909,"Each orchard was surveyed three times. Each survey was the observation of 5 trees * 5 minutes (25 min). In each tree, we observed an area of about 1m of radius in which number of flowers was counted. When possible, insects were identified to species or caught for a posterior identificaction. An additional capture (10 minutes at each survey) of pollinators visiting apple flowers was made for identification in the lab of species not identifyied in the field sampling. This info was not used for abundance (that is why we only considered plant observaction as sasmpling method) but just to assign relative abundances to specific species from general groups (e.g. wild bees). This is why in some cases total abundances have decimal values. An example: we counted 1 wild bee during surveys but we could not identify the species on the wing. Then we captured 2 wild bees that were identified as L. pauxilium and L. zonulum. Then we assigned abundance 0,5 to each species (1 wild bee/ 2 species).",NA
"Marcos_Minarro_Malus_domestica_Spain_2016","Cal17","Plant observation","Apis mellifera","species","honeybees",46,47.12,75,1909,"Each orchard was surveyed three times. Each survey was the observation of 5 trees * 5 minutes (25 min). In each tree, we observed an area of about 1m of radius in which number of flowers was counted. When possible, insects were identified to species or caught for a posterior identificaction. An additional capture (10 minutes at each survey) of pollinators visiting apple flowers was made for identification in the lab of species not identifyied in the field sampling. This info was not used for abundance (that is why we only considered plant observaction as sasmpling method) but just to assign relative abundances to specific species from general groups (e.g. wild bees). This is why in some cases total abundances have decimal values. An example: we counted 1 wild bee during surveys but we could not identify the species on the wing. Then we captured 2 wild bees that were identified as L. pauxilium and L. zonulum. Then we assigned abundance 0,5 to each species (1 wild bee/ 2 species).",NA
"Marcos_Minarro_Malus_domestica_Spain_2016","Cal17","Plant observation","Episyrphus balteatus","species","syrphids",1,47.12,75,1909,"Each orchard was surveyed three times. Each survey was the observation of 5 trees * 5 minutes (25 min). In each tree, we observed an area of about 1m of radius in which number of flowers was counted. When possible, insects were identified to species or caught for a posterior identificaction. An additional capture (10 minutes at each survey) of pollinators visiting apple flowers was made for identification in the lab of species not identifyied in the field sampling. This info was not used for abundance (that is why we only considered plant observaction as sasmpling method) but just to assign relative abundances to specific species from general groups (e.g. wild bees). This is why in some cases total abundances have decimal values. An example: we counted 1 wild bee during surveys but we could not identify the species on the wing. Then we captured 2 wild bees that were identified as L. pauxilium and L. zonulum. Then we assigned abundance 0,5 to each species (1 wild bee/ 2 species).",NA
"Marcos_Minarro_Malus_domestica_Spain_2016","Cal17","Plant observation","Eristalis arbustorum","species","syrphids",0.333,47.12,75,1909,"Each orchard was surveyed three times. Each survey was the observation of 5 trees * 5 minutes (25 min). In each tree, we observed an area of about 1m of radius in which number of flowers was counted. When possible, insects were identified to species or caught for a posterior identificaction. An additional capture (10 minutes at each survey) of pollinators visiting apple flowers was made for identification in the lab of species not identifyied in the field sampling. This info was not used for abundance (that is why we only considered plant observaction as sasmpling method) but just to assign relative abundances to specific species from general groups (e.g. wild bees). This is why in some cases total abundances have decimal values. An example: we counted 1 wild bee during surveys but we could not identify the species on the wing. Then we captured 2 wild bees that were identified as L. pauxilium and L. zonulum. Then we assigned abundance 0,5 to each species (1 wild bee/ 2 species).",NA
"Marcos_Minarro_Malus_domestica_Spain_2016","Cal17","Plant observation","Eristalis similis","species","syrphids",7,47.12,75,1909,"Each orchard was surveyed three times. Each survey was the observation of 5 trees * 5 minutes (25 min). In each tree, we observed an area of about 1m of radius in which number of flowers was counted. When possible, insects were identified to species or caught for a posterior identificaction. An additional capture (10 minutes at each survey) of pollinators visiting apple flowers was made for identification in the lab of species not identifyied in the field sampling. This info was not used for abundance (that is why we only considered plant observaction as sasmpling method) but just to assign relative abundances to specific species from general groups (e.g. wild bees). This is why in some cases total abundances have decimal values. An example: we counted 1 wild bee during surveys but we could not identify the species on the wing. Then we captured 2 wild bees that were identified as L. pauxilium and L. zonulum. Then we assigned abundance 0,5 to each species (1 wild bee/ 2 species).",NA
"Marcos_Minarro_Malus_domestica_Spain_2016","Cal17","Plant observation","Eristalis tenax","species","syrphids",7.667,47.12,75,1909,"Each orchard was surveyed three times. Each survey was the observation of 5 trees * 5 minutes (25 min). In each tree, we observed an area of about 1m of radius in which number of flowers was counted. When possible, insects were identified to species or caught for a posterior identificaction. An additional capture (10 minutes at each survey) of pollinators visiting apple flowers was made for identification in the lab of species not identifyied in the field sampling. This info was not used for abundance (that is why we only considered plant observaction as sasmpling method) but just to assign relative abundances to specific species from general groups (e.g. wild bees). This is why in some cases total abundances have decimal values. An example: we counted 1 wild bee during surveys but we could not identify the species on the wing. Then we captured 2 wild bees that were identified as L. pauxilium and L. zonulum. Then we assigned abundance 0,5 to each species (1 wild bee/ 2 species).",NA
"Marcos_Minarro_Malus_domestica_Spain_2016","Cal17","Plant observation","Eupeodes corollae","species","syrphids",2,47.12,75,1909,"Each orchard was surveyed three times. Each survey was the observation of 5 trees * 5 minutes (25 min). In each tree, we observed an area of about 1m of radius in which number of flowers was counted. When possible, insects were identified to species or caught for a posterior identificaction. An additional capture (10 minutes at each survey) of pollinators visiting apple flowers was made for identification in the lab of species not identifyied in the field sampling. This info was not used for abundance (that is why we only considered plant observaction as sasmpling method) but just to assign relative abundances to specific species from general groups (e.g. wild bees). This is why in some cases total abundances have decimal values. An example: we counted 1 wild bee during surveys but we could not identify the species on the wing. Then we captured 2 wild bees that were identified as L. pauxilium and L. zonulum. Then we assigned abundance 0,5 to each species (1 wild bee/ 2 species).",NA
"Marcos_Minarro_Malus_domestica_Spain_2016","Cal17","Plant observation","Hoverfly","family","syrphids",1,47.12,75,1909,"Each orchard was surveyed three times. Each survey was the observation of 5 trees * 5 minutes (25 min). In each tree, we observed an area of about 1m of radius in which number of flowers was counted. When possible, insects were identified to species or caught for a posterior identificaction. An additional capture (10 minutes at each survey) of pollinators visiting apple flowers was made for identification in the lab of species not identifyied in the field sampling. This info was not used for abundance (that is why we only considered plant observaction as sasmpling method) but just to assign relative abundances to specific species from general groups (e.g. wild bees). This is why in some cases total abundances have decimal values. An example: we counted 1 wild bee during surveys but we could not identify the species on the wing. Then we captured 2 wild bees that were identified as L. pauxilium and L. zonulum. Then we assigned abundance 0,5 to each species (1 wild bee/ 2 species).",NA
"Marcos_Minarro_Malus_domestica_Spain_2016","Cal17","Plant observation","Other dipterans","order","other_flies",1,47.12,75,1909,"Each orchard was surveyed three times. Each survey was the observation of 5 trees * 5 minutes (25 min). In each tree, we observed an area of about 1m of radius in which number of flowers was counted. When possible, insects were identified to species or caught for a posterior identificaction. An additional capture (10 minutes at each survey) of pollinators visiting apple flowers was made for identification in the lab of species not identifyied in the field sampling. This info was not used for abundance (that is why we only considered plant observaction as sasmpling method) but just to assign relative abundances to specific species from general groups (e.g. wild bees). This is why in some cases total abundances have decimal values. An example: we counted 1 wild bee during surveys but we could not identify the species on the wing. Then we captured 2 wild bees that were identified as L. pauxilium and L. zonulum. Then we assigned abundance 0,5 to each species (1 wild bee/ 2 species).",NA
"Marcos_Minarro_Malus_domestica_Spain_2016","Cal17","Plant observation","Wild bees","superfamily","other_wild_bees",1,47.12,75,1909,"Each orchard was surveyed three times. Each survey was the observation of 5 trees * 5 minutes (25 min). In each tree, we observed an area of about 1m of radius in which number of flowers was counted. When possible, insects were identified to species or caught for a posterior identificaction. An additional capture (10 minutes at each survey) of pollinators visiting apple flowers was made for identification in the lab of species not identifyied in the field sampling. This info was not used for abundance (that is why we only considered plant observaction as sasmpling method) but just to assign relative abundances to specific species from general groups (e.g. wild bees). This is why in some cases total abundances have decimal values. An example: we counted 1 wild bee during surveys but we could not identify the species on the wing. Then we captured 2 wild bees that were identified as L. pauxilium and L. zonulum. Then we assigned abundance 0,5 to each species (1 wild bee/ 2 species).","Apoidea?"
"Marcos_Minarro_Malus_domestica_Spain_2016","Cam07","Plant observation","Andrena fulva","species","other_wild_bees",1,47.12,75,1234,"Each orchard was surveyed three times. Each survey was the observation of 5 trees * 5 minutes (25 min). In each tree, we observed an area of about 1m of radius in which number of flowers was counted. When possible, insects were identified to species or caught for a posterior identificaction. An additional capture (10 minutes at each survey) of pollinators visiting apple flowers was made for identification in the lab of species not identifyied in the field sampling. This info was not used for abundance (that is why we only considered plant observaction as sasmpling method) but just to assign relative abundances to specific species from general groups (e.g. wild bees). This is why in some cases total abundances have decimal values. An example: we counted 1 wild bee during surveys but we could not identify the species on the wing. Then we captured 2 wild bees that were identified as L. pauxilium and L. zonulum. Then we assigned abundance 0,5 to each species (1 wild bee/ 2 species).",NA
"Marcos_Minarro_Malus_domestica_Spain_2016","Cam07","Plant observation","Apis mellifera","species","honeybees",61,47.12,75,1234,"Each orchard was surveyed three times. Each survey was the observation of 5 trees * 5 minutes (25 min). In each tree, we observed an area of about 1m of radius in which number of flowers was counted. When possible, insects were identified to species or caught for a posterior identificaction. An additional capture (10 minutes at each survey) of pollinators visiting apple flowers was made for identification in the lab of species not identifyied in the field sampling. This info was not used for abundance (that is why we only considered plant observaction as sasmpling method) but just to assign relative abundances to specific species from general groups (e.g. wild bees). This is why in some cases total abundances have decimal values. An example: we counted 1 wild bee during surveys but we could not identify the species on the wing. Then we captured 2 wild bees that were identified as L. pauxilium and L. zonulum. Then we assigned abundance 0,5 to each species (1 wild bee/ 2 species).",NA
"Marcos_Minarro_Malus_domestica_Spain_2016","Cam07","Plant observation","Bombus terrestris","species","bumblebees",1,47.12,75,1234,"Each orchard was surveyed three times. Each survey was the observation of 5 trees * 5 minutes (25 min). In each tree, we observed an area of about 1m of radius in which number of flowers was counted. When possible, insects were identified to species or caught for a posterior identificaction. An additional capture (10 minutes at each survey) of pollinators visiting apple flowers was made for identification in the lab of species not identifyied in the field sampling. This info was not used for abundance (that is why we only considered plant observaction as sasmpling method) but just to assign relative abundances to specific species from general groups (e.g. wild bees). This is why in some cases total abundances have decimal values. An example: we counted 1 wild bee during surveys but we could not identify the species on the wing. Then we captured 2 wild bees that were identified as L. pauxilium and L. zonulum. Then we assigned abundance 0,5 to each species (1 wild bee/ 2 species).",NA
"Marcos_Minarro_Malus_domestica_Spain_2016","Cam07","Plant observation","Episyrphus balteatus","species","syrphids",3,47.12,75,1234,"Each orchard was surveyed three times. Each survey was the observation of 5 trees * 5 minutes (25 min). In each tree, we observed an area of about 1m of radius in which number of flowers was counted. When possible, insects were identified to species or caught for a posterior identificaction. An additional capture (10 minutes at each survey) of pollinators visiting apple flowers was made for identification in the lab of species not identifyied in the field sampling. This info was not used for abundance (that is why we only considered plant observaction as sasmpling method) but just to assign relative abundances to specific species from general groups (e.g. wild bees). This is why in some cases total abundances have decimal values. An example: we counted 1 wild bee during surveys but we could not identify the species on the wing. Then we captured 2 wild bees that were identified as L. pauxilium and L. zonulum. Then we assigned abundance 0,5 to each species (1 wild bee/ 2 species).",NA
"Marcos_Minarro_Malus_domestica_Spain_2016","Cam07","Plant observation","Eristalis similis","species","syrphids",3,47.12,75,1234,"Each orchard was surveyed three times. Each survey was the observation of 5 trees * 5 minutes (25 min). In each tree, we observed an area of about 1m of radius in which number of flowers was counted. When possible, insects were identified to species or caught for a posterior identificaction. An additional capture (10 minutes at each survey) of pollinators visiting apple flowers was made for identification in the lab of species not identifyied in the field sampling. This info was not used for abundance (that is why we only considered plant observaction as sasmpling method) but just to assign relative abundances to specific species from general groups (e.g. wild bees). This is why in some cases total abundances have decimal values. An example: we counted 1 wild bee during surveys but we could not identify the species on the wing. Then we captured 2 wild bees that were identified as L. pauxilium and L. zonulum. Then we assigned abundance 0,5 to each species (1 wild bee/ 2 species).",NA
"Marcos_Minarro_Malus_domestica_Spain_2016","Cam07","Plant observation","Eristalis spp.","genus","syrphids",4,47.12,75,1234,"Each orchard was surveyed three times. Each survey was the observation of 5 trees * 5 minutes (25 min). In each tree, we observed an area of about 1m of radius in which number of flowers was counted. When possible, insects were identified to species or caught for a posterior identificaction. An additional capture (10 minutes at each survey) of pollinators visiting apple flowers was made for identification in the lab of species not identifyied in the field sampling. This info was not used for abundance (that is why we only considered plant observaction as sasmpling method) but just to assign relative abundances to specific species from general groups (e.g. wild bees). This is why in some cases total abundances have decimal values. An example: we counted 1 wild bee during surveys but we could not identify the species on the wing. Then we captured 2 wild bees that were identified as L. pauxilium and L. zonulum. Then we assigned abundance 0,5 to each species (1 wild bee/ 2 species).",NA
"Marcos_Minarro_Malus_domestica_Spain_2016","Cam07","Plant observation","Eristalis tenax","species","syrphids",4,47.12,75,1234,"Each orchard was surveyed three times. Each survey was the observation of 5 trees * 5 minutes (25 min). In each tree, we observed an area of about 1m of radius in which number of flowers was counted. When possible, insects were identified to species or caught for a posterior identificaction. An additional capture (10 minutes at each survey) of pollinators visiting apple flowers was made for identification in the lab of species not identifyied in the field sampling. This info was not used for abundance (that is why we only considered plant observaction as sasmpling method) but just to assign relative abundances to specific species from general groups (e.g. wild bees). This is why in some cases total abundances have decimal values. An example: we counted 1 wild bee during surveys but we could not identify the species on the wing. Then we captured 2 wild bees that were identified as L. pauxilium and L. zonulum. Then we assigned abundance 0,5 to each species (1 wild bee/ 2 species).",NA
"Marcos_Minarro_Malus_domestica_Spain_2016","Cam07","Plant observation","Lasioglossum malachurum","species","other_wild_bees",1,47.12,75,1234,"Each orchard was surveyed three times. Each survey was the observation of 5 trees * 5 minutes (25 min). In each tree, we observed an area of about 1m of radius in which number of flowers was counted. When possible, insects were identified to species or caught for a posterior identificaction. An additional capture (10 minutes at each survey) of pollinators visiting apple flowers was made for identification in the lab of species not identifyied in the field sampling. This info was not used for abundance (that is why we only considered plant observaction as sasmpling method) but just to assign relative abundances to specific species from general groups (e.g. wild bees). This is why in some cases total abundances have decimal values. An example: we counted 1 wild bee during surveys but we could not identify the species on the wing. Then we captured 2 wild bees that were identified as L. pauxilium and L. zonulum. Then we assigned abundance 0,5 to each species (1 wild bee/ 2 species).",NA
"Marcos_Minarro_Malus_domestica_Spain_2016","Cam07","Plant observation","Other dipterans","order","other_flies",1,47.12,75,1234,"Each orchard was surveyed three times. Each survey was the observation of 5 trees * 5 minutes (25 min). In each tree, we observed an area of about 1m of radius in which number of flowers was counted. When possible, insects were identified to species or caught for a posterior identificaction. An additional capture (10 minutes at each survey) of pollinators visiting apple flowers was made for identification in the lab of species not identifyied in the field sampling. This info was not used for abundance (that is why we only considered plant observaction as sasmpling method) but just to assign relative abundances to specific species from general groups (e.g. wild bees). This is why in some cases total abundances have decimal values. An example: we counted 1 wild bee during surveys but we could not identify the species on the wing. Then we captured 2 wild bees that were identified as L. pauxilium and L. zonulum. Then we assigned abundance 0,5 to each species (1 wild bee/ 2 species).",NA
"Marcos_Minarro_Malus_domestica_Spain_2016","Cam07","Plant observation","Wild bees","superfamily","other_wild_bees",1,47.12,75,1234,"Each orchard was surveyed three times. Each survey was the observation of 5 trees * 5 minutes (25 min). In each tree, we observed an area of about 1m of radius in which number of flowers was counted. When possible, insects were identified to species or caught for a posterior identificaction. An additional capture (10 minutes at each survey) of pollinators visiting apple flowers was made for identification in the lab of species not identifyied in the field sampling. This info was not used for abundance (that is why we only considered plant observaction as sasmpling method) but just to assign relative abundances to specific species from general groups (e.g. wild bees). This is why in some cases total abundances have decimal values. An example: we counted 1 wild bee during surveys but we could not identify the species on the wing. Then we captured 2 wild bees that were identified as L. pauxilium and L. zonulum. Then we assigned abundance 0,5 to each species (1 wild bee/ 2 species).","Apoidea?"
"Marcos_Minarro_Malus_domestica_Spain_2016","Cam26","Plant observation","Andrena lathyri","species","other_wild_bees",1,47.12,75,1134,"Each orchard was surveyed three times. Each survey was the observation of 5 trees * 5 minutes (25 min). In each tree, we observed an area of about 1m of radius in which number of flowers was counted. When possible, insects were identified to species or caught for a posterior identificaction. An additional capture (10 minutes at each survey) of pollinators visiting apple flowers was made for identification in the lab of species not identifyied in the field sampling. This info was not used for abundance (that is why we only considered plant observaction as sasmpling method) but just to assign relative abundances to specific species from general groups (e.g. wild bees). This is why in some cases total abundances have decimal values. An example: we counted 1 wild bee during surveys but we could not identify the species on the wing. Then we captured 2 wild bees that were identified as L. pauxilium and L. zonulum. Then we assigned abundance 0,5 to each species (1 wild bee/ 2 species).",NA
"Marcos_Minarro_Malus_domestica_Spain_2016","Cam26","Plant observation","Apis mellifera","species","honeybees",53,47.12,75,1134,"Each orchard was surveyed three times. Each survey was the observation of 5 trees * 5 minutes (25 min). In each tree, we observed an area of about 1m of radius in which number of flowers was counted. When possible, insects were identified to species or caught for a posterior identificaction. An additional capture (10 minutes at each survey) of pollinators visiting apple flowers was made for identification in the lab of species not identifyied in the field sampling. This info was not used for abundance (that is why we only considered plant observaction as sasmpling method) but just to assign relative abundances to specific species from general groups (e.g. wild bees). This is why in some cases total abundances have decimal values. An example: we counted 1 wild bee during surveys but we could not identify the species on the wing. Then we captured 2 wild bees that were identified as L. pauxilium and L. zonulum. Then we assigned abundance 0,5 to each species (1 wild bee/ 2 species).",NA
"Marcos_Minarro_Malus_domestica_Spain_2016","Cam26","Plant observation","Episyrphus balteatus","species","syrphids",4,47.12,75,1134,"Each orchard was surveyed three times. Each survey was the observation of 5 trees * 5 minutes (25 min). In each tree, we observed an area of about 1m of radius in which number of flowers was counted. When possible, insects were identified to species or caught for a posterior identificaction. An additional capture (10 minutes at each survey) of pollinators visiting apple flowers was made for identification in the lab of species not identifyied in the field sampling. This info was not used for abundance (that is why we only considered plant observaction as sasmpling method) but just to assign relative abundances to specific species from general groups (e.g. wild bees). This is why in some cases total abundances have decimal values. An example: we counted 1 wild bee during surveys but we could not identify the species on the wing. Then we captured 2 wild bees that were identified as L. pauxilium and L. zonulum. Then we assigned abundance 0,5 to each species (1 wild bee/ 2 species).",NA
"Marcos_Minarro_Malus_domestica_Spain_2016","Cam26","Plant observation","Eristalis spp.","genus","syrphids",2,47.12,75,1134,"Each orchard was surveyed three times. Each survey was the observation of 5 trees * 5 minutes (25 min). In each tree, we observed an area of about 1m of radius in which number of flowers was counted. When possible, insects were identified to species or caught for a posterior identificaction. An additional capture (10 minutes at each survey) of pollinators visiting apple flowers was made for identification in the lab of species not identifyied in the field sampling. This info was not used for abundance (that is why we only considered plant observaction as sasmpling method) but just to assign relative abundances to specific species from general groups (e.g. wild bees). This is why in some cases total abundances have decimal values. An example: we counted 1 wild bee during surveys but we could not identify the species on the wing. Then we captured 2 wild bees that were identified as L. pauxilium and L. zonulum. Then we assigned abundance 0,5 to each species (1 wild bee/ 2 species).",NA
"Marcos_Minarro_Malus_domestica_Spain_2016","Cam26","Plant observation","Eupeodes corollae","species","syrphids",1,47.12,75,1134,"Each orchard was surveyed three times. Each survey was the observation of 5 trees * 5 minutes (25 min). In each tree, we observed an area of about 1m of radius in which number of flowers was counted. When possible, insects were identified to species or caught for a posterior identificaction. An additional capture (10 minutes at each survey) of pollinators visiting apple flowers was made for identification in the lab of species not identifyied in the field sampling. This info was not used for abundance (that is why we only considered plant observaction as sasmpling method) but just to assign relative abundances to specific species from general groups (e.g. wild bees). This is why in some cases total abundances have decimal values. An example: we counted 1 wild bee during surveys but we could not identify the species on the wing. Then we captured 2 wild bees that were identified as L. pauxilium and L. zonulum. Then we assigned abundance 0,5 to each species (1 wild bee/ 2 species).",NA
"Marcos_Minarro_Malus_domestica_Spain_2016","Cam26","Plant observation","Lasioglossum limbellum","species","other_wild_bees",1,47.12,75,1134,"Each orchard was surveyed three times. Each survey was the observation of 5 trees * 5 minutes (25 min). In each tree, we observed an area of about 1m of radius in which number of flowers was counted. When possible, insects were identified to species or caught for a posterior identificaction. An additional capture (10 minutes at each survey) of pollinators visiting apple flowers was made for identification in the lab of species not identifyied in the field sampling. This info was not used for abundance (that is why we only considered plant observaction as sasmpling method) but just to assign relative abundances to specific species from general groups (e.g. wild bees). This is why in some cases total abundances have decimal values. An example: we counted 1 wild bee during surveys but we could not identify the species on the wing. Then we captured 2 wild bees that were identified as L. pauxilium and L. zonulum. Then we assigned abundance 0,5 to each species (1 wild bee/ 2 species).",NA
"Marcos_Minarro_Malus_domestica_Spain_2016","Cam26","Plant observation","Lasioglossum lucidulum","species","other_wild_bees",1,47.12,75,1134,"Each orchard was surveyed three times. Each survey was the observation of 5 trees * 5 minutes (25 min). In each tree, we observed an area of about 1m of radius in which number of flowers was counted. When possible, insects were identified to species or caught for a posterior identificaction. An additional capture (10 minutes at each survey) of pollinators visiting apple flowers was made for identification in the lab of species not identifyied in the field sampling. This info was not used for abundance (that is why we only considered plant observaction as sasmpling method) but just to assign relative abundances to specific species from general groups (e.g. wild bees). This is why in some cases total abundances have decimal values. An example: we counted 1 wild bee during surveys but we could not identify the species on the wing. Then we captured 2 wild bees that were identified as L. pauxilium and L. zonulum. Then we assigned abundance 0,5 to each species (1 wild bee/ 2 species).",NA
"Marcos_Minarro_Malus_domestica_Spain_2016","Cam26","Plant observation","Oedemera sp.","genus","beetles",1,47.12,75,1134,"Each orchard was surveyed three times. Each survey was the observation of 5 trees * 5 minutes (25 min). In each tree, we observed an area of about 1m of radius in which number of flowers was counted. When possible, insects were identified to species or caught for a posterior identificaction. An additional capture (10 minutes at each survey) of pollinators visiting apple flowers was made for identification in the lab of species not identifyied in the field sampling. This info was not used for abundance (that is why we only considered plant observaction as sasmpling method) but just to assign relative abundances to specific species from general groups (e.g. wild bees). This is why in some cases total abundances have decimal values. An example: we counted 1 wild bee during surveys but we could not identify the species on the wing. Then we captured 2 wild bees that were identified as L. pauxilium and L. zonulum. Then we assigned abundance 0,5 to each species (1 wild bee/ 2 species).",NA
"Marcos_Minarro_Malus_domestica_Spain_2016","Cay09","Plant observation","Apis mellifera","species","honeybees",22,47.12,75,868,"Each orchard was surveyed three times. Each survey was the observation of 5 trees * 5 minutes (25 min). In each tree, we observed an area of about 1m of radius in which number of flowers was counted. When possible, insects were identified to species or caught for a posterior identificaction. An additional capture (10 minutes at each survey) of pollinators visiting apple flowers was made for identification in the lab of species not identifyied in the field sampling. This info was not used for abundance (that is why we only considered plant observaction as sasmpling method) but just to assign relative abundances to specific species from general groups (e.g. wild bees). This is why in some cases total abundances have decimal values. An example: we counted 1 wild bee during surveys but we could not identify the species on the wing. Then we captured 2 wild bees that were identified as L. pauxilium and L. zonulum. Then we assigned abundance 0,5 to each species (1 wild bee/ 2 species).",NA
"Marcos_Minarro_Malus_domestica_Spain_2016","Cay09","Plant observation","Episyrphus balteatus","species","syrphids",2,47.12,75,868,"Each orchard was surveyed three times. Each survey was the observation of 5 trees * 5 minutes (25 min). In each tree, we observed an area of about 1m of radius in which number of flowers was counted. When possible, insects were identified to species or caught for a posterior identificaction. An additional capture (10 minutes at each survey) of pollinators visiting apple flowers was made for identification in the lab of species not identifyied in the field sampling. This info was not used for abundance (that is why we only considered plant observaction as sasmpling method) but just to assign relative abundances to specific species from general groups (e.g. wild bees). This is why in some cases total abundances have decimal values. An example: we counted 1 wild bee during surveys but we could not identify the species on the wing. Then we captured 2 wild bees that were identified as L. pauxilium and L. zonulum. Then we assigned abundance 0,5 to each species (1 wild bee/ 2 species).",NA
"Marcos_Minarro_Malus_domestica_Spain_2016","Cay09","Plant observation","Eristalis tenax","species","syrphids",12,47.12,75,868,"Each orchard was surveyed three times. Each survey was the observation of 5 trees * 5 minutes (25 min). In each tree, we observed an area of about 1m of radius in which number of flowers was counted. When possible, insects were identified to species or caught for a posterior identificaction. An additional capture (10 minutes at each survey) of pollinators visiting apple flowers was made for identification in the lab of species not identifyied in the field sampling. This info was not used for abundance (that is why we only considered plant observaction as sasmpling method) but just to assign relative abundances to specific species from general groups (e.g. wild bees). This is why in some cases total abundances have decimal values. An example: we counted 1 wild bee during surveys but we could not identify the species on the wing. Then we captured 2 wild bees that were identified as L. pauxilium and L. zonulum. Then we assigned abundance 0,5 to each species (1 wild bee/ 2 species).",NA
"Marcos_Minarro_Malus_domestica_Spain_2016","Cay09","Plant observation","Other dipterans","order","other_flies",3,47.12,75,868,"Each orchard was surveyed three times. Each survey was the observation of 5 trees * 5 minutes (25 min). In each tree, we observed an area of about 1m of radius in which number of flowers was counted. When possible, insects were identified to species or caught for a posterior identificaction. An additional capture (10 minutes at each survey) of pollinators visiting apple flowers was made for identification in the lab of species not identifyied in the field sampling. This info was not used for abundance (that is why we only considered plant observaction as sasmpling method) but just to assign relative abundances to specific species from general groups (e.g. wild bees). This is why in some cases total abundances have decimal values. An example: we counted 1 wild bee during surveys but we could not identify the species on the wing. Then we captured 2 wild bees that were identified as L. pauxilium and L. zonulum. Then we assigned abundance 0,5 to each species (1 wild bee/ 2 species).",NA
"Marcos_Minarro_Malus_domestica_Spain_2016","Cay09","Plant observation","Sphaerophoria scripta","species","syrphids",5,47.12,75,868,"Each orchard was surveyed three times. Each survey was the observation of 5 trees * 5 minutes (25 min). In each tree, we observed an area of about 1m of radius in which number of flowers was counted. When possible, insects were identified to species or caught for a posterior identificaction. An additional capture (10 minutes at each survey) of pollinators visiting apple flowers was made for identification in the lab of species not identifyied in the field sampling. This info was not used for abundance (that is why we only considered plant observaction as sasmpling method) but just to assign relative abundances to specific species from general groups (e.g. wild bees). This is why in some cases total abundances have decimal values. An example: we counted 1 wild bee during surveys but we could not identify the species on the wing. Then we captured 2 wild bees that were identified as L. pauxilium and L. zonulum. Then we assigned abundance 0,5 to each species (1 wild bee/ 2 species).",NA
"Marcos_Minarro_Malus_domestica_Spain_2016","Cay09","Plant observation","Wild bees","superfamily","other_wild_bees",1,47.12,75,868,"Each orchard was surveyed three times. Each survey was the observation of 5 trees * 5 minutes (25 min). In each tree, we observed an area of about 1m of radius in which number of flowers was counted. When possible, insects were identified to species or caught for a posterior identificaction. An additional capture (10 minutes at each survey) of pollinators visiting apple flowers was made for identification in the lab of species not identifyied in the field sampling. This info was not used for abundance (that is why we only considered plant observaction as sasmpling method) but just to assign relative abundances to specific species from general groups (e.g. wild bees). This is why in some cases total abundances have decimal values. An example: we counted 1 wild bee during surveys but we could not identify the species on the wing. Then we captured 2 wild bees that were identified as L. pauxilium and L. zonulum. Then we assigned abundance 0,5 to each species (1 wild bee/ 2 species).","Apoidea?"
"Marcos_Minarro_Malus_domestica_Spain_2016","Col13","Plant observation","Andrena dorsata","species","other_wild_bees",1,47.12,75,1017.25,"Each orchard was surveyed three times. Each survey was the observation of 5 trees * 5 minutes (25 min). In each tree, we observed an area of about 1m of radius in which number of flowers was counted. When possible, insects were identified to species or caught for a posterior identificaction. An additional capture (10 minutes at each survey) of pollinators visiting apple flowers was made for identification in the lab of species not identifyied in the field sampling. This info was not used for abundance (that is why we only considered plant observaction as sasmpling method) but just to assign relative abundances to specific species from general groups (e.g. wild bees). This is why in some cases total abundances have decimal values. An example: we counted 1 wild bee during surveys but we could not identify the species on the wing. Then we captured 2 wild bees that were identified as L. pauxilium and L. zonulum. Then we assigned abundance 0,5 to each species (1 wild bee/ 2 species).",NA
"Marcos_Minarro_Malus_domestica_Spain_2016","Col13","Plant observation","Apis mellifera","species","honeybees",38,47.12,75,1017.25,"Each orchard was surveyed three times. Each survey was the observation of 5 trees * 5 minutes (25 min). In each tree, we observed an area of about 1m of radius in which number of flowers was counted. When possible, insects were identified to species or caught for a posterior identificaction. An additional capture (10 minutes at each survey) of pollinators visiting apple flowers was made for identification in the lab of species not identifyied in the field sampling. This info was not used for abundance (that is why we only considered plant observaction as sasmpling method) but just to assign relative abundances to specific species from general groups (e.g. wild bees). This is why in some cases total abundances have decimal values. An example: we counted 1 wild bee during surveys but we could not identify the species on the wing. Then we captured 2 wild bees that were identified as L. pauxilium and L. zonulum. Then we assigned abundance 0,5 to each species (1 wild bee/ 2 species).",NA
"Marcos_Minarro_Malus_domestica_Spain_2016","Col13","Plant observation","Bombus terrestris","species","bumblebees",2,47.12,75,1017.25,"Each orchard was surveyed three times. Each survey was the observation of 5 trees * 5 minutes (25 min). In each tree, we observed an area of about 1m of radius in which number of flowers was counted. When possible, insects were identified to species or caught for a posterior identificaction. An additional capture (10 minutes at each survey) of pollinators visiting apple flowers was made for identification in the lab of species not identifyied in the field sampling. This info was not used for abundance (that is why we only considered plant observaction as sasmpling method) but just to assign relative abundances to specific species from general groups (e.g. wild bees). This is why in some cases total abundances have decimal values. An example: we counted 1 wild bee during surveys but we could not identify the species on the wing. Then we captured 2 wild bees that were identified as L. pauxilium and L. zonulum. Then we assigned abundance 0,5 to each species (1 wild bee/ 2 species).",NA
"Marcos_Minarro_Malus_domestica_Spain_2016","Col13","Plant observation","Eristalis tenax","species","syrphids",19,47.12,75,1017.25,"Each orchard was surveyed three times. Each survey was the observation of 5 trees * 5 minutes (25 min). In each tree, we observed an area of about 1m of radius in which number of flowers was counted. When possible, insects were identified to species or caught for a posterior identificaction. An additional capture (10 minutes at each survey) of pollinators visiting apple flowers was made for identification in the lab of species not identifyied in the field sampling. This info was not used for abundance (that is why we only considered plant observaction as sasmpling method) but just to assign relative abundances to specific species from general groups (e.g. wild bees). This is why in some cases total abundances have decimal values. An example: we counted 1 wild bee during surveys but we could not identify the species on the wing. Then we captured 2 wild bees that were identified as L. pauxilium and L. zonulum. Then we assigned abundance 0,5 to each species (1 wild bee/ 2 species).",NA
"Marcos_Minarro_Malus_domestica_Spain_2016","Col13","Plant observation","Other dipterans","order","other_flies",1,47.12,75,1017.25,"Each orchard was surveyed three times. Each survey was the observation of 5 trees * 5 minutes (25 min). In each tree, we observed an area of about 1m of radius in which number of flowers was counted. When possible, insects were identified to species or caught for a posterior identificaction. An additional capture (10 minutes at each survey) of pollinators visiting apple flowers was made for identification in the lab of species not identifyied in the field sampling. This info was not used for abundance (that is why we only considered plant observaction as sasmpling method) but just to assign relative abundances to specific species from general groups (e.g. wild bees). This is why in some cases total abundances have decimal values. An example: we counted 1 wild bee during surveys but we could not identify the species on the wing. Then we captured 2 wild bees that were identified as L. pauxilium and L. zonulum. Then we assigned abundance 0,5 to each species (1 wild bee/ 2 species).",NA
"Marcos_Minarro_Malus_domestica_Spain_2016","Col13","Plant observation","Sphaerophoria scripta","species","syrphids",1,47.12,75,1017.25,"Each orchard was surveyed three times. Each survey was the observation of 5 trees * 5 minutes (25 min). In each tree, we observed an area of about 1m of radius in which number of flowers was counted. When possible, insects were identified to species or caught for a posterior identificaction. An additional capture (10 minutes at each survey) of pollinators visiting apple flowers was made for identification in the lab of species not identifyied in the field sampling. This info was not used for abundance (that is why we only considered plant observaction as sasmpling method) but just to assign relative abundances to specific species from general groups (e.g. wild bees). This is why in some cases total abundances have decimal values. An example: we counted 1 wild bee during surveys but we could not identify the species on the wing. Then we captured 2 wild bees that were identified as L. pauxilium and L. zonulum. Then we assigned abundance 0,5 to each species (1 wild bee/ 2 species).",NA
"Marcos_Minarro_Malus_domestica_Spain_2016","Gai04","Plant observation","Apis mellifera","species","honeybees",19,47.12,75,1194,"Each orchard was surveyed three times. Each survey was the observation of 5 trees * 5 minutes (25 min). In each tree, we observed an area of about 1m of radius in which number of flowers was counted. When possible, insects were identified to species or caught for a posterior identificaction. An additional capture (10 minutes at each survey) of pollinators visiting apple flowers was made for identification in the lab of species not identifyied in the field sampling. This info was not used for abundance (that is why we only considered plant observaction as sasmpling method) but just to assign relative abundances to specific species from general groups (e.g. wild bees). This is why in some cases total abundances have decimal values. An example: we counted 1 wild bee during surveys but we could not identify the species on the wing. Then we captured 2 wild bees that were identified as L. pauxilium and L. zonulum. Then we assigned abundance 0,5 to each species (1 wild bee/ 2 species).",NA
"Marcos_Minarro_Malus_domestica_Spain_2016","Gai04","Plant observation","Episyrphus balteatus","species","syrphids",1,47.12,75,1194,"Each orchard was surveyed three times. Each survey was the observation of 5 trees * 5 minutes (25 min). In each tree, we observed an area of about 1m of radius in which number of flowers was counted. When possible, insects were identified to species or caught for a posterior identificaction. An additional capture (10 minutes at each survey) of pollinators visiting apple flowers was made for identification in the lab of species not identifyied in the field sampling. This info was not used for abundance (that is why we only considered plant observaction as sasmpling method) but just to assign relative abundances to specific species from general groups (e.g. wild bees). This is why in some cases total abundances have decimal values. An example: we counted 1 wild bee during surveys but we could not identify the species on the wing. Then we captured 2 wild bees that were identified as L. pauxilium and L. zonulum. Then we assigned abundance 0,5 to each species (1 wild bee/ 2 species).",NA
"Marcos_Minarro_Malus_domestica_Spain_2016","Gai04","Plant observation","Eristalis tenax","species","syrphids",17,47.12,75,1194,"Each orchard was surveyed three times. Each survey was the observation of 5 trees * 5 minutes (25 min). In each tree, we observed an area of about 1m of radius in which number of flowers was counted. When possible, insects were identified to species or caught for a posterior identificaction. An additional capture (10 minutes at each survey) of pollinators visiting apple flowers was made for identification in the lab of species not identifyied in the field sampling. This info was not used for abundance (that is why we only considered plant observaction as sasmpling method) but just to assign relative abundances to specific species from general groups (e.g. wild bees). This is why in some cases total abundances have decimal values. An example: we counted 1 wild bee during surveys but we could not identify the species on the wing. Then we captured 2 wild bees that were identified as L. pauxilium and L. zonulum. Then we assigned abundance 0,5 to each species (1 wild bee/ 2 species).",NA
"Marcos_Minarro_Malus_domestica_Spain_2016","Gai04","Plant observation","Eupeodes corollae","species","syrphids",1,47.12,75,1194,"Each orchard was surveyed three times. Each survey was the observation of 5 trees * 5 minutes (25 min). In each tree, we observed an area of about 1m of radius in which number of flowers was counted. When possible, insects were identified to species or caught for a posterior identificaction. An additional capture (10 minutes at each survey) of pollinators visiting apple flowers was made for identification in the lab of species not identifyied in the field sampling. This info was not used for abundance (that is why we only considered plant observaction as sasmpling method) but just to assign relative abundances to specific species from general groups (e.g. wild bees). This is why in some cases total abundances have decimal values. An example: we counted 1 wild bee during surveys but we could not identify the species on the wing. Then we captured 2 wild bees that were identified as L. pauxilium and L. zonulum. Then we assigned abundance 0,5 to each species (1 wild bee/ 2 species).",NA
"Marcos_Minarro_Malus_domestica_Spain_2016","Gai04","Plant observation","Hoverfly","family","syrphids",1,47.12,75,1194,"Each orchard was surveyed three times. Each survey was the observation of 5 trees * 5 minutes (25 min). In each tree, we observed an area of about 1m of radius in which number of flowers was counted. When possible, insects were identified to species or caught for a posterior identificaction. An additional capture (10 minutes at each survey) of pollinators visiting apple flowers was made for identification in the lab of species not identifyied in the field sampling. This info was not used for abundance (that is why we only considered plant observaction as sasmpling method) but just to assign relative abundances to specific species from general groups (e.g. wild bees). This is why in some cases total abundances have decimal values. An example: we counted 1 wild bee during surveys but we could not identify the species on the wing. Then we captured 2 wild bees that were identified as L. pauxilium and L. zonulum. Then we assigned abundance 0,5 to each species (1 wild bee/ 2 species).",NA
"Marcos_Minarro_Malus_domestica_Spain_2016","Gai04","Plant observation","Lasioglossum malachurum","species","other_wild_bees",0.5,47.12,75,1194,"Each orchard was surveyed three times. Each survey was the observation of 5 trees * 5 minutes (25 min). In each tree, we observed an area of about 1m of radius in which number of flowers was counted. When possible, insects were identified to species or caught for a posterior identificaction. An additional capture (10 minutes at each survey) of pollinators visiting apple flowers was made for identification in the lab of species not identifyied in the field sampling. This info was not used for abundance (that is why we only considered plant observaction as sasmpling method) but just to assign relative abundances to specific species from general groups (e.g. wild bees). This is why in some cases total abundances have decimal values. An example: we counted 1 wild bee during surveys but we could not identify the species on the wing. Then we captured 2 wild bees that were identified as L. pauxilium and L. zonulum. Then we assigned abundance 0,5 to each species (1 wild bee/ 2 species).",NA
"Marcos_Minarro_Malus_domestica_Spain_2016","Gai04","Plant observation","Lasioglossum punctatissimum","species","other_wild_bees",0.5,47.12,75,1194,"Each orchard was surveyed three times. Each survey was the observation of 5 trees * 5 minutes (25 min). In each tree, we observed an area of about 1m of radius in which number of flowers was counted. When possible, insects were identified to species or caught for a posterior identificaction. An additional capture (10 minutes at each survey) of pollinators visiting apple flowers was made for identification in the lab of species not identifyied in the field sampling. This info was not used for abundance (that is why we only considered plant observaction as sasmpling method) but just to assign relative abundances to specific species from general groups (e.g. wild bees). This is why in some cases total abundances have decimal values. An example: we counted 1 wild bee during surveys but we could not identify the species on the wing. Then we captured 2 wild bees that were identified as L. pauxilium and L. zonulum. Then we assigned abundance 0,5 to each species (1 wild bee/ 2 species).",NA
"Marcos_Minarro_Malus_domestica_Spain_2016","Gai04","Plant observation","Other dipterans","order","other_flies",2,47.12,75,1194,"Each orchard was surveyed three times. Each survey was the observation of 5 trees * 5 minutes (25 min). In each tree, we observed an area of about 1m of radius in which number of flowers was counted. When possible, insects were identified to species or caught for a posterior identificaction. An additional capture (10 minutes at each survey) of pollinators visiting apple flowers was made for identification in the lab of species not identifyied in the field sampling. This info was not used for abundance (that is why we only considered plant observaction as sasmpling method) but just to assign relative abundances to specific species from general groups (e.g. wild bees). This is why in some cases total abundances have decimal values. An example: we counted 1 wild bee during surveys but we could not identify the species on the wing. Then we captured 2 wild bees that were identified as L. pauxilium and L. zonulum. Then we assigned abundance 0,5 to each species (1 wild bee/ 2 species).",NA
"Marcos_Minarro_Malus_domestica_Spain_2016","Gai04","Plant observation","Wild bees","superfamily","other_wild_bees",1,47.12,75,1194,"Each orchard was surveyed three times. Each survey was the observation of 5 trees * 5 minutes (25 min). In each tree, we observed an area of about 1m of radius in which number of flowers was counted. When possible, insects were identified to species or caught for a posterior identificaction. An additional capture (10 minutes at each survey) of pollinators visiting apple flowers was made for identification in the lab of species not identifyied in the field sampling. This info was not used for abundance (that is why we only considered plant observaction as sasmpling method) but just to assign relative abundances to specific species from general groups (e.g. wild bees). This is why in some cases total abundances have decimal values. An example: we counted 1 wild bee during surveys but we could not identify the species on the wing. Then we captured 2 wild bees that were identified as L. pauxilium and L. zonulum. Then we assigned abundance 0,5 to each species (1 wild bee/ 2 species).","Apoidea?"
"Marcos_Minarro_Malus_domestica_Spain_2016","Mas12","Plant observation","Andrena nitida","species","other_wild_bees",1,47.12,75,1494,"Each orchard was surveyed three times. Each survey was the observation of 5 trees * 5 minutes (25 min). In each tree, we observed an area of about 1m of radius in which number of flowers was counted. When possible, insects were identified to species or caught for a posterior identificaction. An additional capture (10 minutes at each survey) of pollinators visiting apple flowers was made for identification in the lab of species not identifyied in the field sampling. This info was not used for abundance (that is why we only considered plant observaction as sasmpling method) but just to assign relative abundances to specific species from general groups (e.g. wild bees). This is why in some cases total abundances have decimal values. An example: we counted 1 wild bee during surveys but we could not identify the species on the wing. Then we captured 2 wild bees that were identified as L. pauxilium and L. zonulum. Then we assigned abundance 0,5 to each species (1 wild bee/ 2 species).",NA
"Marcos_Minarro_Malus_domestica_Spain_2016","Mas12","Plant observation","Andrena trimmerana","species","other_wild_bees",1,47.12,75,1494,"Each orchard was surveyed three times. Each survey was the observation of 5 trees * 5 minutes (25 min). In each tree, we observed an area of about 1m of radius in which number of flowers was counted. When possible, insects were identified to species or caught for a posterior identificaction. An additional capture (10 minutes at each survey) of pollinators visiting apple flowers was made for identification in the lab of species not identifyied in the field sampling. This info was not used for abundance (that is why we only considered plant observaction as sasmpling method) but just to assign relative abundances to specific species from general groups (e.g. wild bees). This is why in some cases total abundances have decimal values. An example: we counted 1 wild bee during surveys but we could not identify the species on the wing. Then we captured 2 wild bees that were identified as L. pauxilium and L. zonulum. Then we assigned abundance 0,5 to each species (1 wild bee/ 2 species).",NA
"Marcos_Minarro_Malus_domestica_Spain_2016","Mas12","Plant observation","Apis mellifera","species","honeybees",38,47.12,75,1494,"Each orchard was surveyed three times. Each survey was the observation of 5 trees * 5 minutes (25 min). In each tree, we observed an area of about 1m of radius in which number of flowers was counted. When possible, insects were identified to species or caught for a posterior identificaction. An additional capture (10 minutes at each survey) of pollinators visiting apple flowers was made for identification in the lab of species not identifyied in the field sampling. This info was not used for abundance (that is why we only considered plant observaction as sasmpling method) but just to assign relative abundances to specific species from general groups (e.g. wild bees). This is why in some cases total abundances have decimal values. An example: we counted 1 wild bee during surveys but we could not identify the species on the wing. Then we captured 2 wild bees that were identified as L. pauxilium and L. zonulum. Then we assigned abundance 0,5 to each species (1 wild bee/ 2 species).",NA
"Marcos_Minarro_Malus_domestica_Spain_2016","Mas12","Plant observation","Bombus terrestris","species","bumblebees",2,47.12,75,1494,"Each orchard was surveyed three times. Each survey was the observation of 5 trees * 5 minutes (25 min). In each tree, we observed an area of about 1m of radius in which number of flowers was counted. When possible, insects were identified to species or caught for a posterior identificaction. An additional capture (10 minutes at each survey) of pollinators visiting apple flowers was made for identification in the lab of species not identifyied in the field sampling. This info was not used for abundance (that is why we only considered plant observaction as sasmpling method) but just to assign relative abundances to specific species from general groups (e.g. wild bees). This is why in some cases total abundances have decimal values. An example: we counted 1 wild bee during surveys but we could not identify the species on the wing. Then we captured 2 wild bees that were identified as L. pauxilium and L. zonulum. Then we assigned abundance 0,5 to each species (1 wild bee/ 2 species).",NA
"Marcos_Minarro_Malus_domestica_Spain_2016","Mas12","Plant observation","Episyrphus balteatus","species","syrphids",2,47.12,75,1494,"Each orchard was surveyed three times. Each survey was the observation of 5 trees * 5 minutes (25 min). In each tree, we observed an area of about 1m of radius in which number of flowers was counted. When possible, insects were identified to species or caught for a posterior identificaction. An additional capture (10 minutes at each survey) of pollinators visiting apple flowers was made for identification in the lab of species not identifyied in the field sampling. This info was not used for abundance (that is why we only considered plant observaction as sasmpling method) but just to assign relative abundances to specific species from general groups (e.g. wild bees). This is why in some cases total abundances have decimal values. An example: we counted 1 wild bee during surveys but we could not identify the species on the wing. Then we captured 2 wild bees that were identified as L. pauxilium and L. zonulum. Then we assigned abundance 0,5 to each species (1 wild bee/ 2 species).",NA
"Marcos_Minarro_Malus_domestica_Spain_2016","Mas12","Plant observation","Eristalis similis","species","syrphids",4.393,47.12,75,1494,"Each orchard was surveyed three times. Each survey was the observation of 5 trees * 5 minutes (25 min). In each tree, we observed an area of about 1m of radius in which number of flowers was counted. When possible, insects were identified to species or caught for a posterior identificaction. An additional capture (10 minutes at each survey) of pollinators visiting apple flowers was made for identification in the lab of species not identifyied in the field sampling. This info was not used for abundance (that is why we only considered plant observaction as sasmpling method) but just to assign relative abundances to specific species from general groups (e.g. wild bees). This is why in some cases total abundances have decimal values. An example: we counted 1 wild bee during surveys but we could not identify the species on the wing. Then we captured 2 wild bees that were identified as L. pauxilium and L. zonulum. Then we assigned abundance 0,5 to each species (1 wild bee/ 2 species).",NA
"Marcos_Minarro_Malus_domestica_Spain_2016","Mas12","Plant observation","Eristalis tenax","species","syrphids",7.537,47.12,75,1494,"Each orchard was surveyed three times. Each survey was the observation of 5 trees * 5 minutes (25 min). In each tree, we observed an area of about 1m of radius in which number of flowers was counted. When possible, insects were identified to species or caught for a posterior identificaction. An additional capture (10 minutes at each survey) of pollinators visiting apple flowers was made for identification in the lab of species not identifyied in the field sampling. This info was not used for abundance (that is why we only considered plant observaction as sasmpling method) but just to assign relative abundances to specific species from general groups (e.g. wild bees). This is why in some cases total abundances have decimal values. An example: we counted 1 wild bee during surveys but we could not identify the species on the wing. Then we captured 2 wild bees that were identified as L. pauxilium and L. zonulum. Then we assigned abundance 0,5 to each species (1 wild bee/ 2 species).",NA
"Marcos_Minarro_Malus_domestica_Spain_2016","Mas12","Plant observation","Hoverfly","family","syrphids",6,47.12,75,1494,"Each orchard was surveyed three times. Each survey was the observation of 5 trees * 5 minutes (25 min). In each tree, we observed an area of about 1m of radius in which number of flowers was counted. When possible, insects were identified to species or caught for a posterior identificaction. An additional capture (10 minutes at each survey) of pollinators visiting apple flowers was made for identification in the lab of species not identifyied in the field sampling. This info was not used for abundance (that is why we only considered plant observaction as sasmpling method) but just to assign relative abundances to specific species from general groups (e.g. wild bees). This is why in some cases total abundances have decimal values. An example: we counted 1 wild bee during surveys but we could not identify the species on the wing. Then we captured 2 wild bees that were identified as L. pauxilium and L. zonulum. Then we assigned abundance 0,5 to each species (1 wild bee/ 2 species).",NA
"Marcos_Minarro_Malus_domestica_Spain_2016","Mas12","Plant observation","Other dipterans","order","other_flies",9,47.12,75,1494,"Each orchard was surveyed three times. Each survey was the observation of 5 trees * 5 minutes (25 min). In each tree, we observed an area of about 1m of radius in which number of flowers was counted. When possible, insects were identified to species or caught for a posterior identificaction. An additional capture (10 minutes at each survey) of pollinators visiting apple flowers was made for identification in the lab of species not identifyied in the field sampling. This info was not used for abundance (that is why we only considered plant observaction as sasmpling method) but just to assign relative abundances to specific species from general groups (e.g. wild bees). This is why in some cases total abundances have decimal values. An example: we counted 1 wild bee during surveys but we could not identify the species on the wing. Then we captured 2 wild bees that were identified as L. pauxilium and L. zonulum. Then we assigned abundance 0,5 to each species (1 wild bee/ 2 species).",NA
"Marcos_Minarro_Malus_domestica_Spain_2016","Mun24","Plant observation","Andrena minutula","species","other_wild_bees",11.75,47.12,75,892,"Each orchard was surveyed three times. Each survey was the observation of 5 trees * 5 minutes (25 min). In each tree, we observed an area of about 1m of radius in which number of flowers was counted. When possible, insects were identified to species or caught for a posterior identificaction. An additional capture (10 minutes at each survey) of pollinators visiting apple flowers was made for identification in the lab of species not identifyied in the field sampling. This info was not used for abundance (that is why we only considered plant observaction as sasmpling method) but just to assign relative abundances to specific species from general groups (e.g. wild bees). This is why in some cases total abundances have decimal values. An example: we counted 1 wild bee during surveys but we could not identify the species on the wing. Then we captured 2 wild bees that were identified as L. pauxilium and L. zonulum. Then we assigned abundance 0,5 to each species (1 wild bee/ 2 species).",NA
"Marcos_Minarro_Malus_domestica_Spain_2016","Mun24","Plant observation","Andrena pilipes","species","other_wild_bees",1,47.12,75,892,"Each orchard was surveyed three times. Each survey was the observation of 5 trees * 5 minutes (25 min). In each tree, we observed an area of about 1m of radius in which number of flowers was counted. When possible, insects were identified to species or caught for a posterior identificaction. An additional capture (10 minutes at each survey) of pollinators visiting apple flowers was made for identification in the lab of species not identifyied in the field sampling. This info was not used for abundance (that is why we only considered plant observaction as sasmpling method) but just to assign relative abundances to specific species from general groups (e.g. wild bees). This is why in some cases total abundances have decimal values. An example: we counted 1 wild bee during surveys but we could not identify the species on the wing. Then we captured 2 wild bees that were identified as L. pauxilium and L. zonulum. Then we assigned abundance 0,5 to each species (1 wild bee/ 2 species).",NA
"Marcos_Minarro_Malus_domestica_Spain_2016","Mun24","Plant observation","Apis mellifera","species","honeybees",40,47.12,75,892,"Each orchard was surveyed three times. Each survey was the observation of 5 trees * 5 minutes (25 min). In each tree, we observed an area of about 1m of radius in which number of flowers was counted. When possible, insects were identified to species or caught for a posterior identificaction. An additional capture (10 minutes at each survey) of pollinators visiting apple flowers was made for identification in the lab of species not identifyied in the field sampling. This info was not used for abundance (that is why we only considered plant observaction as sasmpling method) but just to assign relative abundances to specific species from general groups (e.g. wild bees). This is why in some cases total abundances have decimal values. An example: we counted 1 wild bee during surveys but we could not identify the species on the wing. Then we captured 2 wild bees that were identified as L. pauxilium and L. zonulum. Then we assigned abundance 0,5 to each species (1 wild bee/ 2 species).",NA
"Marcos_Minarro_Malus_domestica_Spain_2016","Mun24","Plant observation","Bombus pascuorum","species","bumblebees",1,47.12,75,892,"Each orchard was surveyed three times. Each survey was the observation of 5 trees * 5 minutes (25 min). In each tree, we observed an area of about 1m of radius in which number of flowers was counted. When possible, insects were identified to species or caught for a posterior identificaction. An additional capture (10 minutes at each survey) of pollinators visiting apple flowers was made for identification in the lab of species not identifyied in the field sampling. This info was not used for abundance (that is why we only considered plant observaction as sasmpling method) but just to assign relative abundances to specific species from general groups (e.g. wild bees). This is why in some cases total abundances have decimal values. An example: we counted 1 wild bee during surveys but we could not identify the species on the wing. Then we captured 2 wild bees that were identified as L. pauxilium and L. zonulum. Then we assigned abundance 0,5 to each species (1 wild bee/ 2 species).",NA
"Marcos_Minarro_Malus_domestica_Spain_2016","Mun24","Plant observation","Episyrphus balteatus","species","syrphids",2,47.12,75,892,"Each orchard was surveyed three times. Each survey was the observation of 5 trees * 5 minutes (25 min). In each tree, we observed an area of about 1m of radius in which number of flowers was counted. When possible, insects were identified to species or caught for a posterior identificaction. An additional capture (10 minutes at each survey) of pollinators visiting apple flowers was made for identification in the lab of species not identifyied in the field sampling. This info was not used for abundance (that is why we only considered plant observaction as sasmpling method) but just to assign relative abundances to specific species from general groups (e.g. wild bees). This is why in some cases total abundances have decimal values. An example: we counted 1 wild bee during surveys but we could not identify the species on the wing. Then we captured 2 wild bees that were identified as L. pauxilium and L. zonulum. Then we assigned abundance 0,5 to each species (1 wild bee/ 2 species).",NA
"Marcos_Minarro_Malus_domestica_Spain_2016","Mun24","Plant observation","Eristalis spp.","genus","syrphids",3,47.12,75,892,"Each orchard was surveyed three times. Each survey was the observation of 5 trees * 5 minutes (25 min). In each tree, we observed an area of about 1m of radius in which number of flowers was counted. When possible, insects were identified to species or caught for a posterior identificaction. An additional capture (10 minutes at each survey) of pollinators visiting apple flowers was made for identification in the lab of species not identifyied in the field sampling. This info was not used for abundance (that is why we only considered plant observaction as sasmpling method) but just to assign relative abundances to specific species from general groups (e.g. wild bees). This is why in some cases total abundances have decimal values. An example: we counted 1 wild bee during surveys but we could not identify the species on the wing. Then we captured 2 wild bees that were identified as L. pauxilium and L. zonulum. Then we assigned abundance 0,5 to each species (1 wild bee/ 2 species).",NA
"Marcos_Minarro_Malus_domestica_Spain_2016","Mun24","Plant observation","Hoverfly","family","syrphids",1,47.12,75,892,"Each orchard was surveyed three times. Each survey was the observation of 5 trees * 5 minutes (25 min). In each tree, we observed an area of about 1m of radius in which number of flowers was counted. When possible, insects were identified to species or caught for a posterior identificaction. An additional capture (10 minutes at each survey) of pollinators visiting apple flowers was made for identification in the lab of species not identifyied in the field sampling. This info was not used for abundance (that is why we only considered plant observaction as sasmpling method) but just to assign relative abundances to specific species from general groups (e.g. wild bees). This is why in some cases total abundances have decimal values. An example: we counted 1 wild bee during surveys but we could not identify the species on the wing. Then we captured 2 wild bees that were identified as L. pauxilium and L. zonulum. Then we assigned abundance 0,5 to each species (1 wild bee/ 2 species).",NA
"Marcos_Minarro_Malus_domestica_Spain_2016","Mun24","Plant observation","Lasioglossum calceatum","species","other_wild_bees",1,47.12,75,892,"Each orchard was surveyed three times. Each survey was the observation of 5 trees * 5 minutes (25 min). In each tree, we observed an area of about 1m of radius in which number of flowers was counted. When possible, insects were identified to species or caught for a posterior identificaction. An additional capture (10 minutes at each survey) of pollinators visiting apple flowers was made for identification in the lab of species not identifyied in the field sampling. This info was not used for abundance (that is why we only considered plant observaction as sasmpling method) but just to assign relative abundances to specific species from general groups (e.g. wild bees). This is why in some cases total abundances have decimal values. An example: we counted 1 wild bee during surveys but we could not identify the species on the wing. Then we captured 2 wild bees that were identified as L. pauxilium and L. zonulum. Then we assigned abundance 0,5 to each species (1 wild bee/ 2 species).",NA
"Marcos_Minarro_Malus_domestica_Spain_2016","Mun24","Plant observation","Lasioglossum pauxillum","species","other_wild_bees",3.25,47.12,75,892,"Each orchard was surveyed three times. Each survey was the observation of 5 trees * 5 minutes (25 min). In each tree, we observed an area of about 1m of radius in which number of flowers was counted. When possible, insects were identified to species or caught for a posterior identificaction. An additional capture (10 minutes at each survey) of pollinators visiting apple flowers was made for identification in the lab of species not identifyied in the field sampling. This info was not used for abundance (that is why we only considered plant observaction as sasmpling method) but just to assign relative abundances to specific species from general groups (e.g. wild bees). This is why in some cases total abundances have decimal values. An example: we counted 1 wild bee during surveys but we could not identify the species on the wing. Then we captured 2 wild bees that were identified as L. pauxilium and L. zonulum. Then we assigned abundance 0,5 to each species (1 wild bee/ 2 species).",NA
"Marcos_Minarro_Malus_domestica_Spain_2016","Nor22","Plant observation","Apis mellifera","species","honeybees",87,47.12,75,1837,"Each orchard was surveyed three times. Each survey was the observation of 5 trees * 5 minutes (25 min). In each tree, we observed an area of about 1m of radius in which number of flowers was counted. When possible, insects were identified to species or caught for a posterior identificaction. An additional capture (10 minutes at each survey) of pollinators visiting apple flowers was made for identification in the lab of species not identifyied in the field sampling. This info was not used for abundance (that is why we only considered plant observaction as sasmpling method) but just to assign relative abundances to specific species from general groups (e.g. wild bees). This is why in some cases total abundances have decimal values. An example: we counted 1 wild bee during surveys but we could not identify the species on the wing. Then we captured 2 wild bees that were identified as L. pauxilium and L. zonulum. Then we assigned abundance 0,5 to each species (1 wild bee/ 2 species).",NA
"Marcos_Minarro_Malus_domestica_Spain_2016","Nor22","Plant observation","Bombus terrestris","species","bumblebees",1,47.12,75,1837,"Each orchard was surveyed three times. Each survey was the observation of 5 trees * 5 minutes (25 min). In each tree, we observed an area of about 1m of radius in which number of flowers was counted. When possible, insects were identified to species or caught for a posterior identificaction. An additional capture (10 minutes at each survey) of pollinators visiting apple flowers was made for identification in the lab of species not identifyied in the field sampling. This info was not used for abundance (that is why we only considered plant observaction as sasmpling method) but just to assign relative abundances to specific species from general groups (e.g. wild bees). This is why in some cases total abundances have decimal values. An example: we counted 1 wild bee during surveys but we could not identify the species on the wing. Then we captured 2 wild bees that were identified as L. pauxilium and L. zonulum. Then we assigned abundance 0,5 to each species (1 wild bee/ 2 species).",NA
"Marcos_Minarro_Malus_domestica_Spain_2016","Nor22","Plant observation","Episyrphus balteatus","species","syrphids",2,47.12,75,1837,"Each orchard was surveyed three times. Each survey was the observation of 5 trees * 5 minutes (25 min). In each tree, we observed an area of about 1m of radius in which number of flowers was counted. When possible, insects were identified to species or caught for a posterior identificaction. An additional capture (10 minutes at each survey) of pollinators visiting apple flowers was made for identification in the lab of species not identifyied in the field sampling. This info was not used for abundance (that is why we only considered plant observaction as sasmpling method) but just to assign relative abundances to specific species from general groups (e.g. wild bees). This is why in some cases total abundances have decimal values. An example: we counted 1 wild bee during surveys but we could not identify the species on the wing. Then we captured 2 wild bees that were identified as L. pauxilium and L. zonulum. Then we assigned abundance 0,5 to each species (1 wild bee/ 2 species).",NA
"Marcos_Minarro_Malus_domestica_Spain_2016","Nor22","Plant observation","Eristalis similis","species","syrphids",2.083,47.12,75,1837,"Each orchard was surveyed three times. Each survey was the observation of 5 trees * 5 minutes (25 min). In each tree, we observed an area of about 1m of radius in which number of flowers was counted. When possible, insects were identified to species or caught for a posterior identificaction. An additional capture (10 minutes at each survey) of pollinators visiting apple flowers was made for identification in the lab of species not identifyied in the field sampling. This info was not used for abundance (that is why we only considered plant observaction as sasmpling method) but just to assign relative abundances to specific species from general groups (e.g. wild bees). This is why in some cases total abundances have decimal values. An example: we counted 1 wild bee during surveys but we could not identify the species on the wing. Then we captured 2 wild bees that were identified as L. pauxilium and L. zonulum. Then we assigned abundance 0,5 to each species (1 wild bee/ 2 species).",NA
"Marcos_Minarro_Malus_domestica_Spain_2016","Nor22","Plant observation","Eristalis tenax","species","syrphids",4.917,47.12,75,1837,"Each orchard was surveyed three times. Each survey was the observation of 5 trees * 5 minutes (25 min). In each tree, we observed an area of about 1m of radius in which number of flowers was counted. When possible, insects were identified to species or caught for a posterior identificaction. An additional capture (10 minutes at each survey) of pollinators visiting apple flowers was made for identification in the lab of species not identifyied in the field sampling. This info was not used for abundance (that is why we only considered plant observaction as sasmpling method) but just to assign relative abundances to specific species from general groups (e.g. wild bees). This is why in some cases total abundances have decimal values. An example: we counted 1 wild bee during surveys but we could not identify the species on the wing. Then we captured 2 wild bees that were identified as L. pauxilium and L. zonulum. Then we assigned abundance 0,5 to each species (1 wild bee/ 2 species).",NA
"Marcos_Minarro_Malus_domestica_Spain_2016","Nor22","Plant observation","Eupeodes corollae","species","syrphids",1,47.12,75,1837,"Each orchard was surveyed three times. Each survey was the observation of 5 trees * 5 minutes (25 min). In each tree, we observed an area of about 1m of radius in which number of flowers was counted. When possible, insects were identified to species or caught for a posterior identificaction. An additional capture (10 minutes at each survey) of pollinators visiting apple flowers was made for identification in the lab of species not identifyied in the field sampling. This info was not used for abundance (that is why we only considered plant observaction as sasmpling method) but just to assign relative abundances to specific species from general groups (e.g. wild bees). This is why in some cases total abundances have decimal values. An example: we counted 1 wild bee during surveys but we could not identify the species on the wing. Then we captured 2 wild bees that were identified as L. pauxilium and L. zonulum. Then we assigned abundance 0,5 to each species (1 wild bee/ 2 species).",NA
"Marcos_Minarro_Malus_domestica_Spain_2016","Nor22","Plant observation","Hoverfly","family","syrphids",2,47.12,75,1837,"Each orchard was surveyed three times. Each survey was the observation of 5 trees * 5 minutes (25 min). In each tree, we observed an area of about 1m of radius in which number of flowers was counted. When possible, insects were identified to species or caught for a posterior identificaction. An additional capture (10 minutes at each survey) of pollinators visiting apple flowers was made for identification in the lab of species not identifyied in the field sampling. This info was not used for abundance (that is why we only considered plant observaction as sasmpling method) but just to assign relative abundances to specific species from general groups (e.g. wild bees). This is why in some cases total abundances have decimal values. An example: we counted 1 wild bee during surveys but we could not identify the species on the wing. Then we captured 2 wild bees that were identified as L. pauxilium and L. zonulum. Then we assigned abundance 0,5 to each species (1 wild bee/ 2 species).",NA
"Marcos_Minarro_Malus_domestica_Spain_2016","Nor22","Plant observation","Sphaerophoria scripta","species","syrphids",1,47.12,75,1837,"Each orchard was surveyed three times. Each survey was the observation of 5 trees * 5 minutes (25 min). In each tree, we observed an area of about 1m of radius in which number of flowers was counted. When possible, insects were identified to species or caught for a posterior identificaction. An additional capture (10 minutes at each survey) of pollinators visiting apple flowers was made for identification in the lab of species not identifyied in the field sampling. This info was not used for abundance (that is why we only considered plant observaction as sasmpling method) but just to assign relative abundances to specific species from general groups (e.g. wild bees). This is why in some cases total abundances have decimal values. An example: we counted 1 wild bee during surveys but we could not identify the species on the wing. Then we captured 2 wild bees that were identified as L. pauxilium and L. zonulum. Then we assigned abundance 0,5 to each species (1 wild bee/ 2 species).",NA
"Marcos_Minarro_Malus_domestica_Spain_2016","Nor22","Plant observation","Wild bees","superfamily","other_wild_bees",2,47.12,75,1837,"Each orchard was surveyed three times. Each survey was the observation of 5 trees * 5 minutes (25 min). In each tree, we observed an area of about 1m of radius in which number of flowers was counted. When possible, insects were identified to species or caught for a posterior identificaction. An additional capture (10 minutes at each survey) of pollinators visiting apple flowers was made for identification in the lab of species not identifyied in the field sampling. This info was not used for abundance (that is why we only considered plant observaction as sasmpling method) but just to assign relative abundances to specific species from general groups (e.g. wild bees). This is why in some cases total abundances have decimal values. An example: we counted 1 wild bee during surveys but we could not identify the species on the wing. Then we captured 2 wild bees that were identified as L. pauxilium and L. zonulum. Then we assigned abundance 0,5 to each species (1 wild bee/ 2 species).","Apoidea?"
"Marcos_Minarro_Malus_domestica_Spain_2016","Obi23","Plant observation","Andrena minutula","species","other_wild_bees",2,47.12,75,867,"Each orchard was surveyed three times. Each survey was the observation of 5 trees * 5 minutes (25 min). In each tree, we observed an area of about 1m of radius in which number of flowers was counted. When possible, insects were identified to species or caught for a posterior identificaction. An additional capture (10 minutes at each survey) of pollinators visiting apple flowers was made for identification in the lab of species not identifyied in the field sampling. This info was not used for abundance (that is why we only considered plant observaction as sasmpling method) but just to assign relative abundances to specific species from general groups (e.g. wild bees). This is why in some cases total abundances have decimal values. An example: we counted 1 wild bee during surveys but we could not identify the species on the wing. Then we captured 2 wild bees that were identified as L. pauxilium and L. zonulum. Then we assigned abundance 0,5 to each species (1 wild bee/ 2 species).",NA
"Marcos_Minarro_Malus_domestica_Spain_2016","Obi23","Plant observation","Apis mellifera","species","honeybees",8,47.12,75,867,"Each orchard was surveyed three times. Each survey was the observation of 5 trees * 5 minutes (25 min). In each tree, we observed an area of about 1m of radius in which number of flowers was counted. When possible, insects were identified to species or caught for a posterior identificaction. An additional capture (10 minutes at each survey) of pollinators visiting apple flowers was made for identification in the lab of species not identifyied in the field sampling. This info was not used for abundance (that is why we only considered plant observaction as sasmpling method) but just to assign relative abundances to specific species from general groups (e.g. wild bees). This is why in some cases total abundances have decimal values. An example: we counted 1 wild bee during surveys but we could not identify the species on the wing. Then we captured 2 wild bees that were identified as L. pauxilium and L. zonulum. Then we assigned abundance 0,5 to each species (1 wild bee/ 2 species).",NA
"Marcos_Minarro_Malus_domestica_Spain_2016","Obi23","Plant observation","Bombus terrestris","species","bumblebees",2,47.12,75,867,"Each orchard was surveyed three times. Each survey was the observation of 5 trees * 5 minutes (25 min). In each tree, we observed an area of about 1m of radius in which number of flowers was counted. When possible, insects were identified to species or caught for a posterior identificaction. An additional capture (10 minutes at each survey) of pollinators visiting apple flowers was made for identification in the lab of species not identifyied in the field sampling. This info was not used for abundance (that is why we only considered plant observaction as sasmpling method) but just to assign relative abundances to specific species from general groups (e.g. wild bees). This is why in some cases total abundances have decimal values. An example: we counted 1 wild bee during surveys but we could not identify the species on the wing. Then we captured 2 wild bees that were identified as L. pauxilium and L. zonulum. Then we assigned abundance 0,5 to each species (1 wild bee/ 2 species).",NA
"Marcos_Minarro_Malus_domestica_Spain_2016","Obi23","Plant observation","Episyrphus balteatus","species","syrphids",1,47.12,75,867,"Each orchard was surveyed three times. Each survey was the observation of 5 trees * 5 minutes (25 min). In each tree, we observed an area of about 1m of radius in which number of flowers was counted. When possible, insects were identified to species or caught for a posterior identificaction. An additional capture (10 minutes at each survey) of pollinators visiting apple flowers was made for identification in the lab of species not identifyied in the field sampling. This info was not used for abundance (that is why we only considered plant observaction as sasmpling method) but just to assign relative abundances to specific species from general groups (e.g. wild bees). This is why in some cases total abundances have decimal values. An example: we counted 1 wild bee during surveys but we could not identify the species on the wing. Then we captured 2 wild bees that were identified as L. pauxilium and L. zonulum. Then we assigned abundance 0,5 to each species (1 wild bee/ 2 species).",NA
"Marcos_Minarro_Malus_domestica_Spain_2016","Obi23","Plant observation","Hoverfly","family","syrphids",1,47.12,75,867,"Each orchard was surveyed three times. Each survey was the observation of 5 trees * 5 minutes (25 min). In each tree, we observed an area of about 1m of radius in which number of flowers was counted. When possible, insects were identified to species or caught for a posterior identificaction. An additional capture (10 minutes at each survey) of pollinators visiting apple flowers was made for identification in the lab of species not identifyied in the field sampling. This info was not used for abundance (that is why we only considered plant observaction as sasmpling method) but just to assign relative abundances to specific species from general groups (e.g. wild bees). This is why in some cases total abundances have decimal values. An example: we counted 1 wild bee during surveys but we could not identify the species on the wing. Then we captured 2 wild bees that were identified as L. pauxilium and L. zonulum. Then we assigned abundance 0,5 to each species (1 wild bee/ 2 species).",NA
"Marcos_Minarro_Malus_domestica_Spain_2016","Pan21","Plant observation","Apis mellifera","species","honeybees",22,47.12,75,1125,"Each orchard was surveyed three times. Each survey was the observation of 5 trees * 5 minutes (25 min). In each tree, we observed an area of about 1m of radius in which number of flowers was counted. When possible, insects were identified to species or caught for a posterior identificaction. An additional capture (10 minutes at each survey) of pollinators visiting apple flowers was made for identification in the lab of species not identifyied in the field sampling. This info was not used for abundance (that is why we only considered plant observaction as sasmpling method) but just to assign relative abundances to specific species from general groups (e.g. wild bees). This is why in some cases total abundances have decimal values. An example: we counted 1 wild bee during surveys but we could not identify the species on the wing. Then we captured 2 wild bees that were identified as L. pauxilium and L. zonulum. Then we assigned abundance 0,5 to each species (1 wild bee/ 2 species).",NA
"Marcos_Minarro_Malus_domestica_Spain_2016","Pan21","Plant observation","Bombus pratorum","species","bumblebees",1,47.12,75,1125,"Each orchard was surveyed three times. Each survey was the observation of 5 trees * 5 minutes (25 min). In each tree, we observed an area of about 1m of radius in which number of flowers was counted. When possible, insects were identified to species or caught for a posterior identificaction. An additional capture (10 minutes at each survey) of pollinators visiting apple flowers was made for identification in the lab of species not identifyied in the field sampling. This info was not used for abundance (that is why we only considered plant observaction as sasmpling method) but just to assign relative abundances to specific species from general groups (e.g. wild bees). This is why in some cases total abundances have decimal values. An example: we counted 1 wild bee during surveys but we could not identify the species on the wing. Then we captured 2 wild bees that were identified as L. pauxilium and L. zonulum. Then we assigned abundance 0,5 to each species (1 wild bee/ 2 species).",NA
"Marcos_Minarro_Malus_domestica_Spain_2016","Pan21","Plant observation","Bombus terrestris","species","bumblebees",4,47.12,75,1125,"Each orchard was surveyed three times. Each survey was the observation of 5 trees * 5 minutes (25 min). In each tree, we observed an area of about 1m of radius in which number of flowers was counted. When possible, insects were identified to species or caught for a posterior identificaction. An additional capture (10 minutes at each survey) of pollinators visiting apple flowers was made for identification in the lab of species not identifyied in the field sampling. This info was not used for abundance (that is why we only considered plant observaction as sasmpling method) but just to assign relative abundances to specific species from general groups (e.g. wild bees). This is why in some cases total abundances have decimal values. An example: we counted 1 wild bee during surveys but we could not identify the species on the wing. Then we captured 2 wild bees that were identified as L. pauxilium and L. zonulum. Then we assigned abundance 0,5 to each species (1 wild bee/ 2 species).",NA
"Marcos_Minarro_Malus_domestica_Spain_2016","Pan21","Plant observation","Episyrphus balteatus","species","syrphids",0.5,47.12,75,1125,"Each orchard was surveyed three times. Each survey was the observation of 5 trees * 5 minutes (25 min). In each tree, we observed an area of about 1m of radius in which number of flowers was counted. When possible, insects were identified to species or caught for a posterior identificaction. An additional capture (10 minutes at each survey) of pollinators visiting apple flowers was made for identification in the lab of species not identifyied in the field sampling. This info was not used for abundance (that is why we only considered plant observaction as sasmpling method) but just to assign relative abundances to specific species from general groups (e.g. wild bees). This is why in some cases total abundances have decimal values. An example: we counted 1 wild bee during surveys but we could not identify the species on the wing. Then we captured 2 wild bees that were identified as L. pauxilium and L. zonulum. Then we assigned abundance 0,5 to each species (1 wild bee/ 2 species).",NA
"Marcos_Minarro_Malus_domestica_Spain_2016","Pan21","Plant observation","Eristalis similis","species","syrphids",2,47.12,75,1125,"Each orchard was surveyed three times. Each survey was the observation of 5 trees * 5 minutes (25 min). In each tree, we observed an area of about 1m of radius in which number of flowers was counted. When possible, insects were identified to species or caught for a posterior identificaction. An additional capture (10 minutes at each survey) of pollinators visiting apple flowers was made for identification in the lab of species not identifyied in the field sampling. This info was not used for abundance (that is why we only considered plant observaction as sasmpling method) but just to assign relative abundances to specific species from general groups (e.g. wild bees). This is why in some cases total abundances have decimal values. An example: we counted 1 wild bee during surveys but we could not identify the species on the wing. Then we captured 2 wild bees that were identified as L. pauxilium and L. zonulum. Then we assigned abundance 0,5 to each species (1 wild bee/ 2 species).",NA
"Marcos_Minarro_Malus_domestica_Spain_2016","Pan21","Plant observation","Eristalis spp.","genus","syrphids",3,47.12,75,1125,"Each orchard was surveyed three times. Each survey was the observation of 5 trees * 5 minutes (25 min). In each tree, we observed an area of about 1m of radius in which number of flowers was counted. When possible, insects were identified to species or caught for a posterior identificaction. An additional capture (10 minutes at each survey) of pollinators visiting apple flowers was made for identification in the lab of species not identifyied in the field sampling. This info was not used for abundance (that is why we only considered plant observaction as sasmpling method) but just to assign relative abundances to specific species from general groups (e.g. wild bees). This is why in some cases total abundances have decimal values. An example: we counted 1 wild bee during surveys but we could not identify the species on the wing. Then we captured 2 wild bees that were identified as L. pauxilium and L. zonulum. Then we assigned abundance 0,5 to each species (1 wild bee/ 2 species).",NA
"Marcos_Minarro_Malus_domestica_Spain_2016","Pan21","Plant observation","Eristalis tenax","species","syrphids",3,47.12,75,1125,"Each orchard was surveyed three times. Each survey was the observation of 5 trees * 5 minutes (25 min). In each tree, we observed an area of about 1m of radius in which number of flowers was counted. When possible, insects were identified to species or caught for a posterior identificaction. An additional capture (10 minutes at each survey) of pollinators visiting apple flowers was made for identification in the lab of species not identifyied in the field sampling. This info was not used for abundance (that is why we only considered plant observaction as sasmpling method) but just to assign relative abundances to specific species from general groups (e.g. wild bees). This is why in some cases total abundances have decimal values. An example: we counted 1 wild bee during surveys but we could not identify the species on the wing. Then we captured 2 wild bees that were identified as L. pauxilium and L. zonulum. Then we assigned abundance 0,5 to each species (1 wild bee/ 2 species).",NA
"Marcos_Minarro_Malus_domestica_Spain_2016","Pan21","Plant observation","Platycheirus sp.","genus","syrphids",0.5,47.12,75,1125,"Each orchard was surveyed three times. Each survey was the observation of 5 trees * 5 minutes (25 min). In each tree, we observed an area of about 1m of radius in which number of flowers was counted. When possible, insects were identified to species or caught for a posterior identificaction. An additional capture (10 minutes at each survey) of pollinators visiting apple flowers was made for identification in the lab of species not identifyied in the field sampling. This info was not used for abundance (that is why we only considered plant observaction as sasmpling method) but just to assign relative abundances to specific species from general groups (e.g. wild bees). This is why in some cases total abundances have decimal values. An example: we counted 1 wild bee during surveys but we could not identify the species on the wing. Then we captured 2 wild bees that were identified as L. pauxilium and L. zonulum. Then we assigned abundance 0,5 to each species (1 wild bee/ 2 species).",NA
"Marcos_Minarro_Malus_domestica_Spain_2016","Pan21","Plant observation","Sphaerophoria scripta","species","syrphids",2,47.12,75,1125,"Each orchard was surveyed three times. Each survey was the observation of 5 trees * 5 minutes (25 min). In each tree, we observed an area of about 1m of radius in which number of flowers was counted. When possible, insects were identified to species or caught for a posterior identificaction. An additional capture (10 minutes at each survey) of pollinators visiting apple flowers was made for identification in the lab of species not identifyied in the field sampling. This info was not used for abundance (that is why we only considered plant observaction as sasmpling method) but just to assign relative abundances to specific species from general groups (e.g. wild bees). This is why in some cases total abundances have decimal values. An example: we counted 1 wild bee during surveys but we could not identify the species on the wing. Then we captured 2 wild bees that were identified as L. pauxilium and L. zonulum. Then we assigned abundance 0,5 to each species (1 wild bee/ 2 species).",NA
"Marcos_Minarro_Malus_domestica_Spain_2016","Por10","Plant observation","Apis mellifera","species","honeybees",30,47.12,75,864,"Each orchard was surveyed three times. Each survey was the observation of 5 trees * 5 minutes (25 min). In each tree, we observed an area of about 1m of radius in which number of flowers was counted. When possible, insects were identified to species or caught for a posterior identificaction. An additional capture (10 minutes at each survey) of pollinators visiting apple flowers was made for identification in the lab of species not identifyied in the field sampling. This info was not used for abundance (that is why we only considered plant observaction as sasmpling method) but just to assign relative abundances to specific species from general groups (e.g. wild bees). This is why in some cases total abundances have decimal values. An example: we counted 1 wild bee during surveys but we could not identify the species on the wing. Then we captured 2 wild bees that were identified as L. pauxilium and L. zonulum. Then we assigned abundance 0,5 to each species (1 wild bee/ 2 species).",NA
"Marcos_Minarro_Malus_domestica_Spain_2016","Por10","Plant observation","Eristalis spp.","genus","syrphids",2,47.12,75,864,"Each orchard was surveyed three times. Each survey was the observation of 5 trees * 5 minutes (25 min). In each tree, we observed an area of about 1m of radius in which number of flowers was counted. When possible, insects were identified to species or caught for a posterior identificaction. An additional capture (10 minutes at each survey) of pollinators visiting apple flowers was made for identification in the lab of species not identifyied in the field sampling. This info was not used for abundance (that is why we only considered plant observaction as sasmpling method) but just to assign relative abundances to specific species from general groups (e.g. wild bees). This is why in some cases total abundances have decimal values. An example: we counted 1 wild bee during surveys but we could not identify the species on the wing. Then we captured 2 wild bees that were identified as L. pauxilium and L. zonulum. Then we assigned abundance 0,5 to each species (1 wild bee/ 2 species).",NA
"Marcos_Minarro_Malus_domestica_Spain_2016","Por10","Plant observation","Eristalis tenax","species","syrphids",4,47.12,75,864,"Each orchard was surveyed three times. Each survey was the observation of 5 trees * 5 minutes (25 min). In each tree, we observed an area of about 1m of radius in which number of flowers was counted. When possible, insects were identified to species or caught for a posterior identificaction. An additional capture (10 minutes at each survey) of pollinators visiting apple flowers was made for identification in the lab of species not identifyied in the field sampling. This info was not used for abundance (that is why we only considered plant observaction as sasmpling method) but just to assign relative abundances to specific species from general groups (e.g. wild bees). This is why in some cases total abundances have decimal values. An example: we counted 1 wild bee during surveys but we could not identify the species on the wing. Then we captured 2 wild bees that were identified as L. pauxilium and L. zonulum. Then we assigned abundance 0,5 to each species (1 wild bee/ 2 species).",NA
"Marcos_Minarro_Malus_domestica_Spain_2016","Por10","Plant observation","Eupeodes corollae","species","syrphids",2,47.12,75,864,"Each orchard was surveyed three times. Each survey was the observation of 5 trees * 5 minutes (25 min). In each tree, we observed an area of about 1m of radius in which number of flowers was counted. When possible, insects were identified to species or caught for a posterior identificaction. An additional capture (10 minutes at each survey) of pollinators visiting apple flowers was made for identification in the lab of species not identifyied in the field sampling. This info was not used for abundance (that is why we only considered plant observaction as sasmpling method) but just to assign relative abundances to specific species from general groups (e.g. wild bees). This is why in some cases total abundances have decimal values. An example: we counted 1 wild bee during surveys but we could not identify the species on the wing. Then we captured 2 wild bees that were identified as L. pauxilium and L. zonulum. Then we assigned abundance 0,5 to each species (1 wild bee/ 2 species).",NA
"Marcos_Minarro_Malus_domestica_Spain_2016","Por10","Plant observation","Lasioglossum malachurum","species","other_wild_bees",1,47.12,75,864,"Each orchard was surveyed three times. Each survey was the observation of 5 trees * 5 minutes (25 min). In each tree, we observed an area of about 1m of radius in which number of flowers was counted. When possible, insects were identified to species or caught for a posterior identificaction. An additional capture (10 minutes at each survey) of pollinators visiting apple flowers was made for identification in the lab of species not identifyied in the field sampling. This info was not used for abundance (that is why we only considered plant observaction as sasmpling method) but just to assign relative abundances to specific species from general groups (e.g. wild bees). This is why in some cases total abundances have decimal values. An example: we counted 1 wild bee during surveys but we could not identify the species on the wing. Then we captured 2 wild bees that were identified as L. pauxilium and L. zonulum. Then we assigned abundance 0,5 to each species (1 wild bee/ 2 species).",NA
"Marcos_Minarro_Malus_domestica_Spain_2016","Por10","Plant observation","Other coleopterans","order","beetles",1,47.12,75,864,"Each orchard was surveyed three times. Each survey was the observation of 5 trees * 5 minutes (25 min). In each tree, we observed an area of about 1m of radius in which number of flowers was counted. When possible, insects were identified to species or caught for a posterior identificaction. An additional capture (10 minutes at each survey) of pollinators visiting apple flowers was made for identification in the lab of species not identifyied in the field sampling. This info was not used for abundance (that is why we only considered plant observaction as sasmpling method) but just to assign relative abundances to specific species from general groups (e.g. wild bees). This is why in some cases total abundances have decimal values. An example: we counted 1 wild bee during surveys but we could not identify the species on the wing. Then we captured 2 wild bees that were identified as L. pauxilium and L. zonulum. Then we assigned abundance 0,5 to each species (1 wild bee/ 2 species).",NA
"Marcos_Minarro_Malus_domestica_Spain_2016","Por10","Plant observation","Platycheirus albimanus","species","syrphids",1,47.12,75,864,"Each orchard was surveyed three times. Each survey was the observation of 5 trees * 5 minutes (25 min). In each tree, we observed an area of about 1m of radius in which number of flowers was counted. When possible, insects were identified to species or caught for a posterior identificaction. An additional capture (10 minutes at each survey) of pollinators visiting apple flowers was made for identification in the lab of species not identifyied in the field sampling. This info was not used for abundance (that is why we only considered plant observaction as sasmpling method) but just to assign relative abundances to specific species from general groups (e.g. wild bees). This is why in some cases total abundances have decimal values. An example: we counted 1 wild bee during surveys but we could not identify the species on the wing. Then we captured 2 wild bees that were identified as L. pauxilium and L. zonulum. Then we assigned abundance 0,5 to each species (1 wild bee/ 2 species).",NA
"Marcos_Minarro_Malus_domestica_Spain_2016","Por10","Plant observation","Sphaerophoria scripta","species","syrphids",1,47.12,75,864,"Each orchard was surveyed three times. Each survey was the observation of 5 trees * 5 minutes (25 min). In each tree, we observed an area of about 1m of radius in which number of flowers was counted. When possible, insects were identified to species or caught for a posterior identificaction. An additional capture (10 minutes at each survey) of pollinators visiting apple flowers was made for identification in the lab of species not identifyied in the field sampling. This info was not used for abundance (that is why we only considered plant observaction as sasmpling method) but just to assign relative abundances to specific species from general groups (e.g. wild bees). This is why in some cases total abundances have decimal values. An example: we counted 1 wild bee during surveys but we could not identify the species on the wing. Then we captured 2 wild bees that were identified as L. pauxilium and L. zonulum. Then we assigned abundance 0,5 to each species (1 wild bee/ 2 species).",NA
"Marcos_Minarro_Malus_domestica_Spain_2016","Por10","Plant observation","Stevenia deceptoria","species","other_flies",1,47.12,75,864,"Each orchard was surveyed three times. Each survey was the observation of 5 trees * 5 minutes (25 min). In each tree, we observed an area of about 1m of radius in which number of flowers was counted. When possible, insects were identified to species or caught for a posterior identificaction. An additional capture (10 minutes at each survey) of pollinators visiting apple flowers was made for identification in the lab of species not identifyied in the field sampling. This info was not used for abundance (that is why we only considered plant observaction as sasmpling method) but just to assign relative abundances to specific species from general groups (e.g. wild bees). This is why in some cases total abundances have decimal values. An example: we counted 1 wild bee during surveys but we could not identify the species on the wing. Then we captured 2 wild bees that were identified as L. pauxilium and L. zonulum. Then we assigned abundance 0,5 to each species (1 wild bee/ 2 species).",NA
"Marcos_Minarro_Malus_domestica_Spain_2016","Por10","Plant observation","Wild bees","superfamily","other_wild_bees",1,47.12,75,864,"Each orchard was surveyed three times. Each survey was the observation of 5 trees * 5 minutes (25 min). In each tree, we observed an area of about 1m of radius in which number of flowers was counted. When possible, insects were identified to species or caught for a posterior identificaction. An additional capture (10 minutes at each survey) of pollinators visiting apple flowers was made for identification in the lab of species not identifyied in the field sampling. This info was not used for abundance (that is why we only considered plant observaction as sasmpling method) but just to assign relative abundances to specific species from general groups (e.g. wild bees). This is why in some cases total abundances have decimal values. An example: we counted 1 wild bee during surveys but we could not identify the species on the wing. Then we captured 2 wild bees that were identified as L. pauxilium and L. zonulum. Then we assigned abundance 0,5 to each species (1 wild bee/ 2 species).","Apoidea?"
"Marcos_Minarro_Malus_domestica_Spain_2016","Por10","Plant observation","Zophomyia temula","species","other_flies",1,47.12,75,864,"Each orchard was surveyed three times. Each survey was the observation of 5 trees * 5 minutes (25 min). In each tree, we observed an area of about 1m of radius in which number of flowers was counted. When possible, insects were identified to species or caught for a posterior identificaction. An additional capture (10 minutes at each survey) of pollinators visiting apple flowers was made for identification in the lab of species not identifyied in the field sampling. This info was not used for abundance (that is why we only considered plant observaction as sasmpling method) but just to assign relative abundances to specific species from general groups (e.g. wild bees). This is why in some cases total abundances have decimal values. An example: we counted 1 wild bee during surveys but we could not identify the species on the wing. Then we captured 2 wild bees that were identified as L. pauxilium and L. zonulum. Then we assigned abundance 0,5 to each species (1 wild bee/ 2 species).",NA
"Marcos_Minarro_Malus_domestica_Spain_2016","Que19","Plant observation","Apis mellifera","species","honeybees",50,47.12,75,1691,"Each orchard was surveyed three times. Each survey was the observation of 5 trees * 5 minutes (25 min). In each tree, we observed an area of about 1m of radius in which number of flowers was counted. When possible, insects were identified to species or caught for a posterior identificaction. An additional capture (10 minutes at each survey) of pollinators visiting apple flowers was made for identification in the lab of species not identifyied in the field sampling. This info was not used for abundance (that is why we only considered plant observaction as sasmpling method) but just to assign relative abundances to specific species from general groups (e.g. wild bees). This is why in some cases total abundances have decimal values. An example: we counted 1 wild bee during surveys but we could not identify the species on the wing. Then we captured 2 wild bees that were identified as L. pauxilium and L. zonulum. Then we assigned abundance 0,5 to each species (1 wild bee/ 2 species).",NA
"Marcos_Minarro_Malus_domestica_Spain_2016","Que19","Plant observation","Bombus terrestris","species","bumblebees",2,47.12,75,1691,"Each orchard was surveyed three times. Each survey was the observation of 5 trees * 5 minutes (25 min). In each tree, we observed an area of about 1m of radius in which number of flowers was counted. When possible, insects were identified to species or caught for a posterior identificaction. An additional capture (10 minutes at each survey) of pollinators visiting apple flowers was made for identification in the lab of species not identifyied in the field sampling. This info was not used for abundance (that is why we only considered plant observaction as sasmpling method) but just to assign relative abundances to specific species from general groups (e.g. wild bees). This is why in some cases total abundances have decimal values. An example: we counted 1 wild bee during surveys but we could not identify the species on the wing. Then we captured 2 wild bees that were identified as L. pauxilium and L. zonulum. Then we assigned abundance 0,5 to each species (1 wild bee/ 2 species).",NA
"Marcos_Minarro_Malus_domestica_Spain_2016","Que19","Plant observation","Episyrphus balteatus","species","syrphids",2,47.12,75,1691,"Each orchard was surveyed three times. Each survey was the observation of 5 trees * 5 minutes (25 min). In each tree, we observed an area of about 1m of radius in which number of flowers was counted. When possible, insects were identified to species or caught for a posterior identificaction. An additional capture (10 minutes at each survey) of pollinators visiting apple flowers was made for identification in the lab of species not identifyied in the field sampling. This info was not used for abundance (that is why we only considered plant observaction as sasmpling method) but just to assign relative abundances to specific species from general groups (e.g. wild bees). This is why in some cases total abundances have decimal values. An example: we counted 1 wild bee during surveys but we could not identify the species on the wing. Then we captured 2 wild bees that were identified as L. pauxilium and L. zonulum. Then we assigned abundance 0,5 to each species (1 wild bee/ 2 species).",NA
"Marcos_Minarro_Malus_domestica_Spain_2016","Que19","Plant observation","Eristalis spp.","genus","syrphids",1,47.12,75,1691,"Each orchard was surveyed three times. Each survey was the observation of 5 trees * 5 minutes (25 min). In each tree, we observed an area of about 1m of radius in which number of flowers was counted. When possible, insects were identified to species or caught for a posterior identificaction. An additional capture (10 minutes at each survey) of pollinators visiting apple flowers was made for identification in the lab of species not identifyied in the field sampling. This info was not used for abundance (that is why we only considered plant observaction as sasmpling method) but just to assign relative abundances to specific species from general groups (e.g. wild bees). This is why in some cases total abundances have decimal values. An example: we counted 1 wild bee during surveys but we could not identify the species on the wing. Then we captured 2 wild bees that were identified as L. pauxilium and L. zonulum. Then we assigned abundance 0,5 to each species (1 wild bee/ 2 species).",NA
"Marcos_Minarro_Malus_domestica_Spain_2016","Que19","Plant observation","Eristalis tenax","species","syrphids",7,47.12,75,1691,"Each orchard was surveyed three times. Each survey was the observation of 5 trees * 5 minutes (25 min). In each tree, we observed an area of about 1m of radius in which number of flowers was counted. When possible, insects were identified to species or caught for a posterior identificaction. An additional capture (10 minutes at each survey) of pollinators visiting apple flowers was made for identification in the lab of species not identifyied in the field sampling. This info was not used for abundance (that is why we only considered plant observaction as sasmpling method) but just to assign relative abundances to specific species from general groups (e.g. wild bees). This is why in some cases total abundances have decimal values. An example: we counted 1 wild bee during surveys but we could not identify the species on the wing. Then we captured 2 wild bees that were identified as L. pauxilium and L. zonulum. Then we assigned abundance 0,5 to each species (1 wild bee/ 2 species).",NA
"Marcos_Minarro_Malus_domestica_Spain_2016","Que19","Plant observation","Halictidae morpho 8","morphospecies","other_wild_bees",0.333,47.12,75,1691,"Each orchard was surveyed three times. Each survey was the observation of 5 trees * 5 minutes (25 min). In each tree, we observed an area of about 1m of radius in which number of flowers was counted. When possible, insects were identified to species or caught for a posterior identificaction. An additional capture (10 minutes at each survey) of pollinators visiting apple flowers was made for identification in the lab of species not identifyied in the field sampling. This info was not used for abundance (that is why we only considered plant observaction as sasmpling method) but just to assign relative abundances to specific species from general groups (e.g. wild bees). This is why in some cases total abundances have decimal values. An example: we counted 1 wild bee during surveys but we could not identify the species on the wing. Then we captured 2 wild bees that were identified as L. pauxilium and L. zonulum. Then we assigned abundance 0,5 to each species (1 wild bee/ 2 species).",NA
"Marcos_Minarro_Malus_domestica_Spain_2016","Que19","Plant observation","Hoverfly","family","syrphids",3,47.12,75,1691,"Each orchard was surveyed three times. Each survey was the observation of 5 trees * 5 minutes (25 min). In each tree, we observed an area of about 1m of radius in which number of flowers was counted. When possible, insects were identified to species or caught for a posterior identificaction. An additional capture (10 minutes at each survey) of pollinators visiting apple flowers was made for identification in the lab of species not identifyied in the field sampling. This info was not used for abundance (that is why we only considered plant observaction as sasmpling method) but just to assign relative abundances to specific species from general groups (e.g. wild bees). This is why in some cases total abundances have decimal values. An example: we counted 1 wild bee during surveys but we could not identify the species on the wing. Then we captured 2 wild bees that were identified as L. pauxilium and L. zonulum. Then we assigned abundance 0,5 to each species (1 wild bee/ 2 species).",NA
"Marcos_Minarro_Malus_domestica_Spain_2016","Que19","Plant observation","Lasioglossum pauperatum","species","other_wild_bees",0.667,47.12,75,1691,"Each orchard was surveyed three times. Each survey was the observation of 5 trees * 5 minutes (25 min). In each tree, we observed an area of about 1m of radius in which number of flowers was counted. When possible, insects were identified to species or caught for a posterior identificaction. An additional capture (10 minutes at each survey) of pollinators visiting apple flowers was made for identification in the lab of species not identifyied in the field sampling. This info was not used for abundance (that is why we only considered plant observaction as sasmpling method) but just to assign relative abundances to specific species from general groups (e.g. wild bees). This is why in some cases total abundances have decimal values. An example: we counted 1 wild bee during surveys but we could not identify the species on the wing. Then we captured 2 wild bees that were identified as L. pauxilium and L. zonulum. Then we assigned abundance 0,5 to each species (1 wild bee/ 2 species).",NA
"Marcos_Minarro_Malus_domestica_Spain_2016","Que19","Plant observation","Lepidopterans","order","lepidoptera",1,47.12,75,1691,"Each orchard was surveyed three times. Each survey was the observation of 5 trees * 5 minutes (25 min). In each tree, we observed an area of about 1m of radius in which number of flowers was counted. When possible, insects were identified to species or caught for a posterior identificaction. An additional capture (10 minutes at each survey) of pollinators visiting apple flowers was made for identification in the lab of species not identifyied in the field sampling. This info was not used for abundance (that is why we only considered plant observaction as sasmpling method) but just to assign relative abundances to specific species from general groups (e.g. wild bees). This is why in some cases total abundances have decimal values. An example: we counted 1 wild bee during surveys but we could not identify the species on the wing. Then we captured 2 wild bees that were identified as L. pauxilium and L. zonulum. Then we assigned abundance 0,5 to each species (1 wild bee/ 2 species).",NA
"Marcos_Minarro_Malus_domestica_Spain_2016","Que19","Plant observation","Other dipterans","order","other_flies",1,47.12,75,1691,"Each orchard was surveyed three times. Each survey was the observation of 5 trees * 5 minutes (25 min). In each tree, we observed an area of about 1m of radius in which number of flowers was counted. When possible, insects were identified to species or caught for a posterior identificaction. An additional capture (10 minutes at each survey) of pollinators visiting apple flowers was made for identification in the lab of species not identifyied in the field sampling. This info was not used for abundance (that is why we only considered plant observaction as sasmpling method) but just to assign relative abundances to specific species from general groups (e.g. wild bees). This is why in some cases total abundances have decimal values. An example: we counted 1 wild bee during surveys but we could not identify the species on the wing. Then we captured 2 wild bees that were identified as L. pauxilium and L. zonulum. Then we assigned abundance 0,5 to each species (1 wild bee/ 2 species).",NA
"Marcos_Minarro_Malus_domestica_Spain_2016","Qui15","Plant observation","Apis mellifera","species","honeybees",60,47.12,75,1605,"Each orchard was surveyed three times. Each survey was the observation of 5 trees * 5 minutes (25 min). In each tree, we observed an area of about 1m of radius in which number of flowers was counted. When possible, insects were identified to species or caught for a posterior identificaction. An additional capture (10 minutes at each survey) of pollinators visiting apple flowers was made for identification in the lab of species not identifyied in the field sampling. This info was not used for abundance (that is why we only considered plant observaction as sasmpling method) but just to assign relative abundances to specific species from general groups (e.g. wild bees). This is why in some cases total abundances have decimal values. An example: we counted 1 wild bee during surveys but we could not identify the species on the wing. Then we captured 2 wild bees that were identified as L. pauxilium and L. zonulum. Then we assigned abundance 0,5 to each species (1 wild bee/ 2 species).",NA
"Marcos_Minarro_Malus_domestica_Spain_2016","Qui15","Plant observation","Bombus terrestris","species","bumblebees",2,47.12,75,1605,"Each orchard was surveyed three times. Each survey was the observation of 5 trees * 5 minutes (25 min). In each tree, we observed an area of about 1m of radius in which number of flowers was counted. When possible, insects were identified to species or caught for a posterior identificaction. An additional capture (10 minutes at each survey) of pollinators visiting apple flowers was made for identification in the lab of species not identifyied in the field sampling. This info was not used for abundance (that is why we only considered plant observaction as sasmpling method) but just to assign relative abundances to specific species from general groups (e.g. wild bees). This is why in some cases total abundances have decimal values. An example: we counted 1 wild bee during surveys but we could not identify the species on the wing. Then we captured 2 wild bees that were identified as L. pauxilium and L. zonulum. Then we assigned abundance 0,5 to each species (1 wild bee/ 2 species).",NA
"Marcos_Minarro_Malus_domestica_Spain_2016","Qui15","Plant observation","Episyrphus balteatus","species","syrphids",11,47.12,75,1605,"Each orchard was surveyed three times. Each survey was the observation of 5 trees * 5 minutes (25 min). In each tree, we observed an area of about 1m of radius in which number of flowers was counted. When possible, insects were identified to species or caught for a posterior identificaction. An additional capture (10 minutes at each survey) of pollinators visiting apple flowers was made for identification in the lab of species not identifyied in the field sampling. This info was not used for abundance (that is why we only considered plant observaction as sasmpling method) but just to assign relative abundances to specific species from general groups (e.g. wild bees). This is why in some cases total abundances have decimal values. An example: we counted 1 wild bee during surveys but we could not identify the species on the wing. Then we captured 2 wild bees that were identified as L. pauxilium and L. zonulum. Then we assigned abundance 0,5 to each species (1 wild bee/ 2 species).",NA
"Marcos_Minarro_Malus_domestica_Spain_2016","Qui15","Plant observation","Eristalis tenax","species","syrphids",5,47.12,75,1605,"Each orchard was surveyed three times. Each survey was the observation of 5 trees * 5 minutes (25 min). In each tree, we observed an area of about 1m of radius in which number of flowers was counted. When possible, insects were identified to species or caught for a posterior identificaction. An additional capture (10 minutes at each survey) of pollinators visiting apple flowers was made for identification in the lab of species not identifyied in the field sampling. This info was not used for abundance (that is why we only considered plant observaction as sasmpling method) but just to assign relative abundances to specific species from general groups (e.g. wild bees). This is why in some cases total abundances have decimal values. An example: we counted 1 wild bee during surveys but we could not identify the species on the wing. Then we captured 2 wild bees that were identified as L. pauxilium and L. zonulum. Then we assigned abundance 0,5 to each species (1 wild bee/ 2 species).",NA
"Marcos_Minarro_Malus_domestica_Spain_2016","Qui15","Plant observation","Halictus tumulorum","species","other_wild_bees",3,47.12,75,1605,"Each orchard was surveyed three times. Each survey was the observation of 5 trees * 5 minutes (25 min). In each tree, we observed an area of about 1m of radius in which number of flowers was counted. When possible, insects were identified to species or caught for a posterior identificaction. An additional capture (10 minutes at each survey) of pollinators visiting apple flowers was made for identification in the lab of species not identifyied in the field sampling. This info was not used for abundance (that is why we only considered plant observaction as sasmpling method) but just to assign relative abundances to specific species from general groups (e.g. wild bees). This is why in some cases total abundances have decimal values. An example: we counted 1 wild bee during surveys but we could not identify the species on the wing. Then we captured 2 wild bees that were identified as L. pauxilium and L. zonulum. Then we assigned abundance 0,5 to each species (1 wild bee/ 2 species).",NA
"Marcos_Minarro_Malus_domestica_Spain_2016","Qui15","Plant observation","Hoverfly","family","syrphids",1,47.12,75,1605,"Each orchard was surveyed three times. Each survey was the observation of 5 trees * 5 minutes (25 min). In each tree, we observed an area of about 1m of radius in which number of flowers was counted. When possible, insects were identified to species or caught for a posterior identificaction. An additional capture (10 minutes at each survey) of pollinators visiting apple flowers was made for identification in the lab of species not identifyied in the field sampling. This info was not used for abundance (that is why we only considered plant observaction as sasmpling method) but just to assign relative abundances to specific species from general groups (e.g. wild bees). This is why in some cases total abundances have decimal values. An example: we counted 1 wild bee during surveys but we could not identify the species on the wing. Then we captured 2 wild bees that were identified as L. pauxilium and L. zonulum. Then we assigned abundance 0,5 to each species (1 wild bee/ 2 species).",NA
"Marcos_Minarro_Malus_domestica_Spain_2016","Qui15","Plant observation","Oedemera sp.","genus","beetles",1,47.12,75,1605,"Each orchard was surveyed three times. Each survey was the observation of 5 trees * 5 minutes (25 min). In each tree, we observed an area of about 1m of radius in which number of flowers was counted. When possible, insects were identified to species or caught for a posterior identificaction. An additional capture (10 minutes at each survey) of pollinators visiting apple flowers was made for identification in the lab of species not identifyied in the field sampling. This info was not used for abundance (that is why we only considered plant observaction as sasmpling method) but just to assign relative abundances to specific species from general groups (e.g. wild bees). This is why in some cases total abundances have decimal values. An example: we counted 1 wild bee during surveys but we could not identify the species on the wing. Then we captured 2 wild bees that were identified as L. pauxilium and L. zonulum. Then we assigned abundance 0,5 to each species (1 wild bee/ 2 species).",NA
"Marcos_Minarro_Malus_domestica_Spain_2016","Qui15","Plant observation","Volucella sp.","genus","other_flies",1,47.12,75,1605,"Each orchard was surveyed three times. Each survey was the observation of 5 trees * 5 minutes (25 min). In each tree, we observed an area of about 1m of radius in which number of flowers was counted. When possible, insects were identified to species or caught for a posterior identificaction. An additional capture (10 minutes at each survey) of pollinators visiting apple flowers was made for identification in the lab of species not identifyied in the field sampling. This info was not used for abundance (that is why we only considered plant observaction as sasmpling method) but just to assign relative abundances to specific species from general groups (e.g. wild bees). This is why in some cases total abundances have decimal values. An example: we counted 1 wild bee during surveys but we could not identify the species on the wing. Then we captured 2 wild bees that were identified as L. pauxilium and L. zonulum. Then we assigned abundance 0,5 to each species (1 wild bee/ 2 species).",NA
"Marcos_Minarro_Malus_domestica_Spain_2016","Qui15","Plant observation","Wild bees","superfamily","other_wild_bees",1,47.12,75,1605,"Each orchard was surveyed three times. Each survey was the observation of 5 trees * 5 minutes (25 min). In each tree, we observed an area of about 1m of radius in which number of flowers was counted. When possible, insects were identified to species or caught for a posterior identificaction. An additional capture (10 minutes at each survey) of pollinators visiting apple flowers was made for identification in the lab of species not identifyied in the field sampling. This info was not used for abundance (that is why we only considered plant observaction as sasmpling method) but just to assign relative abundances to specific species from general groups (e.g. wild bees). This is why in some cases total abundances have decimal values. An example: we counted 1 wild bee during surveys but we could not identify the species on the wing. Then we captured 2 wild bees that were identified as L. pauxilium and L. zonulum. Then we assigned abundance 0,5 to each species (1 wild bee/ 2 species).","Apoidea?"
"Marcos_Minarro_Malus_domestica_Spain_2016","Sal20","Plant observation","Apis mellifera","species","honeybees",1,47.12,75,402,"Each orchard was surveyed three times. Each survey was the observation of 5 trees * 5 minutes (25 min). In each tree, we observed an area of about 1m of radius in which number of flowers was counted. When possible, insects were identified to species or caught for a posterior identificaction. An additional capture (10 minutes at each survey) of pollinators visiting apple flowers was made for identification in the lab of species not identifyied in the field sampling. This info was not used for abundance (that is why we only considered plant observaction as sasmpling method) but just to assign relative abundances to specific species from general groups (e.g. wild bees). This is why in some cases total abundances have decimal values. An example: we counted 1 wild bee during surveys but we could not identify the species on the wing. Then we captured 2 wild bees that were identified as L. pauxilium and L. zonulum. Then we assigned abundance 0,5 to each species (1 wild bee/ 2 species).",NA
"Marcos_Minarro_Malus_domestica_Spain_2016","Sal20","Plant observation","Episyrphus balteatus","species","syrphids",4,47.12,75,402,"Each orchard was surveyed three times. Each survey was the observation of 5 trees * 5 minutes (25 min). In each tree, we observed an area of about 1m of radius in which number of flowers was counted. When possible, insects were identified to species or caught for a posterior identificaction. An additional capture (10 minutes at each survey) of pollinators visiting apple flowers was made for identification in the lab of species not identifyied in the field sampling. This info was not used for abundance (that is why we only considered plant observaction as sasmpling method) but just to assign relative abundances to specific species from general groups (e.g. wild bees). This is why in some cases total abundances have decimal values. An example: we counted 1 wild bee during surveys but we could not identify the species on the wing. Then we captured 2 wild bees that were identified as L. pauxilium and L. zonulum. Then we assigned abundance 0,5 to each species (1 wild bee/ 2 species).",NA
"Marcos_Minarro_Malus_domestica_Spain_2016","Sal20","Plant observation","Eristalis spp.","genus","syrphids",3,47.12,75,402,"Each orchard was surveyed three times. Each survey was the observation of 5 trees * 5 minutes (25 min). In each tree, we observed an area of about 1m of radius in which number of flowers was counted. When possible, insects were identified to species or caught for a posterior identificaction. An additional capture (10 minutes at each survey) of pollinators visiting apple flowers was made for identification in the lab of species not identifyied in the field sampling. This info was not used for abundance (that is why we only considered plant observaction as sasmpling method) but just to assign relative abundances to specific species from general groups (e.g. wild bees). This is why in some cases total abundances have decimal values. An example: we counted 1 wild bee during surveys but we could not identify the species on the wing. Then we captured 2 wild bees that were identified as L. pauxilium and L. zonulum. Then we assigned abundance 0,5 to each species (1 wild bee/ 2 species).",NA
"Marcos_Minarro_Malus_domestica_Spain_2016","Sal20","Plant observation","Hoverfly","family","syrphids",1,47.12,75,402,"Each orchard was surveyed three times. Each survey was the observation of 5 trees * 5 minutes (25 min). In each tree, we observed an area of about 1m of radius in which number of flowers was counted. When possible, insects were identified to species or caught for a posterior identificaction. An additional capture (10 minutes at each survey) of pollinators visiting apple flowers was made for identification in the lab of species not identifyied in the field sampling. This info was not used for abundance (that is why we only considered plant observaction as sasmpling method) but just to assign relative abundances to specific species from general groups (e.g. wild bees). This is why in some cases total abundances have decimal values. An example: we counted 1 wild bee during surveys but we could not identify the species on the wing. Then we captured 2 wild bees that were identified as L. pauxilium and L. zonulum. Then we assigned abundance 0,5 to each species (1 wild bee/ 2 species).",NA
"Marcos_Minarro_Malus_domestica_Spain_2016","Sal20","Plant observation","Wild bees","superfamily","other_wild_bees",2,47.12,75,402,"Each orchard was surveyed three times. Each survey was the observation of 5 trees * 5 minutes (25 min). In each tree, we observed an area of about 1m of radius in which number of flowers was counted. When possible, insects were identified to species or caught for a posterior identificaction. An additional capture (10 minutes at each survey) of pollinators visiting apple flowers was made for identification in the lab of species not identifyied in the field sampling. This info was not used for abundance (that is why we only considered plant observaction as sasmpling method) but just to assign relative abundances to specific species from general groups (e.g. wild bees). This is why in some cases total abundances have decimal values. An example: we counted 1 wild bee during surveys but we could not identify the species on the wing. Then we captured 2 wild bees that were identified as L. pauxilium and L. zonulum. Then we assigned abundance 0,5 to each species (1 wild bee/ 2 species).","Apoidea?"
"Marcos_Minarro_Malus_domestica_Spain_2016","San18","Plant observation","Apis mellifera","species","honeybees",2,47.12,75,614,"Each orchard was surveyed three times. Each survey was the observation of 5 trees * 5 minutes (25 min). In each tree, we observed an area of about 1m of radius in which number of flowers was counted. When possible, insects were identified to species or caught for a posterior identificaction. An additional capture (10 minutes at each survey) of pollinators visiting apple flowers was made for identification in the lab of species not identifyied in the field sampling. This info was not used for abundance (that is why we only considered plant observaction as sasmpling method) but just to assign relative abundances to specific species from general groups (e.g. wild bees). This is why in some cases total abundances have decimal values. An example: we counted 1 wild bee during surveys but we could not identify the species on the wing. Then we captured 2 wild bees that were identified as L. pauxilium and L. zonulum. Then we assigned abundance 0,5 to each species (1 wild bee/ 2 species).",NA
"Marcos_Minarro_Malus_domestica_Spain_2016","San18","Plant observation","Episyrphus balteatus","species","syrphids",2.8,47.12,75,614,"Each orchard was surveyed three times. Each survey was the observation of 5 trees * 5 minutes (25 min). In each tree, we observed an area of about 1m of radius in which number of flowers was counted. When possible, insects were identified to species or caught for a posterior identificaction. An additional capture (10 minutes at each survey) of pollinators visiting apple flowers was made for identification in the lab of species not identifyied in the field sampling. This info was not used for abundance (that is why we only considered plant observaction as sasmpling method) but just to assign relative abundances to specific species from general groups (e.g. wild bees). This is why in some cases total abundances have decimal values. An example: we counted 1 wild bee during surveys but we could not identify the species on the wing. Then we captured 2 wild bees that were identified as L. pauxilium and L. zonulum. Then we assigned abundance 0,5 to each species (1 wild bee/ 2 species).",NA
"Marcos_Minarro_Malus_domestica_Spain_2016","San18","Plant observation","Eristalis tenax","species","syrphids",1,47.12,75,614,"Each orchard was surveyed three times. Each survey was the observation of 5 trees * 5 minutes (25 min). In each tree, we observed an area of about 1m of radius in which number of flowers was counted. When possible, insects were identified to species or caught for a posterior identificaction. An additional capture (10 minutes at each survey) of pollinators visiting apple flowers was made for identification in the lab of species not identifyied in the field sampling. This info was not used for abundance (that is why we only considered plant observaction as sasmpling method) but just to assign relative abundances to specific species from general groups (e.g. wild bees). This is why in some cases total abundances have decimal values. An example: we counted 1 wild bee during surveys but we could not identify the species on the wing. Then we captured 2 wild bees that were identified as L. pauxilium and L. zonulum. Then we assigned abundance 0,5 to each species (1 wild bee/ 2 species).",NA
"Marcos_Minarro_Malus_domestica_Spain_2016","San18","Plant observation","Lasioglossum puncticolle","species","other_wild_bees",1,47.12,75,614,"Each orchard was surveyed three times. Each survey was the observation of 5 trees * 5 minutes (25 min). In each tree, we observed an area of about 1m of radius in which number of flowers was counted. When possible, insects were identified to species or caught for a posterior identificaction. An additional capture (10 minutes at each survey) of pollinators visiting apple flowers was made for identification in the lab of species not identifyied in the field sampling. This info was not used for abundance (that is why we only considered plant observaction as sasmpling method) but just to assign relative abundances to specific species from general groups (e.g. wild bees). This is why in some cases total abundances have decimal values. An example: we counted 1 wild bee during surveys but we could not identify the species on the wing. Then we captured 2 wild bees that were identified as L. pauxilium and L. zonulum. Then we assigned abundance 0,5 to each species (1 wild bee/ 2 species).",NA
"Marcos_Minarro_Malus_domestica_Spain_2016","San18","Plant observation","Sphaerophoria scripta","species","syrphids",0.2,47.12,75,614,"Each orchard was surveyed three times. Each survey was the observation of 5 trees * 5 minutes (25 min). In each tree, we observed an area of about 1m of radius in which number of flowers was counted. When possible, insects were identified to species or caught for a posterior identificaction. An additional capture (10 minutes at each survey) of pollinators visiting apple flowers was made for identification in the lab of species not identifyied in the field sampling. This info was not used for abundance (that is why we only considered plant observaction as sasmpling method) but just to assign relative abundances to specific species from general groups (e.g. wild bees). This is why in some cases total abundances have decimal values. An example: we counted 1 wild bee during surveys but we could not identify the species on the wing. Then we captured 2 wild bees that were identified as L. pauxilium and L. zonulum. Then we assigned abundance 0,5 to each species (1 wild bee/ 2 species).",NA
"Marcos_Minarro_Malus_domestica_Spain_2016","San18","Plant observation","Wild bees","superfamily","other_wild_bees",2,47.12,75,614,"Each orchard was surveyed three times. Each survey was the observation of 5 trees * 5 minutes (25 min). In each tree, we observed an area of about 1m of radius in which number of flowers was counted. When possible, insects were identified to species or caught for a posterior identificaction. An additional capture (10 minutes at each survey) of pollinators visiting apple flowers was made for identification in the lab of species not identifyied in the field sampling. This info was not used for abundance (that is why we only considered plant observaction as sasmpling method) but just to assign relative abundances to specific species from general groups (e.g. wild bees). This is why in some cases total abundances have decimal values. An example: we counted 1 wild bee during surveys but we could not identify the species on the wing. Then we captured 2 wild bees that were identified as L. pauxilium and L. zonulum. Then we assigned abundance 0,5 to each species (1 wild bee/ 2 species).","Apoidea?"
"Marcos_Minarro_Malus_domestica_Spain_2016","Sel01","Plant observation","Apis mellifera","species","honeybees",60,47.12,75,2024,"Each orchard was surveyed three times. Each survey was the observation of 5 trees * 5 minutes (25 min). In each tree, we observed an area of about 1m of radius in which number of flowers was counted. When possible, insects were identified to species or caught for a posterior identificaction. An additional capture (10 minutes at each survey) of pollinators visiting apple flowers was made for identification in the lab of species not identifyied in the field sampling. This info was not used for abundance (that is why we only considered plant observaction as sasmpling method) but just to assign relative abundances to specific species from general groups (e.g. wild bees). This is why in some cases total abundances have decimal values. An example: we counted 1 wild bee during surveys but we could not identify the species on the wing. Then we captured 2 wild bees that were identified as L. pauxilium and L. zonulum. Then we assigned abundance 0,5 to each species (1 wild bee/ 2 species).",NA
"Marcos_Minarro_Malus_domestica_Spain_2016","Sel01","Plant observation","Episyrphus balteatus","species","syrphids",1,47.12,75,2024,"Each orchard was surveyed three times. Each survey was the observation of 5 trees * 5 minutes (25 min). In each tree, we observed an area of about 1m of radius in which number of flowers was counted. When possible, insects were identified to species or caught for a posterior identificaction. An additional capture (10 minutes at each survey) of pollinators visiting apple flowers was made for identification in the lab of species not identifyied in the field sampling. This info was not used for abundance (that is why we only considered plant observaction as sasmpling method) but just to assign relative abundances to specific species from general groups (e.g. wild bees). This is why in some cases total abundances have decimal values. An example: we counted 1 wild bee during surveys but we could not identify the species on the wing. Then we captured 2 wild bees that were identified as L. pauxilium and L. zonulum. Then we assigned abundance 0,5 to each species (1 wild bee/ 2 species).",NA
"Marcos_Minarro_Malus_domestica_Spain_2016","Sel01","Plant observation","Eristalis arbustorum","species","syrphids",3,47.12,75,2024,"Each orchard was surveyed three times. Each survey was the observation of 5 trees * 5 minutes (25 min). In each tree, we observed an area of about 1m of radius in which number of flowers was counted. When possible, insects were identified to species or caught for a posterior identificaction. An additional capture (10 minutes at each survey) of pollinators visiting apple flowers was made for identification in the lab of species not identifyied in the field sampling. This info was not used for abundance (that is why we only considered plant observaction as sasmpling method) but just to assign relative abundances to specific species from general groups (e.g. wild bees). This is why in some cases total abundances have decimal values. An example: we counted 1 wild bee during surveys but we could not identify the species on the wing. Then we captured 2 wild bees that were identified as L. pauxilium and L. zonulum. Then we assigned abundance 0,5 to each species (1 wild bee/ 2 species).",NA
"Marcos_Minarro_Malus_domestica_Spain_2016","Sel01","Plant observation","Eristalis pertinax","species","syrphids",2,47.12,75,2024,"Each orchard was surveyed three times. Each survey was the observation of 5 trees * 5 minutes (25 min). In each tree, we observed an area of about 1m of radius in which number of flowers was counted. When possible, insects were identified to species or caught for a posterior identificaction. An additional capture (10 minutes at each survey) of pollinators visiting apple flowers was made for identification in the lab of species not identifyied in the field sampling. This info was not used for abundance (that is why we only considered plant observaction as sasmpling method) but just to assign relative abundances to specific species from general groups (e.g. wild bees). This is why in some cases total abundances have decimal values. An example: we counted 1 wild bee during surveys but we could not identify the species on the wing. Then we captured 2 wild bees that were identified as L. pauxilium and L. zonulum. Then we assigned abundance 0,5 to each species (1 wild bee/ 2 species).",NA
"Marcos_Minarro_Malus_domestica_Spain_2016","Sel01","Plant observation","Eristalis similis","species","syrphids",3.5,47.12,75,2024,"Each orchard was surveyed three times. Each survey was the observation of 5 trees * 5 minutes (25 min). In each tree, we observed an area of about 1m of radius in which number of flowers was counted. When possible, insects were identified to species or caught for a posterior identificaction. An additional capture (10 minutes at each survey) of pollinators visiting apple flowers was made for identification in the lab of species not identifyied in the field sampling. This info was not used for abundance (that is why we only considered plant observaction as sasmpling method) but just to assign relative abundances to specific species from general groups (e.g. wild bees). This is why in some cases total abundances have decimal values. An example: we counted 1 wild bee during surveys but we could not identify the species on the wing. Then we captured 2 wild bees that were identified as L. pauxilium and L. zonulum. Then we assigned abundance 0,5 to each species (1 wild bee/ 2 species).",NA
"Marcos_Minarro_Malus_domestica_Spain_2016","Sel01","Plant observation","Eristalis tenax","species","syrphids",18.5,47.12,75,2024,"Each orchard was surveyed three times. Each survey was the observation of 5 trees * 5 minutes (25 min). In each tree, we observed an area of about 1m of radius in which number of flowers was counted. When possible, insects were identified to species or caught for a posterior identificaction. An additional capture (10 minutes at each survey) of pollinators visiting apple flowers was made for identification in the lab of species not identifyied in the field sampling. This info was not used for abundance (that is why we only considered plant observaction as sasmpling method) but just to assign relative abundances to specific species from general groups (e.g. wild bees). This is why in some cases total abundances have decimal values. An example: we counted 1 wild bee during surveys but we could not identify the species on the wing. Then we captured 2 wild bees that were identified as L. pauxilium and L. zonulum. Then we assigned abundance 0,5 to each species (1 wild bee/ 2 species).",NA
"Marcos_Minarro_Malus_domestica_Spain_2016","Sel01","Plant observation","Eupeodes corollae","species","syrphids",0.667,47.12,75,2024,"Each orchard was surveyed three times. Each survey was the observation of 5 trees * 5 minutes (25 min). In each tree, we observed an area of about 1m of radius in which number of flowers was counted. When possible, insects were identified to species or caught for a posterior identificaction. An additional capture (10 minutes at each survey) of pollinators visiting apple flowers was made for identification in the lab of species not identifyied in the field sampling. This info was not used for abundance (that is why we only considered plant observaction as sasmpling method) but just to assign relative abundances to specific species from general groups (e.g. wild bees). This is why in some cases total abundances have decimal values. An example: we counted 1 wild bee during surveys but we could not identify the species on the wing. Then we captured 2 wild bees that were identified as L. pauxilium and L. zonulum. Then we assigned abundance 0,5 to each species (1 wild bee/ 2 species).",NA
"Marcos_Minarro_Malus_domestica_Spain_2016","Sel01","Plant observation","Halictidae morpho 10","morphospecies","other_wild_bees",1,47.12,75,2024,"Each orchard was surveyed three times. Each survey was the observation of 5 trees * 5 minutes (25 min). In each tree, we observed an area of about 1m of radius in which number of flowers was counted. When possible, insects were identified to species or caught for a posterior identificaction. An additional capture (10 minutes at each survey) of pollinators visiting apple flowers was made for identification in the lab of species not identifyied in the field sampling. This info was not used for abundance (that is why we only considered plant observaction as sasmpling method) but just to assign relative abundances to specific species from general groups (e.g. wild bees). This is why in some cases total abundances have decimal values. An example: we counted 1 wild bee during surveys but we could not identify the species on the wing. Then we captured 2 wild bees that were identified as L. pauxilium and L. zonulum. Then we assigned abundance 0,5 to each species (1 wild bee/ 2 species).",NA
"Marcos_Minarro_Malus_domestica_Spain_2016","Sel01","Plant observation","Hoverfly","family","syrphids",3,47.12,75,2024,"Each orchard was surveyed three times. Each survey was the observation of 5 trees * 5 minutes (25 min). In each tree, we observed an area of about 1m of radius in which number of flowers was counted. When possible, insects were identified to species or caught for a posterior identificaction. An additional capture (10 minutes at each survey) of pollinators visiting apple flowers was made for identification in the lab of species not identifyied in the field sampling. This info was not used for abundance (that is why we only considered plant observaction as sasmpling method) but just to assign relative abundances to specific species from general groups (e.g. wild bees). This is why in some cases total abundances have decimal values. An example: we counted 1 wild bee during surveys but we could not identify the species on the wing. Then we captured 2 wild bees that were identified as L. pauxilium and L. zonulum. Then we assigned abundance 0,5 to each species (1 wild bee/ 2 species).",NA
"Marcos_Minarro_Malus_domestica_Spain_2016","Sel01","Plant observation","Lepidopterans","order","lepidoptera",1,47.12,75,2024,"Each orchard was surveyed three times. Each survey was the observation of 5 trees * 5 minutes (25 min). In each tree, we observed an area of about 1m of radius in which number of flowers was counted. When possible, insects were identified to species or caught for a posterior identificaction. An additional capture (10 minutes at each survey) of pollinators visiting apple flowers was made for identification in the lab of species not identifyied in the field sampling. This info was not used for abundance (that is why we only considered plant observaction as sasmpling method) but just to assign relative abundances to specific species from general groups (e.g. wild bees). This is why in some cases total abundances have decimal values. An example: we counted 1 wild bee during surveys but we could not identify the species on the wing. Then we captured 2 wild bees that were identified as L. pauxilium and L. zonulum. Then we assigned abundance 0,5 to each species (1 wild bee/ 2 species).",NA
"Marcos_Minarro_Malus_domestica_Spain_2016","Sel01","Plant observation","Melanostoma scalare","species","syrphids",3.667,47.12,75,2024,"Each orchard was surveyed three times. Each survey was the observation of 5 trees * 5 minutes (25 min). In each tree, we observed an area of about 1m of radius in which number of flowers was counted. When possible, insects were identified to species or caught for a posterior identificaction. An additional capture (10 minutes at each survey) of pollinators visiting apple flowers was made for identification in the lab of species not identifyied in the field sampling. This info was not used for abundance (that is why we only considered plant observaction as sasmpling method) but just to assign relative abundances to specific species from general groups (e.g. wild bees). This is why in some cases total abundances have decimal values. An example: we counted 1 wild bee during surveys but we could not identify the species on the wing. Then we captured 2 wild bees that were identified as L. pauxilium and L. zonulum. Then we assigned abundance 0,5 to each species (1 wild bee/ 2 species).",NA
"Marcos_Minarro_Malus_domestica_Spain_2016","Sel01","Plant observation","Other coleopterans","order","beetles",1,47.12,75,2024,"Each orchard was surveyed three times. Each survey was the observation of 5 trees * 5 minutes (25 min). In each tree, we observed an area of about 1m of radius in which number of flowers was counted. When possible, insects were identified to species or caught for a posterior identificaction. An additional capture (10 minutes at each survey) of pollinators visiting apple flowers was made for identification in the lab of species not identifyied in the field sampling. This info was not used for abundance (that is why we only considered plant observaction as sasmpling method) but just to assign relative abundances to specific species from general groups (e.g. wild bees). This is why in some cases total abundances have decimal values. An example: we counted 1 wild bee during surveys but we could not identify the species on the wing. Then we captured 2 wild bees that were identified as L. pauxilium and L. zonulum. Then we assigned abundance 0,5 to each species (1 wild bee/ 2 species).",NA
"Marcos_Minarro_Malus_domestica_Spain_2016","Sel01","Plant observation","Other dipterans","order","other_flies",21,47.12,75,2024,"Each orchard was surveyed three times. Each survey was the observation of 5 trees * 5 minutes (25 min). In each tree, we observed an area of about 1m of radius in which number of flowers was counted. When possible, insects were identified to species or caught for a posterior identificaction. An additional capture (10 minutes at each survey) of pollinators visiting apple flowers was made for identification in the lab of species not identifyied in the field sampling. This info was not used for abundance (that is why we only considered plant observaction as sasmpling method) but just to assign relative abundances to specific species from general groups (e.g. wild bees). This is why in some cases total abundances have decimal values. An example: we counted 1 wild bee during surveys but we could not identify the species on the wing. Then we captured 2 wild bees that were identified as L. pauxilium and L. zonulum. Then we assigned abundance 0,5 to each species (1 wild bee/ 2 species).",NA
"Marcos_Minarro_Malus_domestica_Spain_2016","Sel01","Plant observation","Sphaerophoria scripta","species","syrphids",2.667,47.12,75,2024,"Each orchard was surveyed three times. Each survey was the observation of 5 trees * 5 minutes (25 min). In each tree, we observed an area of about 1m of radius in which number of flowers was counted. When possible, insects were identified to species or caught for a posterior identificaction. An additional capture (10 minutes at each survey) of pollinators visiting apple flowers was made for identification in the lab of species not identifyied in the field sampling. This info was not used for abundance (that is why we only considered plant observaction as sasmpling method) but just to assign relative abundances to specific species from general groups (e.g. wild bees). This is why in some cases total abundances have decimal values. An example: we counted 1 wild bee during surveys but we could not identify the species on the wing. Then we captured 2 wild bees that were identified as L. pauxilium and L. zonulum. Then we assigned abundance 0,5 to each species (1 wild bee/ 2 species).",NA
"Marcos_Minarro_Malus_domestica_Spain_2016","Sel01","Plant observation","Wild bees","superfamily","other_wild_bees",1,47.12,75,2024,"Each orchard was surveyed three times. Each survey was the observation of 5 trees * 5 minutes (25 min). In each tree, we observed an area of about 1m of radius in which number of flowers was counted. When possible, insects were identified to species or caught for a posterior identificaction. An additional capture (10 minutes at each survey) of pollinators visiting apple flowers was made for identification in the lab of species not identifyied in the field sampling. This info was not used for abundance (that is why we only considered plant observaction as sasmpling method) but just to assign relative abundances to specific species from general groups (e.g. wild bees). This is why in some cases total abundances have decimal values. An example: we counted 1 wild bee during surveys but we could not identify the species on the wing. Then we captured 2 wild bees that were identified as L. pauxilium and L. zonulum. Then we assigned abundance 0,5 to each species (1 wild bee/ 2 species).","Apoidea?"
"Marcos_Minarro_Malus_domestica_Spain_2016","Sor05","Plant observation","Apis mellifera","species","honeybees",66,47.12,75,1025,"Each orchard was surveyed three times. Each survey was the observation of 5 trees * 5 minutes (25 min). In each tree, we observed an area of about 1m of radius in which number of flowers was counted. When possible, insects were identified to species or caught for a posterior identificaction. An additional capture (10 minutes at each survey) of pollinators visiting apple flowers was made for identification in the lab of species not identifyied in the field sampling. This info was not used for abundance (that is why we only considered plant observaction as sasmpling method) but just to assign relative abundances to specific species from general groups (e.g. wild bees). This is why in some cases total abundances have decimal values. An example: we counted 1 wild bee during surveys but we could not identify the species on the wing. Then we captured 2 wild bees that were identified as L. pauxilium and L. zonulum. Then we assigned abundance 0,5 to each species (1 wild bee/ 2 species).",NA
"Marcos_Minarro_Malus_domestica_Spain_2016","Sor05","Plant observation","Bombus terrestris","species","bumblebees",1,47.12,75,1025,"Each orchard was surveyed three times. Each survey was the observation of 5 trees * 5 minutes (25 min). In each tree, we observed an area of about 1m of radius in which number of flowers was counted. When possible, insects were identified to species or caught for a posterior identificaction. An additional capture (10 minutes at each survey) of pollinators visiting apple flowers was made for identification in the lab of species not identifyied in the field sampling. This info was not used for abundance (that is why we only considered plant observaction as sasmpling method) but just to assign relative abundances to specific species from general groups (e.g. wild bees). This is why in some cases total abundances have decimal values. An example: we counted 1 wild bee during surveys but we could not identify the species on the wing. Then we captured 2 wild bees that were identified as L. pauxilium and L. zonulum. Then we assigned abundance 0,5 to each species (1 wild bee/ 2 species).",NA
"Marcos_Minarro_Malus_domestica_Spain_2016","Sor05","Plant observation","Episyrphus balteatus","species","syrphids",1,47.12,75,1025,"Each orchard was surveyed three times. Each survey was the observation of 5 trees * 5 minutes (25 min). In each tree, we observed an area of about 1m of radius in which number of flowers was counted. When possible, insects were identified to species or caught for a posterior identificaction. An additional capture (10 minutes at each survey) of pollinators visiting apple flowers was made for identification in the lab of species not identifyied in the field sampling. This info was not used for abundance (that is why we only considered plant observaction as sasmpling method) but just to assign relative abundances to specific species from general groups (e.g. wild bees). This is why in some cases total abundances have decimal values. An example: we counted 1 wild bee during surveys but we could not identify the species on the wing. Then we captured 2 wild bees that were identified as L. pauxilium and L. zonulum. Then we assigned abundance 0,5 to each species (1 wild bee/ 2 species).",NA
"Marcos_Minarro_Malus_domestica_Spain_2016","Sor05","Plant observation","Eristalis tenax","species","syrphids",1,47.12,75,1025,"Each orchard was surveyed three times. Each survey was the observation of 5 trees * 5 minutes (25 min). In each tree, we observed an area of about 1m of radius in which number of flowers was counted. When possible, insects were identified to species or caught for a posterior identificaction. An additional capture (10 minutes at each survey) of pollinators visiting apple flowers was made for identification in the lab of species not identifyied in the field sampling. This info was not used for abundance (that is why we only considered plant observaction as sasmpling method) but just to assign relative abundances to specific species from general groups (e.g. wild bees). This is why in some cases total abundances have decimal values. An example: we counted 1 wild bee during surveys but we could not identify the species on the wing. Then we captured 2 wild bees that were identified as L. pauxilium and L. zonulum. Then we assigned abundance 0,5 to each species (1 wild bee/ 2 species).",NA
"Marcos_Minarro_Malus_domestica_Spain_2016","Sor05","Plant observation","Lasioglossum lativentre","species","other_wild_bees",0.6,47.12,75,1025,"Each orchard was surveyed three times. Each survey was the observation of 5 trees * 5 minutes (25 min). In each tree, we observed an area of about 1m of radius in which number of flowers was counted. When possible, insects were identified to species or caught for a posterior identificaction. An additional capture (10 minutes at each survey) of pollinators visiting apple flowers was made for identification in the lab of species not identifyied in the field sampling. This info was not used for abundance (that is why we only considered plant observaction as sasmpling method) but just to assign relative abundances to specific species from general groups (e.g. wild bees). This is why in some cases total abundances have decimal values. An example: we counted 1 wild bee during surveys but we could not identify the species on the wing. Then we captured 2 wild bees that were identified as L. pauxilium and L. zonulum. Then we assigned abundance 0,5 to each species (1 wild bee/ 2 species).",NA
"Marcos_Minarro_Malus_domestica_Spain_2016","Sor05","Plant observation","Lasioglossum littorale","species","other_wild_bees",0.6,47.12,75,1025,"Each orchard was surveyed three times. Each survey was the observation of 5 trees * 5 minutes (25 min). In each tree, we observed an area of about 1m of radius in which number of flowers was counted. When possible, insects were identified to species or caught for a posterior identificaction. An additional capture (10 minutes at each survey) of pollinators visiting apple flowers was made for identification in the lab of species not identifyied in the field sampling. This info was not used for abundance (that is why we only considered plant observaction as sasmpling method) but just to assign relative abundances to specific species from general groups (e.g. wild bees). This is why in some cases total abundances have decimal values. An example: we counted 1 wild bee during surveys but we could not identify the species on the wing. Then we captured 2 wild bees that were identified as L. pauxilium and L. zonulum. Then we assigned abundance 0,5 to each species (1 wild bee/ 2 species).",NA
"Marcos_Minarro_Malus_domestica_Spain_2016","Sor05","Plant observation","Lasioglossum malachurum","species","other_wild_bees",2.6,47.12,75,1025,"Each orchard was surveyed three times. Each survey was the observation of 5 trees * 5 minutes (25 min). In each tree, we observed an area of about 1m of radius in which number of flowers was counted. When possible, insects were identified to species or caught for a posterior identificaction. An additional capture (10 minutes at each survey) of pollinators visiting apple flowers was made for identification in the lab of species not identifyied in the field sampling. This info was not used for abundance (that is why we only considered plant observaction as sasmpling method) but just to assign relative abundances to specific species from general groups (e.g. wild bees). This is why in some cases total abundances have decimal values. An example: we counted 1 wild bee during surveys but we could not identify the species on the wing. Then we captured 2 wild bees that were identified as L. pauxilium and L. zonulum. Then we assigned abundance 0,5 to each species (1 wild bee/ 2 species).",NA
"Marcos_Minarro_Malus_domestica_Spain_2016","Sor05","Plant observation","Lasioglossum parvulum","species","other_wild_bees",0.6,47.12,75,1025,"Each orchard was surveyed three times. Each survey was the observation of 5 trees * 5 minutes (25 min). In each tree, we observed an area of about 1m of radius in which number of flowers was counted. When possible, insects were identified to species or caught for a posterior identificaction. An additional capture (10 minutes at each survey) of pollinators visiting apple flowers was made for identification in the lab of species not identifyied in the field sampling. This info was not used for abundance (that is why we only considered plant observaction as sasmpling method) but just to assign relative abundances to specific species from general groups (e.g. wild bees). This is why in some cases total abundances have decimal values. An example: we counted 1 wild bee during surveys but we could not identify the species on the wing. Then we captured 2 wild bees that were identified as L. pauxilium and L. zonulum. Then we assigned abundance 0,5 to each species (1 wild bee/ 2 species).",NA
"Marcos_Minarro_Malus_domestica_Spain_2016","Sor05","Plant observation","Lasioglossum pauxillum","species","other_wild_bees",0.6,47.12,75,1025,"Each orchard was surveyed three times. Each survey was the observation of 5 trees * 5 minutes (25 min). In each tree, we observed an area of about 1m of radius in which number of flowers was counted. When possible, insects were identified to species or caught for a posterior identificaction. An additional capture (10 minutes at each survey) of pollinators visiting apple flowers was made for identification in the lab of species not identifyied in the field sampling. This info was not used for abundance (that is why we only considered plant observaction as sasmpling method) but just to assign relative abundances to specific species from general groups (e.g. wild bees). This is why in some cases total abundances have decimal values. An example: we counted 1 wild bee during surveys but we could not identify the species on the wing. Then we captured 2 wild bees that were identified as L. pauxilium and L. zonulum. Then we assigned abundance 0,5 to each species (1 wild bee/ 2 species).",NA
"Marcos_Minarro_Malus_domestica_Spain_2016","Sor05","Plant observation","Meliscaeva auricollis","species","syrphids",1.5,47.12,75,1025,"Each orchard was surveyed three times. Each survey was the observation of 5 trees * 5 minutes (25 min). In each tree, we observed an area of about 1m of radius in which number of flowers was counted. When possible, insects were identified to species or caught for a posterior identificaction. An additional capture (10 minutes at each survey) of pollinators visiting apple flowers was made for identification in the lab of species not identifyied in the field sampling. This info was not used for abundance (that is why we only considered plant observaction as sasmpling method) but just to assign relative abundances to specific species from general groups (e.g. wild bees). This is why in some cases total abundances have decimal values. An example: we counted 1 wild bee during surveys but we could not identify the species on the wing. Then we captured 2 wild bees that were identified as L. pauxilium and L. zonulum. Then we assigned abundance 0,5 to each species (1 wild bee/ 2 species).",NA
"Marcos_Minarro_Malus_domestica_Spain_2016","Sor05","Plant observation","Other dipterans","order","other_flies",1,47.12,75,1025,"Each orchard was surveyed three times. Each survey was the observation of 5 trees * 5 minutes (25 min). In each tree, we observed an area of about 1m of radius in which number of flowers was counted. When possible, insects were identified to species or caught for a posterior identificaction. An additional capture (10 minutes at each survey) of pollinators visiting apple flowers was made for identification in the lab of species not identifyied in the field sampling. This info was not used for abundance (that is why we only considered plant observaction as sasmpling method) but just to assign relative abundances to specific species from general groups (e.g. wild bees). This is why in some cases total abundances have decimal values. An example: we counted 1 wild bee during surveys but we could not identify the species on the wing. Then we captured 2 wild bees that were identified as L. pauxilium and L. zonulum. Then we assigned abundance 0,5 to each species (1 wild bee/ 2 species).",NA
"Marcos_Minarro_Malus_domestica_Spain_2016","Sor05","Plant observation","Rhagonycha fulva","species","beetles",1,47.12,75,1025,"Each orchard was surveyed three times. Each survey was the observation of 5 trees * 5 minutes (25 min). In each tree, we observed an area of about 1m of radius in which number of flowers was counted. When possible, insects were identified to species or caught for a posterior identificaction. An additional capture (10 minutes at each survey) of pollinators visiting apple flowers was made for identification in the lab of species not identifyied in the field sampling. This info was not used for abundance (that is why we only considered plant observaction as sasmpling method) but just to assign relative abundances to specific species from general groups (e.g. wild bees). This is why in some cases total abundances have decimal values. An example: we counted 1 wild bee during surveys but we could not identify the species on the wing. Then we captured 2 wild bees that were identified as L. pauxilium and L. zonulum. Then we assigned abundance 0,5 to each species (1 wild bee/ 2 species).",NA
"Marcos_Minarro_Malus_domestica_Spain_2016","Sor05","Plant observation","Sphaerophoria scripta","species","syrphids",1.5,47.12,75,1025,"Each orchard was surveyed three times. Each survey was the observation of 5 trees * 5 minutes (25 min). In each tree, we observed an area of about 1m of radius in which number of flowers was counted. When possible, insects were identified to species or caught for a posterior identificaction. An additional capture (10 minutes at each survey) of pollinators visiting apple flowers was made for identification in the lab of species not identifyied in the field sampling. This info was not used for abundance (that is why we only considered plant observaction as sasmpling method) but just to assign relative abundances to specific species from general groups (e.g. wild bees). This is why in some cases total abundances have decimal values. An example: we counted 1 wild bee during surveys but we could not identify the species on the wing. Then we captured 2 wild bees that were identified as L. pauxilium and L. zonulum. Then we assigned abundance 0,5 to each species (1 wild bee/ 2 species).",NA
"Marcos_Minarro_Malus_domestica_Spain_2016","Tor03","Plant observation","Apis mellifera","species","honeybees",74,47.12,75,1477,"Each orchard was surveyed three times. Each survey was the observation of 5 trees * 5 minutes (25 min). In each tree, we observed an area of about 1m of radius in which number of flowers was counted. When possible, insects were identified to species or caught for a posterior identificaction. An additional capture (10 minutes at each survey) of pollinators visiting apple flowers was made for identification in the lab of species not identifyied in the field sampling. This info was not used for abundance (that is why we only considered plant observaction as sasmpling method) but just to assign relative abundances to specific species from general groups (e.g. wild bees). This is why in some cases total abundances have decimal values. An example: we counted 1 wild bee during surveys but we could not identify the species on the wing. Then we captured 2 wild bees that were identified as L. pauxilium and L. zonulum. Then we assigned abundance 0,5 to each species (1 wild bee/ 2 species).",NA
"Marcos_Minarro_Malus_domestica_Spain_2016","Tor03","Plant observation","Bombus terrestris","species","bumblebees",1,47.12,75,1477,"Each orchard was surveyed three times. Each survey was the observation of 5 trees * 5 minutes (25 min). In each tree, we observed an area of about 1m of radius in which number of flowers was counted. When possible, insects were identified to species or caught for a posterior identificaction. An additional capture (10 minutes at each survey) of pollinators visiting apple flowers was made for identification in the lab of species not identifyied in the field sampling. This info was not used for abundance (that is why we only considered plant observaction as sasmpling method) but just to assign relative abundances to specific species from general groups (e.g. wild bees). This is why in some cases total abundances have decimal values. An example: we counted 1 wild bee during surveys but we could not identify the species on the wing. Then we captured 2 wild bees that were identified as L. pauxilium and L. zonulum. Then we assigned abundance 0,5 to each species (1 wild bee/ 2 species).",NA
"Marcos_Minarro_Malus_domestica_Spain_2016","Tor03","Plant observation","Episyrphus balteatus","species","syrphids",3,47.12,75,1477,"Each orchard was surveyed three times. Each survey was the observation of 5 trees * 5 minutes (25 min). In each tree, we observed an area of about 1m of radius in which number of flowers was counted. When possible, insects were identified to species or caught for a posterior identificaction. An additional capture (10 minutes at each survey) of pollinators visiting apple flowers was made for identification in the lab of species not identifyied in the field sampling. This info was not used for abundance (that is why we only considered plant observaction as sasmpling method) but just to assign relative abundances to specific species from general groups (e.g. wild bees). This is why in some cases total abundances have decimal values. An example: we counted 1 wild bee during surveys but we could not identify the species on the wing. Then we captured 2 wild bees that were identified as L. pauxilium and L. zonulum. Then we assigned abundance 0,5 to each species (1 wild bee/ 2 species).",NA
"Marcos_Minarro_Malus_domestica_Spain_2016","Tor03","Plant observation","Eristalis similis","species","syrphids",1.5,47.12,75,1477,"Each orchard was surveyed three times. Each survey was the observation of 5 trees * 5 minutes (25 min). In each tree, we observed an area of about 1m of radius in which number of flowers was counted. When possible, insects were identified to species or caught for a posterior identificaction. An additional capture (10 minutes at each survey) of pollinators visiting apple flowers was made for identification in the lab of species not identifyied in the field sampling. This info was not used for abundance (that is why we only considered plant observaction as sasmpling method) but just to assign relative abundances to specific species from general groups (e.g. wild bees). This is why in some cases total abundances have decimal values. An example: we counted 1 wild bee during surveys but we could not identify the species on the wing. Then we captured 2 wild bees that were identified as L. pauxilium and L. zonulum. Then we assigned abundance 0,5 to each species (1 wild bee/ 2 species).",NA
"Marcos_Minarro_Malus_domestica_Spain_2016","Tor03","Plant observation","Eristalis tenax","species","syrphids",4.5,47.12,75,1477,"Each orchard was surveyed three times. Each survey was the observation of 5 trees * 5 minutes (25 min). In each tree, we observed an area of about 1m of radius in which number of flowers was counted. When possible, insects were identified to species or caught for a posterior identificaction. An additional capture (10 minutes at each survey) of pollinators visiting apple flowers was made for identification in the lab of species not identifyied in the field sampling. This info was not used for abundance (that is why we only considered plant observaction as sasmpling method) but just to assign relative abundances to specific species from general groups (e.g. wild bees). This is why in some cases total abundances have decimal values. An example: we counted 1 wild bee during surveys but we could not identify the species on the wing. Then we captured 2 wild bees that were identified as L. pauxilium and L. zonulum. Then we assigned abundance 0,5 to each species (1 wild bee/ 2 species).",NA
"Marcos_Minarro_Malus_domestica_Spain_2016","Tor03","Plant observation","Halictus scabiosae","species","other_wild_bees",1,47.12,75,1477,"Each orchard was surveyed three times. Each survey was the observation of 5 trees * 5 minutes (25 min). In each tree, we observed an area of about 1m of radius in which number of flowers was counted. When possible, insects were identified to species or caught for a posterior identificaction. An additional capture (10 minutes at each survey) of pollinators visiting apple flowers was made for identification in the lab of species not identifyied in the field sampling. This info was not used for abundance (that is why we only considered plant observaction as sasmpling method) but just to assign relative abundances to specific species from general groups (e.g. wild bees). This is why in some cases total abundances have decimal values. An example: we counted 1 wild bee during surveys but we could not identify the species on the wing. Then we captured 2 wild bees that were identified as L. pauxilium and L. zonulum. Then we assigned abundance 0,5 to each species (1 wild bee/ 2 species).",NA
"Marcos_Minarro_Malus_domestica_Spain_2016","Tor03","Plant observation","Other dipterans","order","other_flies",2,47.12,75,1477,"Each orchard was surveyed three times. Each survey was the observation of 5 trees * 5 minutes (25 min). In each tree, we observed an area of about 1m of radius in which number of flowers was counted. When possible, insects were identified to species or caught for a posterior identificaction. An additional capture (10 minutes at each survey) of pollinators visiting apple flowers was made for identification in the lab of species not identifyied in the field sampling. This info was not used for abundance (that is why we only considered plant observaction as sasmpling method) but just to assign relative abundances to specific species from general groups (e.g. wild bees). This is why in some cases total abundances have decimal values. An example: we counted 1 wild bee during surveys but we could not identify the species on the wing. Then we captured 2 wild bees that were identified as L. pauxilium and L. zonulum. Then we assigned abundance 0,5 to each species (1 wild bee/ 2 species).",NA
"Marcos_Minarro_Malus_domestica_Spain_2016","Tor03","Plant observation","Rhagonycha fulva","species","beetles",1,47.12,75,1477,"Each orchard was surveyed three times. Each survey was the observation of 5 trees * 5 minutes (25 min). In each tree, we observed an area of about 1m of radius in which number of flowers was counted. When possible, insects were identified to species or caught for a posterior identificaction. An additional capture (10 minutes at each survey) of pollinators visiting apple flowers was made for identification in the lab of species not identifyied in the field sampling. This info was not used for abundance (that is why we only considered plant observaction as sasmpling method) but just to assign relative abundances to specific species from general groups (e.g. wild bees). This is why in some cases total abundances have decimal values. An example: we counted 1 wild bee during surveys but we could not identify the species on the wing. Then we captured 2 wild bees that were identified as L. pauxilium and L. zonulum. Then we assigned abundance 0,5 to each species (1 wild bee/ 2 species).",NA
"Marcos_Minarro_Malus_domestica_Spain_2016","Tor03","Plant observation","Tropinota squalida","species","beetles",1,47.12,75,1477,"Each orchard was surveyed three times. Each survey was the observation of 5 trees * 5 minutes (25 min). In each tree, we observed an area of about 1m of radius in which number of flowers was counted. When possible, insects were identified to species or caught for a posterior identificaction. An additional capture (10 minutes at each survey) of pollinators visiting apple flowers was made for identification in the lab of species not identifyied in the field sampling. This info was not used for abundance (that is why we only considered plant observaction as sasmpling method) but just to assign relative abundances to specific species from general groups (e.g. wild bees). This is why in some cases total abundances have decimal values. An example: we counted 1 wild bee during surveys but we could not identify the species on the wing. Then we captured 2 wild bees that were identified as L. pauxilium and L. zonulum. Then we assigned abundance 0,5 to each species (1 wild bee/ 2 species).",NA
"Marcos_Minarro_Malus_domestica_Spain_2016","Ver11","Plant observation","Apis mellifera","species","honeybees",11,47.12,75,631,"Each orchard was surveyed three times. Each survey was the observation of 5 trees * 5 minutes (25 min). In each tree, we observed an area of about 1m of radius in which number of flowers was counted. When possible, insects were identified to species or caught for a posterior identificaction. An additional capture (10 minutes at each survey) of pollinators visiting apple flowers was made for identification in the lab of species not identifyied in the field sampling. This info was not used for abundance (that is why we only considered plant observaction as sasmpling method) but just to assign relative abundances to specific species from general groups (e.g. wild bees). This is why in some cases total abundances have decimal values. An example: we counted 1 wild bee during surveys but we could not identify the species on the wing. Then we captured 2 wild bees that were identified as L. pauxilium and L. zonulum. Then we assigned abundance 0,5 to each species (1 wild bee/ 2 species).",NA
"Marcos_Minarro_Malus_domestica_Spain_2016","Ver11","Plant observation","Bombus terrestris","species","bumblebees",1,47.12,75,631,"Each orchard was surveyed three times. Each survey was the observation of 5 trees * 5 minutes (25 min). In each tree, we observed an area of about 1m of radius in which number of flowers was counted. When possible, insects were identified to species or caught for a posterior identificaction. An additional capture (10 minutes at each survey) of pollinators visiting apple flowers was made for identification in the lab of species not identifyied in the field sampling. This info was not used for abundance (that is why we only considered plant observaction as sasmpling method) but just to assign relative abundances to specific species from general groups (e.g. wild bees). This is why in some cases total abundances have decimal values. An example: we counted 1 wild bee during surveys but we could not identify the species on the wing. Then we captured 2 wild bees that were identified as L. pauxilium and L. zonulum. Then we assigned abundance 0,5 to each species (1 wild bee/ 2 species).",NA
"Marcos_Minarro_Malus_domestica_Spain_2016","Ver11","Plant observation","Bombylius sp","genus","humbleflies",1,47.12,75,631,"Each orchard was surveyed three times. Each survey was the observation of 5 trees * 5 minutes (25 min). In each tree, we observed an area of about 1m of radius in which number of flowers was counted. When possible, insects were identified to species or caught for a posterior identificaction. An additional capture (10 minutes at each survey) of pollinators visiting apple flowers was made for identification in the lab of species not identifyied in the field sampling. This info was not used for abundance (that is why we only considered plant observaction as sasmpling method) but just to assign relative abundances to specific species from general groups (e.g. wild bees). This is why in some cases total abundances have decimal values. An example: we counted 1 wild bee during surveys but we could not identify the species on the wing. Then we captured 2 wild bees that were identified as L. pauxilium and L. zonulum. Then we assigned abundance 0,5 to each species (1 wild bee/ 2 species).",NA
"Marcos_Minarro_Malus_domestica_Spain_2016","Ver11","Plant observation","Episyrphus balteatus","species","syrphids",2,47.12,75,631,"Each orchard was surveyed three times. Each survey was the observation of 5 trees * 5 minutes (25 min). In each tree, we observed an area of about 1m of radius in which number of flowers was counted. When possible, insects were identified to species or caught for a posterior identificaction. An additional capture (10 minutes at each survey) of pollinators visiting apple flowers was made for identification in the lab of species not identifyied in the field sampling. This info was not used for abundance (that is why we only considered plant observaction as sasmpling method) but just to assign relative abundances to specific species from general groups (e.g. wild bees). This is why in some cases total abundances have decimal values. An example: we counted 1 wild bee during surveys but we could not identify the species on the wing. Then we captured 2 wild bees that were identified as L. pauxilium and L. zonulum. Then we assigned abundance 0,5 to each species (1 wild bee/ 2 species).",NA
"Marcos_Minarro_Malus_domestica_Spain_2016","Ver11","Plant observation","Eristalis spp.","genus","syrphids",1,47.12,75,631,"Each orchard was surveyed three times. Each survey was the observation of 5 trees * 5 minutes (25 min). In each tree, we observed an area of about 1m of radius in which number of flowers was counted. When possible, insects were identified to species or caught for a posterior identificaction. An additional capture (10 minutes at each survey) of pollinators visiting apple flowers was made for identification in the lab of species not identifyied in the field sampling. This info was not used for abundance (that is why we only considered plant observaction as sasmpling method) but just to assign relative abundances to specific species from general groups (e.g. wild bees). This is why in some cases total abundances have decimal values. An example: we counted 1 wild bee during surveys but we could not identify the species on the wing. Then we captured 2 wild bees that were identified as L. pauxilium and L. zonulum. Then we assigned abundance 0,5 to each species (1 wild bee/ 2 species).",NA
"Marcos_Minarro_Malus_domestica_Spain_2016","Ver11","Plant observation","Eristalis tenax","species","syrphids",8,47.12,75,631,"Each orchard was surveyed three times. Each survey was the observation of 5 trees * 5 minutes (25 min). In each tree, we observed an area of about 1m of radius in which number of flowers was counted. When possible, insects were identified to species or caught for a posterior identificaction. An additional capture (10 minutes at each survey) of pollinators visiting apple flowers was made for identification in the lab of species not identifyied in the field sampling. This info was not used for abundance (that is why we only considered plant observaction as sasmpling method) but just to assign relative abundances to specific species from general groups (e.g. wild bees). This is why in some cases total abundances have decimal values. An example: we counted 1 wild bee during surveys but we could not identify the species on the wing. Then we captured 2 wild bees that were identified as L. pauxilium and L. zonulum. Then we assigned abundance 0,5 to each species (1 wild bee/ 2 species).",NA
"Marcos_Minarro_Malus_domestica_Spain_2016","Ver11","Plant observation","Hemiptera","order","other",1,47.12,75,631,"Each orchard was surveyed three times. Each survey was the observation of 5 trees * 5 minutes (25 min). In each tree, we observed an area of about 1m of radius in which number of flowers was counted. When possible, insects were identified to species or caught for a posterior identificaction. An additional capture (10 minutes at each survey) of pollinators visiting apple flowers was made for identification in the lab of species not identifyied in the field sampling. This info was not used for abundance (that is why we only considered plant observaction as sasmpling method) but just to assign relative abundances to specific species from general groups (e.g. wild bees). This is why in some cases total abundances have decimal values. An example: we counted 1 wild bee during surveys but we could not identify the species on the wing. Then we captured 2 wild bees that were identified as L. pauxilium and L. zonulum. Then we assigned abundance 0,5 to each species (1 wild bee/ 2 species).",NA
"Marcos_Minarro_Malus_domestica_Spain_2016","Ver11","Plant observation","Hoverfly","family","syrphids",1,47.12,75,631,"Each orchard was surveyed three times. Each survey was the observation of 5 trees * 5 minutes (25 min). In each tree, we observed an area of about 1m of radius in which number of flowers was counted. When possible, insects were identified to species or caught for a posterior identificaction. An additional capture (10 minutes at each survey) of pollinators visiting apple flowers was made for identification in the lab of species not identifyied in the field sampling. This info was not used for abundance (that is why we only considered plant observaction as sasmpling method) but just to assign relative abundances to specific species from general groups (e.g. wild bees). This is why in some cases total abundances have decimal values. An example: we counted 1 wild bee during surveys but we could not identify the species on the wing. Then we captured 2 wild bees that were identified as L. pauxilium and L. zonulum. Then we assigned abundance 0,5 to each species (1 wild bee/ 2 species).",NA
"Marcos_Minarro_Malus_domestica_Spain_2016","Ver11","Plant observation","Lasioglossum littorale","species","other_wild_bees",1.2,47.12,75,631,"Each orchard was surveyed three times. Each survey was the observation of 5 trees * 5 minutes (25 min). In each tree, we observed an area of about 1m of radius in which number of flowers was counted. When possible, insects were identified to species or caught for a posterior identificaction. An additional capture (10 minutes at each survey) of pollinators visiting apple flowers was made for identification in the lab of species not identifyied in the field sampling. This info was not used for abundance (that is why we only considered plant observaction as sasmpling method) but just to assign relative abundances to specific species from general groups (e.g. wild bees). This is why in some cases total abundances have decimal values. An example: we counted 1 wild bee during surveys but we could not identify the species on the wing. Then we captured 2 wild bees that were identified as L. pauxilium and L. zonulum. Then we assigned abundance 0,5 to each species (1 wild bee/ 2 species).",NA
"Marcos_Minarro_Malus_domestica_Spain_2016","Ver11","Plant observation","Lasioglossum malachurum","species","other_wild_bees",4.667,47.12,75,631,"Each orchard was surveyed three times. Each survey was the observation of 5 trees * 5 minutes (25 min). In each tree, we observed an area of about 1m of radius in which number of flowers was counted. When possible, insects were identified to species or caught for a posterior identificaction. An additional capture (10 minutes at each survey) of pollinators visiting apple flowers was made for identification in the lab of species not identifyied in the field sampling. This info was not used for abundance (that is why we only considered plant observaction as sasmpling method) but just to assign relative abundances to specific species from general groups (e.g. wild bees). This is why in some cases total abundances have decimal values. An example: we counted 1 wild bee during surveys but we could not identify the species on the wing. Then we captured 2 wild bees that were identified as L. pauxilium and L. zonulum. Then we assigned abundance 0,5 to each species (1 wild bee/ 2 species).",NA
"Marcos_Minarro_Malus_domestica_Spain_2016","Ver11","Plant observation","Lasioglossum pauxillum","species","other_wild_bees",1.2,47.12,75,631,"Each orchard was surveyed three times. Each survey was the observation of 5 trees * 5 minutes (25 min). In each tree, we observed an area of about 1m of radius in which number of flowers was counted. When possible, insects were identified to species or caught for a posterior identificaction. An additional capture (10 minutes at each survey) of pollinators visiting apple flowers was made for identification in the lab of species not identifyied in the field sampling. This info was not used for abundance (that is why we only considered plant observaction as sasmpling method) but just to assign relative abundances to specific species from general groups (e.g. wild bees). This is why in some cases total abundances have decimal values. An example: we counted 1 wild bee during surveys but we could not identify the species on the wing. Then we captured 2 wild bees that were identified as L. pauxilium and L. zonulum. Then we assigned abundance 0,5 to each species (1 wild bee/ 2 species).",NA
"Marcos_Minarro_Malus_domestica_Spain_2016","Ver11","Plant observation","Neomyia cornicina","species","other_flies",5,47.12,75,631,"Each orchard was surveyed three times. Each survey was the observation of 5 trees * 5 minutes (25 min). In each tree, we observed an area of about 1m of radius in which number of flowers was counted. When possible, insects were identified to species or caught for a posterior identificaction. An additional capture (10 minutes at each survey) of pollinators visiting apple flowers was made for identification in the lab of species not identifyied in the field sampling. This info was not used for abundance (that is why we only considered plant observaction as sasmpling method) but just to assign relative abundances to specific species from general groups (e.g. wild bees). This is why in some cases total abundances have decimal values. An example: we counted 1 wild bee during surveys but we could not identify the species on the wing. Then we captured 2 wild bees that were identified as L. pauxilium and L. zonulum. Then we assigned abundance 0,5 to each species (1 wild bee/ 2 species).",NA
"Marcos_Minarro_Malus_domestica_Spain_2016","Ver11","Plant observation","Other coleopterans","order","beetles",1,47.12,75,631,"Each orchard was surveyed three times. Each survey was the observation of 5 trees * 5 minutes (25 min). In each tree, we observed an area of about 1m of radius in which number of flowers was counted. When possible, insects were identified to species or caught for a posterior identificaction. An additional capture (10 minutes at each survey) of pollinators visiting apple flowers was made for identification in the lab of species not identifyied in the field sampling. This info was not used for abundance (that is why we only considered plant observaction as sasmpling method) but just to assign relative abundances to specific species from general groups (e.g. wild bees). This is why in some cases total abundances have decimal values. An example: we counted 1 wild bee during surveys but we could not identify the species on the wing. Then we captured 2 wild bees that were identified as L. pauxilium and L. zonulum. Then we assigned abundance 0,5 to each species (1 wild bee/ 2 species).",NA
"Marcos_Minarro_Malus_domestica_Spain_2016","Ver11","Plant observation","Other dipterans","order","other_flies",3,47.12,75,631,"Each orchard was surveyed three times. Each survey was the observation of 5 trees * 5 minutes (25 min). In each tree, we observed an area of about 1m of radius in which number of flowers was counted. When possible, insects were identified to species or caught for a posterior identificaction. An additional capture (10 minutes at each survey) of pollinators visiting apple flowers was made for identification in the lab of species not identifyied in the field sampling. This info was not used for abundance (that is why we only considered plant observaction as sasmpling method) but just to assign relative abundances to specific species from general groups (e.g. wild bees). This is why in some cases total abundances have decimal values. An example: we counted 1 wild bee during surveys but we could not identify the species on the wing. Then we captured 2 wild bees that were identified as L. pauxilium and L. zonulum. Then we assigned abundance 0,5 to each species (1 wild bee/ 2 species).",NA
"Marcos_Minarro_Malus_domestica_Spain_2016","Ver11","Plant observation","Sphaerophoria scripta","species","syrphids",4,47.12,75,631,"Each orchard was surveyed three times. Each survey was the observation of 5 trees * 5 minutes (25 min). In each tree, we observed an area of about 1m of radius in which number of flowers was counted. When possible, insects were identified to species or caught for a posterior identificaction. An additional capture (10 minutes at each survey) of pollinators visiting apple flowers was made for identification in the lab of species not identifyied in the field sampling. This info was not used for abundance (that is why we only considered plant observaction as sasmpling method) but just to assign relative abundances to specific species from general groups (e.g. wild bees). This is why in some cases total abundances have decimal values. An example: we counted 1 wild bee during surveys but we could not identify the species on the wing. Then we captured 2 wild bees that were identified as L. pauxilium and L. zonulum. Then we assigned abundance 0,5 to each species (1 wild bee/ 2 species).",NA
"Marcos_Minarro_Malus_domestica_Spain_2016","Ver11","Plant observation","Tricogena rubricosa","species","other_flies",5,47.12,75,631,"Each orchard was surveyed three times. Each survey was the observation of 5 trees * 5 minutes (25 min). In each tree, we observed an area of about 1m of radius in which number of flowers was counted. When possible, insects were identified to species or caught for a posterior identificaction. An additional capture (10 minutes at each survey) of pollinators visiting apple flowers was made for identification in the lab of species not identifyied in the field sampling. This info was not used for abundance (that is why we only considered plant observaction as sasmpling method) but just to assign relative abundances to specific species from general groups (e.g. wild bees). This is why in some cases total abundances have decimal values. An example: we counted 1 wild bee during surveys but we could not identify the species on the wing. Then we captured 2 wild bees that were identified as L. pauxilium and L. zonulum. Then we assigned abundance 0,5 to each species (1 wild bee/ 2 species).",NA
"Margaret_Mayfield_Actinidia_deliciosa_New_Zealand_NA","GV1","observations","Apis_mellifera","species","honeybees",0.089473684,NA,NA,NA,"In each of the six blocks, six female vines were randomly selected. On each vine flower visitors were observed in 10-min intervals at all times of day throughout the 17-day blooming season.",NA
"Margaret_Mayfield_Actinidia_deliciosa_New_Zealand_NA","GV1","observations","Apis_mellifera","species","honeybees",0.1796875,NA,NA,NA,"In each of the six blocks, six female vines were randomly selected. On each vine flower visitors were observed in 10-min intervals at all times of day throughout the 17-day blooming season.",NA
"Margaret_Mayfield_Actinidia_deliciosa_New_Zealand_NA","GV1","observations","Apis_mellifera","species","honeybees",0.1,NA,NA,NA,"In each of the six blocks, six female vines were randomly selected. On each vine flower visitors were observed in 10-min intervals at all times of day throughout the 17-day blooming season.",NA
"Margaret_Mayfield_Actinidia_deliciosa_New_Zealand_NA","GV1","observations","Apis_mellifera","species","honeybees",0.022058824,NA,NA,NA,"In each of the six blocks, six female vines were randomly selected. On each vine flower visitors were observed in 10-min intervals at all times of day throughout the 17-day blooming season.",NA
"Margaret_Mayfield_Actinidia_deliciosa_New_Zealand_NA","GV1","observations","Apis_mellifera","species","honeybees",0.213235294,NA,NA,NA,"In each of the six blocks, six female vines were randomly selected. On each vine flower visitors were observed in 10-min intervals at all times of day throughout the 17-day blooming season.",NA
"Margaret_Mayfield_Actinidia_deliciosa_New_Zealand_NA","GV1","observations","Apis_mellifera","species","honeybees",0.151315789,NA,NA,NA,"In each of the six blocks, six female vines were randomly selected. On each vine flower visitors were observed in 10-min intervals at all times of day throughout the 17-day blooming season.",NA
"Margaret_Mayfield_Actinidia_deliciosa_New_Zealand_NA","GV2","observations","Apis_mellifera","species","honeybees",0.05,NA,NA,NA,"In each of the six blocks, six female vines were randomly selected. On each vine flower visitors were observed in 10-min intervals at all times of day throughout the 17-day blooming season.",NA
"Margaret_Mayfield_Actinidia_deliciosa_New_Zealand_NA","GV2","observations","Apis_mellifera","species","honeybees",0.088235294,NA,NA,NA,"In each of the six blocks, six female vines were randomly selected. On each vine flower visitors were observed in 10-min intervals at all times of day throughout the 17-day blooming season.",NA
"Margaret_Mayfield_Actinidia_deliciosa_New_Zealand_NA","GV2","observations","Apis_mellifera","species","honeybees",0.00862069,NA,NA,NA,"In each of the six blocks, six female vines were randomly selected. On each vine flower visitors were observed in 10-min intervals at all times of day throughout the 17-day blooming season.",NA
"Margaret_Mayfield_Actinidia_deliciosa_New_Zealand_NA","GV2","observations","Apis_mellifera","species","honeybees",0.047619048,NA,NA,NA,"In each of the six blocks, six female vines were randomly selected. On each vine flower visitors were observed in 10-min intervals at all times of day throughout the 17-day blooming season.",NA
"Margaret_Mayfield_Actinidia_deliciosa_New_Zealand_NA","TO1","observations","Apis_mellifera","species","honeybees",0.025525526,NA,NA,NA,"In each of the six blocks, six female vines were randomly selected. On each vine flower visitors were observed in 10-min intervals at all times of day throughout the 17-day blooming season.",NA
"Margaret_Mayfield_Actinidia_deliciosa_New_Zealand_NA","TO1","observations","Apis_mellifera","species","honeybees",0.018382353,NA,NA,NA,"In each of the six blocks, six female vines were randomly selected. On each vine flower visitors were observed in 10-min intervals at all times of day throughout the 17-day blooming season.",NA
"Margaret_Mayfield_Actinidia_deliciosa_New_Zealand_NA","TO1","observations","Apis_mellifera","species","honeybees",0.222222222,NA,NA,NA,"In each of the six blocks, six female vines were randomly selected. On each vine flower visitors were observed in 10-min intervals at all times of day throughout the 17-day blooming season.",NA
"Margaret_Mayfield_Actinidia_deliciosa_New_Zealand_NA","TO1","observations","Apis_mellifera","species","honeybees",0.043859649,NA,NA,NA,"In each of the six blocks, six female vines were randomly selected. On each vine flower visitors were observed in 10-min intervals at all times of day throughout the 17-day blooming season.",NA
"Margaret_Mayfield_Actinidia_deliciosa_New_Zealand_NA","TO1","observations","Apis_mellifera","species","honeybees",0.143589744,NA,NA,NA,"In each of the six blocks, six female vines were randomly selected. On each vine flower visitors were observed in 10-min intervals at all times of day throughout the 17-day blooming season.",NA
"Margaret_Mayfield_Actinidia_deliciosa_New_Zealand_NA","TO1","observations","Apis_mellifera","species","honeybees",0.061594203,NA,NA,NA,"In each of the six blocks, six female vines were randomly selected. On each vine flower visitors were observed in 10-min intervals at all times of day throughout the 17-day blooming season.",NA
"Margaret_Mayfield_Actinidia_deliciosa_New_Zealand_NA","TO2","observations","Apis_mellifera","species","honeybees",0.115384615,NA,NA,NA,"In each of the six blocks, six female vines were randomly selected. On each vine flower visitors were observed in 10-min intervals at all times of day throughout the 17-day blooming season.",NA
"Margaret_Mayfield_Actinidia_deliciosa_New_Zealand_NA","TO2","observations","Apis_mellifera","species","honeybees",0.283950617,NA,NA,NA,"In each of the six blocks, six female vines were randomly selected. On each vine flower visitors were observed in 10-min intervals at all times of day throughout the 17-day blooming season.",NA
"Margaret_Mayfield_Actinidia_deliciosa_New_Zealand_NA","TO2","observations","Apis_mellifera","species","honeybees",0.128787879,NA,NA,NA,"In each of the six blocks, six female vines were randomly selected. On each vine flower visitors were observed in 10-min intervals at all times of day throughout the 17-day blooming season.",NA
"Margaret_Mayfield_Actinidia_deliciosa_New_Zealand_NA","TO2","observations","Apis_mellifera","species","honeybees",0.075060533,NA,NA,NA,"In each of the six blocks, six female vines were randomly selected. On each vine flower visitors were observed in 10-min intervals at all times of day throughout the 17-day blooming season.",NA
"Margaret_Mayfield_Actinidia_deliciosa_New_Zealand_NA","TO2","observations","Apis_mellifera","species","honeybees",0.213043478,NA,NA,NA,"In each of the six blocks, six female vines were randomly selected. On each vine flower visitors were observed in 10-min intervals at all times of day throughout the 17-day blooming season.",NA
"Margaret_Mayfield_Actinidia_deliciosa_New_Zealand_NA","TO2","observations","Apis_mellifera","species","honeybees",0.188888889,NA,NA,NA,"In each of the six blocks, six female vines were randomly selected. On each vine flower visitors were observed in 10-min intervals at all times of day throughout the 17-day blooming season.",NA
"Margaret_Mayfield_Actinidia_deliciosa_New_Zealand_NA","TP1","observations","Apis_mellifera","species","honeybees",0.05,NA,NA,NA,"In each of the six blocks, six female vines were randomly selected. On each vine flower visitors were observed in 10-min intervals at all times of day throughout the 17-day blooming season. All vines in TP1 were > 500 m and < 1 km from wild vegetation.",NA
"Margaret_Mayfield_Actinidia_deliciosa_New_Zealand_NA","TP1","observations","Apis_mellifera","species","honeybees",0.083333333,NA,NA,NA,"In each of the six blocks, six female vines were randomly selected. On each vine flower visitors were observed in 10-min intervals at all times of day throughout the 17-day blooming season. All vines in TP1 were > 500 m and < 1 km from wild vegetation.",NA
"Margaret_Mayfield_Actinidia_deliciosa_New_Zealand_NA","TP1","observations","Apis_mellifera","species","honeybees",0.058227848,NA,NA,NA,"In each of the six blocks, six female vines were randomly selected. On each vine flower visitors were observed in 10-min intervals at all times of day throughout the 17-day blooming season. All vines in TP1 were > 500 m and < 1 km from wild vegetation.",NA
"Margaret_Mayfield_Actinidia_deliciosa_New_Zealand_NA","TP1","observations","Apis_mellifera","species","honeybees",0.110769231,NA,NA,NA,"In each of the six blocks, six female vines were randomly selected. On each vine flower visitors were observed in 10-min intervals at all times of day throughout the 17-day blooming season. All vines in TP1 were > 500 m and < 1 km from wild vegetation.",NA
"Margaret_Mayfield_Actinidia_deliciosa_New_Zealand_NA","TP1","observations","Apis_mellifera","species","honeybees",0.006256901,NA,NA,NA,"In each of the six blocks, six female vines were randomly selected. On each vine flower visitors were observed in 10-min intervals at all times of day throughout the 17-day blooming season. All vines in TP1 were > 500 m and < 1 km from wild vegetation.",NA
"Margaret_Mayfield_Actinidia_deliciosa_New_Zealand_NA","TP1","observations","Apis_mellifera","species","honeybees",0.01984127,NA,NA,NA,"In each of the six blocks, six female vines were randomly selected. On each vine flower visitors were observed in 10-min intervals at all times of day throughout the 17-day blooming season. All vines in TP1 were > 500 m and < 1 km from wild vegetation.",NA
"Margaret_Mayfield_Actinidia_deliciosa_New_Zealand_NA","TP1","observations","Apis_mellifera","species","honeybees",0.00625,NA,NA,NA,"In each of the six blocks, six female vines were randomly selected. On each vine flower visitors were observed in 10-min intervals at all times of day throughout the 17-day blooming season. All vines in TP1 were > 500 m and < 1 km from wild vegetation.",NA
"Margaret_Mayfield_Actinidia_deliciosa_New_Zealand_NA","TP1","observations","Apis_mellifera","species","honeybees",0.010228752,NA,NA,NA,"In each of the six blocks, six female vines were randomly selected. On each vine flower visitors were observed in 10-min intervals at all times of day throughout the 17-day blooming season. All vines in TP1 were > 500 m and < 1 km from wild vegetation.",NA
"Margaret_Mayfield_Actinidia_deliciosa_New_Zealand_NA","TP2","observations","Apis_mellifera","species","honeybees",0.056846473,NA,NA,NA,"In each of the six blocks, six female vines were randomly selected. On each vine flower visitors were observed in 10-min intervals at all times of day throughout the 17-day blooming season. All vines in TP2 were within 300m of wild vegetation.",NA
"Margaret_Mayfield_Actinidia_deliciosa_New_Zealand_NA","TP2","observations","Apis_mellifera","species","honeybees",0.086111111,NA,NA,NA,"In each of the six blocks, six female vines were randomly selected. On each vine flower visitors were observed in 10-min intervals at all times of day throughout the 17-day blooming season. All vines in TP2 were within 300m of wild vegetation.",NA
"Margaret_Mayfield_Actinidia_deliciosa_New_Zealand_NA","TP2","observations","Apis_mellifera","species","honeybees",0.052083333,NA,NA,NA,"In each of the six blocks, six female vines were randomly selected. On each vine flower visitors were observed in 10-min intervals at all times of day throughout the 17-day blooming season. All vines in TP2 were within 300m of wild vegetation.",NA
"Margaret_Mayfield_Actinidia_deliciosa_New_Zealand_NA","TP2","observations","Apis_mellifera","species","honeybees",0.009839357,NA,NA,NA,"In each of the six blocks, six female vines were randomly selected. On each vine flower visitors were observed in 10-min intervals at all times of day throughout the 17-day blooming season. All vines in TP2 were within 300m of wild vegetation.",NA
"Margaret_Mayfield_Actinidia_deliciosa_New_Zealand_NA","TP2","observations","Apis_mellifera","species","honeybees",0.039772727,NA,NA,NA,"In each of the six blocks, six female vines were randomly selected. On each vine flower visitors were observed in 10-min intervals at all times of day throughout the 17-day blooming season. All vines in TP2 were within 300m of wild vegetation.",NA
"Margaret_Mayfield_Actinidia_deliciosa_New_Zealand_NA","TP2","observations","Apis_mellifera","species","honeybees",0.048818898,NA,NA,NA,"In each of the six blocks, six female vines were randomly selected. On each vine flower visitors were observed in 10-min intervals at all times of day throughout the 17-day blooming season. All vines in TP2 were within 300m of wild vegetation.",NA
"Margaret_Mayfield_Actinidia_deliciosa_New_Zealand_NA","TP2","observations","Apis_mellifera","species","honeybees",0.069565217,NA,NA,NA,"In each of the six blocks, six female vines were randomly selected. On each vine flower visitors were observed in 10-min intervals at all times of day throughout the 17-day blooming season. All vines in TP2 were within 300m of wild vegetation.",NA
"Margaret_Mayfield_Actinidia_deliciosa_New_Zealand_NA","TP2","observations","Apis_mellifera","species","honeybees",0.0181787,NA,NA,NA,"In each of the six blocks, six female vines were randomly selected. On each vine flower visitors were observed in 10-min intervals at all times of day throughout the 17-day blooming season. All vines in TP2 were within 300m of wild vegetation.",NA
"Margaret_Mayfield_Actinidia_deliciosa_New_Zealand_NA","GV1","observations","Bombus_spp.","genus","bumblebees",0.0078125,NA,NA,NA,"In each of the six blocks, six female vines were randomly selected. On each vine flower visitors were observed in 10-min intervals at all times of day throughout the 17-day blooming season.",NA
"Margaret_Mayfield_Actinidia_deliciosa_New_Zealand_NA","GV1","observations","Bombus_spp.","genus","bumblebees",0.007352941,NA,NA,NA,"In each of the six blocks, six female vines were randomly selected. On each vine flower visitors were observed in 10-min intervals at all times of day throughout the 17-day blooming season.",NA
"Margaret_Mayfield_Actinidia_deliciosa_New_Zealand_NA","GV1","observations","Bombus_spp.","genus","bumblebees",0.007352941,NA,NA,NA,"In each of the six blocks, six female vines were randomly selected. On each vine flower visitors were observed in 10-min intervals at all times of day throughout the 17-day blooming season.",NA
"Margaret_Mayfield_Actinidia_deliciosa_New_Zealand_NA","TO1","observations","Bombus_spp.","genus","bumblebees",0.006006006,NA,NA,NA,"In each of the six blocks, six female vines were randomly selected. On each vine flower visitors were observed in 10-min intervals at all times of day throughout the 17-day blooming season.",NA
"Margaret_Mayfield_Actinidia_deliciosa_New_Zealand_NA","TO1","observations","Bombus_spp.","genus","bumblebees",0.003676471,NA,NA,NA,"In each of the six blocks, six female vines were randomly selected. On each vine flower visitors were observed in 10-min intervals at all times of day throughout the 17-day blooming season.",NA
"Margaret_Mayfield_Actinidia_deliciosa_New_Zealand_NA","TO1","observations","Bombus_spp.","genus","bumblebees",0.015384615,NA,NA,NA,"In each of the six blocks, six female vines were randomly selected. On each vine flower visitors were observed in 10-min intervals at all times of day throughout the 17-day blooming season.",NA
"Margaret_Mayfield_Actinidia_deliciosa_New_Zealand_NA","TO2","observations","Bombus_spp.","genus","bumblebees",0.004347826,NA,NA,NA,"In each of the six blocks, six female vines were randomly selected. On each vine flower visitors were observed in 10-min intervals at all times of day throughout the 17-day blooming season.",NA
"Margaret_Mayfield_Actinidia_deliciosa_New_Zealand_NA","TP1","observations","Bombus_spp.","genus","bumblebees",0.0046875,NA,NA,NA,"In each of the six blocks, six female vines were randomly selected. On each vine flower visitors were observed in 10-min intervals at all times of day throughout the 17-day blooming season. All vines in TP1 were > 500 m and < 1 km from wild vegetation.",NA
"Margaret_Mayfield_Actinidia_deliciosa_New_Zealand_NA","TP1","observations","Bombus_spp.","genus","bumblebees",0.000185977,NA,NA,NA,"In each of the six blocks, six female vines were randomly selected. On each vine flower visitors were observed in 10-min intervals at all times of day throughout the 17-day blooming season. All vines in TP1 were > 500 m and < 1 km from wild vegetation.",NA
"Margaret_Mayfield_Actinidia_deliciosa_New_Zealand_NA","TP2","observations","Bombus_spp.","genus","bumblebees",0.000342994,NA,NA,NA,"In each of the six blocks, six female vines were randomly selected. On each vine flower visitors were observed in 10-min intervals at all times of day throughout the 17-day blooming season. All vines in TP2 were within 300m of wild vegetation.",NA
"Margaret_Mayfield_Actinidia_deliciosa_New_Zealand_NA","GV1","observations","Coleoptera_sp.","order","beetles",0.007352941,NA,NA,NA,"In each of the six blocks, six female vines were randomly selected. On each vine flower visitors were observed in 10-min intervals at all times of day throughout the 17-day blooming season.",NA
"Margaret_Mayfield_Actinidia_deliciosa_New_Zealand_NA","TO1","observations","Coleoptera_sp.","order","beetles",0.005514706,NA,NA,NA,"In each of the six blocks, six female vines were randomly selected. On each vine flower visitors were observed in 10-min intervals at all times of day throughout the 17-day blooming season.",NA
"Margaret_Mayfield_Actinidia_deliciosa_New_Zealand_NA","TO1","observations","Coleoptera_sp.","order","beetles",0.001461988,NA,NA,NA,"In each of the six blocks, six female vines were randomly selected. On each vine flower visitors were observed in 10-min intervals at all times of day throughout the 17-day blooming season.",NA
"Margaret_Mayfield_Actinidia_deliciosa_New_Zealand_NA","TP1","observations","Coleoptera_sp.","order","beetles",0.000368053,NA,NA,NA,"In each of the six blocks, six female vines were randomly selected. On each vine flower visitors were observed in 10-min intervals at all times of day throughout the 17-day blooming season. All vines in TP1 were > 500 m and < 1 km from wild vegetation.",NA
"Margaret_Mayfield_Actinidia_deliciosa_New_Zealand_NA","TP2","observations","Coleoptera_sp.","order","beetles",0.002074689,NA,NA,NA,"In each of the six blocks, six female vines were randomly selected. On each vine flower visitors were observed in 10-min intervals at all times of day throughout the 17-day blooming season. All vines in TP2 were within 300m of wild vegetation.",NA
"Margaret_Mayfield_Actinidia_deliciosa_New_Zealand_NA","TP2","observations","Coleoptera_sp.","order","beetles",0.001488095,NA,NA,NA,"In each of the six blocks, six female vines were randomly selected. On each vine flower visitors were observed in 10-min intervals at all times of day throughout the 17-day blooming season. All vines in TP2 were within 300m of wild vegetation.",NA
"Margaret_Mayfield_Actinidia_deliciosa_New_Zealand_NA","TP2","observations","Coleoptera_sp.","order","beetles",0.000803213,NA,NA,NA,"In each of the six blocks, six female vines were randomly selected. On each vine flower visitors were observed in 10-min intervals at all times of day throughout the 17-day blooming season. All vines in TP2 were within 300m of wild vegetation.",NA
"Margaret_Mayfield_Actinidia_deliciosa_New_Zealand_NA","TP2","observations","Coleoptera_sp.","order","beetles",0.011363636,NA,NA,NA,"In each of the six blocks, six female vines were randomly selected. On each vine flower visitors were observed in 10-min intervals at all times of day throughout the 17-day blooming season. All vines in TP2 were within 300m of wild vegetation.",NA
"Margaret_Mayfield_Actinidia_deliciosa_New_Zealand_NA","TP2","observations","Coleoptera_sp.","order","beetles",0.000787402,NA,NA,NA,"In each of the six blocks, six female vines were randomly selected. On each vine flower visitors were observed in 10-min intervals at all times of day throughout the 17-day blooming season. All vines in TP2 were within 300m of wild vegetation.",NA
"Margaret_Mayfield_Actinidia_deliciosa_New_Zealand_NA","TP2","observations","Coleoptera_sp.","order","beetles",0.006521739,NA,NA,NA,"In each of the six blocks, six female vines were randomly selected. On each vine flower visitors were observed in 10-min intervals at all times of day throughout the 17-day blooming season. All vines in TP2 were within 300m of wild vegetation.",NA
"Margaret_Mayfield_Actinidia_deliciosa_New_Zealand_NA","TP2","observations","Coleoptera_sp.","order","beetles",0.001886469,NA,NA,NA,"In each of the six blocks, six female vines were randomly selected. On each vine flower visitors were observed in 10-min intervals at all times of day throughout the 17-day blooming season. All vines in TP2 were within 300m of wild vegetation.",NA
"Margaret_Mayfield_Actinidia_deliciosa_New_Zealand_NA","GV2","observations","Diptera_sp.","order","other_flies",0.00297619,NA,NA,NA,"In each of the six blocks, six female vines were randomly selected. On each vine flower visitors were observed in 10-min intervals at all times of day throughout the 17-day blooming season.",NA
"Margaret_Mayfield_Actinidia_deliciosa_New_Zealand_NA","TO1","observations","Diptera_sp.","order","other_flies",0.001501502,NA,NA,NA,"In each of the six blocks, six female vines were randomly selected. On each vine flower visitors were observed in 10-min intervals at all times of day throughout the 17-day blooming season.",NA
"Margaret_Mayfield_Actinidia_deliciosa_New_Zealand_NA","TO1","observations","Diptera_sp.","order","other_flies",0.002923977,NA,NA,NA,"In each of the six blocks, six female vines were randomly selected. On each vine flower visitors were observed in 10-min intervals at all times of day throughout the 17-day blooming season.",NA
"Margaret_Mayfield_Actinidia_deliciosa_New_Zealand_NA","TO1","observations","Diptera_sp.","order","other_flies",0.002564103,NA,NA,NA,"In each of the six blocks, six female vines were randomly selected. On each vine flower visitors were observed in 10-min intervals at all times of day throughout the 17-day blooming season.",NA
"Margaret_Mayfield_Actinidia_deliciosa_New_Zealand_NA","TO1","observations","Diptera_sp.","order","other_flies",0.001811594,NA,NA,NA,"In each of the six blocks, six female vines were randomly selected. On each vine flower visitors were observed in 10-min intervals at all times of day throughout the 17-day blooming season.",NA
"Margaret_Mayfield_Actinidia_deliciosa_New_Zealand_NA","TP1","observations","Diptera_sp.","order","other_flies",0.05,NA,NA,NA,"In each of the six blocks, six female vines were randomly selected. On each vine flower visitors were observed in 10-min intervals at all times of day throughout the 17-day blooming season. All vines in TP1 were > 500 m and < 1 km from wild vegetation.",NA
"Margaret_Mayfield_Actinidia_deliciosa_New_Zealand_NA","TP1","observations","Diptera_sp.","order","other_flies",0.035714286,NA,NA,NA,"In each of the six blocks, six female vines were randomly selected. On each vine flower visitors were observed in 10-min intervals at all times of day throughout the 17-day blooming season. All vines in TP1 were > 500 m and < 1 km from wild vegetation.",NA
"Margaret_Mayfield_Actinidia_deliciosa_New_Zealand_NA","TP2","observations","Diptera_sp.","order","other_flies",0.000414938,NA,NA,NA,"In each of the six blocks, six female vines were randomly selected. On each vine flower visitors were observed in 10-min intervals at all times of day throughout the 17-day blooming season. All vines in TP2 were within 300m of wild vegetation.",NA
"Margaret_Mayfield_Actinidia_deliciosa_New_Zealand_NA","TP2","observations","Diptera_sp.","order","other_flies",0.005555556,NA,NA,NA,"In each of the six blocks, six female vines were randomly selected. On each vine flower visitors were observed in 10-min intervals at all times of day throughout the 17-day blooming season. All vines in TP2 were within 300m of wild vegetation.",NA
"Margaret_Mayfield_Actinidia_deliciosa_New_Zealand_NA","TP2","observations","Diptera_sp.","order","other_flies",0.000744048,NA,NA,NA,"In each of the six blocks, six female vines were randomly selected. On each vine flower visitors were observed in 10-min intervals at all times of day throughout the 17-day blooming season. All vines in TP2 were within 300m of wild vegetation.",NA
"Margaret_Mayfield_Actinidia_deliciosa_New_Zealand_NA","TP2","observations","Diptera_sp.","order","other_flies",0.001405622,NA,NA,NA,"In each of the six blocks, six female vines were randomly selected. On each vine flower visitors were observed in 10-min intervals at all times of day throughout the 17-day blooming season. All vines in TP2 were within 300m of wild vegetation.",NA
"Margaret_Mayfield_Actinidia_deliciosa_New_Zealand_NA","TP2","observations","Diptera_sp.","order","other_flies",0.017045455,NA,NA,NA,"In each of the six blocks, six female vines were randomly selected. On each vine flower visitors were observed in 10-min intervals at all times of day throughout the 17-day blooming season. All vines in TP2 were within 300m of wild vegetation.",NA
"Margaret_Mayfield_Actinidia_deliciosa_New_Zealand_NA","TP2","observations","Diptera_sp.","order","other_flies",0.000787402,NA,NA,NA,"In each of the six blocks, six female vines were randomly selected. On each vine flower visitors were observed in 10-min intervals at all times of day throughout the 17-day blooming season. All vines in TP2 were within 300m of wild vegetation.",NA
"Margaret_Mayfield_Actinidia_deliciosa_New_Zealand_NA","TP2","observations","Diptera_sp.","order","other_flies",0.004347826,NA,NA,NA,"In each of the six blocks, six female vines were randomly selected. On each vine flower visitors were observed in 10-min intervals at all times of day throughout the 17-day blooming season. All vines in TP2 were within 300m of wild vegetation.",NA
"Margaret_Mayfield_Actinidia_deliciosa_New_Zealand_NA","TP2","observations","Diptera_sp.","order","other_flies",0.001886469,NA,NA,NA,"In each of the six blocks, six female vines were randomly selected. On each vine flower visitors were observed in 10-min intervals at all times of day throughout the 17-day blooming season. All vines in TP2 were within 300m of wild vegetation.",NA
"Margaret_Mayfield_Actinidia_deliciosa_New_Zealand_NA","GV1","observations","formicidae","family","non_bee_hymenoptera",0.005263158,NA,NA,NA,"In each of the six blocks, six female vines were randomly selected. On each vine flower visitors were observed in 10-min intervals at all times of day throughout the 17-day blooming season.",NA
"Margaret_Mayfield_Actinidia_deliciosa_New_Zealand_NA","TO1","observations","formicidae","family","non_bee_hymenoptera",0.001838235,NA,NA,NA,"In each of the six blocks, six female vines were randomly selected. On each vine flower visitors were observed in 10-min intervals at all times of day throughout the 17-day blooming season.",NA
"Margaret_Mayfield_Actinidia_deliciosa_New_Zealand_NA","TO1","observations","formicidae","family","non_bee_hymenoptera",0.016666667,NA,NA,NA,"In each of the six blocks, six female vines were randomly selected. On each vine flower visitors were observed in 10-min intervals at all times of day throughout the 17-day blooming season.",NA
"Margaret_Mayfield_Actinidia_deliciosa_New_Zealand_NA","TO1","observations","formicidae","family","non_bee_hymenoptera",0.001811594,NA,NA,NA,"In each of the six blocks, six female vines were randomly selected. On each vine flower visitors were observed in 10-min intervals at all times of day throughout the 17-day blooming season.",NA
"Margaret_Mayfield_Actinidia_deliciosa_New_Zealand_NA","TO2","observations","formicidae","family","non_bee_hymenoptera",0.003205128,NA,NA,NA,"In each of the six blocks, six female vines were randomly selected. On each vine flower visitors were observed in 10-min intervals at all times of day throughout the 17-day blooming season.",NA
"Margaret_Mayfield_Actinidia_deliciosa_New_Zealand_NA","TP1","observations","formicidae","family","non_bee_hymenoptera",0.017857143,NA,NA,NA,"In each of the six blocks, six female vines were randomly selected. On each vine flower visitors were observed in 10-min intervals at all times of day throughout the 17-day blooming season. All vines in TP1 were > 500 m and < 1 km from wild vegetation.",NA
"Margaret_Mayfield_Actinidia_deliciosa_New_Zealand_NA","TP1","observations","formicidae","family","non_bee_hymenoptera",0.001984127,NA,NA,NA,"In each of the six blocks, six female vines were randomly selected. On each vine flower visitors were observed in 10-min intervals at all times of day throughout the 17-day blooming season. All vines in TP1 were > 500 m and < 1 km from wild vegetation.",NA
"Margaret_Mayfield_Actinidia_deliciosa_New_Zealand_NA","TP2","observations","formicidae","family","non_bee_hymenoptera",0.00297619,NA,NA,NA,"In each of the six blocks, six female vines were randomly selected. On each vine flower visitors were observed in 10-min intervals at all times of day throughout the 17-day blooming season. All vines in TP2 were within 300m of wild vegetation.",NA
"Margaret_Mayfield_Actinidia_deliciosa_New_Zealand_NA","TP2","observations","formicidae","family","non_bee_hymenoptera",0.000401606,NA,NA,NA,"In each of the six blocks, six female vines were randomly selected. On each vine flower visitors were observed in 10-min intervals at all times of day throughout the 17-day blooming season. All vines in TP2 were within 300m of wild vegetation.",NA
"Margaret_Mayfield_Actinidia_deliciosa_New_Zealand_NA","TP2","observations","formicidae","family","non_bee_hymenoptera",0.003149606,NA,NA,NA,"In each of the six blocks, six female vines were randomly selected. On each vine flower visitors were observed in 10-min intervals at all times of day throughout the 17-day blooming season. All vines in TP2 were within 300m of wild vegetation.",NA
"Margaret_Mayfield_Actinidia_deliciosa_New_Zealand_NA","GV1","observations","syrphidae","family","syrphids",0.005263158,NA,NA,NA,"In each of the six blocks, six female vines were randomly selected. On each vine flower visitors were observed in 10-min intervals at all times of day throughout the 17-day blooming season.",NA
"Margaret_Mayfield_Actinidia_deliciosa_New_Zealand_NA","GV1","observations","syrphidae","family","syrphids",0.0078125,NA,NA,NA,"In each of the six blocks, six female vines were randomly selected. On each vine flower visitors were observed in 10-min intervals at all times of day throughout the 17-day blooming season.",NA
"Margaret_Mayfield_Actinidia_deliciosa_New_Zealand_NA","GV1","observations","syrphidae","family","syrphids",0.05,NA,NA,NA,"In each of the six blocks, six female vines were randomly selected. On each vine flower visitors were observed in 10-min intervals at all times of day throughout the 17-day blooming season.",NA
"Margaret_Mayfield_Actinidia_deliciosa_New_Zealand_NA","GV1","observations","syrphidae","family","syrphids",0.014705882,NA,NA,NA,"In each of the six blocks, six female vines were randomly selected. On each vine flower visitors were observed in 10-min intervals at all times of day throughout the 17-day blooming season.",NA
"Margaret_Mayfield_Actinidia_deliciosa_New_Zealand_NA","GV1","observations","syrphidae","family","syrphids",0.019736842,NA,NA,NA,"In each of the six blocks, six female vines were randomly selected. On each vine flower visitors were observed in 10-min intervals at all times of day throughout the 17-day blooming season.",NA
"Margaret_Mayfield_Actinidia_deliciosa_New_Zealand_NA","TO1","observations","syrphidae","family","syrphids",0.006006006,NA,NA,NA,"In each of the six blocks, six female vines were randomly selected. On each vine flower visitors were observed in 10-min intervals at all times of day throughout the 17-day blooming season.",NA
"Margaret_Mayfield_Actinidia_deliciosa_New_Zealand_NA","TO1","observations","syrphidae","family","syrphids",0.001838235,NA,NA,NA,"In each of the six blocks, six female vines were randomly selected. On each vine flower visitors were observed in 10-min intervals at all times of day throughout the 17-day blooming season.",NA
"Margaret_Mayfield_Actinidia_deliciosa_New_Zealand_NA","TO1","observations","syrphidae","family","syrphids",0.011111111,NA,NA,NA,"In each of the six blocks, six female vines were randomly selected. On each vine flower visitors were observed in 10-min intervals at all times of day throughout the 17-day blooming season.",NA
"Margaret_Mayfield_Actinidia_deliciosa_New_Zealand_NA","TO1","observations","syrphidae","family","syrphids",0.005128205,NA,NA,NA,"In each of the six blocks, six female vines were randomly selected. On each vine flower visitors were observed in 10-min intervals at all times of day throughout the 17-day blooming season.",NA
"Margaret_Mayfield_Actinidia_deliciosa_New_Zealand_NA","TO2","observations","syrphidae","family","syrphids",0.003205128,NA,NA,NA,"In each of the six blocks, six female vines were randomly selected. On each vine flower visitors were observed in 10-min intervals at all times of day throughout the 17-day blooming season.",NA
"Margaret_Mayfield_Actinidia_deliciosa_New_Zealand_NA","TP1","observations","syrphidae","family","syrphids",0.012307692,NA,NA,NA,"In each of the six blocks, six female vines were randomly selected. On each vine flower visitors were observed in 10-min intervals at all times of day throughout the 17-day blooming season. All vines in TP1 were > 500 m and < 1 km from wild vegetation.",NA
"Margaret_Mayfield_Actinidia_deliciosa_New_Zealand_NA","TP1","observations","syrphidae","family","syrphids",0.000736106,NA,NA,NA,"In each of the six blocks, six female vines were randomly selected. On each vine flower visitors were observed in 10-min intervals at all times of day throughout the 17-day blooming season. All vines in TP1 were > 500 m and < 1 km from wild vegetation.",NA
"Margaret_Mayfield_Actinidia_deliciosa_New_Zealand_NA","TP2","observations","syrphidae","family","syrphids",0.000401606,NA,NA,NA,"In each of the six blocks, six female vines were randomly selected. On each vine flower visitors were observed in 10-min intervals at all times of day throughout the 17-day blooming season. All vines in TP2 were within 300m of wild vegetation.",NA
"Margaret_Mayfield_Actinidia_deliciosa_New_Zealand_NA","TP2","observations","syrphidae","family","syrphids",0.000514492,NA,NA,NA,"In each of the six blocks, six female vines were randomly selected. On each vine flower visitors were observed in 10-min intervals at all times of day throughout the 17-day blooming season. All vines in TP2 were within 300m of wild vegetation.",NA
"Mark_Otieno_Cajanus_cajan_Kenya_2009","Athi 2A","observation","Apis mellifera","species","honeybees",2.63636363636364,NA,NA,NA,"Abundance information refers to the number of flower visits (frequency). Bees were observed along five 100 m-long 2 m-wide transects at field. Each transect was walked twice a day. Observation time was 10 min per transect.",NA
"Mark_Otieno_Cajanus_cajan_Kenya_2009","Athi 1A","observation","Ceratina sp.","genus","other_wild_bees",2.63636363636364,NA,NA,NA,"Abundance information refers to the number of flower visits (frequency). Bees were observed along five 100 m-long 2 m-wide transects at field. Each transect was walked twice a day. Observation time was 10 min per transect.",NA
"Mark_Otieno_Cajanus_cajan_Kenya_2009","Chyulu 1A","observation","Ceratina sp.","genus","other_wild_bees",2.54545454545455,NA,NA,NA,"Abundance information refers to the number of flower visits (frequency). Bees were observed along five 100 m-long 2 m-wide transects at field. Each transect was walked twice a day. Observation time was 10 min per transect.",NA
"Mark_Otieno_Cajanus_cajan_Kenya_2009","Chyulu 1A","observation","Apis mellifera","species","honeybees",2.36363636363636,NA,NA,NA,"Abundance information refers to the number of flower visits (frequency). Bees were observed along five 100 m-long 2 m-wide transects at field. Each transect was walked twice a day. Observation time was 10 min per transect.",NA
"Mark_Otieno_Cajanus_cajan_Kenya_2009","Kala 1A","observation","Megachile flavipennis","species","other_wild_bees",2.09090909090909,NA,NA,NA,"Abundance information refers to the number of flower visits (frequency). Bees were observed along five 100 m-long 2 m-wide transects at field. Each transect was walked twice a day. Observation time was 10 min per transect.",NA
"Mark_Otieno_Cajanus_cajan_Kenya_2009","Chyulu 1A","observation","Meliponula sp.","genus","other_wild_bees",2.09090909090909,NA,NA,NA,"Abundance information refers to the number of flower visits (frequency). Bees were observed along five 100 m-long 2 m-wide transects at field. Each transect was walked twice a day. Observation time was 10 min per transect.",NA
"Mark_Otieno_Cajanus_cajan_Kenya_2009","Kala 1A","observation","Ceratina sp.","genus","other_wild_bees",1.90909090909091,NA,NA,NA,"Abundance information refers to the number of flower visits (frequency). Bees were observed along five 100 m-long 2 m-wide transects at field. Each transect was walked twice a day. Observation time was 10 min per transect.",NA
"Mark_Otieno_Cajanus_cajan_Kenya_2009","Kala 1B","observation","Ceratina sp.","genus","other_wild_bees",1.90909090909091,NA,NA,NA,"Abundance information refers to the number of flower visits (frequency). Bees were observed along five 100 m-long 2 m-wide transects at field. Each transect was walked twice a day. Observation time was 10 min per transect.",NA
"Mark_Otieno_Cajanus_cajan_Kenya_2009","Athi 1A","observation","Apis mellifera","species","honeybees",1.81818181818182,NA,NA,NA,"Abundance information refers to the number of flower visits (frequency). Bees were observed along five 100 m-long 2 m-wide transects at field. Each transect was walked twice a day. Observation time was 10 min per transect.",NA
"Mark_Otieno_Cajanus_cajan_Kenya_2009","Athi 1B","observation","Apis mellifera","species","honeybees",1.81818181818182,NA,NA,NA,"Abundance information refers to the number of flower visits (frequency). Bees were observed along five 100 m-long 2 m-wide transects at field. Each transect was walked twice a day. Observation time was 10 min per transect.",NA
"Mark_Otieno_Cajanus_cajan_Kenya_2009","Kala 1A","observation","Apis mellifera","species","honeybees",1.63636363636364,NA,NA,NA,"Abundance information refers to the number of flower visits (frequency). Bees were observed along five 100 m-long 2 m-wide transects at field. Each transect was walked twice a day. Observation time was 10 min per transect.",NA
"Mark_Otieno_Cajanus_cajan_Kenya_2009","Kinyambu 1B","observation","Apis mellifera","species","honeybees",1.45454545454545,NA,NA,NA,"Abundance information refers to the number of flower visits (frequency). Bees were observed along five 100 m-long 2 m-wide transects at field. Each transect was walked twice a day. Observation time was 10 min per transect.",NA
"Mark_Otieno_Cajanus_cajan_Kenya_2009","Athi 1B","observation","Ceratina sp.","genus","other_wild_bees",1.45454545454545,NA,NA,NA,"Abundance information refers to the number of flower visits (frequency). Bees were observed along five 100 m-long 2 m-wide transects at field. Each transect was walked twice a day. Observation time was 10 min per transect.",NA
"Mark_Otieno_Cajanus_cajan_Kenya_2009","Kala 2A","observation","Apis mellifera","species","honeybees",1.36363636363636,NA,NA,NA,"Abundance information refers to the number of flower visits (frequency). Bees were observed along five 100 m-long 2 m-wide transects at field. Each transect was walked twice a day. Observation time was 10 min per transect.",NA
"Mark_Otieno_Cajanus_cajan_Kenya_2009","Athi 2B","observation","Apis mellifera","species","honeybees",1.27272727272727,NA,NA,NA,"Abundance information refers to the number of flower visits (frequency). Bees were observed along five 100 m-long 2 m-wide transects at field. Each transect was walked twice a day. Observation time was 10 min per transect.",NA
"Mark_Otieno_Cajanus_cajan_Kenya_2009","Chyulu 1B","observation","Apis mellifera","species","honeybees",1.27272727272727,NA,NA,NA,"Abundance information refers to the number of flower visits (frequency). Bees were observed along five 100 m-long 2 m-wide transects at field. Each transect was walked twice a day. Observation time was 10 min per transect.",NA
"Mark_Otieno_Cajanus_cajan_Kenya_2009","Kinyambu 1A","observation","Apis mellifera","species","honeybees",1.27272727272727,NA,NA,NA,"Abundance information refers to the number of flower visits (frequency). Bees were observed along five 100 m-long 2 m-wide transects at field. Each transect was walked twice a day. Observation time was 10 min per transect.",NA
"Mark_Otieno_Cajanus_cajan_Kenya_2009","Chyulu 1B","observation","Ceratina sp.","genus","other_wild_bees",1.18181818181818,NA,NA,NA,"Abundance information refers to the number of flower visits (frequency). Bees were observed along five 100 m-long 2 m-wide transects at field. Each transect was walked twice a day. Observation time was 10 min per transect.",NA
"Mark_Otieno_Cajanus_cajan_Kenya_2009","Kinyambu 1B","observation","Ceratina sp.","genus","other_wild_bees",1.18181818181818,NA,NA,NA,"Abundance information refers to the number of flower visits (frequency). Bees were observed along five 100 m-long 2 m-wide transects at field. Each transect was walked twice a day. Observation time was 10 min per transect.",NA
"Mark_Otieno_Cajanus_cajan_Kenya_2009","Athi 2A","observation","Ceratina sp.","genus","other_wild_bees",1.09090909090909,NA,NA,NA,"Abundance information refers to the number of flower visits (frequency). Bees were observed along five 100 m-long 2 m-wide transects at field. Each transect was walked twice a day. Observation time was 10 min per transect.",NA
"Mark_Otieno_Cajanus_cajan_Kenya_2009","Athi 2B","observation","Ceratina sp.","genus","other_wild_bees",1.09090909090909,NA,NA,NA,"Abundance information refers to the number of flower visits (frequency). Bees were observed along five 100 m-long 2 m-wide transects at field. Each transect was walked twice a day. Observation time was 10 min per transect.",NA
"Mark_Otieno_Cajanus_cajan_Kenya_2009","Chyulu 1A","observation","Megachile flavipennis","species","other_wild_bees",1.09090909090909,NA,NA,NA,"Abundance information refers to the number of flower visits (frequency). Bees were observed along five 100 m-long 2 m-wide transects at field. Each transect was walked twice a day. Observation time was 10 min per transect.",NA
"Mark_Otieno_Cajanus_cajan_Kenya_2009","Chyulu 1A","observation","Amegilla sp 1.","morphospecies","other_wild_bees",1,NA,NA,NA,"Abundance information refers to the number of flower visits (frequency). Bees were observed along five 100 m-long 2 m-wide transects at field. Each transect was walked twice a day. Observation time was 10 min per transect.",NA
"Mark_Otieno_Cajanus_cajan_Kenya_2009","Chyulu 1A","observation","Hypotrigona gribodoi","species","other_wild_bees",1,NA,NA,NA,"Abundance information refers to the number of flower visits (frequency). Bees were observed along five 100 m-long 2 m-wide transects at field. Each transect was walked twice a day. Observation time was 10 min per transect.",NA
"Mark_Otieno_Cajanus_cajan_Kenya_2009","Athi 1A","observation","Megachile sp5.","morphospecies","other_wild_bees",1,NA,NA,NA,"Abundance information refers to the number of flower visits (frequency). Bees were observed along five 100 m-long 2 m-wide transects at field. Each transect was walked twice a day. Observation time was 10 min per transect.",NA
"Mark_Otieno_Cajanus_cajan_Kenya_2009","Athi 1A","observation","Amegilla cymatilis","species","other_wild_bees",0.909090909090909,NA,NA,NA,"Abundance information refers to the number of flower visits (frequency). Bees were observed along five 100 m-long 2 m-wide transects at field. Each transect was walked twice a day. Observation time was 10 min per transect.",NA
"Mark_Otieno_Cajanus_cajan_Kenya_2009","Kala 2B","observation","Apis mellifera","species","honeybees",0.909090909090909,NA,NA,NA,"Abundance information refers to the number of flower visits (frequency). Bees were observed along five 100 m-long 2 m-wide transects at field. Each transect was walked twice a day. Observation time was 10 min per transect.",NA
"Mark_Otieno_Cajanus_cajan_Kenya_2009","Kala 2A","observation","Ceratina sp.","genus","other_wild_bees",0.909090909090909,NA,NA,NA,"Abundance information refers to the number of flower visits (frequency). Bees were observed along five 100 m-long 2 m-wide transects at field. Each transect was walked twice a day. Observation time was 10 min per transect.",NA
"Mark_Otieno_Cajanus_cajan_Kenya_2009","Kala 1A","observation","Amegilla caelestina","species","other_wild_bees",0.818181818181818,NA,NA,NA,"Abundance information refers to the number of flower visits (frequency). Bees were observed along five 100 m-long 2 m-wide transects at field. Each transect was walked twice a day. Observation time was 10 min per transect.",NA
"Mark_Otieno_Cajanus_cajan_Kenya_2009","Athi 1A","observation","Amegilla sp 2.","morphospecies","other_wild_bees",0.818181818181818,NA,NA,NA,"Abundance information refers to the number of flower visits (frequency). Bees were observed along five 100 m-long 2 m-wide transects at field. Each transect was walked twice a day. Observation time was 10 min per transect.",NA
"Mark_Otieno_Cajanus_cajan_Kenya_2009","Chyulu 1A","observation","Megachile bicolor","species","other_wild_bees",0.818181818181818,NA,NA,NA,"Abundance information refers to the number of flower visits (frequency). Bees were observed along five 100 m-long 2 m-wide transects at field. Each transect was walked twice a day. Observation time was 10 min per transect.",NA
"Mark_Otieno_Cajanus_cajan_Kenya_2009","Kinyambu 1A","observation","Megachile sp.4","morphospecies","other_wild_bees",0.818181818181818,NA,NA,NA,"Abundance information refers to the number of flower visits (frequency). Bees were observed along five 100 m-long 2 m-wide transects at field. Each transect was walked twice a day. Observation time was 10 min per transect.",NA
"Mark_Otieno_Cajanus_cajan_Kenya_2009","Athi 1B","observation","Amegilla caelestina","species","other_wild_bees",0.727272727272727,NA,NA,NA,"Abundance information refers to the number of flower visits (frequency). Bees were observed along five 100 m-long 2 m-wide transects at field. Each transect was walked twice a day. Observation time was 10 min per transect.",NA
"Mark_Otieno_Cajanus_cajan_Kenya_2009","Chyulu 1A","observation","Amegilla sp 2.","morphospecies","other_wild_bees",0.727272727272727,NA,NA,NA,"Abundance information refers to the number of flower visits (frequency). Bees were observed along five 100 m-long 2 m-wide transects at field. Each transect was walked twice a day. Observation time was 10 min per transect.",NA
"Mark_Otieno_Cajanus_cajan_Kenya_2009","Athi 1A","observation","Hypotrigona gribodoi","species","other_wild_bees",0.727272727272727,NA,NA,NA,"Abundance information refers to the number of flower visits (frequency). Bees were observed along five 100 m-long 2 m-wide transects at field. Each transect was walked twice a day. Observation time was 10 min per transect.",NA
"Mark_Otieno_Cajanus_cajan_Kenya_2009","Kala 1A","observation","Megachile sp.1","morphospecies","other_wild_bees",0.727272727272727,NA,NA,NA,"Abundance information refers to the number of flower visits (frequency). Bees were observed along five 100 m-long 2 m-wide transects at field. Each transect was walked twice a day. Observation time was 10 min per transect.",NA
"Mark_Otieno_Cajanus_cajan_Kenya_2009","Athi 1A","observation","Megachile sp.4","morphospecies","other_wild_bees",0.727272727272727,NA,NA,NA,"Abundance information refers to the number of flower visits (frequency). Bees were observed along five 100 m-long 2 m-wide transects at field. Each transect was walked twice a day. Observation time was 10 min per transect.",NA
"Mark_Otieno_Cajanus_cajan_Kenya_2009","Chyulu 1A","observation","Xylocopa inconstans","species","other_wild_bees",0.727272727272727,NA,NA,NA,"Abundance information refers to the number of flower visits (frequency). Bees were observed along five 100 m-long 2 m-wide transects at field. Each transect was walked twice a day. Observation time was 10 min per transect.",NA
"Mark_Otieno_Cajanus_cajan_Kenya_2009","Chyulu 1A","observation","Megachile sp.2","morphospecies","other_wild_bees",0.636363636363636,NA,NA,NA,"Abundance information refers to the number of flower visits (frequency). Bees were observed along five 100 m-long 2 m-wide transects at field. Each transect was walked twice a day. Observation time was 10 min per transect.",NA
"Mark_Otieno_Cajanus_cajan_Kenya_2009","Kala 1A","observation","Megachile sp.3","morphospecies","other_wild_bees",0.636363636363636,NA,NA,NA,"Abundance information refers to the number of flower visits (frequency). Bees were observed along five 100 m-long 2 m-wide transects at field. Each transect was walked twice a day. Observation time was 10 min per transect.",NA
"Mark_Otieno_Cajanus_cajan_Kenya_2009","Athi 1A","observation","Meliponula sp.","genus","other_wild_bees",0.636363636363636,NA,NA,NA,"Abundance information refers to the number of flower visits (frequency). Bees were observed along five 100 m-long 2 m-wide transects at field. Each transect was walked twice a day. Observation time was 10 min per transect.",NA
"Mark_Otieno_Cajanus_cajan_Kenya_2009","Kinyambu 1B","observation","Amegilla sp 1.","morphospecies","other_wild_bees",0.545454545454545,NA,NA,NA,"Abundance information refers to the number of flower visits (frequency). Bees were observed along five 100 m-long 2 m-wide transects at field. Each transect was walked twice a day. Observation time was 10 min per transect.",NA
"Mark_Otieno_Cajanus_cajan_Kenya_2009","Kinyambu 1A","observation","Amegilla sp 2.","morphospecies","other_wild_bees",0.545454545454545,NA,NA,NA,"Abundance information refers to the number of flower visits (frequency). Bees were observed along five 100 m-long 2 m-wide transects at field. Each transect was walked twice a day. Observation time was 10 min per transect.",NA
"Mark_Otieno_Cajanus_cajan_Kenya_2009","Kala 2B","observation","Ceratina sp.","genus","other_wild_bees",0.545454545454545,NA,NA,NA,"Abundance information refers to the number of flower visits (frequency). Bees were observed along five 100 m-long 2 m-wide transects at field. Each transect was walked twice a day. Observation time was 10 min per transect.",NA
"Mark_Otieno_Cajanus_cajan_Kenya_2009","Athi 1B","observation","Megachile (Chalicodoma) sp.","subgenus","other_wild_bees",0.545454545454545,NA,NA,NA,"Abundance information refers to the number of flower visits (frequency). Bees were observed along five 100 m-long 2 m-wide transects at field. Each transect was walked twice a day. Observation time was 10 min per transect.",NA
"Mark_Otieno_Cajanus_cajan_Kenya_2009","Kala 2B","observation","Megachile flavipennis","species","other_wild_bees",0.545454545454545,NA,NA,NA,"Abundance information refers to the number of flower visits (frequency). Bees were observed along five 100 m-long 2 m-wide transects at field. Each transect was walked twice a day. Observation time was 10 min per transect.",NA
"Mark_Otieno_Cajanus_cajan_Kenya_2009","Athi 1A","observation","Megachile sp.1","morphospecies","other_wild_bees",0.545454545454545,NA,NA,NA,"Abundance information refers to the number of flower visits (frequency). Bees were observed along five 100 m-long 2 m-wide transects at field. Each transect was walked twice a day. Observation time was 10 min per transect.",NA
"Mark_Otieno_Cajanus_cajan_Kenya_2009","Kala 2A","observation","Megachile sp.2","morphospecies","other_wild_bees",0.545454545454545,NA,NA,NA,"Abundance information refers to the number of flower visits (frequency). Bees were observed along five 100 m-long 2 m-wide transects at field. Each transect was walked twice a day. Observation time was 10 min per transect.",NA
"Mark_Otieno_Cajanus_cajan_Kenya_2009","Athi 1B","observation","Megachile sp5.","morphospecies","other_wild_bees",0.545454545454545,NA,NA,NA,"Abundance information refers to the number of flower visits (frequency). Bees were observed along five 100 m-long 2 m-wide transects at field. Each transect was walked twice a day. Observation time was 10 min per transect.",NA
"Mark_Otieno_Cajanus_cajan_Kenya_2009","Kinyambu 1B","observation","Meliponula sp.","genus","other_wild_bees",0.545454545454545,NA,NA,NA,"Abundance information refers to the number of flower visits (frequency). Bees were observed along five 100 m-long 2 m-wide transects at field. Each transect was walked twice a day. Observation time was 10 min per transect.",NA
"Mark_Otieno_Cajanus_cajan_Kenya_2009","Chyulu 1A","observation","Xylocopa imitator","species","other_wild_bees",0.545454545454545,NA,NA,NA,"Abundance information refers to the number of flower visits (frequency). Bees were observed along five 100 m-long 2 m-wide transects at field. Each transect was walked twice a day. Observation time was 10 min per transect.",NA
"Mark_Otieno_Cajanus_cajan_Kenya_2009","Kala 1A","observation","Amegilla sp 1.","morphospecies","other_wild_bees",0.454545454545455,NA,NA,NA,"Abundance information refers to the number of flower visits (frequency). Bees were observed along five 100 m-long 2 m-wide transects at field. Each transect was walked twice a day. Observation time was 10 min per transect.",NA
"Mark_Otieno_Cajanus_cajan_Kenya_2009","Chyulu 1A","observation","Anthophora sp.","genus","other_wild_bees",0.454545454545455,NA,NA,NA,"Abundance information refers to the number of flower visits (frequency). Bees were observed along five 100 m-long 2 m-wide transects at field. Each transect was walked twice a day. Observation time was 10 min per transect.",NA
"Mark_Otieno_Cajanus_cajan_Kenya_2009","Kala 1B","observation","Apis mellifera","species","honeybees",0.454545454545455,NA,NA,NA,"Abundance information refers to the number of flower visits (frequency). Bees were observed along five 100 m-long 2 m-wide transects at field. Each transect was walked twice a day. Observation time was 10 min per transect.",NA
"Mark_Otieno_Cajanus_cajan_Kenya_2009","Kinyambu 1A","observation","Megachile bicolor","species","other_wild_bees",0.454545454545455,NA,NA,NA,"Abundance information refers to the number of flower visits (frequency). Bees were observed along five 100 m-long 2 m-wide transects at field. Each transect was walked twice a day. Observation time was 10 min per transect.",NA
"Mark_Otieno_Cajanus_cajan_Kenya_2009","Kala 1B","observation","Megachile sp.1","morphospecies","other_wild_bees",0.454545454545455,NA,NA,NA,"Abundance information refers to the number of flower visits (frequency). Bees were observed along five 100 m-long 2 m-wide transects at field. Each transect was walked twice a day. Observation time was 10 min per transect.",NA
"Mark_Otieno_Cajanus_cajan_Kenya_2009","Athi 2B","observation","Megachile sp.4","morphospecies","other_wild_bees",0.454545454545455,NA,NA,NA,"Abundance information refers to the number of flower visits (frequency). Bees were observed along five 100 m-long 2 m-wide transects at field. Each transect was walked twice a day. Observation time was 10 min per transect.",NA
"Mark_Otieno_Cajanus_cajan_Kenya_2009","Kala 1A","observation","Megachile sp.4","morphospecies","other_wild_bees",0.454545454545455,NA,NA,NA,"Abundance information refers to the number of flower visits (frequency). Bees were observed along five 100 m-long 2 m-wide transects at field. Each transect was walked twice a day. Observation time was 10 min per transect.",NA
"Mark_Otieno_Cajanus_cajan_Kenya_2009","Kala 2A","observation","Plebeina hildebrandti","species","other_wild_bees",0.454545454545455,NA,NA,NA,"Abundance information refers to the number of flower visits (frequency). Bees were observed along five 100 m-long 2 m-wide transects at field. Each transect was walked twice a day. Observation time was 10 min per transect.",NA
"Mark_Otieno_Cajanus_cajan_Kenya_2009","Chyulu 1A","observation","Pseudoanthidium sp.","genus","other_wild_bees",0.454545454545455,NA,NA,NA,"Abundance information refers to the number of flower visits (frequency). Bees were observed along five 100 m-long 2 m-wide transects at field. Each transect was walked twice a day. Observation time was 10 min per transect.",NA
"Mark_Otieno_Cajanus_cajan_Kenya_2009","Chyulu 1B","observation","Xylocopa caffra","species","other_wild_bees",0.454545454545455,NA,NA,NA,"Abundance information refers to the number of flower visits (frequency). Bees were observed along five 100 m-long 2 m-wide transects at field. Each transect was walked twice a day. Observation time was 10 min per transect.",NA
"Mark_Otieno_Cajanus_cajan_Kenya_2009","Kinyambu 1A","observation","Xylocopa senior","species","other_wild_bees",0.454545454545455,NA,NA,NA,"Abundance information refers to the number of flower visits (frequency). Bees were observed along five 100 m-long 2 m-wide transects at field. Each transect was walked twice a day. Observation time was 10 min per transect.",NA
"Mark_Otieno_Cajanus_cajan_Kenya_2009","Athi 1B","observation","Amegilla cymatilis","species","other_wild_bees",0.363636363636364,NA,NA,NA,"Abundance information refers to the number of flower visits (frequency). Bees were observed along five 100 m-long 2 m-wide transects at field. Each transect was walked twice a day. Observation time was 10 min per transect.",NA
"Mark_Otieno_Cajanus_cajan_Kenya_2009","Kinyambu 1A","observation","Ceratina sp.","genus","other_wild_bees",0.363636363636364,NA,NA,NA,"Abundance information refers to the number of flower visits (frequency). Bees were observed along five 100 m-long 2 m-wide transects at field. Each transect was walked twice a day. Observation time was 10 min per transect.",NA
"Mark_Otieno_Cajanus_cajan_Kenya_2009","Athi 2A","observation","Lipotriches sp.","genus","other_wild_bees",0.363636363636364,NA,NA,NA,"Abundance information refers to the number of flower visits (frequency). Bees were observed along five 100 m-long 2 m-wide transects at field. Each transect was walked twice a day. Observation time was 10 min per transect.",NA
"Mark_Otieno_Cajanus_cajan_Kenya_2009","Kinyambu 1B","observation","Lithurge sp.","genus","other_wild_bees",0.363636363636364,NA,NA,NA,"Abundance information refers to the number of flower visits (frequency). Bees were observed along five 100 m-long 2 m-wide transects at field. Each transect was walked twice a day. Observation time was 10 min per transect.",NA
"Mark_Otieno_Cajanus_cajan_Kenya_2009","Kinyambu 1B","observation","Megachile (Chalicodoma) sp.","subgenus","other_wild_bees",0.363636363636364,NA,NA,NA,"Abundance information refers to the number of flower visits (frequency). Bees were observed along five 100 m-long 2 m-wide transects at field. Each transect was walked twice a day. Observation time was 10 min per transect.",NA
"Mark_Otieno_Cajanus_cajan_Kenya_2009","Kala 2A","observation","Megachile flavipennis","species","other_wild_bees",0.363636363636364,NA,NA,NA,"Abundance information refers to the number of flower visits (frequency). Bees were observed along five 100 m-long 2 m-wide transects at field. Each transect was walked twice a day. Observation time was 10 min per transect.",NA
"Mark_Otieno_Cajanus_cajan_Kenya_2009","Athi 1A","observation","Megachile sp.3","morphospecies","other_wild_bees",0.363636363636364,NA,NA,NA,"Abundance information refers to the number of flower visits (frequency). Bees were observed along five 100 m-long 2 m-wide transects at field. Each transect was walked twice a day. Observation time was 10 min per transect.",NA
"Mark_Otieno_Cajanus_cajan_Kenya_2009","Athi 1B","observation","Megachile sp.4","morphospecies","other_wild_bees",0.363636363636364,NA,NA,NA,"Abundance information refers to the number of flower visits (frequency). Bees were observed along five 100 m-long 2 m-wide transects at field. Each transect was walked twice a day. Observation time was 10 min per transect.",NA
"Mark_Otieno_Cajanus_cajan_Kenya_2009","Athi 2A","observation","Megachile sp.4","morphospecies","other_wild_bees",0.363636363636364,NA,NA,NA,"Abundance information refers to the number of flower visits (frequency). Bees were observed along five 100 m-long 2 m-wide transects at field. Each transect was walked twice a day. Observation time was 10 min per transect.",NA
"Mark_Otieno_Cajanus_cajan_Kenya_2009","Kinyambu 1B","observation","Megachile sp.4","morphospecies","other_wild_bees",0.363636363636364,NA,NA,NA,"Abundance information refers to the number of flower visits (frequency). Bees were observed along five 100 m-long 2 m-wide transects at field. Each transect was walked twice a day. Observation time was 10 min per transect.",NA
"Mark_Otieno_Cajanus_cajan_Kenya_2009","Kinyambu 1A","observation","Meliponula sp.","genus","other_wild_bees",0.363636363636364,NA,NA,NA,"Abundance information refers to the number of flower visits (frequency). Bees were observed along five 100 m-long 2 m-wide transects at field. Each transect was walked twice a day. Observation time was 10 min per transect.",NA
"Mark_Otieno_Cajanus_cajan_Kenya_2009","Kala 1A","observation","Xylocopa imitator","species","other_wild_bees",0.363636363636364,NA,NA,NA,"Abundance information refers to the number of flower visits (frequency). Bees were observed along five 100 m-long 2 m-wide transects at field. Each transect was walked twice a day. Observation time was 10 min per transect.",NA
"Mark_Otieno_Cajanus_cajan_Kenya_2009","Athi 1A","observation","Xylocopa somalica","species","other_wild_bees",0.363636363636364,NA,NA,NA,"Abundance information refers to the number of flower visits (frequency). Bees were observed along five 100 m-long 2 m-wide transects at field. Each transect was walked twice a day. Observation time was 10 min per transect.",NA
"Mark_Otieno_Cajanus_cajan_Kenya_2009","Kinyambu 1A","observation","Amegilla caelestina","species","other_wild_bees",0.272727272727273,NA,NA,NA,"Abundance information refers to the number of flower visits (frequency). Bees were observed along five 100 m-long 2 m-wide transects at field. Each transect was walked twice a day. Observation time was 10 min per transect.",NA
"Mark_Otieno_Cajanus_cajan_Kenya_2009","Athi 2A","observation","Amegilla cymatilis","species","other_wild_bees",0.272727272727273,NA,NA,NA,"Abundance information refers to the number of flower visits (frequency). Bees were observed along five 100 m-long 2 m-wide transects at field. Each transect was walked twice a day. Observation time was 10 min per transect.",NA
"Mark_Otieno_Cajanus_cajan_Kenya_2009","Kinyambu 1B","observation","Amegilla cymatilis","species","other_wild_bees",0.272727272727273,NA,NA,NA,"Abundance information refers to the number of flower visits (frequency). Bees were observed along five 100 m-long 2 m-wide transects at field. Each transect was walked twice a day. Observation time was 10 min per transect.",NA
"Mark_Otieno_Cajanus_cajan_Kenya_2009","Athi 2A","observation","Amegilla sp 1.","morphospecies","other_wild_bees",0.272727272727273,NA,NA,NA,"Abundance information refers to the number of flower visits (frequency). Bees were observed along five 100 m-long 2 m-wide transects at field. Each transect was walked twice a day. Observation time was 10 min per transect.",NA
"Mark_Otieno_Cajanus_cajan_Kenya_2009","Kinyambu 1A","observation","Amegilla sp 1.","morphospecies","other_wild_bees",0.272727272727273,NA,NA,NA,"Abundance information refers to the number of flower visits (frequency). Bees were observed along five 100 m-long 2 m-wide transects at field. Each transect was walked twice a day. Observation time was 10 min per transect.",NA
"Mark_Otieno_Cajanus_cajan_Kenya_2009","Chyulu 1B","observation","Amegilla sp 2.","morphospecies","other_wild_bees",0.272727272727273,NA,NA,NA,"Abundance information refers to the number of flower visits (frequency). Bees were observed along five 100 m-long 2 m-wide transects at field. Each transect was walked twice a day. Observation time was 10 min per transect.",NA
"Mark_Otieno_Cajanus_cajan_Kenya_2009","Athi 1B","observation","Anthophora sp.","genus","other_wild_bees",0.272727272727273,NA,NA,NA,"Abundance information refers to the number of flower visits (frequency). Bees were observed along five 100 m-long 2 m-wide transects at field. Each transect was walked twice a day. Observation time was 10 min per transect.",NA
"Mark_Otieno_Cajanus_cajan_Kenya_2009","Kala 1A","observation","Euaspis abdominalis","species","other_wild_bees",0.272727272727273,NA,NA,NA,"Abundance information refers to the number of flower visits (frequency). Bees were observed along five 100 m-long 2 m-wide transects at field. Each transect was walked twice a day. Observation time was 10 min per transect.",NA
"Mark_Otieno_Cajanus_cajan_Kenya_2009","Chyulu 1A","observation","Lassioglossum sp.","genus","other_wild_bees",0.272727272727273,NA,NA,NA,"Abundance information refers to the number of flower visits (frequency). Bees were observed along five 100 m-long 2 m-wide transects at field. Each transect was walked twice a day. Observation time was 10 min per transect.",NA
"Mark_Otieno_Cajanus_cajan_Kenya_2009","Kala 2A","observation","Lassioglossum sp.","genus","other_wild_bees",0.272727272727273,NA,NA,NA,"Abundance information refers to the number of flower visits (frequency). Bees were observed along five 100 m-long 2 m-wide transects at field. Each transect was walked twice a day. Observation time was 10 min per transect.",NA
"Mark_Otieno_Cajanus_cajan_Kenya_2009","Chyulu 1A","observation","Megachile (Chalicodoma) sp.","subgenus","other_wild_bees",0.272727272727273,NA,NA,NA,"Abundance information refers to the number of flower visits (frequency). Bees were observed along five 100 m-long 2 m-wide transects at field. Each transect was walked twice a day. Observation time was 10 min per transect.",NA
"Mark_Otieno_Cajanus_cajan_Kenya_2009","Kala 1B","observation","Megachile (Chalicodoma) sp.","subgenus","other_wild_bees",0.272727272727273,NA,NA,NA,"Abundance information refers to the number of flower visits (frequency). Bees were observed along five 100 m-long 2 m-wide transects at field. Each transect was walked twice a day. Observation time was 10 min per transect.",NA
"Mark_Otieno_Cajanus_cajan_Kenya_2009","Kinyambu 1A","observation","Megachile (Chalicodoma) sp.","subgenus","other_wild_bees",0.272727272727273,NA,NA,NA,"Abundance information refers to the number of flower visits (frequency). Bees were observed along five 100 m-long 2 m-wide transects at field. Each transect was walked twice a day. Observation time was 10 min per transect.",NA
"Mark_Otieno_Cajanus_cajan_Kenya_2009","Athi 2B","observation","Megachile flavipennis","species","other_wild_bees",0.272727272727273,NA,NA,NA,"Abundance information refers to the number of flower visits (frequency). Bees were observed along five 100 m-long 2 m-wide transects at field. Each transect was walked twice a day. Observation time was 10 min per transect.",NA
"Mark_Otieno_Cajanus_cajan_Kenya_2009","Kinyambu 1A","observation","Megachile sp.1","morphospecies","other_wild_bees",0.272727272727273,NA,NA,NA,"Abundance information refers to the number of flower visits (frequency). Bees were observed along five 100 m-long 2 m-wide transects at field. Each transect was walked twice a day. Observation time was 10 min per transect.",NA
"Mark_Otieno_Cajanus_cajan_Kenya_2009","Athi 2A","observation","Megachile sp.3","morphospecies","other_wild_bees",0.272727272727273,NA,NA,NA,"Abundance information refers to the number of flower visits (frequency). Bees were observed along five 100 m-long 2 m-wide transects at field. Each transect was walked twice a day. Observation time was 10 min per transect.",NA
"Mark_Otieno_Cajanus_cajan_Kenya_2009","Chyulu 1B","observation","Megachile sp.3","morphospecies","other_wild_bees",0.272727272727273,NA,NA,NA,"Abundance information refers to the number of flower visits (frequency). Bees were observed along five 100 m-long 2 m-wide transects at field. Each transect was walked twice a day. Observation time was 10 min per transect.",NA
"Mark_Otieno_Cajanus_cajan_Kenya_2009","Kala 1B","observation","Megachile sp.4","morphospecies","other_wild_bees",0.272727272727273,NA,NA,NA,"Abundance information refers to the number of flower visits (frequency). Bees were observed along five 100 m-long 2 m-wide transects at field. Each transect was walked twice a day. Observation time was 10 min per transect.",NA
"Mark_Otieno_Cajanus_cajan_Kenya_2009","Kala 2A","observation","Megachile sp.4","morphospecies","other_wild_bees",0.272727272727273,NA,NA,NA,"Abundance information refers to the number of flower visits (frequency). Bees were observed along five 100 m-long 2 m-wide transects at field. Each transect was walked twice a day. Observation time was 10 min per transect.",NA
"Mark_Otieno_Cajanus_cajan_Kenya_2009","Chyulu 1A","observation","Megachile sp5.","morphospecies","other_wild_bees",0.272727272727273,NA,NA,NA,"Abundance information refers to the number of flower visits (frequency). Bees were observed along five 100 m-long 2 m-wide transects at field. Each transect was walked twice a day. Observation time was 10 min per transect.",NA
"Mark_Otieno_Cajanus_cajan_Kenya_2009","Kala 1B","observation","Megachile sp5.","morphospecies","other_wild_bees",0.272727272727273,NA,NA,NA,"Abundance information refers to the number of flower visits (frequency). Bees were observed along five 100 m-long 2 m-wide transects at field. Each transect was walked twice a day. Observation time was 10 min per transect.",NA
"Mark_Otieno_Cajanus_cajan_Kenya_2009","Kinyambu 1B","observation","Megachile sp5.","morphospecies","other_wild_bees",0.272727272727273,NA,NA,NA,"Abundance information refers to the number of flower visits (frequency). Bees were observed along five 100 m-long 2 m-wide transects at field. Each transect was walked twice a day. Observation time was 10 min per transect.",NA
"Mark_Otieno_Cajanus_cajan_Kenya_2009","Chyulu 1A","observation","Pachymelus conspicuus","species","other_wild_bees",0.272727272727273,NA,NA,NA,"Abundance information refers to the number of flower visits (frequency). Bees were observed along five 100 m-long 2 m-wide transects at field. Each transect was walked twice a day. Observation time was 10 min per transect.",NA
"Mark_Otieno_Cajanus_cajan_Kenya_2009","Athi 1A","observation","Plebeina hildebrandti","species","other_wild_bees",0.272727272727273,NA,NA,NA,"Abundance information refers to the number of flower visits (frequency). Bees were observed along five 100 m-long 2 m-wide transects at field. Each transect was walked twice a day. Observation time was 10 min per transect.",NA
"Mark_Otieno_Cajanus_cajan_Kenya_2009","Athi 1B","observation","Pseudapis sp.","genus","other_wild_bees",0.272727272727273,NA,NA,NA,"Abundance information refers to the number of flower visits (frequency). Bees were observed along five 100 m-long 2 m-wide transects at field. Each transect was walked twice a day. Observation time was 10 min per transect.",NA
"Mark_Otieno_Cajanus_cajan_Kenya_2009","Athi 2B","observation","Systropha aethiopica","species","other_wild_bees",0.272727272727273,NA,NA,NA,"Abundance information refers to the number of flower visits (frequency). Bees were observed along five 100 m-long 2 m-wide transects at field. Each transect was walked twice a day. Observation time was 10 min per transect.",NA
"Mark_Otieno_Cajanus_cajan_Kenya_2009","Kala 2B","observation","Systropha aethiopica","species","other_wild_bees",0.272727272727273,NA,NA,NA,"Abundance information refers to the number of flower visits (frequency). Bees were observed along five 100 m-long 2 m-wide transects at field. Each transect was walked twice a day. Observation time was 10 min per transect.",NA
"Mark_Otieno_Cajanus_cajan_Kenya_2009","Chyulu 1A","observation","Tetraloniella sp.","species group","other_wild_bees",0.272727272727273,NA,NA,NA,"Abundance information refers to the number of flower visits (frequency). Bees were observed along five 100 m-long 2 m-wide transects at field. Each transect was walked twice a day. Observation time was 10 min per transect.",NA
"Mark_Otieno_Cajanus_cajan_Kenya_2009","Athi 1A","observation","Xylocopa caffra","species","other_wild_bees",0.272727272727273,NA,NA,NA,"Abundance information refers to the number of flower visits (frequency). Bees were observed along five 100 m-long 2 m-wide transects at field. Each transect was walked twice a day. Observation time was 10 min per transect.",NA
"Mark_Otieno_Cajanus_cajan_Kenya_2009","Kinyambu 1A","observation","Xylocopa erythrina","species","other_wild_bees",0.272727272727273,NA,NA,NA,"Abundance information refers to the number of flower visits (frequency). Bees were observed along five 100 m-long 2 m-wide transects at field. Each transect was walked twice a day. Observation time was 10 min per transect.",NA
"Mark_Otieno_Cajanus_cajan_Kenya_2009","Athi 1A","observation","Xylocopa inconstans","species","other_wild_bees",0.272727272727273,NA,NA,NA,"Abundance information refers to the number of flower visits (frequency). Bees were observed along five 100 m-long 2 m-wide transects at field. Each transect was walked twice a day. Observation time was 10 min per transect.",NA
"Mark_Otieno_Cajanus_cajan_Kenya_2009","Chyulu 1B","observation","Amegilla cymatilis","species","other_wild_bees",0.181818181818182,NA,NA,NA,"Abundance information refers to the number of flower visits (frequency). Bees were observed along five 100 m-long 2 m-wide transects at field. Each transect was walked twice a day. Observation time was 10 min per transect.",NA
"Mark_Otieno_Cajanus_cajan_Kenya_2009","Kala 2A","observation","Amegilla cymatilis","species","other_wild_bees",0.181818181818182,NA,NA,NA,"Abundance information refers to the number of flower visits (frequency). Bees were observed along five 100 m-long 2 m-wide transects at field. Each transect was walked twice a day. Observation time was 10 min per transect.",NA
"Mark_Otieno_Cajanus_cajan_Kenya_2009","Athi 2B","observation","Amegilla sp 1.","morphospecies","other_wild_bees",0.181818181818182,NA,NA,NA,"Abundance information refers to the number of flower visits (frequency). Bees were observed along five 100 m-long 2 m-wide transects at field. Each transect was walked twice a day. Observation time was 10 min per transect.",NA
"Mark_Otieno_Cajanus_cajan_Kenya_2009","Kala 1A","observation","Amegilla sp 2.","morphospecies","other_wild_bees",0.181818181818182,NA,NA,NA,"Abundance information refers to the number of flower visits (frequency). Bees were observed along five 100 m-long 2 m-wide transects at field. Each transect was walked twice a day. Observation time was 10 min per transect.",NA
"Mark_Otieno_Cajanus_cajan_Kenya_2009","Kala 1B","observation","Amegilla sp 2.","morphospecies","other_wild_bees",0.181818181818182,NA,NA,NA,"Abundance information refers to the number of flower visits (frequency). Bees were observed along five 100 m-long 2 m-wide transects at field. Each transect was walked twice a day. Observation time was 10 min per transect.",NA
"Mark_Otieno_Cajanus_cajan_Kenya_2009","Kala 2A","observation","Amegilla sp 2.","morphospecies","other_wild_bees",0.181818181818182,NA,NA,NA,"Abundance information refers to the number of flower visits (frequency). Bees were observed along five 100 m-long 2 m-wide transects at field. Each transect was walked twice a day. Observation time was 10 min per transect.",NA
"Mark_Otieno_Cajanus_cajan_Kenya_2009","Chyulu 1A","observation","Amegilla sp. 2","morphospecies","other_wild_bees",0.181818181818182,NA,NA,NA,"Abundance information refers to the number of flower visits (frequency). Bees were observed along five 100 m-long 2 m-wide transects at field. Each transect was walked twice a day. Observation time was 10 min per transect.",NA
"Mark_Otieno_Cajanus_cajan_Kenya_2009","Athi 2B","observation","Anthophora sp.","genus","other_wild_bees",0.181818181818182,NA,NA,NA,"Abundance information refers to the number of flower visits (frequency). Bees were observed along five 100 m-long 2 m-wide transects at field. Each transect was walked twice a day. Observation time was 10 min per transect.",NA
"Mark_Otieno_Cajanus_cajan_Kenya_2009","Kala 1B","observation","Anthophora sp.","genus","other_wild_bees",0.181818181818182,NA,NA,NA,"Abundance information refers to the number of flower visits (frequency). Bees were observed along five 100 m-long 2 m-wide transects at field. Each transect was walked twice a day. Observation time was 10 min per transect.",NA
"Mark_Otieno_Cajanus_cajan_Kenya_2009","Kinyambu 1B","observation","Anthophora sp.","genus","other_wild_bees",0.181818181818182,NA,NA,NA,"Abundance information refers to the number of flower visits (frequency). Bees were observed along five 100 m-long 2 m-wide transects at field. Each transect was walked twice a day. Observation time was 10 min per transect.",NA
"Mark_Otieno_Cajanus_cajan_Kenya_2009","Chyulu 1B","observation","Dactylurina sp.","genus","other_wild_bees",0.181818181818182,NA,NA,NA,"Abundance information refers to the number of flower visits (frequency). Bees were observed along five 100 m-long 2 m-wide transects at field. Each transect was walked twice a day. Observation time was 10 min per transect.",NA
"Mark_Otieno_Cajanus_cajan_Kenya_2009","Kala 2B","observation","Heriades sp.","genus","other_wild_bees",0.181818181818182,NA,NA,NA,"Abundance information refers to the number of flower visits (frequency). Bees were observed along five 100 m-long 2 m-wide transects at field. Each transect was walked twice a day. Observation time was 10 min per transect.",NA
"Mark_Otieno_Cajanus_cajan_Kenya_2009","Kinyambu 1A","observation","Hypotrigona gribodoi","species","other_wild_bees",0.181818181818182,NA,NA,NA,"Abundance information refers to the number of flower visits (frequency). Bees were observed along five 100 m-long 2 m-wide transects at field. Each transect was walked twice a day. Observation time was 10 min per transect.",NA
"Mark_Otieno_Cajanus_cajan_Kenya_2009","Kinyambu 1B","observation","Hypotrigona gribodoi","species","other_wild_bees",0.181818181818182,NA,NA,NA,"Abundance information refers to the number of flower visits (frequency). Bees were observed along five 100 m-long 2 m-wide transects at field. Each transect was walked twice a day. Observation time was 10 min per transect.",NA
"Mark_Otieno_Cajanus_cajan_Kenya_2009","Athi 1A","observation","Lassioglossum sp.","genus","other_wild_bees",0.181818181818182,NA,NA,NA,"Abundance information refers to the number of flower visits (frequency). Bees were observed along five 100 m-long 2 m-wide transects at field. Each transect was walked twice a day. Observation time was 10 min per transect.",NA
"Mark_Otieno_Cajanus_cajan_Kenya_2009","Kinyambu 1B","observation","Lassioglossum sp.","genus","other_wild_bees",0.181818181818182,NA,NA,NA,"Abundance information refers to the number of flower visits (frequency). Bees were observed along five 100 m-long 2 m-wide transects at field. Each transect was walked twice a day. Observation time was 10 min per transect.",NA
"Mark_Otieno_Cajanus_cajan_Kenya_2009","Chyulu 1B","observation","Lipotriches sp.","genus","other_wild_bees",0.181818181818182,NA,NA,NA,"Abundance information refers to the number of flower visits (frequency). Bees were observed along five 100 m-long 2 m-wide transects at field. Each transect was walked twice a day. Observation time was 10 min per transect.",NA
"Mark_Otieno_Cajanus_cajan_Kenya_2009","Athi 2A","observation","Lithurge sp.","genus","other_wild_bees",0.181818181818182,NA,NA,NA,"Abundance information refers to the number of flower visits (frequency). Bees were observed along five 100 m-long 2 m-wide transects at field. Each transect was walked twice a day. Observation time was 10 min per transect.",NA
"Mark_Otieno_Cajanus_cajan_Kenya_2009","Kala 2A","observation","Lithurge sp.","genus","other_wild_bees",0.181818181818182,NA,NA,NA,"Abundance information refers to the number of flower visits (frequency). Bees were observed along five 100 m-long 2 m-wide transects at field. Each transect was walked twice a day. Observation time was 10 min per transect.",NA
"Mark_Otieno_Cajanus_cajan_Kenya_2009","Chyulu 1B","observation","Megachile (Chalicodoma) sp.","subgenus","other_wild_bees",0.181818181818182,NA,NA,NA,"Abundance information refers to the number of flower visits (frequency). Bees were observed along five 100 m-long 2 m-wide transects at field. Each transect was walked twice a day. Observation time was 10 min per transect.",NA
"Mark_Otieno_Cajanus_cajan_Kenya_2009","Athi 1B","observation","Megachile bicolor","species","other_wild_bees",0.181818181818182,NA,NA,NA,"Abundance information refers to the number of flower visits (frequency). Bees were observed along five 100 m-long 2 m-wide transects at field. Each transect was walked twice a day. Observation time was 10 min per transect.",NA
"Mark_Otieno_Cajanus_cajan_Kenya_2009","Chyulu 1B","observation","Megachile bicolor","species","other_wild_bees",0.181818181818182,NA,NA,NA,"Abundance information refers to the number of flower visits (frequency). Bees were observed along five 100 m-long 2 m-wide transects at field. Each transect was walked twice a day. Observation time was 10 min per transect.",NA
"Mark_Otieno_Cajanus_cajan_Kenya_2009","Athi 1A","observation","Megachile flavipennis","species","other_wild_bees",0.181818181818182,NA,NA,NA,"Abundance information refers to the number of flower visits (frequency). Bees were observed along five 100 m-long 2 m-wide transects at field. Each transect was walked twice a day. Observation time was 10 min per transect.",NA
"Mark_Otieno_Cajanus_cajan_Kenya_2009","Athi 2A","observation","Megachile flavipennis","species","other_wild_bees",0.181818181818182,NA,NA,NA,"Abundance information refers to the number of flower visits (frequency). Bees were observed along five 100 m-long 2 m-wide transects at field. Each transect was walked twice a day. Observation time was 10 min per transect.",NA
"Mark_Otieno_Cajanus_cajan_Kenya_2009","Athi 2B","observation","Megachile sp.1","morphospecies","other_wild_bees",0.181818181818182,NA,NA,NA,"Abundance information refers to the number of flower visits (frequency). Bees were observed along five 100 m-long 2 m-wide transects at field. Each transect was walked twice a day. Observation time was 10 min per transect.",NA
"Mark_Otieno_Cajanus_cajan_Kenya_2009","Chyulu 1B","observation","Megachile sp.2","morphospecies","other_wild_bees",0.181818181818182,NA,NA,NA,"Abundance information refers to the number of flower visits (frequency). Bees were observed along five 100 m-long 2 m-wide transects at field. Each transect was walked twice a day. Observation time was 10 min per transect.",NA
"Mark_Otieno_Cajanus_cajan_Kenya_2009","Kinyambu 1A","observation","Megachile sp.3","morphospecies","other_wild_bees",0.181818181818182,NA,NA,NA,"Abundance information refers to the number of flower visits (frequency). Bees were observed along five 100 m-long 2 m-wide transects at field. Each transect was walked twice a day. Observation time was 10 min per transect.",NA
"Mark_Otieno_Cajanus_cajan_Kenya_2009","Kinyambu 1B","observation","Megachile sp.3","morphospecies","other_wild_bees",0.181818181818182,NA,NA,NA,"Abundance information refers to the number of flower visits (frequency). Bees were observed along five 100 m-long 2 m-wide transects at field. Each transect was walked twice a day. Observation time was 10 min per transect.",NA
"Mark_Otieno_Cajanus_cajan_Kenya_2009","Chyulu 1B","observation","Megachile sp.4","morphospecies","other_wild_bees",0.181818181818182,NA,NA,NA,"Abundance information refers to the number of flower visits (frequency). Bees were observed along five 100 m-long 2 m-wide transects at field. Each transect was walked twice a day. Observation time was 10 min per transect.",NA
"Mark_Otieno_Cajanus_cajan_Kenya_2009","Chyulu 1B","observation","Meliponula sp.","genus","other_wild_bees",0.181818181818182,NA,NA,NA,"Abundance information refers to the number of flower visits (frequency). Bees were observed along five 100 m-long 2 m-wide transects at field. Each transect was walked twice a day. Observation time was 10 min per transect.",NA
"Mark_Otieno_Cajanus_cajan_Kenya_2009","Kala 1B","observation","Meliponula sp.","genus","other_wild_bees",0.181818181818182,NA,NA,NA,"Abundance information refers to the number of flower visits (frequency). Bees were observed along five 100 m-long 2 m-wide transects at field. Each transect was walked twice a day. Observation time was 10 min per transect.",NA
"Mark_Otieno_Cajanus_cajan_Kenya_2009","Athi 2A","observation","Mellisodes sp.","genus","other_wild_bees",0.181818181818182,NA,NA,NA,"Abundance information refers to the number of flower visits (frequency). Bees were observed along five 100 m-long 2 m-wide transects at field. Each transect was walked twice a day. Observation time was 10 min per transect.",NA
"Mark_Otieno_Cajanus_cajan_Kenya_2009","Kala 2A","observation","Mellisodes sp.","genus","other_wild_bees",0.181818181818182,NA,NA,NA,"Abundance information refers to the number of flower visits (frequency). Bees were observed along five 100 m-long 2 m-wide transects at field. Each transect was walked twice a day. Observation time was 10 min per transect.",NA
"Mark_Otieno_Cajanus_cajan_Kenya_2009","Athi 2B","observation","Nomia sp.","genus","other_wild_bees",0.181818181818182,NA,NA,NA,"Abundance information refers to the number of flower visits (frequency). Bees were observed along five 100 m-long 2 m-wide transects at field. Each transect was walked twice a day. Observation time was 10 min per transect.",NA
"Mark_Otieno_Cajanus_cajan_Kenya_2009","Chyulu 1A","observation","Pachyanthidium cordatum","species","other_wild_bees",0.181818181818182,NA,NA,NA,"Abundance information refers to the number of flower visits (frequency). Bees were observed along five 100 m-long 2 m-wide transects at field. Each transect was walked twice a day. Observation time was 10 min per transect.",NA
"Mark_Otieno_Cajanus_cajan_Kenya_2009","Kala 1A","observation","Pachymelus conspicuus","species","other_wild_bees",0.181818181818182,NA,NA,NA,"Abundance information refers to the number of flower visits (frequency). Bees were observed along five 100 m-long 2 m-wide transects at field. Each transect was walked twice a day. Observation time was 10 min per transect.",NA
"Mark_Otieno_Cajanus_cajan_Kenya_2009","Chyulu 1A","observation","Plebeina hildebrandti","species","other_wild_bees",0.181818181818182,NA,NA,NA,"Abundance information refers to the number of flower visits (frequency). Bees were observed along five 100 m-long 2 m-wide transects at field. Each transect was walked twice a day. Observation time was 10 min per transect.",NA
"Mark_Otieno_Cajanus_cajan_Kenya_2009","Kala 1A","observation","Pseudapis sp.","genus","other_wild_bees",0.181818181818182,NA,NA,NA,"Abundance information refers to the number of flower visits (frequency). Bees were observed along five 100 m-long 2 m-wide transects at field. Each transect was walked twice a day. Observation time was 10 min per transect.",NA
"Mark_Otieno_Cajanus_cajan_Kenya_2009","Kala 2B","observation","Pseudapis sp.","genus","other_wild_bees",0.181818181818182,NA,NA,NA,"Abundance information refers to the number of flower visits (frequency). Bees were observed along five 100 m-long 2 m-wide transects at field. Each transect was walked twice a day. Observation time was 10 min per transect.",NA
"Mark_Otieno_Cajanus_cajan_Kenya_2009","Kinyambu 1B","observation","Pseudapis sp.","genus","other_wild_bees",0.181818181818182,NA,NA,NA,"Abundance information refers to the number of flower visits (frequency). Bees were observed along five 100 m-long 2 m-wide transects at field. Each transect was walked twice a day. Observation time was 10 min per transect.",NA
"Mark_Otieno_Cajanus_cajan_Kenya_2009","Kala 2B","observation","Pseudoanthidium sp.","genus","other_wild_bees",0.181818181818182,NA,NA,NA,"Abundance information refers to the number of flower visits (frequency). Bees were observed along five 100 m-long 2 m-wide transects at field. Each transect was walked twice a day. Observation time was 10 min per transect.",NA
"Mark_Otieno_Cajanus_cajan_Kenya_2009","Kala 2B","observation","Pseudophilanthus sp.","genus","other_wild_bees",0.181818181818182,NA,NA,NA,"Abundance information refers to the number of flower visits (frequency). Bees were observed along five 100 m-long 2 m-wide transects at field. Each transect was walked twice a day. Observation time was 10 min per transect.",NA
"Mark_Otieno_Cajanus_cajan_Kenya_2009","Athi 2A","observation","Systropha aethiopica","species","other_wild_bees",0.181818181818182,NA,NA,NA,"Abundance information refers to the number of flower visits (frequency). Bees were observed along five 100 m-long 2 m-wide transects at field. Each transect was walked twice a day. Observation time was 10 min per transect.",NA
"Mark_Otieno_Cajanus_cajan_Kenya_2009","Kala 2A","observation","Tetralonia sp.","subgenus","other_wild_bees",0.181818181818182,NA,NA,NA,"Abundance information refers to the number of flower visits (frequency). Bees were observed along five 100 m-long 2 m-wide transects at field. Each transect was walked twice a day. Observation time was 10 min per transect.",NA
"Mark_Otieno_Cajanus_cajan_Kenya_2009","Kala 2A","observation","Tetraloniella sp.","species group","other_wild_bees",0.181818181818182,NA,NA,NA,"Abundance information refers to the number of flower visits (frequency). Bees were observed along five 100 m-long 2 m-wide transects at field. Each transect was walked twice a day. Observation time was 10 min per transect.",NA
"Mark_Otieno_Cajanus_cajan_Kenya_2009","Athi 1A","observation","Xylocopa imitator","species","other_wild_bees",0.181818181818182,NA,NA,NA,"Abundance information refers to the number of flower visits (frequency). Bees were observed along five 100 m-long 2 m-wide transects at field. Each transect was walked twice a day. Observation time was 10 min per transect.",NA
"Mark_Otieno_Cajanus_cajan_Kenya_2009","Kala 2A","observation","Xylocopa imitator","species","other_wild_bees",0.181818181818182,NA,NA,NA,"Abundance information refers to the number of flower visits (frequency). Bees were observed along five 100 m-long 2 m-wide transects at field. Each transect was walked twice a day. Observation time was 10 min per transect.",NA
"Mark_Otieno_Cajanus_cajan_Kenya_2009","Kala 1A","observation","Xylocopa inconstans","species","other_wild_bees",0.181818181818182,NA,NA,NA,"Abundance information refers to the number of flower visits (frequency). Bees were observed along five 100 m-long 2 m-wide transects at field. Each transect was walked twice a day. Observation time was 10 min per transect.",NA
"Mark_Otieno_Cajanus_cajan_Kenya_2009","Chyulu 1A","observation","Xylocopa senior","species","other_wild_bees",0.181818181818182,NA,NA,NA,"Abundance information refers to the number of flower visits (frequency). Bees were observed along five 100 m-long 2 m-wide transects at field. Each transect was walked twice a day. Observation time was 10 min per transect.",NA
"Mark_Otieno_Cajanus_cajan_Kenya_2009","Kala 1A","observation","Xylocopa senior","species","other_wild_bees",0.181818181818182,NA,NA,NA,"Abundance information refers to the number of flower visits (frequency). Bees were observed along five 100 m-long 2 m-wide transects at field. Each transect was walked twice a day. Observation time was 10 min per transect.",NA
"Mark_Otieno_Cajanus_cajan_Kenya_2009","Kinyambu 1B","observation","Xylocopa sp.1","morphospecies","other_wild_bees",0.181818181818182,NA,NA,NA,"Abundance information refers to the number of flower visits (frequency). Bees were observed along five 100 m-long 2 m-wide transects at field. Each transect was walked twice a day. Observation time was 10 min per transect.",NA
"Mark_Otieno_Cajanus_cajan_Kenya_2009","Athi 1A","observation","Xylocopa sp.2","morphospecies","other_wild_bees",0.181818181818182,NA,NA,NA,"Abundance information refers to the number of flower visits (frequency). Bees were observed along five 100 m-long 2 m-wide transects at field. Each transect was walked twice a day. Observation time was 10 min per transect.",NA
"Mark_Otieno_Cajanus_cajan_Kenya_2009","Athi 1B","observation","Xylocopa sp.2","morphospecies","other_wild_bees",0.181818181818182,NA,NA,NA,"Abundance information refers to the number of flower visits (frequency). Bees were observed along five 100 m-long 2 m-wide transects at field. Each transect was walked twice a day. Observation time was 10 min per transect.",NA
"Mark_Otieno_Cajanus_cajan_Kenya_2009","Chyulu 1B","observation","Xylocopa sp.2","morphospecies","other_wild_bees",0.181818181818182,NA,NA,NA,"Abundance information refers to the number of flower visits (frequency). Bees were observed along five 100 m-long 2 m-wide transects at field. Each transect was walked twice a day. Observation time was 10 min per transect.",NA
"Mark_Otieno_Cajanus_cajan_Kenya_2009","Kinyambu 1A","observation","Xylocopa sp.3","morphospecies","other_wild_bees",0.181818181818182,NA,NA,NA,"Abundance information refers to the number of flower visits (frequency). Bees were observed along five 100 m-long 2 m-wide transects at field. Each transect was walked twice a day. Observation time was 10 min per transect.",NA
"Mark_Otieno_Cajanus_cajan_Kenya_2009","Athi 2A","observation","Amegilla caelestina","species","other_wild_bees",0.0909090909090909,NA,NA,NA,"Abundance information refers to the number of flower visits (frequency). Bees were observed along five 100 m-long 2 m-wide transects at field. Each transect was walked twice a day. Observation time was 10 min per transect.",NA
"Mark_Otieno_Cajanus_cajan_Kenya_2009","Kala 2B","observation","Amegilla caelestina","species","other_wild_bees",0.0909090909090909,NA,NA,NA,"Abundance information refers to the number of flower visits (frequency). Bees were observed along five 100 m-long 2 m-wide transects at field. Each transect was walked twice a day. Observation time was 10 min per transect.",NA
"Mark_Otieno_Cajanus_cajan_Kenya_2009","Kinyambu 1B","observation","Amegilla caelestina","species","other_wild_bees",0.0909090909090909,NA,NA,NA,"Abundance information refers to the number of flower visits (frequency). Bees were observed along five 100 m-long 2 m-wide transects at field. Each transect was walked twice a day. Observation time was 10 min per transect.",NA
"Mark_Otieno_Cajanus_cajan_Kenya_2009","Chyulu 1B","observation","Amegilla sp 1.","morphospecies","other_wild_bees",0.0909090909090909,NA,NA,NA,"Abundance information refers to the number of flower visits (frequency). Bees were observed along five 100 m-long 2 m-wide transects at field. Each transect was walked twice a day. Observation time was 10 min per transect.",NA
"Mark_Otieno_Cajanus_cajan_Kenya_2009","Kala 1B","observation","Amegilla sp 1.","morphospecies","other_wild_bees",0.0909090909090909,NA,NA,NA,"Abundance information refers to the number of flower visits (frequency). Bees were observed along five 100 m-long 2 m-wide transects at field. Each transect was walked twice a day. Observation time was 10 min per transect.",NA
"Mark_Otieno_Cajanus_cajan_Kenya_2009","Athi 1A","observation","Anthidium sp.","genus","other_wild_bees",0.0909090909090909,NA,NA,NA,"Abundance information refers to the number of flower visits (frequency). Bees were observed along five 100 m-long 2 m-wide transects at field. Each transect was walked twice a day. Observation time was 10 min per transect.",NA
"Mark_Otieno_Cajanus_cajan_Kenya_2009","Athi 2B","observation","Anthidium sp.","genus","other_wild_bees",0.0909090909090909,NA,NA,NA,"Abundance information refers to the number of flower visits (frequency). Bees were observed along five 100 m-long 2 m-wide transects at field. Each transect was walked twice a day. Observation time was 10 min per transect.",NA
"Mark_Otieno_Cajanus_cajan_Kenya_2009","Chyulu 1B","observation","Anthidium sp.","genus","other_wild_bees",0.0909090909090909,NA,NA,NA,"Abundance information refers to the number of flower visits (frequency). Bees were observed along five 100 m-long 2 m-wide transects at field. Each transect was walked twice a day. Observation time was 10 min per transect.",NA
"Mark_Otieno_Cajanus_cajan_Kenya_2009","Kala 1B","observation","Anthidium sp.","genus","other_wild_bees",0.0909090909090909,NA,NA,NA,"Abundance information refers to the number of flower visits (frequency). Bees were observed along five 100 m-long 2 m-wide transects at field. Each transect was walked twice a day. Observation time was 10 min per transect.",NA
"Mark_Otieno_Cajanus_cajan_Kenya_2009","Chyulu 1B","observation","Anthophora sp.","genus","other_wild_bees",0.0909090909090909,NA,NA,NA,"Abundance information refers to the number of flower visits (frequency). Bees were observed along five 100 m-long 2 m-wide transects at field. Each transect was walked twice a day. Observation time was 10 min per transect.",NA
"Mark_Otieno_Cajanus_cajan_Kenya_2009","Kala 1A","observation","Anthophora sp.","genus","other_wild_bees",0.0909090909090909,NA,NA,NA,"Abundance information refers to the number of flower visits (frequency). Bees were observed along five 100 m-long 2 m-wide transects at field. Each transect was walked twice a day. Observation time was 10 min per transect.",NA
"Mark_Otieno_Cajanus_cajan_Kenya_2009","Kala 2A","observation","Anthophora sp.","genus","other_wild_bees",0.0909090909090909,NA,NA,NA,"Abundance information refers to the number of flower visits (frequency). Bees were observed along five 100 m-long 2 m-wide transects at field. Each transect was walked twice a day. Observation time was 10 min per transect.",NA
"Mark_Otieno_Cajanus_cajan_Kenya_2009","Kala 2B","observation","Anthophora sp.","genus","other_wild_bees",0.0909090909090909,NA,NA,NA,"Abundance information refers to the number of flower visits (frequency). Bees were observed along five 100 m-long 2 m-wide transects at field. Each transect was walked twice a day. Observation time was 10 min per transect.",NA
"Mark_Otieno_Cajanus_cajan_Kenya_2009","Kinyambu 1A","observation","Anthophora sp.","genus","other_wild_bees",0.0909090909090909,NA,NA,NA,"Abundance information refers to the number of flower visits (frequency). Bees were observed along five 100 m-long 2 m-wide transects at field. Each transect was walked twice a day. Observation time was 10 min per transect.",NA
"Mark_Otieno_Cajanus_cajan_Kenya_2009","Athi 1A","observation","Braunsapis sp.","genus","other_wild_bees",0.0909090909090909,NA,NA,NA,"Abundance information refers to the number of flower visits (frequency). Bees were observed along five 100 m-long 2 m-wide transects at field. Each transect was walked twice a day. Observation time was 10 min per transect.",NA
"Mark_Otieno_Cajanus_cajan_Kenya_2009","Kala 2A","observation","Braunsapis sp.","genus","other_wild_bees",0.0909090909090909,NA,NA,NA,"Abundance information refers to the number of flower visits (frequency). Bees were observed along five 100 m-long 2 m-wide transects at field. Each transect was walked twice a day. Observation time was 10 min per transect.",NA
"Mark_Otieno_Cajanus_cajan_Kenya_2009","Athi 1B","observation","Coelioxys sp.","genus","other_wild_bees",0.0909090909090909,NA,NA,NA,"Abundance information refers to the number of flower visits (frequency). Bees were observed along five 100 m-long 2 m-wide transects at field. Each transect was walked twice a day. Observation time was 10 min per transect.",NA
"Mark_Otieno_Cajanus_cajan_Kenya_2009","Athi 2A","observation","Coelioxys sp.","genus","other_wild_bees",0.0909090909090909,NA,NA,NA,"Abundance information refers to the number of flower visits (frequency). Bees were observed along five 100 m-long 2 m-wide transects at field. Each transect was walked twice a day. Observation time was 10 min per transect.",NA
"Mark_Otieno_Cajanus_cajan_Kenya_2009","Athi 1B","observation","Dactylurina sp.","genus","other_wild_bees",0.0909090909090909,NA,NA,NA,"Abundance information refers to the number of flower visits (frequency). Bees were observed along five 100 m-long 2 m-wide transects at field. Each transect was walked twice a day. Observation time was 10 min per transect.",NA
"Mark_Otieno_Cajanus_cajan_Kenya_2009","Kala 2A","observation","Dactylurina sp.","genus","other_wild_bees",0.0909090909090909,NA,NA,NA,"Abundance information refers to the number of flower visits (frequency). Bees were observed along five 100 m-long 2 m-wide transects at field. Each transect was walked twice a day. Observation time was 10 min per transect.",NA
"Mark_Otieno_Cajanus_cajan_Kenya_2009","Athi 2A","observation","Euaspis abdominalis","species","other_wild_bees",0.0909090909090909,NA,NA,NA,"Abundance information refers to the number of flower visits (frequency). Bees were observed along five 100 m-long 2 m-wide transects at field. Each transect was walked twice a day. Observation time was 10 min per transect.",NA
"Mark_Otieno_Cajanus_cajan_Kenya_2009","Chyulu 1A","observation","Euaspis abdominalis","species","other_wild_bees",0.0909090909090909,NA,NA,NA,"Abundance information refers to the number of flower visits (frequency). Bees were observed along five 100 m-long 2 m-wide transects at field. Each transect was walked twice a day. Observation time was 10 min per transect.",NA
"Mark_Otieno_Cajanus_cajan_Kenya_2009","Chyulu 1A","observation","Halictus","genus","other_wild_bees",0.0909090909090909,NA,NA,NA,"Abundance information refers to the number of flower visits (frequency). Bees were observed along five 100 m-long 2 m-wide transects at field. Each transect was walked twice a day. Observation time was 10 min per transect.",NA
"Mark_Otieno_Cajanus_cajan_Kenya_2009","Chyulu 1B","observation","Halictus","genus","other_wild_bees",0.0909090909090909,NA,NA,NA,"Abundance information refers to the number of flower visits (frequency). Bees were observed along five 100 m-long 2 m-wide transects at field. Each transect was walked twice a day. Observation time was 10 min per transect.",NA
"Mark_Otieno_Cajanus_cajan_Kenya_2009","Kala 2A","observation","Heriades sp.","genus","other_wild_bees",0.0909090909090909,NA,NA,NA,"Abundance information refers to the number of flower visits (frequency). Bees were observed along five 100 m-long 2 m-wide transects at field. Each transect was walked twice a day. Observation time was 10 min per transect.",NA
"Mark_Otieno_Cajanus_cajan_Kenya_2009","Athi 2B","observation","Hypotrigona gribodoi","species","other_wild_bees",0.0909090909090909,NA,NA,NA,"Abundance information refers to the number of flower visits (frequency). Bees were observed along five 100 m-long 2 m-wide transects at field. Each transect was walked twice a day. Observation time was 10 min per transect.",NA
"Mark_Otieno_Cajanus_cajan_Kenya_2009","Kala 1A","observation","Hypotrigona gribodoi","species","other_wild_bees",0.0909090909090909,NA,NA,NA,"Abundance information refers to the number of flower visits (frequency). Bees were observed along five 100 m-long 2 m-wide transects at field. Each transect was walked twice a day. Observation time was 10 min per transect.",NA
"Mark_Otieno_Cajanus_cajan_Kenya_2009","Kala 1B","observation","Lassioglossum sp.","genus","other_wild_bees",0.0909090909090909,NA,NA,NA,"Abundance information refers to the number of flower visits (frequency). Bees were observed along five 100 m-long 2 m-wide transects at field. Each transect was walked twice a day. Observation time was 10 min per transect.",NA
"Mark_Otieno_Cajanus_cajan_Kenya_2009","Kala 2B","observation","Lassioglossum sp.","genus","other_wild_bees",0.0909090909090909,NA,NA,NA,"Abundance information refers to the number of flower visits (frequency). Bees were observed along five 100 m-long 2 m-wide transects at field. Each transect was walked twice a day. Observation time was 10 min per transect.",NA
"Mark_Otieno_Cajanus_cajan_Kenya_2009","Athi 1B","observation","Lipotriches sp.","genus","other_wild_bees",0.0909090909090909,NA,NA,NA,"Abundance information refers to the number of flower visits (frequency). Bees were observed along five 100 m-long 2 m-wide transects at field. Each transect was walked twice a day. Observation time was 10 min per transect.",NA
"Mark_Otieno_Cajanus_cajan_Kenya_2009","Kala 1B","observation","Lipotriches sp.","genus","other_wild_bees",0.0909090909090909,NA,NA,NA,"Abundance information refers to the number of flower visits (frequency). Bees were observed along five 100 m-long 2 m-wide transects at field. Each transect was walked twice a day. Observation time was 10 min per transect.",NA
"Mark_Otieno_Cajanus_cajan_Kenya_2009","Kala 2A","observation","Lipotriches sp.","genus","other_wild_bees",0.0909090909090909,NA,NA,NA,"Abundance information refers to the number of flower visits (frequency). Bees were observed along five 100 m-long 2 m-wide transects at field. Each transect was walked twice a day. Observation time was 10 min per transect.",NA
"Mark_Otieno_Cajanus_cajan_Kenya_2009","Kala 1A","observation","Macrogalea candida","species","other_wild_bees",0.0909090909090909,NA,NA,NA,"Abundance information refers to the number of flower visits (frequency). Bees were observed along five 100 m-long 2 m-wide transects at field. Each transect was walked twice a day. Observation time was 10 min per transect.",NA
"Mark_Otieno_Cajanus_cajan_Kenya_2009","Kala 2B","observation","Megachile bicolor","species","other_wild_bees",0.0909090909090909,NA,NA,NA,"Abundance information refers to the number of flower visits (frequency). Bees were observed along five 100 m-long 2 m-wide transects at field. Each transect was walked twice a day. Observation time was 10 min per transect.",NA
"Mark_Otieno_Cajanus_cajan_Kenya_2009","Kala 1B","observation","Megachile flavipennis","species","other_wild_bees",0.0909090909090909,NA,NA,NA,"Abundance information refers to the number of flower visits (frequency). Bees were observed along five 100 m-long 2 m-wide transects at field. Each transect was walked twice a day. Observation time was 10 min per transect.",NA
"Mark_Otieno_Cajanus_cajan_Kenya_2009","Kinyambu 1B","observation","Megachile flavipennis","species","other_wild_bees",0.0909090909090909,NA,NA,NA,"Abundance information refers to the number of flower visits (frequency). Bees were observed along five 100 m-long 2 m-wide transects at field. Each transect was walked twice a day. Observation time was 10 min per transect.",NA
"Mark_Otieno_Cajanus_cajan_Kenya_2009","Kala 2B","observation","Megachile sp.4","morphospecies","other_wild_bees",0.0909090909090909,NA,NA,NA,"Abundance information refers to the number of flower visits (frequency). Bees were observed along five 100 m-long 2 m-wide transects at field. Each transect was walked twice a day. Observation time was 10 min per transect.",NA
"Mark_Otieno_Cajanus_cajan_Kenya_2009","Kala 1A","observation","Pachyanthidium cordatum","species","other_wild_bees",0.0909090909090909,NA,NA,NA,"Abundance information refers to the number of flower visits (frequency). Bees were observed along five 100 m-long 2 m-wide transects at field. Each transect was walked twice a day. Observation time was 10 min per transect.",NA
"Mark_Otieno_Cajanus_cajan_Kenya_2009","Athi 1A","observation","Pachymelus conspicuus","species","other_wild_bees",0.0909090909090909,NA,NA,NA,"Abundance information refers to the number of flower visits (frequency). Bees were observed along five 100 m-long 2 m-wide transects at field. Each transect was walked twice a day. Observation time was 10 min per transect.",NA
"Mark_Otieno_Cajanus_cajan_Kenya_2009","Kala 2B","observation","Plebeina hildebrandti","species","other_wild_bees",0.0909090909090909,NA,NA,NA,"Abundance information refers to the number of flower visits (frequency). Bees were observed along five 100 m-long 2 m-wide transects at field. Each transect was walked twice a day. Observation time was 10 min per transect.",NA
"Mark_Otieno_Cajanus_cajan_Kenya_2009","Kinyambu 1B","observation","Plebeina hildebrandti","species","other_wild_bees",0.0909090909090909,NA,NA,NA,"Abundance information refers to the number of flower visits (frequency). Bees were observed along five 100 m-long 2 m-wide transects at field. Each transect was walked twice a day. Observation time was 10 min per transect.",NA
"Mark_Otieno_Cajanus_cajan_Kenya_2009","Athi 1A","observation","Pseudapis sp.","genus","other_wild_bees",0.0909090909090909,NA,NA,NA,"Abundance information refers to the number of flower visits (frequency). Bees were observed along five 100 m-long 2 m-wide transects at field. Each transect was walked twice a day. Observation time was 10 min per transect.",NA
"Mark_Otieno_Cajanus_cajan_Kenya_2009","Athi 2B","observation","Pseudapis sp.","genus","other_wild_bees",0.0909090909090909,NA,NA,NA,"Abundance information refers to the number of flower visits (frequency). Bees were observed along five 100 m-long 2 m-wide transects at field. Each transect was walked twice a day. Observation time was 10 min per transect.",NA
"Mark_Otieno_Cajanus_cajan_Kenya_2009","Kinyambu 1A","observation","Pseudapis sp.","genus","other_wild_bees",0.0909090909090909,NA,NA,NA,"Abundance information refers to the number of flower visits (frequency). Bees were observed along five 100 m-long 2 m-wide transects at field. Each transect was walked twice a day. Observation time was 10 min per transect.",NA
"Mark_Otieno_Cajanus_cajan_Kenya_2009","Athi 2A","observation","Pseudophilanthus sp.","genus","other_wild_bees",0.0909090909090909,NA,NA,NA,"Abundance information refers to the number of flower visits (frequency). Bees were observed along five 100 m-long 2 m-wide transects at field. Each transect was walked twice a day. Observation time was 10 min per transect.",NA
"Mark_Otieno_Cajanus_cajan_Kenya_2009","Kinyambu 1B","observation","Systropha aethiopica","species","other_wild_bees",0.0909090909090909,NA,NA,NA,"Abundance information refers to the number of flower visits (frequency). Bees were observed along five 100 m-long 2 m-wide transects at field. Each transect was walked twice a day. Observation time was 10 min per transect.",NA
"Mark_Otieno_Cajanus_cajan_Kenya_2009","Chyulu 1A","observation","Tetralonia sp.","subgenus","other_wild_bees",0.0909090909090909,NA,NA,NA,"Abundance information refers to the number of flower visits (frequency). Bees were observed along five 100 m-long 2 m-wide transects at field. Each transect was walked twice a day. Observation time was 10 min per transect.",NA
"Mark_Otieno_Cajanus_cajan_Kenya_2009","Athi 1B","observation","Tetraloniella sp.","species group","other_wild_bees",0.0909090909090909,NA,NA,NA,"Abundance information refers to the number of flower visits (frequency). Bees were observed along five 100 m-long 2 m-wide transects at field. Each transect was walked twice a day. Observation time was 10 min per transect.",NA
"Mark_Otieno_Cajanus_cajan_Kenya_2009","Athi 1A","observation","Thyreus pictus","species","other_wild_bees",0.0909090909090909,NA,NA,NA,"Abundance information refers to the number of flower visits (frequency). Bees were observed along five 100 m-long 2 m-wide transects at field. Each transect was walked twice a day. Observation time was 10 min per transect.",NA
"Mark_Otieno_Cajanus_cajan_Kenya_2009","Chyulu 1A","observation","Thyreus pictus","species","other_wild_bees",0.0909090909090909,NA,NA,NA,"Abundance information refers to the number of flower visits (frequency). Bees were observed along five 100 m-long 2 m-wide transects at field. Each transect was walked twice a day. Observation time was 10 min per transect.",NA
"Mark_Otieno_Cajanus_cajan_Kenya_2009","Kinyambu 1A","observation","Thyreus pictus","species","other_wild_bees",0.0909090909090909,NA,NA,NA,"Abundance information refers to the number of flower visits (frequency). Bees were observed along five 100 m-long 2 m-wide transects at field. Each transect was walked twice a day. Observation time was 10 min per transect.",NA
"Mark_Otieno_Cajanus_cajan_Kenya_2009","Athi 1B","observation","Xylocopa caffra","species","other_wild_bees",0.0909090909090909,NA,NA,NA,"Abundance information refers to the number of flower visits (frequency). Bees were observed along five 100 m-long 2 m-wide transects at field. Each transect was walked twice a day. Observation time was 10 min per transect.",NA
"Mark_Otieno_Cajanus_cajan_Kenya_2009","Athi 2A","observation","Xylocopa caffra","species","other_wild_bees",0.0909090909090909,NA,NA,NA,"Abundance information refers to the number of flower visits (frequency). Bees were observed along five 100 m-long 2 m-wide transects at field. Each transect was walked twice a day. Observation time was 10 min per transect.",NA
"Mark_Otieno_Cajanus_cajan_Kenya_2009","Kala 1A","observation","Xylocopa erythrina","species","other_wild_bees",0.0909090909090909,NA,NA,NA,"Abundance information refers to the number of flower visits (frequency). Bees were observed along five 100 m-long 2 m-wide transects at field. Each transect was walked twice a day. Observation time was 10 min per transect.",NA
"Mark_Otieno_Cajanus_cajan_Kenya_2009","Athi 2B","observation","Xylocopa inconstans","species","other_wild_bees",0.0909090909090909,NA,NA,NA,"Abundance information refers to the number of flower visits (frequency). Bees were observed along five 100 m-long 2 m-wide transects at field. Each transect was walked twice a day. Observation time was 10 min per transect.",NA
"Mark_Otieno_Cajanus_cajan_Kenya_2009","Chyulu 1B","observation","Xylocopa inconstans","species","other_wild_bees",0.0909090909090909,NA,NA,NA,"Abundance information refers to the number of flower visits (frequency). Bees were observed along five 100 m-long 2 m-wide transects at field. Each transect was walked twice a day. Observation time was 10 min per transect.",NA
"Mark_Otieno_Cajanus_cajan_Kenya_2009","Kala 2A","observation","Xylocopa inconstans","species","other_wild_bees",0.0909090909090909,NA,NA,NA,"Abundance information refers to the number of flower visits (frequency). Bees were observed along five 100 m-long 2 m-wide transects at field. Each transect was walked twice a day. Observation time was 10 min per transect.",NA
"Mark_Otieno_Cajanus_cajan_Kenya_2009","Kinyambu 1B","observation","Xylocopa inconstans","species","other_wild_bees",0.0909090909090909,NA,NA,NA,"Abundance information refers to the number of flower visits (frequency). Bees were observed along five 100 m-long 2 m-wide transects at field. Each transect was walked twice a day. Observation time was 10 min per transect.",NA
"Mark_Otieno_Cajanus_cajan_Kenya_2009","Chyulu 1B","observation","Xylocopa senior","species","other_wild_bees",0.0909090909090909,NA,NA,NA,"Abundance information refers to the number of flower visits (frequency). Bees were observed along five 100 m-long 2 m-wide transects at field. Each transect was walked twice a day. Observation time was 10 min per transect.",NA
"Mark_Otieno_Cajanus_cajan_Kenya_2009","Chyulu 1A","observation","Xylocopa somalica","species","other_wild_bees",0.0909090909090909,NA,NA,NA,"Abundance information refers to the number of flower visits (frequency). Bees were observed along five 100 m-long 2 m-wide transects at field. Each transect was walked twice a day. Observation time was 10 min per transect.",NA
"Mark_Otieno_Cajanus_cajan_Kenya_2009","Kala 2A","observation","Xylocopa sp.1","morphospecies","other_wild_bees",0.0909090909090909,NA,NA,NA,"Abundance information refers to the number of flower visits (frequency). Bees were observed along five 100 m-long 2 m-wide transects at field. Each transect was walked twice a day. Observation time was 10 min per transect.",NA
"Mia_Park_Malus_domestica_USA_2009","BakersAcres","netting","Andrena carlini","species","other_wild_bees",1,300,45,NA,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2009","BakersAcres","netting","Andrena crataegi","species","other_wild_bees",43,300,45,NA,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2009","BakersAcres","netting","Andrena forbesii","species","other_wild_bees",1,300,45,NA,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2009","BakersAcres","netting","Andrena hippotes","species","other_wild_bees",7,300,45,NA,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2009","BakersAcres","netting","Andrena imitatrix","species","other_wild_bees",1,300,45,NA,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2009","BakersAcres","netting","Andrena miserabilis","species","other_wild_bees",6,300,45,NA,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2009","BakersAcres","netting","Andrena nasonii","species","other_wild_bees",8,300,45,NA,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2009","BakersAcres","netting","Andrena regularis","species","other_wild_bees",3,300,45,NA,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2009","BakersAcres","netting","Apis mellifera","species","honeybees",7,300,45,NA,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2009","BakersAcres","netting","Bombus bimaculatus","species","bumblebees",1,300,45,NA,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2009","BakersAcres","netting","Lasioglossum mitchelli","species","other_wild_bees",2,300,45,NA,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2009","BakersAcres","netting","Lasioglossum zephyrum","species","other_wild_bees",1,300,45,NA,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2009","BakersAcres","netting","Osmia cornifrons","species","other_wild_bees",1,300,45,NA,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2009","BakersAcres","netting","Xylocopa virginica","species","other_wild_bees",1,300,45,NA,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2009","Cornell01","netting","Andrena carlini","species","other_wild_bees",1,300,45,NA,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2009","Cornell01","netting","Andrena crataegi","species","other_wild_bees",2,300,45,NA,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2009","Cornell01","netting","Andrena cressonii","species","other_wild_bees",2,300,45,NA,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2009","Cornell01","netting","Andrena duningi","species","other_wild_bees",1,300,45,NA,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2009","Cornell01","netting","Andrena hippotes","species","other_wild_bees",4,300,45,NA,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2009","Cornell01","netting","Andrena imitatrix","species","other_wild_bees",3,300,45,NA,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2009","Cornell01","netting","Andrena milwaukeensis","species","other_wild_bees",1,300,45,NA,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2009","Cornell01","netting","Andrena miserabilis","species","other_wild_bees",3,300,45,NA,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2009","Cornell01","netting","Andrena nasonii","species","other_wild_bees",5,300,45,NA,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2009","Cornell01","netting","Andrena perplexa","species","other_wild_bees",1,300,45,NA,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2009","Cornell01","netting","Andrena regularis","species","other_wild_bees",29,300,45,NA,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2009","Cornell01","netting","Andrena vicina","species","other_wild_bees",15,300,45,NA,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2009","Cornell01","netting","Apis mellifera","species","honeybees",28,300,45,NA,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2009","Cornell01","netting","Colletes inaequalis","species","other_wild_bees",8,300,45,NA,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2009","Cornell01","netting","Xylocopa virginica","species","other_wild_bees",1,300,45,NA,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2009","Cornell02","netting","Andrena carlini","species","other_wild_bees",6,1000,150,NA,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2009","Cornell02","netting","Andrena crataegi","species","other_wild_bees",12,1000,150,NA,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2009","Cornell02","netting","Andrena cressonii","species","other_wild_bees",1,1000,150,NA,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2009","Cornell02","netting","Andrena duningi","species","other_wild_bees",3,1000,150,NA,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2009","Cornell02","netting","Andrena erythronii","species","other_wild_bees",1,1000,150,NA,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2009","Cornell02","netting","Andrena forbesii","species","other_wild_bees",3,1000,150,NA,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2009","Cornell02","netting","Andrena hippotes","species","other_wild_bees",4,1000,150,NA,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2009","Cornell02","netting","Andrena mandibularis","species","other_wild_bees",1,1000,150,NA,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2009","Cornell02","netting","Andrena milwaukeensis","species","other_wild_bees",1,1000,150,NA,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2009","Cornell02","netting","Andrena miserabilis","species","other_wild_bees",3,1000,150,NA,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2009","Cornell02","netting","Andrena nasonii","species","other_wild_bees",33,1000,150,NA,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2009","Cornell02","netting","Andrena perplexa","species","other_wild_bees",5,1000,150,NA,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2009","Cornell02","netting","Andrena pruni","species","other_wild_bees",9,1000,150,NA,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2009","Cornell02","netting","Andrena rugosa","species","other_wild_bees",8,1000,150,NA,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2009","Cornell02","netting","Andrena vicina","species","other_wild_bees",3,1000,150,NA,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2009","Cornell02","netting","Apis mellifera","species","honeybees",118,1000,150,NA,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2009","Cornell02","netting","Augochlorella aurata","species","other_wild_bees",1,1000,150,NA,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2009","Cornell02","netting","Augochlorella metallica","species","other_wild_bees",1,1000,150,NA,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2009","Cornell02","netting","Augochlorella pura","species","other_wild_bees",1,1000,150,NA,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2009","Cornell02","netting","Bombus bimaculatus","species","bumblebees",2,1000,150,NA,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2009","Cornell02","netting","Bombus impatiens","species","bumblebees",9,1000,150,NA,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2009","Cornell02","netting","Bombus perplexus","species","bumblebees",1,1000,150,NA,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2009","Cornell02","netting","Ceratina calcarata","species","other_wild_bees",1,1000,150,NA,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2009","Cornell02","netting","Colletes inaequalis","species","other_wild_bees",2,1000,150,NA,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2009","Cornell02","netting","Halictus rubicundus","species","other_wild_bees",2,1000,150,NA,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2009","Cornell02","netting","Lasioglossum cinctipes","species","other_wild_bees",3,1000,150,NA,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2009","Cornell02","netting","Lasioglossum foxii","species","other_wild_bees",1,1000,150,NA,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2009","Cornell02","netting","Lasioglossum laevissimum","species","other_wild_bees",1,1000,150,NA,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2009","Cornell02","netting","Lasioglossum mitchelli","species","other_wild_bees",1,1000,150,NA,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2009","Cornell02","netting","Lasioglossum perpunctatum","species","other_wild_bees",1,1000,150,NA,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2009","Cornell02","netting","Lasioglossum versatum","species","other_wild_bees",1,1000,150,NA,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2009","Cornell02","netting","Osmia cornifrons","species","other_wild_bees",2,1000,150,NA,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2009","Cornell02","netting","Osmia taurus","species","other_wild_bees",1,1000,150,NA,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2009","Cornell02","netting","Xylocopa virginica","species","other_wild_bees",9,1000,150,NA,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2009","Endres","netting","Andrena algida","species","other_wild_bees",1,600,90,NA,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2009","Endres","netting","Andrena carlini","species","other_wild_bees",1,600,90,NA,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2009","Endres","netting","Andrena crataegi","species","other_wild_bees",3,600,90,NA,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2009","Endres","netting","Andrena forbesii","species","other_wild_bees",1,600,90,NA,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2009","Endres","netting","Andrena hippotes","species","other_wild_bees",1,600,90,NA,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2009","Endres","netting","Andrena imitatrix","species","other_wild_bees",1,600,90,NA,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2009","Endres","netting","Andrena mandibularis","species","other_wild_bees",2,600,90,NA,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2009","Endres","netting","Andrena miserabilis","species","other_wild_bees",1,600,90,NA,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2009","Endres","netting","Andrena nasonii","species","other_wild_bees",2,600,90,NA,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2009","Endres","netting","Andrena regularis","species","other_wild_bees",35,600,90,NA,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2009","Endres","netting","Andrena rugosa","species","other_wild_bees",2,600,90,NA,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2009","Endres","netting","Andrena vicina","species","other_wild_bees",16,600,90,NA,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2009","Endres","netting","Apis mellifera","species","honeybees",43,600,90,NA,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2009","Endres","netting","Augochlorella aurata","species","other_wild_bees",1,600,90,NA,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2009","Endres","netting","Augochlorella pura","species","other_wild_bees",2,600,90,NA,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2009","Endres","netting","Bombus bimaculatus","species","bumblebees",2,600,90,NA,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2009","Endres","netting","Bombus impatiens","species","bumblebees",2,600,90,NA,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2009","Endres","netting","Bombus perplexus","species","bumblebees",1,600,90,NA,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2009","Endres","netting","Certina calcarata","species","other_wild_bees",7,600,90,NA,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2009","Endres","netting","Colletes inaequalis","species","other_wild_bees",1,600,90,NA,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2009","Endres","netting","Lasioglossum coeruleum","species","other_wild_bees",3,600,90,NA,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2009","Endres","netting","Lasioglossum laevissimum","species","other_wild_bees",1,600,90,NA,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2009","Endres","netting","Lasioglossum obscurum","species","other_wild_bees",6,600,90,NA,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2009","Endres","netting","Lasioglossum quebecense","species","other_wild_bees",1,600,90,NA,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2009","Endres","netting","Lasioglossum subviridatum","species","other_wild_bees",1,600,90,NA,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2009","Endres","netting","Osmia atriventris","species","other_wild_bees",1,600,90,NA,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2009","Endres","netting","Osmia bucephala","species","other_wild_bees",1,600,90,NA,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2009","Endres","netting","Osmia pumila","species","other_wild_bees",1,600,90,NA,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2009","Endres","netting","Xylocopa virginica","species","other_wild_bees",3,600,90,NA,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2009","GrisamoreFarms","netting","Andrena carlini","species","other_wild_bees",2,200,30,NA,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2009","GrisamoreFarms","netting","Andrena crataegi","species","other_wild_bees",5,200,30,NA,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2009","GrisamoreFarms","netting","Andrena miserabilis","species","other_wild_bees",2,200,30,NA,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2009","GrisamoreFarms","netting","Andrena nasonii","species","other_wild_bees",5,200,30,NA,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2009","GrisamoreFarms","netting","Andrena rugosa","species","other_wild_bees",2,200,30,NA,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2009","GrisamoreFarms","netting","Andrena vicina","species","other_wild_bees",1,200,30,NA,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2009","GrisamoreFarms","netting","Andrena w-scripta","species","other_wild_bees",1,200,30,NA,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2009","GrisamoreFarms","netting","Apis mellifera","species","honeybees",36,200,30,NA,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2009","GrisamoreFarms","netting","Lasioglossum cinctipes","species","other_wild_bees",1,200,30,NA,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2009","GrisamoreFarms","netting","Osmia pumila","species","other_wild_bees",1,200,30,NA,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2009","GrisamoreFarms","netting","Xylocopa virginica","species","other_wild_bees",1,200,30,NA,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2009","Hemlock02","netting","Andrena carlini","species","other_wild_bees",6,200,30,NA,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2009","Hemlock02","netting","Andrena forbesii","species","other_wild_bees",2,200,30,NA,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2009","Hemlock02","netting","Andrena hippotes","species","other_wild_bees",1,200,30,NA,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2009","Hemlock02","netting","Andrena imitatrix","species","other_wild_bees",3,200,30,NA,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2009","Hemlock02","netting","Andrena nasonii","species","other_wild_bees",3,200,30,NA,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2009","Hemlock02","netting","Andrena rugosa","species","other_wild_bees",1,200,30,NA,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2009","Hemlock02","netting","Andrena vicina","species","other_wild_bees",4,200,30,NA,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2009","Hemlock02","netting","Apis mellifera","species","honeybees",22,200,30,NA,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2009","Hemlock02","netting","Bombus bimaculatus","species","bumblebees",1,200,30,NA,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2009","Hemlock02","netting","Bombus impatiens","species","bumblebees",5,200,30,NA,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2009","Hemlock02","netting","Bombus sandersoni","species","bumblebees",2,200,30,NA,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2009","Hemlock02","netting","Lasioglossum mitchelli","species","other_wild_bees",1,200,30,NA,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2009","Hemlock02","netting","Nomada gracilis","species","other_wild_bees",2,200,30,NA,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2009","Hemlock02","netting","Osmia taurus","species","other_wild_bees",1,200,30,NA,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2009","Hemlock02","netting","Xylocopa virginica","species","other_wild_bees",1,200,30,NA,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2009","IndianCreek","netting","Andrena carlini","species","other_wild_bees",2,300,45,NA,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2009","IndianCreek","netting","Andrena crataegi","species","other_wild_bees",4,300,45,NA,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2009","IndianCreek","netting","Andrena cressonii","species","other_wild_bees",1,300,45,NA,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2009","IndianCreek","netting","Andrena duningi","species","other_wild_bees",1,300,45,NA,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2009","IndianCreek","netting","Andrena forbesii","species","other_wild_bees",3,300,45,NA,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2009","IndianCreek","netting","Andrena hippotes","species","other_wild_bees",6,300,45,NA,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2009","IndianCreek","netting","Andrena imitatrix","species","other_wild_bees",1,300,45,NA,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2009","IndianCreek","netting","Andrena mandibularis","species","other_wild_bees",1,300,45,NA,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2009","IndianCreek","netting","Andrena nasonii","species","other_wild_bees",19,300,45,NA,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2009","IndianCreek","netting","Andrena pruni","species","other_wild_bees",1,300,45,NA,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2009","IndianCreek","netting","Andrena rugosa","species","other_wild_bees",8,300,45,NA,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2009","IndianCreek","netting","Andrena vicina","species","other_wild_bees",3,300,45,NA,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2009","IndianCreek","netting","Apis mellifera","species","honeybees",10,300,45,NA,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2009","IndianCreek","netting","Bombus impatiens","species","bumblebees",1,300,45,NA,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2009","IndianCreek","netting","Colletes inaequalis","species","other_wild_bees",1,300,45,NA,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2009","IndianCreek","netting","Halictus rubicundus","species","other_wild_bees",3,300,45,NA,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2009","IndianCreek","netting","Lasioglossum cinctipes","species","other_wild_bees",3,300,45,NA,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2009","IndianCreek","netting","Lasioglossum coeruleum","species","other_wild_bees",1,300,45,NA,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2009","IndianCreek","netting","Lasioglossum mitchelli","species","other_wild_bees",1,300,45,NA,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2009","IndianCreek","netting","Nomada gracilis","species","other_wild_bees",1,300,45,NA,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2009","IndianCreek","netting","Nomada pygmaea","species","other_wild_bees",1,300,45,NA,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2009","IndianCreek","netting","Osmia cornifrons","species","other_wild_bees",2,300,45,NA,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2009","IndianCreek","netting","Osmia pumila","species","other_wild_bees",1,300,45,NA,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2009","IndianCreek","netting","Xylocopa virginica","species","other_wild_bees",1,300,45,NA,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2009","LittleTree","netting","Andrena carlini","species","other_wild_bees",2,600,90,NA,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2009","LittleTree","netting","Andrena crataegi","species","other_wild_bees",6,600,90,NA,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2009","LittleTree","netting","Andrena duningi","species","other_wild_bees",2,600,90,NA,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2009","LittleTree","netting","Andrena forbesii","species","other_wild_bees",5,600,90,NA,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2009","LittleTree","netting","Andrena hippotes","species","other_wild_bees",2,600,90,NA,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2009","LittleTree","netting","Andrena mandibularis","species","other_wild_bees",1,600,90,NA,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2009","LittleTree","netting","Andrena milwaukeensis","species","other_wild_bees",1,600,90,NA,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2009","LittleTree","netting","Andrena miserabilis","species","other_wild_bees",4,600,90,NA,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2009","LittleTree","netting","Andrena nasonii","species","other_wild_bees",22,600,90,NA,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2009","LittleTree","netting","Andrena nivalis","species","other_wild_bees",2,600,90,NA,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2009","LittleTree","netting","Andrena rugosa","species","other_wild_bees",7,600,90,NA,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2009","LittleTree","netting","Andrena vicina","species","other_wild_bees",20,600,90,NA,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2009","LittleTree","netting","Apis mellifera","species","honeybees",31,600,90,NA,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2009","LittleTree","netting","Augochlorella pura","species","other_wild_bees",1,600,90,NA,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2009","LittleTree","netting","Bombus impatiens","species","bumblebees",7,600,90,NA,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2009","LittleTree","netting","Ceratina calcarata","species","other_wild_bees",5,600,90,NA,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2009","LittleTree","netting","Colletes inaequalis","species","other_wild_bees",1,600,90,NA,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2009","LittleTree","netting","Halictus rubicundus","species","other_wild_bees",2,600,90,NA,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2009","LittleTree","netting","Lasioglossum cinctipes","species","other_wild_bees",6,600,90,NA,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2009","LittleTree","netting","Lasioglossum laevissimum","species","other_wild_bees",1,600,90,NA,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2009","LittleTree","netting","Lasioglossum lineatulum","species","other_wild_bees",1,600,90,NA,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2009","LittleTree","netting","Lasioglossum paramirandum","species","other_wild_bees",3,600,90,NA,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2009","LittleTree","netting","Lasioglossum quebecense","species","other_wild_bees",1,600,90,NA,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2009","LittleTree","netting","Osmia cornifrons","species","other_wild_bees",3,600,90,NA,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2009","LittleTree","netting","Sphecode cressonii","species","other_wild_bees",1,600,90,NA,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2009","Merwin","netting","Andrena barbilabris","species","other_wild_bees",1,200,30,NA,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2009","Merwin","netting","Andrena cressonii","species","other_wild_bees",2,200,30,NA,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2009","Merwin","netting","Andrena forbesii","species","other_wild_bees",2,200,30,NA,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2009","Merwin","netting","Andrena hippotes","species","other_wild_bees",3,200,30,NA,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2009","Merwin","netting","Andrena imitatrix","species","other_wild_bees",1,200,30,NA,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2009","Merwin","netting","Andrena mandibularis","species","other_wild_bees",2,200,30,NA,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2009","Merwin","netting","Andrena miserabilis","species","other_wild_bees",3,200,30,NA,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2009","Merwin","netting","Andrena nasonii","species","other_wild_bees",6,200,30,NA,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2009","Merwin","netting","Andrena perplexa","species","other_wild_bees",1,200,30,NA,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2009","Merwin","netting","Andrena regularis","species","other_wild_bees",1,200,30,NA,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2009","Merwin","netting","Andrena rugosa","species","other_wild_bees",1,200,30,NA,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2009","Merwin","netting","Andrena vicina","species","other_wild_bees",3,200,30,NA,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2009","Merwin","netting","Apis mellifera","species","honeybees",16,200,30,NA,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2009","Merwin","netting","Bombus impatiens","species","bumblebees",1,200,30,NA,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2009","Merwin","netting","Ceratina calcarata","species","other_wild_bees",5,200,30,NA,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2009","Merwin","netting","Colletes inaequalis","species","other_wild_bees",2,200,30,NA,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2009","Merwin","netting","Halictus rubicundus","species","other_wild_bees",1,200,30,NA,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2009","Merwin","netting","Lasioglossum mitchelli","species","other_wild_bees",2,200,30,NA,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2009","Merwin","netting","Lasioglossum perpunctatum","species","other_wild_bees",1,200,30,NA,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2009","Merwin","netting","Lasioglossum versans","species","other_wild_bees",1,200,30,NA,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2009","Merwin","netting","Osmia cornifrons","species","other_wild_bees",2,200,30,NA,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2009","Merwin","netting","Xylocopa virginica","species","other_wild_bees",1,200,30,NA,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2009","ReisingerOrchards","netting","Andrena carlini","species","other_wild_bees",6,600,90,NA,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2009","ReisingerOrchards","netting","Andrena crataegi","species","other_wild_bees",35,600,90,NA,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2009","ReisingerOrchards","netting","Andrena forbesii","species","other_wild_bees",3,600,90,NA,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2009","ReisingerOrchards","netting","Andrena hippotes","species","other_wild_bees",5,600,90,NA,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2009","ReisingerOrchards","netting","Andrena imitatrix","species","other_wild_bees",1,600,90,NA,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2009","ReisingerOrchards","netting","Andrena milwaukeensis","species","other_wild_bees",2,600,90,NA,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2009","ReisingerOrchards","netting","Andrena miserabilis","species","other_wild_bees",1,600,90,NA,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2009","ReisingerOrchards","netting","Andrena nasonii","species","other_wild_bees",21,600,90,NA,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2009","ReisingerOrchards","netting","Andrena perplexa","species","other_wild_bees",1,600,90,NA,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2009","ReisingerOrchards","netting","Andrena rugosa","species","other_wild_bees",1,600,90,NA,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2009","ReisingerOrchards","netting","Andrena vicina","species","other_wild_bees",1,600,90,NA,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2009","ReisingerOrchards","netting","Andrena w-scripta","species","other_wild_bees",54,600,90,NA,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2009","ReisingerOrchards","netting","Apis mellifera","species","honeybees",94,600,90,NA,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2009","ReisingerOrchards","netting","Bombus impatiens","species","bumblebees",10,600,90,NA,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2009","ReisingerOrchards","netting","Colletes inaequalis","species","other_wild_bees",1,600,90,NA,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2009","ReisingerOrchards","netting","Halictus confusus","species","other_wild_bees",3,600,90,NA,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2009","ReisingerOrchards","netting","Halictus rubicundus","species","other_wild_bees",4,600,90,NA,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2009","ReisingerOrchards","netting","Lasioglossum cinctipes","species","other_wild_bees",3,600,90,NA,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2009","ReisingerOrchards","netting","Lasioglossum mitchelli","species","other_wild_bees",1,600,90,NA,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2009","ReisingerOrchards","netting","Lasioglossum paramirandum","species","other_wild_bees",3,600,90,NA,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2009","ReisingerOrchards","netting","Lasioglossum quebecense","species","other_wild_bees",3,600,90,NA,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2009","ReisingerOrchards","netting","Lasioglossum versatum","species","other_wild_bees",3,600,90,NA,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2009","ReisingerOrchards","netting","Osmia lignaria","species","other_wild_bees",1,600,90,NA,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2009","ReisingerOrchards","netting","Xylocopa virginica","species","other_wild_bees",2,600,90,NA,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2009","WestHaven","netting","Andrena carlini","species","other_wild_bees",1,200,30,NA,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2009","WestHaven","netting","Andrena crataegi","species","other_wild_bees",1,200,30,NA,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2009","WestHaven","netting","Andrena duningi","species","other_wild_bees",1,200,30,NA,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2009","WestHaven","netting","Andrena forbesii","species","other_wild_bees",1,200,30,NA,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2009","WestHaven","netting","Andrena hippotes","species","other_wild_bees",1,200,30,NA,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2009","WestHaven","netting","Andrena nasonii","species","other_wild_bees",2,200,30,NA,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2009","WestHaven","netting","Andrena vicina","species","other_wild_bees",11,200,30,NA,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2009","WestHaven","netting","Colletes inaequalis","species","other_wild_bees",1,200,30,NA,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2009","WestHaven","netting","Lasioglossum cinctipes","species","other_wild_bees",1,200,30,NA,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2009","WestHaven","netting","Xylocopa virginica","species","other_wild_bees",1,200,30,NA,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2010","BartlesonAlton","netting","Andrena hippotes","species","other_wild_bees",1,300,45,NA,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2010","BartlesonAlton","netting","Andrena regularis","species","other_wild_bees",5,300,45,NA,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2010","BartlesonAlton","netting","Andrena vicina","species","other_wild_bees",7,300,45,NA,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2010","BartlesonAlton","netting","Apis mellifera","species","honeybees",29,300,45,NA,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2010","BartlesonAlton","netting","Bombus impatiens","species","bumblebees",1,300,45,NA,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2010","BartlesonAlton","netting","Bombus perplexus","species","bumblebees",1,300,45,NA,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2010","BartlesonAlton","netting","Colletes inaequalis","species","other_wild_bees",1,300,45,NA,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2010","BartlesonHill","netting","Andrena carlini","species","other_wild_bees",3,800,120,NA,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2010","BartlesonHill","netting","Andrena commoda","species","other_wild_bees",1,800,120,NA,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2010","BartlesonHill","netting","Andrena crataegi","species","other_wild_bees",46,800,120,NA,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2010","BartlesonHill","netting","Andrena forbesii","species","other_wild_bees",2,800,120,NA,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2010","BartlesonHill","netting","Andrena hippotes","species","other_wild_bees",7,800,120,NA,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2010","BartlesonHill","netting","Andrena mandibularis","species","other_wild_bees",1,800,120,NA,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2010","BartlesonHill","netting","Andrena miserabilis","species","other_wild_bees",3,800,120,NA,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2010","BartlesonHill","netting","Andrena nasonii","species","other_wild_bees",2,800,120,NA,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2010","BartlesonHill","netting","Andrena regularis","species","other_wild_bees",1,800,120,NA,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2010","BartlesonHill","netting","Andrena vicina","species","other_wild_bees",6,800,120,NA,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2010","BartlesonHill","netting","Andrena w-scripta","species","other_wild_bees",4,800,120,NA,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2010","BartlesonHill","netting","Apis mellifera","species","honeybees",51,800,120,NA,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2010","BartlesonHill","netting","Bombus bimaculatus","species","bumblebees",1,800,120,NA,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2010","BartlesonHill","netting","Bombus impatiens","species","bumblebees",2,800,120,NA,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2010","BartlesonHill","netting","Bombus perplexus","species","bumblebees",1,800,120,NA,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2010","BartlesonHill","netting","Bombus sandersoni","species","bumblebees",1,800,120,NA,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2010","BartlesonHill","netting","Colletes inaequalis","species","other_wild_bees",5,800,120,NA,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2010","BartlesonHill","netting","Osmia cornifrons","species","other_wild_bees",4,800,120,NA,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2010","BartlesonHome","netting","Andrena carlini","species","other_wild_bees",2,600,90,NA,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2010","BartlesonHome","netting","Andrena cressonii","species","other_wild_bees",1,600,90,NA,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2010","BartlesonHome","netting","Andrena hippotes","species","other_wild_bees",2,600,90,NA,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2010","BartlesonHome","netting","Andrena miserabilis","species","other_wild_bees",1,600,90,NA,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2010","BartlesonHome","netting","Andrena regularis","species","other_wild_bees",3,600,90,NA,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2010","BartlesonHome","netting","Apis mellifera","species","honeybees",32,600,90,NA,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2010","Cornell01","netting","Andrena barbilabris","species","other_wild_bees",1,300,45,NA,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2010","Cornell01","netting","Andrena hippotes","species","other_wild_bees",2,300,45,NA,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2010","Cornell01","netting","Andrena miserabilis","species","other_wild_bees",1,300,45,NA,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2010","Cornell01","netting","Andrena regularis","species","other_wild_bees",9,300,45,NA,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2010","Cornell01","netting","Andrena vicina","species","other_wild_bees",5,300,45,NA,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2010","Cornell01","netting","Apis mellifera","species","honeybees",34,300,45,NA,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2010","Cornell01","netting","Bombus perplexus","species","bumblebees",1,300,45,NA,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2010","Cornell01","netting","Colletes inaequalis","species","other_wild_bees",3,300,45,NA,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2010","Cornell01","netting","Lasioglossum weemsi","species","other_wild_bees",1,300,45,NA,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2010","Cornell01","netting","Xylocopa virginica","species","other_wild_bees",5,300,45,NA,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2010","Cornell02","netting","Andrena bisalicis","species","other_wild_bees",1,200,30,NA,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2010","Cornell02","netting","Andrena duningi","species","other_wild_bees",2,200,30,NA,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2010","Cornell02","netting","Andrena nasonii","species","other_wild_bees",2,200,30,NA,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2010","Cornell02","netting","Andrena rugosa","species","other_wild_bees",1,200,30,NA,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2010","Cornell02","netting","Apis mellifera","species","honeybees",60,200,30,NA,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2010","Cornell02","netting","Bombus bimaculatus","species","bumblebees",4,200,30,NA,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2010","Cornell02","netting","Bombus impatiens","species","bumblebees",1,200,30,NA,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2010","Cornell02","netting","Osmia cornifrons","species","other_wild_bees",1,200,30,NA,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2010","Endres","netting","Andrena barbilabris","species","other_wild_bees",1,1000,150,NA,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2010","Endres","netting","Andrena forbesii","species","other_wild_bees",1,1000,150,NA,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2010","Endres","netting","Andrena hippotes","species","other_wild_bees",1,1000,150,NA,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2010","Endres","netting","Andrena imitatrix","species","other_wild_bees",1,1000,150,NA,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2010","Endres","netting","Andrena mandibularis","species","other_wild_bees",1,1000,150,NA,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2010","Endres","netting","Andrena milwaukeensis","species","other_wild_bees",4,1000,150,NA,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2010","Endres","netting","Andrena miserabilis","species","other_wild_bees",1,1000,150,NA,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2010","Endres","netting","Andrena regularis","species","other_wild_bees",19,1000,150,NA,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2010","Endres","netting","Andrena rugosa","species","other_wild_bees",5,1000,150,NA,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2010","Endres","netting","Andrena vicina","species","other_wild_bees",10,1000,150,NA,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2010","Endres","netting","Apis mellifera","species","honeybees",56,1000,150,NA,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2010","Endres","netting","Augochlorella pura","species","other_wild_bees",4,1000,150,NA,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2010","Endres","netting","Bombus impatiens","species","bumblebees",5,1000,150,NA,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2010","Endres","netting","Bombus sandersoni","species","bumblebees",1,1000,150,NA,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2010","Endres","netting","Lasioglossum coeruleum","species","other_wild_bees",2,1000,150,NA,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2010","Endres","netting","Osmia pumila","species","other_wild_bees",1,1000,150,NA,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2010","Endres","netting","Xylocopa virginica","species","other_wild_bees",2,1000,150,NA,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2010","LakeBreezeGates","netting","Andrena carlini","species","other_wild_bees",4,700,105,NA,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2010","LakeBreezeGates","netting","Andrena nasonii","species","other_wild_bees",1,700,105,NA,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2010","LakeBreezeGates","netting","Andrena regularis","species","other_wild_bees",5,700,105,NA,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2010","LakeBreezeGates","netting","Apis mellifera","species","honeybees",33,700,105,NA,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2010","LakeBreezeGates","netting","Colletes inaequalis","species","other_wild_bees",1,700,105,NA,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2010","LittleTree","netting","Andrena carlini","species","other_wild_bees",1,200,30,NA,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2010","LittleTree","netting","Andrena hippotes","species","other_wild_bees",1,200,30,NA,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2010","LittleTree","netting","Andrena nasonii","species","other_wild_bees",1,200,30,NA,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2010","LittleTree","netting","Andrena rugosa","species","other_wild_bees",2,200,30,NA,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2010","LittleTree","netting","Andrena vicina","species","other_wild_bees",2,200,30,NA,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2010","LittleTree","netting","Apis mellifera","species","honeybees",34,200,30,NA,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2010","LittleTree","netting","Bombus bimaculatus","species","bumblebees",1,200,30,NA,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2010","LittleTree","netting","Bombus impatiens","species","bumblebees",3,200,30,NA,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2010","LittleTree","netting","Colletes inaequalis","species","other_wild_bees",4,200,30,NA,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2010","LittleTree","netting","Lasioglossum laevissimum","species","other_wild_bees",1,200,30,NA,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2010","LittleTree","netting","Lasioglossum truncatum","species","other_wild_bees",1,200,30,NA,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2010","LittleTree","netting","Osmia cornifrons","species","other_wild_bees",1,200,30,NA,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2010","Simpelaar","netting","Andrena algida","species","other_wild_bees",1,600,90,NA,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2010","Simpelaar","netting","Andrena carlini","species","other_wild_bees",5,600,90,NA,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2010","Simpelaar","netting","Andrena commoda","species","other_wild_bees",1,600,90,NA,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2010","Simpelaar","netting","Andrena crataegi","species","other_wild_bees",2,600,90,NA,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2010","Simpelaar","netting","Andrena erythronii","species","other_wild_bees",2,600,90,NA,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2010","Simpelaar","netting","Andrena forbesii","species","other_wild_bees",1,600,90,NA,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2010","Simpelaar","netting","Andrena mandibularis","species","other_wild_bees",1,600,90,NA,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2010","Simpelaar","netting","Andrena milwaukeensis","species","other_wild_bees",1,600,90,NA,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2010","Simpelaar","netting","Andrena miserabilis","species","other_wild_bees",8,600,90,NA,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2010","Simpelaar","netting","Andrena nasonii","species","other_wild_bees",5,600,90,NA,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2010","Simpelaar","netting","Andrena perplexa","species","other_wild_bees",1,600,90,NA,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2010","Simpelaar","netting","Andrena regularis","species","other_wild_bees",11,600,90,NA,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2010","Simpelaar","netting","Andrena vicina","species","other_wild_bees",8,600,90,NA,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2010","Simpelaar","netting","Andrena w-scripta","species","other_wild_bees",1,600,90,NA,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2010","Simpelaar","netting","Apis mellifera","species","honeybees",4,600,90,NA,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2010","Simpelaar","netting","Bombus bimaculatus","species","bumblebees",1,600,90,NA,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2010","Simpelaar","netting","Bombus griseocollis","species","bumblebees",1,600,90,NA,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2010","Simpelaar","netting","Bombus impatiens","species","bumblebees",8,600,90,NA,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2010","Simpelaar","netting","Bombus perplexus","species","bumblebees",3,600,90,NA,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2010","Simpelaar","netting","Colletes inaequalis","species","other_wild_bees",15,600,90,NA,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2010","Simpelaar","netting","Osmia lignaria","species","other_wild_bees",1,600,90,NA,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2010","Simpelaar","netting","Xylocopa virginica","species","other_wild_bees",1,600,90,NA,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2011","BakersAcres","netting","Andrena crataegi","species","other_wild_bees",73,600,90,59111,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2011","BakersAcres","netting","Andrena cressonii","species","other_wild_bees",1,600,90,59111,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2011","BakersAcres","netting","Andrena hippotes","species","other_wild_bees",3,600,90,59111,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2011","BakersAcres","netting","Andrena miserabilis","species","other_wild_bees",4,600,90,59111,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2011","BakersAcres","netting","Andrena morrisonella","species","other_wild_bees",1,600,90,59111,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2011","BakersAcres","netting","Andrena nasonii","species","other_wild_bees",3,600,90,59111,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2011","BakersAcres","netting","Apis mellifera","species","honeybees",12,600,90,59111,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2011","BakersAcres","netting","Bombus bimaculatus","species","bumblebees",1,600,90,59111,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2011","BakersAcres","netting","Bombus impatiens","species","bumblebees",3,600,90,59111,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2011","BakersAcres","netting","Halictus confusus","species","other_wild_bees",2,600,90,59111,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2011","BakersAcres","netting","Lasioglossum cinctipes","species","other_wild_bees",1,600,90,59111,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2011","BakersAcres","netting","Lasioglossum coriaceum","species","other_wild_bees",1,600,90,59111,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2011","BakersAcres","netting","Lasioglossum foxii","species","other_wild_bees",1,600,90,59111,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2011","BakersAcres","netting","Lasioglossum imitatum","species","other_wild_bees",1,600,90,59111,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2011","BakersAcres","netting","Lasioglossum lineatulum","species","other_wild_bees",1,600,90,59111,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2011","BakersAcres","netting","Lasioglossum paramirandum","species","other_wild_bees",2,600,90,59111,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2011","BakersAcres","netting","Nomada cressonii","species","other_wild_bees",1,600,90,59111,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2011","BakersAcres","netting","Nomada pygmaea","species","other_wild_bees",1,600,90,59111,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2011","BakersAcres","netting","Osmia cornifrons","species","other_wild_bees",1,600,90,59111,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2011","BakersAcres","netting","Osmia pumila","species","other_wild_bees",1,600,90,59111,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2011","BakersAcres","netting","Xylocopa virginica","species","other_wild_bees",2,600,90,59111,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2011","BartlesonAlton","netting","Agapostemon","genus","other_wild_bees",2,1200,180,127858.33,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2011","BartlesonAlton","netting","Andrena commoda","species","other_wild_bees",1,1200,180,127858.33,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2011","BartlesonAlton","netting","Andrena crataegi","species","other_wild_bees",35,1200,180,127858.33,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2011","BartlesonAlton","netting","Andrena cressonii","species","other_wild_bees",1,1200,180,127858.33,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2011","BartlesonAlton","netting","Andrena forbesii","species","other_wild_bees",1,1200,180,127858.33,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2011","BartlesonAlton","netting","Andrena hippotes","species","other_wild_bees",6,1200,180,127858.33,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2011","BartlesonAlton","netting","Andrena mandibularis","species","other_wild_bees",2,1200,180,127858.33,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2011","BartlesonAlton","netting","Andrena milwaukeensis","species","other_wild_bees",1,1200,180,127858.33,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2011","BartlesonAlton","netting","Andrena miserabilis","species","other_wild_bees",18,1200,180,127858.33,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2011","BartlesonAlton","netting","Andrena morrisonella","species","other_wild_bees",2,1200,180,127858.33,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2011","BartlesonAlton","netting","Andrena nasonii","species","other_wild_bees",1,1200,180,127858.33,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2011","BartlesonAlton","netting","Andrena nivalis","species","other_wild_bees",1,1200,180,127858.33,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2011","BartlesonAlton","netting","Andrena perplexa","species","other_wild_bees",2,1200,180,127858.33,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2011","BartlesonAlton","netting","Andrena regularis","species","other_wild_bees",16,1200,180,127858.33,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2011","BartlesonAlton","netting","Andrena rugosa","species","other_wild_bees",5,1200,180,127858.33,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2011","BartlesonAlton","netting","Andrena vicina","species","other_wild_bees",12,1200,180,127858.33,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2011","BartlesonAlton","netting","Apis mellifera","species","honeybees",116,1200,180,127858.33,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2011","BartlesonAlton","netting","Augochlorella pura","species","other_wild_bees",19,1200,180,127858.33,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2011","BartlesonAlton","netting","Bombus griseocollis","species","bumblebees",2,1200,180,127858.33,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2011","BartlesonAlton","netting","Bombus impatiens","species","bumblebees",1,1200,180,127858.33,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2011","BartlesonAlton","netting","Bombus perplexus","species","bumblebees",1,1200,180,127858.33,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2011","BartlesonAlton","netting","Ceratina calcarata","species","other_wild_bees",5,1200,180,127858.33,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2011","BartlesonAlton","netting","Colletes inaequalis","species","other_wild_bees",1,1200,180,127858.33,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2011","BartlesonAlton","netting","Halictus confusus","species","other_wild_bees",4,1200,180,127858.33,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2011","BartlesonAlton","netting","Lasioglossum laevissimum","species","other_wild_bees",1,1200,180,127858.33,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2011","BartlesonAlton","netting","Lasioglossum lineatulum","species","other_wild_bees",2,1200,180,127858.33,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2011","BartlesonAlton","netting","Lasioglossum mitchelli","species","other_wild_bees",2,1200,180,127858.33,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2011","BartlesonAlton","netting","Lasioglossum nigroviride","species","other_wild_bees",1,1200,180,127858.33,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2011","BartlesonAlton","netting","Lasioglossum planatum","species","other_wild_bees",1,1200,180,127858.33,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2011","BartlesonAlton","netting","Lasioglossum versatum","species","other_wild_bees",1,1200,180,127858.33,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2011","BartlesonAlton","netting","Lasioglossum zonulum","species","other_wild_bees",1,1200,180,127858.33,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2011","BartlesonAlton","netting","Xylocopa virginica","species","other_wild_bees",15,1200,180,127858.33,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2011","BartlesonHome","netting","Agapostemon","genus","other_wild_bees",1,1200,180,192499.97,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2011","BartlesonHome","netting","Andrena carlini","species","other_wild_bees",1,1200,180,192499.97,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2011","BartlesonHome","netting","Andrena commoda","species","other_wild_bees",1,1200,180,192499.97,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2011","BartlesonHome","netting","Andrena crataegi","species","other_wild_bees",3,1200,180,192499.97,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2011","BartlesonHome","netting","Andrena mandibularis","species","other_wild_bees",1,1200,180,192499.97,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2011","BartlesonHome","netting","Andrena miserabilis","species","other_wild_bees",2,1200,180,192499.97,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2011","BartlesonHome","netting","Andrena nasonii","species","other_wild_bees",2,1200,180,192499.97,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2011","BartlesonHome","netting","Andrena perplexa","species","other_wild_bees",2,1200,180,192499.97,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2011","BartlesonHome","netting","Andrena regularis","species","other_wild_bees",15,1200,180,192499.97,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2011","BartlesonHome","netting","Andrena vicina","species","other_wild_bees",2,1200,180,192499.97,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2011","BartlesonHome","netting","Apis mellifera","species","honeybees",81,1200,180,192499.97,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2011","BartlesonHome","netting","Augochlorella pura","species","other_wild_bees",1,1200,180,192499.97,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2011","BartlesonHome","netting","Bombus griseocollis","species","bumblebees",1,1200,180,192499.97,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2011","BartlesonHome","netting","Bombus impatiens","species","bumblebees",5,1200,180,192499.97,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2011","BartlesonHome","netting","Colletes inaequalis","species","other_wild_bees",4,1200,180,192499.97,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2011","BartlesonHome","netting","Halictus confusus","species","other_wild_bees",1,1200,180,192499.97,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2011","BartlesonHome","netting","Halictus rubicundus","species","other_wild_bees",1,1200,180,192499.97,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2011","BartlesonHome","netting","Lasioglossum lineatulum","species","other_wild_bees",1,1200,180,192499.97,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2011","BartlesonHome","netting","Lasioglossum obscurum","species","other_wild_bees",1,1200,180,192499.97,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2011","BartlesonHome","netting","Lasioglossum zonulum","species","other_wild_bees",1,1200,180,192499.97,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2011","BartlesonHome","netting","Xylocopa virginica","species","other_wild_bees",2,1200,180,192499.97,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2011","Cornell01","netting","Andrena crataegi","species","other_wild_bees",1,600,90,35355.67,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2011","Cornell01","netting","Andrena cressonii","species","other_wild_bees",3,600,90,35355.67,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2011","Cornell01","netting","Andrena duningi","species","other_wild_bees",1,600,90,35355.67,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2011","Cornell01","netting","Andrena miserabilis","species","other_wild_bees",13,600,90,35355.67,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2011","Cornell01","netting","Andrena nasonii","species","other_wild_bees",4,600,90,35355.67,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2011","Cornell01","netting","Andrena perplexa","species","other_wild_bees",1,600,90,35355.67,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2011","Cornell01","netting","Andrena regularis","species","other_wild_bees",22,600,90,35355.67,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2011","Cornell01","netting","Andrena rugosa","species","other_wild_bees",2,600,90,35355.67,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2011","Cornell01","netting","Andrena vicina","species","other_wild_bees",6,600,90,35355.67,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2011","Cornell01","netting","Apis mellifera","species","honeybees",7,600,90,35355.67,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2011","Cornell01","netting","Bombus impatiens","species","bumblebees",1,600,90,35355.67,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2011","Cornell01","netting","Colletes inaequalis","species","other_wild_bees",7,600,90,35355.67,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2011","Cornell01","netting","Osmia cornifrons","species","other_wild_bees",2,600,90,35355.67,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2011","Cornell01","netting","Xylocopa virginica","species","other_wild_bees",10,600,90,35355.67,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2011","Cornell02","netting","Andrena carlini","species","other_wild_bees",1,600,90,61916.67,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2011","Cornell02","netting","Andrena crataegi","species","other_wild_bees",2,600,90,61916.67,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2011","Cornell02","netting","Andrena cressonii","species","other_wild_bees",1,600,90,61916.67,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2011","Cornell02","netting","Andrena hippotes","species","other_wild_bees",1,600,90,61916.67,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2011","Cornell02","netting","Andrena miserabilis","species","other_wild_bees",2,600,90,61916.67,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2011","Cornell02","netting","Andrena nasonii","species","other_wild_bees",15,600,90,61916.67,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2011","Cornell02","netting","Andrena pruni","species","other_wild_bees",2,600,90,61916.67,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2011","Cornell02","netting","Andrena rugosa","species","other_wild_bees",2,600,90,61916.67,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2011","Cornell02","netting","Apis mellifera","species","honeybees",87,600,90,61916.67,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2011","Cornell02","netting","Bombus impatiens","species","bumblebees",5,600,90,61916.67,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2011","Cornell02","netting","Lasioglossum foxii","species","other_wild_bees",10,600,90,61916.67,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2011","Cornell02","netting","Lasioglossum mitchelli","species","other_wild_bees",2,600,90,61916.67,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2011","Cornell02","netting","Lasioglossum paramirandum","species","other_wild_bees",2,600,90,61916.67,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2011","Cornell02","netting","Lasioglossum weemsi","species","other_wild_bees",1,600,90,61916.67,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2011","Cornell02","netting","Osmia cornifrons","species","other_wild_bees",1,600,90,61916.67,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2011","Cornell02","netting","Xylocopa virginica","species","other_wild_bees",3,600,90,61916.67,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2011","Endres","netting","Andrena carlini","species","other_wild_bees",4,1200,180,70864.5,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2011","Endres","netting","Andrena crataegi","species","other_wild_bees",5,1200,180,70864.5,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2011","Endres","netting","Andrena cressonii","species","other_wild_bees",2,1200,180,70864.5,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2011","Endres","netting","Andrena forbesii","species","other_wild_bees",1,1200,180,70864.5,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2011","Endres","netting","Andrena hippotes","species","other_wild_bees",3,1200,180,70864.5,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2011","Endres","netting","Andrena milwaukeensis","species","other_wild_bees",1,1200,180,70864.5,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2011","Endres","netting","Andrena miserabilis","species","other_wild_bees",4,1200,180,70864.5,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2011","Endres","netting","Andrena morrisonella","species","other_wild_bees",2,1200,180,70864.5,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2011","Endres","netting","Andrena nasonii","species","other_wild_bees",2,1200,180,70864.5,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2011","Endres","netting","Andrena regularis","species","other_wild_bees",83,1200,180,70864.5,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2011","Endres","netting","Andrena rugosa","species","other_wild_bees",2,1200,180,70864.5,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2011","Endres","netting","Andrena vicina","species","other_wild_bees",80,1200,180,70864.5,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2011","Endres","netting","Apis mellifera","species","honeybees",66,1200,180,70864.5,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2011","Endres","netting","Bombus griseocollis","species","bumblebees",1,1200,180,70864.5,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2011","Endres","netting","Bombus impatiens","species","bumblebees",2,1200,180,70864.5,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2011","Endres","netting","Colletes inaequalis","species","other_wild_bees",3,1200,180,70864.5,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2011","Endres","netting","Lasioglossum coeruleum","species","other_wild_bees",4,1200,180,70864.5,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2011","Endres","netting","Lasioglossum ephialtum","species","other_wild_bees",1,1200,180,70864.5,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2011","Endres","netting","Lasioglossum laevissimum","species","other_wild_bees",1,1200,180,70864.5,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2011","Endres","netting","Lasioglossum mitchelli","species","other_wild_bees",2,1200,180,70864.5,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2011","Endres","netting","Lasioglossum obscurum","species","other_wild_bees",5,1200,180,70864.5,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2011","Endres","netting","Lasioglossum quebecense","species","other_wild_bees",1,1200,180,70864.5,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2011","Endres","netting","Lasioglossum zonulum","species","other_wild_bees",1,1200,180,70864.5,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2011","Endres","netting","Nomada ovata","species","other_wild_bees",1,1200,180,70864.5,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2011","Endres","netting","Osmia cornifrons","species","other_wild_bees",1,1200,180,70864.5,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2011","Endres","netting","Xylocopa virginica","species","other_wild_bees",2,1200,180,70864.5,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2011","GrisamoreFarms","netting","Andrena carlini","species","other_wild_bees",2,600,90,NA,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2011","GrisamoreFarms","netting","Andrena crataegi","species","other_wild_bees",3,600,90,NA,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2011","GrisamoreFarms","netting","Andrena erythronii","species","other_wild_bees",1,600,90,NA,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2011","GrisamoreFarms","netting","Andrena hippotes","species","other_wild_bees",1,600,90,NA,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2011","GrisamoreFarms","netting","Andrena miserabilis","species","other_wild_bees",6,600,90,NA,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2011","GrisamoreFarms","netting","Andrena nasonii","species","other_wild_bees",2,600,90,NA,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2011","GrisamoreFarms","netting","Andrena regularis","species","other_wild_bees",1,600,90,NA,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2011","GrisamoreFarms","netting","Andrena rugosa","species","other_wild_bees",4,600,90,NA,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2011","GrisamoreFarms","netting","Apis mellifera","species","honeybees",11,600,90,NA,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2011","GrisamoreFarms","netting","Bombus impatiens","species","bumblebees",2,600,90,NA,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2011","GrisamoreFarms","netting","Lasioglossum lineatulum","species","other_wild_bees",1,600,90,NA,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2011","GrisamoreFarms","netting","Lasioglossum mitchelli","species","other_wild_bees",1,600,90,NA,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2011","GrisamoreFarms","netting","Lasioglossum quebecense","species","other_wild_bees",2,600,90,NA,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2011","GrisamoreFarms","netting","Lasioglossum weemsi","species","other_wild_bees",2,600,90,NA,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2011","Hemlock02","netting","Andrena carlini","species","other_wild_bees",1,200,30,35083.5,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2011","Hemlock02","netting","Andrena crataegi","species","other_wild_bees",2,200,30,35083.5,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2011","Hemlock02","netting","Andrena hippotes","species","other_wild_bees",2,200,30,35083.5,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2011","Hemlock02","netting","Andrena mandibularis","species","other_wild_bees",2,200,30,35083.5,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2011","Hemlock02","netting","Andrena milwaukeensis","species","other_wild_bees",1,200,30,35083.5,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2011","Hemlock02","netting","Andrena miserabilis","species","other_wild_bees",1,200,30,35083.5,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2011","Hemlock02","netting","Andrena morrisonella","species","other_wild_bees",1,200,30,35083.5,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2011","Hemlock02","netting","Andrena nasonii","species","other_wild_bees",4,200,30,35083.5,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2011","Hemlock02","netting","Andrena perplexa","species","other_wild_bees",2,200,30,35083.5,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2011","Hemlock02","netting","Andrena rugosa","species","other_wild_bees",5,200,30,35083.5,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2011","Hemlock02","netting","Andrena vicina","species","other_wild_bees",2,200,30,35083.5,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2011","Hemlock02","netting","Andrena w-scripta","species","other_wild_bees",1,200,30,35083.5,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2011","Hemlock02","netting","Apis mellifera","species","honeybees",15,200,30,35083.5,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2011","Hemlock02","netting","Bombus bimaculatus","species","bumblebees",3,200,30,35083.5,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2011","Hemlock02","netting","Bombus impatiens","species","bumblebees",8,200,30,35083.5,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2011","Hemlock02","netting","Bombus perplexus","species","bumblebees",6,200,30,35083.5,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2011","Hemlock02","netting","Halictus rubicundus","species","other_wild_bees",1,200,30,35083.5,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2011","Hemlock02","netting","Lasioglossum cressonii","species","other_wild_bees",2,200,30,35083.5,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2011","Hemlock02","netting","Lasioglossum mitchelli","species","other_wild_bees",1,200,30,35083.5,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2011","Hemlock02","netting","Osmia cornifrons","species","other_wild_bees",2,200,30,35083.5,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2011","HomeSouth","netting","Andrena carlini","species","other_wild_bees",1,600,90,28125,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2011","HomeSouth","netting","Andrena cressonii","species","other_wild_bees",1,600,90,28125,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2011","HomeSouth","netting","Andrena hippotes","species","other_wild_bees",1,600,90,28125,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2011","HomeSouth","netting","Andrena miserabilis","species","other_wild_bees",1,600,90,28125,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2011","HomeSouth","netting","Andrena nasonii","species","other_wild_bees",2,600,90,28125,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2011","HomeSouth","netting","Apis mellifera","species","honeybees",19,600,90,28125,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2011","HomeSouth","netting","Bombus bimaculatus","species","bumblebees",1,600,90,28125,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2011","HomeSouth","netting","Bombus impatiens","species","bumblebees",2,600,90,28125,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2011","HomeSouth","netting","Ceratina calcarata","species","other_wild_bees",4,600,90,28125,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2011","HomeSouth","netting","Nomada ovata","species","other_wild_bees",1,600,90,28125,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2011","HomeSouth","netting","Osmia conjuncta","species","other_wild_bees",1,600,90,28125,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2011","HomeSouth","netting","Osmia cornifrons","species","other_wild_bees",1,600,90,28125,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2011","HomeSouth","netting","Xylocopa virginica","species","other_wild_bees",3,600,90,28125,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2011","IndianCreek","netting","Andrena crataegi","species","other_wild_bees",6,400,60,19100,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2011","IndianCreek","netting","Andrena duningi","species","other_wild_bees",1,400,60,19100,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2011","IndianCreek","netting","Andrena forbesii","species","other_wild_bees",1,400,60,19100,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2011","IndianCreek","netting","Andrena hippotes","species","other_wild_bees",1,400,60,19100,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2011","IndianCreek","netting","Andrena miserabilis","species","other_wild_bees",4,400,60,19100,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2011","IndianCreek","netting","Andrena nasonii","species","other_wild_bees",4,400,60,19100,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2011","IndianCreek","netting","Andrena perplexa","species","other_wild_bees",1,400,60,19100,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2011","IndianCreek","netting","Andrena rugosa","species","other_wild_bees",2,400,60,19100,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2011","IndianCreek","netting","Andrena vicina","species","other_wild_bees",1,400,60,19100,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2011","IndianCreek","netting","Apis mellifera","species","honeybees",7,400,60,19100,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2011","IndianCreek","netting","Augochlorella pura","species","other_wild_bees",1,400,60,19100,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2011","IndianCreek","netting","Bombus impatiens","species","bumblebees",2,400,60,19100,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2011","IndianCreek","netting","Halictus confusus","species","other_wild_bees",1,400,60,19100,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2011","IndianCreek","netting","Lasioglossum cinctipes","species","other_wild_bees",3,400,60,19100,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2011","IndianCreek","netting","Lasioglossum coeruleum","species","other_wild_bees",1,400,60,19100,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2011","IndianCreek","netting","Lasioglossum lineatulum","species","other_wild_bees",2,400,60,19100,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2011","IndianCreek","netting","Lasioglossum mitchelli","species","other_wild_bees",2,400,60,19100,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2011","IndianCreek","netting","Osmia cornifrons","species","other_wild_bees",1,400,60,19100,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2011","IndianCreek","netting","Xylocopa virginica","species","other_wild_bees",1,400,60,19100,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2011","LakeBreezeGates","netting","Andrena carlini","species","other_wild_bees",1,1200,180,199822.2,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2011","LakeBreezeGates","netting","Andrena milwaukeensis","species","other_wild_bees",3,1200,180,199822.2,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2011","LakeBreezeGates","netting","Andrena morrisonella","species","other_wild_bees",1,1200,180,199822.2,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2011","LakeBreezeGates","netting","Andrena regularis","species","other_wild_bees",6,1200,180,199822.2,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2011","LakeBreezeGates","netting","Andrena vicina","species","other_wild_bees",1,1200,180,199822.2,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2011","LakeBreezeGates","netting","Apis mellifera","species","honeybees",240,1200,180,199822.2,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2011","LakeBreezeGates","netting","Bombus perplexus","species","bumblebees",2,1200,180,199822.2,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2011","LakeBreezeGates","netting","Colletes inaequalis","species","other_wild_bees",1,1200,180,199822.2,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2011","LakeBreezeGates","netting","Sphecodes confertus","species","other_wild_bees",1,1200,180,199822.2,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2011","LakeBreezeHome","netting","Andrena barbilabris","species","other_wild_bees",1,800,120,NA,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2011","LakeBreezeHome","netting","Andrena carlini","species","other_wild_bees",7,800,120,NA,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2011","LakeBreezeHome","netting","Andrena cressonii","species","other_wild_bees",1,800,120,NA,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2011","LakeBreezeHome","netting","Andrena duningi","species","other_wild_bees",1,800,120,NA,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2011","LakeBreezeHome","netting","Andrena hippotes","species","other_wild_bees",1,800,120,NA,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2011","LakeBreezeHome","netting","Andrena regularis","species","other_wild_bees",15,800,120,NA,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2011","LakeBreezeHome","netting","Apis mellifera","species","honeybees",141,800,120,NA,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2011","LakeBreezeHome","netting","Bombus griseocollis","species","bumblebees",2,800,120,NA,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2011","LakeBreezeHome","netting","Bombus impatiens","species","bumblebees",2,800,120,NA,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2011","LakeBreezeHome","netting","Lasioglossum zonulum","species","other_wild_bees",3,800,120,NA,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2011","LakeFarm","netting","Andrena duningi","species","other_wild_bees",1,600,90,38182.17,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2011","LakeFarm","netting","Andrena hippotes","species","other_wild_bees",2,600,90,38182.17,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2011","LakeFarm","netting","Andrena miserabilis","species","other_wild_bees",6,600,90,38182.17,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2011","LakeFarm","netting","Andrena perplexa","species","other_wild_bees",1,600,90,38182.17,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2011","LakeFarm","netting","Andrena vicina","species","other_wild_bees",1,600,90,38182.17,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2011","LakeFarm","netting","Apis mellifera","species","honeybees",36,600,90,38182.17,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2011","LakeFarm","netting","Augochlorella pura","species","other_wild_bees",1,600,90,38182.17,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2011","LakeFarm","netting","Bombus griseocollis","species","bumblebees",1,600,90,38182.17,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2011","LakeFarm","netting","Bombus impatiens","species","bumblebees",4,600,90,38182.17,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2011","LakeFarm","netting","Ceratina calcarata","species","other_wild_bees",1,600,90,38182.17,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2011","LakeFarm","netting","Colletes inaequalis","species","other_wild_bees",2,600,90,38182.17,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2011","LakeFarm","netting","Lasioglossum cinctipes","species","other_wild_bees",1,600,90,38182.17,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2011","LakeFarm","netting","Lasioglossum foxii","species","other_wild_bees",1,600,90,38182.17,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2011","LakeFarm","netting","Osmia conjuncta","species","other_wild_bees",1,600,90,38182.17,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2011","LakeFarm","netting","Osmia cornifrons","species","other_wild_bees",1,600,90,38182.17,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2011","LakeFarm","netting","Xylocopa virginica","species","other_wild_bees",13,600,90,38182.17,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2011","Merwin","netting","Andrena crataegi","species","other_wild_bees",1,400,60,66016.75,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2011","Merwin","netting","Andrena hippotes","species","other_wild_bees",2,400,60,66016.75,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2011","Merwin","netting","Andrena morrisonella","species","other_wild_bees",1,400,60,66016.75,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2011","Merwin","netting","Andrena nasonii","species","other_wild_bees",4,400,60,66016.75,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2011","Merwin","netting","Andrena perplexa","species","other_wild_bees",2,400,60,66016.75,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2011","Merwin","netting","Apis mellifera","species","honeybees",32,400,60,66016.75,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2011","Merwin","netting","Bombus terricola","species","bumblebees",1,400,60,66016.75,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2011","Merwin","netting","Halictus rubicundus","species","other_wild_bees",1,400,60,66016.75,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2011","Merwin","netting","Lasioglossum cinctipes","species","other_wild_bees",2,400,60,66016.75,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2011","Merwin","netting","Lasioglossum laevissimum","species","other_wild_bees",1,400,60,66016.75,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2011","Merwin","netting","Lasioglossum mitchelli","species","other_wild_bees",3,400,60,66016.75,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2011","Merwin","netting","Lasioglossum truncatum","species","other_wild_bees",1,400,60,66016.75,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2011","Merwin","netting","Lasioglossum versatum","species","other_wild_bees",2,400,60,66016.75,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2011","Merwin","netting","Nomada cressonii","species","other_wild_bees",1,400,60,66016.75,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2011","Merwin","netting","Xylocopa virginica","species","other_wild_bees",4,400,60,66016.75,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2011","MWElectronics","netting","Andrena crataegi","species","other_wild_bees",82,600,90,45950,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2011","MWElectronics","netting","Andrena cressonii","species","other_wild_bees",1,600,90,45950,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2011","MWElectronics","netting","Andrena mandibularis","species","other_wild_bees",1,600,90,45950,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2011","MWElectronics","netting","Andrena milwaukeensis","species","other_wild_bees",1,600,90,45950,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2011","MWElectronics","netting","Andrena miserabilis","species","other_wild_bees",3,600,90,45950,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2011","MWElectronics","netting","Andrena morrisonella","species","other_wild_bees",1,600,90,45950,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2011","MWElectronics","netting","Andrena perplexa","species","other_wild_bees",4,600,90,45950,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2011","MWElectronics","netting","Andrena regularis","species","other_wild_bees",3,600,90,45950,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2011","MWElectronics","netting","Andrena rugosa","species","other_wild_bees",5,600,90,45950,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2011","MWElectronics","netting","Andrena vicina","species","other_wild_bees",3,600,90,45950,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2011","MWElectronics","netting","Apis mellifera","species","honeybees",21,600,90,45950,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2011","MWElectronics","netting","Augochlorella aurata","species","other_wild_bees",3,600,90,45950,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2011","MWElectronics","netting","Augochlorella pura","species","other_wild_bees",6,600,90,45950,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2011","MWElectronics","netting","Bombus impatiens","species","bumblebees",1,600,90,45950,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2011","MWElectronics","netting","Colletes inaequalis","species","other_wild_bees",1,600,90,45950,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2011","MWElectronics","netting","Lasioglossum versatum","species","other_wild_bees",3,600,90,45950,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2011","MWElectronics","netting","Lasioglossum zonulum","species","other_wild_bees",1,600,90,45950,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2011","MWElectronics","netting","Nomada cressonii","species","other_wild_bees",1,600,90,45950,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2011","MWElectronics","netting","Osmia cornifrons","species","other_wild_bees",1,600,90,45950,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2011","MWElectronics","netting","Xylocopa virginica","species","other_wild_bees",1,600,90,45950,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2011","ReisingerOrchards","netting","Andrena carlini","species","other_wild_bees",7,1800,270,NA,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2011","ReisingerOrchards","netting","Andrena commoda","species","other_wild_bees",16,1800,270,NA,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2011","ReisingerOrchards","netting","Andrena crataegi","species","other_wild_bees",45,1800,270,NA,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2011","ReisingerOrchards","netting","Andrena cressonii","species","other_wild_bees",1,1800,270,NA,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2011","ReisingerOrchards","netting","Andrena forbesii","species","other_wild_bees",2,1800,270,NA,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2011","ReisingerOrchards","netting","Andrena hippotes","species","other_wild_bees",7,1800,270,NA,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2011","ReisingerOrchards","netting","Andrena mandibularis","species","other_wild_bees",2,1800,270,NA,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2011","ReisingerOrchards","netting","Andrena milwaukeensis","species","other_wild_bees",1,1800,270,NA,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2011","ReisingerOrchards","netting","Andrena miserabilis","species","other_wild_bees",5,1800,270,NA,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2011","ReisingerOrchards","netting","Andrena morrisonella","species","other_wild_bees",2,1800,270,NA,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2011","ReisingerOrchards","netting","Andrena nasonii","species","other_wild_bees",6,1800,270,NA,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2011","ReisingerOrchards","netting","Andrena nuda","species","other_wild_bees",1,1800,270,NA,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2011","ReisingerOrchards","netting","Andrena perplexa","species","other_wild_bees",2,1800,270,NA,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2011","ReisingerOrchards","netting","Andrena pruni","species","other_wild_bees",1,1800,270,NA,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2011","ReisingerOrchards","netting","Andrena rugosa","species","other_wild_bees",3,1800,270,NA,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2011","ReisingerOrchards","netting","Andrena vicina","species","other_wild_bees",1,1800,270,NA,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2011","ReisingerOrchards","netting","Andrena w-scripta","species","other_wild_bees",12,1800,270,NA,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2011","ReisingerOrchards","netting","Apis mellifera","species","honeybees",168,1800,270,NA,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2011","ReisingerOrchards","netting","Augochlorella pura","species","other_wild_bees",1,1800,270,NA,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2011","ReisingerOrchards","netting","Bombus bimaculatus","species","bumblebees",1,1800,270,NA,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2011","ReisingerOrchards","netting","Bombus fervidus","species","bumblebees",1,1800,270,NA,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2011","ReisingerOrchards","netting","Bombus impatiens","species","bumblebees",50,1800,270,NA,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2011","ReisingerOrchards","netting","Bombus perplexus","species","bumblebees",2,1800,270,NA,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2011","ReisingerOrchards","netting","Colletes inaequalis","species","other_wild_bees",2,1800,270,NA,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2011","ReisingerOrchards","netting","Halictus confusus","species","other_wild_bees",1,1800,270,NA,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2011","ReisingerOrchards","netting","Halictus rubicundus","species","other_wild_bees",2,1800,270,NA,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2011","ReisingerOrchards","netting","Lasioglossum coriaceum","species","other_wild_bees",1,1800,270,NA,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2011","ReisingerOrchards","netting","Lasioglossum cressonii","species","other_wild_bees",1,1800,270,NA,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2011","ReisingerOrchards","netting","Lasioglossum foxii","species","other_wild_bees",3,1800,270,NA,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2011","ReisingerOrchards","netting","Lasioglossum mitchelli","species","other_wild_bees",5,1800,270,NA,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2011","ReisingerOrchards","netting","Lasioglossum nympaearum","species","other_wild_bees",1,1800,270,NA,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2011","ReisingerOrchards","netting","Lasioglossum paramirandum","species","other_wild_bees",3,1800,270,NA,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2011","ReisingerOrchards","netting","Lasioglossum quebecense","species","other_wild_bees",5,1800,270,NA,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2011","ReisingerOrchards","netting","Lasioglossum versans","species","other_wild_bees",1,1800,270,NA,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2011","ReisingerOrchards","netting","Lasioglossum versatum","species","other_wild_bees",7,1800,270,NA,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2011","ReisingerOrchards","netting","Lasioglossum weemsi","species","other_wild_bees",1,1800,270,NA,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2011","ReisingerOrchards","netting","Osmia cornifrons","species","other_wild_bees",2,1800,270,NA,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2011","ReisingerOrchards","netting","Xylocopa virginica","species","other_wild_bees",4,1800,270,NA,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2011","RoseFarm","netting","Andrena carlini","species","other_wild_bees",3,1400,210,60065.25,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2011","RoseFarm","netting","Andrena crataegi","species","other_wild_bees",4,1400,210,60065.25,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2011","RoseFarm","netting","Andrena cressonii","species","other_wild_bees",1,1400,210,60065.25,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2011","RoseFarm","netting","Andrena erythronii","species","other_wild_bees",2,1400,210,60065.25,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2011","RoseFarm","netting","Andrena forbesii","species","other_wild_bees",2,1400,210,60065.25,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2011","RoseFarm","netting","Andrena hippotes","species","other_wild_bees",5,1400,210,60065.25,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2011","RoseFarm","netting","Andrena miserabilis","species","other_wild_bees",5,1400,210,60065.25,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2011","RoseFarm","netting","Andrena morrisonella","species","other_wild_bees",2,1400,210,60065.25,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2011","RoseFarm","netting","Andrena nasonii","species","other_wild_bees",2,1400,210,60065.25,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2011","RoseFarm","netting","Andrena pruni","species","other_wild_bees",1,1400,210,60065.25,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2011","RoseFarm","netting","Andrena regularis","species","other_wild_bees",18,1400,210,60065.25,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2011","RoseFarm","netting","Apis mellifera","species","honeybees",57,1400,210,60065.25,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2011","RoseFarm","netting","Bombus bimaculatus","species","bumblebees",2,1400,210,60065.25,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2011","RoseFarm","netting","Bombus griseocollis","species","bumblebees",1,1400,210,60065.25,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2011","RoseFarm","netting","Bombus impatiens","species","bumblebees",5,1400,210,60065.25,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2011","RoseFarm","netting","Lasioglossum mitchelli","species","other_wild_bees",2,1400,210,60065.25,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2011","RoseFarm","netting","Lasioglossum quebecense","species","other_wild_bees",1,1400,210,60065.25,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2011","RoseFarm","netting","Lasioglossum weemsi","species","other_wild_bees",1,1400,210,60065.25,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2011","RoseFarm","netting","Xylocopa virginica","species","other_wild_bees",4,1400,210,60065.25,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2011","WestHaven","netting","Andrena carlini","species","other_wild_bees",1,200,30,17200,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2011","WestHaven","netting","Andrena crataegi","species","other_wild_bees",1,200,30,17200,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2011","WestHaven","netting","Andrena cressonii","species","other_wild_bees",1,200,30,17200,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2011","WestHaven","netting","Andrena duningi","species","other_wild_bees",1,200,30,17200,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2011","WestHaven","netting","Andrena hippotes","species","other_wild_bees",1,200,30,17200,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2011","WestHaven","netting","Andrena miserabilis","species","other_wild_bees",3,200,30,17200,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2011","WestHaven","netting","Andrena perplexa","species","other_wild_bees",1,200,30,17200,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2011","WestHaven","netting","Andrena pruni","species","other_wild_bees",1,200,30,17200,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2011","WestHaven","netting","Andrena vicina","species","other_wild_bees",6,200,30,17200,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2011","WestHaven","netting","Apis mellifera","species","honeybees",1,200,30,17200,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2011","WestHaven","netting","Bombus impatiens","species","bumblebees",2,200,30,17200,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2011","WestHaven","netting","Ceratina dupla","species","other_wild_bees",1,200,30,17200,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2011","WestHaven","netting","Lasioglossum obscurum","species","other_wild_bees",1,200,30,17200,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2011","WestHaven","netting","Lasioglossum weemsi","species","other_wild_bees",1,200,30,17200,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Mia_Park_Malus_domestica_USA_2011","WestHaven","netting","Xylocopa virginica","species","other_wild_bees",4,200,30,17200,"Multiple 15-minute (aerial netting) transects were conducted at each site along blooming tree rows. During each survey, collectors walked a steady pace along 50 m of each side of two-adjacent tree rows and netted all bees observed to be visiting apple blossoms.",NA
"Michael_Garratt_Brassica_napus_UK_2012","2012Lo1","pan trap","Andrena bicolor","species","other_wild_bees",3,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Brassica_napus_UK_2012","2012Lo1","pan trap","Andrena nigroaenea","species","other_wild_bees",6,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Brassica_napus_UK_2012","2012Lo1","transect","Apis mellifera","species","honeybees",7,1800,180,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Brassica_napus_UK_2012","2012Lo1","transect","Bibio spp. (st Marks fly)","genus","other_flies",6,1800,180,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Brassica_napus_UK_2012","2012Lo1","pan trap","Bombus lapidarius","species","bumblebees",3,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Brassica_napus_UK_2012","2012Lo1","transect","Bombus spp. unknown or unidentified","genus","bumblebees",1,1800,180,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Brassica_napus_UK_2012","2012Lo1","transect","Bombus terrestris or lucorum","species","bumblebees",2,1800,180,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Brassica_napus_UK_2012","2012Lo1","pan trap","Bombus terrestris","species","bumblebees",1,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Brassica_napus_UK_2012","2012Lo1","pan trap","Bombus vestalis","species","bumblebees",1,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Brassica_napus_UK_2012","2012Lo1","pan trap","Brachycera (inc cyclorrhapha in OSR)","order","other_flies",66,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Brassica_napus_UK_2012","2012Lo1","transect","Coleoptera unknown or unidentified","order","beetles",3,1800,180,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Brassica_napus_UK_2012","2012Lo1","pan trap","Common Cyclorrhapha Diptera found in OSR fields","order","other_flies",8136,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Brassica_napus_UK_2012","2012Lo1","transect","Diptera unknown or unidentified","order","other_flies",49,1800,180,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Brassica_napus_UK_2012","2012Lo1","transect","Empididea spp","genus","other_flies",1,1800,180,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Brassica_napus_UK_2012","2012Lo1","pan trap","Ground beetle","family","beetles",4,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Brassica_napus_UK_2012","2012Lo1","transect","Hoverfly unknown or unidentified","family","syrphids",1,1800,180,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Brassica_napus_UK_2012","2012Lo1","transect","Ladybirds","family","beetles",1,1800,180,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Brassica_napus_UK_2012","2012Lo1","pan trap","Ladybirds","family","beetles",2,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Brassica_napus_UK_2012","2012Lo1","pan trap","Lasioglossum calceatum","species","other_wild_bees",3,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Brassica_napus_UK_2012","2012Lo1","transect","Lepidoptera","order","lepidoptera",1,1800,180,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Brassica_napus_UK_2012","2012Lo1","pan trap","Nematocera","order","other_flies",67,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Brassica_napus_UK_2012","2012Lo1","pan trap","Other Coleoptera (>3mm)","order","beetles",1,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Brassica_napus_UK_2012","2012Lo1","pan trap","Other Hemiptera (>3mm)","order","other",1,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Brassica_napus_UK_2012","2012Lo1","pan trap","Other Solitary wasp","order","non_bee_hymenoptera",1,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Brassica_napus_UK_2012","2012Lo1","pan trap","Parasitoids","order","non_bee_hymenoptera",28,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Brassica_napus_UK_2012","2012Lo1","pan trap","Platycheirus manicatus","species","syrphids",7,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Brassica_napus_UK_2012","2012Lo1","pan trap","Pollen beetle","species","beetles",283,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Brassica_napus_UK_2012","2012Lo1","transect","Pollen beetle","species","beetles",60,1800,180,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Brassica_napus_UK_2012","2012Lo1","pan trap","Rhingia campestris","species","syrphids",1,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Brassica_napus_UK_2012","2012Lo1","pan trap","Rove beetle","family","beetles",9,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Brassica_napus_UK_2012","2012Lo1","pan trap","Weevil","superfamily","beetles",30,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Brassica_napus_UK_2012","2012Lo2","pan trap","Andrena bicolor","species","other_wild_bees",2,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Brassica_napus_UK_2012","2012Lo2","transect","Andrena chrysosceles","species","other_wild_bees",1,1800,180,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Brassica_napus_UK_2012","2012Lo2","pan trap","Andrena cineraria","species","other_wild_bees",1,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Brassica_napus_UK_2012","2012Lo2","pan trap","Andrena fulva","species","other_wild_bees",2,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Brassica_napus_UK_2012","2012Lo2","pan trap","Andrena nigroaenea","species","other_wild_bees",3,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Brassica_napus_UK_2012","2012Lo2","transect","Bibio spp. (st Marks fly)","genus","other_flies",2,1800,180,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Brassica_napus_UK_2012","2012Lo2","pan trap","Bombus hortorum","species","bumblebees",1,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Brassica_napus_UK_2012","2012Lo2","pan trap","Bombus lapidarius","species","bumblebees",1,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Brassica_napus_UK_2012","2012Lo2","transect","Bombus lapidarius","species","bumblebees",2,1800,180,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Brassica_napus_UK_2012","2012Lo2","transect","Bombus pratorum","species","bumblebees",1,1800,180,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Brassica_napus_UK_2012","2012Lo2","pan trap","Bombus rupestris","species","bumblebees",1,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Brassica_napus_UK_2012","2012Lo2","transect","Bombus spp. unknown or unidentified","genus","bumblebees",3,1800,180,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Brassica_napus_UK_2012","2012Lo2","pan trap","Bombus terrestris","species","bumblebees",1,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Brassica_napus_UK_2012","2012Lo2","pan trap","Bombus vestalis","species","bumblebees",2,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Brassica_napus_UK_2012","2012Lo2","pan trap","Brachycera (inc cyclorrhapha in OSR)","order","other_flies",77,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Brassica_napus_UK_2012","2012Lo2","transect","Coleoptera unknown or unidentified","order","beetles",1,1800,180,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Brassica_napus_UK_2012","2012Lo2","pan trap","Common Cyclorrhapha Diptera found in OSR fields","order","other_flies",6978,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Brassica_napus_UK_2012","2012Lo2","transect","Diptera unknown or unidentified","order","other_flies",64,1800,180,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Brassica_napus_UK_2012","2012Lo2","transect","Empididea spp","genus","other_flies",1,1800,180,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Brassica_napus_UK_2012","2012Lo2","pan trap","Eristalis intricarius","species","syrphids",5,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Brassica_napus_UK_2012","2012Lo2","pan trap","Eristalis pertinax","species","syrphids",1,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Brassica_napus_UK_2012","2012Lo2","transect","Fannia spp.","genus","other_flies",1,1800,180,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Brassica_napus_UK_2012","2012Lo2","pan trap","Halictus rubicundus","species","other_wild_bees",1,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Brassica_napus_UK_2012","2012Lo2","transect","Hoverfly unknown or unidentified","family","syrphids",4,1800,180,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Brassica_napus_UK_2012","2012Lo2","transect","Ladybirds","family","beetles",3,1800,180,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Brassica_napus_UK_2012","2012Lo2","pan trap","Ladybirds","family","beetles",4,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Brassica_napus_UK_2012","2012Lo2","transect","Lepidoptera","order","lepidoptera",1,1800,180,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Brassica_napus_UK_2012","2012Lo2","pan trap","Nematocera","order","other_flies",89,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Brassica_napus_UK_2012","2012Lo2","pan trap","Other Coleoptera (>3mm)","order","beetles",12,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Brassica_napus_UK_2012","2012Lo2","pan trap","Other Hemiptera (>3mm)","order","other",1,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Brassica_napus_UK_2012","2012Lo2","pan trap","Other Solitary wasp","order","non_bee_hymenoptera",3,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Brassica_napus_UK_2012","2012Lo2","pan trap","Parasitoids","order","non_bee_hymenoptera",12,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Brassica_napus_UK_2012","2012Lo2","pan trap","Platycheirus manicatus","species","syrphids",1,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Brassica_napus_UK_2012","2012Lo2","transect","Pollen beetle","species","beetles",10,1800,180,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Brassica_napus_UK_2012","2012Lo2","pan trap","Pollen beetle","species","beetles",73,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Brassica_napus_UK_2012","2012Lo2","pan trap","Rove beetle","family","beetles",12,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Brassica_napus_UK_2012","2012Lo2","transect","Solitary bee unknown or unidentified","superfamily","other_wild_bees",2,1800,180,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Brassica_napus_UK_2012","2012Lo2","pan trap","Weevil","superfamily","beetles",5,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Brassica_napus_UK_2012","2012Lo3","pan trap","Andrena fulva","species","other_wild_bees",2,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Brassica_napus_UK_2012","2012Lo3","pan trap","Andrena haemorrhoa","species","other_wild_bees",3,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Brassica_napus_UK_2012","2012Lo3","pan trap","Andrena nigroaenea","species","other_wild_bees",1,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Brassica_napus_UK_2012","2012Lo3","transect","Apis mellifera","species","honeybees",12,1800,180,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Brassica_napus_UK_2012","2012Lo3","transect","Bibio spp. (st Marks fly)","genus","other_flies",29,1800,180,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Brassica_napus_UK_2012","2012Lo3","pan trap","Bombus barbutellus","species","bumblebees",1,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Brassica_napus_UK_2012","2012Lo3","transect","Bombus hypnorum","species","bumblebees",1,1800,180,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Brassica_napus_UK_2012","2012Lo3","pan trap","Bombus lapidarius","species","bumblebees",3,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Brassica_napus_UK_2012","2012Lo3","transect","Bombus lapidarius","species","bumblebees",4,1800,180,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Brassica_napus_UK_2012","2012Lo3","pan trap","Bombus lucorum","species","bumblebees",5,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Brassica_napus_UK_2012","2012Lo3","pan trap","Bombus pascuorum","species","bumblebees",2,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Brassica_napus_UK_2012","2012Lo3","transect","Bombus pascuorum","species","bumblebees",1,1800,180,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Brassica_napus_UK_2012","2012Lo3","pan trap","Bombus rupestris","species","bumblebees",2,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Brassica_napus_UK_2012","2012Lo3","transect","Bombus spp. unknown or unidentified","genus","bumblebees",2,1800,180,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Brassica_napus_UK_2012","2012Lo3","transect","Bombus terrestris or lucorum","species","bumblebees",3,1800,180,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Brassica_napus_UK_2012","2012Lo3","pan trap","Bombus terrestris","species","bumblebees",2,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Brassica_napus_UK_2012","2012Lo3","pan trap","Bombus vestalis","species","bumblebees",5,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Brassica_napus_UK_2012","2012Lo3","pan trap","Brachycera (inc cyclorrhapha in OSR)","order","other_flies",156,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Brassica_napus_UK_2012","2012Lo3","transect","Coleoptera unknown or unidentified","order","beetles",3,1800,180,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Brassica_napus_UK_2012","2012Lo3","pan trap","Common Cyclorrhapha Diptera found in OSR fields","order","other_flies",8170,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Brassica_napus_UK_2012","2012Lo3","transect","Diptera unknown or unidentified","order","other_flies",73,1800,180,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Brassica_napus_UK_2012","2012Lo3","pan trap","Eristalis intricarius","species","syrphids",2,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Brassica_napus_UK_2012","2012Lo3","transect","Hoverfly unknown or unidentified","family","syrphids",7,1800,180,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Brassica_napus_UK_2012","2012Lo3","pan trap","Ladybirds","family","beetles",6,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Brassica_napus_UK_2012","2012Lo3","transect","Ladybirds","family","beetles",1,1800,180,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Brassica_napus_UK_2012","2012Lo3","pan trap","Nematocera","order","other_flies",125,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Brassica_napus_UK_2012","2012Lo3","pan trap","Other Coleoptera (>3mm)","order","beetles",9,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Brassica_napus_UK_2012","2012Lo3","pan trap","Other Solitary wasp","order","non_bee_hymenoptera",1,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Brassica_napus_UK_2012","2012Lo3","pan trap","Parasitoids","order","non_bee_hymenoptera",17,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Brassica_napus_UK_2012","2012Lo3","transect","Platycheirus albimanus","species","syrphids",2,1800,180,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Brassica_napus_UK_2012","2012Lo3","pan trap","Platycheirus manicatus","species","syrphids",11,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Brassica_napus_UK_2012","2012Lo3","pan trap","Pollen beetle","species","beetles",200,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Brassica_napus_UK_2012","2012Lo3","transect","Pollen beetle","species","beetles",24,1800,180,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Brassica_napus_UK_2012","2012Lo3","pan trap","Rove beetle","family","beetles",7,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Brassica_napus_UK_2012","2012Lo3","pan trap","Syrphus ribesii","species","syrphids",1,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Brassica_napus_UK_2012","2012Lo3","pan trap","Weevil","superfamily","beetles",32,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Brassica_napus_UK_2012","2012Lo4","transect","Andrena nigroaenea","species","other_wild_bees",1,1800,180,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Brassica_napus_UK_2012","2012Lo4","transect","Bibio spp. (st Marks fly)","genus","other_flies",7,1800,180,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Brassica_napus_UK_2012","2012Lo4","pan trap","Bombus barbutellus","species","bumblebees",1,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Brassica_napus_UK_2012","2012Lo4","pan trap","Bombus lapidarius","species","bumblebees",2,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Brassica_napus_UK_2012","2012Lo4","transect","Bombus lapidarius","species","bumblebees",5,1800,180,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Brassica_napus_UK_2012","2012Lo4","transect","Bombus terrestris or lucorum","species","bumblebees",2,1800,180,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Brassica_napus_UK_2012","2012Lo4","pan trap","Bombus vestalis","species","bumblebees",1,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Brassica_napus_UK_2012","2012Lo4","pan trap","Brachycera (inc cyclorrhapha in OSR)","order","other_flies",52,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Brassica_napus_UK_2012","2012Lo4","transect","Coleoptera unknown or unidentified","order","beetles",7,1800,180,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Brassica_napus_UK_2012","2012Lo4","pan trap","Common Cyclorrhapha Diptera found in OSR fields","order","other_flies",3606,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Brassica_napus_UK_2012","2012Lo4","transect","Diptera unknown or unidentified","order","other_flies",110,1800,180,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Brassica_napus_UK_2012","2012Lo4","pan trap","Eristalis intricarius","species","syrphids",1,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Brassica_napus_UK_2012","2012Lo4","transect","Hoverfly unknown or unidentified","family","syrphids",9,1800,180,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Brassica_napus_UK_2012","2012Lo4","pan trap","Ladybirds","family","beetles",1,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Brassica_napus_UK_2012","2012Lo4","transect","Ladybirds","family","beetles",5,1800,180,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Brassica_napus_UK_2012","2012Lo4","pan trap","Nematocera","order","other_flies",97,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Brassica_napus_UK_2012","2012Lo4","pan trap","Other Coleoptera (>3mm)","order","beetles",7,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Brassica_napus_UK_2012","2012Lo4","pan trap","Other Hemiptera (>3mm)","order","other",1,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Brassica_napus_UK_2012","2012Lo4","pan trap","Other Solitary wasp","order","non_bee_hymenoptera",3,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Brassica_napus_UK_2012","2012Lo4","pan trap","Parasitoids","order","non_bee_hymenoptera",21,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Brassica_napus_UK_2012","2012Lo4","transect","Platycheirus manicatus","species","syrphids",1,1800,180,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Brassica_napus_UK_2012","2012Lo4","pan trap","Pollen beetle","species","beetles",198,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Brassica_napus_UK_2012","2012Lo4","transect","Pollen beetle","species","beetles",31,1800,180,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Brassica_napus_UK_2012","2012Lo4","pan trap","Rove beetle","family","beetles",11,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Brassica_napus_UK_2012","2012Lo4","pan trap","Saw flies","order","non_bee_hymenoptera",4,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Brassica_napus_UK_2012","2012Lo4","transect","Solitary bee unknown or unidentified","superfamily","other_wild_bees",1,1800,180,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Brassica_napus_UK_2012","2012Lo4","transect","Weevil","superfamily","beetles",9,1800,180,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Brassica_napus_UK_2012","2012Lo4","pan trap","Weevil","superfamily","beetles",22,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Brassica_napus_UK_2012","2012Lo5","pan trap","Ants: Formica rufa","species","non_bee_hymenoptera",1,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Brassica_napus_UK_2012","2012Lo5","transect","Apis mellifera","species","honeybees",4,1800,180,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Brassica_napus_UK_2012","2012Lo5","transect","Bibio spp. (st Marks fly)","genus","other_flies",2,1800,180,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Brassica_napus_UK_2012","2012Lo5","transect","Bombus hypnorum","species","bumblebees",1,1800,180,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Brassica_napus_UK_2012","2012Lo5","transect","Bombus lapidarius","species","bumblebees",5,1800,180,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Brassica_napus_UK_2012","2012Lo5","transect","Bombus pascuorum","species","bumblebees",1,1800,180,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Brassica_napus_UK_2012","2012Lo5","pan trap","Bombus pratorum","species","bumblebees",2,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Brassica_napus_UK_2012","2012Lo5","transect","Bombus pratorum","species","bumblebees",2,1800,180,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Brassica_napus_UK_2012","2012Lo5","transect","Bombus spp. unknown or unidentified","genus","bumblebees",4,1800,180,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Brassica_napus_UK_2012","2012Lo5","transect","Bombus terrestris or lucorum","species","bumblebees",10,1800,180,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Brassica_napus_UK_2012","2012Lo5","pan trap","Brachycera (inc cyclorrhapha in OSR)","order","other_flies",193,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Brassica_napus_UK_2012","2012Lo5","pan trap","Common Cyclorrhapha Diptera found in OSR fields","order","other_flies",2167,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Brassica_napus_UK_2012","2012Lo5","transect","Diptera unknown or unidentified","order","other_flies",28,1800,180,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Brassica_napus_UK_2012","2012Lo5","pan trap","Eristalis intricarius","species","syrphids",1,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Brassica_napus_UK_2012","2012Lo5","pan trap","Ground beetle","family","beetles",4,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Brassica_napus_UK_2012","2012Lo5","transect","Hoverfly unknown or unidentified","family","syrphids",7,1800,180,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Brassica_napus_UK_2012","2012Lo5","transect","Ladybirds","family","beetles",1,1800,180,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Brassica_napus_UK_2012","2012Lo5","pan trap","Ladybirds","family","beetles",2,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Brassica_napus_UK_2012","2012Lo5","pan trap","Lasioglossum calceatum","species","other_wild_bees",3,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Brassica_napus_UK_2012","2012Lo5","pan trap","Nematocera","order","other_flies",137,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Brassica_napus_UK_2012","2012Lo5","pan trap","Other Coleoptera (>3mm)","order","beetles",4,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Brassica_napus_UK_2012","2012Lo5","pan trap","Other Hemiptera (>3mm)","order","other",3,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Brassica_napus_UK_2012","2012Lo5","pan trap","Parasitoids","order","non_bee_hymenoptera",8,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Brassica_napus_UK_2012","2012Lo5","pan trap","Pollen beetle","species","beetles",104,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Brassica_napus_UK_2012","2012Lo5","transect","Pollen beetle","species","beetles",12,1800,180,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Brassica_napus_UK_2012","2012Lo5","pan trap","Rove beetle","family","beetles",8,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Brassica_napus_UK_2012","2012Lo5","pan trap","Sphaerophoria sp.","genus","syrphids",1,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Brassica_napus_UK_2012","2012Lo5","pan trap","spider","order","other",1,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Brassica_napus_UK_2012","2012Lo5","transect","Tipulidae spp.","genus","other_flies",1,1800,180,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Brassica_napus_UK_2012","2012Lo5","transect","Weevil","superfamily","beetles",1,1800,180,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Brassica_napus_UK_2012","2012Lo5","pan trap","Weevil","superfamily","beetles",10,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Brassica_napus_UK_2012","2012Lo6","pan trap","Andrena bicolor","species","other_wild_bees",1,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Brassica_napus_UK_2012","2012Lo6","pan trap","Andrena haemorrhoa","species","other_wild_bees",2,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Brassica_napus_UK_2012","2012Lo6","transect","Bibio spp. (st Marks fly)","genus","other_flies",13,1800,180,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Brassica_napus_UK_2012","2012Lo6","pan trap","Bombus hortorum","species","bumblebees",1,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Brassica_napus_UK_2012","2012Lo6","pan trap","Bombus lapidarius","species","bumblebees",3,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Brassica_napus_UK_2012","2012Lo6","pan trap","Bombus pascuorum","species","bumblebees",1,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Brassica_napus_UK_2012","2012Lo6","transect","Bombus spp. unknown or unidentified","genus","bumblebees",2,1800,180,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Brassica_napus_UK_2012","2012Lo6","transect","Bombus terrestris or lucorum","species","bumblebees",1,1800,180,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Brassica_napus_UK_2012","2012Lo6","pan trap","Bombus terrestris","species","bumblebees",1,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Brassica_napus_UK_2012","2012Lo6","transect","Bombus vestalis","species","bumblebees",1,1800,180,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Brassica_napus_UK_2012","2012Lo6","pan trap","Bombus vestalis","species","bumblebees",2,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Brassica_napus_UK_2012","2012Lo6","pan trap","Brachycera (inc cyclorrhapha in OSR)","order","other_flies",66,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Brassica_napus_UK_2012","2012Lo6","transect","Coleoptera unknown or unidentified","order","beetles",2,1800,180,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Brassica_napus_UK_2012","2012Lo6","pan trap","Common Cyclorrhapha Diptera found in OSR fields","order","other_flies",5397,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Brassica_napus_UK_2012","2012Lo6","transect","Crane flies","family","other_flies",2,1800,180,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Brassica_napus_UK_2012","2012Lo6","transect","Diptera unknown or unidentified","order","other_flies",104,1800,180,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Brassica_napus_UK_2012","2012Lo6","pan trap","Eristalis intricarius","species","syrphids",9,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Brassica_napus_UK_2012","2012Lo6","transect","Eristalis intricarius","species","syrphids",1,1800,180,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Brassica_napus_UK_2012","2012Lo6","transect","Hoverfly unknown or unidentified","family","syrphids",1,1800,180,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Brassica_napus_UK_2012","2012Lo6","pan trap","Ladybirds","family","beetles",1,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Brassica_napus_UK_2012","2012Lo6","pan trap","Lasioglossum calceatum","species","other_wild_bees",1,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Brassica_napus_UK_2012","2012Lo6","transect","Lepidoptera","order","lepidoptera",1,1800,180,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Brassica_napus_UK_2012","2012Lo6","pan trap","Mirid Bug","family","other",1,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Brassica_napus_UK_2012","2012Lo6","pan trap","Nematocera","order","other_flies",115,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Brassica_napus_UK_2012","2012Lo6","pan trap","Other Coleoptera (>3mm)","order","beetles",11,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Brassica_napus_UK_2012","2012Lo6","pan trap","Other Hemiptera (>3mm)","order","other",3,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Brassica_napus_UK_2012","2012Lo6","pan trap","Other Solitary wasp","order","non_bee_hymenoptera",1,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Brassica_napus_UK_2012","2012Lo6","pan trap","Parasitoids","order","non_bee_hymenoptera",12,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Brassica_napus_UK_2012","2012Lo6","pan trap","Platycheirus manicatus","species","syrphids",6,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Brassica_napus_UK_2012","2012Lo6","pan trap","Pollen beetle","species","beetles",228,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Brassica_napus_UK_2012","2012Lo6","transect","Pollen beetle","species","beetles",77,1800,180,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Brassica_napus_UK_2012","2012Lo6","pan trap","Rhingia campestris","species","syrphids",1,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Brassica_napus_UK_2012","2012Lo6","pan trap","Rove beetle","family","beetles",12,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Brassica_napus_UK_2012","2012Lo6","transect","Weevil","superfamily","beetles",1,1800,180,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Brassica_napus_UK_2012","2012Lo6","pan trap","Weevil","superfamily","beetles",8,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Brassica_napus_UK_2012","2012Lo7","pan trap","Andrena fulva","species","other_wild_bees",1,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Brassica_napus_UK_2012","2012Lo7","pan trap","Andrena haemorrhoa","species","other_wild_bees",3,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Brassica_napus_UK_2012","2012Lo7","pan trap","Apis mellifera","species","honeybees",1,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Brassica_napus_UK_2012","2012Lo7","transect","Bibio spp. (st Marks fly)","genus","other_flies",18,1800,180,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Brassica_napus_UK_2012","2012Lo7","pan trap","Bombus lapidarius","species","bumblebees",1,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Brassica_napus_UK_2012","2012Lo7","transect","Bombus lapidarius","species","bumblebees",1,1800,180,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Brassica_napus_UK_2012","2012Lo7","pan trap","Bombus lucorum","species","bumblebees",1,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Brassica_napus_UK_2012","2012Lo7","pan trap","Bombus rupestris","species","bumblebees",3,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Brassica_napus_UK_2012","2012Lo7","pan trap","Bombus terrestris","species","bumblebees",1,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Brassica_napus_UK_2012","2012Lo7","pan trap","Brachycera (inc cyclorrhapha in OSR)","order","other_flies",39,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Brassica_napus_UK_2012","2012Lo7","transect","Coleoptera unknown or unidentified","order","beetles",1,1800,180,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Brassica_napus_UK_2012","2012Lo7","pan trap","Common Cyclorrhapha Diptera found in OSR fields","order","other_flies",9808,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Brassica_napus_UK_2012","2012Lo7","transect","Diptera unknown or unidentified","order","other_flies",186,1800,180,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Brassica_napus_UK_2012","2012Lo7","transect","Hoverfly unknown or unidentified","family","syrphids",3,1800,180,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Brassica_napus_UK_2012","2012Lo7","transect","Ladybirds","family","beetles",1,1800,180,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Brassica_napus_UK_2012","2012Lo7","transect","Lepidoptera","order","lepidoptera",1,1800,180,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Brassica_napus_UK_2012","2012Lo7","pan trap","Nematocera","order","other_flies",125,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Brassica_napus_UK_2012","2012Lo7","pan trap","Other Coleoptera (>3mm)","order","beetles",4,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Brassica_napus_UK_2012","2012Lo7","pan trap","Other Hemiptera (>3mm)","order","other",1,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Brassica_napus_UK_2012","2012Lo7","pan trap","Parasitoids","order","non_bee_hymenoptera",20,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Brassica_napus_UK_2012","2012Lo7","pan trap","Platycheirus manicatus","species","syrphids",8,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Brassica_napus_UK_2012","2012Lo7","transect","Platycheirus manicatus","species","syrphids",1,1800,180,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Brassica_napus_UK_2012","2012Lo7","pan trap","Pollen beetle","species","beetles",130,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Brassica_napus_UK_2012","2012Lo7","transect","Pollen beetle","species","beetles",22,1800,180,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Brassica_napus_UK_2012","2012Lo7","pan trap","Rove beetle","family","beetles",2,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Brassica_napus_UK_2012","2012Lo7","transect","Weevil","superfamily","beetles",14,1800,180,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Brassica_napus_UK_2012","2012Lo7","pan trap","Weevil","superfamily","beetles",52,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Brassica_napus_UK_2012","2012Lo8","pan trap","Andrena haemorrhoa","species","other_wild_bees",3,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Brassica_napus_UK_2012","2012Lo8","pan trap","Andrena nigroaenea","species","other_wild_bees",2,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Brassica_napus_UK_2012","2012Lo8","pan trap","Andrena tibialis","species","other_wild_bees",1,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Brassica_napus_UK_2012","2012Lo8","transect","Apis mellifera","species","honeybees",20,1800,180,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Brassica_napus_UK_2012","2012Lo8","transect","Bibio spp. (st Marks fly)","genus","other_flies",17,1800,180,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Brassica_napus_UK_2012","2012Lo8","transect","Bombus lapidarius","species","bumblebees",1,1800,180,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Brassica_napus_UK_2012","2012Lo8","pan trap","Bombus lapidarius","species","bumblebees",2,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Brassica_napus_UK_2012","2012Lo8","pan trap","Bombus lucorum","species","bumblebees",1,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Brassica_napus_UK_2012","2012Lo8","pan trap","Bombus pratorum","species","bumblebees",1,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Brassica_napus_UK_2012","2012Lo8","transect","Bombus spp. unknown or unidentified","genus","bumblebees",1,1800,180,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Brassica_napus_UK_2012","2012Lo8","transect","Bombus terrestris or lucorum","species","bumblebees",1,1800,180,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Brassica_napus_UK_2012","2012Lo8","pan trap","Bombus vestalis","species","bumblebees",1,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Brassica_napus_UK_2012","2012Lo8","pan trap","Brachycera (inc cyclorrhapha in OSR)","order","other_flies",122,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Brassica_napus_UK_2012","2012Lo8","transect","Coleoptera unknown or unidentified","order","beetles",65,1800,180,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Brassica_napus_UK_2012","2012Lo8","pan trap","Common Cyclorrhapha Diptera found in OSR fields","order","other_flies",7827,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Brassica_napus_UK_2012","2012Lo8","transect","Diptera unknown or unidentified","order","other_flies",102,1800,180,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Brassica_napus_UK_2012","2012Lo8","pan trap","Ground beetle","family","beetles",1,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Brassica_napus_UK_2012","2012Lo8","transect","Hoverfly unknown or unidentified","family","syrphids",10,1800,180,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Brassica_napus_UK_2012","2012Lo8","transect","Ladybirds","family","beetles",5,1800,180,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Brassica_napus_UK_2012","2012Lo8","pan trap","Ladybirds","family","beetles",2,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Brassica_napus_UK_2012","2012Lo8","pan trap","Lepidoptera","order","lepidoptera",1,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Brassica_napus_UK_2012","2012Lo8","transect","Lepidoptera","order","lepidoptera",1,1800,180,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Brassica_napus_UK_2012","2012Lo8","pan trap","Nematocera","order","other_flies",159,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Brassica_napus_UK_2012","2012Lo8","pan trap","Other Coleoptera (>3mm)","order","beetles",7,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Brassica_napus_UK_2012","2012Lo8","pan trap","Other Solitary wasp","order","non_bee_hymenoptera",5,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Brassica_napus_UK_2012","2012Lo8","pan trap","Parasitoids","order","non_bee_hymenoptera",20,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Brassica_napus_UK_2012","2012Lo8","transect","Platycheirus manicatus","species","syrphids",1,1800,180,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Brassica_napus_UK_2012","2012Lo8","pan trap","Platycheirus manicatus","species","syrphids",5,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Brassica_napus_UK_2012","2012Lo8","pan trap","Pollen beetle","species","beetles",491,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Brassica_napus_UK_2012","2012Lo8","transect","Pollen beetle","species","beetles",185,1800,180,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Brassica_napus_UK_2012","2012Lo8","pan trap","Rove beetle","family","beetles",3,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Brassica_napus_UK_2012","2012Lo8","pan trap","Saw flies","order","non_bee_hymenoptera",1,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Brassica_napus_UK_2012","2012Lo8","pan trap","spider","order","other",1,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Brassica_napus_UK_2012","2012Lo8","transect","Syrphus ribesii","species","syrphids",1,1800,180,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Brassica_napus_UK_2012","2012Lo8","transect","Tipulidae spp.","genus","other_flies",1,1800,180,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Brassica_napus_UK_2012","2012Lo8","pan trap","Weevil","superfamily","beetles",31,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Brassica_napus_UK_2012","2012Lo8","transect","Weevil","superfamily","beetles",1,1800,180,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Fragaria_ananassa_UK_2011","2011Ls1","pan trap","Andrena carantonica","species","other_wild_bees",4,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Fragaria_ananassa_UK_2011","2011Ls1","pan trap","Andrena haemorrhoa","species","other_wild_bees",5,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Fragaria_ananassa_UK_2011","2011Ls1","transect","Ant","family","non_bee_hymenoptera",1,1800,180,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Fragaria_ananassa_UK_2011","2011Ls1","pan trap","Apis mellifera","species","honeybees",2,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Fragaria_ananassa_UK_2011","2011Ls1","transect","Apis mellifera","species","honeybees",223,1800,180,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Fragaria_ananassa_UK_2011","2011Ls1","pan trap","Bombus hortorum","species","bumblebees",1,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Fragaria_ananassa_UK_2011","2011Ls1","transect","Bombus hypnorum","species","bumblebees",1,1800,180,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Fragaria_ananassa_UK_2011","2011Ls1","transect","Bombus lapidarius","species","bumblebees",100,1800,180,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Fragaria_ananassa_UK_2011","2011Ls1","transect","Bombus pascuorum","species","bumblebees",2,1800,180,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Fragaria_ananassa_UK_2011","2011Ls1","transect","Bombus pratorum","species","bumblebees",1,1800,180,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Fragaria_ananassa_UK_2011","2011Ls1","transect","Bombus spp. unknown or unidentified","genus","bumblebees",29,1800,180,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Fragaria_ananassa_UK_2011","2011Ls1","transect","Bombus terrestris or lucorum","species","bumblebees",62,1800,180,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Fragaria_ananassa_UK_2011","2011Ls1","pan trap","Bombus terrestris","species","bumblebees",1,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Fragaria_ananassa_UK_2011","2011Ls1","transect","Chrysopidae spp.","family","other",1,1800,180,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Fragaria_ananassa_UK_2011","2011Ls1","transect","Clytus arietus","species","beetles",1,1800,180,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Fragaria_ananassa_UK_2011","2011Ls1","transect","Coleoptera unknown or unidentified","order","beetles",22,1800,180,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Fragaria_ananassa_UK_2011","2011Ls1","pan trap","Cyclorrhapha","order","other_flies",5,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Fragaria_ananassa_UK_2011","2011Ls1","transect","Diptera unknown or unidentified","order","other_flies",53,1800,180,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Fragaria_ananassa_UK_2011","2011Ls1","pan trap","Eristalis arbustorum","species","syrphids",2,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Fragaria_ananassa_UK_2011","2011Ls1","pan trap","Flesh flies","family","other_flies",1,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Fragaria_ananassa_UK_2011","2011Ls1","pan trap","Halictus rubicundus","species","other_wild_bees",1,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Fragaria_ananassa_UK_2011","2011Ls1","transect","Hoverfly unknown or unidentified","family","syrphids",35,1800,180,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Fragaria_ananassa_UK_2011","2011Ls1","pan trap","Ladybirds","family","beetles",13,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Fragaria_ananassa_UK_2011","2011Ls1","transect","Lepidoptera","order","lepidoptera",4,1800,180,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Fragaria_ananassa_UK_2011","2011Ls1","pan trap","Lepidoptera","order","lepidoptera",2,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Fragaria_ananassa_UK_2011","2011Ls1","pan trap","Other Coleoptera (>3mm)","order","beetles",6,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Fragaria_ananassa_UK_2011","2011Ls1","pan trap","Other Diptera (>3mm)","order","other_flies",152,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Fragaria_ananassa_UK_2011","2011Ls1","pan trap","Other Hemiptera (>3mm)","order","other",2,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Fragaria_ananassa_UK_2011","2011Ls1","pan trap","Other Hymenoptera (>3mm)","order","non_bee_hymenoptera",8,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Fragaria_ananassa_UK_2011","2011Ls1","pan trap","Parasitoids","order","non_bee_hymenoptera",3,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Fragaria_ananassa_UK_2011","2011Ls1","transect","Platycheirus manicatus","species","syrphids",1,1800,180,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Fragaria_ananassa_UK_2011","2011Ls1","transect","Platycheirus sp.","genus","syrphids",1,1800,180,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Fragaria_ananassa_UK_2011","2011Ls1","pan trap","Saw flies","order","non_bee_hymenoptera",1,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Fragaria_ananassa_UK_2011","2011Ls1","transect","spider","order","other",2,1800,180,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Fragaria_ananassa_UK_2011","2011Ls1","pan trap","spider","order","other",1,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Fragaria_ananassa_UK_2011","2011Ls2","pan trap","Andrena bicolor","species","other_wild_bees",1,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Fragaria_ananassa_UK_2011","2011Ls2","pan trap","Andrena carantonica","species","other_wild_bees",1,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Fragaria_ananassa_UK_2011","2011Ls2","pan trap","Andrena chrysosceles","species","other_wild_bees",5,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Fragaria_ananassa_UK_2011","2011Ls2","pan trap","Andrena cineraria","species","other_wild_bees",8,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Fragaria_ananassa_UK_2011","2011Ls2","pan trap","Andrena haemorrhoa","species","other_wild_bees",3,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Fragaria_ananassa_UK_2011","2011Ls2","pan trap","Andrena nigroaenea","species","other_wild_bees",1,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Fragaria_ananassa_UK_2011","2011Ls2","transect","Apis mellifera","species","honeybees",50,1800,180,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Fragaria_ananassa_UK_2011","2011Ls2","pan trap","Apis mellifera","species","honeybees",8,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Fragaria_ananassa_UK_2011","2011Ls2","pan trap","Bombus hortorum","species","bumblebees",8,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Fragaria_ananassa_UK_2011","2011Ls2","pan trap","Bombus lapidarius","species","bumblebees",4,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Fragaria_ananassa_UK_2011","2011Ls2","transect","Bombus lapidarius","species","bumblebees",22,1800,180,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Fragaria_ananassa_UK_2011","2011Ls2","pan trap","Bombus lucorum","species","bumblebees",2,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Fragaria_ananassa_UK_2011","2011Ls2","transect","Bombus pascuorum","species","bumblebees",3,1800,180,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Fragaria_ananassa_UK_2011","2011Ls2","transect","Bombus spp. unknown or unidentified","genus","bumblebees",9,1800,180,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Fragaria_ananassa_UK_2011","2011Ls2","transect","Bombus terrestris or lucorum","species","bumblebees",10,1800,180,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Fragaria_ananassa_UK_2011","2011Ls2","pan trap","Bombus terrestris","species","bumblebees",4,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Fragaria_ananassa_UK_2011","2011Ls2","pan trap","Brachycera (inc cyclorrhapha in OSR)","order","other_flies",1,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Fragaria_ananassa_UK_2011","2011Ls2","transect","Coleoptera unknown or unidentified","order","beetles",18,1800,180,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Fragaria_ananassa_UK_2011","2011Ls2","pan trap","Cyclorrhapha","order","other_flies",3,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Fragaria_ananassa_UK_2011","2011Ls2","transect","Diptera unknown or unidentified","order","other_flies",59,1800,180,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Fragaria_ananassa_UK_2011","2011Ls2","pan trap","Eristalis arbustorum","species","syrphids",2,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Fragaria_ananassa_UK_2011","2011Ls2","pan trap","Eristalis sp.","genus","syrphids",1,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Fragaria_ananassa_UK_2011","2011Ls2","pan trap","Eristalis tenax","species","syrphids",6,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Fragaria_ananassa_UK_2011","2011Ls2","pan trap","Flesh flies","family","other_flies",1,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Fragaria_ananassa_UK_2011","2011Ls2","pan trap","Halictus rubicundus","species","other_wild_bees",1,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Fragaria_ananassa_UK_2011","2011Ls2","transect","Hoverfly unknown or unidentified","family","syrphids",58,1800,180,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Fragaria_ananassa_UK_2011","2011Ls2","pan trap","Ladybirds","family","beetles",4,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Fragaria_ananassa_UK_2011","2011Ls2","pan trap","Lasioglossum calceatum","species","other_wild_bees",6,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Fragaria_ananassa_UK_2011","2011Ls2","pan trap","Lepidoptera","order","lepidoptera",4,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Fragaria_ananassa_UK_2011","2011Ls2","transect","Lepidoptera","order","lepidoptera",6,1800,180,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Fragaria_ananassa_UK_2011","2011Ls2","pan trap","Merodon equestris","species","syrphids",1,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Fragaria_ananassa_UK_2011","2011Ls2","transect","Oedemera lurida","species","beetles",1,1800,180,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Fragaria_ananassa_UK_2011","2011Ls2","transect","Oedemera spp.","genus","beetles",1,1800,180,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Fragaria_ananassa_UK_2011","2011Ls2","pan trap","Other Coleoptera (>3mm)","order","beetles",26,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Fragaria_ananassa_UK_2011","2011Ls2","pan trap","Other Diptera (>3mm)","order","other_flies",502,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Fragaria_ananassa_UK_2011","2011Ls2","pan trap","Other Hemiptera (>3mm)","order","other",72,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Fragaria_ananassa_UK_2011","2011Ls2","pan trap","Other Hymenoptera (>3mm)","order","non_bee_hymenoptera",27,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Fragaria_ananassa_UK_2011","2011Ls2","pan trap","Parasitoids","order","non_bee_hymenoptera",14,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Fragaria_ananassa_UK_2011","2011Ls2","transect","Platycheirus manicatus","species","syrphids",2,1800,180,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Fragaria_ananassa_UK_2011","2011Ls2","pan trap","Saw flies","order","non_bee_hymenoptera",4,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Fragaria_ananassa_UK_2011","2011Ls2","pan trap","Social wasps","family","non_bee_hymenoptera",2,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Fragaria_ananassa_UK_2011","2011Ls2","pan trap","Sphaerophoria sp.","genus","syrphids",1,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Fragaria_ananassa_UK_2011","2011Ls2","transect","Sphaerophoria sp.","genus","syrphids",1,1800,180,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Fragaria_ananassa_UK_2011","2011Ls2","transect","spider","order","other",1,1800,180,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Fragaria_ananassa_UK_2011","2011Ls2","pan trap","spider","order","other",2,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Fragaria_ananassa_UK_2011","2011Ls3","pan trap","Andrena carantonica","species","other_wild_bees",5,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Fragaria_ananassa_UK_2011","2011Ls3","transect","Apis mellifera","species","honeybees",170,1800,180,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Fragaria_ananassa_UK_2011","2011Ls3","pan trap","Apis mellifera","species","honeybees",1,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Fragaria_ananassa_UK_2011","2011Ls3","transect","Bombus hypnorum","species","bumblebees",2,1800,180,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Fragaria_ananassa_UK_2011","2011Ls3","pan trap","Bombus lapidarius","species","bumblebees",7,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Fragaria_ananassa_UK_2011","2011Ls3","transect","Bombus lapidarius","species","bumblebees",66,1800,180,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Fragaria_ananassa_UK_2011","2011Ls3","transect","Bombus pascuorum","species","bumblebees",1,1800,180,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Fragaria_ananassa_UK_2011","2011Ls3","pan trap","Bombus pratorum","species","bumblebees",3,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Fragaria_ananassa_UK_2011","2011Ls3","transect","Bombus pratorum","species","bumblebees",4,1800,180,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Fragaria_ananassa_UK_2011","2011Ls3","transect","Bombus spp. unknown or unidentified","genus","bumblebees",17,1800,180,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Fragaria_ananassa_UK_2011","2011Ls3","transect","Bombus terrestris or lucorum","species","bumblebees",46,1800,180,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Fragaria_ananassa_UK_2011","2011Ls3","pan trap","Bombus terrestris","species","bumblebees",2,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Fragaria_ananassa_UK_2011","2011Ls3","transect","Chrysopidae spp.","family","other",1,1800,180,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Fragaria_ananassa_UK_2011","2011Ls3","transect","Coleoptera unknown or unidentified","order","beetles",4,1800,180,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Fragaria_ananassa_UK_2011","2011Ls3","pan trap","Crane flies","family","other_flies",6,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Fragaria_ananassa_UK_2011","2011Ls3","pan trap","Cyclorrhapha","order","other_flies",10,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Fragaria_ananassa_UK_2011","2011Ls3","transect","Diptera unknown or unidentified","order","other_flies",65,1800,180,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Fragaria_ananassa_UK_2011","2011Ls3","transect","Hoverfly unknown or unidentified","family","syrphids",21,1800,180,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Fragaria_ananassa_UK_2011","2011Ls3","pan trap","Ladybirds","family","beetles",2,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Fragaria_ananassa_UK_2011","2011Ls3","pan trap","Lasioglossum leucopus","species","other_wild_bees",1,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Fragaria_ananassa_UK_2011","2011Ls3","transect","Lepidoptera","order","lepidoptera",4,1800,180,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Fragaria_ananassa_UK_2011","2011Ls3","pan trap","Lepidoptera","order","lepidoptera",1,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Fragaria_ananassa_UK_2011","2011Ls3","transect","Nephrotoma spp.","genus","other_flies",1,1800,180,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Fragaria_ananassa_UK_2011","2011Ls3","pan trap","Other Coleoptera (>3mm)","order","beetles",3,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Fragaria_ananassa_UK_2011","2011Ls3","pan trap","Other Diptera (>3mm)","order","other_flies",168,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Fragaria_ananassa_UK_2011","2011Ls3","pan trap","Other Hemiptera (>3mm)","order","other",2,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Fragaria_ananassa_UK_2011","2011Ls3","pan trap","Other Hymenoptera (>3mm)","order","non_bee_hymenoptera",2,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Fragaria_ananassa_UK_2011","2011Ls3","pan trap","Parasitoids","order","non_bee_hymenoptera",3,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Fragaria_ananassa_UK_2011","2011Ls3","transect","Solitary bee unknown or unidentified","superfamily","other_wild_bees",2,1800,180,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Fragaria_ananassa_UK_2011","2011Ls3","transect","Sphaerophoria sp.","genus","syrphids",1,1800,180,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Fragaria_ananassa_UK_2011","2011Ls3","pan trap","spider","order","other",1,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Fragaria_ananassa_UK_2011","2011Ls4","pan trap","Andrena carantonica","species","other_wild_bees",1,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Fragaria_ananassa_UK_2011","2011Ls4","pan trap","Andrena cineraria","species","other_wild_bees",1,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Fragaria_ananassa_UK_2011","2011Ls4","pan trap","Andrena haemorrhoa","species","other_wild_bees",1,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Fragaria_ananassa_UK_2011","2011Ls4","pan trap","Andrena nigroaenea","species","other_wild_bees",4,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Fragaria_ananassa_UK_2011","2011Ls4","transect","Apis mellifera","species","honeybees",23,1800,180,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Fragaria_ananassa_UK_2011","2011Ls4","pan trap","Apis mellifera","species","honeybees",1,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Fragaria_ananassa_UK_2011","2011Ls4","pan trap","Bombus hortorum","species","bumblebees",1,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Fragaria_ananassa_UK_2011","2011Ls4","pan trap","Bombus jonellus","species","bumblebees",1,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Fragaria_ananassa_UK_2011","2011Ls4","transect","Bombus lapidarius","species","bumblebees",29,1800,180,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Fragaria_ananassa_UK_2011","2011Ls4","pan trap","Bombus lapidarius","species","bumblebees",5,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Fragaria_ananassa_UK_2011","2011Ls4","pan trap","Bombus lucorum","species","bumblebees",1,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Fragaria_ananassa_UK_2011","2011Ls4","transect","Bombus pratorum","species","bumblebees",2,1800,180,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Fragaria_ananassa_UK_2011","2011Ls4","pan trap","Bombus rupestris","species","bumblebees",1,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Fragaria_ananassa_UK_2011","2011Ls4","transect","Bombus spp. unknown or unidentified","genus","bumblebees",31,1800,180,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Fragaria_ananassa_UK_2011","2011Ls4","transect","Bombus terrestris or lucorum","species","bumblebees",88,1800,180,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Fragaria_ananassa_UK_2011","2011Ls4","transect","Coleoptera unknown or unidentified","order","beetles",4,1800,180,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Fragaria_ananassa_UK_2011","2011Ls4","pan trap","Cyclorrhapha","order","other_flies",1,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Fragaria_ananassa_UK_2011","2011Ls4","transect","Diptera unknown or unidentified","order","other_flies",94,1800,180,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Fragaria_ananassa_UK_2011","2011Ls4","pan trap","Eupeodes corollae","species","syrphids",2,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Fragaria_ananassa_UK_2011","2011Ls4","transect","Hoverfly unknown or unidentified","family","syrphids",106,1800,180,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Fragaria_ananassa_UK_2011","2011Ls4","pan trap","Ladybirds","family","beetles",2,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Fragaria_ananassa_UK_2011","2011Ls4","pan trap","Lasioglossum calceatum","species","other_wild_bees",1,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Fragaria_ananassa_UK_2011","2011Ls4","pan trap","Other Coleoptera (>3mm)","order","beetles",7,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Fragaria_ananassa_UK_2011","2011Ls4","pan trap","Other Diptera (>3mm)","order","other_flies",224,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Fragaria_ananassa_UK_2011","2011Ls4","pan trap","Other Hemiptera (>3mm)","order","other",8,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Fragaria_ananassa_UK_2011","2011Ls4","pan trap","Other Hymenoptera (>3mm)","order","non_bee_hymenoptera",4,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Fragaria_ananassa_UK_2011","2011Ls4","pan trap","Parasitoids","order","non_bee_hymenoptera",6,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Fragaria_ananassa_UK_2011","2011Ls4","transect","Solitary bee unknown or unidentified","superfamily","other_wild_bees",3,1800,180,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Fragaria_ananassa_UK_2011","2011Ls4","pan trap","spider","order","other",1,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Fragaria_ananassa_UK_2011","2011Ls4","transect","spider","order","other",2,1800,180,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Fragaria_ananassa_UK_2011","2011Ls5","pan trap","Andrena chrysosceles","species","other_wild_bees",3,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Fragaria_ananassa_UK_2011","2011Ls5","transect","Andrena chrysosceles","species","other_wild_bees",1,1800,180,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Fragaria_ananassa_UK_2011","2011Ls5","pan trap","Andrena humilis","species","other_wild_bees",1,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Fragaria_ananassa_UK_2011","2011Ls5","pan trap","Andrena minutula","species","other_wild_bees",4,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Fragaria_ananassa_UK_2011","2011Ls5","pan trap","Andrena nigroaenea","species","other_wild_bees",2,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Fragaria_ananassa_UK_2011","2011Ls5","transect","Apis mellifera","species","honeybees",193,1800,180,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Fragaria_ananassa_UK_2011","2011Ls5","pan trap","Apis mellifera","species","honeybees",17,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Fragaria_ananassa_UK_2011","2011Ls5","pan trap","Bombus hypnorum","species","bumblebees",1,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Fragaria_ananassa_UK_2011","2011Ls5","transect","Bombus hypnorum","species","bumblebees",5,1800,180,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Fragaria_ananassa_UK_2011","2011Ls5","pan trap","Bombus jonellus","species","bumblebees",2,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Fragaria_ananassa_UK_2011","2011Ls5","pan trap","Bombus lapidarius","species","bumblebees",27,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Fragaria_ananassa_UK_2011","2011Ls5","transect","Bombus lapidarius","species","bumblebees",161,1800,180,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Fragaria_ananassa_UK_2011","2011Ls5","pan trap","Bombus lucorum","species","bumblebees",6,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Fragaria_ananassa_UK_2011","2011Ls5","pan trap","Bombus pratorum","species","bumblebees",2,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Fragaria_ananassa_UK_2011","2011Ls5","transect","Bombus spp. unknown or unidentified","genus","bumblebees",6,1800,180,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Fragaria_ananassa_UK_2011","2011Ls5","pan trap","Bombus sylvestris","species","bumblebees",6,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Fragaria_ananassa_UK_2011","2011Ls5","transect","Bombus terrestris or lucorum","species","bumblebees",140,1800,180,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Fragaria_ananassa_UK_2011","2011Ls5","pan trap","Bombus terrestris","species","bumblebees",12,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Fragaria_ananassa_UK_2011","2011Ls5","transect","Coccinella septempunctata","species","beetles",1,1800,180,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Fragaria_ananassa_UK_2011","2011Ls5","transect","Coleoptera unknown or unidentified","order","beetles",27,1800,180,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Fragaria_ananassa_UK_2011","2011Ls5","pan trap","Cyclorrhapha","order","other_flies",3,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Fragaria_ananassa_UK_2011","2011Ls5","transect","Diptera unknown or unidentified","order","other_flies",66,1800,180,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Fragaria_ananassa_UK_2011","2011Ls5","pan trap","Eristalis tenax","species","syrphids",5,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Fragaria_ananassa_UK_2011","2011Ls5","transect","Hoverfly unknown or unidentified","family","syrphids",64,1800,180,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Fragaria_ananassa_UK_2011","2011Ls5","pan trap","Lasioglossum calceatum","species","other_wild_bees",4,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Fragaria_ananassa_UK_2011","2011Ls5","transect","Lasioglossum calceatum","species","other_wild_bees",1,1800,180,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Fragaria_ananassa_UK_2011","2011Ls5","pan trap","Lasioglossum cupromicans","species","other_wild_bees",4,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Fragaria_ananassa_UK_2011","2011Ls5","pan trap","Lasioglossum villosulum","species","other_wild_bees",1,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Fragaria_ananassa_UK_2011","2011Ls5","transect","Lepidoptera","order","lepidoptera",3,1800,180,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Fragaria_ananassa_UK_2011","2011Ls5","pan trap","Merodon equestris","species","syrphids",1,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Fragaria_ananassa_UK_2011","2011Ls5","transect","Miris striatus","species","other",1,1800,180,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Fragaria_ananassa_UK_2011","2011Ls5","pan trap","Other Coleoptera (>3mm)","order","beetles",3,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Fragaria_ananassa_UK_2011","2011Ls5","pan trap","Other Diptera (>3mm)","order","other_flies",125,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Fragaria_ananassa_UK_2011","2011Ls5","pan trap","Other Hemiptera (>3mm)","order","other",2,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Fragaria_ananassa_UK_2011","2011Ls5","pan trap","Other Hymenoptera (>3mm)","order","non_bee_hymenoptera",8,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Fragaria_ananassa_UK_2011","2011Ls5","pan trap","Parasitoids","order","non_bee_hymenoptera",2,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Fragaria_ananassa_UK_2011","2011Ls5","pan trap","Social wasps","family","non_bee_hymenoptera",1,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Fragaria_ananassa_UK_2011","2011Ls5","transect","Solitary bee unknown or unidentified","superfamily","other_wild_bees",3,1800,180,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Fragaria_ananassa_UK_2011","2011Ls5","transect","spider","order","other",22,1800,180,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Fragaria_ananassa_UK_2011","2011Ls6","transect","Ant","family","non_bee_hymenoptera",1,1800,180,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Fragaria_ananassa_UK_2011","2011Ls6","transect","Apis mellifera","species","honeybees",249,1800,180,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Fragaria_ananassa_UK_2011","2011Ls6","pan trap","Apis mellifera","species","honeybees",9,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Fragaria_ananassa_UK_2011","2011Ls6","transect","Bombus hypnorum","species","bumblebees",5,1800,180,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Fragaria_ananassa_UK_2011","2011Ls6","transect","Bombus lapidarius","species","bumblebees",15,1800,180,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Fragaria_ananassa_UK_2011","2011Ls6","pan trap","Bombus lapidarius","species","bumblebees",8,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Fragaria_ananassa_UK_2011","2011Ls6","pan trap","Bombus lucorum","species","bumblebees",2,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Fragaria_ananassa_UK_2011","2011Ls6","transect","Bombus pascuorum","species","bumblebees",1,1800,180,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Fragaria_ananassa_UK_2011","2011Ls6","transect","Bombus pratorum","species","bumblebees",2,1800,180,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Fragaria_ananassa_UK_2011","2011Ls6","transect","Bombus spp. unknown or unidentified","genus","bumblebees",2,1800,180,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Fragaria_ananassa_UK_2011","2011Ls6","transect","Bombus terrestris or lucorum","species","bumblebees",28,1800,180,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Fragaria_ananassa_UK_2011","2011Ls6","pan trap","Bombus terrestris","species","bumblebees",1,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Fragaria_ananassa_UK_2011","2011Ls6","transect","Chrysopidae spp.","family","other",5,1800,180,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Fragaria_ananassa_UK_2011","2011Ls6","transect","Coleoptera unknown or unidentified","order","beetles",19,1800,180,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Fragaria_ananassa_UK_2011","2011Ls6","transect","Cricket/Grasshopper","order","other",20,1800,180,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Fragaria_ananassa_UK_2011","2011Ls6","pan trap","Cyclorrhapha","order","other_flies",2,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Fragaria_ananassa_UK_2011","2011Ls6","transect","Diptera unknown or unidentified","order","other_flies",36,1800,180,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Fragaria_ananassa_UK_2011","2011Ls6","pan trap","Eristalis tenax","species","syrphids",4,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Fragaria_ananassa_UK_2011","2011Ls6","transect","Hoverfly unknown or unidentified","family","syrphids",15,1800,180,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Fragaria_ananassa_UK_2011","2011Ls6","pan trap","Hylaeus hyalinatus","species","other_wild_bees",1,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Fragaria_ananassa_UK_2011","2011Ls6","pan trap","Ladybirds","family","beetles",1,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Fragaria_ananassa_UK_2011","2011Ls6","pan trap","Lasioglossum calceatum","species","other_wild_bees",2,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Fragaria_ananassa_UK_2011","2011Ls6","transect","Lepidoptera","order","lepidoptera",1,1800,180,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Fragaria_ananassa_UK_2011","2011Ls6","pan trap","Lepidoptera","order","lepidoptera",1,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Fragaria_ananassa_UK_2011","2011Ls6","pan trap","Other Coleoptera (>3mm)","order","beetles",1,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Fragaria_ananassa_UK_2011","2011Ls6","pan trap","Other Diptera (>3mm)","order","other_flies",151,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Fragaria_ananassa_UK_2011","2011Ls6","pan trap","Other Hymenoptera (>3mm)","order","non_bee_hymenoptera",6,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Fragaria_ananassa_UK_2011","2011Ls6","pan trap","Parasitoids","order","non_bee_hymenoptera",5,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Fragaria_ananassa_UK_2011","2011Ls6","pan trap","Saw flies","order","non_bee_hymenoptera",4,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Fragaria_ananassa_UK_2011","2011Ls6","transect","Solitary bee unknown or unidentified","superfamily","other_wild_bees",1,1800,180,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Fragaria_ananassa_UK_2011","2011Ls6","pan trap","spider","order","other",1,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Fragaria_ananassa_UK_2011","2011Ls7","transect","Andrena bicolor","species","other_wild_bees",1,1800,180,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Fragaria_ananassa_UK_2011","2011Ls7","pan trap","Andrena haemorrhoa","species","other_wild_bees",2,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Fragaria_ananassa_UK_2011","2011Ls7","pan trap","Andrena nigroaenea","species","other_wild_bees",1,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Fragaria_ananassa_UK_2011","2011Ls7","transect","Ant","family","non_bee_hymenoptera",1,1800,180,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Fragaria_ananassa_UK_2011","2011Ls7","pan trap","Apis mellifera","species","honeybees",3,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Fragaria_ananassa_UK_2011","2011Ls7","transect","Apis mellifera","species","honeybees",55,1800,180,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Fragaria_ananassa_UK_2011","2011Ls7","pan trap","Bombus hortorum","species","bumblebees",2,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Fragaria_ananassa_UK_2011","2011Ls7","transect","Bombus hypnorum","species","bumblebees",5,1800,180,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Fragaria_ananassa_UK_2011","2011Ls7","pan trap","Bombus lapidarius","species","bumblebees",5,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Fragaria_ananassa_UK_2011","2011Ls7","transect","Bombus lapidarius","species","bumblebees",135,1800,180,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Fragaria_ananassa_UK_2011","2011Ls7","pan trap","Bombus lucorum","species","bumblebees",2,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Fragaria_ananassa_UK_2011","2011Ls7","transect","Bombus pascuorum","species","bumblebees",2,1800,180,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Fragaria_ananassa_UK_2011","2011Ls7","pan trap","Bombus pratorum","species","bumblebees",1,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Fragaria_ananassa_UK_2011","2011Ls7","transect","Bombus spp. unknown or unidentified","genus","bumblebees",30,1800,180,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Fragaria_ananassa_UK_2011","2011Ls7","transect","Bombus terrestris or lucorum","species","bumblebees",40,1800,180,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Fragaria_ananassa_UK_2011","2011Ls7","pan trap","Bombus vestalis","species","bumblebees",3,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Fragaria_ananassa_UK_2011","2011Ls7","transect","Chrysopidae spp.","family","other",5,1800,180,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Fragaria_ananassa_UK_2011","2011Ls7","transect","Coleoptera unknown or unidentified","order","beetles",9,1800,180,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Fragaria_ananassa_UK_2011","2011Ls7","pan trap","Crane flies","family","other_flies",2,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Fragaria_ananassa_UK_2011","2011Ls7","pan trap","Cyclorrhapha","order","other_flies",3,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Fragaria_ananassa_UK_2011","2011Ls7","transect","Diptera unknown or unidentified","order","other_flies",13,1800,180,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Fragaria_ananassa_UK_2011","2011Ls7","pan trap","Eristalis tenax","species","syrphids",1,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Fragaria_ananassa_UK_2011","2011Ls7","transect","Hoverfly unknown or unidentified","family","syrphids",11,1800,180,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Fragaria_ananassa_UK_2011","2011Ls7","pan trap","Ladybirds","family","beetles",1,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Fragaria_ananassa_UK_2011","2011Ls7","pan trap","Lasioglossum leucopus","species","other_wild_bees",2,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Fragaria_ananassa_UK_2011","2011Ls7","pan trap","Lepidoptera","order","lepidoptera",1,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Fragaria_ananassa_UK_2011","2011Ls7","pan trap","Merodon equestris","species","syrphids",4,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Fragaria_ananassa_UK_2011","2011Ls7","pan trap","Other Coleoptera (>3mm)","order","beetles",6,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Fragaria_ananassa_UK_2011","2011Ls7","pan trap","Other Diptera (>3mm)","order","other_flies",122,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Fragaria_ananassa_UK_2011","2011Ls7","pan trap","Other Hemiptera (>3mm)","order","other",1,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Fragaria_ananassa_UK_2011","2011Ls7","pan trap","Other Hymenoptera (>3mm)","order","non_bee_hymenoptera",6,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Fragaria_ananassa_UK_2011","2011Ls7","transect","Phyllopertha horticola","species","beetles",1,1800,180,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Fragaria_ananassa_UK_2011","2011Ls7","pan trap","Saw flies","order","non_bee_hymenoptera",2,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Fragaria_ananassa_UK_2011","2011Ls7","transect","Solitary bee unknown or unidentified","superfamily","other_wild_bees",2,1800,180,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Fragaria_ananassa_UK_2011","2011Ls7","transect","spider","order","other",5,1800,180,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Fragaria_ananassa_UK_2011","2011Ls7","pan trap","spider","order","other",1,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Fragaria_ananassa_UK_2011","2011Ls8","pan trap","Andrena carantonica","species","other_wild_bees",2,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Fragaria_ananassa_UK_2011","2011Ls8","pan trap","Andrena haemorrhoa","species","other_wild_bees",9,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Fragaria_ananassa_UK_2011","2011Ls8","pan trap","Andrena nigroaenea","species","other_wild_bees",1,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Fragaria_ananassa_UK_2011","2011Ls8","pan trap","Apis mellifera","species","honeybees",1,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Fragaria_ananassa_UK_2011","2011Ls8","transect","Apis mellifera","species","honeybees",5,1800,180,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Fragaria_ananassa_UK_2011","2011Ls8","pan trap","Bombus barbutellus","species","bumblebees",1,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Fragaria_ananassa_UK_2011","2011Ls8","pan trap","Bombus hortorum","species","bumblebees",1,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Fragaria_ananassa_UK_2011","2011Ls8","transect","Bombus hypnorum","species","bumblebees",1,1800,180,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Fragaria_ananassa_UK_2011","2011Ls8","transect","Bombus lapidarius","species","bumblebees",21,1800,180,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Fragaria_ananassa_UK_2011","2011Ls8","pan trap","Bombus lapidarius","species","bumblebees",1,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Fragaria_ananassa_UK_2011","2011Ls8","pan trap","Bombus lucorum","species","bumblebees",1,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Fragaria_ananassa_UK_2011","2011Ls8","transect","Bombus spp. unknown or unidentified","genus","bumblebees",32,1800,180,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Fragaria_ananassa_UK_2011","2011Ls8","transect","Bombus terrestris or lucorum","species","bumblebees",22,1800,180,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Fragaria_ananassa_UK_2011","2011Ls8","pan trap","Bombus terrestris","species","bumblebees",1,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Fragaria_ananassa_UK_2011","2011Ls8","transect","Coleoptera unknown or unidentified","order","beetles",11,1800,180,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Fragaria_ananassa_UK_2011","2011Ls8","pan trap","Cyclorrhapha","order","other_flies",3,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Fragaria_ananassa_UK_2011","2011Ls8","transect","Diptera unknown or unidentified","order","other_flies",45,1800,180,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Fragaria_ananassa_UK_2011","2011Ls8","pan trap","Flesh flies","family","other_flies",1,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Fragaria_ananassa_UK_2011","2011Ls8","transect","Hoverfly unknown or unidentified","family","syrphids",4,1800,180,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Fragaria_ananassa_UK_2011","2011Ls8","transect","Lepidoptera","order","lepidoptera",3,1800,180,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Fragaria_ananassa_UK_2011","2011Ls8","pan trap","Other Coleoptera (>3mm)","order","beetles",4,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Fragaria_ananassa_UK_2011","2011Ls8","pan trap","Other Diptera (>3mm)","order","other_flies",180,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Fragaria_ananassa_UK_2011","2011Ls8","pan trap","Other Hymenoptera (>3mm)","order","non_bee_hymenoptera",9,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Fragaria_ananassa_UK_2011","2011Ls8","pan trap","Parasitoids","order","non_bee_hymenoptera",3,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Fragaria_ananassa_UK_2011","2011Ls8","transect","Rove beetle","family","beetles",2,1800,180,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Fragaria_ananassa_UK_2011","2011Ls8","pan trap","Saw flies","order","non_bee_hymenoptera",3,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Fragaria_ananassa_UK_2011","2011Ls8","pan trap","spider","order","other",1,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Fragaria_ananassa_UK_2011","2011Ls8","transect","spider","order","other",1,1800,180,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Malus_domestica_UK_2011","2011Ra1","pan trap","Andrena bicolor","species","other_wild_bees",1,NA,NA,NA,"Pollinators were sampled in 6 pan trap/transects in 2 sampling rounds. In all surveys transects were 50m-long and each transect was walk over 10 mins.",NA
"Michael_Garratt_Malus_domestica_UK_2011","2011Ra1","pan trap","Andrena carantonica","species","other_wild_bees",1,NA,NA,NA,"Pollinators were sampled in 6 pan trap/transects in 2 sampling rounds. In all surveys transects were 50m-long and each transect was walk over 10 mins.",NA
"Michael_Garratt_Malus_domestica_UK_2011","2011Ra1","transect","Andrena carantonica","species","other_wild_bees",1,NA,120,NA,"Pollinators were sampled in 6 pan trap/transects in 2 sampling rounds. In all surveys transects were 50m-long and each transect was walk over 10 mins.",NA
"Michael_Garratt_Malus_domestica_UK_2011","2011Ra1","pan trap","Andrena dorsata","species","other_wild_bees",5,NA,NA,NA,"Pollinators were sampled in 6 pan trap/transects in 2 sampling rounds. In all surveys transects were 50m-long and each transect was walk over 10 mins.",NA
"Michael_Garratt_Malus_domestica_UK_2011","2011Ra1","transect","Andrena dorsata","species","other_wild_bees",2,NA,120,NA,"Pollinators were sampled in 6 pan trap/transects in 2 sampling rounds. In all surveys transects were 50m-long and each transect was walk over 10 mins.",NA
"Michael_Garratt_Malus_domestica_UK_2011","2011Ra1","pan trap","Andrena flavipes","species","other_wild_bees",17,NA,NA,NA,"Pollinators were sampled in 6 pan trap/transects in 2 sampling rounds. In all surveys transects were 50m-long and each transect was walk over 10 mins.",NA
"Michael_Garratt_Malus_domestica_UK_2011","2011Ra1","pan trap","Andrena haemorrhoa","species","other_wild_bees",10,NA,NA,NA,"Pollinators were sampled in 6 pan trap/transects in 2 sampling rounds. In all surveys transects were 50m-long and each transect was walk over 10 mins.",NA
"Michael_Garratt_Malus_domestica_UK_2011","2011Ra1","pan trap","Andrena minutula","species","other_wild_bees",14,NA,NA,NA,"Pollinators were sampled in 6 pan trap/transects in 2 sampling rounds. In all surveys transects were 50m-long and each transect was walk over 10 mins.",NA
"Michael_Garratt_Malus_domestica_UK_2011","2011Ra1","pan trap","Andrena nigroaenea","species","other_wild_bees",3,NA,NA,NA,"Pollinators were sampled in 6 pan trap/transects in 2 sampling rounds. In all surveys transects were 50m-long and each transect was walk over 10 mins.",NA
"Michael_Garratt_Malus_domestica_UK_2011","2011Ra1","pan trap","Andrena nitida","species","other_wild_bees",3,NA,NA,NA,"Pollinators were sampled in 6 pan trap/transects in 2 sampling rounds. In all surveys transects were 50m-long and each transect was walk over 10 mins.",NA
"Michael_Garratt_Malus_domestica_UK_2011","2011Ra1","transect","Apis mellifera","species","honeybees",6,NA,120,NA,"Pollinators were sampled in 6 pan trap/transects in 2 sampling rounds. In all surveys transects were 50m-long and each transect was walk over 10 mins.",NA
"Michael_Garratt_Malus_domestica_UK_2011","2011Ra1","transect","Bombus pascuorum","species","bumblebees",1,NA,120,NA,"Pollinators were sampled in 6 pan trap/transects in 2 sampling rounds. In all surveys transects were 50m-long and each transect was walk over 10 mins.",NA
"Michael_Garratt_Malus_domestica_UK_2011","2011Ra1","transect","Bombus spp. unknown or unidentified","genus","bumblebees",1,NA,120,NA,"Pollinators were sampled in 6 pan trap/transects in 2 sampling rounds. In all surveys transects were 50m-long and each transect was walk over 10 mins.",NA
"Michael_Garratt_Malus_domestica_UK_2011","2011Ra1","transect","Bombus terrestris or lucorum","species","bumblebees",3,NA,120,NA,"Pollinators were sampled in 6 pan trap/transects in 2 sampling rounds. In all surveys transects were 50m-long and each transect was walk over 10 mins.",NA
"Michael_Garratt_Malus_domestica_UK_2011","2011Ra1","pan trap","Bombus terrestris","species","bumblebees",1,NA,NA,NA,"Pollinators were sampled in 6 pan trap/transects in 2 sampling rounds. In all surveys transects were 50m-long and each transect was walk over 10 mins.",NA
"Michael_Garratt_Malus_domestica_UK_2011","2011Ra1","pan trap","Brachycera (inc cyclorrhapha in OSR)","order","other_flies",3,NA,NA,NA,"Pollinators were sampled in 6 pan trap/transects in 2 sampling rounds. In all surveys transects were 50m-long and each transect was walk over 10 mins.",NA
"Michael_Garratt_Malus_domestica_UK_2011","2011Ra1","pan trap","Click beetle","family","beetles",1,NA,NA,NA,"Pollinators were sampled in 6 pan trap/transects in 2 sampling rounds. In all surveys transects were 50m-long and each transect was walk over 10 mins.",NA
"Michael_Garratt_Malus_domestica_UK_2011","2011Ra1","transect","Crane flies","family","other_flies",7,NA,120,NA,"Pollinators were sampled in 6 pan trap/transects in 2 sampling rounds. In all surveys transects were 50m-long and each transect was walk over 10 mins.",NA
"Michael_Garratt_Malus_domestica_UK_2011","2011Ra1","pan trap","Cyclorrhapha","order","other_flies",327,NA,NA,NA,"Pollinators were sampled in 6 pan trap/transects in 2 sampling rounds. In all surveys transects were 50m-long and each transect was walk over 10 mins.",NA
"Michael_Garratt_Malus_domestica_UK_2011","2011Ra1","transect","Diptera unknown or unidentified","order","other_flies",9,NA,120,NA,"Pollinators were sampled in 6 pan trap/transects in 2 sampling rounds. In all surveys transects were 50m-long and each transect was walk over 10 mins.",NA
"Michael_Garratt_Malus_domestica_UK_2011","2011Ra1","pan trap","Flesh flies","family","other_flies",7,NA,NA,NA,"Pollinators were sampled in 6 pan trap/transects in 2 sampling rounds. In all surveys transects were 50m-long and each transect was walk over 10 mins.",NA
"Michael_Garratt_Malus_domestica_UK_2011","2011Ra1","pan trap","Ground beetle","family","beetles",3,NA,NA,NA,"Pollinators were sampled in 6 pan trap/transects in 2 sampling rounds. In all surveys transects were 50m-long and each transect was walk over 10 mins.",NA
"Michael_Garratt_Malus_domestica_UK_2011","2011Ra1","pan trap","Halictus tumulorum","species","other_wild_bees",4,NA,NA,NA,"Pollinators were sampled in 6 pan trap/transects in 2 sampling rounds. In all surveys transects were 50m-long and each transect was walk over 10 mins.",NA
"Michael_Garratt_Malus_domestica_UK_2011","2011Ra1","pan trap","Lasioglossum albipes","species","other_wild_bees",1,NA,NA,NA,"Pollinators were sampled in 6 pan trap/transects in 2 sampling rounds. In all surveys transects were 50m-long and each transect was walk over 10 mins.",NA
"Michael_Garratt_Malus_domestica_UK_2011","2011Ra1","pan trap","Lasioglossum calceatum","species","other_wild_bees",2,NA,NA,NA,"Pollinators were sampled in 6 pan trap/transects in 2 sampling rounds. In all surveys transects were 50m-long and each transect was walk over 10 mins.",NA
"Michael_Garratt_Malus_domestica_UK_2011","2011Ra1","pan trap","Lasioglossum leucopus","species","other_wild_bees",2,NA,NA,NA,"Pollinators were sampled in 6 pan trap/transects in 2 sampling rounds. In all surveys transects were 50m-long and each transect was walk over 10 mins.",NA
"Michael_Garratt_Malus_domestica_UK_2011","2011Ra1","pan trap","Lasioglossum malachurum","species","other_wild_bees",10,NA,NA,NA,"Pollinators were sampled in 6 pan trap/transects in 2 sampling rounds. In all surveys transects were 50m-long and each transect was walk over 10 mins.",NA
"Michael_Garratt_Malus_domestica_UK_2011","2011Ra1","pan trap","Lasioglossum minutissimum","species","other_wild_bees",7,NA,NA,NA,"Pollinators were sampled in 6 pan trap/transects in 2 sampling rounds. In all surveys transects were 50m-long and each transect was walk over 10 mins.",NA
"Michael_Garratt_Malus_domestica_UK_2011","2011Ra1","pan trap","Lasioglossum morio","species","other_wild_bees",30,NA,NA,NA,"Pollinators were sampled in 6 pan trap/transects in 2 sampling rounds. In all surveys transects were 50m-long and each transect was walk over 10 mins.",NA
"Michael_Garratt_Malus_domestica_UK_2011","2011Ra1","pan trap","Lasioglossum parvulum","species","other_wild_bees",2,NA,NA,NA,"Pollinators were sampled in 6 pan trap/transects in 2 sampling rounds. In all surveys transects were 50m-long and each transect was walk over 10 mins.",NA
"Michael_Garratt_Malus_domestica_UK_2011","2011Ra1","pan trap","Lasioglossum pauperatum","species","other_wild_bees",2,NA,NA,NA,"Pollinators were sampled in 6 pan trap/transects in 2 sampling rounds. In all surveys transects were 50m-long and each transect was walk over 10 mins.",NA
"Michael_Garratt_Malus_domestica_UK_2011","2011Ra1","pan trap","Lasioglossum pauxillum","species","other_wild_bees",2,NA,NA,NA,"Pollinators were sampled in 6 pan trap/transects in 2 sampling rounds. In all surveys transects were 50m-long and each transect was walk over 10 mins.",NA
"Michael_Garratt_Malus_domestica_UK_2011","2011Ra1","transect","Lepidoptera","order","lepidoptera",1,NA,120,NA,"Pollinators were sampled in 6 pan trap/transects in 2 sampling rounds. In all surveys transects were 50m-long and each transect was walk over 10 mins.",NA
"Michael_Garratt_Malus_domestica_UK_2011","2011Ra1","pan trap","Mirid Bug","family","other",1,NA,NA,NA,"Pollinators were sampled in 6 pan trap/transects in 2 sampling rounds. In all surveys transects were 50m-long and each transect was walk over 10 mins.",NA
"Michael_Garratt_Malus_domestica_UK_2011","2011Ra1","pan trap","Nematocera","order","other_flies",10,NA,NA,NA,"Pollinators were sampled in 6 pan trap/transects in 2 sampling rounds. In all surveys transects were 50m-long and each transect was walk over 10 mins.",NA
"Michael_Garratt_Malus_domestica_UK_2011","2011Ra1","pan trap","Nomada goodeniana","species","other_wild_bees",1,NA,NA,NA,"Pollinators were sampled in 6 pan trap/transects in 2 sampling rounds. In all surveys transects were 50m-long and each transect was walk over 10 mins.",NA
"Michael_Garratt_Malus_domestica_UK_2011","2011Ra1","pan trap","Osmia bicornis","species","other_wild_bees",2,NA,NA,NA,"Pollinators were sampled in 6 pan trap/transects in 2 sampling rounds. In all surveys transects were 50m-long and each transect was walk over 10 mins.",NA
"Michael_Garratt_Malus_domestica_UK_2011","2011Ra1","pan trap","Other Coleoptera (>3mm)","order","beetles",28,NA,NA,NA,"Pollinators were sampled in 6 pan trap/transects in 2 sampling rounds. In all surveys transects were 50m-long and each transect was walk over 10 mins.",NA
"Michael_Garratt_Malus_domestica_UK_2011","2011Ra1","pan trap","Other Hemiptera (>3mm)","order","other",5,NA,NA,NA,"Pollinators were sampled in 6 pan trap/transects in 2 sampling rounds. In all surveys transects were 50m-long and each transect was walk over 10 mins.",NA
"Michael_Garratt_Malus_domestica_UK_2011","2011Ra1","pan trap","Parasitoids","order","non_bee_hymenoptera",11,NA,NA,NA,"Pollinators were sampled in 6 pan trap/transects in 2 sampling rounds. In all surveys transects were 50m-long and each transect was walk over 10 mins.",NA
"Michael_Garratt_Malus_domestica_UK_2011","2011Ra1","transect","Parasitoids","order","non_bee_hymenoptera",1,NA,120,NA,"Pollinators were sampled in 6 pan trap/transects in 2 sampling rounds. In all surveys transects were 50m-long and each transect was walk over 10 mins.",NA
"Michael_Garratt_Malus_domestica_UK_2011","2011Ra1","pan trap","Pemphredon lethifer","species","non_bee_hymenoptera",3,NA,NA,NA,"Pollinators were sampled in 6 pan trap/transects in 2 sampling rounds. In all surveys transects were 50m-long and each transect was walk over 10 mins.",NA
"Michael_Garratt_Malus_domestica_UK_2011","2011Ra1","pan trap","Saw flies","order","non_bee_hymenoptera",1,NA,NA,NA,"Pollinators were sampled in 6 pan trap/transects in 2 sampling rounds. In all surveys transects were 50m-long and each transect was walk over 10 mins.",NA
"Michael_Garratt_Malus_domestica_UK_2011","2011Ra1","transect","Solitary bee unknown or unidentified","superfamily","other_wild_bees",7,NA,120,NA,"Pollinators were sampled in 6 pan trap/transects in 2 sampling rounds. In all surveys transects were 50m-long and each transect was walk over 10 mins.",NA
"Michael_Garratt_Malus_domestica_UK_2011","2011Ra1","pan trap","Sphecodes ephippius","species","other_wild_bees",2,NA,NA,NA,"Pollinators were sampled in 6 pan trap/transects in 2 sampling rounds. In all surveys transects were 50m-long and each transect was walk over 10 mins.",NA
"Michael_Garratt_Malus_domestica_UK_2011","2011Ra1","pan trap","Weevil","superfamily","beetles",3,NA,NA,NA,"Pollinators were sampled in 6 pan trap/transects in 2 sampling rounds. In all surveys transects were 50m-long and each transect was walk over 10 mins.",NA
"Michael_Garratt_Malus_domestica_UK_2011","2011Ra2","pan trap","Andrena cineraria","species","other_wild_bees",1,NA,NA,NA,"Pollinators were sampled in 6 pan trap/transects in 2 sampling rounds. In all surveys transects were 50m-long and each transect was walk over 10 mins.",NA
"Michael_Garratt_Malus_domestica_UK_2011","2011Ra2","pan trap","Andrena flavipes","species","other_wild_bees",1,NA,NA,NA,"Pollinators were sampled in 6 pan trap/transects in 2 sampling rounds. In all surveys transects were 50m-long and each transect was walk over 10 mins.",NA
"Michael_Garratt_Malus_domestica_UK_2011","2011Ra2","pan trap","Andrena haemorrhoa","species","other_wild_bees",2,NA,NA,NA,"Pollinators were sampled in 6 pan trap/transects in 2 sampling rounds. In all surveys transects were 50m-long and each transect was walk over 10 mins.",NA
"Michael_Garratt_Malus_domestica_UK_2011","2011Ra2","transect","Andrena haemorrhoa","species","other_wild_bees",2,NA,120,NA,"Pollinators were sampled in 6 pan trap/transects in 2 sampling rounds. In all surveys transects were 50m-long and each transect was walk over 10 mins.",NA
"Michael_Garratt_Malus_domestica_UK_2011","2011Ra2","pan trap","Andrena minutula","species","other_wild_bees",1,NA,NA,NA,"Pollinators were sampled in 6 pan trap/transects in 2 sampling rounds. In all surveys transects were 50m-long and each transect was walk over 10 mins.",NA
"Michael_Garratt_Malus_domestica_UK_2011","2011Ra2","pan trap","Andrena nigroaenea","species","other_wild_bees",17,NA,NA,NA,"Pollinators were sampled in 6 pan trap/transects in 2 sampling rounds. In all surveys transects were 50m-long and each transect was walk over 10 mins.",NA
"Michael_Garratt_Malus_domestica_UK_2011","2011Ra2","pan trap","Andrena nitida","species","other_wild_bees",3,NA,NA,NA,"Pollinators were sampled in 6 pan trap/transects in 2 sampling rounds. In all surveys transects were 50m-long and each transect was walk over 10 mins.",NA
"Michael_Garratt_Malus_domestica_UK_2011","2011Ra2","transect","Ant","family","non_bee_hymenoptera",1,NA,120,NA,"Pollinators were sampled in 6 pan trap/transects in 2 sampling rounds. In all surveys transects were 50m-long and each transect was walk over 10 mins.",NA
"Michael_Garratt_Malus_domestica_UK_2011","2011Ra2","pan trap","Ants: Formica rufa","species","non_bee_hymenoptera",1,NA,NA,NA,"Pollinators were sampled in 6 pan trap/transects in 2 sampling rounds. In all surveys transects were 50m-long and each transect was walk over 10 mins.",NA
"Michael_Garratt_Malus_domestica_UK_2011","2011Ra2","transect","Apis mellifera","species","honeybees",2,NA,120,NA,"Pollinators were sampled in 6 pan trap/transects in 2 sampling rounds. In all surveys transects were 50m-long and each transect was walk over 10 mins.",NA
"Michael_Garratt_Malus_domestica_UK_2011","2011Ra2","pan trap","Bombus hypnorum","species","bumblebees",1,NA,NA,NA,"Pollinators were sampled in 6 pan trap/transects in 2 sampling rounds. In all surveys transects were 50m-long and each transect was walk over 10 mins.",NA
"Michael_Garratt_Malus_domestica_UK_2011","2011Ra2","pan trap","Bombus lapidarius","species","bumblebees",1,NA,NA,NA,"Pollinators were sampled in 6 pan trap/transects in 2 sampling rounds. In all surveys transects were 50m-long and each transect was walk over 10 mins.",NA
"Michael_Garratt_Malus_domestica_UK_2011","2011Ra2","transect","Bombus lapidarius","species","bumblebees",1,NA,120,NA,"Pollinators were sampled in 6 pan trap/transects in 2 sampling rounds. In all surveys transects were 50m-long and each transect was walk over 10 mins.",NA
"Michael_Garratt_Malus_domestica_UK_2011","2011Ra2","pan trap","Bombus lucorum","species","bumblebees",1,NA,NA,NA,"Pollinators were sampled in 6 pan trap/transects in 2 sampling rounds. In all surveys transects were 50m-long and each transect was walk over 10 mins.",NA
"Michael_Garratt_Malus_domestica_UK_2011","2011Ra2","pan trap","Bombus pascuorum","species","bumblebees",1,NA,NA,NA,"Pollinators were sampled in 6 pan trap/transects in 2 sampling rounds. In all surveys transects were 50m-long and each transect was walk over 10 mins.",NA
"Michael_Garratt_Malus_domestica_UK_2011","2011Ra2","transect","Bombus spp. unknown or unidentified","genus","bumblebees",1,NA,120,NA,"Pollinators were sampled in 6 pan trap/transects in 2 sampling rounds. In all surveys transects were 50m-long and each transect was walk over 10 mins.",NA
"Michael_Garratt_Malus_domestica_UK_2011","2011Ra2","pan trap","Brachycera (inc cyclorrhapha in OSR)","order","other_flies",3,NA,NA,NA,"Pollinators were sampled in 6 pan trap/transects in 2 sampling rounds. In all surveys transects were 50m-long and each transect was walk over 10 mins.",NA
"Michael_Garratt_Malus_domestica_UK_2011","2011Ra2","transect","Chrysopidae spp.","family","other",1,NA,120,NA,"Pollinators were sampled in 6 pan trap/transects in 2 sampling rounds. In all surveys transects were 50m-long and each transect was walk over 10 mins.",NA
"Michael_Garratt_Malus_domestica_UK_2011","2011Ra2","pan trap","Crane flies","family","other_flies",3,NA,NA,NA,"Pollinators were sampled in 6 pan trap/transects in 2 sampling rounds. In all surveys transects were 50m-long and each transect was walk over 10 mins.",NA
"Michael_Garratt_Malus_domestica_UK_2011","2011Ra2","transect","Crane flies","family","other_flies",4,NA,120,NA,"Pollinators were sampled in 6 pan trap/transects in 2 sampling rounds. In all surveys transects were 50m-long and each transect was walk over 10 mins.",NA
"Michael_Garratt_Malus_domestica_UK_2011","2011Ra2","transect","Cyclorrhapha","order","other_flies",2,NA,120,NA,"Pollinators were sampled in 6 pan trap/transects in 2 sampling rounds. In all surveys transects were 50m-long and each transect was walk over 10 mins.",NA
"Michael_Garratt_Malus_domestica_UK_2011","2011Ra2","pan trap","Cyclorrhapha","order","other_flies",310,NA,NA,NA,"Pollinators were sampled in 6 pan trap/transects in 2 sampling rounds. In all surveys transects were 50m-long and each transect was walk over 10 mins.",NA
"Michael_Garratt_Malus_domestica_UK_2011","2011Ra2","transect","Diptera unknown or unidentified","order","other_flies",4,NA,120,NA,"Pollinators were sampled in 6 pan trap/transects in 2 sampling rounds. In all surveys transects were 50m-long and each transect was walk over 10 mins.",NA
"Michael_Garratt_Malus_domestica_UK_2011","2011Ra2","pan trap","Flesh flies","family","other_flies",14,NA,NA,NA,"Pollinators were sampled in 6 pan trap/transects in 2 sampling rounds. In all surveys transects were 50m-long and each transect was walk over 10 mins.",NA
"Michael_Garratt_Malus_domestica_UK_2011","2011Ra2","pan trap","Ground beetle","family","beetles",1,NA,NA,NA,"Pollinators were sampled in 6 pan trap/transects in 2 sampling rounds. In all surveys transects were 50m-long and each transect was walk over 10 mins.",NA
"Michael_Garratt_Malus_domestica_UK_2011","2011Ra2","pan trap","Lasioglossum malachurum","species","other_wild_bees",4,NA,NA,NA,"Pollinators were sampled in 6 pan trap/transects in 2 sampling rounds. In all surveys transects were 50m-long and each transect was walk over 10 mins.",NA
"Michael_Garratt_Malus_domestica_UK_2011","2011Ra2","pan trap","Lasioglossum minutissimum","species","other_wild_bees",1,NA,NA,NA,"Pollinators were sampled in 6 pan trap/transects in 2 sampling rounds. In all surveys transects were 50m-long and each transect was walk over 10 mins.",NA
"Michael_Garratt_Malus_domestica_UK_2011","2011Ra2","pan trap","Lasioglossum morio","species","other_wild_bees",1,NA,NA,NA,"Pollinators were sampled in 6 pan trap/transects in 2 sampling rounds. In all surveys transects were 50m-long and each transect was walk over 10 mins.",NA
"Michael_Garratt_Malus_domestica_UK_2011","2011Ra2","pan trap","Lasioglossum pauxillum","species","other_wild_bees",6,NA,NA,NA,"Pollinators were sampled in 6 pan trap/transects in 2 sampling rounds. In all surveys transects were 50m-long and each transect was walk over 10 mins.",NA
"Michael_Garratt_Malus_domestica_UK_2011","2011Ra2","pan trap","Lasioglossum sp.","genus","other_wild_bees",1,NA,NA,NA,"Pollinators were sampled in 6 pan trap/transects in 2 sampling rounds. In all surveys transects were 50m-long and each transect was walk over 10 mins.",NA
"Michael_Garratt_Malus_domestica_UK_2011","2011Ra2","pan trap","Nematocera","order","other_flies",23,NA,NA,NA,"Pollinators were sampled in 6 pan trap/transects in 2 sampling rounds. In all surveys transects were 50m-long and each transect was walk over 10 mins.",NA
"Michael_Garratt_Malus_domestica_UK_2011","2011Ra2","pan trap","Other Coleoptera (>3mm)","order","beetles",5,NA,NA,NA,"Pollinators were sampled in 6 pan trap/transects in 2 sampling rounds. In all surveys transects were 50m-long and each transect was walk over 10 mins.",NA
"Michael_Garratt_Malus_domestica_UK_2011","2011Ra2","pan trap","Other Diptera (>3mm)","order","other_flies",2,NA,NA,NA,"Pollinators were sampled in 6 pan trap/transects in 2 sampling rounds. In all surveys transects were 50m-long and each transect was walk over 10 mins.",NA
"Michael_Garratt_Malus_domestica_UK_2011","2011Ra2","pan trap","Other Hemiptera (>3mm)","order","other",1,NA,NA,NA,"Pollinators were sampled in 6 pan trap/transects in 2 sampling rounds. In all surveys transects were 50m-long and each transect was walk over 10 mins.",NA
"Michael_Garratt_Malus_domestica_UK_2011","2011Ra2","pan trap","Parasitoids","order","non_bee_hymenoptera",4,NA,NA,NA,"Pollinators were sampled in 6 pan trap/transects in 2 sampling rounds. In all surveys transects were 50m-long and each transect was walk over 10 mins.",NA
"Michael_Garratt_Malus_domestica_UK_2011","2011Ra2","pan trap","Platycheirus clypeatus","species","syrphids",1,NA,NA,NA,"Pollinators were sampled in 6 pan trap/transects in 2 sampling rounds. In all surveys transects were 50m-long and each transect was walk over 10 mins.",NA
"Michael_Garratt_Malus_domestica_UK_2011","2011Ra2","pan trap","Saw flies","order","non_bee_hymenoptera",2,NA,NA,NA,"Pollinators were sampled in 6 pan trap/transects in 2 sampling rounds. In all surveys transects were 50m-long and each transect was walk over 10 mins.",NA
"Michael_Garratt_Malus_domestica_UK_2011","2011Ra2","transect","Shield Bugs","superfamily","other",1,NA,120,NA,"Pollinators were sampled in 6 pan trap/transects in 2 sampling rounds. In all surveys transects were 50m-long and each transect was walk over 10 mins.",NA
"Michael_Garratt_Malus_domestica_UK_2011","2011Ra2","transect","Solitary bee unknown or unidentified","superfamily","other_wild_bees",10,NA,120,NA,"Pollinators were sampled in 6 pan trap/transects in 2 sampling rounds. In all surveys transects were 50m-long and each transect was walk over 10 mins.",NA
"Michael_Garratt_Malus_domestica_UK_2011","2011Ra2","transect","Sphaerophoria sp.","genus","syrphids",1,NA,120,NA,"Pollinators were sampled in 6 pan trap/transects in 2 sampling rounds. In all surveys transects were 50m-long and each transect was walk over 10 mins.",NA
"Michael_Garratt_Malus_domestica_UK_2011","2011Ra2","pan trap","Weevil","superfamily","beetles",3,NA,NA,NA,"Pollinators were sampled in 6 pan trap/transects in 2 sampling rounds. In all surveys transects were 50m-long and each transect was walk over 10 mins.",NA
"Michael_Garratt_Malus_domestica_UK_2011","2011Ra3","pan trap","Andrena angustior","species","other_wild_bees",4,NA,NA,NA,"Pollinators were sampled in 6 pan trap/transects in 2 sampling rounds. In all surveys transects were 50m-long and each transect was walk over 10 mins.",NA
"Michael_Garratt_Malus_domestica_UK_2011","2011Ra3","pan trap","Andrena bicolor","species","other_wild_bees",1,NA,NA,NA,"Pollinators were sampled in 6 pan trap/transects in 2 sampling rounds. In all surveys transects were 50m-long and each transect was walk over 10 mins.",NA
"Michael_Garratt_Malus_domestica_UK_2011","2011Ra3","pan trap","Andrena chrysosceles","species","other_wild_bees",2,NA,NA,NA,"Pollinators were sampled in 6 pan trap/transects in 2 sampling rounds. In all surveys transects were 50m-long and each transect was walk over 10 mins.",NA
"Michael_Garratt_Malus_domestica_UK_2011","2011Ra3","pan trap","Andrena flavipes","species","other_wild_bees",2,NA,NA,NA,"Pollinators were sampled in 6 pan trap/transects in 2 sampling rounds. In all surveys transects were 50m-long and each transect was walk over 10 mins.",NA
"Michael_Garratt_Malus_domestica_UK_2011","2011Ra3","transect","Andrena haemorrhoa","species","other_wild_bees",1,NA,120,NA,"Pollinators were sampled in 6 pan trap/transects in 2 sampling rounds. In all surveys transects were 50m-long and each transect was walk over 10 mins.",NA
"Michael_Garratt_Malus_domestica_UK_2011","2011Ra3","pan trap","Andrena haemorrhoa","species","other_wild_bees",4,NA,NA,NA,"Pollinators were sampled in 6 pan trap/transects in 2 sampling rounds. In all surveys transects were 50m-long and each transect was walk over 10 mins.",NA
"Michael_Garratt_Malus_domestica_UK_2011","2011Ra3","pan trap","Andrena minutula","species","other_wild_bees",4,NA,NA,NA,"Pollinators were sampled in 6 pan trap/transects in 2 sampling rounds. In all surveys transects were 50m-long and each transect was walk over 10 mins.",NA
"Michael_Garratt_Malus_domestica_UK_2011","2011Ra3","transect","Andrena nitida","species","other_wild_bees",1,NA,120,NA,"Pollinators were sampled in 6 pan trap/transects in 2 sampling rounds. In all surveys transects were 50m-long and each transect was walk over 10 mins.",NA
"Michael_Garratt_Malus_domestica_UK_2011","2011Ra3","pan trap","Andrena nitida","species","other_wild_bees",6,NA,NA,NA,"Pollinators were sampled in 6 pan trap/transects in 2 sampling rounds. In all surveys transects were 50m-long and each transect was walk over 10 mins.",NA
"Michael_Garratt_Malus_domestica_UK_2011","2011Ra3","pan trap","Andrena sp.","genus","other_wild_bees",1,NA,NA,NA,"Pollinators were sampled in 6 pan trap/transects in 2 sampling rounds. In all surveys transects were 50m-long and each transect was walk over 10 mins.",NA
"Michael_Garratt_Malus_domestica_UK_2011","2011Ra3","pan trap","Anoplius nigerrimus","species","other_wild_bees",1,NA,NA,NA,"Pollinators were sampled in 6 pan trap/transects in 2 sampling rounds. In all surveys transects were 50m-long and each transect was walk over 10 mins.",NA
"Michael_Garratt_Malus_domestica_UK_2011","2011Ra3","transect","Apis mellifera","species","honeybees",15,NA,120,NA,"Pollinators were sampled in 6 pan trap/transects in 2 sampling rounds. In all surveys transects were 50m-long and each transect was walk over 10 mins.",NA
"Michael_Garratt_Malus_domestica_UK_2011","2011Ra3","pan trap","Apis mellifera","species","honeybees",2,NA,NA,NA,"Pollinators were sampled in 6 pan trap/transects in 2 sampling rounds. In all surveys transects were 50m-long and each transect was walk over 10 mins.",NA
"Michael_Garratt_Malus_domestica_UK_2011","2011Ra3","pan trap","Bombus hortorum","species","bumblebees",1,NA,NA,NA,"Pollinators were sampled in 6 pan trap/transects in 2 sampling rounds. In all surveys transects were 50m-long and each transect was walk over 10 mins.",NA
"Michael_Garratt_Malus_domestica_UK_2011","2011Ra3","pan trap","Bombus lapidarius","species","bumblebees",1,NA,NA,NA,"Pollinators were sampled in 6 pan trap/transects in 2 sampling rounds. In all surveys transects were 50m-long and each transect was walk over 10 mins.",NA
"Michael_Garratt_Malus_domestica_UK_2011","2011Ra3","transect","Bombus lapidarius","species","bumblebees",4,NA,120,NA,"Pollinators were sampled in 6 pan trap/transects in 2 sampling rounds. In all surveys transects were 50m-long and each transect was walk over 10 mins.",NA
"Michael_Garratt_Malus_domestica_UK_2011","2011Ra3","pan trap","Bombus lucorum","species","bumblebees",1,NA,NA,NA,"Pollinators were sampled in 6 pan trap/transects in 2 sampling rounds. In all surveys transects were 50m-long and each transect was walk over 10 mins.",NA
"Michael_Garratt_Malus_domestica_UK_2011","2011Ra3","transect","Bombus pratorum","species","bumblebees",1,NA,120,NA,"Pollinators were sampled in 6 pan trap/transects in 2 sampling rounds. In all surveys transects were 50m-long and each transect was walk over 10 mins.",NA
"Michael_Garratt_Malus_domestica_UK_2011","2011Ra3","pan trap","Bombus pratorum","species","bumblebees",1,NA,NA,NA,"Pollinators were sampled in 6 pan trap/transects in 2 sampling rounds. In all surveys transects were 50m-long and each transect was walk over 10 mins.",NA
"Michael_Garratt_Malus_domestica_UK_2011","2011Ra3","transect","Bombus spp. unknown or unidentified","genus","bumblebees",2,NA,120,NA,"Pollinators were sampled in 6 pan trap/transects in 2 sampling rounds. In all surveys transects were 50m-long and each transect was walk over 10 mins.",NA
"Michael_Garratt_Malus_domestica_UK_2011","2011Ra3","transect","Bombus terrestris or lucorum","species","bumblebees",2,NA,120,NA,"Pollinators were sampled in 6 pan trap/transects in 2 sampling rounds. In all surveys transects were 50m-long and each transect was walk over 10 mins.",NA
"Michael_Garratt_Malus_domestica_UK_2011","2011Ra3","pan trap","Brachycera (inc cyclorrhapha in OSR)","order","other_flies",2,NA,NA,NA,"Pollinators were sampled in 6 pan trap/transects in 2 sampling rounds. In all surveys transects were 50m-long and each transect was walk over 10 mins.",NA
"Michael_Garratt_Malus_domestica_UK_2011","2011Ra3","pan trap","Click beetle","family","beetles",2,NA,NA,NA,"Pollinators were sampled in 6 pan trap/transects in 2 sampling rounds. In all surveys transects were 50m-long and each transect was walk over 10 mins.",NA
"Michael_Garratt_Malus_domestica_UK_2011","2011Ra3","transect","Coleoptera unknown or unidentified","order","beetles",1,NA,120,NA,"Pollinators were sampled in 6 pan trap/transects in 2 sampling rounds. In all surveys transects were 50m-long and each transect was walk over 10 mins.",NA
"Michael_Garratt_Malus_domestica_UK_2011","2011Ra3","pan trap","Cyclorrhapha","order","other_flies",92,NA,NA,NA,"Pollinators were sampled in 6 pan trap/transects in 2 sampling rounds. In all surveys transects were 50m-long and each transect was walk over 10 mins.",NA
"Michael_Garratt_Malus_domestica_UK_2011","2011Ra3","transect","Diptera unknown or unidentified","order","other_flies",7,NA,120,NA,"Pollinators were sampled in 6 pan trap/transects in 2 sampling rounds. In all surveys transects were 50m-long and each transect was walk over 10 mins.",NA
"Michael_Garratt_Malus_domestica_UK_2011","2011Ra3","pan trap","Flesh flies","family","other_flies",1,NA,NA,NA,"Pollinators were sampled in 6 pan trap/transects in 2 sampling rounds. In all surveys transects were 50m-long and each transect was walk over 10 mins.",NA
"Michael_Garratt_Malus_domestica_UK_2011","2011Ra3","pan trap","Ground beetle","family","beetles",1,NA,NA,NA,"Pollinators were sampled in 6 pan trap/transects in 2 sampling rounds. In all surveys transects were 50m-long and each transect was walk over 10 mins.",NA
"Michael_Garratt_Malus_domestica_UK_2011","2011Ra3","pan trap","Lasioglossum calceatum","species","other_wild_bees",1,NA,NA,NA,"Pollinators were sampled in 6 pan trap/transects in 2 sampling rounds. In all surveys transects were 50m-long and each transect was walk over 10 mins.",NA
"Michael_Garratt_Malus_domestica_UK_2011","2011Ra3","pan trap","Lasioglossum malachurum","species","other_wild_bees",4,NA,NA,NA,"Pollinators were sampled in 6 pan trap/transects in 2 sampling rounds. In all surveys transects were 50m-long and each transect was walk over 10 mins.",NA
"Michael_Garratt_Malus_domestica_UK_2011","2011Ra3","pan trap","Lepidoptera","order","lepidoptera",1,NA,NA,NA,"Pollinators were sampled in 6 pan trap/transects in 2 sampling rounds. In all surveys transects were 50m-long and each transect was walk over 10 mins.",NA
"Michael_Garratt_Malus_domestica_UK_2011","2011Ra3","pan trap","Mirid Bug","family","other",1,NA,NA,NA,"Pollinators were sampled in 6 pan trap/transects in 2 sampling rounds. In all surveys transects were 50m-long and each transect was walk over 10 mins.",NA
"Michael_Garratt_Malus_domestica_UK_2011","2011Ra3","pan trap","Nematocera","order","other_flies",17,NA,NA,NA,"Pollinators were sampled in 6 pan trap/transects in 2 sampling rounds. In all surveys transects were 50m-long and each transect was walk over 10 mins.",NA
"Michael_Garratt_Malus_domestica_UK_2011","2011Ra3","pan trap","Other Coleoptera (>3mm)","order","beetles",3,NA,NA,NA,"Pollinators were sampled in 6 pan trap/transects in 2 sampling rounds. In all surveys transects were 50m-long and each transect was walk over 10 mins.",NA
"Michael_Garratt_Malus_domestica_UK_2011","2011Ra3","pan trap","Parasitoids","order","non_bee_hymenoptera",6,NA,NA,NA,"Pollinators were sampled in 6 pan trap/transects in 2 sampling rounds. In all surveys transects were 50m-long and each transect was walk over 10 mins.",NA
"Michael_Garratt_Malus_domestica_UK_2011","2011Ra3","pan trap","Saw flies","order","non_bee_hymenoptera",22,NA,NA,NA,"Pollinators were sampled in 6 pan trap/transects in 2 sampling rounds. In all surveys transects were 50m-long and each transect was walk over 10 mins.",NA
"Michael_Garratt_Malus_domestica_UK_2011","2011Ra3","pan trap","Shield Bugs","superfamily","other",1,NA,NA,NA,"Pollinators were sampled in 6 pan trap/transects in 2 sampling rounds. In all surveys transects were 50m-long and each transect was walk over 10 mins.",NA
"Michael_Garratt_Malus_domestica_UK_2011","2011Ra3","transect","Solitary bee unknown or unidentified","superfamily","other_wild_bees",11,NA,120,NA,"Pollinators were sampled in 6 pan trap/transects in 2 sampling rounds. In all surveys transects were 50m-long and each transect was walk over 10 mins.",NA
"Michael_Garratt_Malus_domestica_UK_2011","2011Ra3","pan trap","Weevil","superfamily","beetles",2,NA,NA,NA,"Pollinators were sampled in 6 pan trap/transects in 2 sampling rounds. In all surveys transects were 50m-long and each transect was walk over 10 mins.",NA
"Michael_Garratt_Malus_domestica_UK_2011","2011Ra4","pan trap","Andrena carantonica","species","other_wild_bees",3,NA,NA,NA,"Pollinators were sampled in 6 pan trap/transects in 2 sampling rounds. In all surveys transects were 50m-long and each transect was walk over 10 mins.",NA
"Michael_Garratt_Malus_domestica_UK_2011","2011Ra4","pan trap","Andrena chrysosceles","species","other_wild_bees",1,NA,NA,NA,"Pollinators were sampled in 6 pan trap/transects in 2 sampling rounds. In all surveys transects were 50m-long and each transect was walk over 10 mins.",NA
"Michael_Garratt_Malus_domestica_UK_2011","2011Ra4","transect","Andrena dorsata","species","other_wild_bees",7,NA,120,NA,"Pollinators were sampled in 6 pan trap/transects in 2 sampling rounds. In all surveys transects were 50m-long and each transect was walk over 10 mins.",NA
"Michael_Garratt_Malus_domestica_UK_2011","2011Ra4","pan trap","Andrena dorsata","species","other_wild_bees",11,NA,NA,NA,"Pollinators were sampled in 6 pan trap/transects in 2 sampling rounds. In all surveys transects were 50m-long and each transect was walk over 10 mins.",NA
"Michael_Garratt_Malus_domestica_UK_2011","2011Ra4","pan trap","Andrena gravida","species","other_wild_bees",1,NA,NA,NA,"Pollinators were sampled in 6 pan trap/transects in 2 sampling rounds. In all surveys transects were 50m-long and each transect was walk over 10 mins.",NA
"Michael_Garratt_Malus_domestica_UK_2011","2011Ra4","pan trap","Andrena haemorrhoa","species","other_wild_bees",40,NA,NA,NA,"Pollinators were sampled in 6 pan trap/transects in 2 sampling rounds. In all surveys transects were 50m-long and each transect was walk over 10 mins.",NA
"Michael_Garratt_Malus_domestica_UK_2011","2011Ra4","pan trap","Andrena minutula","species","other_wild_bees",1,NA,NA,NA,"Pollinators were sampled in 6 pan trap/transects in 2 sampling rounds. In all surveys transects were 50m-long and each transect was walk over 10 mins.",NA
"Michael_Garratt_Malus_domestica_UK_2011","2011Ra4","pan trap","Andrena nigroaenea","species","other_wild_bees",1,NA,NA,NA,"Pollinators were sampled in 6 pan trap/transects in 2 sampling rounds. In all surveys transects were 50m-long and each transect was walk over 10 mins.",NA
"Michael_Garratt_Malus_domestica_UK_2011","2011Ra4","pan trap","Andrena nitida","species","other_wild_bees",10,NA,NA,NA,"Pollinators were sampled in 6 pan trap/transects in 2 sampling rounds. In all surveys transects were 50m-long and each transect was walk over 10 mins.",NA
"Michael_Garratt_Malus_domestica_UK_2011","2011Ra4","transect","Andrena sp.","genus","other_wild_bees",1,NA,120,NA,"Pollinators were sampled in 6 pan trap/transects in 2 sampling rounds. In all surveys transects were 50m-long and each transect was walk over 10 mins.",NA
"Michael_Garratt_Malus_domestica_UK_2011","2011Ra4","pan trap","Andrena sp.","genus","other_wild_bees",2,NA,NA,NA,"Pollinators were sampled in 6 pan trap/transects in 2 sampling rounds. In all surveys transects were 50m-long and each transect was walk over 10 mins.",NA
"Michael_Garratt_Malus_domestica_UK_2011","2011Ra4","pan trap","Apis mellifera","species","honeybees",1,NA,NA,NA,"Pollinators were sampled in 6 pan trap/transects in 2 sampling rounds. In all surveys transects were 50m-long and each transect was walk over 10 mins.",NA
"Michael_Garratt_Malus_domestica_UK_2011","2011Ra4","transect","Apis mellifera","species","honeybees",3,NA,120,NA,"Pollinators were sampled in 6 pan trap/transects in 2 sampling rounds. In all surveys transects were 50m-long and each transect was walk over 10 mins.",NA
"Michael_Garratt_Malus_domestica_UK_2011","2011Ra4","pan trap","Bombus hortorum","species","bumblebees",3,NA,NA,NA,"Pollinators were sampled in 6 pan trap/transects in 2 sampling rounds. In all surveys transects were 50m-long and each transect was walk over 10 mins.",NA
"Michael_Garratt_Malus_domestica_UK_2011","2011Ra4","pan trap","Click beetle","family","beetles",2,NA,NA,NA,"Pollinators were sampled in 6 pan trap/transects in 2 sampling rounds. In all surveys transects were 50m-long and each transect was walk over 10 mins.",NA
"Michael_Garratt_Malus_domestica_UK_2011","2011Ra4","pan trap","Cyclorrhapha","order","other_flies",140,NA,NA,NA,"Pollinators were sampled in 6 pan trap/transects in 2 sampling rounds. In all surveys transects were 50m-long and each transect was walk over 10 mins.",NA
"Michael_Garratt_Malus_domestica_UK_2011","2011Ra4","transect","Diptera unknown or unidentified","order","other_flies",4,NA,120,NA,"Pollinators were sampled in 6 pan trap/transects in 2 sampling rounds. In all surveys transects were 50m-long and each transect was walk over 10 mins.",NA
"Michael_Garratt_Malus_domestica_UK_2011","2011Ra4","pan trap","Flesh flies","family","other_flies",22,NA,NA,NA,"Pollinators were sampled in 6 pan trap/transects in 2 sampling rounds. In all surveys transects were 50m-long and each transect was walk over 10 mins.",NA
"Michael_Garratt_Malus_domestica_UK_2011","2011Ra4","transect","Flesh flies","family","other_flies",1,NA,120,NA,"Pollinators were sampled in 6 pan trap/transects in 2 sampling rounds. In all surveys transects were 50m-long and each transect was walk over 10 mins.",NA
"Michael_Garratt_Malus_domestica_UK_2011","2011Ra4","pan trap","Ground beetle","family","beetles",2,NA,NA,NA,"Pollinators were sampled in 6 pan trap/transects in 2 sampling rounds. In all surveys transects were 50m-long and each transect was walk over 10 mins.",NA
"Michael_Garratt_Malus_domestica_UK_2011","2011Ra4","transect","Hoverfly unknown or unidentified","family","syrphids",1,NA,120,NA,"Pollinators were sampled in 6 pan trap/transects in 2 sampling rounds. In all surveys transects were 50m-long and each transect was walk over 10 mins.",NA
"Michael_Garratt_Malus_domestica_UK_2011","2011Ra4","pan trap","Ladybirds","family","beetles",5,NA,NA,NA,"Pollinators were sampled in 6 pan trap/transects in 2 sampling rounds. In all surveys transects were 50m-long and each transect was walk over 10 mins.",NA
"Michael_Garratt_Malus_domestica_UK_2011","2011Ra4","pan trap","Lasioglossum albipes","species","other_wild_bees",1,NA,NA,NA,"Pollinators were sampled in 6 pan trap/transects in 2 sampling rounds. In all surveys transects were 50m-long and each transect was walk over 10 mins.",NA
"Michael_Garratt_Malus_domestica_UK_2011","2011Ra4","pan trap","Lasioglossum malachurum","species","other_wild_bees",5,NA,NA,NA,"Pollinators were sampled in 6 pan trap/transects in 2 sampling rounds. In all surveys transects were 50m-long and each transect was walk over 10 mins.",NA
"Michael_Garratt_Malus_domestica_UK_2011","2011Ra4","pan trap","Nematocera","order","other_flies",4,NA,NA,NA,"Pollinators were sampled in 6 pan trap/transects in 2 sampling rounds. In all surveys transects were 50m-long and each transect was walk over 10 mins.",NA
"Michael_Garratt_Malus_domestica_UK_2011","2011Ra4","pan trap","Nomada fabriciana","species","other_wild_bees",4,NA,NA,NA,"Pollinators were sampled in 6 pan trap/transects in 2 sampling rounds. In all surveys transects were 50m-long and each transect was walk over 10 mins.",NA
"Michael_Garratt_Malus_domestica_UK_2011","2011Ra4","pan trap","Nomada flavoguttata","species","other_wild_bees",1,NA,NA,NA,"Pollinators were sampled in 6 pan trap/transects in 2 sampling rounds. In all surveys transects were 50m-long and each transect was walk over 10 mins.",NA
"Michael_Garratt_Malus_domestica_UK_2011","2011Ra4","pan trap","Nomada goodeniana","species","other_wild_bees",1,NA,NA,NA,"Pollinators were sampled in 6 pan trap/transects in 2 sampling rounds. In all surveys transects were 50m-long and each transect was walk over 10 mins.",NA
"Michael_Garratt_Malus_domestica_UK_2011","2011Ra4","pan trap","Nomada ruficornis","species","other_wild_bees",2,NA,NA,NA,"Pollinators were sampled in 6 pan trap/transects in 2 sampling rounds. In all surveys transects were 50m-long and each transect was walk over 10 mins.",NA
"Michael_Garratt_Malus_domestica_UK_2011","2011Ra4","pan trap","Other Coleoptera (>3mm)","order","beetles",4,NA,NA,NA,"Pollinators were sampled in 6 pan trap/transects in 2 sampling rounds. In all surveys transects were 50m-long and each transect was walk over 10 mins.",NA
"Michael_Garratt_Malus_domestica_UK_2011","2011Ra4","pan trap","Other Hemiptera (>3mm)","order","other",1,NA,NA,NA,"Pollinators were sampled in 6 pan trap/transects in 2 sampling rounds. In all surveys transects were 50m-long and each transect was walk over 10 mins.",NA
"Michael_Garratt_Malus_domestica_UK_2011","2011Ra4","pan trap","Parasitoids","order","non_bee_hymenoptera",1,NA,NA,NA,"Pollinators were sampled in 6 pan trap/transects in 2 sampling rounds. In all surveys transects were 50m-long and each transect was walk over 10 mins.",NA
"Michael_Garratt_Malus_domestica_UK_2011","2011Ra4","pan trap","Saw flies","order","non_bee_hymenoptera",1,NA,NA,NA,"Pollinators were sampled in 6 pan trap/transects in 2 sampling rounds. In all surveys transects were 50m-long and each transect was walk over 10 mins.",NA
"Michael_Garratt_Malus_domestica_UK_2011","2011Ra4","transect","Solitary bee unknown or unidentified","superfamily","other_wild_bees",13,NA,120,NA,"Pollinators were sampled in 6 pan trap/transects in 2 sampling rounds. In all surveys transects were 50m-long and each transect was walk over 10 mins.",NA
"Michael_Garratt_Malus_domestica_UK_2011","2011Ra5","pan trap","Andrena chrysosceles","species","other_wild_bees",3,NA,NA,NA,"Pollinators were sampled in 6 pan trap/transects in 2 sampling rounds. In all surveys transects were 50m-long and each transect was walk over 10 mins.",NA
"Michael_Garratt_Malus_domestica_UK_2011","2011Ra5","pan trap","Andrena cineraria","species","other_wild_bees",1,NA,NA,NA,"Pollinators were sampled in 6 pan trap/transects in 2 sampling rounds. In all surveys transects were 50m-long and each transect was walk over 10 mins.",NA
"Michael_Garratt_Malus_domestica_UK_2011","2011Ra5","pan trap","Andrena flavipes","species","other_wild_bees",92,NA,NA,NA,"Pollinators were sampled in 6 pan trap/transects in 2 sampling rounds. In all surveys transects were 50m-long and each transect was walk over 10 mins.",NA
"Michael_Garratt_Malus_domestica_UK_2011","2011Ra5","pan trap","Andrena haemorrhoa","species","other_wild_bees",2,NA,NA,NA,"Pollinators were sampled in 6 pan trap/transects in 2 sampling rounds. In all surveys transects were 50m-long and each transect was walk over 10 mins.",NA
"Michael_Garratt_Malus_domestica_UK_2011","2011Ra5","transect","Andrena haemorrhoa","species","other_wild_bees",1,NA,120,NA,"Pollinators were sampled in 6 pan trap/transects in 2 sampling rounds. In all surveys transects were 50m-long and each transect was walk over 10 mins.",NA
"Michael_Garratt_Malus_domestica_UK_2011","2011Ra5","pan trap","Andrena helvola","species","other_wild_bees",1,NA,NA,NA,"Pollinators were sampled in 6 pan trap/transects in 2 sampling rounds. In all surveys transects were 50m-long and each transect was walk over 10 mins.",NA
"Michael_Garratt_Malus_domestica_UK_2011","2011Ra5","pan trap","Andrena labiata","species","other_wild_bees",1,NA,NA,NA,"Pollinators were sampled in 6 pan trap/transects in 2 sampling rounds. In all surveys transects were 50m-long and each transect was walk over 10 mins.",NA
"Michael_Garratt_Malus_domestica_UK_2011","2011Ra5","pan trap","Andrena minutula","species","other_wild_bees",7,NA,NA,NA,"Pollinators were sampled in 6 pan trap/transects in 2 sampling rounds. In all surveys transects were 50m-long and each transect was walk over 10 mins.",NA
"Michael_Garratt_Malus_domestica_UK_2011","2011Ra5","pan trap","Andrena nigroaenea","species","other_wild_bees",3,NA,NA,NA,"Pollinators were sampled in 6 pan trap/transects in 2 sampling rounds. In all surveys transects were 50m-long and each transect was walk over 10 mins.",NA
"Michael_Garratt_Malus_domestica_UK_2011","2011Ra5","pan trap","Andrena nitida","species","other_wild_bees",1,NA,NA,NA,"Pollinators were sampled in 6 pan trap/transects in 2 sampling rounds. In all surveys transects were 50m-long and each transect was walk over 10 mins.",NA
"Michael_Garratt_Malus_domestica_UK_2011","2011Ra5","transect","Andrena nitida","species","other_wild_bees",1,NA,120,NA,"Pollinators were sampled in 6 pan trap/transects in 2 sampling rounds. In all surveys transects were 50m-long and each transect was walk over 10 mins.",NA
"Michael_Garratt_Malus_domestica_UK_2011","2011Ra5","pan trap","Apis mellifera","species","honeybees",2,NA,NA,NA,"Pollinators were sampled in 6 pan trap/transects in 2 sampling rounds. In all surveys transects were 50m-long and each transect was walk over 10 mins.",NA
"Michael_Garratt_Malus_domestica_UK_2011","2011Ra5","transect","Apis mellifera","species","honeybees",1,NA,120,NA,"Pollinators were sampled in 6 pan trap/transects in 2 sampling rounds. In all surveys transects were 50m-long and each transect was walk over 10 mins.",NA
"Michael_Garratt_Malus_domestica_UK_2011","2011Ra5","transect","Bombus lapidarius","species","bumblebees",1,NA,120,NA,"Pollinators were sampled in 6 pan trap/transects in 2 sampling rounds. In all surveys transects were 50m-long and each transect was walk over 10 mins.",NA
"Michael_Garratt_Malus_domestica_UK_2011","2011Ra5","pan trap","Bombus lapidarius","species","bumblebees",1,NA,NA,NA,"Pollinators were sampled in 6 pan trap/transects in 2 sampling rounds. In all surveys transects were 50m-long and each transect was walk over 10 mins.",NA
"Michael_Garratt_Malus_domestica_UK_2011","2011Ra5","transect","Bombus pratorum","species","bumblebees",1,NA,120,NA,"Pollinators were sampled in 6 pan trap/transects in 2 sampling rounds. In all surveys transects were 50m-long and each transect was walk over 10 mins.",NA
"Michael_Garratt_Malus_domestica_UK_2011","2011Ra5","transect","Bombus terrestris or lucorum","species","bumblebees",1,NA,120,NA,"Pollinators were sampled in 6 pan trap/transects in 2 sampling rounds. In all surveys transects were 50m-long and each transect was walk over 10 mins.",NA
"Michael_Garratt_Malus_domestica_UK_2011","2011Ra5","pan trap","Brachycera (inc cyclorrhapha in OSR)","order","other_flies",1,NA,NA,NA,"Pollinators were sampled in 6 pan trap/transects in 2 sampling rounds. In all surveys transects were 50m-long and each transect was walk over 10 mins.",NA
"Michael_Garratt_Malus_domestica_UK_2011","2011Ra5","pan trap","Click beetle","family","beetles",1,NA,NA,NA,"Pollinators were sampled in 6 pan trap/transects in 2 sampling rounds. In all surveys transects were 50m-long and each transect was walk over 10 mins.",NA
"Michael_Garratt_Malus_domestica_UK_2011","2011Ra5","transect","Crane flies","family","other_flies",3,NA,120,NA,"Pollinators were sampled in 6 pan trap/transects in 2 sampling rounds. In all surveys transects were 50m-long and each transect was walk over 10 mins.",NA
"Michael_Garratt_Malus_domestica_UK_2011","2011Ra5","pan trap","Cyclorrhapha","order","other_flies",197,NA,NA,NA,"Pollinators were sampled in 6 pan trap/transects in 2 sampling rounds. In all surveys transects were 50m-long and each transect was walk over 10 mins.",NA
"Michael_Garratt_Malus_domestica_UK_2011","2011Ra5","transect","Cyclorrhapha","order","other_flies",1,NA,120,NA,"Pollinators were sampled in 6 pan trap/transects in 2 sampling rounds. In all surveys transects were 50m-long and each transect was walk over 10 mins.",NA
"Michael_Garratt_Malus_domestica_UK_2011","2011Ra5","transect","Diptera unknown or unidentified","order","other_flies",13,NA,120,NA,"Pollinators were sampled in 6 pan trap/transects in 2 sampling rounds. In all surveys transects were 50m-long and each transect was walk over 10 mins.",NA
"Michael_Garratt_Malus_domestica_UK_2011","2011Ra5","pan trap","Flesh flies","family","other_flies",36,NA,NA,NA,"Pollinators were sampled in 6 pan trap/transects in 2 sampling rounds. In all surveys transects were 50m-long and each transect was walk over 10 mins.",NA
"Michael_Garratt_Malus_domestica_UK_2011","2011Ra5","pan trap","Ground beetle","family","beetles",5,NA,NA,NA,"Pollinators were sampled in 6 pan trap/transects in 2 sampling rounds. In all surveys transects were 50m-long and each transect was walk over 10 mins.",NA
"Michael_Garratt_Malus_domestica_UK_2011","2011Ra5","pan trap","Halictus rubicundus","species","other_wild_bees",2,NA,NA,NA,"Pollinators were sampled in 6 pan trap/transects in 2 sampling rounds. In all surveys transects were 50m-long and each transect was walk over 10 mins.",NA
"Michael_Garratt_Malus_domestica_UK_2011","2011Ra5","pan trap","Halictus tumulorum","species","other_wild_bees",2,NA,NA,NA,"Pollinators were sampled in 6 pan trap/transects in 2 sampling rounds. In all surveys transects were 50m-long and each transect was walk over 10 mins.",NA
"Michael_Garratt_Malus_domestica_UK_2011","2011Ra5","pan trap","Lasioglossum calceatum","species","other_wild_bees",1,NA,NA,NA,"Pollinators were sampled in 6 pan trap/transects in 2 sampling rounds. In all surveys transects were 50m-long and each transect was walk over 10 mins.",NA
"Michael_Garratt_Malus_domestica_UK_2011","2011Ra5","pan trap","Lasioglossum malachurum","species","other_wild_bees",29,NA,NA,NA,"Pollinators were sampled in 6 pan trap/transects in 2 sampling rounds. In all surveys transects were 50m-long and each transect was walk over 10 mins.",NA
"Michael_Garratt_Malus_domestica_UK_2011","2011Ra5","pan trap","Lasioglossum minutissimum","species","other_wild_bees",73,NA,NA,NA,"Pollinators were sampled in 6 pan trap/transects in 2 sampling rounds. In all surveys transects were 50m-long and each transect was walk over 10 mins.",NA
"Michael_Garratt_Malus_domestica_UK_2011","2011Ra5","pan trap","Lasioglossum morio","species","other_wild_bees",8,NA,NA,NA,"Pollinators were sampled in 6 pan trap/transects in 2 sampling rounds. In all surveys transects were 50m-long and each transect was walk over 10 mins.",NA
"Michael_Garratt_Malus_domestica_UK_2011","2011Ra5","pan trap","Lasioglossum pauperatum","species","other_wild_bees",38,NA,NA,NA,"Pollinators were sampled in 6 pan trap/transects in 2 sampling rounds. In all surveys transects were 50m-long and each transect was walk over 10 mins.",NA
"Michael_Garratt_Malus_domestica_UK_2011","2011Ra5","transect","Lasioglossum pauxillum","species","other_wild_bees",1,NA,120,NA,"Pollinators were sampled in 6 pan trap/transects in 2 sampling rounds. In all surveys transects were 50m-long and each transect was walk over 10 mins.",NA
"Michael_Garratt_Malus_domestica_UK_2011","2011Ra5","pan trap","Lasioglossum pauxillum","species","other_wild_bees",44,NA,NA,NA,"Pollinators were sampled in 6 pan trap/transects in 2 sampling rounds. In all surveys transects were 50m-long and each transect was walk over 10 mins.",NA
"Michael_Garratt_Malus_domestica_UK_2011","2011Ra5","pan trap","Lasioglossum smeathmanellum","species","other_wild_bees",1,NA,NA,NA,"Pollinators were sampled in 6 pan trap/transects in 2 sampling rounds. In all surveys transects were 50m-long and each transect was walk over 10 mins.",NA
"Michael_Garratt_Malus_domestica_UK_2011","2011Ra5","pan trap","Lasioglossum sp.","genus","other_wild_bees",3,NA,NA,NA,"Pollinators were sampled in 6 pan trap/transects in 2 sampling rounds. In all surveys transects were 50m-long and each transect was walk over 10 mins.",NA
"Michael_Garratt_Malus_domestica_UK_2011","2011Ra5","pan trap","Nematocera","order","other_flies",70,NA,NA,NA,"Pollinators were sampled in 6 pan trap/transects in 2 sampling rounds. In all surveys transects were 50m-long and each transect was walk over 10 mins.",NA
"Michael_Garratt_Malus_domestica_UK_2011","2011Ra5","pan trap","Nomada fabriciana","species","other_wild_bees",1,NA,NA,NA,"Pollinators were sampled in 6 pan trap/transects in 2 sampling rounds. In all surveys transects were 50m-long and each transect was walk over 10 mins.",NA
"Michael_Garratt_Malus_domestica_UK_2011","2011Ra5","pan trap","Nomada flavoguttata","species","other_wild_bees",1,NA,NA,NA,"Pollinators were sampled in 6 pan trap/transects in 2 sampling rounds. In all surveys transects were 50m-long and each transect was walk over 10 mins.",NA
"Michael_Garratt_Malus_domestica_UK_2011","2011Ra5","pan trap","Nomada fucata","species","other_wild_bees",5,NA,NA,NA,"Pollinators were sampled in 6 pan trap/transects in 2 sampling rounds. In all surveys transects were 50m-long and each transect was walk over 10 mins.",NA
"Michael_Garratt_Malus_domestica_UK_2011","2011Ra5","pan trap","Nomada goodeniana","species","other_wild_bees",2,NA,NA,NA,"Pollinators were sampled in 6 pan trap/transects in 2 sampling rounds. In all surveys transects were 50m-long and each transect was walk over 10 mins.",NA
"Michael_Garratt_Malus_domestica_UK_2011","2011Ra5","pan trap","Other Coleoptera (>3mm)","order","beetles",30,NA,NA,NA,"Pollinators were sampled in 6 pan trap/transects in 2 sampling rounds. In all surveys transects were 50m-long and each transect was walk over 10 mins.",NA
"Michael_Garratt_Malus_domestica_UK_2011","2011Ra5","pan trap","Other Hemiptera (>3mm)","order","other",5,NA,NA,NA,"Pollinators were sampled in 6 pan trap/transects in 2 sampling rounds. In all surveys transects were 50m-long and each transect was walk over 10 mins.",NA
"Michael_Garratt_Malus_domestica_UK_2011","2011Ra5","pan trap","Parasitoids","order","non_bee_hymenoptera",15,NA,NA,NA,"Pollinators were sampled in 6 pan trap/transects in 2 sampling rounds. In all surveys transects were 50m-long and each transect was walk over 10 mins.",NA
"Michael_Garratt_Malus_domestica_UK_2011","2011Ra5","pan trap","Pemphredon inornata","species","non_bee_hymenoptera",1,NA,NA,NA,"Pollinators were sampled in 6 pan trap/transects in 2 sampling rounds. In all surveys transects were 50m-long and each transect was walk over 10 mins.",NA
"Michael_Garratt_Malus_domestica_UK_2011","2011Ra5","pan trap","Pemphredon lethifer","species","non_bee_hymenoptera",1,NA,NA,NA,"Pollinators were sampled in 6 pan trap/transects in 2 sampling rounds. In all surveys transects were 50m-long and each transect was walk over 10 mins.",NA
"Michael_Garratt_Malus_domestica_UK_2011","2011Ra5","transect","Plecoptera spp.","order","other",1,NA,120,NA,"Pollinators were sampled in 6 pan trap/transects in 2 sampling rounds. In all surveys transects were 50m-long and each transect was walk over 10 mins.",NA
"Michael_Garratt_Malus_domestica_UK_2011","2011Ra5","pan trap","Sphecodes niger","species","other_wild_bees",1,NA,NA,NA,"Pollinators were sampled in 6 pan trap/transects in 2 sampling rounds. In all surveys transects were 50m-long and each transect was walk over 10 mins.",NA
"Michael_Garratt_Malus_domestica_UK_2011","2011Ra5","transect","spider","order","other",1,NA,120,NA,"Pollinators were sampled in 6 pan trap/transects in 2 sampling rounds. In all surveys transects were 50m-long and each transect was walk over 10 mins.",NA
"Michael_Garratt_Malus_domestica_UK_2011","2011Ra5","pan trap","Weevil","superfamily","beetles",3,NA,NA,NA,"Pollinators were sampled in 6 pan trap/transects in 2 sampling rounds. In all surveys transects were 50m-long and each transect was walk over 10 mins.",NA
"Michael_Garratt_Malus_domestica_UK_2011","2011Ra6","pan trap","Andrena bucephala","species","other_wild_bees",1,NA,NA,NA,"Pollinators were sampled in 6 pan trap/transects in 2 sampling rounds. In all surveys transects were 50m-long and each transect was walk over 10 mins.",NA
"Michael_Garratt_Malus_domestica_UK_2011","2011Ra6","pan trap","Andrena chrysosceles","species","other_wild_bees",19,NA,NA,NA,"Pollinators were sampled in 6 pan trap/transects in 2 sampling rounds. In all surveys transects were 50m-long and each transect was walk over 10 mins.",NA
"Michael_Garratt_Malus_domestica_UK_2011","2011Ra6","transect","Andrena chrysosceles","species","other_wild_bees",1,NA,120,NA,"Pollinators were sampled in 6 pan trap/transects in 2 sampling rounds. In all surveys transects were 50m-long and each transect was walk over 10 mins.",NA
"Michael_Garratt_Malus_domestica_UK_2011","2011Ra6","pan trap","Andrena cineraria","species","other_wild_bees",16,NA,NA,NA,"Pollinators were sampled in 6 pan trap/transects in 2 sampling rounds. In all surveys transects were 50m-long and each transect was walk over 10 mins.",NA
"Michael_Garratt_Malus_domestica_UK_2011","2011Ra6","transect","Andrena cineraria","species","other_wild_bees",1,NA,120,NA,"Pollinators were sampled in 6 pan trap/transects in 2 sampling rounds. In all surveys transects were 50m-long and each transect was walk over 10 mins.",NA
"Michael_Garratt_Malus_domestica_UK_2011","2011Ra6","transect","Andrena dorsata","species","other_wild_bees",2,NA,120,NA,"Pollinators were sampled in 6 pan trap/transects in 2 sampling rounds. In all surveys transects were 50m-long and each transect was walk over 10 mins.",NA
"Michael_Garratt_Malus_domestica_UK_2011","2011Ra6","pan trap","Andrena dorsata","species","other_wild_bees",2,NA,NA,NA,"Pollinators were sampled in 6 pan trap/transects in 2 sampling rounds. In all surveys transects were 50m-long and each transect was walk over 10 mins.",NA
"Michael_Garratt_Malus_domestica_UK_2011","2011Ra6","pan trap","Andrena flavipes","species","other_wild_bees",121,NA,NA,NA,"Pollinators were sampled in 6 pan trap/transects in 2 sampling rounds. In all surveys transects were 50m-long and each transect was walk over 10 mins.",NA
"Michael_Garratt_Malus_domestica_UK_2011","2011Ra6","pan trap","Andrena fucata","species","other_wild_bees",2,NA,NA,NA,"Pollinators were sampled in 6 pan trap/transects in 2 sampling rounds. In all surveys transects were 50m-long and each transect was walk over 10 mins.",NA
"Michael_Garratt_Malus_domestica_UK_2011","2011Ra6","pan trap","Andrena haemorrhoa","species","other_wild_bees",6,NA,NA,NA,"Pollinators were sampled in 6 pan trap/transects in 2 sampling rounds. In all surveys transects were 50m-long and each transect was walk over 10 mins.",NA
"Michael_Garratt_Malus_domestica_UK_2011","2011Ra6","pan trap","Andrena minutula","species","other_wild_bees",10,NA,NA,NA,"Pollinators were sampled in 6 pan trap/transects in 2 sampling rounds. In all surveys transects were 50m-long and each transect was walk over 10 mins.",NA
"Michael_Garratt_Malus_domestica_UK_2011","2011Ra6","pan trap","Andrena nigroaenea","species","other_wild_bees",6,NA,NA,NA,"Pollinators were sampled in 6 pan trap/transects in 2 sampling rounds. In all surveys transects were 50m-long and each transect was walk over 10 mins.",NA
"Michael_Garratt_Malus_domestica_UK_2011","2011Ra6","transect","Andrena nitida","species","other_wild_bees",1,NA,120,NA,"Pollinators were sampled in 6 pan trap/transects in 2 sampling rounds. In all surveys transects were 50m-long and each transect was walk over 10 mins.",NA
"Michael_Garratt_Malus_domestica_UK_2011","2011Ra6","pan trap","Andrena nitida","species","other_wild_bees",3,NA,NA,NA,"Pollinators were sampled in 6 pan trap/transects in 2 sampling rounds. In all surveys transects were 50m-long and each transect was walk over 10 mins.",NA
"Michael_Garratt_Malus_domestica_UK_2011","2011Ra6","pan trap","Andrena semilaevis","species","other_wild_bees",1,NA,NA,NA,"Pollinators were sampled in 6 pan trap/transects in 2 sampling rounds. In all surveys transects were 50m-long and each transect was walk over 10 mins.",NA
"Michael_Garratt_Malus_domestica_UK_2011","2011Ra6","transect","Andrena sp.","genus","other_wild_bees",2,NA,120,NA,"Pollinators were sampled in 6 pan trap/transects in 2 sampling rounds. In all surveys transects were 50m-long and each transect was walk over 10 mins.",NA
"Michael_Garratt_Malus_domestica_UK_2011","2011Ra6","pan trap","Andrena trimmerana","species","other_wild_bees",1,NA,NA,NA,"Pollinators were sampled in 6 pan trap/transects in 2 sampling rounds. In all surveys transects were 50m-long and each transect was walk over 10 mins.",NA
"Michael_Garratt_Malus_domestica_UK_2011","2011Ra6","transect","Apis mellifera","species","honeybees",4,NA,120,NA,"Pollinators were sampled in 6 pan trap/transects in 2 sampling rounds. In all surveys transects were 50m-long and each transect was walk over 10 mins.",NA
"Michael_Garratt_Malus_domestica_UK_2011","2011Ra6","pan trap","Apis mellifera","species","honeybees",2,NA,NA,NA,"Pollinators were sampled in 6 pan trap/transects in 2 sampling rounds. In all surveys transects were 50m-long and each transect was walk over 10 mins.",NA
"Michael_Garratt_Malus_domestica_UK_2011","2011Ra6","transect","Bombus lapidarius","species","bumblebees",2,NA,120,NA,"Pollinators were sampled in 6 pan trap/transects in 2 sampling rounds. In all surveys transects were 50m-long and each transect was walk over 10 mins.",NA
"Michael_Garratt_Malus_domestica_UK_2011","2011Ra6","pan trap","Bombus lapidarius","species","bumblebees",1,NA,NA,NA,"Pollinators were sampled in 6 pan trap/transects in 2 sampling rounds. In all surveys transects were 50m-long and each transect was walk over 10 mins.",NA
"Michael_Garratt_Malus_domestica_UK_2011","2011Ra6","pan trap","Bombus pascuorum","species","bumblebees",1,NA,NA,NA,"Pollinators were sampled in 6 pan trap/transects in 2 sampling rounds. In all surveys transects were 50m-long and each transect was walk over 10 mins.",NA
"Michael_Garratt_Malus_domestica_UK_2011","2011Ra6","transect","Bombus spp. unknown or unidentified","genus","bumblebees",1,NA,120,NA,"Pollinators were sampled in 6 pan trap/transects in 2 sampling rounds. In all surveys transects were 50m-long and each transect was walk over 10 mins.",NA
"Michael_Garratt_Malus_domestica_UK_2011","2011Ra6","transect","Bombus terrestris or lucorum","species","bumblebees",3,NA,120,NA,"Pollinators were sampled in 6 pan trap/transects in 2 sampling rounds. In all surveys transects were 50m-long and each transect was walk over 10 mins.",NA
"Michael_Garratt_Malus_domestica_UK_2011","2011Ra6","pan trap","Brachycera (inc cyclorrhapha in OSR)","order","other_flies",13,NA,NA,NA,"Pollinators were sampled in 6 pan trap/transects in 2 sampling rounds. In all surveys transects were 50m-long and each transect was walk over 10 mins.",NA
"Michael_Garratt_Malus_domestica_UK_2011","2011Ra6","pan trap","Click beetle","family","beetles",10,NA,NA,NA,"Pollinators were sampled in 6 pan trap/transects in 2 sampling rounds. In all surveys transects were 50m-long and each transect was walk over 10 mins.",NA
"Michael_Garratt_Malus_domestica_UK_2011","2011Ra6","transect","Coleoptera unknown or unidentified","order","beetles",1,NA,120,NA,"Pollinators were sampled in 6 pan trap/transects in 2 sampling rounds. In all surveys transects were 50m-long and each transect was walk over 10 mins.",NA
"Michael_Garratt_Malus_domestica_UK_2011","2011Ra6","pan trap","Cyclorrhapha","order","other_flies",312,NA,NA,NA,"Pollinators were sampled in 6 pan trap/transects in 2 sampling rounds. In all surveys transects were 50m-long and each transect was walk over 10 mins.",NA
"Michael_Garratt_Malus_domestica_UK_2011","2011Ra6","transect","Diptera unknown or unidentified","order","other_flies",8,NA,120,NA,"Pollinators were sampled in 6 pan trap/transects in 2 sampling rounds. In all surveys transects were 50m-long and each transect was walk over 10 mins.",NA
"Michael_Garratt_Malus_domestica_UK_2011","2011Ra6","pan trap","Flesh flies","family","other_flies",16,NA,NA,NA,"Pollinators were sampled in 6 pan trap/transects in 2 sampling rounds. In all surveys transects were 50m-long and each transect was walk over 10 mins.",NA
"Michael_Garratt_Malus_domestica_UK_2011","2011Ra6","pan trap","Ground beetle","family","beetles",2,NA,NA,NA,"Pollinators were sampled in 6 pan trap/transects in 2 sampling rounds. In all surveys transects were 50m-long and each transect was walk over 10 mins.",NA
"Michael_Garratt_Malus_domestica_UK_2011","2011Ra6","pan trap","Halictus tumulorum","species","other_wild_bees",1,NA,NA,NA,"Pollinators were sampled in 6 pan trap/transects in 2 sampling rounds. In all surveys transects were 50m-long and each transect was walk over 10 mins.",NA
"Michael_Garratt_Malus_domestica_UK_2011","2011Ra6","transect","Hoverfly unknown or unidentified","family","syrphids",9,NA,120,NA,"Pollinators were sampled in 6 pan trap/transects in 2 sampling rounds. In all surveys transects were 50m-long and each transect was walk over 10 mins.",NA
"Michael_Garratt_Malus_domestica_UK_2011","2011Ra6","pan trap","Lasioglossum albipes","species","other_wild_bees",2,NA,NA,NA,"Pollinators were sampled in 6 pan trap/transects in 2 sampling rounds. In all surveys transects were 50m-long and each transect was walk over 10 mins.",NA
"Michael_Garratt_Malus_domestica_UK_2011","2011Ra6","pan trap","Lasioglossum calceatum","species","other_wild_bees",2,NA,NA,NA,"Pollinators were sampled in 6 pan trap/transects in 2 sampling rounds. In all surveys transects were 50m-long and each transect was walk over 10 mins.",NA
"Michael_Garratt_Malus_domestica_UK_2011","2011Ra6","pan trap","Lasioglossum malachurum","species","other_wild_bees",114,NA,NA,NA,"Pollinators were sampled in 6 pan trap/transects in 2 sampling rounds. In all surveys transects were 50m-long and each transect was walk over 10 mins.",NA
"Michael_Garratt_Malus_domestica_UK_2011","2011Ra6","pan trap","Lasioglossum minutissimum","species","other_wild_bees",2,NA,NA,NA,"Pollinators were sampled in 6 pan trap/transects in 2 sampling rounds. In all surveys transects were 50m-long and each transect was walk over 10 mins.",NA
"Michael_Garratt_Malus_domestica_UK_2011","2011Ra6","pan trap","Lasioglossum minutula","species","other_wild_bees",3,NA,NA,NA,"Pollinators were sampled in 6 pan trap/transects in 2 sampling rounds. In all surveys transects were 50m-long and each transect was walk over 10 mins.",NA
"Michael_Garratt_Malus_domestica_UK_2011","2011Ra6","pan trap","Lasioglossum morio","species","other_wild_bees",57,NA,NA,NA,"Pollinators were sampled in 6 pan trap/transects in 2 sampling rounds. In all surveys transects were 50m-long and each transect was walk over 10 mins.",NA
"Michael_Garratt_Malus_domestica_UK_2011","2011Ra6","pan trap","Lasioglossum pauxillum","species","other_wild_bees",62,NA,NA,NA,"Pollinators were sampled in 6 pan trap/transects in 2 sampling rounds. In all surveys transects were 50m-long and each transect was walk over 10 mins.",NA
"Michael_Garratt_Malus_domestica_UK_2011","2011Ra6","pan trap","Lasioglossum punctatissimum","species","other_wild_bees",1,NA,NA,NA,"Pollinators were sampled in 6 pan trap/transects in 2 sampling rounds. In all surveys transects were 50m-long and each transect was walk over 10 mins.",NA
"Michael_Garratt_Malus_domestica_UK_2011","2011Ra6","pan trap","Nematocera","order","other_flies",72,NA,NA,NA,"Pollinators were sampled in 6 pan trap/transects in 2 sampling rounds. In all surveys transects were 50m-long and each transect was walk over 10 mins.",NA
"Michael_Garratt_Malus_domestica_UK_2011","2011Ra6","pan trap","Nomada fucata","species","other_wild_bees",4,NA,NA,NA,"Pollinators were sampled in 6 pan trap/transects in 2 sampling rounds. In all surveys transects were 50m-long and each transect was walk over 10 mins.",NA
"Michael_Garratt_Malus_domestica_UK_2011","2011Ra6","pan trap","Nomada goodeniana","species","other_wild_bees",6,NA,NA,NA,"Pollinators were sampled in 6 pan trap/transects in 2 sampling rounds. In all surveys transects were 50m-long and each transect was walk over 10 mins.",NA
"Michael_Garratt_Malus_domestica_UK_2011","2011Ra6","pan trap","Other Coleoptera (>3mm)","order","beetles",14,NA,NA,NA,"Pollinators were sampled in 6 pan trap/transects in 2 sampling rounds. In all surveys transects were 50m-long and each transect was walk over 10 mins.",NA
"Michael_Garratt_Malus_domestica_UK_2011","2011Ra6","pan trap","Parasitoids","order","non_bee_hymenoptera",7,NA,NA,NA,"Pollinators were sampled in 6 pan trap/transects in 2 sampling rounds. In all surveys transects were 50m-long and each transect was walk over 10 mins.",NA
"Michael_Garratt_Malus_domestica_UK_2011","2011Ra6","pan trap","Rove beetle","family","beetles",1,NA,NA,NA,"Pollinators were sampled in 6 pan trap/transects in 2 sampling rounds. In all surveys transects were 50m-long and each transect was walk over 10 mins.",NA
"Michael_Garratt_Malus_domestica_UK_2011","2011Ra6","pan trap","Saw flies","order","non_bee_hymenoptera",1,NA,NA,NA,"Pollinators were sampled in 6 pan trap/transects in 2 sampling rounds. In all surveys transects were 50m-long and each transect was walk over 10 mins.",NA
"Michael_Garratt_Malus_domestica_UK_2011","2011Ra6","transect","Solitary bee unknown or unidentified","superfamily","other_wild_bees",28,NA,120,NA,"Pollinators were sampled in 6 pan trap/transects in 2 sampling rounds. In all surveys transects were 50m-long and each transect was walk over 10 mins.",NA
"Michael_Garratt_Malus_domestica_UK_2011","2011Ra6","pan trap","Sphecodes ephippius","species","other_wild_bees",1,NA,NA,NA,"Pollinators were sampled in 6 pan trap/transects in 2 sampling rounds. In all surveys transects were 50m-long and each transect was walk over 10 mins.",NA
"Michael_Garratt_Malus_domestica_UK_2011","2011Ra6","pan trap","Sphecodes monilicornis","species","other_wild_bees",1,NA,NA,NA,"Pollinators were sampled in 6 pan trap/transects in 2 sampling rounds. In all surveys transects were 50m-long and each transect was walk over 10 mins.",NA
"Michael_Garratt_Malus_domestica_UK_2011","2011Ra6","pan trap","Sphecodes niger","species","other_wild_bees",2,NA,NA,NA,"Pollinators were sampled in 6 pan trap/transects in 2 sampling rounds. In all surveys transects were 50m-long and each transect was walk over 10 mins.",NA
"Michael_Garratt_Malus_domestica_UK_2011","2011Ra6","pan trap","Stilt bug","family","other",1,NA,NA,NA,"Pollinators were sampled in 6 pan trap/transects in 2 sampling rounds. In all surveys transects were 50m-long and each transect was walk over 10 mins.",NA
"Michael_Garratt_Malus_domestica_UK_2011","2011Ra6","pan trap","Weevil","superfamily","beetles",3,NA,NA,NA,"Pollinators were sampled in 6 pan trap/transects in 2 sampling rounds. In all surveys transects were 50m-long and each transect was walk over 10 mins.",NA
"Michael_Garratt_Malus_domestica_UK_2011","2011Ra6","transect","Weevil","superfamily","beetles",1,NA,120,NA,"Pollinators were sampled in 6 pan trap/transects in 2 sampling rounds. In all surveys transects were 50m-long and each transect was walk over 10 mins.",NA
"Michael_Garratt_Malus_domestica_UK_2011","2011Ra7","pan trap","Andrena chrysosceles","species","other_wild_bees",3,NA,NA,NA,"Pollinators were sampled in 6 pan trap/transects in 2 sampling rounds. In all surveys transects were 50m-long and each transect was walk over 10 mins.",NA
"Michael_Garratt_Malus_domestica_UK_2011","2011Ra7","pan trap","Andrena cineraria","species","other_wild_bees",2,NA,NA,NA,"Pollinators were sampled in 6 pan trap/transects in 2 sampling rounds. In all surveys transects were 50m-long and each transect was walk over 10 mins.",NA
"Michael_Garratt_Malus_domestica_UK_2011","2011Ra7","transect","Andrena dorsata","species","other_wild_bees",1,NA,120,NA,"Pollinators were sampled in 6 pan trap/transects in 2 sampling rounds. In all surveys transects were 50m-long and each transect was walk over 10 mins.",NA
"Michael_Garratt_Malus_domestica_UK_2011","2011Ra7","pan trap","Andrena flavipes","species","other_wild_bees",26,NA,NA,NA,"Pollinators were sampled in 6 pan trap/transects in 2 sampling rounds. In all surveys transects were 50m-long and each transect was walk over 10 mins.",NA
"Michael_Garratt_Malus_domestica_UK_2011","2011Ra7","pan trap","Andrena haemorrhoa","species","other_wild_bees",2,NA,NA,NA,"Pollinators were sampled in 6 pan trap/transects in 2 sampling rounds. In all surveys transects were 50m-long and each transect was walk over 10 mins.",NA
"Michael_Garratt_Malus_domestica_UK_2011","2011Ra7","pan trap","Andrena helvola","species","other_wild_bees",4,NA,NA,NA,"Pollinators were sampled in 6 pan trap/transects in 2 sampling rounds. In all surveys transects were 50m-long and each transect was walk over 10 mins.",NA
"Michael_Garratt_Malus_domestica_UK_2011","2011Ra7","pan trap","Andrena nigroaenea","species","other_wild_bees",3,NA,NA,NA,"Pollinators were sampled in 6 pan trap/transects in 2 sampling rounds. In all surveys transects were 50m-long and each transect was walk over 10 mins.",NA
"Michael_Garratt_Malus_domestica_UK_2011","2011Ra7","pan trap","Andrena nitida","species","other_wild_bees",1,NA,NA,NA,"Pollinators were sampled in 6 pan trap/transects in 2 sampling rounds. In all surveys transects were 50m-long and each transect was walk over 10 mins.",NA
"Michael_Garratt_Malus_domestica_UK_2011","2011Ra7","pan trap","Andrena sp.","genus","other_wild_bees",1,NA,NA,NA,"Pollinators were sampled in 6 pan trap/transects in 2 sampling rounds. In all surveys transects were 50m-long and each transect was walk over 10 mins.",NA
"Michael_Garratt_Malus_domestica_UK_2011","2011Ra7","pan trap","Andrena subopaca","species","other_wild_bees",1,NA,NA,NA,"Pollinators were sampled in 6 pan trap/transects in 2 sampling rounds. In all surveys transects were 50m-long and each transect was walk over 10 mins.",NA
"Michael_Garratt_Malus_domestica_UK_2011","2011Ra7","pan trap","Andrena tumulorum","species","other_wild_bees",1,NA,NA,NA,"Pollinators were sampled in 6 pan trap/transects in 2 sampling rounds. In all surveys transects were 50m-long and each transect was walk over 10 mins.",NA
"Michael_Garratt_Malus_domestica_UK_2011","2011Ra7","pan trap","Ants: Formica rufa","species","non_bee_hymenoptera",1,NA,NA,NA,"Pollinators were sampled in 6 pan trap/transects in 2 sampling rounds. In all surveys transects were 50m-long and each transect was walk over 10 mins.",NA
"Michael_Garratt_Malus_domestica_UK_2011","2011Ra7","transect","Apis mellifera","species","honeybees",10,NA,120,NA,"Pollinators were sampled in 6 pan trap/transects in 2 sampling rounds. In all surveys transects were 50m-long and each transect was walk over 10 mins.",NA
"Michael_Garratt_Malus_domestica_UK_2011","2011Ra7","pan trap","Bombus humilis","species","bumblebees",1,NA,NA,NA,"Pollinators were sampled in 6 pan trap/transects in 2 sampling rounds. In all surveys transects were 50m-long and each transect was walk over 10 mins.",NA
"Michael_Garratt_Malus_domestica_UK_2011","2011Ra7","transect","Bombus lapidarius","species","bumblebees",1,NA,120,NA,"Pollinators were sampled in 6 pan trap/transects in 2 sampling rounds. In all surveys transects were 50m-long and each transect was walk over 10 mins.",NA
"Michael_Garratt_Malus_domestica_UK_2011","2011Ra7","pan trap","Bombus lapidarius","species","bumblebees",1,NA,NA,NA,"Pollinators were sampled in 6 pan trap/transects in 2 sampling rounds. In all surveys transects were 50m-long and each transect was walk over 10 mins.",NA
"Michael_Garratt_Malus_domestica_UK_2011","2011Ra7","transect","Bombus pratorum","species","bumblebees",1,NA,120,NA,"Pollinators were sampled in 6 pan trap/transects in 2 sampling rounds. In all surveys transects were 50m-long and each transect was walk over 10 mins.",NA
"Michael_Garratt_Malus_domestica_UK_2011","2011Ra7","pan trap","Bombus pratorum","species","bumblebees",1,NA,NA,NA,"Pollinators were sampled in 6 pan trap/transects in 2 sampling rounds. In all surveys transects were 50m-long and each transect was walk over 10 mins.",NA
"Michael_Garratt_Malus_domestica_UK_2011","2011Ra7","transect","Bombus spp. unknown or unidentified","genus","bumblebees",1,NA,120,NA,"Pollinators were sampled in 6 pan trap/transects in 2 sampling rounds. In all surveys transects were 50m-long and each transect was walk over 10 mins.",NA
"Michael_Garratt_Malus_domestica_UK_2011","2011Ra7","transect","Bombus terrestris or lucorum","species","bumblebees",1,NA,120,NA,"Pollinators were sampled in 6 pan trap/transects in 2 sampling rounds. In all surveys transects were 50m-long and each transect was walk over 10 mins.",NA
"Michael_Garratt_Malus_domestica_UK_2011","2011Ra7","pan trap","Bombus terrestris","species","bumblebees",1,NA,NA,NA,"Pollinators were sampled in 6 pan trap/transects in 2 sampling rounds. In all surveys transects were 50m-long and each transect was walk over 10 mins.",NA
"Michael_Garratt_Malus_domestica_UK_2011","2011Ra7","pan trap","Brachycera (inc cyclorrhapha in OSR)","order","other_flies",1,NA,NA,NA,"Pollinators were sampled in 6 pan trap/transects in 2 sampling rounds. In all surveys transects were 50m-long and each transect was walk over 10 mins.",NA
"Michael_Garratt_Malus_domestica_UK_2011","2011Ra7","transect","Brachycera spp.","order","other_flies",1,NA,120,NA,"Pollinators were sampled in 6 pan trap/transects in 2 sampling rounds. In all surveys transects were 50m-long and each transect was walk over 10 mins.",NA
"Michael_Garratt_Malus_domestica_UK_2011","2011Ra7","transect","Coleoptera unknown or unidentified","order","beetles",2,NA,120,NA,"Pollinators were sampled in 6 pan trap/transects in 2 sampling rounds. In all surveys transects were 50m-long and each transect was walk over 10 mins.",NA
"Michael_Garratt_Malus_domestica_UK_2011","2011Ra7","pan trap","Crane flies","family","other_flies",1,NA,NA,NA,"Pollinators were sampled in 6 pan trap/transects in 2 sampling rounds. In all surveys transects were 50m-long and each transect was walk over 10 mins.",NA
"Michael_Garratt_Malus_domestica_UK_2011","2011Ra7","pan trap","Cyclorrhapha","order","other_flies",40,NA,NA,NA,"Pollinators were sampled in 6 pan trap/transects in 2 sampling rounds. In all surveys transects were 50m-long and each transect was walk over 10 mins.",NA
"Michael_Garratt_Malus_domestica_UK_2011","2011Ra7","transect","Diptera unknown or unidentified","order","other_flies",1,NA,120,NA,"Pollinators were sampled in 6 pan trap/transects in 2 sampling rounds. In all surveys transects were 50m-long and each transect was walk over 10 mins.",NA
"Michael_Garratt_Malus_domestica_UK_2011","2011Ra7","transect","Flesh flies","family","other_flies",1,NA,120,NA,"Pollinators were sampled in 6 pan trap/transects in 2 sampling rounds. In all surveys transects were 50m-long and each transect was walk over 10 mins.",NA
"Michael_Garratt_Malus_domestica_UK_2011","2011Ra7","pan trap","Flesh flies","family","other_flies",2,NA,NA,NA,"Pollinators were sampled in 6 pan trap/transects in 2 sampling rounds. In all surveys transects were 50m-long and each transect was walk over 10 mins.",NA
"Michael_Garratt_Malus_domestica_UK_2011","2011Ra7","pan trap","Ground beetle","family","beetles",3,NA,NA,NA,"Pollinators were sampled in 6 pan trap/transects in 2 sampling rounds. In all surveys transects were 50m-long and each transect was walk over 10 mins.",NA
"Michael_Garratt_Malus_domestica_UK_2011","2011Ra7","pan trap","Halictus tumulorum","species","other_wild_bees",9,NA,NA,NA,"Pollinators were sampled in 6 pan trap/transects in 2 sampling rounds. In all surveys transects were 50m-long and each transect was walk over 10 mins.",NA
"Michael_Garratt_Malus_domestica_UK_2011","2011Ra7","transect","Hemiptera unknown or unidentified","order","other",1,NA,120,NA,"Pollinators were sampled in 6 pan trap/transects in 2 sampling rounds. In all surveys transects were 50m-long and each transect was walk over 10 mins.",NA
"Michael_Garratt_Malus_domestica_UK_2011","2011Ra7","transect","Ladybirds","family","beetles",4,NA,120,NA,"Pollinators were sampled in 6 pan trap/transects in 2 sampling rounds. In all surveys transects were 50m-long and each transect was walk over 10 mins.",NA
"Michael_Garratt_Malus_domestica_UK_2011","2011Ra7","pan trap","Ladybirds","family","beetles",2,NA,NA,NA,"Pollinators were sampled in 6 pan trap/transects in 2 sampling rounds. In all surveys transects were 50m-long and each transect was walk over 10 mins.",NA
"Michael_Garratt_Malus_domestica_UK_2011","2011Ra7","pan trap","Lasioglossum albipes","species","other_wild_bees",2,NA,NA,NA,"Pollinators were sampled in 6 pan trap/transects in 2 sampling rounds. In all surveys transects were 50m-long and each transect was walk over 10 mins.",NA
"Michael_Garratt_Malus_domestica_UK_2011","2011Ra7","pan trap","Lasioglossum calceatum","species","other_wild_bees",4,NA,NA,NA,"Pollinators were sampled in 6 pan trap/transects in 2 sampling rounds. In all surveys transects were 50m-long and each transect was walk over 10 mins.",NA
"Michael_Garratt_Malus_domestica_UK_2011","2011Ra7","pan trap","Lasioglossum fulvicorne","species","other_wild_bees",1,NA,NA,NA,"Pollinators were sampled in 6 pan trap/transects in 2 sampling rounds. In all surveys transects were 50m-long and each transect was walk over 10 mins.",NA
"Michael_Garratt_Malus_domestica_UK_2011","2011Ra7","pan trap","Lasioglossum leucopus","species","other_wild_bees",1,NA,NA,NA,"Pollinators were sampled in 6 pan trap/transects in 2 sampling rounds. In all surveys transects were 50m-long and each transect was walk over 10 mins.",NA
"Michael_Garratt_Malus_domestica_UK_2011","2011Ra7","pan trap","Lasioglossum malachurum","species","other_wild_bees",18,NA,NA,NA,"Pollinators were sampled in 6 pan trap/transects in 2 sampling rounds. In all surveys transects were 50m-long and each transect was walk over 10 mins.",NA
"Michael_Garratt_Malus_domestica_UK_2011","2011Ra7","pan trap","Lasioglossum minutissimum","species","other_wild_bees",4,NA,NA,NA,"Pollinators were sampled in 6 pan trap/transects in 2 sampling rounds. In all surveys transects were 50m-long and each transect was walk over 10 mins.",NA
"Michael_Garratt_Malus_domestica_UK_2011","2011Ra7","pan trap","Lasioglossum morio","species","other_wild_bees",5,NA,NA,NA,"Pollinators were sampled in 6 pan trap/transects in 2 sampling rounds. In all surveys transects were 50m-long and each transect was walk over 10 mins.",NA
"Michael_Garratt_Malus_domestica_UK_2011","2011Ra7","pan trap","Lasioglossum pauxillum","species","other_wild_bees",12,NA,NA,NA,"Pollinators were sampled in 6 pan trap/transects in 2 sampling rounds. In all surveys transects were 50m-long and each transect was walk over 10 mins.",NA
"Michael_Garratt_Malus_domestica_UK_2011","2011Ra7","pan trap","Nematocera","order","other_flies",13,NA,NA,NA,"Pollinators were sampled in 6 pan trap/transects in 2 sampling rounds. In all surveys transects were 50m-long and each transect was walk over 10 mins.",NA
"Michael_Garratt_Malus_domestica_UK_2011","2011Ra7","pan trap","Osmia bicornis","species","other_wild_bees",3,NA,NA,NA,"Pollinators were sampled in 6 pan trap/transects in 2 sampling rounds. In all surveys transects were 50m-long and each transect was walk over 10 mins.",NA
"Michael_Garratt_Malus_domestica_UK_2011","2011Ra7","pan trap","Other Coleoptera (>3mm)","order","beetles",22,NA,NA,NA,"Pollinators were sampled in 6 pan trap/transects in 2 sampling rounds. In all surveys transects were 50m-long and each transect was walk over 10 mins.",NA
"Michael_Garratt_Malus_domestica_UK_2011","2011Ra7","pan trap","Other Hemiptera (>3mm)","order","other",3,NA,NA,NA,"Pollinators were sampled in 6 pan trap/transects in 2 sampling rounds. In all surveys transects were 50m-long and each transect was walk over 10 mins.",NA
"Michael_Garratt_Malus_domestica_UK_2011","2011Ra7","pan trap","Parasitoids","order","non_bee_hymenoptera",3,NA,NA,NA,"Pollinators were sampled in 6 pan trap/transects in 2 sampling rounds. In all surveys transects were 50m-long and each transect was walk over 10 mins.",NA
"Michael_Garratt_Malus_domestica_UK_2011","2011Ra7","transect","Solitary bee unknown or unidentified","superfamily","other_wild_bees",9,NA,120,NA,"Pollinators were sampled in 6 pan trap/transects in 2 sampling rounds. In all surveys transects were 50m-long and each transect was walk over 10 mins.",NA
"Michael_Garratt_Malus_domestica_UK_2011","2011Ra7","pan trap","Weevil","superfamily","beetles",2,NA,NA,NA,"Pollinators were sampled in 6 pan trap/transects in 2 sampling rounds. In all surveys transects were 50m-long and each transect was walk over 10 mins.",NA
"Michael_Garratt_Malus_domestica_UK_2011","2011Ra8","pan trap","Andrena chrysosceles","species","other_wild_bees",14,NA,NA,NA,"Pollinators were sampled in 6 pan trap/transects in 2 sampling rounds. In all surveys transects were 50m-long and each transect was walk over 10 mins.",NA
"Michael_Garratt_Malus_domestica_UK_2011","2011Ra8","pan trap","Andrena flavipes","species","other_wild_bees",2,NA,NA,NA,"Pollinators were sampled in 6 pan trap/transects in 2 sampling rounds. In all surveys transects were 50m-long and each transect was walk over 10 mins.",NA
"Michael_Garratt_Malus_domestica_UK_2011","2011Ra8","transect","Andrena haemorrhoa","species","other_wild_bees",1,NA,120,NA,"Pollinators were sampled in 6 pan trap/transects in 2 sampling rounds. In all surveys transects were 50m-long and each transect was walk over 10 mins.",NA
"Michael_Garratt_Malus_domestica_UK_2011","2011Ra8","pan trap","Andrena haemorrhoa","species","other_wild_bees",1,NA,NA,NA,"Pollinators were sampled in 6 pan trap/transects in 2 sampling rounds. In all surveys transects were 50m-long and each transect was walk over 10 mins.",NA
"Michael_Garratt_Malus_domestica_UK_2011","2011Ra8","pan trap","Andrena labiata","species","other_wild_bees",1,NA,NA,NA,"Pollinators were sampled in 6 pan trap/transects in 2 sampling rounds. In all surveys transects were 50m-long and each transect was walk over 10 mins.",NA
"Michael_Garratt_Malus_domestica_UK_2011","2011Ra8","pan trap","Andrena minutula","species","other_wild_bees",7,NA,NA,NA,"Pollinators were sampled in 6 pan trap/transects in 2 sampling rounds. In all surveys transects were 50m-long and each transect was walk over 10 mins.",NA
"Michael_Garratt_Malus_domestica_UK_2011","2011Ra8","pan trap","Andrena nigroaenea","species","other_wild_bees",3,NA,NA,NA,"Pollinators were sampled in 6 pan trap/transects in 2 sampling rounds. In all surveys transects were 50m-long and each transect was walk over 10 mins.",NA
"Michael_Garratt_Malus_domestica_UK_2011","2011Ra8","transect","Andrena nitida","species","other_wild_bees",1,NA,120,NA,"Pollinators were sampled in 6 pan trap/transects in 2 sampling rounds. In all surveys transects were 50m-long and each transect was walk over 10 mins.",NA
"Michael_Garratt_Malus_domestica_UK_2011","2011Ra8","pan trap","Andrena nitida","species","other_wild_bees",2,NA,NA,NA,"Pollinators were sampled in 6 pan trap/transects in 2 sampling rounds. In all surveys transects were 50m-long and each transect was walk over 10 mins.",NA
"Michael_Garratt_Malus_domestica_UK_2011","2011Ra8","transect","Apis mellifera","species","honeybees",6,NA,120,NA,"Pollinators were sampled in 6 pan trap/transects in 2 sampling rounds. In all surveys transects were 50m-long and each transect was walk over 10 mins.",NA
"Michael_Garratt_Malus_domestica_UK_2011","2011Ra8","transect","Bombus hortorum","species","bumblebees",1,NA,120,NA,"Pollinators were sampled in 6 pan trap/transects in 2 sampling rounds. In all surveys transects were 50m-long and each transect was walk over 10 mins.",NA
"Michael_Garratt_Malus_domestica_UK_2011","2011Ra8","transect","Bombus lapidarius","species","bumblebees",1,NA,120,NA,"Pollinators were sampled in 6 pan trap/transects in 2 sampling rounds. In all surveys transects were 50m-long and each transect was walk over 10 mins.",NA
"Michael_Garratt_Malus_domestica_UK_2011","2011Ra8","pan trap","Bombus pratorum","species","bumblebees",2,NA,NA,NA,"Pollinators were sampled in 6 pan trap/transects in 2 sampling rounds. In all surveys transects were 50m-long and each transect was walk over 10 mins.",NA
"Michael_Garratt_Malus_domestica_UK_2011","2011Ra8","transect","Bombus spp. unknown or unidentified","genus","bumblebees",2,NA,120,NA,"Pollinators were sampled in 6 pan trap/transects in 2 sampling rounds. In all surveys transects were 50m-long and each transect was walk over 10 mins.",NA
"Michael_Garratt_Malus_domestica_UK_2011","2011Ra8","transect","Bombus terrestris or lucorum","species","bumblebees",2,NA,120,NA,"Pollinators were sampled in 6 pan trap/transects in 2 sampling rounds. In all surveys transects were 50m-long and each transect was walk over 10 mins.",NA
"Michael_Garratt_Malus_domestica_UK_2011","2011Ra8","pan trap","Brachycera (inc cyclorrhapha in OSR)","order","other_flies",6,NA,NA,NA,"Pollinators were sampled in 6 pan trap/transects in 2 sampling rounds. In all surveys transects were 50m-long and each transect was walk over 10 mins.",NA
"Michael_Garratt_Malus_domestica_UK_2011","2011Ra8","transect","Chrysopidae spp.","family","other",2,NA,120,NA,"Pollinators were sampled in 6 pan trap/transects in 2 sampling rounds. In all surveys transects were 50m-long and each transect was walk over 10 mins.",NA
"Michael_Garratt_Malus_domestica_UK_2011","2011Ra8","pan trap","Click beetle","family","beetles",1,NA,NA,NA,"Pollinators were sampled in 6 pan trap/transects in 2 sampling rounds. In all surveys transects were 50m-long and each transect was walk over 10 mins.",NA
"Michael_Garratt_Malus_domestica_UK_2011","2011Ra8","transect","Cyclorrhapha","order","other_flies",3,NA,120,NA,"Pollinators were sampled in 6 pan trap/transects in 2 sampling rounds. In all surveys transects were 50m-long and each transect was walk over 10 mins.",NA
"Michael_Garratt_Malus_domestica_UK_2011","2011Ra8","pan trap","Cyclorrhapha","order","other_flies",66,NA,NA,NA,"Pollinators were sampled in 6 pan trap/transects in 2 sampling rounds. In all surveys transects were 50m-long and each transect was walk over 10 mins.",NA
"Michael_Garratt_Malus_domestica_UK_2011","2011Ra8","pan trap","Flesh flies","family","other_flies",16,NA,NA,NA,"Pollinators were sampled in 6 pan trap/transects in 2 sampling rounds. In all surveys transects were 50m-long and each transect was walk over 10 mins.",NA
"Michael_Garratt_Malus_domestica_UK_2011","2011Ra8","pan trap","Ground beetle","family","beetles",1,NA,NA,NA,"Pollinators were sampled in 6 pan trap/transects in 2 sampling rounds. In all surveys transects were 50m-long and each transect was walk over 10 mins.",NA
"Michael_Garratt_Malus_domestica_UK_2011","2011Ra8","pan trap","Halictus tumulorum","species","other_wild_bees",6,NA,NA,NA,"Pollinators were sampled in 6 pan trap/transects in 2 sampling rounds. In all surveys transects were 50m-long and each transect was walk over 10 mins.",NA
"Michael_Garratt_Malus_domestica_UK_2011","2011Ra8","pan trap","Ladybirds","family","beetles",2,NA,NA,NA,"Pollinators were sampled in 6 pan trap/transects in 2 sampling rounds. In all surveys transects were 50m-long and each transect was walk over 10 mins.",NA
"Michael_Garratt_Malus_domestica_UK_2011","2011Ra8","transect","Ladybirds","family","beetles",3,NA,120,NA,"Pollinators were sampled in 6 pan trap/transects in 2 sampling rounds. In all surveys transects were 50m-long and each transect was walk over 10 mins.",NA
"Michael_Garratt_Malus_domestica_UK_2011","2011Ra8","pan trap","Lasioglossum malachurum","species","other_wild_bees",3,NA,NA,NA,"Pollinators were sampled in 6 pan trap/transects in 2 sampling rounds. In all surveys transects were 50m-long and each transect was walk over 10 mins.",NA
"Michael_Garratt_Malus_domestica_UK_2011","2011Ra8","pan trap","Lasioglossum morio","species","other_wild_bees",4,NA,NA,NA,"Pollinators were sampled in 6 pan trap/transects in 2 sampling rounds. In all surveys transects were 50m-long and each transect was walk over 10 mins.",NA
"Michael_Garratt_Malus_domestica_UK_2011","2011Ra8","pan trap","Lasioglossum pauxillum","species","other_wild_bees",3,NA,NA,NA,"Pollinators were sampled in 6 pan trap/transects in 2 sampling rounds. In all surveys transects were 50m-long and each transect was walk over 10 mins.",NA
"Michael_Garratt_Malus_domestica_UK_2011","2011Ra8","transect","Lepidoptera","order","lepidoptera",1,NA,120,NA,"Pollinators were sampled in 6 pan trap/transects in 2 sampling rounds. In all surveys transects were 50m-long and each transect was walk over 10 mins.",NA
"Michael_Garratt_Malus_domestica_UK_2011","2011Ra8","pan trap","Nematocera","order","other_flies",8,NA,NA,NA,"Pollinators were sampled in 6 pan trap/transects in 2 sampling rounds. In all surveys transects were 50m-long and each transect was walk over 10 mins.",NA
"Michael_Garratt_Malus_domestica_UK_2011","2011Ra8","pan trap","Nomada fabriciana","species","other_wild_bees",1,NA,NA,NA,"Pollinators were sampled in 6 pan trap/transects in 2 sampling rounds. In all surveys transects were 50m-long and each transect was walk over 10 mins.",NA
"Michael_Garratt_Malus_domestica_UK_2011","2011Ra8","pan trap","Nomada goodeniana","species","other_wild_bees",1,NA,NA,NA,"Pollinators were sampled in 6 pan trap/transects in 2 sampling rounds. In all surveys transects were 50m-long and each transect was walk over 10 mins.",NA
"Michael_Garratt_Malus_domestica_UK_2011","2011Ra8","pan trap","Other Coleoptera (>3mm)","order","beetles",17,NA,NA,NA,"Pollinators were sampled in 6 pan trap/transects in 2 sampling rounds. In all surveys transects were 50m-long and each transect was walk over 10 mins.",NA
"Michael_Garratt_Malus_domestica_UK_2011","2011Ra8","pan trap","Other Diptera (>3mm)","order","other_flies",1,NA,NA,NA,"Pollinators were sampled in 6 pan trap/transects in 2 sampling rounds. In all surveys transects were 50m-long and each transect was walk over 10 mins.",NA
"Michael_Garratt_Malus_domestica_UK_2011","2011Ra8","pan trap","Other Hemiptera (>3mm)","order","other",2,NA,NA,NA,"Pollinators were sampled in 6 pan trap/transects in 2 sampling rounds. In all surveys transects were 50m-long and each transect was walk over 10 mins.",NA
"Michael_Garratt_Malus_domestica_UK_2011","2011Ra8","pan trap","Parasitoids","order","non_bee_hymenoptera",4,NA,NA,NA,"Pollinators were sampled in 6 pan trap/transects in 2 sampling rounds. In all surveys transects were 50m-long and each transect was walk over 10 mins.",NA
"Michael_Garratt_Malus_domestica_UK_2011","2011Ra8","transect","Solitary bee unknown or unidentified","superfamily","other_wild_bees",6,NA,120,NA,"Pollinators were sampled in 6 pan trap/transects in 2 sampling rounds. In all surveys transects were 50m-long and each transect was walk over 10 mins.",NA
"Michael_Garratt_Vicia_faba_UK_2011","2011Rb1","pan trap","Andrena bicolor","species","other_wild_bees",3,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Vicia_faba_UK_2011","2011Rb1","pan trap","Andrena cineraria","species","other_wild_bees",4,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Vicia_faba_UK_2011","2011Rb1","pan trap","Andrena flavipes","species","other_wild_bees",1,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Vicia_faba_UK_2011","2011Rb1","pan trap","Andrena haemorrhoa","species","other_wild_bees",3,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Vicia_faba_UK_2011","2011Rb1","pan trap","Andrena nigroaenea","species","other_wild_bees",6,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Vicia_faba_UK_2011","2011Rb1","transect","Apis mellifera","species","honeybees",17,1800,180,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Vicia_faba_UK_2011","2011Rb1","pan trap","Apis mellifera","species","honeybees",1,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Vicia_faba_UK_2011","2011Rb1","pan trap","Bombus hortorum","species","bumblebees",1,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Vicia_faba_UK_2011","2011Rb1","transect","Bombus hortorum","species","bumblebees",10,1800,180,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Vicia_faba_UK_2011","2011Rb1","transect","Bombus lapidarius","species","bumblebees",17,1800,180,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Vicia_faba_UK_2011","2011Rb1","pan trap","Bombus lapidarius","species","bumblebees",1,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Vicia_faba_UK_2011","2011Rb1","transect","Bombus pascuorum","species","bumblebees",1,1800,180,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Vicia_faba_UK_2011","2011Rb1","transect","Bombus pratorum","species","bumblebees",1,1800,180,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Vicia_faba_UK_2011","2011Rb1","pan trap","Bombus pratorum","species","bumblebees",1,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Vicia_faba_UK_2011","2011Rb1","transect","Bombus spp. unknown or unidentified","genus","bumblebees",5,1800,180,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Vicia_faba_UK_2011","2011Rb1","transect","Bombus terrestris or lucorum","species","bumblebees",28,1800,180,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Vicia_faba_UK_2011","2011Rb1","pan trap","Bombus terrestris","species","bumblebees",2,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Vicia_faba_UK_2011","2011Rb1","pan trap","Brachycera (inc cyclorrhapha in OSR)","order","other_flies",110,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Vicia_faba_UK_2011","2011Rb1","transect","Crane flies","family","other_flies",1,1800,180,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Vicia_faba_UK_2011","2011Rb1","pan trap","Cyclorrhapha","order","other_flies",952,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Vicia_faba_UK_2011","2011Rb1","transect","Cyclorrhapha","order","other_flies",1,1800,180,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Vicia_faba_UK_2011","2011Rb1","transect","Episyrphus balteatus","species","syrphids",1,1800,180,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Vicia_faba_UK_2011","2011Rb1","pan trap","Eupeodes latifasciatus","species","syrphids",1,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Vicia_faba_UK_2011","2011Rb1","pan trap","Flesh flies","family","other_flies",2,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Vicia_faba_UK_2011","2011Rb1","transect","Halictus rubicundus","species","other_wild_bees",1,1800,180,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Vicia_faba_UK_2011","2011Rb1","transect","Hoverfly unknown or unidentified","family","syrphids",2,1800,180,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Vicia_faba_UK_2011","2011Rb1","pan trap","Ladybirds","family","beetles",2,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Vicia_faba_UK_2011","2011Rb1","pan trap","Lasioglossum calceatum","species","other_wild_bees",3,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Vicia_faba_UK_2011","2011Rb1","pan trap","Lasioglossum malachurum","species","other_wild_bees",2,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Vicia_faba_UK_2011","2011Rb1","pan trap","Lasioglossum parvulum","species","other_wild_bees",4,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Vicia_faba_UK_2011","2011Rb1","pan trap","Lasioglossum villosulum","species","other_wild_bees",1,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Vicia_faba_UK_2011","2011Rb1","pan trap","Nematocera","order","other_flies",26,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Vicia_faba_UK_2011","2011Rb1","pan trap","Nomada ruficornis","species","other_wild_bees",1,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Vicia_faba_UK_2011","2011Rb1","pan trap","Osmia bicolor","species","other_wild_bees",1,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Vicia_faba_UK_2011","2011Rb1","pan trap","Other Coleoptera (>3mm)","order","beetles",24,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Vicia_faba_UK_2011","2011Rb1","pan trap","Other Diptera (>3mm)","order","other_flies",2,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Vicia_faba_UK_2011","2011Rb1","pan trap","Other Hemiptera (>3mm)","order","other",10,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Vicia_faba_UK_2011","2011Rb1","pan trap","Parasitoids","order","non_bee_hymenoptera",385,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Vicia_faba_UK_2011","2011Rb1","transect","Parasitoids","order","non_bee_hymenoptera",3,1800,180,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Vicia_faba_UK_2011","2011Rb1","pan trap","Platycheirus sp.","genus","syrphids",2,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Vicia_faba_UK_2011","2011Rb1","pan trap","Pollen beetle","species","beetles",906,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Vicia_faba_UK_2011","2011Rb1","pan trap","Rove beetle","family","beetles",4,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Vicia_faba_UK_2011","2011Rb1","transect","Saw flies","order","non_bee_hymenoptera",2,1800,180,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Vicia_faba_UK_2011","2011Rb1","pan trap","Saw flies","order","non_bee_hymenoptera",75,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Vicia_faba_UK_2011","2011Rb1","transect","Solitary bee unknown or unidentified","superfamily","other_wild_bees",2,1800,180,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Vicia_faba_UK_2011","2011Rb1","transect","Unknown cuckoo bee","superfamily","other_wild_bees",1,1800,180,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Vicia_faba_UK_2011","2011Rb1","pan trap","Weevil","superfamily","beetles",4,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Vicia_faba_UK_2011","2011Rb2","pan trap","Andrena bicolor","species","other_wild_bees",3,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Vicia_faba_UK_2011","2011Rb2","pan trap","Andrena carantonica","species","other_wild_bees",2,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Vicia_faba_UK_2011","2011Rb2","pan trap","Andrena chrysosceles","species","other_wild_bees",6,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Vicia_faba_UK_2011","2011Rb2","pan trap","Andrena cineraria","species","other_wild_bees",9,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Vicia_faba_UK_2011","2011Rb2","pan trap","Andrena dorsata","species","other_wild_bees",1,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Vicia_faba_UK_2011","2011Rb2","pan trap","Andrena flavipes","species","other_wild_bees",1,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Vicia_faba_UK_2011","2011Rb2","pan trap","Andrena haemorrhoa","species","other_wild_bees",9,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Vicia_faba_UK_2011","2011Rb2","pan trap","Andrena minutula","species","other_wild_bees",3,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Vicia_faba_UK_2011","2011Rb2","pan trap","Andrena nigroaenea","species","other_wild_bees",3,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Vicia_faba_UK_2011","2011Rb2","pan trap","Andrena nitida","species","other_wild_bees",5,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Vicia_faba_UK_2011","2011Rb2","transect","Andrena wilkella","species","other_wild_bees",1,1800,180,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Vicia_faba_UK_2011","2011Rb2","transect","Apis mellifera","species","honeybees",5,1800,180,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Vicia_faba_UK_2011","2011Rb2","transect","Bombus hortorum","species","bumblebees",19,1800,180,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Vicia_faba_UK_2011","2011Rb2","pan trap","Bombus hortorum","species","bumblebees",2,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Vicia_faba_UK_2011","2011Rb2","transect","Bombus hypnorum","species","bumblebees",2,1800,180,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Vicia_faba_UK_2011","2011Rb2","transect","Bombus lapidarius","species","bumblebees",17,1800,180,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Vicia_faba_UK_2011","2011Rb2","pan trap","Bombus lapidarius","species","bumblebees",3,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Vicia_faba_UK_2011","2011Rb2","pan trap","Bombus lucorum","species","bumblebees",1,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Vicia_faba_UK_2011","2011Rb2","transect","Bombus pascuorum","species","bumblebees",2,1800,180,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Vicia_faba_UK_2011","2011Rb2","transect","Bombus pratorum","species","bumblebees",2,1800,180,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Vicia_faba_UK_2011","2011Rb2","transect","Bombus rupestris","species","bumblebees",2,1800,180,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Vicia_faba_UK_2011","2011Rb2","transect","Bombus spp. unknown or unidentified","genus","bumblebees",5,1800,180,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Vicia_faba_UK_2011","2011Rb2","transect","Bombus terrestris or lucorum","species","bumblebees",15,1800,180,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Vicia_faba_UK_2011","2011Rb2","pan trap","Bombus terrestris","species","bumblebees",1,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Vicia_faba_UK_2011","2011Rb2","pan trap","Brachycera (inc cyclorrhapha in OSR)","order","other_flies",37,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Vicia_faba_UK_2011","2011Rb2","transect","Coleoptera unknown or unidentified","order","beetles",1,1800,180,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Vicia_faba_UK_2011","2011Rb2","pan trap","Crane flies","family","other_flies",1,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Vicia_faba_UK_2011","2011Rb2","transect","Crane flies","family","other_flies",1,1800,180,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Vicia_faba_UK_2011","2011Rb2","transect","Cyclorrhapha","order","other_flies",1,1800,180,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Vicia_faba_UK_2011","2011Rb2","pan trap","Cyclorrhapha","order","other_flies",1720,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Vicia_faba_UK_2011","2011Rb2","pan trap","Eristalis tenax","species","syrphids",1,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Vicia_faba_UK_2011","2011Rb2","pan trap","Flesh flies","family","other_flies",20,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Vicia_faba_UK_2011","2011Rb2","transect","Hoverfly unknown or unidentified","family","syrphids",1,1800,180,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Vicia_faba_UK_2011","2011Rb2","pan trap","Ladybirds","family","beetles",1,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Vicia_faba_UK_2011","2011Rb2","pan trap","Lasioglossum malachurum","species","other_wild_bees",1,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Vicia_faba_UK_2011","2011Rb2","pan trap","Lasioglossum minutissimum","species","other_wild_bees",1,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Vicia_faba_UK_2011","2011Rb2","pan trap","Lepidoptera","order","lepidoptera",8,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Vicia_faba_UK_2011","2011Rb2","pan trap","Nematocera","order","other_flies",286,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Vicia_faba_UK_2011","2011Rb2","pan trap","Other Coleoptera (>3mm)","order","beetles",128,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Vicia_faba_UK_2011","2011Rb2","pan trap","Other Hemiptera (>3mm)","order","other",40,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Vicia_faba_UK_2011","2011Rb2","pan trap","Parasitoids","order","non_bee_hymenoptera",389,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Vicia_faba_UK_2011","2011Rb2","pan trap","Pollen beetle","species","beetles",1199,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Vicia_faba_UK_2011","2011Rb2","pan trap","Rove beetle","family","beetles",9,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Vicia_faba_UK_2011","2011Rb2","pan trap","Saw flies","order","non_bee_hymenoptera",13,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Vicia_faba_UK_2011","2011Rb2","transect","Unknown cuckoo bee","superfamily","other_wild_bees",1,1800,180,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Vicia_faba_UK_2011","2011Rb2","pan trap","Weevil","superfamily","beetles",8,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Vicia_faba_UK_2011","2011Rb3","pan trap","Andrena bicolor","species","other_wild_bees",1,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Vicia_faba_UK_2011","2011Rb3","pan trap","Andrena chrysosceles","species","other_wild_bees",2,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Vicia_faba_UK_2011","2011Rb3","pan trap","Andrena cineraria","species","other_wild_bees",2,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Vicia_faba_UK_2011","2011Rb3","transect","Andrena haemorrhoa","species","other_wild_bees",1,1800,180,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Vicia_faba_UK_2011","2011Rb3","pan trap","Andrena minutula","species","other_wild_bees",3,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Vicia_faba_UK_2011","2011Rb3","pan trap","Andrena minutuloides","species","other_wild_bees",3,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Vicia_faba_UK_2011","2011Rb3","pan trap","Andrena nigroaenea","species","other_wild_bees",3,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Vicia_faba_UK_2011","2011Rb3","pan trap","Andrena nitida","species","other_wild_bees",5,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Vicia_faba_UK_2011","2011Rb3","transect","Andrena wilkella","species","other_wild_bees",1,1800,180,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Vicia_faba_UK_2011","2011Rb3","pan trap","Apis mellifera","species","honeybees",14,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Vicia_faba_UK_2011","2011Rb3","transect","Apis mellifera","species","honeybees",6,1800,180,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Vicia_faba_UK_2011","2011Rb3","transect","Bombus hortorum","species","bumblebees",3,1800,180,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Vicia_faba_UK_2011","2011Rb3","pan trap","Bombus hortorum","species","bumblebees",1,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Vicia_faba_UK_2011","2011Rb3","transect","Bombus hypnorum","species","bumblebees",1,1800,180,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Vicia_faba_UK_2011","2011Rb3","transect","Bombus lapidarius","species","bumblebees",8,1800,180,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Vicia_faba_UK_2011","2011Rb3","transect","Bombus pascuorum","species","bumblebees",1,1800,180,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Vicia_faba_UK_2011","2011Rb3","transect","Bombus spp. unknown or unidentified","genus","bumblebees",14,1800,180,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Vicia_faba_UK_2011","2011Rb3","transect","Bombus terrestris or lucorum","species","bumblebees",18,1800,180,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Vicia_faba_UK_2011","2011Rb3","pan trap","Bombus terrestris","species","bumblebees",1,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Vicia_faba_UK_2011","2011Rb3","pan trap","Brachycera (inc cyclorrhapha in OSR)","order","other_flies",2,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Vicia_faba_UK_2011","2011Rb3","pan trap","Crane flies","family","other_flies",1,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Vicia_faba_UK_2011","2011Rb3","pan trap","Cyclorrhapha","order","other_flies",120,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Vicia_faba_UK_2011","2011Rb3","pan trap","Eristalinus sepulchralis","species","syrphids",1,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Vicia_faba_UK_2011","2011Rb3","pan trap","Flesh flies","family","other_flies",13,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Vicia_faba_UK_2011","2011Rb3","pan trap","Lasioglossum albipes","species","other_wild_bees",1,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Vicia_faba_UK_2011","2011Rb3","pan trap","Lasioglossum calceatum","species","other_wild_bees",2,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Vicia_faba_UK_2011","2011Rb3","pan trap","Lasioglossum lativentre","species","other_wild_bees",1,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Vicia_faba_UK_2011","2011Rb3","pan trap","Lasioglossum leucopus","species","other_wild_bees",1,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Vicia_faba_UK_2011","2011Rb3","pan trap","Lasioglossum xanthopus","species","other_wild_bees",1,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Vicia_faba_UK_2011","2011Rb3","pan trap","Mirid Bug","family","other",2,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Vicia_faba_UK_2011","2011Rb3","pan trap","Nematocera","order","other_flies",144,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Vicia_faba_UK_2011","2011Rb3","pan trap","Other Coleoptera (>3mm)","order","beetles",9,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Vicia_faba_UK_2011","2011Rb3","pan trap","Other Hemiptera (>3mm)","order","other",13,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Vicia_faba_UK_2011","2011Rb3","pan trap","Parasitoids","order","non_bee_hymenoptera",301,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Vicia_faba_UK_2011","2011Rb3","pan trap","Pollen beetle","species","beetles",88,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Vicia_faba_UK_2011","2011Rb3","pan trap","Rove beetle","family","beetles",4,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Vicia_faba_UK_2011","2011Rb3","transect","Saw flies","order","non_bee_hymenoptera",1,1800,180,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Vicia_faba_UK_2011","2011Rb3","pan trap","Saw flies","order","non_bee_hymenoptera",9,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Vicia_faba_UK_2011","2011Rb3","transect","Solitary bee unknown or unidentified","superfamily","other_wild_bees",1,1800,180,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Vicia_faba_UK_2011","2011Rb3","pan trap","Sphecodes ephippius","species","other_wild_bees",1,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Vicia_faba_UK_2011","2011Rb4","pan trap","Andrena bicolor","species","other_wild_bees",8,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Vicia_faba_UK_2011","2011Rb4","transect","Andrena carantonica","species","other_wild_bees",1,1800,180,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Vicia_faba_UK_2011","2011Rb4","pan trap","Andrena chrysosceles","species","other_wild_bees",1,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Vicia_faba_UK_2011","2011Rb4","pan trap","Andrena cineraria","species","other_wild_bees",3,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Vicia_faba_UK_2011","2011Rb4","pan trap","Andrena haemorrhoa","species","other_wild_bees",1,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Vicia_faba_UK_2011","2011Rb4","pan trap","Andrena minutula","species","other_wild_bees",2,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Vicia_faba_UK_2011","2011Rb4","pan trap","Andrena minutuloides","species","other_wild_bees",3,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Vicia_faba_UK_2011","2011Rb4","pan trap","Andrena nigroaenea","species","other_wild_bees",1,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Vicia_faba_UK_2011","2011Rb4","pan trap","Andrena nitida","species","other_wild_bees",3,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Vicia_faba_UK_2011","2011Rb4","pan trap","Andrena semilaevis","species","other_wild_bees",1,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Vicia_faba_UK_2011","2011Rb4","pan trap","Andrena subopaca","species","other_wild_bees",1,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Vicia_faba_UK_2011","2011Rb4","transect","Apis mellifera","species","honeybees",12,1800,180,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Vicia_faba_UK_2011","2011Rb4","pan trap","Apis mellifera","species","honeybees",4,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Vicia_faba_UK_2011","2011Rb4","transect","Bombus hortorum","species","bumblebees",7,1800,180,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Vicia_faba_UK_2011","2011Rb4","transect","Bombus hypnorum","species","bumblebees",2,1800,180,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Vicia_faba_UK_2011","2011Rb4","pan trap","Bombus hypnorum","species","bumblebees",2,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Vicia_faba_UK_2011","2011Rb4","transect","Bombus lapidarius","species","bumblebees",12,1800,180,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Vicia_faba_UK_2011","2011Rb4","pan trap","Bombus lapidarius","species","bumblebees",2,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Vicia_faba_UK_2011","2011Rb4","transect","Bombus pascuorum","species","bumblebees",4,1800,180,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Vicia_faba_UK_2011","2011Rb4","pan trap","Bombus pratorum","species","bumblebees",1,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Vicia_faba_UK_2011","2011Rb4","transect","Bombus pratorum","species","bumblebees",1,1800,180,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Vicia_faba_UK_2011","2011Rb4","pan trap","Bombus rupestris","species","bumblebees",1,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Vicia_faba_UK_2011","2011Rb4","transect","Bombus spp. unknown or unidentified","genus","bumblebees",4,1800,180,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Vicia_faba_UK_2011","2011Rb4","transect","Bombus terrestris or lucorum","species","bumblebees",5,1800,180,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Vicia_faba_UK_2011","2011Rb4","transect","Bombus vestalis","species","bumblebees",1,1800,180,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Vicia_faba_UK_2011","2011Rb4","pan trap","Brachycera (inc cyclorrhapha in OSR)","order","other_flies",10,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Vicia_faba_UK_2011","2011Rb4","transect","Coleoptera unknown or unidentified","order","beetles",1,1800,180,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Vicia_faba_UK_2011","2011Rb4","pan trap","Crane flies","family","other_flies",1,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Vicia_faba_UK_2011","2011Rb4","pan trap","Cyclorrhapha","order","other_flies",116,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Vicia_faba_UK_2011","2011Rb4","transect","Diptera unknown or unidentified","order","other_flies",1,1800,180,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Vicia_faba_UK_2011","2011Rb4","pan trap","Eristalinus sepulchralis","species","syrphids",1,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Vicia_faba_UK_2011","2011Rb4","pan trap","Flesh flies","family","other_flies",22,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Vicia_faba_UK_2011","2011Rb4","transect","Hoverfly unknown or unidentified","family","syrphids",3,1800,180,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Vicia_faba_UK_2011","2011Rb4","pan trap","Lasioglossum calceatum","species","other_wild_bees",1,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Vicia_faba_UK_2011","2011Rb4","pan trap","Lasioglossum lativentre","species","other_wild_bees",9,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Vicia_faba_UK_2011","2011Rb4","pan trap","Lasioglossum leucopus","species","other_wild_bees",2,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Vicia_faba_UK_2011","2011Rb4","pan trap","Lasioglossum leucozonium","species","other_wild_bees",1,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Vicia_faba_UK_2011","2011Rb4","pan trap","Lasioglossum malachurum","species","other_wild_bees",1,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Vicia_faba_UK_2011","2011Rb4","pan trap","Lasioglossum minutissimum","species","other_wild_bees",1,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Vicia_faba_UK_2011","2011Rb4","pan trap","Lasioglossum villosulum","species","other_wild_bees",4,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Vicia_faba_UK_2011","2011Rb4","pan trap","Nematocera","order","other_flies",77,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Vicia_faba_UK_2011","2011Rb4","pan trap","Nomada flavoguttata","species","other_wild_bees",1,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Vicia_faba_UK_2011","2011Rb4","pan trap","Other Coleoptera (>3mm)","order","beetles",7,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Vicia_faba_UK_2011","2011Rb4","pan trap","Other Hemiptera (>3mm)","order","other",10,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Vicia_faba_UK_2011","2011Rb4","transect","Parasitoids","order","non_bee_hymenoptera",1,1800,180,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Vicia_faba_UK_2011","2011Rb4","pan trap","Parasitoids","order","non_bee_hymenoptera",303,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Vicia_faba_UK_2011","2011Rb4","pan trap","Parhelophilus frutetorum","species","syrphids",1,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Vicia_faba_UK_2011","2011Rb4","pan trap","Pollen beetle","species","beetles",109,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Vicia_faba_UK_2011","2011Rb4","pan trap","Rove beetle","family","beetles",2,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Vicia_faba_UK_2011","2011Rb4","pan trap","Saw flies","order","non_bee_hymenoptera",21,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Vicia_faba_UK_2011","2011Rb4","pan trap","Weevil","superfamily","beetles",5,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Vicia_faba_UK_2011","2011Rb4","transect","Weevil","superfamily","beetles",2,1800,180,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Vicia_faba_UK_2011","2011Rb5","pan trap","Andrena bicolor","species","other_wild_bees",2,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Vicia_faba_UK_2011","2011Rb5","pan trap","Andrena haemorrhoa","species","other_wild_bees",1,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Vicia_faba_UK_2011","2011Rb5","pan trap","Andrena minutula","species","other_wild_bees",1,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Vicia_faba_UK_2011","2011Rb5","pan trap","Andrena nigroaenea","species","other_wild_bees",2,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Vicia_faba_UK_2011","2011Rb5","transect","Apis mellifera","species","honeybees",14,1800,180,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Vicia_faba_UK_2011","2011Rb5","pan trap","Apis mellifera","species","honeybees",2,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Vicia_faba_UK_2011","2011Rb5","pan trap","Bombus hortorum","species","bumblebees",1,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Vicia_faba_UK_2011","2011Rb5","transect","Bombus hortorum","species","bumblebees",23,1800,180,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Vicia_faba_UK_2011","2011Rb5","transect","Bombus lapidarius","species","bumblebees",5,1800,180,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Vicia_faba_UK_2011","2011Rb5","pan trap","Bombus lapidarius","species","bumblebees",1,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Vicia_faba_UK_2011","2011Rb5","transect","Bombus pascuorum","species","bumblebees",1,1800,180,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Vicia_faba_UK_2011","2011Rb5","pan trap","Bombus pascuorum","species","bumblebees",1,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Vicia_faba_UK_2011","2011Rb5","transect","Bombus pratorum","species","bumblebees",1,1800,180,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Vicia_faba_UK_2011","2011Rb5","transect","Bombus spp. unknown or unidentified","genus","bumblebees",9,1800,180,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Vicia_faba_UK_2011","2011Rb5","transect","Bombus sylvestris","species","bumblebees",1,1800,180,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Vicia_faba_UK_2011","2011Rb5","pan trap","Bombus sylvestris","species","bumblebees",1,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Vicia_faba_UK_2011","2011Rb5","transect","Bombus terrestris or lucorum","species","bumblebees",17,1800,180,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Vicia_faba_UK_2011","2011Rb5","pan trap","Bombus vestalis","species","bumblebees",1,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Vicia_faba_UK_2011","2011Rb5","pan trap","Brachycera (inc cyclorrhapha in OSR)","order","other_flies",70,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Vicia_faba_UK_2011","2011Rb5","pan trap","Cyclorrhapha","order","other_flies",209,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Vicia_faba_UK_2011","2011Rb5","transect","Diptera unknown or unidentified","order","other_flies",2,1800,180,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Vicia_faba_UK_2011","2011Rb5","pan trap","Eristalis tenax","species","syrphids",3,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Vicia_faba_UK_2011","2011Rb5","pan trap","Eupeodes luniger","species","syrphids",1,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Vicia_faba_UK_2011","2011Rb5","transect","Hoverfly unknown or unidentified","family","syrphids",1,1800,180,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Vicia_faba_UK_2011","2011Rb5","pan trap","Ladybirds","family","beetles",1,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Vicia_faba_UK_2011","2011Rb5","pan trap","Lasioglossum calceatum","species","other_wild_bees",7,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Vicia_faba_UK_2011","2011Rb5","pan trap","Lasioglossum lativentre","species","other_wild_bees",1,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Vicia_faba_UK_2011","2011Rb5","pan trap","Lasioglossum leucopus","species","other_wild_bees",1,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Vicia_faba_UK_2011","2011Rb5","pan trap","Lasioglossum leucozonium","species","other_wild_bees",2,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Vicia_faba_UK_2011","2011Rb5","pan trap","Lasioglossum malachurum","species","other_wild_bees",1,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Vicia_faba_UK_2011","2011Rb5","pan trap","Lasioglossum villosulum","species","other_wild_bees",2,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Vicia_faba_UK_2011","2011Rb5","pan trap","Lasioglossum xanthopus","species","other_wild_bees",3,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Vicia_faba_UK_2011","2011Rb5","pan trap","Nematocera","order","other_flies",39,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Vicia_faba_UK_2011","2011Rb5","pan trap","Other Coleoptera (>3mm)","order","beetles",12,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Vicia_faba_UK_2011","2011Rb5","pan trap","Other Diptera (>3mm)","order","other_flies",2,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Vicia_faba_UK_2011","2011Rb5","pan trap","Other Hemiptera (>3mm)","order","other",21,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Vicia_faba_UK_2011","2011Rb5","pan trap","Parasitoids","order","non_bee_hymenoptera",260,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Vicia_faba_UK_2011","2011Rb5","pan trap","Pollen beetle","species","beetles",46,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Vicia_faba_UK_2011","2011Rb5","pan trap","Rove beetle","family","beetles",2,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Vicia_faba_UK_2011","2011Rb5","pan trap","Saw flies","order","non_bee_hymenoptera",21,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Vicia_faba_UK_2011","2011Rb5","pan trap","Weevil","superfamily","beetles",2,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Vicia_faba_UK_2011","2011Rb6","pan trap","Andrena bicolor","species","other_wild_bees",7,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Vicia_faba_UK_2011","2011Rb6","pan trap","Andrena carantonica","species","other_wild_bees",2,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Vicia_faba_UK_2011","2011Rb6","pan trap","Andrena cineraria","species","other_wild_bees",6,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Vicia_faba_UK_2011","2011Rb6","pan trap","Andrena flavipes","species","other_wild_bees",1,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Vicia_faba_UK_2011","2011Rb6","pan trap","Andrena nigroaenea","species","other_wild_bees",7,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Vicia_faba_UK_2011","2011Rb6","pan trap","Andrena nitida","species","other_wild_bees",2,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Vicia_faba_UK_2011","2011Rb6","pan trap","Apis mellifera","species","honeybees",4,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Vicia_faba_UK_2011","2011Rb6","transect","Apis mellifera","species","honeybees",11,1800,180,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Vicia_faba_UK_2011","2011Rb6","pan trap","Bombus barbutellus","species","bumblebees",1,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Vicia_faba_UK_2011","2011Rb6","pan trap","Bombus campestris","species","bumblebees",1,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Vicia_faba_UK_2011","2011Rb6","transect","Bombus hortorum","species","bumblebees",2,1800,180,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Vicia_faba_UK_2011","2011Rb6","pan trap","Bombus hortorum","species","bumblebees",16,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Vicia_faba_UK_2011","2011Rb6","pan trap","Bombus lapidarius","species","bumblebees",11,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Vicia_faba_UK_2011","2011Rb6","transect","Bombus lapidarius","species","bumblebees",16,1800,180,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Vicia_faba_UK_2011","2011Rb6","transect","Bombus pascuorum","species","bumblebees",3,1800,180,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Vicia_faba_UK_2011","2011Rb6","pan trap","Bombus pratorum","species","bumblebees",1,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Vicia_faba_UK_2011","2011Rb6","transect","Bombus pratorum","species","bumblebees",1,1800,180,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Vicia_faba_UK_2011","2011Rb6","pan trap","Bombus ruderarius","species","bumblebees",1,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Vicia_faba_UK_2011","2011Rb6","pan trap","Bombus rupestris","species","bumblebees",2,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Vicia_faba_UK_2011","2011Rb6","transect","Bombus spp. unknown or unidentified","genus","bumblebees",7,1800,180,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Vicia_faba_UK_2011","2011Rb6","pan trap","Bombus sylvestris","species","bumblebees",1,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Vicia_faba_UK_2011","2011Rb6","transect","Bombus terrestris or lucorum","species","bumblebees",43,1800,180,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Vicia_faba_UK_2011","2011Rb6","pan trap","Bombus terrestris","species","bumblebees",10,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Vicia_faba_UK_2011","2011Rb6","pan trap","Bombus vestalis","species","bumblebees",3,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Vicia_faba_UK_2011","2011Rb6","pan trap","Brachycera (inc cyclorrhapha in OSR)","order","other_flies",5,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Vicia_faba_UK_2011","2011Rb6","pan trap","Cyclorrhapha","order","other_flies",548,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Vicia_faba_UK_2011","2011Rb6","transect","Diptera unknown or unidentified","order","other_flies",2,1800,180,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Vicia_faba_UK_2011","2011Rb6","pan trap","Eristalis tenax","species","syrphids",2,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Vicia_faba_UK_2011","2011Rb6","pan trap","Flesh flies","family","other_flies",33,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Vicia_faba_UK_2011","2011Rb6","transect","Flesh flies","family","other_flies",1,1800,180,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Vicia_faba_UK_2011","2011Rb6","pan trap","Ground beetle","family","beetles",3,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Vicia_faba_UK_2011","2011Rb6","pan trap","Lasioglossum calceatum","species","other_wild_bees",4,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Vicia_faba_UK_2011","2011Rb6","pan trap","Lasioglossum lativentre","species","other_wild_bees",16,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Vicia_faba_UK_2011","2011Rb6","pan trap","Lasioglossum leucopus","species","other_wild_bees",10,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Vicia_faba_UK_2011","2011Rb6","pan trap","Lasioglossum xanthopus","species","other_wild_bees",2,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Vicia_faba_UK_2011","2011Rb6","pan trap","Nematocera","order","other_flies",24,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Vicia_faba_UK_2011","2011Rb6","pan trap","Other Coleoptera (>3mm)","order","beetles",11,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Vicia_faba_UK_2011","2011Rb6","pan trap","Other Hemiptera (>3mm)","order","other",17,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Vicia_faba_UK_2011","2011Rb6","pan trap","Parasitoids","order","non_bee_hymenoptera",417,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Vicia_faba_UK_2011","2011Rb6","pan trap","Platycheirus sp.","genus","syrphids",1,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Vicia_faba_UK_2011","2011Rb6","pan trap","Platycheirus tarsalis","species","syrphids",1,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Vicia_faba_UK_2011","2011Rb6","pan trap","Pollen beetle","species","beetles",210,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Vicia_faba_UK_2011","2011Rb6","pan trap","Rove beetle","family","beetles",2,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Vicia_faba_UK_2011","2011Rb6","pan trap","Saw flies","order","non_bee_hymenoptera",23,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Vicia_faba_UK_2011","2011Rb6","transect","Saw flies","order","non_bee_hymenoptera",1,1800,180,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Vicia_faba_UK_2011","2011Rb6","transect","Solitary bee unknown or unidentified","superfamily","other_wild_bees",1,1800,180,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Vicia_faba_UK_2011","2011Rb6","pan trap","Weevil","superfamily","beetles",6,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Vicia_faba_UK_2011","2011Rb7","pan trap","Andrena bicolor","species","other_wild_bees",1,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Vicia_faba_UK_2011","2011Rb7","pan trap","Andrena bucephala","species","other_wild_bees",1,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Vicia_faba_UK_2011","2011Rb7","pan trap","Andrena carantonica","species","other_wild_bees",1,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Vicia_faba_UK_2011","2011Rb7","pan trap","Andrena dorsata","species","other_wild_bees",3,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Vicia_faba_UK_2011","2011Rb7","transect","Andrena haemorrhoa","species","other_wild_bees",1,1800,180,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Vicia_faba_UK_2011","2011Rb7","pan trap","Andrena minutuloides","species","other_wild_bees",1,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Vicia_faba_UK_2011","2011Rb7","pan trap","Andrena nigroaenea","species","other_wild_bees",1,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Vicia_faba_UK_2011","2011Rb7","transect","Andrena wilkella","species","other_wild_bees",1,1800,180,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Vicia_faba_UK_2011","2011Rb7","transect","Apis mellifera","species","honeybees",1,1800,180,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Vicia_faba_UK_2011","2011Rb7","pan trap","Apis mellifera","species","honeybees",2,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Vicia_faba_UK_2011","2011Rb7","transect","Bombus hortorum","species","bumblebees",2,1800,180,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Vicia_faba_UK_2011","2011Rb7","pan trap","Bombus hortorum","species","bumblebees",7,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Vicia_faba_UK_2011","2011Rb7","pan trap","Bombus lapidarius","species","bumblebees",4,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Vicia_faba_UK_2011","2011Rb7","transect","Bombus lapidarius","species","bumblebees",15,1800,180,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Vicia_faba_UK_2011","2011Rb7","pan trap","Bombus lucorum","species","bumblebees",2,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Vicia_faba_UK_2011","2011Rb7","transect","Bombus pascuorum","species","bumblebees",2,1800,180,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Vicia_faba_UK_2011","2011Rb7","pan trap","Bombus pascuorum","species","bumblebees",2,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Vicia_faba_UK_2011","2011Rb7","transect","Bombus pratorum","species","bumblebees",1,1800,180,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Vicia_faba_UK_2011","2011Rb7","transect","Bombus rupestris","species","bumblebees",1,1800,180,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Vicia_faba_UK_2011","2011Rb7","transect","Bombus spp. unknown or unidentified","genus","bumblebees",11,1800,180,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Vicia_faba_UK_2011","2011Rb7","transect","Bombus terrestris or lucorum","species","bumblebees",28,1800,180,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Vicia_faba_UK_2011","2011Rb7","pan trap","Bombus terrestris","species","bumblebees",3,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Vicia_faba_UK_2011","2011Rb7","pan trap","Brachycera (inc cyclorrhapha in OSR)","order","other_flies",19,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Vicia_faba_UK_2011","2011Rb7","pan trap","Crane flies","family","other_flies",1,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Vicia_faba_UK_2011","2011Rb7","pan trap","Cyclorrhapha","order","other_flies",756,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Vicia_faba_UK_2011","2011Rb7","pan trap","Episyrphus balteatus","species","syrphids",1,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Vicia_faba_UK_2011","2011Rb7","pan trap","Flesh flies","family","other_flies",2,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Vicia_faba_UK_2011","2011Rb7","pan trap","Ground beetle","family","beetles",4,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Vicia_faba_UK_2011","2011Rb7","pan trap","Lasioglossum calceatum","species","other_wild_bees",2,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Vicia_faba_UK_2011","2011Rb7","pan trap","Lasioglossum lativentre","species","other_wild_bees",5,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Vicia_faba_UK_2011","2011Rb7","pan trap","Lasioglossum leucopus","species","other_wild_bees",1,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Vicia_faba_UK_2011","2011Rb7","pan trap","Lasioglossum parvulum","species","other_wild_bees",7,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Vicia_faba_UK_2011","2011Rb7","pan trap","Lepidoptera","order","lepidoptera",2,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Vicia_faba_UK_2011","2011Rb7","pan trap","Merodon equestris","species","syrphids",1,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Vicia_faba_UK_2011","2011Rb7","pan trap","Mirid Bug","family","other",1,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Vicia_faba_UK_2011","2011Rb7","pan trap","Nematocera","order","other_flies",38,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Vicia_faba_UK_2011","2011Rb7","pan trap","Nomada striata","species","other_wild_bees",1,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Vicia_faba_UK_2011","2011Rb7","pan trap","Other Coleoptera (>3mm)","order","beetles",35,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Vicia_faba_UK_2011","2011Rb7","pan trap","Other Hemiptera (>3mm)","order","other",14,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Vicia_faba_UK_2011","2011Rb7","pan trap","Parasitoids","order","non_bee_hymenoptera",120,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Vicia_faba_UK_2011","2011Rb7","pan trap","Pollen beetle","species","beetles",421,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Vicia_faba_UK_2011","2011Rb7","pan trap","Rhingia campestris","species","syrphids",1,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Vicia_faba_UK_2011","2011Rb7","pan trap","Rove beetle","family","beetles",8,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Vicia_faba_UK_2011","2011Rb7","pan trap","Saw flies","order","non_bee_hymenoptera",29,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Vicia_faba_UK_2011","2011Rb7","transect","Solitary bee unknown or unidentified","superfamily","other_wild_bees",3,1800,180,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Vicia_faba_UK_2011","2011Rb7","pan trap","Weevil","superfamily","beetles",7,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Vicia_faba_UK_2011","2011Rb8","pan trap","Andrena bicolor","species","other_wild_bees",6,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Vicia_faba_UK_2011","2011Rb8","pan trap","Andrena bucephala","species","other_wild_bees",1,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Vicia_faba_UK_2011","2011Rb8","pan trap","Andrena cineraria","species","other_wild_bees",2,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Vicia_faba_UK_2011","2011Rb8","pan trap","Andrena minutula","species","other_wild_bees",1,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Vicia_faba_UK_2011","2011Rb8","pan trap","Andrena minutuloides","species","other_wild_bees",3,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Vicia_faba_UK_2011","2011Rb8","pan trap","Andrena nigroaenea","species","other_wild_bees",1,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Vicia_faba_UK_2011","2011Rb8","pan trap","Andrena nitida","species","other_wild_bees",1,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Vicia_faba_UK_2011","2011Rb8","pan trap","Andrena subopaca","species","other_wild_bees",1,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Vicia_faba_UK_2011","2011Rb8","pan trap","Apis mellifera","species","honeybees",1,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Vicia_faba_UK_2011","2011Rb8","transect","Apis mellifera","species","honeybees",4,1800,180,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Vicia_faba_UK_2011","2011Rb8","pan trap","Bombus hortorum","species","bumblebees",6,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Vicia_faba_UK_2011","2011Rb8","transect","Bombus hortorum","species","bumblebees",12,1800,180,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Vicia_faba_UK_2011","2011Rb8","pan trap","Bombus lapidarius","species","bumblebees",6,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Vicia_faba_UK_2011","2011Rb8","transect","Bombus lapidarius","species","bumblebees",7,1800,180,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Vicia_faba_UK_2011","2011Rb8","pan trap","Bombus lucorum","species","bumblebees",4,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Vicia_faba_UK_2011","2011Rb8","transect","Bombus rupestris","species","bumblebees",2,1800,180,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Vicia_faba_UK_2011","2011Rb8","pan trap","Bombus rupestris","species","bumblebees",1,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Vicia_faba_UK_2011","2011Rb8","transect","Bombus spp. unknown or unidentified","genus","bumblebees",8,1800,180,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Vicia_faba_UK_2011","2011Rb8","pan trap","Bombus sylvestris","species","bumblebees",1,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Vicia_faba_UK_2011","2011Rb8","transect","Bombus terrestris or lucorum","species","bumblebees",96,1800,180,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Vicia_faba_UK_2011","2011Rb8","pan trap","Bombus terrestris","species","bumblebees",24,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Vicia_faba_UK_2011","2011Rb8","pan trap","Brachycera (inc cyclorrhapha in OSR)","order","other_flies",232,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Vicia_faba_UK_2011","2011Rb8","pan trap","Crane flies","family","other_flies",1,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Vicia_faba_UK_2011","2011Rb8","pan trap","Cyclorrhapha","order","other_flies",98,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Vicia_faba_UK_2011","2011Rb8","pan trap","Flesh flies","family","other_flies",10,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Vicia_faba_UK_2011","2011Rb8","pan trap","Ground beetle","family","beetles",1,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Vicia_faba_UK_2011","2011Rb8","transect","Hoverfly unknown or unidentified","family","syrphids",2,1800,180,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Vicia_faba_UK_2011","2011Rb8","pan trap","Lasioglossum lativentre","species","other_wild_bees",2,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Vicia_faba_UK_2011","2011Rb8","pan trap","Lasioglossum leucopus","species","other_wild_bees",2,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Vicia_faba_UK_2011","2011Rb8","pan trap","Lasioglossum parvulum","species","other_wild_bees",1,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Vicia_faba_UK_2011","2011Rb8","pan trap","Lasioglossum villosulum","species","other_wild_bees",2,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Vicia_faba_UK_2011","2011Rb8","pan trap","Merodon equestris","species","syrphids",1,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Vicia_faba_UK_2011","2011Rb8","pan trap","Nematocera","order","other_flies",24,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Vicia_faba_UK_2011","2011Rb8","transect","Odonata spp.","order","other",1,1800,180,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Vicia_faba_UK_2011","2011Rb8","pan trap","Other Coleoptera (>3mm)","order","beetles",8,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Vicia_faba_UK_2011","2011Rb8","pan trap","Other Hemiptera (>3mm)","order","other",5,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Vicia_faba_UK_2011","2011Rb8","pan trap","Parasitoids","order","non_bee_hymenoptera",178,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Vicia_faba_UK_2011","2011Rb8","pan trap","Pollen beetle","species","beetles",78,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Vicia_faba_UK_2011","2011Rb8","pan trap","Rove beetle","family","beetles",8,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Vicia_faba_UK_2011","2011Rb8","pan trap","Saw flies","order","non_bee_hymenoptera",10,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Vicia_faba_UK_2011","2011Rb8","transect","Solitary bee unknown or unidentified","superfamily","other_wild_bees",1,1800,180,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Michael_Garratt_Vicia_faba_UK_2011","2011Rb8","pan trap","Weevil","superfamily","beetles",7,NA,NA,NA,"Measures per site: fruit set & size, seed set & size measured once on 10 plants in exclosures (1 open 1 closed, 10 treatment reps per site); pollinators sampled in 6 pan trap/transects in 3 sampling rounds; visitation rates in 6 2m2 quadrats in 3 sampling rounds. In all surveys transects were 50m-l x 2m-w (100 m2) and each transect was walk over 10 mins.",NA
"Natacha_Chacoff_Citrus_limon_Argentina_2015","B1CAS 1","35 census of 15 minutes observation to a flowering branch","Abeja abdomen naranja","morphospecies","other_wild_bees",1,NA,525,NA,NA,NA
"Natacha_Chacoff_Citrus_limon_Argentina_2015","B1CAS 1","35 census of 15 minutes observation to a flowering branch","Abeja brillante sin pelos rayas en abdomen","morphospecies","other_wild_bees",1,NA,525,NA,NA,NA
"Natacha_Chacoff_Citrus_limon_Argentina_2015","B1CAS 1","35 census of 15 minutes observation to a flowering branch","Abeja negra","morphospecies","other_wild_bees",1,NA,525,NA,NA,NA
"Natacha_Chacoff_Citrus_limon_Argentina_2015","B1CAS 1","35 census of 15 minutes observation to a flowering branch","Aphididae","morphospecies","other",1,NA,525,NA,NA,NA
"Natacha_Chacoff_Citrus_limon_Argentina_2015","B1CAS 1","35 census of 15 minutes observation to a flowering branch","Apis melifera","species","honeybees",141,NA,525,NA,NA,NA
"Natacha_Chacoff_Citrus_limon_Argentina_2015","B1CAS 1","35 census of 15 minutes observation to a flowering branch","Avispa negra copada","morphospecies","non_bee_hymenoptera",1,NA,525,NA,NA,NA
"Natacha_Chacoff_Citrus_limon_Argentina_2015","B1CAS 1","35 census of 15 minutes observation to a flowering branch","Avispa pequena","morphospecies","non_bee_hymenoptera",1,NA,525,NA,NA,NA
"Natacha_Chacoff_Citrus_limon_Argentina_2015","B1CAS 1","35 census of 15 minutes observation to a flowering branch","Bombus atratus","species","bumblebees",16,NA,525,NA,NA,NA
"Natacha_Chacoff_Citrus_limon_Argentina_2015","B1CAS 1","35 census of 15 minutes observation to a flowering branch","Bombus negro","morphospecies","bumblebees",3,NA,525,NA,NA,NA
"Natacha_Chacoff_Citrus_limon_Argentina_2015","B1CAS 1","35 census of 15 minutes observation to a flowering branch","Diptero 1","morphospecies","other_flies",1,NA,525,NA,NA,NA
"Natacha_Chacoff_Citrus_limon_Argentina_2015","B1CAS 1","35 census of 15 minutes observation to a flowering branch","Halictidae 1","morphospecies","other_wild_bees",1,NA,525,NA,NA,NA
"Natacha_Chacoff_Citrus_limon_Argentina_2015","B1CAS 1","35 census of 15 minutes observation to a flowering branch","Halictidae 2","morphospecies","other_wild_bees",1,NA,525,NA,NA,NA
"Natacha_Chacoff_Citrus_limon_Argentina_2015","B1CAS 1","35 census of 15 minutes observation to a flowering branch","Halictidae 3","morphospecies","other_wild_bees",1,NA,525,NA,NA,NA
"Natacha_Chacoff_Citrus_limon_Argentina_2015","B1CAS 1","35 census of 15 minutes observation to a flowering branch","Ligaidae","morphospecies","other",3,NA,525,NA,NA,NA
"Natacha_Chacoff_Citrus_limon_Argentina_2015","B1CAS 1","35 census of 15 minutes observation to a flowering branch","Mariposa alas transparentes","morphospecies","lepidoptera",1,NA,525,NA,NA,NA
"Natacha_Chacoff_Citrus_limon_Argentina_2015","B1CAS 1","35 census of 15 minutes observation to a flowering branch","Mariposa monarca","morphospecies","lepidoptera",1,NA,525,NA,NA,NA
"Natacha_Chacoff_Citrus_limon_Argentina_2015","B1CAS 1","35 census of 15 minutes observation to a flowering branch","Mosca brillante","morphospecies","other_flies",2,NA,525,NA,NA,NA
"Natacha_Chacoff_Citrus_limon_Argentina_2015","B1CAS 1","35 census of 15 minutes observation to a flowering branch","Mosca domestica","morphospecies","other_flies",2,NA,525,NA,NA,NA
"Natacha_Chacoff_Citrus_limon_Argentina_2015","B1CAS 1","35 census of 15 minutes observation to a flowering branch","Mosca gris lomo rayado","morphospecies","other_flies",1,NA,525,NA,NA,NA
"Natacha_Chacoff_Citrus_limon_Argentina_2015","B1CAS 1","35 census of 15 minutes observation to a flowering branch","Papilio thoas","species","lepidoptera",1,NA,525,NA,NA,NA
"Natacha_Chacoff_Citrus_limon_Argentina_2015","B1CAS 1","35 census of 15 minutes observation to a flowering branch","Plebeia sp","morphospecies","other_wild_bees",24,NA,525,NA,NA,NA
"Natacha_Chacoff_Citrus_limon_Argentina_2015","B1CAS 1","35 census of 15 minutes observation to a flowering branch","Syrphido","morphospecies","syrphids",2,NA,525,NA,NA,NA
"Natacha_Chacoff_Citrus_limon_Argentina_2015","B1CAS 1","35 census of 15 minutes observation to a flowering branch","Xylocopa eximia","species","other_wild_bees",3,NA,525,NA,NA,NA
"Natacha_Chacoff_Citrus_limon_Argentina_2015","B2CAS 2","42 census of 15 minutes observation to a flowering branch","Apis melifera","species","honeybees",275,NA,630,NA,NA,NA
"Natacha_Chacoff_Citrus_limon_Argentina_2015","B2CAS 2","42 census of 15 minutes observation to a flowering branch","Avispa marron","morphospecies","non_bee_hymenoptera",1,NA,630,NA,NA,NA
"Natacha_Chacoff_Citrus_limon_Argentina_2015","B2CAS 2","42 census of 15 minutes observation to a flowering branch","Bombus atratus","species","bumblebees",5,NA,630,NA,NA,NA
"Natacha_Chacoff_Citrus_limon_Argentina_2015","B2CAS 2","42 census of 15 minutes observation to a flowering branch","Bombus negro","morphospecies","bumblebees",11,NA,630,NA,NA,NA
"Natacha_Chacoff_Citrus_limon_Argentina_2015","B2CAS 2","42 census of 15 minutes observation to a flowering branch","Coleoptera 1","order","beetles",1,NA,630,NA,NA,NA
"Natacha_Chacoff_Citrus_limon_Argentina_2015","B2CAS 2","42 census of 15 minutes observation to a flowering branch","Diptero 1","morphospecies","other_flies",1,NA,630,NA,NA,NA
"Natacha_Chacoff_Citrus_limon_Argentina_2015","B2CAS 2","42 census of 15 minutes observation to a flowering branch","Diptero 2","morphospecies","other_flies",1,NA,630,NA,NA,NA
"Natacha_Chacoff_Citrus_limon_Argentina_2015","B2CAS 2","42 census of 15 minutes observation to a flowering branch","Diptero 3","morphospecies","other_flies",1,NA,630,NA,NA,NA
"Natacha_Chacoff_Citrus_limon_Argentina_2015","B2CAS 2","42 census of 15 minutes observation to a flowering branch","Diptero 5","morphospecies","other_flies",1,NA,630,NA,NA,NA
"Natacha_Chacoff_Citrus_limon_Argentina_2015","B2CAS 2","42 census of 15 minutes observation to a flowering branch","Halictidae 1","morphospecies","other_wild_bees",1,NA,630,NA,NA,NA
"Natacha_Chacoff_Citrus_limon_Argentina_2015","B2CAS 2","42 census of 15 minutes observation to a flowering branch","Ligaidae","morphospecies","other",1,NA,630,NA,NA,NA
"Natacha_Chacoff_Citrus_limon_Argentina_2015","B2CAS 2","42 census of 15 minutes observation to a flowering branch","Mariposa alas transparentes","morphospecies","lepidoptera",1,NA,630,NA,NA,NA
"Natacha_Chacoff_Citrus_limon_Argentina_2015","B2CAS 2","42 census of 15 minutes observation to a flowering branch","Mariposa marron grande","morphospecies","lepidoptera",2,NA,630,NA,NA,NA
"Natacha_Chacoff_Citrus_limon_Argentina_2015","B2CAS 2","42 census of 15 minutes observation to a flowering branch","Mosca brillante","morphospecies","other_flies",3,NA,630,NA,NA,NA
"Natacha_Chacoff_Citrus_limon_Argentina_2015","B2CAS 2","42 census of 15 minutes observation to a flowering branch","Mosca domestica","morphospecies","other_flies",1,NA,630,NA,NA,NA
"Natacha_Chacoff_Citrus_limon_Argentina_2015","B2CAS 2","42 census of 15 minutes observation to a flowering branch","Papilio thoas","species","lepidoptera",1,NA,630,NA,NA,NA
"Natacha_Chacoff_Citrus_limon_Argentina_2015","B2CAS 2","42 census of 15 minutes observation to a flowering branch","Pirpinto amarillo","morphospecies","lepidoptera",1,NA,630,NA,NA,NA
"Natacha_Chacoff_Citrus_limon_Argentina_2015","B2CAS 2","42 census of 15 minutes observation to a flowering branch","Plebeia sp","morphospecies","other_wild_bees",11,NA,630,NA,NA,NA
"Natacha_Chacoff_Citrus_limon_Argentina_2015","B2CAS 2","42 census of 15 minutes observation to a flowering branch","Syrphido","morphospecies","syrphids",1,NA,630,NA,NA,NA
"Natacha_Chacoff_Citrus_limon_Argentina_2015","B2CAS 2","42 census of 15 minutes observation to a flowering branch","Xylocopa eximia","species","other_wild_bees",3,NA,630,NA,NA,NA
"Natacha_Chacoff_Citrus_limon_Argentina_2015","B3CAS 7","29 census of 15 minutes observation to a flowering branch","Apis melifera","species","honeybees",36,NA,435,NA,NA,NA
"Natacha_Chacoff_Citrus_limon_Argentina_2015","B3CAS 7","29 census of 15 minutes observation to a flowering branch","Bombus atratus","species","bumblebees",1,NA,435,NA,NA,NA
"Natacha_Chacoff_Citrus_limon_Argentina_2015","B3CAS 7","29 census of 15 minutes observation to a flowering branch","Diptero 2","morphospecies","other_flies",1,NA,435,NA,NA,NA
"Natacha_Chacoff_Citrus_limon_Argentina_2015","B3CAS 7","29 census of 15 minutes observation to a flowering branch","Mariposa gris chiquita","morphospecies","lepidoptera",1,NA,435,NA,NA,NA
"Natacha_Chacoff_Citrus_limon_Argentina_2015","B3CAS 7","29 census of 15 minutes observation to a flowering branch","Plebeia sp","morphospecies","other_wild_bees",1,NA,435,NA,NA,NA
"Natacha_Chacoff_Citrus_limon_Argentina_2015","B4MON 1","32 census of 15 minutes observation to a flowering branch","Abeja abdomen naranja","morphospecies","other_wild_bees",1,NA,480,NA,NA,NA
"Natacha_Chacoff_Citrus_limon_Argentina_2015","B4MON 1","32 census of 15 minutes observation to a flowering branch","Apis melifera","species","honeybees",53,NA,480,NA,NA,NA
"Natacha_Chacoff_Citrus_limon_Argentina_2015","B4MON 1","32 census of 15 minutes observation to a flowering branch","Avispa rayada","morphospecies","non_bee_hymenoptera",1,NA,480,NA,NA,NA
"Natacha_Chacoff_Citrus_limon_Argentina_2015","B4MON 1","32 census of 15 minutes observation to a flowering branch","Bombus atratus","species","bumblebees",3,NA,480,NA,NA,NA
"Natacha_Chacoff_Citrus_limon_Argentina_2015","B4MON 1","32 census of 15 minutes observation to a flowering branch","Bombus negro","morphospecies","bumblebees",13,NA,480,NA,NA,NA
"Natacha_Chacoff_Citrus_limon_Argentina_2015","B4MON 1","32 census of 15 minutes observation to a flowering branch","Coleoptera 2","order","beetles",3,NA,480,NA,NA,NA
"Natacha_Chacoff_Citrus_limon_Argentina_2015","B4MON 1","32 census of 15 minutes observation to a flowering branch","Diptero 1","morphospecies","other_flies",1,NA,480,NA,NA,NA
"Natacha_Chacoff_Citrus_limon_Argentina_2015","B4MON 1","32 census of 15 minutes observation to a flowering branch","Diptero 4","morphospecies","other_flies",1,NA,480,NA,NA,NA
"Natacha_Chacoff_Citrus_limon_Argentina_2015","B4MON 1","32 census of 15 minutes observation to a flowering branch","Halictidae 1","morphospecies","other_wild_bees",1,NA,480,NA,NA,NA
"Natacha_Chacoff_Citrus_limon_Argentina_2015","B4MON 1","32 census of 15 minutes observation to a flowering branch","Halictidae 2","morphospecies","other_wild_bees",1,NA,480,NA,NA,NA
"Natacha_Chacoff_Citrus_limon_Argentina_2015","B4MON 1","32 census of 15 minutes observation to a flowering branch","Mosca gris lomo rayado","morphospecies","other_flies",1,NA,480,NA,NA,NA
"Natacha_Chacoff_Citrus_limon_Argentina_2015","B4MON 1","32 census of 15 minutes observation to a flowering branch","Plebeia sp","morphospecies","other_wild_bees",1,NA,480,NA,NA,NA
"Natacha_Chacoff_Citrus_limon_Argentina_2015","B4MON 1","32 census of 15 minutes observation to a flowering branch","Xylocopa eximia","species","other_wild_bees",1,NA,480,NA,NA,NA
"Natacha_Chacoff_Citrus_limon_Argentina_2015","CA1CAS 5","23 census of 15 minutes observation to a flowering branch","Apis melifera","species","honeybees",44,NA,345,NA,NA,NA
"Natacha_Chacoff_Citrus_limon_Argentina_2015","CA1CAS 5","23 census of 15 minutes observation to a flowering branch","Diptero 1","morphospecies","other_flies",2,NA,345,NA,NA,NA
"Natacha_Chacoff_Citrus_limon_Argentina_2015","CA1CAS 5","23 census of 15 minutes observation to a flowering branch","Plebeia sp","morphospecies","other_wild_bees",1,NA,345,NA,NA,NA
"Natacha_Chacoff_Citrus_limon_Argentina_2015","CA2CAS 3","45 census of 15 minutes observation to a flowering branch","Apis melifera","species","honeybees",420,NA,675,NA,NA,NA
"Natacha_Chacoff_Citrus_limon_Argentina_2015","CA2CAS 3","45 census of 15 minutes observation to a flowering branch","Bombus atratus","species","bumblebees",4,NA,675,NA,NA,NA
"Natacha_Chacoff_Citrus_limon_Argentina_2015","CA2CAS 3","45 census of 15 minutes observation to a flowering branch","Coleoptera 2","order","beetles",2,NA,675,NA,NA,NA
"Natacha_Chacoff_Citrus_limon_Argentina_2015","CA2CAS 3","45 census of 15 minutes observation to a flowering branch","Diptero 2","morphospecies","other_flies",1,NA,675,NA,NA,NA
"Natacha_Chacoff_Citrus_limon_Argentina_2015","CA2CAS 3","45 census of 15 minutes observation to a flowering branch","Diptero 4","morphospecies","other_flies",2,NA,675,NA,NA,NA
"Natacha_Chacoff_Citrus_limon_Argentina_2015","CA2CAS 3","45 census of 15 minutes observation to a flowering branch","Diptero 6","morphospecies","other_flies",1,NA,675,NA,NA,NA
"Natacha_Chacoff_Citrus_limon_Argentina_2015","CA2CAS 3","45 census of 15 minutes observation to a flowering branch","Hormiga","morphospecies","non_bee_hymenoptera",1,NA,675,NA,NA,NA
"Natacha_Chacoff_Citrus_limon_Argentina_2015","CA2CAS 3","45 census of 15 minutes observation to a flowering branch","Ligaidae","morphospecies","other",1,NA,675,NA,NA,NA
"Natacha_Chacoff_Citrus_limon_Argentina_2015","CA2CAS 3","45 census of 15 minutes observation to a flowering branch","Mariposa alas transparentes","morphospecies","lepidoptera",2,NA,675,NA,NA,NA
"Natacha_Chacoff_Citrus_limon_Argentina_2015","CA2CAS 3","45 census of 15 minutes observation to a flowering branch","Mariposa gris chiquita","morphospecies","lepidoptera",1,NA,675,NA,NA,NA
"Natacha_Chacoff_Citrus_limon_Argentina_2015","CA2CAS 3","45 census of 15 minutes observation to a flowering branch","Mariposa marron grande","morphospecies","lepidoptera",1,NA,675,NA,NA,NA
"Natacha_Chacoff_Citrus_limon_Argentina_2015","CA2CAS 3","45 census of 15 minutes observation to a flowering branch","Mariposa marron pequena","morphospecies","lepidoptera",3,NA,675,NA,NA,NA
"Natacha_Chacoff_Citrus_limon_Argentina_2015","CA2CAS 3","45 census of 15 minutes observation to a flowering branch","Mariposa monarca","morphospecies","lepidoptera",1,NA,675,NA,NA,NA
"Natacha_Chacoff_Citrus_limon_Argentina_2015","CA2CAS 3","45 census of 15 minutes observation to a flowering branch","Mosca brillante","morphospecies","other_flies",3,NA,675,NA,NA,NA
"Natacha_Chacoff_Citrus_limon_Argentina_2015","CA2CAS 3","45 census of 15 minutes observation to a flowering branch","Mosca brillante","morphospecies","other_flies",1,NA,675,NA,NA,NA
"Natacha_Chacoff_Citrus_limon_Argentina_2015","CA2CAS 3","45 census of 15 minutes observation to a flowering branch","Mosca domestica","morphospecies","other_flies",1,NA,675,NA,NA,NA
"Natacha_Chacoff_Citrus_limon_Argentina_2015","CA2CAS 3","45 census of 15 minutes observation to a flowering branch","Mosca gris lomo rayado","morphospecies","other_flies",1,NA,675,NA,NA,NA
"Natacha_Chacoff_Citrus_limon_Argentina_2015","CA2CAS 3","45 census of 15 minutes observation to a flowering branch","Papilio thoas","species","lepidoptera",6,NA,675,NA,NA,NA
"Natacha_Chacoff_Citrus_limon_Argentina_2015","CA2CAS 3","45 census of 15 minutes observation to a flowering branch","Pirpinto amarillo","morphospecies","lepidoptera",1,NA,675,NA,NA,NA
"Natacha_Chacoff_Citrus_limon_Argentina_2015","CA2CAS 3","45 census of 15 minutes observation to a flowering branch","Plebeia sp","morphospecies","other_wild_bees",6,NA,675,NA,NA,NA
"Natacha_Chacoff_Citrus_limon_Argentina_2015","CA2CAS 3","45 census of 15 minutes observation to a flowering branch","Syrphido","morphospecies","syrphids",4,NA,675,NA,NA,NA
"Natacha_Chacoff_Citrus_limon_Argentina_2015","CA2CAS 3","45 census of 15 minutes observation to a flowering branch","Xylocopa eximia","species","other_wild_bees",2,NA,675,NA,NA,NA
"Natacha_Chacoff_Citrus_limon_Argentina_2015","CA2CAS 3","45 census of 15 minutes observation to a flowering branch","Xylocopa negro","morphospecies","other_wild_bees",1,NA,675,NA,NA,NA
"Natacha_Chacoff_Citrus_limon_Argentina_2015","CA3CAS 8","27 census of 15 minutes observation to a flowering branch","Apis melifera","species","honeybees",13,NA,405,NA,NA,NA
"Natacha_Chacoff_Citrus_limon_Argentina_2015","CA3CAS 8","27 census of 15 minutes observation to a flowering branch","Coleoptera 2","order","beetles",15,NA,405,NA,NA,NA
"Natacha_Chacoff_Citrus_limon_Argentina_2015","CA3CAS 8","27 census of 15 minutes observation to a flowering branch","Plebeia sp","morphospecies","other_wild_bees",2,NA,405,NA,NA,NA
"Natacha_Chacoff_Citrus_limon_Argentina_2015","CA4MON 2","32 census of 15 minutes observation to a flowering branch","Abeja marron cola negra","morphospecies","other_wild_bees",1,NA,480,NA,NA,NA
"Natacha_Chacoff_Citrus_limon_Argentina_2015","CA4MON 2","32 census of 15 minutes observation to a flowering branch","Abeja negra","morphospecies","other_wild_bees",1,NA,480,NA,NA,NA
"Natacha_Chacoff_Citrus_limon_Argentina_2015","CA4MON 2","32 census of 15 minutes observation to a flowering branch","Apis melifera","species","honeybees",115,NA,480,NA,NA,NA
"Natacha_Chacoff_Citrus_limon_Argentina_2015","CA4MON 2","32 census of 15 minutes observation to a flowering branch","Bombus atratus","species","bumblebees",2,NA,480,NA,NA,NA
"Natacha_Chacoff_Citrus_limon_Argentina_2015","CA4MON 2","32 census of 15 minutes observation to a flowering branch","Bombus negro","morphospecies","bumblebees",3,NA,480,NA,NA,NA
"Natacha_Chacoff_Citrus_limon_Argentina_2015","CA4MON 2","32 census of 15 minutes observation to a flowering branch","Coleoptera 2","order","beetles",13,NA,480,NA,NA,NA
"Natacha_Chacoff_Citrus_limon_Argentina_2015","CA4MON 2","32 census of 15 minutes observation to a flowering branch","Coleoptera 3","order","beetles",1,NA,480,NA,NA,NA
"Natacha_Chacoff_Citrus_limon_Argentina_2015","CA4MON 2","32 census of 15 minutes observation to a flowering branch","Diptero 1","morphospecies","other_flies",2,NA,480,NA,NA,NA
"Natacha_Chacoff_Citrus_limon_Argentina_2015","CA4MON 2","32 census of 15 minutes observation to a flowering branch","Halictidae 2","morphospecies","other_wild_bees",2,NA,480,NA,NA,NA
"Natacha_Chacoff_Citrus_limon_Argentina_2015","CE1CAS 6","25 census of 15 minutes observation to a flowering branch","Apis melifera","species","honeybees",17,NA,375,NA,NA,NA
"Natacha_Chacoff_Citrus_limon_Argentina_2015","CE1CAS 6","25 census of 15 minutes observation to a flowering branch","Avispa marron","morphospecies","non_bee_hymenoptera",1,NA,375,NA,NA,NA
"Natacha_Chacoff_Citrus_limon_Argentina_2015","CE1CAS 6","25 census of 15 minutes observation to a flowering branch","Bombus atratus","species","bumblebees",1,NA,375,NA,NA,NA
"Natacha_Chacoff_Citrus_limon_Argentina_2015","CE1CAS 6","25 census of 15 minutes observation to a flowering branch","Coleoptera 2","order","beetles",3,NA,375,NA,NA,NA
"Natacha_Chacoff_Citrus_limon_Argentina_2015","CE1CAS 6","25 census of 15 minutes observation to a flowering branch","Diptero 3","morphospecies","other_flies",2,NA,375,NA,NA,NA
"Natacha_Chacoff_Citrus_limon_Argentina_2015","CE2CAS 4","40 census of 15 minutes observation to a flowering branch","Apis melifera","species","honeybees",294,NA,600,NA,NA,NA
"Natacha_Chacoff_Citrus_limon_Argentina_2015","CE2CAS 4","40 census of 15 minutes observation to a flowering branch","Avispa marron","morphospecies","non_bee_hymenoptera",1,NA,600,NA,NA,NA
"Natacha_Chacoff_Citrus_limon_Argentina_2015","CE2CAS 4","40 census of 15 minutes observation to a flowering branch","Bombus negro","morphospecies","bumblebees",5,NA,600,NA,NA,NA
"Natacha_Chacoff_Citrus_limon_Argentina_2015","CE2CAS 4","40 census of 15 minutes observation to a flowering branch","Coleoptera 1","order","beetles",1,NA,600,NA,NA,NA
"Natacha_Chacoff_Citrus_limon_Argentina_2015","CE2CAS 4","40 census of 15 minutes observation to a flowering branch","Diptero 3","morphospecies","other_flies",1,NA,600,NA,NA,NA
"Natacha_Chacoff_Citrus_limon_Argentina_2015","CE2CAS 4","40 census of 15 minutes observation to a flowering branch","Mosca domestica","morphospecies","other_flies",1,NA,600,NA,NA,NA
"Natacha_Chacoff_Citrus_limon_Argentina_2015","CE2CAS 4","40 census of 15 minutes observation to a flowering branch","Papilio thoas","species","lepidoptera",1,NA,600,NA,NA,NA
"Natacha_Chacoff_Citrus_limon_Argentina_2015","CE2CAS 4","40 census of 15 minutes observation to a flowering branch","Xylocopa eximia","species","other_wild_bees",2,NA,600,NA,NA,NA
"Natacha_Chacoff_Citrus_limon_Argentina_2015","CE3CAS 9","30 census of 15 minutes observation to a flowering branch","Apis melifera","species","honeybees",29,NA,450,NA,NA,NA
"Natacha_Chacoff_Citrus_limon_Argentina_2015","CE3CAS 9","30 census of 15 minutes observation to a flowering branch","Avispa negra","morphospecies","non_bee_hymenoptera",1,NA,450,NA,NA,NA
"Natacha_Chacoff_Citrus_limon_Argentina_2015","CE3CAS 9","30 census of 15 minutes observation to a flowering branch","Avispa negra","morphospecies","non_bee_hymenoptera",1,NA,450,NA,NA,NA
"Natacha_Chacoff_Citrus_limon_Argentina_2015","CE3CAS 9","30 census of 15 minutes observation to a flowering branch","Ligaidae","morphospecies","other",1,NA,450,NA,NA,NA
"Natacha_Chacoff_Citrus_limon_Argentina_2015","CE3CAS 9","30 census of 15 minutes observation to a flowering branch","Papilio thoas","species","lepidoptera",1,NA,450,NA,NA,NA
"Natacha_Chacoff_Citrus_limon_Argentina_2015","CE4MON 3","32 census of 15 minutes observation to a flowering branch","Apis melifera","species","honeybees",60,NA,480,NA,NA,NA
"Natacha_Chacoff_Citrus_limon_Argentina_2015","CE4MON 3","32 census of 15 minutes observation to a flowering branch","Coleoptera 2","order","beetles",1,NA,480,NA,NA,NA
"Natacha_Chacoff_Citrus_limon_Argentina_2015","CE4MON 3","32 census of 15 minutes observation to a flowering branch","Diptero 1","morphospecies","other_flies",1,NA,480,NA,NA,NA
"Natacha_Chacoff_Citrus_paradisi_Argentina_2000","citrus salta","23 census of 15 minutes observation to a flowering branch","Apis mellifera","species level","honeybees",82,NA,345,287,"Abundance counts",NA
"Natacha_Chacoff_Citrus_paradisi_Argentina_2000","citrus salta500","22 census of 15 minutes observation to a flowering branch","Apis mellifera","species level","honeybees",105,NA,330,290,"Abundance counts",NA
"Natacha_Chacoff_Citrus_paradisi_Argentina_2000","citrus salta1000","20 census of 15 minutes observation to a flowering branch","Apis mellifera","species level","honeybees",61,NA,300,330,"Abundance counts",NA
"Natacha_Chacoff_Citrus_paradisi_Argentina_2000","manero","11 census of 15 minutes observation to a flowering branch","Apis mellifera","species level","honeybees",4,NA,165,56,"Abundance counts",NA
"Natacha_Chacoff_Citrus_paradisi_Argentina_2000","manero500","16 census of 15 minutes observation to a flowering branch","Apis mellifera","species level","honeybees",7,NA,240,122,"Abundance counts",NA
"Natacha_Chacoff_Citrus_paradisi_Argentina_2000","manero1000","14 census of 15 minutes observation to a flowering branch","Apis mellifera","species level","honeybees",1,NA,210,92,"Abundance counts",NA
"Natacha_Chacoff_Citrus_paradisi_Argentina_2000","penia colorada","20 census of 15 minutes observation to a flowering branch","Apis mellifera","species level","honeybees",117,NA,300,214,"Abundance counts",NA
"Natacha_Chacoff_Citrus_paradisi_Argentina_2000","penia500","17 census of 15 minutes observation to a flowering branch","Apis mellifera","species level","honeybees",44,NA,255,188,"Abundance counts",NA
"Natacha_Chacoff_Citrus_paradisi_Argentina_2000","penia1000","16 census of 15 minutes observation to a flowering branch","Apis mellifera","species level","honeybees",14,NA,240,188,"Abundance counts",NA
"Natacha_Chacoff_Citrus_paradisi_Argentina_2000","la toma","25 census of 15 minutes observation to a flowering branch","Apis mellifera","species level","honeybees",45,NA,375,219,"Abundance counts",NA
"Natacha_Chacoff_Citrus_paradisi_Argentina_2000","la toma500","21 census of 15 minutes observation to a flowering branch","Apis mellifera","species level","honeybees",21,NA,315,289,"Abundance counts",NA
"Natacha_Chacoff_Citrus_paradisi_Argentina_2000","la toma1000","19 census of 15 minutes observation to a flowering branch","Apis mellifera","species level","honeybees",5,NA,285,280,"Abundance counts",NA
"Natacha_Chacoff_Citrus_paradisi_Argentina_2000","citrus salta","23 census of 15 minutes observation to a flowering branch","Apis mellifera","species level","honeybees",0.135454545454545,NA,345,287,"Abundance here reflects: no. visits per 15 min and flower",NA
"Natacha_Chacoff_Citrus_paradisi_Argentina_2000","citrus salta","23 census of 15 minutes observation to a flowering branch","Vespid","morphoespecies","non_bee_hymenoptera",0.000909090909090909,NA,345,287,"Abundance here reflects: no. visits per 15 min and flower",NA
"Natacha_Chacoff_Citrus_paradisi_Argentina_2000","citrus salta","23 census of 15 minutes observation to a flowering branch","Bombini","genera","other_wild_bees",0.000606060606060606,NA,345,287,"Abundance here reflects: no. visits per 15 min and flower",NA
"Natacha_Chacoff_Citrus_paradisi_Argentina_2000","citrus salta","23 census of 15 minutes observation to a flowering branch","Meliponini","morphoespecies","other_wild_bees",0.00272727272727273,NA,345,287,"Abundance here reflects: no. visits per 15 min and flower",NA
"Natacha_Chacoff_Citrus_paradisi_Argentina_2000","citrus salta500","22 census of 15 minutes observation to a flowering branch","Apis mellifera","species level","honeybees",0.115017579105977,NA,330,290,"Abundance here reflects: no. visits per 15 min and flower",NA
"Natacha_Chacoff_Citrus_paradisi_Argentina_2000","citrus salta500","22 census of 15 minutes observation to a flowering branch","Lepidotera","order","lepidoptera",0.000502260170768458,NA,330,290,"Abundance here reflects: no. visits per 15 min and flower",NA
"Natacha_Chacoff_Citrus_paradisi_Argentina_2000","citrus salta1000","20 census of 15 minutes observation to a flowering branch","Apis mellifera","species level","honeybees",0.108477666362808,NA,300,330,"Abundance here reflects: no. visits per 15 min and flower",NA
"Natacha_Chacoff_Citrus_paradisi_Argentina_2000","citrus salta1000","20 census of 15 minutes observation to a flowering branch","Coleoptera","order","beetles",0.000911577028258888,NA,300,330,"Abundance here reflects: no. visits per 15 min and flower",NA
"Natacha_Chacoff_Citrus_paradisi_Argentina_2000","manero","11 census of 15 minutes observation to a flowering branch","Andrenidae","Family","other_wild_bees",0.0078740157480315,NA,165,56,"Abundance here reflects: no. visits per 15 min and flower",NA
"Natacha_Chacoff_Citrus_paradisi_Argentina_2000","manero","11 census of 15 minutes observation to a flowering branch","Apis mellifera","species level","honeybees",0.133858267716535,NA,165,56,"Abundance here reflects: no. visits per 15 min and flower",NA
"Natacha_Chacoff_Citrus_paradisi_Argentina_2000","manero","11 census of 15 minutes observation to a flowering branch","Lepidotera","order","lepidoptera",0.0078740157480315,NA,165,56,"Abundance here reflects: no. visits per 15 min and flower",NA
"Natacha_Chacoff_Citrus_paradisi_Argentina_2000","manero","11 census of 15 minutes observation to a flowering branch","Meliponini","morphoespecies","other_wild_bees",0.0551181102362205,NA,165,56,"Abundance here reflects: no. visits per 15 min and flower",NA
"Natacha_Chacoff_Citrus_paradisi_Argentina_2000","manero500","16 census of 15 minutes observation to a flowering branch","Apis mellifera","species level","honeybees",0.105263157894737,NA,240,122,"Abundance here reflects: no. visits per 15 min and flower",NA
"Natacha_Chacoff_Citrus_paradisi_Argentina_2000","manero1000","14 census of 15 minutes observation to a flowering branch","Apis mellifera","species level","honeybees",0.0108695652173913,NA,210,92,"Abundance here reflects: no. visits per 15 min and flower",NA
"Natacha_Chacoff_Citrus_paradisi_Argentina_2000","penia colorada","20 census of 15 minutes observation to a flowering branch","Apis mellifera","species level","honeybees",0.151637960148598,NA,300,214,"Abundance here reflects: no. visits per 15 min and flower",NA
"Natacha_Chacoff_Citrus_paradisi_Argentina_2000","penia colorada","20 census of 15 minutes observation to a flowering branch","Halictini","morphoespecies","other_wild_bees",0.00101317122593718,NA,300,214,"Abundance here reflects: no. visits per 15 min and flower",NA
"Natacha_Chacoff_Citrus_paradisi_Argentina_2000","penia colorada","20 census of 15 minutes observation to a flowering branch","Lepidotera","order","lepidoptera",0.000675447483958122,NA,300,214,"Abundance here reflects: no. visits per 15 min and flower",NA
"Natacha_Chacoff_Citrus_paradisi_Argentina_2000","penia500","17 census of 15 minutes observation to a flowering branch","Apis mellifera","species level","honeybees",0.146864686468647,NA,255,188,"Abundance here reflects: no. visits per 15 min and flower",NA
"Natacha_Chacoff_Citrus_paradisi_Argentina_2000","penia500","17 census of 15 minutes observation to a flowering branch","Coleoptera","order","beetles",0.0033003300330033,NA,255,188,"Abundance here reflects: no. visits per 15 min and flower",NA
"Natacha_Chacoff_Citrus_paradisi_Argentina_2000","penia500","17 census of 15 minutes observation to a flowering branch","Diptera","order","other_flies",0.00165016501650165,NA,255,188,"Abundance here reflects: no. visits per 15 min and flower",NA
"Natacha_Chacoff_Citrus_paradisi_Argentina_2000","penia500","17 census of 15 minutes observation to a flowering branch","Megachilidae","morphoespecies","other_wild_bees",0.00165016501650165,NA,255,188,"Abundance here reflects: no. visits per 15 min and flower",NA
"Natacha_Chacoff_Citrus_paradisi_Argentina_2000","penia1000","16 census of 15 minutes observation to a flowering branch","Apis mellifera","species level","honeybees",0.0892857142857143,NA,240,188,"Abundance here reflects: no. visits per 15 min and flower",NA
"Natacha_Chacoff_Citrus_paradisi_Argentina_2000","penia1000","16 census of 15 minutes observation to a flowering branch","Lepidotera","order","lepidoptera",0.00357142857142857,NA,240,188,"Abundance here reflects: no. visits per 15 min and flower",NA
"Natacha_Chacoff_Citrus_paradisi_Argentina_2000","la toma","25 census of 15 minutes observation to a flowering branch","Apis mellifera","species level","honeybees",0.12507339988256,NA,375,219,"Abundance here reflects: no. visits per 15 min and flower",NA
"Natacha_Chacoff_Citrus_paradisi_Argentina_2000","la toma","25 census of 15 minutes observation to a flowering branch","Vespid","morphoespecies","non_bee_hymenoptera",0.00587199060481503,NA,375,219,"Abundance here reflects: no. visits per 15 min and flower",NA
"Natacha_Chacoff_Citrus_paradisi_Argentina_2000","la toma","25 census of 15 minutes observation to a flowering branch","Halictini","morphoespecies","other_wild_bees",0.000587199060481503,NA,375,219,"Abundance here reflects: no. visits per 15 min and flower",NA
"Natacha_Chacoff_Citrus_paradisi_Argentina_2000","la toma","25 census of 15 minutes observation to a flowering branch","Meliponini","morphoespecies","other_wild_bees",0.0187903699354081,NA,375,219,"Abundance here reflects: no. visits per 15 min and flower",NA
"Natacha_Chacoff_Citrus_paradisi_Argentina_2000","la toma500","21 census of 15 minutes observation to a flowering branch","Apis mellifera","species level","honeybees",0.0690265486725664,NA,315,289,"Abundance here reflects: no. visits per 15 min and flower",NA
"Natacha_Chacoff_Citrus_paradisi_Argentina_2000","la toma500","21 census of 15 minutes observation to a flowering branch","Vespid","morphoespecies","non_bee_hymenoptera",0.00353982300884956,NA,315,289,"Abundance here reflects: no. visits per 15 min and flower",NA
"Natacha_Chacoff_Citrus_paradisi_Argentina_2000","la toma500","21 census of 15 minutes observation to a flowering branch","Bombini","genera","other_wild_bees",0.00353982300884956,NA,315,289,"Abundance here reflects: no. visits per 15 min and flower",NA
"Natacha_Chacoff_Citrus_paradisi_Argentina_2000","la toma500","21 census of 15 minutes observation to a flowering branch","Meliponini","morphoespecies","other_wild_bees",0.00353982300884956,NA,315,289,"Abundance here reflects: no. visits per 15 min and flower",NA
"Natacha_Chacoff_Citrus_paradisi_Argentina_2000","la toma1000","19 census of 15 minutes observation to a flowering branch","Apis mellifera","species level","honeybees",0.035031847133758,NA,285,280,"Abundance here reflects: no. visits per 15 min and flower",NA
"Natacha_Chacoff_Citrus_paradisi_Argentina_2001","citrus salta","18 censuses of 15 minutes observation to a flowering branch","Apis mellifera","species level","honeybees",86,NA,270,152,"Abundance counts",NA
"Natacha_Chacoff_Citrus_paradisi_Argentina_2001","citrus salta500","12 censuses of 15 minutes observation to a flowering branch","Apis mellifera","species level","honeybees",41,NA,180,83,"Abundance counts",NA
"Natacha_Chacoff_Citrus_paradisi_Argentina_2001","citrus salta1000","15 censuses of 15 minutes observation to a flowering branch","Apis mellifera","species level","honeybees",61,NA,225,144,"Abundance counts",NA
"Natacha_Chacoff_Citrus_paradisi_Argentina_2001","manero","21 censuses of 15 minutes observation to a flowering branch","Apis mellifera","species level","honeybees",34,NA,315,141,"Abundance counts",NA
"Natacha_Chacoff_Citrus_paradisi_Argentina_2001","manero500","18 censuses of 15 minutes observation to a flowering branch","Apis mellifera","species level","honeybees",49,NA,270,134,"Abundance counts",NA
"Natacha_Chacoff_Citrus_paradisi_Argentina_2001","manero1000","19 censuses of 15 minutes observation to a flowering branch","Apis mellifera","species level","honeybees",54,NA,285,131,"Abundance counts",NA
"Natacha_Chacoff_Citrus_paradisi_Argentina_2001","penia colorada","16 censuses of 15 minutes observation to a flowering branch","Apis mellifera","species level","honeybees",141,NA,240,128,"Abundance counts",NA
"Natacha_Chacoff_Citrus_paradisi_Argentina_2001","penia500","14 censuses of 15 minutes observation to a flowering branch","Apis mellifera","species level","honeybees",140,NA,210,97,"Abundance counts",NA
"Natacha_Chacoff_Citrus_paradisi_Argentina_2001","penia1000","16 censuses of 15 minutes observation to a flowering branch","Apis mellifera","species level","honeybees",79,NA,240,125,"Abundance counts",NA
"Natacha_Chacoff_Citrus_paradisi_Argentina_2001","la toma","14 censuses of 15 minutes observation to a flowering branch","Apis mellifera","species level","honeybees",40,NA,210,107,"Abundance counts",NA
"Natacha_Chacoff_Citrus_paradisi_Argentina_2001","la toma500","15 censuses of 15 minutes observation to a flowering branch","Apis mellifera","species level","honeybees",34,NA,225,112,"Abundance counts",NA
"Natacha_Chacoff_Citrus_paradisi_Argentina_2001","la toma1000","16 censuses of 15 minutes observation to a flowering branch","Apis mellifera","species level","honeybees",26,NA,240,145,"Abundance counts",NA
"Natacha_Chacoff_Citrus_paradisi_Argentina_2001","citrus salta","18 censuses of 15 minutes observation to a flowering branch","Apis mellifera","species level","honeybees",0.229287090558767,NA,270,152,"Abundance here reflects: no. visits per 15 min and flower",NA
"Natacha_Chacoff_Citrus_paradisi_Argentina_2001","citrus salta","18 censuses of 15 minutes observation to a flowering branch","Coleoptera","order","beetles",0.000963391136801541,NA,270,152,"Abundance here reflects: no. visits per 15 min and flower",NA
"Natacha_Chacoff_Citrus_paradisi_Argentina_2001","citrus salta","18 censuses of 15 minutes observation to a flowering branch","Diptera","order","other_flies",0.00289017341040462,NA,270,152,"Abundance here reflects: no. visits per 15 min and flower",NA
"Natacha_Chacoff_Citrus_paradisi_Argentina_2001","citrus salta","18 censuses of 15 minutes observation to a flowering branch","Halictini","morphoespecies","other_wild_bees",0.000963391136801541,NA,270,152,"Abundance here reflects: no. visits per 15 min and flower",NA
"Natacha_Chacoff_Citrus_paradisi_Argentina_2001","citrus salta","18 censuses of 15 minutes observation to a flowering branch","Meliponini","morphoespecies","other_wild_bees",0.0279383429672447,NA,270,152,"Abundance here reflects: no. visits per 15 min and flower",NA
"Natacha_Chacoff_Citrus_paradisi_Argentina_2001","citrus salta500","12 censuses of 15 minutes observation to a flowering branch","Apis mellifera","species level","honeybees",0.25,NA,180,83,"Abundance here reflects: no. visits per 15 min and flower",NA
"Natacha_Chacoff_Citrus_paradisi_Argentina_2001","citrus salta1000","15 censuses of 15 minutes observation to a flowering branch","Apis mellifera","species level","honeybees",0.167427701674277,NA,225,144,"Abundance here reflects: no. visits per 15 min and flower",NA
"Natacha_Chacoff_Citrus_paradisi_Argentina_2001","manero","21 censuses of 15 minutes observation to a flowering branch","Apis mellifera","species level","honeybees",0.193508114856429,NA,315,141,"Abundance here reflects: no. visits per 15 min and flower",NA
"Natacha_Chacoff_Citrus_paradisi_Argentina_2001","manero","21 censuses of 15 minutes observation to a flowering branch","Vespid","morphoespecies","non_bee_hymenoptera",0.00374531835205993,NA,315,141,"Abundance here reflects: no. visits per 15 min and flower",NA
"Natacha_Chacoff_Citrus_paradisi_Argentina_2001","manero","21 censuses of 15 minutes observation to a flowering branch","Coleoptera","order","beetles",0.00124843945068664,NA,315,141,"Abundance here reflects: no. visits per 15 min and flower",NA
"Natacha_Chacoff_Citrus_paradisi_Argentina_2001","manero","21 censuses of 15 minutes observation to a flowering branch","Diptera","order","other_flies",0.00124843945068664,NA,315,141,"Abundance here reflects: no. visits per 15 min and flower",NA
"Natacha_Chacoff_Citrus_paradisi_Argentina_2001","manero","21 censuses of 15 minutes observation to a flowering branch","Meliponini","morphoespecies","other_wild_bees",0.0187265917602996,NA,315,141,"Abundance here reflects: no. visits per 15 min and flower",NA
"Natacha_Chacoff_Citrus_paradisi_Argentina_2001","manero500","18 censuses of 15 minutes observation to a flowering branch","Apis mellifera","species level","honeybees",0.192219679633867,NA,270,134,"Abundance here reflects: no. visits per 15 min and flower",NA
"Natacha_Chacoff_Citrus_paradisi_Argentina_2001","manero1000","19 censuses of 15 minutes observation to a flowering branch","Apis mellifera","species level","honeybees",0.200445434298441,NA,285,131,"Abundance here reflects: no. visits per 15 min and flower",NA
"Natacha_Chacoff_Citrus_paradisi_Argentina_2001","manero1000","19 censuses of 15 minutes observation to a flowering branch","Diptera","order","other_flies",0.0089086859688196,NA,285,131,"Abundance here reflects: no. visits per 15 min and flower",NA
"Natacha_Chacoff_Citrus_paradisi_Argentina_2001","penia colorada","16 censuses of 15 minutes observation to a flowering branch","Apis mellifera","species level","honeybees",0.238328145842597,NA,240,128,"Abundance here reflects: no. visits per 15 min and flower",NA
"Natacha_Chacoff_Citrus_paradisi_Argentina_2001","penia colorada","16 censuses of 15 minutes observation to a flowering branch","Vespid","morphoespecies","non_bee_hymenoptera",0.000444642063139173,NA,240,128,"Abundance here reflects: no. visits per 15 min and flower",NA
"Natacha_Chacoff_Citrus_paradisi_Argentina_2001","penia colorada","16 censuses of 15 minutes observation to a flowering branch","Meliponini","morphoespecies","other_wild_bees",0.000889284126278346,NA,240,128,"Abundance here reflects: no. visits per 15 min and flower",NA
"Natacha_Chacoff_Citrus_paradisi_Argentina_2001","penia500","14 censuses of 15 minutes observation to a flowering branch","Apis mellifera","species level","honeybees",0.279,NA,210,97,"Abundance here reflects: no. visits per 15 min and flower",NA
"Natacha_Chacoff_Citrus_paradisi_Argentina_2001","penia1000","16 censuses of 15 minutes observation to a flowering branch","Apis mellifera","species level","honeybees",0.215926493108729,NA,240,125,"Abundance here reflects: no. visits per 15 min and flower",NA
"Natacha_Chacoff_Citrus_paradisi_Argentina_2001","la toma","14 censuses of 15 minutes observation to a flowering branch","Apis mellifera","species level","honeybees",0.232995658465991,NA,210,107,"Abundance here reflects: no. visits per 15 min and flower",NA
"Natacha_Chacoff_Citrus_paradisi_Argentina_2001","la toma","14 censuses of 15 minutes observation to a flowering branch","Vespid","morphoespecies","non_bee_hymenoptera",0.00723589001447178,NA,210,107,"Abundance here reflects: no. visits per 15 min and flower",NA
"Natacha_Chacoff_Citrus_paradisi_Argentina_2001","la toma","14 censuses of 15 minutes observation to a flowering branch","Meliponini","morphoespecies","other_wild_bees",0.00434153400868307,NA,210,107,"Abundance here reflects: no. visits per 15 min and flower",NA
"Natacha_Chacoff_Citrus_paradisi_Argentina_2001","la toma500","15 censuses of 15 minutes observation to a flowering branch","Apis mellifera","species level","honeybees",0.184952978056426,NA,225,112,"Abundance here reflects: no. visits per 15 min and flower",NA
"Natacha_Chacoff_Citrus_paradisi_Argentina_2001","la toma1000","16 censuses of 15 minutes observation to a flowering branch","Apis mellifera","species level","honeybees",0.147058823529412,NA,240,145,"Abundance here reflects: no. visits per 15 min and flower",NA
"Natacha_Chacoff_Citrus_paradisi_Argentina_2001","la toma1000","16 censuses of 15 minutes observation to a flowering branch","Vespid","morphoespecies","non_bee_hymenoptera",0.00326797385620915,NA,240,145,"Abundance here reflects: no. visits per 15 min and flower",NA
"Natacha_Chacoff_Citrus_paradisi_Argentina_2002","citrus salta","10 censuses of 15 minutes observation to a flowering branch","Apis mellifera","species level","honeybees",13,NA,150,111,"Abundance counts",NA
"Natacha_Chacoff_Citrus_paradisi_Argentina_2002","citrus salta500","9 censuses of 15 minutes observation to a flowering branch","Apis mellifera","species level","honeybees",43,NA,135,91,"Abundance counts",NA
"Natacha_Chacoff_Citrus_paradisi_Argentina_2002","citrus salta1000","9 censuses of 15 minutes observation to a flowering branch","Apis mellifera","species level","honeybees",7,NA,135,114,"Abundance counts",NA
"Natacha_Chacoff_Citrus_paradisi_Argentina_2002","manero","13 censuses of 15 minutes observation to a flowering branch","Apis mellifera","species level","honeybees",12,NA,195,133,"Abundance counts",NA
"Natacha_Chacoff_Citrus_paradisi_Argentina_2002","manero500","19 censuses of 15 minutes observation to a flowering branch","Apis mellifera","species level","honeybees",32,NA,285,188,"Abundance counts",NA
"Natacha_Chacoff_Citrus_paradisi_Argentina_2002","manero1000","15 censuses of 15 minutes observation to a flowering branch","Apis mellifera","species level","honeybees",67,NA,225,155,"Abundance counts",NA
"Natacha_Chacoff_Citrus_paradisi_Argentina_2002","penia colorada","12 censuses of 15 minutes observation to a flowering branch","Apis mellifera","species level","honeybees",39,NA,180,131,"Abundance counts",NA
"Natacha_Chacoff_Citrus_paradisi_Argentina_2002","penia500","14 censuses of 15 minutes observation to a flowering branch","Apis mellifera","species level","honeybees",16,NA,210,148,"Abundance counts",NA
"Natacha_Chacoff_Citrus_paradisi_Argentina_2002","penia1000","15 censuses of 15 minutes observation to a flowering branch","Apis mellifera","species level","honeybees",8,NA,225,157,"Abundance counts",NA
"Natacha_Chacoff_Citrus_paradisi_Argentina_2002","la toma","6 censuses of 15 minutes observation to a flowering branch","Apis mellifera","species level","honeybees",30,NA,90,67,"Abundance counts",NA
"Natacha_Chacoff_Citrus_paradisi_Argentina_2002","la toma500","11 censuses of 15 minutes observation to a flowering branch","Apis mellifera","species level","honeybees",30,NA,165,98,"Abundance counts",NA
"Natacha_Chacoff_Citrus_paradisi_Argentina_2002","la toma1000","8 censuses of 15 minutes observation to a flowering branch","Apis mellifera","species level","honeybees",8,NA,120,80,"Abundance counts",NA
"Natacha_Chacoff_Citrus_paradisi_Argentina_2002","citrus salta","10 censuses of 15 minutes observation to a flowering branch","Apis mellifera","species level","honeybees",0.140089418777943,NA,150,111,"Abundance here reflects: no. visits per 15 min and flower",NA
"Natacha_Chacoff_Citrus_paradisi_Argentina_2002","citrus salta","10 censuses of 15 minutes observation to a flowering branch","Diptera","order","other_flies",0.0014903129657228,NA,150,111,"Abundance here reflects: no. visits per 15 min and flower",NA
"Natacha_Chacoff_Citrus_paradisi_Argentina_2002","citrus salta","10 censuses of 15 minutes observation to a flowering branch","Meliponini","morphoespecies","other_wild_bees",0.00596125186289121,NA,150,111,"Abundance here reflects: no. visits per 15 min and flower",NA
"Natacha_Chacoff_Citrus_paradisi_Argentina_2002","citrus salta500","9 censuses of 15 minutes observation to a flowering branch","Apis mellifera","species level","honeybees",0.163701067615658,NA,135,91,"Abundance here reflects: no. visits per 15 min and flower",NA
"Natacha_Chacoff_Citrus_paradisi_Argentina_2002","citrus salta500","9 censuses of 15 minutes observation to a flowering branch","Coleoptera","order","beetles",0.00177935943060498,NA,135,91,"Abundance here reflects: no. visits per 15 min and flower",NA
"Natacha_Chacoff_Citrus_paradisi_Argentina_2002","citrus salta1000","9 censuses of 15 minutes observation to a flowering branch","Apis mellifera","species level","honeybees",0.043956043956044,NA,135,114,"Abundance here reflects: no. visits per 15 min and flower",NA
"Natacha_Chacoff_Citrus_paradisi_Argentina_2002","citrus salta1000","9 censuses of 15 minutes observation to a flowering branch","Bombini","genera","other_wild_bees",0.0164835164835165,NA,135,114,"Abundance here reflects: no. visits per 15 min and flower",NA
"Natacha_Chacoff_Citrus_paradisi_Argentina_2002","manero","13 censuses of 15 minutes observation to a flowering branch","Apis mellifera","species level","honeybees",0.1171875,NA,195,133,"Abundance here reflects: no. visits per 15 min and flower",NA
"Natacha_Chacoff_Citrus_paradisi_Argentina_2002","manero","13 censuses of 15 minutes observation to a flowering branch","Hemiptera","order","other",0.001953125,NA,195,133,"Abundance here reflects: no. visits per 15 min and flower",NA
"Natacha_Chacoff_Citrus_paradisi_Argentina_2002","manero","13 censuses of 15 minutes observation to a flowering branch","Meliponini","morphoespecies","other_wild_bees",0.01953125,NA,195,133,"Abundance here reflects: no. visits per 15 min and flower",NA
"Natacha_Chacoff_Citrus_paradisi_Argentina_2002","manero500","19 censuses of 15 minutes observation to a flowering branch","Apis mellifera","species level","honeybees",0.156084656084656,NA,285,188,"Abundance here reflects: no. visits per 15 min and flower",NA
"Natacha_Chacoff_Citrus_paradisi_Argentina_2002","manero1000","15 censuses of 15 minutes observation to a flowering branch","Apis mellifera","species level","honeybees",0.164414414414414,NA,225,155,"Abundance here reflects: no. visits per 15 min and flower",NA
"Natacha_Chacoff_Citrus_paradisi_Argentina_2002","penia colorada","12 censuses of 15 minutes observation to a flowering branch","Apis mellifera","species level","honeybees",0.142857142857143,NA,180,131,"Abundance here reflects: no. visits per 15 min and flower",NA
"Natacha_Chacoff_Citrus_paradisi_Argentina_2002","penia colorada","12 censuses of 15 minutes observation to a flowering branch","Lepidotera","order","lepidoptera",0.00464576074332172,NA,180,131,"Abundance here reflects: no. visits per 15 min and flower",NA
"Natacha_Chacoff_Citrus_paradisi_Argentina_2002","penia colorada","12 censuses of 15 minutes observation to a flowering branch","Meliponini","morphoespecies","other_wild_bees",0.00116144018583043,NA,180,131,"Abundance here reflects: no. visits per 15 min and flower",NA
"Natacha_Chacoff_Citrus_paradisi_Argentina_2002","penia500","14 censuses of 15 minutes observation to a flowering branch","Apis mellifera","species level","honeybees",0.108786610878661,NA,210,148,"Abundance here reflects: no. visits per 15 min and flower",NA
"Natacha_Chacoff_Citrus_paradisi_Argentina_2002","penia500","14 censuses of 15 minutes observation to a flowering branch","Meliponini","morphoespecies","other_wild_bees",0.00418410041841004,NA,210,148,"Abundance here reflects: no. visits per 15 min and flower",NA
"Natacha_Chacoff_Citrus_paradisi_Argentina_2002","penia1000","15 censuses of 15 minutes observation to a flowering branch","Apis mellifera","species level","honeybees",0.0655737704918033,NA,225,157,"Abundance here reflects: no. visits per 15 min and flower",NA
"Natacha_Chacoff_Citrus_paradisi_Argentina_2002","la toma","6 censuses of 15 minutes observation to a flowering branch","Apis mellifera","species level","honeybees",0.160690571049137,NA,90,67,"Abundance here reflects: no. visits per 15 min and flower",NA
"Natacha_Chacoff_Citrus_paradisi_Argentina_2002","la toma","6 censuses of 15 minutes observation to a flowering branch","Vespid","morphoespecies","non_bee_hymenoptera",0.00132802124833997,NA,90,67,"Abundance here reflects: no. visits per 15 min and flower",NA
"Natacha_Chacoff_Citrus_paradisi_Argentina_2002","la toma","6 censuses of 15 minutes observation to a flowering branch","Coleoptera","order","beetles",0.00132802124833997,NA,90,67,"Abundance here reflects: no. visits per 15 min and flower",NA
"Natacha_Chacoff_Citrus_paradisi_Argentina_2002","la toma","6 censuses of 15 minutes observation to a flowering branch","Meliponini","morphoespecies","other_wild_bees",0.0239043824701195,NA,90,67,"Abundance here reflects: no. visits per 15 min and flower",NA
"Natacha_Chacoff_Citrus_paradisi_Argentina_2002","la toma500","11 censuses of 15 minutes observation to a flowering branch","Apis mellifera","species level","honeybees",0.178125,NA,165,98,"Abundance here reflects: no. visits per 15 min and flower",NA
"Natacha_Chacoff_Citrus_paradisi_Argentina_2002","la toma500","11 censuses of 15 minutes observation to a flowering branch","Meliponini","morphoespecies","other_wild_bees",0.01875,NA,165,98,"Abundance here reflects: no. visits per 15 min and flower",NA
"Natacha_Chacoff_Citrus_paradisi_Argentina_2002","la toma1000","8 censuses of 15 minutes observation to a flowering branch","Apis mellifera","species level","honeybees",0.0970149253731343,NA,120,80,"Abundance here reflects: no. visits per 15 min and flower",NA
"Nicolas_J_Vereecken_Brassica_napus_France_2016","Villebrun-Colza","Net","Andrena haemorrhoa","species","other_wild_bees",3,13,1440,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_France_2016","Villebrun-Colza","Net","Apis mellifera","species","honeybees",1,13,1440,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_France_2016","Villebrun-Colza","Net","Apis mellifera","species","honeybees",13,13,1440,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_France_2016","Villebrun-Colza","Net","Bombus hortorum","species","bumblebees",4,13,1440,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_France_2016","Villebrun-Colza","Net","Bombus lapidarius","species","bumblebees",13,13,1440,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_France_2016","Villebrun-Colza","Net","Bombus pascuorum","species","bumblebees",29,13,1440,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_France_2016","Villebrun-Colza","Net","Bombus pratorum","species","bumblebees",24,13,1440,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_France_2016","Villebrun-Colza","Net","Bombus terrestris agg.","species complex","bumblebees",17,13,1440,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_France_2016","Villebrun-Colza","Net","Bombus vestalis","species","bumblebees",2,13,1440,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_France_2016","Villebrun-Colza","Net","Chelostoma florisomne","species","other_wild_bees",1,13,1440,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_France_2016","Villebrun-Colza","Net","Lasioglossum morio","species","other_wild_bees",3,13,1440,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_France_2016","Villebrun-Colza","Net","Osmia caerulescens","species","other_wild_bees",2,13,1440,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2016","Villebrun-Verger","Net","Andrena haemorrhoa","species","other_wild_bees",3,4.3,1440,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2016","Villebrun-Verger","Net","Apis mellifera","species","honeybees",1,4.3,1440,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2016","Villebrun-Verger","Net","Apis mellifera","species","honeybees",13,4.3,1440,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2016","Villebrun-Verger","Net","Bombus hortorum","species","bumblebees",4,4.3,1440,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2016","Villebrun-Verger","Net","Bombus lapidarius","species","bumblebees",13,4.3,1440,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2016","Villebrun-Verger","Net","Bombus pascuorum","species","bumblebees",29,4.3,1440,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2016","Villebrun-Verger","Net","Bombus pratorum","species","bumblebees",24,4.3,1440,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2016","Villebrun-Verger","Net","Bombus terrestris agg.","species complex","bumblebees",17,4.3,1440,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2016","Villebrun-Verger","Net","Bombus vestalis","species","bumblebees",2,4.3,1440,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2016","Villebrun-Verger","Net","Chelostoma florisomne","species","other_wild_bees",1,4.3,1440,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2016","Villebrun-Verger","Net","Lasioglossum morio","species","other_wild_bees",3,4.3,1440,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2016","Villebrun-Verger","Net","Osmia caerulescens","species","other_wild_bees",2,4.3,1440,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de Brunehaut","Net","Andrena bicolor","species","other_wild_bees",1,19,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de Brunehaut","Net","Andrena bicolor","species","other_wild_bees",1,19,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Ballat","Net","Andrena chrysosceles","species","other_wild_bees",1,3,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Ballat","Net","Andrena chrysosceles","species","other_wild_bees",1,3,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Bianca 18O","Net","Andrena chrysosceles","species","other_wild_bees",1,1.2,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Andrena chrysosceles","species","other_wild_bees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Andrena chrysosceles","species","other_wild_bees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Andrena chrysosceles","species","other_wild_bees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Andrena chrysosceles","species","other_wild_bees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Andrena chrysosceles","species","other_wild_bees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Andrena chrysosceles","species","other_wild_bees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Andrena chrysosceles","species","other_wild_bees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Andrena chrysosceles","species","other_wild_bees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Andrena chrysosceles","species","other_wild_bees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Andrena chrysosceles","species","other_wild_bees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Andrena chrysosceles","species","other_wild_bees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Andrena chrysosceles","species","other_wild_bees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Andrena chrysosceles","species","other_wild_bees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Andrena chrysosceles","species","other_wild_bees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Andrena chrysosceles","species","other_wild_bees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Andrena chrysosceles","species","other_wild_bees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Andrena chrysosceles","species","other_wild_bees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Andrena chrysosceles","species","other_wild_bees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Andrena chrysosceles","species","other_wild_bees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Andrena chrysosceles","species","other_wild_bees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Andrena chrysosceles","species","other_wild_bees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Andrena chrysosceles","species","other_wild_bees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Andrena chrysosceles","species","other_wild_bees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Andrena chrysosceles","species","other_wild_bees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Andrena chrysosceles","species","other_wild_bees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Andrena chrysosceles","species","other_wild_bees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Andrena chrysosceles","species","other_wild_bees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Andrena chrysosceles","species","other_wild_bees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Andrena chrysosceles","species","other_wild_bees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Andrena chrysosceles","species","other_wild_bees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Andrena chrysosceles","species","other_wild_bees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Andrena chrysosceles","species","other_wild_bees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Andrena chrysosceles","species","other_wild_bees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Andrena chrysosceles","species","other_wild_bees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Andrena chrysosceles","species","other_wild_bees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Andrena chrysosceles","species","other_wild_bees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Andrena chrysosceles","species","other_wild_bees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Andrena chrysosceles","species","other_wild_bees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Andrena chrysosceles","species","other_wild_bees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Andrena chrysosceles","species","other_wild_bees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Andrena chrysosceles","species","other_wild_bees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Andrena chrysosceles","species","other_wild_bees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Andrena chrysosceles","species","other_wild_bees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Andrena chrysosceles","species","other_wild_bees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Andrena chrysosceles","species","other_wild_bees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Andrena chrysosceles","species","other_wild_bees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Andrena chrysosceles","species","other_wild_bees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Andrena chrysosceles","species","other_wild_bees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Andrena chrysosceles","species","other_wild_bees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Andrena chrysosceles","species","other_wild_bees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Andrena chrysosceles","species","other_wild_bees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Andrena chrysosceles","species","other_wild_bees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Andrena chrysosceles","species","other_wild_bees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Andrena chrysosceles","species","other_wild_bees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Andrena chrysosceles","species","other_wild_bees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Andrena chrysosceles","species","other_wild_bees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Andrena chrysosceles","species","other_wild_bees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Andrena chrysosceles","species","other_wild_bees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Andrena chrysosceles","species","other_wild_bees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Andrena chrysosceles","species","other_wild_bees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Andrena chrysosceles","species","other_wild_bees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Andrena chrysosceles","species","other_wild_bees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Andrena chrysosceles","species","other_wild_bees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Andrena chrysosceles","species","other_wild_bees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Andrena chrysosceles","species","other_wild_bees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Andrena chrysosceles","species","other_wild_bees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Andrena chrysosceles","species","other_wild_bees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Andrena chrysosceles","species","other_wild_bees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Andrena chrysosceles","species","other_wild_bees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Andrena chrysosceles","species","other_wild_bees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Andrena chrysosceles","species","other_wild_bees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Andrena chrysosceles","species","other_wild_bees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Laduron","Net","Andrena chrysosceles","species","other_wild_bees",1,5.2,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Laduron","Net","Andrena chrysosceles","species","other_wild_bees",1,5.2,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Laduron","Net","Andrena chrysosceles","species","other_wild_bees",1,5.2,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Laduron","Net","Andrena chrysosceles","species","other_wild_bees",1,5.2,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Laduron","Net","Andrena chrysosceles","species","other_wild_bees",1,5.2,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Laduron","Net","Andrena chrysosceles","species","other_wild_bees",1,5.2,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Laduron","Net","Andrena chrysosceles","species","other_wild_bees",1,5.2,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Laduron","Net","Andrena chrysosceles","species","other_wild_bees",1,5.2,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Laduron","Net","Andrena chrysosceles","species","other_wild_bees",1,5.2,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Laduron","Net","Andrena chrysosceles","species","other_wild_bees",1,5.2,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Laduron","Net","Andrena chrysosceles","species","other_wild_bees",1,5.2,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Laduron","Net","Andrena chrysosceles","species","other_wild_bees",1,5.2,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Laduron","Net","Andrena chrysosceles","species","other_wild_bees",1,5.2,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Laduron","Net","Andrena chrysosceles","species","other_wild_bees",1,5.2,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Laduron","Net","Andrena chrysosceles","species","other_wild_bees",1,5.2,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Laduron","Net","Andrena chrysosceles","species","other_wild_bees",1,5.2,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Laduron","Net","Andrena chrysosceles","species","other_wild_bees",1,5.2,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Laduron","Net","Andrena chrysosceles","species","other_wild_bees",1,5.2,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Laduron","Net","Andrena chrysosceles","species","other_wild_bees",1,5.2,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Laduron","Net","Andrena chrysosceles","species","other_wild_bees",1,5.2,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Laduron","Net","Andrena chrysosceles","species","other_wild_bees",1,5.2,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Laduron","Net","Andrena chrysosceles","species","other_wild_bees",1,5.2,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Laduron","Net","Andrena chrysosceles","species","other_wild_bees",1,5.2,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Laduron","Net","Andrena chrysosceles","species","other_wild_bees",1,5.2,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Laduron","Net","Andrena chrysosceles","species","other_wild_bees",1,5.2,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Laduron","Net","Andrena chrysosceles","species","other_wild_bees",1,5.2,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Laduron","Net","Andrena chrysosceles","species","other_wild_bees",1,5.2,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Laduron","Net","Andrena chrysosceles","species","other_wild_bees",1,5.2,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Laduron","Net","Andrena chrysosceles","species","other_wild_bees",1,5.2,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Laduron","Net","Andrena chrysosceles","species","other_wild_bees",1,5.2,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Laduron","Net","Andrena chrysosceles","species","other_wild_bees",1,5.2,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Laduron","Net","Andrena chrysosceles","species","other_wild_bees",1,5.2,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Laduron","Net","Andrena chrysosceles","species","other_wild_bees",1,5.2,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Laduron","Net","Andrena chrysosceles","species","other_wild_bees",1,5.2,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Laduron","Net","Andrena chrysosceles","species","other_wild_bees",1,5.2,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Laduron","Net","Andrena chrysosceles","species","other_wild_bees",1,5.2,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Laduron","Net","Andrena chrysosceles","species","other_wild_bees",1,5.2,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Laduron","Net","Andrena chrysosceles","species","other_wild_bees",1,5.2,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Laduron","Net","Andrena chrysosceles","species","other_wild_bees",1,5.2,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Laduron","Net","Andrena chrysosceles","species","other_wild_bees",1,5.2,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de Brunehaut","Net","Andrena chrysosceles","species","other_wild_bees",1,19,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Andrena chrysosceles","species","other_wild_bees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Andrena chrysosceles","species","other_wild_bees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Andrena chrysosceles","species","other_wild_bees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Pommeraie_2019","Net","Andrena chrysosceles","species","other_wild_bees",1,0.3,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Pommeraie_2019","Net","Andrena chrysosceles","species","other_wild_bees",1,0.3,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Pommeraie_2019","Net","Andrena chrysosceles","species","other_wild_bees",1,0.3,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Pommeraie_2019","Net","Andrena chrysosceles","species","other_wild_bees",1,0.3,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Pommeraie_2019","Net","Andrena chrysosceles","species","other_wild_bees",1,0.3,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Pommeraie_2019","Net","Andrena chrysosceles","species","other_wild_bees",1,0.3,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Pommeraie_2019","Net","Andrena chrysosceles","species","other_wild_bees",1,0.3,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Pommeraie_2019","Net","Andrena chrysosceles","species","other_wild_bees",1,0.3,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Pommeraie_2019","Net","Andrena chrysosceles","species","other_wild_bees",1,0.3,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Andrena cineraria","species","other_wild_bees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Andrena cineraria","species","other_wild_bees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Andrena cineraria","species","other_wild_bees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Andrena cineraria","species","other_wild_bees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Andrena cineraria","species","other_wild_bees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Andrena cineraria","species","other_wild_bees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Laduron","Net","Andrena cineraria","species","other_wild_bees",1,5.2,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Laduron","Net","Andrena cineraria","species","other_wild_bees",1,5.2,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Laduron","Net","Andrena cineraria","species","other_wild_bees",1,5.2,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de Brunehaut","Net","Andrena cineraria","species","other_wild_bees",1,19,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Andrena cineraria","species","other_wild_bees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Andrena cineraria","species","other_wild_bees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Andrena cineraria","species","other_wild_bees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Andrena cineraria","species","other_wild_bees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Andrena cineraria","species","other_wild_bees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Andrena cineraria","species","other_wild_bees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Andrena cineraria","species","other_wild_bees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Andrena cineraria","species","other_wild_bees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Andrena cineraria","species","other_wild_bees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Andrena cineraria","species","other_wild_bees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Andrena cineraria","species","other_wild_bees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Andrena cineraria","species","other_wild_bees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Andrena cineraria","species","other_wild_bees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Andrena cineraria","species","other_wild_bees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Andrena cineraria","species","other_wild_bees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Andrena cineraria","species","other_wild_bees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Andrena cineraria","species","other_wild_bees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Andrena cineraria","species","other_wild_bees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Andrena cineraria","species","other_wild_bees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Andrena cineraria","species","other_wild_bees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Andrena cineraria","species","other_wild_bees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Andrena cineraria","species","other_wild_bees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Andrena cineraria","species","other_wild_bees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Andrena cineraria","species","other_wild_bees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Andrena cineraria","species","other_wild_bees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Andrena cineraria","species","other_wild_bees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Andrena cineraria","species","other_wild_bees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Andrena cineraria","species","other_wild_bees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Andrena cineraria","species","other_wild_bees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Andrena cineraria","species","other_wild_bees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Andrena cineraria","species","other_wild_bees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Andrena cineraria","species","other_wild_bees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Andrena cineraria","species","other_wild_bees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Andrena cineraria","species","other_wild_bees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Andrena cineraria","species","other_wild_bees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Andrena cineraria","species","other_wild_bees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Andrena cineraria","species","other_wild_bees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Andrena cineraria","species","other_wild_bees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Andrena cineraria","species","other_wild_bees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Andrena cineraria","species","other_wild_bees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Pommeraie_2019","Net","Andrena cineraria","species","other_wild_bees",1,0.3,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Pommeraie_2019","Net","Andrena cineraria","species","other_wild_bees",1,0.3,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Pommeraie_2019","Net","Andrena cineraria","species","other_wild_bees",1,0.3,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Pommeraie_2019","Net","Andrena cineraria","species","other_wild_bees",1,0.3,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Pommeraie_2019","Net","Andrena cineraria","species","other_wild_bees",1,0.3,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Pommeraie_2019","Net","Andrena cineraria","species","other_wild_bees",1,0.3,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Pommeraie_2019","Net","Andrena cineraria","species","other_wild_bees",1,0.3,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Andrena dorsata","species","other_wild_bees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Andrena dorsata","species","other_wild_bees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Andrena dorsata","species","other_wild_bees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Andrena dorsata","species","other_wild_bees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Andrena dorsata","species","other_wild_bees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Andrena dorsata","species","other_wild_bees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Andrena dorsata","species","other_wild_bees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Andrena dorsata","species","other_wild_bees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Andrena dorsata","species","other_wild_bees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Andrena dorsata","species","other_wild_bees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Andrena dorsata","species","other_wild_bees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Andrena dorsata","species","other_wild_bees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Andrena dorsata","species","other_wild_bees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Andrena dorsata","species","other_wild_bees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Andrena dorsata","species","other_wild_bees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Laduron","Net","Andrena dorsata","species","other_wild_bees",1,5.2,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Laduron","Net","Andrena dorsata","species","other_wild_bees",1,5.2,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Laduron","Net","Andrena dorsata","species","other_wild_bees",1,5.2,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Laduron","Net","Andrena dorsata","species","other_wild_bees",1,5.2,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Laduron","Net","Andrena dorsata","species","other_wild_bees",1,5.2,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Laduron","Net","Andrena dorsata","species","other_wild_bees",1,5.2,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Laduron","Net","Andrena dorsata","species","other_wild_bees",1,5.2,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Laduron","Net","Andrena dorsata","species","other_wild_bees",1,5.2,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Laduron","Net","Andrena dorsata","species","other_wild_bees",1,5.2,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Laduron","Net","Andrena dorsata","species","other_wild_bees",1,5.2,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Laduron","Net","Andrena dorsata","species","other_wild_bees",1,5.2,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Laduron","Net","Andrena dorsata","species","other_wild_bees",1,5.2,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Laduron","Net","Andrena dorsata","species","other_wild_bees",1,5.2,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Laduron","Net","Andrena dorsata","species","other_wild_bees",1,5.2,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Laduron","Net","Andrena dorsata","species","other_wild_bees",1,5.2,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Laduron","Net","Andrena dorsata","species","other_wild_bees",1,5.2,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Laduron","Net","Andrena dorsata","species","other_wild_bees",1,5.2,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Laduron","Net","Andrena dorsata","species","other_wild_bees",1,5.2,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Laduron","Net","Andrena dorsata","species","other_wild_bees",1,5.2,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Laduron","Net","Andrena dorsata","species","other_wild_bees",1,5.2,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Laduron","Net","Andrena dorsata","species","other_wild_bees",1,5.2,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Laduron","Net","Andrena dorsata","species","other_wild_bees",1,5.2,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Laduron","Net","Andrena dorsata","species","other_wild_bees",1,5.2,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Laduron","Net","Andrena dorsata","species","other_wild_bees",1,5.2,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Laduron","Net","Andrena dorsata","species","other_wild_bees",1,5.2,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Laduron","Net","Andrena dorsata","species","other_wild_bees",1,5.2,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Laduron","Net","Andrena dorsata","species","other_wild_bees",1,5.2,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Laduron","Net","Andrena dorsata","species","other_wild_bees",1,5.2,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Laduron","Net","Andrena dorsata","species","other_wild_bees",1,5.2,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Laduron","Net","Andrena dorsata","species","other_wild_bees",1,5.2,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Laduron","Net","Andrena dorsata","species","other_wild_bees",1,5.2,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Laduron","Net","Andrena dorsata","species","other_wild_bees",1,5.2,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de Barry","Net","Andrena dorsata","species","other_wild_bees",1,3.35,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de Brunehaut","Net","Andrena dorsata","species","other_wild_bees",1,19,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de Brunehaut","Net","Andrena dorsata","species","other_wild_bees",1,19,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de Brunehaut","Net","Andrena dorsata","species","other_wild_bees",1,19,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de Brunehaut","Net","Andrena dorsata","species","other_wild_bees",1,19,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Andrena dorsata","species","other_wild_bees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Andrena dorsata","species","other_wild_bees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Andrena dorsata","species","other_wild_bees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Andrena dorsata","species","other_wild_bees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Andrena dorsata","species","other_wild_bees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Andrena dorsata","species","other_wild_bees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Andrena dorsata","species","other_wild_bees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Andrena dorsata","species","other_wild_bees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Pommeraie_2019","Net","Andrena dorsata","species","other_wild_bees",1,0.3,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Pommeraie_2019","Net","Andrena dorsata","species","other_wild_bees",1,0.3,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Pommeraie_2019","Net","Andrena dorsata","species","other_wild_bees",1,0.3,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Pommeraie_2019","Net","Andrena dorsata","species","other_wild_bees",1,0.3,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Pommeraie_2019","Net","Andrena dorsata","species","other_wild_bees",1,0.3,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Pommeraie_2019","Net","Andrena dorsata","species","other_wild_bees",1,0.3,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Pommeraie_2019","Net","Andrena dorsata","species","other_wild_bees",1,0.3,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Pommeraie_2019","Net","Andrena dorsata","species","other_wild_bees",1,0.3,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Pommeraie_2019","Net","Andrena dorsata","species","other_wild_bees",1,0.3,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Pommeraie_2019","Net","Andrena dorsata","species","other_wild_bees",1,0.3,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Pommeraie_2019","Net","Andrena dorsata","species","other_wild_bees",1,0.3,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Pommeraie_2019","Net","Andrena dorsata","species","other_wild_bees",1,0.3,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Andrena flavipes","species","other_wild_bees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Andrena flavipes","species","other_wild_bees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Andrena flavipes","species","other_wild_bees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Andrena flavipes","species","other_wild_bees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Andrena flavipes","species","other_wild_bees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Andrena flavipes","species","other_wild_bees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Andrena flavipes","species","other_wild_bees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Andrena flavipes","species","other_wild_bees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Andrena flavipes","species","other_wild_bees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Laduron","Net","Andrena flavipes","species","other_wild_bees",1,5.2,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Laduron","Net","Andrena flavipes","species","other_wild_bees",1,5.2,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Laduron","Net","Andrena flavipes","species","other_wild_bees",1,5.2,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de Barry","Net","Andrena flavipes","species","other_wild_bees",1,3.35,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de Brunehaut","Net","Andrena flavipes","species","other_wild_bees",1,19,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de Brunehaut","Net","Andrena flavipes","species","other_wild_bees",1,19,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de Brunehaut","Net","Andrena flavipes","species","other_wild_bees",1,19,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de Brunehaut","Net","Andrena flavipes","species","other_wild_bees",1,19,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de Brunehaut","Net","Andrena flavipes","species","other_wild_bees",1,19,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de Brunehaut","Net","Andrena flavipes","species","other_wild_bees",1,19,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de Brunehaut","Net","Andrena flavipes","species","other_wild_bees",1,19,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de Brunehaut","Net","Andrena flavipes","species","other_wild_bees",1,19,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de Brunehaut","Net","Andrena flavipes","species","other_wild_bees",1,19,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de Brunehaut","Net","Andrena flavipes","species","other_wild_bees",1,19,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Andrena flavipes","species","other_wild_bees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Andrena flavipes","species","other_wild_bees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Andrena flavipes","species","other_wild_bees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Andrena flavipes","species","other_wild_bees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Andrena flavipes","species","other_wild_bees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Andrena fulva","species","other_wild_bees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Andrena fulva","species","other_wild_bees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Ballat","Net","Andrena fulva","species","other_wild_bees",1,3,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Ballat","Net","Andrena fulva","species","other_wild_bees",1,3,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Ballat","Net","Andrena fulva","species","other_wild_bees",1,3,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de Brunehaut","Net","Andrena fulva","species","other_wild_bees",1,19,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de Brunehaut","Net","Andrena fulva","species","other_wild_bees",1,19,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Andrena fulva","species","other_wild_bees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Andrena fulva","species","other_wild_bees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Andrena fulva","species","other_wild_bees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Andrena fulva","species","other_wild_bees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Andrena fulva","species","other_wild_bees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Andrena fulva","species","other_wild_bees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Pommeraie_2019","Net","Andrena fulva","species","other_wild_bees",1,0.3,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Andrena gravida","species","other_wild_bees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Andrena gravida","species","other_wild_bees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Laduron","Net","Andrena gravida","species","other_wild_bees",1,5.2,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de Brunehaut","Net","Andrena gravida","species","other_wild_bees",1,19,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de Brunehaut","Net","Andrena gravida","species","other_wild_bees",1,19,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de Brunehaut","Net","Andrena gravida","species","other_wild_bees",1,19,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de Brunehaut","Net","Andrena gravida","species","other_wild_bees",1,19,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de Brunehaut","Net","Andrena gravida","species","other_wild_bees",1,19,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Andrena gravida","species","other_wild_bees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Andrena gravida","species","other_wild_bees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Andrena gravida","species","other_wild_bees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Andrena gravida","species","other_wild_bees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Andrena gravida","species","other_wild_bees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Andrena gravida","species","other_wild_bees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Andrena gravida","species","other_wild_bees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Andrena gravida","species","other_wild_bees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Pommeraie_2019","Net","Andrena gravida","species","other_wild_bees",1,0.3,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Pommeraie_2019","Net","Andrena gravida","species","other_wild_bees",1,0.3,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Pommeraie_2019","Net","Andrena gravida","species","other_wild_bees",1,0.3,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Pommeraie_2019","Net","Andrena gravida","species","other_wild_bees",1,0.3,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Pommeraie_2019","Net","Andrena gravida","species","other_wild_bees",1,0.3,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Pommeraie_2019","Net","Andrena gravida","species","other_wild_bees",1,0.3,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Pommeraie_2019","Net","Andrena gravida","species","other_wild_bees",1,0.3,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Andrena haemorrhoa","species","other_wild_bees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Andrena haemorrhoa","species","other_wild_bees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Andrena haemorrhoa","species","other_wild_bees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Andrena haemorrhoa","species","other_wild_bees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Andrena haemorrhoa","species","other_wild_bees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Andrena haemorrhoa","species","other_wild_bees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Andrena haemorrhoa","species","other_wild_bees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Andrena haemorrhoa","species","other_wild_bees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Andrena haemorrhoa","species","other_wild_bees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Andrena haemorrhoa","species","other_wild_bees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Andrena haemorrhoa","species","other_wild_bees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Andrena haemorrhoa","species","other_wild_bees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Andrena haemorrhoa","species","other_wild_bees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Andrena haemorrhoa","species","other_wild_bees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Andrena haemorrhoa","species","other_wild_bees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Andrena haemorrhoa","species","other_wild_bees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Andrena haemorrhoa","species","other_wild_bees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Andrena haemorrhoa","species","other_wild_bees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Andrena haemorrhoa","species","other_wild_bees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Andrena haemorrhoa","species","other_wild_bees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Andrena haemorrhoa","species","other_wild_bees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Andrena haemorrhoa","species","other_wild_bees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Andrena haemorrhoa","species","other_wild_bees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Andrena haemorrhoa","species","other_wild_bees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Andrena haemorrhoa","species","other_wild_bees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Andrena haemorrhoa","species","other_wild_bees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Andrena haemorrhoa","species","other_wild_bees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Andrena haemorrhoa","species","other_wild_bees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Andrena haemorrhoa","species","other_wild_bees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Andrena haemorrhoa","species","other_wild_bees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Andrena haemorrhoa","species","other_wild_bees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Andrena haemorrhoa","species","other_wild_bees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Andrena haemorrhoa","species","other_wild_bees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Andrena haemorrhoa","species","other_wild_bees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Andrena haemorrhoa","species","other_wild_bees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Andrena haemorrhoa","species","other_wild_bees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Ballat","Net","Andrena haemorrhoa","species","other_wild_bees",1,3,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Ballat","Net","Andrena haemorrhoa","species","other_wild_bees",1,3,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Ballat","Net","Andrena haemorrhoa","species","other_wild_bees",1,3,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Ballat","Net","Andrena haemorrhoa","species","other_wild_bees",1,3,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Ballat","Net","Andrena haemorrhoa","species","other_wild_bees",1,3,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Ballat","Net","Andrena haemorrhoa","species","other_wild_bees",1,3,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Bianca 18O","Net","Andrena haemorrhoa","species","other_wild_bees",1,1.2,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Bianca 18O","Net","Andrena haemorrhoa","species","other_wild_bees",1,1.2,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Bianca 18O","Net","Andrena haemorrhoa","species","other_wild_bees",1,1.2,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Bianca 18O","Net","Andrena haemorrhoa","species","other_wild_bees",1,1.2,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Bianca 18O","Net","Andrena haemorrhoa","species","other_wild_bees",1,1.2,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Bianca 18O","Net","Andrena haemorrhoa","species","other_wild_bees",1,1.2,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Bianca 18O","Net","Andrena haemorrhoa","species","other_wild_bees",1,1.2,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Bianca 18O","Net","Andrena haemorrhoa","species","other_wild_bees",1,1.2,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Bianca 18O","Net","Andrena haemorrhoa","species","other_wild_bees",1,1.2,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Bianca 18O","Net","Andrena haemorrhoa","species","other_wild_bees",1,1.2,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Bianca 18O","Net","Andrena haemorrhoa","species","other_wild_bees",1,1.2,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Bianca 18O","Net","Andrena haemorrhoa","species","other_wild_bees",1,1.2,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Bianca 18O","Net","Andrena haemorrhoa","species","other_wild_bees",1,1.2,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Bianca 20C","Net","Andrena haemorrhoa","species","other_wild_bees",1,1.57,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Bianca 20C","Net","Andrena haemorrhoa","species","other_wild_bees",1,1.57,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Bianca 20C","Net","Andrena haemorrhoa","species","other_wild_bees",1,1.57,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Bianca 20C","Net","Andrena haemorrhoa","species","other_wild_bees",1,1.57,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Bianca 21O","Net","Andrena haemorrhoa","species","other_wild_bees",1,1.01,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Andrena haemorrhoa","species","other_wild_bees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Laduron","Net","Andrena haemorrhoa","species","other_wild_bees",1,5.2,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Laduron","Net","Andrena haemorrhoa","species","other_wild_bees",1,5.2,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Laduron","Net","Andrena haemorrhoa","species","other_wild_bees",1,5.2,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Laduron","Net","Andrena haemorrhoa","species","other_wild_bees",1,5.2,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Laduron","Net","Andrena haemorrhoa","species","other_wild_bees",1,5.2,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Laduron","Net","Andrena haemorrhoa","species","other_wild_bees",1,5.2,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Laduron","Net","Andrena haemorrhoa","species","other_wild_bees",1,5.2,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Laduron","Net","Andrena haemorrhoa","species","other_wild_bees",1,5.2,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Laduron","Net","Andrena haemorrhoa","species","other_wild_bees",1,5.2,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Laduron","Net","Andrena haemorrhoa","species","other_wild_bees",1,5.2,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Laduron","Net","Andrena haemorrhoa","species","other_wild_bees",1,5.2,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Laduron","Net","Andrena haemorrhoa","species","other_wild_bees",1,5.2,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Laduron","Net","Andrena haemorrhoa","species","other_wild_bees",1,5.2,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Laduron","Net","Andrena haemorrhoa","species","other_wild_bees",1,5.2,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Laduron","Net","Andrena haemorrhoa","species","other_wild_bees",1,5.2,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Laduron","Net","Andrena haemorrhoa","species","other_wild_bees",1,5.2,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Laduron","Net","Andrena haemorrhoa","species","other_wild_bees",1,5.2,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Laduron","Net","Andrena haemorrhoa","species","other_wild_bees",1,5.2,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Laduron","Net","Andrena haemorrhoa","species","other_wild_bees",1,5.2,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Laduron","Net","Andrena haemorrhoa","species","other_wild_bees",1,5.2,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Laduron","Net","Andrena haemorrhoa","species","other_wild_bees",1,5.2,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Laduron","Net","Andrena haemorrhoa","species","other_wild_bees",1,5.2,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Laduron","Net","Andrena haemorrhoa","species","other_wild_bees",1,5.2,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Laduron","Net","Andrena haemorrhoa","species","other_wild_bees",1,5.2,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Laduron","Net","Andrena haemorrhoa","species","other_wild_bees",1,5.2,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Laduron","Net","Andrena haemorrhoa","species","other_wild_bees",1,5.2,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de Barry","Net","Andrena haemorrhoa","species","other_wild_bees",1,3.35,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de Barry","Net","Andrena haemorrhoa","species","other_wild_bees",1,3.35,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de Barry","Net","Andrena haemorrhoa","species","other_wild_bees",1,3.35,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de Barry","Net","Andrena haemorrhoa","species","other_wild_bees",1,3.35,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de Barry","Net","Andrena haemorrhoa","species","other_wild_bees",1,3.35,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de Brunehaut","Net","Andrena haemorrhoa","species","other_wild_bees",1,19,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de Brunehaut","Net","Andrena haemorrhoa","species","other_wild_bees",1,19,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Andrena haemorrhoa","species","other_wild_bees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Andrena haemorrhoa","species","other_wild_bees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Andrena haemorrhoa","species","other_wild_bees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Andrena haemorrhoa","species","other_wild_bees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Andrena haemorrhoa","species","other_wild_bees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Andrena haemorrhoa","species","other_wild_bees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Andrena haemorrhoa","species","other_wild_bees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Andrena haemorrhoa","species","other_wild_bees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Andrena haemorrhoa","species","other_wild_bees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Andrena haemorrhoa","species","other_wild_bees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Andrena haemorrhoa","species","other_wild_bees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Andrena haemorrhoa","species","other_wild_bees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Andrena haemorrhoa","species","other_wild_bees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Andrena haemorrhoa","species","other_wild_bees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Andrena haemorrhoa","species","other_wild_bees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Andrena haemorrhoa","species","other_wild_bees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Andrena haemorrhoa","species","other_wild_bees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Andrena haemorrhoa","species","other_wild_bees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Andrena haemorrhoa","species","other_wild_bees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Andrena haemorrhoa","species","other_wild_bees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Andrena haemorrhoa","species","other_wild_bees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Andrena haemorrhoa","species","other_wild_bees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Andrena haemorrhoa","species","other_wild_bees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Andrena haemorrhoa","species","other_wild_bees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Andrena haemorrhoa","species","other_wild_bees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Andrena haemorrhoa","species","other_wild_bees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Andrena haemorrhoa","species","other_wild_bees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Andrena haemorrhoa","species","other_wild_bees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Andrena haemorrhoa","species","other_wild_bees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Andrena haemorrhoa","species","other_wild_bees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Andrena haemorrhoa","species","other_wild_bees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Andrena haemorrhoa","species","other_wild_bees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Andrena haemorrhoa","species","other_wild_bees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Andrena haemorrhoa","species","other_wild_bees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Andrena haemorrhoa","species","other_wild_bees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Andrena haemorrhoa","species","other_wild_bees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Andrena haemorrhoa","species","other_wild_bees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Andrena haemorrhoa","species","other_wild_bees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Andrena haemorrhoa","species","other_wild_bees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Andrena haemorrhoa","species","other_wild_bees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Andrena haemorrhoa","species","other_wild_bees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Andrena haemorrhoa","species","other_wild_bees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Andrena haemorrhoa","species","other_wild_bees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Pommeraie_2019","Net","Andrena haemorrhoa","species","other_wild_bees",1,0.3,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Pommeraie_2019","Net","Andrena haemorrhoa","species","other_wild_bees",1,0.3,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Pommeraie_2019","Net","Andrena haemorrhoa","species","other_wild_bees",1,0.3,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Pommeraie_2019","Net","Andrena haemorrhoa","species","other_wild_bees",1,0.3,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Pommeraie_2019","Net","Andrena haemorrhoa","species","other_wild_bees",1,0.3,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Pommeraie_2019","Net","Andrena haemorrhoa","species","other_wild_bees",1,0.3,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Pommeraie_2019","Net","Andrena haemorrhoa","species","other_wild_bees",1,0.3,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Pommeraie_2019","Net","Andrena haemorrhoa","species","other_wild_bees",1,0.3,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Pommeraie_2019","Net","Andrena haemorrhoa","species","other_wild_bees",1,0.3,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Pommeraie_2019","Net","Andrena haemorrhoa","species","other_wild_bees",1,0.3,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Pommeraie_2019","Net","Andrena haemorrhoa","species","other_wild_bees",1,0.3,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Pommeraie_2019","Net","Andrena haemorrhoa","species","other_wild_bees",1,0.3,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Pommeraie_2019","Net","Andrena haemorrhoa","species","other_wild_bees",1,0.3,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Pommeraie_2019","Net","Andrena haemorrhoa","species","other_wild_bees",1,0.3,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Pommeraie_2019","Net","Andrena haemorrhoa","species","other_wild_bees",1,0.3,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Pommeraie_2019","Net","Andrena haemorrhoa","species","other_wild_bees",1,0.3,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Pommeraie_2019","Net","Andrena haemorrhoa","species","other_wild_bees",1,0.3,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Pommeraie_2019","Net","Andrena haemorrhoa","species","other_wild_bees",1,0.3,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Pommeraie_2019","Net","Andrena haemorrhoa","species","other_wild_bees",1,0.3,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Laduron","Net","Andrena helvola","species","other_wild_bees",1,5.2,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Laduron","Net","Andrena helvola","species","other_wild_bees",1,5.2,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Laduron","Net","Andrena helvola","species","other_wild_bees",1,5.2,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de Brunehaut","Net","Andrena humilis","species","other_wild_bees",1,19,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de Brunehaut","Net","Andrena humilis","species","other_wild_bees",1,19,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de Brunehaut","Net","Andrena humilis","species","other_wild_bees",1,19,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Pommeraie_2019","Net","Andrena minutula","species","other_wild_bees",1,0.3,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Andrena nigroaenea","species","other_wild_bees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Andrena nigroaenea","species","other_wild_bees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Laduron","Net","Andrena nigroaenea","species","other_wild_bees",1,5.2,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Laduron","Net","Andrena nigroaenea","species","other_wild_bees",1,5.2,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Andrena nigroaenea","species","other_wild_bees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Andrena nitida","species","other_wild_bees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Andrena nitida","species","other_wild_bees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Andrena nitida","species","other_wild_bees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Andrena nitida","species","other_wild_bees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Andrena nitida","species","other_wild_bees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Andrena nitida","species","other_wild_bees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Andrena nitida","species","other_wild_bees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Laduron","Net","Andrena nitida","species","other_wild_bees",1,5.2,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de Barry","Net","Andrena nitida","species","other_wild_bees",1,3.35,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de Barry","Net","Andrena nitida","species","other_wild_bees",1,3.35,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de Brunehaut","Net","Andrena nitida","species","other_wild_bees",1,19,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Andrena nitida","species","other_wild_bees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Andrena nitida","species","other_wild_bees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Andrena nitida","species","other_wild_bees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Andrena nitida","species","other_wild_bees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Andrena nitida","species","other_wild_bees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Andrena nitida","species","other_wild_bees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Pommeraie_2019","Net","Andrena nitida","species","other_wild_bees",1,0.3,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Pommeraie_2019","Net","Andrena nitida","species","other_wild_bees",1,0.3,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Pommeraie_2019","Net","Andrena nitida","species","other_wild_bees",1,0.3,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Pommeraie_2019","Net","Andrena nitida","species","other_wild_bees",1,0.3,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Andrena scotica","species","other_wild_bees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Andrena scotica","species","other_wild_bees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Andrena scotica","species","other_wild_bees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Andrena scotica","species","other_wild_bees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Andrena scotica","species","other_wild_bees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Andrena scotica","species","other_wild_bees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Andrena scotica","species","other_wild_bees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Andrena scotica","species","other_wild_bees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Andrena scotica","species","other_wild_bees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Andrena scotica","species","other_wild_bees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Andrena scotica","species","other_wild_bees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Andrena scotica","species","other_wild_bees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Andrena scotica","species","other_wild_bees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Andrena scotica","species","other_wild_bees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Andrena scotica","species","other_wild_bees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Andrena scotica","species","other_wild_bees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Andrena scotica","species","other_wild_bees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Andrena scotica","species","other_wild_bees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Andrena scotica","species","other_wild_bees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Andrena scotica","species","other_wild_bees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Ballat","Net","Andrena scotica","species","other_wild_bees",1,3,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Laduron","Net","Andrena scotica","species","other_wild_bees",1,5.2,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Laduron","Net","Andrena scotica","species","other_wild_bees",1,5.2,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Laduron","Net","Andrena scotica","species","other_wild_bees",1,5.2,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Laduron","Net","Andrena scotica","species","other_wild_bees",1,5.2,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Laduron","Net","Andrena scotica","species","other_wild_bees",1,5.2,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Laduron","Net","Andrena scotica","species","other_wild_bees",1,5.2,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Laduron","Net","Andrena scotica","species","other_wild_bees",1,5.2,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de Barry","Net","Andrena scotica","species","other_wild_bees",1,3.35,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de Barry","Net","Andrena scotica","species","other_wild_bees",1,3.35,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de Brunehaut","Net","Andrena scotica","species","other_wild_bees",1,19,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Andrena scotica","species","other_wild_bees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Andrena scotica","species","other_wild_bees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Andrena scotica","species","other_wild_bees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Andrena scotica","species","other_wild_bees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Andrena scotica","species","other_wild_bees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Andrena scotica","species","other_wild_bees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Andrena scotica","species","other_wild_bees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Andrena scotica","species","other_wild_bees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Andrena scotica","species","other_wild_bees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Andrena scotica","species","other_wild_bees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Andrena scotica","species","other_wild_bees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Andrena scotica","species","other_wild_bees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Andrena scotica","species","other_wild_bees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Andrena scotica","species","other_wild_bees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Andrena scotica","species","other_wild_bees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Andrena scotica","species","other_wild_bees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Andrena scotica","species","other_wild_bees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Andrena scotica","species","other_wild_bees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Andrena scotica","species","other_wild_bees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Andrena scotica","species","other_wild_bees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Andrena scotica","species","other_wild_bees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Andrena scotica","species","other_wild_bees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Andrena scotica","species","other_wild_bees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Andrena scotica","species","other_wild_bees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Andrena scotica","species","other_wild_bees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Pommeraie_2019","Net","Andrena scotica","species","other_wild_bees",1,0.3,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Pommeraie_2019","Net","Andrena scotica","species","other_wild_bees",1,0.3,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Pommeraie_2019","Net","Andrena scotica","species","other_wild_bees",1,0.3,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Pommeraie_2019","Net","Andrena scotica","species","other_wild_bees",1,0.3,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Pommeraie_2019","Net","Andrena scotica","species","other_wild_bees",1,0.3,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Pommeraie_2019","Net","Andrena scotica","species","other_wild_bees",1,0.3,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Pommeraie_2019","Net","Andrena scotica","species","other_wild_bees",1,0.3,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Pommeraie_2019","Net","Andrena scotica","species","other_wild_bees",1,0.3,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Pommeraie_2019","Net","Andrena scotica","species","other_wild_bees",1,0.3,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Pommeraie_2019","Net","Andrena scotica","species","other_wild_bees",1,0.3,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Pommeraie_2019","Net","Andrena scotica","species","other_wild_bees",1,0.3,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Pommeraie_2019","Net","Andrena scotica","species","other_wild_bees",1,0.3,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Ballat","Net","Andrena subopaca","species","other_wild_bees",1,3,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Laduron","Net","Andrena trimmerana","species","other_wild_bees",1,5.2,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Laduron","Net","Andrena varians","species","other_wild_bees",1,5.2,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Ballat","Net","Anthophora plumipes","species","other_wild_bees",1,3,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Ballat","Net","Anthophora plumipes","species","other_wild_bees",1,3,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Ballat","Net","Anthophora plumipes","species","other_wild_bees",1,3,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Laduron","Net","Anthophora plumipes","species","other_wild_bees",1,5.2,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Laduron","Net","Anthophora plumipes","species","other_wild_bees",1,5.2,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Laduron","Net","Anthophora plumipes","species","other_wild_bees",1,5.2,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Laduron","Net","Anthophora plumipes","species","other_wild_bees",1,5.2,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Laduron","Net","Anthophora plumipes","species","other_wild_bees",1,5.2,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Laduron","Net","Anthophora plumipes","species","other_wild_bees",1,5.2,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Laduron","Net","Anthophora plumipes","species","other_wild_bees",1,5.2,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Laduron","Net","Anthophora plumipes","species","other_wild_bees",1,5.2,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de Brunehaut","Net","Anthophora plumipes","species","other_wild_bees",1,19,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Anthophora plumipes","species","other_wild_bees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Apis mellifera","species","honeybees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Apis mellifera","species","honeybees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Apis mellifera","species","honeybees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Apis mellifera","species","honeybees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Apis mellifera","species","honeybees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Apis mellifera","species","honeybees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Apis mellifera","species","honeybees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Apis mellifera","species","honeybees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Apis mellifera","species","honeybees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Apis mellifera","species","honeybees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Apis mellifera","species","honeybees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Apis mellifera","species","honeybees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Apis mellifera","species","honeybees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Apis mellifera","species","honeybees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Apis mellifera","species","honeybees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Apis mellifera","species","honeybees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Apis mellifera","species","honeybees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Apis mellifera","species","honeybees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Apis mellifera","species","honeybees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Apis mellifera","species","honeybees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Apis mellifera","species","honeybees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Apis mellifera","species","honeybees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Apis mellifera","species","honeybees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Apis mellifera","species","honeybees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Apis mellifera","species","honeybees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Apis mellifera","species","honeybees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Apis mellifera","species","honeybees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Apis mellifera","species","honeybees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Apis mellifera","species","honeybees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Apis mellifera","species","honeybees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Apis mellifera","species","honeybees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Apis mellifera","species","honeybees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Apis mellifera","species","honeybees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Apis mellifera","species","honeybees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Apis mellifera","species","honeybees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Apis mellifera","species","honeybees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Apis mellifera","species","honeybees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Apis mellifera","species","honeybees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Apis mellifera","species","honeybees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Apis mellifera","species","honeybees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Apis mellifera","species","honeybees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Apis mellifera","species","honeybees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Apis mellifera","species","honeybees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Apis mellifera","species","honeybees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Apis mellifera","species","honeybees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Apis mellifera","species","honeybees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Apis mellifera","species","honeybees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Apis mellifera","species","honeybees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Apis mellifera","species","honeybees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Apis mellifera","species","honeybees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Apis mellifera","species","honeybees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Apis mellifera","species","honeybees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Apis mellifera","species","honeybees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Apis mellifera","species","honeybees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Apis mellifera","species","honeybees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Apis mellifera","species","honeybees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Apis mellifera","species","honeybees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Apis mellifera","species","honeybees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Apis mellifera","species","honeybees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Apis mellifera","species","honeybees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Apis mellifera","species","honeybees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Apis mellifera","species","honeybees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Apis mellifera","species","honeybees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Apis mellifera","species","honeybees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Apis mellifera","species","honeybees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Apis mellifera","species","honeybees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Apis mellifera","species","honeybees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Apis mellifera","species","honeybees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Apis mellifera","species","honeybees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Apis mellifera","species","honeybees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Apis mellifera","species","honeybees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Apis mellifera","species","honeybees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Ballat","Net","Apis mellifera","species","honeybees",1,3,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Ballat","Net","Apis mellifera","species","honeybees",1,3,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Ballat","Net","Apis mellifera","species","honeybees",1,3,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Ballat","Net","Apis mellifera","species","honeybees",1,3,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Ballat","Net","Apis mellifera","species","honeybees",1,3,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Ballat","Net","Apis mellifera","species","honeybees",1,3,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Ballat","Net","Apis mellifera","species","honeybees",1,3,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Ballat","Net","Apis mellifera","species","honeybees",1,3,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Ballat","Net","Apis mellifera","species","honeybees",1,3,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Ballat","Net","Apis mellifera","species","honeybees",1,3,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Ballat","Net","Apis mellifera","species","honeybees",1,3,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Ballat","Net","Apis mellifera","species","honeybees",1,3,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Ballat","Net","Apis mellifera","species","honeybees",1,3,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Ballat","Net","Apis mellifera","species","honeybees",1,3,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Ballat","Net","Apis mellifera","species","honeybees",1,3,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Ballat","Net","Apis mellifera","species","honeybees",1,3,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Ballat","Net","Apis mellifera","species","honeybees",1,3,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Ballat","Net","Apis mellifera","species","honeybees",1,3,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Ballat","Net","Apis mellifera","species","honeybees",1,3,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Ballat","Net","Apis mellifera","species","honeybees",1,3,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Ballat","Net","Apis mellifera","species","honeybees",1,3,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Ballat","Net","Apis mellifera","species","honeybees",1,3,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Ballat","Net","Apis mellifera","species","honeybees",1,3,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Ballat","Net","Apis mellifera","species","honeybees",1,3,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Ballat","Net","Apis mellifera","species","honeybees",1,3,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Ballat","Net","Apis mellifera","species","honeybees",1,3,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Ballat","Net","Apis mellifera","species","honeybees",1,3,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Ballat","Net","Apis mellifera","species","honeybees",1,3,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Ballat","Net","Apis mellifera","species","honeybees",1,3,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Ballat","Net","Apis mellifera","species","honeybees",1,3,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Ballat","Net","Apis mellifera","species","honeybees",1,3,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Ballat","Net","Apis mellifera","species","honeybees",1,3,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Ballat","Net","Apis mellifera","species","honeybees",1,3,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Ballat","Net","Apis mellifera","species","honeybees",1,3,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Ballat","Net","Apis mellifera","species","honeybees",1,3,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Ballat","Net","Apis mellifera","species","honeybees",1,3,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Ballat","Net","Apis mellifera","species","honeybees",1,3,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Ballat","Net","Apis mellifera","species","honeybees",1,3,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Ballat","Net","Apis mellifera","species","honeybees",1,3,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Ballat","Net","Apis mellifera","species","honeybees",1,3,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Ballat","Net","Apis mellifera","species","honeybees",1,3,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Ballat","Net","Apis mellifera","species","honeybees",1,3,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Ballat","Net","Apis mellifera","species","honeybees",1,3,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Ballat","Net","Apis mellifera","species","honeybees",1,3,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Ballat","Net","Apis mellifera","species","honeybees",1,3,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Ballat","Net","Apis mellifera","species","honeybees",1,3,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Ballat","Net","Apis mellifera","species","honeybees",1,3,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Ballat","Net","Apis mellifera","species","honeybees",1,3,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Ballat","Net","Apis mellifera","species","honeybees",1,3,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Ballat","Net","Apis mellifera","species","honeybees",1,3,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Ballat","Net","Apis mellifera","species","honeybees",1,3,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Ballat","Net","Apis mellifera","species","honeybees",1,3,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Ballat","Net","Apis mellifera","species","honeybees",1,3,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Ballat","Net","Apis mellifera","species","honeybees",1,3,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Ballat","Net","Apis mellifera","species","honeybees",1,3,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Ballat","Net","Apis mellifera","species","honeybees",1,3,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Ballat","Net","Apis mellifera","species","honeybees",1,3,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Ballat","Net","Apis mellifera","species","honeybees",1,3,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Ballat","Net","Apis mellifera","species","honeybees",1,3,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Ballat","Net","Apis mellifera","species","honeybees",1,3,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Ballat","Net","Apis mellifera","species","honeybees",1,3,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Ballat","Net","Apis mellifera","species","honeybees",1,3,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Ballat","Net","Apis mellifera","species","honeybees",1,3,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Ballat","Net","Apis mellifera","species","honeybees",1,3,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Ballat","Net","Apis mellifera","species","honeybees",1,3,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Ballat","Net","Apis mellifera","species","honeybees",1,3,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Ballat","Net","Apis mellifera","species","honeybees",1,3,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Ballat","Net","Apis mellifera","species","honeybees",1,3,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Ballat","Net","Apis mellifera","species","honeybees",1,3,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Ballat","Net","Apis mellifera","species","honeybees",1,3,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Ballat","Net","Apis mellifera","species","honeybees",1,3,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Ballat","Net","Apis mellifera","species","honeybees",1,3,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Ballat","Net","Apis mellifera","species","honeybees",1,3,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Ballat","Net","Apis mellifera","species","honeybees",1,3,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Bianca 18O","Net","Apis mellifera","species","honeybees",1,1.2,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Bianca 18O","Net","Apis mellifera","species","honeybees",1,1.2,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Bianca 18O","Net","Apis mellifera","species","honeybees",1,1.2,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Bianca 18O","Net","Apis mellifera","species","honeybees",1,1.2,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Bianca 18O","Net","Apis mellifera","species","honeybees",1,1.2,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Bianca 18O","Net","Apis mellifera","species","honeybees",1,1.2,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Bianca 18O","Net","Apis mellifera","species","honeybees",1,1.2,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Bianca 18O","Net","Apis mellifera","species","honeybees",1,1.2,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Bianca 18O","Net","Apis mellifera","species","honeybees",1,1.2,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Bianca 18O","Net","Apis mellifera","species","honeybees",1,1.2,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Bianca 18O","Net","Apis mellifera","species","honeybees",1,1.2,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Bianca 18O","Net","Apis mellifera","species","honeybees",1,1.2,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Bianca 18O","Net","Apis mellifera","species","honeybees",1,1.2,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Bianca 18O","Net","Apis mellifera","species","honeybees",1,1.2,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Bianca 18O","Net","Apis mellifera","species","honeybees",1,1.2,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Bianca 18O","Net","Apis mellifera","species","honeybees",1,1.2,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Bianca 18O","Net","Apis mellifera","species","honeybees",1,1.2,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Bianca 18O","Net","Apis mellifera","species","honeybees",1,1.2,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Bianca 18O","Net","Apis mellifera","species","honeybees",1,1.2,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Bianca 18O","Net","Apis mellifera","species","honeybees",1,1.2,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Bianca 18O","Net","Apis mellifera","species","honeybees",1,1.2,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Bianca 18O","Net","Apis mellifera","species","honeybees",1,1.2,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Bianca 18O","Net","Apis mellifera","species","honeybees",1,1.2,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Bianca 18O","Net","Apis mellifera","species","honeybees",1,1.2,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Bianca 18O","Net","Apis mellifera","species","honeybees",1,1.2,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Bianca 18O","Net","Apis mellifera","species","honeybees",1,1.2,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Bianca 18O","Net","Apis mellifera","species","honeybees",1,1.2,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Bianca 18O","Net","Apis mellifera","species","honeybees",1,1.2,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Bianca 18O","Net","Apis mellifera","species","honeybees",1,1.2,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Bianca 20C","Net","Apis mellifera","species","honeybees",1,1.57,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Bianca 20C","Net","Apis mellifera","species","honeybees",1,1.57,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Bianca 20C","Net","Apis mellifera","species","honeybees",1,1.57,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Bianca 20C","Net","Apis mellifera","species","honeybees",1,1.57,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Bianca 20C","Net","Apis mellifera","species","honeybees",1,1.57,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Bianca 20C","Net","Apis mellifera","species","honeybees",1,1.57,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Bianca 20C","Net","Apis mellifera","species","honeybees",1,1.57,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Bianca 20C","Net","Apis mellifera","species","honeybees",1,1.57,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Bianca 20C","Net","Apis mellifera","species","honeybees",1,1.57,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Bianca 20C","Net","Apis mellifera","species","honeybees",1,1.57,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Bianca 20C","Net","Apis mellifera","species","honeybees",1,1.57,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Bianca 20C","Net","Apis mellifera","species","honeybees",1,1.57,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Bianca 20C","Net","Apis mellifera","species","honeybees",1,1.57,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Bianca 20C","Net","Apis mellifera","species","honeybees",1,1.57,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Bianca 20C","Net","Apis mellifera","species","honeybees",1,1.57,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Bianca 20C","Net","Apis mellifera","species","honeybees",1,1.57,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Bianca 20C","Net","Apis mellifera","species","honeybees",1,1.57,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Bianca 20C","Net","Apis mellifera","species","honeybees",1,1.57,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Bianca 20C","Net","Apis mellifera","species","honeybees",1,1.57,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Bianca 20C","Net","Apis mellifera","species","honeybees",1,1.57,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Bianca 20C","Net","Apis mellifera","species","honeybees",1,1.57,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Bianca 20C","Net","Apis mellifera","species","honeybees",1,1.57,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Bianca 20C","Net","Apis mellifera","species","honeybees",1,1.57,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Bianca 20C","Net","Apis mellifera","species","honeybees",1,1.57,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Bianca 20C","Net","Apis mellifera","species","honeybees",1,1.57,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Bianca 20C","Net","Apis mellifera","species","honeybees",1,1.57,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Bianca 20C","Net","Apis mellifera","species","honeybees",1,1.57,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Bianca 20C","Net","Apis mellifera","species","honeybees",1,1.57,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Bianca 20C","Net","Apis mellifera","species","honeybees",1,1.57,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Bianca 20C","Net","Apis mellifera","species","honeybees",1,1.57,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Bianca 20C","Net","Apis mellifera","species","honeybees",1,1.57,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Bianca 20C","Net","Apis mellifera","species","honeybees",1,1.57,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Bianca 20C","Net","Apis mellifera","species","honeybees",1,1.57,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Bianca 20C","Net","Apis mellifera","species","honeybees",1,1.57,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Bianca 20C","Net","Apis mellifera","species","honeybees",1,1.57,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Bianca 20C","Net","Apis mellifera","species","honeybees",1,1.57,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Bianca 20C","Net","Apis mellifera","species","honeybees",1,1.57,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Bianca 20C","Net","Apis mellifera","species","honeybees",1,1.57,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Bianca 20C","Net","Apis mellifera","species","honeybees",1,1.57,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Bianca 20C","Net","Apis mellifera","species","honeybees",1,1.57,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Bianca 20C","Net","Apis mellifera","species","honeybees",1,1.57,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Bianca 20C","Net","Apis mellifera","species","honeybees",1,1.57,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Bianca 20C","Net","Apis mellifera","species","honeybees",1,1.57,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Bianca 20C","Net","Apis mellifera","species","honeybees",1,1.57,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Bianca 20C","Net","Apis mellifera","species","honeybees",1,1.57,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Bianca 20C","Net","Apis mellifera","species","honeybees",1,1.57,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Bianca 20C","Net","Apis mellifera","species","honeybees",1,1.57,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Bianca 20C","Net","Apis mellifera","species","honeybees",1,1.57,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Bianca 20C","Net","Apis mellifera","species","honeybees",1,1.57,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Bianca 20C","Net","Apis mellifera","species","honeybees",1,1.57,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Bianca 21C","Net","Apis mellifera","species","honeybees",1,2.44,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Bianca 21C","Net","Apis mellifera","species","honeybees",1,2.44,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Bianca 21C","Net","Apis mellifera","species","honeybees",1,2.44,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Bianca 21C","Net","Apis mellifera","species","honeybees",1,2.44,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Bianca 21C","Net","Apis mellifera","species","honeybees",1,2.44,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Bianca 21C","Net","Apis mellifera","species","honeybees",1,2.44,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Bianca 21C","Net","Apis mellifera","species","honeybees",1,2.44,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Bianca 21C","Net","Apis mellifera","species","honeybees",1,2.44,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Bianca 21C","Net","Apis mellifera","species","honeybees",1,2.44,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Bianca 21C","Net","Apis mellifera","species","honeybees",1,2.44,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Bianca 21C","Net","Apis mellifera","species","honeybees",1,2.44,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Bianca 21C","Net","Apis mellifera","species","honeybees",1,2.44,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Bianca 21C","Net","Apis mellifera","species","honeybees",1,2.44,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Bianca 21C","Net","Apis mellifera","species","honeybees",1,2.44,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Bianca 21C","Net","Apis mellifera","species","honeybees",1,2.44,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Bianca 21C","Net","Apis mellifera","species","honeybees",1,2.44,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Bianca 21C","Net","Apis mellifera","species","honeybees",1,2.44,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Bianca 21C","Net","Apis mellifera","species","honeybees",1,2.44,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Bianca 21C","Net","Apis mellifera","species","honeybees",1,2.44,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Bianca 21C","Net","Apis mellifera","species","honeybees",1,2.44,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Bianca 21C","Net","Apis mellifera","species","honeybees",1,2.44,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Bianca 21C","Net","Apis mellifera","species","honeybees",1,2.44,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Bianca 21C","Net","Apis mellifera","species","honeybees",1,2.44,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Bianca 21C","Net","Apis mellifera","species","honeybees",1,2.44,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Bianca 21C","Net","Apis mellifera","species","honeybees",1,2.44,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Bianca 21C","Net","Apis mellifera","species","honeybees",1,2.44,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Bianca 21C","Net","Apis mellifera","species","honeybees",1,2.44,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Bianca 21C","Net","Apis mellifera","species","honeybees",1,2.44,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Bianca 21C","Net","Apis mellifera","species","honeybees",1,2.44,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Bianca 21C","Net","Apis mellifera","species","honeybees",1,2.44,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Bianca 21C","Net","Apis mellifera","species","honeybees",1,2.44,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Bianca 21C","Net","Apis mellifera","species","honeybees",1,2.44,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Bianca 21C","Net","Apis mellifera","species","honeybees",1,2.44,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Bianca 21C","Net","Apis mellifera","species","honeybees",1,2.44,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Bianca 21C","Net","Apis mellifera","species","honeybees",1,2.44,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Bianca 21C","Net","Apis mellifera","species","honeybees",1,2.44,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Bianca 21C","Net","Apis mellifera","species","honeybees",1,2.44,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Bianca 21C","Net","Apis mellifera","species","honeybees",1,2.44,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Bianca 21C","Net","Apis mellifera","species","honeybees",1,2.44,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Bianca 21C","Net","Apis mellifera","species","honeybees",1,2.44,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Bianca 21C","Net","Apis mellifera","species","honeybees",1,2.44,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Bianca 21C","Net","Apis mellifera","species","honeybees",1,2.44,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Bianca 21C","Net","Apis mellifera","species","honeybees",1,2.44,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Bianca 21C","Net","Apis mellifera","species","honeybees",1,2.44,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Bianca 21C","Net","Apis mellifera","species","honeybees",1,2.44,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Bianca 21C","Net","Apis mellifera","species","honeybees",1,2.44,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Bianca 21C","Net","Apis mellifera","species","honeybees",1,2.44,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Bianca 21C","Net","Apis mellifera","species","honeybees",1,2.44,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Bianca 21C","Net","Apis mellifera","species","honeybees",1,2.44,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Bianca 21C","Net","Apis mellifera","species","honeybees",1,2.44,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Bianca 21C","Net","Apis mellifera","species","honeybees",1,2.44,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Bianca 21C","Net","Apis mellifera","species","honeybees",1,2.44,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Bianca 21C","Net","Apis mellifera","species","honeybees",1,2.44,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Bianca 21C","Net","Apis mellifera","species","honeybees",1,2.44,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Bianca 21C","Net","Apis mellifera","species","honeybees",1,2.44,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Bianca 21C","Net","Apis mellifera","species","honeybees",1,2.44,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Bianca 21C","Net","Apis mellifera","species","honeybees",1,2.44,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Bianca 21C","Net","Apis mellifera","species","honeybees",1,2.44,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Bianca 21C","Net","Apis mellifera","species","honeybees",1,2.44,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Bianca 21C","Net","Apis mellifera","species","honeybees",1,2.44,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Bianca 21C","Net","Apis mellifera","species","honeybees",1,2.44,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Bianca 21O","Net","Apis mellifera","species","honeybees",1,1.01,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Bianca 21O","Net","Apis mellifera","species","honeybees",1,1.01,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Bianca 21O","Net","Apis mellifera","species","honeybees",1,1.01,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Bianca 21O","Net","Apis mellifera","species","honeybees",1,1.01,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Bianca 21O","Net","Apis mellifera","species","honeybees",1,1.01,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Bianca 21O","Net","Apis mellifera","species","honeybees",1,1.01,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Bianca 21O","Net","Apis mellifera","species","honeybees",1,1.01,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Bianca 21O","Net","Apis mellifera","species","honeybees",1,1.01,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Bianca 21O","Net","Apis mellifera","species","honeybees",1,1.01,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Bianca 21O","Net","Apis mellifera","species","honeybees",1,1.01,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Bianca 21O","Net","Apis mellifera","species","honeybees",1,1.01,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Bianca 21O","Net","Apis mellifera","species","honeybees",1,1.01,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Bianca 21O","Net","Apis mellifera","species","honeybees",1,1.01,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Bianca 21O","Net","Apis mellifera","species","honeybees",1,1.01,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Bianca 21O","Net","Apis mellifera","species","honeybees",1,1.01,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Bianca 21O","Net","Apis mellifera","species","honeybees",1,1.01,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Bianca 21O","Net","Apis mellifera","species","honeybees",1,1.01,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Bianca 21O","Net","Apis mellifera","species","honeybees",1,1.01,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Bianca 21O","Net","Apis mellifera","species","honeybees",1,1.01,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Bianca 21O","Net","Apis mellifera","species","honeybees",1,1.01,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Bianca 21O","Net","Apis mellifera","species","honeybees",1,1.01,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Bianca 21O","Net","Apis mellifera","species","honeybees",1,1.01,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Bianca 21O","Net","Apis mellifera","species","honeybees",1,1.01,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Bianca 21O","Net","Apis mellifera","species","honeybees",1,1.01,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Bianca 21O","Net","Apis mellifera","species","honeybees",1,1.01,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Bianca 21O","Net","Apis mellifera","species","honeybees",1,1.01,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Bianca 21O","Net","Apis mellifera","species","honeybees",1,1.01,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Bianca 21O","Net","Apis mellifera","species","honeybees",1,1.01,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Bianca 21O","Net","Apis mellifera","species","honeybees",1,1.01,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Bianca 21O","Net","Apis mellifera","species","honeybees",1,1.01,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Bianca 21O","Net","Apis mellifera","species","honeybees",1,1.01,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Bianca 21O","Net","Apis mellifera","species","honeybees",1,1.01,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Bianca 21O","Net","Apis mellifera","species","honeybees",1,1.01,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Bianca 21O","Net","Apis mellifera","species","honeybees",1,1.01,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Apis mellifera","species","honeybees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Apis mellifera","species","honeybees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Apis mellifera","species","honeybees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Apis mellifera","species","honeybees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Apis mellifera","species","honeybees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Apis mellifera","species","honeybees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Apis mellifera","species","honeybees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Apis mellifera","species","honeybees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Apis mellifera","species","honeybees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Apis mellifera","species","honeybees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Apis mellifera","species","honeybees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Apis mellifera","species","honeybees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Apis mellifera","species","honeybees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Apis mellifera","species","honeybees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Apis mellifera","species","honeybees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Apis mellifera","species","honeybees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Apis mellifera","species","honeybees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Apis mellifera","species","honeybees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Apis mellifera","species","honeybees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Apis mellifera","species","honeybees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Apis mellifera","species","honeybees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Apis mellifera","species","honeybees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Apis mellifera","species","honeybees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Apis mellifera","species","honeybees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Apis mellifera","species","honeybees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Apis mellifera","species","honeybees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Apis mellifera","species","honeybees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Apis mellifera","species","honeybees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Apis mellifera","species","honeybees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Apis mellifera","species","honeybees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Apis mellifera","species","honeybees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Apis mellifera","species","honeybees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Apis mellifera","species","honeybees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Apis mellifera","species","honeybees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Apis mellifera","species","honeybees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Apis mellifera","species","honeybees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Apis mellifera","species","honeybees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Apis mellifera","species","honeybees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Apis mellifera","species","honeybees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Apis mellifera","species","honeybees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Apis mellifera","species","honeybees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Apis mellifera","species","honeybees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Apis mellifera","species","honeybees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Apis mellifera","species","honeybees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Apis mellifera","species","honeybees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Apis mellifera","species","honeybees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Apis mellifera","species","honeybees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Apis mellifera","species","honeybees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Apis mellifera","species","honeybees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Apis mellifera","species","honeybees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Apis mellifera","species","honeybees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Apis mellifera","species","honeybees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Apis mellifera","species","honeybees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Apis mellifera","species","honeybees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Apis mellifera","species","honeybees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Apis mellifera","species","honeybees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Apis mellifera","species","honeybees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Apis mellifera","species","honeybees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Apis mellifera","species","honeybees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Apis mellifera","species","honeybees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Apis mellifera","species","honeybees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Apis mellifera","species","honeybees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Apis mellifera","species","honeybees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Apis mellifera","species","honeybees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Apis mellifera","species","honeybees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Apis mellifera","species","honeybees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Apis mellifera","species","honeybees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Apis mellifera","species","honeybees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Apis mellifera","species","honeybees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Apis mellifera","species","honeybees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Apis mellifera","species","honeybees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Apis mellifera","species","honeybees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Apis mellifera","species","honeybees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Apis mellifera","species","honeybees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Apis mellifera","species","honeybees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Apis mellifera","species","honeybees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Apis mellifera","species","honeybees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Apis mellifera","species","honeybees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Apis mellifera","species","honeybees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Apis mellifera","species","honeybees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Apis mellifera","species","honeybees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Apis mellifera","species","honeybees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Apis mellifera","species","honeybees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Apis mellifera","species","honeybees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Apis mellifera","species","honeybees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Apis mellifera","species","honeybees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Apis mellifera","species","honeybees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Apis mellifera","species","honeybees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Apis mellifera","species","honeybees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Apis mellifera","species","honeybees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Apis mellifera","species","honeybees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Apis mellifera","species","honeybees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Apis mellifera","species","honeybees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Apis mellifera","species","honeybees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Apis mellifera","species","honeybees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Apis mellifera","species","honeybees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Apis mellifera","species","honeybees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Apis mellifera","species","honeybees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Apis mellifera","species","honeybees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Apis mellifera","species","honeybees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Apis mellifera","species","honeybees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Apis mellifera","species","honeybees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Apis mellifera","species","honeybees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Apis mellifera","species","honeybees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Apis mellifera","species","honeybees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Apis mellifera","species","honeybees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Apis mellifera","species","honeybees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Apis mellifera","species","honeybees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Apis mellifera","species","honeybees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Apis mellifera","species","honeybees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Apis mellifera","species","honeybees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Apis mellifera","species","honeybees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Apis mellifera","species","honeybees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Apis mellifera","species","honeybees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Apis mellifera","species","honeybees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Apis mellifera","species","honeybees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Apis mellifera","species","honeybees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Apis mellifera","species","honeybees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Apis mellifera","species","honeybees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Apis mellifera","species","honeybees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Apis mellifera","species","honeybees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Apis mellifera","species","honeybees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Apis mellifera","species","honeybees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Apis mellifera","species","honeybees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Apis mellifera","species","honeybees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Apis mellifera","species","honeybees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Apis mellifera","species","honeybees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Apis mellifera","species","honeybees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Apis mellifera","species","honeybees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Apis mellifera","species","honeybees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Apis mellifera","species","honeybees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Apis mellifera","species","honeybees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Apis mellifera","species","honeybees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Apis mellifera","species","honeybees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Apis mellifera","species","honeybees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Apis mellifera","species","honeybees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Apis mellifera","species","honeybees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Apis mellifera","species","honeybees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Apis mellifera","species","honeybees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Apis mellifera","species","honeybees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Apis mellifera","species","honeybees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Apis mellifera","species","honeybees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Apis mellifera","species","honeybees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Apis mellifera","species","honeybees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Apis mellifera","species","honeybees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Apis mellifera","species","honeybees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Apis mellifera","species","honeybees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Apis mellifera","species","honeybees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Apis mellifera","species","honeybees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Apis mellifera","species","honeybees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Apis mellifera","species","honeybees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Apis mellifera","species","honeybees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Apis mellifera","species","honeybees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Apis mellifera","species","honeybees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Apis mellifera","species","honeybees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Apis mellifera","species","honeybees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Apis mellifera","species","honeybees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Apis mellifera","species","honeybees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Apis mellifera","species","honeybees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Apis mellifera","species","honeybees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Apis mellifera","species","honeybees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Apis mellifera","species","honeybees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Apis mellifera","species","honeybees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Apis mellifera","species","honeybees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Apis mellifera","species","honeybees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Apis mellifera","species","honeybees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Apis mellifera","species","honeybees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Apis mellifera","species","honeybees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Apis mellifera","species","honeybees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Apis mellifera","species","honeybees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Apis mellifera","species","honeybees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Apis mellifera","species","honeybees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Apis mellifera","species","honeybees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Apis mellifera","species","honeybees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Apis mellifera","species","honeybees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Apis mellifera","species","honeybees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Apis mellifera","species","honeybees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Apis mellifera","species","honeybees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Apis mellifera","species","honeybees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Apis mellifera","species","honeybees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Apis mellifera","species","honeybees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Apis mellifera","species","honeybees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Apis mellifera","species","honeybees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Apis mellifera","species","honeybees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Apis mellifera","species","honeybees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Apis mellifera","species","honeybees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Apis mellifera","species","honeybees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Apis mellifera","species","honeybees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Apis mellifera","species","honeybees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Apis mellifera","species","honeybees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Apis mellifera","species","honeybees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Apis mellifera","species","honeybees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Apis mellifera","species","honeybees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Apis mellifera","species","honeybees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Apis mellifera","species","honeybees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Apis mellifera","species","honeybees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Apis mellifera","species","honeybees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Apis mellifera","species","honeybees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Apis mellifera","species","honeybees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Apis mellifera","species","honeybees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Apis mellifera","species","honeybees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Apis mellifera","species","honeybees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Apis mellifera","species","honeybees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Apis mellifera","species","honeybees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Apis mellifera","species","honeybees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Apis mellifera","species","honeybees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Apis mellifera","species","honeybees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Apis mellifera","species","honeybees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Apis mellifera","species","honeybees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Apis mellifera","species","honeybees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Apis mellifera","species","honeybees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Apis mellifera","species","honeybees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Apis mellifera","species","honeybees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Apis mellifera","species","honeybees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Apis mellifera","species","honeybees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Apis mellifera","species","honeybees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Apis mellifera","species","honeybees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Apis mellifera","species","honeybees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Apis mellifera","species","honeybees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Apis mellifera","species","honeybees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Apis mellifera","species","honeybees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Apis mellifera","species","honeybees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Apis mellifera","species","honeybees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Apis mellifera","species","honeybees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Apis mellifera","species","honeybees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Apis mellifera","species","honeybees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Apis mellifera","species","honeybees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Apis mellifera","species","honeybees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Apis mellifera","species","honeybees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Apis mellifera","species","honeybees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Apis mellifera","species","honeybees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Apis mellifera","species","honeybees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Apis mellifera","species","honeybees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Apis mellifera","species","honeybees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Apis mellifera","species","honeybees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Apis mellifera","species","honeybees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Apis mellifera","species","honeybees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Apis mellifera","species","honeybees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Apis mellifera","species","honeybees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Apis mellifera","species","honeybees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Apis mellifera","species","honeybees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Apis mellifera","species","honeybees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Apis mellifera","species","honeybees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Apis mellifera","species","honeybees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Apis mellifera","species","honeybees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Apis mellifera","species","honeybees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Apis mellifera","species","honeybees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Apis mellifera","species","honeybees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Apis mellifera","species","honeybees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Apis mellifera","species","honeybees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Laduron","Net","Apis mellifera","species","honeybees",1,5.2,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Laduron","Net","Apis mellifera","species","honeybees",1,5.2,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Laduron","Net","Apis mellifera","species","honeybees",1,5.2,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Laduron","Net","Apis mellifera","species","honeybees",1,5.2,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Laduron","Net","Apis mellifera","species","honeybees",1,5.2,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Laduron","Net","Apis mellifera","species","honeybees",1,5.2,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Laduron","Net","Apis mellifera","species","honeybees",1,5.2,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Laduron","Net","Apis mellifera","species","honeybees",1,5.2,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Laduron","Net","Apis mellifera","species","honeybees",1,5.2,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Laduron","Net","Apis mellifera","species","honeybees",1,5.2,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Laduron","Net","Apis mellifera","species","honeybees",1,5.2,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Laduron","Net","Apis mellifera","species","honeybees",1,5.2,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Laduron","Net","Apis mellifera","species","honeybees",1,5.2,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Laduron","Net","Apis mellifera","species","honeybees",1,5.2,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Laduron","Net","Apis mellifera","species","honeybees",1,5.2,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Laduron","Net","Apis mellifera","species","honeybees",1,5.2,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Laduron","Net","Apis mellifera","species","honeybees",1,5.2,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Laduron","Net","Apis mellifera","species","honeybees",1,5.2,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Laduron","Net","Apis mellifera","species","honeybees",1,5.2,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Laduron","Net","Apis mellifera","species","honeybees",1,5.2,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Laduron","Net","Apis mellifera","species","honeybees",1,5.2,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Laduron","Net","Apis mellifera","species","honeybees",1,5.2,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Laduron","Net","Apis mellifera","species","honeybees",1,5.2,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Laduron","Net","Apis mellifera","species","honeybees",1,5.2,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Laduron","Net","Apis mellifera","species","honeybees",1,5.2,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Laduron","Net","Apis mellifera","species","honeybees",1,5.2,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Laduron","Net","Apis mellifera","species","honeybees",1,5.2,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Laduron","Net","Apis mellifera","species","honeybees",1,5.2,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Laduron","Net","Apis mellifera","species","honeybees",1,5.2,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Laduron","Net","Apis mellifera","species","honeybees",1,5.2,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Laduron","Net","Apis mellifera","species","honeybees",1,5.2,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Laduron","Net","Apis mellifera","species","honeybees",1,5.2,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Laduron","Net","Apis mellifera","species","honeybees",1,5.2,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Laduron","Net","Apis mellifera","species","honeybees",1,5.2,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Laduron","Net","Apis mellifera","species","honeybees",1,5.2,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Laduron","Net","Apis mellifera","species","honeybees",1,5.2,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Laduron","Net","Apis mellifera","species","honeybees",1,5.2,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Laduron","Net","Apis mellifera","species","honeybees",1,5.2,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Laduron","Net","Apis mellifera","species","honeybees",1,5.2,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Laduron","Net","Apis mellifera","species","honeybees",1,5.2,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Laduron","Net","Apis mellifera","species","honeybees",1,5.2,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Laduron","Net","Apis mellifera","species","honeybees",1,5.2,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Laduron","Net","Apis mellifera","species","honeybees",1,5.2,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Laduron","Net","Apis mellifera","species","honeybees",1,5.2,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Laduron","Net","Apis mellifera","species","honeybees",1,5.2,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Laduron","Net","Apis mellifera","species","honeybees",1,5.2,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Laduron","Net","Apis mellifera","species","honeybees",1,5.2,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Laduron","Net","Apis mellifera","species","honeybees",1,5.2,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Laduron","Net","Apis mellifera","species","honeybees",1,5.2,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Laduron","Net","Apis mellifera","species","honeybees",1,5.2,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Laduron","Net","Apis mellifera","species","honeybees",1,5.2,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Laduron","Net","Apis mellifera","species","honeybees",1,5.2,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Laduron","Net","Apis mellifera","species","honeybees",1,5.2,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Laduron","Net","Apis mellifera","species","honeybees",1,5.2,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Laduron","Net","Apis mellifera","species","honeybees",1,5.2,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Laduron","Net","Apis mellifera","species","honeybees",1,5.2,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Laduron","Net","Apis mellifera","species","honeybees",1,5.2,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Laduron","Net","Apis mellifera","species","honeybees",1,5.2,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Laduron","Net","Apis mellifera","species","honeybees",1,5.2,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Laduron","Net","Apis mellifera","species","honeybees",1,5.2,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Laduron","Net","Apis mellifera","species","honeybees",1,5.2,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Laduron","Net","Apis mellifera","species","honeybees",1,5.2,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Laduron","Net","Apis mellifera","species","honeybees",1,5.2,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Laduron","Net","Apis mellifera","species","honeybees",1,5.2,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Laduron","Net","Apis mellifera","species","honeybees",1,5.2,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Laduron","Net","Apis mellifera","species","honeybees",1,5.2,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Laduron","Net","Apis mellifera","species","honeybees",1,5.2,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Laduron","Net","Apis mellifera","species","honeybees",1,5.2,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Laduron","Net","Apis mellifera","species","honeybees",1,5.2,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Laduron","Net","Apis mellifera","species","honeybees",1,5.2,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Laduron","Net","Apis mellifera","species","honeybees",1,5.2,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Laduron","Net","Apis mellifera","species","honeybees",1,5.2,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Laduron","Net","Apis mellifera","species","honeybees",1,5.2,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Laduron","Net","Apis mellifera","species","honeybees",1,5.2,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Laduron","Net","Apis mellifera","species","honeybees",1,5.2,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Laduron","Net","Apis mellifera","species","honeybees",1,5.2,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Laduron","Net","Apis mellifera","species","honeybees",1,5.2,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Laduron","Net","Apis mellifera","species","honeybees",1,5.2,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Laduron","Net","Apis mellifera","species","honeybees",1,5.2,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Laduron","Net","Apis mellifera","species","honeybees",1,5.2,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Laduron","Net","Apis mellifera","species","honeybees",1,5.2,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Laduron","Net","Apis mellifera","species","honeybees",1,5.2,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Laduron","Net","Apis mellifera","species","honeybees",1,5.2,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Laduron","Net","Apis mellifera","species","honeybees",1,5.2,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Laduron","Net","Apis mellifera","species","honeybees",1,5.2,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Laduron","Net","Apis mellifera","species","honeybees",1,5.2,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Laduron","Net","Apis mellifera","species","honeybees",1,5.2,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Laduron","Net","Apis mellifera","species","honeybees",1,5.2,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Laduron","Net","Apis mellifera","species","honeybees",1,5.2,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Laduron","Net","Apis mellifera","species","honeybees",1,5.2,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Laduron","Net","Apis mellifera","species","honeybees",1,5.2,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Laduron","Net","Apis mellifera","species","honeybees",1,5.2,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Laduron","Net","Apis mellifera","species","honeybees",1,5.2,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Laduron","Net","Apis mellifera","species","honeybees",1,5.2,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Laduron","Net","Apis mellifera","species","honeybees",1,5.2,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Laduron","Net","Apis mellifera","species","honeybees",1,5.2,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Laduron","Net","Apis mellifera","species","honeybees",1,5.2,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Laduron","Net","Apis mellifera","species","honeybees",1,5.2,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Laduron","Net","Apis mellifera","species","honeybees",1,5.2,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Laduron","Net","Apis mellifera","species","honeybees",1,5.2,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Laduron","Net","Apis mellifera","species","honeybees",1,5.2,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Laduron","Net","Apis mellifera","species","honeybees",1,5.2,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Laduron","Net","Apis mellifera","species","honeybees",1,5.2,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Laduron","Net","Apis mellifera","species","honeybees",1,5.2,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Laduron","Net","Apis mellifera","species","honeybees",1,5.2,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Laduron","Net","Apis mellifera","species","honeybees",1,5.2,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Laduron","Net","Apis mellifera","species","honeybees",1,5.2,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Laduron","Net","Apis mellifera","species","honeybees",1,5.2,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Laduron","Net","Apis mellifera","species","honeybees",1,5.2,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Laduron","Net","Apis mellifera","species","honeybees",1,5.2,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Laduron","Net","Apis mellifera","species","honeybees",1,5.2,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Laduron","Net","Apis mellifera","species","honeybees",1,5.2,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Laduron","Net","Apis mellifera","species","honeybees",1,5.2,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Laduron","Net","Apis mellifera","species","honeybees",1,5.2,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Laduron","Net","Apis mellifera","species","honeybees",1,5.2,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Laduron","Net","Apis mellifera","species","honeybees",1,5.2,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Laduron","Net","Apis mellifera","species","honeybees",1,5.2,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Laduron","Net","Apis mellifera","species","honeybees",1,5.2,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Laduron","Net","Apis mellifera","species","honeybees",1,5.2,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Laduron","Net","Apis mellifera","species","honeybees",1,5.2,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Laduron","Net","Apis mellifera","species","honeybees",1,5.2,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Laduron","Net","Apis mellifera","species","honeybees",1,5.2,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Laduron","Net","Apis mellifera","species","honeybees",1,5.2,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Laduron","Net","Apis mellifera","species","honeybees",1,5.2,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Laduron","Net","Apis mellifera","species","honeybees",1,5.2,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Laduron","Net","Apis mellifera","species","honeybees",1,5.2,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Laduron","Net","Apis mellifera","species","honeybees",1,5.2,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Laduron","Net","Apis mellifera","species","honeybees",1,5.2,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Laduron","Net","Apis mellifera","species","honeybees",1,5.2,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Laduron","Net","Apis mellifera","species","honeybees",1,5.2,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Laduron","Net","Apis mellifera","species","honeybees",1,5.2,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Laduron","Net","Apis mellifera","species","honeybees",1,5.2,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Laduron","Net","Apis mellifera","species","honeybees",1,5.2,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Laduron","Net","Apis mellifera","species","honeybees",1,5.2,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Laduron","Net","Apis mellifera","species","honeybees",1,5.2,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Laduron","Net","Apis mellifera","species","honeybees",1,5.2,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Laduron","Net","Apis mellifera","species","honeybees",1,5.2,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Laduron","Net","Apis mellifera","species","honeybees",1,5.2,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Laduron","Net","Apis mellifera","species","honeybees",1,5.2,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Laduron","Net","Apis mellifera","species","honeybees",1,5.2,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Laduron","Net","Apis mellifera","species","honeybees",1,5.2,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Laduron","Net","Apis mellifera","species","honeybees",1,5.2,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Laduron","Net","Apis mellifera","species","honeybees",1,5.2,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Laduron","Net","Apis mellifera","species","honeybees",1,5.2,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Laduron","Net","Apis mellifera","species","honeybees",1,5.2,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Laduron","Net","Apis mellifera","species","honeybees",1,5.2,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Laduron","Net","Apis mellifera","species","honeybees",1,5.2,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Laduron","Net","Apis mellifera","species","honeybees",1,5.2,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Laduron","Net","Apis mellifera","species","honeybees",1,5.2,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Laduron","Net","Apis mellifera","species","honeybees",1,5.2,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Laduron","Net","Apis mellifera","species","honeybees",1,5.2,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Laduron","Net","Apis mellifera","species","honeybees",1,5.2,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Laduron","Net","Apis mellifera","species","honeybees",1,5.2,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Laduron","Net","Apis mellifera","species","honeybees",1,5.2,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Laduron","Net","Apis mellifera","species","honeybees",1,5.2,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Laduron","Net","Apis mellifera","species","honeybees",1,5.2,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Laduron","Net","Apis mellifera","species","honeybees",1,5.2,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Laduron","Net","Apis mellifera","species","honeybees",1,5.2,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Laduron","Net","Apis mellifera","species","honeybees",1,5.2,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Laduron","Net","Apis mellifera","species","honeybees",1,5.2,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Laduron","Net","Apis mellifera","species","honeybees",1,5.2,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Laduron","Net","Apis mellifera","species","honeybees",1,5.2,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Laduron","Net","Apis mellifera","species","honeybees",1,5.2,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Laduron","Net","Apis mellifera","species","honeybees",1,5.2,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Laduron","Net","Apis mellifera","species","honeybees",1,5.2,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Laduron","Net","Apis mellifera","species","honeybees",1,5.2,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Laduron","Net","Apis mellifera","species","honeybees",1,5.2,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Laduron","Net","Apis mellifera","species","honeybees",1,5.2,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Laduron","Net","Apis mellifera","species","honeybees",1,5.2,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Laduron","Net","Apis mellifera","species","honeybees",1,5.2,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Laduron","Net","Apis mellifera","species","honeybees",1,5.2,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Laduron","Net","Apis mellifera","species","honeybees",1,5.2,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Laduron","Net","Apis mellifera","species","honeybees",1,5.2,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Laduron","Net","Apis mellifera","species","honeybees",1,5.2,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Laduron","Net","Apis mellifera","species","honeybees",1,5.2,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Laduron","Net","Apis mellifera","species","honeybees",1,5.2,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Laduron","Net","Apis mellifera","species","honeybees",1,5.2,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Laduron","Net","Apis mellifera","species","honeybees",1,5.2,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Laduron","Net","Apis mellifera","species","honeybees",1,5.2,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Laduron","Net","Apis mellifera","species","honeybees",1,5.2,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Laduron","Net","Apis mellifera","species","honeybees",1,5.2,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Laduron","Net","Apis mellifera","species","honeybees",1,5.2,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Laduron","Net","Apis mellifera","species","honeybees",1,5.2,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Laduron","Net","Apis mellifera","species","honeybees",1,5.2,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Laduron","Net","Apis mellifera","species","honeybees",1,5.2,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de Barry","Net","Apis mellifera","species","honeybees",1,3.35,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de Barry","Net","Apis mellifera","species","honeybees",1,3.35,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de Barry","Net","Apis mellifera","species","honeybees",1,3.35,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de Barry","Net","Apis mellifera","species","honeybees",1,3.35,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de Barry","Net","Apis mellifera","species","honeybees",1,3.35,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de Barry","Net","Apis mellifera","species","honeybees",1,3.35,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de Barry","Net","Apis mellifera","species","honeybees",1,3.35,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de Barry","Net","Apis mellifera","species","honeybees",1,3.35,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de Barry","Net","Apis mellifera","species","honeybees",1,3.35,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de Barry","Net","Apis mellifera","species","honeybees",1,3.35,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de Barry","Net","Apis mellifera","species","honeybees",1,3.35,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de Barry","Net","Apis mellifera","species","honeybees",1,3.35,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de Barry","Net","Apis mellifera","species","honeybees",1,3.35,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de Barry","Net","Apis mellifera","species","honeybees",1,3.35,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de Barry","Net","Apis mellifera","species","honeybees",1,3.35,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de Barry","Net","Apis mellifera","species","honeybees",1,3.35,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de Barry","Net","Apis mellifera","species","honeybees",1,3.35,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de Barry","Net","Apis mellifera","species","honeybees",1,3.35,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de Barry","Net","Apis mellifera","species","honeybees",1,3.35,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de Brunehaut","Net","Apis mellifera","species","honeybees",1,19,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de Brunehaut","Net","Apis mellifera","species","honeybees",1,19,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de Brunehaut","Net","Apis mellifera","species","honeybees",1,19,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de Brunehaut","Net","Apis mellifera","species","honeybees",1,19,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de Brunehaut","Net","Apis mellifera","species","honeybees",1,19,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de Brunehaut","Net","Apis mellifera","species","honeybees",1,19,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de Brunehaut","Net","Apis mellifera","species","honeybees",1,19,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de Brunehaut","Net","Apis mellifera","species","honeybees",1,19,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de Brunehaut","Net","Apis mellifera","species","honeybees",1,19,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de Brunehaut","Net","Apis mellifera","species","honeybees",1,19,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de Brunehaut","Net","Apis mellifera","species","honeybees",1,19,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de Brunehaut","Net","Apis mellifera","species","honeybees",1,19,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de Brunehaut","Net","Apis mellifera","species","honeybees",1,19,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de Brunehaut","Net","Apis mellifera","species","honeybees",1,19,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de Brunehaut","Net","Apis mellifera","species","honeybees",1,19,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de Brunehaut","Net","Apis mellifera","species","honeybees",1,19,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de Brunehaut","Net","Apis mellifera","species","honeybees",1,19,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de Brunehaut","Net","Apis mellifera","species","honeybees",1,19,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de Brunehaut","Net","Apis mellifera","species","honeybees",1,19,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de Brunehaut","Net","Apis mellifera","species","honeybees",1,19,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de Brunehaut","Net","Apis mellifera","species","honeybees",1,19,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de Brunehaut","Net","Apis mellifera","species","honeybees",1,19,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de Brunehaut","Net","Apis mellifera","species","honeybees",1,19,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de Brunehaut","Net","Apis mellifera","species","honeybees",1,19,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de Brunehaut","Net","Apis mellifera","species","honeybees",1,19,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de Brunehaut","Net","Apis mellifera","species","honeybees",1,19,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de Brunehaut","Net","Apis mellifera","species","honeybees",1,19,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de Brunehaut","Net","Apis mellifera","species","honeybees",1,19,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de Brunehaut","Net","Apis mellifera","species","honeybees",1,19,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de Brunehaut","Net","Apis mellifera","species","honeybees",1,19,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de Brunehaut","Net","Apis mellifera","species","honeybees",1,19,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de Brunehaut","Net","Apis mellifera","species","honeybees",1,19,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de Brunehaut","Net","Apis mellifera","species","honeybees",1,19,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de Brunehaut","Net","Apis mellifera","species","honeybees",1,19,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de Brunehaut","Net","Apis mellifera","species","honeybees",1,19,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de Brunehaut","Net","Apis mellifera","species","honeybees",1,19,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de Brunehaut","Net","Apis mellifera","species","honeybees",1,19,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de Brunehaut","Net","Apis mellifera","species","honeybees",1,19,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de Brunehaut","Net","Apis mellifera","species","honeybees",1,19,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de Brunehaut","Net","Apis mellifera","species","honeybees",1,19,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de Brunehaut","Net","Apis mellifera","species","honeybees",1,19,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de Brunehaut","Net","Apis mellifera","species","honeybees",1,19,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de Brunehaut","Net","Apis mellifera","species","honeybees",1,19,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de Brunehaut","Net","Apis mellifera","species","honeybees",1,19,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de Brunehaut","Net","Apis mellifera","species","honeybees",1,19,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de Brunehaut","Net","Apis mellifera","species","honeybees",1,19,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de Brunehaut","Net","Apis mellifera","species","honeybees",1,19,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de Brunehaut","Net","Apis mellifera","species","honeybees",1,19,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de Brunehaut","Net","Apis mellifera","species","honeybees",1,19,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de Brunehaut","Net","Apis mellifera","species","honeybees",1,19,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de Brunehaut","Net","Apis mellifera","species","honeybees",1,19,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de Brunehaut","Net","Apis mellifera","species","honeybees",1,19,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Apis mellifera","species","honeybees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Apis mellifera","species","honeybees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Apis mellifera","species","honeybees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Apis mellifera","species","honeybees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Apis mellifera","species","honeybees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Apis mellifera","species","honeybees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Apis mellifera","species","honeybees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Apis mellifera","species","honeybees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Apis mellifera","species","honeybees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Apis mellifera","species","honeybees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Apis mellifera","species","honeybees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Apis mellifera","species","honeybees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Apis mellifera","species","honeybees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Apis mellifera","species","honeybees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Apis mellifera","species","honeybees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Apis mellifera","species","honeybees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Apis mellifera","species","honeybees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Apis mellifera","species","honeybees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Apis mellifera","species","honeybees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Apis mellifera","species","honeybees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Apis mellifera","species","honeybees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Apis mellifera","species","honeybees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Apis mellifera","species","honeybees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Apis mellifera","species","honeybees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Apis mellifera","species","honeybees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Apis mellifera","species","honeybees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Apis mellifera","species","honeybees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Apis mellifera","species","honeybees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Apis mellifera","species","honeybees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Apis mellifera","species","honeybees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Apis mellifera","species","honeybees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Apis mellifera","species","honeybees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Apis mellifera","species","honeybees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Apis mellifera","species","honeybees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Apis mellifera","species","honeybees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Apis mellifera","species","honeybees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Apis mellifera","species","honeybees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Apis mellifera","species","honeybees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Apis mellifera","species","honeybees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Apis mellifera","species","honeybees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Apis mellifera","species","honeybees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Apis mellifera","species","honeybees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Apis mellifera","species","honeybees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Apis mellifera","species","honeybees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Apis mellifera","species","honeybees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Apis mellifera","species","honeybees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Apis mellifera","species","honeybees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Apis mellifera","species","honeybees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Apis mellifera","species","honeybees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Apis mellifera","species","honeybees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Apis mellifera","species","honeybees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Apis mellifera","species","honeybees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Apis mellifera","species","honeybees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Apis mellifera","species","honeybees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Apis mellifera","species","honeybees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Apis mellifera","species","honeybees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Apis mellifera","species","honeybees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Apis mellifera","species","honeybees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Apis mellifera","species","honeybees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Apis mellifera","species","honeybees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Apis mellifera","species","honeybees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Apis mellifera","species","honeybees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Apis mellifera","species","honeybees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Apis mellifera","species","honeybees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Apis mellifera","species","honeybees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Apis mellifera","species","honeybees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Apis mellifera","species","honeybees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Apis mellifera","species","honeybees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Apis mellifera","species","honeybees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Apis mellifera","species","honeybees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Apis mellifera","species","honeybees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Apis mellifera","species","honeybees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Apis mellifera","species","honeybees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Apis mellifera","species","honeybees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Apis mellifera","species","honeybees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Apis mellifera","species","honeybees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Apis mellifera","species","honeybees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Apis mellifera","species","honeybees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Apis mellifera","species","honeybees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Apis mellifera","species","honeybees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Apis mellifera","species","honeybees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Apis mellifera","species","honeybees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Apis mellifera","species","honeybees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Apis mellifera","species","honeybees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Apis mellifera","species","honeybees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Apis mellifera","species","honeybees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Apis mellifera","species","honeybees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Apis mellifera","species","honeybees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Apis mellifera","species","honeybees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Apis mellifera","species","honeybees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Apis mellifera","species","honeybees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Apis mellifera","species","honeybees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Apis mellifera","species","honeybees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Apis mellifera","species","honeybees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Apis mellifera","species","honeybees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Apis mellifera","species","honeybees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Apis mellifera","species","honeybees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Apis mellifera","species","honeybees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Apis mellifera","species","honeybees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Apis mellifera","species","honeybees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Apis mellifera","species","honeybees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Apis mellifera","species","honeybees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Apis mellifera","species","honeybees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Apis mellifera","species","honeybees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Apis mellifera","species","honeybees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Apis mellifera","species","honeybees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Apis mellifera","species","honeybees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Apis mellifera","species","honeybees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Apis mellifera","species","honeybees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Apis mellifera","species","honeybees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Apis mellifera","species","honeybees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Apis mellifera","species","honeybees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Apis mellifera","species","honeybees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Apis mellifera","species","honeybees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Apis mellifera","species","honeybees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Apis mellifera","species","honeybees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Apis mellifera","species","honeybees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Apis mellifera","species","honeybees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Apis mellifera","species","honeybees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Apis mellifera","species","honeybees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Apis mellifera","species","honeybees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Apis mellifera","species","honeybees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Apis mellifera","species","honeybees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Apis mellifera","species","honeybees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Apis mellifera","species","honeybees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Apis mellifera","species","honeybees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Apis mellifera","species","honeybees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Apis mellifera","species","honeybees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Apis mellifera","species","honeybees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Apis mellifera","species","honeybees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Apis mellifera","species","honeybees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Apis mellifera","species","honeybees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Apis mellifera","species","honeybees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Apis mellifera","species","honeybees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Apis mellifera","species","honeybees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Apis mellifera","species","honeybees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Apis mellifera","species","honeybees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Apis mellifera","species","honeybees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Apis mellifera","species","honeybees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Apis mellifera","species","honeybees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Apis mellifera","species","honeybees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Apis mellifera","species","honeybees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Apis mellifera","species","honeybees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Apis mellifera","species","honeybees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Apis mellifera","species","honeybees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Apis mellifera","species","honeybees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Apis mellifera","species","honeybees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Apis mellifera","species","honeybees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Apis mellifera","species","honeybees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Apis mellifera","species","honeybees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Apis mellifera","species","honeybees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Apis mellifera","species","honeybees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Apis mellifera","species","honeybees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Apis mellifera","species","honeybees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Apis mellifera","species","honeybees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Apis mellifera","species","honeybees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Apis mellifera","species","honeybees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Apis mellifera","species","honeybees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Apis mellifera","species","honeybees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Apis mellifera","species","honeybees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Apis mellifera","species","honeybees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Apis mellifera","species","honeybees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Apis mellifera","species","honeybees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Apis mellifera","species","honeybees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Apis mellifera","species","honeybees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Apis mellifera","species","honeybees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Apis mellifera","species","honeybees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Apis mellifera","species","honeybees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Apis mellifera","species","honeybees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Apis mellifera","species","honeybees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Apis mellifera","species","honeybees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Apis mellifera","species","honeybees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Apis mellifera","species","honeybees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Apis mellifera","species","honeybees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Apis mellifera","species","honeybees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Apis mellifera","species","honeybees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Apis mellifera","species","honeybees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Apis mellifera","species","honeybees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Apis mellifera","species","honeybees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Apis mellifera","species","honeybees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Apis mellifera","species","honeybees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Apis mellifera","species","honeybees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Apis mellifera","species","honeybees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Apis mellifera","species","honeybees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Apis mellifera","species","honeybees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Apis mellifera","species","honeybees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Apis mellifera","species","honeybees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Apis mellifera","species","honeybees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Apis mellifera","species","honeybees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Apis mellifera","species","honeybees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Apis mellifera","species","honeybees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Apis mellifera","species","honeybees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Apis mellifera","species","honeybees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Apis mellifera","species","honeybees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Apis mellifera","species","honeybees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Apis mellifera","species","honeybees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Apis mellifera","species","honeybees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Apis mellifera","species","honeybees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Apis mellifera","species","honeybees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Apis mellifera","species","honeybees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Apis mellifera","species","honeybees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Apis mellifera","species","honeybees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Apis mellifera","species","honeybees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Apis mellifera","species","honeybees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Apis mellifera","species","honeybees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Apis mellifera","species","honeybees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Apis mellifera","species","honeybees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Apis mellifera","species","honeybees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Apis mellifera","species","honeybees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Apis mellifera","species","honeybees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Apis mellifera","species","honeybees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Apis mellifera","species","honeybees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Apis mellifera","species","honeybees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Apis mellifera","species","honeybees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Apis mellifera","species","honeybees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Apis mellifera","species","honeybees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Apis mellifera","species","honeybees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Apis mellifera","species","honeybees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Apis mellifera","species","honeybees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Apis mellifera","species","honeybees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Apis mellifera","species","honeybees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Apis mellifera","species","honeybees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Apis mellifera","species","honeybees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Apis mellifera","species","honeybees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Apis mellifera","species","honeybees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Apis mellifera","species","honeybees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Apis mellifera","species","honeybees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Apis mellifera","species","honeybees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Apis mellifera","species","honeybees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Apis mellifera","species","honeybees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Apis mellifera","species","honeybees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Apis mellifera","species","honeybees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Apis mellifera","species","honeybees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Apis mellifera","species","honeybees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Apis mellifera","species","honeybees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Apis mellifera","species","honeybees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Apis mellifera","species","honeybees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Apis mellifera","species","honeybees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Apis mellifera","species","honeybees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Apis mellifera","species","honeybees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Apis mellifera","species","honeybees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Apis mellifera","species","honeybees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Apis mellifera","species","honeybees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Apis mellifera","species","honeybees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Apis mellifera","species","honeybees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Apis mellifera","species","honeybees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Apis mellifera","species","honeybees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Apis mellifera","species","honeybees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Apis mellifera","species","honeybees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Apis mellifera","species","honeybees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Apis mellifera","species","honeybees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Apis mellifera","species","honeybees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Apis mellifera","species","honeybees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Apis mellifera","species","honeybees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Apis mellifera","species","honeybees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Apis mellifera","species","honeybees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Apis mellifera","species","honeybees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Apis mellifera","species","honeybees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Apis mellifera","species","honeybees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Apis mellifera","species","honeybees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Apis mellifera","species","honeybees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Apis mellifera","species","honeybees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Apis mellifera","species","honeybees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Apis mellifera","species","honeybees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Apis mellifera","species","honeybees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Apis mellifera","species","honeybees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Apis mellifera","species","honeybees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Apis mellifera","species","honeybees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Apis mellifera","species","honeybees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Apis mellifera","species","honeybees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Apis mellifera","species","honeybees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Apis mellifera","species","honeybees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Apis mellifera","species","honeybees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Apis mellifera","species","honeybees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Apis mellifera","species","honeybees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Apis mellifera","species","honeybees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Apis mellifera","species","honeybees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Apis mellifera","species","honeybees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Apis mellifera","species","honeybees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Apis mellifera","species","honeybees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Apis mellifera","species","honeybees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Apis mellifera","species","honeybees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Apis mellifera","species","honeybees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Apis mellifera","species","honeybees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Apis mellifera","species","honeybees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Apis mellifera","species","honeybees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Apis mellifera","species","honeybees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Apis mellifera","species","honeybees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Apis mellifera","species","honeybees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Apis mellifera","species","honeybees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Apis mellifera","species","honeybees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Apis mellifera","species","honeybees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Apis mellifera","species","honeybees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Apis mellifera","species","honeybees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Apis mellifera","species","honeybees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Apis mellifera","species","honeybees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Apis mellifera","species","honeybees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Apis mellifera","species","honeybees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Apis mellifera","species","honeybees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Apis mellifera","species","honeybees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Apis mellifera","species","honeybees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Apis mellifera","species","honeybees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Apis mellifera","species","honeybees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Apis mellifera","species","honeybees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Apis mellifera","species","honeybees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Apis mellifera","species","honeybees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Apis mellifera","species","honeybees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Apis mellifera","species","honeybees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Apis mellifera","species","honeybees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Apis mellifera","species","honeybees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Apis mellifera","species","honeybees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Apis mellifera","species","honeybees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Apis mellifera","species","honeybees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Apis mellifera","species","honeybees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Apis mellifera","species","honeybees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Apis mellifera","species","honeybees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Apis mellifera","species","honeybees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Apis mellifera","species","honeybees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Apis mellifera","species","honeybees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Apis mellifera","species","honeybees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Apis mellifera","species","honeybees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Apis mellifera","species","honeybees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Apis mellifera","species","honeybees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Apis mellifera","species","honeybees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Apis mellifera","species","honeybees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Apis mellifera","species","honeybees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Apis mellifera","species","honeybees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Apis mellifera","species","honeybees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Apis mellifera","species","honeybees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Apis mellifera","species","honeybees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Apis mellifera","species","honeybees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Apis mellifera","species","honeybees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Apis mellifera","species","honeybees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Apis mellifera","species","honeybees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Apis mellifera","species","honeybees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Apis mellifera","species","honeybees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Apis mellifera","species","honeybees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Apis mellifera","species","honeybees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Apis mellifera","species","honeybees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Apis mellifera","species","honeybees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Apis mellifera","species","honeybees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Apis mellifera","species","honeybees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Apis mellifera","species","honeybees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Apis mellifera","species","honeybees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Apis mellifera","species","honeybees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Apis mellifera","species","honeybees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Apis mellifera","species","honeybees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Apis mellifera","species","honeybees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Apis mellifera","species","honeybees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Apis mellifera","species","honeybees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Apis mellifera","species","honeybees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Apis mellifera","species","honeybees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Apis mellifera","species","honeybees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Apis mellifera","species","honeybees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Apis mellifera","species","honeybees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Apis mellifera","species","honeybees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Apis mellifera","species","honeybees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Apis mellifera","species","honeybees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Apis mellifera","species","honeybees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Apis mellifera","species","honeybees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Apis mellifera","species","honeybees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Apis mellifera","species","honeybees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Apis mellifera","species","honeybees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Apis mellifera","species","honeybees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Apis mellifera","species","honeybees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Apis mellifera","species","honeybees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Apis mellifera","species","honeybees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Apis mellifera","species","honeybees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Apis mellifera","species","honeybees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Apis mellifera","species","honeybees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Apis mellifera","species","honeybees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Apis mellifera","species","honeybees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Apis mellifera","species","honeybees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Apis mellifera","species","honeybees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Apis mellifera","species","honeybees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Apis mellifera","species","honeybees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Apis mellifera","species","honeybees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Apis mellifera","species","honeybees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Apis mellifera","species","honeybees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Apis mellifera","species","honeybees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Apis mellifera","species","honeybees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Apis mellifera","species","honeybees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Apis mellifera","species","honeybees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Apis mellifera","species","honeybees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Apis mellifera","species","honeybees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Apis mellifera","species","honeybees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Apis mellifera","species","honeybees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Apis mellifera","species","honeybees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Apis mellifera","species","honeybees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Apis mellifera","species","honeybees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Apis mellifera","species","honeybees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Apis mellifera","species","honeybees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Apis mellifera","species","honeybees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Apis mellifera","species","honeybees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Apis mellifera","species","honeybees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Apis mellifera","species","honeybees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Apis mellifera","species","honeybees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Apis mellifera","species","honeybees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Apis mellifera","species","honeybees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Apis mellifera","species","honeybees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Apis mellifera","species","honeybees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Apis mellifera","species","honeybees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Apis mellifera","species","honeybees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Apis mellifera","species","honeybees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Apis mellifera","species","honeybees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Apis mellifera","species","honeybees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Apis mellifera","species","honeybees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Apis mellifera","species","honeybees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Apis mellifera","species","honeybees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Apis mellifera","species","honeybees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Apis mellifera","species","honeybees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Apis mellifera","species","honeybees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Apis mellifera","species","honeybees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Apis mellifera","species","honeybees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Apis mellifera","species","honeybees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Apis mellifera","species","honeybees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Apis mellifera","species","honeybees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Apis mellifera","species","honeybees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Apis mellifera","species","honeybees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Apis mellifera","species","honeybees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Apis mellifera","species","honeybees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Apis mellifera","species","honeybees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Apis mellifera","species","honeybees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Apis mellifera","species","honeybees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Apis mellifera","species","honeybees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Apis mellifera","species","honeybees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Apis mellifera","species","honeybees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Apis mellifera","species","honeybees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Apis mellifera","species","honeybees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Apis mellifera","species","honeybees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Apis mellifera","species","honeybees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Apis mellifera","species","honeybees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Apis mellifera","species","honeybees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Apis mellifera","species","honeybees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Apis mellifera","species","honeybees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Apis mellifera","species","honeybees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Apis mellifera","species","honeybees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Apis mellifera","species","honeybees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Apis mellifera","species","honeybees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Apis mellifera","species","honeybees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Apis mellifera","species","honeybees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Apis mellifera","species","honeybees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Apis mellifera","species","honeybees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Apis mellifera","species","honeybees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Apis mellifera","species","honeybees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Apis mellifera","species","honeybees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Apis mellifera","species","honeybees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Apis mellifera","species","honeybees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Apis mellifera","species","honeybees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Apis mellifera","species","honeybees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Apis mellifera","species","honeybees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Apis mellifera","species","honeybees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Apis mellifera","species","honeybees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Apis mellifera","species","honeybees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Apis mellifera","species","honeybees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Apis mellifera","species","honeybees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Apis mellifera","species","honeybees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Apis mellifera","species","honeybees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Apis mellifera","species","honeybees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Apis mellifera","species","honeybees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Apis mellifera","species","honeybees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Apis mellifera","species","honeybees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Apis mellifera","species","honeybees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Apis mellifera","species","honeybees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Apis mellifera","species","honeybees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Apis mellifera","species","honeybees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Apis mellifera","species","honeybees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Apis mellifera","species","honeybees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Apis mellifera","species","honeybees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Apis mellifera","species","honeybees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Apis mellifera","species","honeybees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Apis mellifera","species","honeybees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Apis mellifera","species","honeybees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Apis mellifera","species","honeybees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Apis mellifera","species","honeybees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Apis mellifera","species","honeybees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Apis mellifera","species","honeybees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Apis mellifera","species","honeybees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Apis mellifera","species","honeybees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Apis mellifera","species","honeybees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Apis mellifera","species","honeybees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Apis mellifera","species","honeybees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Apis mellifera","species","honeybees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Apis mellifera","species","honeybees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Apis mellifera","species","honeybees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Pommeraie_2019","Net","Apis mellifera","species","honeybees",1,0.3,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Pommeraie_2019","Net","Apis mellifera","species","honeybees",1,0.3,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Pommeraie_2019","Net","Apis mellifera","species","honeybees",1,0.3,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Pommeraie_2019","Net","Apis mellifera","species","honeybees",1,0.3,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Pommeraie_2019","Net","Apis mellifera","species","honeybees",1,0.3,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Pommeraie_2019","Net","Apis mellifera","species","honeybees",1,0.3,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Pommeraie_2019","Net","Apis mellifera","species","honeybees",1,0.3,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Pommeraie_2019","Net","Apis mellifera","species","honeybees",1,0.3,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Pommeraie_2019","Net","Apis mellifera","species","honeybees",1,0.3,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Pommeraie_2019","Net","Apis mellifera","species","honeybees",1,0.3,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Pommeraie_2019","Net","Apis mellifera","species","honeybees",1,0.3,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Pommeraie_2019","Net","Apis mellifera","species","honeybees",1,0.3,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Pommeraie_2019","Net","Apis mellifera","species","honeybees",1,0.3,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Pommeraie_2019","Net","Apis mellifera","species","honeybees",1,0.3,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Pommeraie_2019","Net","Apis mellifera","species","honeybees",1,0.3,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Pommeraie_2019","Net","Apis mellifera","species","honeybees",1,0.3,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Pommeraie_2019","Net","Apis mellifera","species","honeybees",1,0.3,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Pommeraie_2019","Net","Apis mellifera","species","honeybees",1,0.3,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Pommeraie_2019","Net","Apis mellifera","species","honeybees",1,0.3,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Pommeraie_2019","Net","Apis mellifera","species","honeybees",1,0.3,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Pommeraie_2019","Net","Apis mellifera","species","honeybees",1,0.3,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Pommeraie_2019","Net","Apis mellifera","species","honeybees",1,0.3,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Pommeraie_2019","Net","Apis mellifera","species","honeybees",1,0.3,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Pommeraie_2019","Net","Apis mellifera","species","honeybees",1,0.3,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Pommeraie_2019","Net","Apis mellifera","species","honeybees",1,0.3,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Pommeraie_2019","Net","Apis mellifera","species","honeybees",1,0.3,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Pommeraie_2019","Net","Apis mellifera","species","honeybees",1,0.3,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Pommeraie_2019","Net","Apis mellifera","species","honeybees",1,0.3,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Pommeraie_2019","Net","Apis mellifera","species","honeybees",1,0.3,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Pommeraie_2019","Net","Apis mellifera","species","honeybees",1,0.3,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Pommeraie_2019","Net","Apis mellifera","species","honeybees",1,0.3,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Pommeraie_2019","Net","Apis mellifera","species","honeybees",1,0.3,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Pommeraie_2019","Net","Apis mellifera","species","honeybees",1,0.3,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Pommeraie_2019","Net","Apis mellifera","species","honeybees",1,0.3,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Pommeraie_2019","Net","Apis mellifera","species","honeybees",1,0.3,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Pommeraie_2019","Net","Apis mellifera","species","honeybees",1,0.3,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Pommeraie_2019","Net","Apis mellifera","species","honeybees",1,0.3,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Pommeraie_2019","Net","Apis mellifera","species","honeybees",1,0.3,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Pommeraie_2019","Net","Apis mellifera","species","honeybees",1,0.3,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Pommeraie_2019","Net","Apis mellifera","species","honeybees",1,0.3,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Pommeraie_2019","Net","Apis mellifera","species","honeybees",1,0.3,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Pommeraie_2019","Net","Apis mellifera","species","honeybees",1,0.3,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Pommeraie_2019","Net","Apis mellifera","species","honeybees",1,0.3,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Pommeraie_2019","Net","Apis mellifera","species","honeybees",1,0.3,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Pommeraie_2019","Net","Apis mellifera","species","honeybees",1,0.3,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Pommeraie_2019","Net","Apis mellifera","species","honeybees",1,0.3,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Pommeraie_2019","Net","Apis mellifera","species","honeybees",1,0.3,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Pommeraie_2019","Net","Apis mellifera","species","honeybees",1,0.3,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Pommeraie_2019","Net","Apis mellifera","species","honeybees",1,0.3,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Pommeraie_2019","Net","Apis mellifera","species","honeybees",1,0.3,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Pommeraie_2019","Net","Apis mellifera","species","honeybees",1,0.3,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Pommeraie_2019","Net","Apis mellifera","species","honeybees",1,0.3,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Pommeraie_2019","Net","Apis mellifera","species","honeybees",1,0.3,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Pommeraie_2019","Net","Apis mellifera","species","honeybees",1,0.3,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Pommeraie_2019","Net","Apis mellifera","species","honeybees",1,0.3,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Pommeraie_2019","Net","Apis mellifera","species","honeybees",1,0.3,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Pommeraie_2019","Net","Apis mellifera","species","honeybees",1,0.3,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Pommeraie_2019","Net","Apis mellifera","species","honeybees",1,0.3,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Pommeraie_2019","Net","Apis mellifera","species","honeybees",1,0.3,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Pommeraie_2019","Net","Apis mellifera","species","honeybees",1,0.3,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Pommeraie_2019","Net","Apis mellifera","species","honeybees",1,0.3,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Pommeraie_2019","Net","Apis mellifera","species","honeybees",1,0.3,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Pommeraie_2019","Net","Apis mellifera","species","honeybees",1,0.3,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Pommeraie_2019","Net","Apis mellifera","species","honeybees",1,0.3,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Pommeraie_2019","Net","Apis mellifera","species","honeybees",1,0.3,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Pommeraie_2019","Net","Apis mellifera","species","honeybees",1,0.3,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Pommeraie_2019","Net","Apis mellifera","species","honeybees",1,0.3,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Pommeraie_2019","Net","Apis mellifera","species","honeybees",1,0.3,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Pommeraie_2019","Net","Apis mellifera","species","honeybees",1,0.3,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Pommeraie_2019","Net","Apis mellifera","species","honeybees",1,0.3,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Pommeraie_2019","Net","Apis mellifera","species","honeybees",1,0.3,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Pommeraie_2019","Net","Apis mellifera","species","honeybees",1,0.3,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Pommeraie_2019","Net","Apis mellifera","species","honeybees",1,0.3,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Pommeraie_2019","Net","Apis mellifera","species","honeybees",1,0.3,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Pommeraie_2019","Net","Apis mellifera","species","honeybees",1,0.3,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Pommeraie_2019","Net","Apis mellifera","species","honeybees",1,0.3,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Pommeraie_2019","Net","Apis mellifera","species","honeybees",1,0.3,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Pommeraie_2019","Net","Apis mellifera","species","honeybees",1,0.3,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Pommeraie_2019","Net","Apis mellifera","species","honeybees",1,0.3,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Pommeraie_2019","Net","Apis mellifera","species","honeybees",1,0.3,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Pommeraie_2019","Net","Apis mellifera","species","honeybees",1,0.3,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Pommeraie_2019","Net","Apis mellifera","species","honeybees",1,0.3,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Pommeraie_2019","Net","Apis mellifera","species","honeybees",1,0.3,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Pommeraie_2019","Net","Apis mellifera","species","honeybees",1,0.3,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Pommeraie_2019","Net","Apis mellifera","species","honeybees",1,0.3,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Pommeraie_2019","Net","Apis mellifera","species","honeybees",1,0.3,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Pommeraie_2019","Net","Apis mellifera","species","honeybees",1,0.3,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Pommeraie_2019","Net","Apis mellifera","species","honeybees",1,0.3,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Bianca 21O","Net","Bombus hypnorum","species","bumblebees",1,1.01,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de Brunehaut","Net","Bombus hypnorum","species","bumblebees",1,19,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de Brunehaut","Net","Bombus hypnorum","species","bumblebees",1,19,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de Brunehaut","Net","Bombus hypnorum","species","bumblebees",1,19,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de Brunehaut","Net","Bombus hypnorum","species","bumblebees",1,19,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de Brunehaut","Net","Bombus hypnorum","species","bumblebees",1,19,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de Brunehaut","Net","Bombus hypnorum","species","bumblebees",1,19,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de Brunehaut","Net","Bombus hypnorum","species","bumblebees",1,19,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de Brunehaut","Net","Bombus hypnorum","species","bumblebees",1,19,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de Brunehaut","Net","Bombus hypnorum","species","bumblebees",1,19,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de Brunehaut","Net","Bombus hypnorum","species","bumblebees",1,19,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de Brunehaut","Net","Bombus hypnorum","species","bumblebees",1,19,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de Brunehaut","Net","Bombus hypnorum","species","bumblebees",1,19,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de Brunehaut","Net","Bombus hypnorum","species","bumblebees",1,19,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Bombus hypnorum","species","bumblebees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Bombus hypnorum","species","bumblebees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Bombus hypnorum","species","bumblebees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Bombus hypnorum","species","bumblebees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Bombus hypnorum","species","bumblebees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Bombus hypnorum","species","bumblebees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Bombus hypnorum","species","bumblebees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Bombus hypnorum","species","bumblebees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Bombus hypnorum","species","bumblebees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Bombus hypnorum","species","bumblebees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Bombus hypnorum","species","bumblebees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Pommeraie_2019","Net","Bombus hypnorum","species","bumblebees",1,0.3,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Pommeraie_2019","Net","Bombus hypnorum","species","bumblebees",1,0.3,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Pommeraie_2019","Net","Bombus hypnorum","species","bumblebees",1,0.3,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Pommeraie_2019","Net","Bombus hypnorum","species","bumblebees",1,0.3,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Pommeraie_2019","Net","Bombus hypnorum","species","bumblebees",1,0.3,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Bombus lapidarius","species","bumblebees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Bianca 20C","Net","Bombus lapidarius","species","bumblebees",1,1.57,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Laduron","Net","Bombus lapidarius","species","bumblebees",1,5.2,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de Brunehaut","Net","Bombus lapidarius","species","bumblebees",1,19,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de Brunehaut","Net","Bombus lapidarius","species","bumblebees",1,19,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de Brunehaut","Net","Bombus lapidarius","species","bumblebees",1,19,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de Brunehaut","Net","Bombus lapidarius","species","bumblebees",1,19,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Bombus lapidarius","species","bumblebees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Bombus lapidarius","species","bumblebees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Bombus lapidarius","species","bumblebees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Bombus lapidarius","species","bumblebees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Bombus lapidarius","species","bumblebees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Bombus lapidarius","species","bumblebees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Pommeraie_2019","Net","Bombus lapidarius","species","bumblebees",1,0.3,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Pommeraie_2019","Net","Bombus lapidarius","species","bumblebees",1,0.3,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Ballat","Net","Bombus pascuorum","species","bumblebees",1,3,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Bianca 18O","Net","Bombus pascuorum","species","bumblebees",1,1.2,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Bianca 18O","Net","Bombus pascuorum","species","bumblebees",1,1.2,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Bianca 18O","Net","Bombus pascuorum","species","bumblebees",1,1.2,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Bianca 18O","Net","Bombus pascuorum","species","bumblebees",1,1.2,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Bianca 20C","Net","Bombus pascuorum","species","bumblebees",1,1.57,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Bianca 20C","Net","Bombus pascuorum","species","bumblebees",1,1.57,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Bianca 21C","Net","Bombus pascuorum","species","bumblebees",1,2.44,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Bianca 21O","Net","Bombus pascuorum","species","bumblebees",1,1.01,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Bianca 21O","Net","Bombus pascuorum","species","bumblebees",1,1.01,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Bianca 21O","Net","Bombus pascuorum","species","bumblebees",1,1.01,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Bianca 21O","Net","Bombus pascuorum","species","bumblebees",1,1.01,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Bianca 21O","Net","Bombus pascuorum","species","bumblebees",1,1.01,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Bianca 21O","Net","Bombus pascuorum","species","bumblebees",1,1.01,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Bianca 21O","Net","Bombus pascuorum","species","bumblebees",1,1.01,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Bianca 21O","Net","Bombus pascuorum","species","bumblebees",1,1.01,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Bianca 21O","Net","Bombus pascuorum","species","bumblebees",1,1.01,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Laduron","Net","Bombus pascuorum","species","bumblebees",1,5.2,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Laduron","Net","Bombus pascuorum","species","bumblebees",1,5.2,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Laduron","Net","Bombus pascuorum","species","bumblebees",1,5.2,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Laduron","Net","Bombus pascuorum","species","bumblebees",1,5.2,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Laduron","Net","Bombus pascuorum","species","bumblebees",1,5.2,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Laduron","Net","Bombus pascuorum","species","bumblebees",1,5.2,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de Brunehaut","Net","Bombus pascuorum","species","bumblebees",1,19,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de Brunehaut","Net","Bombus pascuorum","species","bumblebees",1,19,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de Brunehaut","Net","Bombus pascuorum","species","bumblebees",1,19,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de Brunehaut","Net","Bombus pascuorum","species","bumblebees",1,19,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de Brunehaut","Net","Bombus pascuorum","species","bumblebees",1,19,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de Brunehaut","Net","Bombus pascuorum","species","bumblebees",1,19,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Bombus pascuorum","species","bumblebees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Bombus pascuorum","species","bumblebees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Bombus pascuorum","species","bumblebees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Bombus pascuorum","species","bumblebees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Bombus pascuorum","species","bumblebees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Bombus pascuorum","species","bumblebees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Bombus pascuorum","species","bumblebees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Bombus pascuorum","species","bumblebees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Bombus pascuorum","species","bumblebees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Bombus pascuorum","species","bumblebees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Bombus pascuorum","species","bumblebees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Bombus pascuorum","species","bumblebees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Bombus pascuorum","species","bumblebees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Bombus pascuorum","species","bumblebees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Bombus pascuorum","species","bumblebees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Bombus pascuorum","species","bumblebees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Pommeraie_2019","Net","Bombus pascuorum","species","bumblebees",1,0.3,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Bombus pratorum","species","bumblebees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Bombus pratorum","species","bumblebees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Bianca 20C","Net","Bombus pratorum","species","bumblebees",1,1.57,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Bianca 20C","Net","Bombus pratorum","species","bumblebees",1,1.57,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Bianca 21C","Net","Bombus pratorum","species","bumblebees",1,2.44,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Laduron","Net","Bombus pratorum","species","bumblebees",1,5.2,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Laduron","Net","Bombus pratorum","species","bumblebees",1,5.2,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Laduron","Net","Bombus pratorum","species","bumblebees",1,5.2,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Laduron","Net","Bombus pratorum","species","bumblebees",1,5.2,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Laduron","Net","Bombus pratorum","species","bumblebees",1,5.2,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de Barry","Net","Bombus pratorum","species","bumblebees",1,3.35,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de Brunehaut","Net","Bombus pratorum","species","bumblebees",1,19,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de Brunehaut","Net","Bombus pratorum","species","bumblebees",1,19,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de Brunehaut","Net","Bombus pratorum","species","bumblebees",1,19,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de Brunehaut","Net","Bombus pratorum","species","bumblebees",1,19,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de Brunehaut","Net","Bombus pratorum","species","bumblebees",1,19,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de Brunehaut","Net","Bombus pratorum","species","bumblebees",1,19,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de Brunehaut","Net","Bombus pratorum","species","bumblebees",1,19,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de Brunehaut","Net","Bombus pratorum","species","bumblebees",1,19,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de Brunehaut","Net","Bombus pratorum","species","bumblebees",1,19,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de Brunehaut","Net","Bombus pratorum","species","bumblebees",1,19,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de Brunehaut","Net","Bombus pratorum","species","bumblebees",1,19,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de Brunehaut","Net","Bombus pratorum","species","bumblebees",1,19,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de Brunehaut","Net","Bombus pratorum","species","bumblebees",1,19,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de Brunehaut","Net","Bombus pratorum","species","bumblebees",1,19,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de Brunehaut","Net","Bombus pratorum","species","bumblebees",1,19,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de Brunehaut","Net","Bombus pratorum","species","bumblebees",1,19,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de Brunehaut","Net","Bombus pratorum","species","bumblebees",1,19,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de Brunehaut","Net","Bombus pratorum","species","bumblebees",1,19,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de Brunehaut","Net","Bombus pratorum","species","bumblebees",1,19,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de Brunehaut","Net","Bombus pratorum","species","bumblebees",1,19,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de Brunehaut","Net","Bombus pratorum","species","bumblebees",1,19,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de Brunehaut","Net","Bombus pratorum","species","bumblebees",1,19,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de Brunehaut","Net","Bombus pratorum","species","bumblebees",1,19,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de Brunehaut","Net","Bombus pratorum","species","bumblebees",1,19,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de Brunehaut","Net","Bombus pratorum","species","bumblebees",1,19,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de Brunehaut","Net","Bombus pratorum","species","bumblebees",1,19,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de Brunehaut","Net","Bombus pratorum","species","bumblebees",1,19,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de Brunehaut","Net","Bombus pratorum","species","bumblebees",1,19,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de Brunehaut","Net","Bombus pratorum","species","bumblebees",1,19,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de Brunehaut","Net","Bombus pratorum","species","bumblebees",1,19,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de Brunehaut","Net","Bombus pratorum","species","bumblebees",1,19,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de Brunehaut","Net","Bombus pratorum","species","bumblebees",1,19,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de Brunehaut","Net","Bombus pratorum","species","bumblebees",1,19,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de Brunehaut","Net","Bombus pratorum","species","bumblebees",1,19,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de Brunehaut","Net","Bombus pratorum","species","bumblebees",1,19,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de Brunehaut","Net","Bombus pratorum","species","bumblebees",1,19,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de Brunehaut","Net","Bombus pratorum","species","bumblebees",1,19,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de Brunehaut","Net","Bombus pratorum","species","bumblebees",1,19,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de Brunehaut","Net","Bombus pratorum","species","bumblebees",1,19,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Bombus pratorum","species","bumblebees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Bombus pratorum","species","bumblebees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Bombus pratorum","species","bumblebees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Bombus pratorum","species","bumblebees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Bombus pratorum","species","bumblebees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Pommeraie_2019","Net","Bombus pratorum","species","bumblebees",1,0.3,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Pommeraie_2019","Net","Bombus pratorum","species","bumblebees",1,0.3,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Pommeraie_2019","Net","Bombus pratorum","species","bumblebees",1,0.3,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Pommeraie_2019","Net","Bombus pratorum","species","bumblebees",1,0.3,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Pommeraie_2019","Net","Bombus sylvestris","species","bumblebees",1,0.3,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Bombus terrestris agg.","species complex","bumblebees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Bombus terrestris agg.","species complex","bumblebees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Bombus terrestris agg.","species complex","bumblebees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Bombus terrestris agg.","species complex","bumblebees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Bombus terrestris agg.","species complex","bumblebees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Bombus terrestris agg.","species complex","bumblebees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Bombus terrestris agg.","species complex","bumblebees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Bombus terrestris agg.","species complex","bumblebees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Bombus terrestris agg.","species complex","bumblebees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Bombus terrestris agg.","species complex","bumblebees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Bombus terrestris agg.","species complex","bumblebees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Bombus terrestris agg.","species complex","bumblebees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Bombus terrestris agg.","species complex","bumblebees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Bombus terrestris agg.","species complex","bumblebees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Bombus terrestris agg.","species complex","bumblebees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Bombus terrestris agg.","species complex","bumblebees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Bombus terrestris agg.","species complex","bumblebees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Bombus terrestris agg.","species complex","bumblebees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Bombus terrestris agg.","species complex","bumblebees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Bombus terrestris agg.","species complex","bumblebees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Bombus terrestris agg.","species complex","bumblebees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Bombus terrestris agg.","species complex","bumblebees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Bombus terrestris agg.","species complex","bumblebees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Bombus terrestris agg.","species complex","bumblebees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Bombus terrestris agg.","species complex","bumblebees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Bombus terrestris agg.","species complex","bumblebees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Bombus terrestris agg.","species complex","bumblebees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Bombus terrestris agg.","species complex","bumblebees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Bombus terrestris agg.","species complex","bumblebees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Bombus terrestris agg.","species complex","bumblebees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Bombus terrestris agg.","species complex","bumblebees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Bombus terrestris agg.","species complex","bumblebees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Bombus terrestris agg.","species complex","bumblebees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Bombus terrestris agg.","species complex","bumblebees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Bombus terrestris agg.","species complex","bumblebees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Bombus terrestris agg.","species complex","bumblebees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Bombus terrestris agg.","species complex","bumblebees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Bombus terrestris agg.","species complex","bumblebees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Bombus terrestris agg.","species complex","bumblebees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Bombus terrestris agg.","species complex","bumblebees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Bombus terrestris agg.","species complex","bumblebees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Bombus terrestris agg.","species complex","bumblebees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Bombus terrestris agg.","species complex","bumblebees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Bombus terrestris agg.","species complex","bumblebees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Bombus terrestris agg.","species complex","bumblebees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Bombus terrestris agg.","species complex","bumblebees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Bombus terrestris agg.","species complex","bumblebees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Bombus terrestris agg.","species complex","bumblebees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Bombus terrestris agg.","species complex","bumblebees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Bombus terrestris agg.","species complex","bumblebees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Bombus terrestris agg.","species complex","bumblebees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Bombus terrestris agg.","species complex","bumblebees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Bombus terrestris agg.","species complex","bumblebees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Bombus terrestris agg.","species complex","bumblebees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Bombus terrestris agg.","species complex","bumblebees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Ballat","Net","Bombus terrestris agg.","species complex","bumblebees",1,3,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Ballat","Net","Bombus terrestris agg.","species complex","bumblebees",1,3,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Ballat","Net","Bombus terrestris agg.","species complex","bumblebees",1,3,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Bianca 20C","Net","Bombus terrestris agg.","species complex","bumblebees",1,1.57,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Bianca 20C","Net","Bombus terrestris agg.","species complex","bumblebees",1,1.57,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Bianca 20C","Net","Bombus terrestris agg.","species complex","bumblebees",1,1.57,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Bianca 20C","Net","Bombus terrestris agg.","species complex","bumblebees",1,1.57,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Bianca 20C","Net","Bombus terrestris agg.","species complex","bumblebees",1,1.57,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Bianca 20C","Net","Bombus terrestris agg.","species complex","bumblebees",1,1.57,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Bianca 20C","Net","Bombus terrestris agg.","species complex","bumblebees",1,1.57,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Bianca 20C","Net","Bombus terrestris agg.","species complex","bumblebees",1,1.57,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Bianca 20C","Net","Bombus terrestris agg.","species complex","bumblebees",1,1.57,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Bianca 20C","Net","Bombus terrestris agg.","species complex","bumblebees",1,1.57,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Bianca 20C","Net","Bombus terrestris agg.","species complex","bumblebees",1,1.57,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Bianca 20C","Net","Bombus terrestris agg.","species complex","bumblebees",1,1.57,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Bianca 20C","Net","Bombus terrestris agg.","species complex","bumblebees",1,1.57,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Bianca 20C","Net","Bombus terrestris agg.","species complex","bumblebees",1,1.57,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Bianca 20C","Net","Bombus terrestris agg.","species complex","bumblebees",1,1.57,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Bianca 20C","Net","Bombus terrestris agg.","species complex","bumblebees",1,1.57,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Bianca 20C","Net","Bombus terrestris agg.","species complex","bumblebees",1,1.57,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Bianca 20C","Net","Bombus terrestris agg.","species complex","bumblebees",1,1.57,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Bianca 20C","Net","Bombus terrestris agg.","species complex","bumblebees",1,1.57,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Bianca 20C","Net","Bombus terrestris agg.","species complex","bumblebees",1,1.57,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Bianca 20C","Net","Bombus terrestris agg.","species complex","bumblebees",1,1.57,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Bianca 21C","Net","Bombus terrestris agg.","species complex","bumblebees",1,2.44,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Bianca 21C","Net","Bombus terrestris agg.","species complex","bumblebees",1,2.44,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Bianca 21C","Net","Bombus terrestris agg.","species complex","bumblebees",1,2.44,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Bianca 21C","Net","Bombus terrestris agg.","species complex","bumblebees",1,2.44,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Bianca 21C","Net","Bombus terrestris agg.","species complex","bumblebees",1,2.44,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Bianca 21C","Net","Bombus terrestris agg.","species complex","bumblebees",1,2.44,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Laduron","Net","Bombus terrestris agg.","species complex","bumblebees",1,5.2,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Laduron","Net","Bombus terrestris agg.","species complex","bumblebees",1,5.2,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Laduron","Net","Bombus terrestris agg.","species complex","bumblebees",1,5.2,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Laduron","Net","Bombus terrestris agg.","species complex","bumblebees",1,5.2,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de Barry","Net","Bombus terrestris agg.","species complex","bumblebees",1,3.35,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de Barry","Net","Bombus terrestris agg.","species complex","bumblebees",1,3.35,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de Brunehaut","Net","Bombus terrestris agg.","species complex","bumblebees",1,19,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de Brunehaut","Net","Bombus terrestris agg.","species complex","bumblebees",1,19,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de Brunehaut","Net","Bombus terrestris agg.","species complex","bumblebees",1,19,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de Brunehaut","Net","Bombus terrestris agg.","species complex","bumblebees",1,19,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de Brunehaut","Net","Bombus terrestris agg.","species complex","bumblebees",1,19,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de Brunehaut","Net","Bombus terrestris agg.","species complex","bumblebees",1,19,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de Brunehaut","Net","Bombus terrestris agg.","species complex","bumblebees",1,19,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de Brunehaut","Net","Bombus terrestris agg.","species complex","bumblebees",1,19,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de Brunehaut","Net","Bombus terrestris agg.","species complex","bumblebees",1,19,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de Brunehaut","Net","Bombus terrestris agg.","species complex","bumblebees",1,19,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de Brunehaut","Net","Bombus terrestris agg.","species complex","bumblebees",1,19,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de Brunehaut","Net","Bombus terrestris agg.","species complex","bumblebees",1,19,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de Brunehaut","Net","Bombus terrestris agg.","species complex","bumblebees",1,19,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de Brunehaut","Net","Bombus terrestris agg.","species complex","bumblebees",1,19,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de Brunehaut","Net","Bombus terrestris agg.","species complex","bumblebees",1,19,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de Brunehaut","Net","Bombus terrestris agg.","species complex","bumblebees",1,19,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de Brunehaut","Net","Bombus terrestris agg.","species complex","bumblebees",1,19,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de Brunehaut","Net","Bombus terrestris agg.","species complex","bumblebees",1,19,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de Brunehaut","Net","Bombus terrestris agg.","species complex","bumblebees",1,19,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de Brunehaut","Net","Bombus terrestris agg.","species complex","bumblebees",1,19,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de Brunehaut","Net","Bombus terrestris agg.","species complex","bumblebees",1,19,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de Brunehaut","Net","Bombus terrestris agg.","species complex","bumblebees",1,19,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de Brunehaut","Net","Bombus terrestris agg.","species complex","bumblebees",1,19,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de Brunehaut","Net","Bombus terrestris agg.","species complex","bumblebees",1,19,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de Brunehaut","Net","Bombus terrestris agg.","species complex","bumblebees",1,19,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de Brunehaut","Net","Bombus terrestris agg.","species complex","bumblebees",1,19,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de Brunehaut","Net","Bombus terrestris agg.","species complex","bumblebees",1,19,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de Brunehaut","Net","Bombus terrestris agg.","species complex","bumblebees",1,19,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de Brunehaut","Net","Bombus terrestris agg.","species complex","bumblebees",1,19,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de Brunehaut","Net","Bombus terrestris agg.","species complex","bumblebees",1,19,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de Brunehaut","Net","Bombus terrestris agg.","species complex","bumblebees",1,19,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de Brunehaut","Net","Bombus terrestris agg.","species complex","bumblebees",1,19,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de Brunehaut","Net","Bombus terrestris agg.","species complex","bumblebees",1,19,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de Brunehaut","Net","Bombus terrestris agg.","species complex","bumblebees",1,19,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de Brunehaut","Net","Bombus terrestris agg.","species complex","bumblebees",1,19,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de Brunehaut","Net","Bombus terrestris agg.","species complex","bumblebees",1,19,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de Brunehaut","Net","Bombus terrestris agg.","species complex","bumblebees",1,19,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de Brunehaut","Net","Bombus terrestris agg.","species complex","bumblebees",1,19,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de Brunehaut","Net","Bombus terrestris agg.","species complex","bumblebees",1,19,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de Brunehaut","Net","Bombus terrestris agg.","species complex","bumblebees",1,19,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de Brunehaut","Net","Bombus terrestris agg.","species complex","bumblebees",1,19,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de Brunehaut","Net","Bombus terrestris agg.","species complex","bumblebees",1,19,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de Brunehaut","Net","Bombus terrestris agg.","species complex","bumblebees",1,19,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de Brunehaut","Net","Bombus terrestris agg.","species complex","bumblebees",1,19,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de Brunehaut","Net","Bombus terrestris agg.","species complex","bumblebees",1,19,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de Brunehaut","Net","Bombus terrestris agg.","species complex","bumblebees",1,19,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de Brunehaut","Net","Bombus terrestris agg.","species complex","bumblebees",1,19,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de Brunehaut","Net","Bombus terrestris agg.","species complex","bumblebees",1,19,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de Brunehaut","Net","Bombus terrestris agg.","species complex","bumblebees",1,19,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de Brunehaut","Net","Bombus terrestris agg.","species complex","bumblebees",1,19,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de Brunehaut","Net","Bombus terrestris agg.","species complex","bumblebees",1,19,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de Brunehaut","Net","Bombus terrestris agg.","species complex","bumblebees",1,19,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de Brunehaut","Net","Bombus terrestris agg.","species complex","bumblebees",1,19,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de Brunehaut","Net","Bombus terrestris agg.","species complex","bumblebees",1,19,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de Brunehaut","Net","Bombus terrestris agg.","species complex","bumblebees",1,19,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de Brunehaut","Net","Bombus terrestris agg.","species complex","bumblebees",1,19,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de Brunehaut","Net","Bombus terrestris agg.","species complex","bumblebees",1,19,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de Brunehaut","Net","Bombus terrestris agg.","species complex","bumblebees",1,19,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de Brunehaut","Net","Bombus terrestris agg.","species complex","bumblebees",1,19,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de Brunehaut","Net","Bombus terrestris agg.","species complex","bumblebees",1,19,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de Brunehaut","Net","Bombus terrestris agg.","species complex","bumblebees",1,19,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de Brunehaut","Net","Bombus terrestris agg.","species complex","bumblebees",1,19,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de Brunehaut","Net","Bombus terrestris agg.","species complex","bumblebees",1,19,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Bombus terrestris agg.","species complex","bumblebees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Bombus terrestris agg.","species complex","bumblebees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Bombus terrestris agg.","species complex","bumblebees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Bombus terrestris agg.","species complex","bumblebees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Bombus terrestris agg.","species complex","bumblebees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Bombus terrestris agg.","species complex","bumblebees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Bombus terrestris agg.","species complex","bumblebees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Bombus terrestris agg.","species complex","bumblebees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Bombus terrestris agg.","species complex","bumblebees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Bombus terrestris agg.","species complex","bumblebees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Bombus terrestris agg.","species complex","bumblebees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Bombus terrestris agg.","species complex","bumblebees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Bombus terrestris agg.","species complex","bumblebees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Bombus terrestris agg.","species complex","bumblebees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Bombus terrestris agg.","species complex","bumblebees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Bombus terrestris agg.","species complex","bumblebees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Bombus terrestris agg.","species complex","bumblebees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Bombus terrestris agg.","species complex","bumblebees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Bombus terrestris agg.","species complex","bumblebees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Bombus terrestris agg.","species complex","bumblebees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Bombus terrestris agg.","species complex","bumblebees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Bombus terrestris agg.","species complex","bumblebees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Bombus terrestris agg.","species complex","bumblebees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Bombus terrestris agg.","species complex","bumblebees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Bombus terrestris agg.","species complex","bumblebees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Bombus terrestris agg.","species complex","bumblebees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Bombus terrestris agg.","species complex","bumblebees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Bombus terrestris agg.","species complex","bumblebees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Bombus terrestris agg.","species complex","bumblebees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Bombus terrestris agg.","species complex","bumblebees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Bombus terrestris agg.","species complex","bumblebees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Bombus terrestris agg.","species complex","bumblebees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Bombus terrestris agg.","species complex","bumblebees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Bombus terrestris agg.","species complex","bumblebees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Bombus terrestris agg.","species complex","bumblebees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Bombus terrestris agg.","species complex","bumblebees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Bombus terrestris agg.","species complex","bumblebees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Bombus terrestris agg.","species complex","bumblebees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Bombus terrestris agg.","species complex","bumblebees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Bombus terrestris agg.","species complex","bumblebees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Bombus terrestris agg.","species complex","bumblebees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Bombus terrestris agg.","species complex","bumblebees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Bombus terrestris agg.","species complex","bumblebees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Bombus terrestris agg.","species complex","bumblebees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Bombus terrestris agg.","species complex","bumblebees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Bombus terrestris agg.","species complex","bumblebees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Pommeraie_2019","Net","Bombus terrestris agg.","species complex","bumblebees",1,0.3,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Pommeraie_2019","Net","Bombus terrestris agg.","species complex","bumblebees",1,0.3,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Pommeraie_2019","Net","Bombus terrestris agg.","species complex","bumblebees",1,0.3,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Pommeraie_2019","Net","Bombus terrestris agg.","species complex","bumblebees",1,0.3,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Pommeraie_2019","Net","Bombus terrestris agg.","species complex","bumblebees",1,0.3,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Pommeraie_2019","Net","Bombus terrestris agg.","species complex","bumblebees",1,0.3,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Pommeraie_2019","Net","Bombus terrestris agg.","species complex","bumblebees",1,0.3,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Pommeraie_2019","Net","Bombus terrestris agg.","species complex","bumblebees",1,0.3,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Pommeraie_2019","Net","Bombus terrestris agg.","species complex","bumblebees",1,0.3,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Pommeraie_2019","Net","Bombus terrestris agg.","species complex","bumblebees",1,0.3,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Pommeraie_2019","Net","Bombus terrestris agg.","species complex","bumblebees",1,0.3,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Pommeraie_2019","Net","Bombus terrestris agg.","species complex","bumblebees",1,0.3,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Pommeraie_2019","Net","Bombus terrestris agg.","species complex","bumblebees",1,0.3,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Pommeraie_2019","Net","Bombus terrestris agg.","species complex","bumblebees",1,0.3,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Colletes cunicularius","species","other_wild_bees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de Brunehaut","Net","Halictus rubicundus","species","other_wild_bees",1,19,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Laduron","Net","Lasioglossum calceatum","species","other_wild_bees",1,5.2,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Lasioglossum calceatum","species","other_wild_bees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Pommeraie_2019","Net","Lasioglossum calceatum","species","other_wild_bees",1,0.3,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Pommeraie_2019","Net","Lasioglossum calceatum","species","other_wild_bees",1,0.3,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Laduron","Net","Lasioglossum pauxillum","species","other_wild_bees",1,5.2,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Laduron","Net","Lasioglossum pauxillum","species","other_wild_bees",1,5.2,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Laduron","Net","Lasioglossum pauxillum","species","other_wild_bees",1,5.2,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de Brunehaut","Net","Lasioglossum pauxillum","species","other_wild_bees",1,19,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de Brunehaut","Net","Lasioglossum pauxillum","species","other_wild_bees",1,19,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de Brunehaut","Net","Lasioglossum pauxillum","species","other_wild_bees",1,19,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Laduron","Net","Melecta albifrons","species","other_wild_bees",1,5.2,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Nomada fabriciana","species","other_wild_bees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Nomada fabriciana","species","other_wild_bees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Nomada fabriciana","species","other_wild_bees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Nomada fabriciana","species","other_wild_bees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Nomada fabriciana","species","other_wild_bees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Nomada fabriciana","species","other_wild_bees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Nomada fabriciana","species","other_wild_bees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Nomada fabriciana","species","other_wild_bees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Nomada fabriciana","species","other_wild_bees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Nomada fabriciana","species","other_wild_bees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Nomada fabriciana","species","other_wild_bees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Nomada fabriciana","species","other_wild_bees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Laduron","Net","Nomada fabriciana","species","other_wild_bees",1,5.2,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Nomada flava","species","other_wild_bees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Nomada flava","species","other_wild_bees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Nomada flava","species","other_wild_bees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Ballat","Net","Nomada flava","species","other_wild_bees",1,3,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Laduron","Net","Nomada flava","species","other_wild_bees",1,5.2,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Laduron","Net","Nomada flava","species","other_wild_bees",1,5.2,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Laduron","Net","Nomada flava","species","other_wild_bees",1,5.2,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Laduron","Net","Nomada flava","species","other_wild_bees",1,5.2,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Laduron","Net","Nomada flava","species","other_wild_bees",1,5.2,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Laduron","Net","Nomada flava","species","other_wild_bees",1,5.2,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Laduron","Net","Nomada flava","species","other_wild_bees",1,5.2,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Laduron","Net","Nomada flava","species","other_wild_bees",1,5.2,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de Barry","Net","Nomada flava","species","other_wild_bees",1,3.35,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Nomada flava","species","other_wild_bees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Nomada flava","species","other_wild_bees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Pommeraie_2019","Net","Nomada flava","species","other_wild_bees",1,0.3,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Pommeraie_2019","Net","Nomada flava","species","other_wild_bees",1,0.3,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Pommeraie_2019","Net","Nomada flava","species","other_wild_bees",1,0.3,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Nomada fucata","species","other_wild_bees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Nomada fucata","species","other_wild_bees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Ballat","Net","Nomada fucata","species","other_wild_bees",1,3,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Nomada lathburiana","species","other_wild_bees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Ballat","Net","Nomada marshamella","species","other_wild_bees",1,3,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Laduron","Net","Nomada marshamella","species","other_wild_bees",1,5.2,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Laduron","Net","Nomada marshamella","species","other_wild_bees",1,5.2,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Laduron","Net","Nomada marshamella","species","other_wild_bees",1,5.2,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Laduron","Net","Nomada marshamella","species","other_wild_bees",1,5.2,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Laduron","Net","Nomada marshamella","species","other_wild_bees",1,5.2,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Laduron","Net","Nomada marshamella","species","other_wild_bees",1,5.2,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Nomada marshamella","species","other_wild_bees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Pommeraie_2019","Net","Nomada marshamella","species","other_wild_bees",1,0.3,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Laduron","Net","Nomada ruficornis","species","other_wild_bees",1,5.2,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Osmia bicornis","species","other_wild_bees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Osmia bicornis","species","other_wild_bees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Bianca 18O","Net","Osmia bicornis","species","other_wild_bees",1,1.2,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Bianca 18O","Net","Osmia bicornis","species","other_wild_bees",1,1.2,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Bianca 18O","Net","Osmia bicornis","species","other_wild_bees",1,1.2,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Bianca 18O","Net","Osmia bicornis","species","other_wild_bees",1,1.2,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Bianca 18O","Net","Osmia bicornis","species","other_wild_bees",1,1.2,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Bianca 18O","Net","Osmia bicornis","species","other_wild_bees",1,1.2,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Bianca 20C","Net","Osmia bicornis","species","other_wild_bees",1,1.57,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Bianca 21O","Net","Osmia bicornis","species","other_wild_bees",1,1.01,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Bianca 21O","Net","Osmia bicornis","species","other_wild_bees",1,1.01,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Bianca 21O","Net","Osmia bicornis","species","other_wild_bees",1,1.01,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Laduron","Net","Osmia bicornis","species","other_wild_bees",1,5.2,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Laduron","Net","Osmia bicornis","species","other_wild_bees",1,5.2,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Laduron","Net","Osmia bicornis","species","other_wild_bees",1,5.2,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Laduron","Net","Osmia bicornis","species","other_wild_bees",1,5.2,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Laduron","Net","Osmia bicornis","species","other_wild_bees",1,5.2,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Laduron","Net","Osmia bicornis","species","other_wild_bees",1,5.2,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Laduron","Net","Osmia bicornis","species","other_wild_bees",1,5.2,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Laduron","Net","Osmia bicornis","species","other_wild_bees",1,5.2,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Laduron","Net","Osmia bicornis","species","other_wild_bees",1,5.2,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Laduron","Net","Osmia bicornis","species","other_wild_bees",1,5.2,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Laduron","Net","Osmia bicornis","species","other_wild_bees",1,5.2,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Laduron","Net","Osmia bicornis","species","other_wild_bees",1,5.2,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Laduron","Net","Osmia bicornis","species","other_wild_bees",1,5.2,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Laduron","Net","Osmia bicornis","species","other_wild_bees",1,5.2,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Laduron","Net","Osmia bicornis","species","other_wild_bees",1,5.2,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Laduron","Net","Osmia bicornis","species","other_wild_bees",1,5.2,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Laduron","Net","Osmia bicornis","species","other_wild_bees",1,5.2,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Laduron","Net","Osmia bicornis","species","other_wild_bees",1,5.2,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Laduron","Net","Osmia bicornis","species","other_wild_bees",1,5.2,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Laduron","Net","Osmia bicornis","species","other_wild_bees",1,5.2,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Laduron","Net","Osmia bicornis","species","other_wild_bees",1,5.2,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Laduron","Net","Osmia bicornis","species","other_wild_bees",1,5.2,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Laduron","Net","Osmia bicornis","species","other_wild_bees",1,5.2,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de Barry","Net","Osmia bicornis","species","other_wild_bees",1,3.35,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de Barry","Net","Osmia bicornis","species","other_wild_bees",1,3.35,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de Barry","Net","Osmia bicornis","species","other_wild_bees",1,3.35,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de Brunehaut","Net","Osmia bicornis","species","other_wild_bees",1,19,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de Brunehaut","Net","Osmia bicornis","species","other_wild_bees",1,19,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de Brunehaut","Net","Osmia bicornis","species","other_wild_bees",1,19,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de Brunehaut","Net","Osmia bicornis","species","other_wild_bees",1,19,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de Brunehaut","Net","Osmia bicornis","species","other_wild_bees",1,19,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de Brunehaut","Net","Osmia bicornis","species","other_wild_bees",1,19,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de Brunehaut","Net","Osmia bicornis","species","other_wild_bees",1,19,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de Brunehaut","Net","Osmia bicornis","species","other_wild_bees",1,19,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de Brunehaut","Net","Osmia bicornis","species","other_wild_bees",1,19,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Osmia bicornis","species","other_wild_bees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Osmia bicornis","species","other_wild_bees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Osmia bicornis","species","other_wild_bees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Osmia bicornis","species","other_wild_bees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Osmia bicornis","species","other_wild_bees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Osmia bicornis","species","other_wild_bees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Osmia bicornis","species","other_wild_bees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Osmia bicornis","species","other_wild_bees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Osmia bicornis","species","other_wild_bees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Osmia bicornis","species","other_wild_bees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Osmia bicornis","species","other_wild_bees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Osmia bicornis","species","other_wild_bees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Osmia bicornis","species","other_wild_bees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Osmia bicornis","species","other_wild_bees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Osmia bicornis","species","other_wild_bees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Osmia bicornis","species","other_wild_bees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Osmia bicornis","species","other_wild_bees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Osmia bicornis","species","other_wild_bees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Osmia bicornis","species","other_wild_bees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Osmia bicornis","species","other_wild_bees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Osmia bicornis","species","other_wild_bees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Osmia bicornis","species","other_wild_bees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Osmia bicornis","species","other_wild_bees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Osmia bicornis","species","other_wild_bees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Osmia bicornis","species","other_wild_bees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Osmia bicornis","species","other_wild_bees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Osmia bicornis","species","other_wild_bees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Osmia bicornis","species","other_wild_bees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Osmia bicornis","species","other_wild_bees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Osmia bicornis","species","other_wild_bees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Osmia bicornis","species","other_wild_bees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Osmia bicornis","species","other_wild_bees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Osmia bicornis","species","other_wild_bees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Osmia bicornis","species","other_wild_bees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Osmia bicornis","species","other_wild_bees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Osmia bicornis","species","other_wild_bees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Osmia bicornis","species","other_wild_bees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Osmia bicornis","species","other_wild_bees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Osmia bicornis","species","other_wild_bees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Osmia bicornis","species","other_wild_bees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Osmia bicornis","species","other_wild_bees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Osmia bicornis","species","other_wild_bees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Osmia bicornis","species","other_wild_bees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Pommeraie_2019","Net","Osmia bicornis","species","other_wild_bees",1,0.3,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Pommeraie_2019","Net","Osmia bicornis","species","other_wild_bees",1,0.3,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Osmia cornuta","species","other_wild_bees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Osmia cornuta","species","other_wild_bees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Osmia cornuta","species","other_wild_bees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Osmia cornuta","species","other_wild_bees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Osmia cornuta","species","other_wild_bees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Osmia cornuta","species","other_wild_bees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Osmia cornuta","species","other_wild_bees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Osmia cornuta","species","other_wild_bees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Osmia cornuta","species","other_wild_bees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Osmia cornuta","species","other_wild_bees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Osmia cornuta","species","other_wild_bees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Osmia cornuta","species","other_wild_bees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Osmia cornuta","species","other_wild_bees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Osmia cornuta","species","other_wild_bees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Osmia cornuta","species","other_wild_bees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Osmia cornuta","species","other_wild_bees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Osmia cornuta","species","other_wild_bees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Osmia cornuta","species","other_wild_bees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Osmia cornuta","species","other_wild_bees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Osmia cornuta","species","other_wild_bees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Osmia cornuta","species","other_wild_bees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Osmia cornuta","species","other_wild_bees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Osmia cornuta","species","other_wild_bees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Osmia cornuta","species","other_wild_bees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Osmia cornuta","species","other_wild_bees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Osmia cornuta","species","other_wild_bees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Osmia cornuta","species","other_wild_bees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Osmia cornuta","species","other_wild_bees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Osmia cornuta","species","other_wild_bees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Osmia cornuta","species","other_wild_bees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Osmia cornuta","species","other_wild_bees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Osmia cornuta","species","other_wild_bees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Osmia cornuta","species","other_wild_bees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Osmia cornuta","species","other_wild_bees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Osmia cornuta","species","other_wild_bees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Osmia cornuta","species","other_wild_bees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Osmia cornuta","species","other_wild_bees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Osmia cornuta","species","other_wild_bees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Osmia cornuta","species","other_wild_bees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Ballat","Net","Osmia cornuta","species","other_wild_bees",1,3,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Bianca 18O","Net","Osmia cornuta","species","other_wild_bees",1,1.2,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Bianca 18O","Net","Osmia cornuta","species","other_wild_bees",1,1.2,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Bianca 18O","Net","Osmia cornuta","species","other_wild_bees",1,1.2,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Bianca 20C","Net","Osmia cornuta","species","other_wild_bees",1,1.57,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Pommeraie_2019","Net","Osmia cornuta","species","other_wild_bees",1,0.3,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Pommeraie_2019","Net","Osmia cornuta","species","other_wild_bees",1,0.3,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Pommeraie_2019","Net","Osmia cornuta","species","other_wild_bees",1,0.3,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Laduron","Net","Osmia cornuta","species","other_wild_bees",1,5.2,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Laduron","Net","Osmia cornuta","species","other_wild_bees",1,5.2,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Laduron","Net","Osmia cornuta","species","other_wild_bees",1,5.2,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Laduron","Net","Osmia cornuta","species","other_wild_bees",1,5.2,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Laduron","Net","Osmia cornuta","species","other_wild_bees",1,5.2,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de Barry","Net","Osmia cornuta","species","other_wild_bees",1,3.35,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de Brunehaut","Net","Osmia cornuta","species","other_wild_bees",1,19,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de Brunehaut","Net","Osmia cornuta","species","other_wild_bees",1,19,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de Brunehaut","Net","Osmia cornuta","species","other_wild_bees",1,19,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de Brunehaut","Net","Osmia cornuta","species","other_wild_bees",1,19,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de Brunehaut","Net","Osmia cornuta","species","other_wild_bees",1,19,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de Brunehaut","Net","Osmia cornuta","species","other_wild_bees",1,19,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Osmia cornuta","species","other_wild_bees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Osmia cornuta","species","other_wild_bees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Osmia cornuta","species","other_wild_bees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Osmia cornuta","species","other_wild_bees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Osmia cornuta","species","other_wild_bees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Osmia cornuta","species","other_wild_bees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Osmia cornuta","species","other_wild_bees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Osmia cornuta","species","other_wild_bees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Osmia cornuta","species","other_wild_bees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Osmia cornuta","species","other_wild_bees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Osmia cornuta","species","other_wild_bees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Osmia cornuta","species","other_wild_bees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Osmia cornuta","species","other_wild_bees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Osmia cornuta","species","other_wild_bees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Osmia cornuta","species","other_wild_bees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Osmia cornuta","species","other_wild_bees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Osmia cornuta","species","other_wild_bees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Osmia cornuta","species","other_wild_bees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Osmia cornuta","species","other_wild_bees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de la Vallee","Net","Osmia cornuta","species","other_wild_bees",1,22,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Pommeraie_2019","Net","Osmia cornuta","species","other_wild_bees",1,0.3,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Gasi_malus_2019","Net","Seladonia tumulorum","species","other_wild_bees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de Brunehaut","Net","Sphecodes ephippius","species","other_wild_bees",1,19,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de Brunehaut","Net","Xylocopa violacea","species","other_wild_bees",1,19,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2019","Vergers de Brunehaut","Net","Xylocopa violacea","species","other_wild_bees",1,19,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Jeunes de la Motte","Net","Andrena bicolor","species","other_wild_bees",1,1.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Traenheim","Net","Andrena bicolor","species","other_wild_bees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Traenheim","Net","Andrena bicolor","species","other_wild_bees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Traenheim","Net","Andrena bicolor","species","other_wild_bees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Maillebois","Net","Andrena bucephala","species","other_wild_bees",1,3.45,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Maillebois","Net","Andrena bucephala","species","other_wild_bees",1,3.45,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Maillebois","Net","Andrena bucephala","species","other_wild_bees",1,3.45,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Maillebois","Net","Andrena bucephala","species","other_wild_bees",1,3.45,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Maillebois","Net","Andrena bucephala","species","other_wild_bees",1,3.45,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Maillebois","Net","Andrena bucephala","species","other_wild_bees",1,3.45,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Maillebois","Net","Andrena bucephala","species","other_wild_bees",1,3.45,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Maillebois","Net","Andrena bucephala","species","other_wild_bees",1,3.45,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Maillebois","Net","Andrena bucephala","species","other_wild_bees",1,3.45,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Maillebois","Net","Andrena bucephala","species","other_wild_bees",1,3.45,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Maillebois","Net","Andrena bucephala","species","other_wild_bees",1,3.45,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Maillebois","Net","Andrena bucephala","species","other_wild_bees",1,3.45,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Tilly","Net","Andrena bucephala","species","other_wild_bees",1,5.8,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Tilly","Net","Andrena bucephala","species","other_wild_bees",1,5.8,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Tilly","Net","Andrena bucephala","species","other_wild_bees",1,5.8,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Tilly","Net","Andrena bucephala","species","other_wild_bees",1,5.8,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Tilly","Net","Andrena bucephala","species","other_wild_bees",1,5.8,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Tilly","Net","Andrena bucephala","species","other_wild_bees",1,5.8,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Tilly","Net","Andrena bucephala","species","other_wild_bees",1,5.8,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Tilly","Net","Andrena bucephala","species","other_wild_bees",1,5.8,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Tilly","Net","Andrena bucephala","species","other_wild_bees",1,5.8,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Tilly","Net","Andrena bucephala","species","other_wild_bees",1,5.8,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Dampleux","Net","Andrena chrysosceles","species","other_wild_bees",1,2.15,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Ferme de Canon","Net","Andrena chrysosceles","species","other_wild_bees",1,4,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Ferme de Canon","Net","Andrena chrysosceles","species","other_wild_bees",1,4,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Ferme de Canon","Net","Andrena chrysosceles","species","other_wild_bees",1,4,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Ferme de Canon","Net","Andrena chrysosceles","species","other_wild_bees",1,4,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Ferme de Canon","Net","Andrena chrysosceles","species","other_wild_bees",1,4,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Ferme de Canon","Net","Andrena chrysosceles","species","other_wild_bees",1,4,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Maillebois","Net","Andrena chrysosceles","species","other_wild_bees",1,3.45,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Vergers Ohey","Net","Andrena chrysosceles","species","other_wild_bees",1,1,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Vergers Ohey","Net","Andrena chrysosceles","species","other_wild_bees",1,1,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Vergers Ohey","Net","Andrena chrysosceles","species","other_wild_bees",1,1,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Vergers Ohey","Net","Andrena chrysosceles","species","other_wild_bees",1,1,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Vergers Ohey","Net","Andrena chrysosceles","species","other_wild_bees",1,1,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Vergers Ohey","Net","Andrena chrysosceles","species","other_wild_bees",1,1,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Vergers Ohey","Net","Andrena chrysosceles","species","other_wild_bees",1,1,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Bois de la Borde","Net","Andrena cineraria","species","other_wild_bees",1,1.7,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Ferme de Canon","Net","Andrena cineraria","species","other_wild_bees",1,4,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Ferme de Canon","Net","Andrena cineraria","species","other_wild_bees",1,4,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Ferme de Canon","Net","Andrena cineraria","species","other_wild_bees",1,4,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Ferme de Canon","Net","Andrena cineraria","species","other_wild_bees",1,4,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Fontenay","Net","Andrena cineraria","species","other_wild_bees",1,50.85,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Fontenay","Net","Andrena cineraria","species","other_wild_bees",1,50.85,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Fontenay","Net","Andrena cineraria","species","other_wild_bees",1,50.85,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Fontenay","Net","Andrena cineraria","species","other_wild_bees",1,50.85,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Fontenay","Net","Andrena cineraria","species","other_wild_bees",1,50.85,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Fontenay","Net","Andrena cineraria","species","other_wild_bees",1,50.85,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Fontenay","Net","Andrena cineraria","species","other_wild_bees",1,50.85,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Fontenay","Net","Andrena cineraria","species","other_wild_bees",1,50.85,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Fontenay","Net","Andrena cineraria","species","other_wild_bees",1,50.85,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Fontenay","Net","Andrena cineraria","species","other_wild_bees",1,50.85,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Fontenay","Net","Andrena cineraria","species","other_wild_bees",1,50.85,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Fontenay","Net","Andrena cineraria","species","other_wild_bees",1,50.85,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Innenheim","Net","Andrena cineraria","species","other_wild_bees",1,2.53,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Innenheim","Net","Andrena cineraria","species","other_wild_bees",1,2.53,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Innenheim","Net","Andrena cineraria","species","other_wild_bees",1,2.53,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Jeunes de la Motte","Net","Andrena cineraria","species","other_wild_bees",1,1.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Jeunes de la Motte","Net","Andrena cineraria","species","other_wild_bees",1,1.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Jeunes de la Motte","Net","Andrena cineraria","species","other_wild_bees",1,1.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Jeunes de la Motte","Net","Andrena cineraria","species","other_wild_bees",1,1.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Maillebois","Net","Andrena cineraria","species","other_wild_bees",1,3.45,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","SCA de la Plesse","Net","Andrena cineraria","species","other_wild_bees",1,21.28,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","SCA de Vauleard","Net","Andrena cineraria","species","other_wild_bees",1,62.09,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","SCA de Vauleard","Net","Andrena cineraria","species","other_wild_bees",1,62.09,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Tilly","Net","Andrena cineraria","species","other_wild_bees",1,5.8,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Traenheim","Net","Andrena cineraria","species","other_wild_bees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Vergers Ohey","Net","Andrena cineraria","species","other_wild_bees",1,1,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Dampleux","Net","Andrena dorsata","species","other_wild_bees",1,2.15,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Ferme de Canon","Net","Andrena dorsata","species","other_wild_bees",1,4,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Ferme de Canon","Net","Andrena dorsata","species","other_wild_bees",1,4,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Fontenay","Net","Andrena dorsata","species","other_wild_bees",1,50.85,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Fontenay","Net","Andrena dorsata","species","other_wild_bees",1,50.85,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Fontenay","Net","Andrena dorsata","species","other_wild_bees",1,50.85,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Innenheim","Net","Andrena dorsata","species","other_wild_bees",1,2.53,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Innenheim","Net","Andrena dorsata","species","other_wild_bees",1,2.53,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Innenheim","Net","Andrena dorsata","species","other_wild_bees",1,2.53,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Innenheim","Net","Andrena dorsata","species","other_wild_bees",1,2.53,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Innenheim","Net","Andrena dorsata","species","other_wild_bees",1,2.53,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Innenheim","Net","Andrena dorsata","species","other_wild_bees",1,2.53,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Innenheim","Net","Andrena dorsata","species","other_wild_bees",1,2.53,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Innenheim","Net","Andrena dorsata","species","other_wild_bees",1,2.53,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Innenheim","Net","Andrena dorsata","species","other_wild_bees",1,2.53,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Innenheim","Net","Andrena dorsata","species","other_wild_bees",1,2.53,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Innenheim","Net","Andrena dorsata","species","other_wild_bees",1,2.53,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Jeunes de la Motte","Net","Andrena dorsata","species","other_wild_bees",1,1.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Jeunes de la Motte","Net","Andrena dorsata","species","other_wild_bees",1,1.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Jeunes de la Motte","Net","Andrena dorsata","species","other_wild_bees",1,1.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Maillebois","Net","Andrena dorsata","species","other_wild_bees",1,3.45,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Maillebois","Net","Andrena dorsata","species","other_wild_bees",1,3.45,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Maillebois","Net","Andrena dorsata","species","other_wild_bees",1,3.45,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Maillebois","Net","Andrena dorsata","species","other_wild_bees",1,3.45,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Maillebois","Net","Andrena dorsata","species","other_wild_bees",1,3.45,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Maillebois","Net","Andrena dorsata","species","other_wild_bees",1,3.45,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Maillebois","Net","Andrena dorsata","species","other_wild_bees",1,3.45,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Maillebois","Net","Andrena dorsata","species","other_wild_bees",1,3.45,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Maillebois","Net","Andrena dorsata","species","other_wild_bees",1,3.45,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","SCA de la Plesse","Net","Andrena dorsata","species","other_wild_bees",1,21.28,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","SCA de la Plesse","Net","Andrena dorsata","species","other_wild_bees",1,21.28,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","SCA de Vauleard","Net","Andrena dorsata","species","other_wild_bees",1,62.09,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","SCA de Vauleard","Net","Andrena dorsata","species","other_wild_bees",1,62.09,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","SCA de Vauleard","Net","Andrena dorsata","species","other_wild_bees",1,62.09,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","SCA de Vauleard","Net","Andrena dorsata","species","other_wild_bees",1,62.09,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Tilly","Net","Andrena dorsata","species","other_wild_bees",1,5.8,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Tilly","Net","Andrena dorsata","species","other_wild_bees",1,5.8,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Tilly","Net","Andrena dorsata","species","other_wild_bees",1,5.8,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Tilly","Net","Andrena dorsata","species","other_wild_bees",1,5.8,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Tilly","Net","Andrena dorsata","species","other_wild_bees",1,5.8,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Tilly","Net","Andrena dorsata","species","other_wild_bees",1,5.8,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Tilly","Net","Andrena dorsata","species","other_wild_bees",1,5.8,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Tilly","Net","Andrena dorsata","species","other_wild_bees",1,5.8,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Tilly","Net","Andrena dorsata","species","other_wild_bees",1,5.8,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Tilly","Net","Andrena dorsata","species","other_wild_bees",1,5.8,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Traenheim","Net","Andrena dorsata","species","other_wild_bees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Traenheim","Net","Andrena dorsata","species","other_wild_bees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Traenheim","Net","Andrena dorsata","species","other_wild_bees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Traenheim","Net","Andrena dorsata","species","other_wild_bees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Vergers Ohey","Net","Andrena dorsata","species","other_wild_bees",1,1,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Vergers Ohey","Net","Andrena dorsata","species","other_wild_bees",1,1,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Vergers Ohey","Net","Andrena dorsata","species","other_wild_bees",1,1,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Vergers Ohey","Net","Andrena dorsata","species","other_wild_bees",1,1,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Ferme de Canon","Net","Andrena flavilabris","species","other_wild_bees",1,4,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Ferme de Canon","Net","Andrena flavilabris","species","other_wild_bees",1,4,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Bois de la Borde","Net","Andrena flavipes","species","other_wild_bees",1,1.7,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Bois de la Borde","Net","Andrena flavipes","species","other_wild_bees",1,1.7,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Dampleux","Net","Andrena flavipes","species","other_wild_bees",1,2.15,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Dampleux","Net","Andrena flavipes","species","other_wild_bees",1,2.15,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Ferme de Canon","Net","Andrena flavipes","species","other_wild_bees",1,4,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Innenheim","Net","Andrena flavipes","species","other_wild_bees",1,2.53,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Innenheim","Net","Andrena flavipes","species","other_wild_bees",1,2.53,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Le Plessis","Net","Andrena flavipes","species","other_wild_bees",1,2,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Le Plessis","Net","Andrena flavipes","species","other_wild_bees",1,2,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Le Plessis","Net","Andrena flavipes","species","other_wild_bees",1,2,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Le Plessis","Net","Andrena flavipes","species","other_wild_bees",1,2,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Le Plessis","Net","Andrena flavipes","species","other_wild_bees",1,2,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Maillebois","Net","Andrena flavipes","species","other_wild_bees",1,3.45,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","SCA de Vauleard","Net","Andrena flavipes","species","other_wild_bees",1,62.09,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Ferme de Canon","Net","Andrena fulva","species","other_wild_bees",1,4,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Ferme de Canon","Net","Andrena fulva","species","other_wild_bees",1,4,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Maillebois","Net","Andrena fulva","species","other_wild_bees",1,3.45,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Maillebois","Net","Andrena fulva","species","other_wild_bees",1,3.45,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Maillebois","Net","Andrena fulva","species","other_wild_bees",1,3.45,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Maillebois","Net","Andrena fulva","species","other_wild_bees",1,3.45,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Maillebois","Net","Andrena fulva","species","other_wild_bees",1,3.45,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Maillebois","Net","Andrena fulva","species","other_wild_bees",1,3.45,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Tilly","Net","Andrena fulva","species","other_wild_bees",1,5.8,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Tilly","Net","Andrena fulva","species","other_wild_bees",1,5.8,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Vergers Ohey","Net","Andrena fulva","species","other_wild_bees",1,1,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Dampleux","Net","Andrena gravida","species","other_wild_bees",1,2.15,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Ferme de Canon","Net","Andrena gravida","species","other_wild_bees",1,4,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Ferme de Canon","Net","Andrena gravida","species","other_wild_bees",1,4,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Ferme de Canon","Net","Andrena gravida","species","other_wild_bees",1,4,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Jeunes de la Motte","Net","Andrena gravida","species","other_wild_bees",1,1.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","SCA de Vauleard","Net","Andrena gravida","species","other_wild_bees",1,62.09,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","SCA de Vauleard","Net","Andrena gravida","species","other_wild_bees",1,62.09,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Vergers Ohey","Net","Andrena gravida","species","other_wild_bees",1,1,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Vergers Ohey","Net","Andrena gravida","species","other_wild_bees",1,1,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Bois de la Borde","Net","Andrena haemorrhoa","species","other_wild_bees",1,1.7,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Bois de la Borde","Net","Andrena haemorrhoa","species","other_wild_bees",1,1.7,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Bois de la Borde","Net","Andrena haemorrhoa","species","other_wild_bees",1,1.7,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Bois de la Borde","Net","Andrena haemorrhoa","species","other_wild_bees",1,1.7,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Bois de la Borde","Net","Andrena haemorrhoa","species","other_wild_bees",1,1.7,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Bois de la Borde","Net","Andrena haemorrhoa","species","other_wild_bees",1,1.7,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Bois de la Borde","Net","Andrena haemorrhoa","species","other_wild_bees",1,1.7,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Bois de la Borde","Net","Andrena haemorrhoa","species","other_wild_bees",1,1.7,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Dampleux","Net","Andrena haemorrhoa","species","other_wild_bees",1,2.15,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Dampleux","Net","Andrena haemorrhoa","species","other_wild_bees",1,2.15,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Dampleux","Net","Andrena haemorrhoa","species","other_wild_bees",1,2.15,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Dampleux","Net","Andrena haemorrhoa","species","other_wild_bees",1,2.15,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Dampleux","Net","Andrena haemorrhoa","species","other_wild_bees",1,2.15,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Dampleux","Net","Andrena haemorrhoa","species","other_wild_bees",1,2.15,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Dampleux","Net","Andrena haemorrhoa","species","other_wild_bees",1,2.15,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Ferme de Canon","Net","Andrena haemorrhoa","species","other_wild_bees",1,4,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Ferme de Canon","Net","Andrena haemorrhoa","species","other_wild_bees",1,4,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Ferme de Canon","Net","Andrena haemorrhoa","species","other_wild_bees",1,4,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Ferme de Canon","Net","Andrena haemorrhoa","species","other_wild_bees",1,4,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Ferme de Canon","Net","Andrena haemorrhoa","species","other_wild_bees",1,4,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Ferme de Canon","Net","Andrena haemorrhoa","species","other_wild_bees",1,4,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Ferme de Canon","Net","Andrena haemorrhoa","species","other_wild_bees",1,4,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Ferme de Canon","Net","Andrena haemorrhoa","species","other_wild_bees",1,4,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Ferme de Canon","Net","Andrena haemorrhoa","species","other_wild_bees",1,4,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Ferme de Canon","Net","Andrena haemorrhoa","species","other_wild_bees",1,4,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Ferme de Canon","Net","Andrena haemorrhoa","species","other_wild_bees",1,4,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Ferme de Canon","Net","Andrena haemorrhoa","species","other_wild_bees",1,4,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Ferme de Canon","Net","Andrena haemorrhoa","species","other_wild_bees",1,4,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Ferme de Canon","Net","Andrena haemorrhoa","species","other_wild_bees",1,4,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Ferme de Canon","Net","Andrena haemorrhoa","species","other_wild_bees",1,4,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Ferme de Canon","Net","Andrena haemorrhoa","species","other_wild_bees",1,4,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Fontenay","Net","Andrena haemorrhoa","species","other_wild_bees",1,50.85,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Fontenay","Net","Andrena haemorrhoa","species","other_wild_bees",1,50.85,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Fontenay","Net","Andrena haemorrhoa","species","other_wild_bees",1,50.85,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Fontenay","Net","Andrena haemorrhoa","species","other_wild_bees",1,50.85,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Fontenay","Net","Andrena haemorrhoa","species","other_wild_bees",1,50.85,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Fontenay","Net","Andrena haemorrhoa","species","other_wild_bees",1,50.85,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Fontenay","Net","Andrena haemorrhoa","species","other_wild_bees",1,50.85,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Fontenay","Net","Andrena haemorrhoa","species","other_wild_bees",1,50.85,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Fontenay","Net","Andrena haemorrhoa","species","other_wild_bees",1,50.85,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Fontenay","Net","Andrena haemorrhoa","species","other_wild_bees",1,50.85,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Fontenay","Net","Andrena haemorrhoa","species","other_wild_bees",1,50.85,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Fontenay","Net","Andrena haemorrhoa","species","other_wild_bees",1,50.85,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Fontenay","Net","Andrena haemorrhoa","species","other_wild_bees",1,50.85,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Fontenay","Net","Andrena haemorrhoa","species","other_wild_bees",1,50.85,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Fontenay","Net","Andrena haemorrhoa","species","other_wild_bees",1,50.85,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Fontenay","Net","Andrena haemorrhoa","species","other_wild_bees",1,50.85,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Fontenay","Net","Andrena haemorrhoa","species","other_wild_bees",1,50.85,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Le Plessis","Net","Andrena haemorrhoa","species","other_wild_bees",1,2,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Le Plessis","Net","Andrena haemorrhoa","species","other_wild_bees",1,2,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Le Plessis","Net","Andrena haemorrhoa","species","other_wild_bees",1,2,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Le Plessis","Net","Andrena haemorrhoa","species","other_wild_bees",1,2,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Maillebois","Net","Andrena haemorrhoa","species","other_wild_bees",1,3.45,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Maillebois","Net","Andrena haemorrhoa","species","other_wild_bees",1,3.45,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Maillebois","Net","Andrena haemorrhoa","species","other_wild_bees",1,3.45,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Maillebois","Net","Andrena haemorrhoa","species","other_wild_bees",1,3.45,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Maillebois","Net","Andrena haemorrhoa","species","other_wild_bees",1,3.45,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Maillebois","Net","Andrena haemorrhoa","species","other_wild_bees",1,3.45,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Maillebois","Net","Andrena haemorrhoa","species","other_wild_bees",1,3.45,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","SCA de la Plesse","Net","Andrena haemorrhoa","species","other_wild_bees",1,21.28,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","SCA de la Plesse","Net","Andrena haemorrhoa","species","other_wild_bees",1,21.28,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","SCA de la Plesse","Net","Andrena haemorrhoa","species","other_wild_bees",1,21.28,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","SCA de Vauleard","Net","Andrena haemorrhoa","species","other_wild_bees",1,62.09,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Tilly","Net","Andrena haemorrhoa","species","other_wild_bees",1,5.8,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Tilly","Net","Andrena haemorrhoa","species","other_wild_bees",1,5.8,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Tilly","Net","Andrena haemorrhoa","species","other_wild_bees",1,5.8,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Tilly","Net","Andrena haemorrhoa","species","other_wild_bees",1,5.8,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Tilly","Net","Andrena haemorrhoa","species","other_wild_bees",1,5.8,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Tilly","Net","Andrena haemorrhoa","species","other_wild_bees",1,5.8,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Tilly","Net","Andrena haemorrhoa","species","other_wild_bees",1,5.8,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Tilly","Net","Andrena haemorrhoa","species","other_wild_bees",1,5.8,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Tilly","Net","Andrena haemorrhoa","species","other_wild_bees",1,5.8,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Tilly","Net","Andrena haemorrhoa","species","other_wild_bees",1,5.8,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Tilly","Net","Andrena haemorrhoa","species","other_wild_bees",1,5.8,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Tilly","Net","Andrena haemorrhoa","species","other_wild_bees",1,5.8,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Tilly","Net","Andrena haemorrhoa","species","other_wild_bees",1,5.8,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Tilly","Net","Andrena haemorrhoa","species","other_wild_bees",1,5.8,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Tilly","Net","Andrena haemorrhoa","species","other_wild_bees",1,5.8,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Tilly","Net","Andrena haemorrhoa","species","other_wild_bees",1,5.8,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Tilly","Net","Andrena haemorrhoa","species","other_wild_bees",1,5.8,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Tilly","Net","Andrena haemorrhoa","species","other_wild_bees",1,5.8,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Tilly","Net","Andrena haemorrhoa","species","other_wild_bees",1,5.8,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Traenheim","Net","Andrena haemorrhoa","species","other_wild_bees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Vergers Ohey","Net","Andrena haemorrhoa","species","other_wild_bees",1,1,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Vergers Ohey","Net","Andrena haemorrhoa","species","other_wild_bees",1,1,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Vergers Ohey","Net","Andrena haemorrhoa","species","other_wild_bees",1,1,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Vergers Ohey","Net","Andrena haemorrhoa","species","other_wild_bees",1,1,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Vergers Ohey","Net","Andrena haemorrhoa","species","other_wild_bees",1,1,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Vergers Ohey","Net","Andrena haemorrhoa","species","other_wild_bees",1,1,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Fontenay","Net","Andrena helvola","species","other_wild_bees",1,50.85,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Innenheim","Net","Andrena helvola","species","other_wild_bees",1,2.53,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Innenheim","Net","Andrena helvola","species","other_wild_bees",1,2.53,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Innenheim","Net","Andrena helvola","species","other_wild_bees",1,2.53,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Innenheim","Net","Andrena helvola","species","other_wild_bees",1,2.53,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Maillebois","Net","Andrena helvola","species","other_wild_bees",1,3.45,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Maillebois","Net","Andrena helvola","species","other_wild_bees",1,3.45,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Maillebois","Net","Andrena helvola","species","other_wild_bees",1,3.45,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Maillebois","Net","Andrena helvola","species","other_wild_bees",1,3.45,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Maillebois","Net","Andrena helvola","species","other_wild_bees",1,3.45,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Maillebois","Net","Andrena helvola","species","other_wild_bees",1,3.45,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Traenheim","Net","Andrena helvola","species","other_wild_bees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Traenheim","Net","Andrena helvola","species","other_wild_bees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Vergers Ohey","Net","Andrena helvola","species","other_wild_bees",1,1,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Innenheim","Net","Andrena minutula","species","other_wild_bees",1,2.53,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Innenheim","Net","Andrena minutula","species","other_wild_bees",1,2.53,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Innenheim","Net","Andrena minutula","species","other_wild_bees",1,2.53,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Le Plessis","Net","Andrena minutula","species","other_wild_bees",1,2,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Maillebois","Net","Andrena minutula","species","other_wild_bees",1,3.45,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Maillebois","Net","Andrena minutula","species","other_wild_bees",1,3.45,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Maillebois","Net","Andrena minutula","species","other_wild_bees",1,3.45,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Maillebois","Net","Andrena minutula","species","other_wild_bees",1,3.45,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Tilly","Net","Andrena minutula","species","other_wild_bees",1,5.8,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Traenheim","Net","Andrena minutula","species","other_wild_bees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Traenheim","Net","Andrena minutula","species","other_wild_bees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Dampleux","Net","Andrena nigroaenea","species","other_wild_bees",1,2.15,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Ferme de Canon","Net","Andrena nigroaenea","species","other_wild_bees",1,4,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Dampleux","Net","Andrena nitida","species","other_wild_bees",1,2.15,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Le Plessis","Net","Andrena nitida","species","other_wild_bees",1,2,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Le Plessis","Net","Andrena nitida","species","other_wild_bees",1,2,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Le Plessis","Net","Andrena nitida","species","other_wild_bees",1,2,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Le Plessis","Net","Andrena nitida","species","other_wild_bees",1,2,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","SCA de Vauleard","Net","Andrena nitida","species","other_wild_bees",1,62.09,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Tilly","Net","Andrena nitida","species","other_wild_bees",1,5.8,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Vergers Ohey","Net","Andrena nitida","species","other_wild_bees",1,1,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Vergers Ohey","Net","Andrena nitida","species","other_wild_bees",1,1,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Dampleux","Net","Andrena rufula","species","other_wild_bees",1,2.15,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Dampleux","Net","Andrena rufula","species","other_wild_bees",1,2.15,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Dampleux","Net","Andrena rufula","species","other_wild_bees",1,2.15,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Dampleux","Net","Andrena rufula","species","other_wild_bees",1,2.15,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Dampleux","Net","Andrena rufula","species","other_wild_bees",1,2.15,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Dampleux","Net","Andrena rufula","species","other_wild_bees",1,2.15,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Dampleux","Net","Andrena rufula","species","other_wild_bees",1,2.15,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Le Plessis","Net","Andrena rufula","species","other_wild_bees",1,2,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Maillebois","Net","Andrena rufula","species","other_wild_bees",1,3.45,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Maillebois","Net","Andrena rufula","species","other_wild_bees",1,3.45,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Maillebois","Net","Andrena rufula","species","other_wild_bees",1,3.45,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Maillebois","Net","Andrena rufula","species","other_wild_bees",1,3.45,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Maillebois","Net","Andrena rufula","species","other_wild_bees",1,3.45,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Maillebois","Net","Andrena rufula","species","other_wild_bees",1,3.45,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Maillebois","Net","Andrena rufula","species","other_wild_bees",1,3.45,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Maillebois","Net","Andrena rufula","species","other_wild_bees",1,3.45,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Maillebois","Net","Andrena rufula","species","other_wild_bees",1,3.45,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Maillebois","Net","Andrena rufula","species","other_wild_bees",1,3.45,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Maillebois","Net","Andrena rufula","species","other_wild_bees",1,3.45,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Maillebois","Net","Andrena rufula","species","other_wild_bees",1,3.45,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Maillebois","Net","Andrena rufula","species","other_wild_bees",1,3.45,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Maillebois","Net","Andrena rufula","species","other_wild_bees",1,3.45,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Maillebois","Net","Andrena rufula","species","other_wild_bees",1,3.45,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Maillebois","Net","Andrena rufula","species","other_wild_bees",1,3.45,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Maillebois","Net","Andrena rufula","species","other_wild_bees",1,3.45,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Maillebois","Net","Andrena rufula","species","other_wild_bees",1,3.45,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Maillebois","Net","Andrena rufula","species","other_wild_bees",1,3.45,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Maillebois","Net","Andrena rufula","species","other_wild_bees",1,3.45,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Maillebois","Net","Andrena rufula","species","other_wild_bees",1,3.45,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Maillebois","Net","Andrena rufula","species","other_wild_bees",1,3.45,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Maillebois","Net","Andrena rufula","species","other_wild_bees",1,3.45,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Maillebois","Net","Andrena rufula","species","other_wild_bees",1,3.45,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Maillebois","Net","Andrena rufula","species","other_wild_bees",1,3.45,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Maillebois","Net","Andrena rufula","species","other_wild_bees",1,3.45,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Maillebois","Net","Andrena rufula","species","other_wild_bees",1,3.45,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Maillebois","Net","Andrena rufula","species","other_wild_bees",1,3.45,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Maillebois","Net","Andrena rufula","species","other_wild_bees",1,3.45,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Maillebois","Net","Andrena rufula","species","other_wild_bees",1,3.45,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Maillebois","Net","Andrena rufula","species","other_wild_bees",1,3.45,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Maillebois","Net","Andrena rufula","species","other_wild_bees",1,3.45,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Maillebois","Net","Andrena rufula","species","other_wild_bees",1,3.45,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Maillebois","Net","Andrena rufula","species","other_wild_bees",1,3.45,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Maillebois","Net","Andrena rufula","species","other_wild_bees",1,3.45,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Maillebois","Net","Andrena rufula","species","other_wild_bees",1,3.45,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Maillebois","Net","Andrena rufula","species","other_wild_bees",1,3.45,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Maillebois","Net","Andrena rufula","species","other_wild_bees",1,3.45,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Maillebois","Net","Andrena rufula","species","other_wild_bees",1,3.45,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Maillebois","Net","Andrena rufula","species","other_wild_bees",1,3.45,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Maillebois","Net","Andrena rufula","species","other_wild_bees",1,3.45,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Maillebois","Net","Andrena rufula","species","other_wild_bees",1,3.45,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Maillebois","Net","Andrena rufula","species","other_wild_bees",1,3.45,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Maillebois","Net","Andrena rufula","species","other_wild_bees",1,3.45,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Maillebois","Net","Andrena rufula","species","other_wild_bees",1,3.45,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Maillebois","Net","Andrena rufula","species","other_wild_bees",1,3.45,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Maillebois","Net","Andrena rufula","species","other_wild_bees",1,3.45,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Maillebois","Net","Andrena rufula","species","other_wild_bees",1,3.45,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Maillebois","Net","Andrena rufula","species","other_wild_bees",1,3.45,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Maillebois","Net","Andrena rufula","species","other_wild_bees",1,3.45,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Maillebois","Net","Andrena rufula","species","other_wild_bees",1,3.45,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Maillebois","Net","Andrena rufula","species","other_wild_bees",1,3.45,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Maillebois","Net","Andrena rufula","species","other_wild_bees",1,3.45,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Maillebois","Net","Andrena rufula","species","other_wild_bees",1,3.45,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Maillebois","Net","Andrena rufula","species","other_wild_bees",1,3.45,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Maillebois","Net","Andrena rufula","species","other_wild_bees",1,3.45,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Maillebois","Net","Andrena rufula","species","other_wild_bees",1,3.45,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Maillebois","Net","Andrena rufula","species","other_wild_bees",1,3.45,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Maillebois","Net","Andrena rufula","species","other_wild_bees",1,3.45,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Maillebois","Net","Andrena rufula","species","other_wild_bees",1,3.45,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Maillebois","Net","Andrena rufula","species","other_wild_bees",1,3.45,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Maillebois","Net","Andrena rufula","species","other_wild_bees",1,3.45,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Maillebois","Net","Andrena rufula","species","other_wild_bees",1,3.45,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Maillebois","Net","Andrena rufula","species","other_wild_bees",1,3.45,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Tilly","Net","Andrena rufula","species","other_wild_bees",1,5.8,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Tilly","Net","Andrena rufula","species","other_wild_bees",1,5.8,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Tilly","Net","Andrena rufula","species","other_wild_bees",1,5.8,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Tilly","Net","Andrena rufula","species","other_wild_bees",1,5.8,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Tilly","Net","Andrena rufula","species","other_wild_bees",1,5.8,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Tilly","Net","Andrena rufula","species","other_wild_bees",1,5.8,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Tilly","Net","Andrena rufula","species","other_wild_bees",1,5.8,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Dampleux","Net","Andrena scotica","species","other_wild_bees",1,2.15,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Dampleux","Net","Andrena scotica","species","other_wild_bees",1,2.15,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Dampleux","Net","Andrena scotica","species","other_wild_bees",1,2.15,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Dampleux","Net","Andrena scotica","species","other_wild_bees",1,2.15,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Dampleux","Net","Andrena scotica","species","other_wild_bees",1,2.15,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Dampleux","Net","Andrena scotica","species","other_wild_bees",1,2.15,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Dampleux","Net","Andrena scotica","species","other_wild_bees",1,2.15,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Dampleux","Net","Andrena scotica","species","other_wild_bees",1,2.15,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Dampleux","Net","Andrena scotica","species","other_wild_bees",1,2.15,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Dampleux","Net","Andrena scotica","species","other_wild_bees",1,2.15,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Dampleux","Net","Andrena scotica","species","other_wild_bees",1,2.15,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Dampleux","Net","Andrena scotica","species","other_wild_bees",1,2.15,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Dampleux","Net","Andrena scotica","species","other_wild_bees",1,2.15,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Ferme de Canon","Net","Andrena scotica","species","other_wild_bees",1,4,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Fontenay","Net","Andrena scotica","species","other_wild_bees",1,50.85,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Fontenay","Net","Andrena scotica","species","other_wild_bees",1,50.85,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Fontenay","Net","Andrena scotica","species","other_wild_bees",1,50.85,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Fontenay","Net","Andrena scotica","species","other_wild_bees",1,50.85,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Fontenay","Net","Andrena scotica","species","other_wild_bees",1,50.85,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Fontenay","Net","Andrena scotica","species","other_wild_bees",1,50.85,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Fontenay","Net","Andrena scotica","species","other_wild_bees",1,50.85,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Fontenay","Net","Andrena scotica","species","other_wild_bees",1,50.85,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Fontenay","Net","Andrena scotica","species","other_wild_bees",1,50.85,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Fontenay","Net","Andrena scotica","species","other_wild_bees",1,50.85,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Fontenay","Net","Andrena scotica","species","other_wild_bees",1,50.85,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Fontenay","Net","Andrena scotica","species","other_wild_bees",1,50.85,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Fontenay","Net","Andrena scotica","species","other_wild_bees",1,50.85,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Fontenay","Net","Andrena scotica","species","other_wild_bees",1,50.85,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Fontenay","Net","Andrena scotica","species","other_wild_bees",1,50.85,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Fontenay","Net","Andrena scotica","species","other_wild_bees",1,50.85,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Fontenay","Net","Andrena scotica","species","other_wild_bees",1,50.85,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Fontenay","Net","Andrena scotica","species","other_wild_bees",1,50.85,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Fontenay","Net","Andrena scotica","species","other_wild_bees",1,50.85,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Fontenay","Net","Andrena scotica","species","other_wild_bees",1,50.85,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Fontenay","Net","Andrena scotica","species","other_wild_bees",1,50.85,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Fontenay","Net","Andrena scotica","species","other_wild_bees",1,50.85,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Fontenay","Net","Andrena scotica","species","other_wild_bees",1,50.85,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Fontenay","Net","Andrena scotica","species","other_wild_bees",1,50.85,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Fontenay","Net","Andrena scotica","species","other_wild_bees",1,50.85,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Fontenay","Net","Andrena scotica","species","other_wild_bees",1,50.85,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Fontenay","Net","Andrena scotica","species","other_wild_bees",1,50.85,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Fontenay","Net","Andrena scotica","species","other_wild_bees",1,50.85,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Fontenay","Net","Andrena scotica","species","other_wild_bees",1,50.85,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Innenheim","Net","Andrena scotica","species","other_wild_bees",1,2.53,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Innenheim","Net","Andrena scotica","species","other_wild_bees",1,2.53,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Innenheim","Net","Andrena scotica","species","other_wild_bees",1,2.53,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Le Plessis","Net","Andrena scotica","species","other_wild_bees",1,2,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Le Plessis","Net","Andrena scotica","species","other_wild_bees",1,2,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Maillebois","Net","Andrena scotica","species","other_wild_bees",1,3.45,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Maillebois","Net","Andrena scotica","species","other_wild_bees",1,3.45,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Maillebois","Net","Andrena scotica","species","other_wild_bees",1,3.45,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Maillebois","Net","Andrena scotica","species","other_wild_bees",1,3.45,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Maillebois","Net","Andrena scotica","species","other_wild_bees",1,3.45,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Maillebois","Net","Andrena scotica","species","other_wild_bees",1,3.45,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Maillebois","Net","Andrena scotica","species","other_wild_bees",1,3.45,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Tilly","Net","Andrena scotica","species","other_wild_bees",1,5.8,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Tilly","Net","Andrena scotica","species","other_wild_bees",1,5.8,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Tilly","Net","Andrena scotica","species","other_wild_bees",1,5.8,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Tilly","Net","Andrena scotica","species","other_wild_bees",1,5.8,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Tilly","Net","Andrena scotica","species","other_wild_bees",1,5.8,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Tilly","Net","Andrena scotica","species","other_wild_bees",1,5.8,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Traenheim","Net","Andrena scotica","species","other_wild_bees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Traenheim","Net","Andrena scotica","species","other_wild_bees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Vergers Ohey","Net","Andrena scotica","species","other_wild_bees",1,1,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Vergers Ohey","Net","Andrena scotica","species","other_wild_bees",1,1,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Vergers Ohey","Net","Andrena scotica","species","other_wild_bees",1,1,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Vergers Ohey","Net","Andrena scotica","species","other_wild_bees",1,1,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Vergers Ohey","Net","Andrena scotica","species","other_wild_bees",1,1,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Le Plessis","Net","Andrena subopaca","species","other_wild_bees",1,2,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Innenheim","Net","Andrena trimmerana","species","other_wild_bees",1,2.53,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Innenheim","Net","Andrena trimmerana","species","other_wild_bees",1,2.53,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Innenheim","Net","Andrena trimmerana","species","other_wild_bees",1,2.53,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Innenheim","Net","Andrena trimmerana","species","other_wild_bees",1,2.53,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Innenheim","Net","Andrena trimmerana","species","other_wild_bees",1,2.53,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Innenheim","Net","Andrena trimmerana","species","other_wild_bees",1,2.53,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","SCA de la Plesse","Net","Andrena trimmerana","species","other_wild_bees",1,21.28,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","SCA de Vauleard","Net","Andrena trimmerana","species","other_wild_bees",1,62.09,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Traenheim","Net","Andrena trimmerana","species","other_wild_bees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Ferme de Canon","Net","Andrena varians","species","other_wild_bees",1,4,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Innenheim","Net","Andrena varians","species","other_wild_bees",1,2.53,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Innenheim","Net","Andrena varians","species","other_wild_bees",1,2.53,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Innenheim","Net","Andrena varians","species","other_wild_bees",1,2.53,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Innenheim","Net","Andrena varians","species","other_wild_bees",1,2.53,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Innenheim","Net","Andrena varians","species","other_wild_bees",1,2.53,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Ferme de Canon","Net","Anthophora plumipes","species","other_wild_bees",1,4,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Ferme de Canon","Net","Anthophora plumipes","species","other_wild_bees",1,4,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Ferme de Canon","Net","Anthophora plumipes","species","other_wild_bees",1,4,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","SCA de la Plesse","Net","Anthophora plumipes","species","other_wild_bees",1,21.28,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","SCA de la Plesse","Net","Anthophora plumipes","species","other_wild_bees",1,21.28,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","SCA de la Plesse","Net","Anthophora plumipes","species","other_wild_bees",1,21.28,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","SCA de la Plesse","Net","Anthophora plumipes","species","other_wild_bees",1,21.28,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","SCA de la Plesse","Net","Anthophora plumipes","species","other_wild_bees",1,21.28,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","SCA de la Plesse","Net","Anthophora plumipes","species","other_wild_bees",1,21.28,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","SCA de la Plesse","Net","Anthophora plumipes","species","other_wild_bees",1,21.28,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","SCA de la Plesse","Net","Anthophora plumipes","species","other_wild_bees",1,21.28,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","SCA de Vauleard","Net","Anthophora plumipes","species","other_wild_bees",1,62.09,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Bois de la Borde","Net","Apis mellifera","species","honeybees",1,1.7,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Bois de la Borde","Net","Apis mellifera","species","honeybees",1,1.7,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Bois de la Borde","Net","Apis mellifera","species","honeybees",1,1.7,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Bois de la Borde","Net","Apis mellifera","species","honeybees",1,1.7,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Bois de la Borde","Net","Apis mellifera","species","honeybees",1,1.7,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Bois de la Borde","Net","Apis mellifera","species","honeybees",1,1.7,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Bois de la Borde","Net","Apis mellifera","species","honeybees",1,1.7,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Bois de la Borde","Net","Apis mellifera","species","honeybees",1,1.7,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Bois de la Borde","Net","Apis mellifera","species","honeybees",1,1.7,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Bois de la Borde","Net","Apis mellifera","species","honeybees",1,1.7,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Bois de la Borde","Net","Apis mellifera","species","honeybees",1,1.7,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Bois de la Borde","Net","Apis mellifera","species","honeybees",1,1.7,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Bois de la Borde","Net","Apis mellifera","species","honeybees",1,1.7,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Bois de la Borde","Net","Apis mellifera","species","honeybees",1,1.7,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Bois de la Borde","Net","Apis mellifera","species","honeybees",1,1.7,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Bois de la Borde","Net","Apis mellifera","species","honeybees",1,1.7,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Bois de la Borde","Net","Apis mellifera","species","honeybees",1,1.7,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Bois de la Borde","Net","Apis mellifera","species","honeybees",1,1.7,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Bois de la Borde","Net","Apis mellifera","species","honeybees",1,1.7,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Bois de la Borde","Net","Apis mellifera","species","honeybees",1,1.7,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Bois de la Borde","Net","Apis mellifera","species","honeybees",1,1.7,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Bois de la Borde","Net","Apis mellifera","species","honeybees",1,1.7,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Bois de la Borde","Net","Apis mellifera","species","honeybees",1,1.7,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Bois de la Borde","Net","Apis mellifera","species","honeybees",1,1.7,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Bois de la Borde","Net","Apis mellifera","species","honeybees",1,1.7,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Bois de la Borde","Net","Apis mellifera","species","honeybees",1,1.7,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Bois de la Borde","Net","Apis mellifera","species","honeybees",1,1.7,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Bois de la Borde","Net","Apis mellifera","species","honeybees",1,1.7,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Bois de la Borde","Net","Apis mellifera","species","honeybees",1,1.7,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Bois de la Borde","Net","Apis mellifera","species","honeybees",1,1.7,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Bois de la Borde","Net","Apis mellifera","species","honeybees",1,1.7,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Bois de la Borde","Net","Apis mellifera","species","honeybees",1,1.7,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Bois de la Borde","Net","Apis mellifera","species","honeybees",1,1.7,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Bois de la Borde","Net","Apis mellifera","species","honeybees",1,1.7,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Bois de la Borde","Net","Apis mellifera","species","honeybees",1,1.7,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Bois de la Borde","Net","Apis mellifera","species","honeybees",1,1.7,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Bois de la Borde","Net","Apis mellifera","species","honeybees",1,1.7,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Bois de la Borde","Net","Apis mellifera","species","honeybees",1,1.7,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Bois de la Borde","Net","Apis mellifera","species","honeybees",1,1.7,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Bois de la Borde","Net","Apis mellifera","species","honeybees",1,1.7,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Bois de la Borde","Net","Apis mellifera","species","honeybees",1,1.7,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Bois de la Borde","Net","Apis mellifera","species","honeybees",1,1.7,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Bois de la Borde","Net","Apis mellifera","species","honeybees",1,1.7,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Bois de la Borde","Net","Apis mellifera","species","honeybees",1,1.7,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Bois de la Borde","Net","Apis mellifera","species","honeybees",1,1.7,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Bois de la Borde","Net","Apis mellifera","species","honeybees",1,1.7,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Bois de la Borde","Net","Apis mellifera","species","honeybees",1,1.7,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Bois de la Borde","Net","Apis mellifera","species","honeybees",1,1.7,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Bois de la Borde","Net","Apis mellifera","species","honeybees",1,1.7,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Bois de la Borde","Net","Apis mellifera","species","honeybees",1,1.7,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Bois de la Borde","Net","Apis mellifera","species","honeybees",1,1.7,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Bois de la Borde","Net","Apis mellifera","species","honeybees",1,1.7,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Bois de la Borde","Net","Apis mellifera","species","honeybees",1,1.7,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Bois de la Borde","Net","Apis mellifera","species","honeybees",1,1.7,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Bois de la Borde","Net","Apis mellifera","species","honeybees",1,1.7,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Bois de la Borde","Net","Apis mellifera","species","honeybees",1,1.7,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Bois de la Borde","Net","Apis mellifera","species","honeybees",1,1.7,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Bois de la Borde","Net","Apis mellifera","species","honeybees",1,1.7,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Bois de la Borde","Net","Apis mellifera","species","honeybees",1,1.7,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Bois de la Borde","Net","Apis mellifera","species","honeybees",1,1.7,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Bois de la Borde","Net","Apis mellifera","species","honeybees",1,1.7,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Bois de la Borde","Net","Apis mellifera","species","honeybees",1,1.7,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Bois de la Borde","Net","Apis mellifera","species","honeybees",1,1.7,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Bois de la Borde","Net","Apis mellifera","species","honeybees",1,1.7,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Bois de la Borde","Net","Apis mellifera","species","honeybees",1,1.7,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Bois de la Borde","Net","Apis mellifera","species","honeybees",1,1.7,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Bois de la Borde","Net","Apis mellifera","species","honeybees",1,1.7,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Bois de la Borde","Net","Apis mellifera","species","honeybees",1,1.7,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Bois de la Borde","Net","Apis mellifera","species","honeybees",1,1.7,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Bois de la Borde","Net","Apis mellifera","species","honeybees",1,1.7,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Bois de la Borde","Net","Apis mellifera","species","honeybees",1,1.7,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Bois de la Borde","Net","Apis mellifera","species","honeybees",1,1.7,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Bois de la Borde","Net","Apis mellifera","species","honeybees",1,1.7,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Bois de la Borde","Net","Apis mellifera","species","honeybees",1,1.7,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Bois de la Borde","Net","Apis mellifera","species","honeybees",1,1.7,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Bois de la Borde","Net","Apis mellifera","species","honeybees",1,1.7,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Bois de la Borde","Net","Apis mellifera","species","honeybees",1,1.7,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Bois de la Borde","Net","Apis mellifera","species","honeybees",1,1.7,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Bois de la Borde","Net","Apis mellifera","species","honeybees",1,1.7,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Bois de la Borde","Net","Apis mellifera","species","honeybees",1,1.7,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Bois de la Borde","Net","Apis mellifera","species","honeybees",1,1.7,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Bois de la Borde","Net","Apis mellifera","species","honeybees",1,1.7,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Bois de la Borde","Net","Apis mellifera","species","honeybees",1,1.7,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Bois de la Borde","Net","Apis mellifera","species","honeybees",1,1.7,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Bois de la Borde","Net","Apis mellifera","species","honeybees",1,1.7,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Bois de la Borde","Net","Apis mellifera","species","honeybees",1,1.7,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Bois de la Borde","Net","Apis mellifera","species","honeybees",1,1.7,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Bois de la Borde","Net","Apis mellifera","species","honeybees",1,1.7,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Bois de la Borde","Net","Apis mellifera","species","honeybees",1,1.7,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Bois de la Borde","Net","Apis mellifera","species","honeybees",1,1.7,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Bois de la Borde","Net","Apis mellifera","species","honeybees",1,1.7,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Bois de la Borde","Net","Apis mellifera","species","honeybees",1,1.7,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Bois de la Borde","Net","Apis mellifera","species","honeybees",1,1.7,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Bois de la Borde","Net","Apis mellifera","species","honeybees",1,1.7,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Bois de la Borde","Net","Apis mellifera","species","honeybees",1,1.7,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Bois de la Borde","Net","Apis mellifera","species","honeybees",1,1.7,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Bois de la Borde","Net","Apis mellifera","species","honeybees",1,1.7,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Bois de la Borde","Net","Apis mellifera","species","honeybees",1,1.7,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Bois de la Borde","Net","Apis mellifera","species","honeybees",1,1.7,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Bois de la Borde","Net","Apis mellifera","species","honeybees",1,1.7,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Bois de la Borde","Net","Apis mellifera","species","honeybees",1,1.7,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Bois de la Borde","Net","Apis mellifera","species","honeybees",1,1.7,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Bois de la Borde","Net","Apis mellifera","species","honeybees",1,1.7,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Bois de la Borde","Net","Apis mellifera","species","honeybees",1,1.7,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Bois de la Borde","Net","Apis mellifera","species","honeybees",1,1.7,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Bois de la Borde","Net","Apis mellifera","species","honeybees",1,1.7,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Bois de la Borde","Net","Apis mellifera","species","honeybees",1,1.7,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Bois de la Borde","Net","Apis mellifera","species","honeybees",1,1.7,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Bois de la Borde","Net","Apis mellifera","species","honeybees",1,1.7,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Bois de la Borde","Net","Apis mellifera","species","honeybees",1,1.7,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Bois de la Borde","Net","Apis mellifera","species","honeybees",1,1.7,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Bois de la Borde","Net","Apis mellifera","species","honeybees",1,1.7,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Bois de la Borde","Net","Apis mellifera","species","honeybees",1,1.7,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Bois de la Borde","Net","Apis mellifera","species","honeybees",1,1.7,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Bois de la Borde","Net","Apis mellifera","species","honeybees",1,1.7,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Bois de la Borde","Net","Apis mellifera","species","honeybees",1,1.7,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Bois de la Borde","Net","Apis mellifera","species","honeybees",1,1.7,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Bois de la Borde","Net","Apis mellifera","species","honeybees",1,1.7,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Bois de la Borde","Net","Apis mellifera","species","honeybees",1,1.7,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Bois de la Borde","Net","Apis mellifera","species","honeybees",1,1.7,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Bois de la Borde","Net","Apis mellifera","species","honeybees",1,1.7,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Bois de la Borde","Net","Apis mellifera","species","honeybees",1,1.7,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Bois de la Borde","Net","Apis mellifera","species","honeybees",1,1.7,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Bois de la Borde","Net","Apis mellifera","species","honeybees",1,1.7,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Bois de la Borde","Net","Apis mellifera","species","honeybees",1,1.7,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Bois de la Borde","Net","Apis mellifera","species","honeybees",1,1.7,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Bois de la Borde","Net","Apis mellifera","species","honeybees",1,1.7,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Bois de la Borde","Net","Apis mellifera","species","honeybees",1,1.7,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Bois de la Borde","Net","Apis mellifera","species","honeybees",1,1.7,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Bois de la Borde","Net","Apis mellifera","species","honeybees",1,1.7,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Bois de la Borde","Net","Apis mellifera","species","honeybees",1,1.7,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Bois de la Borde","Net","Apis mellifera","species","honeybees",1,1.7,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Bois de la Borde","Net","Apis mellifera","species","honeybees",1,1.7,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Bois de la Borde","Net","Apis mellifera","species","honeybees",1,1.7,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Bois de la Borde","Net","Apis mellifera","species","honeybees",1,1.7,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Bois de la Borde","Net","Apis mellifera","species","honeybees",1,1.7,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Bois de la Borde","Net","Apis mellifera","species","honeybees",1,1.7,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Bois de la Borde","Net","Apis mellifera","species","honeybees",1,1.7,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Dampleux","Net","Apis mellifera","species","honeybees",1,2.15,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Dampleux","Net","Apis mellifera","species","honeybees",1,2.15,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Dampleux","Net","Apis mellifera","species","honeybees",1,2.15,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Dampleux","Net","Apis mellifera","species","honeybees",1,2.15,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Dampleux","Net","Apis mellifera","species","honeybees",1,2.15,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Dampleux","Net","Apis mellifera","species","honeybees",1,2.15,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Dampleux","Net","Apis mellifera","species","honeybees",1,2.15,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Dampleux","Net","Apis mellifera","species","honeybees",1,2.15,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Dampleux","Net","Apis mellifera","species","honeybees",1,2.15,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Dampleux","Net","Apis mellifera","species","honeybees",1,2.15,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Dampleux","Net","Apis mellifera","species","honeybees",1,2.15,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Dampleux","Net","Apis mellifera","species","honeybees",1,2.15,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Dampleux","Net","Apis mellifera","species","honeybees",1,2.15,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Dampleux","Net","Apis mellifera","species","honeybees",1,2.15,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Dampleux","Net","Apis mellifera","species","honeybees",1,2.15,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Dampleux","Net","Apis mellifera","species","honeybees",1,2.15,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Dampleux","Net","Apis mellifera","species","honeybees",1,2.15,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Dampleux","Net","Apis mellifera","species","honeybees",1,2.15,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Dampleux","Net","Apis mellifera","species","honeybees",1,2.15,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Dampleux","Net","Apis mellifera","species","honeybees",1,2.15,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Dampleux","Net","Apis mellifera","species","honeybees",1,2.15,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Dampleux","Net","Apis mellifera","species","honeybees",1,2.15,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Dampleux","Net","Apis mellifera","species","honeybees",1,2.15,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Dampleux","Net","Apis mellifera","species","honeybees",1,2.15,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Dampleux","Net","Apis mellifera","species","honeybees",1,2.15,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Dampleux","Net","Apis mellifera","species","honeybees",1,2.15,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Dampleux","Net","Apis mellifera","species","honeybees",1,2.15,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Dampleux","Net","Apis mellifera","species","honeybees",1,2.15,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Dampleux","Net","Apis mellifera","species","honeybees",1,2.15,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Dampleux","Net","Apis mellifera","species","honeybees",1,2.15,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Ferme de Canon","Net","Apis mellifera","species","honeybees",1,4,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Ferme de Canon","Net","Apis mellifera","species","honeybees",1,4,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Ferme de Canon","Net","Apis mellifera","species","honeybees",1,4,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Ferme de Canon","Net","Apis mellifera","species","honeybees",1,4,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Ferme de Canon","Net","Apis mellifera","species","honeybees",1,4,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Ferme de Canon","Net","Apis mellifera","species","honeybees",1,4,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Ferme de Canon","Net","Apis mellifera","species","honeybees",1,4,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Ferme de Canon","Net","Apis mellifera","species","honeybees",1,4,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Ferme de Canon","Net","Apis mellifera","species","honeybees",1,4,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Ferme de Canon","Net","Apis mellifera","species","honeybees",1,4,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Ferme de Canon","Net","Apis mellifera","species","honeybees",1,4,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Ferme de Canon","Net","Apis mellifera","species","honeybees",1,4,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Ferme de Canon","Net","Apis mellifera","species","honeybees",1,4,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Ferme de Canon","Net","Apis mellifera","species","honeybees",1,4,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Ferme de Canon","Net","Apis mellifera","species","honeybees",1,4,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Ferme de Canon","Net","Apis mellifera","species","honeybees",1,4,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Ferme de Canon","Net","Apis mellifera","species","honeybees",1,4,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Ferme de Canon","Net","Apis mellifera","species","honeybees",1,4,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Ferme de Canon","Net","Apis mellifera","species","honeybees",1,4,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Ferme de Canon","Net","Apis mellifera","species","honeybees",1,4,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Ferme de Canon","Net","Apis mellifera","species","honeybees",1,4,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Ferme de Canon","Net","Apis mellifera","species","honeybees",1,4,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Ferme de Canon","Net","Apis mellifera","species","honeybees",1,4,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Ferme de Canon","Net","Apis mellifera","species","honeybees",1,4,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Ferme de Canon","Net","Apis mellifera","species","honeybees",1,4,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Ferme de Canon","Net","Apis mellifera","species","honeybees",1,4,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Ferme de Canon","Net","Apis mellifera","species","honeybees",1,4,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Ferme de Canon","Net","Apis mellifera","species","honeybees",1,4,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Ferme de Canon","Net","Apis mellifera","species","honeybees",1,4,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Ferme de Canon","Net","Apis mellifera","species","honeybees",1,4,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Ferme de Canon","Net","Apis mellifera","species","honeybees",1,4,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Ferme de Canon","Net","Apis mellifera","species","honeybees",1,4,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Ferme de Canon","Net","Apis mellifera","species","honeybees",1,4,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Ferme de Canon","Net","Apis mellifera","species","honeybees",1,4,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Ferme de Canon","Net","Apis mellifera","species","honeybees",1,4,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Ferme de Canon","Net","Apis mellifera","species","honeybees",1,4,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Ferme de Canon","Net","Apis mellifera","species","honeybees",1,4,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Fontenay","Net","Apis mellifera","species","honeybees",1,50.85,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Fontenay","Net","Apis mellifera","species","honeybees",1,50.85,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Fontenay","Net","Apis mellifera","species","honeybees",1,50.85,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Fontenay","Net","Apis mellifera","species","honeybees",1,50.85,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Fontenay","Net","Apis mellifera","species","honeybees",1,50.85,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Fontenay","Net","Apis mellifera","species","honeybees",1,50.85,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Fontenay","Net","Apis mellifera","species","honeybees",1,50.85,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Fontenay","Net","Apis mellifera","species","honeybees",1,50.85,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Fontenay","Net","Apis mellifera","species","honeybees",1,50.85,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Fontenay","Net","Apis mellifera","species","honeybees",1,50.85,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Fontenay","Net","Apis mellifera","species","honeybees",1,50.85,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Fontenay","Net","Apis mellifera","species","honeybees",1,50.85,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Fontenay","Net","Apis mellifera","species","honeybees",1,50.85,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Fontenay","Net","Apis mellifera","species","honeybees",1,50.85,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Fontenay","Net","Apis mellifera","species","honeybees",1,50.85,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Fontenay","Net","Apis mellifera","species","honeybees",1,50.85,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Fontenay","Net","Apis mellifera","species","honeybees",1,50.85,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Fontenay","Net","Apis mellifera","species","honeybees",1,50.85,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Fontenay","Net","Apis mellifera","species","honeybees",1,50.85,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Fontenay","Net","Apis mellifera","species","honeybees",1,50.85,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Fontenay","Net","Apis mellifera","species","honeybees",1,50.85,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Fontenay","Net","Apis mellifera","species","honeybees",1,50.85,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Fontenay","Net","Apis mellifera","species","honeybees",1,50.85,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Fontenay","Net","Apis mellifera","species","honeybees",1,50.85,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Fontenay","Net","Apis mellifera","species","honeybees",1,50.85,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Fontenay","Net","Apis mellifera","species","honeybees",1,50.85,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Fontenay","Net","Apis mellifera","species","honeybees",1,50.85,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Fontenay","Net","Apis mellifera","species","honeybees",1,50.85,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Innenheim","Net","Apis mellifera","species","honeybees",1,2.53,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Innenheim","Net","Apis mellifera","species","honeybees",1,2.53,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Innenheim","Net","Apis mellifera","species","honeybees",1,2.53,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Innenheim","Net","Apis mellifera","species","honeybees",1,2.53,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Innenheim","Net","Apis mellifera","species","honeybees",1,2.53,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Innenheim","Net","Apis mellifera","species","honeybees",1,2.53,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Innenheim","Net","Apis mellifera","species","honeybees",1,2.53,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Innenheim","Net","Apis mellifera","species","honeybees",1,2.53,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Innenheim","Net","Apis mellifera","species","honeybees",1,2.53,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Innenheim","Net","Apis mellifera","species","honeybees",1,2.53,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Innenheim","Net","Apis mellifera","species","honeybees",1,2.53,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Innenheim","Net","Apis mellifera","species","honeybees",1,2.53,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Innenheim","Net","Apis mellifera","species","honeybees",1,2.53,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Innenheim","Net","Apis mellifera","species","honeybees",1,2.53,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Innenheim","Net","Apis mellifera","species","honeybees",1,2.53,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Innenheim","Net","Apis mellifera","species","honeybees",1,2.53,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Innenheim","Net","Apis mellifera","species","honeybees",1,2.53,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Innenheim","Net","Apis mellifera","species","honeybees",1,2.53,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Innenheim","Net","Apis mellifera","species","honeybees",1,2.53,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Innenheim","Net","Apis mellifera","species","honeybees",1,2.53,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Innenheim","Net","Apis mellifera","species","honeybees",1,2.53,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Innenheim","Net","Apis mellifera","species","honeybees",1,2.53,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Innenheim","Net","Apis mellifera","species","honeybees",1,2.53,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Innenheim","Net","Apis mellifera","species","honeybees",1,2.53,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Innenheim","Net","Apis mellifera","species","honeybees",1,2.53,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Innenheim","Net","Apis mellifera","species","honeybees",1,2.53,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Innenheim","Net","Apis mellifera","species","honeybees",1,2.53,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Innenheim","Net","Apis mellifera","species","honeybees",1,2.53,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Innenheim","Net","Apis mellifera","species","honeybees",1,2.53,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Innenheim","Net","Apis mellifera","species","honeybees",1,2.53,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Jeunes de la Motte","Net","Apis mellifera","species","honeybees",1,1.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Jeunes de la Motte","Net","Apis mellifera","species","honeybees",1,1.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Jeunes de la Motte","Net","Apis mellifera","species","honeybees",1,1.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Jeunes de la Motte","Net","Apis mellifera","species","honeybees",1,1.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Jeunes de la Motte","Net","Apis mellifera","species","honeybees",1,1.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Jeunes de la Motte","Net","Apis mellifera","species","honeybees",1,1.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Jeunes de la Motte","Net","Apis mellifera","species","honeybees",1,1.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Jeunes de la Motte","Net","Apis mellifera","species","honeybees",1,1.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Jeunes de la Motte","Net","Apis mellifera","species","honeybees",1,1.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Jeunes de la Motte","Net","Apis mellifera","species","honeybees",1,1.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Jeunes de la Motte","Net","Apis mellifera","species","honeybees",1,1.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Jeunes de la Motte","Net","Apis mellifera","species","honeybees",1,1.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Jeunes de la Motte","Net","Apis mellifera","species","honeybees",1,1.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Jeunes de la Motte","Net","Apis mellifera","species","honeybees",1,1.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Jeunes de la Motte","Net","Apis mellifera","species","honeybees",1,1.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Jeunes de la Motte","Net","Apis mellifera","species","honeybees",1,1.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Jeunes de la Motte","Net","Apis mellifera","species","honeybees",1,1.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Jeunes de la Motte","Net","Apis mellifera","species","honeybees",1,1.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Jeunes de la Motte","Net","Apis mellifera","species","honeybees",1,1.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Jeunes de la Motte","Net","Apis mellifera","species","honeybees",1,1.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Jeunes de la Motte","Net","Apis mellifera","species","honeybees",1,1.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Jeunes de la Motte","Net","Apis mellifera","species","honeybees",1,1.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Jeunes de la Motte","Net","Apis mellifera","species","honeybees",1,1.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Jeunes de la Motte","Net","Apis mellifera","species","honeybees",1,1.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Jeunes de la Motte","Net","Apis mellifera","species","honeybees",1,1.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Jeunes de la Motte","Net","Apis mellifera","species","honeybees",1,1.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Jeunes de la Motte","Net","Apis mellifera","species","honeybees",1,1.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Jeunes de la Motte","Net","Apis mellifera","species","honeybees",1,1.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Jeunes de la Motte","Net","Apis mellifera","species","honeybees",1,1.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Jeunes de la Motte","Net","Apis mellifera","species","honeybees",1,1.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Jeunes de la Motte","Net","Apis mellifera","species","honeybees",1,1.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Jeunes de la Motte","Net","Apis mellifera","species","honeybees",1,1.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Jeunes de la Motte","Net","Apis mellifera","species","honeybees",1,1.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Jeunes de la Motte","Net","Apis mellifera","species","honeybees",1,1.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Jeunes de la Motte","Net","Apis mellifera","species","honeybees",1,1.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Jeunes de la Motte","Net","Apis mellifera","species","honeybees",1,1.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Jeunes de la Motte","Net","Apis mellifera","species","honeybees",1,1.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Jeunes de la Motte","Net","Apis mellifera","species","honeybees",1,1.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Jeunes de la Motte","Net","Apis mellifera","species","honeybees",1,1.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Jeunes de la Motte","Net","Apis mellifera","species","honeybees",1,1.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Jeunes de la Motte","Net","Apis mellifera","species","honeybees",1,1.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Jeunes de la Motte","Net","Apis mellifera","species","honeybees",1,1.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Jeunes de la Motte","Net","Apis mellifera","species","honeybees",1,1.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Jeunes de la Motte","Net","Apis mellifera","species","honeybees",1,1.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Jeunes de la Motte","Net","Apis mellifera","species","honeybees",1,1.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Jeunes de la Motte","Net","Apis mellifera","species","honeybees",1,1.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Jeunes de la Motte","Net","Apis mellifera","species","honeybees",1,1.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Jeunes de la Motte","Net","Apis mellifera","species","honeybees",1,1.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Jeunes de la Motte","Net","Apis mellifera","species","honeybees",1,1.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Jeunes de la Motte","Net","Apis mellifera","species","honeybees",1,1.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Jeunes de la Motte","Net","Apis mellifera","species","honeybees",1,1.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Jeunes de la Motte","Net","Apis mellifera","species","honeybees",1,1.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Jeunes de la Motte","Net","Apis mellifera","species","honeybees",1,1.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Jeunes de la Motte","Net","Apis mellifera","species","honeybees",1,1.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Jeunes de la Motte","Net","Apis mellifera","species","honeybees",1,1.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Jeunes de la Motte","Net","Apis mellifera","species","honeybees",1,1.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Jeunes de la Motte","Net","Apis mellifera","species","honeybees",1,1.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Jeunes de la Motte","Net","Apis mellifera","species","honeybees",1,1.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Jeunes de la Motte","Net","Apis mellifera","species","honeybees",1,1.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Jeunes de la Motte","Net","Apis mellifera","species","honeybees",1,1.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Jeunes de la Motte","Net","Apis mellifera","species","honeybees",1,1.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Jeunes de la Motte","Net","Apis mellifera","species","honeybees",1,1.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Jeunes de la Motte","Net","Apis mellifera","species","honeybees",1,1.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Jeunes de la Motte","Net","Apis mellifera","species","honeybees",1,1.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Jeunes de la Motte","Net","Apis mellifera","species","honeybees",1,1.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Jeunes de la Motte","Net","Apis mellifera","species","honeybees",1,1.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Jeunes de la Motte","Net","Apis mellifera","species","honeybees",1,1.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Jeunes de la Motte","Net","Apis mellifera","species","honeybees",1,1.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Jeunes de la Motte","Net","Apis mellifera","species","honeybees",1,1.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Jeunes de la Motte","Net","Apis mellifera","species","honeybees",1,1.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Jeunes de la Motte","Net","Apis mellifera","species","honeybees",1,1.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Jeunes de la Motte","Net","Apis mellifera","species","honeybees",1,1.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Jeunes de la Motte","Net","Apis mellifera","species","honeybees",1,1.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Jeunes de la Motte","Net","Apis mellifera","species","honeybees",1,1.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Jeunes de la Motte","Net","Apis mellifera","species","honeybees",1,1.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Jeunes de la Motte","Net","Apis mellifera","species","honeybees",1,1.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Jeunes de la Motte","Net","Apis mellifera","species","honeybees",1,1.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Jeunes de la Motte","Net","Apis mellifera","species","honeybees",1,1.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Jeunes de la Motte","Net","Apis mellifera","species","honeybees",1,1.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Jeunes de la Motte","Net","Apis mellifera","species","honeybees",1,1.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Jeunes de la Motte","Net","Apis mellifera","species","honeybees",1,1.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Jeunes de la Motte","Net","Apis mellifera","species","honeybees",1,1.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Jeunes de la Motte","Net","Apis mellifera","species","honeybees",1,1.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Jeunes de la Motte","Net","Apis mellifera","species","honeybees",1,1.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Jeunes de la Motte","Net","Apis mellifera","species","honeybees",1,1.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Jeunes de la Motte","Net","Apis mellifera","species","honeybees",1,1.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Jeunes de la Motte","Net","Apis mellifera","species","honeybees",1,1.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Jeunes de la Motte","Net","Apis mellifera","species","honeybees",1,1.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Jeunes de la Motte","Net","Apis mellifera","species","honeybees",1,1.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Jeunes de la Motte","Net","Apis mellifera","species","honeybees",1,1.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Jeunes de la Motte","Net","Apis mellifera","species","honeybees",1,1.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Jeunes de la Motte","Net","Apis mellifera","species","honeybees",1,1.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Jeunes de la Motte","Net","Apis mellifera","species","honeybees",1,1.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Jeunes de la Motte","Net","Apis mellifera","species","honeybees",1,1.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Jeunes de la Motte","Net","Apis mellifera","species","honeybees",1,1.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Jeunes de la Motte","Net","Apis mellifera","species","honeybees",1,1.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Jeunes de la Motte","Net","Apis mellifera","species","honeybees",1,1.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Jeunes de la Motte","Net","Apis mellifera","species","honeybees",1,1.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Jeunes de la Motte","Net","Apis mellifera","species","honeybees",1,1.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Jeunes de la Motte","Net","Apis mellifera","species","honeybees",1,1.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Jeunes de la Motte","Net","Apis mellifera","species","honeybees",1,1.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Jeunes de la Motte","Net","Apis mellifera","species","honeybees",1,1.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Jeunes de la Motte","Net","Apis mellifera","species","honeybees",1,1.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Jeunes de la Motte","Net","Apis mellifera","species","honeybees",1,1.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Jeunes de la Motte","Net","Apis mellifera","species","honeybees",1,1.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Jeunes de la Motte","Net","Apis mellifera","species","honeybees",1,1.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Jeunes de la Motte","Net","Apis mellifera","species","honeybees",1,1.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Jeunes de la Motte","Net","Apis mellifera","species","honeybees",1,1.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Jeunes de la Motte","Net","Apis mellifera","species","honeybees",1,1.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Jeunes de la Motte","Net","Apis mellifera","species","honeybees",1,1.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Jeunes de la Motte","Net","Apis mellifera","species","honeybees",1,1.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Jeunes de la Motte","Net","Apis mellifera","species","honeybees",1,1.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Jeunes de la Motte","Net","Apis mellifera","species","honeybees",1,1.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Jeunes de la Motte","Net","Apis mellifera","species","honeybees",1,1.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Jeunes de la Motte","Net","Apis mellifera","species","honeybees",1,1.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Jeunes de la Motte","Net","Apis mellifera","species","honeybees",1,1.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Jeunes de la Motte","Net","Apis mellifera","species","honeybees",1,1.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Jeunes de la Motte","Net","Apis mellifera","species","honeybees",1,1.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Jeunes de la Motte","Net","Apis mellifera","species","honeybees",1,1.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Jeunes de la Motte","Net","Apis mellifera","species","honeybees",1,1.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Jeunes de la Motte","Net","Apis mellifera","species","honeybees",1,1.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Jeunes de la Motte","Net","Apis mellifera","species","honeybees",1,1.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Jeunes de la Motte","Net","Apis mellifera","species","honeybees",1,1.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Jeunes de la Motte","Net","Apis mellifera","species","honeybees",1,1.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Jeunes de la Motte","Net","Apis mellifera","species","honeybees",1,1.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Jeunes de la Motte","Net","Apis mellifera","species","honeybees",1,1.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Jeunes de la Motte","Net","Apis mellifera","species","honeybees",1,1.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Jeunes de la Motte","Net","Apis mellifera","species","honeybees",1,1.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Jeunes de la Motte","Net","Apis mellifera","species","honeybees",1,1.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Jeunes de la Motte","Net","Apis mellifera","species","honeybees",1,1.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Jeunes de la Motte","Net","Apis mellifera","species","honeybees",1,1.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Jeunes de la Motte","Net","Apis mellifera","species","honeybees",1,1.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Jeunes de la Motte","Net","Apis mellifera","species","honeybees",1,1.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Jeunes de la Motte","Net","Apis mellifera","species","honeybees",1,1.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Jeunes de la Motte","Net","Apis mellifera","species","honeybees",1,1.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Jeunes de la Motte","Net","Apis mellifera","species","honeybees",1,1.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Jeunes de la Motte","Net","Apis mellifera","species","honeybees",1,1.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Jeunes de la Motte","Net","Apis mellifera","species","honeybees",1,1.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Jeunes de la Motte","Net","Apis mellifera","species","honeybees",1,1.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Jeunes de la Motte","Net","Apis mellifera","species","honeybees",1,1.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Jeunes de la Motte","Net","Apis mellifera","species","honeybees",1,1.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Jeunes de la Motte","Net","Apis mellifera","species","honeybees",1,1.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Jeunes de la Motte","Net","Apis mellifera","species","honeybees",1,1.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Jeunes de la Motte","Net","Apis mellifera","species","honeybees",1,1.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Jeunes de la Motte","Net","Apis mellifera","species","honeybees",1,1.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Jeunes de la Motte","Net","Apis mellifera","species","honeybees",1,1.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Jeunes de la Motte","Net","Apis mellifera","species","honeybees",1,1.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Jeunes de la Motte","Net","Apis mellifera","species","honeybees",1,1.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Jeunes de la Motte","Net","Apis mellifera","species","honeybees",1,1.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Jeunes de la Motte","Net","Apis mellifera","species","honeybees",1,1.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Jeunes de la Motte","Net","Apis mellifera","species","honeybees",1,1.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Jeunes de la Motte","Net","Apis mellifera","species","honeybees",1,1.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Jeunes de la Motte","Net","Apis mellifera","species","honeybees",1,1.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Le Plessis","Net","Apis mellifera","species","honeybees",1,2,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Le Plessis","Net","Apis mellifera","species","honeybees",1,2,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Le Plessis","Net","Apis mellifera","species","honeybees",1,2,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Le Plessis","Net","Apis mellifera","species","honeybees",1,2,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Le Plessis","Net","Apis mellifera","species","honeybees",1,2,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Le Plessis","Net","Apis mellifera","species","honeybees",1,2,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Le Plessis","Net","Apis mellifera","species","honeybees",1,2,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Le Plessis","Net","Apis mellifera","species","honeybees",1,2,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Le Plessis","Net","Apis mellifera","species","honeybees",1,2,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Le Plessis","Net","Apis mellifera","species","honeybees",1,2,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Le Plessis","Net","Apis mellifera","species","honeybees",1,2,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Le Plessis","Net","Apis mellifera","species","honeybees",1,2,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Le Plessis","Net","Apis mellifera","species","honeybees",1,2,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Le Plessis","Net","Apis mellifera","species","honeybees",1,2,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Le Plessis","Net","Apis mellifera","species","honeybees",1,2,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Le Plessis","Net","Apis mellifera","species","honeybees",1,2,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Le Plessis","Net","Apis mellifera","species","honeybees",1,2,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Le Plessis","Net","Apis mellifera","species","honeybees",1,2,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Le Plessis","Net","Apis mellifera","species","honeybees",1,2,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Le Plessis","Net","Apis mellifera","species","honeybees",1,2,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Le Plessis","Net","Apis mellifera","species","honeybees",1,2,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Le Plessis","Net","Apis mellifera","species","honeybees",1,2,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Le Plessis","Net","Apis mellifera","species","honeybees",1,2,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Le Plessis","Net","Apis mellifera","species","honeybees",1,2,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Le Plessis","Net","Apis mellifera","species","honeybees",1,2,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Le Plessis","Net","Apis mellifera","species","honeybees",1,2,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Le Plessis","Net","Apis mellifera","species","honeybees",1,2,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Le Plessis","Net","Apis mellifera","species","honeybees",1,2,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Le Plessis","Net","Apis mellifera","species","honeybees",1,2,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Le Plessis","Net","Apis mellifera","species","honeybees",1,2,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Le Plessis","Net","Apis mellifera","species","honeybees",1,2,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Le Plessis","Net","Apis mellifera","species","honeybees",1,2,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Le Plessis","Net","Apis mellifera","species","honeybees",1,2,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Le Plessis","Net","Apis mellifera","species","honeybees",1,2,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Le Plessis","Net","Apis mellifera","species","honeybees",1,2,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Le Plessis","Net","Apis mellifera","species","honeybees",1,2,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Le Plessis","Net","Apis mellifera","species","honeybees",1,2,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Le Plessis","Net","Apis mellifera","species","honeybees",1,2,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Maillebois","Net","Apis mellifera","species","honeybees",1,3.45,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Maillebois","Net","Apis mellifera","species","honeybees",1,3.45,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Maillebois","Net","Apis mellifera","species","honeybees",1,3.45,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Maillebois","Net","Apis mellifera","species","honeybees",1,3.45,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Maillebois","Net","Apis mellifera","species","honeybees",1,3.45,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Maillebois","Net","Apis mellifera","species","honeybees",1,3.45,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Maillebois","Net","Apis mellifera","species","honeybees",1,3.45,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Maillebois","Net","Apis mellifera","species","honeybees",1,3.45,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Maillebois","Net","Apis mellifera","species","honeybees",1,3.45,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Maillebois","Net","Apis mellifera","species","honeybees",1,3.45,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Maillebois","Net","Apis mellifera","species","honeybees",1,3.45,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Maillebois","Net","Apis mellifera","species","honeybees",1,3.45,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Maillebois","Net","Apis mellifera","species","honeybees",1,3.45,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Maillebois","Net","Apis mellifera","species","honeybees",1,3.45,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Maillebois","Net","Apis mellifera","species","honeybees",1,3.45,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Maillebois","Net","Apis mellifera","species","honeybees",1,3.45,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Maillebois","Net","Apis mellifera","species","honeybees",1,3.45,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Maillebois","Net","Apis mellifera","species","honeybees",1,3.45,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Maillebois","Net","Apis mellifera","species","honeybees",1,3.45,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Maillebois","Net","Apis mellifera","species","honeybees",1,3.45,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Maillebois","Net","Apis mellifera","species","honeybees",1,3.45,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Maillebois","Net","Apis mellifera","species","honeybees",1,3.45,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Maillebois","Net","Apis mellifera","species","honeybees",1,3.45,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Maillebois","Net","Apis mellifera","species","honeybees",1,3.45,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Maillebois","Net","Apis mellifera","species","honeybees",1,3.45,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Maillebois","Net","Apis mellifera","species","honeybees",1,3.45,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Maillebois","Net","Apis mellifera","species","honeybees",1,3.45,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Maillebois","Net","Apis mellifera","species","honeybees",1,3.45,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Maillebois","Net","Apis mellifera","species","honeybees",1,3.45,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Maillebois","Net","Apis mellifera","species","honeybees",1,3.45,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Maillebois","Net","Apis mellifera","species","honeybees",1,3.45,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Maillebois","Net","Apis mellifera","species","honeybees",1,3.45,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Maillebois","Net","Apis mellifera","species","honeybees",1,3.45,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Maillebois","Net","Apis mellifera","species","honeybees",1,3.45,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Maillebois","Net","Apis mellifera","species","honeybees",1,3.45,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Maillebois","Net","Apis mellifera","species","honeybees",1,3.45,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Maillebois","Net","Apis mellifera","species","honeybees",1,3.45,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Maillebois","Net","Apis mellifera","species","honeybees",1,3.45,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Maillebois","Net","Apis mellifera","species","honeybees",1,3.45,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","SCA de la Plesse","Net","Apis mellifera","species","honeybees",1,21.28,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","SCA de la Plesse","Net","Apis mellifera","species","honeybees",1,21.28,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","SCA de la Plesse","Net","Apis mellifera","species","honeybees",1,21.28,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","SCA de la Plesse","Net","Apis mellifera","species","honeybees",1,21.28,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","SCA de la Plesse","Net","Apis mellifera","species","honeybees",1,21.28,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","SCA de la Plesse","Net","Apis mellifera","species","honeybees",1,21.28,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","SCA de la Plesse","Net","Apis mellifera","species","honeybees",1,21.28,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","SCA de la Plesse","Net","Apis mellifera","species","honeybees",1,21.28,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","SCA de la Plesse","Net","Apis mellifera","species","honeybees",1,21.28,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","SCA de la Plesse","Net","Apis mellifera","species","honeybees",1,21.28,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","SCA de la Plesse","Net","Apis mellifera","species","honeybees",1,21.28,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","SCA de la Plesse","Net","Apis mellifera","species","honeybees",1,21.28,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","SCA de la Plesse","Net","Apis mellifera","species","honeybees",1,21.28,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","SCA de la Plesse","Net","Apis mellifera","species","honeybees",1,21.28,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","SCA de la Plesse","Net","Apis mellifera","species","honeybees",1,21.28,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","SCA de la Plesse","Net","Apis mellifera","species","honeybees",1,21.28,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","SCA de la Plesse","Net","Apis mellifera","species","honeybees",1,21.28,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","SCA de la Plesse","Net","Apis mellifera","species","honeybees",1,21.28,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","SCA de la Plesse","Net","Apis mellifera","species","honeybees",1,21.28,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","SCA de la Plesse","Net","Apis mellifera","species","honeybees",1,21.28,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","SCA de la Plesse","Net","Apis mellifera","species","honeybees",1,21.28,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","SCA de la Plesse","Net","Apis mellifera","species","honeybees",1,21.28,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","SCA de la Plesse","Net","Apis mellifera","species","honeybees",1,21.28,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","SCA de la Plesse","Net","Apis mellifera","species","honeybees",1,21.28,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","SCA de la Plesse","Net","Apis mellifera","species","honeybees",1,21.28,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","SCA de la Plesse","Net","Apis mellifera","species","honeybees",1,21.28,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","SCA de la Plesse","Net","Apis mellifera","species","honeybees",1,21.28,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","SCA de la Plesse","Net","Apis mellifera","species","honeybees",1,21.28,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","SCA de la Plesse","Net","Apis mellifera","species","honeybees",1,21.28,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","SCA de la Plesse","Net","Apis mellifera","species","honeybees",1,21.28,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","SCA de la Plesse","Net","Apis mellifera","species","honeybees",1,21.28,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","SCA de la Plesse","Net","Apis mellifera","species","honeybees",1,21.28,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","SCA de la Plesse","Net","Apis mellifera","species","honeybees",1,21.28,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","SCA de la Plesse","Net","Apis mellifera","species","honeybees",1,21.28,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","SCA de la Plesse","Net","Apis mellifera","species","honeybees",1,21.28,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","SCA de la Plesse","Net","Apis mellifera","species","honeybees",1,21.28,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","SCA de la Plesse","Net","Apis mellifera","species","honeybees",1,21.28,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","SCA de la Plesse","Net","Apis mellifera","species","honeybees",1,21.28,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","SCA de la Plesse","Net","Apis mellifera","species","honeybees",1,21.28,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","SCA de la Plesse","Net","Apis mellifera","species","honeybees",1,21.28,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","SCA de la Plesse","Net","Apis mellifera","species","honeybees",1,21.28,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","SCA de la Plesse","Net","Apis mellifera","species","honeybees",1,21.28,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","SCA de la Plesse","Net","Apis mellifera","species","honeybees",1,21.28,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","SCA de la Plesse","Net","Apis mellifera","species","honeybees",1,21.28,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","SCA de la Plesse","Net","Apis mellifera","species","honeybees",1,21.28,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","SCA de la Plesse","Net","Apis mellifera","species","honeybees",1,21.28,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","SCA de la Plesse","Net","Apis mellifera","species","honeybees",1,21.28,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","SCA de la Plesse","Net","Apis mellifera","species","honeybees",1,21.28,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","SCA de la Plesse","Net","Apis mellifera","species","honeybees",1,21.28,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","SCA de la Plesse","Net","Apis mellifera","species","honeybees",1,21.28,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","SCA de la Plesse","Net","Apis mellifera","species","honeybees",1,21.28,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","SCA de la Plesse","Net","Apis mellifera","species","honeybees",1,21.28,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","SCA de la Plesse","Net","Apis mellifera","species","honeybees",1,21.28,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","SCA de la Plesse","Net","Apis mellifera","species","honeybees",1,21.28,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","SCA de la Plesse","Net","Apis mellifera","species","honeybees",1,21.28,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","SCA de la Plesse","Net","Apis mellifera","species","honeybees",1,21.28,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","SCA de la Plesse","Net","Apis mellifera","species","honeybees",1,21.28,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","SCA de la Plesse","Net","Apis mellifera","species","honeybees",1,21.28,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","SCA de la Plesse","Net","Apis mellifera","species","honeybees",1,21.28,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","SCA de la Plesse","Net","Apis mellifera","species","honeybees",1,21.28,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","SCA de la Plesse","Net","Apis mellifera","species","honeybees",1,21.28,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","SCA de la Plesse","Net","Apis mellifera","species","honeybees",1,21.28,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","SCA de la Plesse","Net","Apis mellifera","species","honeybees",1,21.28,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","SCA de la Plesse","Net","Apis mellifera","species","honeybees",1,21.28,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","SCA de la Plesse","Net","Apis mellifera","species","honeybees",1,21.28,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","SCA de la Plesse","Net","Apis mellifera","species","honeybees",1,21.28,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","SCA de la Plesse","Net","Apis mellifera","species","honeybees",1,21.28,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","SCA de la Plesse","Net","Apis mellifera","species","honeybees",1,21.28,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","SCA de la Plesse","Net","Apis mellifera","species","honeybees",1,21.28,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","SCA de la Plesse","Net","Apis mellifera","species","honeybees",1,21.28,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","SCA de la Plesse","Net","Apis mellifera","species","honeybees",1,21.28,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","SCA de la Plesse","Net","Apis mellifera","species","honeybees",1,21.28,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","SCA de la Plesse","Net","Apis mellifera","species","honeybees",1,21.28,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","SCA de la Plesse","Net","Apis mellifera","species","honeybees",1,21.28,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","SCA de la Plesse","Net","Apis mellifera","species","honeybees",1,21.28,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","SCA de la Plesse","Net","Apis mellifera","species","honeybees",1,21.28,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","SCA de la Plesse","Net","Apis mellifera","species","honeybees",1,21.28,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","SCA de la Plesse","Net","Apis mellifera","species","honeybees",1,21.28,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","SCA de la Plesse","Net","Apis mellifera","species","honeybees",1,21.28,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","SCA de la Plesse","Net","Apis mellifera","species","honeybees",1,21.28,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","SCA de la Plesse","Net","Apis mellifera","species","honeybees",1,21.28,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","SCA de la Plesse","Net","Apis mellifera","species","honeybees",1,21.28,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","SCA de la Plesse","Net","Apis mellifera","species","honeybees",1,21.28,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","SCA de la Plesse","Net","Apis mellifera","species","honeybees",1,21.28,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","SCA de la Plesse","Net","Apis mellifera","species","honeybees",1,21.28,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","SCA de la Plesse","Net","Apis mellifera","species","honeybees",1,21.28,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","SCA de Vauleard","Net","Apis mellifera","species","honeybees",1,62.09,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","SCA de Vauleard","Net","Apis mellifera","species","honeybees",1,62.09,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","SCA de Vauleard","Net","Apis mellifera","species","honeybees",1,62.09,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","SCA de Vauleard","Net","Apis mellifera","species","honeybees",1,62.09,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","SCA de Vauleard","Net","Apis mellifera","species","honeybees",1,62.09,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","SCA de Vauleard","Net","Apis mellifera","species","honeybees",1,62.09,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","SCA de Vauleard","Net","Apis mellifera","species","honeybees",1,62.09,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","SCA de Vauleard","Net","Apis mellifera","species","honeybees",1,62.09,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","SCA de Vauleard","Net","Apis mellifera","species","honeybees",1,62.09,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","SCA de Vauleard","Net","Apis mellifera","species","honeybees",1,62.09,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","SCA de Vauleard","Net","Apis mellifera","species","honeybees",1,62.09,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","SCA de Vauleard","Net","Apis mellifera","species","honeybees",1,62.09,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","SCA de Vauleard","Net","Apis mellifera","species","honeybees",1,62.09,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","SCA de Vauleard","Net","Apis mellifera","species","honeybees",1,62.09,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","SCA de Vauleard","Net","Apis mellifera","species","honeybees",1,62.09,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","SCA de Vauleard","Net","Apis mellifera","species","honeybees",1,62.09,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","SCA de Vauleard","Net","Apis mellifera","species","honeybees",1,62.09,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","SCA de Vauleard","Net","Apis mellifera","species","honeybees",1,62.09,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","SCA de Vauleard","Net","Apis mellifera","species","honeybees",1,62.09,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","SCA de Vauleard","Net","Apis mellifera","species","honeybees",1,62.09,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","SCA de Vauleard","Net","Apis mellifera","species","honeybees",1,62.09,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","SCA de Vauleard","Net","Apis mellifera","species","honeybees",1,62.09,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","SCA de Vauleard","Net","Apis mellifera","species","honeybees",1,62.09,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","SCA de Vauleard","Net","Apis mellifera","species","honeybees",1,62.09,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","SCA de Vauleard","Net","Apis mellifera","species","honeybees",1,62.09,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","SCA de Vauleard","Net","Apis mellifera","species","honeybees",1,62.09,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","SCA de Vauleard","Net","Apis mellifera","species","honeybees",1,62.09,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","SCA de Vauleard","Net","Apis mellifera","species","honeybees",1,62.09,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","SCA de Vauleard","Net","Apis mellifera","species","honeybees",1,62.09,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","SCA de Vauleard","Net","Apis mellifera","species","honeybees",1,62.09,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","SCA de Vauleard","Net","Apis mellifera","species","honeybees",1,62.09,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","SCA de Vauleard","Net","Apis mellifera","species","honeybees",1,62.09,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","SCA de Vauleard","Net","Apis mellifera","species","honeybees",1,62.09,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","SCA de Vauleard","Net","Apis mellifera","species","honeybees",1,62.09,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","SCA de Vauleard","Net","Apis mellifera","species","honeybees",1,62.09,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","SCA de Vauleard","Net","Apis mellifera","species","honeybees",1,62.09,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","SCA de Vauleard","Net","Apis mellifera","species","honeybees",1,62.09,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","SCA de Vauleard","Net","Apis mellifera","species","honeybees",1,62.09,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","SCA de Vauleard","Net","Apis mellifera","species","honeybees",1,62.09,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","SCA de Vauleard","Net","Apis mellifera","species","honeybees",1,62.09,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","SCA de Vauleard","Net","Apis mellifera","species","honeybees",1,62.09,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","SCA de Vauleard","Net","Apis mellifera","species","honeybees",1,62.09,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","SCA de Vauleard","Net","Apis mellifera","species","honeybees",1,62.09,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","SCA de Vauleard","Net","Apis mellifera","species","honeybees",1,62.09,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","SCA de Vauleard","Net","Apis mellifera","species","honeybees",1,62.09,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","SCA de Vauleard","Net","Apis mellifera","species","honeybees",1,62.09,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","SCA de Vauleard","Net","Apis mellifera","species","honeybees",1,62.09,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","SCA de Vauleard","Net","Apis mellifera","species","honeybees",1,62.09,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","SCA de Vauleard","Net","Apis mellifera","species","honeybees",1,62.09,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","SCA de Vauleard","Net","Apis mellifera","species","honeybees",1,62.09,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","SCA de Vauleard","Net","Apis mellifera","species","honeybees",1,62.09,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","SCA de Vauleard","Net","Apis mellifera","species","honeybees",1,62.09,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","SCA de Vauleard","Net","Apis mellifera","species","honeybees",1,62.09,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","SCA de Vauleard","Net","Apis mellifera","species","honeybees",1,62.09,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","SCA de Vauleard","Net","Apis mellifera","species","honeybees",1,62.09,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","SCA de Vauleard","Net","Apis mellifera","species","honeybees",1,62.09,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","SCA de Vauleard","Net","Apis mellifera","species","honeybees",1,62.09,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","SCA de Vauleard","Net","Apis mellifera","species","honeybees",1,62.09,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","SCA de Vauleard","Net","Apis mellifera","species","honeybees",1,62.09,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","SCA de Vauleard","Net","Apis mellifera","species","honeybees",1,62.09,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","SCA de Vauleard","Net","Apis mellifera","species","honeybees",1,62.09,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","SCA de Vauleard","Net","Apis mellifera","species","honeybees",1,62.09,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","SCA de Vauleard","Net","Apis mellifera","species","honeybees",1,62.09,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","SCA de Vauleard","Net","Apis mellifera","species","honeybees",1,62.09,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","SCA de Vauleard","Net","Apis mellifera","species","honeybees",1,62.09,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","SCA de Vauleard","Net","Apis mellifera","species","honeybees",1,62.09,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","SCA de Vauleard","Net","Apis mellifera","species","honeybees",1,62.09,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","SCA de Vauleard","Net","Apis mellifera","species","honeybees",1,62.09,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","SCA de Vauleard","Net","Apis mellifera","species","honeybees",1,62.09,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","SCA de Vauleard","Net","Apis mellifera","species","honeybees",1,62.09,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","SCA de Vauleard","Net","Apis mellifera","species","honeybees",1,62.09,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","SCA de Vauleard","Net","Apis mellifera","species","honeybees",1,62.09,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","SCA de Vauleard","Net","Apis mellifera","species","honeybees",1,62.09,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","SCA de Vauleard","Net","Apis mellifera","species","honeybees",1,62.09,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","SCA de Vauleard","Net","Apis mellifera","species","honeybees",1,62.09,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","SCA de Vauleard","Net","Apis mellifera","species","honeybees",1,62.09,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","SCA de Vauleard","Net","Apis mellifera","species","honeybees",1,62.09,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","SCA de Vauleard","Net","Apis mellifera","species","honeybees",1,62.09,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","SCA de Vauleard","Net","Apis mellifera","species","honeybees",1,62.09,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","SCA de Vauleard","Net","Apis mellifera","species","honeybees",1,62.09,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","SCA de Vauleard","Net","Apis mellifera","species","honeybees",1,62.09,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","SCA de Vauleard","Net","Apis mellifera","species","honeybees",1,62.09,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","SCA de Vauleard","Net","Apis mellifera","species","honeybees",1,62.09,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","SCA de Vauleard","Net","Apis mellifera","species","honeybees",1,62.09,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","SCA de Vauleard","Net","Apis mellifera","species","honeybees",1,62.09,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","SCA de Vauleard","Net","Apis mellifera","species","honeybees",1,62.09,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","SCA de Vauleard","Net","Apis mellifera","species","honeybees",1,62.09,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","SCA de Vauleard","Net","Apis mellifera","species","honeybees",1,62.09,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","SCA de Vauleard","Net","Apis mellifera","species","honeybees",1,62.09,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","SCA de Vauleard","Net","Apis mellifera","species","honeybees",1,62.09,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","SCA de Vauleard","Net","Apis mellifera","species","honeybees",1,62.09,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","SCA de Vauleard","Net","Apis mellifera","species","honeybees",1,62.09,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","SCA de Vauleard","Net","Apis mellifera","species","honeybees",1,62.09,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","SCA de Vauleard","Net","Apis mellifera","species","honeybees",1,62.09,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","SCA de Vauleard","Net","Apis mellifera","species","honeybees",1,62.09,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","SCA de Vauleard","Net","Apis mellifera","species","honeybees",1,62.09,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","SCA de Vauleard","Net","Apis mellifera","species","honeybees",1,62.09,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","SCA de Vauleard","Net","Apis mellifera","species","honeybees",1,62.09,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","SCA de Vauleard","Net","Apis mellifera","species","honeybees",1,62.09,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","SCA de Vauleard","Net","Apis mellifera","species","honeybees",1,62.09,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","SCA de Vauleard","Net","Apis mellifera","species","honeybees",1,62.09,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","SCA de Vauleard","Net","Apis mellifera","species","honeybees",1,62.09,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","SCA de Vauleard","Net","Apis mellifera","species","honeybees",1,62.09,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","SCA de Vauleard","Net","Apis mellifera","species","honeybees",1,62.09,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","SCA de Vauleard","Net","Apis mellifera","species","honeybees",1,62.09,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","SCA de Vauleard","Net","Apis mellifera","species","honeybees",1,62.09,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","SCA de Vauleard","Net","Apis mellifera","species","honeybees",1,62.09,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","SCA de Vauleard","Net","Apis mellifera","species","honeybees",1,62.09,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","SCA de Vauleard","Net","Apis mellifera","species","honeybees",1,62.09,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","SCA de Vauleard","Net","Apis mellifera","species","honeybees",1,62.09,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","SCA de Vauleard","Net","Apis mellifera","species","honeybees",1,62.09,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","SCA de Vauleard","Net","Apis mellifera","species","honeybees",1,62.09,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","SCA de Vauleard","Net","Apis mellifera","species","honeybees",1,62.09,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","SCA de Vauleard","Net","Apis mellifera","species","honeybees",1,62.09,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","SCA de Vauleard","Net","Apis mellifera","species","honeybees",1,62.09,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","SCA de Vauleard","Net","Apis mellifera","species","honeybees",1,62.09,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","SCA de Vauleard","Net","Apis mellifera","species","honeybees",1,62.09,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","SCA de Vauleard","Net","Apis mellifera","species","honeybees",1,62.09,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","SCA de Vauleard","Net","Apis mellifera","species","honeybees",1,62.09,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","SCA de Vauleard","Net","Apis mellifera","species","honeybees",1,62.09,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","SCA de Vauleard","Net","Apis mellifera","species","honeybees",1,62.09,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","SCA de Vauleard","Net","Apis mellifera","species","honeybees",1,62.09,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","SCA de Vauleard","Net","Apis mellifera","species","honeybees",1,62.09,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","SCA de Vauleard","Net","Apis mellifera","species","honeybees",1,62.09,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","SCA de Vauleard","Net","Apis mellifera","species","honeybees",1,62.09,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","SCA de Vauleard","Net","Apis mellifera","species","honeybees",1,62.09,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","SCA de Vauleard","Net","Apis mellifera","species","honeybees",1,62.09,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","SCA de Vauleard","Net","Apis mellifera","species","honeybees",1,62.09,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","SCA de Vauleard","Net","Apis mellifera","species","honeybees",1,62.09,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Tilly","Net","Apis mellifera","species","honeybees",1,5.8,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Tilly","Net","Apis mellifera","species","honeybees",1,5.8,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Tilly","Net","Apis mellifera","species","honeybees",1,5.8,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Tilly","Net","Apis mellifera","species","honeybees",1,5.8,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Tilly","Net","Apis mellifera","species","honeybees",1,5.8,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Tilly","Net","Apis mellifera","species","honeybees",1,5.8,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Tilly","Net","Apis mellifera","species","honeybees",1,5.8,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Tilly","Net","Apis mellifera","species","honeybees",1,5.8,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Tilly","Net","Apis mellifera","species","honeybees",1,5.8,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Tilly","Net","Apis mellifera","species","honeybees",1,5.8,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Tilly","Net","Apis mellifera","species","honeybees",1,5.8,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Tilly","Net","Apis mellifera","species","honeybees",1,5.8,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Tilly","Net","Apis mellifera","species","honeybees",1,5.8,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Tilly","Net","Apis mellifera","species","honeybees",1,5.8,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Tilly","Net","Apis mellifera","species","honeybees",1,5.8,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Tilly","Net","Apis mellifera","species","honeybees",1,5.8,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Tilly","Net","Apis mellifera","species","honeybees",1,5.8,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Tilly","Net","Apis mellifera","species","honeybees",1,5.8,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Tilly","Net","Apis mellifera","species","honeybees",1,5.8,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Tilly","Net","Apis mellifera","species","honeybees",1,5.8,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Tilly","Net","Apis mellifera","species","honeybees",1,5.8,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Tilly","Net","Apis mellifera","species","honeybees",1,5.8,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Tilly","Net","Apis mellifera","species","honeybees",1,5.8,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Tilly","Net","Apis mellifera","species","honeybees",1,5.8,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Tilly","Net","Apis mellifera","species","honeybees",1,5.8,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Tilly","Net","Apis mellifera","species","honeybees",1,5.8,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Tilly","Net","Apis mellifera","species","honeybees",1,5.8,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Tilly","Net","Apis mellifera","species","honeybees",1,5.8,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Tilly","Net","Apis mellifera","species","honeybees",1,5.8,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Tilly","Net","Apis mellifera","species","honeybees",1,5.8,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Tilly","Net","Apis mellifera","species","honeybees",1,5.8,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Tilly","Net","Apis mellifera","species","honeybees",1,5.8,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Tilly","Net","Apis mellifera","species","honeybees",1,5.8,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Tilly","Net","Apis mellifera","species","honeybees",1,5.8,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Tilly","Net","Apis mellifera","species","honeybees",1,5.8,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Traenheim","Net","Apis mellifera","species","honeybees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Traenheim","Net","Apis mellifera","species","honeybees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Traenheim","Net","Apis mellifera","species","honeybees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Traenheim","Net","Apis mellifera","species","honeybees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Traenheim","Net","Apis mellifera","species","honeybees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Traenheim","Net","Apis mellifera","species","honeybees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Traenheim","Net","Apis mellifera","species","honeybees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Traenheim","Net","Apis mellifera","species","honeybees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Traenheim","Net","Apis mellifera","species","honeybees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Traenheim","Net","Apis mellifera","species","honeybees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Traenheim","Net","Apis mellifera","species","honeybees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Traenheim","Net","Apis mellifera","species","honeybees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Traenheim","Net","Apis mellifera","species","honeybees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Traenheim","Net","Apis mellifera","species","honeybees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Traenheim","Net","Apis mellifera","species","honeybees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Traenheim","Net","Apis mellifera","species","honeybees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Traenheim","Net","Apis mellifera","species","honeybees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Traenheim","Net","Apis mellifera","species","honeybees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Traenheim","Net","Apis mellifera","species","honeybees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Traenheim","Net","Apis mellifera","species","honeybees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Traenheim","Net","Apis mellifera","species","honeybees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Traenheim","Net","Apis mellifera","species","honeybees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Traenheim","Net","Apis mellifera","species","honeybees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Traenheim","Net","Apis mellifera","species","honeybees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Traenheim","Net","Apis mellifera","species","honeybees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Traenheim","Net","Apis mellifera","species","honeybees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Traenheim","Net","Apis mellifera","species","honeybees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Traenheim","Net","Apis mellifera","species","honeybees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Traenheim","Net","Apis mellifera","species","honeybees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Traenheim","Net","Apis mellifera","species","honeybees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Traenheim","Net","Apis mellifera","species","honeybees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Vergers Ohey","Net","Apis mellifera","species","honeybees",1,1,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Vergers Ohey","Net","Apis mellifera","species","honeybees",1,1,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Vergers Ohey","Net","Apis mellifera","species","honeybees",1,1,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Vergers Ohey","Net","Apis mellifera","species","honeybees",1,1,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Vergers Ohey","Net","Apis mellifera","species","honeybees",1,1,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Vergers Ohey","Net","Apis mellifera","species","honeybees",1,1,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Vergers Ohey","Net","Apis mellifera","species","honeybees",1,1,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Vergers Ohey","Net","Apis mellifera","species","honeybees",1,1,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Vergers Ohey","Net","Apis mellifera","species","honeybees",1,1,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Vergers Ohey","Net","Apis mellifera","species","honeybees",1,1,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Vergers Ohey","Net","Apis mellifera","species","honeybees",1,1,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Vergers Ohey","Net","Apis mellifera","species","honeybees",1,1,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Vergers Ohey","Net","Apis mellifera","species","honeybees",1,1,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Vergers Ohey","Net","Apis mellifera","species","honeybees",1,1,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Vergers Ohey","Net","Apis mellifera","species","honeybees",1,1,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Vergers Ohey","Net","Apis mellifera","species","honeybees",1,1,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Vergers Ohey","Net","Apis mellifera","species","honeybees",1,1,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Vergers Ohey","Net","Apis mellifera","species","honeybees",1,1,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Vergers Ohey","Net","Apis mellifera","species","honeybees",1,1,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Vergers Ohey","Net","Apis mellifera","species","honeybees",1,1,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Vergers Ohey","Net","Apis mellifera","species","honeybees",1,1,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Vergers Ohey","Net","Apis mellifera","species","honeybees",1,1,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Vergers Ohey","Net","Apis mellifera","species","honeybees",1,1,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Vergers Ohey","Net","Apis mellifera","species","honeybees",1,1,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Vergers Ohey","Net","Apis mellifera","species","honeybees",1,1,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Vergers Ohey","Net","Apis mellifera","species","honeybees",1,1,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Vergers Ohey","Net","Apis mellifera","species","honeybees",1,1,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Vergers Ohey","Net","Apis mellifera","species","honeybees",1,1,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Vergers Ohey","Net","Apis mellifera","species","honeybees",1,1,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Vergers Ohey","Net","Apis mellifera","species","honeybees",1,1,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Vergers Ohey","Net","Apis mellifera","species","honeybees",1,1,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Vergers Ohey","Net","Apis mellifera","species","honeybees",1,1,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Vergers Ohey","Net","Apis mellifera","species","honeybees",1,1,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Vergers Ohey","Net","Apis mellifera","species","honeybees",1,1,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Vergers Ohey","Net","Apis mellifera","species","honeybees",1,1,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Vergers Ohey","Net","Apis mellifera","species","honeybees",1,1,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Vergers Ohey","Net","Apis mellifera","species","honeybees",1,1,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Vergers Ohey","Net","Apis mellifera","species","honeybees",1,1,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Vergers Ohey","Net","Apis mellifera","species","honeybees",1,1,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Vergers Ohey","Net","Apis mellifera","species","honeybees",1,1,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Vergers Ohey","Net","Apis mellifera","species","honeybees",1,1,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Vergers Ohey","Net","Apis mellifera","species","honeybees",1,1,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Vergers Ohey","Net","Apis mellifera","species","honeybees",1,1,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Vergers Ohey","Net","Apis mellifera","species","honeybees",1,1,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Vergers Ohey","Net","Apis mellifera","species","honeybees",1,1,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Vergers Ohey","Net","Apis mellifera","species","honeybees",1,1,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Vergers Ohey","Net","Apis mellifera","species","honeybees",1,1,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Vergers Ohey","Net","Apis mellifera","species","honeybees",1,1,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Vergers Ohey","Net","Apis mellifera","species","honeybees",1,1,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Vergers Ohey","Net","Apis mellifera","species","honeybees",1,1,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Vergers Ohey","Net","Apis mellifera","species","honeybees",1,1,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Vergers Ohey","Net","Apis mellifera","species","honeybees",1,1,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Vergers Ohey","Net","Apis mellifera","species","honeybees",1,1,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Vergers Ohey","Net","Apis mellifera","species","honeybees",1,1,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Vergers Ohey","Net","Apis mellifera","species","honeybees",1,1,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Vergers Ohey","Net","Apis mellifera","species","honeybees",1,1,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Vergers Ohey","Net","Apis mellifera","species","honeybees",1,1,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Vergers Ohey","Net","Apis mellifera","species","honeybees",1,1,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Vergers Ohey","Net","Apis mellifera","species","honeybees",1,1,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Vergers Ohey","Net","Apis mellifera","species","honeybees",1,1,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Vergers Ohey","Net","Apis mellifera","species","honeybees",1,1,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Vergers Ohey","Net","Apis mellifera","species","honeybees",1,1,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Vergers Ohey","Net","Apis mellifera","species","honeybees",1,1,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Vergers Ohey","Net","Apis mellifera","species","honeybees",1,1,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Vergers Ohey","Net","Apis mellifera","species","honeybees",1,1,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Vergers Ohey","Net","Apis mellifera","species","honeybees",1,1,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Vergers Ohey","Net","Apis mellifera","species","honeybees",1,1,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Vergers Ohey","Net","Apis mellifera","species","honeybees",1,1,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Vergers Ohey","Net","Apis mellifera","species","honeybees",1,1,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Vergers Ohey","Net","Apis mellifera","species","honeybees",1,1,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Vergers Ohey","Net","Apis mellifera","species","honeybees",1,1,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Vergers Ohey","Net","Apis mellifera","species","honeybees",1,1,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Vergers Ohey","Net","Apis mellifera","species","honeybees",1,1,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Vergers Ohey","Net","Apis mellifera","species","honeybees",1,1,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Vergers Ohey","Net","Apis mellifera","species","honeybees",1,1,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Vergers Ohey","Net","Apis mellifera","species","honeybees",1,1,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Vergers Ohey","Net","Apis mellifera","species","honeybees",1,1,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Vergers Ohey","Net","Apis mellifera","species","honeybees",1,1,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Vergers Ohey","Net","Apis mellifera","species","honeybees",1,1,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Vergers Ohey","Net","Apis mellifera","species","honeybees",1,1,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Vergers Ohey","Net","Apis mellifera","species","honeybees",1,1,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Vergers Ohey","Net","Apis mellifera","species","honeybees",1,1,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Vergers Ohey","Net","Apis mellifera","species","honeybees",1,1,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Vergers Ohey","Net","Apis mellifera","species","honeybees",1,1,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Vergers Ohey","Net","Apis mellifera","species","honeybees",1,1,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Vergers Ohey","Net","Apis mellifera","species","honeybees",1,1,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Vergers Ohey","Net","Apis mellifera","species","honeybees",1,1,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Vergers Ohey","Net","Apis mellifera","species","honeybees",1,1,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Vergers Ohey","Net","Apis mellifera","species","honeybees",1,1,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Vergers Ohey","Net","Apis mellifera","species","honeybees",1,1,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Vergers Ohey","Net","Apis mellifera","species","honeybees",1,1,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Vergers Ohey","Net","Apis mellifera","species","honeybees",1,1,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Vergers Ohey","Net","Apis mellifera","species","honeybees",1,1,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Vergers Ohey","Net","Apis mellifera","species","honeybees",1,1,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Vergers Ohey","Net","Apis mellifera","species","honeybees",1,1,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Vergers Ohey","Net","Apis mellifera","species","honeybees",1,1,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Vergers Ohey","Net","Apis mellifera","species","honeybees",1,1,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Vergers Ohey","Net","Apis mellifera","species","honeybees",1,1,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Vergers Ohey","Net","Apis mellifera","species","honeybees",1,1,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Vergers Ohey","Net","Apis mellifera","species","honeybees",1,1,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Vergers Ohey","Net","Apis mellifera","species","honeybees",1,1,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Vergers Ohey","Net","Apis mellifera","species","honeybees",1,1,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Vergers Ohey","Net","Apis mellifera","species","honeybees",1,1,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Vergers Ohey","Net","Apis mellifera","species","honeybees",1,1,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Vergers Ohey","Net","Apis mellifera","species","honeybees",1,1,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Vergers Ohey","Net","Apis mellifera","species","honeybees",1,1,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Vergers Ohey","Net","Apis mellifera","species","honeybees",1,1,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Vergers Ohey","Net","Apis mellifera","species","honeybees",1,1,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Vergers Ohey","Net","Apis mellifera","species","honeybees",1,1,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Vergers Ohey","Net","Apis mellifera","species","honeybees",1,1,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Vergers Ohey","Net","Apis mellifera","species","honeybees",1,1,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Vergers Ohey","Net","Apis mellifera","species","honeybees",1,1,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Vergers Ohey","Net","Apis mellifera","species","honeybees",1,1,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Vergers Ohey","Net","Apis mellifera","species","honeybees",1,1,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Vergers Ohey","Net","Apis mellifera","species","honeybees",1,1,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Vergers Ohey","Net","Apis mellifera","species","honeybees",1,1,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Vergers Ohey","Net","Apis mellifera","species","honeybees",1,1,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Vergers Ohey","Net","Apis mellifera","species","honeybees",1,1,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Vergers Ohey","Net","Apis mellifera","species","honeybees",1,1,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Vergers Ohey","Net","Apis mellifera","species","honeybees",1,1,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Vergers Ohey","Net","Apis mellifera","species","honeybees",1,1,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Vergers Ohey","Net","Apis mellifera","species","honeybees",1,1,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Vergers Ohey","Net","Apis mellifera","species","honeybees",1,1,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Vergers Ohey","Net","Apis mellifera","species","honeybees",1,1,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Vergers Ohey","Net","Apis mellifera","species","honeybees",1,1,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Vergers Ohey","Net","Apis mellifera","species","honeybees",1,1,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Vergers Ohey","Net","Apis mellifera","species","honeybees",1,1,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Vergers Ohey","Net","Apis mellifera","species","honeybees",1,1,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Vergers Ohey","Net","Apis mellifera","species","honeybees",1,1,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Vergers Ohey","Net","Apis mellifera","species","honeybees",1,1,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Vergers Ohey","Net","Apis mellifera","species","honeybees",1,1,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Vergers Ohey","Net","Apis mellifera","species","honeybees",1,1,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Vergers Ohey","Net","Apis mellifera","species","honeybees",1,1,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Vergers Ohey","Net","Apis mellifera","species","honeybees",1,1,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Vergers Ohey","Net","Apis mellifera","species","honeybees",1,1,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Vergers Ohey","Net","Apis mellifera","species","honeybees",1,1,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Vergers Ohey","Net","Apis mellifera","species","honeybees",1,1,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Vergers Ohey","Net","Apis mellifera","species","honeybees",1,1,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Vergers Ohey","Net","Apis mellifera","species","honeybees",1,1,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Vergers Ohey","Net","Apis mellifera","species","honeybees",1,1,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Vergers Ohey","Net","Apis mellifera","species","honeybees",1,1,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Dampleux","Net","Bombus hypnorum","species","bumblebees",1,2.15,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Dampleux","Net","Bombus hypnorum","species","bumblebees",1,2.15,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Dampleux","Net","Bombus hypnorum","species","bumblebees",1,2.15,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Ferme de Canon","Net","Bombus hypnorum","species","bumblebees",1,4,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Ferme de Canon","Net","Bombus hypnorum","species","bumblebees",1,4,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Fontenay","Net","Bombus hypnorum","species","bumblebees",1,50.85,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Le Plessis","Net","Bombus hypnorum","species","bumblebees",1,2,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Vergers Ohey","Net","Bombus hypnorum","species","bumblebees",1,1,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Vergers Ohey","Net","Bombus hypnorum","species","bumblebees",1,1,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Vergers Ohey","Net","Bombus hypnorum","species","bumblebees",1,1,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Vergers Ohey","Net","Bombus hypnorum","species","bumblebees",1,1,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Vergers Ohey","Net","Bombus hypnorum","species","bumblebees",1,1,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Vergers Ohey","Net","Bombus hypnorum","species","bumblebees",1,1,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Bois de la Borde","Net","Bombus lapidarius","species","bumblebees",1,1.7,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Bois de la Borde","Net","Bombus lapidarius","species","bumblebees",1,1.7,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Bois de la Borde","Net","Bombus lapidarius","species","bumblebees",1,1.7,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Bois de la Borde","Net","Bombus lapidarius","species","bumblebees",1,1.7,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Bois de la Borde","Net","Bombus lapidarius","species","bumblebees",1,1.7,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Bois de la Borde","Net","Bombus lapidarius","species","bumblebees",1,1.7,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Bois de la Borde","Net","Bombus lapidarius","species","bumblebees",1,1.7,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Dampleux","Net","Bombus lapidarius","species","bumblebees",1,2.15,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Dampleux","Net","Bombus lapidarius","species","bumblebees",1,2.15,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Dampleux","Net","Bombus lapidarius","species","bumblebees",1,2.15,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Ferme de Canon","Net","Bombus lapidarius","species","bumblebees",1,4,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Ferme de Canon","Net","Bombus lapidarius","species","bumblebees",1,4,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Ferme de Canon","Net","Bombus lapidarius","species","bumblebees",1,4,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Ferme de Canon","Net","Bombus lapidarius","species","bumblebees",1,4,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Ferme de Canon","Net","Bombus lapidarius","species","bumblebees",1,4,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Fontenay","Net","Bombus lapidarius","species","bumblebees",1,50.85,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Innenheim","Net","Bombus lapidarius","species","bumblebees",1,2.53,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Innenheim","Net","Bombus lapidarius","species","bumblebees",1,2.53,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Innenheim","Net","Bombus lapidarius","species","bumblebees",1,2.53,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Innenheim","Net","Bombus lapidarius","species","bumblebees",1,2.53,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Innenheim","Net","Bombus lapidarius","species","bumblebees",1,2.53,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Innenheim","Net","Bombus lapidarius","species","bumblebees",1,2.53,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Jeunes de la Motte","Net","Bombus lapidarius","species","bumblebees",1,1.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Jeunes de la Motte","Net","Bombus lapidarius","species","bumblebees",1,1.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Jeunes de la Motte","Net","Bombus lapidarius","species","bumblebees",1,1.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Jeunes de la Motte","Net","Bombus lapidarius","species","bumblebees",1,1.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Jeunes de la Motte","Net","Bombus lapidarius","species","bumblebees",1,1.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Le Plessis","Net","Bombus lapidarius","species","bumblebees",1,2,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Le Plessis","Net","Bombus lapidarius","species","bumblebees",1,2,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Le Plessis","Net","Bombus lapidarius","species","bumblebees",1,2,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Maillebois","Net","Bombus lapidarius","species","bumblebees",1,3.45,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Maillebois","Net","Bombus lapidarius","species","bumblebees",1,3.45,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","SCA de la Plesse","Net","Bombus lapidarius","species","bumblebees",1,21.28,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","SCA de la Plesse","Net","Bombus lapidarius","species","bumblebees",1,21.28,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","SCA de la Plesse","Net","Bombus lapidarius","species","bumblebees",1,21.28,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","SCA de Vauleard","Net","Bombus lapidarius","species","bumblebees",1,62.09,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","SCA de Vauleard","Net","Bombus lapidarius","species","bumblebees",1,62.09,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","SCA de Vauleard","Net","Bombus lapidarius","species","bumblebees",1,62.09,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","SCA de Vauleard","Net","Bombus lapidarius","species","bumblebees",1,62.09,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","SCA de Vauleard","Net","Bombus lapidarius","species","bumblebees",1,62.09,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","SCA de Vauleard","Net","Bombus lapidarius","species","bumblebees",1,62.09,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","SCA de Vauleard","Net","Bombus lapidarius","species","bumblebees",1,62.09,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","SCA de Vauleard","Net","Bombus lapidarius","species","bumblebees",1,62.09,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","SCA de Vauleard","Net","Bombus lapidarius","species","bumblebees",1,62.09,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","SCA de Vauleard","Net","Bombus lapidarius","species","bumblebees",1,62.09,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Tilly","Net","Bombus lapidarius","species","bumblebees",1,5.8,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Tilly","Net","Bombus lapidarius","species","bumblebees",1,5.8,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Tilly","Net","Bombus lapidarius","species","bumblebees",1,5.8,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Tilly","Net","Bombus lapidarius","species","bumblebees",1,5.8,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Tilly","Net","Bombus lapidarius","species","bumblebees",1,5.8,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Tilly","Net","Bombus lapidarius","species","bumblebees",1,5.8,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Tilly","Net","Bombus lapidarius","species","bumblebees",1,5.8,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Traenheim","Net","Bombus lapidarius","species","bumblebees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Traenheim","Net","Bombus lapidarius","species","bumblebees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Traenheim","Net","Bombus lapidarius","species","bumblebees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Traenheim","Net","Bombus lapidarius","species","bumblebees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Traenheim","Net","Bombus lapidarius","species","bumblebees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Traenheim","Net","Bombus lapidarius","species","bumblebees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Traenheim","Net","Bombus lapidarius","species","bumblebees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Traenheim","Net","Bombus lapidarius","species","bumblebees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Vergers Ohey","Net","Bombus lapidarius","species","bumblebees",1,1,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Vergers Ohey","Net","Bombus lapidarius","species","bumblebees",1,1,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Dampleux","Net","Bombus pascuorum","species","bumblebees",1,2.15,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Dampleux","Net","Bombus pascuorum","species","bumblebees",1,2.15,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Dampleux","Net","Bombus pascuorum","species","bumblebees",1,2.15,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Dampleux","Net","Bombus pascuorum","species","bumblebees",1,2.15,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Dampleux","Net","Bombus pascuorum","species","bumblebees",1,2.15,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Dampleux","Net","Bombus pascuorum","species","bumblebees",1,2.15,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Dampleux","Net","Bombus pascuorum","species","bumblebees",1,2.15,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Ferme de Canon","Net","Bombus pascuorum","species","bumblebees",1,4,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Ferme de Canon","Net","Bombus pascuorum","species","bumblebees",1,4,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Ferme de Canon","Net","Bombus pascuorum","species","bumblebees",1,4,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Ferme de Canon","Net","Bombus pascuorum","species","bumblebees",1,4,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Ferme de Canon","Net","Bombus pascuorum","species","bumblebees",1,4,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Ferme de Canon","Net","Bombus pascuorum","species","bumblebees",1,4,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Ferme de Canon","Net","Bombus pascuorum","species","bumblebees",1,4,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Ferme de Canon","Net","Bombus pascuorum","species","bumblebees",1,4,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Jeunes de la Motte","Net","Bombus pascuorum","species","bumblebees",1,1.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Le Plessis","Net","Bombus pascuorum","species","bumblebees",1,2,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Le Plessis","Net","Bombus pascuorum","species","bumblebees",1,2,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Maillebois","Net","Bombus pascuorum","species","bumblebees",1,3.45,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Maillebois","Net","Bombus pascuorum","species","bumblebees",1,3.45,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","SCA de la Plesse","Net","Bombus pascuorum","species","bumblebees",1,21.28,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","SCA de la Plesse","Net","Bombus pascuorum","species","bumblebees",1,21.28,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","SCA de la Plesse","Net","Bombus pascuorum","species","bumblebees",1,21.28,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","SCA de la Plesse","Net","Bombus pascuorum","species","bumblebees",1,21.28,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","SCA de la Plesse","Net","Bombus pascuorum","species","bumblebees",1,21.28,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","SCA de la Plesse","Net","Bombus pascuorum","species","bumblebees",1,21.28,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","SCA de Vauleard","Net","Bombus pascuorum","species","bumblebees",1,62.09,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","SCA de Vauleard","Net","Bombus pascuorum","species","bumblebees",1,62.09,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","SCA de Vauleard","Net","Bombus pascuorum","species","bumblebees",1,62.09,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Vergers Ohey","Net","Bombus pascuorum","species","bumblebees",1,1,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Bois de la Borde","Net","Bombus pratorum","species","bumblebees",1,1.7,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Bois de la Borde","Net","Bombus pratorum","species","bumblebees",1,1.7,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Bois de la Borde","Net","Bombus pratorum","species","bumblebees",1,1.7,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Dampleux","Net","Bombus pratorum","species","bumblebees",1,2.15,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Dampleux","Net","Bombus pratorum","species","bumblebees",1,2.15,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Dampleux","Net","Bombus pratorum","species","bumblebees",1,2.15,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Dampleux","Net","Bombus pratorum","species","bumblebees",1,2.15,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Dampleux","Net","Bombus pratorum","species","bumblebees",1,2.15,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Dampleux","Net","Bombus pratorum","species","bumblebees",1,2.15,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Dampleux","Net","Bombus pratorum","species","bumblebees",1,2.15,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Dampleux","Net","Bombus pratorum","species","bumblebees",1,2.15,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Dampleux","Net","Bombus pratorum","species","bumblebees",1,2.15,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Dampleux","Net","Bombus pratorum","species","bumblebees",1,2.15,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Dampleux","Net","Bombus pratorum","species","bumblebees",1,2.15,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Dampleux","Net","Bombus pratorum","species","bumblebees",1,2.15,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Dampleux","Net","Bombus pratorum","species","bumblebees",1,2.15,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Dampleux","Net","Bombus pratorum","species","bumblebees",1,2.15,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Dampleux","Net","Bombus pratorum","species","bumblebees",1,2.15,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Dampleux","Net","Bombus pratorum","species","bumblebees",1,2.15,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Dampleux","Net","Bombus pratorum","species","bumblebees",1,2.15,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Ferme de Canon","Net","Bombus pratorum","species","bumblebees",1,4,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Ferme de Canon","Net","Bombus pratorum","species","bumblebees",1,4,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Ferme de Canon","Net","Bombus pratorum","species","bumblebees",1,4,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Ferme de Canon","Net","Bombus pratorum","species","bumblebees",1,4,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Ferme de Canon","Net","Bombus pratorum","species","bumblebees",1,4,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Ferme de Canon","Net","Bombus pratorum","species","bumblebees",1,4,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Ferme de Canon","Net","Bombus pratorum","species","bumblebees",1,4,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Ferme de Canon","Net","Bombus pratorum","species","bumblebees",1,4,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Ferme de Canon","Net","Bombus pratorum","species","bumblebees",1,4,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Ferme de Canon","Net","Bombus pratorum","species","bumblebees",1,4,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Ferme de Canon","Net","Bombus pratorum","species","bumblebees",1,4,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Ferme de Canon","Net","Bombus pratorum","species","bumblebees",1,4,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Fontenay","Net","Bombus pratorum","species","bumblebees",1,50.85,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Fontenay","Net","Bombus pratorum","species","bumblebees",1,50.85,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Jeunes de la Motte","Net","Bombus pratorum","species","bumblebees",1,1.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Jeunes de la Motte","Net","Bombus pratorum","species","bumblebees",1,1.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Le Plessis","Net","Bombus pratorum","species","bumblebees",1,2,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Maillebois","Net","Bombus pratorum","species","bumblebees",1,3.45,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Maillebois","Net","Bombus pratorum","species","bumblebees",1,3.45,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Maillebois","Net","Bombus pratorum","species","bumblebees",1,3.45,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","SCA de la Plesse","Net","Bombus pratorum","species","bumblebees",1,21.28,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","SCA de la Plesse","Net","Bombus pratorum","species","bumblebees",1,21.28,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","SCA de la Plesse","Net","Bombus pratorum","species","bumblebees",1,21.28,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","SCA de la Plesse","Net","Bombus pratorum","species","bumblebees",1,21.28,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","SCA de la Plesse","Net","Bombus pratorum","species","bumblebees",1,21.28,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","SCA de la Plesse","Net","Bombus pratorum","species","bumblebees",1,21.28,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","SCA de la Plesse","Net","Bombus pratorum","species","bumblebees",1,21.28,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","SCA de la Plesse","Net","Bombus pratorum","species","bumblebees",1,21.28,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","SCA de la Plesse","Net","Bombus pratorum","species","bumblebees",1,21.28,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","SCA de la Plesse","Net","Bombus pratorum","species","bumblebees",1,21.28,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","SCA de la Plesse","Net","Bombus pratorum","species","bumblebees",1,21.28,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","SCA de la Plesse","Net","Bombus pratorum","species","bumblebees",1,21.28,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","SCA de la Plesse","Net","Bombus pratorum","species","bumblebees",1,21.28,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","SCA de la Plesse","Net","Bombus pratorum","species","bumblebees",1,21.28,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","SCA de la Plesse","Net","Bombus pratorum","species","bumblebees",1,21.28,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","SCA de la Plesse","Net","Bombus pratorum","species","bumblebees",1,21.28,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","SCA de la Plesse","Net","Bombus pratorum","species","bumblebees",1,21.28,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Tilly","Net","Bombus pratorum","species","bumblebees",1,5.8,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Tilly","Net","Bombus pratorum","species","bumblebees",1,5.8,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Tilly","Net","Bombus pratorum","species","bumblebees",1,5.8,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Tilly","Net","Bombus pratorum","species","bumblebees",1,5.8,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Tilly","Net","Bombus pratorum","species","bumblebees",1,5.8,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Tilly","Net","Bombus pratorum","species","bumblebees",1,5.8,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Traenheim","Net","Bombus pratorum","species","bumblebees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Traenheim","Net","Bombus pratorum","species","bumblebees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Vergers Ohey","Net","Bombus pratorum","species","bumblebees",1,1,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Vergers Ohey","Net","Bombus pratorum","species","bumblebees",1,1,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Vergers Ohey","Net","Bombus pratorum","species","bumblebees",1,1,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Vergers Ohey","Net","Bombus pratorum","species","bumblebees",1,1,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Vergers Ohey","Net","Bombus pratorum","species","bumblebees",1,1,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Bois de la Borde","Net","Bombus ruderarius","species","bumblebees",1,1.7,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","SCA de la Plesse","Net","Bombus ruderatus","species","bumblebees",1,21.28,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Vergers Ohey","Net","Bombus sylvestris","species","bumblebees",1,1,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Vergers Ohey","Net","Bombus sylvestris","species","bumblebees",1,1,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Bois de la Borde","Net","Bombus terrestris agg.","species complex","bumblebees",1,1.7,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Bois de la Borde","Net","Bombus terrestris agg.","species complex","bumblebees",1,1.7,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Bois de la Borde","Net","Bombus terrestris agg.","species complex","bumblebees",1,1.7,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Bois de la Borde","Net","Bombus terrestris agg.","species complex","bumblebees",1,1.7,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Bois de la Borde","Net","Bombus terrestris agg.","species complex","bumblebees",1,1.7,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Bois de la Borde","Net","Bombus terrestris agg.","species complex","bumblebees",1,1.7,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Bois de la Borde","Net","Bombus terrestris agg.","species complex","bumblebees",1,1.7,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Bois de la Borde","Net","Bombus terrestris agg.","species complex","bumblebees",1,1.7,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Bois de la Borde","Net","Bombus terrestris agg.","species complex","bumblebees",1,1.7,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Bois de la Borde","Net","Bombus terrestris agg.","species complex","bumblebees",1,1.7,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Bois de la Borde","Net","Bombus terrestris agg.","species complex","bumblebees",1,1.7,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Bois de la Borde","Net","Bombus terrestris agg.","species complex","bumblebees",1,1.7,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Bois de la Borde","Net","Bombus terrestris agg.","species complex","bumblebees",1,1.7,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Bois de la Borde","Net","Bombus terrestris agg.","species complex","bumblebees",1,1.7,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Bois de la Borde","Net","Bombus terrestris agg.","species complex","bumblebees",1,1.7,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Bois de la Borde","Net","Bombus terrestris agg.","species complex","bumblebees",1,1.7,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Bois de la Borde","Net","Bombus terrestris agg.","species complex","bumblebees",1,1.7,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Bois de la Borde","Net","Bombus terrestris agg.","species complex","bumblebees",1,1.7,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Bois de la Borde","Net","Bombus terrestris agg.","species complex","bumblebees",1,1.7,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Bois de la Borde","Net","Bombus terrestris agg.","species complex","bumblebees",1,1.7,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Bois de la Borde","Net","Bombus terrestris agg.","species complex","bumblebees",1,1.7,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Dampleux","Net","Bombus terrestris agg.","species complex","bumblebees",1,2.15,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Dampleux","Net","Bombus terrestris agg.","species complex","bumblebees",1,2.15,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Dampleux","Net","Bombus terrestris agg.","species complex","bumblebees",1,2.15,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Dampleux","Net","Bombus terrestris agg.","species complex","bumblebees",1,2.15,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Dampleux","Net","Bombus terrestris agg.","species complex","bumblebees",1,2.15,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Dampleux","Net","Bombus terrestris agg.","species complex","bumblebees",1,2.15,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Dampleux","Net","Bombus terrestris agg.","species complex","bumblebees",1,2.15,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Dampleux","Net","Bombus terrestris agg.","species complex","bumblebees",1,2.15,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Dampleux","Net","Bombus terrestris agg.","species complex","bumblebees",1,2.15,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Dampleux","Net","Bombus terrestris agg.","species complex","bumblebees",1,2.15,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Dampleux","Net","Bombus terrestris agg.","species complex","bumblebees",1,2.15,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Dampleux","Net","Bombus terrestris agg.","species complex","bumblebees",1,2.15,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Dampleux","Net","Bombus terrestris agg.","species complex","bumblebees",1,2.15,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Dampleux","Net","Bombus terrestris agg.","species complex","bumblebees",1,2.15,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Dampleux","Net","Bombus terrestris agg.","species complex","bumblebees",1,2.15,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Dampleux","Net","Bombus terrestris agg.","species complex","bumblebees",1,2.15,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Dampleux","Net","Bombus terrestris agg.","species complex","bumblebees",1,2.15,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Dampleux","Net","Bombus terrestris agg.","species complex","bumblebees",1,2.15,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Dampleux","Net","Bombus terrestris agg.","species complex","bumblebees",1,2.15,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Dampleux","Net","Bombus terrestris agg.","species complex","bumblebees",1,2.15,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Dampleux","Net","Bombus terrestris agg.","species complex","bumblebees",1,2.15,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Dampleux","Net","Bombus terrestris agg.","species complex","bumblebees",1,2.15,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Dampleux","Net","Bombus terrestris agg.","species complex","bumblebees",1,2.15,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Dampleux","Net","Bombus terrestris agg.","species complex","bumblebees",1,2.15,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Dampleux","Net","Bombus terrestris agg.","species complex","bumblebees",1,2.15,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Dampleux","Net","Bombus terrestris agg.","species complex","bumblebees",1,2.15,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Dampleux","Net","Bombus terrestris agg.","species complex","bumblebees",1,2.15,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Dampleux","Net","Bombus terrestris agg.","species complex","bumblebees",1,2.15,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Dampleux","Net","Bombus terrestris agg.","species complex","bumblebees",1,2.15,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Dampleux","Net","Bombus terrestris agg.","species complex","bumblebees",1,2.15,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Dampleux","Net","Bombus terrestris agg.","species complex","bumblebees",1,2.15,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Dampleux","Net","Bombus terrestris agg.","species complex","bumblebees",1,2.15,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Dampleux","Net","Bombus terrestris agg.","species complex","bumblebees",1,2.15,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Dampleux","Net","Bombus terrestris agg.","species complex","bumblebees",1,2.15,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Dampleux","Net","Bombus terrestris agg.","species complex","bumblebees",1,2.15,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Dampleux","Net","Bombus terrestris agg.","species complex","bumblebees",1,2.15,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Dampleux","Net","Bombus terrestris agg.","species complex","bumblebees",1,2.15,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Dampleux","Net","Bombus terrestris agg.","species complex","bumblebees",1,2.15,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Dampleux","Net","Bombus terrestris agg.","species complex","bumblebees",1,2.15,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Dampleux","Net","Bombus terrestris agg.","species complex","bumblebees",1,2.15,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Dampleux","Net","Bombus terrestris agg.","species complex","bumblebees",1,2.15,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Dampleux","Net","Bombus terrestris agg.","species complex","bumblebees",1,2.15,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Dampleux","Net","Bombus terrestris agg.","species complex","bumblebees",1,2.15,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Dampleux","Net","Bombus terrestris agg.","species complex","bumblebees",1,2.15,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Dampleux","Net","Bombus terrestris agg.","species complex","bumblebees",1,2.15,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Ferme de Canon","Net","Bombus terrestris agg.","species complex","bumblebees",1,4,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Ferme de Canon","Net","Bombus terrestris agg.","species complex","bumblebees",1,4,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Ferme de Canon","Net","Bombus terrestris agg.","species complex","bumblebees",1,4,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Ferme de Canon","Net","Bombus terrestris agg.","species complex","bumblebees",1,4,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Ferme de Canon","Net","Bombus terrestris agg.","species complex","bumblebees",1,4,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Ferme de Canon","Net","Bombus terrestris agg.","species complex","bumblebees",1,4,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Ferme de Canon","Net","Bombus terrestris agg.","species complex","bumblebees",1,4,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Ferme de Canon","Net","Bombus terrestris agg.","species complex","bumblebees",1,4,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Ferme de Canon","Net","Bombus terrestris agg.","species complex","bumblebees",1,4,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Ferme de Canon","Net","Bombus terrestris agg.","species complex","bumblebees",1,4,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Ferme de Canon","Net","Bombus terrestris agg.","species complex","bumblebees",1,4,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Ferme de Canon","Net","Bombus terrestris agg.","species complex","bumblebees",1,4,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Ferme de Canon","Net","Bombus terrestris agg.","species complex","bumblebees",1,4,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Ferme de Canon","Net","Bombus terrestris agg.","species complex","bumblebees",1,4,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Ferme de Canon","Net","Bombus terrestris agg.","species complex","bumblebees",1,4,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Ferme de Canon","Net","Bombus terrestris agg.","species complex","bumblebees",1,4,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Ferme de Canon","Net","Bombus terrestris agg.","species complex","bumblebees",1,4,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Ferme de Canon","Net","Bombus terrestris agg.","species complex","bumblebees",1,4,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Ferme de Canon","Net","Bombus terrestris agg.","species complex","bumblebees",1,4,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Ferme de Canon","Net","Bombus terrestris agg.","species complex","bumblebees",1,4,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Ferme de Canon","Net","Bombus terrestris agg.","species complex","bumblebees",1,4,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Ferme de Canon","Net","Bombus terrestris agg.","species complex","bumblebees",1,4,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Ferme de Canon","Net","Bombus terrestris agg.","species complex","bumblebees",1,4,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Ferme de Canon","Net","Bombus terrestris agg.","species complex","bumblebees",1,4,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Ferme de Canon","Net","Bombus terrestris agg.","species complex","bumblebees",1,4,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Fontenay","Net","Bombus terrestris agg.","species complex","bumblebees",1,50.85,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Fontenay","Net","Bombus terrestris agg.","species complex","bumblebees",1,50.85,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Fontenay","Net","Bombus terrestris agg.","species complex","bumblebees",1,50.85,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Fontenay","Net","Bombus terrestris agg.","species complex","bumblebees",1,50.85,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Fontenay","Net","Bombus terrestris agg.","species complex","bumblebees",1,50.85,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Fontenay","Net","Bombus terrestris agg.","species complex","bumblebees",1,50.85,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Fontenay","Net","Bombus terrestris agg.","species complex","bumblebees",1,50.85,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Fontenay","Net","Bombus terrestris agg.","species complex","bumblebees",1,50.85,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Fontenay","Net","Bombus terrestris agg.","species complex","bumblebees",1,50.85,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Fontenay","Net","Bombus terrestris agg.","species complex","bumblebees",1,50.85,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Fontenay","Net","Bombus terrestris agg.","species complex","bumblebees",1,50.85,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Fontenay","Net","Bombus terrestris agg.","species complex","bumblebees",1,50.85,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Fontenay","Net","Bombus terrestris agg.","species complex","bumblebees",1,50.85,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Fontenay","Net","Bombus terrestris agg.","species complex","bumblebees",1,50.85,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Fontenay","Net","Bombus terrestris agg.","species complex","bumblebees",1,50.85,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Fontenay","Net","Bombus terrestris agg.","species complex","bumblebees",1,50.85,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Fontenay","Net","Bombus terrestris agg.","species complex","bumblebees",1,50.85,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Fontenay","Net","Bombus terrestris agg.","species complex","bumblebees",1,50.85,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Fontenay","Net","Bombus terrestris agg.","species complex","bumblebees",1,50.85,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Fontenay","Net","Bombus terrestris agg.","species complex","bumblebees",1,50.85,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Fontenay","Net","Bombus terrestris agg.","species complex","bumblebees",1,50.85,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Fontenay","Net","Bombus terrestris agg.","species complex","bumblebees",1,50.85,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Fontenay","Net","Bombus terrestris agg.","species complex","bumblebees",1,50.85,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Fontenay","Net","Bombus terrestris agg.","species complex","bumblebees",1,50.85,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Fontenay","Net","Bombus terrestris agg.","species complex","bumblebees",1,50.85,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Fontenay","Net","Bombus terrestris agg.","species complex","bumblebees",1,50.85,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Fontenay","Net","Bombus terrestris agg.","species complex","bumblebees",1,50.85,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Fontenay","Net","Bombus terrestris agg.","species complex","bumblebees",1,50.85,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Fontenay","Net","Bombus terrestris agg.","species complex","bumblebees",1,50.85,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Fontenay","Net","Bombus terrestris agg.","species complex","bumblebees",1,50.85,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Fontenay","Net","Bombus terrestris agg.","species complex","bumblebees",1,50.85,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Fontenay","Net","Bombus terrestris agg.","species complex","bumblebees",1,50.85,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Fontenay","Net","Bombus terrestris agg.","species complex","bumblebees",1,50.85,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Fontenay","Net","Bombus terrestris agg.","species complex","bumblebees",1,50.85,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Innenheim","Net","Bombus terrestris agg.","species complex","bumblebees",1,2.53,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Innenheim","Net","Bombus terrestris agg.","species complex","bumblebees",1,2.53,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Innenheim","Net","Bombus terrestris agg.","species complex","bumblebees",1,2.53,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Innenheim","Net","Bombus terrestris agg.","species complex","bumblebees",1,2.53,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Innenheim","Net","Bombus terrestris agg.","species complex","bumblebees",1,2.53,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Innenheim","Net","Bombus terrestris agg.","species complex","bumblebees",1,2.53,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Innenheim","Net","Bombus terrestris agg.","species complex","bumblebees",1,2.53,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Innenheim","Net","Bombus terrestris agg.","species complex","bumblebees",1,2.53,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Innenheim","Net","Bombus terrestris agg.","species complex","bumblebees",1,2.53,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Innenheim","Net","Bombus terrestris agg.","species complex","bumblebees",1,2.53,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Innenheim","Net","Bombus terrestris agg.","species complex","bumblebees",1,2.53,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Innenheim","Net","Bombus terrestris agg.","species complex","bumblebees",1,2.53,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Innenheim","Net","Bombus terrestris agg.","species complex","bumblebees",1,2.53,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Innenheim","Net","Bombus terrestris agg.","species complex","bumblebees",1,2.53,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Innenheim","Net","Bombus terrestris agg.","species complex","bumblebees",1,2.53,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Innenheim","Net","Bombus terrestris agg.","species complex","bumblebees",1,2.53,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Innenheim","Net","Bombus terrestris agg.","species complex","bumblebees",1,2.53,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Innenheim","Net","Bombus terrestris agg.","species complex","bumblebees",1,2.53,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Innenheim","Net","Bombus terrestris agg.","species complex","bumblebees",1,2.53,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Innenheim","Net","Bombus terrestris agg.","species complex","bumblebees",1,2.53,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Innenheim","Net","Bombus terrestris agg.","species complex","bumblebees",1,2.53,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Innenheim","Net","Bombus terrestris agg.","species complex","bumblebees",1,2.53,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Innenheim","Net","Bombus terrestris agg.","species complex","bumblebees",1,2.53,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Innenheim","Net","Bombus terrestris agg.","species complex","bumblebees",1,2.53,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Innenheim","Net","Bombus terrestris agg.","species complex","bumblebees",1,2.53,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Innenheim","Net","Bombus terrestris agg.","species complex","bumblebees",1,2.53,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Innenheim","Net","Bombus terrestris agg.","species complex","bumblebees",1,2.53,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Innenheim","Net","Bombus terrestris agg.","species complex","bumblebees",1,2.53,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Innenheim","Net","Bombus terrestris agg.","species complex","bumblebees",1,2.53,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Innenheim","Net","Bombus terrestris agg.","species complex","bumblebees",1,2.53,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Innenheim","Net","Bombus terrestris agg.","species complex","bumblebees",1,2.53,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Innenheim","Net","Bombus terrestris agg.","species complex","bumblebees",1,2.53,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Jeunes de la Motte","Net","Bombus terrestris agg.","species complex","bumblebees",1,1.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Jeunes de la Motte","Net","Bombus terrestris agg.","species complex","bumblebees",1,1.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Jeunes de la Motte","Net","Bombus terrestris agg.","species complex","bumblebees",1,1.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Jeunes de la Motte","Net","Bombus terrestris agg.","species complex","bumblebees",1,1.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Jeunes de la Motte","Net","Bombus terrestris agg.","species complex","bumblebees",1,1.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Jeunes de la Motte","Net","Bombus terrestris agg.","species complex","bumblebees",1,1.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Jeunes de la Motte","Net","Bombus terrestris agg.","species complex","bumblebees",1,1.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Jeunes de la Motte","Net","Bombus terrestris agg.","species complex","bumblebees",1,1.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Jeunes de la Motte","Net","Bombus terrestris agg.","species complex","bumblebees",1,1.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Jeunes de la Motte","Net","Bombus terrestris agg.","species complex","bumblebees",1,1.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Jeunes de la Motte","Net","Bombus terrestris agg.","species complex","bumblebees",1,1.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Jeunes de la Motte","Net","Bombus terrestris agg.","species complex","bumblebees",1,1.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Jeunes de la Motte","Net","Bombus terrestris agg.","species complex","bumblebees",1,1.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Jeunes de la Motte","Net","Bombus terrestris agg.","species complex","bumblebees",1,1.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Jeunes de la Motte","Net","Bombus terrestris agg.","species complex","bumblebees",1,1.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Jeunes de la Motte","Net","Bombus terrestris agg.","species complex","bumblebees",1,1.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Jeunes de la Motte","Net","Bombus terrestris agg.","species complex","bumblebees",1,1.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Jeunes de la Motte","Net","Bombus terrestris agg.","species complex","bumblebees",1,1.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Jeunes de la Motte","Net","Bombus terrestris agg.","species complex","bumblebees",1,1.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Jeunes de la Motte","Net","Bombus terrestris agg.","species complex","bumblebees",1,1.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Jeunes de la Motte","Net","Bombus terrestris agg.","species complex","bumblebees",1,1.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Jeunes de la Motte","Net","Bombus terrestris agg.","species complex","bumblebees",1,1.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Jeunes de la Motte","Net","Bombus terrestris agg.","species complex","bumblebees",1,1.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Jeunes de la Motte","Net","Bombus terrestris agg.","species complex","bumblebees",1,1.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Jeunes de la Motte","Net","Bombus terrestris agg.","species complex","bumblebees",1,1.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Jeunes de la Motte","Net","Bombus terrestris agg.","species complex","bumblebees",1,1.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Jeunes de la Motte","Net","Bombus terrestris agg.","species complex","bumblebees",1,1.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Jeunes de la Motte","Net","Bombus terrestris agg.","species complex","bumblebees",1,1.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Jeunes de la Motte","Net","Bombus terrestris agg.","species complex","bumblebees",1,1.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Jeunes de la Motte","Net","Bombus terrestris agg.","species complex","bumblebees",1,1.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Jeunes de la Motte","Net","Bombus terrestris agg.","species complex","bumblebees",1,1.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Jeunes de la Motte","Net","Bombus terrestris agg.","species complex","bumblebees",1,1.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Jeunes de la Motte","Net","Bombus terrestris agg.","species complex","bumblebees",1,1.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Jeunes de la Motte","Net","Bombus terrestris agg.","species complex","bumblebees",1,1.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Jeunes de la Motte","Net","Bombus terrestris agg.","species complex","bumblebees",1,1.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Jeunes de la Motte","Net","Bombus terrestris agg.","species complex","bumblebees",1,1.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Jeunes de la Motte","Net","Bombus terrestris agg.","species complex","bumblebees",1,1.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Jeunes de la Motte","Net","Bombus terrestris agg.","species complex","bumblebees",1,1.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Jeunes de la Motte","Net","Bombus terrestris agg.","species complex","bumblebees",1,1.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Jeunes de la Motte","Net","Bombus terrestris agg.","species complex","bumblebees",1,1.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Jeunes de la Motte","Net","Bombus terrestris agg.","species complex","bumblebees",1,1.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Le Plessis","Net","Bombus terrestris agg.","species complex","bumblebees",1,2,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Le Plessis","Net","Bombus terrestris agg.","species complex","bumblebees",1,2,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Le Plessis","Net","Bombus terrestris agg.","species complex","bumblebees",1,2,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Le Plessis","Net","Bombus terrestris agg.","species complex","bumblebees",1,2,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Le Plessis","Net","Bombus terrestris agg.","species complex","bumblebees",1,2,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Le Plessis","Net","Bombus terrestris agg.","species complex","bumblebees",1,2,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Le Plessis","Net","Bombus terrestris agg.","species complex","bumblebees",1,2,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Le Plessis","Net","Bombus terrestris agg.","species complex","bumblebees",1,2,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Le Plessis","Net","Bombus terrestris agg.","species complex","bumblebees",1,2,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Le Plessis","Net","Bombus terrestris agg.","species complex","bumblebees",1,2,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Le Plessis","Net","Bombus terrestris agg.","species complex","bumblebees",1,2,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Le Plessis","Net","Bombus terrestris agg.","species complex","bumblebees",1,2,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Le Plessis","Net","Bombus terrestris agg.","species complex","bumblebees",1,2,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Le Plessis","Net","Bombus terrestris agg.","species complex","bumblebees",1,2,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Le Plessis","Net","Bombus terrestris agg.","species complex","bumblebees",1,2,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Le Plessis","Net","Bombus terrestris agg.","species complex","bumblebees",1,2,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Le Plessis","Net","Bombus terrestris agg.","species complex","bumblebees",1,2,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Le Plessis","Net","Bombus terrestris agg.","species complex","bumblebees",1,2,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Le Plessis","Net","Bombus terrestris agg.","species complex","bumblebees",1,2,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Le Plessis","Net","Bombus terrestris agg.","species complex","bumblebees",1,2,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Le Plessis","Net","Bombus terrestris agg.","species complex","bumblebees",1,2,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Le Plessis","Net","Bombus terrestris agg.","species complex","bumblebees",1,2,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Le Plessis","Net","Bombus terrestris agg.","species complex","bumblebees",1,2,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Le Plessis","Net","Bombus terrestris agg.","species complex","bumblebees",1,2,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Le Plessis","Net","Bombus terrestris agg.","species complex","bumblebees",1,2,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Le Plessis","Net","Bombus terrestris agg.","species complex","bumblebees",1,2,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Le Plessis","Net","Bombus terrestris agg.","species complex","bumblebees",1,2,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Le Plessis","Net","Bombus terrestris agg.","species complex","bumblebees",1,2,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Maillebois","Net","Bombus terrestris agg.","species complex","bumblebees",1,3.45,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Maillebois","Net","Bombus terrestris agg.","species complex","bumblebees",1,3.45,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Maillebois","Net","Bombus terrestris agg.","species complex","bumblebees",1,3.45,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Maillebois","Net","Bombus terrestris agg.","species complex","bumblebees",1,3.45,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Maillebois","Net","Bombus terrestris agg.","species complex","bumblebees",1,3.45,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Maillebois","Net","Bombus terrestris agg.","species complex","bumblebees",1,3.45,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Maillebois","Net","Bombus terrestris agg.","species complex","bumblebees",1,3.45,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Maillebois","Net","Bombus terrestris agg.","species complex","bumblebees",1,3.45,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Maillebois","Net","Bombus terrestris agg.","species complex","bumblebees",1,3.45,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Maillebois","Net","Bombus terrestris agg.","species complex","bumblebees",1,3.45,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Maillebois","Net","Bombus terrestris agg.","species complex","bumblebees",1,3.45,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Maillebois","Net","Bombus terrestris agg.","species complex","bumblebees",1,3.45,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Maillebois","Net","Bombus terrestris agg.","species complex","bumblebees",1,3.45,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Maillebois","Net","Bombus terrestris agg.","species complex","bumblebees",1,3.45,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Maillebois","Net","Bombus terrestris agg.","species complex","bumblebees",1,3.45,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Maillebois","Net","Bombus terrestris agg.","species complex","bumblebees",1,3.45,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Maillebois","Net","Bombus terrestris agg.","species complex","bumblebees",1,3.45,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Maillebois","Net","Bombus terrestris agg.","species complex","bumblebees",1,3.45,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Maillebois","Net","Bombus terrestris agg.","species complex","bumblebees",1,3.45,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Maillebois","Net","Bombus terrestris agg.","species complex","bumblebees",1,3.45,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Maillebois","Net","Bombus terrestris agg.","species complex","bumblebees",1,3.45,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Maillebois","Net","Bombus terrestris agg.","species complex","bumblebees",1,3.45,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Maillebois","Net","Bombus terrestris agg.","species complex","bumblebees",1,3.45,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Maillebois","Net","Bombus terrestris agg.","species complex","bumblebees",1,3.45,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Maillebois","Net","Bombus terrestris agg.","species complex","bumblebees",1,3.45,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Maillebois","Net","Bombus terrestris agg.","species complex","bumblebees",1,3.45,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Maillebois","Net","Bombus terrestris agg.","species complex","bumblebees",1,3.45,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Maillebois","Net","Bombus terrestris agg.","species complex","bumblebees",1,3.45,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Maillebois","Net","Bombus terrestris agg.","species complex","bumblebees",1,3.45,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Maillebois","Net","Bombus terrestris agg.","species complex","bumblebees",1,3.45,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Maillebois","Net","Bombus terrestris agg.","species complex","bumblebees",1,3.45,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","SCA de la Plesse","Net","Bombus terrestris agg.","species complex","bumblebees",1,21.28,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","SCA de la Plesse","Net","Bombus terrestris agg.","species complex","bumblebees",1,21.28,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","SCA de la Plesse","Net","Bombus terrestris agg.","species complex","bumblebees",1,21.28,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","SCA de la Plesse","Net","Bombus terrestris agg.","species complex","bumblebees",1,21.28,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","SCA de la Plesse","Net","Bombus terrestris agg.","species complex","bumblebees",1,21.28,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","SCA de la Plesse","Net","Bombus terrestris agg.","species complex","bumblebees",1,21.28,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","SCA de la Plesse","Net","Bombus terrestris agg.","species complex","bumblebees",1,21.28,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","SCA de la Plesse","Net","Bombus terrestris agg.","species complex","bumblebees",1,21.28,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","SCA de la Plesse","Net","Bombus terrestris agg.","species complex","bumblebees",1,21.28,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","SCA de la Plesse","Net","Bombus terrestris agg.","species complex","bumblebees",1,21.28,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","SCA de la Plesse","Net","Bombus terrestris agg.","species complex","bumblebees",1,21.28,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","SCA de la Plesse","Net","Bombus terrestris agg.","species complex","bumblebees",1,21.28,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","SCA de la Plesse","Net","Bombus terrestris agg.","species complex","bumblebees",1,21.28,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","SCA de la Plesse","Net","Bombus terrestris agg.","species complex","bumblebees",1,21.28,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","SCA de la Plesse","Net","Bombus terrestris agg.","species complex","bumblebees",1,21.28,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","SCA de la Plesse","Net","Bombus terrestris agg.","species complex","bumblebees",1,21.28,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","SCA de la Plesse","Net","Bombus terrestris agg.","species complex","bumblebees",1,21.28,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","SCA de la Plesse","Net","Bombus terrestris agg.","species complex","bumblebees",1,21.28,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","SCA de la Plesse","Net","Bombus terrestris agg.","species complex","bumblebees",1,21.28,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","SCA de la Plesse","Net","Bombus terrestris agg.","species complex","bumblebees",1,21.28,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","SCA de la Plesse","Net","Bombus terrestris agg.","species complex","bumblebees",1,21.28,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","SCA de la Plesse","Net","Bombus terrestris agg.","species complex","bumblebees",1,21.28,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","SCA de la Plesse","Net","Bombus terrestris agg.","species complex","bumblebees",1,21.28,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","SCA de la Plesse","Net","Bombus terrestris agg.","species complex","bumblebees",1,21.28,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","SCA de la Plesse","Net","Bombus terrestris agg.","species complex","bumblebees",1,21.28,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","SCA de la Plesse","Net","Bombus terrestris agg.","species complex","bumblebees",1,21.28,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","SCA de la Plesse","Net","Bombus terrestris agg.","species complex","bumblebees",1,21.28,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","SCA de la Plesse","Net","Bombus terrestris agg.","species complex","bumblebees",1,21.28,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","SCA de la Plesse","Net","Bombus terrestris agg.","species complex","bumblebees",1,21.28,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","SCA de la Plesse","Net","Bombus terrestris agg.","species complex","bumblebees",1,21.28,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","SCA de la Plesse","Net","Bombus terrestris agg.","species complex","bumblebees",1,21.28,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","SCA de la Plesse","Net","Bombus terrestris agg.","species complex","bumblebees",1,21.28,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","SCA de la Plesse","Net","Bombus terrestris agg.","species complex","bumblebees",1,21.28,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","SCA de la Plesse","Net","Bombus terrestris agg.","species complex","bumblebees",1,21.28,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","SCA de la Plesse","Net","Bombus terrestris agg.","species complex","bumblebees",1,21.28,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","SCA de la Plesse","Net","Bombus terrestris agg.","species complex","bumblebees",1,21.28,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","SCA de la Plesse","Net","Bombus terrestris agg.","species complex","bumblebees",1,21.28,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","SCA de la Plesse","Net","Bombus terrestris agg.","species complex","bumblebees",1,21.28,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","SCA de la Plesse","Net","Bombus terrestris agg.","species complex","bumblebees",1,21.28,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","SCA de la Plesse","Net","Bombus terrestris agg.","species complex","bumblebees",1,21.28,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","SCA de la Plesse","Net","Bombus terrestris agg.","species complex","bumblebees",1,21.28,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","SCA de la Plesse","Net","Bombus terrestris agg.","species complex","bumblebees",1,21.28,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","SCA de la Plesse","Net","Bombus terrestris agg.","species complex","bumblebees",1,21.28,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","SCA de la Plesse","Net","Bombus terrestris agg.","species complex","bumblebees",1,21.28,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","SCA de la Plesse","Net","Bombus terrestris agg.","species complex","bumblebees",1,21.28,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","SCA de la Plesse","Net","Bombus terrestris agg.","species complex","bumblebees",1,21.28,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","SCA de la Plesse","Net","Bombus terrestris agg.","species complex","bumblebees",1,21.28,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","SCA de la Plesse","Net","Bombus terrestris agg.","species complex","bumblebees",1,21.28,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","SCA de la Plesse","Net","Bombus terrestris agg.","species complex","bumblebees",1,21.28,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","SCA de la Plesse","Net","Bombus terrestris agg.","species complex","bumblebees",1,21.28,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","SCA de la Plesse","Net","Bombus terrestris agg.","species complex","bumblebees",1,21.28,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","SCA de la Plesse","Net","Bombus terrestris agg.","species complex","bumblebees",1,21.28,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","SCA de la Plesse","Net","Bombus terrestris agg.","species complex","bumblebees",1,21.28,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","SCA de la Plesse","Net","Bombus terrestris agg.","species complex","bumblebees",1,21.28,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","SCA de la Plesse","Net","Bombus terrestris agg.","species complex","bumblebees",1,21.28,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","SCA de la Plesse","Net","Bombus terrestris agg.","species complex","bumblebees",1,21.28,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","SCA de la Plesse","Net","Bombus terrestris agg.","species complex","bumblebees",1,21.28,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","SCA de la Plesse","Net","Bombus terrestris agg.","species complex","bumblebees",1,21.28,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","SCA de la Plesse","Net","Bombus terrestris agg.","species complex","bumblebees",1,21.28,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","SCA de la Plesse","Net","Bombus terrestris agg.","species complex","bumblebees",1,21.28,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","SCA de la Plesse","Net","Bombus terrestris agg.","species complex","bumblebees",1,21.28,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","SCA de la Plesse","Net","Bombus terrestris agg.","species complex","bumblebees",1,21.28,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","SCA de Vauleard","Net","Bombus terrestris agg.","species complex","bumblebees",1,62.09,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","SCA de Vauleard","Net","Bombus terrestris agg.","species complex","bumblebees",1,62.09,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","SCA de Vauleard","Net","Bombus terrestris agg.","species complex","bumblebees",1,62.09,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","SCA de Vauleard","Net","Bombus terrestris agg.","species complex","bumblebees",1,62.09,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","SCA de Vauleard","Net","Bombus terrestris agg.","species complex","bumblebees",1,62.09,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","SCA de Vauleard","Net","Bombus terrestris agg.","species complex","bumblebees",1,62.09,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","SCA de Vauleard","Net","Bombus terrestris agg.","species complex","bumblebees",1,62.09,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","SCA de Vauleard","Net","Bombus terrestris agg.","species complex","bumblebees",1,62.09,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","SCA de Vauleard","Net","Bombus terrestris agg.","species complex","bumblebees",1,62.09,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","SCA de Vauleard","Net","Bombus terrestris agg.","species complex","bumblebees",1,62.09,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","SCA de Vauleard","Net","Bombus terrestris agg.","species complex","bumblebees",1,62.09,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","SCA de Vauleard","Net","Bombus terrestris agg.","species complex","bumblebees",1,62.09,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","SCA de Vauleard","Net","Bombus terrestris agg.","species complex","bumblebees",1,62.09,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","SCA de Vauleard","Net","Bombus terrestris agg.","species complex","bumblebees",1,62.09,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","SCA de Vauleard","Net","Bombus terrestris agg.","species complex","bumblebees",1,62.09,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","SCA de Vauleard","Net","Bombus terrestris agg.","species complex","bumblebees",1,62.09,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","SCA de Vauleard","Net","Bombus terrestris agg.","species complex","bumblebees",1,62.09,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","SCA de Vauleard","Net","Bombus terrestris agg.","species complex","bumblebees",1,62.09,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","SCA de Vauleard","Net","Bombus terrestris agg.","species complex","bumblebees",1,62.09,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","SCA de Vauleard","Net","Bombus terrestris agg.","species complex","bumblebees",1,62.09,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","SCA de Vauleard","Net","Bombus terrestris agg.","species complex","bumblebees",1,62.09,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","SCA de Vauleard","Net","Bombus terrestris agg.","species complex","bumblebees",1,62.09,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","SCA de Vauleard","Net","Bombus terrestris agg.","species complex","bumblebees",1,62.09,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","SCA de Vauleard","Net","Bombus terrestris agg.","species complex","bumblebees",1,62.09,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","SCA de Vauleard","Net","Bombus terrestris agg.","species complex","bumblebees",1,62.09,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","SCA de Vauleard","Net","Bombus terrestris agg.","species complex","bumblebees",1,62.09,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","SCA de Vauleard","Net","Bombus terrestris agg.","species complex","bumblebees",1,62.09,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","SCA de Vauleard","Net","Bombus terrestris agg.","species complex","bumblebees",1,62.09,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","SCA de Vauleard","Net","Bombus terrestris agg.","species complex","bumblebees",1,62.09,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","SCA de Vauleard","Net","Bombus terrestris agg.","species complex","bumblebees",1,62.09,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","SCA de Vauleard","Net","Bombus terrestris agg.","species complex","bumblebees",1,62.09,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","SCA de Vauleard","Net","Bombus terrestris agg.","species complex","bumblebees",1,62.09,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","SCA de Vauleard","Net","Bombus terrestris agg.","species complex","bumblebees",1,62.09,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","SCA de Vauleard","Net","Bombus terrestris agg.","species complex","bumblebees",1,62.09,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","SCA de Vauleard","Net","Bombus terrestris agg.","species complex","bumblebees",1,62.09,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","SCA de Vauleard","Net","Bombus terrestris agg.","species complex","bumblebees",1,62.09,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","SCA de Vauleard","Net","Bombus terrestris agg.","species complex","bumblebees",1,62.09,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","SCA de Vauleard","Net","Bombus terrestris agg.","species complex","bumblebees",1,62.09,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","SCA de Vauleard","Net","Bombus terrestris agg.","species complex","bumblebees",1,62.09,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","SCA de Vauleard","Net","Bombus terrestris agg.","species complex","bumblebees",1,62.09,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","SCA de Vauleard","Net","Bombus terrestris agg.","species complex","bumblebees",1,62.09,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","SCA de Vauleard","Net","Bombus terrestris agg.","species complex","bumblebees",1,62.09,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","SCA de Vauleard","Net","Bombus terrestris agg.","species complex","bumblebees",1,62.09,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","SCA de Vauleard","Net","Bombus terrestris agg.","species complex","bumblebees",1,62.09,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","SCA de Vauleard","Net","Bombus terrestris agg.","species complex","bumblebees",1,62.09,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","SCA de Vauleard","Net","Bombus terrestris agg.","species complex","bumblebees",1,62.09,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","SCA de Vauleard","Net","Bombus terrestris agg.","species complex","bumblebees",1,62.09,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","SCA de Vauleard","Net","Bombus terrestris agg.","species complex","bumblebees",1,62.09,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","SCA de Vauleard","Net","Bombus terrestris agg.","species complex","bumblebees",1,62.09,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","SCA de Vauleard","Net","Bombus terrestris agg.","species complex","bumblebees",1,62.09,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","SCA de Vauleard","Net","Bombus terrestris agg.","species complex","bumblebees",1,62.09,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Tilly","Net","Bombus terrestris agg.","species complex","bumblebees",1,5.8,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Tilly","Net","Bombus terrestris agg.","species complex","bumblebees",1,5.8,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Tilly","Net","Bombus terrestris agg.","species complex","bumblebees",1,5.8,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Tilly","Net","Bombus terrestris agg.","species complex","bumblebees",1,5.8,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Tilly","Net","Bombus terrestris agg.","species complex","bumblebees",1,5.8,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Tilly","Net","Bombus terrestris agg.","species complex","bumblebees",1,5.8,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Tilly","Net","Bombus terrestris agg.","species complex","bumblebees",1,5.8,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Tilly","Net","Bombus terrestris agg.","species complex","bumblebees",1,5.8,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Tilly","Net","Bombus terrestris agg.","species complex","bumblebees",1,5.8,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Tilly","Net","Bombus terrestris agg.","species complex","bumblebees",1,5.8,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Tilly","Net","Bombus terrestris agg.","species complex","bumblebees",1,5.8,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Tilly","Net","Bombus terrestris agg.","species complex","bumblebees",1,5.8,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Tilly","Net","Bombus terrestris agg.","species complex","bumblebees",1,5.8,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Tilly","Net","Bombus terrestris agg.","species complex","bumblebees",1,5.8,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Tilly","Net","Bombus terrestris agg.","species complex","bumblebees",1,5.8,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Tilly","Net","Bombus terrestris agg.","species complex","bumblebees",1,5.8,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Tilly","Net","Bombus terrestris agg.","species complex","bumblebees",1,5.8,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Tilly","Net","Bombus terrestris agg.","species complex","bumblebees",1,5.8,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Tilly","Net","Bombus terrestris agg.","species complex","bumblebees",1,5.8,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Tilly","Net","Bombus terrestris agg.","species complex","bumblebees",1,5.8,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Tilly","Net","Bombus terrestris agg.","species complex","bumblebees",1,5.8,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Tilly","Net","Bombus terrestris agg.","species complex","bumblebees",1,5.8,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Tilly","Net","Bombus terrestris agg.","species complex","bumblebees",1,5.8,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Tilly","Net","Bombus terrestris agg.","species complex","bumblebees",1,5.8,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Tilly","Net","Bombus terrestris agg.","species complex","bumblebees",1,5.8,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Tilly","Net","Bombus terrestris agg.","species complex","bumblebees",1,5.8,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Tilly","Net","Bombus terrestris agg.","species complex","bumblebees",1,5.8,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Tilly","Net","Bombus terrestris agg.","species complex","bumblebees",1,5.8,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Tilly","Net","Bombus terrestris agg.","species complex","bumblebees",1,5.8,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Tilly","Net","Bombus terrestris agg.","species complex","bumblebees",1,5.8,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Tilly","Net","Bombus terrestris agg.","species complex","bumblebees",1,5.8,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Tilly","Net","Bombus terrestris agg.","species complex","bumblebees",1,5.8,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Tilly","Net","Bombus terrestris agg.","species complex","bumblebees",1,5.8,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Tilly","Net","Bombus terrestris agg.","species complex","bumblebees",1,5.8,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Tilly","Net","Bombus terrestris agg.","species complex","bumblebees",1,5.8,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Tilly","Net","Bombus terrestris agg.","species complex","bumblebees",1,5.8,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Tilly","Net","Bombus terrestris agg.","species complex","bumblebees",1,5.8,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Tilly","Net","Bombus terrestris agg.","species complex","bumblebees",1,5.8,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Traenheim","Net","Bombus terrestris agg.","species complex","bumblebees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Traenheim","Net","Bombus terrestris agg.","species complex","bumblebees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Traenheim","Net","Bombus terrestris agg.","species complex","bumblebees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Traenheim","Net","Bombus terrestris agg.","species complex","bumblebees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Traenheim","Net","Bombus terrestris agg.","species complex","bumblebees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Traenheim","Net","Bombus terrestris agg.","species complex","bumblebees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Traenheim","Net","Bombus terrestris agg.","species complex","bumblebees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Traenheim","Net","Bombus terrestris agg.","species complex","bumblebees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Traenheim","Net","Bombus terrestris agg.","species complex","bumblebees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Traenheim","Net","Bombus terrestris agg.","species complex","bumblebees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Traenheim","Net","Bombus terrestris agg.","species complex","bumblebees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Traenheim","Net","Bombus terrestris agg.","species complex","bumblebees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Traenheim","Net","Bombus terrestris agg.","species complex","bumblebees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Traenheim","Net","Bombus terrestris agg.","species complex","bumblebees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Traenheim","Net","Bombus terrestris agg.","species complex","bumblebees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Vergers Ohey","Net","Bombus terrestris agg.","species complex","bumblebees",1,1,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Vergers Ohey","Net","Bombus terrestris agg.","species complex","bumblebees",1,1,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Vergers Ohey","Net","Bombus terrestris agg.","species complex","bumblebees",1,1,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Vergers Ohey","Net","Bombus terrestris agg.","species complex","bumblebees",1,1,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Vergers Ohey","Net","Bombus terrestris agg.","species complex","bumblebees",1,1,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Vergers Ohey","Net","Bombus terrestris agg.","species complex","bumblebees",1,1,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Vergers Ohey","Net","Bombus terrestris agg.","species complex","bumblebees",1,1,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Vergers Ohey","Net","Bombus terrestris agg.","species complex","bumblebees",1,1,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Vergers Ohey","Net","Bombus terrestris agg.","species complex","bumblebees",1,1,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Vergers Ohey","Net","Bombus terrestris agg.","species complex","bumblebees",1,1,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Vergers Ohey","Net","Bombus terrestris agg.","species complex","bumblebees",1,1,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Vergers Ohey","Net","Bombus terrestris agg.","species complex","bumblebees",1,1,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Vergers Ohey","Net","Bombus terrestris agg.","species complex","bumblebees",1,1,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Vergers Ohey","Net","Bombus terrestris agg.","species complex","bumblebees",1,1,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Vergers Ohey","Net","Bombus terrestris agg.","species complex","bumblebees",1,1,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Vergers Ohey","Net","Bombus terrestris agg.","species complex","bumblebees",1,1,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Vergers Ohey","Net","Bombus terrestris agg.","species complex","bumblebees",1,1,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Vergers Ohey","Net","Bombus terrestris agg.","species complex","bumblebees",1,1,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Vergers Ohey","Net","Bombus terrestris agg.","species complex","bumblebees",1,1,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Vergers Ohey","Net","Bombus terrestris agg.","species complex","bumblebees",1,1,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Maillebois","Net","Bombus vestalis","species","bumblebees",1,3.45,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Dampleux","Net","Colletes cunicularius","species","other_wild_bees",1,2.15,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Dampleux","Net","Colletes cunicularius","species","other_wild_bees",1,2.15,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Ferme de Canon","Net","Colletes cunicularius","species","other_wild_bees",1,4,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Ferme de Canon","Net","Colletes cunicularius","species","other_wild_bees",1,4,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Jeunes de la Motte","Net","Colletes cunicularius","species","other_wild_bees",1,1.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Jeunes de la Motte","Net","Colletes cunicularius","species","other_wild_bees",1,1.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Jeunes de la Motte","Net","Colletes cunicularius","species","other_wild_bees",1,1.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Le Plessis","Net","Colletes cunicularius","species","other_wild_bees",1,2,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Le Plessis","Net","Colletes cunicularius","species","other_wild_bees",1,2,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Le Plessis","Net","Colletes cunicularius","species","other_wild_bees",1,2,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Le Plessis","Net","Colletes cunicularius","species","other_wild_bees",1,2,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Le Plessis","Net","Colletes cunicularius","species","other_wild_bees",1,2,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Le Plessis","Net","Colletes cunicularius","species","other_wild_bees",1,2,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Maillebois","Net","Colletes cunicularius","species","other_wild_bees",1,3.45,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Tilly","Net","Colletes cunicularius","species","other_wild_bees",1,5.8,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Ferme de Canon","Net","Eucera longicornis","species","other_wild_bees",1,4,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Ferme de Canon","Net","Eucera longicornis","species","other_wild_bees",1,4,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Ferme de Canon","Net","Eucera longicornis","species","other_wild_bees",1,4,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Ferme de Canon","Net","Eucera longicornis","species","other_wild_bees",1,4,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Ferme de Canon","Net","Eucera longicornis","species","other_wild_bees",1,4,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Le Plessis","Net","Eucera longicornis","species","other_wild_bees",1,2,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Le Plessis","Net","Eucera longicornis","species","other_wild_bees",1,2,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Le Plessis","Net","Eucera longicornis","species","other_wild_bees",1,2,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Tilly","Net","Halictus rubicundus","species","other_wild_bees",1,5.8,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Innenheim","Net","Lasioglossum calceatum","species","other_wild_bees",1,2.53,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Innenheim","Net","Lasioglossum calceatum","species","other_wild_bees",1,2.53,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Traenheim","Net","Lasioglossum calceatum","species","other_wild_bees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Traenheim","Net","Lasioglossum calceatum","species","other_wild_bees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Ferme de Canon","Net","Lasioglossum fulvicorne","species","other_wild_bees",1,4,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Tilly","Net","Lasioglossum fulvicorne","species","other_wild_bees",1,5.8,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Innenheim","Net","Lasioglossum glabriusculum","species","other_wild_bees",1,2.53,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Dampleux","Net","Lasioglossum laticeps","species","other_wild_bees",1,2.15,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Le Plessis","Net","Lasioglossum laticeps","species","other_wild_bees",1,2,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Maillebois","Net","Lasioglossum laticeps","species","other_wild_bees",1,3.45,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Tilly","Net","Lasioglossum laticeps","species","other_wild_bees",1,5.8,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Tilly","Net","Lasioglossum laticeps","species","other_wild_bees",1,5.8,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Tilly","Net","Lasioglossum laticeps","species","other_wild_bees",1,5.8,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Tilly","Net","Lasioglossum laticeps","species","other_wild_bees",1,5.8,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Tilly","Net","Lasioglossum laticeps","species","other_wild_bees",1,5.8,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Tilly","Net","Lasioglossum laticeps","species","other_wild_bees",1,5.8,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Traenheim","Net","Lasioglossum laticeps","species","other_wild_bees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Traenheim","Net","Lasioglossum laticeps","species","other_wild_bees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Traenheim","Net","Lasioglossum laticeps","species","other_wild_bees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Traenheim","Net","Lasioglossum laticeps","species","other_wild_bees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Traenheim","Net","Lasioglossum laticeps","species","other_wild_bees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Traenheim","Net","Lasioglossum laticeps","species","other_wild_bees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Traenheim","Net","Lasioglossum laticeps","species","other_wild_bees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Traenheim","Net","Lasioglossum laticeps","species","other_wild_bees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Traenheim","Net","Lasioglossum laticeps","species","other_wild_bees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Innenheim","Net","Lasioglossum malachurum","species","other_wild_bees",1,2.53,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Innenheim","Net","Lasioglossum malachurum","species","other_wild_bees",1,2.53,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Innenheim","Net","Lasioglossum malachurum","species","other_wild_bees",1,2.53,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Innenheim","Net","Lasioglossum malachurum","species","other_wild_bees",1,2.53,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Innenheim","Net","Lasioglossum malachurum","species","other_wild_bees",1,2.53,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Innenheim","Net","Lasioglossum malachurum","species","other_wild_bees",1,2.53,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Innenheim","Net","Lasioglossum malachurum","species","other_wild_bees",1,2.53,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Innenheim","Net","Lasioglossum malachurum","species","other_wild_bees",1,2.53,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Innenheim","Net","Lasioglossum malachurum","species","other_wild_bees",1,2.53,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Innenheim","Net","Lasioglossum malachurum","species","other_wild_bees",1,2.53,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Innenheim","Net","Lasioglossum malachurum","species","other_wild_bees",1,2.53,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Innenheim","Net","Lasioglossum malachurum","species","other_wild_bees",1,2.53,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Innenheim","Net","Lasioglossum malachurum","species","other_wild_bees",1,2.53,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Innenheim","Net","Lasioglossum malachurum","species","other_wild_bees",1,2.53,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Innenheim","Net","Lasioglossum malachurum","species","other_wild_bees",1,2.53,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Innenheim","Net","Lasioglossum malachurum","species","other_wild_bees",1,2.53,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Innenheim","Net","Lasioglossum malachurum","species","other_wild_bees",1,2.53,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Innenheim","Net","Lasioglossum malachurum","species","other_wild_bees",1,2.53,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Jeunes de la Motte","Net","Lasioglossum malachurum","species","other_wild_bees",1,1.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Traenheim","Net","Lasioglossum malachurum","species","other_wild_bees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Traenheim","Net","Lasioglossum malachurum","species","other_wild_bees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Traenheim","Net","Lasioglossum malachurum","species","other_wild_bees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Traenheim","Net","Lasioglossum malachurum","species","other_wild_bees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Ferme de Canon","Net","Lasioglossum morio","species","other_wild_bees",1,4,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Ferme de Canon","Net","Lasioglossum morio","species","other_wild_bees",1,4,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Ferme de Canon","Net","Lasioglossum morio","species","other_wild_bees",1,4,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Dampleux","Net","Lasioglossum pallens","species","other_wild_bees",1,2.15,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Ferme de Canon","Net","Lasioglossum pallens","species","other_wild_bees",1,4,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Le Plessis","Net","Lasioglossum pallens","species","other_wild_bees",1,2,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Dampleux","Net","Lasioglossum pauxillum","species","other_wild_bees",1,2.15,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Ferme de Canon","Net","Lasioglossum pauxillum","species","other_wild_bees",1,4,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Ferme de Canon","Net","Lasioglossum pauxillum","species","other_wild_bees",1,4,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Ferme de Canon","Net","Lasioglossum pauxillum","species","other_wild_bees",1,4,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Ferme de Canon","Net","Lasioglossum pauxillum","species","other_wild_bees",1,4,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Maillebois","Net","Lasioglossum tricinctum","species","other_wild_bees",1,3.45,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Maillebois","Net","Lasioglossum tricinctum","species","other_wild_bees",1,3.45,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Dampleux","Net","Lasioglossum xanthopus","species","other_wild_bees",1,2.15,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Innenheim","Net","Nomada fabriciana","species","other_wild_bees",1,2.53,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Bois de la Borde","Net","Nomada flava","species","other_wild_bees",1,1.7,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Dampleux","Net","Nomada flava","species","other_wild_bees",1,2.15,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Dampleux","Net","Nomada flava","species","other_wild_bees",1,2.15,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Dampleux","Net","Nomada flava","species","other_wild_bees",1,2.15,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Ferme de Canon","Net","Nomada flava","species","other_wild_bees",1,4,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Innenheim","Net","Nomada flava","species","other_wild_bees",1,2.53,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Innenheim","Net","Nomada flava","species","other_wild_bees",1,2.53,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Maillebois","Net","Nomada flavoguttata","species","other_wild_bees",1,3.45,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Ferme de Canon","Net","Nomada goodeniana","species","other_wild_bees",1,4,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Le Plessis","Net","Nomada goodeniana","species","other_wild_bees",1,2,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Fontenay","Net","Nomada marshamella","species","other_wild_bees",1,50.85,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Fontenay","Net","Nomada marshamella","species","other_wild_bees",1,50.85,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Fontenay","Net","Nomada ruficornis","species","other_wild_bees",1,50.85,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Bois de la Borde","Net","Osmia bicornis","species","other_wild_bees",1,1.7,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Dampleux","Net","Osmia bicornis","species","other_wild_bees",1,2.15,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Dampleux","Net","Osmia bicornis","species","other_wild_bees",1,2.15,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Dampleux","Net","Osmia bicornis","species","other_wild_bees",1,2.15,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Fontenay","Net","Osmia bicornis","species","other_wild_bees",1,50.85,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Maillebois","Net","Osmia bicornis","species","other_wild_bees",1,3.45,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Maillebois","Net","Osmia bicornis","species","other_wild_bees",1,3.45,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Maillebois","Net","Osmia bicornis","species","other_wild_bees",1,3.45,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Maillebois","Net","Osmia bicornis","species","other_wild_bees",1,3.45,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Maillebois","Net","Osmia bicornis","species","other_wild_bees",1,3.45,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","SCA de la Plesse","Net","Osmia bicornis","species","other_wild_bees",1,21.28,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","SCA de la Plesse","Net","Osmia bicornis","species","other_wild_bees",1,21.28,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","SCA de la Plesse","Net","Osmia bicornis","species","other_wild_bees",1,21.28,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","SCA de Vauleard","Net","Osmia bicornis","species","other_wild_bees",1,62.09,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","SCA de Vauleard","Net","Osmia bicornis","species","other_wild_bees",1,62.09,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","SCA de Vauleard","Net","Osmia bicornis","species","other_wild_bees",1,62.09,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","SCA de Vauleard","Net","Osmia bicornis","species","other_wild_bees",1,62.09,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","SCA de Vauleard","Net","Osmia bicornis","species","other_wild_bees",1,62.09,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","SCA de Vauleard","Net","Osmia bicornis","species","other_wild_bees",1,62.09,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Tilly","Net","Osmia bicornis","species","other_wild_bees",1,5.8,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Vergers Ohey","Net","Osmia bicornis","species","other_wild_bees",1,1,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Vergers Ohey","Net","Osmia bicornis","species","other_wild_bees",1,1,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Vergers Ohey","Net","Osmia bicornis","species","other_wild_bees",1,1,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Vergers Ohey","Net","Osmia bicornis","species","other_wild_bees",1,1,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Vergers Ohey","Net","Osmia bicornis","species","other_wild_bees",1,1,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Vergers Ohey","Net","Osmia bicornis","species","other_wild_bees",1,1,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Vergers Ohey","Net","Osmia bicornis","species","other_wild_bees",1,1,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Vergers Ohey","Net","Osmia bicornis","species","other_wild_bees",1,1,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Vergers Ohey","Net","Osmia bicornis","species","other_wild_bees",1,1,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Vergers Ohey","Net","Osmia bicornis","species","other_wild_bees",1,1,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Vergers Ohey","Net","Osmia bicornis","species","other_wild_bees",1,1,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Vergers Ohey","Net","Osmia bicornis","species","other_wild_bees",1,1,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Vergers Ohey","Net","Osmia bicornis","species","other_wild_bees",1,1,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Vergers Ohey","Net","Osmia bicornis","species","other_wild_bees",1,1,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Vergers Ohey","Net","Osmia bicornis","species","other_wild_bees",1,1,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Vergers Ohey","Net","Osmia bicornis","species","other_wild_bees",1,1,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Dampleux","Net","Osmia cornuta","species","other_wild_bees",1,2.15,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Ferme de Canon","Net","Osmia cornuta","species","other_wild_bees",1,4,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Ferme de Canon","Net","Osmia cornuta","species","other_wild_bees",1,4,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Le Plessis","Net","Osmia cornuta","species","other_wild_bees",1,2,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Tilly","Net","Osmia cornuta","species","other_wild_bees",1,5.8,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Traenheim","Net","Osmia cornuta","species","other_wild_bees",1,4.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Vergers Ohey","Net","Osmia cornuta","species","other_wild_bees",1,1,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Vergers Ohey","Net","Osmia cornuta","species","other_wild_bees",1,1,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Vergers Ohey","Net","Osmia cornuta","species","other_wild_bees",1,1,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Vergers Ohey","Net","Osmia cornuta","species","other_wild_bees",1,1,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Vergers Ohey","Net","Osmia cornuta","species","other_wild_bees",1,1,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Vergers Ohey","Net","Osmia cornuta","species","other_wild_bees",1,1,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Vergers Ohey","Net","Osmia cornuta","species","other_wild_bees",1,1,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Vergers Ohey","Net","Osmia cornuta","species","other_wild_bees",1,1,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Vergers Ohey","Net","Osmia cornuta","species","other_wild_bees",1,1,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Ferme de Canon","Net","Seladonia tumulorum","species","other_wild_bees",1,4,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Ferme de Canon","Net","Seladonia tumulorum","species","other_wild_bees",1,4,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Ferme de Canon","Net","Seladonia tumulorum","species","other_wild_bees",1,4,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Ferme de Canon","Net","Seladonia tumulorum","species","other_wild_bees",1,4,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Ferme de Canon","Net","Seladonia tumulorum","species","other_wild_bees",1,4,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Ferme de Canon","Net","Seladonia tumulorum","species","other_wild_bees",1,4,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Ferme de Canon","Net","Seladonia tumulorum","species","other_wild_bees",1,4,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Ferme de Canon","Net","Seladonia tumulorum","species","other_wild_bees",1,4,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Ferme de Canon","Net","Seladonia tumulorum","species","other_wild_bees",1,4,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Le Plessis","Net","Sphecodes monilicornis","species","other_wild_bees",1,2,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Bois de la Borde","Net","Xylocopa violacea","species","other_wild_bees",1,1.7,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_France_2019","Jeunes de la Motte","Net","Xylocopa violacea","species","other_wild_bees",1,1.5,540,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Penteville_2017","Net","Andrena bicolor","species","other_wild_bees",1,1.15,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Gasi_2017","Net","Andrena carantonica","species","other_wild_bees",1,6.5,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Gasi_2017","Net","Andrena carantonica","species","other_wild_bees",1,6.5,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Gasi_2017","Net","Andrena carantonica","species","other_wild_bees",1,6.5,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Penteville_2017","Net","Andrena carantonica","species","other_wild_bees",1,1.15,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Pommeraie_2017","Net","Andrena carantonica","species","other_wild_bees",1,0.3,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Pommeraie_2017","Net","Andrena carantonica","species","other_wild_bees",1,0.3,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Pommeraie_2017","Net","Andrena carantonica","species","other_wild_bees",1,0.3,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Gasi_2017","Net","Andrena chrysosceles","species","other_wild_bees",1,6.5,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Gasi_2017","Net","Andrena chrysosceles","species","other_wild_bees",1,6.5,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Gasi_2017","Net","Andrena chrysosceles","species","other_wild_bees",1,6.5,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Gasi_2017","Net","Andrena chrysosceles","species","other_wild_bees",1,6.5,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Gasi_2017","Net","Andrena chrysosceles","species","other_wild_bees",1,6.5,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Gasi_2017","Net","Andrena chrysosceles","species","other_wild_bees",1,6.5,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Gasi_2017","Net","Andrena chrysosceles","species","other_wild_bees",1,6.5,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Gasi_2017","Net","Andrena chrysosceles","species","other_wild_bees",1,6.5,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Gasi_2017","Net","Andrena chrysosceles","species","other_wild_bees",1,6.5,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Gasi_2017","Net","Andrena chrysosceles","species","other_wild_bees",1,6.5,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Gasi_2017","Net","Andrena chrysosceles","species","other_wild_bees",1,6.5,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Gasi_2017","Net","Andrena chrysosceles","species","other_wild_bees",1,6.5,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Gasi_2017","Net","Andrena chrysosceles","species","other_wild_bees",1,6.5,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Gasi_2017","Net","Andrena chrysosceles","species","other_wild_bees",1,6.5,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Gasi_2017","Net","Andrena chrysosceles","species","other_wild_bees",1,6.5,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Gasi_2017","Net","Andrena chrysosceles","species","other_wild_bees",1,6.5,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Penteville_2017","Net","Andrena chrysosceles","species","other_wild_bees",1,1.15,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Penteville_2017","Net","Andrena chrysosceles","species","other_wild_bees",1,1.15,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Penteville_2017","Net","Andrena chrysosceles","species","other_wild_bees",1,1.15,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Penteville_2017","Net","Andrena chrysosceles","species","other_wild_bees",1,1.15,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Penteville_2017","Net","Andrena chrysosceles","species","other_wild_bees",1,1.15,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Penteville_2017","Net","Andrena chrysosceles","species","other_wild_bees",1,1.15,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Gasi_2017","Net","Andrena cineraria","species","other_wild_bees",1,6.5,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Penteville_2017","Net","Andrena clarkella","species","other_wild_bees",1,1.15,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Gasi_2017","Net","Andrena dorsata","species","other_wild_bees",1,6.5,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Gasi_2017","Net","Andrena dorsata","species","other_wild_bees",1,6.5,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Penteville_2017","Net","Andrena dorsata","species","other_wild_bees",1,1.15,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Pommeraie_2017","Net","Andrena dorsata","species","other_wild_bees",1,0.3,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Penteville_2017","Net","Andrena flavipes","species","other_wild_bees",1,1.15,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Pommeraie_2017","Net","Andrena flavipes","species","other_wild_bees",1,0.3,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Pommeraie_2017","Net","Andrena flavipes","species","other_wild_bees",1,0.3,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Pommeraie_2017","Net","Andrena flavipes","species","other_wild_bees",1,0.3,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Penteville_2017","Net","Andrena fulva","species","other_wild_bees",1,1.15,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Gasi_2017","Net","Andrena gravida","species","other_wild_bees",1,6.5,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Gasi_2017","Net","Andrena gravida","species","other_wild_bees",1,6.5,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Penteville_2017","Net","Andrena gravida","species","other_wild_bees",1,1.15,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Penteville_2017","Net","Andrena gravida","species","other_wild_bees",1,1.15,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Gasi_2017","Net","Andrena haemorrhoa","species","other_wild_bees",1,6.5,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Gasi_2017","Net","Andrena haemorrhoa","species","other_wild_bees",1,6.5,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Gasi_2017","Net","Andrena haemorrhoa","species","other_wild_bees",1,6.5,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Gasi_2017","Net","Andrena haemorrhoa","species","other_wild_bees",1,6.5,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Penteville_2017","Net","Andrena haemorrhoa","species","other_wild_bees",1,1.15,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Penteville_2017","Net","Andrena haemorrhoa","species","other_wild_bees",1,1.15,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Penteville_2017","Net","Andrena haemorrhoa","species","other_wild_bees",1,1.15,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Penteville_2017","Net","Andrena haemorrhoa","species","other_wild_bees",1,1.15,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Penteville_2017","Net","Andrena haemorrhoa","species","other_wild_bees",1,1.15,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Pommeraie_2017","Net","Andrena haemorrhoa","species","other_wild_bees",1,0.3,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Gasi_2017","Net","Andrena nitida","species","other_wild_bees",1,6.5,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Gasi_2017","Net","Andrena nitida","species","other_wild_bees",1,6.5,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Gasi_2017","Net","Andrena nitida","species","other_wild_bees",1,6.5,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Gasi_2017","Net","Andrena nitida","species","other_wild_bees",1,6.5,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Gasi_2017","Net","Andrena nitida","species","other_wild_bees",1,6.5,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Penteville_2017","Net","Andrena nitida","species","other_wild_bees",1,1.15,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Penteville_2017","Net","Andrena nitida","species","other_wild_bees",1,1.15,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Pommeraie_2017","Net","Andrena scotica","species","other_wild_bees",1,0.3,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Pommeraie_2017","Net","Andrena scotica","species","other_wild_bees",1,0.3,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Gasi_2017","Net","Andrena wilkella","species","other_wild_bees",1,6.5,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Penteville_2017","Net","anthophora plumipes","species","other_wild_bees",1,1.15,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Penteville_2017","Net","anthophora plumipes","species","other_wild_bees",1,1.15,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Penteville_2017","Net","anthophora plumipes","species","other_wild_bees",1,1.15,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Gasi_2017","Net","Apis mellifera","species","honeybees",1,6.5,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Gasi_2017","Net","Apis mellifera","species","honeybees",1,6.5,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Gasi_2017","Net","Apis mellifera","species","honeybees",1,6.5,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Gasi_2017","Net","Apis mellifera","species","honeybees",1,6.5,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Gasi_2017","Net","Apis mellifera","species","honeybees",1,6.5,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Gasi_2017","Net","Apis mellifera","species","honeybees",1,6.5,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Gasi_2017","Net","Apis mellifera","species","honeybees",1,6.5,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Gasi_2017","Net","Apis mellifera","species","honeybees",1,6.5,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Gasi_2017","Net","Apis mellifera","species","honeybees",1,6.5,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Gasi_2017","Net","Apis mellifera","species","honeybees",1,6.5,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Gasi_2017","Net","Apis mellifera","species","honeybees",1,6.5,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Gasi_2017","Net","Apis mellifera","species","honeybees",1,6.5,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Gasi_2017","Net","Apis mellifera","species","honeybees",1,6.5,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Gasi_2017","Net","Apis mellifera","species","honeybees",1,6.5,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Gasi_2017","Net","Apis mellifera","species","honeybees",1,6.5,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Gasi_2017","Net","Apis mellifera","species","honeybees",1,6.5,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Gasi_2017","Net","Apis mellifera","species","honeybees",1,6.5,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Gasi_2017","Net","Apis mellifera","species","honeybees",1,6.5,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Gasi_2017","Net","Apis mellifera","species","honeybees",1,6.5,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Gasi_2017","Net","Apis mellifera","species","honeybees",1,6.5,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Gasi_2017","Net","Apis mellifera","species","honeybees",1,6.5,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Gasi_2017","Net","Apis mellifera","species","honeybees",1,6.5,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Gasi_2017","Net","Apis mellifera","species","honeybees",1,6.5,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Gasi_2017","Net","Apis mellifera","species","honeybees",1,6.5,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Gasi_2017","Net","Apis mellifera","species","honeybees",1,6.5,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Gasi_2017","Net","Apis mellifera","species","honeybees",1,6.5,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Gasi_2017","Net","Apis mellifera","species","honeybees",1,6.5,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Gasi_2017","Net","Apis mellifera","species","honeybees",1,6.5,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Gasi_2017","Net","Apis mellifera","species","honeybees",1,6.5,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Gasi_2017","Net","Apis mellifera","species","honeybees",1,6.5,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Gasi_2017","Net","Apis mellifera","species","honeybees",1,6.5,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Gasi_2017","Net","Apis mellifera","species","honeybees",1,6.5,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Gasi_2017","Net","Apis mellifera","species","honeybees",1,6.5,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Gasi_2017","Net","Apis mellifera","species","honeybees",1,6.5,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Gasi_2017","Net","Apis mellifera","species","honeybees",1,6.5,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Penteville_2017","Net","Apis mellifera","species","honeybees",1,1.15,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Penteville_2017","Net","Apis mellifera","species","honeybees",1,1.15,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Penteville_2017","Net","Apis mellifera","species","honeybees",1,1.15,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Penteville_2017","Net","Apis mellifera","species","honeybees",1,1.15,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Penteville_2017","Net","Apis mellifera","species","honeybees",1,1.15,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Penteville_2017","Net","Apis mellifera","species","honeybees",1,1.15,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Penteville_2017","Net","Apis mellifera","species","honeybees",1,1.15,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Penteville_2017","Net","Apis mellifera","species","honeybees",1,1.15,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Pommeraie_2017","Net","Apis mellifera","species","honeybees",1,0.3,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Pommeraie_2017","Net","Apis mellifera","species","honeybees",1,0.3,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Pommeraie_2017","Net","Apis mellifera","species","honeybees",1,0.3,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Pommeraie_2017","Net","Apis mellifera","species","honeybees",1,0.3,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Pommeraie_2017","Net","Apis mellifera","species","honeybees",1,0.3,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Pommeraie_2017","Net","Apis mellifera","species","honeybees",1,0.3,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Pommeraie_2017","Net","Apis mellifera","species","honeybees",1,0.3,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Pommeraie_2017","Net","Apis mellifera","species","honeybees",1,0.3,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Pommeraie_2017","Net","Apis mellifera","species","honeybees",1,0.3,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Pommeraie_2017","Net","Apis mellifera","species","honeybees",1,0.3,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Pommeraie_2017","Net","Apis mellifera","species","honeybees",1,0.3,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Pommeraie_2017","Net","Apis mellifera","species","honeybees",1,0.3,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Pommeraie_2017","Net","Apis mellifera","species","honeybees",1,0.3,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Pommeraie_2017","Net","Apis mellifera","species","honeybees",1,0.3,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Pommeraie_2017","Net","Apis mellifera","species","honeybees",1,0.3,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Pommeraie_2017","Net","Apis mellifera","species","honeybees",1,0.3,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Pommeraie_2017","Net","Apis mellifera","species","honeybees",1,0.3,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Pommeraie_2017","Net","Apis mellifera","species","honeybees",1,0.3,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Pommeraie_2017","Net","Apis mellifera","species","honeybees",1,0.3,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Pommeraie_2017","Net","Apis mellifera","species","honeybees",1,0.3,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Pommeraie_2017","Net","Apis mellifera","species","honeybees",1,0.3,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Pommeraie_2017","Net","Apis mellifera","species","honeybees",1,0.3,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Pommeraie_2017","Net","Apis mellifera","species","honeybees",1,0.3,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Pommeraie_2017","Net","Apis mellifera","species","honeybees",1,0.3,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Pommeraie_2017","Net","Apis mellifera","species","honeybees",1,0.3,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Pommeraie_2017","Net","Apis mellifera","species","honeybees",1,0.3,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Pommeraie_2017","Net","Apis mellifera","species","honeybees",1,0.3,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Pommeraie_2017","Net","Apis mellifera","species","honeybees",1,0.3,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Pommeraie_2017","Net","Apis mellifera","species","honeybees",1,0.3,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Pommeraie_2017","Net","Apis mellifera","species","honeybees",1,0.3,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Pommeraie_2017","Net","Apis mellifera","species","honeybees",1,0.3,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Pommeraie_2017","Net","Apis mellifera","species","honeybees",1,0.3,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Pommeraie_2017","Net","Apis mellifera","species","honeybees",1,0.3,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Pommeraie_2017","Net","Apis mellifera","species","honeybees",1,0.3,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Pommeraie_2017","Net","Apis mellifera","species","honeybees",1,0.3,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Pommeraie_2017","Net","Apis mellifera","species","honeybees",1,0.3,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Pommeraie_2017","Net","Apis mellifera","species","honeybees",1,0.3,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Pommeraie_2017","Net","Apis mellifera","species","honeybees",1,0.3,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Pommeraie_2017","Net","Apis mellifera","species","honeybees",1,0.3,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Pommeraie_2017","Net","Apis mellifera","species","honeybees",1,0.3,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Pommeraie_2017","Net","Apis mellifera","species","honeybees",1,0.3,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Pommeraie_2017","Net","Apis mellifera","species","honeybees",1,0.3,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Pommeraie_2017","Net","Apis mellifera","species","honeybees",1,0.3,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Pommeraie_2017","Net","Apis mellifera","species","honeybees",1,0.3,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Pommeraie_2017","Net","Apis mellifera","species","honeybees",1,0.3,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Pommeraie_2017","Net","Apis mellifera","species","honeybees",1,0.3,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Pommeraie_2017","Net","Apis mellifera","species","honeybees",1,0.3,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Pommeraie_2017","Net","Apis mellifera","species","honeybees",1,0.3,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Pommeraie_2017","Net","Apis mellifera","species","honeybees",1,0.3,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Pommeraie_2017","Net","Apis mellifera","species","honeybees",1,0.3,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Pommeraie_2017","Net","Apis mellifera","species","honeybees",1,0.3,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Pommeraie_2017","Net","Apis mellifera","species","honeybees",1,0.3,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Pommeraie_2017","Net","Apis mellifera","species","honeybees",1,0.3,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Pommeraie_2017","Net","Apis mellifera","species","honeybees",1,0.3,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Pommeraie_2017","Net","Apis mellifera","species","honeybees",1,0.3,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Pommeraie_2017","Net","Apis mellifera","species","honeybees",1,0.3,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Pommeraie_2017","Net","Apis mellifera","species","honeybees",1,0.3,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Pommeraie_2017","Net","Apis mellifera","species","honeybees",1,0.3,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Pommeraie_2017","Net","Apis mellifera","species","honeybees",1,0.3,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Pommeraie_2017","Net","Apis mellifera","species","honeybees",1,0.3,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Pommeraie_2017","Net","Apis mellifera","species","honeybees",1,0.3,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Pommeraie_2017","Net","Apis mellifera","species","honeybees",1,0.3,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Pommeraie_2017","Net","Apis mellifera","species","honeybees",1,0.3,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Pommeraie_2017","Net","Apis mellifera","species","honeybees",1,0.3,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Pommeraie_2017","Net","Apis mellifera","species","honeybees",1,0.3,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Pommeraie_2017","Net","Apis mellifera","species","honeybees",1,0.3,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Pommeraie_2017","Net","Apis mellifera","species","honeybees",1,0.3,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Pommeraie_2017","Net","Apis mellifera","species","honeybees",1,0.3,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Pommeraie_2017","Net","Apis mellifera","species","honeybees",1,0.3,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Pommeraie_2017","Net","Apis mellifera","species","honeybees",1,0.3,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Pommeraie_2017","Net","Apis mellifera","species","honeybees",1,0.3,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Pommeraie_2017","Net","Apis mellifera","species","honeybees",1,0.3,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Pommeraie_2017","Net","Apis mellifera","species","honeybees",1,0.3,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Pommeraie_2017","Net","Apis mellifera","species","honeybees",1,0.3,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Pommeraie_2017","Net","Apis mellifera","species","honeybees",1,0.3,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Pommeraie_2017","Net","Apis mellifera","species","honeybees",1,0.3,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Pommeraie_2017","Net","Apis mellifera","species","honeybees",1,0.3,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Pommeraie_2017","Net","Apis mellifera","species","honeybees",1,0.3,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Pommeraie_2017","Net","Apis mellifera","species","honeybees",1,0.3,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Pommeraie_2017","Net","Apis mellifera","species","honeybees",1,0.3,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Pommeraie_2017","Net","Apis mellifera","species","honeybees",1,0.3,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Pommeraie_2017","Net","Apis mellifera","species","honeybees",1,0.3,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Pommeraie_2017","Net","Apis mellifera","species","honeybees",1,0.3,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Pommeraie_2017","Net","Apis mellifera","species","honeybees",1,0.3,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Pommeraie_2017","Net","Apis mellifera","species","honeybees",1,0.3,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Pommeraie_2017","Net","Apis mellifera","species","honeybees",1,0.3,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Pommeraie_2017","Net","Apis mellifera","species","honeybees",1,0.3,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Pommeraie_2017","Net","Apis mellifera","species","honeybees",1,0.3,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Pommeraie_2017","Net","Apis mellifera","species","honeybees",1,0.3,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Pommeraie_2017","Net","Apis mellifera","species","honeybees",1,0.3,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Pommeraie_2017","Net","Apis mellifera","species","honeybees",1,0.3,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Pommeraie_2017","Net","Apis mellifera","species","honeybees",1,0.3,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Pommeraie_2017","Net","Apis mellifera","species","honeybees",1,0.3,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Penteville_2017","Net","Bombus hortorum","species","bumblebees",1,1.15,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Penteville_2017","Net","Bombus hortorum","species","bumblebees",1,1.15,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Penteville_2017","Net","Bombus hortorum","species","bumblebees",1,1.15,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Penteville_2017","Net","Bombus hortorum","species","bumblebees",1,1.15,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Penteville_2017","Net","Bombus hortorum","species","bumblebees",1,1.15,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Penteville_2017","Net","Bombus hortorum","species","bumblebees",1,1.15,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Penteville_2017","Net","Bombus hortorum","species","bumblebees",1,1.15,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Penteville_2017","Net","Bombus hortorum","species","bumblebees",1,1.15,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Penteville_2017","Net","Bombus hortorum","species","bumblebees",1,1.15,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Penteville_2017","Net","Bombus hortorum","species","bumblebees",1,1.15,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Penteville_2017","Net","Bombus hortorum","species","bumblebees",1,1.15,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Penteville_2017","Net","Bombus hortorum","species","bumblebees",1,1.15,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Penteville_2017","Net","Bombus hortorum","species","bumblebees",1,1.15,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Penteville_2017","Net","Bombus hortorum","species","bumblebees",1,1.15,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Penteville_2017","Net","Bombus hortorum","species","bumblebees",1,1.15,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Penteville_2017","Net","Bombus hortorum","species","bumblebees",1,1.15,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Penteville_2017","Net","Bombus hortorum","species","bumblebees",1,1.15,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Penteville_2017","Net","Bombus hortorum","species","bumblebees",1,1.15,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Penteville_2017","Net","Bombus hortorum","species","bumblebees",1,1.15,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Gasi_2017","Net","Bombus hypnorum","species","bumblebees",1,6.5,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Gasi_2017","Net","Bombus hypnorum","species","bumblebees",1,6.5,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Gasi_2017","Net","Bombus hypnorum","species","bumblebees",1,6.5,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Gasi_2017","Net","Bombus hypnorum","species","bumblebees",1,6.5,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Gasi_2017","Net","Bombus hypnorum","species","bumblebees",1,6.5,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Gasi_2017","Net","Bombus hypnorum","species","bumblebees",1,6.5,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Gasi_2017","Net","Bombus hypnorum","species","bumblebees",1,6.5,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Penteville_2017","Net","Bombus hypnorum","species","bumblebees",1,1.15,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Pommeraie_2017","Net","Bombus hypnorum","species","bumblebees",1,0.3,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Pommeraie_2017","Net","Bombus hypnorum","species","bumblebees",1,0.3,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Pommeraie_2017","Net","Bombus hypnorum","species","bumblebees",1,0.3,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Pommeraie_2017","Net","Bombus hypnorum","species","bumblebees",1,0.3,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Pommeraie_2017","Net","Bombus hypnorum","species","bumblebees",1,0.3,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Pommeraie_2017","Net","Bombus hypnorum","species","bumblebees",1,0.3,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Pommeraie_2017","Net","Bombus hypnorum","species","bumblebees",1,0.3,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Pommeraie_2017","Net","Bombus hypnorum","species","bumblebees",1,0.3,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Pommeraie_2017","Net","Bombus hypnorum","species","bumblebees",1,0.3,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Pommeraie_2017","Net","Bombus hypnorum","species","bumblebees",1,0.3,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Gasi_2017","Net","Bombus lapidarius","species","bumblebees",1,6.5,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Gasi_2017","Net","Bombus lapidarius","species","bumblebees",1,6.5,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Gasi_2017","Net","Bombus lapidarius","species","bumblebees",1,6.5,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Gasi_2017","Net","Bombus lapidarius","species","bumblebees",1,6.5,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Gasi_2017","Net","Bombus lapidarius","species","bumblebees",1,6.5,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Gasi_2017","Net","Bombus lapidarius","species","bumblebees",1,6.5,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Gasi_2017","Net","Bombus lapidarius","species","bumblebees",1,6.5,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Gasi_2017","Net","Bombus lapidarius","species","bumblebees",1,6.5,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Gasi_2017","Net","Bombus lapidarius","species","bumblebees",1,6.5,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Gasi_2017","Net","Bombus lapidarius","species","bumblebees",1,6.5,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Gasi_2017","Net","Bombus lapidarius","species","bumblebees",1,6.5,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Gasi_2017","Net","Bombus lapidarius","species","bumblebees",1,6.5,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Gasi_2017","Net","Bombus lapidarius","species","bumblebees",1,6.5,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Gasi_2017","Net","Bombus lapidarius","species","bumblebees",1,6.5,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Gasi_2017","Net","Bombus lapidarius","species","bumblebees",1,6.5,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Penteville_2017","Net","Bombus lapidarius","species","bumblebees",1,1.15,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Penteville_2017","Net","Bombus lapidarius","species","bumblebees",1,1.15,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Penteville_2017","Net","Bombus lapidarius","species","bumblebees",1,1.15,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Penteville_2017","Net","Bombus lapidarius","species","bumblebees",1,1.15,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Penteville_2017","Net","Bombus lapidarius","species","bumblebees",1,1.15,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Penteville_2017","Net","Bombus lapidarius","species","bumblebees",1,1.15,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Penteville_2017","Net","Bombus lapidarius","species","bumblebees",1,1.15,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Penteville_2017","Net","Bombus lapidarius","species","bumblebees",1,1.15,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Penteville_2017","Net","Bombus lapidarius","species","bumblebees",1,1.15,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Penteville_2017","Net","Bombus lapidarius","species","bumblebees",1,1.15,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Penteville_2017","Net","Bombus lapidarius","species","bumblebees",1,1.15,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Penteville_2017","Net","Bombus lapidarius","species","bumblebees",1,1.15,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Penteville_2017","Net","Bombus lapidarius","species","bumblebees",1,1.15,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Penteville_2017","Net","Bombus lapidarius","species","bumblebees",1,1.15,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Penteville_2017","Net","Bombus lapidarius","species","bumblebees",1,1.15,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Penteville_2017","Net","Bombus lapidarius","species","bumblebees",1,1.15,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Penteville_2017","Net","Bombus lapidarius","species","bumblebees",1,1.15,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Penteville_2017","Net","Bombus lapidarius","species","bumblebees",1,1.15,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Penteville_2017","Net","Bombus lapidarius","species","bumblebees",1,1.15,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Penteville_2017","Net","Bombus lapidarius","species","bumblebees",1,1.15,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Penteville_2017","Net","Bombus lapidarius","species","bumblebees",1,1.15,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Penteville_2017","Net","Bombus lapidarius","species","bumblebees",1,1.15,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Penteville_2017","Net","Bombus lapidarius","species","bumblebees",1,1.15,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Penteville_2017","Net","Bombus lapidarius","species","bumblebees",1,1.15,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Penteville_2017","Net","Bombus lapidarius","species","bumblebees",1,1.15,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Penteville_2017","Net","Bombus lapidarius","species","bumblebees",1,1.15,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Penteville_2017","Net","Bombus lapidarius","species","bumblebees",1,1.15,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Penteville_2017","Net","Bombus lapidarius","species","bumblebees",1,1.15,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Penteville_2017","Net","Bombus lapidarius","species","bumblebees",1,1.15,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Penteville_2017","Net","Bombus lapidarius","species","bumblebees",1,1.15,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Penteville_2017","Net","Bombus lapidarius","species","bumblebees",1,1.15,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Penteville_2017","Net","Bombus lapidarius","species","bumblebees",1,1.15,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Penteville_2017","Net","Bombus lapidarius","species","bumblebees",1,1.15,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Penteville_2017","Net","Bombus lapidarius","species","bumblebees",1,1.15,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Penteville_2017","Net","Bombus lapidarius","species","bumblebees",1,1.15,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Penteville_2017","Net","Bombus lapidarius","species","bumblebees",1,1.15,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Penteville_2017","Net","Bombus lapidarius","species","bumblebees",1,1.15,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Penteville_2017","Net","Bombus lapidarius","species","bumblebees",1,1.15,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Penteville_2017","Net","Bombus lapidarius","species","bumblebees",1,1.15,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Penteville_2017","Net","Bombus lapidarius","species","bumblebees",1,1.15,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Penteville_2017","Net","Bombus lapidarius","species","bumblebees",1,1.15,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Penteville_2017","Net","Bombus lapidarius","species","bumblebees",1,1.15,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Penteville_2017","Net","Bombus lapidarius","species","bumblebees",1,1.15,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Penteville_2017","Net","Bombus lapidarius","species","bumblebees",1,1.15,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Penteville_2017","Net","Bombus lapidarius","species","bumblebees",1,1.15,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Penteville_2017","Net","Bombus lapidarius","species","bumblebees",1,1.15,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Penteville_2017","Net","Bombus lapidarius","species","bumblebees",1,1.15,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Penteville_2017","Net","Bombus lapidarius","species","bumblebees",1,1.15,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Pommeraie_2017","Net","Bombus lapidarius","species","bumblebees",1,0.3,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Pommeraie_2017","Net","Bombus lapidarius","species","bumblebees",1,0.3,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Pommeraie_2017","Net","Bombus lapidarius","species","bumblebees",1,0.3,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Pommeraie_2017","Net","Bombus lapidarius","species","bumblebees",1,0.3,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Pommeraie_2017","Net","Bombus lapidarius","species","bumblebees",1,0.3,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Pommeraie_2017","Net","Bombus lapidarius","species","bumblebees",1,0.3,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Pommeraie_2017","Net","Bombus lapidarius","species","bumblebees",1,0.3,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Pommeraie_2017","Net","Bombus lapidarius","species","bumblebees",1,0.3,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Pommeraie_2017","Net","Bombus lapidarius","species","bumblebees",1,0.3,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Pommeraie_2017","Net","Bombus lapidarius","species","bumblebees",1,0.3,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Pommeraie_2017","Net","Bombus lapidarius","species","bumblebees",1,0.3,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Pommeraie_2017","Net","Bombus lapidarius","species","bumblebees",1,0.3,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Pommeraie_2017","Net","Bombus lapidarius","species","bumblebees",1,0.3,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Pommeraie_2017","Net","Bombus lapidarius","species","bumblebees",1,0.3,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Pommeraie_2017","Net","Bombus lapidarius","species","bumblebees",1,0.3,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Pommeraie_2017","Net","Bombus lapidarius","species","bumblebees",1,0.3,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Pommeraie_2017","Net","Bombus lapidarius","species","bumblebees",1,0.3,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Pommeraie_2017","Net","Bombus lapidarius","species","bumblebees",1,0.3,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Pommeraie_2017","Net","Bombus lapidarius","species","bumblebees",1,0.3,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Pommeraie_2017","Net","Bombus lapidarius","species","bumblebees",1,0.3,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Pommeraie_2017","Net","Bombus lapidarius","species","bumblebees",1,0.3,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Pommeraie_2017","Net","Bombus lapidarius","species","bumblebees",1,0.3,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Pommeraie_2017","Net","Bombus lapidarius","species","bumblebees",1,0.3,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Pommeraie_2017","Net","Bombus lapidarius","species","bumblebees",1,0.3,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Pommeraie_2017","Net","Bombus lapidarius","species","bumblebees",1,0.3,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Pommeraie_2017","Net","Bombus lapidarius","species","bumblebees",1,0.3,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Pommeraie_2017","Net","Bombus lapidarius","species","bumblebees",1,0.3,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Pommeraie_2017","Net","Bombus lapidarius","species","bumblebees",1,0.3,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Pommeraie_2017","Net","Bombus lapidarius","species","bumblebees",1,0.3,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Pommeraie_2017","Net","Bombus lapidarius","species","bumblebees",1,0.3,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Pommeraie_2017","Net","Bombus lapidarius","species","bumblebees",1,0.3,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Pommeraie_2017","Net","Bombus lapidarius","species","bumblebees",1,0.3,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Pommeraie_2017","Net","Bombus lapidarius","species","bumblebees",1,0.3,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Pommeraie_2017","Net","Bombus lapidarius","species","bumblebees",1,0.3,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Pommeraie_2017","Net","Bombus lapidarius","species","bumblebees",1,0.3,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Pommeraie_2017","Net","Bombus lapidarius","species","bumblebees",1,0.3,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Pommeraie_2017","Net","Bombus lapidarius","species","bumblebees",1,0.3,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Gasi_2017","Net","Bombus pascuorum","species","bumblebees",1,6.5,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Gasi_2017","Net","Bombus pascuorum","species","bumblebees",1,6.5,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Gasi_2017","Net","Bombus pascuorum","species","bumblebees",1,6.5,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Gasi_2017","Net","Bombus pascuorum","species","bumblebees",1,6.5,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Gasi_2017","Net","Bombus pascuorum","species","bumblebees",1,6.5,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Penteville_2017","Net","Bombus pascuorum","species","bumblebees",1,1.15,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Penteville_2017","Net","Bombus pascuorum","species","bumblebees",1,1.15,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Penteville_2017","Net","Bombus pascuorum","species","bumblebees",1,1.15,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Penteville_2017","Net","Bombus pascuorum","species","bumblebees",1,1.15,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Penteville_2017","Net","Bombus pascuorum","species","bumblebees",1,1.15,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Penteville_2017","Net","Bombus pascuorum","species","bumblebees",1,1.15,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Penteville_2017","Net","Bombus pascuorum","species","bumblebees",1,1.15,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Penteville_2017","Net","Bombus pascuorum","species","bumblebees",1,1.15,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Penteville_2017","Net","Bombus pascuorum","species","bumblebees",1,1.15,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Penteville_2017","Net","Bombus pascuorum","species","bumblebees",1,1.15,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Penteville_2017","Net","Bombus pascuorum","species","bumblebees",1,1.15,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Penteville_2017","Net","Bombus pascuorum","species","bumblebees",1,1.15,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Penteville_2017","Net","Bombus pascuorum","species","bumblebees",1,1.15,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Penteville_2017","Net","Bombus pascuorum","species","bumblebees",1,1.15,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Penteville_2017","Net","Bombus pascuorum","species","bumblebees",1,1.15,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Penteville_2017","Net","Bombus pascuorum","species","bumblebees",1,1.15,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Penteville_2017","Net","Bombus pascuorum","species","bumblebees",1,1.15,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Penteville_2017","Net","Bombus pascuorum","species","bumblebees",1,1.15,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Penteville_2017","Net","Bombus pascuorum","species","bumblebees",1,1.15,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Penteville_2017","Net","Bombus pascuorum","species","bumblebees",1,1.15,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Penteville_2017","Net","Bombus pascuorum","species","bumblebees",1,1.15,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Penteville_2017","Net","Bombus pascuorum","species","bumblebees",1,1.15,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Penteville_2017","Net","Bombus pascuorum","species","bumblebees",1,1.15,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Penteville_2017","Net","Bombus pascuorum","species","bumblebees",1,1.15,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Pommeraie_2017","Net","Bombus pascuorum","species","bumblebees",1,0.3,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Pommeraie_2017","Net","Bombus pascuorum","species","bumblebees",1,0.3,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Pommeraie_2017","Net","Bombus pascuorum","species","bumblebees",1,0.3,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Pommeraie_2017","Net","Bombus pascuorum","species","bumblebees",1,0.3,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Pommeraie_2017","Net","Bombus pascuorum","species","bumblebees",1,0.3,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Pommeraie_2017","Net","Bombus pascuorum","species","bumblebees",1,0.3,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Pommeraie_2017","Net","Bombus pascuorum","species","bumblebees",1,0.3,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Pommeraie_2017","Net","Bombus pascuorum","species","bumblebees",1,0.3,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Pommeraie_2017","Net","Bombus pascuorum","species","bumblebees",1,0.3,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Gasi_2017","Net","Bombus pratorum","species","bumblebees",1,6.5,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Gasi_2017","Net","Bombus pratorum","species","bumblebees",1,6.5,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Gasi_2017","Net","Bombus pratorum","species","bumblebees",1,6.5,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Gasi_2017","Net","Bombus pratorum","species","bumblebees",1,6.5,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Gasi_2017","Net","Bombus pratorum","species","bumblebees",1,6.5,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Gasi_2017","Net","Bombus pratorum","species","bumblebees",1,6.5,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Gasi_2017","Net","Bombus pratorum","species","bumblebees",1,6.5,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Gasi_2017","Net","Bombus pratorum","species","bumblebees",1,6.5,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Gasi_2017","Net","Bombus pratorum","species","bumblebees",1,6.5,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Gasi_2017","Net","Bombus pratorum","species","bumblebees",1,6.5,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Penteville_2017","Net","Bombus pratorum","species","bumblebees",1,1.15,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Penteville_2017","Net","Bombus pratorum","species","bumblebees",1,1.15,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Penteville_2017","Net","Bombus pratorum","species","bumblebees",1,1.15,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Penteville_2017","Net","Bombus pratorum","species","bumblebees",1,1.15,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Penteville_2017","Net","Bombus pratorum","species","bumblebees",1,1.15,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Penteville_2017","Net","Bombus pratorum","species","bumblebees",1,1.15,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Penteville_2017","Net","Bombus pratorum","species","bumblebees",1,1.15,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Penteville_2017","Net","Bombus pratorum","species","bumblebees",1,1.15,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Penteville_2017","Net","Bombus pratorum","species","bumblebees",1,1.15,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Penteville_2017","Net","Bombus pratorum","species","bumblebees",1,1.15,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Penteville_2017","Net","Bombus pratorum","species","bumblebees",1,1.15,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Penteville_2017","Net","Bombus pratorum","species","bumblebees",1,1.15,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Penteville_2017","Net","Bombus pratorum","species","bumblebees",1,1.15,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Penteville_2017","Net","Bombus pratorum","species","bumblebees",1,1.15,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Penteville_2017","Net","Bombus pratorum","species","bumblebees",1,1.15,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Pommeraie_2017","Net","Bombus pratorum","species","bumblebees",1,0.3,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Pommeraie_2017","Net","Bombus pratorum","species","bumblebees",1,0.3,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Pommeraie_2017","Net","Bombus pratorum","species","bumblebees",1,0.3,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Pommeraie_2017","Net","Bombus pratorum","species","bumblebees",1,0.3,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Pommeraie_2017","Net","Bombus pratorum","species","bumblebees",1,0.3,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Pommeraie_2017","Net","Bombus pratorum","species","bumblebees",1,0.3,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Pommeraie_2017","Net","Bombus pratorum","species","bumblebees",1,0.3,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Pommeraie_2017","Net","Bombus pratorum","species","bumblebees",1,0.3,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Pommeraie_2017","Net","Bombus pratorum","species","bumblebees",1,0.3,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Pommeraie_2017","Net","Bombus pratorum","species","bumblebees",1,0.3,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Pommeraie_2017","Net","Bombus pratorum","species","bumblebees",1,0.3,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Pommeraie_2017","Net","Bombus pratorum","species","bumblebees",1,0.3,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Pommeraie_2017","Net","Bombus pratorum","species","bumblebees",1,0.3,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Pommeraie_2017","Net","Bombus pratorum","species","bumblebees",1,0.3,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Pommeraie_2017","Net","Bombus pratorum","species","bumblebees",1,0.3,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Pommeraie_2017","Net","Bombus pratorum","species","bumblebees",1,0.3,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Pommeraie_2017","Net","Bombus pratorum","species","bumblebees",1,0.3,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Pommeraie_2017","Net","Bombus pratorum","species","bumblebees",1,0.3,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Pommeraie_2017","Net","Bombus pratorum","species","bumblebees",1,0.3,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Pommeraie_2017","Net","Bombus pratorum","species","bumblebees",1,0.3,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Gasi_2017","Net","Bombus terrestris agg.","species complex","bumblebees",1,6.5,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Gasi_2017","Net","Bombus terrestris agg.","species complex","bumblebees",1,6.5,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Gasi_2017","Net","Bombus terrestris agg.","species complex","bumblebees",1,6.5,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Gasi_2017","Net","Bombus terrestris agg.","species complex","bumblebees",1,6.5,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Gasi_2017","Net","Bombus terrestris agg.","species complex","bumblebees",1,6.5,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Gasi_2017","Net","Bombus terrestris agg.","species complex","bumblebees",1,6.5,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Gasi_2017","Net","Bombus terrestris agg.","species complex","bumblebees",1,6.5,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Gasi_2017","Net","Bombus terrestris agg.","species complex","bumblebees",1,6.5,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Gasi_2017","Net","Bombus terrestris agg.","species complex","bumblebees",1,6.5,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Gasi_2017","Net","Bombus terrestris agg.","species complex","bumblebees",1,6.5,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Gasi_2017","Net","Bombus terrestris agg.","species complex","bumblebees",1,6.5,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Gasi_2017","Net","Bombus terrestris agg.","species complex","bumblebees",1,6.5,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Gasi_2017","Net","Bombus terrestris agg.","species complex","bumblebees",1,6.5,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Gasi_2017","Net","Bombus terrestris agg.","species complex","bumblebees",1,6.5,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Gasi_2017","Net","Bombus terrestris agg.","species complex","bumblebees",1,6.5,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Gasi_2017","Net","Bombus terrestris agg.","species complex","bumblebees",1,6.5,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Gasi_2017","Net","Bombus terrestris agg.","species complex","bumblebees",1,6.5,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Gasi_2017","Net","Bombus terrestris agg.","species complex","bumblebees",1,6.5,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Gasi_2017","Net","Bombus terrestris agg.","species complex","bumblebees",1,6.5,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Gasi_2017","Net","Bombus terrestris agg.","species complex","bumblebees",1,6.5,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Gasi_2017","Net","Bombus terrestris agg.","species complex","bumblebees",1,6.5,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Gasi_2017","Net","Bombus terrestris agg.","species complex","bumblebees",1,6.5,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Gasi_2017","Net","Bombus terrestris agg.","species complex","bumblebees",1,6.5,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Gasi_2017","Net","Bombus terrestris agg.","species complex","bumblebees",1,6.5,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Gasi_2017","Net","Bombus terrestris agg.","species complex","bumblebees",1,6.5,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Gasi_2017","Net","Bombus terrestris agg.","species complex","bumblebees",1,6.5,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Gasi_2017","Net","Bombus terrestris agg.","species complex","bumblebees",1,6.5,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Gasi_2017","Net","Bombus terrestris agg.","species complex","bumblebees",1,6.5,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Gasi_2017","Net","Bombus terrestris agg.","species complex","bumblebees",1,6.5,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Gasi_2017","Net","Bombus terrestris agg.","species complex","bumblebees",1,6.5,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Gasi_2017","Net","Bombus terrestris agg.","species complex","bumblebees",1,6.5,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Gasi_2017","Net","Bombus terrestris agg.","species complex","bumblebees",1,6.5,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Gasi_2017","Net","Bombus terrestris agg.","species complex","bumblebees",1,6.5,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Gasi_2017","Net","Bombus terrestris agg.","species complex","bumblebees",1,6.5,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Gasi_2017","Net","Bombus terrestris agg.","species complex","bumblebees",1,6.5,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Gasi_2017","Net","Bombus terrestris agg.","species complex","bumblebees",1,6.5,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Gasi_2017","Net","Bombus terrestris agg.","species complex","bumblebees",1,6.5,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Gasi_2017","Net","Bombus terrestris agg.","species complex","bumblebees",1,6.5,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Gasi_2017","Net","Bombus terrestris agg.","species complex","bumblebees",1,6.5,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Gasi_2017","Net","Bombus terrestris agg.","species complex","bumblebees",1,6.5,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Gasi_2017","Net","Bombus terrestris agg.","species complex","bumblebees",1,6.5,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Gasi_2017","Net","Bombus terrestris agg.","species complex","bumblebees",1,6.5,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Gasi_2017","Net","Bombus terrestris agg.","species complex","bumblebees",1,6.5,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Gasi_2017","Net","Bombus terrestris agg.","species complex","bumblebees",1,6.5,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Gasi_2017","Net","Bombus terrestris agg.","species complex","bumblebees",1,6.5,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Gasi_2017","Net","Bombus terrestris agg.","species complex","bumblebees",1,6.5,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Gasi_2017","Net","Bombus terrestris agg.","species complex","bumblebees",1,6.5,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Gasi_2017","Net","Bombus terrestris agg.","species complex","bumblebees",1,6.5,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Gasi_2017","Net","Bombus terrestris agg.","species complex","bumblebees",1,6.5,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Gasi_2017","Net","Bombus terrestris agg.","species complex","bumblebees",1,6.5,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Gasi_2017","Net","Bombus terrestris agg.","species complex","bumblebees",1,6.5,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Gasi_2017","Net","Bombus terrestris agg.","species complex","bumblebees",1,6.5,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Gasi_2017","Net","Bombus terrestris agg.","species complex","bumblebees",1,6.5,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Gasi_2017","Net","Bombus terrestris agg.","species complex","bumblebees",1,6.5,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Gasi_2017","Net","Bombus terrestris agg.","species complex","bumblebees",1,6.5,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Gasi_2017","Net","Bombus terrestris agg.","species complex","bumblebees",1,6.5,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Gasi_2017","Net","Bombus terrestris agg.","species complex","bumblebees",1,6.5,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Gasi_2017","Net","Bombus terrestris agg.","species complex","bumblebees",1,6.5,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Gasi_2017","Net","Bombus terrestris agg.","species complex","bumblebees",1,6.5,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Gasi_2017","Net","Bombus terrestris agg.","species complex","bumblebees",1,6.5,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Gasi_2017","Net","Bombus terrestris agg.","species complex","bumblebees",1,6.5,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Gasi_2017","Net","Bombus terrestris agg.","species complex","bumblebees",1,6.5,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Gasi_2017","Net","Bombus terrestris agg.","species complex","bumblebees",1,6.5,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Gasi_2017","Net","Bombus terrestris agg.","species complex","bumblebees",1,6.5,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Gasi_2017","Net","Bombus terrestris agg.","species complex","bumblebees",1,6.5,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Gasi_2017","Net","Bombus terrestris agg.","species complex","bumblebees",1,6.5,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Gasi_2017","Net","Bombus terrestris agg.","species complex","bumblebees",1,6.5,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Gasi_2017","Net","Bombus terrestris agg.","species complex","bumblebees",1,6.5,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Gasi_2017","Net","Bombus terrestris agg.","species complex","bumblebees",1,6.5,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Gasi_2017","Net","Bombus terrestris agg.","species complex","bumblebees",1,6.5,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Penteville_2017","Net","Bombus terrestris agg.","species complex","bumblebees",1,1.15,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Penteville_2017","Net","Bombus terrestris agg.","species complex","bumblebees",1,1.15,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Penteville_2017","Net","Bombus terrestris agg.","species complex","bumblebees",1,1.15,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Penteville_2017","Net","Bombus terrestris agg.","species complex","bumblebees",1,1.15,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Penteville_2017","Net","Bombus terrestris agg.","species complex","bumblebees",1,1.15,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Penteville_2017","Net","Bombus terrestris agg.","species complex","bumblebees",1,1.15,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Penteville_2017","Net","Bombus terrestris agg.","species complex","bumblebees",1,1.15,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Penteville_2017","Net","Bombus terrestris agg.","species complex","bumblebees",1,1.15,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Penteville_2017","Net","Bombus terrestris agg.","species complex","bumblebees",1,1.15,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Penteville_2017","Net","Bombus terrestris agg.","species complex","bumblebees",1,1.15,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Penteville_2017","Net","Bombus terrestris agg.","species complex","bumblebees",1,1.15,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Penteville_2017","Net","Bombus terrestris agg.","species complex","bumblebees",1,1.15,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Penteville_2017","Net","Bombus terrestris agg.","species complex","bumblebees",1,1.15,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Penteville_2017","Net","Bombus terrestris agg.","species complex","bumblebees",1,1.15,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Penteville_2017","Net","Bombus terrestris agg.","species complex","bumblebees",1,1.15,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Penteville_2017","Net","Bombus terrestris agg.","species complex","bumblebees",1,1.15,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Penteville_2017","Net","Bombus terrestris agg.","species complex","bumblebees",1,1.15,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Penteville_2017","Net","Bombus terrestris agg.","species complex","bumblebees",1,1.15,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Penteville_2017","Net","Bombus terrestris agg.","species complex","bumblebees",1,1.15,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Penteville_2017","Net","Bombus terrestris agg.","species complex","bumblebees",1,1.15,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Penteville_2017","Net","Bombus terrestris agg.","species complex","bumblebees",1,1.15,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Penteville_2017","Net","Bombus terrestris agg.","species complex","bumblebees",1,1.15,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Penteville_2017","Net","Bombus terrestris agg.","species complex","bumblebees",1,1.15,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Penteville_2017","Net","Bombus terrestris agg.","species complex","bumblebees",1,1.15,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Penteville_2017","Net","Bombus terrestris agg.","species complex","bumblebees",1,1.15,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Penteville_2017","Net","Bombus terrestris agg.","species complex","bumblebees",1,1.15,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Penteville_2017","Net","Bombus terrestris agg.","species complex","bumblebees",1,1.15,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Penteville_2017","Net","Bombus terrestris agg.","species complex","bumblebees",1,1.15,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Penteville_2017","Net","Bombus terrestris agg.","species complex","bumblebees",1,1.15,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Penteville_2017","Net","Bombus terrestris agg.","species complex","bumblebees",1,1.15,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Penteville_2017","Net","Bombus terrestris agg.","species complex","bumblebees",1,1.15,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Penteville_2017","Net","Bombus terrestris agg.","species complex","bumblebees",1,1.15,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Penteville_2017","Net","Bombus terrestris agg.","species complex","bumblebees",1,1.15,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Penteville_2017","Net","Bombus terrestris agg.","species complex","bumblebees",1,1.15,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Penteville_2017","Net","Bombus terrestris agg.","species complex","bumblebees",1,1.15,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Penteville_2017","Net","Bombus terrestris agg.","species complex","bumblebees",1,1.15,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Penteville_2017","Net","Bombus terrestris agg.","species complex","bumblebees",1,1.15,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Penteville_2017","Net","Bombus terrestris agg.","species complex","bumblebees",1,1.15,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Penteville_2017","Net","Bombus terrestris agg.","species complex","bumblebees",1,1.15,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Penteville_2017","Net","Bombus terrestris agg.","species complex","bumblebees",1,1.15,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Penteville_2017","Net","Bombus terrestris agg.","species complex","bumblebees",1,1.15,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Penteville_2017","Net","Bombus terrestris agg.","species complex","bumblebees",1,1.15,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Penteville_2017","Net","Bombus terrestris agg.","species complex","bumblebees",1,1.15,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Penteville_2017","Net","Bombus terrestris agg.","species complex","bumblebees",1,1.15,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Penteville_2017","Net","Bombus terrestris agg.","species complex","bumblebees",1,1.15,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Penteville_2017","Net","Bombus terrestris agg.","species complex","bumblebees",1,1.15,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Penteville_2017","Net","Bombus terrestris agg.","species complex","bumblebees",1,1.15,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Penteville_2017","Net","Bombus terrestris agg.","species complex","bumblebees",1,1.15,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Penteville_2017","Net","Bombus terrestris agg.","species complex","bumblebees",1,1.15,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Penteville_2017","Net","Bombus terrestris agg.","species complex","bumblebees",1,1.15,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Penteville_2017","Net","Bombus terrestris agg.","species complex","bumblebees",1,1.15,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Penteville_2017","Net","Bombus terrestris agg.","species complex","bumblebees",1,1.15,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Pommeraie_2017","Net","Bombus terrestris agg.","species complex","bumblebees",1,0.3,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Pommeraie_2017","Net","Bombus terrestris agg.","species complex","bumblebees",1,0.3,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Pommeraie_2017","Net","Bombus terrestris agg.","species complex","bumblebees",1,0.3,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Pommeraie_2017","Net","Bombus terrestris agg.","species complex","bumblebees",1,0.3,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Pommeraie_2017","Net","Bombus terrestris agg.","species complex","bumblebees",1,0.3,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Pommeraie_2017","Net","Bombus terrestris agg.","species complex","bumblebees",1,0.3,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Pommeraie_2017","Net","Bombus terrestris agg.","species complex","bumblebees",1,0.3,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Pommeraie_2017","Net","Bombus terrestris agg.","species complex","bumblebees",1,0.3,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Pommeraie_2017","Net","Bombus terrestris agg.","species complex","bumblebees",1,0.3,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Pommeraie_2017","Net","Bombus terrestris agg.","species complex","bumblebees",1,0.3,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Pommeraie_2017","Net","Bombus terrestris agg.","species complex","bumblebees",1,0.3,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Pommeraie_2017","Net","Bombus terrestris agg.","species complex","bumblebees",1,0.3,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Pommeraie_2017","Net","Bombus terrestris agg.","species complex","bumblebees",1,0.3,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Pommeraie_2017","Net","Bombus terrestris agg.","species complex","bumblebees",1,0.3,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Pommeraie_2017","Net","Bombus terrestris agg.","species complex","bumblebees",1,0.3,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Pommeraie_2017","Net","Bombus terrestris agg.","species complex","bumblebees",1,0.3,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Pommeraie_2017","Net","Bombus terrestris agg.","species complex","bumblebees",1,0.3,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Pommeraie_2017","Net","Bombus terrestris agg.","species complex","bumblebees",1,0.3,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Pommeraie_2017","Net","Bombus terrestris agg.","species complex","bumblebees",1,0.3,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Pommeraie_2017","Net","Bombus terrestris agg.","species complex","bumblebees",1,0.3,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Pommeraie_2017","Net","Bombus terrestris agg.","species complex","bumblebees",1,0.3,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Pommeraie_2017","Net","Bombus terrestris agg.","species complex","bumblebees",1,0.3,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Pommeraie_2017","Net","Bombus terrestris agg.","species complex","bumblebees",1,0.3,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Pommeraie_2017","Net","Bombus terrestris agg.","species complex","bumblebees",1,0.3,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Pommeraie_2017","Net","Bombus terrestris agg.","species complex","bumblebees",1,0.3,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Pommeraie_2017","Net","Bombus terrestris agg.","species complex","bumblebees",1,0.3,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Pommeraie_2017","Net","Bombus terrestris agg.","species complex","bumblebees",1,0.3,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Pommeraie_2017","Net","Bombus terrestris agg.","species complex","bumblebees",1,0.3,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Pommeraie_2017","Net","Bombus terrestris agg.","species complex","bumblebees",1,0.3,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Pommeraie_2017","Net","Bombus terrestris agg.","species complex","bumblebees",1,0.3,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Pommeraie_2017","Net","Bombus terrestris agg.","species complex","bumblebees",1,0.3,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Pommeraie_2017","Net","Bombus terrestris agg.","species complex","bumblebees",1,0.3,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Pommeraie_2017","Net","Bombus terrestris agg.","species complex","bumblebees",1,0.3,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Pommeraie_2017","Net","Bombus terrestris agg.","species complex","bumblebees",1,0.3,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Pommeraie_2017","Net","Bombus terrestris agg.","species complex","bumblebees",1,0.3,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Pommeraie_2017","Net","Bombus terrestris agg.","species complex","bumblebees",1,0.3,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Pommeraie_2017","Net","Bombus terrestris agg.","species complex","bumblebees",1,0.3,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Pommeraie_2017","Net","Bombus terrestris agg.","species complex","bumblebees",1,0.3,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Pommeraie_2017","Net","Bombus terrestris agg.","species complex","bumblebees",1,0.3,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Pommeraie_2017","Net","Bombus terrestris agg.","species complex","bumblebees",1,0.3,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Pommeraie_2017","Net","Bombus terrestris agg.","species complex","bumblebees",1,0.3,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Pommeraie_2017","Net","Bombus terrestris agg.","species complex","bumblebees",1,0.3,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Pommeraie_2017","Net","Bombus terrestris agg.","species complex","bumblebees",1,0.3,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Pommeraie_2017","Net","Bombus terrestris agg.","species complex","bumblebees",1,0.3,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Pommeraie_2017","Net","Bombus terrestris agg.","species complex","bumblebees",1,0.3,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Pommeraie_2017","Net","Bombus terrestris agg.","species complex","bumblebees",1,0.3,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Pommeraie_2017","Net","Bombus terrestris agg.","species complex","bumblebees",1,0.3,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Pommeraie_2017","Net","Bombus terrestris agg.","species complex","bumblebees",1,0.3,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Pommeraie_2017","Net","Bombus terrestris agg.","species complex","bumblebees",1,0.3,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Pommeraie_2017","Net","Bombus terrestris agg.","species complex","bumblebees",1,0.3,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Pommeraie_2017","Net","Bombus terrestris agg.","species complex","bumblebees",1,0.3,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Pommeraie_2017","Net","Bombus terrestris agg.","species complex","bumblebees",1,0.3,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Pommeraie_2017","Net","Bombus terrestris agg.","species complex","bumblebees",1,0.3,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Pommeraie_2017","Net","Bombus terrestris agg.","species complex","bumblebees",1,0.3,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Pommeraie_2017","Net","Bombus terrestris agg.","species complex","bumblebees",1,0.3,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Pommeraie_2017","Net","Bombus terrestris agg.","species complex","bumblebees",1,0.3,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Pommeraie_2017","Net","Bombus terrestris agg.","species complex","bumblebees",1,0.3,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Pommeraie_2017","Net","Bombus terrestris agg.","species complex","bumblebees",1,0.3,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Pommeraie_2017","Net","Bombus terrestris agg.","species complex","bumblebees",1,0.3,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Pommeraie_2017","Net","Bombus terrestris agg.","species complex","bumblebees",1,0.3,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Pommeraie_2017","Net","Bombus terrestris agg.","species complex","bumblebees",1,0.3,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Pommeraie_2017","Net","Bombus terrestris agg.","species complex","bumblebees",1,0.3,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Pommeraie_2017","Net","Bombus terrestris agg.","species complex","bumblebees",1,0.3,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Pommeraie_2017","Net","Bombus terrestris agg.","species complex","bumblebees",1,0.3,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Pommeraie_2017","Net","Bombus terrestris agg.","species complex","bumblebees",1,0.3,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Pommeraie_2017","Net","Bombus terrestris agg.","species complex","bumblebees",1,0.3,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Pommeraie_2017","Net","Bombus terrestris agg.","species complex","bumblebees",1,0.3,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Pommeraie_2017","Net","Bombus terrestris agg.","species complex","bumblebees",1,0.3,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Pommeraie_2017","Net","Bombus terrestris agg.","species complex","bumblebees",1,0.3,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Pommeraie_2017","Net","Bombus terrestris agg.","species complex","bumblebees",1,0.3,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Pommeraie_2017","Net","Bombus terrestris agg.","species complex","bumblebees",1,0.3,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Pommeraie_2017","Net","Bombus terrestris agg.","species complex","bumblebees",1,0.3,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Pommeraie_2017","Net","Bombus terrestris agg.","species complex","bumblebees",1,0.3,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Pommeraie_2017","Net","Bombus terrestris agg.","species complex","bumblebees",1,0.3,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Pommeraie_2017","Net","Bombus terrestris agg.","species complex","bumblebees",1,0.3,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Pommeraie_2017","Net","Bombus terrestris agg.","species complex","bumblebees",1,0.3,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Pommeraie_2017","Net","Bombus terrestris agg.","species complex","bumblebees",1,0.3,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Pommeraie_2017","Net","Bombus terrestris agg.","species complex","bumblebees",1,0.3,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Pommeraie_2017","Net","Bombus terrestris agg.","species complex","bumblebees",1,0.3,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Pommeraie_2017","Net","Bombus terrestris agg.","species complex","bumblebees",1,0.3,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Pommeraie_2017","Net","Bombus terrestris agg.","species complex","bumblebees",1,0.3,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Pommeraie_2017","Net","Bombus terrestris agg.","species complex","bumblebees",1,0.3,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Pommeraie_2017","Net","Bombus terrestris agg.","species complex","bumblebees",1,0.3,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Pommeraie_2017","Net","Bombus terrestris agg.","species complex","bumblebees",1,0.3,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Pommeraie_2017","Net","Bombus terrestris agg.","species complex","bumblebees",1,0.3,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Pommeraie_2017","Net","Bombus terrestris agg.","species complex","bumblebees",1,0.3,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Pommeraie_2017","Net","Bombus terrestris agg.","species complex","bumblebees",1,0.3,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Pommeraie_2017","Net","Bombus terrestris agg.","species complex","bumblebees",1,0.3,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Pommeraie_2017","Net","Bombus terrestris agg.","species complex","bumblebees",1,0.3,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Pommeraie_2017","Net","Bombus terrestris agg.","species complex","bumblebees",1,0.3,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Pommeraie_2017","Net","Bombus terrestris agg.","species complex","bumblebees",1,0.3,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Pommeraie_2017","Net","Bombus terrestris agg.","species complex","bumblebees",1,0.3,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Pommeraie_2017","Net","Bombus terrestris agg.","species complex","bumblebees",1,0.3,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Pommeraie_2017","Net","Bombus terrestris agg.","species complex","bumblebees",1,0.3,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Pommeraie_2017","Net","Bombus terrestris agg.","species complex","bumblebees",1,0.3,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Pommeraie_2017","Net","Bombus terrestris agg.","species complex","bumblebees",1,0.3,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Pommeraie_2017","Net","Bombus terrestris agg.","species complex","bumblebees",1,0.3,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Pommeraie_2017","Net","Bombus terrestris agg.","species complex","bumblebees",1,0.3,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Pommeraie_2017","Net","Bombus terrestris agg.","species complex","bumblebees",1,0.3,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Pommeraie_2017","Net","Bombus terrestris agg.","species complex","bumblebees",1,0.3,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Pommeraie_2017","Net","Bombus terrestris agg.","species complex","bumblebees",1,0.3,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Pommeraie_2017","Net","Bombus terrestris agg.","species complex","bumblebees",1,0.3,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Pommeraie_2017","Net","Bombus terrestris agg.","species complex","bumblebees",1,0.3,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Pommeraie_2017","Net","Bombus terrestris agg.","species complex","bumblebees",1,0.3,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Pommeraie_2017","Net","Bombus terrestris agg.","species complex","bumblebees",1,0.3,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Pommeraie_2017","Net","Bombus terrestris agg.","species complex","bumblebees",1,0.3,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Pommeraie_2017","Net","Bombus terrestris agg.","species complex","bumblebees",1,0.3,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Pommeraie_2017","Net","Bombus terrestris agg.","species complex","bumblebees",1,0.3,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Pommeraie_2017","Net","Bombus terrestris agg.","species complex","bumblebees",1,0.3,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Pommeraie_2017","Net","Bombus terrestris agg.","species complex","bumblebees",1,0.3,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Pommeraie_2017","Net","Bombus terrestris agg.","species complex","bumblebees",1,0.3,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Pommeraie_2017","Net","Bombus terrestris agg.","species complex","bumblebees",1,0.3,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Pommeraie_2017","Net","Bombus terrestris agg.","species complex","bumblebees",1,0.3,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Pommeraie_2017","Net","Bombus terrestris agg.","species complex","bumblebees",1,0.3,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Pommeraie_2017","Net","Bombus terrestris agg.","species complex","bumblebees",1,0.3,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Pommeraie_2017","Net","Bombus terrestris agg.","species complex","bumblebees",1,0.3,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Pommeraie_2017","Net","Bombus terrestris agg.","species complex","bumblebees",1,0.3,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Pommeraie_2017","Net","Bombus terrestris agg.","species complex","bumblebees",1,0.3,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Pommeraie_2017","Net","Bombus terrestris agg.","species complex","bumblebees",1,0.3,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Pommeraie_2017","Net","Bombus terrestris agg.","species complex","bumblebees",1,0.3,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Pommeraie_2017","Net","Bombus terrestris agg.","species complex","bumblebees",1,0.3,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Pommeraie_2017","Net","Bombus terrestris agg.","species complex","bumblebees",1,0.3,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Pommeraie_2017","Net","Bombus terrestris agg.","species complex","bumblebees",1,0.3,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Pommeraie_2017","Net","Bombus terrestris agg.","species complex","bumblebees",1,0.3,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Pommeraie_2017","Net","Bombus terrestris agg.","species complex","bumblebees",1,0.3,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Pommeraie_2017","Net","Bombus terrestris agg.","species complex","bumblebees",1,0.3,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Penteville_2017","Net","Bombus vestalis","species","bumblebees",1,1.15,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Penteville_2017","Net","Halictus tumulorum","species","other_wild_bees",1,1.15,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Pommeraie_2017","Net","Halictus tumulorum","species","other_wild_bees",1,0.3,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Pommeraie_2017","Net","Halictus tumulorum","species","other_wild_bees",1,0.3,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Gasi_2017","Net","Lasioglossum calceatum","species","other_wild_bees",1,6.5,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Gasi_2017","Net","Lasioglossum calceatum","species","other_wild_bees",1,6.5,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Gasi_2017","Net","Lasioglossum calceatum","species","other_wild_bees",1,6.5,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Gasi_2017","Net","Lasioglossum calceatum","species","other_wild_bees",1,6.5,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Gasi_2017","Net","Lasioglossum calceatum","species","other_wild_bees",1,6.5,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Gasi_2017","Net","Lasioglossum calceatum","species","other_wild_bees",1,6.5,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Gasi_2017","Net","Lasioglossum calceatum","species","other_wild_bees",1,6.5,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Gasi_2017","Net","Lasioglossum calceatum","species","other_wild_bees",1,6.5,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Penteville_2017","Net","Lasioglossum calceatum","species","other_wild_bees",1,1.15,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Penteville_2017","Net","Lasioglossum calceatum","species","other_wild_bees",1,1.15,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Penteville_2017","Net","Lasioglossum calceatum","species","other_wild_bees",1,1.15,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Penteville_2017","Net","Lasioglossum calceatum","species","other_wild_bees",1,1.15,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Penteville_2017","Net","Lasioglossum calceatum","species","other_wild_bees",1,1.15,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Penteville_2017","Net","Lasioglossum calceatum","species","other_wild_bees",1,1.15,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Penteville_2017","Net","Lasioglossum calceatum","species","other_wild_bees",1,1.15,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Penteville_2017","Net","Lasioglossum calceatum","species","other_wild_bees",1,1.15,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Penteville_2017","Net","Lasioglossum calceatum","species","other_wild_bees",1,1.15,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Penteville_2017","Net","Lasioglossum calceatum","species","other_wild_bees",1,1.15,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Penteville_2017","Net","Lasioglossum calceatum","species","other_wild_bees",1,1.15,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Penteville_2017","Net","Lasioglossum calceatum","species","other_wild_bees",1,1.15,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Penteville_2017","Net","Lasioglossum calceatum","species","other_wild_bees",1,1.15,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Penteville_2017","Net","Lasioglossum calceatum","species","other_wild_bees",1,1.15,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Pommeraie_2017","Net","Lasioglossum calceatum","species","other_wild_bees",1,0.3,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Pommeraie_2017","Net","Lasioglossum calceatum","species","other_wild_bees",1,0.3,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Pommeraie_2017","Net","Lasioglossum laticeps","species","other_wild_bees",1,0.3,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Penteville_2017","Net","Lasioglossum leucozonium","species","other_wild_bees",1,1.15,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Gasi_2017","Net","Lasioglossum parvulum","species","other_wild_bees",1,6.5,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Gasi_2017","Net","Lasioglossum parvulum","species","other_wild_bees",1,6.5,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Gasi_2017","Net","Lasioglossum parvulum","species","other_wild_bees",1,6.5,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Gasi_2017","Net","Lasioglossum parvulum","species","other_wild_bees",1,6.5,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Gasi_2017","Net","Lasioglossum parvulum","species","other_wild_bees",1,6.5,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Gasi_2017","Net","Lasioglossum parvulum","species","other_wild_bees",1,6.5,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Penteville_2017","Net","Lasioglossum pauxillum","species","other_wild_bees",1,1.15,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Penteville_2017","Net","Lasioglossum pauxillum","species","other_wild_bees",1,1.15,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Pommeraie_2017","Net","Lasioglossum pauxillum","species","other_wild_bees",1,0.3,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Penteville_2017","Net","Lasioglossum villosulum","species","other_wild_bees",1,1.15,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Penteville_2017","Net","Lasioglossum villosulum","species","other_wild_bees",1,1.15,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Pommeraie_2017","Net","Lasioglossum villosulum","species","other_wild_bees",1,0.3,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Penteville_2017","Net","Lasioglossum zonulum","species","other_wild_bees",1,1.15,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Penteville_2017","Net","Lasioglossum zonulum","species","other_wild_bees",1,1.15,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Penteville_2017","Net","Lasioglossum zonulum","species","other_wild_bees",1,1.15,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Penteville_2017","Net","Lasioglossum zonulum","species","other_wild_bees",1,1.15,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Penteville_2017","Net","Lasioglossum zonulum","species","other_wild_bees",1,1.15,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Penteville_2017","Net","Lasioglossum zonulum","species","other_wild_bees",1,1.15,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Gasi_2017","Net","Nomada fabriciana","species","other_wild_bees",1,6.5,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Gasi_2017","Net","Nomada fabriciana","species","other_wild_bees",1,6.5,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Gasi_2017","Net","Nomada fabriciana","species","other_wild_bees",1,6.5,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Gasi_2017","Net","Nomada fabriciana","species","other_wild_bees",1,6.5,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Gasi_2017","Net","Nomada fabriciana","species","other_wild_bees",1,6.5,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Penteville_2017","Net","Nomada flava","species","other_wild_bees",1,1.15,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Pommeraie_2017","Net","Osmia bicornis","species","other_wild_bees",1,0.3,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Pommeraie_2017","Net","Osmia bicornis","species","other_wild_bees",1,0.3,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Pommeraie_2017","Net","Osmia bicornis","species","other_wild_bees",1,0.3,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Pommeraie_2017","Net","Osmia bicornis","species","other_wild_bees",1,0.3,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Pommeraie_2017","Net","Osmia bicornis","species","other_wild_bees",1,0.3,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Pommeraie_2017","Net","Osmia bicornis","species","other_wild_bees",1,0.3,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Pommeraie_2017","Net","Osmia bicornis","species","other_wild_bees",1,0.3,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Gasi_2017","Net","Osmia cornuta","species","other_wild_bees",1,6.5,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2017","Gasi_2017","Net","Seladonia tumulorum","species","other_wild_bees",1,6.5,840,NA,NA,NA
"Nicolas_J_Vereecken_Rubus_idaeus_Belgium_2017","La Framboiseraie de Redu","Net","Bombus pascuorum","species","bumblebees",1,1.94,180,NA,NA,NA
"Nicolas_J_Vereecken_Rubus_idaeus_Belgium_2017","La Framboiseraie de Redu","Net","Bombus pratorum","species","bumblebees",1,1.94,180,NA,NA,NA
"Nicolas_J_Vereecken_Rubus_idaeus_Belgium_2017","La Framboiseraie de Redu","Net","Bombus pratorum","species","bumblebees",1,1.94,180,NA,NA,NA
"Nicolas_J_Vereecken_Rubus_idaeus_Belgium_2017","La Framboiseraie de Redu","Net","Bombus pratorum","species","bumblebees",1,1.94,180,NA,NA,NA
"Nicolas_J_Vereecken_Vaccinium_corymbosum_Belgium_2017","P'tits Fruits d'Ici","Net","Andrena fulva","species","other_wild_bees",1,0.15,360,NA,NA,NA
"Nicolas_J_Vereecken_Vaccinium_corymbosum_Belgium_2017","P'tits Fruits d'Ici","Net","Andrena scotica","species","other_wild_bees",1,0.15,360,NA,NA,NA
"Nicolas_J_Vereecken_Vaccinium_corymbosum_Belgium_2017","Fredandberries","Net","Anthophora plumipes","species","other_wild_bees",1,0.23,180,NA,NA,NA
"Nicolas_J_Vereecken_Vaccinium_corymbosum_Belgium_2017","P'tits Fruits d'Ici","Net","Anthophora plumipes","species","other_wild_bees",1,0.15,360,NA,NA,NA
"Nicolas_J_Vereecken_Vaccinium_corymbosum_Belgium_2017","P'tits Fruits d'Ici","Net","Anthophora plumipes","species","other_wild_bees",1,0.15,360,NA,NA,NA
"Nicolas_J_Vereecken_Vaccinium_corymbosum_Belgium_2017","P'tits Fruits d'Ici","Net","Anthophora plumipes","species","other_wild_bees",1,0.15,360,NA,NA,NA
"Nicolas_J_Vereecken_Vaccinium_corymbosum_Belgium_2017","P'tits Fruits d'Ici","Net","Anthophora plumipes","species","other_wild_bees",1,0.15,360,NA,NA,NA
"Nicolas_J_Vereecken_Vaccinium_corymbosum_Belgium_2017","P'tits Fruits d'Ici","Net","Anthophora plumipes","species","other_wild_bees",1,0.15,360,NA,NA,NA
"Nicolas_J_Vereecken_Vaccinium_corymbosum_Belgium_2017","P'tits Fruits d'Ici","Net","Anthophora plumipes","species","other_wild_bees",1,0.15,360,NA,NA,NA
"Nicolas_J_Vereecken_Vaccinium_corymbosum_Belgium_2017","Fredandberries","Net","Apis mellifera","species","honeybees",1,0.23,180,NA,NA,NA
"Nicolas_J_Vereecken_Vaccinium_corymbosum_Belgium_2017","Fredandberries","Net","Apis mellifera","species","honeybees",1,0.23,180,NA,NA,NA
"Nicolas_J_Vereecken_Vaccinium_corymbosum_Belgium_2017","Fredandberries","Net","Apis mellifera","species","honeybees",1,0.23,180,NA,NA,NA
"Nicolas_J_Vereecken_Vaccinium_corymbosum_Belgium_2017","Fredandberries","Net","Apis mellifera","species","honeybees",1,0.23,180,NA,NA,NA
"Nicolas_J_Vereecken_Vaccinium_corymbosum_Belgium_2017","Fredandberries","Net","Apis mellifera","species","honeybees",1,0.23,180,NA,NA,NA
"Nicolas_J_Vereecken_Vaccinium_corymbosum_Belgium_2017","Fredandberries","Net","Apis mellifera","species","honeybees",1,0.23,180,NA,NA,NA
"Nicolas_J_Vereecken_Vaccinium_corymbosum_Belgium_2017","Fredandberries","Net","Apis mellifera","species","honeybees",1,0.23,180,NA,NA,NA
"Nicolas_J_Vereecken_Vaccinium_corymbosum_Belgium_2017","Fredandberries","Net","Apis mellifera","species","honeybees",1,0.23,180,NA,NA,NA
"Nicolas_J_Vereecken_Vaccinium_corymbosum_Belgium_2017","Fredandberries","Net","Apis mellifera","species","honeybees",1,0.23,180,NA,NA,NA
"Nicolas_J_Vereecken_Vaccinium_corymbosum_Belgium_2017","Fredandberries","Net","Apis mellifera","species","honeybees",1,0.23,180,NA,NA,NA
"Nicolas_J_Vereecken_Vaccinium_corymbosum_Belgium_2017","Fredandberries","Net","Apis mellifera","species","honeybees",1,0.23,180,NA,NA,NA
"Nicolas_J_Vereecken_Vaccinium_corymbosum_Belgium_2017","Fredandberries","Net","Apis mellifera","species","honeybees",1,0.23,180,NA,NA,NA
"Nicolas_J_Vereecken_Vaccinium_corymbosum_Belgium_2017","Fredandberries","Net","Apis mellifera","species","honeybees",1,0.23,180,NA,NA,NA
"Nicolas_J_Vereecken_Vaccinium_corymbosum_Belgium_2017","Fredandberries","Net","Apis mellifera","species","honeybees",1,0.23,180,NA,NA,NA
"Nicolas_J_Vereecken_Vaccinium_corymbosum_Belgium_2017","Fredandberries","Net","Apis mellifera","species","honeybees",1,0.23,180,NA,NA,NA
"Nicolas_J_Vereecken_Vaccinium_corymbosum_Belgium_2017","Fredandberries","Net","Apis mellifera","species","honeybees",1,0.23,180,NA,NA,NA
"Nicolas_J_Vereecken_Vaccinium_corymbosum_Belgium_2017","Fredandberries","Net","Apis mellifera","species","honeybees",1,0.23,180,NA,NA,NA
"Nicolas_J_Vereecken_Vaccinium_corymbosum_Belgium_2017","Fredandberries","Net","Apis mellifera","species","honeybees",1,0.23,180,NA,NA,NA
"Nicolas_J_Vereecken_Vaccinium_corymbosum_Belgium_2017","Fredandberries","Net","Apis mellifera","species","honeybees",1,0.23,180,NA,NA,NA
"Nicolas_J_Vereecken_Vaccinium_corymbosum_Belgium_2017","Fredandberries","Net","Apis mellifera","species","honeybees",1,0.23,180,NA,NA,NA
"Nicolas_J_Vereecken_Vaccinium_corymbosum_Belgium_2017","Fredandberries","Net","Apis mellifera","species","honeybees",1,0.23,180,NA,NA,NA
"Nicolas_J_Vereecken_Vaccinium_corymbosum_Belgium_2017","Fredandberries","Net","Apis mellifera","species","honeybees",1,0.23,180,NA,NA,NA
"Nicolas_J_Vereecken_Vaccinium_corymbosum_Belgium_2017","Fredandberries","Net","Apis mellifera","species","honeybees",1,0.23,180,NA,NA,NA
"Nicolas_J_Vereecken_Vaccinium_corymbosum_Belgium_2017","Myrtille de Chardeneux","Net","Apis mellifera","species","honeybees",1,0.43,180,NA,NA,NA
"Nicolas_J_Vereecken_Vaccinium_corymbosum_Belgium_2017","Myrtille de Chardeneux","Net","Apis mellifera","species","honeybees",1,0.43,180,NA,NA,NA
"Nicolas_J_Vereecken_Vaccinium_corymbosum_Belgium_2017","Myrtille de Chardeneux","Net","Apis mellifera","species","honeybees",1,0.43,180,NA,NA,NA
"Nicolas_J_Vereecken_Vaccinium_corymbosum_Belgium_2017","Myrtille de Chardeneux","Net","Apis mellifera","species","honeybees",1,0.43,180,NA,NA,NA
"Nicolas_J_Vereecken_Vaccinium_corymbosum_Belgium_2017","Myrtille de Chardeneux","Net","Apis mellifera","species","honeybees",1,0.43,180,NA,NA,NA
"Nicolas_J_Vereecken_Vaccinium_corymbosum_Belgium_2017","Myrtille de Chardeneux","Net","Apis mellifera","species","honeybees",1,0.43,180,NA,NA,NA
"Nicolas_J_Vereecken_Vaccinium_corymbosum_Belgium_2017","Fredandberries","Net","Bombus hortorum","species","bumblebees",1,0.23,180,NA,NA,NA
"Nicolas_J_Vereecken_Vaccinium_corymbosum_Belgium_2017","Fredandberries","Net","Bombus hypnorum","species","bumblebees",1,0.23,180,NA,NA,NA
"Nicolas_J_Vereecken_Vaccinium_corymbosum_Belgium_2017","Myrtille de Chardeneux","Net","Bombus hypnorum","species","bumblebees",1,0.43,180,NA,NA,NA
"Nicolas_J_Vereecken_Vaccinium_corymbosum_Belgium_2017","Myrtille de Chardeneux","Net","Bombus hypnorum","species","bumblebees",1,0.43,180,NA,NA,NA
"Nicolas_J_Vereecken_Vaccinium_corymbosum_Belgium_2017","Myrtille de Chardeneux","Net","Bombus hypnorum","species","bumblebees",1,0.43,180,NA,NA,NA
"Nicolas_J_Vereecken_Vaccinium_corymbosum_Belgium_2017","Myrtille de Chardeneux","Net","Bombus hypnorum","species","bumblebees",1,0.43,180,NA,NA,NA
"Nicolas_J_Vereecken_Vaccinium_corymbosum_Belgium_2017","Myrtille de Chardeneux","Net","Bombus hypnorum","species","bumblebees",1,0.43,180,NA,NA,NA
"Nicolas_J_Vereecken_Vaccinium_corymbosum_Belgium_2017","Myrtille de Chardeneux","Net","Bombus hypnorum","species","bumblebees",1,0.43,180,NA,NA,NA
"Nicolas_J_Vereecken_Vaccinium_corymbosum_Belgium_2017","P'tits Fruits d'Ici","Net","Bombus hypnorum","species","bumblebees",1,0.15,360,NA,NA,NA
"Nicolas_J_Vereecken_Vaccinium_corymbosum_Belgium_2017","P'tits Fruits d'Ici","Net","Bombus hypnorum","species","bumblebees",1,0.15,360,NA,NA,NA
"Nicolas_J_Vereecken_Vaccinium_corymbosum_Belgium_2017","P'tits Fruits d'Ici","Net","Bombus hypnorum","species","bumblebees",1,0.15,360,NA,NA,NA
"Nicolas_J_Vereecken_Vaccinium_corymbosum_Belgium_2017","P'tits Fruits d'Ici","Net","Bombus hypnorum","species","bumblebees",1,0.15,360,NA,NA,NA
"Nicolas_J_Vereecken_Vaccinium_corymbosum_Belgium_2017","P'tits Fruits d'Ici","Net","Bombus lapidarius","species","bumblebees",1,0.15,360,NA,NA,NA
"Nicolas_J_Vereecken_Vaccinium_corymbosum_Belgium_2017","P'tits Fruits d'Ici","Net","Bombus lapidarius","species","bumblebees",1,0.15,360,NA,NA,NA
"Nicolas_J_Vereecken_Vaccinium_corymbosum_Belgium_2017","Fredandberries","Net","Bombus pascuorum","species","bumblebees",1,0.23,180,NA,NA,NA
"Nicolas_J_Vereecken_Vaccinium_corymbosum_Belgium_2017","Fredandberries","Net","Bombus pascuorum","species","bumblebees",1,0.23,180,NA,NA,NA
"Nicolas_J_Vereecken_Vaccinium_corymbosum_Belgium_2017","P'tits Fruits d'Ici","Net","Bombus pascuorum","species","bumblebees",1,0.15,360,NA,NA,NA
"Nicolas_J_Vereecken_Vaccinium_corymbosum_Belgium_2017","P'tits Fruits d'Ici","Net","Bombus pascuorum","species","bumblebees",1,0.15,360,NA,NA,NA
"Nicolas_J_Vereecken_Vaccinium_corymbosum_Belgium_2017","P'tits Fruits d'Ici","Net","Bombus pascuorum","species","bumblebees",1,0.15,360,NA,NA,NA
"Nicolas_J_Vereecken_Vaccinium_corymbosum_Belgium_2017","P'tits Fruits d'Ici","Net","Bombus pascuorum","species","bumblebees",1,0.15,360,NA,NA,NA
"Nicolas_J_Vereecken_Vaccinium_corymbosum_Belgium_2017","P'tits Fruits d'Ici","Net","Bombus pascuorum","species","bumblebees",1,0.15,360,NA,NA,NA
"Nicolas_J_Vereecken_Vaccinium_corymbosum_Belgium_2017","P'tits Fruits d'Ici","Net","Bombus pascuorum","species","bumblebees",1,0.15,360,NA,NA,NA
"Nicolas_J_Vereecken_Vaccinium_corymbosum_Belgium_2017","P'tits Fruits d'Ici","Net","Bombus pascuorum","species","bumblebees",1,0.15,360,NA,NA,NA
"Nicolas_J_Vereecken_Vaccinium_corymbosum_Belgium_2017","P'tits Fruits d'Ici","Net","Bombus pascuorum","species","bumblebees",1,0.15,360,NA,NA,NA
"Nicolas_J_Vereecken_Vaccinium_corymbosum_Belgium_2017","P'tits Fruits d'Ici","Net","Bombus pascuorum","species","bumblebees",1,0.15,360,NA,NA,NA
"Nicolas_J_Vereecken_Vaccinium_corymbosum_Belgium_2017","P'tits Fruits d'Ici","Net","Bombus pascuorum","species","bumblebees",1,0.15,360,NA,NA,NA
"Nicolas_J_Vereecken_Vaccinium_corymbosum_Belgium_2017","P'tits Fruits d'Ici","Net","Bombus pascuorum","species","bumblebees",1,0.15,360,NA,NA,NA
"Nicolas_J_Vereecken_Vaccinium_corymbosum_Belgium_2017","P'tits Fruits d'Ici","Net","Bombus pascuorum","species","bumblebees",1,0.15,360,NA,NA,NA
"Nicolas_J_Vereecken_Vaccinium_corymbosum_Belgium_2017","P'tits Fruits d'Ici","Net","Bombus pascuorum","species","bumblebees",1,0.15,360,NA,NA,NA
"Nicolas_J_Vereecken_Vaccinium_corymbosum_Belgium_2017","P'tits Fruits d'Ici","Net","Bombus pascuorum","species","bumblebees",1,0.15,360,NA,NA,NA
"Nicolas_J_Vereecken_Vaccinium_corymbosum_Belgium_2017","P'tits Fruits d'Ici","Net","Bombus pascuorum","species","bumblebees",1,0.15,360,NA,NA,NA
"Nicolas_J_Vereecken_Vaccinium_corymbosum_Belgium_2017","P'tits Fruits d'Ici","Net","Bombus pascuorum","species","bumblebees",1,0.15,360,NA,NA,NA
"Nicolas_J_Vereecken_Vaccinium_corymbosum_Belgium_2017","P'tits Fruits d'Ici","Net","Bombus pascuorum","species","bumblebees",1,0.15,360,NA,NA,NA
"Nicolas_J_Vereecken_Vaccinium_corymbosum_Belgium_2017","P'tits Fruits d'Ici","Net","Bombus pascuorum","species","bumblebees",1,0.15,360,NA,NA,NA
"Nicolas_J_Vereecken_Vaccinium_corymbosum_Belgium_2017","P'tits Fruits d'Ici","Net","Bombus pascuorum","species","bumblebees",1,0.15,360,NA,NA,NA
"Nicolas_J_Vereecken_Vaccinium_corymbosum_Belgium_2017","P'tits Fruits d'Ici","Net","Bombus pascuorum","species","bumblebees",1,0.15,360,NA,NA,NA
"Nicolas_J_Vereecken_Vaccinium_corymbosum_Belgium_2017","P'tits Fruits d'Ici","Net","Bombus pascuorum","species","bumblebees",1,0.15,360,NA,NA,NA
"Nicolas_J_Vereecken_Vaccinium_corymbosum_Belgium_2017","P'tits Fruits d'Ici","Net","Bombus pascuorum","species","bumblebees",1,0.15,360,NA,NA,NA
"Nicolas_J_Vereecken_Vaccinium_corymbosum_Belgium_2017","P'tits Fruits d'Ici","Net","Bombus pascuorum","species","bumblebees",1,0.15,360,NA,NA,NA
"Nicolas_J_Vereecken_Vaccinium_corymbosum_Belgium_2017","P'tits Fruits d'Ici","Net","Bombus pascuorum","species","bumblebees",1,0.15,360,NA,NA,NA
"Nicolas_J_Vereecken_Vaccinium_corymbosum_Belgium_2017","P'tits Fruits d'Ici","Net","Bombus pascuorum","species","bumblebees",1,0.15,360,NA,NA,NA
"Nicolas_J_Vereecken_Vaccinium_corymbosum_Belgium_2017","P'tits Fruits d'Ici","Net","Bombus pascuorum","species","bumblebees",1,0.15,360,NA,NA,NA
"Nicolas_J_Vereecken_Vaccinium_corymbosum_Belgium_2017","P'tits Fruits d'Ici","Net","Bombus pascuorum","species","bumblebees",1,0.15,360,NA,NA,NA
"Nicolas_J_Vereecken_Vaccinium_corymbosum_Belgium_2017","P'tits Fruits d'Ici","Net","Bombus pascuorum","species","bumblebees",1,0.15,360,NA,NA,NA
"Nicolas_J_Vereecken_Vaccinium_corymbosum_Belgium_2017","Fredandberries","Net","Bombus pratorum","species","bumblebees",1,0.23,180,NA,NA,NA
"Nicolas_J_Vereecken_Vaccinium_corymbosum_Belgium_2017","Fredandberries","Net","Bombus pratorum","species","bumblebees",1,0.23,180,NA,NA,NA
"Nicolas_J_Vereecken_Vaccinium_corymbosum_Belgium_2017","Fredandberries","Net","Bombus pratorum","species","bumblebees",1,0.23,180,NA,NA,NA
"Nicolas_J_Vereecken_Vaccinium_corymbosum_Belgium_2017","Fredandberries","Net","Bombus pratorum","species","bumblebees",1,0.23,180,NA,NA,NA
"Nicolas_J_Vereecken_Vaccinium_corymbosum_Belgium_2017","Fredandberries","Net","Bombus pratorum","species","bumblebees",1,0.23,180,NA,NA,NA
"Nicolas_J_Vereecken_Vaccinium_corymbosum_Belgium_2017","Myrtille de Chardeneux","Net","Bombus pratorum","species","bumblebees",1,0.43,180,NA,NA,NA
"Nicolas_J_Vereecken_Vaccinium_corymbosum_Belgium_2017","Myrtille de Chardeneux","Net","Bombus pratorum","species","bumblebees",1,0.43,180,NA,NA,NA
"Nicolas_J_Vereecken_Vaccinium_corymbosum_Belgium_2017","P'tits Fruits d'Ici","Net","Bombus pratorum","species","bumblebees",1,0.15,360,NA,NA,NA
"Nicolas_J_Vereecken_Vaccinium_corymbosum_Belgium_2017","P'tits Fruits d'Ici","Net","Bombus pratorum","species","bumblebees",1,0.15,360,NA,NA,NA
"Nicolas_J_Vereecken_Vaccinium_corymbosum_Belgium_2017","P'tits Fruits d'Ici","Net","Bombus pratorum","species","bumblebees",1,0.15,360,NA,NA,NA
"Nicolas_J_Vereecken_Vaccinium_corymbosum_Belgium_2017","P'tits Fruits d'Ici","Net","Bombus pratorum","species","bumblebees",1,0.15,360,NA,NA,NA
"Nicolas_J_Vereecken_Vaccinium_corymbosum_Belgium_2017","P'tits Fruits d'Ici","Net","Bombus pratorum","species","bumblebees",1,0.15,360,NA,NA,NA
"Nicolas_J_Vereecken_Vaccinium_corymbosum_Belgium_2017","P'tits Fruits d'Ici","Net","Bombus pratorum","species","bumblebees",1,0.15,360,NA,NA,NA
"Nicolas_J_Vereecken_Vaccinium_corymbosum_Belgium_2017","P'tits Fruits d'Ici","Net","Bombus pratorum","species","bumblebees",1,0.15,360,NA,NA,NA
"Nicolas_J_Vereecken_Vaccinium_corymbosum_Belgium_2017","P'tits Fruits d'Ici","Net","Bombus pratorum","species","bumblebees",1,0.15,360,NA,NA,NA
"Nicolas_J_Vereecken_Vaccinium_corymbosum_Belgium_2017","P'tits Fruits d'Ici","Net","Bombus pratorum","species","bumblebees",1,0.15,360,NA,NA,NA
"Nicolas_J_Vereecken_Vaccinium_corymbosum_Belgium_2017","P'tits Fruits d'Ici","Net","Bombus pratorum","species","bumblebees",1,0.15,360,NA,NA,NA
"Nicolas_J_Vereecken_Vaccinium_corymbosum_Belgium_2017","P'tits Fruits d'Ici","Net","Bombus pratorum","species","bumblebees",1,0.15,360,NA,NA,NA
"Nicolas_J_Vereecken_Vaccinium_corymbosum_Belgium_2017","P'tits Fruits d'Ici","Net","Bombus pratorum","species","bumblebees",1,0.15,360,NA,NA,NA
"Nicolas_J_Vereecken_Vaccinium_corymbosum_Belgium_2017","P'tits Fruits d'Ici","Net","Bombus pratorum","species","bumblebees",1,0.15,360,NA,NA,NA
"Nicolas_J_Vereecken_Vaccinium_corymbosum_Belgium_2017","P'tits Fruits d'Ici","Net","Bombus pratorum","species","bumblebees",1,0.15,360,NA,NA,NA
"Nicolas_J_Vereecken_Vaccinium_corymbosum_Belgium_2017","P'tits Fruits d'Ici","Net","Bombus pratorum","species","bumblebees",1,0.15,360,NA,NA,NA
"Nicolas_J_Vereecken_Vaccinium_corymbosum_Belgium_2017","P'tits Fruits d'Ici","Net","Bombus pratorum","species","bumblebees",1,0.15,360,NA,NA,NA
"Nicolas_J_Vereecken_Vaccinium_corymbosum_Belgium_2017","P'tits Fruits d'Ici","Net","Bombus pratorum","species","bumblebees",1,0.15,360,NA,NA,NA
"Nicolas_J_Vereecken_Vaccinium_corymbosum_Belgium_2017","Fredandberries","Net","Bombus terrestris agg.","species complex","bumblebees",1,0.23,180,NA,NA,NA
"Nicolas_J_Vereecken_Vaccinium_corymbosum_Belgium_2017","Myrtille de Chardeneux","Net","Bombus terrestris agg.","species complex","bumblebees",1,0.43,180,NA,NA,NA
"Nicolas_J_Vereecken_Vaccinium_corymbosum_Belgium_2017","Myrtille de Chardeneux","Net","Bombus terrestris agg.","species complex","bumblebees",1,0.43,180,NA,NA,NA
"Nicolas_J_Vereecken_Vaccinium_corymbosum_Belgium_2017","Myrtille de Chardeneux","Net","Bombus terrestris agg.","species complex","bumblebees",1,0.43,180,NA,NA,NA
"Nicolas_J_Vereecken_Vaccinium_corymbosum_Belgium_2017","Myrtille de Chardeneux","Net","Bombus terrestris agg.","species complex","bumblebees",1,0.43,180,NA,NA,NA
"Nicolas_J_Vereecken_Vaccinium_corymbosum_Belgium_2017","Myrtille de Chardeneux","Net","Bombus terrestris agg.","species complex","bumblebees",1,0.43,180,NA,NA,NA
"Nicolas_J_Vereecken_Vaccinium_corymbosum_Belgium_2017","Myrtille de Chardeneux","Net","Bombus terrestris agg.","species complex","bumblebees",1,0.43,180,NA,NA,NA
"Nicolas_J_Vereecken_Vaccinium_corymbosum_Belgium_2017","Myrtille de Chardeneux","Net","Bombus terrestris agg.","species complex","bumblebees",1,0.43,180,NA,NA,NA
"Nicolas_J_Vereecken_Vaccinium_corymbosum_Belgium_2017","Myrtille de Chardeneux","Net","Bombus terrestris agg.","species complex","bumblebees",1,0.43,180,NA,NA,NA
"Nicolas_J_Vereecken_Vaccinium_corymbosum_Belgium_2017","Myrtille de Chardeneux","Net","Bombus terrestris agg.","species complex","bumblebees",1,0.43,180,NA,NA,NA
"Nicolas_J_Vereecken_Vaccinium_corymbosum_Belgium_2017","Myrtille de Chardeneux","Net","Bombus terrestris agg.","species complex","bumblebees",1,0.43,180,NA,NA,NA
"Nicolas_J_Vereecken_Vaccinium_corymbosum_Belgium_2017","Myrtille de Chardeneux","Net","Bombus terrestris agg.","species complex","bumblebees",1,0.43,180,NA,NA,NA
"Nicolas_J_Vereecken_Vaccinium_corymbosum_Belgium_2017","Myrtille de Chardeneux","Net","Bombus terrestris agg.","species complex","bumblebees",1,0.43,180,NA,NA,NA
"Nicolas_J_Vereecken_Vaccinium_corymbosum_Belgium_2017","Myrtille de Chardeneux","Net","Bombus terrestris agg.","species complex","bumblebees",1,0.43,180,NA,NA,NA
"Nicolas_J_Vereecken_Vaccinium_corymbosum_Belgium_2017","Myrtille de Chardeneux","Net","Bombus terrestris agg.","species complex","bumblebees",1,0.43,180,NA,NA,NA
"Nicolas_J_Vereecken_Vaccinium_corymbosum_Belgium_2017","Myrtille de Chardeneux","Net","Bombus terrestris agg.","species complex","bumblebees",1,0.43,180,NA,NA,NA
"Nicolas_J_Vereecken_Vaccinium_corymbosum_Belgium_2017","Myrtille de Chardeneux","Net","Bombus terrestris agg.","species complex","bumblebees",1,0.43,180,NA,NA,NA
"Nicolas_J_Vereecken_Vaccinium_corymbosum_Belgium_2017","Myrtille de Chardeneux","Net","Bombus terrestris agg.","species complex","bumblebees",1,0.43,180,NA,NA,NA
"Nicolas_J_Vereecken_Vaccinium_corymbosum_Belgium_2017","Myrtille de Chardeneux","Net","Bombus terrestris agg.","species complex","bumblebees",1,0.43,180,NA,NA,NA
"Nicolas_J_Vereecken_Vaccinium_corymbosum_Belgium_2017","Myrtille de Chardeneux","Net","Bombus terrestris agg.","species complex","bumblebees",1,0.43,180,NA,NA,NA
"Nicolas_J_Vereecken_Vaccinium_corymbosum_Belgium_2017","Myrtille de Chardeneux","Net","Bombus terrestris agg.","species complex","bumblebees",1,0.43,180,NA,NA,NA
"Nicolas_J_Vereecken_Vaccinium_corymbosum_Belgium_2017","Myrtille de Chardeneux","Net","Bombus terrestris agg.","species complex","bumblebees",1,0.43,180,NA,NA,NA
"Nicolas_J_Vereecken_Vaccinium_corymbosum_Belgium_2017","P'tits Fruits d'Ici","Net","Bombus terrestris agg.","species complex","bumblebees",1,0.15,360,NA,NA,NA
"Nicolas_J_Vereecken_Vaccinium_corymbosum_Belgium_2017","P'tits Fruits d'Ici","Net","Bombus terrestris agg.","species complex","bumblebees",1,0.15,360,NA,NA,NA
"Nicolas_J_Vereecken_Vaccinium_corymbosum_Belgium_2017","P'tits Fruits d'Ici","Net","Bombus terrestris agg.","species complex","bumblebees",1,0.15,360,NA,NA,NA
"Nicolas_J_Vereecken_Vaccinium_corymbosum_Belgium_2017","P'tits Fruits d'Ici","Net","Bombus terrestris agg.","species complex","bumblebees",1,0.15,360,NA,NA,NA
"Nicolas_J_Vereecken_Vaccinium_corymbosum_Belgium_2017","P'tits Fruits d'Ici","Net","Bombus terrestris agg.","species complex","bumblebees",1,0.15,360,NA,NA,NA
"Nicolas_J_Vereecken_Vaccinium_corymbosum_Belgium_2017","P'tits Fruits d'Ici","Net","Bombus terrestris agg.","species complex","bumblebees",1,0.15,360,NA,NA,NA
"Nicolas_J_Vereecken_Vaccinium_corymbosum_Belgium_2017","P'tits Fruits d'Ici","Net","Bombus terrestris agg.","species complex","bumblebees",1,0.15,360,NA,NA,NA
"Nicolas_J_Vereecken_Vaccinium_corymbosum_Belgium_2017","P'tits Fruits d'Ici","Net","Bombus terrestris agg.","species complex","bumblebees",1,0.15,360,NA,NA,NA
"Nicolas_J_Vereecken_Vaccinium_corymbosum_Belgium_2017","P'tits Fruits d'Ici","Net","Bombus terrestris agg.","species complex","bumblebees",1,0.15,360,NA,NA,NA
"Nicolas_J_Vereecken_Vaccinium_corymbosum_Belgium_2017","P'tits Fruits d'Ici","Net","Bombus terrestris agg.","species complex","bumblebees",1,0.15,360,NA,NA,NA
"Nicolas_J_Vereecken_Vaccinium_corymbosum_Belgium_2017","P'tits Fruits d'Ici","Net","Bombus terrestris agg.","species complex","bumblebees",1,0.15,360,NA,NA,NA
"Nicolas_J_Vereecken_Vaccinium_corymbosum_Belgium_2017","P'tits Fruits d'Ici","Net","Bombus terrestris agg.","species complex","bumblebees",1,0.15,360,NA,NA,NA
"Nicolas_J_Vereecken_Vaccinium_corymbosum_Belgium_2017","P'tits Fruits d'Ici","Net","Bombus terrestris agg.","species complex","bumblebees",1,0.15,360,NA,NA,NA
"Nicolas_J_Vereecken_Vaccinium_corymbosum_Belgium_2017","P'tits Fruits d'Ici","Net","Bombus terrestris agg.","species complex","bumblebees",1,0.15,360,NA,NA,NA
"Nicolas_J_Vereecken_Vaccinium_corymbosum_Belgium_2017","P'tits Fruits d'Ici","Net","Bombus terrestris agg.","species complex","bumblebees",1,0.15,360,NA,NA,NA
"Nicolas_J_Vereecken_Vaccinium_corymbosum_Belgium_2017","P'tits Fruits d'Ici","Net","Bombus terrestris agg.","species complex","bumblebees",1,0.15,360,NA,NA,NA
"Nicolas_J_Vereecken_Vaccinium_corymbosum_Belgium_2017","P'tits Fruits d'Ici","Net","Bombus terrestris agg.","species complex","bumblebees",1,0.15,360,NA,NA,NA
"Nicolas_J_Vereecken_Vaccinium_corymbosum_Belgium_2017","P'tits Fruits d'Ici","Net","Bombus terrestris agg.","species complex","bumblebees",1,0.15,360,NA,NA,NA
"Nicolas_J_Vereecken_Vaccinium_corymbosum_Belgium_2017","P'tits Fruits d'Ici","Net","Bombus terrestris agg.","species complex","bumblebees",1,0.15,360,NA,NA,NA
"Nicolas_J_Vereecken_Vaccinium_corymbosum_Belgium_2017","Fredandberries","Net","Bombus vestalis","species","bumblebees",1,0.23,180,NA,NA,NA
"Nicolas_J_Vereecken_Vaccinium_corymbosum_Belgium_2017","Myrtille de Chardeneux","Net","Bombus vestalis","species","bumblebees",1,0.43,180,NA,NA,NA
"Nicolas_J_Vereecken_Vaccinium_corymbosum_Belgium_2017","P'tits Fruits d'Ici","Net","Bombus vestalis","species","bumblebees",1,0.15,360,NA,NA,NA
"Nicolas_J_Vereecken_Vaccinium_corymbosum_Belgium_2017","Myrtille de Chardeneux","Net","Osmia bicornis","species","other_wild_bees",1,0.43,180,NA,NA,NA
"Nicolas_J_Vereecken_Vaccinium_corymbosum_Belgium_2017","P'tits Fruits d'Ici","Net","Osmia bicornis","species","other_wild_bees",1,0.15,360,NA,NA,NA
"Nicolas_J_Vereecken_Vaccinium_corymbosum_Belgium_2017","P'tits Fruits d'Ici","Net","Osmia bicornis","species","other_wild_bees",1,0.15,360,NA,NA,NA
"Nicolas_J_Vereecken_Vaccinium_corymbosum_Belgium_2017","P'tits Fruits d'Ici","Net","Osmia bicornis","species","other_wild_bees",1,0.15,360,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2016","Penteville_2016","Net","Andrena bicolor","species","other_wild_bees",1,1.15,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2016","Penteville_2016","Net","Andrena carantonica","species","other_wild_bees",1,1.15,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2016","Penteville_2016","Net","Andrena carantonica","species","other_wild_bees",1,1.15,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2016","Penteville_2016","Net","Andrena carantonica","species","other_wild_bees",1,1.15,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2016","Penteville_2016","Net","Andrena carantonica","species","other_wild_bees",1,1.15,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2016","Penteville_2016","Net","Andrena chrysosceles","species","other_wild_bees",1,1.15,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2016","Penteville_2016","Net","Andrena chrysosceles","species","other_wild_bees",1,1.15,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2016","Penteville_2016","Net","Andrena chrysosceles","species","other_wild_bees",1,1.15,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2016","Penteville_2016","Net","Andrena chrysosceles","species","other_wild_bees",1,1.15,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2016","Penteville_2016","Net","Andrena chrysosceles","species","other_wild_bees",1,1.15,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2016","Penteville_2016","Net","Andrena chrysosceles","species","other_wild_bees",1,1.15,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2016","Penteville_2016","Net","Andrena chrysosceles","species","other_wild_bees",1,1.15,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2016","Penteville_2016","Net","Andrena cineraria","species","other_wild_bees",1,1.15,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2016","Penteville_2016","Net","Andrena cineraria","species","other_wild_bees",1,1.15,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2016","Penteville_2016","Net","Andrena cineraria","species","other_wild_bees",1,1.15,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2016","Penteville_2016","Net","Andrena cineraria","species","other_wild_bees",1,1.15,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2016","Gasi_2016","Net","Andrena dorsata","species","other_wild_bees",1,6.5,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2016","Gasi_2016","Net","Andrena dorsata","species","other_wild_bees",1,6.5,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2016","Gasi_2016","Net","Andrena dorsata","species","other_wild_bees",1,6.5,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2016","Gasi_2016","Net","Andrena dorsata","species","other_wild_bees",1,6.5,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2016","Penteville_2016","Net","Andrena dorsata","species","other_wild_bees",1,1.15,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2016","Penteville_2016","Net","Andrena dorsata","species","other_wild_bees",1,1.15,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2016","Gasi_2016","Net","Andrena flavipes","species","other_wild_bees",1,6.5,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2016","Gasi_2016","Net","Andrena flavipes","species","other_wild_bees",1,6.5,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2016","Gasi_2016","Net","Andrena flavipes","species","other_wild_bees",1,6.5,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2016","Gasi_2016","Net","Andrena flavipes","species","other_wild_bees",1,6.5,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2016","Gasi_2016","Net","Andrena flavipes","species","other_wild_bees",1,6.5,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2016","Gasi_2016","Net","Andrena flavipes","species","other_wild_bees",1,6.5,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2016","Gasi_2016","Net","Andrena flavipes","species","other_wild_bees",1,6.5,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2016","Gasi_2016","Net","Andrena flavipes","species","other_wild_bees",1,6.5,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2016","Gasi_2016","Net","Andrena flavipes","species","other_wild_bees",1,6.5,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2016","Gasi_2016","Net","Andrena flavipes","species","other_wild_bees",1,6.5,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2016","Gasi_2016","Net","Andrena flavipes","species","other_wild_bees",1,6.5,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2016","Gasi_2016","Net","Andrena flavipes","species","other_wild_bees",1,6.5,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2016","Gasi_2016","Net","Andrena flavipes","species","other_wild_bees",1,6.5,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2016","Gasi_2016","Net","Andrena flavipes","species","other_wild_bees",1,6.5,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2016","Gasi_2016","Net","Andrena flavipes","species","other_wild_bees",1,6.5,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2016","Gasi_2016","Net","Andrena flavipes","species","other_wild_bees",1,6.5,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2016","Gasi_2016","Net","Andrena flavipes","species","other_wild_bees",1,6.5,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2016","Gasi_2016","Net","Andrena flavipes","species","other_wild_bees",1,6.5,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2016","Penteville_2016","Net","Andrena flavipes","species","other_wild_bees",1,1.15,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2016","Penteville_2016","Net","Andrena flavipes","species","other_wild_bees",1,1.15,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2016","Penteville_2016","Net","Andrena flavipes","species","other_wild_bees",1,1.15,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2016","Penteville_2016","Net","Andrena flavipes","species","other_wild_bees",1,1.15,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2016","Penteville_2016","Net","Andrena flavipes","species","other_wild_bees",1,1.15,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2016","Penteville_2016","Net","Andrena flavipes","species","other_wild_bees",1,1.15,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2016","Gasi_2016","Net","Andrena florea","species","other_wild_bees",1,6.5,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2016","Gasi_2016","Net","Andrena florea","species","other_wild_bees",1,6.5,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2016","Gasi_2016","Net","Andrena florea","species","other_wild_bees",1,6.5,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2016","Gasi_2016","Net","Andrena florea","species","other_wild_bees",1,6.5,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2016","Gasi_2016","Net","Andrena florea","species","other_wild_bees",1,6.5,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2016","Gasi_2016","Net","Andrena florea","species","other_wild_bees",1,6.5,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2016","Gasi_2016","Net","Andrena florea","species","other_wild_bees",1,6.5,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2016","Gasi_2016","Net","Andrena florea","species","other_wild_bees",1,6.5,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2016","Gasi_2016","Net","Andrena florea","species","other_wild_bees",1,6.5,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2016","Gasi_2016","Net","Andrena florea","species","other_wild_bees",1,6.5,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2016","Gasi_2016","Net","Andrena florea","species","other_wild_bees",1,6.5,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2016","Gasi_2016","Net","Andrena florea","species","other_wild_bees",1,6.5,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2016","Gasi_2016","Net","Andrena florea","species","other_wild_bees",1,6.5,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2016","Gasi_2016","Net","Andrena florea","species","other_wild_bees",1,6.5,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2016","Gasi_2016","Net","Andrena florea","species","other_wild_bees",1,6.5,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2016","Gasi_2016","Net","Andrena florea","species","other_wild_bees",1,6.5,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2016","Gasi_2016","Net","Andrena florea","species","other_wild_bees",1,6.5,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2016","Gasi_2016","Net","Andrena florea","species","other_wild_bees",1,6.5,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2016","Gasi_2016","Net","Andrena florea","species","other_wild_bees",1,6.5,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2016","Gasi_2016","Net","Andrena florea","species","other_wild_bees",1,6.5,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2016","Gasi_2016","Net","Andrena florea","species","other_wild_bees",1,6.5,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2016","Gasi_2016","Net","Andrena florea","species","other_wild_bees",1,6.5,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2016","Gasi_2016","Net","Andrena florea","species","other_wild_bees",1,6.5,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2016","Gasi_2016","Net","Andrena fulva","species","other_wild_bees",1,6.5,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2016","Penteville_2016","Net","Andrena fulva","species","other_wild_bees",1,1.15,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2016","Penteville_2016","Net","Andrena fulva","species","other_wild_bees",1,1.15,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2016","Penteville_2016","Net","Andrena fulva","species","other_wild_bees",1,1.15,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2016","Gasi_2016","Net","Andrena gravida","species","other_wild_bees",1,6.5,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2016","Penteville_2016","Net","Andrena gravida","species","other_wild_bees",1,1.15,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2016","Penteville_2016","Net","Andrena gravida","species","other_wild_bees",1,1.15,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2016","Penteville_2016","Net","Andrena gravida","species","other_wild_bees",1,1.15,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2016","Penteville_2016","Net","Andrena gravida","species","other_wild_bees",1,1.15,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2016","Gasi_2016","Net","Andrena haemorrhoa","species","other_wild_bees",1,6.5,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2016","Gasi_2016","Net","Andrena haemorrhoa","species","other_wild_bees",1,6.5,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2016","Gasi_2016","Net","Andrena haemorrhoa","species","other_wild_bees",1,6.5,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2016","Gasi_2016","Net","Andrena haemorrhoa","species","other_wild_bees",1,6.5,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2016","Gasi_2016","Net","Andrena haemorrhoa","species","other_wild_bees",1,6.5,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2016","Gasi_2016","Net","Andrena haemorrhoa","species","other_wild_bees",1,6.5,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2016","Gasi_2016","Net","Andrena haemorrhoa","species","other_wild_bees",1,6.5,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2016","Gasi_2016","Net","Andrena haemorrhoa","species","other_wild_bees",1,6.5,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2016","Gasi_2016","Net","Andrena haemorrhoa","species","other_wild_bees",1,6.5,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2016","Gasi_2016","Net","Andrena haemorrhoa","species","other_wild_bees",1,6.5,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2016","Gasi_2016","Net","Andrena haemorrhoa","species","other_wild_bees",1,6.5,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2016","Gasi_2016","Net","Andrena haemorrhoa","species","other_wild_bees",1,6.5,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2016","Gasi_2016","Net","Andrena haemorrhoa","species","other_wild_bees",1,6.5,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2016","Gasi_2016","Net","Andrena haemorrhoa","species","other_wild_bees",1,6.5,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2016","Gasi_2016","Net","Andrena haemorrhoa","species","other_wild_bees",1,6.5,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2016","Gasi_2016","Net","Andrena haemorrhoa","species","other_wild_bees",1,6.5,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2016","Gasi_2016","Net","Andrena haemorrhoa","species","other_wild_bees",1,6.5,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2016","Gasi_2016","Net","Andrena haemorrhoa","species","other_wild_bees",1,6.5,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2016","Gasi_2016","Net","Andrena haemorrhoa","species","other_wild_bees",1,6.5,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2016","Gasi_2016","Net","Andrena haemorrhoa","species","other_wild_bees",1,6.5,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2016","Gasi_2016","Net","Andrena haemorrhoa","species","other_wild_bees",1,6.5,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2016","Gasi_2016","Net","Andrena haemorrhoa","species","other_wild_bees",1,6.5,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2016","Gasi_2016","Net","Andrena haemorrhoa","species","other_wild_bees",1,6.5,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2016","Gasi_2016","Net","Andrena haemorrhoa","species","other_wild_bees",1,6.5,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2016","Gasi_2016","Net","Andrena haemorrhoa","species","other_wild_bees",1,6.5,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2016","Gasi_2016","Net","Andrena haemorrhoa","species","other_wild_bees",1,6.5,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2016","Gasi_2016","Net","Andrena haemorrhoa","species","other_wild_bees",1,6.5,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2016","Penteville_2016","Net","Andrena haemorrhoa","species","other_wild_bees",1,1.15,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2016","Penteville_2016","Net","Andrena haemorrhoa","species","other_wild_bees",1,1.15,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2016","Penteville_2016","Net","Andrena haemorrhoa","species","other_wild_bees",1,1.15,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2016","Penteville_2016","Net","Andrena haemorrhoa","species","other_wild_bees",1,1.15,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2016","Penteville_2016","Net","Andrena haemorrhoa","species","other_wild_bees",1,1.15,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2016","Penteville_2016","Net","Andrena haemorrhoa","species","other_wild_bees",1,1.15,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2016","Penteville_2016","Net","Andrena haemorrhoa","species","other_wild_bees",1,1.15,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2016","Penteville_2016","Net","Andrena haemorrhoa","species","other_wild_bees",1,1.15,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2016","Penteville_2016","Net","Andrena haemorrhoa","species","other_wild_bees",1,1.15,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2016","Penteville_2016","Net","Andrena haemorrhoa","species","other_wild_bees",1,1.15,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2016","Penteville_2016","Net","Andrena haemorrhoa","species","other_wild_bees",1,1.15,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2016","Penteville_2016","Net","Andrena haemorrhoa","species","other_wild_bees",1,1.15,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2016","Penteville_2016","Net","Andrena haemorrhoa","species","other_wild_bees",1,1.15,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2016","Penteville_2016","Net","Andrena haemorrhoa","species","other_wild_bees",1,1.15,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2016","Penteville_2016","Net","Andrena haemorrhoa","species","other_wild_bees",1,1.15,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2016","Penteville_2016","Net","Andrena haemorrhoa","species","other_wild_bees",1,1.15,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2016","Penteville_2016","Net","Andrena haemorrhoa","species","other_wild_bees",1,1.15,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2016","Penteville_2016","Net","Andrena haemorrhoa","species","other_wild_bees",1,1.15,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2016","Penteville_2016","Net","Andrena haemorrhoa","species","other_wild_bees",1,1.15,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2016","Penteville_2016","Net","Andrena haemorrhoa","species","other_wild_bees",1,1.15,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2016","Penteville_2016","Net","Andrena haemorrhoa","species","other_wild_bees",1,1.15,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2016","Penteville_2016","Net","Andrena haemorrhoa","species","other_wild_bees",1,1.15,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2016","Penteville_2016","Net","Andrena haemorrhoa","species","other_wild_bees",1,1.15,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2016","Penteville_2016","Net","Andrena haemorrhoa","species","other_wild_bees",1,1.15,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2016","Penteville_2016","Net","Andrena haemorrhoa","species","other_wild_bees",1,1.15,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2016","Penteville_2016","Net","Andrena haemorrhoa","species","other_wild_bees",1,1.15,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2016","Penteville_2016","Net","Andrena haemorrhoa","species","other_wild_bees",1,1.15,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2016","Penteville_2016","Net","Andrena haemorrhoa","species","other_wild_bees",1,1.15,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2016","Penteville_2016","Net","Andrena haemorrhoa","species","other_wild_bees",1,1.15,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2016","Penteville_2016","Net","Andrena haemorrhoa","species","other_wild_bees",1,1.15,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2016","Penteville_2016","Net","Andrena haemorrhoa","species","other_wild_bees",1,1.15,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2016","Penteville_2016","Net","Andrena haemorrhoa","species","other_wild_bees",1,1.15,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2016","Penteville_2016","Net","Andrena haemorrhoa","species","other_wild_bees",1,1.15,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2016","Penteville_2016","Net","Andrena haemorrhoa","species","other_wild_bees",1,1.15,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2016","Penteville_2016","Net","Andrena haemorrhoa","species","other_wild_bees",1,1.15,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2016","Penteville_2016","Net","Andrena haemorrhoa","species","other_wild_bees",1,1.15,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2016","Penteville_2016","Net","Andrena haemorrhoa","species","other_wild_bees",1,1.15,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2016","Penteville_2016","Net","Andrena haemorrhoa","species","other_wild_bees",1,1.15,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2016","Penteville_2016","Net","Andrena haemorrhoa","species","other_wild_bees",1,1.15,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2016","Penteville_2016","Net","Andrena haemorrhoa","species","other_wild_bees",1,1.15,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2016","Penteville_2016","Net","Andrena haemorrhoa","species","other_wild_bees",1,1.15,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2016","Penteville_2016","Net","Andrena haemorrhoa","species","other_wild_bees",1,1.15,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2016","Penteville_2016","Net","Andrena haemorrhoa","species","other_wild_bees",1,1.15,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2016","Penteville_2016","Net","Andrena haemorrhoa","species","other_wild_bees",1,1.15,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2016","Penteville_2016","Net","Andrena haemorrhoa","species","other_wild_bees",1,1.15,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2016","Penteville_2016","Net","Andrena haemorrhoa","species","other_wild_bees",1,1.15,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2016","Penteville_2016","Net","Andrena haemorrhoa","species","other_wild_bees",1,1.15,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2016","Penteville_2016","Net","Andrena haemorrhoa","species","other_wild_bees",1,1.15,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2016","Penteville_2016","Net","Andrena haemorrhoa","species","other_wild_bees",1,1.15,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2016","Penteville_2016","Net","Andrena haemorrhoa","species","other_wild_bees",1,1.15,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2016","Penteville_2016","Net","Andrena haemorrhoa","species","other_wild_bees",1,1.15,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2016","Penteville_2016","Net","Andrena haemorrhoa","species","other_wild_bees",1,1.15,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2016","Penteville_2016","Net","Andrena haemorrhoa","species","other_wild_bees",1,1.15,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2016","Penteville_2016","Net","Andrena haemorrhoa","species","other_wild_bees",1,1.15,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2016","Penteville_2016","Net","Andrena haemorrhoa","species","other_wild_bees",1,1.15,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2016","Penteville_2016","Net","Andrena haemorrhoa","species","other_wild_bees",1,1.15,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2016","Penteville_2016","Net","Andrena haemorrhoa","species","other_wild_bees",1,1.15,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2016","Penteville_2016","Net","Andrena haemorrhoa","species","other_wild_bees",1,1.15,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2016","Penteville_2016","Net","Andrena haemorrhoa","species","other_wild_bees",1,1.15,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2016","Penteville_2016","Net","Andrena haemorrhoa","species","other_wild_bees",1,1.15,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2016","Penteville_2016","Net","Andrena haemorrhoa","species","other_wild_bees",1,1.15,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2016","Penteville_2016","Net","Andrena haemorrhoa","species","other_wild_bees",1,1.15,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2016","Penteville_2016","Net","Andrena haemorrhoa","species","other_wild_bees",1,1.15,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2016","Penteville_2016","Net","Andrena haemorrhoa","species","other_wild_bees",1,1.15,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2016","Penteville_2016","Net","Andrena haemorrhoa","species","other_wild_bees",1,1.15,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2016","Penteville_2016","Net","Andrena haemorrhoa","species","other_wild_bees",1,1.15,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2016","Penteville_2016","Net","Andrena haemorrhoa","species","other_wild_bees",1,1.15,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2016","Penteville_2016","Net","Andrena haemorrhoa","species","other_wild_bees",1,1.15,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2016","Penteville_2016","Net","Andrena haemorrhoa","species","other_wild_bees",1,1.15,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2016","Penteville_2016","Net","Andrena haemorrhoa","species","other_wild_bees",1,1.15,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2016","Penteville_2016","Net","Andrena haemorrhoa","species","other_wild_bees",1,1.15,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2016","Penteville_2016","Net","Andrena haemorrhoa","species","other_wild_bees",1,1.15,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2016","Penteville_2016","Net","Andrena haemorrhoa","species","other_wild_bees",1,1.15,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2016","Penteville_2016","Net","Andrena haemorrhoa","species","other_wild_bees",1,1.15,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2016","Penteville_2016","Net","Andrena haemorrhoa","species","other_wild_bees",1,1.15,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2016","Penteville_2016","Net","Andrena haemorrhoa","species","other_wild_bees",1,1.15,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2016","Penteville_2016","Net","Andrena haemorrhoa","species","other_wild_bees",1,1.15,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2016","Penteville_2016","Net","Andrena haemorrhoa","species","other_wild_bees",1,1.15,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2016","Penteville_2016","Net","Andrena haemorrhoa","species","other_wild_bees",1,1.15,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2016","Penteville_2016","Net","Andrena haemorrhoa","species","other_wild_bees",1,1.15,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2016","Penteville_2016","Net","Andrena haemorrhoa","species","other_wild_bees",1,1.15,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2016","Penteville_2016","Net","Andrena haemorrhoa","species","other_wild_bees",1,1.15,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2016","Penteville_2016","Net","Andrena haemorrhoa","species","other_wild_bees",1,1.15,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2016","Penteville_2016","Net","Andrena haemorrhoa","species","other_wild_bees",1,1.15,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2016","Penteville_2016","Net","Andrena haemorrhoa","species","other_wild_bees",1,1.15,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2016","Penteville_2016","Net","Andrena haemorrhoa","species","other_wild_bees",1,1.15,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2016","Penteville_2016","Net","Andrena haemorrhoa","species","other_wild_bees",1,1.15,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2016","Penteville_2016","Net","Andrena haemorrhoa","species","other_wild_bees",1,1.15,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2016","Penteville_2016","Net","Andrena haemorrhoa","species","other_wild_bees",1,1.15,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2016","Gasi_2016","Net","Andrena nitida","species","other_wild_bees",1,6.5,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2016","Gasi_2016","Net","Andrena nitida","species","other_wild_bees",1,6.5,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2016","Gasi_2016","Net","Andrena nitida","species","other_wild_bees",1,6.5,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2016","Gasi_2016","Net","Andrena nitida","species","other_wild_bees",1,6.5,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2016","Gasi_2016","Net","Andrena nitida","species","other_wild_bees",1,6.5,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2016","Gasi_2016","Net","Andrena nitida","species","other_wild_bees",1,6.5,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2016","Gasi_2016","Net","Andrena nitida","species","other_wild_bees",1,6.5,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2016","Gasi_2016","Net","Andrena vaga","species","other_wild_bees",1,6.5,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2016","Penteville_2016","Net","Andrena vaga","species","other_wild_bees",1,1.15,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2016","Gasi_2016","Net","Apis mellifera","species","honeybees",1,6.5,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2016","Penteville_2016","Net","Apis mellifera","species","honeybees",1,1.15,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2016","Penteville_2016","Net","Apis mellifera","species","honeybees",1,1.15,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2016","Penteville_2016","Net","Apis mellifera","species","honeybees",1,1.15,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2016","Penteville_2016","Net","Apis mellifera","species","honeybees",1,1.15,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2016","Penteville_2016","Net","Bombus hortorum","species","bumblebees",1,1.15,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2016","Penteville_2016","Net","Bombus hortorum","species","bumblebees",1,1.15,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2016","Penteville_2016","Net","Bombus hortorum","species","bumblebees",1,1.15,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2016","Penteville_2016","Net","Bombus hortorum","species","bumblebees",1,1.15,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2016","Penteville_2016","Net","Bombus hortorum","species","bumblebees",1,1.15,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2016","Penteville_2016","Net","Bombus hortorum","species","bumblebees",1,1.15,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2016","Penteville_2016","Net","Bombus hortorum","species","bumblebees",1,1.15,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2016","Penteville_2016","Net","Bombus hortorum","species","bumblebees",1,1.15,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2016","Penteville_2016","Net","Bombus hortorum","species","bumblebees",1,1.15,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2016","Penteville_2016","Net","Bombus hypnorum","species","bumblebees",1,1.15,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2016","Penteville_2016","Net","Bombus hypnorum","species","bumblebees",1,1.15,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2016","Penteville_2016","Net","Bombus hypnorum","species","bumblebees",1,1.15,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2016","Penteville_2016","Net","Bombus hypnorum","species","bumblebees",1,1.15,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2016","Penteville_2016","Net","Bombus hypnorum","species","bumblebees",1,1.15,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2016","Gasi_2016","Net","Bombus lapidarius","species","bumblebees",1,6.5,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2016","Gasi_2016","Net","Bombus lapidarius","species","bumblebees",1,6.5,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2016","Gasi_2016","Net","Bombus lapidarius","species","bumblebees",1,6.5,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2016","Gasi_2016","Net","Bombus lapidarius","species","bumblebees",1,6.5,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2016","Gasi_2016","Net","Bombus lapidarius","species","bumblebees",1,6.5,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2016","Gasi_2016","Net","Bombus lapidarius","species","bumblebees",1,6.5,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2016","Penteville_2016","Net","Bombus lapidarius","species","bumblebees",1,1.15,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2016","Penteville_2016","Net","Bombus lapidarius","species","bumblebees",1,1.15,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2016","Penteville_2016","Net","Bombus lapidarius","species","bumblebees",1,1.15,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2016","Penteville_2016","Net","Bombus lapidarius","species","bumblebees",1,1.15,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2016","Penteville_2016","Net","Bombus lapidarius","species","bumblebees",1,1.15,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2016","Penteville_2016","Net","Bombus lapidarius","species","bumblebees",1,1.15,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2016","Penteville_2016","Net","Bombus lapidarius","species","bumblebees",1,1.15,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2016","Penteville_2016","Net","Bombus lapidarius","species","bumblebees",1,1.15,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2016","Penteville_2016","Net","Bombus lapidarius","species","bumblebees",1,1.15,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2016","Penteville_2016","Net","Bombus lapidarius","species","bumblebees",1,1.15,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2016","Penteville_2016","Net","Bombus lapidarius","species","bumblebees",1,1.15,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2016","Penteville_2016","Net","Bombus lapidarius","species","bumblebees",1,1.15,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2016","Penteville_2016","Net","Bombus lapidarius","species","bumblebees",1,1.15,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2016","Penteville_2016","Net","Bombus lapidarius","species","bumblebees",1,1.15,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2016","Penteville_2016","Net","Bombus lapidarius","species","bumblebees",1,1.15,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2016","Penteville_2016","Net","Bombus lapidarius","species","bumblebees",1,1.15,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2016","Penteville_2016","Net","Bombus lapidarius","species","bumblebees",1,1.15,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2016","Penteville_2016","Net","Bombus lapidarius","species","bumblebees",1,1.15,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2016","Penteville_2016","Net","Bombus lapidarius","species","bumblebees",1,1.15,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2016","Penteville_2016","Net","Bombus lapidarius","species","bumblebees",1,1.15,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2016","Penteville_2016","Net","Bombus lapidarius","species","bumblebees",1,1.15,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2016","Penteville_2016","Net","Bombus lapidarius","species","bumblebees",1,1.15,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2016","Penteville_2016","Net","Bombus lapidarius","species","bumblebees",1,1.15,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2016","Penteville_2016","Net","Bombus lapidarius","species","bumblebees",1,1.15,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2016","Penteville_2016","Net","Bombus lapidarius","species","bumblebees",1,1.15,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2016","Penteville_2016","Net","Bombus lapidarius","species","bumblebees",1,1.15,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2016","Penteville_2016","Net","Bombus lapidarius","species","bumblebees",1,1.15,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2016","Penteville_2016","Net","Bombus lapidarius","species","bumblebees",1,1.15,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2016","Penteville_2016","Net","Bombus lapidarius","species","bumblebees",1,1.15,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2016","Penteville_2016","Net","Bombus lapidarius","species","bumblebees",1,1.15,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2016","Penteville_2016","Net","Bombus lapidarius","species","bumblebees",1,1.15,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2016","Penteville_2016","Net","Bombus lapidarius","species","bumblebees",1,1.15,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2016","Penteville_2016","Net","Bombus lapidarius","species","bumblebees",1,1.15,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2016","Gasi_2016","Net","Bombus pascuorum","species","bumblebees",1,6.5,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2016","Penteville_2016","Net","Bombus pascuorum","species","bumblebees",1,1.15,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2016","Penteville_2016","Net","Bombus pascuorum","species","bumblebees",1,1.15,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2016","Penteville_2016","Net","Bombus pascuorum","species","bumblebees",1,1.15,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2016","Penteville_2016","Net","Bombus pascuorum","species","bumblebees",1,1.15,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2016","Penteville_2016","Net","Bombus pascuorum","species","bumblebees",1,1.15,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2016","Penteville_2016","Net","Bombus pascuorum","species","bumblebees",1,1.15,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2016","Penteville_2016","Net","Bombus pascuorum","species","bumblebees",1,1.15,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2016","Penteville_2016","Net","Bombus pascuorum","species","bumblebees",1,1.15,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2016","Penteville_2016","Net","Bombus pascuorum","species","bumblebees",1,1.15,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2016","Penteville_2016","Net","Bombus pascuorum","species","bumblebees",1,1.15,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2016","Penteville_2016","Net","Bombus pascuorum","species","bumblebees",1,1.15,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2016","Penteville_2016","Net","Bombus pascuorum","species","bumblebees",1,1.15,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2016","Penteville_2016","Net","Bombus pascuorum","species","bumblebees",1,1.15,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2016","Penteville_2016","Net","Bombus pascuorum","species","bumblebees",1,1.15,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2016","Penteville_2016","Net","Bombus pascuorum","species","bumblebees",1,1.15,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2016","Penteville_2016","Net","Bombus pascuorum","species","bumblebees",1,1.15,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2016","Penteville_2016","Net","Bombus pascuorum","species","bumblebees",1,1.15,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2016","Penteville_2016","Net","Bombus pascuorum","species","bumblebees",1,1.15,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2016","Penteville_2016","Net","Bombus pascuorum","species","bumblebees",1,1.15,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2016","Penteville_2016","Net","Bombus pascuorum","species","bumblebees",1,1.15,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2016","Penteville_2016","Net","Bombus pascuorum","species","bumblebees",1,1.15,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2016","Penteville_2016","Net","Bombus pascuorum","species","bumblebees",1,1.15,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2016","Penteville_2016","Net","Bombus pascuorum","species","bumblebees",1,1.15,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2016","Penteville_2016","Net","Bombus pascuorum","species","bumblebees",1,1.15,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2016","Penteville_2016","Net","Bombus pascuorum","species","bumblebees",1,1.15,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2016","Penteville_2016","Net","Bombus pascuorum","species","bumblebees",1,1.15,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2016","Penteville_2016","Net","Bombus pascuorum","species","bumblebees",1,1.15,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2016","Penteville_2016","Net","Bombus pascuorum","species","bumblebees",1,1.15,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2016","Penteville_2016","Net","Bombus pascuorum","species","bumblebees",1,1.15,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2016","Penteville_2016","Net","Bombus pascuorum","species","bumblebees",1,1.15,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2016","Penteville_2016","Net","Bombus pascuorum","species","bumblebees",1,1.15,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2016","Penteville_2016","Net","Bombus pascuorum","species","bumblebees",1,1.15,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2016","Gasi_2016","Net","Bombus pratorum","species","bumblebees",1,6.5,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2016","Penteville_2016","Net","Bombus pratorum","species","bumblebees",1,1.15,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2016","Penteville_2016","Net","Bombus pratorum","species","bumblebees",1,1.15,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2016","Penteville_2016","Net","Bombus pratorum","species","bumblebees",1,1.15,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2016","Penteville_2016","Net","Bombus pratorum","species","bumblebees",1,1.15,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2016","Penteville_2016","Net","Bombus pratorum","species","bumblebees",1,1.15,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2016","Penteville_2016","Net","Bombus pratorum","species","bumblebees",1,1.15,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2016","Penteville_2016","Net","Bombus pratorum","species","bumblebees",1,1.15,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2016","Penteville_2016","Net","Bombus pratorum","species","bumblebees",1,1.15,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2016","Penteville_2016","Net","Bombus pratorum","species","bumblebees",1,1.15,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2016","Penteville_2016","Net","Bombus pratorum","species","bumblebees",1,1.15,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2016","Gasi_2016","Net","Bombus terrestris agg.","species complex","bumblebees",1,6.5,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2016","Gasi_2016","Net","Bombus terrestris agg.","species complex","bumblebees",1,6.5,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2016","Gasi_2016","Net","Bombus terrestris agg.","species complex","bumblebees",1,6.5,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2016","Gasi_2016","Net","Bombus terrestris agg.","species complex","bumblebees",1,6.5,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2016","Gasi_2016","Net","Bombus terrestris agg.","species complex","bumblebees",1,6.5,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2016","Gasi_2016","Net","Bombus terrestris agg.","species complex","bumblebees",1,6.5,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2016","Gasi_2016","Net","Bombus terrestris agg.","species complex","bumblebees",1,6.5,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2016","Gasi_2016","Net","Bombus terrestris agg.","species complex","bumblebees",1,6.5,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2016","Gasi_2016","Net","Bombus terrestris agg.","species complex","bumblebees",1,6.5,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2016","Gasi_2016","Net","Bombus terrestris agg.","species complex","bumblebees",1,6.5,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2016","Gasi_2016","Net","Bombus terrestris agg.","species complex","bumblebees",1,6.5,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2016","Gasi_2016","Net","Bombus terrestris agg.","species complex","bumblebees",1,6.5,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2016","Gasi_2016","Net","Bombus terrestris agg.","species complex","bumblebees",1,6.5,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2016","Gasi_2016","Net","Bombus terrestris agg.","species complex","bumblebees",1,6.5,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2016","Gasi_2016","Net","Bombus terrestris agg.","species complex","bumblebees",1,6.5,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2016","Gasi_2016","Net","Bombus terrestris agg.","species complex","bumblebees",1,6.5,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2016","Gasi_2016","Net","Bombus terrestris agg.","species complex","bumblebees",1,6.5,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2016","Gasi_2016","Net","Bombus terrestris agg.","species complex","bumblebees",1,6.5,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2016","Gasi_2016","Net","Bombus terrestris agg.","species complex","bumblebees",1,6.5,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2016","Gasi_2016","Net","Bombus terrestris agg.","species complex","bumblebees",1,6.5,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2016","Gasi_2016","Net","Bombus terrestris agg.","species complex","bumblebees",1,6.5,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2016","Gasi_2016","Net","Bombus terrestris agg.","species complex","bumblebees",1,6.5,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2016","Gasi_2016","Net","Bombus terrestris agg.","species complex","bumblebees",1,6.5,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2016","Gasi_2016","Net","Bombus terrestris agg.","species complex","bumblebees",1,6.5,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2016","Gasi_2016","Net","Bombus terrestris agg.","species complex","bumblebees",1,6.5,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2016","Penteville_2016","Net","Bombus terrestris agg.","species complex","bumblebees",1,1.15,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2016","Penteville_2016","Net","Bombus terrestris agg.","species complex","bumblebees",1,1.15,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2016","Penteville_2016","Net","Bombus terrestris agg.","species complex","bumblebees",1,1.15,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2016","Penteville_2016","Net","Bombus terrestris agg.","species complex","bumblebees",1,1.15,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2016","Penteville_2016","Net","Bombus terrestris agg.","species complex","bumblebees",1,1.15,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2016","Penteville_2016","Net","Bombus terrestris agg.","species complex","bumblebees",1,1.15,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2016","Penteville_2016","Net","Bombus terrestris agg.","species complex","bumblebees",1,1.15,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2016","Penteville_2016","Net","Bombus terrestris agg.","species complex","bumblebees",1,1.15,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2016","Penteville_2016","Net","Bombus terrestris agg.","species complex","bumblebees",1,1.15,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2016","Penteville_2016","Net","Bombus terrestris agg.","species complex","bumblebees",1,1.15,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2016","Penteville_2016","Net","Bombus terrestris agg.","species complex","bumblebees",1,1.15,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2016","Penteville_2016","Net","Bombus terrestris agg.","species complex","bumblebees",1,1.15,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2016","Penteville_2016","Net","Bombus terrestris agg.","species complex","bumblebees",1,1.15,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2016","Penteville_2016","Net","Bombus terrestris agg.","species complex","bumblebees",1,1.15,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2016","Penteville_2016","Net","Bombus terrestris agg.","species complex","bumblebees",1,1.15,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2016","Penteville_2016","Net","Bombus terrestris agg.","species complex","bumblebees",1,1.15,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2016","Penteville_2016","Net","Bombus terrestris agg.","species complex","bumblebees",1,1.15,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2016","Penteville_2016","Net","Bombus terrestris agg.","species complex","bumblebees",1,1.15,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2016","Penteville_2016","Net","Bombus terrestris agg.","species complex","bumblebees",1,1.15,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2016","Penteville_2016","Net","Bombus terrestris agg.","species complex","bumblebees",1,1.15,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2016","Penteville_2016","Net","Bombus terrestris agg.","species complex","bumblebees",1,1.15,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2016","Penteville_2016","Net","Bombus terrestris agg.","species complex","bumblebees",1,1.15,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2016","Penteville_2016","Net","Bombus terrestris agg.","species complex","bumblebees",1,1.15,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2016","Penteville_2016","Net","Bombus terrestris agg.","species complex","bumblebees",1,1.15,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2016","Penteville_2016","Net","Bombus terrestris agg.","species complex","bumblebees",1,1.15,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2016","Penteville_2016","Net","Bombus terrestris agg.","species complex","bumblebees",1,1.15,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2016","Penteville_2016","Net","Bombus terrestris agg.","species complex","bumblebees",1,1.15,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2016","Penteville_2016","Net","Bombus terrestris agg.","species complex","bumblebees",1,1.15,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2016","Penteville_2016","Net","Bombus terrestris agg.","species complex","bumblebees",1,1.15,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2016","Penteville_2016","Net","Bombus terrestris agg.","species complex","bumblebees",1,1.15,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2016","Penteville_2016","Net","Bombus terrestris agg.","species complex","bumblebees",1,1.15,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2016","Penteville_2016","Net","Bombus terrestris agg.","species complex","bumblebees",1,1.15,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2016","Penteville_2016","Net","Bombus terrestris agg.","species complex","bumblebees",1,1.15,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2016","Penteville_2016","Net","Bombus terrestris agg.","species complex","bumblebees",1,1.15,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2016","Penteville_2016","Net","Bombus terrestris agg.","species complex","bumblebees",1,1.15,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2016","Penteville_2016","Net","Chelostoma florisomne","species","other_wild_bees",1,1.15,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2016","Penteville_2016","Net","Chelostoma florisomne","species","other_wild_bees",1,1.15,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2016","Penteville_2016","Net","Chelostoma florisomne","species","other_wild_bees",1,1.15,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2016","Penteville_2016","Net","Chelostoma florisomne","species","other_wild_bees",1,1.15,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2016","Penteville_2016","Net","Chelostoma florisomne","species","other_wild_bees",1,1.15,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2016","Penteville_2016","Net","Chelostoma florisomne","species","other_wild_bees",1,1.15,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2016","Penteville_2016","Net","Heriades truncorum","species","other_wild_bees",1,1.15,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2016","Penteville_2016","Net","Heriades truncorum","species","other_wild_bees",1,1.15,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2016","Penteville_2016","Net","Heriades truncorum","species","other_wild_bees",1,1.15,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2016","Penteville_2016","Net","Heriades truncorum","species","other_wild_bees",1,1.15,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2016","Penteville_2016","Net","Lasioglossum calceatum","species","other_wild_bees",1,1.15,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2016","Penteville_2016","Net","Lasioglossum calceatum","species","other_wild_bees",1,1.15,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2016","Penteville_2016","Net","Lasioglossum calceatum","species","other_wild_bees",1,1.15,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2016","Penteville_2016","Net","Lasioglossum calceatum","species","other_wild_bees",1,1.15,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2016","Penteville_2016","Net","Lasioglossum calceatum","species","other_wild_bees",1,1.15,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2016","Penteville_2016","Net","Lasioglossum calceatum","species","other_wild_bees",1,1.15,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2016","Penteville_2016","Net","Lasioglossum calceatum","species","other_wild_bees",1,1.15,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2016","Penteville_2016","Net","Lasioglossum calceatum","species","other_wild_bees",1,1.15,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2016","Penteville_2016","Net","Lasioglossum calceatum","species","other_wild_bees",1,1.15,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2016","Penteville_2016","Net","Lasioglossum calceatum","species","other_wild_bees",1,1.15,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2016","Penteville_2016","Net","Lasioglossum calceatum","species","other_wild_bees",1,1.15,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2016","Penteville_2016","Net","Lasioglossum calceatum","species","other_wild_bees",1,1.15,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2016","Penteville_2016","Net","Lasioglossum calceatum","species","other_wild_bees",1,1.15,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2016","Penteville_2016","Net","Lasioglossum calceatum","species","other_wild_bees",1,1.15,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2016","Penteville_2016","Net","Lasioglossum calceatum","species","other_wild_bees",1,1.15,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2016","Penteville_2016","Net","Lasioglossum calceatum","species","other_wild_bees",1,1.15,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2016","Penteville_2016","Net","Lasioglossum lativentre","species","other_wild_bees",1,1.15,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2016","Gasi_2016","Net","Lasioglossum leucozonium","species","other_wild_bees",1,6.5,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2016","Gasi_2016","Net","Lasioglossum leucozonium","species","other_wild_bees",1,6.5,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2016","Gasi_2016","Net","Lasioglossum leucozonium","species","other_wild_bees",1,6.5,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2016","Gasi_2016","Net","Lasioglossum leucozonium","species","other_wild_bees",1,6.5,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2016","Gasi_2016","Net","Lasioglossum leucozonium","species","other_wild_bees",1,6.5,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2016","Gasi_2016","Net","Lasioglossum leucozonium","species","other_wild_bees",1,6.5,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2016","Penteville_2016","Net","Lasioglossum leucozonium","species","other_wild_bees",1,1.15,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2016","Penteville_2016","Net","Lasioglossum leucozonium","species","other_wild_bees",1,1.15,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2016","Penteville_2016","Net","Lasioglossum leucozonium","species","other_wild_bees",1,1.15,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2016","Penteville_2016","Net","Lasioglossum leucozonium","species","other_wild_bees",1,1.15,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2016","Penteville_2016","Net","Lasioglossum leucozonium","species","other_wild_bees",1,1.15,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2016","Penteville_2016","Net","Lasioglossum leucozonium","species","other_wild_bees",1,1.15,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2016","Gasi_2016","Net","Lasioglossum malachurum","species","other_wild_bees",1,6.5,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2016","Gasi_2016","Net","Lasioglossum morio","species","other_wild_bees",1,6.5,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2016","Penteville_2016","Net","Lasioglossum pauxillum","species","other_wild_bees",1,1.15,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2016","Gasi_2016","Net","Lasioglossum villosulum","species","other_wild_bees",1,6.5,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2016","Gasi_2016","Net","Lasioglossum villosulum","species","other_wild_bees",1,6.5,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2016","Gasi_2016","Net","Lasioglossum villosulum","species","other_wild_bees",1,6.5,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2016","Gasi_2016","Net","Lasioglossum villosulum","species","other_wild_bees",1,6.5,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2016","Gasi_2016","Net","Lasioglossum villosulum","species","other_wild_bees",1,6.5,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2016","Gasi_2016","Net","Lasioglossum villosulum","species","other_wild_bees",1,6.5,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2016","Gasi_2016","Net","Lasioglossum villosulum","species","other_wild_bees",1,6.5,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2016","Gasi_2016","Net","Lasioglossum villosulum","species","other_wild_bees",1,6.5,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2016","Gasi_2016","Net","Lasioglossum villosulum","species","other_wild_bees",1,6.5,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2016","Gasi_2016","Net","Lasioglossum villosulum","species","other_wild_bees",1,6.5,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2016","Penteville_2016","Net","Lasioglossum villosulum","species","other_wild_bees",1,1.15,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2016","Penteville_2016","Net","Lasioglossum villosulum","species","other_wild_bees",1,1.15,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2016","Penteville_2016","Net","Lasioglossum villosulum","species","other_wild_bees",1,1.15,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2016","Penteville_2016","Net","Lasioglossum villosulum","species","other_wild_bees",1,1.15,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2016","Penteville_2016","Net","Lasioglossum zonulum","species","other_wild_bees",1,1.15,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2016","Penteville_2016","Net","Lasioglossum zonulum","species","other_wild_bees",1,1.15,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2016","Penteville_2016","Net","Lasioglossum zonulum","species","other_wild_bees",1,1.15,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2016","Penteville_2016","Net","Lasioglossum zonulum","species","other_wild_bees",1,1.15,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2016","Penteville_2016","Net","Lasioglossum zonulum","species","other_wild_bees",1,1.15,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2016","Penteville_2016","Net","Lasioglossum zonulum","species","other_wild_bees",1,1.15,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2016","Penteville_2016","Net","Lasioglossum zonulum","species","other_wild_bees",1,1.15,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2016","Penteville_2016","Net","Lasioglossum zonulum","species","other_wild_bees",1,1.15,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2016","Penteville_2016","Net","Lasioglossum zonulum","species","other_wild_bees",1,1.15,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2016","Penteville_2016","Net","Lasioglossum zonulum","species","other_wild_bees",1,1.15,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2016","Penteville_2016","Net","Lasioglossum zonulum","species","other_wild_bees",1,1.15,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2016","Penteville_2016","Net","Lasioglossum zonulum","species","other_wild_bees",1,1.15,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2016","Penteville_2016","Net","Lasioglossum zonulum","species","other_wild_bees",1,1.15,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2016","Penteville_2016","Net","Lasioglossum zonulum","species","other_wild_bees",1,1.15,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2016","Penteville_2016","Net","Lasioglossum zonulum","species","other_wild_bees",1,1.15,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2016","Penteville_2016","Net","Lasioglossum zonulum","species","other_wild_bees",1,1.15,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2016","Penteville_2016","Net","Lasioglossum zonulum","species","other_wild_bees",1,1.15,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2016","Penteville_2016","Net","Lasioglossum zonulum","species","other_wild_bees",1,1.15,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2016","Penteville_2016","Net","Lasioglossum zonulum","species","other_wild_bees",1,1.15,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2016","Penteville_2016","Net","Lasioglossum zonulum","species","other_wild_bees",1,1.15,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2016","Penteville_2016","Net","Lasioglossum zonulum","species","other_wild_bees",1,1.15,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2016","Penteville_2016","Net","Lasioglossum zonulum","species","other_wild_bees",1,1.15,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2016","Penteville_2016","Net","Lasioglossum zonulum","species","other_wild_bees",1,1.15,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2016","Penteville_2016","Net","Lasioglossum zonulum","species","other_wild_bees",1,1.15,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2016","Penteville_2016","Net","Lasioglossum zonulum","species","other_wild_bees",1,1.15,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2016","Penteville_2016","Net","Lasioglossum zonulum","species","other_wild_bees",1,1.15,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2016","Penteville_2016","Net","Lasioglossum zonulum","species","other_wild_bees",1,1.15,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2016","Penteville_2016","Net","Lasioglossum zonulum","species","other_wild_bees",1,1.15,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2016","Penteville_2016","Net","Lasioglossum zonulum","species","other_wild_bees",1,1.15,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2016","Penteville_2016","Net","Lasioglossum zonulum","species","other_wild_bees",1,1.15,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2016","Penteville_2016","Net","Lasioglossum zonulum","species","other_wild_bees",1,1.15,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2016","Penteville_2016","Net","Lasioglossum zonulum","species","other_wild_bees",1,1.15,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2016","Penteville_2016","Net","Lasioglossum zonulum","species","other_wild_bees",1,1.15,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2016","Penteville_2016","Net","Lasioglossum zonulum","species","other_wild_bees",1,1.15,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2016","Penteville_2016","Net","Lasioglossum zonulum","species","other_wild_bees",1,1.15,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2016","Penteville_2016","Net","Lasioglossum zonulum","species","other_wild_bees",1,1.15,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2016","Penteville_2016","Net","Lasioglossum zonulum","species","other_wild_bees",1,1.15,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2016","Penteville_2016","Net","Lasioglossum zonulum","species","other_wild_bees",1,1.15,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2016","Penteville_2016","Net","Lasioglossum zonulum","species","other_wild_bees",1,1.15,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2016","Penteville_2016","Net","Lasioglossum zonulum","species","other_wild_bees",1,1.15,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2016","Penteville_2016","Net","Lasioglossum zonulum","species","other_wild_bees",1,1.15,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2016","Penteville_2016","Net","Lasioglossum zonulum","species","other_wild_bees",1,1.15,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2016","Penteville_2016","Net","Lasioglossum zonulum","species","other_wild_bees",1,1.15,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2016","Penteville_2016","Net","Megachile centuncularis","species","other_wild_bees",1,1.15,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2016","Penteville_2016","Net","Megachile centuncularis","species","other_wild_bees",1,1.15,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2016","Penteville_2016","Net","Megachile centuncularis","species","other_wild_bees",1,1.15,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2016","Gasi_2016","Net","Nomada goodeniana","species","other_wild_bees",1,6.5,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2016","Gasi_2016","Net","Nomada lathburiana","species","other_wild_bees",1,6.5,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2016","Penteville_2016","Net","Nomada ruficornis","species","other_wild_bees",1,1.15,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2016","Penteville_2016","Net","Nomada ruficornis","species","other_wild_bees",1,1.15,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2016","Penteville_2016","Net","Nomada ruficornis","species","other_wild_bees",1,1.15,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2016","Penteville_2016","Net","Nomada ruficornis","species","other_wild_bees",1,1.15,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2016","Penteville_2016","Net","Osmia bicornis","species","other_wild_bees",1,1.15,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2016","Penteville_2016","Net","Osmia bicornis","species","other_wild_bees",1,1.15,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2016","Penteville_2016","Net","Osmia bicornis","species","other_wild_bees",1,1.15,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2016","Penteville_2016","Net","Osmia bicornis","species","other_wild_bees",1,1.15,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2016","Penteville_2016","Net","Osmia bicornis","species","other_wild_bees",1,1.15,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2016","Penteville_2016","Net","Osmia bicornis","species","other_wild_bees",1,1.15,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2016","Penteville_2016","Net","Osmia bicornis","species","other_wild_bees",1,1.15,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2016","Penteville_2016","Net","Osmia cornuta","species","other_wild_bees",1,1.15,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2016","Penteville_2016","Net","Osmia cornuta","species","other_wild_bees",1,1.15,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2016","Penteville_2016","Net","Osmia leaiana","species","other_wild_bees",1,1.15,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2016","Penteville_2016","Net","Osmia niveata","species","other_wild_bees",1,1.15,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2016","Penteville_2016","Net","Osmia niveata","species","other_wild_bees",1,1.15,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2016","Penteville_2016","Net","Osmia niveata","species","other_wild_bees",1,1.15,840,NA,NA,NA
"Nicolas_J_Vereecken_Malus_domestica_Belgium_2016","Penteville_2016","Net","Sphecodes monilicornis","species","other_wild_bees",1,1.15,840,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Schiepers","Net","Andrena bicolor","species","other_wild_bees",1,6.79,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Pirmez","Net","Andrena chrysosceles","species","other_wild_bees",1,2.15,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Pirmez","Net","Andrena chrysosceles","species","other_wild_bees",1,2.15,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Schiepers","Net","Andrena chrysosceles","species","other_wild_bees",1,6.79,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Schiepers","Net","Andrena chrysosceles","species","other_wild_bees",1,6.79,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Flemalle","Net","Andrena cineraria","species","other_wild_bees",1,3.62,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Flemalle","Net","Andrena cineraria","species","other_wild_bees",1,3.62,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Flemalle","Net","Andrena cineraria","species","other_wild_bees",1,3.62,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Flemalle","Net","Andrena cineraria","species","other_wild_bees",1,3.62,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Flemalle","Net","Andrena cineraria","species","other_wild_bees",1,3.62,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Flemalle","Net","Andrena cineraria","species","other_wild_bees",1,3.62,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Flemalle","Net","Andrena cineraria","species","other_wild_bees",1,3.62,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Flemalle","Net","Andrena cineraria","species","other_wild_bees",1,3.62,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Flemalle","Net","Andrena cineraria","species","other_wild_bees",1,3.62,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Flemalle","Net","Andrena cineraria","species","other_wild_bees",1,3.62,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Flemalle","Net","Andrena cineraria","species","other_wild_bees",1,3.62,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Freres_Delvaux","Net","Andrena cineraria","species","other_wild_bees",1,11.84,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Freres_Delvaux","Net","Andrena cineraria","species","other_wild_bees",1,11.84,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Freres_Delvaux","Net","Andrena cineraria","species","other_wild_bees",1,11.84,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Freres_Delvaux","Net","Andrena cineraria","species","other_wild_bees",1,11.84,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Freres_Delvaux","Net","Andrena cineraria","species","other_wild_bees",1,11.84,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Freres_Delvaux","Net","Andrena cineraria","species","other_wild_bees",1,11.84,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Freres_Delvaux","Net","Andrena cineraria","species","other_wild_bees",1,11.84,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Freres_Delvaux","Net","Andrena cineraria","species","other_wild_bees",1,11.84,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Freres_Delvaux","Net","Andrena cineraria","species","other_wild_bees",1,11.84,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Pirmez","Net","Andrena cineraria","species","other_wild_bees",1,2.15,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Pirmez","Net","Andrena cineraria","species","other_wild_bees",1,2.15,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Pirmez","Net","Andrena cineraria","species","other_wild_bees",1,2.15,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Pirmez","Net","Andrena cineraria","species","other_wild_bees",1,2.15,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Pirmez","Net","Andrena cineraria","species","other_wild_bees",1,2.15,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Pirmez","Net","Andrena cineraria","species","other_wild_bees",1,2.15,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Pirmez","Net","Andrena cineraria","species","other_wild_bees",1,2.15,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Pirmez","Net","Andrena cineraria","species","other_wild_bees",1,2.15,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Pirmez","Net","Andrena cineraria","species","other_wild_bees",1,2.15,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Pirmez","Net","Andrena cineraria","species","other_wild_bees",1,2.15,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Pirmez","Net","Andrena cineraria","species","other_wild_bees",1,2.15,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Pirmez","Net","Andrena cineraria","species","other_wild_bees",1,2.15,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Pirmez","Net","Andrena cineraria","species","other_wild_bees",1,2.15,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Pirmez","Net","Andrena cineraria","species","other_wild_bees",1,2.15,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Pirmez","Net","Andrena cineraria","species","other_wild_bees",1,2.15,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Pirmez","Net","Andrena cineraria","species","other_wild_bees",1,2.15,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Pirmez","Net","Andrena cineraria","species","other_wild_bees",1,2.15,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Pirmez","Net","Andrena cineraria","species","other_wild_bees",1,2.15,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Pirmez","Net","Andrena cineraria","species","other_wild_bees",1,2.15,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Pirmez","Net","Andrena cineraria","species","other_wild_bees",1,2.15,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Pirmez","Net","Andrena cineraria","species","other_wild_bees",1,2.15,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Pirmez","Net","Andrena cineraria","species","other_wild_bees",1,2.15,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Pirmez","Net","Andrena cineraria","species","other_wild_bees",1,2.15,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Pirmez","Net","Andrena cineraria","species","other_wild_bees",1,2.15,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Pirmez","Net","Andrena cineraria","species","other_wild_bees",1,2.15,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Pirmez","Net","Andrena cineraria","species","other_wild_bees",1,2.15,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Schiepers","Net","Andrena cineraria","species","other_wild_bees",1,6.79,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Flemalle","Net","Andrena dorsata","species","other_wild_bees",1,3.62,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Flemalle","Net","Andrena dorsata","species","other_wild_bees",1,3.62,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Flemalle","Net","Andrena dorsata","species","other_wild_bees",1,3.62,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Freres_Delvaux","Net","Andrena dorsata","species","other_wild_bees",1,11.84,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Schiepers","Net","Andrena dorsata","species","other_wild_bees",1,6.79,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Flemalle","Net","Andrena flavipes","species","other_wild_bees",1,3.62,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Flemalle","Net","Andrena flavipes","species","other_wild_bees",1,3.62,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Flemalle","Net","Andrena flavipes","species","other_wild_bees",1,3.62,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Freres_Delvaux","Net","Andrena flavipes","species","other_wild_bees",1,11.84,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Pirmez","Net","Andrena flavipes","species","other_wild_bees",1,2.15,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Pirmez","Net","Andrena flavipes","species","other_wild_bees",1,2.15,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Pirmez","Net","Andrena flavipes","species","other_wild_bees",1,2.15,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Pirmez","Net","Andrena flavipes","species","other_wild_bees",1,2.15,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Pirmez","Net","Andrena flavipes","species","other_wild_bees",1,2.15,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Pirmez","Net","Andrena flavipes","species","other_wild_bees",1,2.15,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Pirmez","Net","Andrena flavipes","species","other_wild_bees",1,2.15,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Pirmez","Net","Andrena flavipes","species","other_wild_bees",1,2.15,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Pirmez","Net","Andrena flavipes","species","other_wild_bees",1,2.15,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Pirmez","Net","Andrena flavipes","species","other_wild_bees",1,2.15,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Pirmez","Net","Andrena flavipes","species","other_wild_bees",1,2.15,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Schiepers","Net","Andrena flavipes","species","other_wild_bees",1,6.79,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Schiepers","Net","Andrena flavipes","species","other_wild_bees",1,6.79,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Schiepers","Net","Andrena flavipes","species","other_wild_bees",1,6.79,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Schiepers","Net","Andrena flavipes","species","other_wild_bees",1,6.79,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Schiepers","Net","Andrena flavipes","species","other_wild_bees",1,6.79,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Freres_Delvaux","Net","Andrena fulva","species","other_wild_bees",1,11.84,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Flemalle","Net","Andrena gravida","species","other_wild_bees",1,3.62,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Flemalle","Net","Andrena gravida","species","other_wild_bees",1,3.62,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Flemalle","Net","Andrena gravida","species","other_wild_bees",1,3.62,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Flemalle","Net","Andrena gravida","species","other_wild_bees",1,3.62,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Freres_Delvaux","Net","Andrena gravida","species","other_wild_bees",1,11.84,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Freres_Delvaux","Net","Andrena gravida","species","other_wild_bees",1,11.84,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Pirmez","Net","Andrena gravida","species","other_wild_bees",1,2.15,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Pirmez","Net","Andrena gravida","species","other_wild_bees",1,2.15,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Schiepers","Net","Andrena gravida","species","other_wild_bees",1,6.79,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Flemalle","Net","Andrena haemorrhoa","species","other_wild_bees",1,3.62,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Schiepers","Net","Andrena haemorrhoa","species","other_wild_bees",1,6.79,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Schiepers","Net","Andrena haemorrhoa","species","other_wild_bees",1,6.79,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Freres_Delvaux","Net","Andrena scotica","species","other_wild_bees",1,11.84,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Freres_Delvaux","Net","Andrena scotica","species","other_wild_bees",1,11.84,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Freres_Delvaux","Net","Andrena scotica","species","other_wild_bees",1,11.84,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Freres_Delvaux","Net","Andrena scotica","species","other_wild_bees",1,11.84,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Freres_Delvaux","Net","Andrena scotica","species","other_wild_bees",1,11.84,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Freres_Delvaux","Net","Andrena scotica","species","other_wild_bees",1,11.84,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Freres_Delvaux","Net","Andrena scotica","species","other_wild_bees",1,11.84,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Freres_Delvaux","Net","Andrena scotica","species","other_wild_bees",1,11.84,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Pirmez","Net","Andrena scotica","species","other_wild_bees",1,2.15,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Pirmez","Net","Andrena scotica","species","other_wild_bees",1,2.15,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Flemalle","Net","Apis mellifera","species","honeybees",1,3.62,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Flemalle","Net","Apis mellifera","species","honeybees",1,3.62,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Flemalle","Net","Apis mellifera","species","honeybees",1,3.62,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Flemalle","Net","Apis mellifera","species","honeybees",1,3.62,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Flemalle","Net","Apis mellifera","species","honeybees",1,3.62,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Flemalle","Net","Apis mellifera","species","honeybees",1,3.62,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Flemalle","Net","Apis mellifera","species","honeybees",1,3.62,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Flemalle","Net","Apis mellifera","species","honeybees",1,3.62,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Flemalle","Net","Apis mellifera","species","honeybees",1,3.62,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Flemalle","Net","Apis mellifera","species","honeybees",1,3.62,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Flemalle","Net","Apis mellifera","species","honeybees",1,3.62,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Flemalle","Net","Apis mellifera","species","honeybees",1,3.62,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Flemalle","Net","Apis mellifera","species","honeybees",1,3.62,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Flemalle","Net","Apis mellifera","species","honeybees",1,3.62,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Flemalle","Net","Apis mellifera","species","honeybees",1,3.62,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Flemalle","Net","Apis mellifera","species","honeybees",1,3.62,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Flemalle","Net","Apis mellifera","species","honeybees",1,3.62,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Flemalle","Net","Apis mellifera","species","honeybees",1,3.62,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Flemalle","Net","Apis mellifera","species","honeybees",1,3.62,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Flemalle","Net","Apis mellifera","species","honeybees",1,3.62,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Flemalle","Net","Apis mellifera","species","honeybees",1,3.62,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Flemalle","Net","Apis mellifera","species","honeybees",1,3.62,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Flemalle","Net","Apis mellifera","species","honeybees",1,3.62,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Flemalle","Net","Apis mellifera","species","honeybees",1,3.62,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Flemalle","Net","Apis mellifera","species","honeybees",1,3.62,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Flemalle","Net","Apis mellifera","species","honeybees",1,3.62,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Flemalle","Net","Apis mellifera","species","honeybees",1,3.62,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Flemalle","Net","Apis mellifera","species","honeybees",1,3.62,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Flemalle","Net","Apis mellifera","species","honeybees",1,3.62,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Flemalle","Net","Apis mellifera","species","honeybees",1,3.62,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Flemalle","Net","Apis mellifera","species","honeybees",1,3.62,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Flemalle","Net","Apis mellifera","species","honeybees",1,3.62,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Flemalle","Net","Apis mellifera","species","honeybees",1,3.62,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Flemalle","Net","Apis mellifera","species","honeybees",1,3.62,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Flemalle","Net","Apis mellifera","species","honeybees",1,3.62,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Flemalle","Net","Apis mellifera","species","honeybees",1,3.62,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Flemalle","Net","Apis mellifera","species","honeybees",1,3.62,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Flemalle","Net","Apis mellifera","species","honeybees",1,3.62,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Flemalle","Net","Apis mellifera","species","honeybees",1,3.62,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Flemalle","Net","Apis mellifera","species","honeybees",1,3.62,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Flemalle","Net","Apis mellifera","species","honeybees",1,3.62,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Flemalle","Net","Apis mellifera","species","honeybees",1,3.62,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Flemalle","Net","Apis mellifera","species","honeybees",1,3.62,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Flemalle","Net","Apis mellifera","species","honeybees",1,3.62,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Flemalle","Net","Apis mellifera","species","honeybees",1,3.62,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Flemalle","Net","Apis mellifera","species","honeybees",1,3.62,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Flemalle","Net","Apis mellifera","species","honeybees",1,3.62,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Flemalle","Net","Apis mellifera","species","honeybees",1,3.62,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Flemalle","Net","Apis mellifera","species","honeybees",1,3.62,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Flemalle","Net","Apis mellifera","species","honeybees",1,3.62,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Flemalle","Net","Apis mellifera","species","honeybees",1,3.62,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Flemalle","Net","Apis mellifera","species","honeybees",1,3.62,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Flemalle","Net","Apis mellifera","species","honeybees",1,3.62,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Flemalle","Net","Apis mellifera","species","honeybees",1,3.62,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Flemalle","Net","Apis mellifera","species","honeybees",1,3.62,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Flemalle","Net","Apis mellifera","species","honeybees",1,3.62,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Flemalle","Net","Apis mellifera","species","honeybees",1,3.62,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Flemalle","Net","Apis mellifera","species","honeybees",1,3.62,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Flemalle","Net","Apis mellifera","species","honeybees",1,3.62,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Flemalle","Net","Apis mellifera","species","honeybees",1,3.62,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Flemalle","Net","Apis mellifera","species","honeybees",1,3.62,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Flemalle","Net","Apis mellifera","species","honeybees",1,3.62,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Flemalle","Net","Apis mellifera","species","honeybees",1,3.62,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Flemalle","Net","Apis mellifera","species","honeybees",1,3.62,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Flemalle","Net","Apis mellifera","species","honeybees",1,3.62,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Flemalle","Net","Apis mellifera","species","honeybees",1,3.62,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Flemalle","Net","Apis mellifera","species","honeybees",1,3.62,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Flemalle","Net","Apis mellifera","species","honeybees",1,3.62,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Flemalle","Net","Apis mellifera","species","honeybees",1,3.62,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Flemalle","Net","Apis mellifera","species","honeybees",1,3.62,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Flemalle","Net","Apis mellifera","species","honeybees",1,3.62,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Flemalle","Net","Apis mellifera","species","honeybees",1,3.62,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Flemalle","Net","Apis mellifera","species","honeybees",1,3.62,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Flemalle","Net","Apis mellifera","species","honeybees",1,3.62,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Flemalle","Net","Apis mellifera","species","honeybees",1,3.62,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Flemalle","Net","Apis mellifera","species","honeybees",1,3.62,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Flemalle","Net","Apis mellifera","species","honeybees",1,3.62,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Flemalle","Net","Apis mellifera","species","honeybees",1,3.62,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Flemalle","Net","Apis mellifera","species","honeybees",1,3.62,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Freres_Delvaux","Net","Apis mellifera","species","honeybees",1,11.84,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Freres_Delvaux","Net","Apis mellifera","species","honeybees",1,11.84,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Freres_Delvaux","Net","Apis mellifera","species","honeybees",1,11.84,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Freres_Delvaux","Net","Apis mellifera","species","honeybees",1,11.84,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Freres_Delvaux","Net","Apis mellifera","species","honeybees",1,11.84,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Freres_Delvaux","Net","Apis mellifera","species","honeybees",1,11.84,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Freres_Delvaux","Net","Apis mellifera","species","honeybees",1,11.84,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Freres_Delvaux","Net","Apis mellifera","species","honeybees",1,11.84,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Freres_Delvaux","Net","Apis mellifera","species","honeybees",1,11.84,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Freres_Delvaux","Net","Apis mellifera","species","honeybees",1,11.84,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Freres_Delvaux","Net","Apis mellifera","species","honeybees",1,11.84,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Freres_Delvaux","Net","Apis mellifera","species","honeybees",1,11.84,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Freres_Delvaux","Net","Apis mellifera","species","honeybees",1,11.84,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Freres_Delvaux","Net","Apis mellifera","species","honeybees",1,11.84,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Freres_Delvaux","Net","Apis mellifera","species","honeybees",1,11.84,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Freres_Delvaux","Net","Apis mellifera","species","honeybees",1,11.84,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Freres_Delvaux","Net","Apis mellifera","species","honeybees",1,11.84,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Freres_Delvaux","Net","Apis mellifera","species","honeybees",1,11.84,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Freres_Delvaux","Net","Apis mellifera","species","honeybees",1,11.84,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Freres_Delvaux","Net","Apis mellifera","species","honeybees",1,11.84,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Freres_Delvaux","Net","Apis mellifera","species","honeybees",1,11.84,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Freres_Delvaux","Net","Apis mellifera","species","honeybees",1,11.84,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Freres_Delvaux","Net","Apis mellifera","species","honeybees",1,11.84,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Freres_Delvaux","Net","Apis mellifera","species","honeybees",1,11.84,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Freres_Delvaux","Net","Apis mellifera","species","honeybees",1,11.84,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Freres_Delvaux","Net","Apis mellifera","species","honeybees",1,11.84,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Freres_Delvaux","Net","Apis mellifera","species","honeybees",1,11.84,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Freres_Delvaux","Net","Apis mellifera","species","honeybees",1,11.84,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Freres_Delvaux","Net","Apis mellifera","species","honeybees",1,11.84,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Freres_Delvaux","Net","Apis mellifera","species","honeybees",1,11.84,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Freres_Delvaux","Net","Apis mellifera","species","honeybees",1,11.84,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Freres_Delvaux","Net","Apis mellifera","species","honeybees",1,11.84,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Freres_Delvaux","Net","Apis mellifera","species","honeybees",1,11.84,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Freres_Delvaux","Net","Apis mellifera","species","honeybees",1,11.84,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Freres_Delvaux","Net","Apis mellifera","species","honeybees",1,11.84,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Freres_Delvaux","Net","Apis mellifera","species","honeybees",1,11.84,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Freres_Delvaux","Net","Apis mellifera","species","honeybees",1,11.84,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Freres_Delvaux","Net","Apis mellifera","species","honeybees",1,11.84,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Freres_Delvaux","Net","Apis mellifera","species","honeybees",1,11.84,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Freres_Delvaux","Net","Apis mellifera","species","honeybees",1,11.84,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Freres_Delvaux","Net","Apis mellifera","species","honeybees",1,11.84,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Freres_Delvaux","Net","Apis mellifera","species","honeybees",1,11.84,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Freres_Delvaux","Net","Apis mellifera","species","honeybees",1,11.84,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Freres_Delvaux","Net","Apis mellifera","species","honeybees",1,11.84,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Freres_Delvaux","Net","Apis mellifera","species","honeybees",1,11.84,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Freres_Delvaux","Net","Apis mellifera","species","honeybees",1,11.84,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Freres_Delvaux","Net","Apis mellifera","species","honeybees",1,11.84,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Freres_Delvaux","Net","Apis mellifera","species","honeybees",1,11.84,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Freres_Delvaux","Net","Apis mellifera","species","honeybees",1,11.84,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Freres_Delvaux","Net","Apis mellifera","species","honeybees",1,11.84,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Freres_Delvaux","Net","Apis mellifera","species","honeybees",1,11.84,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Freres_Delvaux","Net","Apis mellifera","species","honeybees",1,11.84,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Freres_Delvaux","Net","Apis mellifera","species","honeybees",1,11.84,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Freres_Delvaux","Net","Apis mellifera","species","honeybees",1,11.84,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Freres_Delvaux","Net","Apis mellifera","species","honeybees",1,11.84,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Freres_Delvaux","Net","Apis mellifera","species","honeybees",1,11.84,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Freres_Delvaux","Net","Apis mellifera","species","honeybees",1,11.84,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Freres_Delvaux","Net","Apis mellifera","species","honeybees",1,11.84,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Freres_Delvaux","Net","Apis mellifera","species","honeybees",1,11.84,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Freres_Delvaux","Net","Apis mellifera","species","honeybees",1,11.84,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Freres_Delvaux","Net","Apis mellifera","species","honeybees",1,11.84,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Freres_Delvaux","Net","Apis mellifera","species","honeybees",1,11.84,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Freres_Delvaux","Net","Apis mellifera","species","honeybees",1,11.84,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Freres_Delvaux","Net","Apis mellifera","species","honeybees",1,11.84,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Freres_Delvaux","Net","Apis mellifera","species","honeybees",1,11.84,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Freres_Delvaux","Net","Apis mellifera","species","honeybees",1,11.84,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Freres_Delvaux","Net","Apis mellifera","species","honeybees",1,11.84,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Freres_Delvaux","Net","Apis mellifera","species","honeybees",1,11.84,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Freres_Delvaux","Net","Apis mellifera","species","honeybees",1,11.84,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Freres_Delvaux","Net","Apis mellifera","species","honeybees",1,11.84,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Freres_Delvaux","Net","Apis mellifera","species","honeybees",1,11.84,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Freres_Delvaux","Net","Apis mellifera","species","honeybees",1,11.84,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Freres_Delvaux","Net","Apis mellifera","species","honeybees",1,11.84,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Freres_Delvaux","Net","Apis mellifera","species","honeybees",1,11.84,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Freres_Delvaux","Net","Apis mellifera","species","honeybees",1,11.84,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Freres_Delvaux","Net","Apis mellifera","species","honeybees",1,11.84,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Freres_Delvaux","Net","Apis mellifera","species","honeybees",1,11.84,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Freres_Delvaux","Net","Apis mellifera","species","honeybees",1,11.84,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Freres_Delvaux","Net","Apis mellifera","species","honeybees",1,11.84,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Freres_Delvaux","Net","Apis mellifera","species","honeybees",1,11.84,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Freres_Delvaux","Net","Apis mellifera","species","honeybees",1,11.84,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Freres_Delvaux","Net","Apis mellifera","species","honeybees",1,11.84,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Pirmez","Net","Apis mellifera","species","honeybees",1,2.15,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Pirmez","Net","Apis mellifera","species","honeybees",1,2.15,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Pirmez","Net","Apis mellifera","species","honeybees",1,2.15,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Pirmez","Net","Apis mellifera","species","honeybees",1,2.15,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Pirmez","Net","Apis mellifera","species","honeybees",1,2.15,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Pirmez","Net","Apis mellifera","species","honeybees",1,2.15,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Pirmez","Net","Apis mellifera","species","honeybees",1,2.15,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Pirmez","Net","Apis mellifera","species","honeybees",1,2.15,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Pirmez","Net","Apis mellifera","species","honeybees",1,2.15,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Pirmez","Net","Apis mellifera","species","honeybees",1,2.15,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Pirmez","Net","Apis mellifera","species","honeybees",1,2.15,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Pirmez","Net","Apis mellifera","species","honeybees",1,2.15,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Pirmez","Net","Apis mellifera","species","honeybees",1,2.15,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Pirmez","Net","Apis mellifera","species","honeybees",1,2.15,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Pirmez","Net","Apis mellifera","species","honeybees",1,2.15,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Pirmez","Net","Apis mellifera","species","honeybees",1,2.15,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Pirmez","Net","Apis mellifera","species","honeybees",1,2.15,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Pirmez","Net","Apis mellifera","species","honeybees",1,2.15,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Pirmez","Net","Apis mellifera","species","honeybees",1,2.15,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Pirmez","Net","Apis mellifera","species","honeybees",1,2.15,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Pirmez","Net","Apis mellifera","species","honeybees",1,2.15,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Pirmez","Net","Apis mellifera","species","honeybees",1,2.15,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Pirmez","Net","Apis mellifera","species","honeybees",1,2.15,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Pirmez","Net","Apis mellifera","species","honeybees",1,2.15,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Pirmez","Net","Apis mellifera","species","honeybees",1,2.15,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Pirmez","Net","Apis mellifera","species","honeybees",1,2.15,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Pirmez","Net","Apis mellifera","species","honeybees",1,2.15,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Pirmez","Net","Apis mellifera","species","honeybees",1,2.15,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Pirmez","Net","Apis mellifera","species","honeybees",1,2.15,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Pirmez","Net","Apis mellifera","species","honeybees",1,2.15,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Pirmez","Net","Apis mellifera","species","honeybees",1,2.15,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Pirmez","Net","Apis mellifera","species","honeybees",1,2.15,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Pirmez","Net","Apis mellifera","species","honeybees",1,2.15,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Pirmez","Net","Apis mellifera","species","honeybees",1,2.15,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Pirmez","Net","Apis mellifera","species","honeybees",1,2.15,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Pirmez","Net","Apis mellifera","species","honeybees",1,2.15,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Pirmez","Net","Apis mellifera","species","honeybees",1,2.15,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Pirmez","Net","Apis mellifera","species","honeybees",1,2.15,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Pirmez","Net","Apis mellifera","species","honeybees",1,2.15,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Pirmez","Net","Apis mellifera","species","honeybees",1,2.15,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Pirmez","Net","Apis mellifera","species","honeybees",1,2.15,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Pirmez","Net","Apis mellifera","species","honeybees",1,2.15,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Pirmez","Net","Apis mellifera","species","honeybees",1,2.15,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Pirmez","Net","Apis mellifera","species","honeybees",1,2.15,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Pirmez","Net","Apis mellifera","species","honeybees",1,2.15,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Pirmez","Net","Apis mellifera","species","honeybees",1,2.15,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Pirmez","Net","Apis mellifera","species","honeybees",1,2.15,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Pirmez","Net","Apis mellifera","species","honeybees",1,2.15,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Pirmez","Net","Apis mellifera","species","honeybees",1,2.15,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Pirmez","Net","Apis mellifera","species","honeybees",1,2.15,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Pirmez","Net","Apis mellifera","species","honeybees",1,2.15,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Pirmez","Net","Apis mellifera","species","honeybees",1,2.15,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Pirmez","Net","Apis mellifera","species","honeybees",1,2.15,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Pirmez","Net","Apis mellifera","species","honeybees",1,2.15,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Pirmez","Net","Apis mellifera","species","honeybees",1,2.15,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Pirmez","Net","Apis mellifera","species","honeybees",1,2.15,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Pirmez","Net","Apis mellifera","species","honeybees",1,2.15,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Pirmez","Net","Apis mellifera","species","honeybees",1,2.15,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Pirmez","Net","Apis mellifera","species","honeybees",1,2.15,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Pirmez","Net","Apis mellifera","species","honeybees",1,2.15,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Pirmez","Net","Apis mellifera","species","honeybees",1,2.15,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Pirmez","Net","Apis mellifera","species","honeybees",1,2.15,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Pirmez","Net","Apis mellifera","species","honeybees",1,2.15,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Pirmez","Net","Apis mellifera","species","honeybees",1,2.15,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Pirmez","Net","Apis mellifera","species","honeybees",1,2.15,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Pirmez","Net","Apis mellifera","species","honeybees",1,2.15,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Pirmez","Net","Apis mellifera","species","honeybees",1,2.15,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Pirmez","Net","Apis mellifera","species","honeybees",1,2.15,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Pirmez","Net","Apis mellifera","species","honeybees",1,2.15,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Pirmez","Net","Apis mellifera","species","honeybees",1,2.15,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Pirmez","Net","Apis mellifera","species","honeybees",1,2.15,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Pirmez","Net","Apis mellifera","species","honeybees",1,2.15,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Pirmez","Net","Apis mellifera","species","honeybees",1,2.15,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Pirmez","Net","Apis mellifera","species","honeybees",1,2.15,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Pirmez","Net","Apis mellifera","species","honeybees",1,2.15,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Pirmez","Net","Apis mellifera","species","honeybees",1,2.15,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Pirmez","Net","Apis mellifera","species","honeybees",1,2.15,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Pirmez","Net","Apis mellifera","species","honeybees",1,2.15,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Pirmez","Net","Apis mellifera","species","honeybees",1,2.15,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Pirmez","Net","Apis mellifera","species","honeybees",1,2.15,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Pirmez","Net","Apis mellifera","species","honeybees",1,2.15,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Pirmez","Net","Apis mellifera","species","honeybees",1,2.15,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Pirmez","Net","Apis mellifera","species","honeybees",1,2.15,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Pirmez","Net","Apis mellifera","species","honeybees",1,2.15,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Pirmez","Net","Apis mellifera","species","honeybees",1,2.15,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Pirmez","Net","Apis mellifera","species","honeybees",1,2.15,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Pirmez","Net","Apis mellifera","species","honeybees",1,2.15,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Pirmez","Net","Apis mellifera","species","honeybees",1,2.15,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Pirmez","Net","Apis mellifera","species","honeybees",1,2.15,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Pirmez","Net","Apis mellifera","species","honeybees",1,2.15,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Pirmez","Net","Apis mellifera","species","honeybees",1,2.15,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Pirmez","Net","Apis mellifera","species","honeybees",1,2.15,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Pirmez","Net","Apis mellifera","species","honeybees",1,2.15,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Pirmez","Net","Apis mellifera","species","honeybees",1,2.15,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Pirmez","Net","Apis mellifera","species","honeybees",1,2.15,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Pirmez","Net","Apis mellifera","species","honeybees",1,2.15,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Pirmez","Net","Apis mellifera","species","honeybees",1,2.15,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Pirmez","Net","Apis mellifera","species","honeybees",1,2.15,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Pirmez","Net","Apis mellifera","species","honeybees",1,2.15,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Pirmez","Net","Apis mellifera","species","honeybees",1,2.15,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Pirmez","Net","Apis mellifera","species","honeybees",1,2.15,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Pirmez","Net","Apis mellifera","species","honeybees",1,2.15,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Pirmez","Net","Apis mellifera","species","honeybees",1,2.15,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Pirmez","Net","Apis mellifera","species","honeybees",1,2.15,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Pirmez","Net","Apis mellifera","species","honeybees",1,2.15,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Pirmez","Net","Apis mellifera","species","honeybees",1,2.15,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Pirmez","Net","Apis mellifera","species","honeybees",1,2.15,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Pirmez","Net","Apis mellifera","species","honeybees",1,2.15,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Pirmez","Net","Apis mellifera","species","honeybees",1,2.15,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Pirmez","Net","Apis mellifera","species","honeybees",1,2.15,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Pirmez","Net","Apis mellifera","species","honeybees",1,2.15,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Pirmez","Net","Apis mellifera","species","honeybees",1,2.15,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Pirmez","Net","Apis mellifera","species","honeybees",1,2.15,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Pirmez","Net","Apis mellifera","species","honeybees",1,2.15,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Pirmez","Net","Apis mellifera","species","honeybees",1,2.15,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Pirmez","Net","Apis mellifera","species","honeybees",1,2.15,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Schiepers","Net","Apis mellifera","species","honeybees",1,6.79,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Schiepers","Net","Apis mellifera","species","honeybees",1,6.79,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Schiepers","Net","Apis mellifera","species","honeybees",1,6.79,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Schiepers","Net","Apis mellifera","species","honeybees",1,6.79,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Schiepers","Net","Apis mellifera","species","honeybees",1,6.79,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Schiepers","Net","Apis mellifera","species","honeybees",1,6.79,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Schiepers","Net","Apis mellifera","species","honeybees",1,6.79,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Schiepers","Net","Apis mellifera","species","honeybees",1,6.79,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Schiepers","Net","Apis mellifera","species","honeybees",1,6.79,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Schiepers","Net","Apis mellifera","species","honeybees",1,6.79,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Schiepers","Net","Apis mellifera","species","honeybees",1,6.79,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Schiepers","Net","Apis mellifera","species","honeybees",1,6.79,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Schiepers","Net","Apis mellifera","species","honeybees",1,6.79,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Schiepers","Net","Apis mellifera","species","honeybees",1,6.79,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Schiepers","Net","Apis mellifera","species","honeybees",1,6.79,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Schiepers","Net","Apis mellifera","species","honeybees",1,6.79,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Schiepers","Net","Apis mellifera","species","honeybees",1,6.79,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Schiepers","Net","Apis mellifera","species","honeybees",1,6.79,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Schiepers","Net","Apis mellifera","species","honeybees",1,6.79,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Schiepers","Net","Apis mellifera","species","honeybees",1,6.79,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Schiepers","Net","Apis mellifera","species","honeybees",1,6.79,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Schiepers","Net","Apis mellifera","species","honeybees",1,6.79,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Schiepers","Net","Apis mellifera","species","honeybees",1,6.79,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Schiepers","Net","Apis mellifera","species","honeybees",1,6.79,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Schiepers","Net","Apis mellifera","species","honeybees",1,6.79,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Schiepers","Net","Apis mellifera","species","honeybees",1,6.79,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Schiepers","Net","Apis mellifera","species","honeybees",1,6.79,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Schiepers","Net","Apis mellifera","species","honeybees",1,6.79,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Schiepers","Net","Apis mellifera","species","honeybees",1,6.79,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Schiepers","Net","Apis mellifera","species","honeybees",1,6.79,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Schiepers","Net","Apis mellifera","species","honeybees",1,6.79,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Schiepers","Net","Apis mellifera","species","honeybees",1,6.79,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Schiepers","Net","Apis mellifera","species","honeybees",1,6.79,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Schiepers","Net","Apis mellifera","species","honeybees",1,6.79,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Schiepers","Net","Apis mellifera","species","honeybees",1,6.79,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Schiepers","Net","Apis mellifera","species","honeybees",1,6.79,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Schiepers","Net","Apis mellifera","species","honeybees",1,6.79,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Schiepers","Net","Apis mellifera","species","honeybees",1,6.79,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Schiepers","Net","Apis mellifera","species","honeybees",1,6.79,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Schiepers","Net","Apis mellifera","species","honeybees",1,6.79,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Schiepers","Net","Apis mellifera","species","honeybees",1,6.79,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Schiepers","Net","Apis mellifera","species","honeybees",1,6.79,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Schiepers","Net","Apis mellifera","species","honeybees",1,6.79,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Schiepers","Net","Apis mellifera","species","honeybees",1,6.79,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Schiepers","Net","Apis mellifera","species","honeybees",1,6.79,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Schiepers","Net","Apis mellifera","species","honeybees",1,6.79,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Schiepers","Net","Apis mellifera","species","honeybees",1,6.79,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Schiepers","Net","Apis mellifera","species","honeybees",1,6.79,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Schiepers","Net","Apis mellifera","species","honeybees",1,6.79,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Schiepers","Net","Apis mellifera","species","honeybees",1,6.79,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Schiepers","Net","Apis mellifera","species","honeybees",1,6.79,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Schiepers","Net","Apis mellifera","species","honeybees",1,6.79,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Schiepers","Net","Apis mellifera","species","honeybees",1,6.79,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Schiepers","Net","Apis mellifera","species","honeybees",1,6.79,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Schiepers","Net","Apis mellifera","species","honeybees",1,6.79,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Schiepers","Net","Apis mellifera","species","honeybees",1,6.79,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Schiepers","Net","Apis mellifera","species","honeybees",1,6.79,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Schiepers","Net","Apis mellifera","species","honeybees",1,6.79,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Schiepers","Net","Apis mellifera","species","honeybees",1,6.79,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Schiepers","Net","Apis mellifera","species","honeybees",1,6.79,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Schiepers","Net","Apis mellifera","species","honeybees",1,6.79,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Schiepers","Net","Apis mellifera","species","honeybees",1,6.79,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Schiepers","Net","Apis mellifera","species","honeybees",1,6.79,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Schiepers","Net","Apis mellifera","species","honeybees",1,6.79,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Schiepers","Net","Apis mellifera","species","honeybees",1,6.79,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Schiepers","Net","Apis mellifera","species","honeybees",1,6.79,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Schiepers","Net","Apis mellifera","species","honeybees",1,6.79,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Schiepers","Net","Apis mellifera","species","honeybees",1,6.79,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Schiepers","Net","Apis mellifera","species","honeybees",1,6.79,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Schiepers","Net","Apis mellifera","species","honeybees",1,6.79,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Schiepers","Net","Apis mellifera","species","honeybees",1,6.79,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Schiepers","Net","Apis mellifera","species","honeybees",1,6.79,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Schiepers","Net","Apis mellifera","species","honeybees",1,6.79,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Schiepers","Net","Apis mellifera","species","honeybees",1,6.79,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Schiepers","Net","Apis mellifera","species","honeybees",1,6.79,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Schiepers","Net","Apis mellifera","species","honeybees",1,6.79,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Schiepers","Net","Apis mellifera","species","honeybees",1,6.79,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Schiepers","Net","Apis mellifera","species","honeybees",1,6.79,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Schiepers","Net","Apis mellifera","species","honeybees",1,6.79,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Schiepers","Net","Apis mellifera","species","honeybees",1,6.79,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Schiepers","Net","Apis mellifera","species","honeybees",1,6.79,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Schiepers","Net","Apis mellifera","species","honeybees",1,6.79,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Schiepers","Net","Apis mellifera","species","honeybees",1,6.79,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Schiepers","Net","Apis mellifera","species","honeybees",1,6.79,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Schiepers","Net","Apis mellifera","species","honeybees",1,6.79,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Schiepers","Net","Apis mellifera","species","honeybees",1,6.79,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Schiepers","Net","Apis mellifera","species","honeybees",1,6.79,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Schiepers","Net","Apis mellifera","species","honeybees",1,6.79,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Schiepers","Net","Apis mellifera","species","honeybees",1,6.79,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Schiepers","Net","Apis mellifera","species","honeybees",1,6.79,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Schiepers","Net","Apis mellifera","species","honeybees",1,6.79,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Schiepers","Net","Apis mellifera","species","honeybees",1,6.79,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Schiepers","Net","Apis mellifera","species","honeybees",1,6.79,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Schiepers","Net","Apis mellifera","species","honeybees",1,6.79,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Schiepers","Net","Apis mellifera","species","honeybees",1,6.79,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Schiepers","Net","Apis mellifera","species","honeybees",1,6.79,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Schiepers","Net","Apis mellifera","species","honeybees",1,6.79,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Schiepers","Net","Apis mellifera","species","honeybees",1,6.79,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Schiepers","Net","Apis mellifera","species","honeybees",1,6.79,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Schiepers","Net","Apis mellifera","species","honeybees",1,6.79,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Schiepers","Net","Apis mellifera","species","honeybees",1,6.79,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Schiepers","Net","Apis mellifera","species","honeybees",1,6.79,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Schiepers","Net","Apis mellifera","species","honeybees",1,6.79,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Schiepers","Net","Apis mellifera","species","honeybees",1,6.79,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Schiepers","Net","Apis mellifera","species","honeybees",1,6.79,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Schiepers","Net","Apis mellifera","species","honeybees",1,6.79,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Schiepers","Net","Apis mellifera","species","honeybees",1,6.79,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Schiepers","Net","Apis mellifera","species","honeybees",1,6.79,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Schiepers","Net","Apis mellifera","species","honeybees",1,6.79,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Schiepers","Net","Apis mellifera","species","honeybees",1,6.79,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Schiepers","Net","Apis mellifera","species","honeybees",1,6.79,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Schiepers","Net","Apis mellifera","species","honeybees",1,6.79,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Schiepers","Net","Apis mellifera","species","honeybees",1,6.79,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Schiepers","Net","Apis mellifera","species","honeybees",1,6.79,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Flemalle","Net","Bombus hypnorum","species","bumblebees",1,3.62,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Flemalle","Net","Bombus hypnorum","species","bumblebees",1,3.62,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Flemalle","Net","Bombus hypnorum","species","bumblebees",1,3.62,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Freres_Delvaux","Net","Bombus hypnorum","species","bumblebees",1,11.84,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Flemalle","Net","Bombus lapidarius","species","bumblebees",1,3.62,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Flemalle","Net","Bombus lapidarius","species","bumblebees",1,3.62,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Flemalle","Net","Bombus lapidarius","species","bumblebees",1,3.62,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Flemalle","Net","Bombus lapidarius","species","bumblebees",1,3.62,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Flemalle","Net","Bombus lapidarius","species","bumblebees",1,3.62,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Flemalle","Net","Bombus lapidarius","species","bumblebees",1,3.62,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Flemalle","Net","Bombus lapidarius","species","bumblebees",1,3.62,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Flemalle","Net","Bombus lapidarius","species","bumblebees",1,3.62,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Flemalle","Net","Bombus lapidarius","species","bumblebees",1,3.62,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Flemalle","Net","Bombus lapidarius","species","bumblebees",1,3.62,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Flemalle","Net","Bombus lapidarius","species","bumblebees",1,3.62,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Flemalle","Net","Bombus lapidarius","species","bumblebees",1,3.62,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Freres_Delvaux","Net","Bombus lapidarius","species","bumblebees",1,11.84,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Freres_Delvaux","Net","Bombus lapidarius","species","bumblebees",1,11.84,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Freres_Delvaux","Net","Bombus lapidarius","species","bumblebees",1,11.84,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Pirmez","Net","Bombus lapidarius","species","bumblebees",1,2.15,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Pirmez","Net","Bombus lapidarius","species","bumblebees",1,2.15,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Pirmez","Net","Bombus lapidarius","species","bumblebees",1,2.15,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Pirmez","Net","Bombus lapidarius","species","bumblebees",1,2.15,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Pirmez","Net","Bombus lapidarius","species","bumblebees",1,2.15,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Pirmez","Net","Bombus lapidarius","species","bumblebees",1,2.15,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Pirmez","Net","Bombus lapidarius","species","bumblebees",1,2.15,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Pirmez","Net","Bombus lapidarius","species","bumblebees",1,2.15,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Pirmez","Net","Bombus lapidarius","species","bumblebees",1,2.15,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Pirmez","Net","Bombus lapidarius","species","bumblebees",1,2.15,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Pirmez","Net","Bombus lapidarius","species","bumblebees",1,2.15,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Pirmez","Net","Bombus lapidarius","species","bumblebees",1,2.15,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Pirmez","Net","Bombus lapidarius","species","bumblebees",1,2.15,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Pirmez","Net","Bombus lapidarius","species","bumblebees",1,2.15,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Pirmez","Net","Bombus lapidarius","species","bumblebees",1,2.15,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Pirmez","Net","Bombus lapidarius","species","bumblebees",1,2.15,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Pirmez","Net","Bombus lapidarius","species","bumblebees",1,2.15,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Pirmez","Net","Bombus lapidarius","species","bumblebees",1,2.15,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Pirmez","Net","Bombus lapidarius","species","bumblebees",1,2.15,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Pirmez","Net","Bombus lapidarius","species","bumblebees",1,2.15,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Schiepers","Net","Bombus lapidarius","species","bumblebees",1,6.79,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Schiepers","Net","Bombus lapidarius","species","bumblebees",1,6.79,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Schiepers","Net","Bombus lapidarius","species","bumblebees",1,6.79,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Schiepers","Net","Bombus lapidarius","species","bumblebees",1,6.79,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Schiepers","Net","Bombus lapidarius","species","bumblebees",1,6.79,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Schiepers","Net","Bombus lapidarius","species","bumblebees",1,6.79,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Schiepers","Net","Bombus lapidarius","species","bumblebees",1,6.79,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Schiepers","Net","Bombus lapidarius","species","bumblebees",1,6.79,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Schiepers","Net","Bombus lapidarius","species","bumblebees",1,6.79,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Schiepers","Net","Bombus lapidarius","species","bumblebees",1,6.79,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Schiepers","Net","Bombus lapidarius","species","bumblebees",1,6.79,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Schiepers","Net","Bombus lapidarius","species","bumblebees",1,6.79,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Schiepers","Net","Bombus lapidarius","species","bumblebees",1,6.79,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Schiepers","Net","Bombus lapidarius","species","bumblebees",1,6.79,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Schiepers","Net","Bombus lapidarius","species","bumblebees",1,6.79,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Schiepers","Net","Bombus lapidarius","species","bumblebees",1,6.79,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Schiepers","Net","Bombus lapidarius","species","bumblebees",1,6.79,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Schiepers","Net","Bombus lapidarius","species","bumblebees",1,6.79,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Schiepers","Net","Bombus lapidarius","species","bumblebees",1,6.79,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Schiepers","Net","Bombus lapidarius","species","bumblebees",1,6.79,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Flemalle","Net","Bombus pascuorum","species","bumblebees",1,3.62,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Freres_Delvaux","Net","Bombus pascuorum","species","bumblebees",1,11.84,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Flemalle","Net","Bombus pratorum","species","bumblebees",1,3.62,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Flemalle","Net","Bombus pratorum","species","bumblebees",1,3.62,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Flemalle","Net","Bombus pratorum","species","bumblebees",1,3.62,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Flemalle","Net","Bombus pratorum","species","bumblebees",1,3.62,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Flemalle","Net","Bombus pratorum","species","bumblebees",1,3.62,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Flemalle","Net","Bombus pratorum","species","bumblebees",1,3.62,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Freres_Delvaux","Net","Bombus pratorum","species","bumblebees",1,11.84,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Pirmez","Net","Bombus pratorum","species","bumblebees",1,2.15,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Pirmez","Net","Bombus pratorum","species","bumblebees",1,2.15,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Pirmez","Net","Bombus pratorum","species","bumblebees",1,2.15,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Pirmez","Net","Bombus pratorum","species","bumblebees",1,2.15,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Pirmez","Net","Bombus pratorum","species","bumblebees",1,2.15,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Schiepers","Net","Bombus pratorum","species","bumblebees",1,6.79,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Schiepers","Net","Bombus pratorum","species","bumblebees",1,6.79,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Schiepers","Net","Bombus pratorum","species","bumblebees",1,6.79,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Schiepers","Net","Bombus pratorum","species","bumblebees",1,6.79,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Schiepers","Net","Bombus pratorum","species","bumblebees",1,6.79,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Schiepers","Net","Bombus pratorum","species","bumblebees",1,6.79,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Flemalle","Net","Bombus terrestris agg.","species complex","bumblebees",1,3.62,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Flemalle","Net","Bombus terrestris agg.","species complex","bumblebees",1,3.62,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Flemalle","Net","Bombus terrestris agg.","species complex","bumblebees",1,3.62,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Flemalle","Net","Bombus terrestris agg.","species complex","bumblebees",1,3.62,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Flemalle","Net","Bombus terrestris agg.","species complex","bumblebees",1,3.62,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Flemalle","Net","Bombus terrestris agg.","species complex","bumblebees",1,3.62,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Flemalle","Net","Bombus terrestris agg.","species complex","bumblebees",1,3.62,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Flemalle","Net","Bombus terrestris agg.","species complex","bumblebees",1,3.62,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Flemalle","Net","Bombus terrestris agg.","species complex","bumblebees",1,3.62,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Flemalle","Net","Bombus terrestris agg.","species complex","bumblebees",1,3.62,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Flemalle","Net","Bombus terrestris agg.","species complex","bumblebees",1,3.62,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Flemalle","Net","Bombus terrestris agg.","species complex","bumblebees",1,3.62,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Flemalle","Net","Bombus terrestris agg.","species complex","bumblebees",1,3.62,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Flemalle","Net","Bombus terrestris agg.","species complex","bumblebees",1,3.62,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Flemalle","Net","Bombus terrestris agg.","species complex","bumblebees",1,3.62,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Flemalle","Net","Bombus terrestris agg.","species complex","bumblebees",1,3.62,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Flemalle","Net","Bombus terrestris agg.","species complex","bumblebees",1,3.62,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Flemalle","Net","Bombus terrestris agg.","species complex","bumblebees",1,3.62,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Flemalle","Net","Bombus terrestris agg.","species complex","bumblebees",1,3.62,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Flemalle","Net","Bombus terrestris agg.","species complex","bumblebees",1,3.62,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Flemalle","Net","Bombus terrestris agg.","species complex","bumblebees",1,3.62,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Flemalle","Net","Bombus terrestris agg.","species complex","bumblebees",1,3.62,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Flemalle","Net","Bombus terrestris agg.","species complex","bumblebees",1,3.62,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Flemalle","Net","Bombus terrestris agg.","species complex","bumblebees",1,3.62,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Flemalle","Net","Bombus terrestris agg.","species complex","bumblebees",1,3.62,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Flemalle","Net","Bombus terrestris agg.","species complex","bumblebees",1,3.62,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Flemalle","Net","Bombus terrestris agg.","species complex","bumblebees",1,3.62,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Flemalle","Net","Bombus terrestris agg.","species complex","bumblebees",1,3.62,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Flemalle","Net","Bombus terrestris agg.","species complex","bumblebees",1,3.62,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Flemalle","Net","Bombus terrestris agg.","species complex","bumblebees",1,3.62,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Flemalle","Net","Bombus terrestris agg.","species complex","bumblebees",1,3.62,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Flemalle","Net","Bombus terrestris agg.","species complex","bumblebees",1,3.62,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Flemalle","Net","Bombus terrestris agg.","species complex","bumblebees",1,3.62,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Flemalle","Net","Bombus terrestris agg.","species complex","bumblebees",1,3.62,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Flemalle","Net","Bombus terrestris agg.","species complex","bumblebees",1,3.62,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Flemalle","Net","Bombus terrestris agg.","species complex","bumblebees",1,3.62,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Flemalle","Net","Bombus terrestris agg.","species complex","bumblebees",1,3.62,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Flemalle","Net","Bombus terrestris agg.","species complex","bumblebees",1,3.62,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Flemalle","Net","Bombus terrestris agg.","species complex","bumblebees",1,3.62,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Flemalle","Net","Bombus terrestris agg.","species complex","bumblebees",1,3.62,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Flemalle","Net","Bombus terrestris agg.","species complex","bumblebees",1,3.62,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Flemalle","Net","Bombus terrestris agg.","species complex","bumblebees",1,3.62,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Flemalle","Net","Bombus terrestris agg.","species complex","bumblebees",1,3.62,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Flemalle","Net","Bombus terrestris agg.","species complex","bumblebees",1,3.62,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Flemalle","Net","Bombus terrestris agg.","species complex","bumblebees",1,3.62,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Flemalle","Net","Bombus terrestris agg.","species complex","bumblebees",1,3.62,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Flemalle","Net","Bombus terrestris agg.","species complex","bumblebees",1,3.62,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Flemalle","Net","Bombus terrestris agg.","species complex","bumblebees",1,3.62,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Flemalle","Net","Bombus terrestris agg.","species complex","bumblebees",1,3.62,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Flemalle","Net","Bombus terrestris agg.","species complex","bumblebees",1,3.62,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Flemalle","Net","Bombus terrestris agg.","species complex","bumblebees",1,3.62,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Flemalle","Net","Bombus terrestris agg.","species complex","bumblebees",1,3.62,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Flemalle","Net","Bombus terrestris agg.","species complex","bumblebees",1,3.62,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Flemalle","Net","Bombus terrestris agg.","species complex","bumblebees",1,3.62,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Flemalle","Net","Bombus terrestris agg.","species complex","bumblebees",1,3.62,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Flemalle","Net","Bombus terrestris agg.","species complex","bumblebees",1,3.62,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Flemalle","Net","Bombus terrestris agg.","species complex","bumblebees",1,3.62,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Flemalle","Net","Bombus terrestris agg.","species complex","bumblebees",1,3.62,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Flemalle","Net","Bombus terrestris agg.","species complex","bumblebees",1,3.62,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Flemalle","Net","Bombus terrestris agg.","species complex","bumblebees",1,3.62,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Flemalle","Net","Bombus terrestris agg.","species complex","bumblebees",1,3.62,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Flemalle","Net","Bombus terrestris agg.","species complex","bumblebees",1,3.62,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Flemalle","Net","Bombus terrestris agg.","species complex","bumblebees",1,3.62,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Flemalle","Net","Bombus terrestris agg.","species complex","bumblebees",1,3.62,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Flemalle","Net","Bombus terrestris agg.","species complex","bumblebees",1,3.62,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Flemalle","Net","Bombus terrestris agg.","species complex","bumblebees",1,3.62,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Flemalle","Net","Bombus terrestris agg.","species complex","bumblebees",1,3.62,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Flemalle","Net","Bombus terrestris agg.","species complex","bumblebees",1,3.62,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Flemalle","Net","Bombus terrestris agg.","species complex","bumblebees",1,3.62,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Flemalle","Net","Bombus terrestris agg.","species complex","bumblebees",1,3.62,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Flemalle","Net","Bombus terrestris agg.","species complex","bumblebees",1,3.62,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Flemalle","Net","Bombus terrestris agg.","species complex","bumblebees",1,3.62,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Flemalle","Net","Bombus terrestris agg.","species complex","bumblebees",1,3.62,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Flemalle","Net","Bombus terrestris agg.","species complex","bumblebees",1,3.62,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Flemalle","Net","Bombus terrestris agg.","species complex","bumblebees",1,3.62,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Flemalle","Net","Bombus terrestris agg.","species complex","bumblebees",1,3.62,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Flemalle","Net","Bombus terrestris agg.","species complex","bumblebees",1,3.62,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Flemalle","Net","Bombus terrestris agg.","species complex","bumblebees",1,3.62,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Flemalle","Net","Bombus terrestris agg.","species complex","bumblebees",1,3.62,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Flemalle","Net","Bombus terrestris agg.","species complex","bumblebees",1,3.62,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Flemalle","Net","Bombus terrestris agg.","species complex","bumblebees",1,3.62,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Flemalle","Net","Bombus terrestris agg.","species complex","bumblebees",1,3.62,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Flemalle","Net","Bombus terrestris agg.","species complex","bumblebees",1,3.62,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Flemalle","Net","Bombus terrestris agg.","species complex","bumblebees",1,3.62,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Flemalle","Net","Bombus terrestris agg.","species complex","bumblebees",1,3.62,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Flemalle","Net","Bombus terrestris agg.","species complex","bumblebees",1,3.62,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Flemalle","Net","Bombus terrestris agg.","species complex","bumblebees",1,3.62,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Flemalle","Net","Bombus terrestris agg.","species complex","bumblebees",1,3.62,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Flemalle","Net","Bombus terrestris agg.","species complex","bumblebees",1,3.62,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Flemalle","Net","Bombus terrestris agg.","species complex","bumblebees",1,3.62,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Flemalle","Net","Bombus terrestris agg.","species complex","bumblebees",1,3.62,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Flemalle","Net","Bombus terrestris agg.","species complex","bumblebees",1,3.62,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Flemalle","Net","Bombus terrestris agg.","species complex","bumblebees",1,3.62,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Flemalle","Net","Bombus terrestris agg.","species complex","bumblebees",1,3.62,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Flemalle","Net","Bombus terrestris agg.","species complex","bumblebees",1,3.62,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Flemalle","Net","Bombus terrestris agg.","species complex","bumblebees",1,3.62,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Flemalle","Net","Bombus terrestris agg.","species complex","bumblebees",1,3.62,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Flemalle","Net","Bombus terrestris agg.","species complex","bumblebees",1,3.62,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Flemalle","Net","Bombus terrestris agg.","species complex","bumblebees",1,3.62,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Flemalle","Net","Bombus terrestris agg.","species complex","bumblebees",1,3.62,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Flemalle","Net","Bombus terrestris agg.","species complex","bumblebees",1,3.62,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Flemalle","Net","Bombus terrestris agg.","species complex","bumblebees",1,3.62,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Flemalle","Net","Bombus terrestris agg.","species complex","bumblebees",1,3.62,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Freres_Delvaux","Net","Bombus terrestris agg.","species complex","bumblebees",1,11.84,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Pirmez","Net","Bombus terrestris agg.","species complex","bumblebees",1,2.15,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Pirmez","Net","Bombus terrestris agg.","species complex","bumblebees",1,2.15,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Pirmez","Net","Bombus terrestris agg.","species complex","bumblebees",1,2.15,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Pirmez","Net","Bombus terrestris agg.","species complex","bumblebees",1,2.15,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Pirmez","Net","Bombus terrestris agg.","species complex","bumblebees",1,2.15,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Pirmez","Net","Bombus terrestris agg.","species complex","bumblebees",1,2.15,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Schiepers","Net","Bombus terrestris agg.","species complex","bumblebees",1,6.79,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Schiepers","Net","Bombus terrestris agg.","species complex","bumblebees",1,6.79,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Schiepers","Net","Bombus terrestris agg.","species complex","bumblebees",1,6.79,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Schiepers","Net","Bombus terrestris agg.","species complex","bumblebees",1,6.79,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Schiepers","Net","Bombus terrestris agg.","species complex","bumblebees",1,6.79,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Schiepers","Net","Bombus terrestris agg.","species complex","bumblebees",1,6.79,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Schiepers","Net","Bombus terrestris agg.","species complex","bumblebees",1,6.79,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Schiepers","Net","Bombus terrestris agg.","species complex","bumblebees",1,6.79,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Schiepers","Net","Bombus terrestris agg.","species complex","bumblebees",1,6.79,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Schiepers","Net","Bombus terrestris agg.","species complex","bumblebees",1,6.79,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Schiepers","Net","Bombus terrestris agg.","species complex","bumblebees",1,6.79,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Schiepers","Net","Bombus terrestris agg.","species complex","bumblebees",1,6.79,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Schiepers","Net","Bombus terrestris agg.","species complex","bumblebees",1,6.79,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Schiepers","Net","Bombus terrestris agg.","species complex","bumblebees",1,6.79,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Schiepers","Net","Bombus terrestris agg.","species complex","bumblebees",1,6.79,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Schiepers","Net","Bombus terrestris agg.","species complex","bumblebees",1,6.79,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Schiepers","Net","Bombus terrestris agg.","species complex","bumblebees",1,6.79,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Schiepers","Net","Bombus terrestris agg.","species complex","bumblebees",1,6.79,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Schiepers","Net","Bombus terrestris agg.","species complex","bumblebees",1,6.79,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Schiepers","Net","Bombus terrestris agg.","species complex","bumblebees",1,6.79,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Schiepers","Net","Bombus terrestris agg.","species complex","bumblebees",1,6.79,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Flemalle","Net","Osmia bicornis","species","other_wild_bees",1,3.62,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Flemalle","Net","Osmia bicornis","species","other_wild_bees",1,3.62,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Flemalle","Net","Osmia bicornis","species","other_wild_bees",1,3.62,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Pirmez","Net","Osmia bicornis","species","other_wild_bees",1,2.15,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Schiepers","Net","Osmia bicornis","species","other_wild_bees",1,6.79,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Schiepers","Net","Osmia bicornis","species","other_wild_bees",1,6.79,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Schiepers","Net","Osmia bicornis","species","other_wild_bees",1,6.79,540,NA,NA,NA
"Nicolas_J_Vereecken_Brassica_napus_Belgium_2019","Schiepers","Net","Osmia bicornis","species","other_wild_bees",1,6.79,540,NA,NA,NA
"Nicolas_J_Vereecken_Fragaria_x_ananassa_Belgium_2019","Ferme_du_Chateau","Net","Andrena chrysosceles","species","other_wild_bees",1,0.34,540,NA,NA,NA
"Nicolas_J_Vereecken_Fragaria_x_ananassa_Belgium_2019","Ferme_du_Chateau","Net","Andrena chrysosceles","species","other_wild_bees",1,0.34,540,NA,NA,NA
"Nicolas_J_Vereecken_Fragaria_x_ananassa_Belgium_2019","Val-Notre-Dame","Net","Andrena chrysosceles","species","other_wild_bees",1,1.53,540,NA,NA,NA
"Nicolas_J_Vereecken_Fragaria_x_ananassa_Belgium_2019","Ferme_du_Chateau","Net","Andrena cineraria","species","other_wild_bees",1,0.34,540,NA,NA,NA
"Nicolas_J_Vereecken_Fragaria_x_ananassa_Belgium_2019","Coin_des_Champs","Net","Andrena dorsata","species","other_wild_bees",1,1.85,540,NA,NA,NA
"Nicolas_J_Vereecken_Fragaria_x_ananassa_Belgium_2019","Val-Notre-Dame","Net","Andrena dorsata","species","other_wild_bees",1,1.53,540,NA,NA,NA
"Nicolas_J_Vereecken_Fragaria_x_ananassa_Belgium_2019","Val-Notre-Dame","Net","Andrena dorsata","species","other_wild_bees",1,1.53,540,NA,NA,NA
"Nicolas_J_Vereecken_Fragaria_x_ananassa_Belgium_2019","Coin_des_Champs","Net","Andrena flavipes","species","other_wild_bees",1,1.85,540,NA,NA,NA
"Nicolas_J_Vereecken_Fragaria_x_ananassa_Belgium_2019","Coin_des_Champs","Net","Andrena flavipes","species","other_wild_bees",1,1.85,540,NA,NA,NA
"Nicolas_J_Vereecken_Fragaria_x_ananassa_Belgium_2019","Coin_des_Champs","Net","Andrena flavipes","species","other_wild_bees",1,1.85,540,NA,NA,NA
"Nicolas_J_Vereecken_Fragaria_x_ananassa_Belgium_2019","Coin_des_Champs","Net","Andrena flavipes","species","other_wild_bees",1,1.85,540,NA,NA,NA
"Nicolas_J_Vereecken_Fragaria_x_ananassa_Belgium_2019","Coin_des_Champs","Net","Andrena flavipes","species","other_wild_bees",1,1.85,540,NA,NA,NA
"Nicolas_J_Vereecken_Fragaria_x_ananassa_Belgium_2019","Ferme_du_Chateau","Net","Andrena flavipes","species","other_wild_bees",1,0.34,540,NA,NA,NA
"Nicolas_J_Vereecken_Fragaria_x_ananassa_Belgium_2019","Ferme_du_Chateau","Net","Andrena flavipes","species","other_wild_bees",1,0.34,540,NA,NA,NA
"Nicolas_J_Vereecken_Fragaria_x_ananassa_Belgium_2019","Val-Notre-Dame","Net","Andrena flavipes","species","other_wild_bees",1,1.53,540,NA,NA,NA
"Nicolas_J_Vereecken_Fragaria_x_ananassa_Belgium_2019","Val-Notre-Dame","Net","Andrena flavipes","species","other_wild_bees",1,1.53,540,NA,NA,NA
"Nicolas_J_Vereecken_Fragaria_x_ananassa_Belgium_2019","Val-Notre-Dame","Net","Andrena flavipes","species","other_wild_bees",1,1.53,540,NA,NA,NA
"Nicolas_J_Vereecken_Fragaria_x_ananassa_Belgium_2019","Coin_des_Champs","Net","Andrena gravida","species","other_wild_bees",1,1.85,540,NA,NA,NA
"Nicolas_J_Vereecken_Fragaria_x_ananassa_Belgium_2019","Coin_des_Champs","Net","Andrena gravida","species","other_wild_bees",1,1.85,540,NA,NA,NA
"Nicolas_J_Vereecken_Fragaria_x_ananassa_Belgium_2019","Coin_des_Champs","Net","Andrena gravida","species","other_wild_bees",1,1.85,540,NA,NA,NA
"Nicolas_J_Vereecken_Fragaria_x_ananassa_Belgium_2019","Coin_des_Champs","Net","Andrena gravida","species","other_wild_bees",1,1.85,540,NA,NA,NA
"Nicolas_J_Vereecken_Fragaria_x_ananassa_Belgium_2019","Coin_des_Champs","Net","Andrena gravida","species","other_wild_bees",1,1.85,540,NA,NA,NA
"Nicolas_J_Vereecken_Fragaria_x_ananassa_Belgium_2019","Coin_des_Champs","Net","Andrena gravida","species","other_wild_bees",1,1.85,540,NA,NA,NA
"Nicolas_J_Vereecken_Fragaria_x_ananassa_Belgium_2019","Coin_des_Champs","Net","Andrena gravida","species","other_wild_bees",1,1.85,540,NA,NA,NA
"Nicolas_J_Vereecken_Fragaria_x_ananassa_Belgium_2019","Coin_des_Champs","Net","Andrena gravida","species","other_wild_bees",1,1.85,540,NA,NA,NA
"Nicolas_J_Vereecken_Fragaria_x_ananassa_Belgium_2019","Ferme_du_Chateau","Net","Andrena gravida","species","other_wild_bees",1,0.34,540,NA,NA,NA
"Nicolas_J_Vereecken_Fragaria_x_ananassa_Belgium_2019","Ferme_du_Chateau","Net","Andrena gravida","species","other_wild_bees",1,0.34,540,NA,NA,NA
"Nicolas_J_Vereecken_Fragaria_x_ananassa_Belgium_2019","Ferme_du_Chateau","Net","Andrena gravida","species","other_wild_bees",1,0.34,540,NA,NA,NA
"Nicolas_J_Vereecken_Fragaria_x_ananassa_Belgium_2019","Ferme_du_Chateau","Net","Andrena gravida","species","other_wild_bees",1,0.34,540,NA,NA,NA
"Nicolas_J_Vereecken_Fragaria_x_ananassa_Belgium_2019","Ferme_du_Chateau","Net","Andrena gravida","species","other_wild_bees",1,0.34,540,NA,NA,NA
"Nicolas_J_Vereecken_Fragaria_x_ananassa_Belgium_2019","Ferme_du_Chateau","Net","Andrena gravida","species","other_wild_bees",1,0.34,540,NA,NA,NA
"Nicolas_J_Vereecken_Fragaria_x_ananassa_Belgium_2019","Ferme_du_Chateau","Net","Andrena gravida","species","other_wild_bees",1,0.34,540,NA,NA,NA
"Nicolas_J_Vereecken_Fragaria_x_ananassa_Belgium_2019","Ferme_du_Chateau","Net","Andrena gravida","species","other_wild_bees",1,0.34,540,NA,NA,NA
"Nicolas_J_Vereecken_Fragaria_x_ananassa_Belgium_2019","Ferme_du_Chateau","Net","Andrena gravida","species","other_wild_bees",1,0.34,540,NA,NA,NA
"Nicolas_J_Vereecken_Fragaria_x_ananassa_Belgium_2019","Ferme_du_Chateau","Net","Andrena gravida","species","other_wild_bees",1,0.34,540,NA,NA,NA
"Nicolas_J_Vereecken_Fragaria_x_ananassa_Belgium_2019","Ferme_du_Chateau","Net","Andrena gravida","species","other_wild_bees",1,0.34,540,NA,NA,NA
"Nicolas_J_Vereecken_Fragaria_x_ananassa_Belgium_2019","Ferme_du_Chateau","Net","Andrena gravida","species","other_wild_bees",1,0.34,540,NA,NA,NA
"Nicolas_J_Vereecken_Fragaria_x_ananassa_Belgium_2019","Ferme_du_Chateau","Net","Andrena gravida","species","other_wild_bees",1,0.34,540,NA,NA,NA
"Nicolas_J_Vereecken_Fragaria_x_ananassa_Belgium_2019","Val-Notre-Dame","Net","Andrena gravida","species","other_wild_bees",1,1.53,540,NA,NA,NA
"Nicolas_J_Vereecken_Fragaria_x_ananassa_Belgium_2019","Val-Notre-Dame","Net","Andrena gravida","species","other_wild_bees",1,1.53,540,NA,NA,NA
"Nicolas_J_Vereecken_Fragaria_x_ananassa_Belgium_2019","Val-Notre-Dame","Net","Andrena gravida","species","other_wild_bees",1,1.53,540,NA,NA,NA
"Nicolas_J_Vereecken_Fragaria_x_ananassa_Belgium_2019","Val-Notre-Dame","Net","Andrena gravida","species","other_wild_bees",1,1.53,540,NA,NA,NA
"Nicolas_J_Vereecken_Fragaria_x_ananassa_Belgium_2019","Val-Notre-Dame","Net","Andrena gravida","species","other_wild_bees",1,1.53,540,NA,NA,NA
"Nicolas_J_Vereecken_Fragaria_x_ananassa_Belgium_2019","Ferme_du_Chateau","Net","Andrena haemorrhoa","species","other_wild_bees",1,0.34,540,NA,NA,NA
"Nicolas_J_Vereecken_Fragaria_x_ananassa_Belgium_2019","Ferme_du_Chateau","Net","Andrena haemorrhoa","species","other_wild_bees",1,0.34,540,NA,NA,NA
"Nicolas_J_Vereecken_Fragaria_x_ananassa_Belgium_2019","Ferme_du_Chateau","Net","Andrena haemorrhoa","species","other_wild_bees",1,0.34,540,NA,NA,NA
"Nicolas_J_Vereecken_Fragaria_x_ananassa_Belgium_2019","Ferme_du_Chateau","Net","Andrena haemorrhoa","species","other_wild_bees",1,0.34,540,NA,NA,NA
"Nicolas_J_Vereecken_Fragaria_x_ananassa_Belgium_2019","Ferme_du_Chateau","Net","Andrena haemorrhoa","species","other_wild_bees",1,0.34,540,NA,NA,NA
"Nicolas_J_Vereecken_Fragaria_x_ananassa_Belgium_2019","Ferme_du_Chateau","Net","Andrena haemorrhoa","species","other_wild_bees",1,0.34,540,NA,NA,NA
"Nicolas_J_Vereecken_Fragaria_x_ananassa_Belgium_2019","Ferme_du_Chateau","Net","Andrena haemorrhoa","species","other_wild_bees",1,0.34,540,NA,NA,NA
"Nicolas_J_Vereecken_Fragaria_x_ananassa_Belgium_2019","Val-Notre-Dame","Net","Andrena haemorrhoa","species","other_wild_bees",1,1.53,540,NA,NA,NA
"Nicolas_J_Vereecken_Fragaria_x_ananassa_Belgium_2019","Val-Notre-Dame","Net","Andrena scotica","species","other_wild_bees",1,1.53,540,NA,NA,NA
"Nicolas_J_Vereecken_Fragaria_x_ananassa_Belgium_2019","Coin_des_Champs","Net","Apis mellifera","species","honeybees",1,1.85,540,NA,NA,NA
"Nicolas_J_Vereecken_Fragaria_x_ananassa_Belgium_2019","Coin_des_Champs","Net","Apis mellifera","species","honeybees",1,1.85,540,NA,NA,NA
"Nicolas_J_Vereecken_Fragaria_x_ananassa_Belgium_2019","Coin_des_Champs","Net","Apis mellifera","species","honeybees",1,1.85,540,NA,NA,NA
"Nicolas_J_Vereecken_Fragaria_x_ananassa_Belgium_2019","Coin_des_Champs","Net","Apis mellifera","species","honeybees",1,1.85,540,NA,NA,NA
"Nicolas_J_Vereecken_Fragaria_x_ananassa_Belgium_2019","Coin_des_Champs","Net","Apis mellifera","species","honeybees",1,1.85,540,NA,NA,NA
"Nicolas_J_Vereecken_Fragaria_x_ananassa_Belgium_2019","Coin_des_Champs","Net","Apis mellifera","species","honeybees",1,1.85,540,NA,NA,NA
"Nicolas_J_Vereecken_Fragaria_x_ananassa_Belgium_2019","Coin_des_Champs","Net","Apis mellifera","species","honeybees",1,1.85,540,NA,NA,NA
"Nicolas_J_Vereecken_Fragaria_x_ananassa_Belgium_2019","Coin_des_Champs","Net","Apis mellifera","species","honeybees",1,1.85,540,NA,NA,NA
"Nicolas_J_Vereecken_Fragaria_x_ananassa_Belgium_2019","Coin_des_Champs","Net","Apis mellifera","species","honeybees",1,1.85,540,NA,NA,NA
"Nicolas_J_Vereecken_Fragaria_x_ananassa_Belgium_2019","Coin_des_Champs","Net","Apis mellifera","species","honeybees",1,1.85,540,NA,NA,NA
"Nicolas_J_Vereecken_Fragaria_x_ananassa_Belgium_2019","Coin_des_Champs","Net","Apis mellifera","species","honeybees",1,1.85,540,NA,NA,NA
"Nicolas_J_Vereecken_Fragaria_x_ananassa_Belgium_2019","Coin_des_Champs","Net","Apis mellifera","species","honeybees",1,1.85,540,NA,NA,NA
"Nicolas_J_Vereecken_Fragaria_x_ananassa_Belgium_2019","Coin_des_Champs","Net","Apis mellifera","species","honeybees",1,1.85,540,NA,NA,NA
"Nicolas_J_Vereecken_Fragaria_x_ananassa_Belgium_2019","Coin_des_Champs","Net","Apis mellifera","species","honeybees",1,1.85,540,NA,NA,NA
"Nicolas_J_Vereecken_Fragaria_x_ananassa_Belgium_2019","Coin_des_Champs","Net","Apis mellifera","species","honeybees",1,1.85,540,NA,NA,NA
"Nicolas_J_Vereecken_Fragaria_x_ananassa_Belgium_2019","Coin_des_Champs","Net","Apis mellifera","species","honeybees",1,1.85,540,NA,NA,NA
"Nicolas_J_Vereecken_Fragaria_x_ananassa_Belgium_2019","Coin_des_Champs","Net","Apis mellifera","species","honeybees",1,1.85,540,NA,NA,NA
"Nicolas_J_Vereecken_Fragaria_x_ananassa_Belgium_2019","Coin_des_Champs","Net","Apis mellifera","species","honeybees",1,1.85,540,NA,NA,NA
"Nicolas_J_Vereecken_Fragaria_x_ananassa_Belgium_2019","Coin_des_Champs","Net","Apis mellifera","species","honeybees",1,1.85,540,NA,NA,NA
"Nicolas_J_Vereecken_Fragaria_x_ananassa_Belgium_2019","Coin_des_Champs","Net","Apis mellifera","species","honeybees",1,1.85,540,NA,NA,NA
"Nicolas_J_Vereecken_Fragaria_x_ananassa_Belgium_2019","Coin_des_Champs","Net","Apis mellifera","species","honeybees",1,1.85,540,NA,NA,NA
"Nicolas_J_Vereecken_Fragaria_x_ananassa_Belgium_2019","Coin_des_Champs","Net","Apis mellifera","species","honeybees",1,1.85,540,NA,NA,NA
"Nicolas_J_Vereecken_Fragaria_x_ananassa_Belgium_2019","Coin_des_Champs","Net","Apis mellifera","species","honeybees",1,1.85,540,NA,NA,NA
"Nicolas_J_Vereecken_Fragaria_x_ananassa_Belgium_2019","Coin_des_Champs","Net","Apis mellifera","species","honeybees",1,1.85,540,NA,NA,NA
"Nicolas_J_Vereecken_Fragaria_x_ananassa_Belgium_2019","Coin_des_Champs","Net","Apis mellifera","species","honeybees",1,1.85,540,NA,NA,NA
"Nicolas_J_Vereecken_Fragaria_x_ananassa_Belgium_2019","Coin_des_Champs","Net","Apis mellifera","species","honeybees",1,1.85,540,NA,NA,NA
"Nicolas_J_Vereecken_Fragaria_x_ananassa_Belgium_2019","Coin_des_Champs","Net","Apis mellifera","species","honeybees",1,1.85,540,NA,NA,NA
"Nicolas_J_Vereecken_Fragaria_x_ananassa_Belgium_2019","Coin_des_Champs","Net","Apis mellifera","species","honeybees",1,1.85,540,NA,NA,NA
"Nicolas_J_Vereecken_Fragaria_x_ananassa_Belgium_2019","Coin_des_Champs","Net","Apis mellifera","species","honeybees",1,1.85,540,NA,NA,NA
"Nicolas_J_Vereecken_Fragaria_x_ananassa_Belgium_2019","Coin_des_Champs","Net","Apis mellifera","species","honeybees",1,1.85,540,NA,NA,NA
"Nicolas_J_Vereecken_Fragaria_x_ananassa_Belgium_2019","Coin_des_Champs","Net","Apis mellifera","species","honeybees",1,1.85,540,NA,NA,NA
"Nicolas_J_Vereecken_Fragaria_x_ananassa_Belgium_2019","Ferme_du_Chateau","Net","Apis mellifera","species","honeybees",1,0.34,540,NA,NA,NA
"Nicolas_J_Vereecken_Fragaria_x_ananassa_Belgium_2019","Ferme_du_Chateau","Net","Apis mellifera","species","honeybees",1,0.34,540,NA,NA,NA
"Nicolas_J_Vereecken_Fragaria_x_ananassa_Belgium_2019","Ferme_du_Chateau","Net","Apis mellifera","species","honeybees",1,0.34,540,NA,NA,NA
"Nicolas_J_Vereecken_Fragaria_x_ananassa_Belgium_2019","Ferme_du_Chateau","Net","Apis mellifera","species","honeybees",1,0.34,540,NA,NA,NA
"Nicolas_J_Vereecken_Fragaria_x_ananassa_Belgium_2019","Ferme_du_Chateau","Net","Apis mellifera","species","honeybees",1,0.34,540,NA,NA,NA
"Nicolas_J_Vereecken_Fragaria_x_ananassa_Belgium_2019","Ferme_du_Chateau","Net","Apis mellifera","species","honeybees",1,0.34,540,NA,NA,NA
"Nicolas_J_Vereecken_Fragaria_x_ananassa_Belgium_2019","Ferme_du_Chateau","Net","Apis mellifera","species","honeybees",1,0.34,540,NA,NA,NA
"Nicolas_J_Vereecken_Fragaria_x_ananassa_Belgium_2019","Ferme_du_Chateau","Net","Apis mellifera","species","honeybees",1,0.34,540,NA,NA,NA
"Nicolas_J_Vereecken_Fragaria_x_ananassa_Belgium_2019","Ferme_du_Chateau","Net","Apis mellifera","species","honeybees",1,0.34,540,NA,NA,NA
"Nicolas_J_Vereecken_Fragaria_x_ananassa_Belgium_2019","Ferme_du_Chateau","Net","Apis mellifera","species","honeybees",1,0.34,540,NA,NA,NA
"Nicolas_J_Vereecken_Fragaria_x_ananassa_Belgium_2019","Ferme_du_Chateau","Net","Apis mellifera","species","honeybees",1,0.34,540,NA,NA,NA
"Nicolas_J_Vereecken_Fragaria_x_ananassa_Belgium_2019","Ferme_du_Chateau","Net","Apis mellifera","species","honeybees",1,0.34,540,NA,NA,NA
"Nicolas_J_Vereecken_Fragaria_x_ananassa_Belgium_2019","Ferme_du_Chateau","Net","Apis mellifera","species","honeybees",1,0.34,540,NA,NA,NA
"Nicolas_J_Vereecken_Fragaria_x_ananassa_Belgium_2019","Ferme_du_Chateau","Net","Apis mellifera","species","honeybees",1,0.34,540,NA,NA,NA
"Nicolas_J_Vereecken_Fragaria_x_ananassa_Belgium_2019","Ferme_du_Chateau","Net","Apis mellifera","species","honeybees",1,0.34,540,NA,NA,NA
"Nicolas_J_Vereecken_Fragaria_x_ananassa_Belgium_2019","Ferme_du_Chateau","Net","Apis mellifera","species","honeybees",1,0.34,540,NA,NA,NA
"Nicolas_J_Vereecken_Fragaria_x_ananassa_Belgium_2019","Ferme_du_Chateau","Net","Apis mellifera","species","honeybees",1,0.34,540,NA,NA,NA
"Nicolas_J_Vereecken_Fragaria_x_ananassa_Belgium_2019","Ferme_du_Chateau","Net","Apis mellifera","species","honeybees",1,0.34,540,NA,NA,NA
"Nicolas_J_Vereecken_Fragaria_x_ananassa_Belgium_2019","Ferme_du_Chateau","Net","Apis mellifera","species","honeybees",1,0.34,540,NA,NA,NA
"Nicolas_J_Vereecken_Fragaria_x_ananassa_Belgium_2019","Ferme_du_Chateau","Net","Apis mellifera","species","honeybees",1,0.34,540,NA,NA,NA
"Nicolas_J_Vereecken_Fragaria_x_ananassa_Belgium_2019","Ferme_du_Chateau","Net","Apis mellifera","species","honeybees",1,0.34,540,NA,NA,NA
"Nicolas_J_Vereecken_Fragaria_x_ananassa_Belgium_2019","Ferme_du_Chateau","Net","Apis mellifera","species","honeybees",1,0.34,540,NA,NA,NA
"Nicolas_J_Vereecken_Fragaria_x_ananassa_Belgium_2019","Ferme_du_Chateau","Net","Apis mellifera","species","honeybees",1,0.34,540,NA,NA,NA
"Nicolas_J_Vereecken_Fragaria_x_ananassa_Belgium_2019","Ferme_du_Chateau","Net","Apis mellifera","species","honeybees",1,0.34,540,NA,NA,NA
"Nicolas_J_Vereecken_Fragaria_x_ananassa_Belgium_2019","Ferme_du_Chateau","Net","Apis mellifera","species","honeybees",1,0.34,540,NA,NA,NA
"Nicolas_J_Vereecken_Fragaria_x_ananassa_Belgium_2019","Ferme_du_Chateau","Net","Apis mellifera","species","honeybees",1,0.34,540,NA,NA,NA
"Nicolas_J_Vereecken_Fragaria_x_ananassa_Belgium_2019","Ferme_du_Chateau","Net","Apis mellifera","species","honeybees",1,0.34,540,NA,NA,NA
"Nicolas_J_Vereecken_Fragaria_x_ananassa_Belgium_2019","Ferme_du_Chateau","Net","Apis mellifera","species","honeybees",1,0.34,540,NA,NA,NA
"Nicolas_J_Vereecken_Fragaria_x_ananassa_Belgium_2019","Ferme_du_Chateau","Net","Apis mellifera","species","honeybees",1,0.34,540,NA,NA,NA
"Nicolas_J_Vereecken_Fragaria_x_ananassa_Belgium_2019","Ferme_du_Chateau","Net","Apis mellifera","species","honeybees",1,0.34,540,NA,NA,NA
"Nicolas_J_Vereecken_Fragaria_x_ananassa_Belgium_2019","Ferme_du_Chateau","Net","Apis mellifera","species","honeybees",1,0.34,540,NA,NA,NA
"Nicolas_J_Vereecken_Fragaria_x_ananassa_Belgium_2019","Ferme_du_Chateau","Net","Apis mellifera","species","honeybees",1,0.34,540,NA,NA,NA
"Nicolas_J_Vereecken_Fragaria_x_ananassa_Belgium_2019","Ferme_du_Chateau","Net","Apis mellifera","species","honeybees",1,0.34,540,NA,NA,NA
"Nicolas_J_Vereecken_Fragaria_x_ananassa_Belgium_2019","Ferme_du_Chateau","Net","Apis mellifera","species","honeybees",1,0.34,540,NA,NA,NA
"Nicolas_J_Vereecken_Fragaria_x_ananassa_Belgium_2019","Ferme_du_Chateau","Net","Apis mellifera","species","honeybees",1,0.34,540,NA,NA,NA
"Nicolas_J_Vereecken_Fragaria_x_ananassa_Belgium_2019","Ferme_du_Chateau","Net","Apis mellifera","species","honeybees",1,0.34,540,NA,NA,NA
"Nicolas_J_Vereecken_Fragaria_x_ananassa_Belgium_2019","Ferme_du_Chateau","Net","Apis mellifera","species","honeybees",1,0.34,540,NA,NA,NA
"Nicolas_J_Vereecken_Fragaria_x_ananassa_Belgium_2019","Ferme_du_Chateau","Net","Apis mellifera","species","honeybees",1,0.34,540,NA,NA,NA
"Nicolas_J_Vereecken_Fragaria_x_ananassa_Belgium_2019","Ferme_du_Chateau","Net","Apis mellifera","species","honeybees",1,0.34,540,NA,NA,NA
"Nicolas_J_Vereecken_Fragaria_x_ananassa_Belgium_2019","Ferme_du_Chateau","Net","Apis mellifera","species","honeybees",1,0.34,540,NA,NA,NA
"Nicolas_J_Vereecken_Fragaria_x_ananassa_Belgium_2019","Ferme_du_Chateau","Net","Apis mellifera","species","honeybees",1,0.34,540,NA,NA,NA
"Nicolas_J_Vereecken_Fragaria_x_ananassa_Belgium_2019","Ferme_du_Chateau","Net","Apis mellifera","species","honeybees",1,0.34,540,NA,NA,NA
"Nicolas_J_Vereecken_Fragaria_x_ananassa_Belgium_2019","Ferme_du_Chateau","Net","Apis mellifera","species","honeybees",1,0.34,540,NA,NA,NA
"Nicolas_J_Vereecken_Fragaria_x_ananassa_Belgium_2019","Ferme_du_Chateau","Net","Apis mellifera","species","honeybees",1,0.34,540,NA,NA,NA
"Nicolas_J_Vereecken_Fragaria_x_ananassa_Belgium_2019","Ferme_du_Chateau","Net","Apis mellifera","species","honeybees",1,0.34,540,NA,NA,NA
"Nicolas_J_Vereecken_Fragaria_x_ananassa_Belgium_2019","Ferme_du_Chateau","Net","Apis mellifera","species","honeybees",1,0.34,540,NA,NA,NA
"Nicolas_J_Vereecken_Fragaria_x_ananassa_Belgium_2019","Ferme_du_Chateau","Net","Apis mellifera","species","honeybees",1,0.34,540,NA,NA,NA
"Nicolas_J_Vereecken_Fragaria_x_ananassa_Belgium_2019","Ferme_du_Chateau","Net","Apis mellifera","species","honeybees",1,0.34,540,NA,NA,NA
"Nicolas_J_Vereecken_Fragaria_x_ananassa_Belgium_2019","Ferme_du_Chateau","Net","Apis mellifera","species","honeybees",1,0.34,540,NA,NA,NA
"Nicolas_J_Vereecken_Fragaria_x_ananassa_Belgium_2019","Ferme_du_Chateau","Net","Apis mellifera","species","honeybees",1,0.34,540,NA,NA,NA
"Nicolas_J_Vereecken_Fragaria_x_ananassa_Belgium_2019","Ferme_du_Chateau","Net","Apis mellifera","species","honeybees",1,0.34,540,NA,NA,NA
"Nicolas_J_Vereecken_Fragaria_x_ananassa_Belgium_2019","Ferme_du_Chateau","Net","Apis mellifera","species","honeybees",1,0.34,540,NA,NA,NA
"Nicolas_J_Vereecken_Fragaria_x_ananassa_Belgium_2019","Ferme_du_Chateau","Net","Apis mellifera","species","honeybees",1,0.34,540,NA,NA,NA
"Nicolas_J_Vereecken_Fragaria_x_ananassa_Belgium_2019","Ferme_du_Chateau","Net","Apis mellifera","species","honeybees",1,0.34,540,NA,NA,NA
"Nicolas_J_Vereecken_Fragaria_x_ananassa_Belgium_2019","Ferme_du_Chateau","Net","Apis mellifera","species","honeybees",1,0.34,540,NA,NA,NA
"Nicolas_J_Vereecken_Fragaria_x_ananassa_Belgium_2019","Ferme_du_Chateau","Net","Apis mellifera","species","honeybees",1,0.34,540,NA,NA,NA
"Nicolas_J_Vereecken_Fragaria_x_ananassa_Belgium_2019","Ferme_du_Chateau","Net","Apis mellifera","species","honeybees",1,0.34,540,NA,NA,NA
"Nicolas_J_Vereecken_Fragaria_x_ananassa_Belgium_2019","Ferme_du_Chateau","Net","Apis mellifera","species","honeybees",1,0.34,540,NA,NA,NA
"Nicolas_J_Vereecken_Fragaria_x_ananassa_Belgium_2019","Ferme_du_Chateau","Net","Apis mellifera","species","honeybees",1,0.34,540,NA,NA,NA
"Nicolas_J_Vereecken_Fragaria_x_ananassa_Belgium_2019","Ferme_du_Chateau","Net","Apis mellifera","species","honeybees",1,0.34,540,NA,NA,NA
"Nicolas_J_Vereecken_Fragaria_x_ananassa_Belgium_2019","Ferme_du_Chateau","Net","Apis mellifera","species","honeybees",1,0.34,540,NA,NA,NA
"Nicolas_J_Vereecken_Fragaria_x_ananassa_Belgium_2019","Ferme_du_Chateau","Net","Apis mellifera","species","honeybees",1,0.34,540,NA,NA,NA
"Nicolas_J_Vereecken_Fragaria_x_ananassa_Belgium_2019","Ferme_du_Chateau","Net","Apis mellifera","species","honeybees",1,0.34,540,NA,NA,NA
"Nicolas_J_Vereecken_Fragaria_x_ananassa_Belgium_2019","Ferme_du_Chateau","Net","Apis mellifera","species","honeybees",1,0.34,540,NA,NA,NA
"Nicolas_J_Vereecken_Fragaria_x_ananassa_Belgium_2019","Ferme_du_Chateau","Net","Apis mellifera","species","honeybees",1,0.34,540,NA,NA,NA
"Nicolas_J_Vereecken_Fragaria_x_ananassa_Belgium_2019","Ferme_du_Chateau","Net","Apis mellifera","species","honeybees",1,0.34,540,NA,NA,NA
"Nicolas_J_Vereecken_Fragaria_x_ananassa_Belgium_2019","Ferme_du_Chateau","Net","Apis mellifera","species","honeybees",1,0.34,540,NA,NA,NA
"Nicolas_J_Vereecken_Fragaria_x_ananassa_Belgium_2019","Ferme_du_Chateau","Net","Apis mellifera","species","honeybees",1,0.34,540,NA,NA,NA
"Nicolas_J_Vereecken_Fragaria_x_ananassa_Belgium_2019","Ferme_du_Chateau","Net","Apis mellifera","species","honeybees",1,0.34,540,NA,NA,NA
"Nicolas_J_Vereecken_Fragaria_x_ananassa_Belgium_2019","Ferme_du_Chateau","Net","Apis mellifera","species","honeybees",1,0.34,540,NA,NA,NA
"Nicolas_J_Vereecken_Fragaria_x_ananassa_Belgium_2019","Ferme_du_Chateau","Net","Apis mellifera","species","honeybees",1,0.34,540,NA,NA,NA
"Nicolas_J_Vereecken_Fragaria_x_ananassa_Belgium_2019","Ferme_du_Chateau","Net","Apis mellifera","species","honeybees",1,0.34,540,NA,NA,NA
"Nicolas_J_Vereecken_Fragaria_x_ananassa_Belgium_2019","Ferme_du_Chateau","Net","Apis mellifera","species","honeybees",1,0.34,540,NA,NA,NA
"Nicolas_J_Vereecken_Fragaria_x_ananassa_Belgium_2019","Ferme_du_Chateau","Net","Apis mellifera","species","honeybees",1,0.34,540,NA,NA,NA
"Nicolas_J_Vereecken_Fragaria_x_ananassa_Belgium_2019","Ferme_du_Chateau","Net","Apis mellifera","species","honeybees",1,0.34,540,NA,NA,NA
"Nicolas_J_Vereecken_Fragaria_x_ananassa_Belgium_2019","Ferme_du_Chateau","Net","Apis mellifera","species","honeybees",1,0.34,540,NA,NA,NA
"Nicolas_J_Vereecken_Fragaria_x_ananassa_Belgium_2019","Ferme_du_Chateau","Net","Apis mellifera","species","honeybees",1,0.34,540,NA,NA,NA
"Nicolas_J_Vereecken_Fragaria_x_ananassa_Belgium_2019","Ferme_du_Chateau","Net","Apis mellifera","species","honeybees",1,0.34,540,NA,NA,NA
"Nicolas_J_Vereecken_Fragaria_x_ananassa_Belgium_2019","Ferme_du_Chateau","Net","Apis mellifera","species","honeybees",1,0.34,540,NA,NA,NA
"Nicolas_J_Vereecken_Fragaria_x_ananassa_Belgium_2019","Ferme_du_Chateau","Net","Apis mellifera","species","honeybees",1,0.34,540,NA,NA,NA
"Nicolas_J_Vereecken_Fragaria_x_ananassa_Belgium_2019","Ferme_du_Chateau","Net","Apis mellifera","species","honeybees",1,0.34,540,NA,NA,NA
"Nicolas_J_Vereecken_Fragaria_x_ananassa_Belgium_2019","Ferme_du_Chateau","Net","Apis mellifera","species","honeybees",1,0.34,540,NA,NA,NA
"Nicolas_J_Vereecken_Fragaria_x_ananassa_Belgium_2019","Ferme_du_Chateau","Net","Apis mellifera","species","honeybees",1,0.34,540,NA,NA,NA
"Nicolas_J_Vereecken_Fragaria_x_ananassa_Belgium_2019","Ferme_du_Chateau","Net","Apis mellifera","species","honeybees",1,0.34,540,NA,NA,NA
"Nicolas_J_Vereecken_Fragaria_x_ananassa_Belgium_2019","Ferme_du_Chateau","Net","Apis mellifera","species","honeybees",1,0.34,540,NA,NA,NA
"Nicolas_J_Vereecken_Fragaria_x_ananassa_Belgium_2019","Ferme_du_Chateau","Net","Apis mellifera","species","honeybees",1,0.34,540,NA,NA,NA
"Nicolas_J_Vereecken_Fragaria_x_ananassa_Belgium_2019","Ferme_du_Chateau","Net","Apis mellifera","species","honeybees",1,0.34,540,NA,NA,NA
"Nicolas_J_Vereecken_Fragaria_x_ananassa_Belgium_2019","Ferme_du_Chateau","Net","Apis mellifera","species","honeybees",1,0.34,540,NA,NA,NA
"Nicolas_J_Vereecken_Fragaria_x_ananassa_Belgium_2019","Ferme_du_Chateau","Net","Apis mellifera","species","honeybees",1,0.34,540,NA,NA,NA
"Nicolas_J_Vereecken_Fragaria_x_ananassa_Belgium_2019","Ferme_du_Chateau","Net","Apis mellifera","species","honeybees",1,0.34,540,NA,NA,NA
"Nicolas_J_Vereecken_Fragaria_x_ananassa_Belgium_2019","Ferme_du_Chateau","Net","Apis mellifera","species","honeybees",1,0.34,540,NA,NA,NA
"Nicolas_J_Vereecken_Fragaria_x_ananassa_Belgium_2019","Ferme_du_Chateau","Net","Apis mellifera","species","honeybees",1,0.34,540,NA,NA,NA
"Nicolas_J_Vereecken_Fragaria_x_ananassa_Belgium_2019","Ferme_du_Chateau","Net","Apis mellifera","species","honeybees",1,0.34,540,NA,NA,NA
"Nicolas_J_Vereecken_Fragaria_x_ananassa_Belgium_2019","Ferme_du_Chateau","Net","Apis mellifera","species","honeybees",1,0.34,540,NA,NA,NA
"Nicolas_J_Vereecken_Fragaria_x_ananassa_Belgium_2019","Ferme_du_Chateau","Net","Apis mellifera","species","honeybees",1,0.34,540,NA,NA,NA
"Nicolas_J_Vereecken_Fragaria_x_ananassa_Belgium_2019","Ferme_du_Chateau","Net","Apis mellifera","species","honeybees",1,0.34,540,NA,NA,NA
"Nicolas_J_Vereecken_Fragaria_x_ananassa_Belgium_2019","Ferme_du_Chateau","Net","Apis mellifera","species","honeybees",1,0.34,540,NA,NA,NA
"Nicolas_J_Vereecken_Fragaria_x_ananassa_Belgium_2019","Ferme_du_Chateau","Net","Apis mellifera","species","honeybees",1,0.34,540,NA,NA,NA
"Nicolas_J_Vereecken_Fragaria_x_ananassa_Belgium_2019","Ferme_du_Chateau","Net","Apis mellifera","species","honeybees",1,0.34,540,NA,NA,NA
"Nicolas_J_Vereecken_Fragaria_x_ananassa_Belgium_2019","Ferme_du_Chateau","Net","Apis mellifera","species","honeybees",1,0.34,540,NA,NA,NA
"Nicolas_J_Vereecken_Fragaria_x_ananassa_Belgium_2019","Ferme_du_Chateau","Net","Apis mellifera","species","honeybees",1,0.34,540,NA,NA,NA
"Nicolas_J_Vereecken_Fragaria_x_ananassa_Belgium_2019","Ferme_du_Chateau","Net","Apis mellifera","species","honeybees",1,0.34,540,NA,NA,NA
"Nicolas_J_Vereecken_Fragaria_x_ananassa_Belgium_2019","Ferme_du_Chateau","Net","Apis mellifera","species","honeybees",1,0.34,540,NA,NA,NA
"Nicolas_J_Vereecken_Fragaria_x_ananassa_Belgium_2019","Ferme_du_Chateau","Net","Apis mellifera","species","honeybees",1,0.34,540,NA,NA,NA
"Nicolas_J_Vereecken_Fragaria_x_ananassa_Belgium_2019","Ferme_du_Chateau","Net","Apis mellifera","species","honeybees",1,0.34,540,NA,NA,NA
"Nicolas_J_Vereecken_Fragaria_x_ananassa_Belgium_2019","Ferme_du_Chateau","Net","Apis mellifera","species","honeybees",1,0.34,540,NA,NA,NA
"Nicolas_J_Vereecken_Fragaria_x_ananassa_Belgium_2019","Ferme_du_Chateau","Net","Apis mellifera","species","honeybees",1,0.34,540,NA,NA,NA
"Nicolas_J_Vereecken_Fragaria_x_ananassa_Belgium_2019","Ferme_du_Chateau","Net","Apis mellifera","species","honeybees",1,0.34,540,NA,NA,NA
"Nicolas_J_Vereecken_Fragaria_x_ananassa_Belgium_2019","Ferme_du_Chateau","Net","Apis mellifera","species","honeybees",1,0.34,540,NA,NA,NA
"Nicolas_J_Vereecken_Fragaria_x_ananassa_Belgium_2019","Ferme_du_Chateau","Net","Apis mellifera","species","honeybees",1,0.34,540,NA,NA,NA
"Nicolas_J_Vereecken_Fragaria_x_ananassa_Belgium_2019","Ferme_du_Chateau","Net","Apis mellifera","species","honeybees",1,0.34,540,NA,NA,NA
"Nicolas_J_Vereecken_Fragaria_x_ananassa_Belgium_2019","Ferme_du_Chateau","Net","Apis mellifera","species","honeybees",1,0.34,540,NA,NA,NA
"Nicolas_J_Vereecken_Fragaria_x_ananassa_Belgium_2019","Ferme_du_Chateau","Net","Apis mellifera","species","honeybees",1,0.34,540,NA,NA,NA
"Nicolas_J_Vereecken_Fragaria_x_ananassa_Belgium_2019","Ferme_du_Chateau","Net","Apis mellifera","species","honeybees",1,0.34,540,NA,NA,NA
"Nicolas_J_Vereecken_Fragaria_x_ananassa_Belgium_2019","Ferme_du_Chateau","Net","Apis mellifera","species","honeybees",1,0.34,540,NA,NA,NA
"Nicolas_J_Vereecken_Fragaria_x_ananassa_Belgium_2019","Ferme_du_Chateau","Net","Apis mellifera","species","honeybees",1,0.34,540,NA,NA,NA
"Nicolas_J_Vereecken_Fragaria_x_ananassa_Belgium_2019","Fruits_du_Verger","Net","Apis mellifera","species","honeybees",1,2.92,540,NA,NA,NA
"Nicolas_J_Vereecken_Fragaria_x_ananassa_Belgium_2019","Fruits_du_Verger","Net","Apis mellifera","species","honeybees",1,2.92,540,NA,NA,NA
"Nicolas_J_Vereecken_Fragaria_x_ananassa_Belgium_2019","Fruits_du_Verger","Net","Apis mellifera","species","honeybees",1,2.92,540,NA,NA,NA
"Nicolas_J_Vereecken_Fragaria_x_ananassa_Belgium_2019","Fruits_du_Verger","Net","Apis mellifera","species","honeybees",1,2.92,540,NA,NA,NA
"Nicolas_J_Vereecken_Fragaria_x_ananassa_Belgium_2019","Fruits_du_Verger","Net","Apis mellifera","species","honeybees",1,2.92,540,NA,NA,NA
"Nicolas_J_Vereecken_Fragaria_x_ananassa_Belgium_2019","Fruits_du_Verger","Net","Apis mellifera","species","honeybees",1,2.92,540,NA,NA,NA
"Nicolas_J_Vereecken_Fragaria_x_ananassa_Belgium_2019","Fruits_du_Verger","Net","Apis mellifera","species","honeybees",1,2.92,540,NA,NA,NA
"Nicolas_J_Vereecken_Fragaria_x_ananassa_Belgium_2019","Fruits_du_Verger","Net","Apis mellifera","species","honeybees",1,2.92,540,NA,NA,NA
"Nicolas_J_Vereecken_Fragaria_x_ananassa_Belgium_2019","Fruits_du_Verger","Net","Apis mellifera","species","honeybees",1,2.92,540,NA,NA,NA
"Nicolas_J_Vereecken_Fragaria_x_ananassa_Belgium_2019","Fruits_du_Verger","Net","Apis mellifera","species","honeybees",1,2.92,540,NA,NA,NA
"Nicolas_J_Vereecken_Fragaria_x_ananassa_Belgium_2019","Fruits_du_Verger","Net","Apis mellifera","species","honeybees",1,2.92,540,NA,NA,NA
"Nicolas_J_Vereecken_Fragaria_x_ananassa_Belgium_2019","Fruits_du_Verger","Net","Apis mellifera","species","honeybees",1,2.92,540,NA,NA,NA
"Nicolas_J_Vereecken_Fragaria_x_ananassa_Belgium_2019","Fruits_du_Verger","Net","Apis mellifera","species","honeybees",1,2.92,540,NA,NA,NA
"Nicolas_J_Vereecken_Fragaria_x_ananassa_Belgium_2019","Val-Notre-Dame","Net","Apis mellifera","species","honeybees",1,1.53,540,NA,NA,NA
"Nicolas_J_Vereecken_Fragaria_x_ananassa_Belgium_2019","Val-Notre-Dame","Net","Apis mellifera","species","honeybees",1,1.53,540,NA,NA,NA
"Nicolas_J_Vereecken_Fragaria_x_ananassa_Belgium_2019","Val-Notre-Dame","Net","Apis mellifera","species","honeybees",1,1.53,540,NA,NA,NA
"Nicolas_J_Vereecken_Fragaria_x_ananassa_Belgium_2019","Val-Notre-Dame","Net","Apis mellifera","species","honeybees",1,1.53,540,NA,NA,NA
"Nicolas_J_Vereecken_Fragaria_x_ananassa_Belgium_2019","Val-Notre-Dame","Net","Apis mellifera","species","honeybees",1,1.53,540,NA,NA,NA
"Nicolas_J_Vereecken_Fragaria_x_ananassa_Belgium_2019","Val-Notre-Dame","Net","Apis mellifera","species","honeybees",1,1.53,540,NA,NA,NA
"Nicolas_J_Vereecken_Fragaria_x_ananassa_Belgium_2019","Val-Notre-Dame","Net","Apis mellifera","species","honeybees",1,1.53,540,NA,NA,NA
"Nicolas_J_Vereecken_Fragaria_x_ananassa_Belgium_2019","Val-Notre-Dame","Net","Apis mellifera","species","honeybees",1,1.53,540,NA,NA,NA
"Nicolas_J_Vereecken_Fragaria_x_ananassa_Belgium_2019","Val-Notre-Dame","Net","Apis mellifera","species","honeybees",1,1.53,540,NA,NA,NA
"Nicolas_J_Vereecken_Fragaria_x_ananassa_Belgium_2019","Val-Notre-Dame","Net","Apis mellifera","species","honeybees",1,1.53,540,NA,NA,NA
"Nicolas_J_Vereecken_Fragaria_x_ananassa_Belgium_2019","Val-Notre-Dame","Net","Apis mellifera","species","honeybees",1,1.53,540,NA,NA,NA
"Nicolas_J_Vereecken_Fragaria_x_ananassa_Belgium_2019","Val-Notre-Dame","Net","Apis mellifera","species","honeybees",1,1.53,540,NA,NA,NA
"Nicolas_J_Vereecken_Fragaria_x_ananassa_Belgium_2019","Val-Notre-Dame","Net","Apis mellifera","species","honeybees",1,1.53,540,NA,NA,NA
"Nicolas_J_Vereecken_Fragaria_x_ananassa_Belgium_2019","Val-Notre-Dame","Net","Apis mellifera","species","honeybees",1,1.53,540,NA,NA,NA
"Nicolas_J_Vereecken_Fragaria_x_ananassa_Belgium_2019","Val-Notre-Dame","Net","Apis mellifera","species","honeybees",1,1.53,540,NA,NA,NA
"Nicolas_J_Vereecken_Fragaria_x_ananassa_Belgium_2019","Val-Notre-Dame","Net","Apis mellifera","species","honeybees",1,1.53,540,NA,NA,NA
"Nicolas_J_Vereecken_Fragaria_x_ananassa_Belgium_2019","Val-Notre-Dame","Net","Apis mellifera","species","honeybees",1,1.53,540,NA,NA,NA
"Nicolas_J_Vereecken_Fragaria_x_ananassa_Belgium_2019","Val-Notre-Dame","Net","Apis mellifera","species","honeybees",1,1.53,540,NA,NA,NA
"Nicolas_J_Vereecken_Fragaria_x_ananassa_Belgium_2019","Val-Notre-Dame","Net","Apis mellifera","species","honeybees",1,1.53,540,NA,NA,NA
"Nicolas_J_Vereecken_Fragaria_x_ananassa_Belgium_2019","Val-Notre-Dame","Net","Apis mellifera","species","honeybees",1,1.53,540,NA,NA,NA
"Nicolas_J_Vereecken_Fragaria_x_ananassa_Belgium_2019","Val-Notre-Dame","Net","Apis mellifera","species","honeybees",1,1.53,540,NA,NA,NA
"Nicolas_J_Vereecken_Fragaria_x_ananassa_Belgium_2019","Val-Notre-Dame","Net","Apis mellifera","species","honeybees",1,1.53,540,NA,NA,NA
"Nicolas_J_Vereecken_Fragaria_x_ananassa_Belgium_2019","Val-Notre-Dame","Net","Apis mellifera","species","honeybees",1,1.53,540,NA,NA,NA
"Nicolas_J_Vereecken_Fragaria_x_ananassa_Belgium_2019","Val-Notre-Dame","Net","Apis mellifera","species","honeybees",1,1.53,540,NA,NA,NA
"Nicolas_J_Vereecken_Fragaria_x_ananassa_Belgium_2019","Val-Notre-Dame","Net","Apis mellifera","species","honeybees",1,1.53,540,NA,NA,NA
"Nicolas_J_Vereecken_Fragaria_x_ananassa_Belgium_2019","Val-Notre-Dame","Net","Apis mellifera","species","honeybees",1,1.53,540,NA,NA,NA
"Nicolas_J_Vereecken_Fragaria_x_ananassa_Belgium_2019","Val-Notre-Dame","Net","Apis mellifera","species","honeybees",1,1.53,540,NA,NA,NA
"Nicolas_J_Vereecken_Fragaria_x_ananassa_Belgium_2019","Val-Notre-Dame","Net","Apis mellifera","species","honeybees",1,1.53,540,NA,NA,NA
"Nicolas_J_Vereecken_Fragaria_x_ananassa_Belgium_2019","Val-Notre-Dame","Net","Apis mellifera","species","honeybees",1,1.53,540,NA,NA,NA
"Nicolas_J_Vereecken_Fragaria_x_ananassa_Belgium_2019","Val-Notre-Dame","Net","Apis mellifera","species","honeybees",1,1.53,540,NA,NA,NA
"Nicolas_J_Vereecken_Fragaria_x_ananassa_Belgium_2019","Val-Notre-Dame","Net","Apis mellifera","species","honeybees",1,1.53,540,NA,NA,NA
"Nicolas_J_Vereecken_Fragaria_x_ananassa_Belgium_2019","Val-Notre-Dame","Net","Apis mellifera","species","honeybees",1,1.53,540,NA,NA,NA
"Nicolas_J_Vereecken_Fragaria_x_ananassa_Belgium_2019","Val-Notre-Dame","Net","Apis mellifera","species","honeybees",1,1.53,540,NA,NA,NA
"Nicolas_J_Vereecken_Fragaria_x_ananassa_Belgium_2019","Val-Notre-Dame","Net","Apis mellifera","species","honeybees",1,1.53,540,NA,NA,NA
"Nicolas_J_Vereecken_Fragaria_x_ananassa_Belgium_2019","Val-Notre-Dame","Net","Apis mellifera","species","honeybees",1,1.53,540,NA,NA,NA
"Nicolas_J_Vereecken_Fragaria_x_ananassa_Belgium_2019","Val-Notre-Dame","Net","Apis mellifera","species","honeybees",1,1.53,540,NA,NA,NA
"Nicolas_J_Vereecken_Fragaria_x_ananassa_Belgium_2019","Val-Notre-Dame","Net","Apis mellifera","species","honeybees",1,1.53,540,NA,NA,NA
"Nicolas_J_Vereecken_Fragaria_x_ananassa_Belgium_2019","Val-Notre-Dame","Net","Apis mellifera","species","honeybees",1,1.53,540,NA,NA,NA
"Nicolas_J_Vereecken_Fragaria_x_ananassa_Belgium_2019","Val-Notre-Dame","Net","Apis mellifera","species","honeybees",1,1.53,540,NA,NA,NA
"Nicolas_J_Vereecken_Fragaria_x_ananassa_Belgium_2019","Val-Notre-Dame","Net","Apis mellifera","species","honeybees",1,1.53,540,NA,NA,NA
"Nicolas_J_Vereecken_Fragaria_x_ananassa_Belgium_2019","Val-Notre-Dame","Net","Apis mellifera","species","honeybees",1,1.53,540,NA,NA,NA
"Nicolas_J_Vereecken_Fragaria_x_ananassa_Belgium_2019","Val-Notre-Dame","Net","Apis mellifera","species","honeybees",1,1.53,540,NA,NA,NA
"Nicolas_J_Vereecken_Fragaria_x_ananassa_Belgium_2019","Val-Notre-Dame","Net","Apis mellifera","species","honeybees",1,1.53,540,NA,NA,NA
"Nicolas_J_Vereecken_Fragaria_x_ananassa_Belgium_2019","Val-Notre-Dame","Net","Apis mellifera","species","honeybees",1,1.53,540,NA,NA,NA
"Nicolas_J_Vereecken_Fragaria_x_ananassa_Belgium_2019","Val-Notre-Dame","Net","Apis mellifera","species","honeybees",1,1.53,540,NA,NA,NA
"Nicolas_J_Vereecken_Fragaria_x_ananassa_Belgium_2019","Val-Notre-Dame","Net","Apis mellifera","species","honeybees",1,1.53,540,NA,NA,NA
"Nicolas_J_Vereecken_Fragaria_x_ananassa_Belgium_2019","Coin_des_Champs","Net","Bombus hypnorum","species","bumblebees",1,1.85,540,NA,NA,NA
"Nicolas_J_Vereecken_Fragaria_x_ananassa_Belgium_2019","Coin_des_Champs","Net","Bombus lapidarius","species","bumblebees",1,1.85,540,NA,NA,NA
"Nicolas_J_Vereecken_Fragaria_x_ananassa_Belgium_2019","Coin_des_Champs","Net","Bombus pratorum","species","bumblebees",1,1.85,540,NA,NA,NA
"Nicolas_J_Vereecken_Fragaria_x_ananassa_Belgium_2019","Ferme_du_Chateau","Net","Bombus pratorum","species","bumblebees",1,0.34,540,NA,NA,NA
"Nicolas_J_Vereecken_Fragaria_x_ananassa_Belgium_2019","Coin_des_Champs","Net","Bombus terrestris agg.","species complex","bumblebees",1,1.85,540,NA,NA,NA
"Nicolas_J_Vereecken_Fragaria_x_ananassa_Belgium_2019","Coin_des_Champs","Net","Bombus terrestris agg.","species complex","bumblebees",1,1.85,540,NA,NA,NA
"Nicolas_J_Vereecken_Fragaria_x_ananassa_Belgium_2019","Coin_des_Champs","Net","Bombus terrestris agg.","species complex","bumblebees",1,1.85,540,NA,NA,NA
"Nicolas_J_Vereecken_Fragaria_x_ananassa_Belgium_2019","Coin_des_Champs","Net","Bombus terrestris agg.","species complex","bumblebees",1,1.85,540,NA,NA,NA
"Nicolas_J_Vereecken_Fragaria_x_ananassa_Belgium_2019","Coin_des_Champs","Net","Bombus terrestris agg.","species complex","bumblebees",1,1.85,540,NA,NA,NA
"Nicolas_J_Vereecken_Fragaria_x_ananassa_Belgium_2019","Coin_des_Champs","Net","Bombus terrestris agg.","species complex","bumblebees",1,1.85,540,NA,NA,NA
"Nicolas_J_Vereecken_Fragaria_x_ananassa_Belgium_2019","Coin_des_Champs","Net","Bombus terrestris agg.","species complex","bumblebees",1,1.85,540,NA,NA,NA
"Nicolas_J_Vereecken_Fragaria_x_ananassa_Belgium_2019","Coin_des_Champs","Net","Bombus terrestris agg.","species complex","bumblebees",1,1.85,540,NA,NA,NA
"Nicolas_J_Vereecken_Fragaria_x_ananassa_Belgium_2019","Coin_des_Champs","Net","Bombus terrestris agg.","species complex","bumblebees",1,1.85,540,NA,NA,NA
"Nicolas_J_Vereecken_Fragaria_x_ananassa_Belgium_2019","Coin_des_Champs","Net","Bombus terrestris agg.","species complex","bumblebees",1,1.85,540,NA,NA,NA
"Nicolas_J_Vereecken_Fragaria_x_ananassa_Belgium_2019","Coin_des_Champs","Net","Bombus terrestris agg.","species complex","bumblebees",1,1.85,540,NA,NA,NA
"Nicolas_J_Vereecken_Fragaria_x_ananassa_Belgium_2019","Coin_des_Champs","Net","Bombus terrestris agg.","species complex","bumblebees",1,1.85,540,NA,NA,NA
"Nicolas_J_Vereecken_Fragaria_x_ananassa_Belgium_2019","Coin_des_Champs","Net","Bombus terrestris agg.","species complex","bumblebees",1,1.85,540,NA,NA,NA
"Nicolas_J_Vereecken_Fragaria_x_ananassa_Belgium_2019","Coin_des_Champs","Net","Bombus terrestris agg.","species complex","bumblebees",1,1.85,540,NA,NA,NA
"Nicolas_J_Vereecken_Fragaria_x_ananassa_Belgium_2019","Coin_des_Champs","Net","Bombus terrestris agg.","species complex","bumblebees",1,1.85,540,NA,NA,NA
"Nicolas_J_Vereecken_Fragaria_x_ananassa_Belgium_2019","Coin_des_Champs","Net","Bombus terrestris agg.","species complex","bumblebees",1,1.85,540,NA,NA,NA
"Nicolas_J_Vereecken_Fragaria_x_ananassa_Belgium_2019","Coin_des_Champs","Net","Bombus terrestris agg.","species complex","bumblebees",1,1.85,540,NA,NA,NA
"Nicolas_J_Vereecken_Fragaria_x_ananassa_Belgium_2019","Coin_des_Champs","Net","Bombus terrestris agg.","species complex","bumblebees",1,1.85,540,NA,NA,NA
"Nicolas_J_Vereecken_Fragaria_x_ananassa_Belgium_2019","Coin_des_Champs","Net","Bombus terrestris agg.","species complex","bumblebees",1,1.85,540,NA,NA,NA
"Nicolas_J_Vereecken_Fragaria_x_ananassa_Belgium_2019","Coin_des_Champs","Net","Bombus terrestris agg.","species complex","bumblebees",1,1.85,540,NA,NA,NA
"Nicolas_J_Vereecken_Fragaria_x_ananassa_Belgium_2019","Coin_des_Champs","Net","Bombus terrestris agg.","species complex","bumblebees",1,1.85,540,NA,NA,NA
"Nicolas_J_Vereecken_Fragaria_x_ananassa_Belgium_2019","Coin_des_Champs","Net","Bombus terrestris agg.","species complex","bumblebees",1,1.85,540,NA,NA,NA
"Nicolas_J_Vereecken_Fragaria_x_ananassa_Belgium_2019","Coin_des_Champs","Net","Bombus terrestris agg.","species complex","bumblebees",1,1.85,540,NA,NA,NA
"Nicolas_J_Vereecken_Fragaria_x_ananassa_Belgium_2019","Coin_des_Champs","Net","Bombus terrestris agg.","species complex","bumblebees",1,1.85,540,NA,NA,NA
"Nicolas_J_Vereecken_Fragaria_x_ananassa_Belgium_2019","Coin_des_Champs","Net","Bombus terrestris agg.","species complex","bumblebees",1,1.85,540,NA,NA,NA
"Nicolas_J_Vereecken_Fragaria_x_ananassa_Belgium_2019","Coin_des_Champs","Net","Bombus terrestris agg.","species complex","bumblebees",1,1.85,540,NA,NA,NA
"Nicolas_J_Vereecken_Fragaria_x_ananassa_Belgium_2019","Ferme_du_Chateau","Net","Bombus terrestris agg.","species complex","bumblebees",1,0.34,540,NA,NA,NA
"Nicolas_J_Vereecken_Fragaria_x_ananassa_Belgium_2019","Fruits_du_Verger","Net","Bombus terrestris agg.","species complex","bumblebees",1,2.92,540,NA,NA,NA
"Nicolas_J_Vereecken_Fragaria_x_ananassa_Belgium_2019","Fruits_du_Verger","Net","Bombus terrestris agg.","species complex","bumblebees",1,2.92,540,NA,NA,NA
"Nicolas_J_Vereecken_Fragaria_x_ananassa_Belgium_2019","Fruits_du_Verger","Net","Bombus terrestris agg.","species complex","bumblebees",1,2.92,540,NA,NA,NA
"Nicolas_J_Vereecken_Fragaria_x_ananassa_Belgium_2019","Fruits_du_Verger","Net","Bombus terrestris agg.","species complex","bumblebees",1,2.92,540,NA,NA,NA
"Nicolas_J_Vereecken_Fragaria_x_ananassa_Belgium_2019","Fruits_du_Verger","Net","Bombus terrestris agg.","species complex","bumblebees",1,2.92,540,NA,NA,NA
"Nicolas_J_Vereecken_Fragaria_x_ananassa_Belgium_2019","Fruits_du_Verger","Net","Bombus terrestris agg.","species complex","bumblebees",1,2.92,540,NA,NA,NA
"Nicolas_J_Vereecken_Fragaria_x_ananassa_Belgium_2019","Fruits_du_Verger","Net","Bombus terrestris agg.","species complex","bumblebees",1,2.92,540,NA,NA,NA
"Nicolas_J_Vereecken_Fragaria_x_ananassa_Belgium_2019","Fruits_du_Verger","Net","Bombus terrestris agg.","species complex","bumblebees",1,2.92,540,NA,NA,NA
"Nicolas_J_Vereecken_Fragaria_x_ananassa_Belgium_2019","Fruits_du_Verger","Net","Bombus terrestris agg.","species complex","bumblebees",1,2.92,540,NA,NA,NA
"Nicolas_J_Vereecken_Fragaria_x_ananassa_Belgium_2019","Fruits_du_Verger","Net","Bombus terrestris agg.","species complex","bumblebees",1,2.92,540,NA,NA,NA
"Nicolas_J_Vereecken_Fragaria_x_ananassa_Belgium_2019","Fruits_du_Verger","Net","Bombus terrestris agg.","species complex","bumblebees",1,2.92,540,NA,NA,NA
"Nicolas_J_Vereecken_Fragaria_x_ananassa_Belgium_2019","Fruits_du_Verger","Net","Bombus terrestris agg.","species complex","bumblebees",1,2.92,540,NA,NA,NA
"Nicolas_J_Vereecken_Fragaria_x_ananassa_Belgium_2019","Fruits_du_Verger","Net","Bombus terrestris agg.","species complex","bumblebees",1,2.92,540,NA,NA,NA
"Nicolas_J_Vereecken_Fragaria_x_ananassa_Belgium_2019","Fruits_du_Verger","Net","Bombus terrestris agg.","species complex","bumblebees",1,2.92,540,NA,NA,NA
"Nicolas_J_Vereecken_Fragaria_x_ananassa_Belgium_2019","Fruits_du_Verger","Net","Bombus terrestris agg.","species complex","bumblebees",1,2.92,540,NA,NA,NA
"Nicolas_J_Vereecken_Fragaria_x_ananassa_Belgium_2019","Fruits_du_Verger","Net","Bombus terrestris agg.","species complex","bumblebees",1,2.92,540,NA,NA,NA
"Nicolas_J_Vereecken_Fragaria_x_ananassa_Belgium_2019","Fruits_du_Verger","Net","Bombus terrestris agg.","species complex","bumblebees",1,2.92,540,NA,NA,NA
"Nicolas_J_Vereecken_Fragaria_x_ananassa_Belgium_2019","Fruits_du_Verger","Net","Bombus terrestris agg.","species complex","bumblebees",1,2.92,540,NA,NA,NA
"Nicolas_J_Vereecken_Fragaria_x_ananassa_Belgium_2019","Fruits_du_Verger","Net","Bombus terrestris agg.","species complex","bumblebees",1,2.92,540,NA,NA,NA
"Nicolas_J_Vereecken_Fragaria_x_ananassa_Belgium_2019","Fruits_du_Verger","Net","Bombus terrestris agg.","species complex","bumblebees",1,2.92,540,NA,NA,NA
"Nicolas_J_Vereecken_Fragaria_x_ananassa_Belgium_2019","Fruits_du_Verger","Net","Bombus terrestris agg.","species complex","bumblebees",1,2.92,540,NA,NA,NA
"Nicolas_J_Vereecken_Fragaria_x_ananassa_Belgium_2019","Fruits_du_Verger","Net","Bombus terrestris agg.","species complex","bumblebees",1,2.92,540,NA,NA,NA
"Nicolas_J_Vereecken_Fragaria_x_ananassa_Belgium_2019","Fruits_du_Verger","Net","Bombus terrestris agg.","species complex","bumblebees",1,2.92,540,NA,NA,NA
"Nicolas_J_Vereecken_Fragaria_x_ananassa_Belgium_2019","Fruits_du_Verger","Net","Bombus terrestris agg.","species complex","bumblebees",1,2.92,540,NA,NA,NA
"Nicolas_J_Vereecken_Fragaria_x_ananassa_Belgium_2019","Fruits_du_Verger","Net","Bombus terrestris agg.","species complex","bumblebees",1,2.92,540,NA,NA,NA
"Nicolas_J_Vereecken_Fragaria_x_ananassa_Belgium_2019","Fruits_du_Verger","Net","Bombus terrestris agg.","species complex","bumblebees",1,2.92,540,NA,NA,NA
"Nicolas_J_Vereecken_Fragaria_x_ananassa_Belgium_2019","Fruits_du_Verger","Net","Bombus terrestris agg.","species complex","bumblebees",1,2.92,540,NA,NA,NA
"Nicolas_J_Vereecken_Fragaria_x_ananassa_Belgium_2019","Fruits_du_Verger","Net","Bombus terrestris agg.","species complex","bumblebees",1,2.92,540,NA,NA,NA
"Nicolas_J_Vereecken_Fragaria_x_ananassa_Belgium_2019","Fruits_du_Verger","Net","Bombus terrestris agg.","species complex","bumblebees",1,2.92,540,NA,NA,NA
"Nicolas_J_Vereecken_Fragaria_x_ananassa_Belgium_2019","Fruits_du_Verger","Net","Bombus terrestris agg.","species complex","bumblebees",1,2.92,540,NA,NA,NA
"Nicolas_J_Vereecken_Fragaria_x_ananassa_Belgium_2019","Fruits_du_Verger","Net","Bombus terrestris agg.","species complex","bumblebees",1,2.92,540,NA,NA,NA
"Nicolas_J_Vereecken_Fragaria_x_ananassa_Belgium_2019","Fruits_du_Verger","Net","Bombus terrestris agg.","species complex","bumblebees",1,2.92,540,NA,NA,NA
"Nicolas_J_Vereecken_Fragaria_x_ananassa_Belgium_2019","Fruits_du_Verger","Net","Bombus terrestris agg.","species complex","bumblebees",1,2.92,540,NA,NA,NA
"Nicolas_J_Vereecken_Fragaria_x_ananassa_Belgium_2019","Fruits_du_Verger","Net","Bombus terrestris agg.","species complex","bumblebees",1,2.92,540,NA,NA,NA
"Nicolas_J_Vereecken_Fragaria_x_ananassa_Belgium_2019","Fruits_du_Verger","Net","Bombus terrestris agg.","species complex","bumblebees",1,2.92,540,NA,NA,NA
"Nicolas_J_Vereecken_Fragaria_x_ananassa_Belgium_2019","Fruits_du_Verger","Net","Bombus terrestris agg.","species complex","bumblebees",1,2.92,540,NA,NA,NA
"Nicolas_J_Vereecken_Fragaria_x_ananassa_Belgium_2019","Fruits_du_Verger","Net","Bombus terrestris agg.","species complex","bumblebees",1,2.92,540,NA,NA,NA
"Nicolas_J_Vereecken_Fragaria_x_ananassa_Belgium_2019","Fruits_du_Verger","Net","Bombus terrestris agg.","species complex","bumblebees",1,2.92,540,NA,NA,NA
"Nicolas_J_Vereecken_Fragaria_x_ananassa_Belgium_2019","Fruits_du_Verger","Net","Bombus terrestris agg.","species complex","bumblebees",1,2.92,540,NA,NA,NA
"Nicolas_J_Vereecken_Fragaria_x_ananassa_Belgium_2019","Fruits_du_Verger","Net","Bombus terrestris agg.","species complex","bumblebees",1,2.92,540,NA,NA,NA
"Nicolas_J_Vereecken_Fragaria_x_ananassa_Belgium_2019","Fruits_du_Verger","Net","Bombus terrestris agg.","species complex","bumblebees",1,2.92,540,NA,NA,NA
"Nicolas_J_Vereecken_Fragaria_x_ananassa_Belgium_2019","Fruits_du_Verger","Net","Bombus terrestris agg.","species complex","bumblebees",1,2.92,540,NA,NA,NA
"Nicolas_J_Vereecken_Fragaria_x_ananassa_Belgium_2019","Fruits_du_Verger","Net","Bombus terrestris agg.","species complex","bumblebees",1,2.92,540,NA,NA,NA
"Nicolas_J_Vereecken_Fragaria_x_ananassa_Belgium_2019","Fruits_du_Verger","Net","Bombus terrestris agg.","species complex","bumblebees",1,2.92,540,NA,NA,NA
"Nicolas_J_Vereecken_Fragaria_x_ananassa_Belgium_2019","Fruits_du_Verger","Net","Bombus terrestris agg.","species complex","bumblebees",1,2.92,540,NA,NA,NA
"Nicolas_J_Vereecken_Fragaria_x_ananassa_Belgium_2019","Fruits_du_Verger","Net","Bombus terrestris agg.","species complex","bumblebees",1,2.92,540,NA,NA,NA
"Nicolas_J_Vereecken_Fragaria_x_ananassa_Belgium_2019","Fruits_du_Verger","Net","Bombus terrestris agg.","species complex","bumblebees",1,2.92,540,NA,NA,NA
"Nicolas_J_Vereecken_Fragaria_x_ananassa_Belgium_2019","Fruits_du_Verger","Net","Bombus terrestris agg.","species complex","bumblebees",1,2.92,540,NA,NA,NA
"Nicolas_J_Vereecken_Fragaria_x_ananassa_Belgium_2019","Fruits_du_Verger","Net","Bombus terrestris agg.","species complex","bumblebees",1,2.92,540,NA,NA,NA
"Nicolas_J_Vereecken_Fragaria_x_ananassa_Belgium_2019","Fruits_du_Verger","Net","Bombus terrestris agg.","species complex","bumblebees",1,2.92,540,NA,NA,NA
"Nicolas_J_Vereecken_Fragaria_x_ananassa_Belgium_2019","Fruits_du_Verger","Net","Bombus terrestris agg.","species complex","bumblebees",1,2.92,540,NA,NA,NA
"Nicolas_J_Vereecken_Fragaria_x_ananassa_Belgium_2019","Fruits_du_Verger","Net","Bombus terrestris agg.","species complex","bumblebees",1,2.92,540,NA,NA,NA
"Nicolas_J_Vereecken_Fragaria_x_ananassa_Belgium_2019","Fruits_du_Verger","Net","Bombus terrestris agg.","species complex","bumblebees",1,2.92,540,NA,NA,NA
"Nicolas_J_Vereecken_Fragaria_x_ananassa_Belgium_2019","Fruits_du_Verger","Net","Bombus terrestris agg.","species complex","bumblebees",1,2.92,540,NA,NA,NA
"Nicolas_J_Vereecken_Fragaria_x_ananassa_Belgium_2019","Fruits_du_Verger","Net","Bombus terrestris agg.","species complex","bumblebees",1,2.92,540,NA,NA,NA
"Nicolas_J_Vereecken_Fragaria_x_ananassa_Belgium_2019","Fruits_du_Verger","Net","Bombus terrestris agg.","species complex","bumblebees",1,2.92,540,NA,NA,NA
"Nicolas_J_Vereecken_Fragaria_x_ananassa_Belgium_2019","Fruits_du_Verger","Net","Bombus terrestris agg.","species complex","bumblebees",1,2.92,540,NA,NA,NA
"Nicolas_J_Vereecken_Fragaria_x_ananassa_Belgium_2019","Fruits_du_Verger","Net","Bombus terrestris agg.","species complex","bumblebees",1,2.92,540,NA,NA,NA
"Nicolas_J_Vereecken_Fragaria_x_ananassa_Belgium_2019","Fruits_du_Verger","Net","Bombus terrestris agg.","species complex","bumblebees",1,2.92,540,NA,NA,NA
"Nicolas_J_Vereecken_Fragaria_x_ananassa_Belgium_2019","Fruits_du_Verger","Net","Bombus terrestris agg.","species complex","bumblebees",1,2.92,540,NA,NA,NA
"Nicolas_J_Vereecken_Fragaria_x_ananassa_Belgium_2019","Fruits_du_Verger","Net","Bombus terrestris agg.","species complex","bumblebees",1,2.92,540,NA,NA,NA
"Nicolas_J_Vereecken_Fragaria_x_ananassa_Belgium_2019","Fruits_du_Verger","Net","Bombus terrestris agg.","species complex","bumblebees",1,2.92,540,NA,NA,NA
"Nicolas_J_Vereecken_Fragaria_x_ananassa_Belgium_2019","Fruits_du_Verger","Net","Bombus terrestris agg.","species complex","bumblebees",1,2.92,540,NA,NA,NA
"Nicolas_J_Vereecken_Fragaria_x_ananassa_Belgium_2019","Fruits_du_Verger","Net","Bombus terrestris agg.","species complex","bumblebees",1,2.92,540,NA,NA,NA
"Nicolas_J_Vereecken_Fragaria_x_ananassa_Belgium_2019","Fruits_du_Verger","Net","Bombus terrestris agg.","species complex","bumblebees",1,2.92,540,NA,NA,NA
"Nicolas_J_Vereecken_Fragaria_x_ananassa_Belgium_2019","Fruits_du_Verger","Net","Bombus terrestris agg.","species complex","bumblebees",1,2.92,540,NA,NA,NA
"Nicolas_J_Vereecken_Fragaria_x_ananassa_Belgium_2019","Fruits_du_Verger","Net","Bombus terrestris agg.","species complex","bumblebees",1,2.92,540,NA,NA,NA
"Nicolas_J_Vereecken_Fragaria_x_ananassa_Belgium_2019","Fruits_du_Verger","Net","Bombus terrestris agg.","species complex","bumblebees",1,2.92,540,NA,NA,NA
"Nicolas_J_Vereecken_Fragaria_x_ananassa_Belgium_2019","Fruits_du_Verger","Net","Bombus terrestris agg.","species complex","bumblebees",1,2.92,540,NA,NA,NA
"Nicolas_J_Vereecken_Fragaria_x_ananassa_Belgium_2019","Fruits_du_Verger","Net","Bombus terrestris agg.","species complex","bumblebees",1,2.92,540,NA,NA,NA
"Nicolas_J_Vereecken_Fragaria_x_ananassa_Belgium_2019","Fruits_du_Verger","Net","Bombus terrestris agg.","species complex","bumblebees",1,2.92,540,NA,NA,NA
"Nicolas_J_Vereecken_Fragaria_x_ananassa_Belgium_2019","Fruits_du_Verger","Net","Bombus terrestris agg.","species complex","bumblebees",1,2.92,540,NA,NA,NA
"Nicolas_J_Vereecken_Fragaria_x_ananassa_Belgium_2019","Fruits_du_Verger","Net","Bombus terrestris agg.","species complex","bumblebees",1,2.92,540,NA,NA,NA
"Nicolas_J_Vereecken_Fragaria_x_ananassa_Belgium_2019","Fruits_du_Verger","Net","Bombus terrestris agg.","species complex","bumblebees",1,2.92,540,NA,NA,NA
"Nicolas_J_Vereecken_Fragaria_x_ananassa_Belgium_2019","Fruits_du_Verger","Net","Bombus terrestris agg.","species complex","bumblebees",1,2.92,540,NA,NA,NA
"Nicolas_J_Vereecken_Fragaria_x_ananassa_Belgium_2019","Fruits_du_Verger","Net","Bombus terrestris agg.","species complex","bumblebees",1,2.92,540,NA,NA,NA
"Nicolas_J_Vereecken_Fragaria_x_ananassa_Belgium_2019","Fruits_du_Verger","Net","Bombus terrestris agg.","species complex","bumblebees",1,2.92,540,NA,NA,NA
"Nicolas_J_Vereecken_Fragaria_x_ananassa_Belgium_2019","Fruits_du_Verger","Net","Bombus terrestris agg.","species complex","bumblebees",1,2.92,540,NA,NA,NA
"Nicolas_J_Vereecken_Fragaria_x_ananassa_Belgium_2019","Fruits_du_Verger","Net","Bombus terrestris agg.","species complex","bumblebees",1,2.92,540,NA,NA,NA
"Nicolas_J_Vereecken_Fragaria_x_ananassa_Belgium_2019","Fruits_du_Verger","Net","Bombus terrestris agg.","species complex","bumblebees",1,2.92,540,NA,NA,NA
"Nicolas_J_Vereecken_Fragaria_x_ananassa_Belgium_2019","Fruits_du_Verger","Net","Bombus terrestris agg.","species complex","bumblebees",1,2.92,540,NA,NA,NA
"Nicolas_J_Vereecken_Fragaria_x_ananassa_Belgium_2019","Fruits_du_Verger","Net","Bombus terrestris agg.","species complex","bumblebees",1,2.92,540,NA,NA,NA
"Nicolas_J_Vereecken_Fragaria_x_ananassa_Belgium_2019","Fruits_du_Verger","Net","Bombus terrestris agg.","species complex","bumblebees",1,2.92,540,NA,NA,NA
"Nicolas_J_Vereecken_Fragaria_x_ananassa_Belgium_2019","Fruits_du_Verger","Net","Bombus terrestris agg.","species complex","bumblebees",1,2.92,540,NA,NA,NA
"Nicolas_J_Vereecken_Fragaria_x_ananassa_Belgium_2019","Fruits_du_Verger","Net","Bombus terrestris agg.","species complex","bumblebees",1,2.92,540,NA,NA,NA
"Nicolas_J_Vereecken_Fragaria_x_ananassa_Belgium_2019","Fruits_du_Verger","Net","Bombus terrestris agg.","species complex","bumblebees",1,2.92,540,NA,NA,NA
"Nicolas_J_Vereecken_Fragaria_x_ananassa_Belgium_2019","Fruits_du_Verger","Net","Bombus terrestris agg.","species complex","bumblebees",1,2.92,540,NA,NA,NA
"Nicolas_J_Vereecken_Fragaria_x_ananassa_Belgium_2019","Fruits_du_Verger","Net","Bombus terrestris agg.","species complex","bumblebees",1,2.92,540,NA,NA,NA
"Nicolas_J_Vereecken_Fragaria_x_ananassa_Belgium_2019","Fruits_du_Verger","Net","Bombus terrestris agg.","species complex","bumblebees",1,2.92,540,NA,NA,NA
"Nicolas_J_Vereecken_Fragaria_x_ananassa_Belgium_2019","Fruits_du_Verger","Net","Bombus terrestris agg.","species complex","bumblebees",1,2.92,540,NA,NA,NA
"Nicolas_J_Vereecken_Fragaria_x_ananassa_Belgium_2019","Fruits_du_Verger","Net","Bombus terrestris agg.","species complex","bumblebees",1,2.92,540,NA,NA,NA
"Nicolas_J_Vereecken_Fragaria_x_ananassa_Belgium_2019","Fruits_du_Verger","Net","Bombus terrestris agg.","species complex","bumblebees",1,2.92,540,NA,NA,NA
"Nicolas_J_Vereecken_Fragaria_x_ananassa_Belgium_2019","Fruits_du_Verger","Net","Bombus terrestris agg.","species complex","bumblebees",1,2.92,540,NA,NA,NA
"Nicolas_J_Vereecken_Fragaria_x_ananassa_Belgium_2019","Fruits_du_Verger","Net","Bombus terrestris agg.","species complex","bumblebees",1,2.92,540,NA,NA,NA
"Nicolas_J_Vereecken_Fragaria_x_ananassa_Belgium_2019","Fruits_du_Verger","Net","Bombus terrestris agg.","species complex","bumblebees",1,2.92,540,NA,NA,NA
"Nicolas_J_Vereecken_Fragaria_x_ananassa_Belgium_2019","Fruits_du_Verger","Net","Bombus terrestris agg.","species complex","bumblebees",1,2.92,540,NA,NA,NA
"Nicolas_J_Vereecken_Fragaria_x_ananassa_Belgium_2019","Fruits_du_Verger","Net","Bombus terrestris agg.","species complex","bumblebees",1,2.92,540,NA,NA,NA
"Nicolas_J_Vereecken_Fragaria_x_ananassa_Belgium_2019","Fruits_du_Verger","Net","Bombus terrestris agg.","species complex","bumblebees",1,2.92,540,NA,NA,NA
"Nicolas_J_Vereecken_Fragaria_x_ananassa_Belgium_2019","Fruits_du_Verger","Net","Bombus terrestris agg.","species complex","bumblebees",1,2.92,540,NA,NA,NA
"Nicolas_J_Vereecken_Fragaria_x_ananassa_Belgium_2019","Fruits_du_Verger","Net","Bombus terrestris agg.","species complex","bumblebees",1,2.92,540,NA,NA,NA
"Nicolas_J_Vereecken_Fragaria_x_ananassa_Belgium_2019","Fruits_du_Verger","Net","Bombus terrestris agg.","species complex","bumblebees",1,2.92,540,NA,NA,NA
"Nicolas_J_Vereecken_Fragaria_x_ananassa_Belgium_2019","Fruits_du_Verger","Net","Bombus terrestris agg.","species complex","bumblebees",1,2.92,540,NA,NA,NA
"Nicolas_J_Vereecken_Fragaria_x_ananassa_Belgium_2019","Fruits_du_Verger","Net","Bombus terrestris agg.","species complex","bumblebees",1,2.92,540,NA,NA,NA
"Nicolas_J_Vereecken_Fragaria_x_ananassa_Belgium_2019","Fruits_du_Verger","Net","Bombus terrestris agg.","species complex","bumblebees",1,2.92,540,NA,NA,NA
"Nicolas_J_Vereecken_Fragaria_x_ananassa_Belgium_2019","Fruits_du_Verger","Net","Bombus terrestris agg.","species complex","bumblebees",1,2.92,540,NA,NA,NA
"Nicolas_J_Vereecken_Fragaria_x_ananassa_Belgium_2019","Fruits_du_Verger","Net","Bombus terrestris agg.","species complex","bumblebees",1,2.92,540,NA,NA,NA
"Nicolas_J_Vereecken_Fragaria_x_ananassa_Belgium_2019","Fruits_du_Verger","Net","Bombus terrestris agg.","species complex","bumblebees",1,2.92,540,NA,NA,NA
"Nicolas_J_Vereecken_Fragaria_x_ananassa_Belgium_2019","Fruits_du_Verger","Net","Bombus terrestris agg.","species complex","bumblebees",1,2.92,540,NA,NA,NA
"Nicolas_J_Vereecken_Fragaria_x_ananassa_Belgium_2019","Fruits_du_Verger","Net","Bombus terrestris agg.","species complex","bumblebees",1,2.92,540,NA,NA,NA
"Nicolas_J_Vereecken_Fragaria_x_ananassa_Belgium_2019","Fruits_du_Verger","Net","Bombus terrestris agg.","species complex","bumblebees",1,2.92,540,NA,NA,NA
"Nicolas_J_Vereecken_Fragaria_x_ananassa_Belgium_2019","Fruits_du_Verger","Net","Bombus terrestris agg.","species complex","bumblebees",1,2.92,540,NA,NA,NA
"Nicolas_J_Vereecken_Fragaria_x_ananassa_Belgium_2019","Fruits_du_Verger","Net","Bombus terrestris agg.","species complex","bumblebees",1,2.92,540,NA,NA,NA
"Nicolas_J_Vereecken_Fragaria_x_ananassa_Belgium_2019","Fruits_du_Verger","Net","Bombus terrestris agg.","species complex","bumblebees",1,2.92,540,NA,NA,NA
"Nicolas_J_Vereecken_Fragaria_x_ananassa_Belgium_2019","Fruits_du_Verger","Net","Bombus terrestris agg.","species complex","bumblebees",1,2.92,540,NA,NA,NA
"Nicolas_J_Vereecken_Fragaria_x_ananassa_Belgium_2019","Fruits_du_Verger","Net","Bombus terrestris agg.","species complex","bumblebees",1,2.92,540,NA,NA,NA
"Nicolas_J_Vereecken_Fragaria_x_ananassa_Belgium_2019","Fruits_du_Verger","Net","Bombus terrestris agg.","species complex","bumblebees",1,2.92,540,NA,NA,NA
"Nicolas_J_Vereecken_Fragaria_x_ananassa_Belgium_2019","Fruits_du_Verger","Net","Bombus terrestris agg.","species complex","bumblebees",1,2.92,540,NA,NA,NA
"Nicolas_J_Vereecken_Fragaria_x_ananassa_Belgium_2019","Fruits_du_Verger","Net","Bombus terrestris agg.","species complex","bumblebees",1,2.92,540,NA,NA,NA
"Nicolas_J_Vereecken_Fragaria_x_ananassa_Belgium_2019","Fruits_du_Verger","Net","Bombus terrestris agg.","species complex","bumblebees",1,2.92,540,NA,NA,NA
"Nicolas_J_Vereecken_Fragaria_x_ananassa_Belgium_2019","Fruits_du_Verger","Net","Bombus terrestris agg.","species complex","bumblebees",1,2.92,540,NA,NA,NA
"Nicolas_J_Vereecken_Fragaria_x_ananassa_Belgium_2019","Fruits_du_Verger","Net","Bombus terrestris agg.","species complex","bumblebees",1,2.92,540,NA,NA,NA
"Nicolas_J_Vereecken_Fragaria_x_ananassa_Belgium_2019","Fruits_du_Verger","Net","Bombus terrestris agg.","species complex","bumblebees",1,2.92,540,NA,NA,NA
"Nicolas_J_Vereecken_Fragaria_x_ananassa_Belgium_2019","Fruits_du_Verger","Net","Bombus terrestris agg.","species complex","bumblebees",1,2.92,540,NA,NA,NA
"Nicolas_J_Vereecken_Fragaria_x_ananassa_Belgium_2019","Fruits_du_Verger","Net","Bombus terrestris agg.","species complex","bumblebees",1,2.92,540,NA,NA,NA
"Nicolas_J_Vereecken_Fragaria_x_ananassa_Belgium_2019","Fruits_du_Verger","Net","Bombus terrestris agg.","species complex","bumblebees",1,2.92,540,NA,NA,NA
"Nicolas_J_Vereecken_Fragaria_x_ananassa_Belgium_2019","Fruits_du_Verger","Net","Bombus terrestris agg.","species complex","bumblebees",1,2.92,540,NA,NA,NA
"Nicolas_J_Vereecken_Fragaria_x_ananassa_Belgium_2019","Fruits_du_Verger","Net","Bombus terrestris agg.","species complex","bumblebees",1,2.92,540,NA,NA,NA
"Nicolas_J_Vereecken_Fragaria_x_ananassa_Belgium_2019","Fruits_du_Verger","Net","Bombus terrestris agg.","species complex","bumblebees",1,2.92,540,NA,NA,NA
"Nicolas_J_Vereecken_Fragaria_x_ananassa_Belgium_2019","Fruits_du_Verger","Net","Bombus terrestris agg.","species complex","bumblebees",1,2.92,540,NA,NA,NA
"Nicolas_J_Vereecken_Fragaria_x_ananassa_Belgium_2019","Fruits_du_Verger","Net","Bombus terrestris agg.","species complex","bumblebees",1,2.92,540,NA,NA,NA
"Nicolas_J_Vereecken_Fragaria_x_ananassa_Belgium_2019","Fruits_du_Verger","Net","Bombus terrestris agg.","species complex","bumblebees",1,2.92,540,NA,NA,NA
"Nicolas_J_Vereecken_Fragaria_x_ananassa_Belgium_2019","Fruits_du_Verger","Net","Bombus terrestris agg.","species complex","bumblebees",1,2.92,540,NA,NA,NA
"Nicolas_J_Vereecken_Fragaria_x_ananassa_Belgium_2019","Fruits_du_Verger","Net","Bombus terrestris agg.","species complex","bumblebees",1,2.92,540,NA,NA,NA
"Nicolas_J_Vereecken_Fragaria_x_ananassa_Belgium_2019","Fruits_du_Verger","Net","Bombus terrestris agg.","species complex","bumblebees",1,2.92,540,NA,NA,NA
"Nicolas_J_Vereecken_Fragaria_x_ananassa_Belgium_2019","Fruits_du_Verger","Net","Bombus terrestris agg.","species complex","bumblebees",1,2.92,540,NA,NA,NA
"Nicolas_J_Vereecken_Fragaria_x_ananassa_Belgium_2019","Fruits_du_Verger","Net","Bombus terrestris agg.","species complex","bumblebees",1,2.92,540,NA,NA,NA
"Nicolas_J_Vereecken_Fragaria_x_ananassa_Belgium_2019","Fruits_du_Verger","Net","Bombus terrestris agg.","species complex","bumblebees",1,2.92,540,NA,NA,NA
"Nicolas_J_Vereecken_Fragaria_x_ananassa_Belgium_2019","Fruits_du_Verger","Net","Bombus terrestris agg.","species complex","bumblebees",1,2.92,540,NA,NA,NA
"Nicolas_J_Vereecken_Fragaria_x_ananassa_Belgium_2019","Fruits_du_Verger","Net","Bombus terrestris agg.","species complex","bumblebees",1,2.92,540,NA,NA,NA
"Nicolas_J_Vereecken_Fragaria_x_ananassa_Belgium_2019","Fruits_du_Verger","Net","Bombus terrestris agg.","species complex","bumblebees",1,2.92,540,NA,NA,NA
"Nicolas_J_Vereecken_Fragaria_x_ananassa_Belgium_2019","Fruits_du_Verger","Net","Bombus terrestris agg.","species complex","bumblebees",1,2.92,540,NA,NA,NA
"Nicolas_J_Vereecken_Fragaria_x_ananassa_Belgium_2019","Fruits_du_Verger","Net","Bombus terrestris agg.","species complex","bumblebees",1,2.92,540,NA,NA,NA
"Nicolas_J_Vereecken_Fragaria_x_ananassa_Belgium_2019","Fruits_du_Verger","Net","Bombus terrestris agg.","species complex","bumblebees",1,2.92,540,NA,NA,NA
"Nicolas_J_Vereecken_Fragaria_x_ananassa_Belgium_2019","Fruits_du_Verger","Net","Bombus terrestris agg.","species complex","bumblebees",1,2.92,540,NA,NA,NA
"Nicolas_J_Vereecken_Fragaria_x_ananassa_Belgium_2019","Fruits_du_Verger","Net","Bombus terrestris agg.","species complex","bumblebees",1,2.92,540,NA,NA,NA
"Nicolas_J_Vereecken_Fragaria_x_ananassa_Belgium_2019","Fruits_du_Verger","Net","Bombus terrestris agg.","species complex","bumblebees",1,2.92,540,NA,NA,NA
"Nicolas_J_Vereecken_Fragaria_x_ananassa_Belgium_2019","Fruits_du_Verger","Net","Bombus terrestris agg.","species complex","bumblebees",1,2.92,540,NA,NA,NA
"Nicolas_J_Vereecken_Fragaria_x_ananassa_Belgium_2019","Fruits_du_Verger","Net","Bombus terrestris agg.","species complex","bumblebees",1,2.92,540,NA,NA,NA
"Nicolas_J_Vereecken_Fragaria_x_ananassa_Belgium_2019","Fruits_du_Verger","Net","Bombus terrestris agg.","species complex","bumblebees",1,2.92,540,NA,NA,NA
"Nicolas_J_Vereecken_Fragaria_x_ananassa_Belgium_2019","Fruits_du_Verger","Net","Bombus terrestris agg.","species complex","bumblebees",1,2.92,540,NA,NA,NA
"Nicolas_J_Vereecken_Fragaria_x_ananassa_Belgium_2019","Fruits_du_Verger","Net","Bombus terrestris agg.","species complex","bumblebees",1,2.92,540,NA,NA,NA
"Nicolas_J_Vereecken_Fragaria_x_ananassa_Belgium_2019","Fruits_du_Verger","Net","Bombus terrestris agg.","species complex","bumblebees",1,2.92,540,NA,NA,NA
"Nicolas_J_Vereecken_Fragaria_x_ananassa_Belgium_2019","Val-Notre-Dame","Net","Bombus terrestris agg.","species complex","bumblebees",1,1.53,540,NA,NA,NA
"Nicolas_J_Vereecken_Fragaria_x_ananassa_Belgium_2019","Val-Notre-Dame","Net","Bombus terrestris agg.","species complex","bumblebees",1,1.53,540,NA,NA,NA
"Nicolas_J_Vereecken_Fragaria_x_ananassa_Belgium_2019","Val-Notre-Dame","Net","Bombus terrestris agg.","species complex","bumblebees",1,1.53,540,NA,NA,NA
"Nicolas_J_Vereecken_Fragaria_x_ananassa_Belgium_2019","Val-Notre-Dame","Net","Bombus terrestris agg.","species complex","bumblebees",1,1.53,540,NA,NA,NA
"Nicolas_J_Vereecken_Fragaria_x_ananassa_Belgium_2019","Val-Notre-Dame","Net","Bombus terrestris agg.","species complex","bumblebees",1,1.53,540,NA,NA,NA
"Nicolas_J_Vereecken_Fragaria_x_ananassa_Belgium_2019","Val-Notre-Dame","Net","Bombus terrestris agg.","species complex","bumblebees",1,1.53,540,NA,NA,NA
"Nicolas_J_Vereecken_Fragaria_x_ananassa_Belgium_2019","Val-Notre-Dame","Net","Bombus terrestris agg.","species complex","bumblebees",1,1.53,540,NA,NA,NA
"Nicolas_J_Vereecken_Fragaria_x_ananassa_Belgium_2019","Val-Notre-Dame","Net","Bombus terrestris agg.","species complex","bumblebees",1,1.53,540,NA,NA,NA
"Nicolas_J_Vereecken_Fragaria_x_ananassa_Belgium_2019","Val-Notre-Dame","Net","Bombus terrestris agg.","species complex","bumblebees",1,1.53,540,NA,NA,NA
"Nicolas_J_Vereecken_Fragaria_x_ananassa_Belgium_2019","Val-Notre-Dame","Net","Bombus terrestris agg.","species complex","bumblebees",1,1.53,540,NA,NA,NA
"Nicolas_J_Vereecken_Fragaria_x_ananassa_Belgium_2019","Val-Notre-Dame","Net","Bombus terrestris agg.","species complex","bumblebees",1,1.53,540,NA,NA,NA
"Nicolas_J_Vereecken_Fragaria_x_ananassa_Belgium_2019","Val-Notre-Dame","Net","Bombus terrestris agg.","species complex","bumblebees",1,1.53,540,NA,NA,NA
"Nicolas_J_Vereecken_Fragaria_x_ananassa_Belgium_2019","Val-Notre-Dame","Net","Bombus terrestris agg.","species complex","bumblebees",1,1.53,540,NA,NA,NA
"Nicolas_J_Vereecken_Fragaria_x_ananassa_Belgium_2019","Val-Notre-Dame","Net","Bombus terrestris agg.","species complex","bumblebees",1,1.53,540,NA,NA,NA
"Nicolas_J_Vereecken_Fragaria_x_ananassa_Belgium_2019","Val-Notre-Dame","Net","Bombus terrestris agg.","species complex","bumblebees",1,1.53,540,NA,NA,NA
"Nicolas_J_Vereecken_Fragaria_x_ananassa_Belgium_2019","Val-Notre-Dame","Net","Bombus terrestris agg.","species complex","bumblebees",1,1.53,540,NA,NA,NA
"Nicolas_J_Vereecken_Fragaria_x_ananassa_Belgium_2019","Val-Notre-Dame","Net","Bombus terrestris agg.","species complex","bumblebees",1,1.53,540,NA,NA,NA
"Nicolas_J_Vereecken_Fragaria_x_ananassa_Belgium_2019","Val-Notre-Dame","Net","Bombus terrestris agg.","species complex","bumblebees",1,1.53,540,NA,NA,NA
"Nicolas_J_Vereecken_Fragaria_x_ananassa_Belgium_2019","Val-Notre-Dame","Net","Bombus terrestris agg.","species complex","bumblebees",1,1.53,540,NA,NA,NA
"Nicolas_J_Vereecken_Fragaria_x_ananassa_Belgium_2019","Val-Notre-Dame","Net","Bombus terrestris agg.","species complex","bumblebees",1,1.53,540,NA,NA,NA
"Nicolas_J_Vereecken_Fragaria_x_ananassa_Belgium_2019","Val-Notre-Dame","Net","Bombus terrestris agg.","species complex","bumblebees",1,1.53,540,NA,NA,NA
"Nicolas_J_Vereecken_Fragaria_x_ananassa_Belgium_2019","Coin_des_Champs","Net","Halictus tumulorum","species","other_wild_bees",1,1.85,540,NA,NA,NA
"Nicolas_J_Vereecken_Fragaria_x_ananassa_Belgium_2019","Coin_des_Champs","Net","Halictus tumulorum","species","other_wild_bees",1,1.85,540,NA,NA,NA
"Nicolas_J_Vereecken_Fragaria_x_ananassa_Belgium_2019","Coin_des_Champs","Net","Halictus tumulorum","species","other_wild_bees",1,1.85,540,NA,NA,NA
"Nicolas_J_Vereecken_Fragaria_x_ananassa_Belgium_2019","Coin_des_Champs","Net","Halictus tumulorum","species","other_wild_bees",1,1.85,540,NA,NA,NA
"Nicolas_J_Vereecken_Fragaria_x_ananassa_Belgium_2019","Coin_des_Champs","Net","Lasioglossum minutissimum","species","other_wild_bees",1,1.85,540,NA,NA,NA
"Nicolas_J_Vereecken_Fragaria_x_ananassa_Belgium_2019","Coin_des_Champs","Net","Lasioglossum morio","species","other_wild_bees",1,1.85,540,NA,NA,NA
"Nicolas_J_Vereecken_Fragaria_x_ananassa_Belgium_2019","Coin_des_Champs","Net","Lasioglossum pauxillum","species","other_wild_bees",1,1.85,540,NA,NA,NA
"Nicolas_J_Vereecken_Fragaria_x_ananassa_Belgium_2019","Coin_des_Champs","Net","Lasioglossum pauxillum","species","other_wild_bees",1,1.85,540,NA,NA,NA
"Nicolas_J_Vereecken_Fragaria_x_ananassa_Belgium_2019","Coin_des_Champs","Net","Lasioglossum pauxillum","species","other_wild_bees",1,1.85,540,NA,NA,NA
"Nicolas_J_Vereecken_Fragaria_x_ananassa_Belgium_2019","Coin_des_Champs","Net","Lasioglossum pauxillum","species","other_wild_bees",1,1.85,540,NA,NA,NA
"Nicolas_J_Vereecken_Fragaria_x_ananassa_Belgium_2019","Coin_des_Champs","Net","Lasioglossum pauxillum","species","other_wild_bees",1,1.85,540,NA,NA,NA
"Nicolas_J_Vereecken_Fragaria_x_ananassa_Belgium_2019","Coin_des_Champs","Net","Lasioglossum pauxillum","species","other_wild_bees",1,1.85,540,NA,NA,NA
"Nicolas_J_Vereecken_Fragaria_x_ananassa_Belgium_2019","Val-Notre-Dame","Net","Lasioglossum pauxillum","species","other_wild_bees",1,1.53,540,NA,NA,NA
"Nicolas_J_Vereecken_Fragaria_x_ananassa_Belgium_2019","Val-Notre-Dame","Net","Lasioglossum pauxillum","species","other_wild_bees",1,1.53,540,NA,NA,NA
"Nicolas_J_Vereecken_Fragaria_x_ananassa_Belgium_2019","Val-Notre-Dame","Net","Lasioglossum pauxillum","species","other_wild_bees",1,1.53,540,NA,NA,NA
"Nicolas_J_Vereecken_Fragaria_x_ananassa_Belgium_2019","Coin_des_Champs","Net","Osmia bicornis","species","other_wild_bees",1,1.85,540,NA,NA,NA
"Nicolas_J_Vereecken_Fragaria_x_ananassa_Belgium_2019","Coin_des_Champs","Net","Osmia bicornis","species","other_wild_bees",1,1.85,540,NA,NA,NA
"Nicolas_J_Vereecken_Fragaria_x_ananassa_Belgium_2019","Coin_des_Champs","Net","Osmia bicornis","species","other_wild_bees",1,1.85,540,NA,NA,NA
"Nicolas_J_Vereecken_Fragaria_x_ananassa_Belgium_2019","Coin_des_Champs","Net","Osmia bicornis","species","other_wild_bees",1,1.85,540,NA,NA,NA
"Nicolas_J_Vereecken_Fragaria_x_ananassa_Belgium_2019","Coin_des_Champs","Net","Osmia bicornis","species","other_wild_bees",1,1.85,540,NA,NA,NA
"Nicolas_J_Vereecken_Fragaria_x_ananassa_Belgium_2019","Coin_des_Champs","Net","Osmia bicornis","species","other_wild_bees",1,1.85,540,NA,NA,NA
"Nicolas_J_Vereecken_Fragaria_x_ananassa_Belgium_2019","Coin_des_Champs","Net","Osmia bicornis","species","other_wild_bees",1,1.85,540,NA,NA,NA
"Nicolas_J_Vereecken_Fragaria_x_ananassa_Belgium_2019","Coin_des_Champs","Net","Osmia bicornis","species","other_wild_bees",1,1.85,540,NA,NA,NA
"Nicolas_J_Vereecken_Fragaria_x_ananassa_Belgium_2019","Coin_des_Champs","Net","Osmia bicornis","species","other_wild_bees",1,1.85,540,NA,NA,NA
"Nicolas_J_Vereecken_Fragaria_x_ananassa_Belgium_2019","Coin_des_Champs","Net","Osmia bicornis","species","other_wild_bees",1,1.85,540,NA,NA,NA
"Nicolas_J_Vereecken_Fragaria_x_ananassa_Belgium_2019","Coin_des_Champs","Net","Osmia bicornis","species","other_wild_bees",1,1.85,540,NA,NA,NA
"Nicolas_J_Vereecken_Fragaria_x_ananassa_Belgium_2019","Coin_des_Champs","Net","Osmia bicornis","species","other_wild_bees",1,1.85,540,NA,NA,NA
"Nicolas_J_Vereecken_Fragaria_x_ananassa_Belgium_2019","Coin_des_Champs","Net","Osmia bicornis","species","other_wild_bees",1,1.85,540,NA,NA,NA
"Nicolas_J_Vereecken_Fragaria_x_ananassa_Belgium_2019","Coin_des_Champs","Net","Osmia bicornis","species","other_wild_bees",1,1.85,540,NA,NA,NA
"Nicolas_J_Vereecken_Fragaria_x_ananassa_Belgium_2019","Coin_des_Champs","Net","Osmia bicornis","species","other_wild_bees",1,1.85,540,NA,NA,NA
"Nicolas_J_Vereecken_Fragaria_x_ananassa_Belgium_2019","Coin_des_Champs","Net","Osmia bicornis","species","other_wild_bees",1,1.85,540,NA,NA,NA
"Nicolas_J_Vereecken_Fragaria_x_ananassa_Belgium_2019","Val-Notre-Dame","Net","Osmia bicornis","species","other_wild_bees",1,1.53,540,NA,NA,NA
"Nicolas_J_Vereecken_Fragaria_x_ananassa_Belgium_2019","Val-Notre-Dame","Net","Osmia bicornis","species","other_wild_bees",1,1.53,540,NA,NA,NA
"Nicolas_J_Vereecken_Pyrus_communis_Belgium_2019","Pommeraie_pyrus_2019","Net","Andrena chrysosceles","species","other_wild_bees",1,13.06,540,NA,NA,NA
"Nicolas_J_Vereecken_Pyrus_communis_Belgium_2019","Gasi_pyrus_2019","Net","Andrena chrysosceles","species","other_wild_bees",1,2.8,540,NA,NA,NA
"Nicolas_J_Vereecken_Pyrus_communis_Belgium_2019","Gasi_pyrus_2019","Net","Andrena chrysosceles","species","other_wild_bees",1,2.8,540,NA,NA,NA
"Nicolas_J_Vereecken_Pyrus_communis_Belgium_2019","Gasi_pyrus_2019","Net","Andrena chrysosceles","species","other_wild_bees",1,2.8,540,NA,NA,NA
"Nicolas_J_Vereecken_Pyrus_communis_Belgium_2019","Gasi_pyrus_2019","Net","Andrena chrysosceles","species","other_wild_bees",1,2.8,540,NA,NA,NA
"Nicolas_J_Vereecken_Pyrus_communis_Belgium_2019","Gasi_pyrus_2019","Net","Andrena chrysosceles","species","other_wild_bees",1,2.8,540,NA,NA,NA
"Nicolas_J_Vereecken_Pyrus_communis_Belgium_2019","Gasi_pyrus_2019","Net","Andrena chrysosceles","species","other_wild_bees",1,2.8,540,NA,NA,NA
"Nicolas_J_Vereecken_Pyrus_communis_Belgium_2019","Gasi_pyrus_2019","Net","Andrena chrysosceles","species","other_wild_bees",1,2.8,540,NA,NA,NA
"Nicolas_J_Vereecken_Pyrus_communis_Belgium_2019","Gasi_pyrus_2019","Net","Andrena chrysosceles","species","other_wild_bees",1,2.8,540,NA,NA,NA
"Nicolas_J_Vereecken_Pyrus_communis_Belgium_2019","Gasi_pyrus_2019","Net","Andrena chrysosceles","species","other_wild_bees",1,2.8,540,NA,NA,NA
"Nicolas_J_Vereecken_Pyrus_communis_Belgium_2019","Gasi_pyrus_2019","Net","Andrena chrysosceles","species","other_wild_bees",1,2.8,540,NA,NA,NA
"Nicolas_J_Vereecken_Pyrus_communis_Belgium_2019","Gasi_pyrus_2019","Net","Andrena chrysosceles","species","other_wild_bees",1,2.8,540,NA,NA,NA
"Nicolas_J_Vereecken_Pyrus_communis_Belgium_2019","Gasi_pyrus_2019","Net","Andrena chrysosceles","species","other_wild_bees",1,2.8,540,NA,NA,NA
"Nicolas_J_Vereecken_Pyrus_communis_Belgium_2019","Gasi_pyrus_2019","Net","Andrena chrysosceles","species","other_wild_bees",1,2.8,540,NA,NA,NA
"Nicolas_J_Vereecken_Pyrus_communis_Belgium_2019","Gasi_pyrus_2019","Net","Andrena chrysosceles","species","other_wild_bees",1,2.8,540,NA,NA,NA
"Nicolas_J_Vereecken_Pyrus_communis_Belgium_2019","Gasi_pyrus_2019","Net","Andrena chrysosceles","species","other_wild_bees",1,2.8,540,NA,NA,NA
"Nicolas_J_Vereecken_Pyrus_communis_Belgium_2019","Gasi_pyrus_2019","Net","Andrena chrysosceles","species","other_wild_bees",1,2.8,540,NA,NA,NA
"Nicolas_J_Vereecken_Pyrus_communis_Belgium_2019","Gasi_pyrus_2019","Net","Andrena chrysosceles","species","other_wild_bees",1,2.8,540,NA,NA,NA
"Nicolas_J_Vereecken_Pyrus_communis_Belgium_2019","Gasi_pyrus_2019","Net","Andrena chrysosceles","species","other_wild_bees",1,2.8,540,NA,NA,NA
"Nicolas_J_Vereecken_Pyrus_communis_Belgium_2019","Gasi_pyrus_2019","Net","Andrena chrysosceles","species","other_wild_bees",1,2.8,540,NA,NA,NA
"Nicolas_J_Vereecken_Pyrus_communis_Belgium_2019","Gasi_pyrus_2019","Net","Andrena chrysosceles","species","other_wild_bees",1,2.8,540,NA,NA,NA
"Nicolas_J_Vereecken_Pyrus_communis_Belgium_2019","Gasi_pyrus_2019","Net","Andrena chrysosceles","species","other_wild_bees",1,2.8,540,NA,NA,NA
"Nicolas_J_Vereecken_Pyrus_communis_Belgium_2019","Gasi_pyrus_2019","Net","Andrena chrysosceles","species","other_wild_bees",1,2.8,540,NA,NA,NA
"Nicolas_J_Vereecken_Pyrus_communis_Belgium_2019","Gasi_pyrus_2019","Net","Andrena chrysosceles","species","other_wild_bees",1,2.8,540,NA,NA,NA
"Nicolas_J_Vereecken_Pyrus_communis_Belgium_2019","Gasi_pyrus_2019","Net","Andrena chrysosceles","species","other_wild_bees",1,2.8,540,NA,NA,NA
"Nicolas_J_Vereecken_Pyrus_communis_Belgium_2019","Gasi_pyrus_2019","Net","Andrena chrysosceles","species","other_wild_bees",1,2.8,540,NA,NA,NA
"Nicolas_J_Vereecken_Pyrus_communis_Belgium_2019","Gasi_pyrus_2019","Net","Andrena chrysosceles","species","other_wild_bees",1,2.8,540,NA,NA,NA
"Nicolas_J_Vereecken_Pyrus_communis_Belgium_2019","Gasi_pyrus_2019","Net","Andrena chrysosceles","species","other_wild_bees",1,2.8,540,NA,NA,NA
"Nicolas_J_Vereecken_Pyrus_communis_Belgium_2019","Pommeraie_pyrus_2019","Net","Andrena cineraria","species","other_wild_bees",1,13.06,540,NA,NA,NA
"Nicolas_J_Vereecken_Pyrus_communis_Belgium_2019","Pommeraie_pyrus_2019","Net","Andrena cineraria","species","other_wild_bees",1,13.06,540,NA,NA,NA
"Nicolas_J_Vereecken_Pyrus_communis_Belgium_2019","Pommeraie_pyrus_2019","Net","Andrena cineraria","species","other_wild_bees",1,13.06,540,NA,NA,NA
"Nicolas_J_Vereecken_Pyrus_communis_Belgium_2019","Pommeraie_pyrus_2019","Net","Andrena cineraria","species","other_wild_bees",1,13.06,540,NA,NA,NA
"Nicolas_J_Vereecken_Pyrus_communis_Belgium_2019","Pommeraie_pyrus_2019","Net","Andrena cineraria","species","other_wild_bees",1,13.06,540,NA,NA,NA
"Nicolas_J_Vereecken_Pyrus_communis_Belgium_2019","Pommeraie_pyrus_2019","Net","Andrena cineraria","species","other_wild_bees",1,13.06,540,NA,NA,NA
"Nicolas_J_Vereecken_Pyrus_communis_Belgium_2019","Pommeraie_pyrus_2019","Net","Andrena cineraria","species","other_wild_bees",1,13.06,540,NA,NA,NA
"Nicolas_J_Vereecken_Pyrus_communis_Belgium_2019","Pommeraie_pyrus_2019","Net","Andrena cineraria","species","other_wild_bees",1,13.06,540,NA,NA,NA
"Nicolas_J_Vereecken_Pyrus_communis_Belgium_2019","Pommeraie_pyrus_2019","Net","Andrena cineraria","species","other_wild_bees",1,13.06,540,NA,NA,NA
"Nicolas_J_Vereecken_Pyrus_communis_Belgium_2019","Pommeraie_pyrus_2019","Net","Andrena cineraria","species","other_wild_bees",1,13.06,540,NA,NA,NA
"Nicolas_J_Vereecken_Pyrus_communis_Belgium_2019","Pommeraie_pyrus_2019","Net","Andrena cineraria","species","other_wild_bees",1,13.06,540,NA,NA,NA
"Nicolas_J_Vereecken_Pyrus_communis_Belgium_2019","Gasi_pyrus_2019","Net","Andrena cineraria","species","other_wild_bees",1,2.8,540,NA,NA,NA
"Nicolas_J_Vereecken_Pyrus_communis_Belgium_2019","Pommeraie_pyrus_2019","Net","Andrena dorsata","species","other_wild_bees",1,13.06,540,NA,NA,NA
"Nicolas_J_Vereecken_Pyrus_communis_Belgium_2019","Gasi_pyrus_2019","Net","Andrena dorsata","species","other_wild_bees",1,2.8,540,NA,NA,NA
"Nicolas_J_Vereecken_Pyrus_communis_Belgium_2019","Gasi_pyrus_2019","Net","Andrena dorsata","species","other_wild_bees",1,2.8,540,NA,NA,NA
"Nicolas_J_Vereecken_Pyrus_communis_Belgium_2019","Gasi_pyrus_2019","Net","Andrena dorsata","species","other_wild_bees",1,2.8,540,NA,NA,NA
"Nicolas_J_Vereecken_Pyrus_communis_Belgium_2019","Gasi_pyrus_2019","Net","Andrena fulva","species","other_wild_bees",1,2.8,540,NA,NA,NA
"Nicolas_J_Vereecken_Pyrus_communis_Belgium_2019","Pommeraie_pyrus_2019","Net","Andrena gravida","species","other_wild_bees",1,13.06,540,NA,NA,NA
"Nicolas_J_Vereecken_Pyrus_communis_Belgium_2019","Pommeraie_pyrus_2019","Net","Andrena gravida","species","other_wild_bees",1,13.06,540,NA,NA,NA
"Nicolas_J_Vereecken_Pyrus_communis_Belgium_2019","Pommeraie_pyrus_2019","Net","Andrena haemorrhoa","species","other_wild_bees",1,13.06,540,NA,NA,NA
"Nicolas_J_Vereecken_Pyrus_communis_Belgium_2019","Pommeraie_pyrus_2019","Net","Andrena haemorrhoa","species","other_wild_bees",1,13.06,540,NA,NA,NA
"Nicolas_J_Vereecken_Pyrus_communis_Belgium_2019","Pommeraie_pyrus_2019","Net","Andrena haemorrhoa","species","other_wild_bees",1,13.06,540,NA,NA,NA
"Nicolas_J_Vereecken_Pyrus_communis_Belgium_2019","Pommeraie_pyrus_2019","Net","Andrena haemorrhoa","species","other_wild_bees",1,13.06,540,NA,NA,NA
"Nicolas_J_Vereecken_Pyrus_communis_Belgium_2019","Pommeraie_pyrus_2019","Net","Andrena haemorrhoa","species","other_wild_bees",1,13.06,540,NA,NA,NA
"Nicolas_J_Vereecken_Pyrus_communis_Belgium_2019","Gasi_pyrus_2019","Net","Andrena haemorrhoa","species","other_wild_bees",1,2.8,540,NA,NA,NA
"Nicolas_J_Vereecken_Pyrus_communis_Belgium_2019","Gasi_pyrus_2019","Net","Andrena haemorrhoa","species","other_wild_bees",1,2.8,540,NA,NA,NA
"Nicolas_J_Vereecken_Pyrus_communis_Belgium_2019","Gasi_pyrus_2019","Net","Andrena haemorrhoa","species","other_wild_bees",1,2.8,540,NA,NA,NA
"Nicolas_J_Vereecken_Pyrus_communis_Belgium_2019","Gasi_pyrus_2019","Net","Andrena haemorrhoa","species","other_wild_bees",1,2.8,540,NA,NA,NA
"Nicolas_J_Vereecken_Pyrus_communis_Belgium_2019","Gasi_pyrus_2019","Net","Andrena haemorrhoa","species","other_wild_bees",1,2.8,540,NA,NA,NA
"Nicolas_J_Vereecken_Pyrus_communis_Belgium_2019","Gasi_pyrus_2019","Net","Andrena haemorrhoa","species","other_wild_bees",1,2.8,540,NA,NA,NA
"Nicolas_J_Vereecken_Pyrus_communis_Belgium_2019","Gasi_pyrus_2019","Net","Andrena haemorrhoa","species","other_wild_bees",1,2.8,540,NA,NA,NA
"Nicolas_J_Vereecken_Pyrus_communis_Belgium_2019","Gasi_pyrus_2019","Net","Andrena haemorrhoa","species","other_wild_bees",1,2.8,540,NA,NA,NA
"Nicolas_J_Vereecken_Pyrus_communis_Belgium_2019","Gasi_pyrus_2019","Net","Andrena haemorrhoa","species","other_wild_bees",1,2.8,540,NA,NA,NA
"Nicolas_J_Vereecken_Pyrus_communis_Belgium_2019","Gasi_pyrus_2019","Net","Andrena haemorrhoa","species","other_wild_bees",1,2.8,540,NA,NA,NA
"Nicolas_J_Vereecken_Pyrus_communis_Belgium_2019","Gasi_pyrus_2019","Net","Andrena haemorrhoa","species","other_wild_bees",1,2.8,540,NA,NA,NA
"Nicolas_J_Vereecken_Pyrus_communis_Belgium_2019","Gasi_pyrus_2019","Net","Andrena haemorrhoa","species","other_wild_bees",1,2.8,540,NA,NA,NA
"Nicolas_J_Vereecken_Pyrus_communis_Belgium_2019","Gasi_pyrus_2019","Net","Andrena haemorrhoa","species","other_wild_bees",1,2.8,540,NA,NA,NA
"Nicolas_J_Vereecken_Pyrus_communis_Belgium_2019","Gasi_pyrus_2019","Net","Andrena haemorrhoa","species","other_wild_bees",1,2.8,540,NA,NA,NA
"Nicolas_J_Vereecken_Pyrus_communis_Belgium_2019","Gasi_pyrus_2019","Net","Andrena haemorrhoa","species","other_wild_bees",1,2.8,540,NA,NA,NA
"Nicolas_J_Vereecken_Pyrus_communis_Belgium_2019","Gasi_pyrus_2019","Net","Andrena haemorrhoa","species","other_wild_bees",1,2.8,540,NA,NA,NA
"Nicolas_J_Vereecken_Pyrus_communis_Belgium_2019","Gasi_pyrus_2019","Net","Andrena haemorrhoa","species","other_wild_bees",1,2.8,540,NA,NA,NA
"Nicolas_J_Vereecken_Pyrus_communis_Belgium_2019","Gasi_pyrus_2019","Net","Andrena haemorrhoa","species","other_wild_bees",1,2.8,540,NA,NA,NA
"Nicolas_J_Vereecken_Pyrus_communis_Belgium_2019","Gasi_pyrus_2019","Net","Andrena haemorrhoa","species","other_wild_bees",1,2.8,540,NA,NA,NA
"Nicolas_J_Vereecken_Pyrus_communis_Belgium_2019","Gasi_pyrus_2019","Net","Andrena haemorrhoa","species","other_wild_bees",1,2.8,540,NA,NA,NA
"Nicolas_J_Vereecken_Pyrus_communis_Belgium_2019","Gasi_pyrus_2019","Net","Andrena haemorrhoa","species","other_wild_bees",1,2.8,540,NA,NA,NA
"Nicolas_J_Vereecken_Pyrus_communis_Belgium_2019","Gasi_pyrus_2019","Net","Andrena haemorrhoa","species","other_wild_bees",1,2.8,540,NA,NA,NA
"Nicolas_J_Vereecken_Pyrus_communis_Belgium_2019","Gasi_pyrus_2019","Net","Andrena haemorrhoa","species","other_wild_bees",1,2.8,540,NA,NA,NA
"Nicolas_J_Vereecken_Pyrus_communis_Belgium_2019","Gasi_pyrus_2019","Net","Andrena haemorrhoa","species","other_wild_bees",1,2.8,540,NA,NA,NA
"Nicolas_J_Vereecken_Pyrus_communis_Belgium_2019","Gasi_pyrus_2019","Net","Andrena haemorrhoa","species","other_wild_bees",1,2.8,540,NA,NA,NA
"Nicolas_J_Vereecken_Pyrus_communis_Belgium_2019","Gasi_pyrus_2019","Net","Andrena haemorrhoa","species","other_wild_bees",1,2.8,540,NA,NA,NA
"Nicolas_J_Vereecken_Pyrus_communis_Belgium_2019","Gasi_pyrus_2019","Net","Andrena haemorrhoa","species","other_wild_bees",1,2.8,540,NA,NA,NA
"Nicolas_J_Vereecken_Pyrus_communis_Belgium_2019","Gasi_pyrus_2019","Net","Andrena haemorrhoa","species","other_wild_bees",1,2.8,540,NA,NA,NA
"Nicolas_J_Vereecken_Pyrus_communis_Belgium_2019","Gasi_pyrus_2019","Net","Andrena haemorrhoa","species","other_wild_bees",1,2.8,540,NA,NA,NA
"Nicolas_J_Vereecken_Pyrus_communis_Belgium_2019","Gasi_pyrus_2019","Net","Andrena nitida","species","other_wild_bees",1,2.8,540,NA,NA,NA
"Nicolas_J_Vereecken_Pyrus_communis_Belgium_2019","Gasi_pyrus_2019","Net","Andrena nitida","species","other_wild_bees",1,2.8,540,NA,NA,NA
"Nicolas_J_Vereecken_Pyrus_communis_Belgium_2019","Pommeraie_pyrus_2019","Net","Andrena scotica","species","other_wild_bees",1,13.06,540,NA,NA,NA
"Nicolas_J_Vereecken_Pyrus_communis_Belgium_2019","Pommeraie_pyrus_2019","Net","Andrena scotica","species","other_wild_bees",1,13.06,540,NA,NA,NA
"Nicolas_J_Vereecken_Pyrus_communis_Belgium_2019","Pommeraie_pyrus_2019","Net","Andrena scotica","species","other_wild_bees",1,13.06,540,NA,NA,NA
"Nicolas_J_Vereecken_Pyrus_communis_Belgium_2019","Pommeraie_pyrus_2019","Net","Andrena scotica","species","other_wild_bees",1,13.06,540,NA,NA,NA
"Nicolas_J_Vereecken_Pyrus_communis_Belgium_2019","Pommeraie_pyrus_2019","Net","Andrena scotica","species","other_wild_bees",1,13.06,540,NA,NA,NA
"Nicolas_J_Vereecken_Pyrus_communis_Belgium_2019","Pommeraie_pyrus_2019","Net","Andrena scotica","species","other_wild_bees",1,13.06,540,NA,NA,NA
"Nicolas_J_Vereecken_Pyrus_communis_Belgium_2019","Pommeraie_pyrus_2019","Net","Andrena scotica","species","other_wild_bees",1,13.06,540,NA,NA,NA
"Nicolas_J_Vereecken_Pyrus_communis_Belgium_2019","Pommeraie_pyrus_2019","Net","Andrena scotica","species","other_wild_bees",1,13.06,540,NA,NA,NA
"Nicolas_J_Vereecken_Pyrus_communis_Belgium_2019","Pommeraie_pyrus_2019","Net","Andrena scotica","species","other_wild_bees",1,13.06,540,NA,NA,NA
"Nicolas_J_Vereecken_Pyrus_communis_Belgium_2019","Pommeraie_pyrus_2019","Net","Andrena scotica","species","other_wild_bees",1,13.06,540,NA,NA,NA
"Nicolas_J_Vereecken_Pyrus_communis_Belgium_2019","Gasi_pyrus_2019","Net","Andrena scotica","species","other_wild_bees",1,2.8,540,NA,NA,NA
"Nicolas_J_Vereecken_Pyrus_communis_Belgium_2019","Gasi_pyrus_2019","Net","Andrena scotica","species","other_wild_bees",1,2.8,540,NA,NA,NA
"Nicolas_J_Vereecken_Pyrus_communis_Belgium_2019","Gasi_pyrus_2019","Net","Andrena scotica","species","other_wild_bees",1,2.8,540,NA,NA,NA
"Nicolas_J_Vereecken_Pyrus_communis_Belgium_2019","Gasi_pyrus_2019","Net","Andrena scotica","species","other_wild_bees",1,2.8,540,NA,NA,NA
"Nicolas_J_Vereecken_Pyrus_communis_Belgium_2019","Pommeraie_pyrus_2019","Net","Apis mellifera","species","honeybees",1,13.06,540,NA,NA,NA
"Nicolas_J_Vereecken_Pyrus_communis_Belgium_2019","Pommeraie_pyrus_2019","Net","Apis mellifera","species","honeybees",1,13.06,540,NA,NA,NA
"Nicolas_J_Vereecken_Pyrus_communis_Belgium_2019","Pommeraie_pyrus_2019","Net","Apis mellifera","species","honeybees",1,13.06,540,NA,NA,NA
"Nicolas_J_Vereecken_Pyrus_communis_Belgium_2019","Pommeraie_pyrus_2019","Net","Apis mellifera","species","honeybees",1,13.06,540,NA,NA,NA
"Nicolas_J_Vereecken_Pyrus_communis_Belgium_2019","Pommeraie_pyrus_2019","Net","Apis mellifera","species","honeybees",1,13.06,540,NA,NA,NA
"Nicolas_J_Vereecken_Pyrus_communis_Belgium_2019","Pommeraie_pyrus_2019","Net","Apis mellifera","species","honeybees",1,13.06,540,NA,NA,NA
"Nicolas_J_Vereecken_Pyrus_communis_Belgium_2019","Pommeraie_pyrus_2019","Net","Apis mellifera","species","honeybees",1,13.06,540,NA,NA,NA
"Nicolas_J_Vereecken_Pyrus_communis_Belgium_2019","Pommeraie_pyrus_2019","Net","Apis mellifera","species","honeybees",1,13.06,540,NA,NA,NA
"Nicolas_J_Vereecken_Pyrus_communis_Belgium_2019","Pommeraie_pyrus_2019","Net","Apis mellifera","species","honeybees",1,13.06,540,NA,NA,NA
"Nicolas_J_Vereecken_Pyrus_communis_Belgium_2019","Pommeraie_pyrus_2019","Net","Apis mellifera","species","honeybees",1,13.06,540,NA,NA,NA
"Nicolas_J_Vereecken_Pyrus_communis_Belgium_2019","Pommeraie_pyrus_2019","Net","Apis mellifera","species","honeybees",1,13.06,540,NA,NA,NA
"Nicolas_J_Vereecken_Pyrus_communis_Belgium_2019","Pommeraie_pyrus_2019","Net","Apis mellifera","species","honeybees",1,13.06,540,NA,NA,NA
"Nicolas_J_Vereecken_Pyrus_communis_Belgium_2019","Pommeraie_pyrus_2019","Net","Apis mellifera","species","honeybees",1,13.06,540,NA,NA,NA
"Nicolas_J_Vereecken_Pyrus_communis_Belgium_2019","Pommeraie_pyrus_2019","Net","Apis mellifera","species","honeybees",1,13.06,540,NA,NA,NA
"Nicolas_J_Vereecken_Pyrus_communis_Belgium_2019","Pommeraie_pyrus_2019","Net","Apis mellifera","species","honeybees",1,13.06,540,NA,NA,NA
"Nicolas_J_Vereecken_Pyrus_communis_Belgium_2019","Pommeraie_pyrus_2019","Net","Apis mellifera","species","honeybees",1,13.06,540,NA,NA,NA
"Nicolas_J_Vereecken_Pyrus_communis_Belgium_2019","Pommeraie_pyrus_2019","Net","Apis mellifera","species","honeybees",1,13.06,540,NA,NA,NA
"Nicolas_J_Vereecken_Pyrus_communis_Belgium_2019","Pommeraie_pyrus_2019","Net","Apis mellifera","species","honeybees",1,13.06,540,NA,NA,NA
"Nicolas_J_Vereecken_Pyrus_communis_Belgium_2019","Pommeraie_pyrus_2019","Net","Apis mellifera","species","honeybees",1,13.06,540,NA,NA,NA
"Nicolas_J_Vereecken_Pyrus_communis_Belgium_2019","Pommeraie_pyrus_2019","Net","Apis mellifera","species","honeybees",1,13.06,540,NA,NA,NA
"Nicolas_J_Vereecken_Pyrus_communis_Belgium_2019","Pommeraie_pyrus_2019","Net","Apis mellifera","species","honeybees",1,13.06,540,NA,NA,NA
"Nicolas_J_Vereecken_Pyrus_communis_Belgium_2019","Pommeraie_pyrus_2019","Net","Apis mellifera","species","honeybees",1,13.06,540,NA,NA,NA
"Nicolas_J_Vereecken_Pyrus_communis_Belgium_2019","Pommeraie_pyrus_2019","Net","Apis mellifera","species","honeybees",1,13.06,540,NA,NA,NA
"Nicolas_J_Vereecken_Pyrus_communis_Belgium_2019","Pommeraie_pyrus_2019","Net","Apis mellifera","species","honeybees",1,13.06,540,NA,NA,NA
"Nicolas_J_Vereecken_Pyrus_communis_Belgium_2019","Pommeraie_pyrus_2019","Net","Apis mellifera","species","honeybees",1,13.06,540,NA,NA,NA
"Nicolas_J_Vereecken_Pyrus_communis_Belgium_2019","Pommeraie_pyrus_2019","Net","Apis mellifera","species","honeybees",1,13.06,540,NA,NA,NA
"Nicolas_J_Vereecken_Pyrus_communis_Belgium_2019","Pommeraie_pyrus_2019","Net","Apis mellifera","species","honeybees",1,13.06,540,NA,NA,NA
"Nicolas_J_Vereecken_Pyrus_communis_Belgium_2019","Pommeraie_pyrus_2019","Net","Apis mellifera","species","honeybees",1,13.06,540,NA,NA,NA
"Nicolas_J_Vereecken_Pyrus_communis_Belgium_2019","Pommeraie_pyrus_2019","Net","Apis mellifera","species","honeybees",1,13.06,540,NA,NA,NA
"Nicolas_J_Vereecken_Pyrus_communis_Belgium_2019","Pommeraie_pyrus_2019","Net","Apis mellifera","species","honeybees",1,13.06,540,NA,NA,NA
"Nicolas_J_Vereecken_Pyrus_communis_Belgium_2019","Pommeraie_pyrus_2019","Net","Apis mellifera","species","honeybees",1,13.06,540,NA,NA,NA
"Nicolas_J_Vereecken_Pyrus_communis_Belgium_2019","Pommeraie_pyrus_2019","Net","Apis mellifera","species","honeybees",1,13.06,540,NA,NA,NA
"Nicolas_J_Vereecken_Pyrus_communis_Belgium_2019","Pommeraie_pyrus_2019","Net","Apis mellifera","species","honeybees",1,13.06,540,NA,NA,NA
"Nicolas_J_Vereecken_Pyrus_communis_Belgium_2019","Pommeraie_pyrus_2019","Net","Apis mellifera","species","honeybees",1,13.06,540,NA,NA,NA
"Nicolas_J_Vereecken_Pyrus_communis_Belgium_2019","Pommeraie_pyrus_2019","Net","Apis mellifera","species","honeybees",1,13.06,540,NA,NA,NA
"Nicolas_J_Vereecken_Pyrus_communis_Belgium_2019","Pommeraie_pyrus_2019","Net","Apis mellifera","species","honeybees",1,13.06,540,NA,NA,NA
"Nicolas_J_Vereecken_Pyrus_communis_Belgium_2019","Pommeraie_pyrus_2019","Net","Apis mellifera","species","honeybees",1,13.06,540,NA,NA,NA
"Nicolas_J_Vereecken_Pyrus_communis_Belgium_2019","Pommeraie_pyrus_2019","Net","Apis mellifera","species","honeybees",1,13.06,540,NA,NA,NA
"Nicolas_J_Vereecken_Pyrus_communis_Belgium_2019","Pommeraie_pyrus_2019","Net","Apis mellifera","species","honeybees",1,13.06,540,NA,NA,NA
"Nicolas_J_Vereecken_Pyrus_communis_Belgium_2019","Pommeraie_pyrus_2019","Net","Apis mellifera","species","honeybees",1,13.06,540,NA,NA,NA
"Nicolas_J_Vereecken_Pyrus_communis_Belgium_2019","Pommeraie_pyrus_2019","Net","Apis mellifera","species","honeybees",1,13.06,540,NA,NA,NA
"Nicolas_J_Vereecken_Pyrus_communis_Belgium_2019","Pommeraie_pyrus_2019","Net","Apis mellifera","species","honeybees",1,13.06,540,NA,NA,NA
"Nicolas_J_Vereecken_Pyrus_communis_Belgium_2019","Pommeraie_pyrus_2019","Net","Apis mellifera","species","honeybees",1,13.06,540,NA,NA,NA
"Nicolas_J_Vereecken_Pyrus_communis_Belgium_2019","Pommeraie_pyrus_2019","Net","Apis mellifera","species","honeybees",1,13.06,540,NA,NA,NA
"Nicolas_J_Vereecken_Pyrus_communis_Belgium_2019","Pommeraie_pyrus_2019","Net","Apis mellifera","species","honeybees",1,13.06,540,NA,NA,NA
"Nicolas_J_Vereecken_Pyrus_communis_Belgium_2019","Pommeraie_pyrus_2019","Net","Apis mellifera","species","honeybees",1,13.06,540,NA,NA,NA
"Nicolas_J_Vereecken_Pyrus_communis_Belgium_2019","Pommeraie_pyrus_2019","Net","Apis mellifera","species","honeybees",1,13.06,540,NA,NA,NA
"Nicolas_J_Vereecken_Pyrus_communis_Belgium_2019","Pommeraie_pyrus_2019","Net","Apis mellifera","species","honeybees",1,13.06,540,NA,NA,NA
"Nicolas_J_Vereecken_Pyrus_communis_Belgium_2019","Pommeraie_pyrus_2019","Net","Apis mellifera","species","honeybees",1,13.06,540,NA,NA,NA
"Nicolas_J_Vereecken_Pyrus_communis_Belgium_2019","Pommeraie_pyrus_2019","Net","Apis mellifera","species","honeybees",1,13.06,540,NA,NA,NA
"Nicolas_J_Vereecken_Pyrus_communis_Belgium_2019","Pommeraie_pyrus_2019","Net","Apis mellifera","species","honeybees",1,13.06,540,NA,NA,NA
"Nicolas_J_Vereecken_Pyrus_communis_Belgium_2019","Pommeraie_pyrus_2019","Net","Apis mellifera","species","honeybees",1,13.06,540,NA,NA,NA
"Nicolas_J_Vereecken_Pyrus_communis_Belgium_2019","Pommeraie_pyrus_2019","Net","Apis mellifera","species","honeybees",1,13.06,540,NA,NA,NA
"Nicolas_J_Vereecken_Pyrus_communis_Belgium_2019","Pommeraie_pyrus_2019","Net","Apis mellifera","species","honeybees",1,13.06,540,NA,NA,NA
"Nicolas_J_Vereecken_Pyrus_communis_Belgium_2019","Pommeraie_pyrus_2019","Net","Apis mellifera","species","honeybees",1,13.06,540,NA,NA,NA
"Nicolas_J_Vereecken_Pyrus_communis_Belgium_2019","Gasi_pyrus_2019","Net","Apis mellifera","species","honeybees",1,2.8,540,NA,NA,NA
"Nicolas_J_Vereecken_Pyrus_communis_Belgium_2019","Gasi_pyrus_2019","Net","Apis mellifera","species","honeybees",1,2.8,540,NA,NA,NA
"Nicolas_J_Vereecken_Pyrus_communis_Belgium_2019","Pommeraie_pyrus_2019","Net","Bombus hypnorum","species","bumblebees",1,13.06,540,NA,NA,NA
"Nicolas_J_Vereecken_Pyrus_communis_Belgium_2019","Pommeraie_pyrus_2019","Net","Bombus hypnorum","species","bumblebees",1,13.06,540,NA,NA,NA
"Nicolas_J_Vereecken_Pyrus_communis_Belgium_2019","Pommeraie_pyrus_2019","Net","Bombus hypnorum","species","bumblebees",1,13.06,540,NA,NA,NA
"Nicolas_J_Vereecken_Pyrus_communis_Belgium_2019","Pommeraie_pyrus_2019","Net","Bombus lapidarius","species","bumblebees",1,13.06,540,NA,NA,NA
"Nicolas_J_Vereecken_Pyrus_communis_Belgium_2019","Pommeraie_pyrus_2019","Net","Bombus pascuorum","species","bumblebees",1,13.06,540,NA,NA,NA
"Nicolas_J_Vereecken_Pyrus_communis_Belgium_2019","Pommeraie_pyrus_2019","Net","Bombus pascuorum","species","bumblebees",1,13.06,540,NA,NA,NA
"Nicolas_J_Vereecken_Pyrus_communis_Belgium_2019","Gasi_pyrus_2019","Net","Bombus pascuorum","species","bumblebees",1,2.8,540,NA,NA,NA
"Nicolas_J_Vereecken_Pyrus_communis_Belgium_2019","Gasi_pyrus_2019","Net","Bombus pascuorum","species","bumblebees",1,2.8,540,NA,NA,NA
"Nicolas_J_Vereecken_Pyrus_communis_Belgium_2019","Pommeraie_pyrus_2019","Net","Bombus pratorum","species","bumblebees",1,13.06,540,NA,NA,NA
"Nicolas_J_Vereecken_Pyrus_communis_Belgium_2019","Pommeraie_pyrus_2019","Net","Bombus pratorum","species","bumblebees",1,13.06,540,NA,NA,NA
"Nicolas_J_Vereecken_Pyrus_communis_Belgium_2019","Gasi_pyrus_2019","Net","Bombus terrestris","species","bumblebees",1,2.8,540,NA,NA,NA
"Nicolas_J_Vereecken_Pyrus_communis_Belgium_2019","Gasi_pyrus_2019","Net","Bombus terrestris","species","bumblebees",1,2.8,540,NA,NA,NA
"Nicolas_J_Vereecken_Pyrus_communis_Belgium_2019","Gasi_pyrus_2019","Net","Bombus terrestris","species","bumblebees",1,2.8,540,NA,NA,NA
"Nicolas_J_Vereecken_Pyrus_communis_Belgium_2019","Gasi_pyrus_2019","Net","Bombus terrestris","species","bumblebees",1,2.8,540,NA,NA,NA
"Nicolas_J_Vereecken_Pyrus_communis_Belgium_2019","Gasi_pyrus_2019","Net","Bombus terrestris","species","bumblebees",1,2.8,540,NA,NA,NA
"Nicolas_J_Vereecken_Pyrus_communis_Belgium_2019","Gasi_pyrus_2019","Net","Bombus terrestris","species","bumblebees",1,2.8,540,NA,NA,NA
"Nicolas_J_Vereecken_Pyrus_communis_Belgium_2019","Gasi_pyrus_2019","Net","Bombus terrestris","species","bumblebees",1,2.8,540,NA,NA,NA
"Nicolas_J_Vereecken_Pyrus_communis_Belgium_2019","Gasi_pyrus_2019","Net","Bombus terrestris","species","bumblebees",1,2.8,540,NA,NA,NA
"Nicolas_J_Vereecken_Pyrus_communis_Belgium_2019","Gasi_pyrus_2019","Net","Bombus terrestris","species","bumblebees",1,2.8,540,NA,NA,NA
"Nicolas_J_Vereecken_Pyrus_communis_Belgium_2019","Pommeraie_pyrus_2019","Net","Bombus terrestris agg.","species complex","bumblebees",1,13.06,540,NA,NA,NA
"Nicolas_J_Vereecken_Pyrus_communis_Belgium_2019","Pommeraie_pyrus_2019","Net","Bombus terrestris agg.","species complex","bumblebees",1,13.06,540,NA,NA,NA
"Nicolas_J_Vereecken_Pyrus_communis_Belgium_2019","Pommeraie_pyrus_2019","Net","Bombus terrestris agg.","species complex","bumblebees",1,13.06,540,NA,NA,NA
"Nicolas_J_Vereecken_Pyrus_communis_Belgium_2019","Pommeraie_pyrus_2019","Net","Bombus terrestris agg.","species complex","bumblebees",1,13.06,540,NA,NA,NA
"Nicolas_J_Vereecken_Pyrus_communis_Belgium_2019","Pommeraie_pyrus_2019","Net","Bombus terrestris agg.","species complex","bumblebees",1,13.06,540,NA,NA,NA
"Nicolas_J_Vereecken_Pyrus_communis_Belgium_2019","Pommeraie_pyrus_2019","Net","Bombus terrestris agg.","species complex","bumblebees",1,13.06,540,NA,NA,NA
"Nicolas_J_Vereecken_Pyrus_communis_Belgium_2019","Pommeraie_pyrus_2019","Net","Bombus terrestris agg.","species complex","bumblebees",1,13.06,540,NA,NA,NA
"Nicolas_J_Vereecken_Pyrus_communis_Belgium_2019","Pommeraie_pyrus_2019","Net","Bombus terrestris agg.","species complex","bumblebees",1,13.06,540,NA,NA,NA
"Nicolas_J_Vereecken_Pyrus_communis_Belgium_2019","Pommeraie_pyrus_2019","Net","Bombus terrestris agg.","species complex","bumblebees",1,13.06,540,NA,NA,NA
"Nicolas_J_Vereecken_Pyrus_communis_Belgium_2019","Pommeraie_pyrus_2019","Net","Bombus terrestris agg.","species complex","bumblebees",1,13.06,540,NA,NA,NA
"Nicolas_J_Vereecken_Pyrus_communis_Belgium_2019","Pommeraie_pyrus_2019","Net","Bombus terrestris agg.","species complex","bumblebees",1,13.06,540,NA,NA,NA
"Nicolas_J_Vereecken_Pyrus_communis_Belgium_2019","Pommeraie_pyrus_2019","Net","Bombus terrestris agg.","species complex","bumblebees",1,13.06,540,NA,NA,NA
"Nicolas_J_Vereecken_Pyrus_communis_Belgium_2019","Gasi_pyrus_2019","Net","Nomada fabriciana","species","other_wild_bees",1,2.8,540,NA,NA,NA
"Nicolas_J_Vereecken_Pyrus_communis_Belgium_2019","Gasi_pyrus_2019","Net","Nomada fabriciana","species","other_wild_bees",1,2.8,540,NA,NA,NA
"Nicolas_J_Vereecken_Pyrus_communis_Belgium_2019","Gasi_pyrus_2019","Net","Nomada fabriciana","species","other_wild_bees",1,2.8,540,NA,NA,NA
"Nicolas_J_Vereecken_Pyrus_communis_Belgium_2019","Gasi_pyrus_2019","Net","Nomada flava","species","other_wild_bees",1,2.8,540,NA,NA,NA
"Nicolas_J_Vereecken_Pyrus_communis_Belgium_2019","Gasi_pyrus_2019","Net","Nomada flava","species","other_wild_bees",1,2.8,540,NA,NA,NA
"Nicolas_J_Vereecken_Pyrus_communis_Belgium_2019","Gasi_pyrus_2019","Net","Nomada lathburiana","species","other_wild_bees",1,2.8,540,NA,NA,NA
"Nicolas_J_Vereecken_Pyrus_communis_Belgium_2019","Pommeraie_pyrus_2019","Net","Osmia bicornis","species","other_wild_bees",1,13.06,540,NA,NA,NA
"Nicolas_J_Vereecken_Pyrus_communis_Belgium_2019","Gasi_pyrus_2019","Net","Osmia bicornis","species","other_wild_bees",1,2.8,540,NA,NA,NA
"Nicolas_J_Vereecken_Pyrus_communis_Belgium_2019","Pommeraie_pyrus_2019","Net","Osmia cornuta","species","other_wild_bees",1,13.06,540,NA,NA,NA
"Nicolas_J_Vereecken_Pyrus_communis_Belgium_2019","Pommeraie_pyrus_2019","Net","Osmia cornuta","species","other_wild_bees",1,13.06,540,NA,NA,NA
"Pablo_Cavigliasso_Vaccinium_corymbosum_Argentina_2016","AB","Census of 5 minutes","Apis mellifera","species","honeybees",63,NA,150,NA,"Observation: 5 minutes per plant, 6 plant observations  per site, and	5 rounds per site in season",NA
"Pablo_Cavigliasso_Vaccinium_corymbosum_Argentina_2016","AB","Census of 5 minutes","Bombus atratus","species","bumblebees",5,NA,150,NA,"Observation: 5 minutes per plant, 6 plant observations  per site, and	5 rounds per site in season",NA
"Pablo_Cavigliasso_Vaccinium_corymbosum_Argentina_2016","AB","Census of 5 minutes","Bombus bellicosus","species","bumblebees",1,NA,150,NA,"Observation: 5 minutes per plant, 6 plant observations  per site, and	5 rounds per site in season",NA
"Pablo_Cavigliasso_Vaccinium_corymbosum_Argentina_2016","AB","Census of 5 minutes","Vespidae sp2","morphospecies","non_bee_hymenoptera",3,NA,150,NA,"Observation: 5 minutes per plant, 6 plant observations  per site, and	5 rounds per site in season",NA
"Pablo_Cavigliasso_Vaccinium_corymbosum_Argentina_2016","AB","Census of 5 minutes","Allograpta sp1","morphospecies","syrphids",6,NA,150,NA,"Observation: 5 minutes per plant, 6 plant observations  per site, and	5 rounds per site in season",NA
"Pablo_Cavigliasso_Vaccinium_corymbosum_Argentina_2016","AB","Census of 5 minutes","Allograpta sp2","morphospecies","syrphids",1,NA,150,NA,"Observation: 5 minutes per plant, 6 plant observations  per site, and	5 rounds per site in season",NA
"Pablo_Cavigliasso_Vaccinium_corymbosum_Argentina_2016","AB","Census of 5 minutes","Syrphus ribessi","species","syrphids",9,NA,150,NA,"Observation: 5 minutes per plant, 6 plant observations  per site, and	5 rounds per site in season",NA
"Pablo_Cavigliasso_Vaccinium_corymbosum_Argentina_2016","AB","Census of 5 minutes","Eristalis sp1","morphospecies","syrphids",1,NA,150,NA,"Observation: 5 minutes per plant, 6 plant observations  per site, and	5 rounds per site in season",NA
"Pablo_Cavigliasso_Vaccinium_corymbosum_Argentina_2016","AB","Census of 5 minutes","Eristalis sp2","morphospecies","syrphids",1,NA,150,NA,"Observation: 5 minutes per plant, 6 plant observations  per site, and	5 rounds per site in season",NA
"Pablo_Cavigliasso_Vaccinium_corymbosum_Argentina_2016","AB","Census of 5 minutes","Toxomerus sp1","morphospecies","syrphids",3,NA,150,NA,"Observation: 5 minutes per plant, 6 plant observations  per site, and	5 rounds per site in season",NA
"Pablo_Cavigliasso_Vaccinium_corymbosum_Argentina_2016","AB","Census of 5 minutes","Ornidia obessa","species","syrphids",3,NA,150,NA,"Observation: 5 minutes per plant, 6 plant observations  per site, and	5 rounds per site in season",NA
"Pablo_Cavigliasso_Vaccinium_corymbosum_Argentina_2016","AB","Census of 5 minutes","Doclichopodidae","Family","other_flies",1,NA,150,NA,"Observation: 5 minutes per plant, 6 plant observations  per site, and	5 rounds per site in season",NA
"Pablo_Cavigliasso_Vaccinium_corymbosum_Argentina_2016","AB","Census of 5 minutes","Syrphidae sp3","morphospecies","syrphids",2,NA,150,NA,"Observation: 5 minutes per plant, 6 plant observations  per site, and	5 rounds per site in season",NA
"Pablo_Cavigliasso_Vaccinium_corymbosum_Argentina_2016","AB","Census of 5 minutes","Muscidae","Family","other_flies",1,NA,150,NA,"Observation: 5 minutes per plant, 6 plant observations  per site, and	5 rounds per site in season",NA
"Pablo_Cavigliasso_Vaccinium_corymbosum_Argentina_2016","AR","Census of 5 minutes","Apis mellifera","species","honeybees",39,NA,150,NA,"Observation: 5 minutes per plant, 6 plant observations  per site, and	5 rounds per site in season",NA
"Pablo_Cavigliasso_Vaccinium_corymbosum_Argentina_2016","AR","Census of 5 minutes","Bombus atratus","species","bumblebees",1,NA,150,NA,"Observation: 5 minutes per plant, 6 plant observations  per site, and	5 rounds per site in season",NA
"Pablo_Cavigliasso_Vaccinium_corymbosum_Argentina_2016","AR","Census of 5 minutes","Vespidae sp2","morphospecies","non_bee_hymenoptera",1,NA,150,NA,"Observation: 5 minutes per plant, 6 plant observations  per site, and	5 rounds per site in season",NA
"Pablo_Cavigliasso_Vaccinium_corymbosum_Argentina_2016","AR","Census of 5 minutes","Allograpta sp3","morphospecies","syrphids",1,NA,150,NA,"Observation: 5 minutes per plant, 6 plant observations  per site, and	5 rounds per site in season",NA
"Pablo_Cavigliasso_Vaccinium_corymbosum_Argentina_2016","AR","Census of 5 minutes","Syrphus ribessi","species","syrphids",6,NA,150,NA,"Observation: 5 minutes per plant, 6 plant observations  per site, and	5 rounds per site in season",NA
"Pablo_Cavigliasso_Vaccinium_corymbosum_Argentina_2016","AR","Census of 5 minutes","Toxomerus sp1","morphospecies","syrphids",2,NA,150,NA,"Observation: 5 minutes per plant, 6 plant observations  per site, and	5 rounds per site in season",NA
"Pablo_Cavigliasso_Vaccinium_corymbosum_Argentina_2016","AR","Census of 5 minutes","Toxomerus sp2","morphospecies","syrphids",1,NA,150,NA,"Observation: 5 minutes per plant, 6 plant observations  per site, and	5 rounds per site in season",NA
"Pablo_Cavigliasso_Vaccinium_corymbosum_Argentina_2016","AR","Census of 5 minutes","Vanessa braziliensis","species","lepidoptera",3,NA,150,NA,"Observation: 5 minutes per plant, 6 plant observations  per site, and	5 rounds per site in season",NA
"Pablo_Cavigliasso_Vaccinium_corymbosum_Argentina_2016","BB","Census of 5 minutes","Apis mellifera","species","honeybees",77,NA,150,NA,"Observation: 5 minutes per plant, 6 plant observations  per site, and	5 rounds per site in season",NA
"Pablo_Cavigliasso_Vaccinium_corymbosum_Argentina_2016","BB","Census of 5 minutes","Xylocopa splendidula","species","other_wild_bees",1,NA,150,NA,"Observation: 5 minutes per plant, 6 plant observations  per site, and	5 rounds per site in season",NA
"Pablo_Cavigliasso_Vaccinium_corymbosum_Argentina_2016","BB","Census of 5 minutes","Vespidae sp1","morphospecies","non_bee_hymenoptera",1,NA,150,NA,"Observation: 5 minutes per plant, 6 plant observations  per site, and	5 rounds per site in season",NA
"Pablo_Cavigliasso_Vaccinium_corymbosum_Argentina_2016","BB","Census of 5 minutes","Vespidae sp2","morphospecies","non_bee_hymenoptera",1,NA,150,NA,"Observation: 5 minutes per plant, 6 plant observations  per site, and	5 rounds per site in season",NA
"Pablo_Cavigliasso_Vaccinium_corymbosum_Argentina_2016","BB","Census of 5 minutes","Allograpta sp1","morphospecies","syrphids",4,NA,150,NA,"Observation: 5 minutes per plant, 6 plant observations  per site, and	5 rounds per site in season",NA
"Pablo_Cavigliasso_Vaccinium_corymbosum_Argentina_2016","BB","Census of 5 minutes","Allograpta sp2","morphospecies","syrphids",1,NA,150,NA,"Observation: 5 minutes per plant, 6 plant observations  per site, and	5 rounds per site in season",NA
"Pablo_Cavigliasso_Vaccinium_corymbosum_Argentina_2016","BB","Census of 5 minutes","Allograpta sp3","morphospecies","syrphids",1,NA,150,NA,"Observation: 5 minutes per plant, 6 plant observations  per site, and	5 rounds per site in season",NA
"Pablo_Cavigliasso_Vaccinium_corymbosum_Argentina_2016","BB","Census of 5 minutes","Syrphus ribessi","species","syrphids",9,NA,150,NA,"Observation: 5 minutes per plant, 6 plant observations  per site, and	5 rounds per site in season",NA
"Pablo_Cavigliasso_Vaccinium_corymbosum_Argentina_2016","BB","Census of 5 minutes","Toxomerus sp1","morphospecies","syrphids",5,NA,150,NA,"Observation: 5 minutes per plant, 6 plant observations  per site, and	5 rounds per site in season",NA
"Pablo_Cavigliasso_Vaccinium_corymbosum_Argentina_2016","BB","Census of 5 minutes","Toxomerus sp2","morphospecies","syrphids",1,NA,150,NA,"Observation: 5 minutes per plant, 6 plant observations  per site, and	5 rounds per site in season",NA
"Pablo_Cavigliasso_Vaccinium_corymbosum_Argentina_2016","BB","Census of 5 minutes","Syrphidae sp1","morphospecies","syrphids",2,NA,150,NA,"Observation: 5 minutes per plant, 6 plant observations  per site, and	5 rounds per site in season",NA
"Pablo_Cavigliasso_Vaccinium_corymbosum_Argentina_2016","BB","Census of 5 minutes","Syrphidae sp3","morphospecies","syrphids",1,NA,150,NA,"Observation: 5 minutes per plant, 6 plant observations  per site, and	5 rounds per site in season",NA
"Pablo_Cavigliasso_Vaccinium_corymbosum_Argentina_2016","BB","Census of 5 minutes","Vanessa carye","species","lepidoptera",3,NA,150,NA,"Observation: 5 minutes per plant, 6 plant observations  per site, and	5 rounds per site in season",NA
"Pablo_Cavigliasso_Vaccinium_corymbosum_Argentina_2016","BB","Census of 5 minutes","Typhedanus undulatus","species","lepidoptera",1,NA,150,NA,"Observation: 5 minutes per plant, 6 plant observations  per site, and	5 rounds per site in season",NA
"Pablo_Cavigliasso_Vaccinium_corymbosum_Argentina_2016","BB","Census of 5 minutes","Danaus plexippus","species","lepidoptera",1,NA,150,NA,"Observation: 5 minutes per plant, 6 plant observations  per site, and	5 rounds per site in season",NA
"Pablo_Cavigliasso_Vaccinium_corymbosum_Argentina_2016","BBR3","Census of 5 minutes","Apis mellifera","species","honeybees",24,NA,150,NA,"Observation: 5 minutes per plant, 6 plant observations  per site, and	5 rounds per site in season",NA
"Pablo_Cavigliasso_Vaccinium_corymbosum_Argentina_2016","BBR3","Census of 5 minutes","Vespidae sp2","morphospecies","non_bee_hymenoptera",2,NA,150,NA,"Observation: 5 minutes per plant, 6 plant observations  per site, and	5 rounds per site in season",NA
"Pablo_Cavigliasso_Vaccinium_corymbosum_Argentina_2016","BBR3","Census of 5 minutes","Allograpta sp1","morphospecies","syrphids",4,NA,150,NA,"Observation: 5 minutes per plant, 6 plant observations  per site, and	5 rounds per site in season",NA
"Pablo_Cavigliasso_Vaccinium_corymbosum_Argentina_2016","BBR3","Census of 5 minutes","Allograpta sp2","morphospecies","syrphids",1,NA,150,NA,"Observation: 5 minutes per plant, 6 plant observations  per site, and	5 rounds per site in season",NA
"Pablo_Cavigliasso_Vaccinium_corymbosum_Argentina_2016","BBR3","Census of 5 minutes","Syrphus ribessi","species","syrphids",3,NA,150,NA,"Observation: 5 minutes per plant, 6 plant observations  per site, and	5 rounds per site in season",NA
"Pablo_Cavigliasso_Vaccinium_corymbosum_Argentina_2016","BBR3","Census of 5 minutes","Toxomerus sp1","morphospecies","syrphids",2,NA,150,NA,"Observation: 5 minutes per plant, 6 plant observations  per site, and	5 rounds per site in season",NA
"Pablo_Cavigliasso_Vaccinium_corymbosum_Argentina_2016","BBR3","Census of 5 minutes","Syrphidae sp4","morphospecies","syrphids",1,NA,150,NA,"Observation: 5 minutes per plant, 6 plant observations  per site, and	5 rounds per site in season",NA
"Pablo_Cavigliasso_Vaccinium_corymbosum_Argentina_2016","BBR4","Census of 5 minutes","Apis mellifera","species","honeybees",56,NA,150,NA,"Observation: 5 minutes per plant, 6 plant observations  per site, and	5 rounds per site in season",NA
"Pablo_Cavigliasso_Vaccinium_corymbosum_Argentina_2016","BBR4","Census of 5 minutes","Bombus atratus","species","bumblebees",3,NA,150,NA,"Observation: 5 minutes per plant, 6 plant observations  per site, and	5 rounds per site in season",NA
"Pablo_Cavigliasso_Vaccinium_corymbosum_Argentina_2016","BBR4","Census of 5 minutes","Vespidae sp2","morphospecies","non_bee_hymenoptera",8,NA,150,NA,"Observation: 5 minutes per plant, 6 plant observations  per site, and	5 rounds per site in season",NA
"Pablo_Cavigliasso_Vaccinium_corymbosum_Argentina_2016","BBR4","Census of 5 minutes","Allograpta sp1","morphospecies","syrphids",2,NA,150,NA,"Observation: 5 minutes per plant, 6 plant observations  per site, and	5 rounds per site in season",NA
"Pablo_Cavigliasso_Vaccinium_corymbosum_Argentina_2016","BBR4","Census of 5 minutes","Allograpta sp2","morphospecies","syrphids",2,NA,150,NA,"Observation: 5 minutes per plant, 6 plant observations  per site, and	5 rounds per site in season",NA
"Pablo_Cavigliasso_Vaccinium_corymbosum_Argentina_2016","BBR4","Census of 5 minutes","Allograpta sp3","morphospecies","syrphids",3,NA,150,NA,"Observation: 5 minutes per plant, 6 plant observations  per site, and	5 rounds per site in season",NA
"Pablo_Cavigliasso_Vaccinium_corymbosum_Argentina_2016","BBR4","Census of 5 minutes","Syrphus ribessi","species","syrphids",6,NA,150,NA,"Observation: 5 minutes per plant, 6 plant observations  per site, and	5 rounds per site in season",NA
"Pablo_Cavigliasso_Vaccinium_corymbosum_Argentina_2016","BBR4","Census of 5 minutes","Eristalis sp3","morphospecies","syrphids",1,NA,150,NA,"Observation: 5 minutes per plant, 6 plant observations  per site, and	5 rounds per site in season",NA
"Pablo_Cavigliasso_Vaccinium_corymbosum_Argentina_2016","BBR4","Census of 5 minutes","Eristalis sp4","morphospecies","syrphids",3,NA,150,NA,"Observation: 5 minutes per plant, 6 plant observations  per site, and	5 rounds per site in season",NA
"Pablo_Cavigliasso_Vaccinium_corymbosum_Argentina_2016","BBR4","Census of 5 minutes","Toxomerus sp1","morphospecies","syrphids",1,NA,150,NA,"Observation: 5 minutes per plant, 6 plant observations  per site, and	5 rounds per site in season",NA
"Pablo_Cavigliasso_Vaccinium_corymbosum_Argentina_2016","BBR4","Census of 5 minutes","Danaus plexippus","species","lepidoptera",1,NA,150,NA,"Observation: 5 minutes per plant, 6 plant observations  per site, and	5 rounds per site in season",NA
"Pablo_Cavigliasso_Vaccinium_corymbosum_Argentina_2016","BBR5","Census of 5 minutes","Apis mellifera","species","honeybees",33,NA,150,NA,"Observation: 5 minutes per plant, 6 plant observations  per site, and	5 rounds per site in season",NA
"Pablo_Cavigliasso_Vaccinium_corymbosum_Argentina_2016","BBR5","Census of 5 minutes","Bombus atratus","species","bumblebees",7,NA,150,NA,"Observation: 5 minutes per plant, 6 plant observations  per site, and	5 rounds per site in season",NA
"Pablo_Cavigliasso_Vaccinium_corymbosum_Argentina_2016","BBR5","Census of 5 minutes","Vespidae sp2","morphospecies","non_bee_hymenoptera",4,NA,150,NA,"Observation: 5 minutes per plant, 6 plant observations  per site, and	5 rounds per site in season",NA
"Pablo_Cavigliasso_Vaccinium_corymbosum_Argentina_2016","BBR5","Census of 5 minutes","Allograpta sp3","morphospecies","syrphids",2,NA,150,NA,"Observation: 5 minutes per plant, 6 plant observations  per site, and	5 rounds per site in season",NA
"Pablo_Cavigliasso_Vaccinium_corymbosum_Argentina_2016","BBR5","Census of 5 minutes","Syrphus ribessi","species","syrphids",7,NA,150,NA,"Observation: 5 minutes per plant, 6 plant observations  per site, and	5 rounds per site in season",NA
"Pablo_Cavigliasso_Vaccinium_corymbosum_Argentina_2016","BBR5","Census of 5 minutes","Eristalis sp1","morphospecies","syrphids",1,NA,150,NA,"Observation: 5 minutes per plant, 6 plant observations  per site, and	5 rounds per site in season",NA
"Pablo_Cavigliasso_Vaccinium_corymbosum_Argentina_2016","BBR5","Census of 5 minutes","Eristalis sp2","morphospecies","syrphids",1,NA,150,NA,"Observation: 5 minutes per plant, 6 plant observations  per site, and	5 rounds per site in season",NA
"Pablo_Cavigliasso_Vaccinium_corymbosum_Argentina_2016","BBR5","Census of 5 minutes","Eristalis sp3","morphospecies","syrphids",1,NA,150,NA,"Observation: 5 minutes per plant, 6 plant observations  per site, and	5 rounds per site in season",NA
"Pablo_Cavigliasso_Vaccinium_corymbosum_Argentina_2016","BBR5","Census of 5 minutes","Eristalis sp4","morphospecies","syrphids",1,NA,150,NA,"Observation: 5 minutes per plant, 6 plant observations  per site, and	5 rounds per site in season",NA
"Pablo_Cavigliasso_Vaccinium_corymbosum_Argentina_2016","BBR5","Census of 5 minutes","Toxomerus sp1","morphospecies","syrphids",3,NA,150,NA,"Observation: 5 minutes per plant, 6 plant observations  per site, and	5 rounds per site in season",NA
"Pablo_Cavigliasso_Vaccinium_corymbosum_Argentina_2016","BBR5","Census of 5 minutes","Ornidia obessa","species","syrphids",1,NA,150,NA,"Observation: 5 minutes per plant, 6 plant observations  per site, and	5 rounds per site in season",NA
"Pablo_Cavigliasso_Vaccinium_corymbosum_Argentina_2016","BBR5","Census of 5 minutes","Syrphidae sp1","morphospecies","syrphids",1,NA,150,NA,"Observation: 5 minutes per plant, 6 plant observations  per site, and	5 rounds per site in season",NA
"Pablo_Cavigliasso_Vaccinium_corymbosum_Argentina_2016","BBR5","Census of 5 minutes","Sciaridae sp","morphospecies","other_flies",1,NA,150,NA,"Observation: 5 minutes per plant, 6 plant observations  per site, and	5 rounds per site in season",NA
"Pablo_Cavigliasso_Vaccinium_corymbosum_Argentina_2016","BBR5","Census of 5 minutes","Vanessa braziliensis","species","lepidoptera",1,NA,150,NA,"Observation: 5 minutes per plant, 6 plant observations  per site, and	5 rounds per site in season",NA
"Pablo_Cavigliasso_Vaccinium_corymbosum_Argentina_2016","BBR5","Census of 5 minutes","Vanessa carye","species","lepidoptera",1,NA,150,NA,"Observation: 5 minutes per plant, 6 plant observations  per site, and	5 rounds per site in season",NA
"Pablo_Cavigliasso_Vaccinium_corymbosum_Argentina_2016","BBR5","Census of 5 minutes","Coccinellidae sp","Family","beetles",1,NA,150,NA,"Observation: 5 minutes per plant, 6 plant observations  per site, and	5 rounds per site in season",NA
"Pablo_Cavigliasso_Vaccinium_corymbosum_Argentina_2016","BM","Census of 5 minutes","Apis mellifera","species","honeybees",34,NA,150,NA,"Observation: 5 minutes per plant, 6 plant observations  per site, and	5 rounds per site in season",NA
"Pablo_Cavigliasso_Vaccinium_corymbosum_Argentina_2016","BM","Census of 5 minutes","Ichneumonidea","Family","non_bee_hymenoptera",1,NA,150,NA,"Observation: 5 minutes per plant, 6 plant observations  per site, and	5 rounds per site in season",NA
"Pablo_Cavigliasso_Vaccinium_corymbosum_Argentina_2016","BM","Census of 5 minutes","Vespidae sp1","morphospecies","non_bee_hymenoptera",1,NA,150,NA,"Observation: 5 minutes per plant, 6 plant observations  per site, and	5 rounds per site in season",NA
"Pablo_Cavigliasso_Vaccinium_corymbosum_Argentina_2016","BM","Census of 5 minutes","Allograpta sp1","morphospecies","syrphids",2,NA,150,NA,"Observation: 5 minutes per plant, 6 plant observations  per site, and	5 rounds per site in season",NA
"Pablo_Cavigliasso_Vaccinium_corymbosum_Argentina_2016","BM","Census of 5 minutes","Allograpta sp2","morphospecies","syrphids",2,NA,150,NA,"Observation: 5 minutes per plant, 6 plant observations  per site, and	5 rounds per site in season",NA
"Pablo_Cavigliasso_Vaccinium_corymbosum_Argentina_2016","BM","Census of 5 minutes","Syrphus ribessi","species","syrphids",12,NA,150,NA,"Observation: 5 minutes per plant, 6 plant observations  per site, and	5 rounds per site in season",NA
"Pablo_Cavigliasso_Vaccinium_corymbosum_Argentina_2016","BM","Census of 5 minutes","Eristalis sp2","morphospecies","syrphids",1,NA,150,NA,"Observation: 5 minutes per plant, 6 plant observations  per site, and	5 rounds per site in season",NA
"Pablo_Cavigliasso_Vaccinium_corymbosum_Argentina_2016","BM","Census of 5 minutes","Toxomerus sp1","morphospecies","syrphids",1,NA,150,NA,"Observation: 5 minutes per plant, 6 plant observations  per site, and	5 rounds per site in season",NA
"Pablo_Cavigliasso_Vaccinium_corymbosum_Argentina_2016","BM","Census of 5 minutes","Syrphidae sp2","morphospecies","syrphids",1,NA,150,NA,"Observation: 5 minutes per plant, 6 plant observations  per site, and	5 rounds per site in season",NA
"Pablo_Cavigliasso_Vaccinium_corymbosum_Argentina_2016","BM","Census of 5 minutes","Tipulidae","Family","other_flies",1,NA,150,NA,"Observation: 5 minutes per plant, 6 plant observations  per site, and	5 rounds per site in season",NA
"Pablo_Cavigliasso_Vaccinium_corymbosum_Argentina_2016","BSA","Census of 5 minutes","Apis mellifera","species","honeybees",42,NA,150,NA,"Observation: 5 minutes per plant, 6 plant observations  per site, and	5 rounds per site in season",NA
"Pablo_Cavigliasso_Vaccinium_corymbosum_Argentina_2016","BSA","Census of 5 minutes","Xylocopa ciliata","species","other_wild_bees",1,NA,150,NA,"Observation: 5 minutes per plant, 6 plant observations  per site, and	5 rounds per site in season",NA
"Pablo_Cavigliasso_Vaccinium_corymbosum_Argentina_2016","BSA","Census of 5 minutes","Xylocopa augusti","species","other_wild_bees",1,NA,150,NA,"Observation: 5 minutes per plant, 6 plant observations  per site, and	5 rounds per site in season",NA
"Pablo_Cavigliasso_Vaccinium_corymbosum_Argentina_2016","BSA","Census of 5 minutes","Vespidae sp1","morphospecies","non_bee_hymenoptera",1,NA,150,NA,"Observation: 5 minutes per plant, 6 plant observations  per site, and	5 rounds per site in season",NA
"Pablo_Cavigliasso_Vaccinium_corymbosum_Argentina_2016","BSA","Census of 5 minutes","Vespidae sp2","morphospecies","non_bee_hymenoptera",3,NA,150,NA,"Observation: 5 minutes per plant, 6 plant observations  per site, and	5 rounds per site in season",NA
"Pablo_Cavigliasso_Vaccinium_corymbosum_Argentina_2016","BSA","Census of 5 minutes","Allograpta sp1","morphospecies","syrphids",3,NA,150,NA,"Observation: 5 minutes per plant, 6 plant observations  per site, and	5 rounds per site in season",NA
"Pablo_Cavigliasso_Vaccinium_corymbosum_Argentina_2016","BSA","Census of 5 minutes","Syrphus ribessi","species","syrphids",9,NA,150,NA,"Observation: 5 minutes per plant, 6 plant observations  per site, and	5 rounds per site in season",NA
"Pablo_Cavigliasso_Vaccinium_corymbosum_Argentina_2016","BSA","Census of 5 minutes","Eristalis sp1","morphospecies","syrphids",1,NA,150,NA,"Observation: 5 minutes per plant, 6 plant observations  per site, and	5 rounds per site in season",NA
"Pablo_Cavigliasso_Vaccinium_corymbosum_Argentina_2016","BSA","Census of 5 minutes","Toxomerus sp1","morphospecies","syrphids",2,NA,150,NA,"Observation: 5 minutes per plant, 6 plant observations  per site, and	5 rounds per site in season",NA
"Pablo_Cavigliasso_Vaccinium_corymbosum_Argentina_2016","BSA","Census of 5 minutes","Ornidia obessa","species","syrphids",1,NA,150,NA,"Observation: 5 minutes per plant, 6 plant observations  per site, and	5 rounds per site in season",NA
"Pablo_Cavigliasso_Vaccinium_corymbosum_Argentina_2016","BSA","Census of 5 minutes","Syrphidae sp3","morphospecies","syrphids",1,NA,150,NA,"Observation: 5 minutes per plant, 6 plant observations  per site, and	5 rounds per site in season",NA
"Pablo_Cavigliasso_Vaccinium_corymbosum_Argentina_2016","BSF","Census of 5 minutes","Apis mellifera","species","honeybees",63,NA,150,NA,"Observation: 5 minutes per plant, 6 plant observations  per site, and	5 rounds per site in season",NA
"Pablo_Cavigliasso_Vaccinium_corymbosum_Argentina_2016","BSF","Census of 5 minutes","Bombus atratus","species","bumblebees",6,NA,150,NA,"Observation: 5 minutes per plant, 6 plant observations  per site, and	5 rounds per site in season",NA
"Pablo_Cavigliasso_Vaccinium_corymbosum_Argentina_2016","BSF","Census of 5 minutes","Xylocopa macrops","species","other_wild_bees",1,NA,150,NA,"Observation: 5 minutes per plant, 6 plant observations  per site, and	5 rounds per site in season",NA
"Pablo_Cavigliasso_Vaccinium_corymbosum_Argentina_2016","BSF","Census of 5 minutes","Allograpta sp1","morphospecies","syrphids",3,NA,150,NA,"Observation: 5 minutes per plant, 6 plant observations  per site, and	5 rounds per site in season",NA
"Pablo_Cavigliasso_Vaccinium_corymbosum_Argentina_2016","BSF","Census of 5 minutes","Allograpta sp2","morphospecies","syrphids",3,NA,150,NA,"Observation: 5 minutes per plant, 6 plant observations  per site, and	5 rounds per site in season",NA
"Pablo_Cavigliasso_Vaccinium_corymbosum_Argentina_2016","BSF","Census of 5 minutes","Allograpta sp3","morphospecies","syrphids",2,NA,150,NA,"Observation: 5 minutes per plant, 6 plant observations  per site, and	5 rounds per site in season",NA
"Pablo_Cavigliasso_Vaccinium_corymbosum_Argentina_2016","BSF","Census of 5 minutes","Syrphus ribessi","species","syrphids",5,NA,150,NA,"Observation: 5 minutes per plant, 6 plant observations  per site, and	5 rounds per site in season",NA
"Pablo_Cavigliasso_Vaccinium_corymbosum_Argentina_2016","BSF","Census of 5 minutes","Muscidae","Family","other_flies",1,NA,150,NA,"Observation: 5 minutes per plant, 6 plant observations  per site, and	5 rounds per site in season",NA
"Pablo_Cavigliasso_Vaccinium_corymbosum_Argentina_2016","BSF","Census of 5 minutes","Danaus plexippus","species","lepidoptera",1,NA,150,NA,"Observation: 5 minutes per plant, 6 plant observations  per site, and	5 rounds per site in season",NA
"Pablo_Cavigliasso_Vaccinium_corymbosum_Argentina_2016","PSE","Census of 5 minutes","Apis mellifera","species","honeybees",64,NA,150,NA,"Observation: 5 minutes per plant, 6 plant observations  per site, and	5 rounds per site in season",NA
"Pablo_Cavigliasso_Vaccinium_corymbosum_Argentina_2016","PSE","Census of 5 minutes","Bombus atratus","species","bumblebees",9,NA,150,NA,"Observation: 5 minutes per plant, 6 plant observations  per site, and	5 rounds per site in season",NA
"Pablo_Cavigliasso_Vaccinium_corymbosum_Argentina_2016","PSE","Census of 5 minutes","Vespidae sp2","morphospecies","non_bee_hymenoptera",1,NA,150,NA,"Observation: 5 minutes per plant, 6 plant observations  per site, and	5 rounds per site in season",NA
"Pablo_Cavigliasso_Vaccinium_corymbosum_Argentina_2016","PSE","Census of 5 minutes","Allograpta sp1","morphospecies","syrphids",6,NA,150,NA,"Observation: 5 minutes per plant, 6 plant observations  per site, and	5 rounds per site in season",NA
"Pablo_Cavigliasso_Vaccinium_corymbosum_Argentina_2016","PSE","Census of 5 minutes","Allograpta sp2","morphospecies","syrphids",1,NA,150,NA,"Observation: 5 minutes per plant, 6 plant observations  per site, and	5 rounds per site in season",NA
"Pablo_Cavigliasso_Vaccinium_corymbosum_Argentina_2016","PSE","Census of 5 minutes","Syrphus ribessi","species","syrphids",5,NA,150,NA,"Observation: 5 minutes per plant, 6 plant observations  per site, and	5 rounds per site in season",NA
"Pablo_Cavigliasso_Vaccinium_corymbosum_Argentina_2016","PSE","Census of 5 minutes","Toxomerus sp1","morphospecies","syrphids",2,NA,150,NA,"Observation: 5 minutes per plant, 6 plant observations  per site, and	5 rounds per site in season",NA
"Pablo_Cavigliasso_Vaccinium_corymbosum_Argentina_2016","PSE","Census of 5 minutes","Toxomerus sp2","morphospecies","syrphids",1,NA,150,NA,"Observation: 5 minutes per plant, 6 plant observations  per site, and	5 rounds per site in season",NA
"Pablo_Cavigliasso_Vaccinium_corymbosum_Argentina_2016","PSE","Census of 5 minutes","Ornidia obessa","species","syrphids",1,NA,150,NA,"Observation: 5 minutes per plant, 6 plant observations  per site, and	5 rounds per site in season",NA
"Pablo_Cavigliasso_Vaccinium_corymbosum_Argentina_2016","PSE","Census of 5 minutes","Syrphidae sp2","morphospecies","syrphids",1,NA,150,NA,"Observation: 5 minutes per plant, 6 plant observations  per site, and	5 rounds per site in season",NA
"Pablo_Cavigliasso_Vaccinium_corymbosum_Argentina_2016","PSE","Census of 5 minutes","Sciaridae sp","morphospecies","other_flies",1,NA,150,NA,"Observation: 5 minutes per plant, 6 plant observations  per site, and	5 rounds per site in season",NA
"Pablo_Cavigliasso_Vaccinium_corymbosum_Argentina_2016","PSO","Census of 5 minutes","Apis mellifera","species","honeybees",39,NA,150,NA,"Observation: 5 minutes per plant, 6 plant observations  per site, and	5 rounds per site in season",NA
"Pablo_Cavigliasso_Vaccinium_corymbosum_Argentina_2016","PSO","Census of 5 minutes","Bombus atratus","species","bumblebees",7,NA,150,NA,"Observation: 5 minutes per plant, 6 plant observations  per site, and	5 rounds per site in season",NA
"Pablo_Cavigliasso_Vaccinium_corymbosum_Argentina_2016","PSO","Census of 5 minutes","Vespidae sp2","morphospecies","non_bee_hymenoptera",1,NA,150,NA,"Observation: 5 minutes per plant, 6 plant observations  per site, and	5 rounds per site in season",NA
"Pablo_Cavigliasso_Vaccinium_corymbosum_Argentina_2016","PSO","Census of 5 minutes","Allograpta sp1","morphospecies","syrphids",8,NA,150,NA,"Observation: 5 minutes per plant, 6 plant observations  per site, and	5 rounds per site in season",NA
"Pablo_Cavigliasso_Vaccinium_corymbosum_Argentina_2016","PSO","Census of 5 minutes","Syrphus ribessi","species","syrphids",11,NA,150,NA,"Observation: 5 minutes per plant, 6 plant observations  per site, and	5 rounds per site in season",NA
"Pablo_Cavigliasso_Vaccinium_corymbosum_Argentina_2016","PSO","Census of 5 minutes","Toxomerus sp1","morphospecies","syrphids",2,NA,150,NA,"Observation: 5 minutes per plant, 6 plant observations  per site, and	5 rounds per site in season",NA
"Pablo_Cavigliasso_Vaccinium_corymbosum_Argentina_2016","PSO","Census of 5 minutes","Toxomerus sp2","morphospecies","syrphids",1,NA,150,NA,"Observation: 5 minutes per plant, 6 plant observations  per site, and	5 rounds per site in season",NA
"Pablo_Cavigliasso_Vaccinium_corymbosum_Argentina_2016","PSO","Census of 5 minutes","Ornidia obessa","species","syrphids",5,NA,150,NA,"Observation: 5 minutes per plant, 6 plant observations  per site, and	5 rounds per site in season",NA
"Pablo_Cavigliasso_Vaccinium_corymbosum_Argentina_2016","PSO","Census of 5 minutes","Sarcophagidae","Family","other_flies",1,NA,150,NA,"Observation: 5 minutes per plant, 6 plant observations  per site, and	5 rounds per site in season",NA
"Pablo_Cavigliasso_Vaccinium_corymbosum_Argentina_2016","PSO","Census of 5 minutes","Sciaridae sp","morphospecies","other_flies",1,NA,150,NA,"Observation: 5 minutes per plant, 6 plant observations  per site, and	5 rounds per site in season",NA
"Pablo_Cavigliasso_Vaccinium_corymbosum_Argentina_2016","PSO","Census of 5 minutes","Vanessa braziliensis","species","lepidoptera",1,NA,150,NA,"Observation: 5 minutes per plant, 6 plant observations  per site, and	5 rounds per site in season",NA
"Pablo_Cavigliasso_Vaccinium_corymbosum_Argentina_2016","QM","Census of 5 minutes","Apis mellifera","species","honeybees",75,NA,150,NA,"Observation: 5 minutes per plant, 6 plant observations  per site, and	5 rounds per site in season",NA
"Pablo_Cavigliasso_Vaccinium_corymbosum_Argentina_2016","QM","Census of 5 minutes","Vespidae sp2","morphospecies","non_bee_hymenoptera",2,NA,150,NA,"Observation: 5 minutes per plant, 6 plant observations  per site, and	5 rounds per site in season",NA
"Pablo_Cavigliasso_Vaccinium_corymbosum_Argentina_2016","QM","Census of 5 minutes","Allograpta sp1","morphospecies","syrphids",2,NA,150,NA,"Observation: 5 minutes per plant, 6 plant observations  per site, and	5 rounds per site in season",NA
"Pablo_Cavigliasso_Vaccinium_corymbosum_Argentina_2016","QM","Census of 5 minutes","Syrphus ribessi","species","syrphids",3,NA,150,NA,"Observation: 5 minutes per plant, 6 plant observations  per site, and	5 rounds per site in season",NA
"Pablo_Cavigliasso_Vaccinium_corymbosum_Argentina_2016","QM","Census of 5 minutes","Eristalis sp2","morphospecies","syrphids",1,NA,150,NA,"Observation: 5 minutes per plant, 6 plant observations  per site, and	5 rounds per site in season",NA
"Pablo_Cavigliasso_Vaccinium_corymbosum_Argentina_2016","QM","Census of 5 minutes","Toxomerus sp1","morphospecies","syrphids",4,NA,150,NA,"Observation: 5 minutes per plant, 6 plant observations  per site, and	5 rounds per site in season",NA
"Pablo_Cavigliasso_Vaccinium_corymbosum_Argentina_2016","QM","Census of 5 minutes","Muscidae","Family","other_flies",2,NA,150,NA,"Observation: 5 minutes per plant, 6 plant observations  per site, and	5 rounds per site in season",NA
"Pablo_Cavigliasso_Vaccinium_corymbosum_Argentina_2016","QM","Census of 5 minutes","Diptera (ep14)","morphospecies","other_flies",1,NA,150,NA,"Observation: 5 minutes per plant, 6 plant observations  per site, and	5 rounds per site in season",NA
"Pablo_Cavigliasso_Vaccinium_corymbosum_Argentina_2016","QM","Census of 5 minutes","Calliphora sp.","order","other_flies",2,NA,150,NA,"Observation: 5 minutes per plant, 6 plant observations  per site, and	5 rounds per site in season",NA
"Pablo_Cavigliasso_Vaccinium_corymbosum_Argentina_2016","QM","Census of 5 minutes","Tipulidae","Family","other_flies",1,NA,150,NA,"Observation: 5 minutes per plant, 6 plant observations  per site, and	5 rounds per site in season",NA
"Pablo_Cavigliasso_Vaccinium_corymbosum_Argentina_2016","QM","Census of 5 minutes","Typhedanus undulatus","species","lepidoptera",2,NA,150,NA,"Observation: 5 minutes per plant, 6 plant observations  per site, and	5 rounds per site in season",NA
"Pablo_Cavigliasso_Vaccinium_corymbosum_Argentina_2016","QM","Census of 5 minutes","Phoebis neocypris","species","lepidoptera",1,NA,150,NA,"Observation: 5 minutes per plant, 6 plant observations  per site, and	5 rounds per site in season",NA
"Pablo_Cavigliasso_Vaccinium_corymbosum_Argentina_2016","QT","Census of 5 minutes","Apis mellifera","species","honeybees",65,NA,150,NA,"Observation: 5 minutes per plant, 6 plant observations  per site, and	5 rounds per site in season",NA
"Pablo_Cavigliasso_Vaccinium_corymbosum_Argentina_2016","QT","Census of 5 minutes","Bombus atratus","species","bumblebees",2,NA,150,NA,"Observation: 5 minutes per plant, 6 plant observations  per site, and	5 rounds per site in season",NA
"Pablo_Cavigliasso_Vaccinium_corymbosum_Argentina_2016","QT","Census of 5 minutes","Vespidae sp2","morphospecies","non_bee_hymenoptera",1,NA,150,NA,"Observation: 5 minutes per plant, 6 plant observations  per site, and	5 rounds per site in season",NA
"Pablo_Cavigliasso_Vaccinium_corymbosum_Argentina_2016","QT","Census of 5 minutes","Vespidae sp3","morphospecies","non_bee_hymenoptera",2,NA,150,NA,"Observation: 5 minutes per plant, 6 plant observations  per site, and	5 rounds per site in season",NA
"Pablo_Cavigliasso_Vaccinium_corymbosum_Argentina_2016","QT","Census of 5 minutes","Allograpta sp1","morphospecies","syrphids",7,NA,150,NA,"Observation: 5 minutes per plant, 6 plant observations  per site, and	5 rounds per site in season",NA
"Pablo_Cavigliasso_Vaccinium_corymbosum_Argentina_2016","QT","Census of 5 minutes","Allograpta sp2","morphospecies","syrphids",2,NA,150,NA,"Observation: 5 minutes per plant, 6 plant observations  per site, and	5 rounds per site in season",NA
"Pablo_Cavigliasso_Vaccinium_corymbosum_Argentina_2016","QT","Census of 5 minutes","Allograpta sp3","morphospecies","syrphids",1,NA,150,NA,"Observation: 5 minutes per plant, 6 plant observations  per site, and	5 rounds per site in season",NA
"Pablo_Cavigliasso_Vaccinium_corymbosum_Argentina_2016","QT","Census of 5 minutes","Syrphus ribessi","species","syrphids",7,NA,150,NA,"Observation: 5 minutes per plant, 6 plant observations  per site, and	5 rounds per site in season",NA
"Pablo_Cavigliasso_Vaccinium_corymbosum_Argentina_2016","QT","Census of 5 minutes","Toxomerus sp1","morphospecies","syrphids",3,NA,150,NA,"Observation: 5 minutes per plant, 6 plant observations  per site, and	5 rounds per site in season",NA
"Pablo_Cavigliasso_Vaccinium_corymbosum_Argentina_2016","QT","Census of 5 minutes","Toxomerus sp2","morphospecies","syrphids",1,NA,150,NA,"Observation: 5 minutes per plant, 6 plant observations  per site, and	5 rounds per site in season",NA
"Pablo_Cavigliasso_Vaccinium_corymbosum_Argentina_2016","QT","Census of 5 minutes","Syrphidae sp1","morphospecies","syrphids",1,NA,150,NA,"Observation: 5 minutes per plant, 6 plant observations  per site, and	5 rounds per site in season",NA
"Pablo_Cavigliasso_Vaccinium_corymbosum_Argentina_2016","QT","Census of 5 minutes","Vanessa carye","species","lepidoptera",1,NA,150,NA,"Observation: 5 minutes per plant, 6 plant observations  per site, and	5 rounds per site in season",NA
"Rachael_Winfree_Capsicum_annuum_USA_2004","wil","transects","Augochlora pura","species","other_wild_bees",1,50,30,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited once.",NA
"Rachael_Winfree_Capsicum_annuum_USA_2004","del","transects","Augochlora pura","species","other_wild_bees",1,50,30,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited once.",NA
"Rachael_Winfree_Capsicum_annuum_USA_2004","del","transects","Augochlora pura","species","other_wild_bees",1,50,30,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited once.",NA
"Rachael_Winfree_Capsicum_annuum_USA_2004","mis","transects","Augochlora pura","species","other_wild_bees",1,50,30,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited once.",NA
"Rachael_Winfree_Capsicum_annuum_USA_2004","ter","transects","Augochlora pura","species","other_wild_bees",1,50,30,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited once.",NA
"Rachael_Winfree_Capsicum_annuum_USA_2004","ter","transects","Augochlora pura","species","other_wild_bees",1,50,30,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited once.",NA
"Rachael_Winfree_Capsicum_annuum_USA_2004","che","transects","Augochlora pura","species","other_wild_bees",1,50,30,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited once.",NA
"Rachael_Winfree_Capsicum_annuum_USA_2004","hop","transects","Augochlora pura","species","other_wild_bees",1,50,30,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited once.",NA
"Rachael_Winfree_Capsicum_annuum_USA_2004","hop","transects","Augochlora pura","species","other_wild_bees",1,50,30,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited once.",NA
"Rachael_Winfree_Capsicum_annuum_USA_2004","tra","transects","Augochlora pura","species","other_wild_bees",1,50,30,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited once.",NA
"Rachael_Winfree_Capsicum_annuum_USA_2004","bar","transects","Augochlora pura","species","other_wild_bees",1,50,30,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited once.",NA
"Rachael_Winfree_Capsicum_annuum_USA_2004","bar","transects","Augochlora pura","species","other_wild_bees",1,50,30,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited once.",NA
"Rachael_Winfree_Capsicum_annuum_USA_2004","bar","transects","Augochlora pura","species","other_wild_bees",1,50,30,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited once.",NA
"Rachael_Winfree_Capsicum_annuum_USA_2004","bar","transects","Augochlora pura","species","other_wild_bees",1,50,30,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited once.",NA
"Rachael_Winfree_Capsicum_annuum_USA_2004","bar","transects","Augochlora pura","species","other_wild_bees",1,50,30,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited once.",NA
"Rachael_Winfree_Capsicum_annuum_USA_2004","bar","transects","Augochlora pura","species","other_wild_bees",1,50,30,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited once.",NA
"Rachael_Winfree_Capsicum_annuum_USA_2004","pen","transects","Augochlorella aurata","species","other_wild_bees",1,50,30,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited once.",NA
"Rachael_Winfree_Capsicum_annuum_USA_2004","trad","transects","Augochlorella aurata","species","other_wild_bees",1,50,30,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited once.",NA
"Rachael_Winfree_Capsicum_annuum_USA_2004","hop","transects","Augochlorella aurata","species","other_wild_bees",1,50,30,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited once.",NA
"Rachael_Winfree_Capsicum_annuum_USA_2004","hop","transects","Augochlorella aurata","species","other_wild_bees",1,50,30,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited once.",NA
"Rachael_Winfree_Capsicum_annuum_USA_2004","spr","transects","Augochlorella aurata","species","other_wild_bees",1,50,30,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited once.",NA
"Rachael_Winfree_Capsicum_annuum_USA_2004","spr","transects","Augochlorella aurata","species","other_wild_bees",1,50,30,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited once.",NA
"Rachael_Winfree_Capsicum_annuum_USA_2004","spr","transects","Augochlorella aurata","species","other_wild_bees",1,50,30,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited once.",NA
"Rachael_Winfree_Capsicum_annuum_USA_2004","spr","transects","Augochlorella aurata","species","other_wild_bees",1,50,30,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited once.",NA
"Rachael_Winfree_Capsicum_annuum_USA_2004","bar","transects","Augochlorella aurata","species","other_wild_bees",1,50,30,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited once.",NA
"Rachael_Winfree_Capsicum_annuum_USA_2004","ray","transects","Bombus auricomus","species","bumblebees",1,50,30,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited once.",NA
"Rachael_Winfree_Capsicum_annuum_USA_2004","ray","transects","Bombus impatiens","species","bumblebees",1,50,30,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited once.",NA
"Rachael_Winfree_Capsicum_annuum_USA_2004","hop","transects","Bombus impatiens","species","bumblebees",1,50,30,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited once.",NA
"Rachael_Winfree_Capsicum_annuum_USA_2004","sun","transects","Halictus ligatus","species","other_wild_bees",1,50,30,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited once.",NA
"Rachael_Winfree_Capsicum_annuum_USA_2004","sun","transects","Lasioglossum hitchensi_weemsi","species","other_wild_bees",1,50,30,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited once.",NA
"Rachael_Winfree_Capsicum_annuum_USA_2004","ray","transects","Lasioglossum hitchensi_weemsi","species","other_wild_bees",1,50,30,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited once.",NA
"Rachael_Winfree_Capsicum_annuum_USA_2004","ray","transects","Lasioglossum ephialtum","species","other_wild_bees",1,50,30,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited once.",NA
"Rachael_Winfree_Capsicum_annuum_USA_2004","ced","transects","Lasioglossum hitchensi_weemsi","species","other_wild_bees",1,50,30,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited once.",NA
"Rachael_Winfree_Capsicum_annuum_USA_2004","ced","transects","Lasioglossum hitchensi_weemsi","species","other_wild_bees",1,50,30,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited once.",NA
"Rachael_Winfree_Capsicum_annuum_USA_2004","del","transects","Lasioglossum hitchensi_weemsi","species","other_wild_bees",1,50,30,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited once.",NA
"Rachael_Winfree_Capsicum_annuum_USA_2004","tra","transects","Lasioglossum hitchensi_weemsi","species","other_wild_bees",1,50,30,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited once.",NA
"Rachael_Winfree_Capsicum_annuum_USA_2004","sny","transects","Lasioglossum hitchensi_weemsi","species","other_wild_bees",1,50,30,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited once.",NA
"Rachael_Winfree_Capsicum_annuum_USA_2004","bar","transects","Lasioglossum hitchensi_weemsi","species","other_wild_bees",1,50,30,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited once.",NA
"Rachael_Winfree_Capsicum_annuum_USA_2004","ter","transects","Lasioglossum zephyrum","species","other_wild_bees",1,50,30,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited once.",NA
"Rachael_Winfree_Capsicum_annuum_USA_2004","hop","transects","Lasioglossum cressonii","species","other_wild_bees",1,50,30,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited once.",NA
"Rachael_Winfree_Capsicum_annuum_USA_2004","ter","transects","Lasioglossum oceanicum","species","other_wild_bees",1,50,30,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited once.",NA
"Rachael_Winfree_Capsicum_annuum_USA_2004","ter","transects","Lasioglossum oceanicum","species","other_wild_bees",1,50,30,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited once.",NA
"Rachael_Winfree_Capsicum_annuum_USA_2004","map","transects","Lasioglossum obscurum","species","other_wild_bees",1,50,30,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited once.",NA
"Rachael_Winfree_Capsicum_annuum_USA_2004","hop","transects","Lasioglossum obscurum","species","other_wild_bees",1,50,30,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited once.",NA
"Rachael_Winfree_Capsicum_annuum_USA_2004","tra","transects","Lasioglossum pilosum","species","other_wild_bees",1,50,30,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited once.",NA
"Rachael_Winfree_Capsicum_annuum_USA_2004","sun","transects","Lasioglossum hitchensi_weemsi","species","other_wild_bees",1,50,30,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited once.",NA
"Rachael_Winfree_Capsicum_annuum_USA_2004","ray","transects","Lasioglossum admirandum","species","other_wild_bees",1,50,30,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited once.",NA
"Rachael_Winfree_Capsicum_annuum_USA_2004","ray","transects","Lasioglossum georgeickworti","species","other_wild_bees",1,50,30,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited once.",NA
"Rachael_Winfree_Capsicum_annuum_USA_2004","ced","transects","Lasioglossum versatum","species","other_wild_bees",1,50,30,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited once.",NA
"Rachael_Winfree_Capsicum_annuum_USA_2004","wil","transects","Lasioglossum versatum","species","other_wild_bees",1,50,30,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited once.",NA
"Rachael_Winfree_Capsicum_annuum_USA_2004","pen","transects","Lasioglossum versatum","species","other_wild_bees",1,50,30,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited once.",NA
"Rachael_Winfree_Capsicum_annuum_USA_2004","pen","transects","Lasioglossum versatum","species","other_wild_bees",1,50,30,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited once.",NA
"Rachael_Winfree_Capsicum_annuum_USA_2004","pen","transects","Lasioglossum versatum","species","other_wild_bees",1,50,30,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited once.",NA
"Rachael_Winfree_Capsicum_annuum_USA_2004","pen","transects","Lasioglossum versatum","species","other_wild_bees",1,50,30,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited once.",NA
"Rachael_Winfree_Capsicum_annuum_USA_2004","trad","transects","Lasioglossum versatum","species","other_wild_bees",1,50,30,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited once.",NA
"Rachael_Winfree_Capsicum_annuum_USA_2004","ker","transects","Lasioglossum versatum","species","other_wild_bees",1,50,30,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited once.",NA
"Rachael_Winfree_Capsicum_annuum_USA_2004","mis","transects","Lasioglossum versatum","species","other_wild_bees",1,50,30,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited once.",NA
"Rachael_Winfree_Capsicum_annuum_USA_2004","mis","transects","Lasioglossum versatum","species","other_wild_bees",1,50,30,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited once.",NA
"Rachael_Winfree_Capsicum_annuum_USA_2004","ter","transects","Lasioglossum versatum","species","other_wild_bees",1,50,30,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited once.",NA
"Rachael_Winfree_Capsicum_annuum_USA_2004","ter","transects","Lasioglossum versatum","species","other_wild_bees",1,50,30,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited once.",NA
"Rachael_Winfree_Capsicum_annuum_USA_2004","hop","transects","Lasioglossum versatum","species","other_wild_bees",1,50,30,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited once.",NA
"Rachael_Winfree_Capsicum_annuum_USA_2004","spr","transects","Lasioglossum versatum","species","other_wild_bees",1,50,30,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited once.",NA
"Rachael_Winfree_Capsicum_annuum_USA_2004","tra","transects","Lasioglossum versatum","species","other_wild_bees",1,50,30,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited once.",NA
"Rachael_Winfree_Capsicum_annuum_USA_2004","sny","transects","Lasioglossum versatum","species","other_wild_bees",1,50,30,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited once.",NA
"Rachael_Winfree_Capsicum_annuum_USA_2004","wil","transects","Lasioglossum imitatum","species","other_wild_bees",1,50,30,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited once.",NA
"Rachael_Winfree_Capsicum_annuum_USA_2004","del","transects","Lasioglossum ephialtum","species","other_wild_bees",1,50,30,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited once.",NA
"Rachael_Winfree_Capsicum_annuum_USA_2004","hop","transects","Lasioglossum subviridatum","species","other_wild_bees",1,50,30,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited once.",NA
"Rachael_Winfree_Capsicum_annuum_USA_2004","del","transects","Lasioglossum ephialtum","species","other_wild_bees",1,50,30,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited once.",NA
"Rachael_Winfree_Capsicum_annuum_USA_2004","sny","transects","Lasioglossum georgeickworti","species","other_wild_bees",1,50,30,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited once.",NA
"Rachael_Winfree_Capsicum_annuum_USA_2004","sun","transects","Lasioglossum tegulare","species","other_wild_bees",1,50,30,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited once.",NA
"Rachael_Winfree_Capsicum_annuum_USA_2004","map","transects","Lasioglossum tegulare","species","other_wild_bees",1,50,30,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited once.",NA
"Rachael_Winfree_Capsicum_annuum_USA_2004","del","transects","Lasioglossum tegulare","species","other_wild_bees",1,50,30,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited once.",NA
"Rachael_Winfree_Capsicum_annuum_USA_2004","del","transects","Lasioglossum tegulare","species","other_wild_bees",1,50,30,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited once.",NA
"Rachael_Winfree_Capsicum_annuum_USA_2004","lee","transects","Lasioglossum tegulare","species","other_wild_bees",1,50,30,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited once.",NA
"Rachael_Winfree_Capsicum_annuum_USA_2004","che","transects","Lasioglossum tegulare","species","other_wild_bees",1,50,30,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited once.",NA
"Rachael_Winfree_Capsicum_annuum_USA_2004","che","transects","Lasioglossum tegulare","species","other_wild_bees",1,50,30,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited once.",NA
"Rachael_Winfree_Capsicum_annuum_USA_2004","spr","transects","Lasioglossum tegulare","species","other_wild_bees",1,50,30,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited once.",NA
"Rachael_Winfree_Capsicum_annuum_USA_2004","sun","transects","Lasioglossum zephyrum","species","other_wild_bees",1,50,30,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited once.",NA
"Rachael_Winfree_Capsicum_annuum_USA_2004","map","transects","Lasioglossum zephyrum","species","other_wild_bees",1,50,30,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited once.",NA
"Rachael_Winfree_Capsicum_annuum_USA_2004","ray","transects","Lasioglossum zephyrum","species","other_wild_bees",1,50,30,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited once.",NA
"Rachael_Winfree_Capsicum_annuum_USA_2004","che","transects","Lasioglossum zephyrum","species","other_wild_bees",1,50,30,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited once.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2004","map","transect","Augochlora_pura","species","other_wild_bees",1,50,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2004","lit","transect","Augochlora_pura","species","other_wild_bees",1,50,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2004","lit","transect","Augochlora_pura","species","other_wild_bees",1,50,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2004","lit","transect","Augochlora_pura","species","other_wild_bees",1,50,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2004","wat","transect","Augochlora_pura","species","other_wild_bees",1,50,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2004","wat","transect","Augochlora_pura","species","other_wild_bees",1,50,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2004","wat","transect","Augochlora_pura","species","other_wild_bees",1,50,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2004","wat","transect","Augochlora_pura","species","other_wild_bees",1,50,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2004","wat","transect","Augochlora_pura","species","other_wild_bees",1,50,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2004","wat","transect","Augochlora_pura","species","other_wild_bees",1,50,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2004","wil","transect","Augochlorella_aurata","species","other_wild_bees",1,50,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2004","wil","transect","Augochlorella_aurata","species","other_wild_bees",1,50,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2004","map","transect","Augochlorella_aurata","species","other_wild_bees",1,50,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2004","ced","transect","Augochlorella_aurata","species","other_wild_bees",1,50,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2004","ker","transect","Augochlorella_aurata","species","other_wild_bees",1,50,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2004","phi","transect","Augochlorella_aurata","species","other_wild_bees",1,50,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2004","wat","transect","Augochlorella_aurata","species","other_wild_bees",1,50,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2004","ter","transect","Augochlorella_aurata","species","other_wild_bees",1,50,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2004","ter","transect","Augochlorella_aurata","species","other_wild_bees",1,50,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2004","ter","transect","Augochlorella_aurata","species","other_wild_bees",1,50,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2004","ter","transect","Augochlorella_aurata","species","other_wild_bees",1,50,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2004","ter","transect","Augochlorella_aurata","species","other_wild_bees",1,50,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2004","phi","transect","Bombus_bimaculatus","species","bumblebees",1,50,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2004","wil","transect","Bombus_impatiens","species","bumblebees",1,50,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2004","map","transect","Bombus_impatiens","species","bumblebees",1,50,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2004","map","transect","Bombus_impatiens","species","bumblebees",1,50,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2004","lit","transect","Bombus_impatiens","species","bumblebees",1,50,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2004","wat","transect","Bombus_impatiens","species","bumblebees",1,50,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2004","map","transect","Ceratina_calcarata_dupla","species","other_wild_bees",1,50,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2004","del","transect","Ceratina_calcarata_dupla","species","other_wild_bees",1,50,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2004","phi","transect","Ceratina_calcarata_dupla","species","other_wild_bees",1,50,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2004","map","transect","Ceratina_strenua","species","other_wild_bees",1,50,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2004","del","transect","Halictus_confusus","species","other_wild_bees",1,50,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2004","lit","transect","Halictus_confusus","species","other_wild_bees",1,50,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2004","ker","transect","Halictus_confusus","species","other_wild_bees",1,50,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2004","ker","transect","Halictus_confusus","species","other_wild_bees",1,50,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2004","wat","transect","Halictus_confusus","species","other_wild_bees",1,50,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2004","ter","transect","Halictus_confusus","species","other_wild_bees",1,50,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2004","tra","transect","Halictus_confusus","species","other_wild_bees",1,50,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2004","tra","transect","Halictus_confusus","species","other_wild_bees",1,50,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2004","wat","transect","Halictus_rubicundus","species","other_wild_bees",1,50,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2004","tra","transect","Halictus_rubicundus","species","other_wild_bees",1,50,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2004","ced","transect","Lasioglossum_admirandum","species","other_wild_bees",1,50,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2004","wil","transect","Lasioglossum_callidum","species","other_wild_bees",1,50,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2004","wat","transect","Lasioglossum_callidum","species","other_wild_bees",1,50,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2004","tra","transect","Lasioglossum_cressonii","species","other_wild_bees",1,50,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2004","wil","transect","Lasioglossum_ephialtum","species","other_wild_bees",1,50,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2004","ter","transect","Lasioglossum_ephialtum","species","other_wild_bees",1,50,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2004","wil","transect","Lasioglossum_imitatum","species","other_wild_bees",1,50,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2004","map","transect","Lasioglossum_imitatum","species","other_wild_bees",1,50,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2004","ced","transect","Lasioglossum_imitatum","species","other_wild_bees",1,50,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2004","lit","transect","Lasioglossum_imitatum","species","other_wild_bees",1,50,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2004","lit","transect","Lasioglossum_imitatum","species","other_wild_bees",1,50,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2004","lit","transect","Lasioglossum_imitatum","species","other_wild_bees",1,50,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2004","ker","transect","Lasioglossum_imitatum","species","other_wild_bees",1,50,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2004","wil","transect","Lasioglossum_mitchelli","species","other_wild_bees",1,50,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2004","wil","transect","Lasioglossum_mitchelli","species","other_wild_bees",1,50,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2004","del","transect","Lasioglossum_mitchelli","species","other_wild_bees",1,50,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2004","phi","transect","Lasioglossum_mitchelli","species","other_wild_bees",1,50,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2004","lee","transect","Lasioglossum_mitchelli","species","other_wild_bees",1,50,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2004","wil","transect","Lasioglossum_mitchelli","species","other_wild_bees",1,50,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2004","del","transect","Lasioglossum_mitchelli","species","other_wild_bees",1,50,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2004","wil","transect","Lasioglossum_nymphaearum","species","other_wild_bees",1,50,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2004","wil","transect","Lasioglossum_nymphaearum","species","other_wild_bees",1,50,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2004","lit","transect","Lasioglossum_nymphaearum","species","other_wild_bees",1,50,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2004","ker","transect","Lasioglossum_nymphaearum","species","other_wild_bees",1,50,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2004","ter","transect","Lasioglossum_nymphaearum","species","other_wild_bees",1,50,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2004","ter","transect","Lasioglossum_nymphaearum","species","other_wild_bees",1,50,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2004","ter","transect","Lasioglossum_nymphaearum","species","other_wild_bees",1,50,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2004","ter","transect","Lasioglossum_nymphaearum","species","other_wild_bees",1,50,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2004","ter","transect","Lasioglossum_nymphaearum","species","other_wild_bees",1,50,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2004","ter","transect","Lasioglossum_nymphaearum","species","other_wild_bees",1,50,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2004","ter","transect","Lasioglossum_nymphaearum","species","other_wild_bees",1,50,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2004","map","transect","Lasioglossum_paradmirandum","species","other_wild_bees",1,50,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2004","ker","transect","Lasioglossum_paradmirandum","species","other_wild_bees",1,50,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2004","ker","transect","Lasioglossum_paradmirandum","species","other_wild_bees",1,50,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2004","wil","transect","Lasioglossum_paradmirandum","species","other_wild_bees",1,50,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2004","ced","transect","Lasioglossum_tegulare","species","other_wild_bees",1,50,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2004","ter","transect","Lasioglossum_trigeminum","species","other_wild_bees",1,50,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2004","ter","transect","Lasioglossum_trigeminum","species","other_wild_bees",1,50,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2004","lit","transect","Lasioglossum_versatum","species","other_wild_bees",1,50,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2004","lit","transect","Lasioglossum_versatum","species","other_wild_bees",1,50,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2004","wat","transect","Lasioglossum_versatum","species","other_wild_bees",1,50,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2004","wat","transect","Lasioglossum_versatum","species","other_wild_bees",1,50,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2004","wat","transect","Lasioglossum_versatum","species","other_wild_bees",1,50,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2004","wat","transect","Lasioglossum_versatum","species","other_wild_bees",1,50,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2004","wat","transect","Lasioglossum_versatum","species","other_wild_bees",1,50,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2004","wat","transect","Lasioglossum_versatum","species","other_wild_bees",1,50,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2004","wat","transect","Lasioglossum_versatum","species","other_wild_bees",1,50,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2004","wat","transect","Lasioglossum_versatum","species","other_wild_bees",1,50,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2004","wat","transect","Lasioglossum_versatum","species","other_wild_bees",1,50,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2004","wat","transect","Lasioglossum_versatum","species","other_wild_bees",1,50,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2004","wat","transect","Lasioglossum_versatum","species","other_wild_bees",1,50,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2004","ter","transect","Lasioglossum_versatum","species","other_wild_bees",1,50,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2004","ter","transect","Lasioglossum_versatum","species","other_wild_bees",1,50,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2004","ter","transect","Lasioglossum_versatum","species","other_wild_bees",1,50,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2004","ter","transect","Lasioglossum_versatum","species","other_wild_bees",1,50,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2004","ter","transect","Lasioglossum_versatum","species","other_wild_bees",1,50,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2004","wil","transect","Lasioglossum_versatum","species","other_wild_bees",1,50,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2004","del","transect","Megachile_mendica","species","other_wild_bees",1,50,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2004","lit","transect","Melissodes_bimaculata","species","other_wild_bees",1,50,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2004","tra","transect","Melissodes_bimaculata","species","other_wild_bees",1,50,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2004","ced","transect","Peponapis_pruinosa","species","other_wild_bees",1,50,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2004","ced","transect","Peponapis_pruinosa","species","other_wild_bees",1,50,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2004","lit","transect","Peponapis_pruinosa","species","other_wild_bees",1,50,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2004","lit","transect","Peponapis_pruinosa","species","other_wild_bees",1,50,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2004","ter","transect","Peponapis_pruinosa","species","other_wild_bees",1,50,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2004","ter","transect","Peponapis_pruinosa","species","other_wild_bees",1,50,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2004","tra","transect","Peponapis_pruinosa","species","other_wild_bees",1,50,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2004","tra","transect","Peponapis_pruinosa","species","other_wild_bees",1,50,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2004","lee","transect","Ptilothrix_bombiformis","species","other_wild_bees",1,50,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2004","wil","transect","Xylocopa_virginica","species","other_wild_bees",1,50,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","sun","transect","Agapostemon_sericeus","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","bri","transect","Agapostemon_sericeus","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","sanb","transect","Agapostemon_virescens","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","sanb","transect","Agapostemon_virescens","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","kim","transect","Augochlora_pura","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","sun","transect","Augochlora_pura","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","mapa","transect","Augochlora_pura","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","mapa","transect","Augochlora_pura","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","mapa","transect","Augochlora_pura","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","mapa","transect","Augochlora_pura","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","mapa","transect","Augochlora_pura","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","mapa","transect","Augochlora_pura","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","mapa","transect","Augochlora_pura","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","mapa","transect","Augochlora_pura","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","mapa","transect","Augochlora_pura","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","ced","transect","Augochlora_pura","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","mapb","transect","Augochlora_pura","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","mapb","transect","Augochlora_pura","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","mapb","transect","Augochlora_pura","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","mapb","transect","Augochlora_pura","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","del","transect","Augochlora_pura","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","del","transect","Augochlora_pura","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","del","transect","Augochlora_pura","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","del","transect","Augochlora_pura","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","del","transect","Augochlora_pura","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","del","transect","Augochlora_pura","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","del","transect","Augochlora_pura","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","del","transect","Augochlora_pura","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","phi","transect","Augochlora_pura","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","phi","transect","Augochlora_pura","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","phi","transect","Augochlora_pura","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","phi","transect","Augochlora_pura","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","phi","transect","Augochlora_pura","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","phi","transect","Augochlora_pura","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","phi","transect","Augochlora_pura","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","bar","transect","Augochlora_pura","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","bar","transect","Augochlora_pura","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","bar","transect","Augochlora_pura","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","bar","transect","Augochlora_pura","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","bar","transect","Augochlora_pura","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","bar","transect","Augochlora_pura","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","bar","transect","Augochlora_pura","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","bar","transect","Augochlora_pura","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","bar","transect","Augochlora_pura","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","bar","transect","Augochlora_pura","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","lit","transect","Augochlora_pura","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","bri","transect","Augochlora_pura","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","sun","transect","Augochlora_pura","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","bra","transect","Augochlora_pura","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","bra","transect","Augochlora_pura","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","bra","transect","Augochlora_pura","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","bra","transect","Augochlora_pura","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","tra","transect","Augochlora_pura","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","tra","transect","Augochlora_pura","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","kim","transect","Augochlora_pura","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","ter","transect","Augochlora_pura","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","ter","transect","Augochlora_pura","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","wat","transect","Augochlora_pura","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","wat","transect","Augochlora_pura","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","wat","transect","Augochlora_pura","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","wat","transect","Augochlora_pura","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","wat","transect","Augochlora_pura","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","wat","transect","Augochlora_pura","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","wat","transect","Augochlora_pura","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","wat","transect","Augochlora_pura","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","wat","transect","Augochlora_pura","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","wat","transect","Augochlora_pura","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","wat","transect","Augochlora_pura","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","wat","transect","Augochlora_pura","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","wat","transect","Augochlora_pura","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","wat","transect","Augochlora_pura","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","wat","transect","Augochlora_pura","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","wat","transect","Augochlora_pura","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","wat","transect","Augochlora_pura","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","wat","transect","Augochlora_pura","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","wat","transect","Augochlora_pura","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","wat","transect","Augochlora_pura","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","phi","transect","Augochlora_pura","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","phi","transect","Augochlora_pura","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","pea","transect","Augochlora_pura","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","pea","transect","Augochlora_pura","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","pea","transect","Augochlora_pura","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","pea","transect","Augochlora_pura","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","pea","transect","Augochlora_pura","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","pea","transect","Augochlora_pura","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","mapa","transect","Augochlora_pura","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","mapa","transect","Augochlora_pura","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","mapa","transect","Augochlora_pura","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","tra","transect","Augochlora_pura","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","ker","transect","Augochlora_pura","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","ker","transect","Augochlora_pura","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","ker","transect","Augochlora_pura","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","ker","transect","Augochlora_pura","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","wat","transect","Augochlora_pura","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","wat","transect","Augochlora_pura","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","wat","transect","Augochlora_pura","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","wat","transect","Augochlora_pura","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","wat","transect","Augochlora_pura","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","wat","transect","Augochlora_pura","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","wat","transect","Augochlora_pura","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","wat","transect","Augochlora_pura","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","wat","transect","Augochlora_pura","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","wat","transect","Augochlora_pura","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","wat","transect","Augochlora_pura","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","wat","transect","Augochlora_pura","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","wat","transect","Augochlora_pura","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","wat","transect","Augochlora_pura","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","wat","transect","Augochlora_pura","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","wat","transect","Augochlora_pura","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","wat","transect","Augochlora_pura","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","wat","transect","Augochlora_pura","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","wat","transect","Augochlora_pura","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","wat","transect","Augochlora_pura","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","wat","transect","Augochlora_pura","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","wat","transect","Augochlora_pura","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","wat","transect","Augochlora_pura","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","wat","transect","Augochlora_pura","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","wat","transect","Augochlora_pura","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","wat","transect","Augochlora_pura","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","wat","transect","Augochlora_pura","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","lee","transect","Augochlora_pura","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","bri","transect","Augochlora_pura","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","bri","transect","Augochlora_pura","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","bri","transect","Augochlora_pura","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","lit","transect","Augochlora_pura","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","lit","transect","Augochlora_pura","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","ter","transect","Augochlora_pura","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","ter","transect","Augochlora_pura","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","ter","transect","Augochlora_pura","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","ter","transect","Augochlora_pura","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","ter","transect","Augochlora_pura","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","ter","transect","Augochlora_pura","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","ter","transect","Augochlora_pura","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","ter","transect","Augochlora_pura","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","ter","transect","Augochlora_pura","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","ter","transect","Augochlora_pura","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","ter","transect","Augochlora_pura","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","pen","transect","Augochlora_pura","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","ced","transect","Augochlora_pura","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","ced","transect","Augochlora_pura","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","ced","transect","Augochlora_pura","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","ced","transect","Augochlora_pura","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","sanb","transect","Augochlora_pura","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","sanb","transect","Augochlora_pura","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","sanb","transect","Augochlora_pura","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","sanb","transect","Augochlora_pura","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","sanb","transect","Augochlora_pura","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","sanb","transect","Augochlora_pura","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","sanb","transect","Augochlora_pura","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","sanb","transect","Augochlora_pura","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","sanb","transect","Augochlora_pura","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","sanb","transect","Augochlora_pura","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","ray","transect","Augochlora_pura","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","mapb","transect","Augochlora_pura","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","mapb","transect","Augochlora_pura","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","mapb","transect","Augochlora_pura","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","mapb","transect","Augochlora_pura","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","mapb","transect","Augochlora_pura","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","mapb","transect","Augochlora_pura","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","mapb","transect","Augochlora_pura","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","mapb","transect","Augochlora_pura","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","del","transect","Augochlora_pura","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","del","transect","Augochlora_pura","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","sanb","transect","Augochlora_pura","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","sanb","transect","Augochlora_pura","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","sanb","transect","Augochlora_pura","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","sanb","transect","Augochlora_pura","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","sanb","transect","Augochlora_pura","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","sanb","transect","Augochlora_pura","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","sanb","transect","Augochlora_pura","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","sanb","transect","Augochlora_pura","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","sanb","transect","Augochlora_pura","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","sanb","transect","Augochlora_pura","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","sanb","transect","Augochlora_pura","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","sanb","transect","Augochlora_pura","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","sanb","transect","Augochlora_pura","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","sanb","transect","Augochlora_pura","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","sanb","transect","Augochlora_pura","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","sanb","transect","Augochlora_pura","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","sanb","transect","Augochlora_pura","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","sanb","transect","Augochlora_pura","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","sanb","transect","Augochlora_pura","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","sanb","transect","Augochlora_pura","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","sanb","transect","Augochlora_pura","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","anc","transect","Augochlora_pura","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","anc","transect","Augochlora_pura","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","anc","transect","Augochlora_pura","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","anc","transect","Augochlora_pura","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","anc","transect","Augochlora_pura","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","anc","transect","Augochlora_pura","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","anc","transect","Augochlora_pura","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","anc","transect","Augochlora_pura","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","anc","transect","Augochlora_pura","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","anc","transect","Augochlora_pura","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","bar","transect","Augochlora_pura","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","bar","transect","Augochlora_pura","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","bar","transect","Augochlora_pura","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","bar","transect","Augochlora_pura","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","bar","transect","Augochlora_pura","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","bar","transect","Augochlora_pura","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","bar","transect","Augochlora_pura","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","bar","transect","Augochlora_pura","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","bar","transect","Augochlora_pura","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","bar","transect","Augochlora_pura","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","bar","transect","Augochlora_pura","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","bar","transect","Augochlora_pura","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","anc","transect","Augochlora_pura","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","anc","transect","Augochlora_pura","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","anc","transect","Augochlora_pura","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","anc","transect","Augochlora_pura","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","anc","transect","Augochlora_pura","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","anc","transect","Augochlora_pura","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","anc","transect","Augochlora_pura","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","anc","transect","Augochlora_pura","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","anc","transect","Augochlora_pura","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","pea","transect","Augochlorella_aurata","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","pea","transect","Augochlorella_aurata","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","sun","transect","Augochlorella_aurata","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","sun","transect","Augochlorella_aurata","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","sun","transect","Augochlorella_aurata","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","sun","transect","Augochlorella_aurata","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","sun","transect","Augochlorella_aurata","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","sun","transect","Augochlorella_aurata","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","ray","transect","Augochlorella_aurata","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","ray","transect","Augochlorella_aurata","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","ced","transect","Augochlorella_aurata","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","mapb","transect","Augochlorella_aurata","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","mapb","transect","Augochlorella_aurata","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","bra","transect","Augochlorella_aurata","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","bra","transect","Augochlorella_aurata","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","bra","transect","Augochlorella_aurata","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","bra","transect","Augochlorella_aurata","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","bar","transect","Augochlorella_aurata","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","lit","transect","Augochlorella_aurata","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","lit","transect","Augochlorella_aurata","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","sun","transect","Augochlorella_aurata","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","sun","transect","Augochlorella_aurata","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","bra","transect","Augochlorella_aurata","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","bra","transect","Augochlorella_aurata","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","ker","transect","Augochlorella_aurata","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","ker","transect","Augochlorella_aurata","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","ter","transect","Augochlorella_aurata","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","ter","transect","Augochlorella_aurata","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","ter","transect","Augochlorella_aurata","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","wat","transect","Augochlorella_aurata","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","pen","transect","Augochlorella_aurata","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","pen","transect","Augochlorella_aurata","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","pen","transect","Augochlorella_aurata","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","pen","transect","Augochlorella_aurata","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","pen","transect","Augochlorella_aurata","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","pen","transect","Augochlorella_aurata","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","pen","transect","Augochlorella_aurata","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","pen","transect","Augochlorella_aurata","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","pen","transect","Augochlorella_aurata","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","pea","transect","Augochlorella_aurata","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","pea","transect","Augochlorella_aurata","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","pea","transect","Augochlorella_aurata","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","ker","transect","Augochlorella_aurata","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","ker","transect","Augochlorella_aurata","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","ker","transect","Augochlorella_aurata","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","ker","transect","Augochlorella_aurata","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","ker","transect","Augochlorella_aurata","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","wat","transect","Augochlorella_aurata","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","lit","transect","Augochlorella_aurata","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","lit","transect","Augochlorella_aurata","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","lit","transect","Augochlorella_aurata","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","lit","transect","Augochlorella_aurata","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","lit","transect","Augochlorella_aurata","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","pen","transect","Augochlorella_aurata","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","pen","transect","Augochlorella_aurata","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","ced","transect","Augochlorella_aurata","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","ced","transect","Augochlorella_aurata","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","ced","transect","Augochlorella_aurata","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","ray","transect","Augochlorella_aurata","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","ray","transect","Augochlorella_aurata","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","ray","transect","Augochlorella_aurata","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","sanb","transect","Augochlorella_aurata","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","sanb","transect","Augochlorella_aurata","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","anc","transect","Augochlorella_aurata","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","anc","transect","Augochlorella_aurata","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","ter","transect","Augochloropsis_metallica","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","phi","transect","Bombus_bimaculatus","species","bumblebees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","sun","transect","Bombus_fervidus","species","bumblebees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","non","transect","Bombus_fervidus","species","bumblebees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","non","transect","Bombus_fervidus","species","bumblebees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","non","transect","Bombus_fervidus","species","bumblebees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","non","transect","Bombus_fervidus","species","bumblebees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","non","transect","Bombus_fervidus","species","bumblebees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","non","transect","Bombus_fervidus","species","bumblebees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","del","transect","Bombus_fervidus","species","bumblebees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","kim","transect","Bombus_impatiens","species","bumblebees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","kim","transect","Bombus_impatiens","species","bumblebees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","kim","transect","Bombus_impatiens","species","bumblebees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","kim","transect","Bombus_impatiens","species","bumblebees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","pea","transect","Bombus_impatiens","species","bumblebees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","pea","transect","Bombus_impatiens","species","bumblebees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","pea","transect","Bombus_impatiens","species","bumblebees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","pea","transect","Bombus_impatiens","species","bumblebees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","pea","transect","Bombus_impatiens","species","bumblebees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","pea","transect","Bombus_impatiens","species","bumblebees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","sun","transect","Bombus_impatiens","species","bumblebees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","mapa","transect","Bombus_impatiens","species","bumblebees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","mapa","transect","Bombus_impatiens","species","bumblebees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","mapa","transect","Bombus_impatiens","species","bumblebees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","mapa","transect","Bombus_impatiens","species","bumblebees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","mapa","transect","Bombus_impatiens","species","bumblebees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","mapa","transect","Bombus_impatiens","species","bumblebees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","mapa","transect","Bombus_impatiens","species","bumblebees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","mapa","transect","Bombus_impatiens","species","bumblebees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","mapa","transect","Bombus_impatiens","species","bumblebees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","mapa","transect","Bombus_impatiens","species","bumblebees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","sun","transect","Bombus_impatiens","species","bumblebees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","sun","transect","Bombus_impatiens","species","bumblebees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","ced","transect","Bombus_impatiens","species","bumblebees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","ced","transect","Bombus_impatiens","species","bumblebees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","mapb","transect","Bombus_impatiens","species","bumblebees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","mapb","transect","Bombus_impatiens","species","bumblebees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","del","transect","Bombus_impatiens","species","bumblebees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","del","transect","Bombus_impatiens","species","bumblebees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","del","transect","Bombus_impatiens","species","bumblebees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","del","transect","Bombus_impatiens","species","bumblebees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","del","transect","Bombus_impatiens","species","bumblebees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","del","transect","Bombus_impatiens","species","bumblebees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","del","transect","Bombus_impatiens","species","bumblebees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","del","transect","Bombus_impatiens","species","bumblebees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","del","transect","Bombus_impatiens","species","bumblebees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","del","transect","Bombus_impatiens","species","bumblebees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","del","transect","Bombus_impatiens","species","bumblebees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","del","transect","Bombus_impatiens","species","bumblebees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","del","transect","Bombus_impatiens","species","bumblebees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","phi","transect","Bombus_impatiens","species","bumblebees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","phi","transect","Bombus_impatiens","species","bumblebees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","phi","transect","Bombus_impatiens","species","bumblebees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","phi","transect","Bombus_impatiens","species","bumblebees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","phi","transect","Bombus_impatiens","species","bumblebees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","phi","transect","Bombus_impatiens","species","bumblebees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","phi","transect","Bombus_impatiens","species","bumblebees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","phi","transect","Bombus_impatiens","species","bumblebees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","phi","transect","Bombus_impatiens","species","bumblebees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","phi","transect","Bombus_impatiens","species","bumblebees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","bar","transect","Bombus_impatiens","species","bumblebees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","bar","transect","Bombus_impatiens","species","bumblebees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","bar","transect","Bombus_impatiens","species","bumblebees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","bar","transect","Bombus_impatiens","species","bumblebees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","bar","transect","Bombus_impatiens","species","bumblebees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","bar","transect","Bombus_impatiens","species","bumblebees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","bar","transect","Bombus_impatiens","species","bumblebees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","bar","transect","Bombus_impatiens","species","bumblebees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","bar","transect","Bombus_impatiens","species","bumblebees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","bar","transect","Bombus_impatiens","species","bumblebees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","bar","transect","Bombus_impatiens","species","bumblebees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","bar","transect","Bombus_impatiens","species","bumblebees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","bar","transect","Bombus_impatiens","species","bumblebees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","bar","transect","Bombus_impatiens","species","bumblebees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","bar","transect","Bombus_impatiens","species","bumblebees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","lit","transect","Bombus_impatiens","species","bumblebees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","lit","transect","Bombus_impatiens","species","bumblebees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","bri","transect","Bombus_impatiens","species","bumblebees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","bri","transect","Bombus_impatiens","species","bumblebees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","bri","transect","Bombus_impatiens","species","bumblebees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","bri","transect","Bombus_impatiens","species","bumblebees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","bri","transect","Bombus_impatiens","species","bumblebees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","bri","transect","Bombus_impatiens","species","bumblebees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","bri","transect","Bombus_impatiens","species","bumblebees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","bri","transect","Bombus_impatiens","species","bumblebees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","bri","transect","Bombus_impatiens","species","bumblebees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","bri","transect","Bombus_impatiens","species","bumblebees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","bri","transect","Bombus_impatiens","species","bumblebees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","bri","transect","Bombus_impatiens","species","bumblebees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","bri","transect","Bombus_impatiens","species","bumblebees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","bri","transect","Bombus_impatiens","species","bumblebees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","bri","transect","Bombus_impatiens","species","bumblebees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","bri","transect","Bombus_impatiens","species","bumblebees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","bri","transect","Bombus_impatiens","species","bumblebees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","bri","transect","Bombus_impatiens","species","bumblebees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","bri","transect","Bombus_impatiens","species","bumblebees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","bri","transect","Bombus_impatiens","species","bumblebees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","sun","transect","Bombus_impatiens","species","bumblebees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","sun","transect","Bombus_impatiens","species","bumblebees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","sun","transect","Bombus_impatiens","species","bumblebees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","sun","transect","Bombus_impatiens","species","bumblebees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","sun","transect","Bombus_impatiens","species","bumblebees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","sun","transect","Bombus_impatiens","species","bumblebees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","non","transect","Bombus_impatiens","species","bumblebees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","non","transect","Bombus_impatiens","species","bumblebees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","non","transect","Bombus_impatiens","species","bumblebees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","non","transect","Bombus_impatiens","species","bumblebees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","non","transect","Bombus_impatiens","species","bumblebees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","non","transect","Bombus_impatiens","species","bumblebees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","non","transect","Bombus_impatiens","species","bumblebees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","non","transect","Bombus_impatiens","species","bumblebees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","non","transect","Bombus_impatiens","species","bumblebees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","non","transect","Bombus_impatiens","species","bumblebees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","non","transect","Bombus_impatiens","species","bumblebees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","non","transect","Bombus_impatiens","species","bumblebees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","non","transect","Bombus_impatiens","species","bumblebees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","lee","transect","Bombus_impatiens","species","bumblebees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","lee","transect","Bombus_impatiens","species","bumblebees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","bra","transect","Bombus_impatiens","species","bumblebees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","tra","transect","Bombus_impatiens","species","bumblebees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","tra","transect","Bombus_impatiens","species","bumblebees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","tra","transect","Bombus_impatiens","species","bumblebees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","kim","transect","Bombus_impatiens","species","bumblebees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","ker","transect","Bombus_impatiens","species","bumblebees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","ker","transect","Bombus_impatiens","species","bumblebees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","ker","transect","Bombus_impatiens","species","bumblebees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","ker","transect","Bombus_impatiens","species","bumblebees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","ker","transect","Bombus_impatiens","species","bumblebees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","ker","transect","Bombus_impatiens","species","bumblebees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","ker","transect","Bombus_impatiens","species","bumblebees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","ker","transect","Bombus_impatiens","species","bumblebees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","ker","transect","Bombus_impatiens","species","bumblebees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","ker","transect","Bombus_impatiens","species","bumblebees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","ker","transect","Bombus_impatiens","species","bumblebees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","ker","transect","Bombus_impatiens","species","bumblebees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","ker","transect","Bombus_impatiens","species","bumblebees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","ker","transect","Bombus_impatiens","species","bumblebees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","ker","transect","Bombus_impatiens","species","bumblebees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","ker","transect","Bombus_impatiens","species","bumblebees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","ker","transect","Bombus_impatiens","species","bumblebees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","ker","transect","Bombus_impatiens","species","bumblebees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","ker","transect","Bombus_impatiens","species","bumblebees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","ker","transect","Bombus_impatiens","species","bumblebees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","ker","transect","Bombus_impatiens","species","bumblebees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","ker","transect","Bombus_impatiens","species","bumblebees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","ker","transect","Bombus_impatiens","species","bumblebees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","ker","transect","Bombus_impatiens","species","bumblebees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","ker","transect","Bombus_impatiens","species","bumblebees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","ker","transect","Bombus_impatiens","species","bumblebees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","ker","transect","Bombus_impatiens","species","bumblebees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","ker","transect","Bombus_impatiens","species","bumblebees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","ker","transect","Bombus_impatiens","species","bumblebees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","wat","transect","Bombus_impatiens","species","bumblebees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","wat","transect","Bombus_impatiens","species","bumblebees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","wat","transect","Bombus_impatiens","species","bumblebees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","wat","transect","Bombus_impatiens","species","bumblebees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","wat","transect","Bombus_impatiens","species","bumblebees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","wat","transect","Bombus_impatiens","species","bumblebees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","wat","transect","Bombus_impatiens","species","bumblebees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","wat","transect","Bombus_impatiens","species","bumblebees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","wat","transect","Bombus_impatiens","species","bumblebees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","wat","transect","Bombus_impatiens","species","bumblebees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","wat","transect","Bombus_impatiens","species","bumblebees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","wat","transect","Bombus_impatiens","species","bumblebees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","non","transect","Bombus_impatiens","species","bumblebees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","non","transect","Bombus_impatiens","species","bumblebees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","non","transect","Bombus_impatiens","species","bumblebees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","non","transect","Bombus_impatiens","species","bumblebees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","non","transect","Bombus_impatiens","species","bumblebees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","non","transect","Bombus_impatiens","species","bumblebees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","non","transect","Bombus_impatiens","species","bumblebees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","non","transect","Bombus_impatiens","species","bumblebees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","non","transect","Bombus_impatiens","species","bumblebees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","non","transect","Bombus_impatiens","species","bumblebees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","non","transect","Bombus_impatiens","species","bumblebees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","non","transect","Bombus_impatiens","species","bumblebees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","non","transect","Bombus_impatiens","species","bumblebees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","non","transect","Bombus_impatiens","species","bumblebees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","non","transect","Bombus_impatiens","species","bumblebees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","non","transect","Bombus_impatiens","species","bumblebees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","non","transect","Bombus_impatiens","species","bumblebees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","non","transect","Bombus_impatiens","species","bumblebees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","non","transect","Bombus_impatiens","species","bumblebees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","non","transect","Bombus_impatiens","species","bumblebees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","non","transect","Bombus_impatiens","species","bumblebees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","non","transect","Bombus_impatiens","species","bumblebees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","non","transect","Bombus_impatiens","species","bumblebees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","non","transect","Bombus_impatiens","species","bumblebees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","non","transect","Bombus_impatiens","species","bumblebees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","non","transect","Bombus_impatiens","species","bumblebees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","non","transect","Bombus_impatiens","species","bumblebees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","non","transect","Bombus_impatiens","species","bumblebees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","non","transect","Bombus_impatiens","species","bumblebees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","non","transect","Bombus_impatiens","species","bumblebees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","non","transect","Bombus_impatiens","species","bumblebees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","non","transect","Bombus_impatiens","species","bumblebees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","non","transect","Bombus_impatiens","species","bumblebees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","phi","transect","Bombus_impatiens","species","bumblebees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","phi","transect","Bombus_impatiens","species","bumblebees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","phi","transect","Bombus_impatiens","species","bumblebees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","phi","transect","Bombus_impatiens","species","bumblebees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","phi","transect","Bombus_impatiens","species","bumblebees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","phi","transect","Bombus_impatiens","species","bumblebees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","phi","transect","Bombus_impatiens","species","bumblebees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","phi","transect","Bombus_impatiens","species","bumblebees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","phi","transect","Bombus_impatiens","species","bumblebees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","phi","transect","Bombus_impatiens","species","bumblebees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","phi","transect","Bombus_impatiens","species","bumblebees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","phi","transect","Bombus_impatiens","species","bumblebees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","phi","transect","Bombus_impatiens","species","bumblebees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","phi","transect","Bombus_impatiens","species","bumblebees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","phi","transect","Bombus_impatiens","species","bumblebees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","phi","transect","Bombus_impatiens","species","bumblebees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","phi","transect","Bombus_impatiens","species","bumblebees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","phi","transect","Bombus_impatiens","species","bumblebees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","phi","transect","Bombus_impatiens","species","bumblebees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","phi","transect","Bombus_impatiens","species","bumblebees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","phi","transect","Bombus_impatiens","species","bumblebees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","pea","transect","Bombus_impatiens","species","bumblebees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","pea","transect","Bombus_impatiens","species","bumblebees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","pea","transect","Bombus_impatiens","species","bumblebees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","pea","transect","Bombus_impatiens","species","bumblebees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","mapa","transect","Bombus_impatiens","species","bumblebees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","tra","transect","Bombus_impatiens","species","bumblebees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","tra","transect","Bombus_impatiens","species","bumblebees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","tra","transect","Bombus_impatiens","species","bumblebees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","tra","transect","Bombus_impatiens","species","bumblebees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","ker","transect","Bombus_impatiens","species","bumblebees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","ker","transect","Bombus_impatiens","species","bumblebees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","ker","transect","Bombus_impatiens","species","bumblebees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","wat","transect","Bombus_impatiens","species","bumblebees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","wat","transect","Bombus_impatiens","species","bumblebees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","wat","transect","Bombus_impatiens","species","bumblebees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","wat","transect","Bombus_impatiens","species","bumblebees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","lee","transect","Bombus_impatiens","species","bumblebees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","bri","transect","Bombus_impatiens","species","bumblebees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","bri","transect","Bombus_impatiens","species","bumblebees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","bri","transect","Bombus_impatiens","species","bumblebees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","bri","transect","Bombus_impatiens","species","bumblebees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","bri","transect","Bombus_impatiens","species","bumblebees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","bri","transect","Bombus_impatiens","species","bumblebees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","bri","transect","Bombus_impatiens","species","bumblebees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","bri","transect","Bombus_impatiens","species","bumblebees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","bri","transect","Bombus_impatiens","species","bumblebees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","bri","transect","Bombus_impatiens","species","bumblebees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","bri","transect","Bombus_impatiens","species","bumblebees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","bri","transect","Bombus_impatiens","species","bumblebees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","bri","transect","Bombus_impatiens","species","bumblebees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","bri","transect","Bombus_impatiens","species","bumblebees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","bri","transect","Bombus_impatiens","species","bumblebees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","pen","transect","Bombus_impatiens","species","bumblebees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","ced","transect","Bombus_impatiens","species","bumblebees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","sanb","transect","Bombus_impatiens","species","bumblebees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","ray","transect","Bombus_impatiens","species","bumblebees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","ray","transect","Bombus_impatiens","species","bumblebees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","ray","transect","Bombus_impatiens","species","bumblebees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","che","transect","Bombus_impatiens","species","bumblebees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","che","transect","Bombus_impatiens","species","bumblebees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","che","transect","Bombus_impatiens","species","bumblebees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","che","transect","Bombus_impatiens","species","bumblebees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","mapb","transect","Bombus_impatiens","species","bumblebees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","mapb","transect","Bombus_impatiens","species","bumblebees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","del","transect","Bombus_impatiens","species","bumblebees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","del","transect","Bombus_impatiens","species","bumblebees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","del","transect","Bombus_impatiens","species","bumblebees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","del","transect","Bombus_impatiens","species","bumblebees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","del","transect","Bombus_impatiens","species","bumblebees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","del","transect","Bombus_impatiens","species","bumblebees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","del","transect","Bombus_impatiens","species","bumblebees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","del","transect","Bombus_impatiens","species","bumblebees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","del","transect","Bombus_impatiens","species","bumblebees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","del","transect","Bombus_impatiens","species","bumblebees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","del","transect","Bombus_impatiens","species","bumblebees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","del","transect","Bombus_impatiens","species","bumblebees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","sanb","transect","Bombus_impatiens","species","bumblebees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","sanb","transect","Bombus_impatiens","species","bumblebees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","sanb","transect","Bombus_impatiens","species","bumblebees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","sanb","transect","Bombus_impatiens","species","bumblebees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","sanb","transect","Bombus_impatiens","species","bumblebees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","sanb","transect","Bombus_impatiens","species","bumblebees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","sanb","transect","Bombus_impatiens","species","bumblebees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","che","transect","Bombus_impatiens","species","bumblebees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","che","transect","Bombus_impatiens","species","bumblebees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","che","transect","Bombus_impatiens","species","bumblebees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","che","transect","Bombus_impatiens","species","bumblebees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","che","transect","Bombus_impatiens","species","bumblebees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","anc","transect","Bombus_impatiens","species","bumblebees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","anc","transect","Bombus_impatiens","species","bumblebees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","anc","transect","Bombus_impatiens","species","bumblebees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","anc","transect","Bombus_impatiens","species","bumblebees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","anc","transect","Bombus_impatiens","species","bumblebees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","anc","transect","Bombus_impatiens","species","bumblebees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","anc","transect","Bombus_impatiens","species","bumblebees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","anc","transect","Bombus_impatiens","species","bumblebees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","anc","transect","Bombus_impatiens","species","bumblebees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","anc","transect","Bombus_impatiens","species","bumblebees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","anc","transect","Bombus_impatiens","species","bumblebees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","bar","transect","Bombus_impatiens","species","bumblebees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","bar","transect","Bombus_impatiens","species","bumblebees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","bar","transect","Bombus_impatiens","species","bumblebees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","bar","transect","Bombus_impatiens","species","bumblebees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","bar","transect","Bombus_impatiens","species","bumblebees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","bar","transect","Bombus_impatiens","species","bumblebees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","bar","transect","Bombus_impatiens","species","bumblebees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","bar","transect","Bombus_impatiens","species","bumblebees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","bar","transect","Bombus_impatiens","species","bumblebees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","anc","transect","Bombus_impatiens","species","bumblebees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","phi","transect","Bombus_perplexus","species","bumblebees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","pea","transect","Bombus_vagans","species","bumblebees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","sun","transect","Bombus_vagans","species","bumblebees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","non","transect","Bombus_vagans","species","bumblebees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","tra","transect","Bombus_vagans","species","bumblebees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","lit","transect","Calliopsis_andreniformis","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","mapb","transect","Calliopsis_andreniformis","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","sanb","transect","Calliopsis_andreniformis","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","sun","transect","Ceratina_calcarata_dupla","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","sun","transect","Ceratina_calcarata_dupla","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","sun","transect","Ceratina_calcarata_dupla","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","ray","transect","Ceratina_calcarata_dupla","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","mapb","transect","Ceratina_calcarata_dupla","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","mapb","transect","Ceratina_calcarata_dupla","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","mapb","transect","Ceratina_calcarata_dupla","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","phi","transect","Ceratina_calcarata_dupla","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","phi","transect","Ceratina_calcarata_dupla","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","phi","transect","Ceratina_calcarata_dupla","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","phi","transect","Ceratina_calcarata_dupla","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","phi","transect","Ceratina_calcarata_dupla","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","phi","transect","Ceratina_calcarata_dupla","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","phi","transect","Ceratina_calcarata_dupla","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","phi","transect","Ceratina_calcarata_dupla","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","phi","transect","Ceratina_calcarata_dupla","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","phi","transect","Ceratina_calcarata_dupla","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","phi","transect","Ceratina_calcarata_dupla","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","phi","transect","Ceratina_calcarata_dupla","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","phi","transect","Ceratina_calcarata_dupla","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","phi","transect","Ceratina_calcarata_dupla","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","phi","transect","Ceratina_calcarata_dupla","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","lit","transect","Ceratina_calcarata_dupla","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","lit","transect","Ceratina_calcarata_dupla","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","sun","transect","Ceratina_calcarata_dupla","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","sun","transect","Ceratina_calcarata_dupla","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","bra","transect","Ceratina_calcarata_dupla","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","ker","transect","Ceratina_calcarata_dupla","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","wat","transect","Ceratina_calcarata_dupla","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","pen","transect","Ceratina_calcarata_dupla","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","pen","transect","Ceratina_calcarata_dupla","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","pen","transect","Ceratina_calcarata_dupla","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","pen","transect","Ceratina_calcarata_dupla","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","pen","transect","Ceratina_calcarata_dupla","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","pen","transect","Ceratina_calcarata_dupla","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","pea","transect","Ceratina_calcarata_dupla","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","pea","transect","Ceratina_calcarata_dupla","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","pea","transect","Ceratina_calcarata_dupla","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","mapa","transect","Ceratina_calcarata_dupla","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","ker","transect","Ceratina_calcarata_dupla","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","wat","transect","Ceratina_calcarata_dupla","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","ter","transect","Ceratina_calcarata_dupla","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","pen","transect","Ceratina_calcarata_dupla","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","pen","transect","Ceratina_calcarata_dupla","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","pen","transect","Ceratina_calcarata_dupla","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","pen","transect","Ceratina_calcarata_dupla","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","pen","transect","Ceratina_calcarata_dupla","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","pen","transect","Ceratina_calcarata_dupla","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","pen","transect","Ceratina_calcarata_dupla","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","pen","transect","Ceratina_calcarata_dupla","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","ray","transect","Ceratina_calcarata_dupla","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","ray","transect","Ceratina_calcarata_dupla","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","ray","transect","Ceratina_calcarata_dupla","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","ray","transect","Ceratina_calcarata_dupla","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","mapb","transect","Ceratina_calcarata_dupla","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","mapb","transect","Ceratina_calcarata_dupla","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","mapb","transect","Ceratina_calcarata_dupla","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","mapb","transect","Ceratina_calcarata_dupla","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","mapb","transect","Ceratina_calcarata_dupla","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","mapb","transect","Ceratina_calcarata_dupla","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","sanb","transect","Ceratina_calcarata_dupla","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","sanb","transect","Ceratina_calcarata_dupla","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","sanb","transect","Ceratina_calcarata_dupla","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","sanb","transect","Ceratina_calcarata_dupla","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","sanb","transect","Ceratina_calcarata_dupla","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","sanb","transect","Ceratina_calcarata_dupla","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","anc","transect","Ceratina_calcarata_dupla","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","anc","transect","Ceratina_calcarata_dupla","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","anc","transect","Ceratina_calcarata_dupla","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","anc","transect","Ceratina_calcarata_dupla","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","anc","transect","Ceratina_calcarata_dupla","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","anc","transect","Ceratina_calcarata_dupla","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","anc","transect","Ceratina_calcarata_dupla","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","anc","transect","Ceratina_calcarata_dupla","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","anc","transect","Ceratina_calcarata_dupla","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","anc","transect","Ceratina_calcarata_dupla","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","bar","transect","Ceratina_calcarata_dupla","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","bar","transect","Ceratina_calcarata_dupla","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","bar","transect","Ceratina_calcarata_dupla","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","anc","transect","Ceratina_calcarata_dupla","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","anc","transect","Ceratina_calcarata_dupla","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","anc","transect","Ceratina_calcarata_dupla","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","anc","transect","Ceratina_calcarata_dupla","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","mapb","transect","Ceratina_strenua","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","mapb","transect","Ceratina_strenua","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","phi","transect","Ceratina_strenua","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","phi","transect","Ceratina_strenua","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","phi","transect","Ceratina_strenua","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","phi","transect","Ceratina_strenua","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","ker","transect","Ceratina_strenua","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","pen","transect","Ceratina_strenua","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","pen","transect","Ceratina_strenua","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","ray","transect","Ceratina_strenua","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","ray","transect","Ceratina_strenua","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","mapb","transect","Ceratina_strenua","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","sanb","transect","Ceratina_strenua","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","sanb","transect","Ceratina_strenua","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","sanb","transect","Ceratina_strenua","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","sanb","transect","Ceratina_strenua","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","sanb","transect","Ceratina_strenua","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","bar","transect","Ceratina_strenua","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","sun","transect","Halictus_confusus","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","sun","transect","Halictus_confusus","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","ced","transect","Halictus_confusus","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","ced","transect","Halictus_confusus","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","ced","transect","Halictus_confusus","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","ced","transect","Halictus_confusus","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","ced","transect","Halictus_confusus","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","mapb","transect","Halictus_confusus","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","del","transect","Halictus_confusus","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","phi","transect","Halictus_confusus","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","phi","transect","Halictus_confusus","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","phi","transect","Halictus_confusus","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","phi","transect","Halictus_confusus","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","phi","transect","Halictus_confusus","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","phi","transect","Halictus_confusus","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","phi","transect","Halictus_confusus","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","phi","transect","Halictus_confusus","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","phi","transect","Halictus_confusus","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","phi","transect","Halictus_confusus","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","phi","transect","Halictus_confusus","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","lit","transect","Halictus_confusus","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","lit","transect","Halictus_confusus","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","bra","transect","Halictus_confusus","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","bra","transect","Halictus_confusus","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","kim","transect","Halictus_confusus","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","ker","transect","Halictus_confusus","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","wat","transect","Halictus_confusus","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","phi","transect","Halictus_confusus","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","phi","transect","Halictus_confusus","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","phi","transect","Halictus_confusus","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","pen","transect","Halictus_confusus","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","pen","transect","Halictus_confusus","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","ker","transect","Halictus_confusus","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","ker","transect","Halictus_confusus","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","ker","transect","Halictus_confusus","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","ker","transect","Halictus_confusus","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","ker","transect","Halictus_confusus","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","ker","transect","Halictus_confusus","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","ker","transect","Halictus_confusus","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","bri","transect","Halictus_confusus","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","lit","transect","Halictus_confusus","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","lit","transect","Halictus_confusus","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","lit","transect","Halictus_confusus","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","ced","transect","Halictus_confusus","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","ced","transect","Halictus_confusus","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","sanb","transect","Halictus_confusus","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","ray","transect","Halictus_confusus","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","ray","transect","Halictus_confusus","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","mapb","transect","Halictus_confusus","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","sanb","transect","Halictus_confusus","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","sanb","transect","Halictus_confusus","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","sanb","transect","Halictus_confusus","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","sanb","transect","Halictus_confusus","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","anc","transect","Halictus_confusus","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","bar","transect","Halictus_confusus","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","sun","transect","Halictus_ligatus","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","ter","transect","Halictus_ligatus","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","ter","transect","Halictus_ligatus","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","kim","transect","Halictus_rubicundus","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","ced","transect","Halictus_rubicundus","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","sun","transect","Halictus_rubicundus","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","bra","transect","Hylaeus_affinis","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","del","transect","Hylaeus_mesillae","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","wat","transect","Hylaeus_modestus","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","mapb","transect","Hylaeus_modestus","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","sun","transect","Lasioglossum_admirandum","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","sun","transect","Lasioglossum_admirandum","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","ced","transect","Lasioglossum_admirandum","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","bra","transect","Lasioglossum_admirandum","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","sun","transect","Lasioglossum_admirandum","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","pen","transect","Lasioglossum_admirandum","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","ray","transect","Lasioglossum_admirandum","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","sanb","transect","Lasioglossum_admirandum","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","bra","transect","Lasioglossum_albipenne","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","tra","transect","Lasioglossum_bruneri","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","wat","transect","Lasioglossum_bruneri","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","tra","transect","Lasioglossum_bruneri","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","lee","transect","Lasioglossum_bruneri","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","wat","transect","Lasioglossum_callidum","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","bar","transect","Lasioglossum_coriaceum","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","sanb","transect","Lasioglossum_cressonii","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","ray","transect","Lasioglossum_ellisiae","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","ced","transect","Lasioglossum_ellisiae","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","bra","transect","Lasioglossum_ellisiae","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","sun","transect","Lasioglossum_ellisiae","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","lee","transect","Lasioglossum_ellisiae","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","ray","transect","Lasioglossum_ellisiae","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","bra","transect","Lasioglossum_ephialtum","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","bra","transect","Lasioglossum_ephialtum","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","bra","transect","Lasioglossum_ephialtum","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","bra","transect","Lasioglossum_ephialtum","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","bra","transect","Lasioglossum_ephialtum","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","lit","transect","Lasioglossum_ephialtum","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","sun","transect","Lasioglossum_ephialtum","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","bra","transect","Lasioglossum_ephialtum","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","lit","transect","Lasioglossum_ephialtum","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","mapb","transect","Lasioglossum_illinoense","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","sanb","transect","Lasioglossum_illinoense","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","mapa","transect","Lasioglossum_imitatum","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","mapb","transect","Lasioglossum_imitatum","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","mapb","transect","Lasioglossum_imitatum","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","mapb","transect","Lasioglossum_imitatum","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","bra","transect","Lasioglossum_imitatum","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","bra","transect","Lasioglossum_imitatum","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","bra","transect","Lasioglossum_imitatum","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","bra","transect","Lasioglossum_imitatum","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","bra","transect","Lasioglossum_imitatum","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","del","transect","Lasioglossum_imitatum","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","del","transect","Lasioglossum_imitatum","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","del","transect","Lasioglossum_imitatum","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","del","transect","Lasioglossum_imitatum","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","del","transect","Lasioglossum_imitatum","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","del","transect","Lasioglossum_imitatum","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","phi","transect","Lasioglossum_imitatum","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","phi","transect","Lasioglossum_imitatum","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","phi","transect","Lasioglossum_imitatum","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","phi","transect","Lasioglossum_imitatum","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","phi","transect","Lasioglossum_imitatum","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","phi","transect","Lasioglossum_imitatum","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","phi","transect","Lasioglossum_imitatum","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","bar","transect","Lasioglossum_imitatum","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","bar","transect","Lasioglossum_imitatum","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","bar","transect","Lasioglossum_imitatum","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","bar","transect","Lasioglossum_imitatum","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","bar","transect","Lasioglossum_imitatum","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","bar","transect","Lasioglossum_imitatum","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","bar","transect","Lasioglossum_imitatum","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","lit","transect","Lasioglossum_imitatum","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","lit","transect","Lasioglossum_imitatum","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","lit","transect","Lasioglossum_imitatum","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","lit","transect","Lasioglossum_imitatum","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","lit","transect","Lasioglossum_imitatum","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","lit","transect","Lasioglossum_imitatum","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","lit","transect","Lasioglossum_imitatum","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","lit","transect","Lasioglossum_imitatum","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","lit","transect","Lasioglossum_imitatum","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","lit","transect","Lasioglossum_imitatum","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","lit","transect","Lasioglossum_imitatum","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","lit","transect","Lasioglossum_imitatum","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","lit","transect","Lasioglossum_imitatum","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","lit","transect","Lasioglossum_imitatum","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","lit","transect","Lasioglossum_imitatum","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","lit","transect","Lasioglossum_imitatum","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","lit","transect","Lasioglossum_imitatum","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","lit","transect","Lasioglossum_imitatum","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","lit","transect","Lasioglossum_imitatum","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","lit","transect","Lasioglossum_imitatum","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","lit","transect","Lasioglossum_imitatum","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","lit","transect","Lasioglossum_imitatum","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","lit","transect","Lasioglossum_imitatum","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","lit","transect","Lasioglossum_imitatum","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","lit","transect","Lasioglossum_imitatum","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","lit","transect","Lasioglossum_imitatum","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","bra","transect","Lasioglossum_imitatum","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","bra","transect","Lasioglossum_imitatum","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","bra","transect","Lasioglossum_imitatum","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","ker","transect","Lasioglossum_imitatum","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","pen","transect","Lasioglossum_imitatum","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","mapa","transect","Lasioglossum_imitatum","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","mapa","transect","Lasioglossum_imitatum","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","mapa","transect","Lasioglossum_imitatum","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","ker","transect","Lasioglossum_imitatum","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","ker","transect","Lasioglossum_imitatum","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","ker","transect","Lasioglossum_imitatum","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","bri","transect","Lasioglossum_imitatum","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","bri","transect","Lasioglossum_imitatum","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","lit","transect","Lasioglossum_imitatum","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","lit","transect","Lasioglossum_imitatum","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","lit","transect","Lasioglossum_imitatum","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","lit","transect","Lasioglossum_imitatum","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","lit","transect","Lasioglossum_imitatum","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","pen","transect","Lasioglossum_imitatum","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","ced","transect","Lasioglossum_imitatum","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","ray","transect","Lasioglossum_imitatum","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","ray","transect","Lasioglossum_imitatum","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","ray","transect","Lasioglossum_imitatum","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","mapb","transect","Lasioglossum_imitatum","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","mapb","transect","Lasioglossum_imitatum","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","mapb","transect","Lasioglossum_imitatum","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","mapb","transect","Lasioglossum_imitatum","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","mapb","transect","Lasioglossum_imitatum","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","mapb","transect","Lasioglossum_imitatum","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","mapb","transect","Lasioglossum_imitatum","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","mapb","transect","Lasioglossum_imitatum","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","mapb","transect","Lasioglossum_imitatum","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","mapb","transect","Lasioglossum_imitatum","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","mapb","transect","Lasioglossum_imitatum","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","mapb","transect","Lasioglossum_imitatum","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","mapb","transect","Lasioglossum_imitatum","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","mapb","transect","Lasioglossum_imitatum","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","bar","transect","Lasioglossum_imitatum","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","bar","transect","Lasioglossum_imitatum","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","bar","transect","Lasioglossum_imitatum","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","bar","transect","Lasioglossum_imitatum","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","pen","transect","Lasioglossum_laevissimum","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","bri","transect","Lasioglossum_lineatulum","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","kim","transect","Lasioglossum_mitchelli","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","kim","transect","Lasioglossum_mitchelli","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","kim","transect","Lasioglossum_mitchelli","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","pea","transect","Lasioglossum_mitchelli","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","pea","transect","Lasioglossum_mitchelli","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","pea","transect","Lasioglossum_mitchelli","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","sun","transect","Lasioglossum_mitchelli","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","ced","transect","Lasioglossum_mitchelli","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","ced","transect","Lasioglossum_mitchelli","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","mapb","transect","Lasioglossum_mitchelli","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","bra","transect","Lasioglossum_mitchelli","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","bra","transect","Lasioglossum_mitchelli","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","bra","transect","Lasioglossum_mitchelli","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","del","transect","Lasioglossum_mitchelli","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","del","transect","Lasioglossum_mitchelli","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","lit","transect","Lasioglossum_mitchelli","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","lit","transect","Lasioglossum_mitchelli","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","lit","transect","Lasioglossum_mitchelli","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","sun","transect","Lasioglossum_mitchelli","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","sun","transect","Lasioglossum_mitchelli","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","bra","transect","Lasioglossum_mitchelli","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","bra","transect","Lasioglossum_mitchelli","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","ker","transect","Lasioglossum_mitchelli","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","wat","transect","Lasioglossum_mitchelli","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","pea","transect","Lasioglossum_mitchelli","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","ker","transect","Lasioglossum_mitchelli","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","ker","transect","Lasioglossum_mitchelli","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","bri","transect","Lasioglossum_mitchelli","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","lit","transect","Lasioglossum_mitchelli","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","lit","transect","Lasioglossum_mitchelli","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","ced","transect","Lasioglossum_mitchelli","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","ced","transect","Lasioglossum_mitchelli","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","ced","transect","Lasioglossum_mitchelli","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","ced","transect","Lasioglossum_mitchelli","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","ced","transect","Lasioglossum_mitchelli","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","kim","transect","Lasioglossum_nymphaearum","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","kim","transect","Lasioglossum_nymphaearum","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","phi","transect","Lasioglossum_nymphaearum","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","sun","transect","Lasioglossum_nymphaearum","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","kim","transect","Lasioglossum_nymphaearum","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","ter","transect","Lasioglossum_nymphaearum","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","ter","transect","Lasioglossum_nymphaearum","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","ter","transect","Lasioglossum_nymphaearum","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","ter","transect","Lasioglossum_nymphaearum","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","ter","transect","Lasioglossum_nymphaearum","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","ter","transect","Lasioglossum_nymphaearum","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","ter","transect","Lasioglossum_nymphaearum","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","ter","transect","Lasioglossum_nymphaearum","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","pen","transect","Lasioglossum_nymphaearum","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","ker","transect","Lasioglossum_nymphaearum","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","wat","transect","Lasioglossum_nymphaearum","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","ter","transect","Lasioglossum_nymphaearum","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","ter","transect","Lasioglossum_nymphaearum","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","ter","transect","Lasioglossum_nymphaearum","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","tra","transect","Lasioglossum_oblongum","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","mapb","transect","Lasioglossum_obscurum","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","mapb","transect","Lasioglossum_obscurum","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","tra","transect","Lasioglossum_obscurum","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","wat","transect","Lasioglossum_obscurum","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","wat","transect","Lasioglossum_obscurum","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","pea","transect","Lasioglossum_obscurum","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","ray","transect","Lasioglossum_obscurum","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","sanb","transect","Lasioglossum_obscurum","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","sun","transect","Lasioglossum_paradmirandum","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","sun","transect","Lasioglossum_paradmirandum","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","sun","transect","Lasioglossum_paradmirandum","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","ced","transect","Lasioglossum_paradmirandum","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","ced","transect","Lasioglossum_paradmirandum","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","bra","transect","Lasioglossum_paradmirandum","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","sun","transect","Lasioglossum_paradmirandum","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","bra","transect","Lasioglossum_paradmirandum","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","pea","transect","Lasioglossum_pectinatum","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","tra","transect","Lasioglossum_pectinatum","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","pea","transect","Lasioglossum_pectinatum","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","pea","transect","Lasioglossum_pilosum","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","pea","transect","Lasioglossum_pilosum","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","sun","transect","Lasioglossum_pilosum","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","sun","transect","Lasioglossum_pilosum","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","ray","transect","Lasioglossum_pilosum","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","ced","transect","Lasioglossum_pilosum","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","bra","transect","Lasioglossum_pilosum","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","bar","transect","Lasioglossum_pilosum","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","bar","transect","Lasioglossum_pilosum","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","bri","transect","Lasioglossum_pilosum","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","sun","transect","Lasioglossum_pilosum","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","sun","transect","Lasioglossum_pilosum","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","tra","transect","Lasioglossum_pilosum","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","ter","transect","Lasioglossum_pilosum","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","pen","transect","Lasioglossum_pilosum","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","pen","transect","Lasioglossum_pilosum","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","pen","transect","Lasioglossum_pilosum","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","pen","transect","Lasioglossum_pilosum","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","pea","transect","Lasioglossum_pilosum","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","mapa","transect","Lasioglossum_pilosum","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","bri","transect","Lasioglossum_pilosum","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","bri","transect","Lasioglossum_pilosum","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","bri","transect","Lasioglossum_pilosum","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","bri","transect","Lasioglossum_pilosum","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","bri","transect","Lasioglossum_pilosum","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","bri","transect","Lasioglossum_pilosum","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","lit","transect","Lasioglossum_pilosum","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","pen","transect","Lasioglossum_pilosum","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","pen","transect","Lasioglossum_pilosum","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","pen","transect","Lasioglossum_pilosum","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","sanb","transect","Lasioglossum_pilosum","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","ray","transect","Lasioglossum_pilosum","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","mapb","transect","Lasioglossum_pilosum","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","mapb","transect","Lasioglossum_pilosum","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","mapb","transect","Lasioglossum_pilosum","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","mapb","transect","Lasioglossum_pilosum","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","mapb","transect","Lasioglossum_pilosum","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","mapb","transect","Lasioglossum_pilosum","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","sanb","transect","Lasioglossum_pilosum","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","sanb","transect","Lasioglossum_pilosum","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","anc","transect","Lasioglossum_pilosum","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","bar","transect","Lasioglossum_pilosum","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","bar","transect","Lasioglossum_pilosum","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","mapb","transect","Lasioglossum_planatum","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","ced","transect","Lasioglossum_platyparium","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","lit","transect","Lasioglossum_subviridatum","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","sun","transect","Lasioglossum_tegulare","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","mapa","transect","Lasioglossum_tegulare","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","ced","transect","Lasioglossum_tegulare","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","ced","transect","Lasioglossum_tegulare","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","mapb","transect","Lasioglossum_tegulare","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","mapb","transect","Lasioglossum_tegulare","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","mapb","transect","Lasioglossum_tegulare","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","bra","transect","Lasioglossum_tegulare","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","phi","transect","Lasioglossum_tegulare","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","phi","transect","Lasioglossum_tegulare","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","bar","transect","Lasioglossum_tegulare","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","lit","transect","Lasioglossum_tegulare","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","lit","transect","Lasioglossum_tegulare","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","sun","transect","Lasioglossum_tegulare","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","lee","transect","Lasioglossum_tegulare","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","wat","transect","Lasioglossum_tegulare","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","ced","transect","Lasioglossum_tegulare","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","ray","transect","Lasioglossum_tegulare","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","mapb","transect","Lasioglossum_tegulare","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","mapb","transect","Lasioglossum_tegulare","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","pea","transect","Lasioglossum_trigeminum","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","lit","transect","Lasioglossum_trigeminum","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","bra","transect","Lasioglossum_trigeminum","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","ker","transect","Lasioglossum_trigeminum","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","lit","transect","Lasioglossum_trigeminum","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","wat","transect","Lasioglossum_truncatum","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","pea","transect","Lasioglossum_versatum","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","pea","transect","Lasioglossum_versatum","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","pea","transect","Lasioglossum_versatum","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","pea","transect","Lasioglossum_versatum","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","pea","transect","Lasioglossum_versatum","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","sun","transect","Lasioglossum_versatum","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","sun","transect","Lasioglossum_versatum","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","ced","transect","Lasioglossum_versatum","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","ced","transect","Lasioglossum_versatum","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","ced","transect","Lasioglossum_versatum","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","ced","transect","Lasioglossum_versatum","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","ced","transect","Lasioglossum_versatum","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","ced","transect","Lasioglossum_versatum","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","ced","transect","Lasioglossum_versatum","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","ced","transect","Lasioglossum_versatum","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","ced","transect","Lasioglossum_versatum","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","ced","transect","Lasioglossum_versatum","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","del","transect","Lasioglossum_versatum","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","lit","transect","Lasioglossum_versatum","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","sun","transect","Lasioglossum_versatum","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","bra","transect","Lasioglossum_versatum","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","tra","transect","Lasioglossum_versatum","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","ker","transect","Lasioglossum_versatum","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","ker","transect","Lasioglossum_versatum","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","ter","transect","Lasioglossum_versatum","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","ter","transect","Lasioglossum_versatum","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","ter","transect","Lasioglossum_versatum","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","ter","transect","Lasioglossum_versatum","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","ter","transect","Lasioglossum_versatum","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","ter","transect","Lasioglossum_versatum","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","ter","transect","Lasioglossum_versatum","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","ter","transect","Lasioglossum_versatum","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","ter","transect","Lasioglossum_versatum","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","ter","transect","Lasioglossum_versatum","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","ter","transect","Lasioglossum_versatum","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","ter","transect","Lasioglossum_versatum","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","wat","transect","Lasioglossum_versatum","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","wat","transect","Lasioglossum_versatum","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","wat","transect","Lasioglossum_versatum","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","wat","transect","Lasioglossum_versatum","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","wat","transect","Lasioglossum_versatum","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","pea","transect","Lasioglossum_versatum","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","pea","transect","Lasioglossum_versatum","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","mapa","transect","Lasioglossum_versatum","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","ker","transect","Lasioglossum_versatum","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","wat","transect","Lasioglossum_versatum","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","wat","transect","Lasioglossum_versatum","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","wat","transect","Lasioglossum_versatum","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","wat","transect","Lasioglossum_versatum","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","wat","transect","Lasioglossum_versatum","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","wat","transect","Lasioglossum_versatum","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","wat","transect","Lasioglossum_versatum","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","wat","transect","Lasioglossum_versatum","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","wat","transect","Lasioglossum_versatum","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","wat","transect","Lasioglossum_versatum","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","wat","transect","Lasioglossum_versatum","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","wat","transect","Lasioglossum_versatum","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","wat","transect","Lasioglossum_versatum","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","wat","transect","Lasioglossum_versatum","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","wat","transect","Lasioglossum_versatum","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","bri","transect","Lasioglossum_versatum","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","bri","transect","Lasioglossum_versatum","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","bri","transect","Lasioglossum_versatum","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","bri","transect","Lasioglossum_versatum","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","bri","transect","Lasioglossum_versatum","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","bri","transect","Lasioglossum_versatum","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","bri","transect","Lasioglossum_versatum","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","bri","transect","Lasioglossum_versatum","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","bri","transect","Lasioglossum_versatum","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","bri","transect","Lasioglossum_versatum","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","bri","transect","Lasioglossum_versatum","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","bri","transect","Lasioglossum_versatum","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","lit","transect","Lasioglossum_versatum","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","ter","transect","Lasioglossum_versatum","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","ter","transect","Lasioglossum_versatum","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","ter","transect","Lasioglossum_versatum","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","ter","transect","Lasioglossum_versatum","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","pen","transect","Lasioglossum_versatum","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","ced","transect","Lasioglossum_versatum","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","ced","transect","Lasioglossum_versatum","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","ced","transect","Lasioglossum_versatum","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","ced","transect","Lasioglossum_versatum","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","ced","transect","Lasioglossum_versatum","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","ced","transect","Lasioglossum_versatum","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","sanb","transect","Lasioglossum_versatum","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","sanb","transect","Lasioglossum_versatum","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","ray","transect","Lasioglossum_versatum","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","che","transect","Lasioglossum_versatum","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","mapb","transect","Lasioglossum_versatum","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","sanb","transect","Lasioglossum_versatum","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","sanb","transect","Lasioglossum_versatum","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","sanb","transect","Lasioglossum_versatum","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","sanb","transect","Lasioglossum_versatum","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","sanb","transect","Lasioglossum_versatum","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","wat","transect","Lasioglossum_viridatum","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","bri","transect","Lasioglossum_viridatum","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","pea","transect","Lasioglossum_weemsi","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","mapa","transect","Lasioglossum_weemsi","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","mapb","transect","Lasioglossum_weemsi","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","bra","transect","Lasioglossum_weemsi","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","bra","transect","Lasioglossum_weemsi","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","bra","transect","Lasioglossum_weemsi","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","del","transect","Lasioglossum_weemsi","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","del","transect","Lasioglossum_weemsi","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","lit","transect","Lasioglossum_weemsi","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","bri","transect","Lasioglossum_weemsi","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","wat","transect","Lasioglossum_weemsi","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","wat","transect","Lasioglossum_weemsi","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","ker","transect","Lasioglossum_weemsi","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","ker","transect","Lasioglossum_weemsi","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","lit","transect","Lasioglossum_weemsi","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","ced","transect","Lasioglossum_weemsi","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","mapb","transect","Lasioglossum_weemsi","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","anc","transect","Lasioglossum_weemsi","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","bra","transect","Lasioglossum_zephyrum","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","tra","transect","Lasioglossum_zephyrum","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","tra","transect","Lasioglossum_zephyrum","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","wat","transect","Lasioglossum_zephyrum","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","bri","transect","Lasioglossum_zephyrum","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","bri","transect","Lasioglossum_zephyrum","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","pen","transect","Lasioglossum_zephyrum","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","ced","transect","Lasioglossum_zephyrum","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","ray","transect","Lasioglossum_zephyrum","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","ray","transect","Lasioglossum_zephyrum","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","ray","transect","Lasioglossum_zephyrum","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","sanb","transect","Lasioglossum_zephyrum","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","sun","transect","Megachile_brevis","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","phi","transect","Megachile_mendica","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","ker","transect","Megachile_mendica","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","sanb","transect","Megachile_mendica","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","ray","transect","Melissodes_bimaculata","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","ray","transect","Melissodes_bimaculata","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","ray","transect","Melissodes_bimaculata","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","ray","transect","Melissodes_bimaculata","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","phi","transect","Melissodes_bimaculata","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","lit","transect","Melissodes_bimaculata","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","lit","transect","Melissodes_bimaculata","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","lit","transect","Melissodes_bimaculata","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","lit","transect","Melissodes_bimaculata","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","bri","transect","Melissodes_bimaculata","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","bri","transect","Melissodes_bimaculata","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","bri","transect","Melissodes_bimaculata","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","bri","transect","Melissodes_bimaculata","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","bri","transect","Melissodes_bimaculata","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","bri","transect","Melissodes_bimaculata","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","bri","transect","Melissodes_bimaculata","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","bri","transect","Melissodes_bimaculata","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","bri","transect","Melissodes_bimaculata","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","sun","transect","Melissodes_bimaculata","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","bri","transect","Melissodes_bimaculata","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","bri","transect","Melissodes_bimaculata","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","bri","transect","Melissodes_bimaculata","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","ced","transect","Melissodes_bimaculata","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","sanb","transect","Melissodes_bimaculata","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","ray","transect","Melissodes_bimaculata","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","ray","transect","Melissodes_bimaculata","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","del","transect","Melissodes_bimaculata","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","che","transect","Melissodes_bimaculata","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","anc","transect","Melissodes_bimaculata","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","ced","transect","Peponapis_pruinosa","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","lit","transect","Peponapis_pruinosa","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","lit","transect","Peponapis_pruinosa","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","lit","transect","Peponapis_pruinosa","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","lit","transect","Peponapis_pruinosa","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","bri","transect","Peponapis_pruinosa","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","bri","transect","Peponapis_pruinosa","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","bri","transect","Peponapis_pruinosa","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","bri","transect","Peponapis_pruinosa","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","mapa","transect","Peponapis_pruinosa","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","mapa","transect","Peponapis_pruinosa","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","ker","transect","Peponapis_pruinosa","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","lit","transect","Peponapis_pruinosa","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","mapb","transect","Peponapis_pruinosa","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","sanb","transect","Peponapis_pruinosa","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","lee","transect","Ptilothrix_bombiformis","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","anc","transect","Triepeolus_remigatus","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","mapa","transect","Xylocopa_virginica","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","lit","transect","Xylocopa_virginica","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2005","anc","transect","Xylocopa_virginica","species","other_wild_bees",1,100,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2007","ced","transect","Augochlora_pura","species","other_wild_bees",1,50,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2007","ced","transect","Augochlora_pura","species","other_wild_bees",1,50,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2007","ced","transect","Augochlora_pura","species","other_wild_bees",1,50,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2007","bar","transect","Augochlora_pura","species","other_wild_bees",1,50,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2007","bar","transect","Augochlora_pura","species","other_wild_bees",1,50,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2007","ray","transect","Augochlora_pura","species","other_wild_bees",1,50,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2007","wat","transect","Augochlora_pura","species","other_wild_bees",1,50,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2007","pea","transect","Augochlora_pura","species","other_wild_bees",1,50,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2007","non","transect","Augochlora_pura","species","other_wild_bees",1,50,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2007","non","transect","Augochlora_pura","species","other_wild_bees",1,50,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2007","anc","transect","Augochlora_pura","species","other_wild_bees",1,50,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2007","san","transect","Augochlora_pura","species","other_wild_bees",1,50,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2007","ced","transect","Bombus_bimaculatus","species","bumblebees",1,50,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2007","bar","transect","Bombus_griseocollis","species","bumblebees",1,50,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2007","bar","transect","Bombus_griseocollis","species","bumblebees",1,50,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2007","ced","transect","Bombus_impatiens","species","bumblebees",1,50,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2007","ced","transect","Bombus_impatiens","species","bumblebees",1,50,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2007","ced","transect","Bombus_impatiens","species","bumblebees",1,50,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2007","ced","transect","Bombus_impatiens","species","bumblebees",1,50,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2007","sun","transect","Bombus_impatiens","species","bumblebees",1,50,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2007","sun","transect","Bombus_impatiens","species","bumblebees",1,50,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2007","sun","transect","Bombus_impatiens","species","bumblebees",1,50,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2007","sun","transect","Bombus_impatiens","species","bumblebees",1,50,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2007","bar","transect","Bombus_impatiens","species","bumblebees",1,50,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2007","bar","transect","Bombus_impatiens","species","bumblebees",1,50,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2007","bar","transect","Bombus_impatiens","species","bumblebees",1,50,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2007","bar","transect","Bombus_impatiens","species","bumblebees",1,50,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2007","tra","transect","Bombus_impatiens","species","bumblebees",1,50,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2007","tra","transect","Bombus_impatiens","species","bumblebees",1,50,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2007","tra","transect","Bombus_impatiens","species","bumblebees",1,50,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2007","tra","transect","Bombus_impatiens","species","bumblebees",1,50,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2007","tra","transect","Bombus_impatiens","species","bumblebees",1,50,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2007","tra","transect","Bombus_impatiens","species","bumblebees",1,50,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2007","tra","transect","Bombus_impatiens","species","bumblebees",1,50,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2007","tra","transect","Bombus_impatiens","species","bumblebees",1,50,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2007","tra","transect","Bombus_impatiens","species","bumblebees",1,50,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2007","tra","transect","Bombus_impatiens","species","bumblebees",1,50,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2007","tra","transect","Bombus_impatiens","species","bumblebees",1,50,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2007","tra","transect","Bombus_impatiens","species","bumblebees",1,50,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2007","tra","transect","Bombus_impatiens","species","bumblebees",1,50,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2007","tra","transect","Bombus_impatiens","species","bumblebees",1,50,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2007","tra","transect","Bombus_impatiens","species","bumblebees",1,50,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2007","tra","transect","Bombus_impatiens","species","bumblebees",1,50,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2007","tra","transect","Bombus_impatiens","species","bumblebees",1,50,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2007","tra","transect","Bombus_impatiens","species","bumblebees",1,50,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2007","tra","transect","Bombus_impatiens","species","bumblebees",1,50,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2007","tra","transect","Bombus_impatiens","species","bumblebees",1,50,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2007","tra","transect","Bombus_impatiens","species","bumblebees",1,50,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2007","tra","transect","Bombus_impatiens","species","bumblebees",1,50,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2007","lit","transect","Bombus_impatiens","species","bumblebees",1,50,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2007","lit","transect","Bombus_impatiens","species","bumblebees",1,50,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2007","kim","transect","Bombus_impatiens","species","bumblebees",1,50,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2007","ker","transect","Bombus_impatiens","species","bumblebees",1,50,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2007","ker","transect","Bombus_impatiens","species","bumblebees",1,50,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2007","ker","transect","Bombus_impatiens","species","bumblebees",1,50,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2007","ker","transect","Bombus_impatiens","species","bumblebees",1,50,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2007","ker","transect","Bombus_impatiens","species","bumblebees",1,50,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2007","wat","transect","Bombus_impatiens","species","bumblebees",1,50,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2007","wat","transect","Bombus_impatiens","species","bumblebees",1,50,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2007","wat","transect","Bombus_impatiens","species","bumblebees",1,50,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2007","wat","transect","Bombus_impatiens","species","bumblebees",1,50,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2007","wat","transect","Bombus_impatiens","species","bumblebees",1,50,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2007","wat","transect","Bombus_impatiens","species","bumblebees",1,50,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2007","wat","transect","Bombus_impatiens","species","bumblebees",1,50,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2007","wat","transect","Bombus_impatiens","species","bumblebees",1,50,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2007","wat","transect","Bombus_impatiens","species","bumblebees",1,50,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2007","wat","transect","Bombus_impatiens","species","bumblebees",1,50,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2007","wat","transect","Bombus_impatiens","species","bumblebees",1,50,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2007","wat","transect","Bombus_impatiens","species","bumblebees",1,50,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2007","wat","transect","Bombus_impatiens","species","bumblebees",1,50,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2007","wat","transect","Bombus_impatiens","species","bumblebees",1,50,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2007","wat","transect","Bombus_impatiens","species","bumblebees",1,50,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2007","pea","transect","Bombus_impatiens","species","bumblebees",1,50,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2007","pea","transect","Bombus_impatiens","species","bumblebees",1,50,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2007","pea","transect","Bombus_impatiens","species","bumblebees",1,50,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2007","pea","transect","Bombus_impatiens","species","bumblebees",1,50,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2007","pea","transect","Bombus_impatiens","species","bumblebees",1,50,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2007","pen","transect","Bombus_impatiens","species","bumblebees",1,50,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2007","pen","transect","Bombus_impatiens","species","bumblebees",1,50,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2007","pen","transect","Bombus_impatiens","species","bumblebees",1,50,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2007","pen","transect","Bombus_impatiens","species","bumblebees",1,50,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2007","pen","transect","Bombus_impatiens","species","bumblebees",1,50,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2007","pen","transect","Bombus_impatiens","species","bumblebees",1,50,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2007","pen","transect","Bombus_impatiens","species","bumblebees",1,50,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2007","pen","transect","Bombus_impatiens","species","bumblebees",1,50,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2007","pen","transect","Bombus_impatiens","species","bumblebees",1,50,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2007","pen","transect","Bombus_impatiens","species","bumblebees",1,50,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2007","pen","transect","Bombus_impatiens","species","bumblebees",1,50,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2007","pen","transect","Bombus_impatiens","species","bumblebees",1,50,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2007","che","transect","Bombus_impatiens","species","bumblebees",1,50,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2007","che","transect","Bombus_impatiens","species","bumblebees",1,50,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2007","che","transect","Bombus_impatiens","species","bumblebees",1,50,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2007","che","transect","Bombus_impatiens","species","bumblebees",1,50,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2007","che","transect","Bombus_impatiens","species","bumblebees",1,50,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2007","che","transect","Bombus_impatiens","species","bumblebees",1,50,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2007","che","transect","Bombus_impatiens","species","bumblebees",1,50,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2007","che","transect","Bombus_impatiens","species","bumblebees",1,50,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2007","che","transect","Bombus_impatiens","species","bumblebees",1,50,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2007","che","transect","Bombus_impatiens","species","bumblebees",1,50,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2007","non","transect","Bombus_impatiens","species","bumblebees",1,50,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2007","non","transect","Bombus_impatiens","species","bumblebees",1,50,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2007","non","transect","Bombus_impatiens","species","bumblebees",1,50,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2007","phi","transect","Bombus_impatiens","species","bumblebees",1,50,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2007","anc","transect","Bombus_impatiens","species","bumblebees",1,50,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2007","anc","transect","Bombus_impatiens","species","bumblebees",1,50,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2007","anc","transect","Bombus_impatiens","species","bumblebees",1,50,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2007","anc","transect","Bombus_impatiens","species","bumblebees",1,50,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2007","anc","transect","Bombus_impatiens","species","bumblebees",1,50,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2007","anc","transect","Bombus_impatiens","species","bumblebees",1,50,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2007","anc","transect","Bombus_impatiens","species","bumblebees",1,50,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2007","anc","transect","Bombus_impatiens","species","bumblebees",1,50,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2007","anc","transect","Bombus_impatiens","species","bumblebees",1,50,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2007","anc","transect","Bombus_impatiens","species","bumblebees",1,50,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2007","anc","transect","Bombus_impatiens","species","bumblebees",1,50,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2007","anc","transect","Bombus_impatiens","species","bumblebees",1,50,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2007","anc","transect","Bombus_impatiens","species","bumblebees",1,50,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2007","anc","transect","Bombus_impatiens","species","bumblebees",1,50,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2007","anc","transect","Bombus_impatiens","species","bumblebees",1,50,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2007","anc","transect","Bombus_impatiens","species","bumblebees",1,50,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2007","san","transect","Bombus_impatiens","species","bumblebees",1,50,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2007","san","transect","Bombus_impatiens","species","bumblebees",1,50,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2007","san","transect","Bombus_impatiens","species","bumblebees",1,50,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2007","san","transect","Bombus_impatiens","species","bumblebees",1,50,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2007","san","transect","Bombus_impatiens","species","bumblebees",1,50,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2007","san","transect","Bombus_impatiens","species","bumblebees",1,50,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2007","san","transect","Bombus_impatiens","species","bumblebees",1,50,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2007","san","transect","Bombus_impatiens","species","bumblebees",1,50,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2007","pen","transect","Calliopsis_andreniformis","species","other_wild_bees",1,50,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2007","non","transect","Calliopsis_andreniformis","species","other_wild_bees",1,50,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2007","san","transect","Calliopsis_andreniformis","species","other_wild_bees",1,50,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2007","wat","transect","Ceratina_calcarata_dupla","species","other_wild_bees",1,50,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2007","pen","transect","Ceratina_calcarata_dupla","species","other_wild_bees",1,50,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2007","non","transect","Ceratina_calcarata_dupla","species","other_wild_bees",1,50,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2007","non","transect","Ceratina_calcarata_dupla","species","other_wild_bees",1,50,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2007","non","transect","Ceratina_calcarata_dupla","species","other_wild_bees",1,50,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2007","non","transect","Ceratina_calcarata_dupla","species","other_wild_bees",1,50,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2007","non","transect","Ceratina_calcarata_dupla","species","other_wild_bees",1,50,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2007","phi","transect","Ceratina_calcarata_dupla","species","other_wild_bees",1,50,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2007","phi","transect","Ceratina_calcarata_dupla","species","other_wild_bees",1,50,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2007","non","transect","Ceratina_strenua","species","other_wild_bees",1,50,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2007","lit","transect","Halictus_confusus","species","other_wild_bees",1,50,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2007","ker","transect","Halictus_confusus","species","other_wild_bees",1,50,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2007","ker","transect","Halictus_confusus","species","other_wild_bees",1,50,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2007","ray","transect","Halictus_confusus","species","other_wild_bees",1,50,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2007","pen","transect","Halictus_confusus","species","other_wild_bees",1,50,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2007","pen","transect","Halictus_confusus","species","other_wild_bees",1,50,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2007","che","transect","Halictus_confusus","species","other_wild_bees",1,50,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2007","bar","transect","Lasioglossum_imitatum","species","other_wild_bees",1,50,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2007","bar","transect","Lasioglossum_imitatum","species","other_wild_bees",1,50,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2007","ker","transect","Lasioglossum_imitatum","species","other_wild_bees",1,50,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2007","ray","transect","Lasioglossum_imitatum","species","other_wild_bees",1,50,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2007","ray","transect","Lasioglossum_imitatum","species","other_wild_bees",1,50,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2007","ray","transect","Lasioglossum_imitatum","species","other_wild_bees",1,50,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2007","ray","transect","Lasioglossum_imitatum","species","other_wild_bees",1,50,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2007","ray","transect","Lasioglossum_imitatum","species","other_wild_bees",1,50,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2007","ray","transect","Lasioglossum_imitatum","species","other_wild_bees",1,50,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2007","ray","transect","Lasioglossum_imitatum","species","other_wild_bees",1,50,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2007","ray","transect","Lasioglossum_imitatum","species","other_wild_bees",1,50,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2007","ray","transect","Lasioglossum_imitatum","species","other_wild_bees",1,50,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2007","pen","transect","Lasioglossum_imitatum","species","other_wild_bees",1,50,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2007","pen","transect","Lasioglossum_imitatum","species","other_wild_bees",1,50,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2007","pen","transect","Lasioglossum_imitatum","species","other_wild_bees",1,50,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2007","pen","transect","Lasioglossum_imitatum","species","other_wild_bees",1,50,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2007","phi","transect","Lasioglossum_imitatum","species","other_wild_bees",1,50,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2007","anc","transect","Lasioglossum_imitatum","species","other_wild_bees",1,50,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2007","san","transect","Lasioglossum_imitatum","species","other_wild_bees",1,50,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2007","lit","transect","Lasioglossum_mitchelli","species","other_wild_bees",1,50,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2007","kim","transect","Lasioglossum_mitchelli","species","other_wild_bees",1,50,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2007","ker","transect","Lasioglossum_mitchelli","species","other_wild_bees",1,50,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2007","ker","transect","Lasioglossum_mitchelli","species","other_wild_bees",1,50,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2007","ker","transect","Lasioglossum_mitchelli","species","other_wild_bees",1,50,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2007","ker","transect","Lasioglossum_mitchelli","species","other_wild_bees",1,50,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2007","ker","transect","Lasioglossum_mitchelli","species","other_wild_bees",1,50,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2007","ray","transect","Lasioglossum_mitchelli","species","other_wild_bees",1,50,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2007","ray","transect","Lasioglossum_mitchelli","species","other_wild_bees",1,50,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2007","ray","transect","Lasioglossum_mitchelli","species","other_wild_bees",1,50,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2007","ray","transect","Lasioglossum_mitchelli","species","other_wild_bees",1,50,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2007","ray","transect","Lasioglossum_mitchelli","species","other_wild_bees",1,50,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2007","ray","transect","Lasioglossum_mitchelli","species","other_wild_bees",1,50,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2007","pen","transect","Lasioglossum_mitchelli","species","other_wild_bees",1,50,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2007","san","transect","Lasioglossum_mitchelli","species","other_wild_bees",1,50,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2007","san","transect","Lasioglossum_mitchelli","species","other_wild_bees",1,50,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2007","ray","transect","Lasioglossum_paradmirandum","species","other_wild_bees",1,50,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2007","sun","transect","Lasioglossum_pilosum","species","other_wild_bees",1,50,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2007","bar","transect","Lasioglossum_pilosum","species","other_wild_bees",1,50,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2007","tra","transect","Lasioglossum_pilosum","species","other_wild_bees",1,50,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2007","tra","transect","Lasioglossum_pilosum","species","other_wild_bees",1,50,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2007","tra","transect","Lasioglossum_pilosum","species","other_wild_bees",1,50,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2007","lit","transect","Lasioglossum_pilosum","species","other_wild_bees",1,50,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2007","ker","transect","Lasioglossum_pilosum","species","other_wild_bees",1,50,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2007","ker","transect","Lasioglossum_pilosum","species","other_wild_bees",1,50,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2007","san","transect","Lasioglossum_tegulare","species","other_wild_bees",1,50,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2007","san","transect","Lasioglossum_tegulare","species","other_wild_bees",1,50,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2007","ker","transect","Lasioglossum_trigeminum","species","other_wild_bees",1,50,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2007","bar","transect","Lasioglossum_versatum","species","other_wild_bees",1,50,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2007","lit","transect","Lasioglossum_versatum","species","other_wild_bees",1,50,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2007","lit","transect","Lasioglossum_versatum","species","other_wild_bees",1,50,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2007","lit","transect","Lasioglossum_versatum","species","other_wild_bees",1,50,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2007","lit","transect","Lasioglossum_versatum","species","other_wild_bees",1,50,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2007","lit","transect","Lasioglossum_versatum","species","other_wild_bees",1,50,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2007","lit","transect","Lasioglossum_versatum","species","other_wild_bees",1,50,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2007","lit","transect","Lasioglossum_versatum","species","other_wild_bees",1,50,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2007","lit","transect","Lasioglossum_versatum","species","other_wild_bees",1,50,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2007","lit","transect","Lasioglossum_versatum","species","other_wild_bees",1,50,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2007","ker","transect","Lasioglossum_versatum","species","other_wild_bees",1,50,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2007","ker","transect","Lasioglossum_versatum","species","other_wild_bees",1,50,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2007","ker","transect","Lasioglossum_versatum","species","other_wild_bees",1,50,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2007","ker","transect","Lasioglossum_versatum","species","other_wild_bees",1,50,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2007","ker","transect","Lasioglossum_versatum","species","other_wild_bees",1,50,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2007","ker","transect","Lasioglossum_versatum","species","other_wild_bees",1,50,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2007","ray","transect","Lasioglossum_versatum","species","other_wild_bees",1,50,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2007","ray","transect","Lasioglossum_versatum","species","other_wild_bees",1,50,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2007","wat","transect","Lasioglossum_versatum","species","other_wild_bees",1,50,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2007","wat","transect","Lasioglossum_versatum","species","other_wild_bees",1,50,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2007","wat","transect","Lasioglossum_versatum","species","other_wild_bees",1,50,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2007","wat","transect","Lasioglossum_versatum","species","other_wild_bees",1,50,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2007","pea","transect","Lasioglossum_versatum","species","other_wild_bees",1,50,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2007","pen","transect","Lasioglossum_versatum","species","other_wild_bees",1,50,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2007","che","transect","Lasioglossum_versatum","species","other_wild_bees",1,50,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2007","che","transect","Lasioglossum_versatum","species","other_wild_bees",1,50,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2007","phi","transect","Lasioglossum_versatum","species","other_wild_bees",1,50,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2007","san","transect","Lasioglossum_versatum","species","other_wild_bees",1,50,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2007","san","transect","Lasioglossum_versatum","species","other_wild_bees",1,50,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2007","ray","transect","Lasioglossum_weemsi","species","other_wild_bees",1,50,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2007","pen","transect","Lasioglossum_weemsi","species","other_wild_bees",1,50,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2007","ker","transect","Melissodes_bimaculata","species","other_wild_bees",1,50,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2007","ray","transect","Melissodes_bimaculata","species","other_wild_bees",1,50,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2007","che","transect","Melissodes_bimaculata","species","other_wild_bees",1,50,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2007","che","transect","Melissodes_bimaculata","species","other_wild_bees",1,50,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2007","che","transect","Melissodes_bimaculata","species","other_wild_bees",1,50,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2007","che","transect","Melissodes_bimaculata","species","other_wild_bees",1,50,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2007","anc","transect","Melissodes_bimaculata","species","other_wild_bees",1,50,NA,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited only once in 2004 and 2007, but 2 times in 2005.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2008","anchor_run","transect observations","Apis_mellifera","species","honeybees",0.12,150,90,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2008","anchor_run","transect observations","Apis_mellifera","species","honeybees",0.128078818,150,90,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2008","anchor_run","transect observations","Apis_mellifera","species","honeybees",0.122881356,150,90,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2008","barry_davis","transect observations","Apis_mellifera","species","honeybees",0.052910053,150,90,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2008","barry_davis","transect observations","Apis_mellifera","species","honeybees",0.069767442,150,90,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2008","barry_davis","transect observations","Apis_mellifera","species","honeybees",0.108433735,150,90,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2008","cedar_ridge","transect observations","Apis_mellifera","species","honeybees",0.007462687,150,90,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2008","cedar_ridge","transect observations","Apis_mellifera","species","honeybees",0.022556391,150,90,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2008","cherry_grove","transect observations","Apis_mellifera","species","honeybees",0.078651685,150,90,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2008","cherry_grove","transect observations","Apis_mellifera","species","honeybees",0.078313253,150,90,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2008","cherry_grove","transect observations","Apis_mellifera","species","honeybees",0.005347594,150,90,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2008","del_val","transect observations","Apis_mellifera","species","honeybees",0.089552239,150,90,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2008","del_val","transect observations","Apis_mellifera","species","honeybees",0.171428571,150,90,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2008","del_val","transect observations","Apis_mellifera","species","honeybees",0.153333333,150,90,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2008","kerrs","transect observations","Apis_mellifera","species","honeybees",0.017647059,150,90,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2008","kerrs","transect observations","Apis_mellifera","species","honeybees",0.030120482,150,90,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2008","kerrs","transect observations","Apis_mellifera","species","honeybees",0.018867925,150,90,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2008","kimberton","transect observations","Apis_mellifera","species","honeybees",0.122137405,150,90,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2008","kimberton","transect observations","Apis_mellifera","species","honeybees",0.174242424,150,90,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2008","kimberton","transect observations","Apis_mellifera","species","honeybees",0.169117647,150,90,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2008","lee","transect observations","Apis_mellifera","species","honeybees",0.10619469,150,90,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2008","lee","transect observations","Apis_mellifera","species","honeybees",0.161434978,150,90,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2008","lee","transect observations","Apis_mellifera","species","honeybees",0.142857143,150,90,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2008","little_acres","transect observations","Apis_mellifera","species","honeybees",0.005952381,150,90,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2008","little_acres","transect observations","Apis_mellifera","species","honeybees",0.007936508,150,90,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2008","nonsuch","transect observations","Apis_mellifera","species","honeybees",0.065789474,150,90,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2008","nonsuch","transect observations","Apis_mellifera","species","honeybees",0.134502924,150,90,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2008","nonsuch","transect observations","Apis_mellifera","species","honeybees",0.163636364,150,90,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2008","peaceful_valley","transect observations","Apis_mellifera","species","honeybees",0.299363057,150,90,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2008","peaceful_valley","transect observations","Apis_mellifera","species","honeybees",0.320895522,150,90,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2008","peaceful_valley","transect observations","Apis_mellifera","species","honeybees",0.145038168,150,90,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2008","pennvt","transect observations","Apis_mellifera","species","honeybees",0.162679426,150,90,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2008","pennvt","transect observations","Apis_mellifera","species","honeybees",0.203389831,150,90,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2008","pennvt","transect observations","Apis_mellifera","species","honeybees",0.069148936,150,90,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2008","rays_greenhouse","transect observations","Apis_mellifera","species","honeybees",0.012658228,150,90,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2008","rays_greenhouse","transect observations","Apis_mellifera","species","honeybees",0.034090909,150,90,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2008","rays_greenhouse","transect observations","Apis_mellifera","species","honeybees",0.012820513,150,90,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2008","sankanac","transect observations","Apis_mellifera","species","honeybees",0.006849315,150,90,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2008","sunrise_sunflower","transect observations","Apis_mellifera","species","honeybees",0.041666667,150,90,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2008","sunrise_sunflower","transect observations","Apis_mellifera","species","honeybees",0.14516129,150,90,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2008","sunrise_sunflower","transect observations","Apis_mellifera","species","honeybees",0.123966942,150,90,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2008","traugers","transect observations","Apis_mellifera","species","honeybees",0.130177515,150,90,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2008","traugers","transect observations","Apis_mellifera","species","honeybees",0.081967213,150,90,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2008","traugers","transect observations","Apis_mellifera","species","honeybees",0.056497175,150,90,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2008","watershed","transect observations","Apis_mellifera","species","honeybees",0.007462687,150,90,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2008","watershed","transect observations","Apis_mellifera","species","honeybees",0.022727273,150,90,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2008","watershed","transect observations","Apis_mellifera","species","honeybees",0.044247788,150,90,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2008","anchor_run","transect observations","Bombus_spp.","genus","bumblebees",0.12,150,90,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2008","anchor_run","transect observations","Bombus_spp.","genus","bumblebees",0.133004926,150,90,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2008","anchor_run","transect observations","Bombus_spp.","genus","bumblebees",0.046610169,150,90,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2008","barry_davis","transect observations","Bombus_spp.","genus","bumblebees",0.068783069,150,90,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2008","barry_davis","transect observations","Bombus_spp.","genus","bumblebees",0.093023256,150,90,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2008","barry_davis","transect observations","Bombus_spp.","genus","bumblebees",0.036144578,150,90,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2008","branch","transect observations","Bombus_spp.","genus","bumblebees",0.06,150,90,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2008","branch","transect observations","Bombus_spp.","genus","bumblebees",0.066326531,150,90,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2008","branch","transect observations","Bombus_spp.","genus","bumblebees",0.024390244,150,90,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2008","cedar_ridge","transect observations","Bombus_spp.","genus","bumblebees",0.007462687,150,90,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2008","cedar_ridge","transect observations","Bombus_spp.","genus","bumblebees",0.007518797,150,90,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2008","cherry_grove","transect observations","Bombus_spp.","genus","bumblebees",0.036144578,150,90,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2008","cherry_grove","transect observations","Bombus_spp.","genus","bumblebees",0.032085561,150,90,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2008","del_val","transect observations","Bombus_spp.","genus","bumblebees",0.014925373,150,90,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2008","del_val","transect observations","Bombus_spp.","genus","bumblebees",0.045714286,150,90,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2008","del_val","transect observations","Bombus_spp.","genus","bumblebees",0.033333333,150,90,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2008","kerrs","transect observations","Bombus_spp.","genus","bumblebees",0.205882353,150,90,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2008","kerrs","transect observations","Bombus_spp.","genus","bumblebees",0.271084337,150,90,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2008","kerrs","transect observations","Bombus_spp.","genus","bumblebees",0.257861635,150,90,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2008","kimberton","transect observations","Bombus_spp.","genus","bumblebees",0.022900763,150,90,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2008","kimberton","transect observations","Bombus_spp.","genus","bumblebees",0.053030303,150,90,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2008","kimberton","transect observations","Bombus_spp.","genus","bumblebees",0.029411765,150,90,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2008","lee","transect observations","Bombus_spp.","genus","bumblebees",0.004424779,150,90,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2008","lee","transect observations","Bombus_spp.","genus","bumblebees",0.004484305,150,90,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2008","lee","transect observations","Bombus_spp.","genus","bumblebees",0.008403361,150,90,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2008","little_acres","transect observations","Bombus_spp.","genus","bumblebees",0.005952381,150,90,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2008","little_acres","transect observations","Bombus_spp.","genus","bumblebees",0.007936508,150,90,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2008","nonsuch","transect observations","Bombus_spp.","genus","bumblebees",0.013157895,150,90,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2008","nonsuch","transect observations","Bombus_spp.","genus","bumblebees",0.023391813,150,90,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2008","pennvt","transect observations","Bombus_spp.","genus","bumblebees",0.019138756,150,90,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2008","pennvt","transect observations","Bombus_spp.","genus","bumblebees",0.005649718,150,90,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2008","pennvt","transect observations","Bombus_spp.","genus","bumblebees",0.005319149,150,90,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2008","rays_greenhouse","transect observations","Bombus_spp.","genus","bumblebees",0.025316456,150,90,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2008","rays_greenhouse","transect observations","Bombus_spp.","genus","bumblebees",0.034090909,150,90,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2008","rays_greenhouse","transect observations","Bombus_spp.","genus","bumblebees",0.019230769,150,90,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2008","sankanac","transect observations","Bombus_spp.","genus","bumblebees",0.007751938,150,90,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2008","sankanac","transect observations","Bombus_spp.","genus","bumblebees",0.014705882,150,90,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2008","traugers","transect observations","Bombus_spp.","genus","bumblebees",0.153846154,150,90,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2008","traugers","transect observations","Bombus_spp.","genus","bumblebees",0.114754098,150,90,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2008","watershed","transect observations","Bombus_spp.","genus","bumblebees",0.014925373,150,90,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2008","watershed","transect observations","Bombus_spp.","genus","bumblebees",0.106060606,150,90,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2008","watershed","transect observations","Bombus_spp.","genus","bumblebees",0.03539823,150,90,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2008","kimberton","transect observations","Diptera_sp.","order","other_flies",0.022727273,150,90,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2008","kimberton","transect observations","Diptera_sp.","order","other_flies",0.022058824,150,90,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2008","peaceful_valley","transect observations","Diptera_sp.","order","other_flies",0.007462687,150,90,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2008","sunrise_sunflower","transect observations","Diptera_sp.","order","other_flies",0.008064516,150,90,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2008","anchor_run","transect observations","Lepidoptera","order","lepidoptera",0.004926108,150,90,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2008","rays_greenhouse","transect observations","Lepidoptera","order","lepidoptera",0.006329114,150,90,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2008","watershed","transect observations","Lepidoptera","order","lepidoptera",0.017699115,150,90,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2008","cedar_ridge","transect observations","Pieris_rapae","species","lepidoptera",0.008264463,150,90,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2008","del_val","transect observations","Pieris_rapae","species","lepidoptera",0.005714286,150,90,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2008","kerrs","transect observations","Pieris_rapae","species","lepidoptera",0.005882353,150,90,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2008","kerrs","transect observations","Pieris_rapae","species","lepidoptera",0.006289308,150,90,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2008","kimberton","transect observations","Pieris_rapae","species","lepidoptera",0.007633588,150,90,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2008","kimberton","transect observations","Pieris_rapae","species","lepidoptera",0.007575758,150,90,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2008","kimberton","transect observations","Pieris_rapae","species","lepidoptera",0.014705882,150,90,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2008","little_acres","transect observations","Pieris_rapae","species","lepidoptera",0.007092199,150,90,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2008","nonsuch","transect observations","Pieris_rapae","species","lepidoptera",0.005847953,150,90,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2008","pennvt","transect observations","Pieris_rapae","species","lepidoptera",0.005649718,150,90,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2008","pennvt","transect observations","Pieris_rapae","species","lepidoptera",0.042553191,150,90,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2008","rays_greenhouse","transect observations","Pieris_rapae","species","lepidoptera",0.005681818,150,90,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2008","watershed","transect observations","Pieris_rapae","species","lepidoptera",0.015151515,150,90,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2008","anchor_run","transect observations","syrphidae","family","syrphids",0.005,150,90,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2008","anchor_run","transect observations","syrphidae","family","syrphids",0.009852217,150,90,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2008","barry_davis","transect observations","syrphidae","family","syrphids",0.005813953,150,90,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2008","branch","transect observations","syrphidae","family","syrphids",0.009756098,150,90,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2008","cherry_grove","transect observations","syrphidae","family","syrphids",0.005617978,150,90,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2008","del_val","transect observations","syrphidae","family","syrphids",0.006666667,150,90,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2008","kerrs","transect observations","syrphidae","family","syrphids",0.011764706,150,90,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2008","kerrs","transect observations","syrphidae","family","syrphids",0.030120482,150,90,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2008","kerrs","transect observations","syrphidae","family","syrphids",0.012578616,150,90,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2008","kimberton","transect observations","syrphidae","family","syrphids",0.022900763,150,90,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2008","kimberton","transect observations","syrphidae","family","syrphids",0.007575758,150,90,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2008","kimberton","transect observations","syrphidae","family","syrphids",0.007352941,150,90,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2008","little_acres","transect observations","syrphidae","family","syrphids",0.011904762,150,90,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2008","little_acres","transect observations","syrphidae","family","syrphids",0.007936508,150,90,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2008","nonsuch","transect observations","syrphidae","family","syrphids",0.019736842,150,90,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2008","nonsuch","transect observations","syrphidae","family","syrphids",0.023391813,150,90,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2008","peaceful_valley","transect observations","syrphidae","family","syrphids",0.006369427,150,90,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2008","peaceful_valley","transect observations","syrphidae","family","syrphids",0.014925373,150,90,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2008","peaceful_valley","transect observations","syrphidae","family","syrphids",0.015267176,150,90,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2008","pennvt","transect observations","syrphidae","family","syrphids",0.005649718,150,90,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2008","rays_greenhouse","transect observations","syrphidae","family","syrphids",0.006329114,150,90,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2008","sankanac","transect observations","syrphidae","family","syrphids",0.023255814,150,90,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2008","sunrise_sunflower","transect observations","syrphidae","family","syrphids",0.041666667,150,90,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2008","sunrise_sunflower","transect observations","syrphidae","family","syrphids",0.040322581,150,90,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2008","traugers","transect observations","syrphidae","family","syrphids",0.00591716,150,90,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2008","watershed","transect observations","syrphidae","family","syrphids",0.007462687,150,90,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2008","anchor_run","transect observations","wild_bee_unknown","superfamily","other_wild_bees",0.095,150,90,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.","Apoidea?"
"Rachael_Winfree_Citrullus_lanatus_USA_2008","anchor_run","transect observations","wild_bee_unknown","superfamily","other_wild_bees",0.098522167,150,90,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.","Apoidea?"
"Rachael_Winfree_Citrullus_lanatus_USA_2008","anchor_run","transect observations","wild_bee_unknown","superfamily","other_wild_bees",0.093220339,150,90,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.","Apoidea?"
"Rachael_Winfree_Citrullus_lanatus_USA_2008","barry_davis","transect observations","wild_bee_unknown","superfamily","other_wild_bees",0.052910053,150,90,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.","Apoidea?"
"Rachael_Winfree_Citrullus_lanatus_USA_2008","barry_davis","transect observations","wild_bee_unknown","superfamily","other_wild_bees",0.145348837,150,90,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.","Apoidea?"
"Rachael_Winfree_Citrullus_lanatus_USA_2008","barry_davis","transect observations","wild_bee_unknown","superfamily","other_wild_bees",0.174698795,150,90,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.","Apoidea?"
"Rachael_Winfree_Citrullus_lanatus_USA_2008","branch","transect observations","wild_bee_unknown","superfamily","other_wild_bees",0.07,150,90,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.","Apoidea?"
"Rachael_Winfree_Citrullus_lanatus_USA_2008","branch","transect observations","wild_bee_unknown","superfamily","other_wild_bees",0.132653061,150,90,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.","Apoidea?"
"Rachael_Winfree_Citrullus_lanatus_USA_2008","branch","transect observations","wild_bee_unknown","superfamily","other_wild_bees",0.082926829,150,90,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.","Apoidea?"
"Rachael_Winfree_Citrullus_lanatus_USA_2008","cedar_ridge","transect observations","wild_bee_unknown","superfamily","other_wild_bees",0.298507463,150,90,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.","Apoidea?"
"Rachael_Winfree_Citrullus_lanatus_USA_2008","cedar_ridge","transect observations","wild_bee_unknown","superfamily","other_wild_bees",0.22556391,150,90,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.","Apoidea?"
"Rachael_Winfree_Citrullus_lanatus_USA_2008","cedar_ridge","transect observations","wild_bee_unknown","superfamily","other_wild_bees",0.140495868,150,90,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.","Apoidea?"
"Rachael_Winfree_Citrullus_lanatus_USA_2008","cherry_grove","transect observations","wild_bee_unknown","superfamily","other_wild_bees",0.06741573,150,90,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.","Apoidea?"
"Rachael_Winfree_Citrullus_lanatus_USA_2008","cherry_grove","transect observations","wild_bee_unknown","superfamily","other_wild_bees",0.102409639,150,90,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.","Apoidea?"
"Rachael_Winfree_Citrullus_lanatus_USA_2008","cherry_grove","transect observations","wild_bee_unknown","superfamily","other_wild_bees",0.112299465,150,90,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.","Apoidea?"
"Rachael_Winfree_Citrullus_lanatus_USA_2008","del_val","transect observations","wild_bee_unknown","superfamily","other_wild_bees",0.009950249,150,90,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.","Apoidea?"
"Rachael_Winfree_Citrullus_lanatus_USA_2008","del_val","transect observations","wild_bee_unknown","superfamily","other_wild_bees",0.051428571,150,90,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.","Apoidea?"
"Rachael_Winfree_Citrullus_lanatus_USA_2008","del_val","transect observations","wild_bee_unknown","superfamily","other_wild_bees",0.12,150,90,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.","Apoidea?"
"Rachael_Winfree_Citrullus_lanatus_USA_2008","kerrs","transect observations","wild_bee_unknown","superfamily","other_wild_bees",0.058823529,150,90,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.","Apoidea?"
"Rachael_Winfree_Citrullus_lanatus_USA_2008","kerrs","transect observations","wild_bee_unknown","superfamily","other_wild_bees",0.108433735,150,90,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.","Apoidea?"
"Rachael_Winfree_Citrullus_lanatus_USA_2008","kerrs","transect observations","wild_bee_unknown","superfamily","other_wild_bees",0.144654088,150,90,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.","Apoidea?"
"Rachael_Winfree_Citrullus_lanatus_USA_2008","kimberton","transect observations","wild_bee_unknown","superfamily","other_wild_bees",0.083969466,150,90,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.","Apoidea?"
"Rachael_Winfree_Citrullus_lanatus_USA_2008","kimberton","transect observations","wild_bee_unknown","superfamily","other_wild_bees",0.204545455,150,90,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.","Apoidea?"
"Rachael_Winfree_Citrullus_lanatus_USA_2008","kimberton","transect observations","wild_bee_unknown","superfamily","other_wild_bees",0.213235294,150,90,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.","Apoidea?"
"Rachael_Winfree_Citrullus_lanatus_USA_2008","lee","transect observations","wild_bee_unknown","superfamily","other_wild_bees",0.004424779,150,90,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.","Apoidea?"
"Rachael_Winfree_Citrullus_lanatus_USA_2008","lee","transect observations","wild_bee_unknown","superfamily","other_wild_bees",0.01793722,150,90,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.","Apoidea?"
"Rachael_Winfree_Citrullus_lanatus_USA_2008","lee","transect observations","wild_bee_unknown","superfamily","other_wild_bees",0.008403361,150,90,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.","Apoidea?"
"Rachael_Winfree_Citrullus_lanatus_USA_2008","little_acres","transect observations","wild_bee_unknown","superfamily","other_wild_bees",0.19047619,150,90,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.","Apoidea?"
"Rachael_Winfree_Citrullus_lanatus_USA_2008","little_acres","transect observations","wild_bee_unknown","superfamily","other_wild_bees",0.482269504,150,90,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.","Apoidea?"
"Rachael_Winfree_Citrullus_lanatus_USA_2008","little_acres","transect observations","wild_bee_unknown","superfamily","other_wild_bees",0.468253968,150,90,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.","Apoidea?"
"Rachael_Winfree_Citrullus_lanatus_USA_2008","nonsuch","transect observations","wild_bee_unknown","superfamily","other_wild_bees",0.006578947,150,90,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.","Apoidea?"
"Rachael_Winfree_Citrullus_lanatus_USA_2008","nonsuch","transect observations","wild_bee_unknown","superfamily","other_wild_bees",0.011695906,150,90,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.","Apoidea?"
"Rachael_Winfree_Citrullus_lanatus_USA_2008","nonsuch","transect observations","wild_bee_unknown","superfamily","other_wild_bees",0.03030303,150,90,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.","Apoidea?"
"Rachael_Winfree_Citrullus_lanatus_USA_2008","peaceful_valley","transect observations","wild_bee_unknown","superfamily","other_wild_bees",0.165605096,150,90,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.","Apoidea?"
"Rachael_Winfree_Citrullus_lanatus_USA_2008","peaceful_valley","transect observations","wild_bee_unknown","superfamily","other_wild_bees",0.223880597,150,90,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.","Apoidea?"
"Rachael_Winfree_Citrullus_lanatus_USA_2008","peaceful_valley","transect observations","wild_bee_unknown","superfamily","other_wild_bees",0.244274809,150,90,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.","Apoidea?"
"Rachael_Winfree_Citrullus_lanatus_USA_2008","pennvt","transect observations","wild_bee_unknown","superfamily","other_wild_bees",0.033492823,150,90,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.","Apoidea?"
"Rachael_Winfree_Citrullus_lanatus_USA_2008","pennvt","transect observations","wild_bee_unknown","superfamily","other_wild_bees",0.282485876,150,90,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.","Apoidea?"
"Rachael_Winfree_Citrullus_lanatus_USA_2008","pennvt","transect observations","wild_bee_unknown","superfamily","other_wild_bees",0.170212766,150,90,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.","Apoidea?"
"Rachael_Winfree_Citrullus_lanatus_USA_2008","rays_greenhouse","transect observations","wild_bee_unknown","superfamily","other_wild_bees",0.03164557,150,90,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.","Apoidea?"
"Rachael_Winfree_Citrullus_lanatus_USA_2008","rays_greenhouse","transect observations","wild_bee_unknown","superfamily","other_wild_bees",0.056818182,150,90,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.","Apoidea?"
"Rachael_Winfree_Citrullus_lanatus_USA_2008","rays_greenhouse","transect observations","wild_bee_unknown","superfamily","other_wild_bees",0.070512821,150,90,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.","Apoidea?"
"Rachael_Winfree_Citrullus_lanatus_USA_2008","sankanac","transect observations","wild_bee_unknown","superfamily","other_wild_bees",0.493150685,150,90,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.","Apoidea?"
"Rachael_Winfree_Citrullus_lanatus_USA_2008","sankanac","transect observations","wild_bee_unknown","superfamily","other_wild_bees",0.620155039,150,90,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.","Apoidea?"
"Rachael_Winfree_Citrullus_lanatus_USA_2008","sankanac","transect observations","wild_bee_unknown","superfamily","other_wild_bees",0.455882353,150,90,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.","Apoidea?"
"Rachael_Winfree_Citrullus_lanatus_USA_2008","sunrise_sunflower","transect observations","wild_bee_unknown","superfamily","other_wild_bees",0.016666667,150,90,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.","Apoidea?"
"Rachael_Winfree_Citrullus_lanatus_USA_2008","sunrise_sunflower","transect observations","wild_bee_unknown","superfamily","other_wild_bees",0.032258065,150,90,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.","Apoidea?"
"Rachael_Winfree_Citrullus_lanatus_USA_2008","sunrise_sunflower","transect observations","wild_bee_unknown","superfamily","other_wild_bees",0.049586777,150,90,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.","Apoidea?"
"Rachael_Winfree_Citrullus_lanatus_USA_2008","traugers","transect observations","wild_bee_unknown","superfamily","other_wild_bees",0.041420118,150,90,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.","Apoidea?"
"Rachael_Winfree_Citrullus_lanatus_USA_2008","traugers","transect observations","wild_bee_unknown","superfamily","other_wild_bees",0.06557377,150,90,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.","Apoidea?"
"Rachael_Winfree_Citrullus_lanatus_USA_2008","traugers","transect observations","wild_bee_unknown","superfamily","other_wild_bees",0.107344633,150,90,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.","Apoidea?"
"Rachael_Winfree_Citrullus_lanatus_USA_2008","watershed","transect observations","wild_bee_unknown","superfamily","other_wild_bees",0.059701493,150,90,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.","Apoidea?"
"Rachael_Winfree_Citrullus_lanatus_USA_2008","watershed","transect observations","wild_bee_unknown","superfamily","other_wild_bees",0.257575758,150,90,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.","Apoidea?"
"Rachael_Winfree_Citrullus_lanatus_USA_2008","watershed","transect observations","wild_bee_unknown","superfamily","other_wild_bees",0.327433628,150,90,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.","Apoidea?"
"Rachael_Winfree_Citrullus_lanatus_USA_2010","anchor_run","transect observations","Apis_mellifera","species","honeybees",0.084337349,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2010","anchor_run","transect observations","Apis_mellifera","species","honeybees",0.225806452,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2010","anchor_run","transect observations","Apis_mellifera","species","honeybees",0.191919192,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2010","anchor_run","transect observations","Apis_mellifera","species","honeybees",0.07079646,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2010","anchor_run","transect observations","Apis_mellifera","species","honeybees",0.269230769,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2010","anchor_run","transect observations","Apis_mellifera","species","honeybees",0.165048544,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2010","anchor_run","transect observations","Apis_mellifera","species","honeybees",0.070422535,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2010","anchor_run","transect observations","Apis_mellifera","species","honeybees",0.430769231,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2010","anchor_run","transect observations","Apis_mellifera","species","honeybees",0.115942029,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2010","branch","transect observations","Apis_mellifera","species","honeybees",0.00952381,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2010","bridge","transect observations","Apis_mellifera","species","honeybees",0.053571429,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2010","bridge","transect observations","Apis_mellifera","species","honeybees",0.038461538,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2010","bridge","transect observations","Apis_mellifera","species","honeybees",0.067567568,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2010","bridge","transect observations","Apis_mellifera","species","honeybees",0.04109589,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2010","bridge","transect observations","Apis_mellifera","species","honeybees",0.028985507,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2010","bridge","transect observations","Apis_mellifera","species","honeybees",0.013513514,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2010","cedar_ridge","transect observations","Apis_mellifera","species","honeybees",0.010638298,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2010","cedar_ridge","transect observations","Apis_mellifera","species","honeybees",0.017241379,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2010","cherry_grove","transect observations","Apis_mellifera","species","honeybees",0.046296296,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2010","cherry_grove","transect observations","Apis_mellifera","species","honeybees",0.118055556,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2010","cherry_grove","transect observations","Apis_mellifera","species","honeybees",0.043478261,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2010","cherry_grove","transect observations","Apis_mellifera","species","honeybees",0.007751938,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2010","cherry_grove","transect observations","Apis_mellifera","species","honeybees",0.03968254,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2010","cherry_grove","transect observations","Apis_mellifera","species","honeybees",0.007194245,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2010","cherry_grove","transect observations","Apis_mellifera","species","honeybees",0.01754386,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2010","cherry_grove","transect observations","Apis_mellifera","species","honeybees",0.033898305,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2010","del_val","transect observations","Apis_mellifera","species","honeybees",0.067567568,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2010","del_val","transect observations","Apis_mellifera","species","honeybees",0.070422535,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2010","del_val","transect observations","Apis_mellifera","species","honeybees",0.060606061,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2010","del_val","transect observations","Apis_mellifera","species","honeybees",0.010752688,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2010","del_val","transect observations","Apis_mellifera","species","honeybees",0.056179775,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2010","del_val","transect observations","Apis_mellifera","species","honeybees",0.048076923,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2010","del_val","transect observations","Apis_mellifera","species","honeybees",0.06122449,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2010","del_val","transect observations","Apis_mellifera","species","honeybees",0.054945055,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2010","lee","transect observations","Apis_mellifera","species","honeybees",0.068493151,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2010","lee","transect observations","Apis_mellifera","species","honeybees",0.0625,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2010","lee","transect observations","Apis_mellifera","species","honeybees",0.010416667,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2010","lee","transect observations","Apis_mellifera","species","honeybees",0.068627451,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2010","lee","transect observations","Apis_mellifera","species","honeybees",0.017857143,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2010","lee","transect observations","Apis_mellifera","species","honeybees",0.098765432,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2010","lee","transect observations","Apis_mellifera","species","honeybees",0.067567568,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2010","lee","transect observations","Apis_mellifera","species","honeybees",0.025974026,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2010","maple_acresa","transect observations","Apis_mellifera","species","honeybees",0.03125,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2010","maple_acresa","transect observations","Apis_mellifera","species","honeybees",0.152542373,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2010","maple_acresa","transect observations","Apis_mellifera","species","honeybees",0.086206897,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2010","maple_acresa","transect observations","Apis_mellifera","species","honeybees",0.280898876,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2010","maple_acresa","transect observations","Apis_mellifera","species","honeybees",0.235294118,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2010","maple_acresa","transect observations","Apis_mellifera","species","honeybees",0.102040816,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2010","maple_acresa","transect observations","Apis_mellifera","species","honeybees",0.074074074,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2010","maple_acresa","transect observations","Apis_mellifera","species","honeybees",0.06557377,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2010","maple_acresa","transect observations","Apis_mellifera","species","honeybees",0.035714286,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2010","nonsuch","transect observations","Apis_mellifera","species","honeybees",0.009433962,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2010","nonsuch","transect observations","Apis_mellifera","species","honeybees",0.065934066,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2010","nonsuch","transect observations","Apis_mellifera","species","honeybees",0.093023256,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2010","nonsuch","transect observations","Apis_mellifera","species","honeybees",0.036036036,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2010","nonsuch","transect observations","Apis_mellifera","species","honeybees",0.106796117,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2010","nonsuch","transect observations","Apis_mellifera","species","honeybees",0.037383178,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2010","nonsuch","transect observations","Apis_mellifera","species","honeybees",0.095238095,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2010","nonsuch","transect observations","Apis_mellifera","species","honeybees",0.350877193,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2010","nonsuch","transect observations","Apis_mellifera","species","honeybees",0.103448276,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2010","peaceful_valley","transect observations","Apis_mellifera","species","honeybees",0.033613445,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2010","peaceful_valley","transect observations","Apis_mellifera","species","honeybees",0.205673759,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2010","peaceful_valley","transect observations","Apis_mellifera","species","honeybees",0.175675676,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2010","peaceful_valley","transect observations","Apis_mellifera","species","honeybees",0.153846154,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2010","peaceful_valley","transect observations","Apis_mellifera","species","honeybees",0.215384615,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2010","peaceful_valley","transect observations","Apis_mellifera","species","honeybees",0.180451128,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2010","peaceful_valley","transect observations","Apis_mellifera","species","honeybees",0.352941176,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2010","peaceful_valley","transect observations","Apis_mellifera","species","honeybees",0.327272727,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2010","peaceful_valley","transect observations","Apis_mellifera","species","honeybees",0.230769231,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2010","pennvt","transect observations","Apis_mellifera","species","honeybees",0.007874016,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2010","pennvt","transect observations","Apis_mellifera","species","honeybees",0.02962963,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2010","pennvt","transect observations","Apis_mellifera","species","honeybees",0.016528926,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2010","pennvt","transect observations","Apis_mellifera","species","honeybees",0.090909091,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2010","pennvt","transect observations","Apis_mellifera","species","honeybees",0.133928571,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2010","pennvt","transect observations","Apis_mellifera","species","honeybees",0.0125,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2010","pennvt","transect observations","Apis_mellifera","species","honeybees",0.060240964,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2010","pennvt","transect observations","Apis_mellifera","species","honeybees",0.116883117,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2010","rays_greenhouse","transect observations","Apis_mellifera","species","honeybees",0.019047619,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2010","rays_greenhouse","transect observations","Apis_mellifera","species","honeybees",0.045454545,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2010","rays_greenhouse","transect observations","Apis_mellifera","species","honeybees",0.025316456,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2010","rays_greenhouse","transect observations","Apis_mellifera","species","honeybees",0.046153846,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2010","rays_greenhouse","transect observations","Apis_mellifera","species","honeybees",0.016666667,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2010","sankanac","transect observations","Apis_mellifera","species","honeybees",0.09375,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2010","sankanac","transect observations","Apis_mellifera","species","honeybees",0.205357143,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2010","sankanac","transect observations","Apis_mellifera","species","honeybees",0.046728972,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2010","sankanac","transect observations","Apis_mellifera","species","honeybees",0.232,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2010","sankanac","transect observations","Apis_mellifera","species","honeybees",0.234234234,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2010","sankanac","transect observations","Apis_mellifera","species","honeybees",0.008547009,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2010","sankanac","transect observations","Apis_mellifera","species","honeybees",0.140625,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2010","sankanac","transect observations","Apis_mellifera","species","honeybees",0.293333333,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2010","sankanac","transect observations","Apis_mellifera","species","honeybees",0.016666667,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2010","sunrise_sunflower","transect observations","Apis_mellifera","species","honeybees",0.112359551,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2010","sunrise_sunflower","transect observations","Apis_mellifera","species","honeybees",0.10619469,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2010","sunrise_sunflower","transect observations","Apis_mellifera","species","honeybees",0.032258065,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2010","sunrise_sunflower","transect observations","Apis_mellifera","species","honeybees",0.010526316,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2010","sunrise_sunflower","transect observations","Apis_mellifera","species","honeybees",0.068627451,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2010","sunrise_sunflower","transect observations","Apis_mellifera","species","honeybees",0.074766355,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2010","sunrise_sunflower","transect observations","Apis_mellifera","species","honeybees",0.052631579,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2010","sunrise_sunflower","transect observations","Apis_mellifera","species","honeybees",0.1,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2010","sunrise_sunflower","transect observations","Apis_mellifera","species","honeybees",0.035714286,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2010","terhune","transect observations","Apis_mellifera","species","honeybees",0.012345679,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2010","terhune","transect observations","Apis_mellifera","species","honeybees",0.08,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2010","terhune","transect observations","Apis_mellifera","species","honeybees",0.037974684,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2010","terhune","transect observations","Apis_mellifera","species","honeybees",0.038888889,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2010","terhune","transect observations","Apis_mellifera","species","honeybees",0.050561798,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2010","terhune","transect observations","Apis_mellifera","species","honeybees",0.02238806,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2010","terhune","transect observations","Apis_mellifera","species","honeybees",0.047945205,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2010","terhune","transect observations","Apis_mellifera","species","honeybees",0.007092199,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2010","traugers","transect observations","Apis_mellifera","species","honeybees",0.066115702,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2010","traugers","transect observations","Apis_mellifera","species","honeybees",0.2265625,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2010","traugers","transect observations","Apis_mellifera","species","honeybees",0.108333333,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2010","traugers","transect observations","Apis_mellifera","species","honeybees",0.009708738,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2010","traugers","transect observations","Apis_mellifera","species","honeybees",0.035087719,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2010","traugers","transect observations","Apis_mellifera","species","honeybees",0.010416667,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2010","traugers","transect observations","Apis_mellifera","species","honeybees",0.016949153,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2010","watershed","transect observations","Apis_mellifera","species","honeybees",0.015037594,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2010","watershed","transect observations","Apis_mellifera","species","honeybees",0.014925373,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2010","watershed","transect observations","Apis_mellifera","species","honeybees",0.031746032,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2010","watershed","transect observations","Apis_mellifera","species","honeybees",0.030534351,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2010","anchor_run","transect observations","Bombus_spp.","genus","bumblebees",0.032258065,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2010","anchor_run","transect observations","Bombus_spp.","genus","bumblebees",0.121212121,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2010","anchor_run","transect observations","Bombus_spp.","genus","bumblebees",0.026548673,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2010","anchor_run","transect observations","Bombus_spp.","genus","bumblebees",0.067307692,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2010","anchor_run","transect observations","Bombus_spp.","genus","bumblebees",0.038834951,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2010","anchor_run","transect observations","Bombus_spp.","genus","bumblebees",0.014084507,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2010","anchor_run","transect observations","Bombus_spp.","genus","bumblebees",0.015384615,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2010","anchor_run","transect observations","Bombus_spp.","genus","bumblebees",0.014492754,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2010","branch","transect observations","Bombus_spp.","genus","bumblebees",0.115044248,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2010","branch","transect observations","Bombus_spp.","genus","bumblebees",0.089108911,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2010","branch","transect observations","Bombus_spp.","genus","bumblebees",0.018867925,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2010","branch","transect observations","Bombus_spp.","genus","bumblebees",0.074324324,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2010","branch","transect observations","Bombus_spp.","genus","bumblebees",0.12195122,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2010","branch","transect observations","Bombus_spp.","genus","bumblebees",0.085470085,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2010","branch","transect observations","Bombus_spp.","genus","bumblebees",0.01369863,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2010","branch","transect observations","Bombus_spp.","genus","bumblebees",0.051724138,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2010","branch","transect observations","Bombus_spp.","genus","bumblebees",0.047619048,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2010","bridge","transect observations","Bombus_spp.","genus","bumblebees",0.31884058,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2010","bridge","transect observations","Bombus_spp.","genus","bumblebees",0.342105263,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2010","bridge","transect observations","Bombus_spp.","genus","bumblebees",0.013513514,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2010","cherry_grove","transect observations","Bombus_spp.","genus","bumblebees",0.041666667,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2010","cherry_grove","transect observations","Bombus_spp.","genus","bumblebees",0.02173913,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2010","cherry_grove","transect observations","Bombus_spp.","genus","bumblebees",0.007751938,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2010","cherry_grove","transect observations","Bombus_spp.","genus","bumblebees",0.023809524,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2010","cherry_grove","transect observations","Bombus_spp.","genus","bumblebees",0.021582734,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2010","cherry_grove","transect observations","Bombus_spp.","genus","bumblebees",0.01754386,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2010","cherry_grove","transect observations","Bombus_spp.","genus","bumblebees",0.016949153,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2010","del_val","transect observations","Bombus_spp.","genus","bumblebees",0.013513514,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2010","del_val","transect observations","Bombus_spp.","genus","bumblebees",0.021505376,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2010","del_val","transect observations","Bombus_spp.","genus","bumblebees",0.011235955,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2010","del_val","transect observations","Bombus_spp.","genus","bumblebees",0.010204082,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2010","del_val","transect observations","Bombus_spp.","genus","bumblebees",0.010989011,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2010","lee","transect observations","Bombus_spp.","genus","bumblebees",0.02739726,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2010","lee","transect observations","Bombus_spp.","genus","bumblebees",0.008928571,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2010","lee","transect observations","Bombus_spp.","genus","bumblebees",0.037037037,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2010","maple_acresa","transect observations","Bombus_spp.","genus","bumblebees",0.016949153,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2010","maple_acresa","transect observations","Bombus_spp.","genus","bumblebees",0.011235955,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2010","maple_acresa","transect observations","Bombus_spp.","genus","bumblebees",0.009803922,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2010","maple_acresa","transect observations","Bombus_spp.","genus","bumblebees",0.074074074,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2010","nonsuch","transect observations","Bombus_spp.","genus","bumblebees",0.075471698,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2010","nonsuch","transect observations","Bombus_spp.","genus","bumblebees",0.21978022,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2010","nonsuch","transect observations","Bombus_spp.","genus","bumblebees",0.127906977,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2010","nonsuch","transect observations","Bombus_spp.","genus","bumblebees",0.153153153,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2010","nonsuch","transect observations","Bombus_spp.","genus","bumblebees",0.126213592,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2010","nonsuch","transect observations","Bombus_spp.","genus","bumblebees",0.046728972,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2010","nonsuch","transect observations","Bombus_spp.","genus","bumblebees",0.047619048,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2010","nonsuch","transect observations","Bombus_spp.","genus","bumblebees",0.070175439,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2010","nonsuch","transect observations","Bombus_spp.","genus","bumblebees",0.017241379,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2010","peaceful_valley","transect observations","Bombus_spp.","genus","bumblebees",0.033613445,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2010","peaceful_valley","transect observations","Bombus_spp.","genus","bumblebees",0.021276596,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2010","peaceful_valley","transect observations","Bombus_spp.","genus","bumblebees",0.013513514,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2010","peaceful_valley","transect observations","Bombus_spp.","genus","bumblebees",0.007692308,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2010","peaceful_valley","transect observations","Bombus_spp.","genus","bumblebees",0.007692308,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2010","peaceful_valley","transect observations","Bombus_spp.","genus","bumblebees",0.036363636,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2010","peaceful_valley","transect observations","Bombus_spp.","genus","bumblebees",0.019230769,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2010","pennvt","transect observations","Bombus_spp.","genus","bumblebees",0.007407407,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2010","pennvt","transect observations","Bombus_spp.","genus","bumblebees",0.027272727,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2010","pennvt","transect observations","Bombus_spp.","genus","bumblebees",0.0625,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2010","pennvt","transect observations","Bombus_spp.","genus","bumblebees",0.012048193,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2010","pennvt","transect observations","Bombus_spp.","genus","bumblebees",0.012987013,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2010","phillips","transect observations","Bombus_spp.","genus","bumblebees",0.080808081,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2010","phillips","transect observations","Bombus_spp.","genus","bumblebees",0.070588235,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2010","phillips","transect observations","Bombus_spp.","genus","bumblebees",0.141025641,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2010","phillips","transect observations","Bombus_spp.","genus","bumblebees",0.097560976,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2010","phillips","transect observations","Bombus_spp.","genus","bumblebees",0.026666667,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2010","phillips","transect observations","Bombus_spp.","genus","bumblebees",0.029850746,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2010","phillips","transect observations","Bombus_spp.","genus","bumblebees",0.108108108,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2010","phillips","transect observations","Bombus_spp.","genus","bumblebees",0.084337349,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2010","rays_greenhouse","transect observations","Bombus_spp.","genus","bumblebees",0.019047619,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2010","rays_greenhouse","transect observations","Bombus_spp.","genus","bumblebees",0.015151515,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2010","rays_greenhouse","transect observations","Bombus_spp.","genus","bumblebees",0.012658228,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2010","rays_greenhouse","transect observations","Bombus_spp.","genus","bumblebees",0.083333333,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2010","sankanac","transect observations","Bombus_spp.","genus","bumblebees",0.0234375,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2010","sankanac","transect observations","Bombus_spp.","genus","bumblebees",0.008928571,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2010","sankanac","transect observations","Bombus_spp.","genus","bumblebees",0.024,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2010","sankanac","transect observations","Bombus_spp.","genus","bumblebees",0.045045045,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2010","sankanac","transect observations","Bombus_spp.","genus","bumblebees",0.025641026,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2010","sankanac","transect observations","Bombus_spp.","genus","bumblebees",0.0625,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2010","sankanac","transect observations","Bombus_spp.","genus","bumblebees",0.04,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2010","sunrise_sunflower","transect observations","Bombus_spp.","genus","bumblebees",0.02247191,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2010","sunrise_sunflower","transect observations","Bombus_spp.","genus","bumblebees",0.03539823,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2010","sunrise_sunflower","transect observations","Bombus_spp.","genus","bumblebees",0.010526316,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2010","sunrise_sunflower","transect observations","Bombus_spp.","genus","bumblebees",0.009803922,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2010","sunrise_sunflower","transect observations","Bombus_spp.","genus","bumblebees",0.074766355,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2010","sunrise_sunflower","transect observations","Bombus_spp.","genus","bumblebees",0.035714286,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2010","terhune","transect observations","Bombus_spp.","genus","bumblebees",0.074074074,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2010","terhune","transect observations","Bombus_spp.","genus","bumblebees",0.053333333,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2010","terhune","transect observations","Bombus_spp.","genus","bumblebees",0.025316456,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2010","terhune","transect observations","Bombus_spp.","genus","bumblebees",0.016666667,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2010","terhune","transect observations","Bombus_spp.","genus","bumblebees",0.011235955,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2010","terhune","transect observations","Bombus_spp.","genus","bumblebees",0.012578616,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2010","terhune","transect observations","Bombus_spp.","genus","bumblebees",0.034246575,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2010","terhune","transect observations","Bombus_spp.","genus","bumblebees",0.007092199,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2010","traugers","transect observations","Bombus_spp.","genus","bumblebees",0.041322314,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2010","traugers","transect observations","Bombus_spp.","genus","bumblebees",0.0078125,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2010","traugers","transect observations","Bombus_spp.","genus","bumblebees",0.008333333,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2010","traugers","transect observations","Bombus_spp.","genus","bumblebees",0.097087379,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2010","traugers","transect observations","Bombus_spp.","genus","bumblebees",0.122807018,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2010","traugers","transect observations","Bombus_spp.","genus","bumblebees",0.0625,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2010","traugers","transect observations","Bombus_spp.","genus","bumblebees",0.15,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2010","traugers","transect observations","Bombus_spp.","genus","bumblebees",0.169491525,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2010","traugers","transect observations","Bombus_spp.","genus","bumblebees",0.089285714,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2010","watershed","transect observations","Bombus_spp.","genus","bumblebees",0.007633588,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2010","watershed","transect observations","Bombus_spp.","genus","bumblebees",0.065217391,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2010","watershed","transect observations","Bombus_spp.","genus","bumblebees",0.105263158,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2010","watershed","transect observations","Bombus_spp.","genus","bumblebees",0.134328358,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2010","watershed","transect observations","Bombus_spp.","genus","bumblebees",0.126984127,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2010","watershed","transect observations","Bombus_spp.","genus","bumblebees",0.05952381,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2010","watershed","transect observations","Bombus_spp.","genus","bumblebees",0.018181818,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2010","watershed","transect observations","Bombus_spp.","genus","bumblebees",0.076335878,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2010","watershed","transect observations","Bombus_spp.","genus","bumblebees",0.076923077,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2010","branch","transect observations","Diptera_sp.","order","other_flies",0.008547009,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2010","traugers","transect observations","Diptera_sp.","order","other_flies",0.00877193,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2010","watershed","transect observations","Diptera_sp.","order","other_flies",0.007692308,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2010","branch","transect observations","Lepidoptera","order","lepidoptera",0.00990099,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2010","branch","transect observations","Lepidoptera","order","lepidoptera",0.008547009,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2010","bridge","transect observations","Lepidoptera","order","lepidoptera",0.017857143,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2010","del_val","transect observations","Lepidoptera","order","lepidoptera",0.009615385,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2010","del_val","transect observations","Lepidoptera","order","lepidoptera",0.010989011,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2010","peaceful_valley","transect observations","Lepidoptera","order","lepidoptera",0.006756757,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2010","peaceful_valley","transect observations","Lepidoptera","order","lepidoptera",0.007518797,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2010","anchor_run","transect observations","Pieris_rapae","species","lepidoptera",0.010752688,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2010","anchor_run","transect observations","Pieris_rapae","species","lepidoptera",0.03030303,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2010","anchor_run","transect observations","Pieris_rapae","species","lepidoptera",0.019417476,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2010","anchor_run","transect observations","Pieris_rapae","species","lepidoptera",0.092307692,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2010","anchor_run","transect observations","Pieris_rapae","species","lepidoptera",0.231884058,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2010","bridge","transect observations","Pieris_rapae","species","lepidoptera",0.01369863,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2010","bridge","transect observations","Pieris_rapae","species","lepidoptera",0.014492754,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2010","bridge","transect observations","Pieris_rapae","species","lepidoptera",0.013157895,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2010","cherry_grove","transect observations","Pieris_rapae","species","lepidoptera",0.018181818,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2010","pennvt","transect observations","Pieris_rapae","species","lepidoptera",0.0125,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2010","phillips","transect observations","Pieris_rapae","species","lepidoptera",0.036585366,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2010","traugers","transect observations","Pieris_rapae","species","lepidoptera",0.025,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2010","traugers","transect observations","Pieris_rapae","species","lepidoptera",0.050847458,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2010","traugers","transect observations","Pieris_rapae","species","lepidoptera",0.035714286,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2010","branch","transect observations","syrphidae","family","syrphids",0.00990099,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2010","bridge","transect observations","syrphidae","family","syrphids",0.014925373,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2010","bridge","transect observations","syrphidae","family","syrphids",0.012820513,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2010","cedar_ridge","transect observations","syrphidae","family","syrphids",0.015873016,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2010","cherry_grove","transect observations","syrphidae","family","syrphids",0.009259259,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2010","cherry_grove","transect observations","syrphidae","family","syrphids",0.007936508,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2010","cherry_grove","transect observations","syrphidae","family","syrphids",0.007194245,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2010","del_val","transect observations","syrphidae","family","syrphids",0.013513514,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2010","del_val","transect observations","syrphidae","family","syrphids",0.014084507,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2010","del_val","transect observations","syrphidae","family","syrphids",0.019230769,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2010","lee","transect observations","syrphidae","family","syrphids",0.020833333,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2010","lee","transect observations","syrphidae","family","syrphids",0.010416667,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2010","lee","transect observations","syrphidae","family","syrphids",0.009803922,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2010","lee","transect observations","syrphidae","family","syrphids",0.024691358,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2010","lee","transect observations","syrphidae","family","syrphids",0.013513514,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2010","maple_acresa","transect observations","syrphidae","family","syrphids",0.015625,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2010","maple_acresa","transect observations","syrphidae","family","syrphids",0.00862069,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2010","maple_acresa","transect observations","syrphidae","family","syrphids",0.04494382,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2010","maple_acresa","transect observations","syrphidae","family","syrphids",0.029411765,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2010","peaceful_valley","transect observations","syrphidae","family","syrphids",0.007692308,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2010","peaceful_valley","transect observations","syrphidae","family","syrphids",0.058823529,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2010","pennvt","transect observations","syrphidae","family","syrphids",0.009090909,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2010","pennvt","transect observations","syrphidae","family","syrphids",0.012048193,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2010","pennvt","transect observations","syrphidae","family","syrphids",0.014084507,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2010","phillips","transect observations","syrphidae","family","syrphids",0.01010101,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2010","phillips","transect observations","syrphidae","family","syrphids",0.029850746,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2010","phillips","transect observations","syrphidae","family","syrphids",0.013513514,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2010","terhune","transect observations","syrphidae","family","syrphids",0.013333333,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2010","anchor_run","transect observations","wild_bee_unknown","superfamily","other_wild_bees",0.012048193,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.","Apoidea?"
"Rachael_Winfree_Citrullus_lanatus_USA_2010","anchor_run","transect observations","wild_bee_unknown","superfamily","other_wild_bees",0.043010753,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.","Apoidea?"
"Rachael_Winfree_Citrullus_lanatus_USA_2010","anchor_run","transect observations","wild_bee_unknown","superfamily","other_wild_bees",0.161616162,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.","Apoidea?"
"Rachael_Winfree_Citrullus_lanatus_USA_2010","anchor_run","transect observations","wild_bee_unknown","superfamily","other_wild_bees",0.008849558,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.","Apoidea?"
"Rachael_Winfree_Citrullus_lanatus_USA_2010","anchor_run","transect observations","wild_bee_unknown","superfamily","other_wild_bees",0.048076923,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.","Apoidea?"
"Rachael_Winfree_Citrullus_lanatus_USA_2010","anchor_run","transect observations","wild_bee_unknown","superfamily","other_wild_bees",0.339805825,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.","Apoidea?"
"Rachael_Winfree_Citrullus_lanatus_USA_2010","anchor_run","transect observations","wild_bee_unknown","superfamily","other_wild_bees",0.028169014,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.","Apoidea?"
"Rachael_Winfree_Citrullus_lanatus_USA_2010","anchor_run","transect observations","wild_bee_unknown","superfamily","other_wild_bees",0.230769231,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.","Apoidea?"
"Rachael_Winfree_Citrullus_lanatus_USA_2010","anchor_run","transect observations","wild_bee_unknown","superfamily","other_wild_bees",0.362318841,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.","Apoidea?"
"Rachael_Winfree_Citrullus_lanatus_USA_2010","branch","transect observations","wild_bee_unknown","superfamily","other_wild_bees",0.044247788,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.","Apoidea?"
"Rachael_Winfree_Citrullus_lanatus_USA_2010","branch","transect observations","wild_bee_unknown","superfamily","other_wild_bees",0.178217822,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.","Apoidea?"
"Rachael_Winfree_Citrullus_lanatus_USA_2010","branch","transect observations","wild_bee_unknown","superfamily","other_wild_bees",0.169811321,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.","Apoidea?"
"Rachael_Winfree_Citrullus_lanatus_USA_2010","branch","transect observations","wild_bee_unknown","superfamily","other_wild_bees",0.013513514,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.","Apoidea?"
"Rachael_Winfree_Citrullus_lanatus_USA_2010","branch","transect observations","wild_bee_unknown","superfamily","other_wild_bees",0.105691057,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.","Apoidea?"
"Rachael_Winfree_Citrullus_lanatus_USA_2010","branch","transect observations","wild_bee_unknown","superfamily","other_wild_bees",0.205128205,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.","Apoidea?"
"Rachael_Winfree_Citrullus_lanatus_USA_2010","branch","transect observations","wild_bee_unknown","superfamily","other_wild_bees",0.095890411,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.","Apoidea?"
"Rachael_Winfree_Citrullus_lanatus_USA_2010","branch","transect observations","wild_bee_unknown","superfamily","other_wild_bees",0.181034483,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.","Apoidea?"
"Rachael_Winfree_Citrullus_lanatus_USA_2010","branch","transect observations","wild_bee_unknown","superfamily","other_wild_bees",0.419047619,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.","Apoidea?"
"Rachael_Winfree_Citrullus_lanatus_USA_2010","bridge","transect observations","wild_bee_unknown","superfamily","other_wild_bees",0.044776119,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.","Apoidea?"
"Rachael_Winfree_Citrullus_lanatus_USA_2010","bridge","transect observations","wild_bee_unknown","superfamily","other_wild_bees",0.108433735,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.","Apoidea?"
"Rachael_Winfree_Citrullus_lanatus_USA_2010","bridge","transect observations","wild_bee_unknown","superfamily","other_wild_bees",0.125,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.","Apoidea?"
"Rachael_Winfree_Citrullus_lanatus_USA_2010","bridge","transect observations","wild_bee_unknown","superfamily","other_wild_bees",0.025641026,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.","Apoidea?"
"Rachael_Winfree_Citrullus_lanatus_USA_2010","bridge","transect observations","wild_bee_unknown","superfamily","other_wild_bees",0.135135135,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.","Apoidea?"
"Rachael_Winfree_Citrullus_lanatus_USA_2010","bridge","transect observations","wild_bee_unknown","superfamily","other_wild_bees",0.095890411,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.","Apoidea?"
"Rachael_Winfree_Citrullus_lanatus_USA_2010","bridge","transect observations","wild_bee_unknown","superfamily","other_wild_bees",0.246376812,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.","Apoidea?"
"Rachael_Winfree_Citrullus_lanatus_USA_2010","bridge","transect observations","wild_bee_unknown","superfamily","other_wild_bees",0.25,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.","Apoidea?"
"Rachael_Winfree_Citrullus_lanatus_USA_2010","bridge","transect observations","wild_bee_unknown","superfamily","other_wild_bees",0.175675676,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.","Apoidea?"
"Rachael_Winfree_Citrullus_lanatus_USA_2010","cedar_ridge","transect observations","wild_bee_unknown","superfamily","other_wild_bees",0.141509434,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.","Apoidea?"
"Rachael_Winfree_Citrullus_lanatus_USA_2010","cedar_ridge","transect observations","wild_bee_unknown","superfamily","other_wild_bees",0.131578947,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.","Apoidea?"
"Rachael_Winfree_Citrullus_lanatus_USA_2010","cedar_ridge","transect observations","wild_bee_unknown","superfamily","other_wild_bees",0.159574468,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.","Apoidea?"
"Rachael_Winfree_Citrullus_lanatus_USA_2010","cedar_ridge","transect observations","wild_bee_unknown","superfamily","other_wild_bees",0.206349206,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.","Apoidea?"
"Rachael_Winfree_Citrullus_lanatus_USA_2010","cedar_ridge","transect observations","wild_bee_unknown","superfamily","other_wild_bees",0.283333333,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.","Apoidea?"
"Rachael_Winfree_Citrullus_lanatus_USA_2010","cedar_ridge","transect observations","wild_bee_unknown","superfamily","other_wild_bees",0.155172414,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.","Apoidea?"
"Rachael_Winfree_Citrullus_lanatus_USA_2010","cedar_ridge","transect observations","wild_bee_unknown","superfamily","other_wild_bees",0.091743119,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.","Apoidea?"
"Rachael_Winfree_Citrullus_lanatus_USA_2010","cedar_ridge","transect observations","wild_bee_unknown","superfamily","other_wild_bees",0.247191011,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.","Apoidea?"
"Rachael_Winfree_Citrullus_lanatus_USA_2010","cedar_ridge","transect observations","wild_bee_unknown","superfamily","other_wild_bees",0.082191781,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.","Apoidea?"
"Rachael_Winfree_Citrullus_lanatus_USA_2010","cherry_grove","transect observations","wild_bee_unknown","superfamily","other_wild_bees",0.027777778,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.","Apoidea?"
"Rachael_Winfree_Citrullus_lanatus_USA_2010","cherry_grove","transect observations","wild_bee_unknown","superfamily","other_wild_bees",0.0625,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.","Apoidea?"
"Rachael_Winfree_Citrullus_lanatus_USA_2010","cherry_grove","transect observations","wild_bee_unknown","superfamily","other_wild_bees",0.239130435,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.","Apoidea?"
"Rachael_Winfree_Citrullus_lanatus_USA_2010","cherry_grove","transect observations","wild_bee_unknown","superfamily","other_wild_bees",0.069767442,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.","Apoidea?"
"Rachael_Winfree_Citrullus_lanatus_USA_2010","cherry_grove","transect observations","wild_bee_unknown","superfamily","other_wild_bees",0.111111111,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.","Apoidea?"
"Rachael_Winfree_Citrullus_lanatus_USA_2010","cherry_grove","transect observations","wild_bee_unknown","superfamily","other_wild_bees",0.115107914,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.","Apoidea?"
"Rachael_Winfree_Citrullus_lanatus_USA_2010","cherry_grove","transect observations","wild_bee_unknown","superfamily","other_wild_bees",0.192982456,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.","Apoidea?"
"Rachael_Winfree_Citrullus_lanatus_USA_2010","cherry_grove","transect observations","wild_bee_unknown","superfamily","other_wild_bees",0.254237288,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.","Apoidea?"
"Rachael_Winfree_Citrullus_lanatus_USA_2010","cherry_grove","transect observations","wild_bee_unknown","superfamily","other_wild_bees",0.163636364,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.","Apoidea?"
"Rachael_Winfree_Citrullus_lanatus_USA_2010","del_val","transect observations","wild_bee_unknown","superfamily","other_wild_bees",0.094594595,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.","Apoidea?"
"Rachael_Winfree_Citrullus_lanatus_USA_2010","del_val","transect observations","wild_bee_unknown","superfamily","other_wild_bees",0.112676056,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.","Apoidea?"
"Rachael_Winfree_Citrullus_lanatus_USA_2010","del_val","transect observations","wild_bee_unknown","superfamily","other_wild_bees",0.196969697,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.","Apoidea?"
"Rachael_Winfree_Citrullus_lanatus_USA_2010","del_val","transect observations","wild_bee_unknown","superfamily","other_wild_bees",0.010752688,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.","Apoidea?"
"Rachael_Winfree_Citrullus_lanatus_USA_2010","del_val","transect observations","wild_bee_unknown","superfamily","other_wild_bees",0.157303371,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.","Apoidea?"
"Rachael_Winfree_Citrullus_lanatus_USA_2010","del_val","transect observations","wild_bee_unknown","superfamily","other_wild_bees",0.076923077,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.","Apoidea?"
"Rachael_Winfree_Citrullus_lanatus_USA_2010","del_val","transect observations","wild_bee_unknown","superfamily","other_wild_bees",0.102040816,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.","Apoidea?"
"Rachael_Winfree_Citrullus_lanatus_USA_2010","del_val","transect observations","wild_bee_unknown","superfamily","other_wild_bees",0.164835165,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.","Apoidea?"
"Rachael_Winfree_Citrullus_lanatus_USA_2010","lee","transect observations","wild_bee_unknown","superfamily","other_wild_bees",0.02739726,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.","Apoidea?"
"Rachael_Winfree_Citrullus_lanatus_USA_2010","lee","transect observations","wild_bee_unknown","superfamily","other_wild_bees",0.03125,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.","Apoidea?"
"Rachael_Winfree_Citrullus_lanatus_USA_2010","lee","transect observations","wild_bee_unknown","superfamily","other_wild_bees",0.072916667,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.","Apoidea?"
"Rachael_Winfree_Citrullus_lanatus_USA_2010","lee","transect observations","wild_bee_unknown","superfamily","other_wild_bees",0.039215686,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.","Apoidea?"
"Rachael_Winfree_Citrullus_lanatus_USA_2010","lee","transect observations","wild_bee_unknown","superfamily","other_wild_bees",0.036036036,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.","Apoidea?"
"Rachael_Winfree_Citrullus_lanatus_USA_2010","lee","transect observations","wild_bee_unknown","superfamily","other_wild_bees",0.026785714,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.","Apoidea?"
"Rachael_Winfree_Citrullus_lanatus_USA_2010","lee","transect observations","wild_bee_unknown","superfamily","other_wild_bees",0.074074074,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.","Apoidea?"
"Rachael_Winfree_Citrullus_lanatus_USA_2010","lee","transect observations","wild_bee_unknown","superfamily","other_wild_bees",0.067567568,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.","Apoidea?"
"Rachael_Winfree_Citrullus_lanatus_USA_2010","lee","transect observations","wild_bee_unknown","superfamily","other_wild_bees",0.077922078,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.","Apoidea?"
"Rachael_Winfree_Citrullus_lanatus_USA_2010","maple_acresa","transect observations","wild_bee_unknown","superfamily","other_wild_bees",0.0078125,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.","Apoidea?"
"Rachael_Winfree_Citrullus_lanatus_USA_2010","maple_acresa","transect observations","wild_bee_unknown","superfamily","other_wild_bees",0.016949153,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.","Apoidea?"
"Rachael_Winfree_Citrullus_lanatus_USA_2010","maple_acresa","transect observations","wild_bee_unknown","superfamily","other_wild_bees",0.00862069,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.","Apoidea?"
"Rachael_Winfree_Citrullus_lanatus_USA_2010","maple_acresa","transect observations","wild_bee_unknown","superfamily","other_wild_bees",0.168539326,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.","Apoidea?"
"Rachael_Winfree_Citrullus_lanatus_USA_2010","maple_acresa","transect observations","wild_bee_unknown","superfamily","other_wild_bees",0.18627451,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.","Apoidea?"
"Rachael_Winfree_Citrullus_lanatus_USA_2010","maple_acresa","transect observations","wild_bee_unknown","superfamily","other_wild_bees",0.030612245,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.","Apoidea?"
"Rachael_Winfree_Citrullus_lanatus_USA_2010","maple_acresa","transect observations","wild_bee_unknown","superfamily","other_wild_bees",0.203703704,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.","Apoidea?"
"Rachael_Winfree_Citrullus_lanatus_USA_2010","maple_acresa","transect observations","wild_bee_unknown","superfamily","other_wild_bees",0.360655738,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.","Apoidea?"
"Rachael_Winfree_Citrullus_lanatus_USA_2010","maple_acresa","transect observations","wild_bee_unknown","superfamily","other_wild_bees",0.214285714,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.","Apoidea?"
"Rachael_Winfree_Citrullus_lanatus_USA_2010","nonsuch","transect observations","wild_bee_unknown","superfamily","other_wild_bees",0.009433962,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.","Apoidea?"
"Rachael_Winfree_Citrullus_lanatus_USA_2010","nonsuch","transect observations","wild_bee_unknown","superfamily","other_wild_bees",0.098901099,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.","Apoidea?"
"Rachael_Winfree_Citrullus_lanatus_USA_2010","nonsuch","transect observations","wild_bee_unknown","superfamily","other_wild_bees",0.139534884,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.","Apoidea?"
"Rachael_Winfree_Citrullus_lanatus_USA_2010","nonsuch","transect observations","wild_bee_unknown","superfamily","other_wild_bees",0.135135135,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.","Apoidea?"
"Rachael_Winfree_Citrullus_lanatus_USA_2010","nonsuch","transect observations","wild_bee_unknown","superfamily","other_wild_bees",0.165048544,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.","Apoidea?"
"Rachael_Winfree_Citrullus_lanatus_USA_2010","nonsuch","transect observations","wild_bee_unknown","superfamily","other_wild_bees",0.177570093,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.","Apoidea?"
"Rachael_Winfree_Citrullus_lanatus_USA_2010","nonsuch","transect observations","wild_bee_unknown","superfamily","other_wild_bees",0.063492063,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.","Apoidea?"
"Rachael_Winfree_Citrullus_lanatus_USA_2010","nonsuch","transect observations","wild_bee_unknown","superfamily","other_wild_bees",0.070175439,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.","Apoidea?"
"Rachael_Winfree_Citrullus_lanatus_USA_2010","nonsuch","transect observations","wild_bee_unknown","superfamily","other_wild_bees",0.155172414,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.","Apoidea?"
"Rachael_Winfree_Citrullus_lanatus_USA_2010","peaceful_valley","transect observations","wild_bee_unknown","superfamily","other_wild_bees",0.035460993,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.","Apoidea?"
"Rachael_Winfree_Citrullus_lanatus_USA_2010","peaceful_valley","transect observations","wild_bee_unknown","superfamily","other_wild_bees",0.040540541,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.","Apoidea?"
"Rachael_Winfree_Citrullus_lanatus_USA_2010","peaceful_valley","transect observations","wild_bee_unknown","superfamily","other_wild_bees",0.015384615,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.","Apoidea?"
"Rachael_Winfree_Citrullus_lanatus_USA_2010","peaceful_valley","transect observations","wild_bee_unknown","superfamily","other_wild_bees",0.053846154,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.","Apoidea?"
"Rachael_Winfree_Citrullus_lanatus_USA_2010","peaceful_valley","transect observations","wild_bee_unknown","superfamily","other_wild_bees",0.022556391,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.","Apoidea?"
"Rachael_Winfree_Citrullus_lanatus_USA_2010","peaceful_valley","transect observations","wild_bee_unknown","superfamily","other_wild_bees",0.018181818,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.","Apoidea?"
"Rachael_Winfree_Citrullus_lanatus_USA_2010","peaceful_valley","transect observations","wild_bee_unknown","superfamily","other_wild_bees",0.038461538,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.","Apoidea?"
"Rachael_Winfree_Citrullus_lanatus_USA_2010","pennvt","transect observations","wild_bee_unknown","superfamily","other_wild_bees",0.022222222,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.","Apoidea?"
"Rachael_Winfree_Citrullus_lanatus_USA_2010","pennvt","transect observations","wild_bee_unknown","superfamily","other_wild_bees",0.008264463,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.","Apoidea?"
"Rachael_Winfree_Citrullus_lanatus_USA_2010","pennvt","transect observations","wild_bee_unknown","superfamily","other_wild_bees",0.036363636,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.","Apoidea?"
"Rachael_Winfree_Citrullus_lanatus_USA_2010","pennvt","transect observations","wild_bee_unknown","superfamily","other_wild_bees",0.125,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.","Apoidea?"
"Rachael_Winfree_Citrullus_lanatus_USA_2010","pennvt","transect observations","wild_bee_unknown","superfamily","other_wild_bees",0.1,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.","Apoidea?"
"Rachael_Winfree_Citrullus_lanatus_USA_2010","pennvt","transect observations","wild_bee_unknown","superfamily","other_wild_bees",0.072289157,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.","Apoidea?"
"Rachael_Winfree_Citrullus_lanatus_USA_2010","pennvt","transect observations","wild_bee_unknown","superfamily","other_wild_bees",0.337662338,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.","Apoidea?"
"Rachael_Winfree_Citrullus_lanatus_USA_2010","pennvt","transect observations","wild_bee_unknown","superfamily","other_wild_bees",0.450704225,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.","Apoidea?"
"Rachael_Winfree_Citrullus_lanatus_USA_2010","phillips","transect observations","wild_bee_unknown","superfamily","other_wild_bees",0.037735849,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.","Apoidea?"
"Rachael_Winfree_Citrullus_lanatus_USA_2010","phillips","transect observations","wild_bee_unknown","superfamily","other_wild_bees",0.050505051,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.","Apoidea?"
"Rachael_Winfree_Citrullus_lanatus_USA_2010","phillips","transect observations","wild_bee_unknown","superfamily","other_wild_bees",0.388235294,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.","Apoidea?"
"Rachael_Winfree_Citrullus_lanatus_USA_2010","phillips","transect observations","wild_bee_unknown","superfamily","other_wild_bees",0.243589744,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.","Apoidea?"
"Rachael_Winfree_Citrullus_lanatus_USA_2010","phillips","transect observations","wild_bee_unknown","superfamily","other_wild_bees",0.5,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.","Apoidea?"
"Rachael_Winfree_Citrullus_lanatus_USA_2010","phillips","transect observations","wild_bee_unknown","superfamily","other_wild_bees",0.266666667,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.","Apoidea?"
"Rachael_Winfree_Citrullus_lanatus_USA_2010","phillips","transect observations","wild_bee_unknown","superfamily","other_wild_bees",0.059701493,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.","Apoidea?"
"Rachael_Winfree_Citrullus_lanatus_USA_2010","phillips","transect observations","wild_bee_unknown","superfamily","other_wild_bees",0.027027027,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.","Apoidea?"
"Rachael_Winfree_Citrullus_lanatus_USA_2010","phillips","transect observations","wild_bee_unknown","superfamily","other_wild_bees",0.180722892,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.","Apoidea?"
"Rachael_Winfree_Citrullus_lanatus_USA_2010","rays_greenhouse","transect observations","wild_bee_unknown","superfamily","other_wild_bees",0.275229358,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.","Apoidea?"
"Rachael_Winfree_Citrullus_lanatus_USA_2010","rays_greenhouse","transect observations","wild_bee_unknown","superfamily","other_wild_bees",0.257142857,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.","Apoidea?"
"Rachael_Winfree_Citrullus_lanatus_USA_2010","rays_greenhouse","transect observations","wild_bee_unknown","superfamily","other_wild_bees",0.04494382,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.","Apoidea?"
"Rachael_Winfree_Citrullus_lanatus_USA_2010","rays_greenhouse","transect observations","wild_bee_unknown","superfamily","other_wild_bees",0.090909091,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.","Apoidea?"
"Rachael_Winfree_Citrullus_lanatus_USA_2010","rays_greenhouse","transect observations","wild_bee_unknown","superfamily","other_wild_bees",0.53164557,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.","Apoidea?"
"Rachael_Winfree_Citrullus_lanatus_USA_2010","rays_greenhouse","transect observations","wild_bee_unknown","superfamily","other_wild_bees",0.614285714,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.","Apoidea?"
"Rachael_Winfree_Citrullus_lanatus_USA_2010","rays_greenhouse","transect observations","wild_bee_unknown","superfamily","other_wild_bees",0.307692308,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.","Apoidea?"
"Rachael_Winfree_Citrullus_lanatus_USA_2010","rays_greenhouse","transect observations","wild_bee_unknown","superfamily","other_wild_bees",0.583333333,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.","Apoidea?"
"Rachael_Winfree_Citrullus_lanatus_USA_2010","rays_greenhouse","transect observations","wild_bee_unknown","superfamily","other_wild_bees",0.333333333,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.","Apoidea?"
"Rachael_Winfree_Citrullus_lanatus_USA_2010","sankanac","transect observations","wild_bee_unknown","superfamily","other_wild_bees",0.0078125,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.","Apoidea?"
"Rachael_Winfree_Citrullus_lanatus_USA_2010","sankanac","transect observations","wild_bee_unknown","superfamily","other_wild_bees",0.285714286,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.","Apoidea?"
"Rachael_Winfree_Citrullus_lanatus_USA_2010","sankanac","transect observations","wild_bee_unknown","superfamily","other_wild_bees",0.327102804,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.","Apoidea?"
"Rachael_Winfree_Citrullus_lanatus_USA_2010","sankanac","transect observations","wild_bee_unknown","superfamily","other_wild_bees",0.16,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.","Apoidea?"
"Rachael_Winfree_Citrullus_lanatus_USA_2010","sankanac","transect observations","wild_bee_unknown","superfamily","other_wild_bees",0.45045045,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.","Apoidea?"
"Rachael_Winfree_Citrullus_lanatus_USA_2010","sankanac","transect observations","wild_bee_unknown","superfamily","other_wild_bees",0.35042735,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.","Apoidea?"
"Rachael_Winfree_Citrullus_lanatus_USA_2010","sankanac","transect observations","wild_bee_unknown","superfamily","other_wild_bees",0.0625,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.","Apoidea?"
"Rachael_Winfree_Citrullus_lanatus_USA_2010","sankanac","transect observations","wild_bee_unknown","superfamily","other_wild_bees",0.48,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.","Apoidea?"
"Rachael_Winfree_Citrullus_lanatus_USA_2010","sankanac","transect observations","wild_bee_unknown","superfamily","other_wild_bees",0.566666667,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.","Apoidea?"
"Rachael_Winfree_Citrullus_lanatus_USA_2010","sunrise_sunflower","transect observations","wild_bee_unknown","superfamily","other_wild_bees",0.011235955,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.","Apoidea?"
"Rachael_Winfree_Citrullus_lanatus_USA_2010","sunrise_sunflower","transect observations","wild_bee_unknown","superfamily","other_wild_bees",0.053097345,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.","Apoidea?"
"Rachael_Winfree_Citrullus_lanatus_USA_2010","sunrise_sunflower","transect observations","wild_bee_unknown","superfamily","other_wild_bees",0.042105263,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.","Apoidea?"
"Rachael_Winfree_Citrullus_lanatus_USA_2010","sunrise_sunflower","transect observations","wild_bee_unknown","superfamily","other_wild_bees",0.029411765,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.","Apoidea?"
"Rachael_Winfree_Citrullus_lanatus_USA_2010","sunrise_sunflower","transect observations","wild_bee_unknown","superfamily","other_wild_bees",0.065420561,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.","Apoidea?"
"Rachael_Winfree_Citrullus_lanatus_USA_2010","sunrise_sunflower","transect observations","wild_bee_unknown","superfamily","other_wild_bees",0.052631579,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.","Apoidea?"
"Rachael_Winfree_Citrullus_lanatus_USA_2010","sunrise_sunflower","transect observations","wild_bee_unknown","superfamily","other_wild_bees",0.016666667,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.","Apoidea?"
"Rachael_Winfree_Citrullus_lanatus_USA_2010","sunrise_sunflower","transect observations","wild_bee_unknown","superfamily","other_wild_bees",0.125,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.","Apoidea?"
"Rachael_Winfree_Citrullus_lanatus_USA_2010","terhune","transect observations","wild_bee_unknown","superfamily","other_wild_bees",0.098765432,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.","Apoidea?"
"Rachael_Winfree_Citrullus_lanatus_USA_2010","terhune","transect observations","wild_bee_unknown","superfamily","other_wild_bees",0.386666667,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.","Apoidea?"
"Rachael_Winfree_Citrullus_lanatus_USA_2010","terhune","transect observations","wild_bee_unknown","superfamily","other_wild_bees",0.227848101,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.","Apoidea?"
"Rachael_Winfree_Citrullus_lanatus_USA_2010","terhune","transect observations","wild_bee_unknown","superfamily","other_wild_bees",0.066666667,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.","Apoidea?"
"Rachael_Winfree_Citrullus_lanatus_USA_2010","terhune","transect observations","wild_bee_unknown","superfamily","other_wild_bees",0.382022472,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.","Apoidea?"
"Rachael_Winfree_Citrullus_lanatus_USA_2010","terhune","transect observations","wild_bee_unknown","superfamily","other_wild_bees",0.257861635,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.","Apoidea?"
"Rachael_Winfree_Citrullus_lanatus_USA_2010","terhune","transect observations","wild_bee_unknown","superfamily","other_wild_bees",0.044776119,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.","Apoidea?"
"Rachael_Winfree_Citrullus_lanatus_USA_2010","terhune","transect observations","wild_bee_unknown","superfamily","other_wild_bees",0.178082192,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.","Apoidea?"
"Rachael_Winfree_Citrullus_lanatus_USA_2010","terhune","transect observations","wild_bee_unknown","superfamily","other_wild_bees",0.226950355,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.","Apoidea?"
"Rachael_Winfree_Citrullus_lanatus_USA_2010","traugers","transect observations","wild_bee_unknown","superfamily","other_wild_bees",0.03125,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.","Apoidea?"
"Rachael_Winfree_Citrullus_lanatus_USA_2010","traugers","transect observations","wild_bee_unknown","superfamily","other_wild_bees",0.025,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.","Apoidea?"
"Rachael_Winfree_Citrullus_lanatus_USA_2010","traugers","transect observations","wild_bee_unknown","superfamily","other_wild_bees",0.009708738,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.","Apoidea?"
"Rachael_Winfree_Citrullus_lanatus_USA_2010","traugers","transect observations","wild_bee_unknown","superfamily","other_wild_bees",0.078947368,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.","Apoidea?"
"Rachael_Winfree_Citrullus_lanatus_USA_2010","traugers","transect observations","wild_bee_unknown","superfamily","other_wild_bees",0.09375,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.","Apoidea?"
"Rachael_Winfree_Citrullus_lanatus_USA_2010","traugers","transect observations","wild_bee_unknown","superfamily","other_wild_bees",0.1,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.","Apoidea?"
"Rachael_Winfree_Citrullus_lanatus_USA_2010","traugers","transect observations","wild_bee_unknown","superfamily","other_wild_bees",0.508474576,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.","Apoidea?"
"Rachael_Winfree_Citrullus_lanatus_USA_2010","traugers","transect observations","wild_bee_unknown","superfamily","other_wild_bees",0.196428571,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.","Apoidea?"
"Rachael_Winfree_Citrullus_lanatus_USA_2010","watershed","transect observations","wild_bee_unknown","superfamily","other_wild_bees",0.038167939,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.","Apoidea?"
"Rachael_Winfree_Citrullus_lanatus_USA_2010","watershed","transect observations","wild_bee_unknown","superfamily","other_wild_bees",0.050724638,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.","Apoidea?"
"Rachael_Winfree_Citrullus_lanatus_USA_2010","watershed","transect observations","wild_bee_unknown","superfamily","other_wild_bees",0.082706767,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.","Apoidea?"
"Rachael_Winfree_Citrullus_lanatus_USA_2010","watershed","transect observations","wild_bee_unknown","superfamily","other_wild_bees",0.104477612,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.","Apoidea?"
"Rachael_Winfree_Citrullus_lanatus_USA_2010","watershed","transect observations","wild_bee_unknown","superfamily","other_wild_bees",0.174603175,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.","Apoidea?"
"Rachael_Winfree_Citrullus_lanatus_USA_2010","watershed","transect observations","wild_bee_unknown","superfamily","other_wild_bees",0.107142857,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.","Apoidea?"
"Rachael_Winfree_Citrullus_lanatus_USA_2010","watershed","transect observations","wild_bee_unknown","superfamily","other_wild_bees",0.036363636,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.","Apoidea?"
"Rachael_Winfree_Citrullus_lanatus_USA_2010","watershed","transect observations","wild_bee_unknown","superfamily","other_wild_bees",0.06870229,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.","Apoidea?"
"Rachael_Winfree_Citrullus_lanatus_USA_2010","watershed","transect observations","wild_bee_unknown","superfamily","other_wild_bees",0.061538462,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.","Apoidea?"
"Rachael_Winfree_Citrullus_lanatus_USA_2011","anchor_run","transect observations","Apis_mellifera","species","honeybees",0.076923077,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2011","anchor_run","transect observations","Apis_mellifera","species","honeybees",0.056338028,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2011","anchor_run","transect observations","Apis_mellifera","species","honeybees",0.028169014,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2011","anchor_run","transect observations","Apis_mellifera","species","honeybees",0.107692308,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2011","anchor_run","transect observations","Apis_mellifera","species","honeybees",0.077922078,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2011","anchor_run","transect observations","Apis_mellifera","species","honeybees",0.056338028,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2011","anchor_run","transect observations","Apis_mellifera","species","honeybees",0.057142857,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2011","anchor_run","transect observations","Apis_mellifera","species","honeybees",0.152777778,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2011","anchor_run","transect observations","Apis_mellifera","species","honeybees",0.096774194,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2011","branch","transect observations","Apis_mellifera","species","honeybees",0.010526316,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2011","branch","transect observations","Apis_mellifera","species","honeybees",0.16,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2011","branch","transect observations","Apis_mellifera","species","honeybees",0.12745098,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2011","branch","transect observations","Apis_mellifera","species","honeybees",0.058823529,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2011","branch","transect observations","Apis_mellifera","species","honeybees",0.11,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2011","branch","transect observations","Apis_mellifera","species","honeybees",0.066666667,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2011","branch","transect observations","Apis_mellifera","species","honeybees",0.027027027,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2011","branch","transect observations","Apis_mellifera","species","honeybees",0.06097561,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2011","branch","transect observations","Apis_mellifera","species","honeybees",0.014084507,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2011","bridge","transect observations","Apis_mellifera","species","honeybees",0.127906977,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2011","bridge","transect observations","Apis_mellifera","species","honeybees",0.284210526,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2011","bridge","transect observations","Apis_mellifera","species","honeybees",0.102040816,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2011","bridge","transect observations","Apis_mellifera","species","honeybees",0.038461538,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2011","bridge","transect observations","Apis_mellifera","species","honeybees",0.21686747,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2011","bridge","transect observations","Apis_mellifera","species","honeybees",0.075949367,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2011","bridge","transect observations","Apis_mellifera","species","honeybees",0.08974359,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2011","bridge","transect observations","Apis_mellifera","species","honeybees",0.175824176,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2011","bridge","transect observations","Apis_mellifera","species","honeybees",0.130434783,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2011","cedar_ridge","transect observations","Apis_mellifera","species","honeybees",0.011363636,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2011","cedar_ridge","transect observations","Apis_mellifera","species","honeybees",0.06122449,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2011","cedar_ridge","transect observations","Apis_mellifera","species","honeybees",0.058823529,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2011","cedar_ridge","transect observations","Apis_mellifera","species","honeybees",0.036144578,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2011","cedar_ridge","transect observations","Apis_mellifera","species","honeybees",0.037974684,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2011","cedar_ridge","transect observations","Apis_mellifera","species","honeybees",0.015625,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2011","cherry_grove","transect observations","Apis_mellifera","species","honeybees",0.056818182,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2011","cherry_grove","transect observations","Apis_mellifera","species","honeybees",0.044444444,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2011","cherry_grove","transect observations","Apis_mellifera","species","honeybees",0.011627907,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2011","cherry_grove","transect observations","Apis_mellifera","species","honeybees",0.014925373,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2011","cherry_grove","transect observations","Apis_mellifera","species","honeybees",0.05,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2011","cherry_grove","transect observations","Apis_mellifera","species","honeybees",0.018518519,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2011","cherry_grove","transect observations","Apis_mellifera","species","honeybees",0.026666667,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2011","cherry_grove","transect observations","Apis_mellifera","species","honeybees",0.043478261,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2011","lee","transect observations","Apis_mellifera","species","honeybees",0.084337349,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2011","lee","transect observations","Apis_mellifera","species","honeybees",0.304878049,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2011","lee","transect observations","Apis_mellifera","species","honeybees",0.25,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2011","lee","transect observations","Apis_mellifera","species","honeybees",0.290697674,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2011","lee","transect observations","Apis_mellifera","species","honeybees",0.202380952,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2011","lee","transect observations","Apis_mellifera","species","honeybees",0.2,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2011","lee","transect observations","Apis_mellifera","species","honeybees",0.088235294,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2011","lee","transect observations","Apis_mellifera","species","honeybees",0.078125,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2011","lee","transect observations","Apis_mellifera","species","honeybees",0.042857143,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2011","little_acres","transect observations","Apis_mellifera","species","honeybees",0.015625,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2011","little_acres","transect observations","Apis_mellifera","species","honeybees",0.038461538,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2011","little_acres","transect observations","Apis_mellifera","species","honeybees",0.033707865,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2011","little_acres","transect observations","Apis_mellifera","species","honeybees",0.023255814,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2011","maple_acresa","transect observations","Apis_mellifera","species","honeybees",0.011627907,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2011","maple_acresa","transect observations","Apis_mellifera","species","honeybees",0.108108108,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2011","maple_acresa","transect observations","Apis_mellifera","species","honeybees",0.25,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2011","maple_acresa","transect observations","Apis_mellifera","species","honeybees",0.161904762,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2011","maple_acresa","transect observations","Apis_mellifera","species","honeybees",0.122641509,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2011","maple_acresa","transect observations","Apis_mellifera","species","honeybees",0.065420561,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2011","maple_acresa","transect observations","Apis_mellifera","species","honeybees",0.174418605,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2011","maple_acresa","transect observations","Apis_mellifera","species","honeybees",0.235294118,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2011","maple_acresa","transect observations","Apis_mellifera","species","honeybees",0.151515152,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2011","maple_acresb","transect observations","Apis_mellifera","species","honeybees",0.120481928,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2011","maple_acresb","transect observations","Apis_mellifera","species","honeybees",0.164556962,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2011","maple_acresb","transect observations","Apis_mellifera","species","honeybees",0.103092784,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2011","maple_acresb","transect observations","Apis_mellifera","species","honeybees",0.153846154,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2011","maple_acresb","transect observations","Apis_mellifera","species","honeybees",0.102941176,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2011","maple_acresb","transect observations","Apis_mellifera","species","honeybees",0.014084507,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2011","maple_acresb","transect observations","Apis_mellifera","species","honeybees",0.064935065,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2011","maple_acresb","transect observations","Apis_mellifera","species","honeybees",0.0375,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2011","maple_acresb","transect observations","Apis_mellifera","species","honeybees",0.014084507,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2011","nonsuch","transect observations","Apis_mellifera","species","honeybees",0.028571429,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2011","nonsuch","transect observations","Apis_mellifera","species","honeybees",0.039473684,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2011","nonsuch","transect observations","Apis_mellifera","species","honeybees",0.123076923,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2011","nonsuch","transect observations","Apis_mellifera","species","honeybees",0.027777778,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2011","nonsuch","transect observations","Apis_mellifera","species","honeybees",0.038461538,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2011","nonsuch","transect observations","Apis_mellifera","species","honeybees",0.027777778,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2011","nonsuch","transect observations","Apis_mellifera","species","honeybees",0.059701493,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2011","nonsuch","transect observations","Apis_mellifera","species","honeybees",0.078125,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2011","nonsuch","transect observations","Apis_mellifera","species","honeybees",0.112903226,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2011","pennvt","transect observations","Apis_mellifera","species","honeybees",0.054794521,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2011","pennvt","transect observations","Apis_mellifera","species","honeybees",0.16091954,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2011","pennvt","transect observations","Apis_mellifera","species","honeybees",0.133333333,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2011","pennvt","transect observations","Apis_mellifera","species","honeybees",0.226666667,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2011","pennvt","transect observations","Apis_mellifera","species","honeybees",0.351351351,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2011","pennvt","transect observations","Apis_mellifera","species","honeybees",0.253731343,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2011","pennvt","transect observations","Apis_mellifera","species","honeybees",0.102941176,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2011","pennvt","transect observations","Apis_mellifera","species","honeybees",0.082191781,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2011","pennvt","transect observations","Apis_mellifera","species","honeybees",0.166666667,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2011","phillips","transect observations","Apis_mellifera","species","honeybees",0.04040404,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2011","phillips","transect observations","Apis_mellifera","species","honeybees",0.172413793,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2011","phillips","transect observations","Apis_mellifera","species","honeybees",0.111111111,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2011","phillips","transect observations","Apis_mellifera","species","honeybees",0.125,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2011","phillips","transect observations","Apis_mellifera","species","honeybees",0.181818182,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2011","phillips","transect observations","Apis_mellifera","species","honeybees",0.14516129,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2011","phillips","transect observations","Apis_mellifera","species","honeybees",0.077922078,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2011","phillips","transect observations","Apis_mellifera","species","honeybees",0.048192771,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2011","phillips","transect observations","Apis_mellifera","species","honeybees",0.102564103,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2011","rays_greenhouse","transect observations","Apis_mellifera","species","honeybees",0.097560976,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2011","rays_greenhouse","transect observations","Apis_mellifera","species","honeybees",0.127659574,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2011","rays_greenhouse","transect observations","Apis_mellifera","species","honeybees",0.02173913,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2011","rays_greenhouse","transect observations","Apis_mellifera","species","honeybees",0.194029851,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2011","rays_greenhouse","transect observations","Apis_mellifera","species","honeybees",0.161290323,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2011","rays_greenhouse","transect observations","Apis_mellifera","species","honeybees",0.036363636,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2011","rays_greenhouse","transect observations","Apis_mellifera","species","honeybees",0.163636364,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2011","rays_greenhouse","transect observations","Apis_mellifera","species","honeybees",0.06122449,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2011","sankanac","transect observations","Apis_mellifera","species","honeybees",0.029411765,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2011","sankanac","transect observations","Apis_mellifera","species","honeybees",0.060606061,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2011","sankanac","transect observations","Apis_mellifera","species","honeybees",0.016129032,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2011","sankanac","transect observations","Apis_mellifera","species","honeybees",0.103448276,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2011","sankanac","transect observations","Apis_mellifera","species","honeybees",0.073684211,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2011","sankanac","transect observations","Apis_mellifera","species","honeybees",0.047619048,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2011","sunrise_sunflower","transect observations","Apis_mellifera","species","honeybees",0.010638298,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2011","sunrise_sunflower","transect observations","Apis_mellifera","species","honeybees",0.035714286,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2011","sunrise_sunflower","transect observations","Apis_mellifera","species","honeybees",0.056818182,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2011","sunrise_sunflower","transect observations","Apis_mellifera","species","honeybees",0.160714286,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2011","sunrise_sunflower","transect observations","Apis_mellifera","species","honeybees",0.04,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2011","terhune","transect observations","Apis_mellifera","species","honeybees",0.086021505,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2011","terhune","transect observations","Apis_mellifera","species","honeybees",0.152173913,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2011","terhune","transect observations","Apis_mellifera","species","honeybees",0.056818182,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2011","terhune","transect observations","Apis_mellifera","species","honeybees",0.161616162,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2011","terhune","transect observations","Apis_mellifera","species","honeybees",0.181818182,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2011","terhune","transect observations","Apis_mellifera","species","honeybees",0.20952381,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2011","terhune","transect observations","Apis_mellifera","species","honeybees",0.215053763,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2011","terhune","transect observations","Apis_mellifera","species","honeybees",0.242424242,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2011","terhune","transect observations","Apis_mellifera","species","honeybees",0.197674419,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2011","traugers","transect observations","Apis_mellifera","species","honeybees",0.179487179,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2011","traugers","transect observations","Apis_mellifera","species","honeybees",0.197674419,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2011","traugers","transect observations","Apis_mellifera","species","honeybees",0.273684211,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2011","traugers","transect observations","Apis_mellifera","species","honeybees",0.094594595,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2011","traugers","transect observations","Apis_mellifera","species","honeybees",0.282051282,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2011","traugers","transect observations","Apis_mellifera","species","honeybees",0.2,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2011","traugers","transect observations","Apis_mellifera","species","honeybees",0.016393443,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2011","traugers","transect observations","Apis_mellifera","species","honeybees",0.155172414,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2011","traugers","transect observations","Apis_mellifera","species","honeybees",0.338461538,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2011","watershed","transect observations","Apis_mellifera","species","honeybees",0.066666667,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2011","watershed","transect observations","Apis_mellifera","species","honeybees",0.0625,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2011","watershed","transect observations","Apis_mellifera","species","honeybees",0.092105263,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2011","watershed","transect observations","Apis_mellifera","species","honeybees",0.109756098,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2011","watershed","transect observations","Apis_mellifera","species","honeybees",0.157303371,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2011","watershed","transect observations","Apis_mellifera","species","honeybees",0.070175439,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2011","watershed","transect observations","Apis_mellifera","species","honeybees",0.140625,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2011","watershed","transect observations","Apis_mellifera","species","honeybees",0.094339623,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2011","anchor_run","transect observations","Bombus_spp.","genus","bumblebees",0.012987013,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2011","anchor_run","transect observations","Bombus_spp.","genus","bumblebees",0.056338028,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2011","anchor_run","transect observations","Bombus_spp.","genus","bumblebees",0.042857143,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2011","anchor_run","transect observations","Bombus_spp.","genus","bumblebees",0.277777778,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2011","anchor_run","transect observations","Bombus_spp.","genus","bumblebees",0.129032258,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2011","bridge","transect observations","Bombus_spp.","genus","bumblebees",0.034883721,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2011","bridge","transect observations","Bombus_spp.","genus","bumblebees",0.073684211,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2011","bridge","transect observations","Bombus_spp.","genus","bumblebees",0.010204082,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2011","bridge","transect observations","Bombus_spp.","genus","bumblebees",0.012820513,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2011","bridge","transect observations","Bombus_spp.","genus","bumblebees",0.036144578,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2011","bridge","transect observations","Bombus_spp.","genus","bumblebees",0.025316456,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2011","bridge","transect observations","Bombus_spp.","genus","bumblebees",0.032967033,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2011","cedar_ridge","transect observations","Bombus_spp.","genus","bumblebees",0.030612245,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2011","cedar_ridge","transect observations","Bombus_spp.","genus","bumblebees",0.013888889,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2011","cedar_ridge","transect observations","Bombus_spp.","genus","bumblebees",0.012048193,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2011","cherry_grove","transect observations","Bombus_spp.","genus","bumblebees",0.011363636,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2011","cherry_grove","transect observations","Bombus_spp.","genus","bumblebees",0.011111111,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2011","cherry_grove","transect observations","Bombus_spp.","genus","bumblebees",0.023255814,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2011","cherry_grove","transect observations","Bombus_spp.","genus","bumblebees",0.044776119,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2011","cherry_grove","transect observations","Bombus_spp.","genus","bumblebees",0.1,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2011","cherry_grove","transect observations","Bombus_spp.","genus","bumblebees",0.074074074,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2011","cherry_grove","transect observations","Bombus_spp.","genus","bumblebees",0.01369863,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2011","cherry_grove","transect observations","Bombus_spp.","genus","bumblebees",0.026666667,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2011","cherry_grove","transect observations","Bombus_spp.","genus","bumblebees",0.014492754,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2011","lee","transect observations","Bombus_spp.","genus","bumblebees",0.012195122,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2011","lee","transect observations","Bombus_spp.","genus","bumblebees",0.023255814,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2011","lee","transect observations","Bombus_spp.","genus","bumblebees",0.0125,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2011","lee","transect observations","Bombus_spp.","genus","bumblebees",0.029411765,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2011","lee","transect observations","Bombus_spp.","genus","bumblebees",0.015625,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2011","maple_acresa","transect observations","Bombus_spp.","genus","bumblebees",0.011627907,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2011","maple_acresa","transect observations","Bombus_spp.","genus","bumblebees",0.009433962,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2011","maple_acresa","transect observations","Bombus_spp.","genus","bumblebees",0.011627907,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2011","maple_acresa","transect observations","Bombus_spp.","genus","bumblebees",0.03030303,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2011","maple_acresb","transect observations","Bombus_spp.","genus","bumblebees",0.037974684,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2011","maple_acresb","transect observations","Bombus_spp.","genus","bumblebees",0.010309278,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2011","maple_acresb","transect observations","Bombus_spp.","genus","bumblebees",0.015384615,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2011","maple_acresb","transect observations","Bombus_spp.","genus","bumblebees",0.0125,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2011","maple_acresb","transect observations","Bombus_spp.","genus","bumblebees",0.028169014,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2011","nonsuch","transect observations","Bombus_spp.","genus","bumblebees",0.015384615,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2011","nonsuch","transect observations","Bombus_spp.","genus","bumblebees",0.012820513,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2011","nonsuch","transect observations","Bombus_spp.","genus","bumblebees",0.014925373,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2011","nonsuch","transect observations","Bombus_spp.","genus","bumblebees",0.0625,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2011","nonsuch","transect observations","Bombus_spp.","genus","bumblebees",0.016129032,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2011","pennvt","transect observations","Bombus_spp.","genus","bumblebees",0.022988506,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2011","pennvt","transect observations","Bombus_spp.","genus","bumblebees",0.014705882,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2011","pennvt","transect observations","Bombus_spp.","genus","bumblebees",0.01369863,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2011","phillips","transect observations","Bombus_spp.","genus","bumblebees",0.01010101,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2011","phillips","transect observations","Bombus_spp.","genus","bumblebees",0.015151515,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2011","phillips","transect observations","Bombus_spp.","genus","bumblebees",0.096774194,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2011","phillips","transect observations","Bombus_spp.","genus","bumblebees",0.051948052,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2011","phillips","transect observations","Bombus_spp.","genus","bumblebees",0.084337349,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2011","phillips","transect observations","Bombus_spp.","genus","bumblebees",0.064102564,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2011","rays_greenhouse","transect observations","Bombus_spp.","genus","bumblebees",0.016129032,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2011","sankanac","transect observations","Bombus_spp.","genus","bumblebees",0.044117647,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2011","sankanac","transect observations","Bombus_spp.","genus","bumblebees",0.060606061,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2011","sankanac","transect observations","Bombus_spp.","genus","bumblebees",0.017241379,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2011","sankanac","transect observations","Bombus_spp.","genus","bumblebees",0.031578947,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2011","sankanac","transect observations","Bombus_spp.","genus","bumblebees",0.035714286,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2011","sankanac","transect observations","Bombus_spp.","genus","bumblebees",0.012345679,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2011","sunrise_sunflower","transect observations","Bombus_spp.","genus","bumblebees",0.170212766,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2011","sunrise_sunflower","transect observations","Bombus_spp.","genus","bumblebees",0.142857143,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2011","sunrise_sunflower","transect observations","Bombus_spp.","genus","bumblebees",0.113636364,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2011","sunrise_sunflower","transect observations","Bombus_spp.","genus","bumblebees",0.089285714,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2011","sunrise_sunflower","transect observations","Bombus_spp.","genus","bumblebees",0.052631579,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2011","terhune","transect observations","Bombus_spp.","genus","bumblebees",0.00952381,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2011","traugers","transect observations","Bombus_spp.","genus","bumblebees",0.012820513,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2011","traugers","transect observations","Bombus_spp.","genus","bumblebees",0.023255814,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2011","traugers","transect observations","Bombus_spp.","genus","bumblebees",0.021052632,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2011","traugers","transect observations","Bombus_spp.","genus","bumblebees",0.148648649,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2011","traugers","transect observations","Bombus_spp.","genus","bumblebees",0.141025641,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2011","traugers","transect observations","Bombus_spp.","genus","bumblebees",0.125,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2011","traugers","transect observations","Bombus_spp.","genus","bumblebees",0.06557377,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2011","traugers","transect observations","Bombus_spp.","genus","bumblebees",0.275862069,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2011","traugers","transect observations","Bombus_spp.","genus","bumblebees",0.123076923,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2011","watershed","transect observations","Bombus_spp.","genus","bumblebees",0.016666667,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2011","watershed","transect observations","Bombus_spp.","genus","bumblebees",0.03125,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2011","watershed","transect observations","Bombus_spp.","genus","bumblebees",0.015384615,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2011","watershed","transect observations","Bombus_spp.","genus","bumblebees",0.013157895,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2011","watershed","transect observations","Bombus_spp.","genus","bumblebees",0.036585366,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2011","watershed","transect observations","Bombus_spp.","genus","bumblebees",0.011235955,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2011","watershed","transect observations","Bombus_spp.","genus","bumblebees",0.035087719,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2011","watershed","transect observations","Bombus_spp.","genus","bumblebees",0.0625,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2011","watershed","transect observations","Bombus_spp.","genus","bumblebees",0.018867925,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2011","bridge","transect observations","Diptera_sp.","order","other_flies",0.012048193,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2011","maple_acresb","transect observations","Diptera_sp.","order","other_flies",0.012658228,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2011","phillips","transect observations","Diptera_sp.","order","other_flies",0.015151515,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2011","phillips","transect observations","Diptera_sp.","order","other_flies",0.016129032,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2011","phillips","transect observations","Diptera_sp.","order","other_flies",0.012820513,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2011","sunrise_sunflower","transect observations","Diptera_sp.","order","other_flies",0.06,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2011","terhune","transect observations","Diptera_sp.","order","other_flies",0.010752688,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2011","terhune","transect observations","Diptera_sp.","order","other_flies",0.01010101,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2011","watershed","transect observations","Diptera_sp.","order","other_flies",0.015625,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2011","bridge","transect observations","Lepidoptera","order","lepidoptera",0.020408163,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2011","bridge","transect observations","Lepidoptera","order","lepidoptera",0.025316456,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2011","little_acres","transect observations","Lepidoptera","order","lepidoptera",0.011235955,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2011","sankanac","transect observations","Lepidoptera","order","lepidoptera",0.012345679,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2011","bridge","transect observations","Pieris_rapae","species","lepidoptera",0.011627907,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2011","bridge","transect observations","Pieris_rapae","species","lepidoptera",0.010526316,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2011","bridge","transect observations","Pieris_rapae","species","lepidoptera",0.024096386,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2011","maple_acresa","transect observations","Pieris_rapae","species","lepidoptera",0.02020202,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2011","maple_acresb","transect observations","Pieris_rapae","species","lepidoptera",0.010309278,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2011","pennvt","transect observations","Pieris_rapae","species","lepidoptera",0.013888889,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2011","sankanac","transect observations","Pieris_rapae","species","lepidoptera",0.048387097,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2011","traugers","transect observations","Pieris_rapae","species","lepidoptera",0.012820513,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2011","traugers","transect observations","Pieris_rapae","species","lepidoptera",0.025,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2011","watershed","transect observations","Pieris_rapae","species","lepidoptera",0.012195122,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2011","watershed","transect observations","Pieris_rapae","species","lepidoptera",0.015625,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2011","watershed","transect observations","Pieris_rapae","species","lepidoptera",0.018867925,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2011","anchor_run","transect observations","syrphidae","family","syrphids",0.030769231,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2011","anchor_run","transect observations","syrphidae","family","syrphids",0.014285714,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2011","anchor_run","transect observations","syrphidae","family","syrphids",0.041666667,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2011","anchor_run","transect observations","syrphidae","family","syrphids",0.016129032,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2011","branch","transect observations","syrphidae","family","syrphids",0.031578947,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2011","branch","transect observations","syrphidae","family","syrphids",0.04,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2011","branch","transect observations","syrphidae","family","syrphids",0.009803922,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2011","branch","transect observations","syrphidae","family","syrphids",0.029411765,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2011","branch","transect observations","syrphidae","family","syrphids",0.02,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2011","branch","transect observations","syrphidae","family","syrphids",0.094594595,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2011","branch","transect observations","syrphidae","family","syrphids",0.024390244,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2011","bridge","transect observations","syrphidae","family","syrphids",0.093023256,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2011","bridge","transect observations","syrphidae","family","syrphids",0.052631579,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2011","bridge","transect observations","syrphidae","family","syrphids",0.020408163,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2011","bridge","transect observations","syrphidae","family","syrphids",0.012048193,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2011","bridge","transect observations","syrphidae","family","syrphids",0.012658228,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2011","bridge","transect observations","syrphidae","family","syrphids",0.025641026,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2011","cedar_ridge","transect observations","syrphidae","family","syrphids",0.034090909,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2011","cedar_ridge","transect observations","syrphidae","family","syrphids",0.010204082,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2011","cedar_ridge","transect observations","syrphidae","family","syrphids",0.011764706,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2011","cedar_ridge","transect observations","syrphidae","family","syrphids",0.027777778,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2011","cedar_ridge","transect observations","syrphidae","family","syrphids",0.024096386,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2011","cedar_ridge","transect observations","syrphidae","family","syrphids",0.012658228,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2011","cherry_grove","transect observations","syrphidae","family","syrphids",0.011111111,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2011","cherry_grove","transect observations","syrphidae","family","syrphids",0.014925373,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2011","cherry_grove","transect observations","syrphidae","family","syrphids",0.033333333,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2011","cherry_grove","transect observations","syrphidae","family","syrphids",0.02739726,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2011","cherry_grove","transect observations","syrphidae","family","syrphids",0.013333333,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2011","lee","transect observations","syrphidae","family","syrphids",0.024096386,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2011","lee","transect observations","syrphidae","family","syrphids",0.011363636,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2011","lee","transect observations","syrphidae","family","syrphids",0.011627907,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2011","lee","transect observations","syrphidae","family","syrphids",0.0125,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2011","lee","transect observations","syrphidae","family","syrphids",0.029411765,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2011","lee","transect observations","syrphidae","family","syrphids",0.015625,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2011","little_acres","transect observations","syrphidae","family","syrphids",0.02247191,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2011","maple_acresa","transect observations","syrphidae","family","syrphids",0.034883721,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2011","maple_acresa","transect observations","syrphidae","family","syrphids",0.040540541,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2011","maple_acresa","transect observations","syrphidae","family","syrphids",0.0125,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2011","maple_acresa","transect observations","syrphidae","family","syrphids",0.028571429,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2011","maple_acresa","transect observations","syrphidae","family","syrphids",0.047169811,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2011","maple_acresa","transect observations","syrphidae","family","syrphids",0.009345794,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2011","maple_acresa","transect observations","syrphidae","family","syrphids",0.023255814,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2011","maple_acresa","transect observations","syrphidae","family","syrphids",0.023529412,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2011","maple_acresa","transect observations","syrphidae","family","syrphids",0.01010101,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2011","maple_acresb","transect observations","syrphidae","family","syrphids",0.168674699,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2011","maple_acresb","transect observations","syrphidae","family","syrphids",0.025316456,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2011","maple_acresb","transect observations","syrphidae","family","syrphids",0.030927835,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2011","maple_acresb","transect observations","syrphidae","family","syrphids",0.276923077,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2011","maple_acresb","transect observations","syrphidae","family","syrphids",0.102941176,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2011","maple_acresb","transect observations","syrphidae","family","syrphids",0.014084507,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2011","maple_acresb","transect observations","syrphidae","family","syrphids",0.116883117,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2011","nonsuch","transect observations","syrphidae","family","syrphids",0.015384615,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2011","nonsuch","transect observations","syrphidae","family","syrphids",0.015625,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2011","nonsuch","transect observations","syrphidae","family","syrphids",0.016129032,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2011","pennvt","transect observations","syrphidae","family","syrphids",0.02739726,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2011","pennvt","transect observations","syrphidae","family","syrphids",0.011494253,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2011","pennvt","transect observations","syrphidae","family","syrphids",0.013333333,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2011","pennvt","transect observations","syrphidae","family","syrphids",0.014925373,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2011","pennvt","transect observations","syrphidae","family","syrphids",0.02739726,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2011","pennvt","transect observations","syrphidae","family","syrphids",0.027777778,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2011","phillips","transect observations","syrphidae","family","syrphids",0.04040404,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2011","phillips","transect observations","syrphidae","family","syrphids",0.034482759,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2011","phillips","transect observations","syrphidae","family","syrphids",0.125,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2011","phillips","transect observations","syrphidae","family","syrphids",0.015151515,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2011","phillips","transect observations","syrphidae","family","syrphids",0.064516129,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2011","phillips","transect observations","syrphidae","family","syrphids",0.090909091,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2011","phillips","transect observations","syrphidae","family","syrphids",0.024096386,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2011","rays_greenhouse","transect observations","syrphidae","family","syrphids",0.170731707,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2011","rays_greenhouse","transect observations","syrphidae","family","syrphids",0.014925373,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2011","rays_greenhouse","transect observations","syrphidae","family","syrphids",0.032258065,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2011","sankanac","transect observations","syrphidae","family","syrphids",0.029411765,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2011","sankanac","transect observations","syrphidae","family","syrphids",0.015151515,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2011","sankanac","transect observations","syrphidae","family","syrphids",0.011904762,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2011","sunrise_sunflower","transect observations","syrphidae","family","syrphids",0.023809524,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2011","sunrise_sunflower","transect observations","syrphidae","family","syrphids",0.011363636,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2011","sunrise_sunflower","transect observations","syrphidae","family","syrphids",0.017857143,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2011","sunrise_sunflower","transect observations","syrphidae","family","syrphids",0.12,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2011","terhune","transect observations","syrphidae","family","syrphids",0.032258065,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2011","terhune","transect observations","syrphidae","family","syrphids",0.043478261,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2011","terhune","transect observations","syrphidae","family","syrphids",0.011363636,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2011","terhune","transect observations","syrphidae","family","syrphids",0.02020202,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2011","terhune","transect observations","syrphidae","family","syrphids",0.032258065,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2011","terhune","transect observations","syrphidae","family","syrphids",0.02020202,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2011","terhune","transect observations","syrphidae","family","syrphids",0.011627907,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2011","traugers","transect observations","syrphidae","family","syrphids",0.012820513,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2011","traugers","transect observations","syrphidae","family","syrphids",0.010526316,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2011","traugers","transect observations","syrphidae","family","syrphids",0.013513514,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2011","traugers","transect observations","syrphidae","family","syrphids",0.038461538,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2011","traugers","transect observations","syrphidae","family","syrphids",0.049180328,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2011","traugers","transect observations","syrphidae","family","syrphids",0.051724138,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2011","traugers","transect observations","syrphidae","family","syrphids",0.015384615,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2011","watershed","transect observations","syrphidae","family","syrphids",0.033333333,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2011","watershed","transect observations","syrphidae","family","syrphids",0.03125,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2011","watershed","transect observations","syrphidae","family","syrphids",0.013157895,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2011","watershed","transect observations","syrphidae","family","syrphids",0.01754386,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2011","anchor_run","transect observations","wild_bee_unknown","superfamily","other_wild_bees",0.014084507,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.","Apoidea?"
"Rachael_Winfree_Citrullus_lanatus_USA_2011","anchor_run","transect observations","wild_bee_unknown","superfamily","other_wild_bees",0.014084507,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.","Apoidea?"
"Rachael_Winfree_Citrullus_lanatus_USA_2011","anchor_run","transect observations","wild_bee_unknown","superfamily","other_wild_bees",0.030769231,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.","Apoidea?"
"Rachael_Winfree_Citrullus_lanatus_USA_2011","anchor_run","transect observations","wild_bee_unknown","superfamily","other_wild_bees",0.038961039,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.","Apoidea?"
"Rachael_Winfree_Citrullus_lanatus_USA_2011","anchor_run","transect observations","wild_bee_unknown","superfamily","other_wild_bees",0.042253521,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.","Apoidea?"
"Rachael_Winfree_Citrullus_lanatus_USA_2011","anchor_run","transect observations","wild_bee_unknown","superfamily","other_wild_bees",0.085714286,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.","Apoidea?"
"Rachael_Winfree_Citrullus_lanatus_USA_2011","anchor_run","transect observations","wild_bee_unknown","superfamily","other_wild_bees",0.180555556,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.","Apoidea?"
"Rachael_Winfree_Citrullus_lanatus_USA_2011","anchor_run","transect observations","wild_bee_unknown","superfamily","other_wild_bees",0.096774194,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.","Apoidea?"
"Rachael_Winfree_Citrullus_lanatus_USA_2011","branch","transect observations","wild_bee_unknown","superfamily","other_wild_bees",0.073684211,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.","Apoidea?"
"Rachael_Winfree_Citrullus_lanatus_USA_2011","branch","transect observations","wild_bee_unknown","superfamily","other_wild_bees",0.09,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.","Apoidea?"
"Rachael_Winfree_Citrullus_lanatus_USA_2011","branch","transect observations","wild_bee_unknown","superfamily","other_wild_bees",0.058823529,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.","Apoidea?"
"Rachael_Winfree_Citrullus_lanatus_USA_2011","branch","transect observations","wild_bee_unknown","superfamily","other_wild_bees",0.019607843,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.","Apoidea?"
"Rachael_Winfree_Citrullus_lanatus_USA_2011","branch","transect observations","wild_bee_unknown","superfamily","other_wild_bees",0.12,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.","Apoidea?"
"Rachael_Winfree_Citrullus_lanatus_USA_2011","branch","transect observations","wild_bee_unknown","superfamily","other_wild_bees",0.00952381,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.","Apoidea?"
"Rachael_Winfree_Citrullus_lanatus_USA_2011","branch","transect observations","wild_bee_unknown","superfamily","other_wild_bees",0.081081081,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.","Apoidea?"
"Rachael_Winfree_Citrullus_lanatus_USA_2011","branch","transect observations","wild_bee_unknown","superfamily","other_wild_bees",0.028169014,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.","Apoidea?"
"Rachael_Winfree_Citrullus_lanatus_USA_2011","bridge","transect observations","wild_bee_unknown","superfamily","other_wild_bees",0.023255814,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.","Apoidea?"
"Rachael_Winfree_Citrullus_lanatus_USA_2011","bridge","transect observations","wild_bee_unknown","superfamily","other_wild_bees",0.010526316,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.","Apoidea?"
"Rachael_Winfree_Citrullus_lanatus_USA_2011","bridge","transect observations","wild_bee_unknown","superfamily","other_wild_bees",0.020408163,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.","Apoidea?"
"Rachael_Winfree_Citrullus_lanatus_USA_2011","bridge","transect observations","wild_bee_unknown","superfamily","other_wild_bees",0.060240964,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.","Apoidea?"
"Rachael_Winfree_Citrullus_lanatus_USA_2011","bridge","transect observations","wild_bee_unknown","superfamily","other_wild_bees",0.050632911,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.","Apoidea?"
"Rachael_Winfree_Citrullus_lanatus_USA_2011","bridge","transect observations","wild_bee_unknown","superfamily","other_wild_bees",0.025641026,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.","Apoidea?"
"Rachael_Winfree_Citrullus_lanatus_USA_2011","bridge","transect observations","wild_bee_unknown","superfamily","other_wild_bees",0.043956044,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.","Apoidea?"
"Rachael_Winfree_Citrullus_lanatus_USA_2011","bridge","transect observations","wild_bee_unknown","superfamily","other_wild_bees",0.086956522,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.","Apoidea?"
"Rachael_Winfree_Citrullus_lanatus_USA_2011","cedar_ridge","transect observations","wild_bee_unknown","superfamily","other_wild_bees",0.045454545,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.","Apoidea?"
"Rachael_Winfree_Citrullus_lanatus_USA_2011","cedar_ridge","transect observations","wild_bee_unknown","superfamily","other_wild_bees",0.030612245,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.","Apoidea?"
"Rachael_Winfree_Citrullus_lanatus_USA_2011","cedar_ridge","transect observations","wild_bee_unknown","superfamily","other_wild_bees",0.047058824,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.","Apoidea?"
"Rachael_Winfree_Citrullus_lanatus_USA_2011","cedar_ridge","transect observations","wild_bee_unknown","superfamily","other_wild_bees",0.055555556,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.","Apoidea?"
"Rachael_Winfree_Citrullus_lanatus_USA_2011","cedar_ridge","transect observations","wild_bee_unknown","superfamily","other_wild_bees",0.048192771,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.","Apoidea?"
"Rachael_Winfree_Citrullus_lanatus_USA_2011","cedar_ridge","transect observations","wild_bee_unknown","superfamily","other_wild_bees",0.025316456,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.","Apoidea?"
"Rachael_Winfree_Citrullus_lanatus_USA_2011","cedar_ridge","transect observations","wild_bee_unknown","superfamily","other_wild_bees",0.3125,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.","Apoidea?"
"Rachael_Winfree_Citrullus_lanatus_USA_2011","cedar_ridge","transect observations","wild_bee_unknown","superfamily","other_wild_bees",0.222222222,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.","Apoidea?"
"Rachael_Winfree_Citrullus_lanatus_USA_2011","cedar_ridge","transect observations","wild_bee_unknown","superfamily","other_wild_bees",0.033333333,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.","Apoidea?"
"Rachael_Winfree_Citrullus_lanatus_USA_2011","cherry_grove","transect observations","wild_bee_unknown","superfamily","other_wild_bees",0.011363636,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.","Apoidea?"
"Rachael_Winfree_Citrullus_lanatus_USA_2011","cherry_grove","transect observations","wild_bee_unknown","superfamily","other_wild_bees",0.011111111,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.","Apoidea?"
"Rachael_Winfree_Citrullus_lanatus_USA_2011","cherry_grove","transect observations","wild_bee_unknown","superfamily","other_wild_bees",0.059701493,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.","Apoidea?"
"Rachael_Winfree_Citrullus_lanatus_USA_2011","cherry_grove","transect observations","wild_bee_unknown","superfamily","other_wild_bees",0.133333333,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.","Apoidea?"
"Rachael_Winfree_Citrullus_lanatus_USA_2011","cherry_grove","transect observations","wild_bee_unknown","superfamily","other_wild_bees",0.037037037,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.","Apoidea?"
"Rachael_Winfree_Citrullus_lanatus_USA_2011","cherry_grove","transect observations","wild_bee_unknown","superfamily","other_wild_bees",0.054794521,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.","Apoidea?"
"Rachael_Winfree_Citrullus_lanatus_USA_2011","cherry_grove","transect observations","wild_bee_unknown","superfamily","other_wild_bees",0.106666667,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.","Apoidea?"
"Rachael_Winfree_Citrullus_lanatus_USA_2011","cherry_grove","transect observations","wild_bee_unknown","superfamily","other_wild_bees",0.086956522,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.","Apoidea?"
"Rachael_Winfree_Citrullus_lanatus_USA_2011","lee","transect observations","wild_bee_unknown","superfamily","other_wild_bees",0.036585366,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.","Apoidea?"
"Rachael_Winfree_Citrullus_lanatus_USA_2011","lee","transect observations","wild_bee_unknown","superfamily","other_wild_bees",0.023255814,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.","Apoidea?"
"Rachael_Winfree_Citrullus_lanatus_USA_2011","lee","transect observations","wild_bee_unknown","superfamily","other_wild_bees",0.015625,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.","Apoidea?"
"Rachael_Winfree_Citrullus_lanatus_USA_2011","lee","transect observations","wild_bee_unknown","superfamily","other_wild_bees",0.014285714,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.","Apoidea?"
"Rachael_Winfree_Citrullus_lanatus_USA_2011","little_acres","transect observations","wild_bee_unknown","superfamily","other_wild_bees",0.109375,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.","Apoidea?"
"Rachael_Winfree_Citrullus_lanatus_USA_2011","little_acres","transect observations","wild_bee_unknown","superfamily","other_wild_bees",0.102564103,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.","Apoidea?"
"Rachael_Winfree_Citrullus_lanatus_USA_2011","little_acres","transect observations","wild_bee_unknown","superfamily","other_wild_bees",0.011764706,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.","Apoidea?"
"Rachael_Winfree_Citrullus_lanatus_USA_2011","little_acres","transect observations","wild_bee_unknown","superfamily","other_wild_bees",0.112359551,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.","Apoidea?"
"Rachael_Winfree_Citrullus_lanatus_USA_2011","little_acres","transect observations","wild_bee_unknown","superfamily","other_wild_bees",0.069767442,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.","Apoidea?"
"Rachael_Winfree_Citrullus_lanatus_USA_2011","little_acres","transect observations","wild_bee_unknown","superfamily","other_wild_bees",0.150943396,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.","Apoidea?"
"Rachael_Winfree_Citrullus_lanatus_USA_2011","little_acres","transect observations","wild_bee_unknown","superfamily","other_wild_bees",0.245901639,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.","Apoidea?"
"Rachael_Winfree_Citrullus_lanatus_USA_2011","little_acres","transect observations","wild_bee_unknown","superfamily","other_wild_bees",0.206349206,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.","Apoidea?"
"Rachael_Winfree_Citrullus_lanatus_USA_2011","little_acres","transect observations","wild_bee_unknown","superfamily","other_wild_bees",0.111111111,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.","Apoidea?"
"Rachael_Winfree_Citrullus_lanatus_USA_2011","maple_acresa","transect observations","wild_bee_unknown","superfamily","other_wild_bees",0.023255814,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.","Apoidea?"
"Rachael_Winfree_Citrullus_lanatus_USA_2011","maple_acresa","transect observations","wild_bee_unknown","superfamily","other_wild_bees",0.013513514,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.","Apoidea?"
"Rachael_Winfree_Citrullus_lanatus_USA_2011","maple_acresa","transect observations","wild_bee_unknown","superfamily","other_wild_bees",0.025,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.","Apoidea?"
"Rachael_Winfree_Citrullus_lanatus_USA_2011","maple_acresa","transect observations","wild_bee_unknown","superfamily","other_wild_bees",0.009433962,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.","Apoidea?"
"Rachael_Winfree_Citrullus_lanatus_USA_2011","maple_acresa","transect observations","wild_bee_unknown","superfamily","other_wild_bees",0.009345794,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.","Apoidea?"
"Rachael_Winfree_Citrullus_lanatus_USA_2011","maple_acresa","transect observations","wild_bee_unknown","superfamily","other_wild_bees",0.011627907,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.","Apoidea?"
"Rachael_Winfree_Citrullus_lanatus_USA_2011","maple_acresa","transect observations","wild_bee_unknown","superfamily","other_wild_bees",0.035294118,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.","Apoidea?"
"Rachael_Winfree_Citrullus_lanatus_USA_2011","maple_acresa","transect observations","wild_bee_unknown","superfamily","other_wild_bees",0.04040404,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.","Apoidea?"
"Rachael_Winfree_Citrullus_lanatus_USA_2011","maple_acresb","transect observations","wild_bee_unknown","superfamily","other_wild_bees",0.024096386,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.","Apoidea?"
"Rachael_Winfree_Citrullus_lanatus_USA_2011","maple_acresb","transect observations","wild_bee_unknown","superfamily","other_wild_bees",0.050632911,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.","Apoidea?"
"Rachael_Winfree_Citrullus_lanatus_USA_2011","maple_acresb","transect observations","wild_bee_unknown","superfamily","other_wild_bees",0.103092784,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.","Apoidea?"
"Rachael_Winfree_Citrullus_lanatus_USA_2011","maple_acresb","transect observations","wild_bee_unknown","superfamily","other_wild_bees",0.015384615,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.","Apoidea?"
"Rachael_Winfree_Citrullus_lanatus_USA_2011","maple_acresb","transect observations","wild_bee_unknown","superfamily","other_wild_bees",0.014705882,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.","Apoidea?"
"Rachael_Winfree_Citrullus_lanatus_USA_2011","maple_acresb","transect observations","wild_bee_unknown","superfamily","other_wild_bees",0.112676056,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.","Apoidea?"
"Rachael_Winfree_Citrullus_lanatus_USA_2011","maple_acresb","transect observations","wild_bee_unknown","superfamily","other_wild_bees",0.194805195,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.","Apoidea?"
"Rachael_Winfree_Citrullus_lanatus_USA_2011","maple_acresb","transect observations","wild_bee_unknown","superfamily","other_wild_bees",0.1375,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.","Apoidea?"
"Rachael_Winfree_Citrullus_lanatus_USA_2011","maple_acresb","transect observations","wild_bee_unknown","superfamily","other_wild_bees",0.126760563,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.","Apoidea?"
"Rachael_Winfree_Citrullus_lanatus_USA_2011","nonsuch","transect observations","wild_bee_unknown","superfamily","other_wild_bees",0.105263158,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.","Apoidea?"
"Rachael_Winfree_Citrullus_lanatus_USA_2011","nonsuch","transect observations","wild_bee_unknown","superfamily","other_wild_bees",0.107692308,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.","Apoidea?"
"Rachael_Winfree_Citrullus_lanatus_USA_2011","nonsuch","transect observations","wild_bee_unknown","superfamily","other_wild_bees",0.027777778,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.","Apoidea?"
"Rachael_Winfree_Citrullus_lanatus_USA_2011","nonsuch","transect observations","wild_bee_unknown","superfamily","other_wild_bees",0.08974359,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.","Apoidea?"
"Rachael_Winfree_Citrullus_lanatus_USA_2011","nonsuch","transect observations","wild_bee_unknown","superfamily","other_wild_bees",0.013888889,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.","Apoidea?"
"Rachael_Winfree_Citrullus_lanatus_USA_2011","nonsuch","transect observations","wild_bee_unknown","superfamily","other_wild_bees",0.014925373,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.","Apoidea?"
"Rachael_Winfree_Citrullus_lanatus_USA_2011","nonsuch","transect observations","wild_bee_unknown","superfamily","other_wild_bees",0.21875,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.","Apoidea?"
"Rachael_Winfree_Citrullus_lanatus_USA_2011","nonsuch","transect observations","wild_bee_unknown","superfamily","other_wild_bees",0.096774194,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.","Apoidea?"
"Rachael_Winfree_Citrullus_lanatus_USA_2011","pennvt","transect observations","wild_bee_unknown","superfamily","other_wild_bees",0.054794521,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.","Apoidea?"
"Rachael_Winfree_Citrullus_lanatus_USA_2011","pennvt","transect observations","wild_bee_unknown","superfamily","other_wild_bees",0.034482759,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.","Apoidea?"
"Rachael_Winfree_Citrullus_lanatus_USA_2011","pennvt","transect observations","wild_bee_unknown","superfamily","other_wild_bees",0.093333333,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.","Apoidea?"
"Rachael_Winfree_Citrullus_lanatus_USA_2011","pennvt","transect observations","wild_bee_unknown","superfamily","other_wild_bees",0.066666667,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.","Apoidea?"
"Rachael_Winfree_Citrullus_lanatus_USA_2011","pennvt","transect observations","wild_bee_unknown","superfamily","other_wild_bees",0.067567568,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.","Apoidea?"
"Rachael_Winfree_Citrullus_lanatus_USA_2011","pennvt","transect observations","wild_bee_unknown","superfamily","other_wild_bees",0.089552239,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.","Apoidea?"
"Rachael_Winfree_Citrullus_lanatus_USA_2011","pennvt","transect observations","wild_bee_unknown","superfamily","other_wild_bees",0.014705882,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.","Apoidea?"
"Rachael_Winfree_Citrullus_lanatus_USA_2011","pennvt","transect observations","wild_bee_unknown","superfamily","other_wild_bees",0.109589041,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.","Apoidea?"
"Rachael_Winfree_Citrullus_lanatus_USA_2011","pennvt","transect observations","wild_bee_unknown","superfamily","other_wild_bees",0.041666667,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.","Apoidea?"
"Rachael_Winfree_Citrullus_lanatus_USA_2011","phillips","transect observations","wild_bee_unknown","superfamily","other_wild_bees",0.03030303,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.","Apoidea?"
"Rachael_Winfree_Citrullus_lanatus_USA_2011","phillips","transect observations","wild_bee_unknown","superfamily","other_wild_bees",0.057471264,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.","Apoidea?"
"Rachael_Winfree_Citrullus_lanatus_USA_2011","phillips","transect observations","wild_bee_unknown","superfamily","other_wild_bees",0.011111111,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.","Apoidea?"
"Rachael_Winfree_Citrullus_lanatus_USA_2011","phillips","transect observations","wild_bee_unknown","superfamily","other_wild_bees",0.027777778,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.","Apoidea?"
"Rachael_Winfree_Citrullus_lanatus_USA_2011","phillips","transect observations","wild_bee_unknown","superfamily","other_wild_bees",0.090909091,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.","Apoidea?"
"Rachael_Winfree_Citrullus_lanatus_USA_2011","phillips","transect observations","wild_bee_unknown","superfamily","other_wild_bees",0.209677419,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.","Apoidea?"
"Rachael_Winfree_Citrullus_lanatus_USA_2011","phillips","transect observations","wild_bee_unknown","superfamily","other_wild_bees",0.072289157,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.","Apoidea?"
"Rachael_Winfree_Citrullus_lanatus_USA_2011","phillips","transect observations","wild_bee_unknown","superfamily","other_wild_bees",0.051282051,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.","Apoidea?"
"Rachael_Winfree_Citrullus_lanatus_USA_2011","rays_greenhouse","transect observations","wild_bee_unknown","superfamily","other_wild_bees",0.042553191,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.","Apoidea?"
"Rachael_Winfree_Citrullus_lanatus_USA_2011","rays_greenhouse","transect observations","wild_bee_unknown","superfamily","other_wild_bees",0.043478261,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.","Apoidea?"
"Rachael_Winfree_Citrullus_lanatus_USA_2011","rays_greenhouse","transect observations","wild_bee_unknown","superfamily","other_wild_bees",0.149253731,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.","Apoidea?"
"Rachael_Winfree_Citrullus_lanatus_USA_2011","rays_greenhouse","transect observations","wild_bee_unknown","superfamily","other_wild_bees",0.177419355,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.","Apoidea?"
"Rachael_Winfree_Citrullus_lanatus_USA_2011","rays_greenhouse","transect observations","wild_bee_unknown","superfamily","other_wild_bees",0.152777778,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.","Apoidea?"
"Rachael_Winfree_Citrullus_lanatus_USA_2011","rays_greenhouse","transect observations","wild_bee_unknown","superfamily","other_wild_bees",0.145454545,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.","Apoidea?"
"Rachael_Winfree_Citrullus_lanatus_USA_2011","rays_greenhouse","transect observations","wild_bee_unknown","superfamily","other_wild_bees",0.236363636,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.","Apoidea?"
"Rachael_Winfree_Citrullus_lanatus_USA_2011","rays_greenhouse","transect observations","wild_bee_unknown","superfamily","other_wild_bees",0.183673469,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.","Apoidea?"
"Rachael_Winfree_Citrullus_lanatus_USA_2011","sankanac","transect observations","wild_bee_unknown","superfamily","other_wild_bees",0.073529412,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.","Apoidea?"
"Rachael_Winfree_Citrullus_lanatus_USA_2011","sankanac","transect observations","wild_bee_unknown","superfamily","other_wild_bees",0.454545455,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.","Apoidea?"
"Rachael_Winfree_Citrullus_lanatus_USA_2011","sankanac","transect observations","wild_bee_unknown","superfamily","other_wild_bees",0.241935484,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.","Apoidea?"
"Rachael_Winfree_Citrullus_lanatus_USA_2011","sankanac","transect observations","wild_bee_unknown","superfamily","other_wild_bees",0.24137931,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.","Apoidea?"
"Rachael_Winfree_Citrullus_lanatus_USA_2011","sankanac","transect observations","wild_bee_unknown","superfamily","other_wild_bees",0.640625,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.","Apoidea?"
"Rachael_Winfree_Citrullus_lanatus_USA_2011","sankanac","transect observations","wild_bee_unknown","superfamily","other_wild_bees",0.419354839,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.","Apoidea?"
"Rachael_Winfree_Citrullus_lanatus_USA_2011","sankanac","transect observations","wild_bee_unknown","superfamily","other_wild_bees",0.010526316,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.","Apoidea?"
"Rachael_Winfree_Citrullus_lanatus_USA_2011","sankanac","transect observations","wild_bee_unknown","superfamily","other_wild_bees",0.178571429,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.","Apoidea?"
"Rachael_Winfree_Citrullus_lanatus_USA_2011","sankanac","transect observations","wild_bee_unknown","superfamily","other_wild_bees",0.222222222,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.","Apoidea?"
"Rachael_Winfree_Citrullus_lanatus_USA_2011","sunrise_sunflower","transect observations","wild_bee_unknown","superfamily","other_wild_bees",0.063829787,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.","Apoidea?"
"Rachael_Winfree_Citrullus_lanatus_USA_2011","sunrise_sunflower","transect observations","wild_bee_unknown","superfamily","other_wild_bees",0.071428571,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.","Apoidea?"
"Rachael_Winfree_Citrullus_lanatus_USA_2011","sunrise_sunflower","transect observations","wild_bee_unknown","superfamily","other_wild_bees",0.159090909,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.","Apoidea?"
"Rachael_Winfree_Citrullus_lanatus_USA_2011","sunrise_sunflower","transect observations","wild_bee_unknown","superfamily","other_wild_bees",0.392857143,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.","Apoidea?"
"Rachael_Winfree_Citrullus_lanatus_USA_2011","sunrise_sunflower","transect observations","wild_bee_unknown","superfamily","other_wild_bees",0.596491228,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.","Apoidea?"
"Rachael_Winfree_Citrullus_lanatus_USA_2011","sunrise_sunflower","transect observations","wild_bee_unknown","superfamily","other_wild_bees",0.333333333,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.","Apoidea?"
"Rachael_Winfree_Citrullus_lanatus_USA_2011","sunrise_sunflower","transect observations","wild_bee_unknown","superfamily","other_wild_bees",0.16,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.","Apoidea?"
"Rachael_Winfree_Citrullus_lanatus_USA_2011","sunrise_sunflower","transect observations","wild_bee_unknown","superfamily","other_wild_bees",0.32,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.","Apoidea?"
"Rachael_Winfree_Citrullus_lanatus_USA_2011","sunrise_sunflower","transect observations","wild_bee_unknown","superfamily","other_wild_bees",0.46,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.","Apoidea?"
"Rachael_Winfree_Citrullus_lanatus_USA_2011","terhune","transect observations","wild_bee_unknown","superfamily","other_wild_bees",0.065217391,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.","Apoidea?"
"Rachael_Winfree_Citrullus_lanatus_USA_2011","terhune","transect observations","wild_bee_unknown","superfamily","other_wild_bees",0.011363636,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.","Apoidea?"
"Rachael_Winfree_Citrullus_lanatus_USA_2011","terhune","transect observations","wild_bee_unknown","superfamily","other_wild_bees",0.019047619,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.","Apoidea?"
"Rachael_Winfree_Citrullus_lanatus_USA_2011","terhune","transect observations","wild_bee_unknown","superfamily","other_wild_bees",0.139784946,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.","Apoidea?"
"Rachael_Winfree_Citrullus_lanatus_USA_2011","terhune","transect observations","wild_bee_unknown","superfamily","other_wild_bees",0.060606061,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.","Apoidea?"
"Rachael_Winfree_Citrullus_lanatus_USA_2011","terhune","transect observations","wild_bee_unknown","superfamily","other_wild_bees",0.081395349,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.","Apoidea?"
"Rachael_Winfree_Citrullus_lanatus_USA_2011","traugers","transect observations","wild_bee_unknown","superfamily","other_wild_bees",0.021052632,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.","Apoidea?"
"Rachael_Winfree_Citrullus_lanatus_USA_2011","traugers","transect observations","wild_bee_unknown","superfamily","other_wild_bees",0.013513514,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.","Apoidea?"
"Rachael_Winfree_Citrullus_lanatus_USA_2011","traugers","transect observations","wild_bee_unknown","superfamily","other_wild_bees",0.051282051,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.","Apoidea?"
"Rachael_Winfree_Citrullus_lanatus_USA_2011","traugers","transect observations","wild_bee_unknown","superfamily","other_wild_bees",0.0375,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.","Apoidea?"
"Rachael_Winfree_Citrullus_lanatus_USA_2011","traugers","transect observations","wild_bee_unknown","superfamily","other_wild_bees",0.051724138,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.","Apoidea?"
"Rachael_Winfree_Citrullus_lanatus_USA_2011","traugers","transect observations","wild_bee_unknown","superfamily","other_wild_bees",0.061538462,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.","Apoidea?"
"Rachael_Winfree_Citrullus_lanatus_USA_2011","watershed","transect observations","wild_bee_unknown","superfamily","other_wild_bees",0.09375,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.","Apoidea?"
"Rachael_Winfree_Citrullus_lanatus_USA_2011","watershed","transect observations","wild_bee_unknown","superfamily","other_wild_bees",0.015384615,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.","Apoidea?"
"Rachael_Winfree_Citrullus_lanatus_USA_2011","watershed","transect observations","wild_bee_unknown","superfamily","other_wild_bees",0.012195122,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.","Apoidea?"
"Rachael_Winfree_Citrullus_lanatus_USA_2011","watershed","transect observations","wild_bee_unknown","superfamily","other_wild_bees",0.033707865,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.","Apoidea?"
"Rachael_Winfree_Citrullus_lanatus_USA_2011","watershed","transect observations","wild_bee_unknown","superfamily","other_wild_bees",0.035087719,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.","Apoidea?"
"Rachael_Winfree_Citrullus_lanatus_USA_2011","watershed","transect observations","wild_bee_unknown","superfamily","other_wild_bees",0.09375,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.","Apoidea?"
"Rachael_Winfree_Citrullus_lanatus_USA_2011","watershed","transect observations","wild_bee_unknown","superfamily","other_wild_bees",0.056603774,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.","Apoidea?"
"Rachael_Winfree_Citrullus_lanatus_USA_2012","anchor_run","transect observations","Apis_mellifera","species","honeybees",0.076923077,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2012","anchor_run","transect observations","Apis_mellifera","species","honeybees",0.17,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2012","anchor_run","transect observations","Apis_mellifera","species","honeybees",0.134831461,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2012","anchor_run","transect observations","Apis_mellifera","species","honeybees",0.23880597,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2012","anchor_run","transect observations","Apis_mellifera","species","honeybees",0.216666667,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2012","anchor_run","transect observations","Apis_mellifera","species","honeybees",0.035714286,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2012","anchor_run","transect observations","Apis_mellifera","species","honeybees",0.080645161,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2012","anchor_run","transect observations","Apis_mellifera","species","honeybees",0.388888889,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2012","anchor_run","transect observations","Apis_mellifera","species","honeybees",0.194444444,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2012","branch","transect observations","Apis_mellifera","species","honeybees",0.220588235,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2012","branch","transect observations","Apis_mellifera","species","honeybees",0.033333333,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2012","branch","transect observations","Apis_mellifera","species","honeybees",0.034482759,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2012","branch","transect observations","Apis_mellifera","species","honeybees",0.150943396,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2012","branch","transect observations","Apis_mellifera","species","honeybees",0.12345679,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2012","branch","transect observations","Apis_mellifera","species","honeybees",0.095238095,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2012","branch","transect observations","Apis_mellifera","species","honeybees",0.132352941,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2012","branch","transect observations","Apis_mellifera","species","honeybees",0.053333333,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2012","bridge","transect observations","Apis_mellifera","species","honeybees",0.014492754,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2012","bridge","transect observations","Apis_mellifera","species","honeybees",0.063492063,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2012","bridge","transect observations","Apis_mellifera","species","honeybees",0.061538462,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2012","bridge","transect observations","Apis_mellifera","species","honeybees",0.035087719,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2012","bridge","transect observations","Apis_mellifera","species","honeybees",0.112903226,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2012","bridge","transect observations","Apis_mellifera","species","honeybees",0.078125,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2012","cedar_ridge","transect observations","Apis_mellifera","species","honeybees",0.036363636,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2012","cedar_ridge","transect observations","Apis_mellifera","species","honeybees",0.267857143,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2012","cedar_ridge","transect observations","Apis_mellifera","species","honeybees",0.344827586,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2012","cedar_ridge","transect observations","Apis_mellifera","species","honeybees",0.038461538,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2012","cedar_ridge","transect observations","Apis_mellifera","species","honeybees",0.155172414,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2012","cedar_ridge","transect observations","Apis_mellifera","species","honeybees",0.109090909,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2012","cherry_grove","transect observations","Apis_mellifera","species","honeybees",0.030769231,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2012","cherry_grove","transect observations","Apis_mellifera","species","honeybees",0.0875,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2012","cherry_grove","transect observations","Apis_mellifera","species","honeybees",0.065789474,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2012","cherry_grove","transect observations","Apis_mellifera","species","honeybees",0.071428571,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2012","cherry_grove","transect observations","Apis_mellifera","species","honeybees",0.039215686,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2012","cherry_grove","transect observations","Apis_mellifera","species","honeybees",0.016949153,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2012","cherry_grove","transect observations","Apis_mellifera","species","honeybees",0.018181818,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2012","del_val","transect observations","Apis_mellifera","species","honeybees",0.053571429,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2012","del_val","transect observations","Apis_mellifera","species","honeybees",0.103448276,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2012","del_val","transect observations","Apis_mellifera","species","honeybees",0.019417476,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2012","del_val","transect observations","Apis_mellifera","species","honeybees",0.038961039,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2012","del_val","transect observations","Apis_mellifera","species","honeybees",0.035087719,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2012","del_val","transect observations","Apis_mellifera","species","honeybees",0.107142857,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2012","del_val","transect observations","Apis_mellifera","species","honeybees",0.018181818,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2012","lee","transect observations","Apis_mellifera","species","honeybees",0.077922078,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2012","lee","transect observations","Apis_mellifera","species","honeybees",0.361445783,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2012","lee","transect observations","Apis_mellifera","species","honeybees",0.279069767,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2012","lee","transect observations","Apis_mellifera","species","honeybees",0.04109589,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2012","lee","transect observations","Apis_mellifera","species","honeybees",0.045454545,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2012","lee","transect observations","Apis_mellifera","species","honeybees",0.050632911,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2012","lee","transect observations","Apis_mellifera","species","honeybees",0.181818182,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2012","lee","transect observations","Apis_mellifera","species","honeybees",0.12,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2012","little_acres","transect observations","Apis_mellifera","species","honeybees",0.021052632,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2012","little_acres","transect observations","Apis_mellifera","species","honeybees",0.072289157,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2012","little_acres","transect observations","Apis_mellifera","species","honeybees",0.146341463,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2012","little_acres","transect observations","Apis_mellifera","species","honeybees",0.016949153,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2012","little_acres","transect observations","Apis_mellifera","species","honeybees",0.1,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2012","little_acres","transect observations","Apis_mellifera","species","honeybees",0.166666667,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2012","little_acres","transect observations","Apis_mellifera","species","honeybees",0.094339623,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2012","little_acres","transect observations","Apis_mellifera","species","honeybees",0.096153846,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2012","maple_acres","transect observations","Apis_mellifera","species","honeybees",0.044117647,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2012","maple_acres","transect observations","Apis_mellifera","species","honeybees",0.034482759,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2012","maple_acres","transect observations","Apis_mellifera","species","honeybees",0.076923077,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2012","maple_acres","transect observations","Apis_mellifera","species","honeybees",0.338235294,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2012","maple_acres","transect observations","Apis_mellifera","species","honeybees",0.309859155,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2012","maple_acres","transect observations","Apis_mellifera","species","honeybees",0.191176471,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2012","maple_acres","transect observations","Apis_mellifera","species","honeybees",0.2,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2012","maple_acres","transect observations","Apis_mellifera","species","honeybees",0.230769231,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2012","nonsuch","transect observations","Apis_mellifera","species","honeybees",0.160714286,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2012","nonsuch","transect observations","Apis_mellifera","species","honeybees",0.261538462,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2012","nonsuch","transect observations","Apis_mellifera","species","honeybees",0.209677419,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2012","nonsuch","transect observations","Apis_mellifera","species","honeybees",0.12345679,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2012","nonsuch","transect observations","Apis_mellifera","species","honeybees",0.268292683,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2012","nonsuch","transect observations","Apis_mellifera","species","honeybees",0.194444444,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2012","nonsuch","transect observations","Apis_mellifera","species","honeybees",0.018181818,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2012","nonsuch","transect observations","Apis_mellifera","species","honeybees",0.081967213,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2012","nonsuch","transect observations","Apis_mellifera","species","honeybees",0.088235294,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2012","pennvt","transect observations","Apis_mellifera","species","honeybees",0.051282051,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2012","pennvt","transect observations","Apis_mellifera","species","honeybees",0.1375,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2012","pennvt","transect observations","Apis_mellifera","species","honeybees",0.12,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2012","pennvt","transect observations","Apis_mellifera","species","honeybees",0.041666667,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2012","pennvt","transect observations","Apis_mellifera","species","honeybees",0.125,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2012","pennvt","transect observations","Apis_mellifera","species","honeybees",0.189655172,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2012","pennvt","transect observations","Apis_mellifera","species","honeybees",0.019607843,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2012","pennvt","transect observations","Apis_mellifera","species","honeybees",0.285714286,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2012","pennvt","transect observations","Apis_mellifera","species","honeybees",0.163265306,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2012","phillips","transect observations","Apis_mellifera","species","honeybees",0.016666667,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2012","phillips","transect observations","Apis_mellifera","species","honeybees",0.05,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2012","phillips","transect observations","Apis_mellifera","species","honeybees",0.061538462,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2012","phillips","transect observations","Apis_mellifera","species","honeybees",0.012048193,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2012","phillips","transect observations","Apis_mellifera","species","honeybees",0.058139535,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2012","phillips","transect observations","Apis_mellifera","species","honeybees",0.055555556,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2012","phillips","transect observations","Apis_mellifera","species","honeybees",0.022222222,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2012","phillips","transect observations","Apis_mellifera","species","honeybees",0.120689655,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2012","phillips","transect observations","Apis_mellifera","species","honeybees",0.173076923,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2012","rays_greenhouse","transect observations","Apis_mellifera","species","honeybees",0.081632653,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2012","rays_greenhouse","transect observations","Apis_mellifera","species","honeybees",0.057692308,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2012","rays_greenhouse","transect observations","Apis_mellifera","species","honeybees",0.045454545,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2012","rays_greenhouse","transect observations","Apis_mellifera","species","honeybees",0.189655172,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2012","rays_greenhouse","transect observations","Apis_mellifera","species","honeybees",0.05,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2012","rays_greenhouse","transect observations","Apis_mellifera","species","honeybees",0.113924051,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2012","rays_greenhouse","transect observations","Apis_mellifera","species","honeybees",0.126582278,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2012","sankanac","transect observations","Apis_mellifera","species","honeybees",0.020833333,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2012","sankanac","transect observations","Apis_mellifera","species","honeybees",0.104166667,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2012","sankanac","transect observations","Apis_mellifera","species","honeybees",0.166666667,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2012","sankanac","transect observations","Apis_mellifera","species","honeybees",0.347826087,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2012","sankanac","transect observations","Apis_mellifera","species","honeybees",0.243243243,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2012","sankanac","transect observations","Apis_mellifera","species","honeybees",0.050847458,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2012","sankanac","transect observations","Apis_mellifera","species","honeybees",0.387096774,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2012","sankanac","transect observations","Apis_mellifera","species","honeybees",0.62745098,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2012","sunrise_sunflower","transect observations","Apis_mellifera","species","honeybees",0.058823529,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2012","sunrise_sunflower","transect observations","Apis_mellifera","species","honeybees",0.094339623,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2012","sunrise_sunflower","transect observations","Apis_mellifera","species","honeybees",0.068965517,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2012","sunrise_sunflower","transect observations","Apis_mellifera","species","honeybees",0.112903226,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2012","sunrise_sunflower","transect observations","Apis_mellifera","species","honeybees",0.237288136,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2012","sunrise_sunflower","transect observations","Apis_mellifera","species","honeybees",0.163636364,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2012","sunrise_sunflower","transect observations","Apis_mellifera","species","honeybees",0.050847458,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2012","sunrise_sunflower","transect observations","Apis_mellifera","species","honeybees",0.120689655,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2012","sunrise_sunflower","transect observations","Apis_mellifera","species","honeybees",0.051724138,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2012","terhune","transect observations","Apis_mellifera","species","honeybees",0.083333333,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2012","terhune","transect observations","Apis_mellifera","species","honeybees",0.197183099,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2012","terhune","transect observations","Apis_mellifera","species","honeybees",0.114754098,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2012","terhune","transect observations","Apis_mellifera","species","honeybees",0.105263158,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2012","terhune","transect observations","Apis_mellifera","species","honeybees",0.333333333,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2012","terhune","transect observations","Apis_mellifera","species","honeybees",0.285714286,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2012","terhune","transect observations","Apis_mellifera","species","honeybees",0.047619048,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2012","terhune","transect observations","Apis_mellifera","species","honeybees",0.151162791,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2012","terhune","transect observations","Apis_mellifera","species","honeybees",0.204819277,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2012","traugers","transect observations","Apis_mellifera","species","honeybees",0.052631579,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2012","traugers","transect observations","Apis_mellifera","species","honeybees",0.216981132,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2012","traugers","transect observations","Apis_mellifera","species","honeybees",0.256097561,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2012","traugers","transect observations","Apis_mellifera","species","honeybees",0.182926829,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2012","traugers","transect observations","Apis_mellifera","species","honeybees",0.183333333,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2012","traugers","transect observations","Apis_mellifera","species","honeybees",0.032786885,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2012","traugers","transect observations","Apis_mellifera","species","honeybees",0.258064516,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2012","traugers","transect observations","Apis_mellifera","species","honeybees",0.25,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2012","watershed","transect observations","Apis_mellifera","species","honeybees",0.161764706,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2012","watershed","transect observations","Apis_mellifera","species","honeybees",0.257575758,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2012","watershed","transect observations","Apis_mellifera","species","honeybees",0.133333333,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2012","watershed","transect observations","Apis_mellifera","species","honeybees",0.0125,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2012","watershed","transect observations","Apis_mellifera","species","honeybees",0.017241379,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2012","watershed","transect observations","Apis_mellifera","species","honeybees",0.081967213,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2012","watershed","transect observations","Apis_mellifera","species","honeybees",0.058823529,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2012","branch","transect observations","Bombus_spp.","genus","bumblebees",0.014705882,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2012","branch","transect observations","Bombus_spp.","genus","bumblebees",0.016666667,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2012","branch","transect observations","Bombus_spp.","genus","bumblebees",0.024691358,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2012","branch","transect observations","Bombus_spp.","genus","bumblebees",0.014705882,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2012","bridge","transect observations","Bombus_spp.","genus","bumblebees",0.032786885,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2012","bridge","transect observations","Bombus_spp.","genus","bumblebees",0.031746032,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2012","bridge","transect observations","Bombus_spp.","genus","bumblebees",0.015384615,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2012","bridge","transect observations","Bombus_spp.","genus","bumblebees",0.035087719,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2012","bridge","transect observations","Bombus_spp.","genus","bumblebees",0.064516129,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2012","bridge","transect observations","Bombus_spp.","genus","bumblebees",0.015625,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2012","cedar_ridge","transect observations","Bombus_spp.","genus","bumblebees",0.018181818,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2012","cedar_ridge","transect observations","Bombus_spp.","genus","bumblebees",0.017857143,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2012","cedar_ridge","transect observations","Bombus_spp.","genus","bumblebees",0.051724138,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2012","cedar_ridge","transect observations","Bombus_spp.","genus","bumblebees",0.057692308,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2012","cedar_ridge","transect observations","Bombus_spp.","genus","bumblebees",0.034482759,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2012","cherry_grove","transect observations","Bombus_spp.","genus","bumblebees",0.046153846,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2012","cherry_grove","transect observations","Bombus_spp.","genus","bumblebees",0.0625,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2012","cherry_grove","transect observations","Bombus_spp.","genus","bumblebees",0.105263158,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2012","cherry_grove","transect observations","Bombus_spp.","genus","bumblebees",0.016129032,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2012","cherry_grove","transect observations","Bombus_spp.","genus","bumblebees",0.073529412,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2012","cherry_grove","transect observations","Bombus_spp.","genus","bumblebees",0.057142857,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2012","cherry_grove","transect observations","Bombus_spp.","genus","bumblebees",0.098039216,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2012","cherry_grove","transect observations","Bombus_spp.","genus","bumblebees",0.101694915,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2012","cherry_grove","transect observations","Bombus_spp.","genus","bumblebees",0.090909091,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2012","lee","transect observations","Bombus_spp.","genus","bumblebees",0.077922078,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2012","lee","transect observations","Bombus_spp.","genus","bumblebees",0.012048193,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2012","lee","transect observations","Bombus_spp.","genus","bumblebees",0.023255814,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2012","lee","transect observations","Bombus_spp.","genus","bumblebees",0.03030303,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2012","lee","transect observations","Bombus_spp.","genus","bumblebees",0.01369863,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2012","lee","transect observations","Bombus_spp.","genus","bumblebees",0.015151515,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2012","lee","transect observations","Bombus_spp.","genus","bumblebees",0.012658228,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2012","lee","transect observations","Bombus_spp.","genus","bumblebees",0.034090909,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2012","lee","transect observations","Bombus_spp.","genus","bumblebees",0.013333333,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2012","little_acres","transect observations","Bombus_spp.","genus","bumblebees",0.024096386,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2012","maple_acres","transect observations","Bombus_spp.","genus","bumblebees",0.014705882,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2012","maple_acres","transect observations","Bombus_spp.","genus","bumblebees",0.014084507,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2012","maple_acres","transect observations","Bombus_spp.","genus","bumblebees",0.058823529,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2012","nonsuch","transect observations","Bombus_spp.","genus","bumblebees",0.035714286,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2012","nonsuch","transect observations","Bombus_spp.","genus","bumblebees",0.016129032,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2012","nonsuch","transect observations","Bombus_spp.","genus","bumblebees",0.024691358,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2012","nonsuch","transect observations","Bombus_spp.","genus","bumblebees",0.024390244,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2012","nonsuch","transect observations","Bombus_spp.","genus","bumblebees",0.013888889,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2012","nonsuch","transect observations","Bombus_spp.","genus","bumblebees",0.054545455,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2012","nonsuch","transect observations","Bombus_spp.","genus","bumblebees",0.114754098,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2012","nonsuch","transect observations","Bombus_spp.","genus","bumblebees",0.058823529,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2012","pennvt","transect observations","Bombus_spp.","genus","bumblebees",0.017241379,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2012","pennvt","transect observations","Bombus_spp.","genus","bumblebees",0.019607843,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2012","phillips","transect observations","Bombus_spp.","genus","bumblebees",0.034883721,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2012","phillips","transect observations","Bombus_spp.","genus","bumblebees",0.044444444,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2012","phillips","transect observations","Bombus_spp.","genus","bumblebees",0.086206897,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2012","phillips","transect observations","Bombus_spp.","genus","bumblebees",0.038461538,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2012","rays_greenhouse","transect observations","Bombus_spp.","genus","bumblebees",0.057692308,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2012","rays_greenhouse","transect observations","Bombus_spp.","genus","bumblebees",0.034482759,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2012","rays_greenhouse","transect observations","Bombus_spp.","genus","bumblebees",0.016666667,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2012","rays_greenhouse","transect observations","Bombus_spp.","genus","bumblebees",0.063291139,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2012","rays_greenhouse","transect observations","Bombus_spp.","genus","bumblebees",0.050632911,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2012","sankanac","transect observations","Bombus_spp.","genus","bumblebees",0.020833333,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2012","sankanac","transect observations","Bombus_spp.","genus","bumblebees",0.020833333,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2012","sankanac","transect observations","Bombus_spp.","genus","bumblebees",0.032258065,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2012","sankanac","transect observations","Bombus_spp.","genus","bumblebees",0.039215686,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2012","sunrise_sunflower","transect observations","Bombus_spp.","genus","bumblebees",0.019607843,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2012","sunrise_sunflower","transect observations","Bombus_spp.","genus","bumblebees",0.018867925,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2012","sunrise_sunflower","transect observations","Bombus_spp.","genus","bumblebees",0.033898305,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2012","sunrise_sunflower","transect observations","Bombus_spp.","genus","bumblebees",0.017241379,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2012","sunrise_sunflower","transect observations","Bombus_spp.","genus","bumblebees",0.017241379,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2012","terhune","transect observations","Bombus_spp.","genus","bumblebees",0.041666667,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2012","terhune","transect observations","Bombus_spp.","genus","bumblebees",0.014084507,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2012","terhune","transect observations","Bombus_spp.","genus","bumblebees",0.081967213,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2012","terhune","transect observations","Bombus_spp.","genus","bumblebees",0.052631579,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2012","terhune","transect observations","Bombus_spp.","genus","bumblebees",0.133333333,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2012","terhune","transect observations","Bombus_spp.","genus","bumblebees",0.089285714,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2012","terhune","transect observations","Bombus_spp.","genus","bumblebees",0.011627907,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2012","terhune","transect observations","Bombus_spp.","genus","bumblebees",0.024096386,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2012","traugers","transect observations","Bombus_spp.","genus","bumblebees",0.031578947,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2012","traugers","transect observations","Bombus_spp.","genus","bumblebees",0.132075472,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2012","traugers","transect observations","Bombus_spp.","genus","bumblebees",0.073170732,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2012","traugers","transect observations","Bombus_spp.","genus","bumblebees",0.010989011,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2012","traugers","transect observations","Bombus_spp.","genus","bumblebees",0.134146341,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2012","traugers","transect observations","Bombus_spp.","genus","bumblebees",0.116666667,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2012","traugers","transect observations","Bombus_spp.","genus","bumblebees",0.098360656,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2012","traugers","transect observations","Bombus_spp.","genus","bumblebees",0.290322581,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2012","traugers","transect observations","Bombus_spp.","genus","bumblebees",0.133333333,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2012","watershed","transect observations","Bombus_spp.","genus","bumblebees",0.088235294,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2012","watershed","transect observations","Bombus_spp.","genus","bumblebees",0.166666667,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2012","watershed","transect observations","Bombus_spp.","genus","bumblebees",0.166666667,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2012","watershed","transect observations","Bombus_spp.","genus","bumblebees",0.01754386,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2012","watershed","transect observations","Bombus_spp.","genus","bumblebees",0.085365854,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2012","watershed","transect observations","Bombus_spp.","genus","bumblebees",0.025,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2012","watershed","transect observations","Bombus_spp.","genus","bumblebees",0.051724138,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2012","watershed","transect observations","Bombus_spp.","genus","bumblebees",0.196721311,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2012","watershed","transect observations","Bombus_spp.","genus","bumblebees",0.058823529,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2012","cherry_grove","transect observations","Lepidoptera","order","lepidoptera",0.014705882,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2012","rays_greenhouse","transect observations","Lepidoptera","order","lepidoptera",0.012658228,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2012","sunrise_sunflower","transect observations","Lepidoptera","order","lepidoptera",0.016949153,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2012","bridge","transect observations","Pieris_rapae","species","lepidoptera",0.030769231,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2012","bridge","transect observations","Pieris_rapae","species","lepidoptera",0.035087719,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2012","bridge","transect observations","Pieris_rapae","species","lepidoptera",0.032258065,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2012","bridge","transect observations","Pieris_rapae","species","lepidoptera",0.046875,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2012","cedar_ridge","transect observations","Pieris_rapae","species","lepidoptera",0.014705882,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2012","lee","transect observations","Pieris_rapae","species","lepidoptera",0.01369863,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2012","phillips","transect observations","Pieris_rapae","species","lepidoptera",0.011111111,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2012","phillips","transect observations","Pieris_rapae","species","lepidoptera",0.019230769,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2012","rays_greenhouse","transect observations","Pieris_rapae","species","lepidoptera",0.020408163,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2012","sankanac","transect observations","Pieris_rapae","species","lepidoptera",0.020833333,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2012","sankanac","transect observations","Pieris_rapae","species","lepidoptera",0.015151515,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2012","sankanac","transect observations","Pieris_rapae","species","lepidoptera",0.027027027,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2012","sankanac","transect observations","Pieris_rapae","species","lepidoptera",0.019607843,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2012","sunrise_sunflower","transect observations","Pieris_rapae","species","lepidoptera",0.017241379,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2012","traugers","transect observations","Pieris_rapae","species","lepidoptera",0.009433962,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2012","traugers","transect observations","Pieris_rapae","species","lepidoptera",0.024390244,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2012","traugers","transect observations","Pieris_rapae","species","lepidoptera",0.016666667,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2012","traugers","transect observations","Pieris_rapae","species","lepidoptera",0.016393443,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2012","traugers","transect observations","Pieris_rapae","species","lepidoptera",0.016129032,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2012","anchor_run","transect observations","syrphidae","family","syrphids",0.03,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2012","anchor_run","transect observations","syrphidae","family","syrphids",0.02247191,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2012","anchor_run","transect observations","syrphidae","family","syrphids",0.05,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2012","anchor_run","transect observations","syrphidae","family","syrphids",0.041666667,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2012","anchor_run","transect observations","syrphidae","family","syrphids",0.027777778,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2012","bridge","transect observations","syrphidae","family","syrphids",0.032786885,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2012","bridge","transect observations","syrphidae","family","syrphids",0.028985507,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2012","bridge","transect observations","syrphidae","family","syrphids",0.047619048,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2012","bridge","transect observations","syrphidae","family","syrphids",0.140350877,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2012","bridge","transect observations","syrphidae","family","syrphids",0.016129032,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2012","cherry_grove","transect observations","syrphidae","family","syrphids",0.014705882,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2012","del_val","transect observations","syrphidae","family","syrphids",0.214285714,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2012","del_val","transect observations","syrphidae","family","syrphids",0.155172414,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2012","del_val","transect observations","syrphidae","family","syrphids",0.064516129,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2012","del_val","transect observations","syrphidae","family","syrphids",0.01754386,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2012","little_acres","transect observations","syrphidae","family","syrphids",0.010526316,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2012","little_acres","transect observations","syrphidae","family","syrphids",0.012195122,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2012","little_acres","transect observations","syrphidae","family","syrphids",0.014285714,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2012","little_acres","transect observations","syrphidae","family","syrphids",0.015151515,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2012","maple_acres","transect observations","syrphidae","family","syrphids",0.013333333,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2012","maple_acres","transect observations","syrphidae","family","syrphids",0.014705882,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2012","maple_acres","transect observations","syrphidae","family","syrphids",0.017241379,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2012","maple_acres","transect observations","syrphidae","family","syrphids",0.046153846,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2012","maple_acres","transect observations","syrphidae","family","syrphids",0.058823529,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2012","maple_acres","transect observations","syrphidae","family","syrphids",0.014084507,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2012","maple_acres","transect observations","syrphidae","family","syrphids",0.029411765,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2012","maple_acres","transect observations","syrphidae","family","syrphids",0.015384615,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2012","maple_acres","transect observations","syrphidae","family","syrphids",0.038461538,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2012","nonsuch","transect observations","syrphidae","family","syrphids",0.018181818,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2012","nonsuch","transect observations","syrphidae","family","syrphids",0.016393443,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2012","nonsuch","transect observations","syrphidae","family","syrphids",0.014705882,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2012","pennvt","transect observations","syrphidae","family","syrphids",0.025641026,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2012","pennvt","transect observations","syrphidae","family","syrphids",0.013888889,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2012","phillips","transect observations","syrphidae","family","syrphids",0.05,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2012","phillips","transect observations","syrphidae","family","syrphids",0.011111111,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2012","phillips","transect observations","syrphidae","family","syrphids",0.022222222,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2012","phillips","transect observations","syrphidae","family","syrphids",0.017241379,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2012","rays_greenhouse","transect observations","syrphidae","family","syrphids",0.03030303,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2012","rays_greenhouse","transect observations","syrphidae","family","syrphids",0.012658228,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2012","rays_greenhouse","transect observations","syrphidae","family","syrphids",0.012658228,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2012","sankanac","transect observations","syrphidae","family","syrphids",0.041666667,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2012","sankanac","transect observations","syrphidae","family","syrphids",0.020833333,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2012","sankanac","transect observations","syrphidae","family","syrphids",0.03030303,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2012","sankanac","transect observations","syrphidae","family","syrphids",0.016949153,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2012","sankanac","transect observations","syrphidae","family","syrphids",0.032258065,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2012","terhune","transect observations","syrphidae","family","syrphids",0.035087719,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2012","terhune","transect observations","syrphidae","family","syrphids",0.083333333,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2012","terhune","transect observations","syrphidae","family","syrphids",0.053571429,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2012","traugers","transect observations","syrphidae","family","syrphids",0.010989011,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2012","traugers","transect observations","syrphidae","family","syrphids",0.016666667,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2012","watershed","transect observations","syrphidae","family","syrphids",0.034482759,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.",NA
"Rachael_Winfree_Citrullus_lanatus_USA_2012","anchor_run","transect observations","wild_bee_unknown","superfamily","other_wild_bees",0.010989011,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.","Apoidea?"
"Rachael_Winfree_Citrullus_lanatus_USA_2012","anchor_run","transect observations","wild_bee_unknown","superfamily","other_wild_bees",0.01,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.","Apoidea?"
"Rachael_Winfree_Citrullus_lanatus_USA_2012","anchor_run","transect observations","wild_bee_unknown","superfamily","other_wild_bees",0.02247191,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.","Apoidea?"
"Rachael_Winfree_Citrullus_lanatus_USA_2012","anchor_run","transect observations","wild_bee_unknown","superfamily","other_wild_bees",0.05,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.","Apoidea?"
"Rachael_Winfree_Citrullus_lanatus_USA_2012","anchor_run","transect observations","wild_bee_unknown","superfamily","other_wild_bees",0.035714286,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.","Apoidea?"
"Rachael_Winfree_Citrullus_lanatus_USA_2012","anchor_run","transect observations","wild_bee_unknown","superfamily","other_wild_bees",0.016129032,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.","Apoidea?"
"Rachael_Winfree_Citrullus_lanatus_USA_2012","anchor_run","transect observations","wild_bee_unknown","superfamily","other_wild_bees",0.041666667,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.","Apoidea?"
"Rachael_Winfree_Citrullus_lanatus_USA_2012","anchor_run","transect observations","wild_bee_unknown","superfamily","other_wild_bees",0.041666667,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.","Apoidea?"
"Rachael_Winfree_Citrullus_lanatus_USA_2012","branch","transect observations","wild_bee_unknown","superfamily","other_wild_bees",0.011494253,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.","Apoidea?"
"Rachael_Winfree_Citrullus_lanatus_USA_2012","branch","transect observations","wild_bee_unknown","superfamily","other_wild_bees",0.028301887,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.","Apoidea?"
"Rachael_Winfree_Citrullus_lanatus_USA_2012","branch","transect observations","wild_bee_unknown","superfamily","other_wild_bees",0.074074074,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.","Apoidea?"
"Rachael_Winfree_Citrullus_lanatus_USA_2012","branch","transect observations","wild_bee_unknown","superfamily","other_wild_bees",0.047619048,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.","Apoidea?"
"Rachael_Winfree_Citrullus_lanatus_USA_2012","branch","transect observations","wild_bee_unknown","superfamily","other_wild_bees",0.073529412,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.","Apoidea?"
"Rachael_Winfree_Citrullus_lanatus_USA_2012","branch","transect observations","wild_bee_unknown","superfamily","other_wild_bees",0.093333333,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.","Apoidea?"
"Rachael_Winfree_Citrullus_lanatus_USA_2012","bridge","transect observations","wild_bee_unknown","superfamily","other_wild_bees",0.036363636,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.","Apoidea?"
"Rachael_Winfree_Citrullus_lanatus_USA_2012","bridge","transect observations","wild_bee_unknown","superfamily","other_wild_bees",0.131147541,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.","Apoidea?"
"Rachael_Winfree_Citrullus_lanatus_USA_2012","bridge","transect observations","wild_bee_unknown","superfamily","other_wild_bees",0.127272727,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.","Apoidea?"
"Rachael_Winfree_Citrullus_lanatus_USA_2012","bridge","transect observations","wild_bee_unknown","superfamily","other_wild_bees",0.126984127,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.","Apoidea?"
"Rachael_Winfree_Citrullus_lanatus_USA_2012","bridge","transect observations","wild_bee_unknown","superfamily","other_wild_bees",0.046153846,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.","Apoidea?"
"Rachael_Winfree_Citrullus_lanatus_USA_2012","bridge","transect observations","wild_bee_unknown","superfamily","other_wild_bees",0.035087719,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.","Apoidea?"
"Rachael_Winfree_Citrullus_lanatus_USA_2012","bridge","transect observations","wild_bee_unknown","superfamily","other_wild_bees",0.161290323,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.","Apoidea?"
"Rachael_Winfree_Citrullus_lanatus_USA_2012","bridge","transect observations","wild_bee_unknown","superfamily","other_wild_bees",0.15625,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.","Apoidea?"
"Rachael_Winfree_Citrullus_lanatus_USA_2012","cedar_ridge","transect observations","wild_bee_unknown","superfamily","other_wild_bees",0.072727273,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.","Apoidea?"
"Rachael_Winfree_Citrullus_lanatus_USA_2012","cedar_ridge","transect observations","wild_bee_unknown","superfamily","other_wild_bees",0.125,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.","Apoidea?"
"Rachael_Winfree_Citrullus_lanatus_USA_2012","cedar_ridge","transect observations","wild_bee_unknown","superfamily","other_wild_bees",0.137931034,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.","Apoidea?"
"Rachael_Winfree_Citrullus_lanatus_USA_2012","cedar_ridge","transect observations","wild_bee_unknown","superfamily","other_wild_bees",0.019230769,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.","Apoidea?"
"Rachael_Winfree_Citrullus_lanatus_USA_2012","cedar_ridge","transect observations","wild_bee_unknown","superfamily","other_wild_bees",0.275862069,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.","Apoidea?"
"Rachael_Winfree_Citrullus_lanatus_USA_2012","cedar_ridge","transect observations","wild_bee_unknown","superfamily","other_wild_bees",0.145454545,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.","Apoidea?"
"Rachael_Winfree_Citrullus_lanatus_USA_2012","cedar_ridge","transect observations","wild_bee_unknown","superfamily","other_wild_bees",0.088235294,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.","Apoidea?"
"Rachael_Winfree_Citrullus_lanatus_USA_2012","cedar_ridge","transect observations","wild_bee_unknown","superfamily","other_wild_bees",0.046875,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.","Apoidea?"
"Rachael_Winfree_Citrullus_lanatus_USA_2012","cherry_grove","transect observations","wild_bee_unknown","superfamily","other_wild_bees",0.030769231,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.","Apoidea?"
"Rachael_Winfree_Citrullus_lanatus_USA_2012","cherry_grove","transect observations","wild_bee_unknown","superfamily","other_wild_bees",0.075,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.","Apoidea?"
"Rachael_Winfree_Citrullus_lanatus_USA_2012","cherry_grove","transect observations","wild_bee_unknown","superfamily","other_wild_bees",0.092105263,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.","Apoidea?"
"Rachael_Winfree_Citrullus_lanatus_USA_2012","cherry_grove","transect observations","wild_bee_unknown","superfamily","other_wild_bees",0.088235294,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.","Apoidea?"
"Rachael_Winfree_Citrullus_lanatus_USA_2012","cherry_grove","transect observations","wild_bee_unknown","superfamily","other_wild_bees",0.085714286,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.","Apoidea?"
"Rachael_Winfree_Citrullus_lanatus_USA_2012","cherry_grove","transect observations","wild_bee_unknown","superfamily","other_wild_bees",0.039215686,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.","Apoidea?"
"Rachael_Winfree_Citrullus_lanatus_USA_2012","cherry_grove","transect observations","wild_bee_unknown","superfamily","other_wild_bees",0.186440678,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.","Apoidea?"
"Rachael_Winfree_Citrullus_lanatus_USA_2012","cherry_grove","transect observations","wild_bee_unknown","superfamily","other_wild_bees",0.309090909,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.","Apoidea?"
"Rachael_Winfree_Citrullus_lanatus_USA_2012","del_val","transect observations","wild_bee_unknown","superfamily","other_wild_bees",0.016129032,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.","Apoidea?"
"Rachael_Winfree_Citrullus_lanatus_USA_2012","lee","transect observations","wild_bee_unknown","superfamily","other_wild_bees",0.012048193,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.","Apoidea?"
"Rachael_Winfree_Citrullus_lanatus_USA_2012","lee","transect observations","wild_bee_unknown","superfamily","other_wild_bees",0.034883721,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.","Apoidea?"
"Rachael_Winfree_Citrullus_lanatus_USA_2012","lee","transect observations","wild_bee_unknown","superfamily","other_wild_bees",0.01369863,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.","Apoidea?"
"Rachael_Winfree_Citrullus_lanatus_USA_2012","lee","transect observations","wild_bee_unknown","superfamily","other_wild_bees",0.060606061,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.","Apoidea?"
"Rachael_Winfree_Citrullus_lanatus_USA_2012","lee","transect observations","wild_bee_unknown","superfamily","other_wild_bees",0.025316456,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.","Apoidea?"
"Rachael_Winfree_Citrullus_lanatus_USA_2012","lee","transect observations","wild_bee_unknown","superfamily","other_wild_bees",0.034090909,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.","Apoidea?"
"Rachael_Winfree_Citrullus_lanatus_USA_2012","lee","transect observations","wild_bee_unknown","superfamily","other_wild_bees",0.026666667,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.","Apoidea?"
"Rachael_Winfree_Citrullus_lanatus_USA_2012","little_acres","transect observations","wild_bee_unknown","superfamily","other_wild_bees",0.012195122,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.","Apoidea?"
"Rachael_Winfree_Citrullus_lanatus_USA_2012","little_acres","transect observations","wild_bee_unknown","superfamily","other_wild_bees",0.016949153,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.","Apoidea?"
"Rachael_Winfree_Citrullus_lanatus_USA_2012","little_acres","transect observations","wild_bee_unknown","superfamily","other_wild_bees",0.166666667,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.","Apoidea?"
"Rachael_Winfree_Citrullus_lanatus_USA_2012","little_acres","transect observations","wild_bee_unknown","superfamily","other_wild_bees",0.075471698,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.","Apoidea?"
"Rachael_Winfree_Citrullus_lanatus_USA_2012","little_acres","transect observations","wild_bee_unknown","superfamily","other_wild_bees",0.326923077,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.","Apoidea?"
"Rachael_Winfree_Citrullus_lanatus_USA_2012","little_acres","transect observations","wild_bee_unknown","superfamily","other_wild_bees",0.021276596,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.","Apoidea?"
"Rachael_Winfree_Citrullus_lanatus_USA_2012","nonsuch","transect observations","wild_bee_unknown","superfamily","other_wild_bees",0.012345679,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.","Apoidea?"
"Rachael_Winfree_Citrullus_lanatus_USA_2012","nonsuch","transect observations","wild_bee_unknown","superfamily","other_wild_bees",0.024390244,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.","Apoidea?"
"Rachael_Winfree_Citrullus_lanatus_USA_2012","nonsuch","transect observations","wild_bee_unknown","superfamily","other_wild_bees",0.013888889,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.","Apoidea?"
"Rachael_Winfree_Citrullus_lanatus_USA_2012","nonsuch","transect observations","wild_bee_unknown","superfamily","other_wild_bees",0.029411765,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.","Apoidea?"
"Rachael_Winfree_Citrullus_lanatus_USA_2012","pennvt","transect observations","wild_bee_unknown","superfamily","other_wild_bees",0.019607843,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.","Apoidea?"
"Rachael_Winfree_Citrullus_lanatus_USA_2012","phillips","transect observations","wild_bee_unknown","superfamily","other_wild_bees",0.015384615,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.","Apoidea?"
"Rachael_Winfree_Citrullus_lanatus_USA_2012","phillips","transect observations","wild_bee_unknown","superfamily","other_wild_bees",0.017241379,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.","Apoidea?"
"Rachael_Winfree_Citrullus_lanatus_USA_2012","rays_greenhouse","transect observations","wild_bee_unknown","superfamily","other_wild_bees",0.038461538,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.","Apoidea?"
"Rachael_Winfree_Citrullus_lanatus_USA_2012","rays_greenhouse","transect observations","wild_bee_unknown","superfamily","other_wild_bees",0.015151515,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.","Apoidea?"
"Rachael_Winfree_Citrullus_lanatus_USA_2012","rays_greenhouse","transect observations","wild_bee_unknown","superfamily","other_wild_bees",0.086206897,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.","Apoidea?"
"Rachael_Winfree_Citrullus_lanatus_USA_2012","rays_greenhouse","transect observations","wild_bee_unknown","superfamily","other_wild_bees",0.133333333,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.","Apoidea?"
"Rachael_Winfree_Citrullus_lanatus_USA_2012","rays_greenhouse","transect observations","wild_bee_unknown","superfamily","other_wild_bees",0.075949367,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.","Apoidea?"
"Rachael_Winfree_Citrullus_lanatus_USA_2012","sankanac","transect observations","wild_bee_unknown","superfamily","other_wild_bees",0.020833333,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.","Apoidea?"
"Rachael_Winfree_Citrullus_lanatus_USA_2012","sankanac","transect observations","wild_bee_unknown","superfamily","other_wild_bees",0.104166667,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.","Apoidea?"
"Rachael_Winfree_Citrullus_lanatus_USA_2012","sankanac","transect observations","wild_bee_unknown","superfamily","other_wild_bees",0.015151515,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.","Apoidea?"
"Rachael_Winfree_Citrullus_lanatus_USA_2012","sankanac","transect observations","wild_bee_unknown","superfamily","other_wild_bees",0.072463768,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.","Apoidea?"
"Rachael_Winfree_Citrullus_lanatus_USA_2012","sankanac","transect observations","wild_bee_unknown","superfamily","other_wild_bees",0.027027027,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.","Apoidea?"
"Rachael_Winfree_Citrullus_lanatus_USA_2012","sankanac","transect observations","wild_bee_unknown","superfamily","other_wild_bees",0.050847458,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.","Apoidea?"
"Rachael_Winfree_Citrullus_lanatus_USA_2012","sankanac","transect observations","wild_bee_unknown","superfamily","other_wild_bees",0.096774194,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.","Apoidea?"
"Rachael_Winfree_Citrullus_lanatus_USA_2012","sankanac","transect observations","wild_bee_unknown","superfamily","other_wild_bees",0.176470588,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.","Apoidea?"
"Rachael_Winfree_Citrullus_lanatus_USA_2012","sunrise_sunflower","transect observations","wild_bee_unknown","superfamily","other_wild_bees",0.018867925,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.","Apoidea?"
"Rachael_Winfree_Citrullus_lanatus_USA_2012","sunrise_sunflower","transect observations","wild_bee_unknown","superfamily","other_wild_bees",0.016129032,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.","Apoidea?"
"Rachael_Winfree_Citrullus_lanatus_USA_2012","sunrise_sunflower","transect observations","wild_bee_unknown","superfamily","other_wild_bees",0.016949153,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.","Apoidea?"
"Rachael_Winfree_Citrullus_lanatus_USA_2012","sunrise_sunflower","transect observations","wild_bee_unknown","superfamily","other_wild_bees",0.016949153,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.","Apoidea?"
"Rachael_Winfree_Citrullus_lanatus_USA_2012","sunrise_sunflower","transect observations","wild_bee_unknown","superfamily","other_wild_bees",0.086206897,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.","Apoidea?"
"Rachael_Winfree_Citrullus_lanatus_USA_2012","sunrise_sunflower","transect observations","wild_bee_unknown","superfamily","other_wild_bees",0.051724138,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.","Apoidea?"
"Rachael_Winfree_Citrullus_lanatus_USA_2012","terhune","transect observations","wild_bee_unknown","superfamily","other_wild_bees",0.041666667,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.","Apoidea?"
"Rachael_Winfree_Citrullus_lanatus_USA_2012","terhune","transect observations","wild_bee_unknown","superfamily","other_wild_bees",0.042253521,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.","Apoidea?"
"Rachael_Winfree_Citrullus_lanatus_USA_2012","terhune","transect observations","wild_bee_unknown","superfamily","other_wild_bees",0.081967213,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.","Apoidea?"
"Rachael_Winfree_Citrullus_lanatus_USA_2012","terhune","transect observations","wild_bee_unknown","superfamily","other_wild_bees",0.052631579,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.","Apoidea?"
"Rachael_Winfree_Citrullus_lanatus_USA_2012","terhune","transect observations","wild_bee_unknown","superfamily","other_wild_bees",0.183333333,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.","Apoidea?"
"Rachael_Winfree_Citrullus_lanatus_USA_2012","terhune","transect observations","wild_bee_unknown","superfamily","other_wild_bees",0.089285714,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.","Apoidea?"
"Rachael_Winfree_Citrullus_lanatus_USA_2012","terhune","transect observations","wild_bee_unknown","superfamily","other_wild_bees",0.023255814,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.","Apoidea?"
"Rachael_Winfree_Citrullus_lanatus_USA_2012","terhune","transect observations","wild_bee_unknown","superfamily","other_wild_bees",0.036144578,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.","Apoidea?"
"Rachael_Winfree_Citrullus_lanatus_USA_2012","traugers","transect observations","wild_bee_unknown","superfamily","other_wild_bees",0.016666667,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.","Apoidea?"
"Rachael_Winfree_Citrullus_lanatus_USA_2012","traugers","transect observations","wild_bee_unknown","superfamily","other_wild_bees",0.048387097,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.","Apoidea?"
"Rachael_Winfree_Citrullus_lanatus_USA_2012","traugers","transect observations","wild_bee_unknown","superfamily","other_wild_bees",0.083333333,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.","Apoidea?"
"Rachael_Winfree_Citrullus_lanatus_USA_2012","watershed","transect observations","wild_bee_unknown","superfamily","other_wild_bees",0.044117647,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.","Apoidea?"
"Rachael_Winfree_Citrullus_lanatus_USA_2012","watershed","transect observations","wild_bee_unknown","superfamily","other_wild_bees",0.015151515,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.","Apoidea?"
"Rachael_Winfree_Citrullus_lanatus_USA_2012","watershed","transect observations","wild_bee_unknown","superfamily","other_wild_bees",0.033333333,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.","Apoidea?"
"Rachael_Winfree_Citrullus_lanatus_USA_2012","watershed","transect observations","wild_bee_unknown","superfamily","other_wild_bees",0.012195122,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.","Apoidea?"
"Rachael_Winfree_Citrullus_lanatus_USA_2012","watershed","transect observations","wild_bee_unknown","superfamily","other_wild_bees",0.017241379,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.","Apoidea?"
"Rachael_Winfree_Citrullus_lanatus_USA_2012","watershed","transect observations","wild_bee_unknown","superfamily","other_wild_bees",0.032786885,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.","Apoidea?"
"Rachael_Winfree_Citrullus_lanatus_USA_2012","watershed","transect observations","wild_bee_unknown","superfamily","other_wild_bees",0.014705882,450,270,NA,"Pollinators were observed for a total of 30 minutes along a 50-m transect of crop row (within each transect, 40 equally spaced points were scanned for 45-s each).  Each transect was censused 3 times per day.  Sites were visited only once per year in 2008, but 3 times per year in 2010-2012.  Visits were divided by the number of flowers to calculate visitation rates.","Apoidea?"
"Rachael_Winfree_Cucumis_melo_USA_2004","tra","transect","Agapostemon_texanus","species","other_wild_bees",1,50,30,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited once.",NA
"Rachael_Winfree_Cucumis_melo_USA_2004","tra","transect","Andrena_wilkella","species","other_wild_bees",1,50,30,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited once.",NA
"Rachael_Winfree_Cucumis_melo_USA_2004","map","transect","Augochlora_pura","species","other_wild_bees",1,50,30,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited once.",NA
"Rachael_Winfree_Cucumis_melo_USA_2004","map","transect","Augochlora_pura","species","other_wild_bees",1,50,30,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited once.",NA
"Rachael_Winfree_Cucumis_melo_USA_2004","map","transect","Augochlora_pura","species","other_wild_bees",1,50,30,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited once.",NA
"Rachael_Winfree_Cucumis_melo_USA_2004","map","transect","Augochlora_pura","species","other_wild_bees",1,50,30,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited once.",NA
"Rachael_Winfree_Cucumis_melo_USA_2004","ray","transect","Augochlora_pura","species","other_wild_bees",1,50,30,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited once.",NA
"Rachael_Winfree_Cucumis_melo_USA_2004","pen","transect","Augochlora_pura","species","other_wild_bees",1,50,30,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited once.",NA
"Rachael_Winfree_Cucumis_melo_USA_2004","del","transect","Augochlora_pura","species","other_wild_bees",1,50,30,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited once.",NA
"Rachael_Winfree_Cucumis_melo_USA_2004","del","transect","Augochlora_pura","species","other_wild_bees",1,50,30,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited once.",NA
"Rachael_Winfree_Cucumis_melo_USA_2004","del","transect","Augochlora_pura","species","other_wild_bees",1,50,30,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited once.",NA
"Rachael_Winfree_Cucumis_melo_USA_2004","lit","transect","Augochlora_pura","species","other_wild_bees",1,50,30,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited once.",NA
"Rachael_Winfree_Cucumis_melo_USA_2004","tra","transect","Augochlora_pura","species","other_wild_bees",1,50,30,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited once.",NA
"Rachael_Winfree_Cucumis_melo_USA_2004","bar","transect","Augochlora_pura","species","other_wild_bees",1,50,30,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited once.",NA
"Rachael_Winfree_Cucumis_melo_USA_2004","bar","transect","Augochlora_pura","species","other_wild_bees",1,50,30,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited once.",NA
"Rachael_Winfree_Cucumis_melo_USA_2004","bar","transect","Augochlora_pura","species","other_wild_bees",1,50,30,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited once.",NA
"Rachael_Winfree_Cucumis_melo_USA_2004","bar","transect","Augochlora_pura","species","other_wild_bees",1,50,30,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited once.",NA
"Rachael_Winfree_Cucumis_melo_USA_2004","bar","transect","Augochlora_pura","species","other_wild_bees",1,50,30,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited once.",NA
"Rachael_Winfree_Cucumis_melo_USA_2004","bar","transect","Augochlora_pura","species","other_wild_bees",1,50,30,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited once.",NA
"Rachael_Winfree_Cucumis_melo_USA_2004","bar","transect","Augochlora_pura","species","other_wild_bees",1,50,30,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited once.",NA
"Rachael_Winfree_Cucumis_melo_USA_2004","bar","transect","Augochlora_pura","species","other_wild_bees",1,50,30,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited once.",NA
"Rachael_Winfree_Cucumis_melo_USA_2004","spr","transect","Augochlorella_aurata","species","other_wild_bees",1,50,30,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited once.",NA
"Rachael_Winfree_Cucumis_melo_USA_2004","spr","transect","Augochlorella_aurata","species","other_wild_bees",1,50,30,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited once.",NA
"Rachael_Winfree_Cucumis_melo_USA_2004","spr","transect","Augochlorella_aurata","species","other_wild_bees",1,50,30,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited once.",NA
"Rachael_Winfree_Cucumis_melo_USA_2004","ker","transect","Bombus_bimaculatus","species","bumblebees",1,50,30,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited once.",NA
"Rachael_Winfree_Cucumis_melo_USA_2004","ker","transect","Bombus_bimaculatus","species","bumblebees",1,50,30,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited once.",NA
"Rachael_Winfree_Cucumis_melo_USA_2004","ter","transect","Bombus_fervidus","species","bumblebees",1,50,30,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited once.",NA
"Rachael_Winfree_Cucumis_melo_USA_2004","map","transect","Bombus_impatiens","species","bumblebees",1,50,30,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited once.",NA
"Rachael_Winfree_Cucumis_melo_USA_2004","map","transect","Bombus_impatiens","species","bumblebees",1,50,30,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited once.",NA
"Rachael_Winfree_Cucumis_melo_USA_2004","map","transect","Bombus_impatiens","species","bumblebees",1,50,30,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited once.",NA
"Rachael_Winfree_Cucumis_melo_USA_2004","non","transect","Bombus_impatiens","species","bumblebees",1,50,30,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited once.",NA
"Rachael_Winfree_Cucumis_melo_USA_2004","non","transect","Bombus_impatiens","species","bumblebees",1,50,30,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited once.",NA
"Rachael_Winfree_Cucumis_melo_USA_2004","del","transect","Bombus_impatiens","species","bumblebees",1,50,30,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited once.",NA
"Rachael_Winfree_Cucumis_melo_USA_2004","lit","transect","Bombus_impatiens","species","bumblebees",1,50,30,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited once.",NA
"Rachael_Winfree_Cucumis_melo_USA_2004","lit","transect","Bombus_impatiens","species","bumblebees",1,50,30,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited once.",NA
"Rachael_Winfree_Cucumis_melo_USA_2004","ker","transect","Bombus_impatiens","species","bumblebees",1,50,30,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited once.",NA
"Rachael_Winfree_Cucumis_melo_USA_2004","phi","transect","Bombus_impatiens","species","bumblebees",1,50,30,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited once.",NA
"Rachael_Winfree_Cucumis_melo_USA_2004","phi","transect","Bombus_impatiens","species","bumblebees",1,50,30,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited once.",NA
"Rachael_Winfree_Cucumis_melo_USA_2004","phi","transect","Bombus_impatiens","species","bumblebees",1,50,30,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited once.",NA
"Rachael_Winfree_Cucumis_melo_USA_2004","phi","transect","Bombus_impatiens","species","bumblebees",1,50,30,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited once.",NA
"Rachael_Winfree_Cucumis_melo_USA_2004","phi","transect","Bombus_impatiens","species","bumblebees",1,50,30,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited once.",NA
"Rachael_Winfree_Cucumis_melo_USA_2004","phi","transect","Bombus_impatiens","species","bumblebees",1,50,30,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited once.",NA
"Rachael_Winfree_Cucumis_melo_USA_2004","phi","transect","Bombus_impatiens","species","bumblebees",1,50,30,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited once.",NA
"Rachael_Winfree_Cucumis_melo_USA_2004","phi","transect","Bombus_impatiens","species","bumblebees",1,50,30,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited once.",NA
"Rachael_Winfree_Cucumis_melo_USA_2004","phi","transect","Bombus_impatiens","species","bumblebees",1,50,30,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited once.",NA
"Rachael_Winfree_Cucumis_melo_USA_2004","phi","transect","Bombus_impatiens","species","bumblebees",1,50,30,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited once.",NA
"Rachael_Winfree_Cucumis_melo_USA_2004","phi","transect","Bombus_impatiens","species","bumblebees",1,50,30,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited once.",NA
"Rachael_Winfree_Cucumis_melo_USA_2004","phi","transect","Bombus_impatiens","species","bumblebees",1,50,30,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited once.",NA
"Rachael_Winfree_Cucumis_melo_USA_2004","phi","transect","Bombus_impatiens","species","bumblebees",1,50,30,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited once.",NA
"Rachael_Winfree_Cucumis_melo_USA_2004","phi","transect","Bombus_impatiens","species","bumblebees",1,50,30,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited once.",NA
"Rachael_Winfree_Cucumis_melo_USA_2004","phi","transect","Bombus_impatiens","species","bumblebees",1,50,30,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited once.",NA
"Rachael_Winfree_Cucumis_melo_USA_2004","ter","transect","Bombus_impatiens","species","bumblebees",1,50,30,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited once.",NA
"Rachael_Winfree_Cucumis_melo_USA_2004","ter","transect","Bombus_impatiens","species","bumblebees",1,50,30,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited once.",NA
"Rachael_Winfree_Cucumis_melo_USA_2004","spr","transect","Bombus_impatiens","species","bumblebees",1,50,30,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited once.",NA
"Rachael_Winfree_Cucumis_melo_USA_2004","spr","transect","Bombus_impatiens","species","bumblebees",1,50,30,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited once.",NA
"Rachael_Winfree_Cucumis_melo_USA_2004","spr","transect","Bombus_impatiens","species","bumblebees",1,50,30,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited once.",NA
"Rachael_Winfree_Cucumis_melo_USA_2004","spr","transect","Bombus_impatiens","species","bumblebees",1,50,30,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited once.",NA
"Rachael_Winfree_Cucumis_melo_USA_2004","spr","transect","Bombus_impatiens","species","bumblebees",1,50,30,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited once.",NA
"Rachael_Winfree_Cucumis_melo_USA_2004","spr","transect","Bombus_impatiens","species","bumblebees",1,50,30,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited once.",NA
"Rachael_Winfree_Cucumis_melo_USA_2004","spr","transect","Bombus_impatiens","species","bumblebees",1,50,30,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited once.",NA
"Rachael_Winfree_Cucumis_melo_USA_2004","spr","transect","Bombus_impatiens","species","bumblebees",1,50,30,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited once.",NA
"Rachael_Winfree_Cucumis_melo_USA_2004","spr","transect","Bombus_impatiens","species","bumblebees",1,50,30,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited once.",NA
"Rachael_Winfree_Cucumis_melo_USA_2004","spr","transect","Bombus_impatiens","species","bumblebees",1,50,30,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited once.",NA
"Rachael_Winfree_Cucumis_melo_USA_2004","spr","transect","Bombus_impatiens","species","bumblebees",1,50,30,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited once.",NA
"Rachael_Winfree_Cucumis_melo_USA_2004","spr","transect","Bombus_impatiens","species","bumblebees",1,50,30,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited once.",NA
"Rachael_Winfree_Cucumis_melo_USA_2004","spr","transect","Bombus_impatiens","species","bumblebees",1,50,30,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited once.",NA
"Rachael_Winfree_Cucumis_melo_USA_2004","tra","transect","Bombus_impatiens","species","bumblebees",1,50,30,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited once.",NA
"Rachael_Winfree_Cucumis_melo_USA_2004","tra","transect","Bombus_impatiens","species","bumblebees",1,50,30,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited once.",NA
"Rachael_Winfree_Cucumis_melo_USA_2004","tra","transect","Bombus_impatiens","species","bumblebees",1,50,30,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited once.",NA
"Rachael_Winfree_Cucumis_melo_USA_2004","tra","transect","Bombus_impatiens","species","bumblebees",1,50,30,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited once.",NA
"Rachael_Winfree_Cucumis_melo_USA_2004","tra","transect","Bombus_impatiens","species","bumblebees",1,50,30,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited once.",NA
"Rachael_Winfree_Cucumis_melo_USA_2004","bar","transect","Bombus_impatiens","species","bumblebees",1,50,30,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited once.",NA
"Rachael_Winfree_Cucumis_melo_USA_2004","bar","transect","Bombus_impatiens","species","bumblebees",1,50,30,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited once.",NA
"Rachael_Winfree_Cucumis_melo_USA_2004","bar","transect","Bombus_impatiens","species","bumblebees",1,50,30,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited once.",NA
"Rachael_Winfree_Cucumis_melo_USA_2004","bar","transect","Bombus_impatiens","species","bumblebees",1,50,30,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited once.",NA
"Rachael_Winfree_Cucumis_melo_USA_2004","bar","transect","Bombus_impatiens","species","bumblebees",1,50,30,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited once.",NA
"Rachael_Winfree_Cucumis_melo_USA_2004","bar","transect","Bombus_impatiens","species","bumblebees",1,50,30,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited once.",NA
"Rachael_Winfree_Cucumis_melo_USA_2004","bar","transect","Bombus_impatiens","species","bumblebees",1,50,30,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited once.",NA
"Rachael_Winfree_Cucumis_melo_USA_2004","phi","transect","Bombus_perplexus","species","bumblebees",1,50,30,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited once.",NA
"Rachael_Winfree_Cucumis_melo_USA_2004","map","transect","Ceratina_calcarata_dupla","species","other_wild_bees",1,50,30,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited once.",NA
"Rachael_Winfree_Cucumis_melo_USA_2004","map","transect","Ceratina_calcarata_dupla","species","other_wild_bees",1,50,30,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited once.",NA
"Rachael_Winfree_Cucumis_melo_USA_2004","del","transect","Ceratina_calcarata_dupla","species","other_wild_bees",1,50,30,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited once.",NA
"Rachael_Winfree_Cucumis_melo_USA_2004","del","transect","Ceratina_calcarata_dupla","species","other_wild_bees",1,50,30,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited once.",NA
"Rachael_Winfree_Cucumis_melo_USA_2004","del","transect","Ceratina_calcarata_dupla","species","other_wild_bees",1,50,30,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited once.",NA
"Rachael_Winfree_Cucumis_melo_USA_2004","del","transect","Ceratina_calcarata_dupla","species","other_wild_bees",1,50,30,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited once.",NA
"Rachael_Winfree_Cucumis_melo_USA_2004","del","transect","Ceratina_calcarata_dupla","species","other_wild_bees",1,50,30,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited once.",NA
"Rachael_Winfree_Cucumis_melo_USA_2004","lee","transect","Ceratina_calcarata_dupla","species","other_wild_bees",1,50,30,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited once.",NA
"Rachael_Winfree_Cucumis_melo_USA_2004","spr","transect","Ceratina_calcarata_dupla","species","other_wild_bees",1,50,30,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited once.",NA
"Rachael_Winfree_Cucumis_melo_USA_2004","bar","transect","Ceratina_calcarata_dupla","species","other_wild_bees",1,50,30,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited once.",NA
"Rachael_Winfree_Cucumis_melo_USA_2004","bar","transect","Ceratina_calcarata_dupla","species","other_wild_bees",1,50,30,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited once.",NA
"Rachael_Winfree_Cucumis_melo_USA_2004","bar","transect","Ceratina_calcarata_dupla","species","other_wild_bees",1,50,30,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited once.",NA
"Rachael_Winfree_Cucumis_melo_USA_2004","bar","transect","Ceratina_calcarata_dupla","species","other_wild_bees",1,50,30,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited once.",NA
"Rachael_Winfree_Cucumis_melo_USA_2004","bar","transect","Ceratina_calcarata_dupla","species","other_wild_bees",1,50,30,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited once.",NA
"Rachael_Winfree_Cucumis_melo_USA_2004","pen","transect","Halictus_confusus","species","other_wild_bees",1,50,30,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited once.",NA
"Rachael_Winfree_Cucumis_melo_USA_2004","lee","transect","Halictus_confusus","species","other_wild_bees",1,50,30,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited once.",NA
"Rachael_Winfree_Cucumis_melo_USA_2004","ray","transect","Halictus_ligatus","species","other_wild_bees",1,50,30,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited once.",NA
"Rachael_Winfree_Cucumis_melo_USA_2004","tra","transect","Halictus_ligatus","species","other_wild_bees",1,50,30,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited once.",NA
"Rachael_Winfree_Cucumis_melo_USA_2004","tra","transect","Halictus_ligatus","species","other_wild_bees",1,50,30,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited once.",NA
"Rachael_Winfree_Cucumis_melo_USA_2004","tra","transect","Halictus_rubicundus","species","other_wild_bees",1,50,30,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited once.",NA
"Rachael_Winfree_Cucumis_melo_USA_2004","pen","transect","Lasioglossum_versatum","species","other_wild_bees",1,50,30,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited once.",NA
"Rachael_Winfree_Cucumis_melo_USA_2004","del","transect","Megachile_rotundata","species","other_wild_bees",1,50,30,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited once.",NA
"Rachael_Winfree_Cucumis_melo_USA_2004","tra","transect","Melissodes_bimaculata","species","other_wild_bees",1,50,30,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited once.",NA
"Rachael_Winfree_Cucumis_melo_USA_2004","non","transect","Peponapis_pruinosa","species","other_wild_bees",1,50,30,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited once.",NA
"Rachael_Winfree_Cucumis_melo_USA_2004","lit","transect","Peponapis_pruinosa","species","other_wild_bees",1,50,30,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited once.",NA
"Rachael_Winfree_Cucumis_melo_USA_2004","lit","transect","Peponapis_pruinosa","species","other_wild_bees",1,50,30,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited once.",NA
"Rachael_Winfree_Cucumis_melo_USA_2004","ter","transect","Peponapis_pruinosa","species","other_wild_bees",1,50,30,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited once.",NA
"Rachael_Winfree_Cucumis_melo_USA_2004","spr","transect","Peponapis_pruinosa","species","other_wild_bees",1,50,30,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited once.",NA
"Rachael_Winfree_Cucumis_melo_USA_2004","spr","transect","Peponapis_pruinosa","species","other_wild_bees",1,50,30,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited once.",NA
"Rachael_Winfree_Cucumis_melo_USA_2004","tra","transect","Peponapis_pruinosa","species","other_wild_bees",1,50,30,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited once.",NA
"Rachael_Winfree_Cucumis_melo_USA_2004","tra","transect","Peponapis_pruinosa","species","other_wild_bees",1,50,30,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited once.",NA
"Rachael_Winfree_Cucumis_melo_USA_2004","tra","transect","Peponapis_pruinosa","species","other_wild_bees",1,50,30,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited once.",NA
"Rachael_Winfree_Cucumis_melo_USA_2004","spr","transect","Triepeolus_remigatus","species","other_wild_bees",1,50,30,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited once.",NA
"Rachael_Winfree_Cucumis_melo_USA_2004","tra","transect","Triepeolus_remigatus","species","other_wild_bees",1,50,30,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited once.",NA
"Rachael_Winfree_Cucumis_melo_USA_2004","map","transect","Xylocopa_virginica","species","other_wild_bees",1,50,30,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited once.",NA
"Rachael_Winfree_Cucumis_melo_USA_2004","non","transect","Xylocopa_virginica","species","other_wild_bees",1,50,30,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited once.",NA
"Rachael_Winfree_Cucumis_melo_USA_2004","bar","transect","Xylocopa_virginica","species","other_wild_bees",1,50,30,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited once.",NA
"Rachael_Winfree_Malus_Domestica_USA_2004","1","netting","Andrena_carlini","species","other_wild_bees",1,NA,NA,NA,"At each site, the data collector walked through the orchard, collecting all non-Apis bees visiting apple flowers with a net. One data collection day was conducted per orchard.",NA
"Rachael_Winfree_Malus_Domestica_USA_2004","1","netting","Andrena_carlini","species","other_wild_bees",1,NA,NA,NA,"At each site, the data collector walked through the orchard, collecting all non-Apis bees visiting apple flowers with a net. One data collection day was conducted per orchard.",NA
"Rachael_Winfree_Malus_Domestica_USA_2004","1","netting","Andrena_carlini","species","other_wild_bees",1,NA,NA,NA,"At each site, the data collector walked through the orchard, collecting all non-Apis bees visiting apple flowers with a net. One data collection day was conducted per orchard.",NA
"Rachael_Winfree_Malus_Domestica_USA_2004","1","netting","Andrena_dunningi","species","other_wild_bees",1,NA,NA,NA,"At each site, the data collector walked through the orchard, collecting all non-Apis bees visiting apple flowers with a net. One data collection day was conducted per orchard.",NA
"Rachael_Winfree_Malus_Domestica_USA_2004","1","netting","Andrena_hippotes","species","other_wild_bees",1,NA,NA,NA,"At each site, the data collector walked through the orchard, collecting all non-Apis bees visiting apple flowers with a net. One data collection day was conducted per orchard.",NA
"Rachael_Winfree_Malus_Domestica_USA_2004","1","netting","Andrena_hippotes","species","other_wild_bees",1,NA,NA,NA,"At each site, the data collector walked through the orchard, collecting all non-Apis bees visiting apple flowers with a net. One data collection day was conducted per orchard.",NA
"Rachael_Winfree_Malus_Domestica_USA_2004","1","netting","Andrena_hippotes","species","other_wild_bees",1,NA,NA,NA,"At each site, the data collector walked through the orchard, collecting all non-Apis bees visiting apple flowers with a net. One data collection day was conducted per orchard.",NA
"Rachael_Winfree_Malus_Domestica_USA_2004","1","netting","Andrena_imitatrix","species","other_wild_bees",1,NA,NA,NA,"At each site, the data collector walked through the orchard, collecting all non-Apis bees visiting apple flowers with a net. One data collection day was conducted per orchard.",NA
"Rachael_Winfree_Malus_Domestica_USA_2004","1","netting","Andrena_imitatrix","species","other_wild_bees",1,NA,NA,NA,"At each site, the data collector walked through the orchard, collecting all non-Apis bees visiting apple flowers with a net. One data collection day was conducted per orchard.",NA
"Rachael_Winfree_Malus_Domestica_USA_2004","1","netting","Andrena_miserabilis","species","other_wild_bees",1,NA,NA,NA,"At each site, the data collector walked through the orchard, collecting all non-Apis bees visiting apple flowers with a net. One data collection day was conducted per orchard.",NA
"Rachael_Winfree_Malus_Domestica_USA_2004","1","netting","Andrena_nuda","species","other_wild_bees",1,NA,NA,NA,"At each site, the data collector walked through the orchard, collecting all non-Apis bees visiting apple flowers with a net. One data collection day was conducted per orchard.",NA
"Rachael_Winfree_Malus_Domestica_USA_2004","1","netting","Andrena_nuda","species","other_wild_bees",1,NA,NA,NA,"At each site, the data collector walked through the orchard, collecting all non-Apis bees visiting apple flowers with a net. One data collection day was conducted per orchard.",NA
"Rachael_Winfree_Malus_Domestica_USA_2004","1","netting","Andrena_perplexa","species","other_wild_bees",1,NA,NA,NA,"At each site, the data collector walked through the orchard, collecting all non-Apis bees visiting apple flowers with a net. One data collection day was conducted per orchard.",NA
"Rachael_Winfree_Malus_Domestica_USA_2004","1","netting","Bombus_impatiens","species","bumblebees",1,NA,NA,NA,"At each site, the data collector walked through the orchard, collecting all non-Apis bees visiting apple flowers with a net. One data collection day was conducted per orchard.",NA
"Rachael_Winfree_Malus_Domestica_USA_2004","1","netting","Ceratina_calcarata","species","other_wild_bees",1,NA,NA,NA,"At each site, the data collector walked through the orchard, collecting all non-Apis bees visiting apple flowers with a net. One data collection day was conducted per orchard.",NA
"Rachael_Winfree_Malus_Domestica_USA_2004","1","netting","Ceratina_calcarata","species","other_wild_bees",1,NA,NA,NA,"At each site, the data collector walked through the orchard, collecting all non-Apis bees visiting apple flowers with a net. One data collection day was conducted per orchard.",NA
"Rachael_Winfree_Malus_Domestica_USA_2004","1","netting","Ceratina_calcarata","species","other_wild_bees",1,NA,NA,NA,"At each site, the data collector walked through the orchard, collecting all non-Apis bees visiting apple flowers with a net. One data collection day was conducted per orchard.",NA
"Rachael_Winfree_Malus_Domestica_USA_2004","1","netting","Ceratina_calcarata","species","other_wild_bees",1,NA,NA,NA,"At each site, the data collector walked through the orchard, collecting all non-Apis bees visiting apple flowers with a net. One data collection day was conducted per orchard.",NA
"Rachael_Winfree_Malus_Domestica_USA_2004","1","netting","Ceratina_calcarata","species","other_wild_bees",1,NA,NA,NA,"At each site, the data collector walked through the orchard, collecting all non-Apis bees visiting apple flowers with a net. One data collection day was conducted per orchard.",NA
"Rachael_Winfree_Malus_Domestica_USA_2004","1","netting","Ceratina_calcarata","species","other_wild_bees",1,NA,NA,NA,"At each site, the data collector walked through the orchard, collecting all non-Apis bees visiting apple flowers with a net. One data collection day was conducted per orchard.",NA
"Rachael_Winfree_Malus_Domestica_USA_2004","1","netting","Ceratina_calcarata","species","other_wild_bees",1,NA,NA,NA,"At each site, the data collector walked through the orchard, collecting all non-Apis bees visiting apple flowers with a net. One data collection day was conducted per orchard.",NA
"Rachael_Winfree_Malus_Domestica_USA_2004","1","netting","Ceratina_calcarata","species","other_wild_bees",1,NA,NA,NA,"At each site, the data collector walked through the orchard, collecting all non-Apis bees visiting apple flowers with a net. One data collection day was conducted per orchard.",NA
"Rachael_Winfree_Malus_Domestica_USA_2004","1","netting","Ceratina_calcarata","species","other_wild_bees",1,NA,NA,NA,"At each site, the data collector walked through the orchard, collecting all non-Apis bees visiting apple flowers with a net. One data collection day was conducted per orchard.",NA
"Rachael_Winfree_Malus_Domestica_USA_2004","1","netting","Lasioglossum_versatum","species","other_wild_bees",1,NA,NA,NA,"At each site, the data collector walked through the orchard, collecting all non-Apis bees visiting apple flowers with a net. One data collection day was conducted per orchard.",NA
"Rachael_Winfree_Malus_Domestica_USA_2004","2","netting","Andrena_carlini","species","other_wild_bees",1,NA,NA,NA,"At each site, the data collector walked through the orchard, collecting all non-Apis bees visiting apple flowers with a net. One data collection day was conducted per orchard.",NA
"Rachael_Winfree_Malus_Domestica_USA_2004","3","netting","Andrena_carlini","species","other_wild_bees",1,NA,NA,NA,"At each site, the data collector walked through the orchard, collecting all non-Apis bees visiting apple flowers with a net. One data collection day was conducted per orchard.",NA
"Rachael_Winfree_Malus_Domestica_USA_2004","3","netting","Andrena_carlini","species","other_wild_bees",1,NA,NA,NA,"At each site, the data collector walked through the orchard, collecting all non-Apis bees visiting apple flowers with a net. One data collection day was conducted per orchard.",NA
"Rachael_Winfree_Malus_Domestica_USA_2004","4","netting","Andrena_barbara","species","other_wild_bees",1,NA,NA,NA,"At each site, the data collector walked through the orchard, collecting all non-Apis bees visiting apple flowers with a net. One data collection day was conducted per orchard.",NA
"Rachael_Winfree_Malus_Domestica_USA_2004","4","netting","Andrena_barbilabris","species","other_wild_bees",1,NA,NA,NA,"At each site, the data collector walked through the orchard, collecting all non-Apis bees visiting apple flowers with a net. One data collection day was conducted per orchard.",NA
"Rachael_Winfree_Malus_Domestica_USA_2004","4","netting","Andrena_miserabilis","species","other_wild_bees",1,NA,NA,NA,"At each site, the data collector walked through the orchard, collecting all non-Apis bees visiting apple flowers with a net. One data collection day was conducted per orchard.",NA
"Rachael_Winfree_Malus_Domestica_USA_2004","4","netting","Andrena_morrisonella","species","other_wild_bees",1,NA,NA,NA,"At each site, the data collector walked through the orchard, collecting all non-Apis bees visiting apple flowers with a net. One data collection day was conducted per orchard.",NA
"Rachael_Winfree_Malus_Domestica_USA_2004","4","netting","Andrena_morrisonella","species","other_wild_bees",1,NA,NA,NA,"At each site, the data collector walked through the orchard, collecting all non-Apis bees visiting apple flowers with a net. One data collection day was conducted per orchard.",NA
"Rachael_Winfree_Malus_Domestica_USA_2004","4","netting","Andrena_morrisonella","species","other_wild_bees",1,NA,NA,NA,"At each site, the data collector walked through the orchard, collecting all non-Apis bees visiting apple flowers with a net. One data collection day was conducted per orchard.",NA
"Rachael_Winfree_Malus_Domestica_USA_2004","4","netting","Andrena_morrisonella","species","other_wild_bees",1,NA,NA,NA,"At each site, the data collector walked through the orchard, collecting all non-Apis bees visiting apple flowers with a net. One data collection day was conducted per orchard.",NA
"Rachael_Winfree_Malus_Domestica_USA_2004","4","netting","Andrena_morrisonella","species","other_wild_bees",1,NA,NA,NA,"At each site, the data collector walked through the orchard, collecting all non-Apis bees visiting apple flowers with a net. One data collection day was conducted per orchard.",NA
"Rachael_Winfree_Malus_Domestica_USA_2004","4","netting","Andrena_morrisonella","species","other_wild_bees",1,NA,NA,NA,"At each site, the data collector walked through the orchard, collecting all non-Apis bees visiting apple flowers with a net. One data collection day was conducted per orchard.",NA
"Rachael_Winfree_Malus_Domestica_USA_2004","4","netting","Andrena_morrisonella","species","other_wild_bees",1,NA,NA,NA,"At each site, the data collector walked through the orchard, collecting all non-Apis bees visiting apple flowers with a net. One data collection day was conducted per orchard.",NA
"Rachael_Winfree_Malus_Domestica_USA_2004","4","netting","Andrena_morrisonella","species","other_wild_bees",1,NA,NA,NA,"At each site, the data collector walked through the orchard, collecting all non-Apis bees visiting apple flowers with a net. One data collection day was conducted per orchard.",NA
"Rachael_Winfree_Malus_Domestica_USA_2004","4","netting","Andrena_rugosa","species","other_wild_bees",1,NA,NA,NA,"At each site, the data collector walked through the orchard, collecting all non-Apis bees visiting apple flowers with a net. One data collection day was conducted per orchard.",NA
"Rachael_Winfree_Malus_Domestica_USA_2004","4","netting","Andrena_vicina","species","other_wild_bees",1,NA,NA,NA,"At each site, the data collector walked through the orchard, collecting all non-Apis bees visiting apple flowers with a net. One data collection day was conducted per orchard.",NA
"Rachael_Winfree_Malus_Domestica_USA_2004","4","netting","Andrena_vicina","species","other_wild_bees",1,NA,NA,NA,"At each site, the data collector walked through the orchard, collecting all non-Apis bees visiting apple flowers with a net. One data collection day was conducted per orchard.",NA
"Rachael_Winfree_Malus_Domestica_USA_2004","4","netting","Andrena_vicina","species","other_wild_bees",1,NA,NA,NA,"At each site, the data collector walked through the orchard, collecting all non-Apis bees visiting apple flowers with a net. One data collection day was conducted per orchard.",NA
"Rachael_Winfree_Malus_Domestica_USA_2004","4","netting","Andrena_vicina","species","other_wild_bees",1,NA,NA,NA,"At each site, the data collector walked through the orchard, collecting all non-Apis bees visiting apple flowers with a net. One data collection day was conducted per orchard.",NA
"Rachael_Winfree_Malus_Domestica_USA_2004","4","netting","Andrena_vicina","species","other_wild_bees",1,NA,NA,NA,"At each site, the data collector walked through the orchard, collecting all non-Apis bees visiting apple flowers with a net. One data collection day was conducted per orchard.",NA
"Rachael_Winfree_Malus_Domestica_USA_2004","4","netting","Andrena_vicina","species","other_wild_bees",1,NA,NA,NA,"At each site, the data collector walked through the orchard, collecting all non-Apis bees visiting apple flowers with a net. One data collection day was conducted per orchard.",NA
"Rachael_Winfree_Malus_Domestica_USA_2004","4","netting","Andrena_vicina","species","other_wild_bees",1,NA,NA,NA,"At each site, the data collector walked through the orchard, collecting all non-Apis bees visiting apple flowers with a net. One data collection day was conducted per orchard.",NA
"Rachael_Winfree_Malus_Domestica_USA_2004","4","netting","Bombus_impatiens","species","bumblebees",1,NA,NA,NA,"At each site, the data collector walked through the orchard, collecting all non-Apis bees visiting apple flowers with a net. One data collection day was conducted per orchard.",NA
"Rachael_Winfree_Malus_Domestica_USA_2004","4","netting","Bombus_impatiens","species","bumblebees",1,NA,NA,NA,"At each site, the data collector walked through the orchard, collecting all non-Apis bees visiting apple flowers with a net. One data collection day was conducted per orchard.",NA
"Rachael_Winfree_Malus_Domestica_USA_2004","4","netting","Bombus_impatiens","species","bumblebees",1,NA,NA,NA,"At each site, the data collector walked through the orchard, collecting all non-Apis bees visiting apple flowers with a net. One data collection day was conducted per orchard.",NA
"Rachael_Winfree_Malus_Domestica_USA_2004","4","netting","Bombus_perplexus","species","bumblebees",1,NA,NA,NA,"At each site, the data collector walked through the orchard, collecting all non-Apis bees visiting apple flowers with a net. One data collection day was conducted per orchard.",NA
"Rachael_Winfree_Malus_Domestica_USA_2004","5","netting","Andrena_perplexa","species","other_wild_bees",1,NA,NA,NA,"At each site, the data collector walked through the orchard, collecting all non-Apis bees visiting apple flowers with a net. One data collection day was conducted per orchard.",NA
"Rachael_Winfree_Malus_Domestica_USA_2004","6","netting","Andrena_vicina","species","other_wild_bees",1,NA,NA,NA,"At each site, the data collector walked through the orchard, collecting all non-Apis bees visiting apple flowers with a net. One data collection day was conducted per orchard.",NA
"Rachael_Winfree_Malus_Domestica_USA_2004","7","netting","Andrena_carlini","species","other_wild_bees",1,NA,NA,NA,"At each site, the data collector walked through the orchard, collecting all non-Apis bees visiting apple flowers with a net. One data collection day was conducted per orchard.",NA
"Rachael_Winfree_Malus_Domestica_USA_2004","7","netting","Andrena_forbesii","species","other_wild_bees",1,NA,NA,NA,"At each site, the data collector walked through the orchard, collecting all non-Apis bees visiting apple flowers with a net. One data collection day was conducted per orchard.",NA
"Rachael_Winfree_Malus_Domestica_USA_2004","7","netting","Andrena_hippotes","species","other_wild_bees",1,NA,NA,NA,"At each site, the data collector walked through the orchard, collecting all non-Apis bees visiting apple flowers with a net. One data collection day was conducted per orchard.",NA
"Rachael_Winfree_Malus_Domestica_USA_2004","7","netting","Andrena_perplexa","species","other_wild_bees",1,NA,NA,NA,"At each site, the data collector walked through the orchard, collecting all non-Apis bees visiting apple flowers with a net. One data collection day was conducted per orchard.",NA
"Rachael_Winfree_Malus_Domestica_USA_2004","7","netting","Andrena_perplexa","species","other_wild_bees",1,NA,NA,NA,"At each site, the data collector walked through the orchard, collecting all non-Apis bees visiting apple flowers with a net. One data collection day was conducted per orchard.",NA
"Rachael_Winfree_Malus_Domestica_USA_2004","7","netting","Andrena_perplexa","species","other_wild_bees",1,NA,NA,NA,"At each site, the data collector walked through the orchard, collecting all non-Apis bees visiting apple flowers with a net. One data collection day was conducted per orchard.",NA
"Rachael_Winfree_Malus_Domestica_USA_2004","7","netting","Andrena_vicina","species","other_wild_bees",1,NA,NA,NA,"At each site, the data collector walked through the orchard, collecting all non-Apis bees visiting apple flowers with a net. One data collection day was conducted per orchard.",NA
"Rachael_Winfree_Malus_Domestica_USA_2004","7","netting","Andrena_vicina","species","other_wild_bees",1,NA,NA,NA,"At each site, the data collector walked through the orchard, collecting all non-Apis bees visiting apple flowers with a net. One data collection day was conducted per orchard.",NA
"Rachael_Winfree_Malus_Domestica_USA_2004","7","netting","Andrena_vicina","species","other_wild_bees",1,NA,NA,NA,"At each site, the data collector walked through the orchard, collecting all non-Apis bees visiting apple flowers with a net. One data collection day was conducted per orchard.",NA
"Rachael_Winfree_Malus_Domestica_USA_2004","7","netting","Andrena_vicina","species","other_wild_bees",1,NA,NA,NA,"At each site, the data collector walked through the orchard, collecting all non-Apis bees visiting apple flowers with a net. One data collection day was conducted per orchard.",NA
"Rachael_Winfree_Malus_Domestica_USA_2004","7","netting","Andrena_vicina","species","other_wild_bees",1,NA,NA,NA,"At each site, the data collector walked through the orchard, collecting all non-Apis bees visiting apple flowers with a net. One data collection day was conducted per orchard.",NA
"Rachael_Winfree_Malus_Domestica_USA_2004","7","netting","Bombus_bimaculatus","species","bumblebees",1,NA,NA,NA,"At each site, the data collector walked through the orchard, collecting all non-Apis bees visiting apple flowers with a net. One data collection day was conducted per orchard.",NA
"Rachael_Winfree_Malus_Domestica_USA_2004","8","netting","Bombus_bimaculatus","species","bumblebees",1,NA,NA,NA,"At each site, the data collector walked through the orchard, collecting all non-Apis bees visiting apple flowers with a net. One data collection day was conducted per orchard.",NA
"Rachael_Winfree_Malus_Domestica_USA_2004","9","netting","Andrena_carlini","species","other_wild_bees",1,NA,NA,NA,"At each site, the data collector walked through the orchard, collecting all non-Apis bees visiting apple flowers with a net. One data collection day was conducted per orchard.",NA
"Rachael_Winfree_Malus_Domestica_USA_2004","9","netting","Andrena_carlini","species","other_wild_bees",1,NA,NA,NA,"At each site, the data collector walked through the orchard, collecting all non-Apis bees visiting apple flowers with a net. One data collection day was conducted per orchard.",NA
"Rachael_Winfree_Malus_Domestica_USA_2004","9","netting","Andrena_perplexa","species","other_wild_bees",1,NA,NA,NA,"At each site, the data collector walked through the orchard, collecting all non-Apis bees visiting apple flowers with a net. One data collection day was conducted per orchard.",NA
"Rachael_Winfree_Malus_Domestica_USA_2004","9","netting","Bombus_impatiens","species","bumblebees",1,NA,NA,NA,"At each site, the data collector walked through the orchard, collecting all non-Apis bees visiting apple flowers with a net. One data collection day was conducted per orchard.",NA
"Rachael_Winfree_Malus_Domestica_USA_2004","9","netting","Lasioglossum_weemsi","species","other_wild_bees",1,NA,NA,NA,"At each site, the data collector walked through the orchard, collecting all non-Apis bees visiting apple flowers with a net. One data collection day was conducted per orchard.",NA
"Rachael_Winfree_Malus_Domestica_USA_2004","10","netting","Osmia_lignaria","species","other_wild_bees",1,NA,NA,NA,"At each site, the data collector walked through the orchard, collecting all non-Apis bees visiting apple flowers with a net. One data collection day was conducted per orchard.",NA
"Rachael_Winfree_Malus_Domestica_USA_2004","11","netting","Andrena_bisalicis","species","other_wild_bees",1,NA,NA,NA,"At each site, the data collector walked through the orchard, collecting all non-Apis bees visiting apple flowers with a net. One data collection day was conducted per orchard.",NA
"Rachael_Winfree_Malus_Domestica_USA_2004","11","netting","Andrena_dunningi","species","other_wild_bees",1,NA,NA,NA,"At each site, the data collector walked through the orchard, collecting all non-Apis bees visiting apple flowers with a net. One data collection day was conducted per orchard.",NA
"Rachael_Winfree_Malus_Domestica_USA_2004","11","netting","Andrena_hippotes","species","other_wild_bees",1,NA,NA,NA,"At each site, the data collector walked through the orchard, collecting all non-Apis bees visiting apple flowers with a net. One data collection day was conducted per orchard.",NA
"Rachael_Winfree_Malus_Domestica_USA_2004","11","netting","Andrena_miserabilis","species","other_wild_bees",1,NA,NA,NA,"At each site, the data collector walked through the orchard, collecting all non-Apis bees visiting apple flowers with a net. One data collection day was conducted per orchard.",NA
"Rachael_Winfree_Malus_Domestica_USA_2004","11","netting","Andrena_miserabilis","species","other_wild_bees",1,NA,NA,NA,"At each site, the data collector walked through the orchard, collecting all non-Apis bees visiting apple flowers with a net. One data collection day was conducted per orchard.",NA
"Rachael_Winfree_Malus_Domestica_USA_2004","11","netting","Andrena_miserabilis","species","other_wild_bees",1,NA,NA,NA,"At each site, the data collector walked through the orchard, collecting all non-Apis bees visiting apple flowers with a net. One data collection day was conducted per orchard.",NA
"Rachael_Winfree_Malus_Domestica_USA_2004","11","netting","Andrena_nuda","species","other_wild_bees",1,NA,NA,NA,"At each site, the data collector walked through the orchard, collecting all non-Apis bees visiting apple flowers with a net. One data collection day was conducted per orchard.",NA
"Rachael_Winfree_Malus_Domestica_USA_2004","11","netting","Andrena_nuda","species","other_wild_bees",1,NA,NA,NA,"At each site, the data collector walked through the orchard, collecting all non-Apis bees visiting apple flowers with a net. One data collection day was conducted per orchard.",NA
"Rachael_Winfree_Malus_Domestica_USA_2004","11","netting","Andrena_nuda","species","other_wild_bees",1,NA,NA,NA,"At each site, the data collector walked through the orchard, collecting all non-Apis bees visiting apple flowers with a net. One data collection day was conducted per orchard.",NA
"Rachael_Winfree_Malus_Domestica_USA_2004","11","netting","Andrena_perplexa","species","other_wild_bees",1,NA,NA,NA,"At each site, the data collector walked through the orchard, collecting all non-Apis bees visiting apple flowers with a net. One data collection day was conducted per orchard.",NA
"Rachael_Winfree_Malus_Domestica_USA_2004","11","netting","Andrena_pruni","species","other_wild_bees",1,NA,NA,NA,"At each site, the data collector walked through the orchard, collecting all non-Apis bees visiting apple flowers with a net. One data collection day was conducted per orchard.",NA
"Rachael_Winfree_Malus_Domestica_USA_2004","11","netting","Andrena_pruni","species","other_wild_bees",1,NA,NA,NA,"At each site, the data collector walked through the orchard, collecting all non-Apis bees visiting apple flowers with a net. One data collection day was conducted per orchard.",NA
"Rachael_Winfree_Malus_Domestica_USA_2004","11","netting","Ceratina_calcarata","species","other_wild_bees",1,NA,NA,NA,"At each site, the data collector walked through the orchard, collecting all non-Apis bees visiting apple flowers with a net. One data collection day was conducted per orchard.",NA
"Rachael_Winfree_Malus_Domestica_USA_2004","11","netting","Colletes_inaequalls","species","other_wild_bees",1,NA,NA,NA,"At each site, the data collector walked through the orchard, collecting all non-Apis bees visiting apple flowers with a net. One data collection day was conducted per orchard.",NA
"Rachael_Winfree_Malus_Domestica_USA_2004","11","netting","Lasioglossum_foxii","species","other_wild_bees",1,NA,NA,NA,"At each site, the data collector walked through the orchard, collecting all non-Apis bees visiting apple flowers with a net. One data collection day was conducted per orchard.",NA
"Rachael_Winfree_Malus_Domestica_USA_2004","11","netting","Lasioglossum_foxii","species","other_wild_bees",1,NA,NA,NA,"At each site, the data collector walked through the orchard, collecting all non-Apis bees visiting apple flowers with a net. One data collection day was conducted per orchard.",NA
"Rachael_Winfree_Malus_Domestica_USA_2004","11","netting","Osmia_cornifrons","species","other_wild_bees",1,NA,NA,NA,"At each site, the data collector walked through the orchard, collecting all non-Apis bees visiting apple flowers with a net. One data collection day was conducted per orchard.",NA
"Rachael_Winfree_Malus_Domestica_USA_2004","12","netting","Andrena_barbilabris","species","other_wild_bees",1,NA,NA,NA,"At each site, the data collector walked through the orchard, collecting all non-Apis bees visiting apple flowers with a net. One data collection day was conducted per orchard.",NA
"Rachael_Winfree_Malus_Domestica_USA_2004","12","netting","Andrena_carlini","species","other_wild_bees",1,NA,NA,NA,"At each site, the data collector walked through the orchard, collecting all non-Apis bees visiting apple flowers with a net. One data collection day was conducted per orchard.",NA
"Rachael_Winfree_Malus_Domestica_USA_2004","12","netting","Andrena_miserabilis","species","other_wild_bees",1,NA,NA,NA,"At each site, the data collector walked through the orchard, collecting all non-Apis bees visiting apple flowers with a net. One data collection day was conducted per orchard.",NA
"Rachael_Winfree_Malus_Domestica_USA_2004","12","netting","Andrena_miserabilis","species","other_wild_bees",1,NA,NA,NA,"At each site, the data collector walked through the orchard, collecting all non-Apis bees visiting apple flowers with a net. One data collection day was conducted per orchard.",NA
"Rachael_Winfree_Malus_Domestica_USA_2004","12","netting","Andrena_vicina","species","other_wild_bees",1,NA,NA,NA,"At each site, the data collector walked through the orchard, collecting all non-Apis bees visiting apple flowers with a net. One data collection day was conducted per orchard.",NA
"Rachael_Winfree_Malus_Domestica_USA_2004","12","netting","Andrena_vicina","species","other_wild_bees",1,NA,NA,NA,"At each site, the data collector walked through the orchard, collecting all non-Apis bees visiting apple flowers with a net. One data collection day was conducted per orchard.",NA
"Rachael_Winfree_Malus_Domestica_USA_2004","12","netting","Bombus_bimaculatus","species","bumblebees",1,NA,NA,NA,"At each site, the data collector walked through the orchard, collecting all non-Apis bees visiting apple flowers with a net. One data collection day was conducted per orchard.",NA
"Rachael_Winfree_Malus_Domestica_USA_2004","12","netting","Bombus_impatiens","species","bumblebees",1,NA,NA,NA,"At each site, the data collector walked through the orchard, collecting all non-Apis bees visiting apple flowers with a net. One data collection day was conducted per orchard.",NA
"Rachael_Winfree_Malus_Domestica_USA_2004","13","netting","Andrena_carlini","species","other_wild_bees",1,NA,NA,NA,"At each site, the data collector walked through the orchard, collecting all non-Apis bees visiting apple flowers with a net. One data collection day was conducted per orchard.",NA
"Rachael_Winfree_Malus_Domestica_USA_2004","13","netting","Andrena_erythronii","species","other_wild_bees",1,NA,NA,NA,"At each site, the data collector walked through the orchard, collecting all non-Apis bees visiting apple flowers with a net. One data collection day was conducted per orchard.",NA
"Rachael_Winfree_Malus_Domestica_USA_2004","13","netting","Andrena_miserabilis","species","other_wild_bees",1,NA,NA,NA,"At each site, the data collector walked through the orchard, collecting all non-Apis bees visiting apple flowers with a net. One data collection day was conducted per orchard.",NA
"Rachael_Winfree_Malus_Domestica_USA_2004","13","netting","Andrena_nasonii","species","other_wild_bees",1,NA,NA,NA,"At each site, the data collector walked through the orchard, collecting all non-Apis bees visiting apple flowers with a net. One data collection day was conducted per orchard.",NA
"Rachael_Winfree_Malus_Domestica_USA_2004","13","netting","Lasioglossum_weemsi","species","other_wild_bees",1,NA,NA,NA,"At each site, the data collector walked through the orchard, collecting all non-Apis bees visiting apple flowers with a net. One data collection day was conducted per orchard.",NA
"Rachael_Winfree_Malus_Domestica_USA_2004","14","netting","Andrena_miserabilis","species","other_wild_bees",1,NA,NA,NA,"At each site, the data collector walked through the orchard, collecting all non-Apis bees visiting apple flowers with a net. One data collection day was conducted per orchard.",NA
"Rachael_Winfree_Malus_Domestica_USA_2004","15","netting","Ceratina_calcarata","species","other_wild_bees",1,NA,NA,NA,"At each site, the data collector walked through the orchard, collecting all non-Apis bees visiting apple flowers with a net. One data collection day was conducted per orchard.",NA
"Rachael_Winfree_Malus_Domestica_USA_2004","16","netting","Andrena_carlini","species","other_wild_bees",1,NA,NA,NA,"At each site, the data collector walked through the orchard, collecting all non-Apis bees visiting apple flowers with a net. One data collection day was conducted per orchard.",NA
"Rachael_Winfree_Malus_Domestica_USA_2004","16","netting","Andrena_carlini","species","other_wild_bees",1,NA,NA,NA,"At each site, the data collector walked through the orchard, collecting all non-Apis bees visiting apple flowers with a net. One data collection day was conducted per orchard.",NA
"Rachael_Winfree_Malus_Domestica_USA_2004","16","netting","Andrena_carlini","species","other_wild_bees",1,NA,NA,NA,"At each site, the data collector walked through the orchard, collecting all non-Apis bees visiting apple flowers with a net. One data collection day was conducted per orchard.",NA
"Rachael_Winfree_Malus_Domestica_USA_2004","16","netting","Andrena_carlini","species","other_wild_bees",1,NA,NA,NA,"At each site, the data collector walked through the orchard, collecting all non-Apis bees visiting apple flowers with a net. One data collection day was conducted per orchard.",NA
"Rachael_Winfree_Malus_Domestica_USA_2004","16","netting","Andrena_dunningi","species","other_wild_bees",1,NA,NA,NA,"At each site, the data collector walked through the orchard, collecting all non-Apis bees visiting apple flowers with a net. One data collection day was conducted per orchard.",NA
"Rachael_Winfree_Malus_Domestica_USA_2004","16","netting","Andrena_mandibularis","species","other_wild_bees",1,NA,NA,NA,"At each site, the data collector walked through the orchard, collecting all non-Apis bees visiting apple flowers with a net. One data collection day was conducted per orchard.",NA
"Rachael_Winfree_Malus_Domestica_USA_2004","16","netting","Andrena_perplexa","species","other_wild_bees",1,NA,NA,NA,"At each site, the data collector walked through the orchard, collecting all non-Apis bees visiting apple flowers with a net. One data collection day was conducted per orchard.",NA
"Rachael_Winfree_Malus_Domestica_USA_2004","16","netting","Andrena_perplexa","species","other_wild_bees",1,NA,NA,NA,"At each site, the data collector walked through the orchard, collecting all non-Apis bees visiting apple flowers with a net. One data collection day was conducted per orchard.",NA
"Rachael_Winfree_Malus_Domestica_USA_2004","16","netting","Bombus_impatiens","species","bumblebees",1,NA,NA,NA,"At each site, the data collector walked through the orchard, collecting all non-Apis bees visiting apple flowers with a net. One data collection day was conducted per orchard.",NA
"Rachael_Winfree_Malus_Domestica_USA_2004","16","netting","Bombus_perplexus","species","bumblebees",1,NA,NA,NA,"At each site, the data collector walked through the orchard, collecting all non-Apis bees visiting apple flowers with a net. One data collection day was conducted per orchard.",NA
"Rachael_Winfree_Malus_Domestica_USA_2004","16","netting","Bombus_perplexus","species","bumblebees",1,NA,NA,NA,"At each site, the data collector walked through the orchard, collecting all non-Apis bees visiting apple flowers with a net. One data collection day was conducted per orchard.",NA
"Rachael_Winfree_Malus_Domestica_USA_2004","16","netting","Ceratina_calcarata","species","other_wild_bees",1,NA,NA,NA,"At each site, the data collector walked through the orchard, collecting all non-Apis bees visiting apple flowers with a net. One data collection day was conducted per orchard.",NA
"Rachael_Winfree_Malus_Domestica_USA_2004","16","netting","Ceratina_calcarata","species","other_wild_bees",1,NA,NA,NA,"At each site, the data collector walked through the orchard, collecting all non-Apis bees visiting apple flowers with a net. One data collection day was conducted per orchard.",NA
"Rachael_Winfree_Malus_Domestica_USA_2004","16","netting","Lasioglossum_quebecense","species","other_wild_bees",1,NA,NA,NA,"At each site, the data collector walked through the orchard, collecting all non-Apis bees visiting apple flowers with a net. One data collection day was conducted per orchard.",NA
"Rachael_Winfree_Malus_Domestica_USA_2004","16","netting","Osmia_cornifrons","species","other_wild_bees",1,NA,NA,NA,"At each site, the data collector walked through the orchard, collecting all non-Apis bees visiting apple flowers with a net. One data collection day was conducted per orchard.",NA
"Rachael_Winfree_Malus_Domestica_USA_2004","16","netting","Osmia_cornifrons","species","other_wild_bees",1,NA,NA,NA,"At each site, the data collector walked through the orchard, collecting all non-Apis bees visiting apple flowers with a net. One data collection day was conducted per orchard.",NA
"Rachael_Winfree_Solanum_lycopersicum_USA_2004","aun","transect","Augochlora_pura","species","other_wild_bees",1,50,30,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited once.",NA
"Rachael_Winfree_Solanum_lycopersicum_USA_2004","bar","transect","Augochlora_pura","species","other_wild_bees",1,50,30,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited once.",NA
"Rachael_Winfree_Solanum_lycopersicum_USA_2004","bar","transect","Augochlora_pura","species","other_wild_bees",1,50,30,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited once.",NA
"Rachael_Winfree_Solanum_lycopersicum_USA_2004","bar","transect","Augochlora_pura","species","other_wild_bees",1,50,30,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited once.",NA
"Rachael_Winfree_Solanum_lycopersicum_USA_2004","che","transect","Augochlora_pura","species","other_wild_bees",1,50,30,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited once.",NA
"Rachael_Winfree_Solanum_lycopersicum_USA_2004","che","transect","Augochlora_pura","species","other_wild_bees",1,50,30,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited once.",NA
"Rachael_Winfree_Solanum_lycopersicum_USA_2004","che","transect","Augochlora_pura","species","other_wild_bees",1,50,30,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited once.",NA
"Rachael_Winfree_Solanum_lycopersicum_USA_2004","hop","transect","Augochlora_pura","species","other_wild_bees",1,50,30,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited once.",NA
"Rachael_Winfree_Solanum_lycopersicum_USA_2004","hop","transect","Augochlora_pura","species","other_wild_bees",1,50,30,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited once.",NA
"Rachael_Winfree_Solanum_lycopersicum_USA_2004","hop","transect","Augochlora_pura","species","other_wild_bees",1,50,30,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited once.",NA
"Rachael_Winfree_Solanum_lycopersicum_USA_2004","hop","transect","Augochlora_pura","species","other_wild_bees",1,50,30,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited once.",NA
"Rachael_Winfree_Solanum_lycopersicum_USA_2004","hop","transect","Augochlora_pura","species","other_wild_bees",1,50,30,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited once.",NA
"Rachael_Winfree_Solanum_lycopersicum_USA_2004","hop","transect","Augochlora_pura","species","other_wild_bees",1,50,30,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited once.",NA
"Rachael_Winfree_Solanum_lycopersicum_USA_2004","hop","transect","Augochlora_pura","species","other_wild_bees",1,50,30,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited once.",NA
"Rachael_Winfree_Solanum_lycopersicum_USA_2004","hop","transect","Augochlora_pura","species","other_wild_bees",1,50,30,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited once.",NA
"Rachael_Winfree_Solanum_lycopersicum_USA_2004","hop","transect","Augochlora_pura","species","other_wild_bees",1,50,30,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited once.",NA
"Rachael_Winfree_Solanum_lycopersicum_USA_2004","pen","transect","Augochlora_pura","species","other_wild_bees",1,50,30,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited once.",NA
"Rachael_Winfree_Solanum_lycopersicum_USA_2004","pen","transect","Augochlora_pura","species","other_wild_bees",1,50,30,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited once.",NA
"Rachael_Winfree_Solanum_lycopersicum_USA_2004","wat","transect","Augochlora_pura","species","other_wild_bees",1,50,30,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited once.",NA
"Rachael_Winfree_Solanum_lycopersicum_USA_2004","bar","transect","Augochlorella_aurata","species","other_wild_bees",1,50,30,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited once.",NA
"Rachael_Winfree_Solanum_lycopersicum_USA_2004","che","transect","Augochlorella_aurata","species","other_wild_bees",1,50,30,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited once.",NA
"Rachael_Winfree_Solanum_lycopersicum_USA_2004","che","transect","Augochlorella_aurata","species","other_wild_bees",1,50,30,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited once.",NA
"Rachael_Winfree_Solanum_lycopersicum_USA_2004","che","transect","Augochlorella_aurata","species","other_wild_bees",1,50,30,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited once.",NA
"Rachael_Winfree_Solanum_lycopersicum_USA_2004","del","transect","Augochlorella_aurata","species","other_wild_bees",1,50,30,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited once.",NA
"Rachael_Winfree_Solanum_lycopersicum_USA_2004","hop","transect","Augochlorella_aurata","species","other_wild_bees",1,50,30,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited once.",NA
"Rachael_Winfree_Solanum_lycopersicum_USA_2004","hop","transect","Augochlorella_aurata","species","other_wild_bees",1,50,30,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited once.",NA
"Rachael_Winfree_Solanum_lycopersicum_USA_2004","sny","transect","Augochlorella_aurata","species","other_wild_bees",1,50,30,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited once.",NA
"Rachael_Winfree_Solanum_lycopersicum_USA_2004","trad","transect","Augochlorella_aurata","species","other_wild_bees",1,50,30,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited once.",NA
"Rachael_Winfree_Solanum_lycopersicum_USA_2004","trad","transect","Augochlorella_aurata","species","other_wild_bees",1,50,30,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited once.",NA
"Rachael_Winfree_Solanum_lycopersicum_USA_2004","trad","transect","Augochlorella_aurata","species","other_wild_bees",1,50,30,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited once.",NA
"Rachael_Winfree_Solanum_lycopersicum_USA_2004","trad","transect","Augochlorella_aurata","species","other_wild_bees",1,50,30,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited once.",NA
"Rachael_Winfree_Solanum_lycopersicum_USA_2004","wil","transect","Augochlorella_aurata","species","other_wild_bees",1,50,30,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited once.",NA
"Rachael_Winfree_Solanum_lycopersicum_USA_2004","wil","transect","Augochlorella_aurata","species","other_wild_bees",1,50,30,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited once.",NA
"Rachael_Winfree_Solanum_lycopersicum_USA_2004","ray","transect","Bombus_fervidus","species","bumblebees",1,50,30,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited once.",NA
"Rachael_Winfree_Solanum_lycopersicum_USA_2004","wil","transect","Bombus_fervidus","species","bumblebees",1,50,30,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited once.",NA
"Rachael_Winfree_Solanum_lycopersicum_USA_2004","bar","transect","Bombus_impatiens","species","bumblebees",1,50,30,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited once.",NA
"Rachael_Winfree_Solanum_lycopersicum_USA_2004","bar","transect","Bombus_impatiens","species","bumblebees",1,50,30,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited once.",NA
"Rachael_Winfree_Solanum_lycopersicum_USA_2004","che","transect","Bombus_impatiens","species","bumblebees",1,50,30,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited once.",NA
"Rachael_Winfree_Solanum_lycopersicum_USA_2004","che","transect","Bombus_impatiens","species","bumblebees",1,50,30,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited once.",NA
"Rachael_Winfree_Solanum_lycopersicum_USA_2004","che","transect","Bombus_impatiens","species","bumblebees",1,50,30,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited once.",NA
"Rachael_Winfree_Solanum_lycopersicum_USA_2004","che","transect","Bombus_impatiens","species","bumblebees",1,50,30,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited once.",NA
"Rachael_Winfree_Solanum_lycopersicum_USA_2004","che","transect","Bombus_impatiens","species","bumblebees",1,50,30,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited once.",NA
"Rachael_Winfree_Solanum_lycopersicum_USA_2004","che","transect","Bombus_impatiens","species","bumblebees",1,50,30,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited once.",NA
"Rachael_Winfree_Solanum_lycopersicum_USA_2004","hop","transect","Bombus_impatiens","species","bumblebees",1,50,30,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited once.",NA
"Rachael_Winfree_Solanum_lycopersicum_USA_2004","hop","transect","Bombus_impatiens","species","bumblebees",1,50,30,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited once.",NA
"Rachael_Winfree_Solanum_lycopersicum_USA_2004","ker","transect","Bombus_impatiens","species","bumblebees",1,50,30,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited once.",NA
"Rachael_Winfree_Solanum_lycopersicum_USA_2004","phi","transect","Bombus_impatiens","species","bumblebees",1,50,30,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited once.",NA
"Rachael_Winfree_Solanum_lycopersicum_USA_2004","phi","transect","Bombus_impatiens","species","bumblebees",1,50,30,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited once.",NA
"Rachael_Winfree_Solanum_lycopersicum_USA_2004","wat","transect","Bombus_impatiens","species","bumblebees",1,50,30,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited once.",NA
"Rachael_Winfree_Solanum_lycopersicum_USA_2004","ker","transect","Halictus_confusus","species","other_wild_bees",1,50,30,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited once.",NA
"Rachael_Winfree_Solanum_lycopersicum_USA_2004","wat","transect","Hylaeus_mesillae","species","other_wild_bees",1,50,30,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited once.",NA
"Rachael_Winfree_Solanum_lycopersicum_USA_2004","sny","transect","Lasioglossum_admirandum","species","other_wild_bees",1,50,30,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited once.",NA
"Rachael_Winfree_Solanum_lycopersicum_USA_2004","sny","transect","Lasioglossum_admirandum","species","other_wild_bees",1,50,30,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited once.",NA
"Rachael_Winfree_Solanum_lycopersicum_USA_2004","sny","transect","Lasioglossum_albipenne","species","other_wild_bees",1,50,30,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited once.",NA
"Rachael_Winfree_Solanum_lycopersicum_USA_2004","sny","transect","Lasioglossum_albipenne","species","other_wild_bees",1,50,30,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited once.",NA
"Rachael_Winfree_Solanum_lycopersicum_USA_2004","sny","transect","Lasioglossum_callidum","species","other_wild_bees",1,50,30,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited once.",NA
"Rachael_Winfree_Solanum_lycopersicum_USA_2004","wil","transect","Lasioglossum_imitatum","species","other_wild_bees",1,50,30,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited once.",NA
"Rachael_Winfree_Solanum_lycopersicum_USA_2004","hop","transect","Lasioglossum_mitchelli","species","other_wild_bees",1,50,30,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited once.",NA
"Rachael_Winfree_Solanum_lycopersicum_USA_2004","pen","transect","Lasioglossum_mitchelli","species","other_wild_bees",1,50,30,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited once.",NA
"Rachael_Winfree_Solanum_lycopersicum_USA_2004","ray","transect","Lasioglossum_mitchelli","species","other_wild_bees",1,50,30,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited once.",NA
"Rachael_Winfree_Solanum_lycopersicum_USA_2004","sny","transect","Lasioglossum_mitchelli","species","other_wild_bees",1,50,30,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited once.",NA
"Rachael_Winfree_Solanum_lycopersicum_USA_2004","sny","transect","Lasioglossum_mitchelli","species","other_wild_bees",1,50,30,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited once.",NA
"Rachael_Winfree_Solanum_lycopersicum_USA_2004","sny","transect","Lasioglossum_mitchelli","species","other_wild_bees",1,50,30,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited once.",NA
"Rachael_Winfree_Solanum_lycopersicum_USA_2004","sny","transect","Lasioglossum_mitchelli","species","other_wild_bees",1,50,30,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited once.",NA
"Rachael_Winfree_Solanum_lycopersicum_USA_2004","wil","transect","Lasioglossum_mitchelli","species","other_wild_bees",1,50,30,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited once.",NA
"Rachael_Winfree_Solanum_lycopersicum_USA_2004","wil","transect","Lasioglossum_mitchelli","species","other_wild_bees",1,50,30,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited once.",NA
"Rachael_Winfree_Solanum_lycopersicum_USA_2004","wil","transect","Lasioglossum_mitchelli","species","other_wild_bees",1,50,30,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited once.",NA
"Rachael_Winfree_Solanum_lycopersicum_USA_2004","hop","transect","Lasioglossum_nymphaearum","species","other_wild_bees",1,50,30,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited once.",NA
"Rachael_Winfree_Solanum_lycopersicum_USA_2004","ker","transect","Lasioglossum_nymphaearum","species","other_wild_bees",1,50,30,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited once.",NA
"Rachael_Winfree_Solanum_lycopersicum_USA_2004","ker","transect","Lasioglossum_nymphaearum","species","other_wild_bees",1,50,30,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited once.",NA
"Rachael_Winfree_Solanum_lycopersicum_USA_2004","mis","transect","Lasioglossum_nymphaearum","species","other_wild_bees",1,50,30,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited once.",NA
"Rachael_Winfree_Solanum_lycopersicum_USA_2004","mis","transect","Lasioglossum_nymphaearum","species","other_wild_bees",1,50,30,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited once.",NA
"Rachael_Winfree_Solanum_lycopersicum_USA_2004","mis","transect","Lasioglossum_nymphaearum","species","other_wild_bees",1,50,30,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited once.",NA
"Rachael_Winfree_Solanum_lycopersicum_USA_2004","mis","transect","Lasioglossum_nymphaearum","species","other_wild_bees",1,50,30,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited once.",NA
"Rachael_Winfree_Solanum_lycopersicum_USA_2004","mis","transect","Lasioglossum_nymphaearum","species","other_wild_bees",1,50,30,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited once.",NA
"Rachael_Winfree_Solanum_lycopersicum_USA_2004","wil","transect","Lasioglossum_nymphaearum","species","other_wild_bees",1,50,30,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited once.",NA
"Rachael_Winfree_Solanum_lycopersicum_USA_2004","wil","transect","Lasioglossum_nymphaearum","species","other_wild_bees",1,50,30,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited once.",NA
"Rachael_Winfree_Solanum_lycopersicum_USA_2004","wil","transect","Lasioglossum_nymphaearum","species","other_wild_bees",1,50,30,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited once.",NA
"Rachael_Winfree_Solanum_lycopersicum_USA_2004","sny","transect","Lasioglossum_paradmirandum","species","other_wild_bees",1,50,30,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited once.",NA
"Rachael_Winfree_Solanum_lycopersicum_USA_2004","sny","transect","Lasioglossum_pilosum","species","other_wild_bees",1,50,30,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited once.",NA
"Rachael_Winfree_Solanum_lycopersicum_USA_2004","sny","transect","Lasioglossum_pilosum","species","other_wild_bees",1,50,30,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited once.",NA
"Rachael_Winfree_Solanum_lycopersicum_USA_2004","mis","transect","Lasioglossum_tegulare","species","other_wild_bees",1,50,30,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited once.",NA
"Rachael_Winfree_Solanum_lycopersicum_USA_2004","phi","transect","Lasioglossum_tegulare","species","other_wild_bees",1,50,30,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited once.",NA
"Rachael_Winfree_Solanum_lycopersicum_USA_2004","sny","transect","Lasioglossum_trigeminum","species","other_wild_bees",1,50,30,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited once.",NA
"Rachael_Winfree_Solanum_lycopersicum_USA_2004","aun","transect","Lasioglossum_versatum","species","other_wild_bees",1,50,30,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited once.",NA
"Rachael_Winfree_Solanum_lycopersicum_USA_2004","aun","transect","Lasioglossum_versatum","species","other_wild_bees",1,50,30,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited once.",NA
"Rachael_Winfree_Solanum_lycopersicum_USA_2004","che","transect","Lasioglossum_versatum","species","other_wild_bees",1,50,30,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited once.",NA
"Rachael_Winfree_Solanum_lycopersicum_USA_2004","hop","transect","Lasioglossum_versatum","species","other_wild_bees",1,50,30,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited once.",NA
"Rachael_Winfree_Solanum_lycopersicum_USA_2004","hop","transect","Lasioglossum_versatum","species","other_wild_bees",1,50,30,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited once.",NA
"Rachael_Winfree_Solanum_lycopersicum_USA_2004","hop","transect","Lasioglossum_versatum","species","other_wild_bees",1,50,30,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited once.",NA
"Rachael_Winfree_Solanum_lycopersicum_USA_2004","hop","transect","Lasioglossum_versatum","species","other_wild_bees",1,50,30,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited once.",NA
"Rachael_Winfree_Solanum_lycopersicum_USA_2004","hop","transect","Lasioglossum_versatum","species","other_wild_bees",1,50,30,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited once.",NA
"Rachael_Winfree_Solanum_lycopersicum_USA_2004","ker","transect","Lasioglossum_versatum","species","other_wild_bees",1,50,30,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited once.",NA
"Rachael_Winfree_Solanum_lycopersicum_USA_2004","ker","transect","Lasioglossum_versatum","species","other_wild_bees",1,50,30,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited once.",NA
"Rachael_Winfree_Solanum_lycopersicum_USA_2004","mis","transect","Lasioglossum_versatum","species","other_wild_bees",1,50,30,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited once.",NA
"Rachael_Winfree_Solanum_lycopersicum_USA_2004","pen","transect","Lasioglossum_versatum","species","other_wild_bees",1,50,30,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited once.",NA
"Rachael_Winfree_Solanum_lycopersicum_USA_2004","pen","transect","Lasioglossum_versatum","species","other_wild_bees",1,50,30,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited once.",NA
"Rachael_Winfree_Solanum_lycopersicum_USA_2004","ray","transect","Lasioglossum_versatum","species","other_wild_bees",1,50,30,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited once.",NA
"Rachael_Winfree_Solanum_lycopersicum_USA_2004","ray","transect","Lasioglossum_versatum","species","other_wild_bees",1,50,30,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited once.",NA
"Rachael_Winfree_Solanum_lycopersicum_USA_2004","sny","transect","Lasioglossum_versatum","species","other_wild_bees",1,50,30,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited once.",NA
"Rachael_Winfree_Solanum_lycopersicum_USA_2004","sny","transect","Lasioglossum_versatum","species","other_wild_bees",1,50,30,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited once.",NA
"Rachael_Winfree_Solanum_lycopersicum_USA_2004","sny","transect","Lasioglossum_versatum","species","other_wild_bees",1,50,30,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited once.",NA
"Rachael_Winfree_Solanum_lycopersicum_USA_2004","sun","transect","Lasioglossum_versatum","species","other_wild_bees",1,50,30,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited once.",NA
"Rachael_Winfree_Solanum_lycopersicum_USA_2004","trad","transect","Lasioglossum_versatum","species","other_wild_bees",1,50,30,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited once.",NA
"Rachael_Winfree_Solanum_lycopersicum_USA_2004","trad","transect","Lasioglossum_versatum","species","other_wild_bees",1,50,30,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited once.",NA
"Rachael_Winfree_Solanum_lycopersicum_USA_2004","wil","transect","Lasioglossum_versatum","species","other_wild_bees",1,50,30,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited once.",NA
"Rachael_Winfree_Solanum_lycopersicum_USA_2004","wil","transect","Lasioglossum_versatum","species","other_wild_bees",1,50,30,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited once.",NA
"Rachael_Winfree_Solanum_lycopersicum_USA_2004","wil","transect","Lasioglossum_versatum","species","other_wild_bees",1,50,30,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited once.",NA
"Rachael_Winfree_Solanum_lycopersicum_USA_2004","wil","transect","Lasioglossum_versatum","species","other_wild_bees",1,50,30,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited once.",NA
"Rachael_Winfree_Solanum_lycopersicum_USA_2004","wil","transect","Lasioglossum_versatum","species","other_wild_bees",1,50,30,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited once.",NA
"Rachael_Winfree_Solanum_lycopersicum_USA_2004","mis","transect","Lasioglossum_viridatum","species","other_wild_bees",1,50,30,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited once.",NA
"Rachael_Winfree_Solanum_lycopersicum_USA_2004","mis","transect","Lasioglossum_viridatum","species","other_wild_bees",1,50,30,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited once.",NA
"Rachael_Winfree_Solanum_lycopersicum_USA_2004","aun","transect","Lasioglossum_weemsi","species","other_wild_bees",1,50,30,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited once.",NA
"Rachael_Winfree_Solanum_lycopersicum_USA_2004","del","transect","Lasioglossum_weemsi","species","other_wild_bees",1,50,30,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited once.",NA
"Rachael_Winfree_Solanum_lycopersicum_USA_2004","del","transect","Lasioglossum_weemsi","species","other_wild_bees",1,50,30,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited once.",NA
"Rachael_Winfree_Solanum_lycopersicum_USA_2004","hop","transect","Lasioglossum_weemsi","species","other_wild_bees",1,50,30,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited once.",NA
"Rachael_Winfree_Solanum_lycopersicum_USA_2004","sny","transect","Lasioglossum_weemsi","species","other_wild_bees",1,50,30,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited once.",NA
"Rachael_Winfree_Solanum_lycopersicum_USA_2004","wil","transect","Lasioglossum_weemsi","species","other_wild_bees",1,50,30,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited once.",NA
"Rachael_Winfree_Solanum_lycopersicum_USA_2004","wil","transect","Lasioglossum_weemsi","species","other_wild_bees",1,50,30,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited once.",NA
"Rachael_Winfree_Solanum_lycopersicum_USA_2005","ray","transect","Andrena_wilkella","species","other_wild_bees",1,50,30,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited once.",NA
"Rachael_Winfree_Solanum_lycopersicum_USA_2005","bar","transect","Augochlora_pura","species","other_wild_bees",1,50,30,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited once.",NA
"Rachael_Winfree_Solanum_lycopersicum_USA_2005","lit","transect","Augochlora_pura","species","other_wild_bees",1,50,30,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited once.",NA
"Rachael_Winfree_Solanum_lycopersicum_USA_2005","lit","transect","Augochlora_pura","species","other_wild_bees",1,50,30,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited once.",NA
"Rachael_Winfree_Solanum_lycopersicum_USA_2005","ray","transect","Augochlora_pura","species","other_wild_bees",1,50,30,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited once.",NA
"Rachael_Winfree_Solanum_lycopersicum_USA_2005","bri","transect","Augochlorella_aurata","species","other_wild_bees",1,50,30,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited once.",NA
"Rachael_Winfree_Solanum_lycopersicum_USA_2005","bri","transect","Augochlorella_aurata","species","other_wild_bees",1,50,30,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited once.",NA
"Rachael_Winfree_Solanum_lycopersicum_USA_2005","bar","transect","Augochloropsis_metallica","species","other_wild_bees",1,50,30,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited once.",NA
"Rachael_Winfree_Solanum_lycopersicum_USA_2005","bar","transect","Augochloropsis_metallica","species","other_wild_bees",1,50,30,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited once.",NA
"Rachael_Winfree_Solanum_lycopersicum_USA_2005","bri","transect","Augochloropsis_metallica","species","other_wild_bees",1,50,30,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited once.",NA
"Rachael_Winfree_Solanum_lycopersicum_USA_2005","lit","transect","Augochloropsis_metallica","species","other_wild_bees",1,50,30,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited once.",NA
"Rachael_Winfree_Solanum_lycopersicum_USA_2005","ter","transect","Augochloropsis_metallica","species","other_wild_bees",1,50,30,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited once.",NA
"Rachael_Winfree_Solanum_lycopersicum_USA_2005","tra","transect","Bombus_fervidus","species","bumblebees",1,50,30,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited once.",NA
"Rachael_Winfree_Solanum_lycopersicum_USA_2005","bar","transect","Bombus_griseocollis","species","bumblebees",1,50,30,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited once.",NA
"Rachael_Winfree_Solanum_lycopersicum_USA_2005","bri","transect","Bombus_griseocollis","species","bumblebees",1,50,30,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited once.",NA
"Rachael_Winfree_Solanum_lycopersicum_USA_2005","ray","transect","Bombus_griseocollis","species","bumblebees",1,50,30,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited once.",NA
"Rachael_Winfree_Solanum_lycopersicum_USA_2005","wat","transect","Bombus_griseocollis","species","bumblebees",1,50,30,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited once.",NA
"Rachael_Winfree_Solanum_lycopersicum_USA_2005","bar","transect","Bombus_impatiens","species","bumblebees",1,50,30,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited once.",NA
"Rachael_Winfree_Solanum_lycopersicum_USA_2005","bar","transect","Bombus_impatiens","species","bumblebees",1,50,30,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited once.",NA
"Rachael_Winfree_Solanum_lycopersicum_USA_2005","bar","transect","Bombus_impatiens","species","bumblebees",1,50,30,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited once.",NA
"Rachael_Winfree_Solanum_lycopersicum_USA_2005","bra","transect","Bombus_impatiens","species","bumblebees",1,50,30,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited once.",NA
"Rachael_Winfree_Solanum_lycopersicum_USA_2005","bra","transect","Bombus_impatiens","species","bumblebees",1,50,30,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited once.",NA
"Rachael_Winfree_Solanum_lycopersicum_USA_2005","bra","transect","Bombus_impatiens","species","bumblebees",1,50,30,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited once.",NA
"Rachael_Winfree_Solanum_lycopersicum_USA_2005","bri","transect","Bombus_impatiens","species","bumblebees",1,50,30,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited once.",NA
"Rachael_Winfree_Solanum_lycopersicum_USA_2005","bri","transect","Bombus_impatiens","species","bumblebees",1,50,30,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited once.",NA
"Rachael_Winfree_Solanum_lycopersicum_USA_2005","bri","transect","Bombus_impatiens","species","bumblebees",1,50,30,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited once.",NA
"Rachael_Winfree_Solanum_lycopersicum_USA_2005","kim","transect","Bombus_impatiens","species","bumblebees",1,50,30,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited once.",NA
"Rachael_Winfree_Solanum_lycopersicum_USA_2005","lee","transect","Bombus_impatiens","species","bumblebees",1,50,30,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited once.",NA
"Rachael_Winfree_Solanum_lycopersicum_USA_2005","phi","transect","Bombus_impatiens","species","bumblebees",1,50,30,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited once.",NA
"Rachael_Winfree_Solanum_lycopersicum_USA_2005","phi","transect","Bombus_impatiens","species","bumblebees",1,50,30,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited once.",NA
"Rachael_Winfree_Solanum_lycopersicum_USA_2005","phi","transect","Bombus_impatiens","species","bumblebees",1,50,30,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited once.",NA
"Rachael_Winfree_Solanum_lycopersicum_USA_2005","ray","transect","Bombus_impatiens","species","bumblebees",1,50,30,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited once.",NA
"Rachael_Winfree_Solanum_lycopersicum_USA_2005","ray","transect","Bombus_impatiens","species","bumblebees",1,50,30,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited once.",NA
"Rachael_Winfree_Solanum_lycopersicum_USA_2005","ray","transect","Bombus_impatiens","species","bumblebees",1,50,30,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited once.",NA
"Rachael_Winfree_Solanum_lycopersicum_USA_2005","ray","transect","Bombus_impatiens","species","bumblebees",1,50,30,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited once.",NA
"Rachael_Winfree_Solanum_lycopersicum_USA_2005","ray","transect","Bombus_impatiens","species","bumblebees",1,50,30,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited once.",NA
"Rachael_Winfree_Solanum_lycopersicum_USA_2005","ray","transect","Bombus_impatiens","species","bumblebees",1,50,30,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited once.",NA
"Rachael_Winfree_Solanum_lycopersicum_USA_2005","ray","transect","Bombus_impatiens","species","bumblebees",1,50,30,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited once.",NA
"Rachael_Winfree_Solanum_lycopersicum_USA_2005","ray","transect","Bombus_impatiens","species","bumblebees",1,50,30,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited once.",NA
"Rachael_Winfree_Solanum_lycopersicum_USA_2005","ray","transect","Bombus_impatiens","species","bumblebees",1,50,30,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited once.",NA
"Rachael_Winfree_Solanum_lycopersicum_USA_2005","ray","transect","Bombus_impatiens","species","bumblebees",1,50,30,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited once.",NA
"Rachael_Winfree_Solanum_lycopersicum_USA_2005","ray","transect","Bombus_impatiens","species","bumblebees",1,50,30,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited once.",NA
"Rachael_Winfree_Solanum_lycopersicum_USA_2005","ray","transect","Bombus_impatiens","species","bumblebees",1,50,30,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited once.",NA
"Rachael_Winfree_Solanum_lycopersicum_USA_2005","tra","transect","Bombus_impatiens","species","bumblebees",1,50,30,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited once.",NA
"Rachael_Winfree_Solanum_lycopersicum_USA_2005","tra","transect","Bombus_impatiens","species","bumblebees",1,50,30,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited once.",NA
"Rachael_Winfree_Solanum_lycopersicum_USA_2005","tra","transect","Bombus_impatiens","species","bumblebees",1,50,30,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited once.",NA
"Rachael_Winfree_Solanum_lycopersicum_USA_2005","wat","transect","Bombus_impatiens","species","bumblebees",1,50,30,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited once.",NA
"Rachael_Winfree_Solanum_lycopersicum_USA_2005","wat","transect","Bombus_impatiens","species","bumblebees",1,50,30,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited once.",NA
"Rachael_Winfree_Solanum_lycopersicum_USA_2005","tra","transect","Halictus_ligatus","species","other_wild_bees",1,50,30,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited once.",NA
"Rachael_Winfree_Solanum_lycopersicum_USA_2005","bra","transect","Lasioglossum_ephialtum","species","other_wild_bees",1,50,30,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited once.",NA
"Rachael_Winfree_Solanum_lycopersicum_USA_2005","ker","transect","Lasioglossum_imitatum","species","other_wild_bees",1,50,30,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited once.",NA
"Rachael_Winfree_Solanum_lycopersicum_USA_2005","bri","transect","Lasioglossum_mitchelli","species","other_wild_bees",1,50,30,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited once.",NA
"Rachael_Winfree_Solanum_lycopersicum_USA_2005","ker","transect","Lasioglossum_mitchelli","species","other_wild_bees",1,50,30,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited once.",NA
"Rachael_Winfree_Solanum_lycopersicum_USA_2005","kim","transect","Lasioglossum_mitchelli","species","other_wild_bees",1,50,30,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited once.",NA
"Rachael_Winfree_Solanum_lycopersicum_USA_2005","ter","transect","Lasioglossum_mitchelli","species","other_wild_bees",1,50,30,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited once.",NA
"Rachael_Winfree_Solanum_lycopersicum_USA_2005","wat","transect","Lasioglossum_mitchelli","species","other_wild_bees",1,50,30,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited once.",NA
"Rachael_Winfree_Solanum_lycopersicum_USA_2005","wat","transect","Lasioglossum_mitchelli","species","other_wild_bees",1,50,30,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited once.",NA
"Rachael_Winfree_Solanum_lycopersicum_USA_2005","wat","transect","Lasioglossum_mitchelli","species","other_wild_bees",1,50,30,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited once.",NA
"Rachael_Winfree_Solanum_lycopersicum_USA_2005","bri","transect","Lasioglossum_nymphaearum","species","other_wild_bees",1,50,30,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited once.",NA
"Rachael_Winfree_Solanum_lycopersicum_USA_2005","tra","transect","Lasioglossum_pectorale","species","other_wild_bees",1,50,30,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited once.",NA
"Rachael_Winfree_Solanum_lycopersicum_USA_2005","bra","transect","Lasioglossum_tegulare","species","other_wild_bees",1,50,30,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited once.",NA
"Rachael_Winfree_Solanum_lycopersicum_USA_2005","ray","transect","Lasioglossum_tegulare","species","other_wild_bees",1,50,30,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited once.",NA
"Rachael_Winfree_Solanum_lycopersicum_USA_2005","bar","transect","Lasioglossum_versatum","species","other_wild_bees",1,50,30,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited once.",NA
"Rachael_Winfree_Solanum_lycopersicum_USA_2005","bra","transect","Lasioglossum_versatum","species","other_wild_bees",1,50,30,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited once.",NA
"Rachael_Winfree_Solanum_lycopersicum_USA_2005","bra","transect","Lasioglossum_versatum","species","other_wild_bees",1,50,30,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited once.",NA
"Rachael_Winfree_Solanum_lycopersicum_USA_2005","bra","transect","Lasioglossum_versatum","species","other_wild_bees",1,50,30,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited once.",NA
"Rachael_Winfree_Solanum_lycopersicum_USA_2005","bra","transect","Lasioglossum_versatum","species","other_wild_bees",1,50,30,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited once.",NA
"Rachael_Winfree_Solanum_lycopersicum_USA_2005","bra","transect","Lasioglossum_versatum","species","other_wild_bees",1,50,30,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited once.",NA
"Rachael_Winfree_Solanum_lycopersicum_USA_2005","ker","transect","Lasioglossum_versatum","species","other_wild_bees",1,50,30,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited once.",NA
"Rachael_Winfree_Solanum_lycopersicum_USA_2005","ker","transect","Lasioglossum_versatum","species","other_wild_bees",1,50,30,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited once.",NA
"Rachael_Winfree_Solanum_lycopersicum_USA_2005","kim","transect","Lasioglossum_versatum","species","other_wild_bees",1,50,30,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited once.",NA
"Rachael_Winfree_Solanum_lycopersicum_USA_2005","lit","transect","Lasioglossum_versatum","species","other_wild_bees",1,50,30,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited once.",NA
"Rachael_Winfree_Solanum_lycopersicum_USA_2005","pen","transect","Lasioglossum_versatum","species","other_wild_bees",1,50,30,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited once.",NA
"Rachael_Winfree_Solanum_lycopersicum_USA_2005","pen","transect","Lasioglossum_versatum","species","other_wild_bees",1,50,30,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited once.",NA
"Rachael_Winfree_Solanum_lycopersicum_USA_2005","pen","transect","Lasioglossum_versatum","species","other_wild_bees",1,50,30,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited once.",NA
"Rachael_Winfree_Solanum_lycopersicum_USA_2005","phi","transect","Lasioglossum_versatum","species","other_wild_bees",1,50,30,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited once.",NA
"Rachael_Winfree_Solanum_lycopersicum_USA_2005","ray","transect","Lasioglossum_versatum","species","other_wild_bees",1,50,30,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited once.",NA
"Rachael_Winfree_Solanum_lycopersicum_USA_2005","ter","transect","Lasioglossum_versatum","species","other_wild_bees",1,50,30,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited once.",NA
"Rachael_Winfree_Solanum_lycopersicum_USA_2005","wat","transect","Lasioglossum_versatum","species","other_wild_bees",1,50,30,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited once.",NA
"Rachael_Winfree_Solanum_lycopersicum_USA_2005","ker","transect","Lasioglossum_weemsi","species","other_wild_bees",1,50,30,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited once.",NA
"Rachael_Winfree_Solanum_lycopersicum_USA_2005","ker","transect","Lasioglossum_weemsi","species","other_wild_bees",1,50,30,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited once.",NA
"Rachael_Winfree_Solanum_lycopersicum_USA_2005","pen","transect","Lasioglossum_weemsi","species","other_wild_bees",1,50,30,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited once.",NA
"Rachael_Winfree_Solanum_lycopersicum_USA_2005","tra","transect","Lasioglossum_weemsi","species","other_wild_bees",1,50,30,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited once.",NA
"Rachael_Winfree_Solanum_lycopersicum_USA_2005","wat","transect","Lasioglossum_weemsi","species","other_wild_bees",1,50,30,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited once.",NA
"Rachael_Winfree_Solanum_lycopersicum_USA_2005","phi","transect","Lasioglossum_zephyrum","species","other_wild_bees",1,50,30,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited once.",NA
"Rachael_Winfree_Solanum_lycopersicum_USA_2005","phi","transect","Lasioglossum_zephyrum","species","other_wild_bees",1,50,30,NA,"Pollinators were netted for a total of 30 minutes along a 50-m transect of crop row. One transect was sampled at each farm.  Each farm was visited once.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2010","GLO","transects","Andrena_bradleyi","species","other_wild_bees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2010","GLO","transects","Andrena_bradleyi","species","other_wild_bees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2010","GLO","transects","Andrena_bradleyi","species","other_wild_bees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2010","GLO","transects","Andrena_bradleyi","species","other_wild_bees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2010","GLO","transects","Andrena_bradleyi","species","other_wild_bees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2010","GLO","transects","Andrena_bradleyi","species","other_wild_bees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2010","GLO","transects","Andrena_bradleyi","species","other_wild_bees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2010","GLO","transects","Andrena_bradleyi","species","other_wild_bees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2010","DH","transects","Osmia_pumila","species","other_wild_bees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2010","MBR","transects","Andrena_bradleyi","species","other_wild_bees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2010","MOO","transects","Andrena_bradleyi","species","other_wild_bees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2010","MBR","transects","Andrena_vicina","species","other_wild_bees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2010","MOO","transects","Bombus_bimaculatus","species","bumblebees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2010","MOO","transects","Bombus_bimaculatus","species","bumblebees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2010","AML","transects","Bombus_griseocollis","species","bumblebees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2010","MOO","transects","Bombus_griseocollis","species","bumblebees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2010","WHA","transects","Bombus_griseocollis","species","bumblebees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2010","WHA","transects","Bombus_griseocollis","species","bumblebees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2010","AML","transects","Bombus_impatiens","species","bumblebees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2010","MOO","transects","Bombus_impatiens","species","bumblebees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2010","MOO","transects","Bombus_impatiens","species","bumblebees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2010","MOO","transects","Bombus_impatiens","species","bumblebees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2010","MOO","transects","Bombus_impatiens","species","bumblebees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2010","MOO","transects","Bombus_impatiens","species","bumblebees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2010","MOO","transects","Bombus_impatiens","species","bumblebees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2010","WHA","transects","Bombus_impatiens","species","bumblebees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2010","WHA","transects","Bombus_impatiens","species","bumblebees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2010","WHA","transects","Bombus_impatiens","species","bumblebees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2010","WHA","transects","Bombus_impatiens","species","bumblebees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2010","WHA","transects","Bombus_impatiens","species","bumblebees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2010","WHA","transects","Bombus_impatiens","species","bumblebees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2010","WHA","transects","Bombus_perplexus","species","bumblebees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2010","WHA","transects","Bombus_perplexus","species","bumblebees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2010","WHA","transects","Bombus_perplexus","species","bumblebees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2010","MOO","transects","Colletes_cressoni","species","other_wild_bees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2010","MOO","transects","Colletes_cressoni","species","other_wild_bees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2010","WHA","transects","Colletes_cressoni","species","other_wild_bees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2010","WHA","transects","Colletes_cressoni","species","other_wild_bees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2010","WHA","transects","Colletes_cressoni","species","other_wild_bees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2010","WHA","transects","Colletes_cressoni","species","other_wild_bees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2010","WHA","transects","Colletes_inaequalis","species","other_wild_bees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2010","MOO","transects","Habropoda_laboriosa","species","other_wild_bees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2010","MOO","transects","Habropoda_laboriosa","species","other_wild_bees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2010","MOO","transects","Habropoda_laboriosa","species","other_wild_bees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2010","WHA","transects","Habropoda_laboriosa","species","other_wild_bees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2010","WHA","transects","Lasioglossum_versatum","species","other_wild_bees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2010","MBR","transects","Xylocopa_virginica","species","other_wild_bees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2010","WHA","transects","Xylocopa_virginica","species","other_wild_bees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2010","DEM","transects","Andrena_bradleyi","species","other_wild_bees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2010","DEM","transects","Andrena_bradleyi","species","other_wild_bees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2010","LEE","transects","Andrena_bradleyi","species","other_wild_bees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2010","LEE","transects","Andrena_vicina","species","other_wild_bees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2010","LEE","transects","Andrena_vicina","species","other_wild_bees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2010","LEE","transects","Andrena_vicina","species","other_wild_bees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2010","LEE","transects","Andrena_vicina","species","other_wild_bees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2010","LEE","transects","Andrena_vicina","species","other_wild_bees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2010","LEE","transects","Andrena_vicina","species","other_wild_bees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2010","LEE","transects","Andrena_vicina","species","other_wild_bees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2010","LEE","transects","Bombus_bimaculatus","species","bumblebees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2010","DEM","transects","Bombus_griseocollis","species","bumblebees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2010","LEE","transects","Bombus_griseocollis","species","bumblebees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2010","GRA","transects","Colletes_inaequalis","species","other_wild_bees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2010","LEE","transects","Colletes_inaequalis","species","other_wild_bees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2010","LEE","transects","Colletes_inaequalis","species","other_wild_bees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2010","LEE","transects","Colletes_validus","species","other_wild_bees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2010","LEE","transects","Colletes_validus","species","other_wild_bees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2010","DEM","transects","Lasioglossum_weemsi","species","other_wild_bees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2010","LEE","transects","Xylocopa_virginica","species","other_wild_bees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2010","LEE","transects","Xylocopa_virginica","species","other_wild_bees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2010","DON","transects","Andrena_bradleyi","species","other_wild_bees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2010","GLO","transects","Andrena_bradleyi","species","other_wild_bees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2010","GLO","transects","Andrena_bradleyi","species","other_wild_bees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2010","GLO","transects","Andrena_bradleyi","species","other_wild_bees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2010","GLO","transects","Andrena_bradleyi","species","other_wild_bees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2010","GLO","transects","Andrena_bradleyi","species","other_wild_bees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2010","GLO","transects","Andrena_bradleyi","species","other_wild_bees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2010","RS","transects","Andrena_bradleyi","species","other_wild_bees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2010","GLO","transects","Andrena_vicina","species","other_wild_bees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2010","MAC","transects","Bombus_impatiens","species","bumblebees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2010","MAC","transects","Bombus_impatiens","species","bumblebees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2010","MIL","transects","Bombus_impatiens","species","bumblebees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2010","DEL","transects","Colletes_inaequalis","species","other_wild_bees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2010","MIL","transects","Colletes_inaequalis","species","other_wild_bees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2010","MIL","transects","Habropoda_laboriosa","species","other_wild_bees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2010","MIL","transects","Habropoda_laboriosa","species","other_wild_bees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2010","MIL","transects","Habropoda_laboriosa","species","other_wild_bees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2010","RS","transects","Xylocopa_virginica","species","other_wild_bees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2010","RS","transects","Xylocopa_virginica","species","other_wild_bees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2010","DEM","transects","Andrena_bradleyi","species","other_wild_bees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2010","DEM","transects","Andrena_bradleyi","species","other_wild_bees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2010","DEM","transects","Andrena_bradleyi","species","other_wild_bees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2010","DEM","transects","Andrena_bradleyi","species","other_wild_bees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2010","DEM","transects","Andrena_fenningeri","species","other_wild_bees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2010","WHA","transects","Andrena_vicina","species","other_wild_bees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2010","WHA","transects","Bombus_bimaculatus","species","bumblebees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2010","DEM","transects","Bombus_griseocollis","species","bumblebees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2010","WHA","transects","Bombus_impatiens","species","bumblebees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2010","DEM","transects","Bombus_perplexus","species","bumblebees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2010","WHA","transects","Bombus_perplexus","species","bumblebees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2010","WHA","transects","Bombus_perplexus","species","bumblebees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2010","WHA","transects","Bombus_perplexus","species","bumblebees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2010","AML","transects","Colletes_inaequalis","species","other_wild_bees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2010","AML","transects","Colletes_inaequalis","species","other_wild_bees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2010","AML","transects","Colletes_inaequalis","species","other_wild_bees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2010","WHA","transects","Colletes_inaequalis","species","other_wild_bees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2010","WHA","transects","Colletes_inaequalis","species","other_wild_bees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2010","DEM","transects","Colletes_validus","species","other_wild_bees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2010","DEM","transects","Colletes_validus","species","other_wild_bees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2010","WHA","transects","Colletes_validus","species","other_wild_bees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2010","WHA","transects","Colletes_validus","species","other_wild_bees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2010","DEM","transects","Lasioglossum_weemsi","species","other_wild_bees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2010","WHA","transects","Xylocopa_virginica","species","other_wild_bees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2010","DH","transects","Andrena_bradleyi","species","other_wild_bees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2010","DH","transects","Andrena_bradleyi","species","other_wild_bees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2010","DH","transects","Andrena_bradleyi","species","other_wild_bees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2010","DH","transects","Andrena_bradleyi","species","other_wild_bees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2010","LEE","transects","Andrena_vicina","species","other_wild_bees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2010","DH","transects","Bombus_impatiens","species","bumblebees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2010","GRA","transects","Bombus_impatiens","species","bumblebees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2010","LEE","transects","Bombus_impatiens","species","bumblebees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2010","DH","transects","Colletes_inaequalis","species","other_wild_bees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2010","GRA","transects","Colletes_inaequalis","species","other_wild_bees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2010","LEE","transects","Colletes_inaequalis","species","other_wild_bees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2010","LEE","transects","Colletes_inaequalis","species","other_wild_bees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2010","DH","transects","Lasioglossum_leucocomum","species","other_wild_bees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2010","LEE","transects","Xylocopa_virginica","species","other_wild_bees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2010","LEE","transects","Xylocopa_virginica","species","other_wild_bees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2010","LEE","transects","Xylocopa_virginica","species","other_wild_bees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2010","DON","transects","Andrena_bradleyi","species","other_wild_bees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2010","DON","transects","Andrena_bradleyi","species","other_wild_bees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2010","AML","transects","Colletes_inaequalis","species","other_wild_bees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2010","MOO","transects","Colletes_validus","species","other_wild_bees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2010","MOO","transects","Colletes_validus","species","other_wild_bees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2010","MOO","transects","Colletes_validus","species","other_wild_bees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2010","MOO","transects","Colletes_validus","species","other_wild_bees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2010","MOO","transects","Colletes_validus","species","other_wild_bees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2010","MOO","transects","Lasioglossum_pilosum","species","other_wild_bees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2010","DEM","transects","Andrena_bradleyi","species","other_wild_bees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2010","GLO","transects","Andrena_bradleyi","species","other_wild_bees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2010","GLO","transects","Andrena_bradleyi","species","other_wild_bees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2010","GLO","transects","Andrena_bradleyi","species","other_wild_bees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2010","GLO","transects","Andrena_bradleyi","species","other_wild_bees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2010","GLO","transects","Andrena_bradleyi","species","other_wild_bees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2010","GLO","transects","Andrena_bradleyi","species","other_wild_bees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2010","GLO","transects","Andrena_bradleyi","species","other_wild_bees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2010","GLO","transects","Andrena_bradleyi","species","other_wild_bees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2010","GLO","transects","Andrena_bradleyi","species","other_wild_bees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2010","GLO","transects","Andrena_bradleyi","species","other_wild_bees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2010","GLO","transects","Andrena_bradleyi","species","other_wild_bees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2010","GLO","transects","Andrena_bradleyi","species","other_wild_bees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2010","GLO","transects","Andrena_bradleyi","species","other_wild_bees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2010","GLO","transects","Andrena_bradleyi","species","other_wild_bees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2010","MIL","transects","Bombus_bimaculatus","species","bumblebees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2010","MIL","transects","Bombus_bimaculatus","species","bumblebees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2010","LEE","transects","Bombus_griseocollis","species","bumblebees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2010","LEE","transects","Bombus_impatiens","species","bumblebees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2010","MIL","transects","Bombus_impatiens","species","bumblebees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2010","GLO","transects","Colletes_validus","species","other_wild_bees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2010","MIL","transects","Habropoda_laboriosa","species","other_wild_bees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2010","MIL","transects","Habropoda_laboriosa","species","other_wild_bees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2010","AH","transects","Xylocopa_virginica","species","other_wild_bees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2010","BER","transects","Xylocopa_virginica","species","other_wild_bees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2010","GLO","transects","Xylocopa_virginica","species","other_wild_bees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2010","LEE","transects","Xylocopa_virginica","species","other_wild_bees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2010","LEE","transects","Xylocopa_virginica","species","other_wild_bees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2010","LEE","transects","Xylocopa_virginica","species","other_wild_bees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2010","MIL","transects","Xylocopa_virginica","species","other_wild_bees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2010","MIL","transects","Xylocopa_virginica","species","other_wild_bees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2010","MIL","transects","Xylocopa_virginica","species","other_wild_bees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2010","DH","transects","Andrena_bradleyi","species","other_wild_bees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2010","DH","transects","Andrena_bradleyi","species","other_wild_bees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2010","MOO","transects","Andrena_bradleyi","species","other_wild_bees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2010","MOO","transects","Bombus_perplexus","species","bumblebees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2010","MOO","transects","Colletes_cressoni","species","other_wild_bees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2010","MOO","transects","Colletes_validus","species","other_wild_bees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2010","MOO","transects","Lasioglossum_oblongum","species","other_wild_bees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2010","DH","transects","Xylocopa_virginica","species","other_wild_bees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2010","DH","transects","Xylocopa_virginica","species","other_wild_bees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2010","MIL","transects","Andrena_vicina","species","other_wild_bees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2010","MIL","transects","Bombus_bimaculatus","species","bumblebees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2010","MIL","transects","Bombus_bimaculatus","species","bumblebees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2010","MIL","transects","Bombus_impatiens","species","bumblebees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2010","MIL","transects","Bombus_impatiens","species","bumblebees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2010","RS","transects","Bombus_impatiens","species","bumblebees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2010","MIL","transects","Bombus_perplexus","species","bumblebees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2010","MIL","transects","Habropoda_laboriosa","species","other_wild_bees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2010","MIL","transects","Habropoda_laboriosa","species","other_wild_bees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2010","MIL","transects","Xylocopa_virginica","species","other_wild_bees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2010","RS","transects","Xylocopa_virginica","species","other_wild_bees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2010","RS","transects","Xylocopa_virginica","species","other_wild_bees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2010","RS","transects","Xylocopa_virginica","species","other_wild_bees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2010","MBR","transects","Andrena_bradleyi","species","other_wild_bees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2010","MBR","transects","Andrena_bradleyi","species","other_wild_bees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2010","MBR","transects","Andrena_bradleyi","species","other_wild_bees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2010","WHA","transects","Andrena_cressoni","species","other_wild_bees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2010","WHA","transects","Andrena_morrisonella","species","other_wild_bees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2010","WHA","transects","Andrena_morrisonella","species","other_wild_bees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2010","WHA","transects","Andrena_morrisonella","species","other_wild_bees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2010","WHA","transects","Augochlora_pura","species","other_wild_bees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2010","WHA","transects","Augochlora_pura","species","other_wild_bees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2010","WHA","transects","Augochlora_pura","species","other_wild_bees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2010","MBR","transects","Augochlorella_aurata","species","other_wild_bees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2010","MAC","transects","Bombus_bimaculatus","species","bumblebees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2010","WHA","transects","Bombus_bimaculatus","species","bumblebees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2010","WHA","transects","Bombus_bimaculatus","species","bumblebees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2010","MAC","transects","Bombus_griseocollis","species","bumblebees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2010","MAC","transects","Bombus_griseocollis","species","bumblebees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2010","MAC","transects","Bombus_griseocollis","species","bumblebees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2010","MAC","transects","Bombus_griseocollis","species","bumblebees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2010","MAC","transects","Bombus_griseocollis","species","bumblebees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2010","MAC","transects","Bombus_griseocollis","species","bumblebees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2010","MAC","transects","Bombus_griseocollis","species","bumblebees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2010","MAC","transects","Bombus_griseocollis","species","bumblebees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2010","WHA","transects","Bombus_impatiens","species","bumblebees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2010","WHA","transects","Colletes_cressoni","species","other_wild_bees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2010","WHA","transects","Colletes_cressoni","species","other_wild_bees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2010","WHA","transects","Colletes_thoracicus","species","other_wild_bees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2010","MAC","transects","Colletes_validus","species","other_wild_bees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2010","WHA","transects","Colletes_validus","species","other_wild_bees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2010","WHA","transects","Lasioglossum_oblongum","species","other_wild_bees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2010","MBR","transects","Lasioglossum_weemsi","species","other_wild_bees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2010","WHA","transects","Xylocopa_virginica","species","other_wild_bees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2010","WHA","transects","Xylocopa_virginica","species","other_wild_bees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2010","WHA","transects","Xylocopa_virginica","species","other_wild_bees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2010","WHA","transects","Xylocopa_virginica","species","other_wild_bees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2010","WHA","transects","Xylocopa_virginica","species","other_wild_bees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2010","BER","transects","Andrena_bradleyi","species","other_wild_bees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2010","BER","transects","Andrena_bradleyi","species","other_wild_bees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2010","BER","transects","Andrena_bradleyi","species","other_wild_bees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2010","MAC","transects","Bombus_griseocollis","species","bumblebees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2010","BER","transects","Colletes_inaequalis","species","other_wild_bees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2010","BER","transects","Colletes_thoracicus","species","other_wild_bees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2010","BER","transects","Xylocopa_virginica","species","other_wild_bees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2011","DEL","transects","Andrena_bradleyi","species","other_wild_bees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2011","GLO","transects","Andrena_bradleyi","species","other_wild_bees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2011","GLO","transects","Andrena_bradleyi","species","other_wild_bees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2011","GLO","transects","Andrena_bradleyi","species","other_wild_bees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2011","GLO","transects","Andrena_bradleyi","species","other_wild_bees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2011","GLO","transects","Andrena_bradleyi","species","other_wild_bees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2011","GLO","transects","Andrena_bradleyi","species","other_wild_bees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2011","GLO","transects","Andrena_imitatrix","species","other_wild_bees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2011","GLO","transects","Lasioglossum_pilosum","species","other_wild_bees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2011","DEL","transects","Xylocopa_virginica","species","other_wild_bees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2011","DON","transects","Andrena_bradleyi","species","other_wild_bees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2011","MAC","transects","Andrena_bradleyi","species","other_wild_bees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2011","GRA","transects","Andrena_vicina","species","other_wild_bees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2011","GRA","transects","Andrena_vicina","species","other_wild_bees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2011","GRA","transects","Andrena_vicina","species","other_wild_bees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2011","MIL","transects","Andrena_vicina","species","other_wild_bees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2011","MIL","transects","Andrena_vicina","species","other_wild_bees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2011","MIL","transects","Bombus_bimaculatus","species","bumblebees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2011","MIL","transects","Bombus_bimaculatus","species","bumblebees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2011","MIL","transects","Bombus_bimaculatus","species","bumblebees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2011","GRA","transects","Bombus_griseocollis","species","bumblebees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2011","MAC","transects","Bombus_griseocollis","species","bumblebees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2011","MIL","transects","Bombus_griseocollis","species","bumblebees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2011","MIL","transects","Bombus_griseocollis","species","bumblebees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2011","GRA","transects","Colletes_validus","species","other_wild_bees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2011","MAC","transects","Colletes_validus","species","other_wild_bees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2011","MAC","transects","Colletes_validus","species","other_wild_bees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2011","MAC","transects","Colletes_validus","species","other_wild_bees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2011","MAC","transects","Colletes_validus","species","other_wild_bees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2011","MAC","transects","Colletes_validus","species","other_wild_bees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2011","MAC","transects","Colletes_validus","species","other_wild_bees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2011","MAC","transects","Colletes_validus","species","other_wild_bees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2011","MAC","transects","Colletes_validus","species","other_wild_bees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2011","MAC","transects","Colletes_validus","species","other_wild_bees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2011","MAC","transects","Colletes_validus","species","other_wild_bees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2011","MAC","transects","Colletes_validus","species","other_wild_bees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2011","MAC","transects","Colletes_validus","species","other_wild_bees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2011","MAC","transects","Colletes_validus","species","other_wild_bees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2011","MAC","transects","Colletes_validus","species","other_wild_bees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2011","MAC","transects","Colletes_validus","species","other_wild_bees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2011","MAC","transects","Colletes_validus","species","other_wild_bees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2011","MIL","transects","Colletes_validus","species","other_wild_bees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2011","MAC","transects","Habropoda_laboriosa","species","other_wild_bees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2011","MAC","transects","Habropoda_laboriosa","species","other_wild_bees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2011","MIL","transects","Habropoda_laboriosa","species","other_wild_bees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2011","MIL","transects","Lasioglossum_oblongum","species","other_wild_bees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2011","GRA","transects","Xylocopa_virginica","species","other_wild_bees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2011","GRA","transects","Xylocopa_virginica","species","other_wild_bees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2011","GRA","transects","Xylocopa_virginica","species","other_wild_bees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2011","MIL","transects","Xylocopa_virginica","species","other_wild_bees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2011","MIL","transects","Xylocopa_virginica","species","other_wild_bees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2011","MIL","transects","Xylocopa_virginica","species","other_wild_bees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2011","WHA","transects","Andrena_bradleyi","species","other_wild_bees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2011","MBR","transects","Andrena_carolina","species","other_wild_bees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2011","WHA","transects","Andrena_mandibularis","species","other_wild_bees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2011","WHA","transects","Andrena_vicina","species","other_wild_bees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2011","MOO","transects","Bombus_bimaculatus","species","bumblebees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2011","MOO","transects","Bombus_bimaculatus","species","bumblebees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2011","MOO","transects","Bombus_bimaculatus","species","bumblebees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2011","MOO","transects","Bombus_bimaculatus","species","bumblebees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2011","MOO","transects","Bombus_bimaculatus","species","bumblebees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2011","WHA","transects","Bombus_bimaculatus","species","bumblebees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2011","WHA","transects","Bombus_bimaculatus","species","bumblebees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2011","AH","transects","Bombus_griseocollis","species","bumblebees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2011","AH","transects","Bombus_griseocollis","species","bumblebees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2011","MOO","transects","Bombus_griseocollis","species","bumblebees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2011","MOO","transects","Bombus_griseocollis","species","bumblebees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2011","MOO","transects","Bombus_griseocollis","species","bumblebees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2011","MOO","transects","Bombus_impatiens","species","bumblebees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2011","MOO","transects","Bombus_impatiens","species","bumblebees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2011","MOO","transects","Bombus_impatiens","species","bumblebees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2011","MOO","transects","Bombus_impatiens","species","bumblebees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2011","MOO","transects","Bombus_impatiens","species","bumblebees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2011","MOO","transects","Bombus_impatiens","species","bumblebees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2011","MOO","transects","Bombus_impatiens","species","bumblebees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2011","WHA","transects","Bombus_impatiens","species","bumblebees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2011","WHA","transects","Bombus_perplexus","species","bumblebees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2011","MBR","transects","Ceratina_calcarata","species","other_wild_bees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2011","WHA","transects","Colletes_inaequalis","species","other_wild_bees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2011","AH","transects","Colletes_validus","species","other_wild_bees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2011","AH","transects","Colletes_validus","species","other_wild_bees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2011","AH","transects","Colletes_validus","species","other_wild_bees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2011","MOO","transects","Colletes_validus","species","other_wild_bees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2011","MOO","transects","Colletes_validus","species","other_wild_bees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2011","MOO","transects","Colletes_validus","species","other_wild_bees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2011","MOO","transects","Colletes_validus","species","other_wild_bees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2011","MOO","transects","Colletes_validus","species","other_wild_bees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2011","MOO","transects","Colletes_validus","species","other_wild_bees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2011","MOO","transects","Colletes_validus","species","other_wild_bees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2011","MOO","transects","Colletes_validus","species","other_wild_bees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2011","WHA","transects","Colletes_validus","species","other_wild_bees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2011","WHA","transects","Colletes_validus","species","other_wild_bees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2011","MOO","transects","Habropoda_laboriosa","species","other_wild_bees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2011","MOO","transects","Habropoda_laboriosa","species","other_wild_bees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2011","MOO","transects","Habropoda_laboriosa","species","other_wild_bees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2011","MOO","transects","Habropoda_laboriosa","species","other_wild_bees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2011","MOO","transects","Lasioglossum_acuminatum","species","other_wild_bees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2011","MBR","transects","Xylocopa_virginica","species","other_wild_bees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2011","MOO","transects","Xylocopa_virginica","species","other_wild_bees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2011","MOO","transects","Xylocopa_virginica","species","other_wild_bees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2011","WHA","transects","Xylocopa_virginica","species","other_wild_bees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2011","LEE","transects","Andrena_vicina","species","other_wild_bees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2011","LEE","transects","Andrena_vicina","species","other_wild_bees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2011","LEE","transects","Andrena_vicina","species","other_wild_bees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2011","LEE","transects","Andrena_vicina","species","other_wild_bees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2011","LEE","transects","Andrena_vicina","species","other_wild_bees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2011","LEE","transects","Andrena_vicina","species","other_wild_bees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2011","LEE","transects","Andrena_vicina","species","other_wild_bees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2011","LEE","transects","Andrena_vicina","species","other_wild_bees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2011","LEE","transects","Bombus_impatiens","species","bumblebees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2011","AML","transects","Colletes_inaequalis","species","other_wild_bees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2011","AML","transects","Colletes_inaequalis","species","other_wild_bees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2011","LEE","transects","Colletes_inaequalis","species","other_wild_bees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2011","LEE","transects","Colletes_inaequalis","species","other_wild_bees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2011","RS","transects","Colletes_inaequalis","species","other_wild_bees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2011","RS","transects","Colletes_inaequalis","species","other_wild_bees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2011","RS","transects","Colletes_inaequalis","species","other_wild_bees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2011","AML","transects","Colletes_validus","species","other_wild_bees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2011","LEE","transects","Colletes_validus","species","other_wild_bees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2011","LEE","transects","Colletes_validus","species","other_wild_bees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2011","LEE","transects","Colletes_validus","species","other_wild_bees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2011","LEE","transects","Colletes_validus","species","other_wild_bees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2011","LEE","transects","Colletes_validus","species","other_wild_bees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2011","LEE","transects","Colletes_validus","species","other_wild_bees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2011","LEE","transects","Colletes_validus","species","other_wild_bees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2011","LEE","transects","Colletes_validus","species","other_wild_bees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2011","LEE","transects","Colletes_validus","species","other_wild_bees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2011","LEE","transects","Colletes_validus","species","other_wild_bees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2011","LEE","transects","Colletes_validus","species","other_wild_bees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2011","LEE","transects","Nomada_luteola","species","other_wild_bees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2011","RS","transects","Xylocopa_virginica","species","other_wild_bees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2011","GLO","transects","Andrena_bradleyi","species","other_wild_bees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2011","GLO","transects","Andrena_bradleyi","species","other_wild_bees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2011","GLO","transects","Andrena_bradleyi","species","other_wild_bees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2011","GLO","transects","Andrena_bradleyi","species","other_wild_bees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2011","GLO","transects","Andrena_bradleyi","species","other_wild_bees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2011","MIL","transects","Andrena_bradleyi","species","other_wild_bees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2011","MIL","transects","Andrena_vicina","species","other_wild_bees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2011","MIL","transects","Andrena_vicina","species","other_wild_bees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2011","MIL","transects","Andrena_vicina","species","other_wild_bees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2011","MIL","transects","Andrena_vicina","species","other_wild_bees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2011","MIL","transects","Andrena_vicina","species","other_wild_bees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2011","MIL","transects","Andrena_vicina","species","other_wild_bees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2011","MIL","transects","Andrena_vicina","species","other_wild_bees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2011","MIL","transects","Bombus_bimaculatus","species","bumblebees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2011","MIL","transects","Bombus_bimaculatus","species","bumblebees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2011","MIL","transects","Bombus_bimaculatus","species","bumblebees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2011","MIL","transects","Bombus_griseocollis","species","bumblebees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2011","MIL","transects","Bombus_griseocollis","species","bumblebees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2011","MIL","transects","Colletes_inaequalis","species","other_wild_bees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2011","MIL","transects","Colletes_inaequalis","species","other_wild_bees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2011","MIL","transects","Colletes_validus","species","other_wild_bees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2011","MIL","transects","Colletes_validus","species","other_wild_bees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2011","MIL","transects","Colletes_validus","species","other_wild_bees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2011","MIL","transects","Colletes_validus","species","other_wild_bees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2011","MIL","transects","Habropoda_laboriosa","species","other_wild_bees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2011","MIL","transects","Habropoda_laboriosa","species","other_wild_bees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2011","MIL","transects","Habropoda_laboriosa","species","other_wild_bees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2011","MIL","transects","Habropoda_laboriosa","species","other_wild_bees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2011","MIL","transects","Habropoda_laboriosa","species","other_wild_bees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2011","MIL","transects","Habropoda_laboriosa","species","other_wild_bees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2011","MIL","transects","Habropoda_laboriosa","species","other_wild_bees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2011","MIL","transects","Habropoda_laboriosa","species","other_wild_bees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2011","MIL","transects","Habropoda_laboriosa","species","other_wild_bees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2011","MIL","transects","Habropoda_laboriosa","species","other_wild_bees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2011","DH","transects","Lasioglossum_pilosum","species","other_wild_bees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2011","BER","transects","Andrena_bradleyi","species","other_wild_bees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2011","BER","transects","Andrena_bradleyi","species","other_wild_bees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2011","BER","transects","Andrena_bradleyi","species","other_wild_bees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2011","BER","transects","Andrena_bradleyi","species","other_wild_bees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2011","BER","transects","Andrena_bradleyi","species","other_wild_bees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2011","DEM","transects","Andrena_bradleyi","species","other_wild_bees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2011","DEM","transects","Andrena_bradleyi","species","other_wild_bees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2011","DEM","transects","Andrena_bradleyi","species","other_wild_bees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2011","DEM","transects","Andrena_bradleyi","species","other_wild_bees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2011","DEM","transects","Andrena_bradleyi","species","other_wild_bees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2011","DON","transects","Andrena_bradleyi","species","other_wild_bees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2011","DON","transects","Andrena_bradleyi","species","other_wild_bees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2011","MBR","transects","Andrena_bradleyi","species","other_wild_bees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2011","DEM","transects","Andrena_carlini","species","other_wild_bees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2011","DEM","transects","Andrena_carlini","species","other_wild_bees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2011","DEM","transects","Andrena_vicina","species","other_wild_bees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2011","DEM","transects","Andrena_vicina","species","other_wild_bees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2011","DEM","transects","Andrena_vicina","species","other_wild_bees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2011","DEM","transects","Bombus_bimaculatus","species","bumblebees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2011","DEM","transects","Bombus_griseocollis","species","bumblebees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2011","DEM","transects","Bombus_griseocollis","species","bumblebees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2011","DEM","transects","Bombus_griseocollis","species","bumblebees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2011","DEM","transects","Bombus_griseocollis","species","bumblebees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2011","DEM","transects","Bombus_griseocollis","species","bumblebees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2011","DEM","transects","Bombus_griseocollis","species","bumblebees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2011","DEM","transects","Bombus_griseocollis","species","bumblebees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2011","DEM","transects","Bombus_impatiens","species","bumblebees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2011","DEM","transects","Bombus_perplexus","species","bumblebees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2011","DEM","transects","Colletes_validus","species","other_wild_bees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2011","DEM","transects","Lasioglossum_zephyrum","species","other_wild_bees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2011","DEM","transects","Lasioglossum_zephyrum","species","other_wild_bees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2011","DEM","transects","Xylocopa_virginica","species","other_wild_bees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2011","AH","transects","Andrena_bradleyi","species","other_wild_bees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2011","GRA","transects","Augochlorella_aurata","species","other_wild_bees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2011","GRA","transects","Bombus_griseocollis","species","bumblebees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2011","AH","transects","Colletes_inaequalis","species","other_wild_bees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2011","AH","transects","Colletes_inaequalis","species","other_wild_bees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2011","AH","transects","Colletes_inaequalis","species","other_wild_bees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2011","AH","transects","Colletes_inaequalis","species","other_wild_bees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2011","AH","transects","Colletes_inaequalis","species","other_wild_bees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2011","AH","transects","Colletes_inaequalis","species","other_wild_bees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2011","AH","transects","Colletes_inaequalis","species","other_wild_bees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2011","AH","transects","Colletes_validus","species","other_wild_bees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2011","GRA","transects","Xylocopa_virginica","species","other_wild_bees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2011","DH","transects","Andrena_bradleyi","species","other_wild_bees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2011","WHA","transects","Bombus_griseocollis","species","bumblebees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2011","WHA","transects","Bombus_impatiens","species","bumblebees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2011","WHA","transects","Colletes_inaequalis","species","other_wild_bees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2011","WHA","transects","Colletes_inaequalis","species","other_wild_bees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2011","WHA","transects","Colletes_inaequalis","species","other_wild_bees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2011","WHA","transects","Colletes_inaequalis","species","other_wild_bees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2011","WHA","transects","Colletes_inaequalis","species","other_wild_bees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2011","DH","transects","Colletes_thoracicus","species","other_wild_bees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2011","WHA","transects","Colletes_thoracicus","species","other_wild_bees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2011","WHA","transects","Colletes_validus","species","other_wild_bees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2011","WHA","transects","Colletes_validus","species","other_wild_bees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2011","WHA","transects","Colletes_validus","species","other_wild_bees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2011","WHA","transects","Colletes_validus","species","other_wild_bees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2011","MOO","transects","Andrena_bradleyi","species","other_wild_bees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2011","MOO","transects","Andrena_fenningeri","species","other_wild_bees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2011","LEE","transects","Andrena_vicina","species","other_wild_bees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2011","LEE","transects","Andrena_vicina","species","other_wild_bees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2011","LEE","transects","Andrena_vicina","species","other_wild_bees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2011","LEE","transects","Andrena_vicina","species","other_wild_bees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2011","LEE","transects","Andrena_vicina","species","other_wild_bees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2011","LEE","transects","Andrena_vicina","species","other_wild_bees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2011","LEE","transects","Andrena_vicina","species","other_wild_bees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2011","LEE","transects","Andrena_vicina","species","other_wild_bees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2011","LEE","transects","Andrena_vicina","species","other_wild_bees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2011","LEE","transects","Andrena_vicina","species","other_wild_bees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2011","LEE","transects","Andrena_vicina","species","other_wild_bees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2011","MAC","transects","Andrena_vicina","species","other_wild_bees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2011","MAC","transects","Bombus_bimaculatus","species","bumblebees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2011","MAC","transects","Bombus_bimaculatus","species","bumblebees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2011","LEE","transects","Bombus_griseocollis","species","bumblebees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2011","MAC","transects","Bombus_griseocollis","species","bumblebees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2011","MAC","transects","Bombus_griseocollis","species","bumblebees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2011","MAC","transects","Bombus_griseocollis","species","bumblebees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2011","MAC","transects","Bombus_griseocollis","species","bumblebees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2011","MAC","transects","Bombus_griseocollis","species","bumblebees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2011","MAC","transects","Bombus_griseocollis","species","bumblebees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2011","MAC","transects","Bombus_griseocollis","species","bumblebees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2011","MAC","transects","Bombus_griseocollis","species","bumblebees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2011","LEE","transects","Colletes_inaequalis","species","other_wild_bees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2011","LEE","transects","Colletes_inaequalis","species","other_wild_bees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2011","MOO","transects","Colletes_inaequalis","species","other_wild_bees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2011","MOO","transects","Colletes_inaequalis","species","other_wild_bees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2011","MOO","transects","Colletes_inaequalis","species","other_wild_bees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2011","MOO","transects","Colletes_inaequalis","species","other_wild_bees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2011","MOO","transects","Colletes_inaequalis","species","other_wild_bees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2011","MOO","transects","Colletes_inaequalis","species","other_wild_bees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2011","LEE","transects","Colletes_validus","species","other_wild_bees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2011","MOO","transects","Colletes_validus","species","other_wild_bees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2011","MOO","transects","Colletes_validus","species","other_wild_bees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2011","MOO","transects","Colletes_validus","species","other_wild_bees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2011","MOO","transects","Colletes_validus","species","other_wild_bees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2011","MOO","transects","Colletes_validus","species","other_wild_bees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2011","MOO","transects","Colletes_validus","species","other_wild_bees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2011","MOO","transects","Colletes_validus","species","other_wild_bees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2011","MOO","transects","Colletes_validus","species","other_wild_bees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2011","MOO","transects","Colletes_validus","species","other_wild_bees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2011","MOO","transects","Colletes_validus","species","other_wild_bees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2011","MOO","transects","Colletes_validus","species","other_wild_bees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2011","MOO","transects","Lasioglossum_fuscipenne","species","other_wild_bees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2011","MAC","transects","Xylocopa_virginica","species","other_wild_bees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2011","BER","transects","Andrena_bradleyi","species","other_wild_bees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2011","BER","transects","Andrena_bradleyi","species","other_wild_bees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2011","DEM","transects","Andrena_bradleyi","species","other_wild_bees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2011","DEM","transects","Andrena_bradleyi","species","other_wild_bees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2011","DEM","transects","Andrena_bradleyi","species","other_wild_bees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2011","DEM","transects","Andrena_bradleyi","species","other_wild_bees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2011","DEM","transects","Andrena_bradleyi","species","other_wild_bees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2011","DEM","transects","Andrena_carlini","species","other_wild_bees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2011","DEM","transects","Andrena_vicina","species","other_wild_bees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2011","DEM","transects","Augochlora_pura","species","other_wild_bees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2011","DEM","transects","Bombus_bimaculatus","species","bumblebees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2011","DEM","transects","Bombus_griseocollis","species","bumblebees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2011","DEM","transects","Bombus_griseocollis","species","bumblebees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2011","DEM","transects","Bombus_griseocollis","species","bumblebees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2011","DEM","transects","Colletes_inaequalis","species","other_wild_bees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2011","DEM","transects","Colletes_inaequalis","species","other_wild_bees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2011","BER","transects","Xylocopa_virginica","species","other_wild_bees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2011","DEM","transects","Xylocopa_virginica","species","other_wild_bees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2011","AH","transects","Andrena_bradleyi","species","other_wild_bees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2011","AH","transects","Andrena_bradleyi","species","other_wild_bees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2011","DON","transects","Andrena_bradleyi","species","other_wild_bees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2011","DON","transects","Andrena_bradleyi","species","other_wild_bees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2011","DON","transects","Andrena_bradleyi","species","other_wild_bees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2011","DON","transects","Andrena_bradleyi","species","other_wild_bees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2011","DON","transects","Andrena_vicina","species","other_wild_bees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2011","MBR","transects","Bombus_impatiens","species","bumblebees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2011","GRA","transects","Colletes_inaequalis","species","other_wild_bees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2011","GRA","transects","Colletes_inaequalis","species","other_wild_bees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2011","GRA","transects","Colletes_inaequalis","species","other_wild_bees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2011","DON","transects","Lasioglossum_pilosum","species","other_wild_bees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2011","DON","transects","Lasioglossum_pilosum","species","other_wild_bees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2011","AH","transects","Xylocopa_virginica","species","other_wild_bees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2011","RS","transects","Andrena_barbara","species","other_wild_bees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2011","BER","transects","Andrena_bradleyi","species","other_wild_bees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2011","BER","transects","Andrena_bradleyi","species","other_wild_bees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2011","BER","transects","Andrena_bradleyi","species","other_wild_bees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2011","BER","transects","Andrena_bradleyi","species","other_wild_bees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2011","BER","transects","Andrena_bradleyi","species","other_wild_bees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2011","BER","transects","Andrena_bradleyi","species","other_wild_bees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2011","BER","transects","Andrena_bradleyi","species","other_wild_bees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2011","GLO","transects","Andrena_bradleyi","species","other_wild_bees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2011","GLO","transects","Andrena_bradleyi","species","other_wild_bees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2011","GLO","transects","Andrena_bradleyi","species","other_wild_bees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2011","GLO","transects","Andrena_bradleyi","species","other_wild_bees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2011","GLO","transects","Andrena_bradleyi","species","other_wild_bees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2011","RS","transects","Bombus_bimaculatus","species","bumblebees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2011","GLO","transects","Xylocopa_virginica","species","other_wild_bees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2011","GLO","transects","Xylocopa_virginica","species","other_wild_bees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2011","GLO","transects","Xylocopa_virginica","species","other_wild_bees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2011","GLO","transects","Xylocopa_virginica","species","other_wild_bees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2011","MIL","transects","Andrena_banksi","species","other_wild_bees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2011","MIL","transects","Andrena_ilicis","species","other_wild_bees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2011","MIL","transects","Andrena_imitatrix","species","other_wild_bees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2011","MIL","transects","Andrena_imitatrix","species","other_wild_bees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2011","LEE","transects","Andrena_vicina","species","other_wild_bees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2011","LEE","transects","Andrena_vicina","species","other_wild_bees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2011","LEE","transects","Andrena_vicina","species","other_wild_bees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2011","MAC","transects","Bombus_bimaculatus","species","bumblebees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2011","LEE","transects","Bombus_griseocollis","species","bumblebees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2011","LEE","transects","Bombus_griseocollis","species","bumblebees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2011","LEE","transects","Bombus_griseocollis","species","bumblebees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2011","MAC","transects","Bombus_griseocollis","species","bumblebees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2011","MAC","transects","Bombus_griseocollis","species","bumblebees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2011","MAC","transects","Bombus_griseocollis","species","bumblebees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2011","MAC","transects","Bombus_griseocollis","species","bumblebees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2011","MAC","transects","Bombus_griseocollis","species","bumblebees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2011","MAC","transects","Bombus_griseocollis","species","bumblebees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2011","MAC","transects","Bombus_perplexus","species","bumblebees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2011","LEE","transects","Colletes_thoracicus","species","other_wild_bees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2011","MIL","transects","Colletes_thoracicus","species","other_wild_bees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2011","LEE","transects","Colletes_validus","species","other_wild_bees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2011","MIL","transects","Colletes_validus","species","other_wild_bees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2011","LEE","transects","Habropoda_laboriosa","species","other_wild_bees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2011","MIL","transects","Habropoda_laboriosa","species","other_wild_bees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2011","MIL","transects","Habropoda_laboriosa","species","other_wild_bees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2011","LEE","transects","Xylocopa_virginica","species","other_wild_bees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2011","LEE","transects","Xylocopa_virginica","species","other_wild_bees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2011","LEE","transects","Xylocopa_virginica","species","other_wild_bees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2011","LEE","transects","Xylocopa_virginica","species","other_wild_bees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2011","LEE","transects","Xylocopa_virginica","species","other_wild_bees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2011","MIL","transects","Xylocopa_virginica","species","other_wild_bees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2011","DEM","transects","Andrena_bradleyi","species","other_wild_bees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2011","DH","transects","Andrena_bradleyi","species","other_wild_bees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2011","DH","transects","Andrena_bradleyi","species","other_wild_bees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2011","DH","transects","Andrena_bradleyi","species","other_wild_bees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2011","DEM","transects","Andrena_carlini","species","other_wild_bees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2011","DH","transects","Bombus_bimaculatus","species","bumblebees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2011","WHA","transects","Bombus_bimaculatus","species","bumblebees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2011","WHA","transects","Bombus_bimaculatus","species","bumblebees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2011","WHA","transects","Bombus_bimaculatus","species","bumblebees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2011","WHA","transects","Bombus_bimaculatus","species","bumblebees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2011","WHA","transects","Bombus_griseocollis","species","bumblebees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2011","WHA","transects","Bombus_griseocollis","species","bumblebees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2011","WHA","transects","Bombus_griseocollis","species","bumblebees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2011","WHA","transects","Bombus_griseocollis","species","bumblebees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2011","WHA","transects","Bombus_griseocollis","species","bumblebees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2011","WHA","transects","Bombus_griseocollis","species","bumblebees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2011","WHA","transects","Bombus_griseocollis","species","bumblebees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2011","WHA","transects","Bombus_impatiens","species","bumblebees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2011","WHA","transects","Bombus_impatiens","species","bumblebees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2011","DH","transects","Bombus_perplexus","species","bumblebees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2011","WHA","transects","Bombus_perplexus","species","bumblebees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2011","WHA","transects","Colletes_inaequalis","species","other_wild_bees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2011","WHA","transects","Colletes_inaequalis","species","other_wild_bees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2011","WHA","transects","Colletes_thoracicus","species","other_wild_bees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2011","WHA","transects","Colletes_validus","species","other_wild_bees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2011","DEM","transects","Sphecodes_aroniae","species","other_wild_bees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2011","DH","transects","Xylocopa_virginica","species","other_wild_bees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2011","WHA","transects","Xylocopa_virginica","species","other_wild_bees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2011","WHA","transects","Xylocopa_virginica","species","other_wild_bees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2011","WHA","transects","Xylocopa_virginica","species","other_wild_bees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2011","WHA","transects","Xylocopa_virginica","species","other_wild_bees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2011","WHA","transects","Xylocopa_virginica","species","other_wild_bees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2011","MOO","transects","Augochlorella_aurata","species","other_wild_bees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2011","MOO","transects","Bombus_bimaculatus","species","bumblebees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2011","MOO","transects","Bombus_griseocollis","species","bumblebees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2011","MOO","transects","Bombus_impatiens","species","bumblebees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2011","MOO","transects","Colletes_inaequalis","species","other_wild_bees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2011","MOO","transects","Colletes_validus","species","other_wild_bees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2011","MOO","transects","Colletes_validus","species","other_wild_bees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2011","MOO","transects","Colletes_validus","species","other_wild_bees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2011","MOO","transects","Colletes_validus","species","other_wild_bees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2011","MOO","transects","Colletes_validus","species","other_wild_bees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2011","MOO","transects","Lasioglossum_oblongum","species","other_wild_bees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_corymbosum_USA_2011","MOO","transects","Sphecodes_stygius","species","other_wild_bees",1,1800,180,NA,"In each year, each site was visited on three separate days during the bloom period.  Within each site, we established a single transect consisting of two 50-m sections of crop row (total 100-m). Note that the distance walked is actually 200-m since the observer walks up one side of the row of bushes and down the other to fully sample the row. On each day, data were collected three times, in temporally strati<U+FB01>ed sampling periods. During each sample, observers walked along the transect at a standard pace for 20 min, and all pollinators observed visiting <U+FB02>owers in the transect were collected by hand net, with time stopped to allow processing of specimens.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","HN","transect","Andrena_vicina","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","HN","transect","Augochlorella_aurata","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","HN","transect","Augochlorella_aurata","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","HN","transect","Augochlorella_aurata","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","HN","transect","Augochlorella_aurata","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","HN","transect","Augochlorella_aurata","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","HN","transect","Bombus_bimaculatus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","HN","transect","Bombus_bimaculatus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","HN","transect","Bombus_bimaculatus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","HN","transect","Bombus_bimaculatus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","HN","transect","Bombus_bimaculatus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","HN","transect","Bombus_bimaculatus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","HN","transect","Bombus_bimaculatus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","HN","transect","Bombus_bimaculatus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","HN","transect","Bombus_bimaculatus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","HN","transect","Bombus_griseocollis","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","HN","transect","Bombus_griseocollis","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","HN","transect","Bombus_griseocollis","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","HN","transect","Bombus_griseocollis","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","HN","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","HN","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","HN","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","HN","transect","Megachile_gemula","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","HN","transect","Megachile_mendica","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","HN","transect","Melitta_americana","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","HN","transect","Melitta_americana","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","HN","transect","Melitta_americana","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","HN","transect","Melitta_americana","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","HN","transect","Melitta_americana","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","HN","transect","Melitta_americana","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","HN","transect","Melitta_americana","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","HN","transect","Melitta_americana","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","HN","transect","Melitta_americana","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","HN","transect","Melitta_americana","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","WH","transect","Andrena_morrisonella","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","WH","transect","Andrena_morrisonella","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","WH","transect","Andrena_spiraeana","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","WH","transect","Augochlora_pura","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","WH","transect","Augochlora_pura","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","WH","transect","Augochlora_pura","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","WH","transect","Augochlora_pura","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","WH","transect","Augochlora_pura","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","WH","transect","Augochlora_pura","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","WH","transect","Augochlora_pura","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","WH","transect","Augochlora_pura","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","HU","transect","Augochlorella_aurata","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","HC","transect","Augochlorella_aurata","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","WH","transect","Augochloropsis_metallica","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","HC","transect","Augochloropsis_metallica","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","HC","transect","Augochloropsis_metallica","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","HU","transect","Bombus_bimaculatus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","HC","transect","Bombus_bimaculatus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","HC","transect","Bombus_bimaculatus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","HC","transect","Bombus_bimaculatus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","WH","transect","Bombus_bimaculatus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","HC","transect","Bombus_bimaculatus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","HC","transect","Bombus_bimaculatus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","HC","transect","Bombus_bimaculatus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","HC","transect","Bombus_bimaculatus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","HC","transect","Bombus_bimaculatus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","HC","transect","Bombus_bimaculatus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","HC","transect","Bombus_bimaculatus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","HC","transect","Bombus_bimaculatus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","HC","transect","Bombus_bimaculatus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","HC","transect","Bombus_bimaculatus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","HC","transect","Bombus_bimaculatus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","HC","transect","Bombus_bimaculatus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","HC","transect","Bombus_bimaculatus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","HC","transect","Bombus_griseocollis","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","HC","transect","Bombus_griseocollis","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","HC","transect","Bombus_griseocollis","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","HC","transect","Bombus_griseocollis","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","HC","transect","Bombus_griseocollis","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","HC","transect","Bombus_griseocollis","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","HC","transect","Bombus_griseocollis","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","HC","transect","Bombus_griseocollis","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","HC","transect","Bombus_griseocollis","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","HC","transect","Bombus_griseocollis","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","WH","transect","Bombus_griseocollis","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","WH","transect","Bombus_griseocollis","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","WH","transect","Bombus_griseocollis","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","HC","transect","Bombus_griseocollis","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","HC","transect","Bombus_griseocollis","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","HC","transect","Bombus_griseocollis","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","HC","transect","Bombus_griseocollis","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","HC","transect","Bombus_griseocollis","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","HC","transect","Bombus_griseocollis","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","HC","transect","Bombus_griseocollis","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","HC","transect","Bombus_griseocollis","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","HU","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","HC","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","HC","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","HC","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","HC","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","HC","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","HC","transect","Bombus_perplexus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","WH","transect","Bombus_perplexus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","WH","transect","Bombus_perplexus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","HC","transect","Bombus_perplexus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","HC","transect","Bombus_perplexus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","HC","transect","Bombus_perplexus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","WH","transect","Ceratina_calcarata","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","WH","transect","Ceratina_calcarata","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","WH","transect","Ceratina_calcarata","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","HC","transect","Halictus_rubicundus","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","WH","transect","Lasioglossum_coeruleum","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","HC","transect","Lasioglossum_fuscipenne","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","WH","transect","Megachile_addenda","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","WH","transect","Megachile_gemula","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","HU","transect","Megachile_mendica","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","WH","transect","Megachile_mendica","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","WH","transect","Megachile_mendica","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","WH","transect","Megachile_mendica","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","WH","transect","Megachile_mendica","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","WH","transect","Megachile_mendica","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","WH","transect","Megachile_mendica","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","HU","transect","Melitta_americana","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","HU","transect","Melitta_americana","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","HU","transect","Melitta_americana","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","HU","transect","Melitta_americana","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","HU","transect","Melitta_americana","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","HU","transect","Melitta_americana","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","HU","transect","Melitta_americana","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","HU","transect","Melitta_americana","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","HC","transect","Melitta_americana","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","HC","transect","Melitta_americana","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","HC","transect","Melitta_americana","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","HC","transect","Melitta_americana","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","HC","transect","Melitta_americana","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","WH","transect","Melitta_americana","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","HC","transect","Melitta_americana","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","HC","transect","Melitta_americana","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","HC","transect","Melitta_americana","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","HC","transect","Melitta_americana","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","HC","transect","Melitta_americana","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","HC","transect","Melitta_americana","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","HC","transect","Melitta_americana","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","HC","transect","Melitta_americana","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","HU","transect","Nomada_rodecki","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","WH","transect","Nomada_rodecki","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","HC","transect","Nomada_rodecki","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","WH","transect","Osmia_inspergens","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","HC","transect","Osmia_pumila","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","HU","transect","Osmia_virga","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","WH","transect","Osmia_virga","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","HU","transect","Panurginus_atramontensis","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","HC","transect","Panurginus_atramontensis","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","WH","transect","Xylocopa_virginica","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","WH","transect","Xylocopa_virginica","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","WH","transect","Xylocopa_virginica","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","HC","transect","Xylocopa_virginica","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","MO","transect","Andrena_vicina","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","MO","transect","Augochlorella_aurata","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","MO","transect","Augochlorella_aurata","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","MO","transect","Augochlorella_aurata","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","MO","transect","Augochlorella_aurata","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","MO","transect","Augochlorella_aurata","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","MO","transect","Augochlorella_aurata","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","MO","transect","Augochlorella_aurata","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","MO","transect","Augochlorella_aurata","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","MO","transect","Augochloropsis_metallica","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","JN","transect","Bombus_bimaculatus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","JN","transect","Bombus_bimaculatus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","JN","transect","Bombus_bimaculatus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","JN","transect","Bombus_bimaculatus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","JN","transect","Bombus_bimaculatus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","JN","transect","Bombus_bimaculatus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","HP","transect","Bombus_bimaculatus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","HP","transect","Bombus_bimaculatus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","HP","transect","Bombus_bimaculatus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","HP","transect","Bombus_bimaculatus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","HP","transect","Bombus_bimaculatus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","HP","transect","Bombus_bimaculatus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","HP","transect","Bombus_bimaculatus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","HP","transect","Bombus_bimaculatus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","HP","transect","Bombus_bimaculatus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","HP","transect","Bombus_bimaculatus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","MO","transect","Bombus_bimaculatus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","MO","transect","Bombus_bimaculatus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","MO","transect","Bombus_bimaculatus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","MO","transect","Bombus_bimaculatus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","MO","transect","Bombus_bimaculatus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","MO","transect","Bombus_bimaculatus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","MO","transect","Bombus_bimaculatus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","MO","transect","Bombus_bimaculatus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","MO","transect","Bombus_bimaculatus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","MO","transect","Bombus_bimaculatus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","MO","transect","Bombus_bimaculatus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","MO","transect","Bombus_bimaculatus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","MO","transect","Bombus_bimaculatus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","JN","transect","Bombus_griseocollis","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","JN","transect","Bombus_griseocollis","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","JN","transect","Bombus_griseocollis","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","HP","transect","Bombus_griseocollis","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","MO","transect","Bombus_griseocollis","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","MO","transect","Bombus_griseocollis","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","MO","transect","Bombus_griseocollis","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","MO","transect","Bombus_griseocollis","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","MO","transect","Bombus_griseocollis","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","MO","transect","Bombus_griseocollis","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","MO","transect","Bombus_griseocollis","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","MO","transect","Bombus_griseocollis","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","MO","transect","Bombus_griseocollis","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","MO","transect","Bombus_griseocollis","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","MO","transect","Bombus_griseocollis","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","MO","transect","Bombus_griseocollis","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","MO","transect","Bombus_griseocollis","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","MO","transect","Bombus_griseocollis","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","MO","transect","Bombus_griseocollis","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","MO","transect","Bombus_griseocollis","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","MO","transect","Bombus_griseocollis","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","MO","transect","Bombus_griseocollis","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","MO","transect","Bombus_griseocollis","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","MO","transect","Bombus_griseocollis","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","MO","transect","Bombus_griseocollis","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","MO","transect","Bombus_griseocollis","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","MO","transect","Bombus_griseocollis","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","MO","transect","Bombus_griseocollis","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","MO","transect","Bombus_griseocollis","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","MO","transect","Bombus_griseocollis","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","MO","transect","Bombus_griseocollis","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","MO","transect","Bombus_griseocollis","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","MO","transect","Bombus_griseocollis","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","JN","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","JN","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","JN","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","JN","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","HP","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","MO","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","MO","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","MO","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","MO","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","MO","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","MO","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","MO","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","MO","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","MO","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","JN","transect","Bombus_perplexus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","JN","transect","Bombus_perplexus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","JN","transect","Bombus_perplexus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","HP","transect","Bombus_perplexus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","HP","transect","Bombus_perplexus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","HP","transect","Bombus_perplexus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","HP","transect","Bombus_perplexus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","HP","transect","Bombus_perplexus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","HP","transect","Bombus_perplexus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","MO","transect","Bombus_perplexus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","MO","transect","Bombus_perplexus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","MO","transect","Bombus_perplexus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","HP","transect","Bombus_vagans","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","HP","transect","Bombus_vagans","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","MO","transect","Bombus_vagans","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","HP","transect","Coelioxys_sayi","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","MO","transect","Lasioglossum_planatum","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","HP","transect","Melitta_americana","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","HP","transect","Melitta_americana","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","HP","transect","Melitta_americana","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","JN","transect","Osmia_virga","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","JN","transect","Panurginus_atramontensis","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","JN","transect","Panurginus_atramontensis","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","JN","transect","Panurginus_atramontensis","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","JN","transect","Panurginus_atramontensis","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","JN","transect","Panurginus_atramontensis","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","JN","transect","Panurginus_atramontensis","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","JN","transect","Panurginus_atramontensis","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","JN","transect","Panurginus_atramontensis","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","JN","transect","Panurginus_atramontensis","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","JW","transect","Andrena_cressonii","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","TH","transect","Andrena_cressonii","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","JW","transect","Andrena_imitatrix","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","TH","transect","Augochlora_pura","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","TH","transect","Augochlora_pura","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","TH","transect","Augochlora_pura","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","BU","transect","Augochlora_pura","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","TH","transect","Augochloropsis_metallica","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","TH","transect","Augochloropsis_metallica","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","JW","transect","Bombus_bimaculatus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","JW","transect","Bombus_bimaculatus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","JW","transect","Bombus_bimaculatus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","JW","transect","Bombus_bimaculatus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","JW","transect","Bombus_bimaculatus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","JW","transect","Bombus_bimaculatus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","JW","transect","Bombus_bimaculatus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","JW","transect","Bombus_bimaculatus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","JW","transect","Bombus_bimaculatus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","TH","transect","Bombus_bimaculatus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","JW","transect","Bombus_bimaculatus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","TH","transect","Bombus_bimaculatus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","TH","transect","Bombus_bimaculatus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","TH","transect","Bombus_bimaculatus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","BU","transect","Bombus_bimaculatus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","BU","transect","Bombus_bimaculatus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","TH","transect","Bombus_bimaculatus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","TH","transect","Bombus_citrinus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","TH","transect","Bombus_griseocollis","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","TH","transect","Bombus_griseocollis","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","TH","transect","Bombus_griseocollis","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","TH","transect","Bombus_griseocollis","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","TH","transect","Bombus_griseocollis","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","TH","transect","Bombus_griseocollis","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","JW","transect","Bombus_griseocollis","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","JW","transect","Bombus_griseocollis","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","JW","transect","Bombus_griseocollis","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","JW","transect","Bombus_griseocollis","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","JW","transect","Bombus_griseocollis","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","JW","transect","Bombus_griseocollis","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","TH","transect","Bombus_griseocollis","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","TH","transect","Bombus_griseocollis","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","TH","transect","Bombus_griseocollis","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","TH","transect","Bombus_griseocollis","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","TH","transect","Bombus_griseocollis","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","TH","transect","Bombus_griseocollis","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","TH","transect","Bombus_griseocollis","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","TH","transect","Bombus_griseocollis","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","TH","transect","Bombus_griseocollis","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","TH","transect","Bombus_griseocollis","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","TH","transect","Bombus_griseocollis","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","BU","transect","Bombus_griseocollis","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","BU","transect","Bombus_griseocollis","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","BU","transect","Bombus_griseocollis","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","BU","transect","Bombus_griseocollis","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","BU","transect","Bombus_griseocollis","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","BU","transect","Bombus_griseocollis","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","TH","transect","Bombus_griseocollis","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","TH","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","TH","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","TH","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","TH","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","TH","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","TH","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","TH","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","TH","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","TH","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","JW","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","JW","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","JW","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","TH","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","JW","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","JW","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","TH","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","TH","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","TH","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","TH","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","BU","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","BU","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","BU","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","BU","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","BU","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","BU","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","BU","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","BU","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","BU","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","BU","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","BU","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","BU","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","BU","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","TH","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","TH","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","TH","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","TH","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","TH","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","TH","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","TH","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","TH","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","TH","transect","Bombus_perplexus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","TH","transect","Bombus_perplexus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","TH","transect","Bombus_perplexus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","TH","transect","Bombus_perplexus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","JW","transect","Bombus_perplexus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","JW","transect","Bombus_perplexus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","JW","transect","Bombus_perplexus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","JW","transect","Bombus_perplexus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","TH","transect","Bombus_perplexus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","TH","transect","Bombus_perplexus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","TH","transect","Bombus_perplexus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","TH","transect","Ceratina_calcarata","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","BU","transect","Ceratina_calcarata","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","TH","transect","Coelioxys_immaculata","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","TH","transect","Lasioglossum_fuscipenne","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","TH","transect","Lasioglossum_planatum","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","TH","transect","Lasioglossum_subviridatum","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","BU","transect","Megachile_addenda","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","BU","transect","Megachile_addenda","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","BU","transect","Megachile_addenda","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","TH","transect","Megachile_gemula","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","JW","transect","Megachile_gemula","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","BU","transect","Megachile_gemula","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","TH","transect","Megachile_mendica","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","TH","transect","Melitta_americana","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","TH","transect","Melitta_americana","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","TH","transect","Melitta_americana","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","TH","transect","Melitta_americana","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","BU","transect","Melitta_americana","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","BU","transect","Melitta_americana","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","BU","transect","Melitta_americana","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","BU","transect","Melitta_americana","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","BU","transect","Melitta_americana","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","TH","transect","Nomada_bella_lepida","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","TH","transect","Nomada_pygmaea","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","JW","transect","Osmia_virga","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","BU","transect","Sphecodes_aroniae","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","TH","transect","Xylocopa_virginica","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","JW","transect","Xylocopa_virginica","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","BU","transect","Xylocopa_virginica","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","JE","transect","Andrena_vicina","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","JE","transect","Bombus_bimaculatus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","JE","transect","Bombus_bimaculatus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","JE","transect","Bombus_bimaculatus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","JE","transect","Bombus_bimaculatus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","JE","transect","Bombus_bimaculatus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","JE","transect","Bombus_bimaculatus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","JE","transect","Bombus_bimaculatus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","JE","transect","Bombus_bimaculatus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","JE","transect","Bombus_bimaculatus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","JE","transect","Bombus_bimaculatus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","JE","transect","Bombus_bimaculatus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","JE","transect","Bombus_bimaculatus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","LE","transect","Bombus_bimaculatus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","LE","transect","Bombus_bimaculatus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","LE","transect","Bombus_bimaculatus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","LE","transect","Bombus_bimaculatus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","LE","transect","Bombus_bimaculatus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","JE","transect","Bombus_bimaculatus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","JE","transect","Bombus_bimaculatus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","JE","transect","Bombus_bimaculatus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","JE","transect","Bombus_bimaculatus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","JE","transect","Bombus_bimaculatus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","JE","transect","Bombus_bimaculatus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","JE","transect","Bombus_griseocollis","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","JE","transect","Bombus_griseocollis","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","JE","transect","Bombus_griseocollis","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","JE","transect","Bombus_griseocollis","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","JE","transect","Bombus_griseocollis","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","JE","transect","Bombus_griseocollis","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","LE","transect","Bombus_griseocollis","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","LE","transect","Bombus_griseocollis","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","JE","transect","Bombus_griseocollis","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","JE","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","JE","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","JE","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","JE","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","JE","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","HR","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","JE","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","JE","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","JE","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","LE","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","LE","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","JE","transect","Bombus_perplexus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","JE","transect","Bombus_perplexus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","JE","transect","Bombus_perplexus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","JE","transect","Bombus_perplexus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","JE","transect","Bombus_perplexus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","JE","transect","Bombus_perplexus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","JE","transect","Bombus_perplexus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","JE","transect","Bombus_perplexus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","HR","transect","Bombus_perplexus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","JE","transect","Bombus_perplexus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","LE","transect","Bombus_perplexus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","JE","transect","Bombus_perplexus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","JE","transect","Bombus_perplexus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","JE","transect","Bombus_perplexus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","JE","transect","Bombus_perplexus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","JE","transect","Bombus_perplexus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","JE","transect","Bombus_perplexus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","JE","transect","Bombus_perplexus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","JE","transect","Ceratina_calcarata","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","JE","transect","Colletes_consors","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","HR","transect","Halictus_rubicundus","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","LE","transect","Lasioglossum_fuscipenne","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","LE","transect","Lasioglossum_fuscipenne","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","JE","transect","Lasioglossum_oblongum","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","HR","transect","Melitta_americana","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","HR","transect","Melitta_americana","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","HR","transect","Melitta_americana","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","JE","transect","Xylocopa_virginica","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","JE","transect","Xylocopa_virginica","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","JE","transect","Xylocopa_virginica","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","JE","transect","Xylocopa_virginica","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","HR","transect","Xylocopa_virginica","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","JE","transect","Xylocopa_virginica","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","UC","transect","Augochlorella_aurata","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","UC","transect","Augochlorella_aurata","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","UC","transect","Augochloropsis_metallica","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","UC","transect","Bombus_bimaculatus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","UC","transect","Bombus_bimaculatus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","UC","transect","Bombus_bimaculatus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","UC","transect","Bombus_bimaculatus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","UC","transect","Bombus_bimaculatus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","UC","transect","Bombus_bimaculatus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","UC","transect","Bombus_bimaculatus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","UC","transect","Bombus_bimaculatus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","UC","transect","Bombus_bimaculatus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","UC","transect","Bombus_bimaculatus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","UC","transect","Bombus_bimaculatus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","UC","transect","Bombus_bimaculatus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","UC","transect","Bombus_bimaculatus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","HS","transect","Bombus_bimaculatus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","HS","transect","Bombus_bimaculatus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","HS","transect","Bombus_bimaculatus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","HS","transect","Bombus_bimaculatus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","LC","transect","Bombus_bimaculatus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","LC","transect","Bombus_bimaculatus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","LC","transect","Bombus_bimaculatus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","LC","transect","Bombus_bimaculatus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","LC","transect","Bombus_bimaculatus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","LC","transect","Bombus_bimaculatus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","LC","transect","Bombus_bimaculatus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","LC","transect","Bombus_bimaculatus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","LC","transect","Bombus_bimaculatus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","LC","transect","Bombus_bimaculatus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","LC","transect","Bombus_bimaculatus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","LC","transect","Bombus_bimaculatus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","LC","transect","Bombus_bimaculatus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","LC","transect","Bombus_bimaculatus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","LC","transect","Bombus_bimaculatus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","LC","transect","Bombus_bimaculatus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","LC","transect","Bombus_bimaculatus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","LC","transect","Bombus_bimaculatus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","LC","transect","Bombus_bimaculatus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","LC","transect","Bombus_bimaculatus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","LC","transect","Bombus_bimaculatus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","UC","transect","Bombus_griseocollis","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","UC","transect","Bombus_griseocollis","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","UC","transect","Bombus_griseocollis","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","UC","transect","Bombus_griseocollis","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","UC","transect","Bombus_griseocollis","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","UC","transect","Bombus_griseocollis","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","UC","transect","Bombus_griseocollis","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","UC","transect","Bombus_griseocollis","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","UC","transect","Bombus_griseocollis","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","UC","transect","Bombus_griseocollis","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","UC","transect","Bombus_griseocollis","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","UC","transect","Bombus_griseocollis","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","UC","transect","Bombus_griseocollis","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","UC","transect","Bombus_griseocollis","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","UC","transect","Bombus_griseocollis","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","UC","transect","Bombus_griseocollis","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","UC","transect","Bombus_griseocollis","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","UC","transect","Bombus_griseocollis","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","UC","transect","Bombus_griseocollis","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","UC","transect","Bombus_griseocollis","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","UC","transect","Bombus_griseocollis","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","UC","transect","Bombus_griseocollis","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","UC","transect","Bombus_griseocollis","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","UC","transect","Bombus_griseocollis","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","UC","transect","Bombus_griseocollis","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","UC","transect","Bombus_griseocollis","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","UC","transect","Bombus_griseocollis","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","UC","transect","Bombus_griseocollis","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","UC","transect","Bombus_griseocollis","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","UC","transect","Bombus_griseocollis","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","UC","transect","Bombus_griseocollis","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","UC","transect","Bombus_griseocollis","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","UC","transect","Bombus_griseocollis","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","UC","transect","Bombus_griseocollis","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","UC","transect","Bombus_griseocollis","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","UC","transect","Bombus_griseocollis","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","UC","transect","Bombus_griseocollis","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","UC","transect","Bombus_griseocollis","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","UC","transect","Bombus_griseocollis","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","UC","transect","Bombus_griseocollis","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","UC","transect","Bombus_griseocollis","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","UC","transect","Bombus_griseocollis","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","UC","transect","Bombus_griseocollis","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","UC","transect","Bombus_griseocollis","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","UC","transect","Bombus_griseocollis","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","UC","transect","Bombus_griseocollis","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","UC","transect","Bombus_griseocollis","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","UC","transect","Bombus_griseocollis","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","UC","transect","Bombus_griseocollis","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","UC","transect","Bombus_griseocollis","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","UC","transect","Bombus_griseocollis","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","UC","transect","Bombus_griseocollis","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","UC","transect","Bombus_griseocollis","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","HS","transect","Bombus_griseocollis","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","HS","transect","Bombus_griseocollis","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","LC","transect","Bombus_griseocollis","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","LC","transect","Bombus_griseocollis","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","LC","transect","Bombus_griseocollis","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","LC","transect","Bombus_griseocollis","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","LC","transect","Bombus_griseocollis","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","LC","transect","Bombus_griseocollis","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","LC","transect","Bombus_griseocollis","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","LC","transect","Bombus_griseocollis","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","LC","transect","Bombus_griseocollis","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","LC","transect","Bombus_griseocollis","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","LC","transect","Bombus_griseocollis","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","UC","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","HS","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","LC","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","LC","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","UC","transect","Bombus_perplexus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","UC","transect","Bombus_perplexus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","HS","transect","Bombus_perplexus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","HS","transect","Bombus_perplexus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","LC","transect","Bombus_perplexus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","LC","transect","Bombus_perplexus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","LC","transect","Bombus_perplexus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","LC","transect","Bombus_perplexus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","LC","transect","Bombus_perplexus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","LC","transect","Bombus_perplexus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","LC","transect","Coelioxys_porterae","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","UC","transect","Heriades_carinatus","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","UC","transect","Hoplitis_truncata","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","UC","transect","Lasioglossum_fuscipenne","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","LC","transect","Lasioglossum_fuscipenne","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","LC","transect","Megachile_addenda","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","LC","transect","Megachile_gemula","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","LC","transect","Megachile_gemula","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","LC","transect","Megachile_mendica","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","UC","transect","Melitta_americana","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","UC","transect","Melitta_americana","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","HS","transect","Melitta_americana","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","HS","transect","Melitta_americana","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","HS","transect","Melitta_americana","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","HS","transect","Melitta_americana","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","HS","transect","Melitta_americana","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","LC","transect","Melitta_americana","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","LC","transect","Melitta_americana","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","LC","transect","Melitta_americana","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","HS","transect","Osmia_pumila","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","UC","transect","Xylocopa_virginica","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","LC","transect","Xylocopa_virginica","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","LC","transect","Xylocopa_virginica","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","LC","transect","Xylocopa_virginica","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","LC","transect","Xylocopa_virginica","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","WH","transect","Augochlora_pura","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","HU","transect","Augochlorella_aurata","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","HC","transect","Augochlorella_aurata","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","WH","transect","Augochloropsis_metallica","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","WH","transect","Augochloropsis_metallica","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","HC","transect","Augochloropsis_metallica","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","HU","transect","Bombus_bimaculatus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","HU","transect","Bombus_bimaculatus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","HU","transect","Bombus_bimaculatus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","HU","transect","Bombus_bimaculatus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","HU","transect","Bombus_bimaculatus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","HU","transect","Bombus_bimaculatus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","HU","transect","Bombus_bimaculatus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","WH","transect","Bombus_bimaculatus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","HC","transect","Bombus_bimaculatus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","HC","transect","Bombus_bimaculatus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","HC","transect","Bombus_bimaculatus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","HC","transect","Bombus_bimaculatus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","HC","transect","Bombus_bimaculatus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","HU","transect","Bombus_griseocollis","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","HU","transect","Bombus_griseocollis","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","HU","transect","Bombus_griseocollis","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","HU","transect","Bombus_griseocollis","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","HU","transect","Bombus_griseocollis","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","HU","transect","Bombus_griseocollis","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","HU","transect","Bombus_griseocollis","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","HU","transect","Bombus_griseocollis","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","HC","transect","Bombus_griseocollis","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","HC","transect","Bombus_griseocollis","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","HC","transect","Bombus_griseocollis","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","HC","transect","Bombus_griseocollis","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","HC","transect","Bombus_griseocollis","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","HC","transect","Bombus_griseocollis","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","HU","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","HU","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","HU","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","HU","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","HU","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","HU","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","HU","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","WH","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","WH","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","WH","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","WH","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","WH","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","HC","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","HC","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","HC","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","WH","transect","Bombus_perplexus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","WH","transect","Bombus_perplexus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","WH","transect","Bombus_perplexus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","WH","transect","Bombus_perplexus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","HC","transect","Bombus_perplexus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","HC","transect","Bombus_perplexus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","WH","transect","Bombus_vagans","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","WH","transect","Ceratina_calcarata","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","WH","transect","Ceratina_calcarata","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","WH","transect","Ceratina_calcarata","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","WH","transect","Ceratina_calcarata","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","HC","transect","Halictus_rubicundus","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","HU","transect","Hoplitis_truncata","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","HC","transect","Hoplitis_truncata","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","HC","transect","Hoplitis_truncata","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","HC","transect","Hoplitis_truncata","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","HC","transect","Megachile_addenda","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","HU","transect","Megachile_gemula","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","WH","transect","Megachile_mendica","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","HU","transect","Melitta_americana","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","HU","transect","Melitta_americana","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","WH","transect","Melitta_americana","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","HC","transect","Melitta_americana","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","HC","transect","Melitta_americana","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","HC","transect","Melitta_americana","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","HC","transect","Melitta_americana","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","HC","transect","Melitta_americana","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","HC","transect","Melitta_americana","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","HC","transect","Melitta_americana","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","HC","transect","Melitta_americana","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","HC","transect","Melitta_americana","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","HC","transect","Melitta_americana","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","HC","transect","Melitta_americana","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","HC","transect","Melitta_americana","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","HC","transect","Melitta_americana","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","HC","transect","Melitta_americana","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","HC","transect","Melitta_americana","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","HC","transect","Melitta_americana","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","WH","transect","Osmia_pumila","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","HC","transect","Osmia_pumila","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","HC","transect","Osmia_pumila","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","WH","transect","Osmia_virga","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","WH","transect","Osmia_virga","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","HC","transect","Osmia_virga","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","HC","transect","Osmia_virga","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","HC","transect","Osmia_virga","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","HC","transect","Osmia_virga","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","WH","transect","Sphecodes_aroniae","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","HU","transect","Xylocopa_virginica","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","HU","transect","Xylocopa_virginica","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","HU","transect","Xylocopa_virginica","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","HU","transect","Xylocopa_virginica","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","HU","transect","Xylocopa_virginica","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","HU","transect","Xylocopa_virginica","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","HU","transect","Xylocopa_virginica","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","HU","transect","Xylocopa_virginica","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","HU","transect","Xylocopa_virginica","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","HU","transect","Xylocopa_virginica","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","HU","transect","Xylocopa_virginica","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","WH","transect","Xylocopa_virginica","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","WH","transect","Xylocopa_virginica","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","WH","transect","Xylocopa_virginica","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","HN","transect","Agapostemon_splendens","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","JE","transect","Bombus_bimaculatus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","JE","transect","Bombus_bimaculatus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","JE","transect","Bombus_bimaculatus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","JE","transect","Bombus_bimaculatus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","HN","transect","Bombus_bimaculatus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","HN","transect","Bombus_bimaculatus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","HN","transect","Bombus_bimaculatus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","HN","transect","Bombus_bimaculatus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","HN","transect","Bombus_bimaculatus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","HN","transect","Bombus_bimaculatus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","HN","transect","Bombus_bimaculatus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","HN","transect","Bombus_bimaculatus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","HN","transect","Bombus_bimaculatus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","HN","transect","Bombus_bimaculatus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","HN","transect","Bombus_bimaculatus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","HN","transect","Bombus_bimaculatus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","HN","transect","Bombus_bimaculatus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","HN","transect","Bombus_bimaculatus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","HN","transect","Bombus_bimaculatus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","HN","transect","Bombus_bimaculatus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","JE","transect","Bombus_bimaculatus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","JE","transect","Bombus_bimaculatus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","JE","transect","Bombus_bimaculatus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","JE","transect","Bombus_bimaculatus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","JE","transect","Bombus_bimaculatus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","JE","transect","Bombus_bimaculatus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","JE","transect","Bombus_bimaculatus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","JE","transect","Bombus_bimaculatus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","JE","transect","Bombus_bimaculatus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","JE","transect","Bombus_bimaculatus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","HN","transect","Bombus_griseocollis","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","HN","transect","Bombus_griseocollis","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","HN","transect","Bombus_griseocollis","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","HN","transect","Bombus_griseocollis","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","HN","transect","Bombus_griseocollis","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","HN","transect","Bombus_griseocollis","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","HN","transect","Bombus_griseocollis","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","JE","transect","Bombus_griseocollis","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","JE","transect","Bombus_griseocollis","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","JE","transect","Bombus_griseocollis","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","JE","transect","Bombus_griseocollis","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","JE","transect","Bombus_griseocollis","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","JE","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","HN","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","HN","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","HN","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","HN","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","HN","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","HN","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","HN","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","HN","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","HN","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","HN","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","HN","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","HN","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","HN","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","HN","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","JE","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","JE","transect","Bombus_perplexus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","JE","transect","Bombus_perplexus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","HN","transect","Bombus_perplexus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","HN","transect","Bombus_perplexus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","JE","transect","Bombus_perplexus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","JE","transect","Bombus_perplexus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","JE","transect","Bombus_perplexus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","JE","transect","Bombus_perplexus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","JE","transect","Bombus_perplexus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","JE","transect","Bombus_sandersoni","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","HN","transect","Bombus_vagans","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","HN","transect","Hoplitis_truncata","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","JE","transect","Lasioglossum_georgeickworti","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","JE","transect","Megachile_addenda","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","HN","transect","Megachile_gemula","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","HN","transect","Megachile_texana","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","HN","transect","Melitta_americana","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","HN","transect","Melitta_americana","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","HN","transect","Melitta_americana","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","JE","transect","Melitta_americana","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","HN","transect","Osmia_inspergens","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","HN","transect","Osmia_inspergens","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","JE","transect","Osmia_pumila","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","JE","transect","Osmia_pumila","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","JE","transect","Osmia_pumila","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","HN","transect","Osmia_virga","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","HN","transect","Xylocopa_virginica","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","HN","transect","Xylocopa_virginica","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","HN","transect","Xylocopa_virginica","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","HN","transect","Xylocopa_virginica","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","HN","transect","Xylocopa_virginica","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","HR","transect","Bombus_bimaculatus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","HR","transect","Bombus_bimaculatus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","HP","transect","Bombus_bimaculatus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","HP","transect","Bombus_bimaculatus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","HP","transect","Bombus_bimaculatus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","HP","transect","Bombus_bimaculatus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","HP","transect","Bombus_bimaculatus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","HP","transect","Bombus_bimaculatus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","HP","transect","Bombus_bimaculatus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","HP","transect","Bombus_bimaculatus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","HP","transect","Bombus_bimaculatus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","HP","transect","Bombus_bimaculatus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","HP","transect","Bombus_bimaculatus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","HP","transect","Bombus_bimaculatus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","HP","transect","Bombus_bimaculatus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","HP","transect","Bombus_bimaculatus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","HR","transect","Bombus_griseocollis","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","HR","transect","Bombus_griseocollis","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","HR","transect","Bombus_griseocollis","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","HR","transect","Bombus_griseocollis","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","HR","transect","Bombus_griseocollis","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","HR","transect","Bombus_griseocollis","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","HR","transect","Bombus_griseocollis","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","HR","transect","Bombus_griseocollis","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","HR","transect","Bombus_griseocollis","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","HR","transect","Bombus_griseocollis","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","HR","transect","Bombus_griseocollis","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","HR","transect","Bombus_griseocollis","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","HR","transect","Bombus_griseocollis","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","HR","transect","Bombus_griseocollis","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","HR","transect","Bombus_griseocollis","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","HR","transect","Bombus_griseocollis","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","HR","transect","Bombus_griseocollis","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","HP","transect","Bombus_griseocollis","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","HP","transect","Bombus_griseocollis","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","HP","transect","Bombus_griseocollis","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","HP","transect","Bombus_griseocollis","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","HP","transect","Bombus_griseocollis","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","HP","transect","Bombus_griseocollis","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","HP","transect","Bombus_griseocollis","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","HP","transect","Bombus_griseocollis","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","HP","transect","Bombus_griseocollis","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","HP","transect","Bombus_griseocollis","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","HR","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","HR","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","HR","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","HR","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","HR","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","HP","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","HP","transect","Bombus_perplexus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","HP","transect","Bombus_perplexus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","HP","transect","Bombus_perplexus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","HP","transect","Bombus_perplexus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","HP","transect","Bombus_perplexus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","HP","transect","Bombus_perplexus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","HP","transect","Bombus_perplexus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","HP","transect","Bombus_perplexus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","HP","transect","Bombus_perplexus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","HR","transect","Hoplitis_truncata","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","HR","transect","Melitta_americana","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","HR","transect","Melitta_americana","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","HR","transect","Melitta_americana","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","HR","transect","Melitta_americana","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","HR","transect","Melitta_americana","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","HR","transect","Melitta_americana","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","HR","transect","Melitta_americana","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","HR","transect","Melitta_americana","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","HR","transect","Melitta_americana","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","HR","transect","Melitta_americana","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","HR","transect","Melitta_americana","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","HR","transect","Melitta_americana","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","HR","transect","Melitta_americana","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","HR","transect","Melitta_americana","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","HR","transect","Melitta_americana","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","HR","transect","Melitta_americana","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","HR","transect","Melitta_americana","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","HR","transect","Melitta_americana","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","HP","transect","Melitta_americana","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","HP","transect","Melitta_americana","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","HP","transect","Nomada_rodecki","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","HR","transect","Xylocopa_virginica","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","HR","transect","Xylocopa_virginica","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","HR","transect","Xylocopa_virginica","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","HR","transect","Xylocopa_virginica","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","HP","transect","Xylocopa_virginica","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","HP","transect","Xylocopa_virginica","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","HP","transect","Xylocopa_virginica","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","HP","transect","Xylocopa_virginica","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","HP","transect","Xylocopa_virginica","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","HP","transect","Xylocopa_virginica","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","HP","transect","Xylocopa_virginica","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","HP","transect","Xylocopa_virginica","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","HP","transect","Xylocopa_virginica","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","HP","transect","Xylocopa_virginica","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","HP","transect","Xylocopa_virginica","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","HP","transect","Xylocopa_virginica","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","HP","transect","Xylocopa_virginica","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","HP","transect","Xylocopa_virginica","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","HP","transect","Xylocopa_virginica","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","HP","transect","Xylocopa_virginica","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","HP","transect","Xylocopa_virginica","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","HP","transect","Xylocopa_virginica","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","HP","transect","Xylocopa_virginica","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","LC","transect","Augochlorella_aurata","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","LC","transect","Augochlorella_aurata","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","LC","transect","Augochloropsis_metallica","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","LC","transect","Bombus_bimaculatus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","LC","transect","Bombus_bimaculatus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","LC","transect","Bombus_bimaculatus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","LC","transect","Bombus_bimaculatus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","LC","transect","Bombus_bimaculatus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","LC","transect","Bombus_bimaculatus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","LC","transect","Bombus_bimaculatus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","LC","transect","Bombus_bimaculatus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","LC","transect","Bombus_bimaculatus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","LC","transect","Bombus_bimaculatus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","LC","transect","Bombus_bimaculatus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","LC","transect","Bombus_bimaculatus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","LC","transect","Bombus_bimaculatus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","LC","transect","Bombus_bimaculatus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","LC","transect","Bombus_bimaculatus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","LC","transect","Bombus_bimaculatus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","LC","transect","Bombus_bimaculatus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","LC","transect","Bombus_bimaculatus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","LC","transect","Bombus_bimaculatus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","LC","transect","Bombus_bimaculatus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","LC","transect","Bombus_bimaculatus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","LC","transect","Bombus_bimaculatus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","LC","transect","Bombus_bimaculatus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","LC","transect","Bombus_bimaculatus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","LC","transect","Bombus_bimaculatus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","LC","transect","Bombus_bimaculatus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","LE","transect","Bombus_bimaculatus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","LE","transect","Bombus_bimaculatus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","LE","transect","Bombus_bimaculatus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","LE","transect","Bombus_bimaculatus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","LE","transect","Bombus_bimaculatus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","LE","transect","Bombus_bimaculatus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","LE","transect","Bombus_bimaculatus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","LE","transect","Bombus_bimaculatus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","LE","transect","Bombus_bimaculatus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","LE","transect","Bombus_bimaculatus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","LE","transect","Bombus_bimaculatus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","LE","transect","Bombus_bimaculatus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","TH","transect","Bombus_bimaculatus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","TH","transect","Bombus_bimaculatus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","TH","transect","Bombus_bimaculatus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","LC","transect","Bombus_griseocollis","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","LC","transect","Bombus_griseocollis","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","LC","transect","Bombus_griseocollis","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","LC","transect","Bombus_griseocollis","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","LC","transect","Bombus_griseocollis","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","LC","transect","Bombus_griseocollis","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","LC","transect","Bombus_griseocollis","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","LC","transect","Bombus_griseocollis","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","LE","transect","Bombus_griseocollis","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","LE","transect","Bombus_griseocollis","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","LE","transect","Bombus_griseocollis","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","TH","transect","Bombus_griseocollis","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","TH","transect","Bombus_griseocollis","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","TH","transect","Bombus_griseocollis","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","TH","transect","Bombus_griseocollis","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","LC","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","LC","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","LC","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","LC","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","LC","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","LC","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","LC","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","LC","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","LE","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","LE","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","LE","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","TH","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","TH","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","TH","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","TH","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","TH","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","TH","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","TH","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","TH","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","TH","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","LC","transect","Bombus_perplexus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","LC","transect","Bombus_perplexus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","LC","transect","Bombus_perplexus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","LC","transect","Bombus_perplexus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","LC","transect","Bombus_perplexus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","LC","transect","Bombus_perplexus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","LC","transect","Bombus_perplexus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","LC","transect","Bombus_perplexus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","TH","transect","Bombus_perplexus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","TH","transect","Bombus_perplexus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","TH","transect","Bombus_perplexus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","TH","transect","Bombus_perplexus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","LC","transect","Heriades_carinatus","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","LC","transect","Lasioglossum_lineatulum","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","LC","transect","Lasioglossum_subviridatum","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","LC","transect","Lasioglossum_subviridatum","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","LC","transect","Lasioglossum_subviridatum","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","LC","transect","Lasioglossum_subviridatum","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","LC","transect","Lasioglossum_subviridatum","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","LC","transect","Lasioglossum_subviridatum","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","LC","transect","Lasioglossum_subviridatum","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","LC","transect","Lasioglossum_subviridatum","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","LC","transect","Lasioglossum_subviridatum","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","TH","transect","Lasioglossum_versatum","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","LC","transect","Megachile_addenda","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","LC","transect","Megachile_addenda","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","LE","transect","Megachile_addenda","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","LC","transect","Megachile_gemula","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","LC","transect","Megachile_gemula","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","TH","transect","Megachile_gemula","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","TH","transect","Megachile_mendica","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","TH","transect","Megachile_texana","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","LC","transect","Melitta_americana","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","LC","transect","Melitta_americana","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","LE","transect","Osmia_pumila","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","LC","transect","Sphecodes_aroniae","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","UC","transect","Augochlorella_aurata","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","UC","transect","Augochlorella_aurata","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","UC","transect","Augochlorella_aurata","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","UC","transect","Augochlorella_aurata","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","UC","transect","Augochlorella_aurata","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","UC","transect","Augochloropsis_metallica","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","JN","transect","Bombus_bimaculatus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","JN","transect","Bombus_bimaculatus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","JN","transect","Bombus_bimaculatus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","JN","transect","Bombus_bimaculatus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","JN","transect","Bombus_bimaculatus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","JN","transect","Bombus_bimaculatus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","HS","transect","Bombus_bimaculatus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","HS","transect","Bombus_bimaculatus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","HS","transect","Bombus_bimaculatus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","HS","transect","Bombus_bimaculatus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","HS","transect","Bombus_bimaculatus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","HS","transect","Bombus_bimaculatus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","UC","transect","Bombus_bimaculatus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","UC","transect","Bombus_bimaculatus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","UC","transect","Bombus_bimaculatus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","UC","transect","Bombus_bimaculatus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","UC","transect","Bombus_bimaculatus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","UC","transect","Bombus_bimaculatus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","UC","transect","Bombus_bimaculatus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","UC","transect","Bombus_bimaculatus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","JN","transect","Bombus_griseocollis","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","JN","transect","Bombus_griseocollis","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","HS","transect","Bombus_griseocollis","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","HS","transect","Bombus_griseocollis","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","HS","transect","Bombus_griseocollis","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","UC","transect","Bombus_griseocollis","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","UC","transect","Bombus_griseocollis","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","UC","transect","Bombus_griseocollis","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","UC","transect","Bombus_griseocollis","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","UC","transect","Bombus_griseocollis","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","UC","transect","Bombus_griseocollis","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","UC","transect","Bombus_griseocollis","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","UC","transect","Bombus_griseocollis","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","UC","transect","Bombus_griseocollis","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","UC","transect","Bombus_griseocollis","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","UC","transect","Bombus_griseocollis","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","UC","transect","Bombus_griseocollis","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","UC","transect","Bombus_griseocollis","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","UC","transect","Bombus_griseocollis","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","UC","transect","Bombus_griseocollis","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","UC","transect","Bombus_griseocollis","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","UC","transect","Bombus_griseocollis","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","UC","transect","Bombus_griseocollis","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","UC","transect","Bombus_griseocollis","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","JN","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","JN","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","JN","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","HS","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","HS","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","HS","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","HS","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","HS","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","HS","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","HS","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","UC","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","UC","transect","Bombus_perplexus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","UC","transect","Bombus_perplexus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","UC","transect","Bombus_perplexus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","UC","transect","Bombus_perplexus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","UC","transect","Heriades_carinatus","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","UC","transect","Heriades_carinatus","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","UC","transect","Heriades_carinatus","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","JN","transect","Lasioglossum_subviridatum","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","JN","transect","Lasioglossum_subviridatum","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","UC","transect","Lasioglossum_subviridatum","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","UC","transect","Melitta_americana","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","UC","transect","Melitta_americana","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","UC","transect","Melitta_americana","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","UC","transect","Melitta_americana","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","UC","transect","Melitta_americana","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","UC","transect","Melitta_americana","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","UC","transect","Melitta_americana","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","UC","transect","Melitta_americana","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","UC","transect","Melitta_americana","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","UC","transect","Melitta_americana","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","UC","transect","Melitta_americana","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","UC","transect","Melitta_americana","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","UC","transect","Melitta_americana","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","UC","transect","Osmia_virga","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","UC","transect","Xylocopa_virginica","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","JW","transect","Bombus_bimaculatus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","JW","transect","Bombus_bimaculatus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","JW","transect","Bombus_griseocollis","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","JW","transect","Bombus_griseocollis","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","JW","transect","Bombus_griseocollis","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","JW","transect","Bombus_griseocollis","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","JW","transect","Bombus_griseocollis","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","JW","transect","Bombus_griseocollis","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","JW","transect","Bombus_griseocollis","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","JW","transect","Bombus_griseocollis","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","JW","transect","Bombus_griseocollis","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","JW","transect","Bombus_griseocollis","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","JW","transect","Bombus_griseocollis","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","JW","transect","Bombus_griseocollis","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","JW","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","JW","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","JW","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","JW","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","JW","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","JW","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","JW","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","JW","transect","Hoplitis_truncata","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","JW","transect","Lasioglossum_georgeickworti","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","JW","transect","Megachile_gemula","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","JW","transect","Osmia_inspergens","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","JW","transect","Osmia_virga","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","JW","transect","Osmia_virga","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","JW","transect","Osmia_virga","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","JW","transect","Xylocopa_virginica","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","MO","transect","Augochloropsis_sumptuosa","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","BU","transect","Bombus_bimaculatus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","MO","transect","Bombus_bimaculatus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","MO","transect","Bombus_bimaculatus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","MO","transect","Bombus_bimaculatus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","BU","transect","Bombus_griseocollis","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","BU","transect","Bombus_griseocollis","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","BU","transect","Bombus_griseocollis","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","BU","transect","Bombus_griseocollis","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","BU","transect","Bombus_griseocollis","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","MO","transect","Bombus_griseocollis","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","MO","transect","Bombus_griseocollis","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","MO","transect","Bombus_griseocollis","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","BU","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","BU","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","BU","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","BU","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","BU","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","BU","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","BU","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","BU","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","BU","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","BU","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","BU","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","BU","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","BU","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","BU","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","BU","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","BU","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","BU","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","BU","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","BU","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","BU","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","BU","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","BU","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","BU","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","BU","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","BU","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","BU","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","BU","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","BU","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","BU","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","BU","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","BU","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","BU","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","MO","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","MO","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","MO","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","BU","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","BU","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","BU","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","BU","transect","Ceratina_calcarata","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","BU","transect","Ceratina_calcarata","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","BU","transect","Ceratina_calcarata","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","BU","transect","Ceratina_calcarata","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","BU","transect","Lasioglossum_pilosum","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","BU","transect","Lasioglossum_versatum","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","BU","transect","Lasioglossum_versatum","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","BU","transect","Megachile_gemula","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","BU","transect","Melitta_americana","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","BU","transect","Melitta_americana","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","BU","transect","Melitta_americana","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","BU","transect","Xylocopa_virginica","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","BU","transect","Xylocopa_virginica","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","BU","transect","Xylocopa_virginica","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2009","MO","transect","Xylocopa_virginica","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","HU","transect","Andrena_vicina","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","HC","transect","Augochlorella_aurata","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","HU","transect","Augochlorella_aurata","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","HC","transect","Augochloropsis_metallica","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","JW","transect","Augochloropsis_metallica","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","HC","transect","Bombus_bimaculatus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","HC","transect","Bombus_bimaculatus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","HC","transect","Bombus_bimaculatus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","HC","transect","Bombus_bimaculatus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","HC","transect","Bombus_bimaculatus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","HC","transect","Bombus_bimaculatus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","HU","transect","Bombus_bimaculatus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","HU","transect","Bombus_bimaculatus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","HU","transect","Bombus_bimaculatus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","HU","transect","Bombus_bimaculatus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","HU","transect","Bombus_bimaculatus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","JW","transect","Bombus_bimaculatus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","JW","transect","Bombus_bimaculatus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","JW","transect","Bombus_bimaculatus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","JW","transect","Bombus_bimaculatus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","HC","transect","Bombus_griseocollis","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","HC","transect","Bombus_griseocollis","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","HC","transect","Bombus_griseocollis","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","HC","transect","Bombus_griseocollis","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","HC","transect","Bombus_griseocollis","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","HC","transect","Bombus_griseocollis","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","HC","transect","Bombus_griseocollis","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","HC","transect","Bombus_griseocollis","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","HC","transect","Bombus_griseocollis","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","HC","transect","Bombus_griseocollis","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","HC","transect","Bombus_griseocollis","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","HU","transect","Bombus_griseocollis","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","HU","transect","Bombus_griseocollis","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","JW","transect","Bombus_griseocollis","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","JW","transect","Bombus_griseocollis","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","HC","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","HC","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","HC","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","HC","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","HC","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","HU","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","HU","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","HU","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","HU","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","JW","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","JW","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","JW","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","JW","transect","Bombus_perplexus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","JW","transect","Bombus_perplexus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","JW","transect","Bombus_perplexus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","JW","transect","Bombus_perplexus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","JW","transect","Bombus_perplexus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","JW","transect","Bombus_vagans","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","JW","transect","Bombus_vagans","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","HU","transect","Lasioglossum_georgeickworti","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","HU","transect","Lasioglossum_pilosum","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","HC","transect","Megachile_addenda","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","HC","transect","Melitta_americana","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","HC","transect","Melitta_americana","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","HC","transect","Melitta_americana","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","HC","transect","Melitta_americana","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","HC","transect","Melitta_americana","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","HC","transect","Melitta_americana","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","HC","transect","Melitta_americana","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","HC","transect","Melitta_americana","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","HC","transect","Melitta_americana","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","HC","transect","Melitta_americana","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","HC","transect","Melitta_americana","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","HC","transect","Melitta_americana","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","HC","transect","Melitta_americana","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","HC","transect","Melitta_americana","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","HC","transect","Melitta_americana","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","HC","transect","Melitta_americana","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","HU","transect","Melitta_americana","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","HU","transect","Melitta_americana","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","HU","transect","Melitta_americana","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","HU","transect","Melitta_americana","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","HC","transect","Nomada_rodecki","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","HU","transect","Nomada_rodecki","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","HC","transect","Osmia_inspergens","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","HC","transect","Osmia_inspergens","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","HC","transect","Osmia_virga","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","JE","transect","Agapostemon_splendens","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","JE","transect","Andrena_vicina","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","JE","transect","Andrena_vicina","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","JE","transect","Andrena_vicina","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","MO","transect","Augochlorella_aurata","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","MO","transect","Augochlorella_aurata","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","MO","transect","Augochlorella_aurata","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","MO","transect","Augochlorella_aurata","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","MO","transect","Augochlorella_aurata","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","MO","transect","Augochlorella_aurata","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","MO","transect","Augochlorella_aurata","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","MO","transect","Augochlorella_aurata","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","MO","transect","Augochlorella_aurata","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","MO","transect","Augochlorella_aurata","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","MO","transect","Augochlorella_aurata","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","MO","transect","Augochlorella_aurata","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","MO","transect","Augochlorella_aurata","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","MO","transect","Augochlorella_aurata","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","MO","transect","Augochlorella_aurata","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","MO","transect","Augochlorella_aurata","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","MO","transect","Augochlorella_aurata","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","MO","transect","Augochlorella_aurata","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","MO","transect","Augochlorella_aurata","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","MO","transect","Augochlorella_aurata","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","MO","transect","Augochlorella_aurata","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","MO","transect","Augochlorella_aurata","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","MO","transect","Augochlorella_aurata","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","MO","transect","Augochlorella_aurata","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","MO","transect","Augochlorella_aurata","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","MO","transect","Augochlorella_aurata","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","MO","transect","Augochlorella_aurata","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","MO","transect","Augochlorella_aurata","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","MO","transect","Augochlorella_aurata","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","MO","transect","Augochlorella_aurata","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","MO","transect","Augochlorella_aurata","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","MO","transect","Augochlorella_aurata","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","MO","transect","Augochlorella_aurata","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","MO","transect","Augochlorella_aurata","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","MO","transect","Augochlorella_aurata","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","MO","transect","Augochlorella_aurata","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","MO","transect","Augochlorella_aurata","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","MO","transect","Augochlorella_aurata","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","MO","transect","Augochlorella_aurata","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","MO","transect","Augochlorella_aurata","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","MO","transect","Augochlorella_aurata","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","MO","transect","Augochlorella_aurata","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","MO","transect","Augochlorella_aurata","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","HN","transect","Augochlorella_aurata","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","HN","transect","Augochlorella_aurata","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","HN","transect","Augochlorella_aurata","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","HN","transect","Augochlorella_aurata","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","HN","transect","Augochlorella_aurata","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","HN","transect","Augochlorella_aurata","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","HN","transect","Augochloropsis_metallica","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","MO","transect","Augochloropsis_sumptuosa","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","MO","transect","Augochloropsis_sumptuosa","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","MO","transect","Augochloropsis_sumptuosa","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","MO","transect","Augochloropsis_sumptuosa","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","MO","transect","Augochloropsis_sumptuosa","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","MO","transect","Augochloropsis_sumptuosa","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","MO","transect","Augochloropsis_sumptuosa","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","MO","transect","Augochloropsis_sumptuosa","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","MO","transect","Augochloropsis_sumptuosa","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","MO","transect","Augochloropsis_sumptuosa","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","MO","transect","Augochloropsis_sumptuosa","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","JE","transect","Bombus_bimaculatus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","MO","transect","Bombus_bimaculatus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","MO","transect","Bombus_bimaculatus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","MO","transect","Bombus_bimaculatus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","MO","transect","Bombus_bimaculatus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","MO","transect","Bombus_bimaculatus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","MO","transect","Bombus_bimaculatus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","MO","transect","Bombus_bimaculatus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","MO","transect","Bombus_bimaculatus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","MO","transect","Bombus_bimaculatus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","MO","transect","Bombus_bimaculatus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","JE","transect","Bombus_bimaculatus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","JE","transect","Bombus_bimaculatus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","JE","transect","Bombus_bimaculatus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","JE","transect","Bombus_bimaculatus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","JE","transect","Bombus_bimaculatus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","JE","transect","Bombus_bimaculatus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","JE","transect","Bombus_bimaculatus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","JE","transect","Bombus_bimaculatus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","JE","transect","Bombus_bimaculatus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","JE","transect","Bombus_bimaculatus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","JE","transect","Bombus_bimaculatus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","JE","transect","Bombus_bimaculatus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","JE","transect","Bombus_bimaculatus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","JE","transect","Bombus_bimaculatus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","JE","transect","Bombus_bimaculatus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","JE","transect","Bombus_bimaculatus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","JE","transect","Bombus_bimaculatus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","JE","transect","Bombus_bimaculatus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","JE","transect","Bombus_bimaculatus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","JE","transect","Bombus_bimaculatus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","JE","transect","Bombus_bimaculatus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","JE","transect","Bombus_bimaculatus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","JE","transect","Bombus_bimaculatus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","HN","transect","Bombus_bimaculatus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","HN","transect","Bombus_bimaculatus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","HN","transect","Bombus_bimaculatus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","HN","transect","Bombus_bimaculatus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","JE","transect","Bombus_griseocollis","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","MO","transect","Bombus_griseocollis","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","MO","transect","Bombus_griseocollis","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","MO","transect","Bombus_griseocollis","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","MO","transect","Bombus_griseocollis","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","MO","transect","Bombus_griseocollis","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","MO","transect","Bombus_griseocollis","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","MO","transect","Bombus_griseocollis","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","MO","transect","Bombus_griseocollis","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","MO","transect","Bombus_griseocollis","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","MO","transect","Bombus_griseocollis","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","MO","transect","Bombus_griseocollis","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","MO","transect","Bombus_griseocollis","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","MO","transect","Bombus_griseocollis","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","MO","transect","Bombus_griseocollis","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","MO","transect","Bombus_griseocollis","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","MO","transect","Bombus_griseocollis","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","MO","transect","Bombus_griseocollis","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","MO","transect","Bombus_griseocollis","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","MO","transect","Bombus_griseocollis","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","JE","transect","Bombus_griseocollis","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","JE","transect","Bombus_griseocollis","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","HN","transect","Bombus_griseocollis","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","HN","transect","Bombus_griseocollis","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","HN","transect","Bombus_griseocollis","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","HN","transect","Bombus_griseocollis","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","JE","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","JE","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","JE","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","JE","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","JE","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","JE","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","MO","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","MO","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","MO","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","MO","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","MO","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","MO","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","MO","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","MO","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","MO","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","MO","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","MO","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","MO","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","MO","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","MO","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","MO","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","MO","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","MO","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","MO","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","MO","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","MO","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","MO","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","MO","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","JE","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","JE","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","JE","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","JE","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","JE","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","JE","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","JE","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","HN","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","HN","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","HN","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","HN","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","HN","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","HN","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","HN","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","HN","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","HN","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","HN","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","HN","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","HN","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","HN","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","HN","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","HN","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","HN","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","HN","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","HN","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","HN","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","JE","transect","Bombus_perplexus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","JE","transect","Bombus_perplexus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","JE","transect","Bombus_perplexus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","JE","transect","Bombus_perplexus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","JE","transect","Bombus_perplexus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","JE","transect","Bombus_perplexus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","JE","transect","Bombus_perplexus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","JE","transect","Bombus_perplexus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","JE","transect","Bombus_perplexus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","JE","transect","Bombus_perplexus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","HN","transect","Bombus_perplexus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","JE","transect","Bombus_vagans","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","JE","transect","Bombus_vagans","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","HN","transect","Bombus_vagans","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","HN","transect","Lasioglossum_fuscipenne","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","HN","transect","Lasioglossum_georgeickworti","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","HN","transect","Lasioglossum_georgeickworti","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","JE","transect","Lasioglossum_lineatulum","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","MO","transect","Lasioglossum_subviridatum","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","MO","transect","Lasioglossum_versatum","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","MO","transect","Melitta_americana","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","MO","transect","Melitta_americana","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","MO","transect","Melitta_americana","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","MO","transect","Melitta_americana","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","MO","transect","Melitta_americana","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","MO","transect","Melitta_americana","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","MO","transect","Melitta_americana","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","HN","transect","Melitta_americana","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","HN","transect","Melitta_americana","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","HN","transect","Melitta_americana","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","HN","transect","Melitta_americana","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","HN","transect","Melitta_americana","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","MO","transect","Nomada_rodecki","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","MO","transect","Nomada_rodecki","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","HN","transect","Nomada_rodecki","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","JE","transect","Osmia_virga","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","HR","transect","Augochlorella_aurata","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","LE","transect","Augochloropsis_metallica","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","LE","transect","Augochloropsis_metallica","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","HR","transect","Bombus_bimaculatus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","HR","transect","Bombus_bimaculatus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","LE","transect","Bombus_bimaculatus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","LE","transect","Bombus_bimaculatus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","LE","transect","Bombus_bimaculatus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","LE","transect","Bombus_bimaculatus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","LE","transect","Bombus_griseocollis","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","HR","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","HR","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","HR","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","HR","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","HR","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","HR","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","HR","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","HR","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","HR","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","LE","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","LE","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","LE","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","LE","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","LE","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","LE","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","LE","transect","Lasioglossum_fuscipenne","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","LE","transect","Lasioglossum_georgeickworti","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","LE","transect","Lasioglossum_georgeickworti","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","HR","transect","Lasioglossum_georgeickworti","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","LE","transect","Lasioglossum_lineatulum","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","LE","transect","Lasioglossum_pilosum","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","HR","transect","Lasioglossum_subviridatum","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","HR","transect","Melitta_americana","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","HR","transect","Melitta_americana","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","HR","transect","Melitta_americana","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","HR","transect","Melitta_americana","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","HR","transect","Melitta_americana","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","HR","transect","Melitta_americana","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","HR","transect","Melitta_americana","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","HR","transect","Melitta_americana","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","HR","transect","Melitta_americana","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","HR","transect","Melitta_americana","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","HR","transect","Nomada_rodecki","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","HR","transect","Nomada_rodecki","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","HP","transect","Bombus_bimaculatus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","HP","transect","Bombus_bimaculatus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","HP","transect","Bombus_bimaculatus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","HP","transect","Bombus_bimaculatus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","HP","transect","Bombus_bimaculatus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","HP","transect","Bombus_bimaculatus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","HP","transect","Bombus_bimaculatus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","HP","transect","Bombus_bimaculatus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","HP","transect","Bombus_bimaculatus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","HP","transect","Bombus_bimaculatus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","HP","transect","Bombus_bimaculatus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","HP","transect","Bombus_bimaculatus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","HP","transect","Bombus_bimaculatus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","HP","transect","Bombus_bimaculatus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","HP","transect","Bombus_bimaculatus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","HP","transect","Bombus_bimaculatus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","HP","transect","Bombus_bimaculatus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","HP","transect","Bombus_bimaculatus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","HP","transect","Bombus_bimaculatus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","HP","transect","Bombus_griseocollis","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","HP","transect","Bombus_griseocollis","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","HP","transect","Bombus_griseocollis","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","HP","transect","Bombus_griseocollis","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","HP","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","HP","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","HP","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","HP","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","HP","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","HP","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","HP","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","HP","transect","Bombus_perplexus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","HP","transect","Bombus_perplexus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","HP","transect","Bombus_vagans","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","HP","transect","Bombus_vagans","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","HP","transect","Bombus_vagans","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","HP","transect","Lasioglossum_oblongum","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","HP","transect","Lasioglossum_oblongum","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","HP","transect","Melitta_americana","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","HP","transect","Melitta_americana","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","HP","transect","Melitta_americana","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","HP","transect","Melitta_americana","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","HP","transect","Melitta_americana","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","HP","transect","Melitta_americana","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","HP","transect","Nomada_rodecki","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","HP","transect","Osmia_virga","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","WH","transect","Andrena_vicina","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","JN","transect","Bombus_bimaculatus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","JN","transect","Bombus_bimaculatus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","JN","transect","Bombus_bimaculatus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","WH","transect","Bombus_bimaculatus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","WH","transect","Bombus_bimaculatus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","WH","transect","Bombus_bimaculatus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","WH","transect","Bombus_bimaculatus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","JN","transect","Bombus_griseocollis","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","JN","transect","Bombus_griseocollis","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","JN","transect","Bombus_griseocollis","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","JN","transect","Bombus_griseocollis","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","WH","transect","Bombus_griseocollis","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","WH","transect","Bombus_griseocollis","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","WH","transect","Bombus_griseocollis","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","WH","transect","Bombus_griseocollis","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","WH","transect","Bombus_griseocollis","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","WH","transect","Bombus_griseocollis","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","WH","transect","Bombus_griseocollis","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","WH","transect","Bombus_griseocollis","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","WH","transect","Bombus_griseocollis","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","WH","transect","Bombus_griseocollis","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","WH","transect","Bombus_griseocollis","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","WH","transect","Bombus_griseocollis","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","JN","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","JN","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","JN","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","JN","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","JN","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","JN","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","WH","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","WH","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","WH","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","WH","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","WH","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","WH","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","WH","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","WH","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","WH","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","WH","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","WH","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","WH","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","WH","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","WH","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","WH","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","WH","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","WH","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","WH","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","WH","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","WH","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","WH","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","WH","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","WH","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","WH","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","WH","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","WH","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","JN","transect","Bombus_perplexus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","JN","transect","Bombus_perplexus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","WH","transect","Bombus_perplexus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","JN","transect","Bombus_vagans","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","WH","transect","Bombus_vagans","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","WH","transect","Bombus_vagans","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","WH","transect","Bombus_vagans","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","WH","transect","Bombus_vagans","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","WH","transect","Bombus_vagans","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","WH","transect","Bombus_vagans","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","JN","transect","Melitta_americana","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","WH","transect","Nomada_rodecki","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","WH","transect","Osmia_virga","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","WH","transect","Osmia_virga","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","HS","transect","Andrena_vicina","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","HS","transect","Augochlorella_aurata","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","BU","transect","Bombus_bimaculatus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","BU","transect","Bombus_bimaculatus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","BU","transect","Bombus_griseocollis","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","BU","transect","Bombus_griseocollis","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","BU","transect","Bombus_griseocollis","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","BU","transect","Bombus_griseocollis","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","BU","transect","Bombus_griseocollis","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","BU","transect","Bombus_griseocollis","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","BU","transect","Bombus_griseocollis","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","BU","transect","Bombus_griseocollis","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","BU","transect","Bombus_griseocollis","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","BU","transect","Bombus_griseocollis","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","BU","transect","Bombus_griseocollis","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","BU","transect","Bombus_griseocollis","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","BU","transect","Bombus_griseocollis","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","BU","transect","Bombus_griseocollis","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","BU","transect","Bombus_griseocollis","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","HS","transect","Bombus_griseocollis","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","HS","transect","Bombus_griseocollis","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","HS","transect","Bombus_griseocollis","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","BU","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","BU","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","BU","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","BU","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","BU","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","BU","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","BU","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","BU","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","BU","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","BU","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","BU","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","BU","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","BU","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","BU","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","BU","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","BU","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","BU","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","BU","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","BU","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","BU","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","BU","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","BU","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","BU","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","BU","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","BU","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","BU","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","BU","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","BU","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","BU","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","BU","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","BU","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","BU","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","BU","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","BU","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","BU","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","BU","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","BU","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","BU","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","BU","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","BU","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","BU","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","HS","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","HS","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","HS","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","BU","transect","Bombus_perplexus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","BU","transect","Lasioglossum_oblongum","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","BU","transect","Lasioglossum_oblongum","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","BU","transect","Lasioglossum_pilosum","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","BU","transect","Lasioglossum_pilosum","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","BU","transect","Megachile_gemula","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","BU","transect","Melitta_americana","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","BU","transect","Melitta_americana","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","BU","transect","Melitta_americana","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","BU","transect","Melitta_americana","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","BU","transect","Melitta_americana","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","BU","transect","Melitta_americana","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","HS","transect","Melitta_americana","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","HS","transect","Melitta_americana","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","HS","transect","Melitta_americana","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","HS","transect","Melitta_americana","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","HS","transect","Melitta_americana","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","BU","transect","Nomada_rodecki","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","BU","transect","Nomada_rodecki","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","HS","transect","Nomada_rodecki","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","HS","transect","Nomada_rodecki","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","BU","transect","Xylocopa_virginica","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","BU","transect","Xylocopa_virginica","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","BU","transect","Xylocopa_virginica","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","UC","transect","Andrena_imitatrix","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","UC","transect","Augochlorella_aurata","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","UC","transect","Augochlorella_aurata","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","UC","transect","Augochlorella_aurata","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","UC","transect","Augochlorella_aurata","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","UC","transect","Augochlorella_aurata","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","UC","transect","Augochlorella_aurata","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","UC","transect","Augochloropsis_metallica","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","UC","transect","Augochloropsis_metallica","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","UC","transect","Augochloropsis_metallica","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","LC","transect","Augochloropsis_metallica","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","LC","transect","Augochloropsis_metallica","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","LC","transect","Bombus_bimaculatus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","LC","transect","Bombus_bimaculatus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","LC","transect","Bombus_bimaculatus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","LC","transect","Bombus_bimaculatus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","LC","transect","Bombus_bimaculatus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","LC","transect","Bombus_bimaculatus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","LC","transect","Bombus_bimaculatus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","LC","transect","Bombus_bimaculatus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","LC","transect","Bombus_bimaculatus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","LC","transect","Bombus_bimaculatus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","LC","transect","Bombus_bimaculatus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","LC","transect","Bombus_bimaculatus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","LC","transect","Bombus_bimaculatus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","LC","transect","Bombus_bimaculatus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","LC","transect","Bombus_bimaculatus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","LC","transect","Bombus_bimaculatus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","LC","transect","Bombus_bimaculatus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","UC","transect","Bombus_bimaculatus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","UC","transect","Bombus_bimaculatus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","UC","transect","Bombus_bimaculatus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","UC","transect","Bombus_bimaculatus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","UC","transect","Bombus_bimaculatus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","UC","transect","Bombus_bimaculatus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","UC","transect","Bombus_bimaculatus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","UC","transect","Bombus_bimaculatus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","UC","transect","Bombus_bimaculatus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","LC","transect","Bombus_bimaculatus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","UC","transect","Bombus_bimaculatus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","UC","transect","Bombus_bimaculatus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","UC","transect","Bombus_bimaculatus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","UC","transect","Bombus_bimaculatus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","UC","transect","Bombus_bimaculatus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","UC","transect","Bombus_bimaculatus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","UC","transect","Bombus_bimaculatus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","UC","transect","Bombus_bimaculatus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","UC","transect","Bombus_bimaculatus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","UC","transect","Bombus_bimaculatus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","UC","transect","Bombus_bimaculatus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","UC","transect","Bombus_bimaculatus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","UC","transect","Bombus_bimaculatus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","UC","transect","Bombus_bimaculatus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","UC","transect","Bombus_bimaculatus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","LC","transect","Bombus_bimaculatus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","UC","transect","Bombus_bimaculatus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","UC","transect","Bombus_bimaculatus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","UC","transect","Bombus_bimaculatus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","UC","transect","Bombus_bimaculatus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","UC","transect","Bombus_bimaculatus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","UC","transect","Bombus_bimaculatus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","UC","transect","Bombus_bimaculatus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","LC","transect","Bombus_bimaculatus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","LC","transect","Bombus_bimaculatus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","LC","transect","Bombus_bimaculatus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","LC","transect","Bombus_bimaculatus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","LC","transect","Bombus_bimaculatus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","LC","transect","Bombus_bimaculatus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","LC","transect","Bombus_bimaculatus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","LC","transect","Bombus_bimaculatus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","LC","transect","Bombus_bimaculatus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","LC","transect","Bombus_bimaculatus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","LC","transect","Bombus_bimaculatus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","LC","transect","Bombus_bimaculatus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","LC","transect","Bombus_bimaculatus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","LC","transect","Bombus_bimaculatus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","HU","transect","Bombus_bimaculatus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","HU","transect","Bombus_bimaculatus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","HU","transect","Bombus_bimaculatus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","HU","transect","Bombus_bimaculatus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","HU","transect","Bombus_bimaculatus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","UC","transect","Bombus_griseocollis","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","UC","transect","Bombus_griseocollis","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","UC","transect","Bombus_griseocollis","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","UC","transect","Bombus_griseocollis","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","UC","transect","Bombus_griseocollis","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","UC","transect","Bombus_griseocollis","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","UC","transect","Bombus_griseocollis","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","UC","transect","Bombus_griseocollis","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","UC","transect","Bombus_griseocollis","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","UC","transect","Bombus_griseocollis","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","UC","transect","Bombus_griseocollis","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","UC","transect","Bombus_griseocollis","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","LC","transect","Bombus_griseocollis","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","UC","transect","Bombus_griseocollis","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","UC","transect","Bombus_griseocollis","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","UC","transect","Bombus_griseocollis","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","UC","transect","Bombus_griseocollis","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","UC","transect","Bombus_griseocollis","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","UC","transect","Bombus_griseocollis","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","UC","transect","Bombus_griseocollis","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","UC","transect","Bombus_griseocollis","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","LC","transect","Bombus_griseocollis","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","LC","transect","Bombus_griseocollis","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","LC","transect","Bombus_griseocollis","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","LC","transect","Bombus_griseocollis","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","LC","transect","Bombus_griseocollis","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","LC","transect","Bombus_griseocollis","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","LC","transect","Bombus_griseocollis","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","HU","transect","Bombus_griseocollis","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","HU","transect","Bombus_griseocollis","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","HU","transect","Bombus_griseocollis","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","HU","transect","Bombus_griseocollis","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","HU","transect","Bombus_griseocollis","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","HU","transect","Bombus_griseocollis","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","HU","transect","Bombus_griseocollis","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","HU","transect","Bombus_griseocollis","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","HU","transect","Bombus_griseocollis","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","HU","transect","Bombus_griseocollis","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","HU","transect","Bombus_griseocollis","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","HU","transect","Bombus_griseocollis","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","HU","transect","Bombus_griseocollis","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","HU","transect","Bombus_griseocollis","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","HU","transect","Bombus_griseocollis","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","LC","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","LC","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","LC","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","LC","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","LC","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","LC","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","LC","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","LC","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","LC","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","LC","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","LC","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","LC","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","LC","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","UC","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","UC","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","UC","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","UC","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","UC","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","UC","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","UC","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","UC","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","UC","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","LC","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","UC","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","UC","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","UC","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","LC","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","LC","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","LC","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","LC","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","LC","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","LC","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","LC","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","LC","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","LC","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","LC","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","LC","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","LC","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","LC","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","HU","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","HU","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","HU","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","HU","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","HU","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","HU","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","HU","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","HU","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","HU","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","HU","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","HU","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","HU","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","HU","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","HU","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","HU","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","HU","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","HU","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","HU","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","HU","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","HU","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","HU","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","LC","transect","Bombus_perplexus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","LC","transect","Bombus_perplexus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","LC","transect","Bombus_perplexus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","LC","transect","Bombus_perplexus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","LC","transect","Bombus_perplexus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","UC","transect","Bombus_perplexus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","UC","transect","Bombus_perplexus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","UC","transect","Bombus_perplexus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","UC","transect","Bombus_perplexus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","LC","transect","Bombus_perplexus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","UC","transect","Bombus_perplexus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","LC","transect","Bombus_perplexus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","UC","transect","Bombus_perplexus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","UC","transect","Bombus_perplexus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","LC","transect","Bombus_perplexus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","LC","transect","Bombus_perplexus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","LC","transect","Bombus_perplexus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","LC","transect","Bombus_perplexus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","LC","transect","Bombus_perplexus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","HU","transect","Bombus_perplexus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","UC","transect","Coelioxys_immaculata","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","UC","transect","Heriades_carinatus","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","UC","transect","Lasioglossum_fuscipenne","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","UC","transect","Lasioglossum_fuscipenne","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","UC","transect","Lasioglossum_fuscipenne","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","UC","transect","Lasioglossum_fuscipenne","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","LC","transect","Lasioglossum_fuscipenne","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","LC","transect","Lasioglossum_georgeickworti","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","UC","transect","Lasioglossum_oblongum","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","UC","transect","Lasioglossum_oblongum","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","LC","transect","Lasioglossum_subviridatum","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","UC","transect","Lasioglossum_subviridatum","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","UC","transect","Lasioglossum_subviridatum","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","UC","transect","Lasioglossum_subviridatum","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","UC","transect","Lasioglossum_subviridatum","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","UC","transect","Lasioglossum_subviridatum","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","UC","transect","Lasioglossum_subviridatum","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","UC","transect","Lasioglossum_subviridatum","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","UC","transect","Lasioglossum_subviridatum","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","LC","transect","Lasioglossum_subviridatum","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","LC","transect","Lasioglossum_subviridatum","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","LC","transect","Lasioglossum_subviridatum","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","UC","transect","Lasioglossum_subviridatum","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","UC","transect","Lasioglossum_subviridatum","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","UC","transect","Lasioglossum_subviridatum","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","UC","transect","Lasioglossum_subviridatum","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","UC","transect","Lasioglossum_subviridatum","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","UC","transect","Lasioglossum_subviridatum","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","UC","transect","Lasioglossum_subviridatum","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","LC","transect","Lasioglossum_subviridatum","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","LC","transect","Megachile_mendica","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","UC","transect","Melitta_americana","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","UC","transect","Melitta_americana","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","UC","transect","Melitta_americana","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","LC","transect","Melitta_americana","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","HU","transect","Melitta_americana","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","HU","transect","Melitta_americana","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","HU","transect","Melitta_americana","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","HU","transect","Melitta_americana","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","UC","transect","Nomada_rodecki","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","UC","transect","Nomada_rodecki","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","UC","transect","Nomada_rodecki","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","LC","transect","Nomada_rodecki","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","UC","transect","Osmia_inspergens","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","UC","transect","Osmia_pumila","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","UC","transect","Osmia_virga","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","UC","transect","Osmia_virga","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","UC","transect","Osmia_virga","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","UC","transect","Osmia_virga","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","UC","transect","Osmia_virga","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","UC","transect","Osmia_virga","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","HU","transect","Osmia_virga","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","HU","transect","Osmia_virga","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","UC","transect","Panurginus_atramontensis","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","UC","transect","Xylocopa_virginica","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","HU","transect","Xylocopa_virginica","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","HC","transect","Augochlorella_aurata","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","HC","transect","Augochlorella_aurata","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","HC","transect","Augochlorella_aurata","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","JW","transect","Augochloropsis_metallica","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","HC","transect","Bombus_bimaculatus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","HC","transect","Bombus_bimaculatus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","HC","transect","Bombus_bimaculatus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","HC","transect","Bombus_bimaculatus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","HC","transect","Bombus_bimaculatus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","HC","transect","Bombus_bimaculatus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","HC","transect","Bombus_bimaculatus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","HC","transect","Bombus_bimaculatus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","HC","transect","Bombus_bimaculatus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","HC","transect","Bombus_bimaculatus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","HC","transect","Bombus_bimaculatus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","HC","transect","Bombus_bimaculatus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","HC","transect","Bombus_bimaculatus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","HC","transect","Bombus_bimaculatus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","HC","transect","Bombus_bimaculatus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","HC","transect","Bombus_bimaculatus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","HC","transect","Bombus_bimaculatus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","HC","transect","Bombus_bimaculatus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","JW","transect","Bombus_bimaculatus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","JW","transect","Bombus_bimaculatus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","JW","transect","Bombus_bimaculatus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","JW","transect","Bombus_bimaculatus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","JW","transect","Bombus_bimaculatus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","JW","transect","Bombus_bimaculatus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","JW","transect","Bombus_bimaculatus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","JW","transect","Bombus_bimaculatus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","JW","transect","Bombus_bimaculatus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","JW","transect","Bombus_bimaculatus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","JW","transect","Bombus_bimaculatus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","JW","transect","Bombus_bimaculatus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","JW","transect","Bombus_bimaculatus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","JW","transect","Bombus_bimaculatus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","JW","transect","Bombus_bimaculatus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","JW","transect","Bombus_bimaculatus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","JW","transect","Bombus_bimaculatus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","JW","transect","Bombus_bimaculatus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","JW","transect","Bombus_bimaculatus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","JW","transect","Bombus_bimaculatus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","JW","transect","Bombus_bimaculatus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","JW","transect","Bombus_bimaculatus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","JW","transect","Bombus_bimaculatus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","HC","transect","Bombus_griseocollis","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","HC","transect","Bombus_griseocollis","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","HC","transect","Bombus_griseocollis","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","HC","transect","Bombus_griseocollis","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","HC","transect","Bombus_griseocollis","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","HC","transect","Bombus_griseocollis","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","HC","transect","Bombus_griseocollis","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","HC","transect","Bombus_griseocollis","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","HC","transect","Bombus_griseocollis","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","JW","transect","Bombus_griseocollis","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","JW","transect","Bombus_griseocollis","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","JW","transect","Bombus_griseocollis","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","JW","transect","Bombus_griseocollis","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","JW","transect","Bombus_griseocollis","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","JW","transect","Bombus_griseocollis","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","JW","transect","Bombus_griseocollis","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","JW","transect","Bombus_griseocollis","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","JW","transect","Bombus_griseocollis","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","JW","transect","Bombus_griseocollis","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","JW","transect","Bombus_griseocollis","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","HC","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","HC","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","HC","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","HC","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","HC","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","HC","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","HC","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","HC","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","HC","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","HC","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","HC","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","HC","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","JW","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","JW","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","JW","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","JW","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","JW","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","JW","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","JW","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","JW","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","JW","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","JW","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","JW","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","JW","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","JW","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","JW","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","JW","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","JW","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","JW","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","JW","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","JW","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","JW","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","JW","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","JW","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","JW","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","JW","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","JW","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","HC","transect","Bombus_perplexus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","HC","transect","Bombus_perplexus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","HC","transect","Bombus_perplexus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","HC","transect","Bombus_perplexus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","JW","transect","Bombus_perplexus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","JW","transect","Bombus_perplexus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","JW","transect","Bombus_perplexus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","JW","transect","Bombus_perplexus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","JW","transect","Bombus_vagans","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","JW","transect","Bombus_vagans","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","JW","transect","Bombus_vagans","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","JW","transect","Bombus_vagans","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","HC","transect","Heriades_carinatus","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","HC","transect","Hoplitis_truncata","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","JW","transect","Lasioglossum_apopkense","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","HC","transect","Lasioglossum_creberrimum","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","JW","transect","Lasioglossum_pilosum","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","JW","transect","Lasioglossum_subviridatum","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","JW","transect","Lasioglossum_versatum","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","JW","transect","Lasioglossum_versatum","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","JW","transect","Megachile_gemula","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","HC","transect","Melitta_americana","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","HC","transect","Melitta_americana","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","HC","transect","Melitta_americana","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","HC","transect","Melitta_americana","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","HC","transect","Melitta_americana","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","HC","transect","Melitta_americana","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","HC","transect","Melitta_americana","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","HC","transect","Melitta_americana","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","HC","transect","Melitta_americana","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","HC","transect","Melitta_americana","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","HC","transect","Melitta_americana","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","HC","transect","Melitta_americana","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","HC","transect","Melitta_americana","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","HC","transect","Melitta_americana","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","HC","transect","Melitta_americana","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","HC","transect","Melitta_americana","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","HC","transect","Melitta_americana","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","HC","transect","Melitta_americana","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","HC","transect","Melitta_americana","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","HC","transect","Melitta_americana","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","HC","transect","Melitta_americana","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","HC","transect","Melitta_americana","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","HC","transect","Melitta_americana","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","HC","transect","Nomada_rodecki","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","HC","transect","Nomada_rodecki","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","HC","transect","Osmia_virga","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","HC","transect","Osmia_virga","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","HC","transect","Osmia_virga","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","HC","transect","Osmia_virga","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","HC","transect","Osmia_virga","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","HC","transect","Osmia_virga","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","HC","transect","Osmia_virga","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","HC","transect","Osmia_virga","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","HC","transect","Osmia_virga","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","HC","transect","Osmia_virga","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","HC","transect","Osmia_virga","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","HC","transect","Osmia_virga","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","HC","transect","Osmia_virga","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","JW","transect","Osmia_virga","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","JW","transect","Osmia_virga","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","JW","transect","Xylocopa_virginica","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","JW","transect","Xylocopa_virginica","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","JE","transect","Augochlora_pura","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","JE","transect","Augochlora_pura","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","MO","transect","Augochlorella_aurata","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","MO","transect","Augochlorella_aurata","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","MO","transect","Augochlorella_aurata","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","MO","transect","Augochlorella_aurata","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","MO","transect","Augochlorella_aurata","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","MO","transect","Augochlorella_aurata","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","MO","transect","Augochlorella_aurata","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","MO","transect","Augochlorella_aurata","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","MO","transect","Augochlorella_aurata","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","MO","transect","Augochlorella_aurata","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","MO","transect","Augochlorella_aurata","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","MO","transect","Augochlorella_aurata","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","MO","transect","Augochlorella_aurata","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","MO","transect","Augochlorella_aurata","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","MO","transect","Augochlorella_aurata","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","MO","transect","Augochlorella_aurata","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","MO","transect","Augochlorella_aurata","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","MO","transect","Augochlorella_aurata","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","MO","transect","Augochlorella_aurata","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","MO","transect","Augochlorella_aurata","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","MO","transect","Augochlorella_aurata","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","MO","transect","Augochlorella_aurata","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","MO","transect","Augochlorella_aurata","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","MO","transect","Augochloropsis_sumptuosa","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","MO","transect","Augochloropsis_sumptuosa","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","JE","transect","Bombus_bimaculatus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","JE","transect","Bombus_bimaculatus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","JE","transect","Bombus_bimaculatus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","JE","transect","Bombus_bimaculatus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","JE","transect","Bombus_bimaculatus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","JE","transect","Bombus_bimaculatus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","JE","transect","Bombus_bimaculatus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","JE","transect","Bombus_bimaculatus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","JE","transect","Bombus_bimaculatus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","JE","transect","Bombus_bimaculatus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","JE","transect","Bombus_bimaculatus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","JE","transect","Bombus_bimaculatus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","JE","transect","Bombus_bimaculatus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","JE","transect","Bombus_bimaculatus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","JE","transect","Bombus_bimaculatus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","JE","transect","Bombus_bimaculatus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","JE","transect","Bombus_bimaculatus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","JE","transect","Bombus_bimaculatus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","JE","transect","Bombus_bimaculatus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","JE","transect","Bombus_bimaculatus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","JE","transect","Bombus_bimaculatus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","JE","transect","Bombus_bimaculatus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","JE","transect","Bombus_bimaculatus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","JE","transect","Bombus_bimaculatus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","JE","transect","Bombus_bimaculatus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","JE","transect","Bombus_bimaculatus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","JE","transect","Bombus_bimaculatus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","JE","transect","Bombus_bimaculatus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","JE","transect","Bombus_bimaculatus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","JE","transect","Bombus_bimaculatus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","JE","transect","Bombus_bimaculatus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","JE","transect","Bombus_bimaculatus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","JE","transect","Bombus_bimaculatus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","JE","transect","Bombus_bimaculatus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","JE","transect","Bombus_bimaculatus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","JE","transect","Bombus_bimaculatus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","JE","transect","Bombus_bimaculatus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","JE","transect","Bombus_bimaculatus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","JE","transect","Bombus_bimaculatus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","JE","transect","Bombus_bimaculatus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","HP","transect","Bombus_bimaculatus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","HP","transect","Bombus_bimaculatus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","HP","transect","Bombus_bimaculatus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","HP","transect","Bombus_bimaculatus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","HP","transect","Bombus_bimaculatus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","HP","transect","Bombus_bimaculatus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","HP","transect","Bombus_bimaculatus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","HP","transect","Bombus_bimaculatus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","HP","transect","Bombus_bimaculatus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","HP","transect","Bombus_bimaculatus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","HP","transect","Bombus_bimaculatus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","HP","transect","Bombus_bimaculatus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","HP","transect","Bombus_bimaculatus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","HP","transect","Bombus_bimaculatus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","HP","transect","Bombus_bimaculatus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","HP","transect","Bombus_bimaculatus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","HP","transect","Bombus_bimaculatus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","HP","transect","Bombus_bimaculatus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","MO","transect","Bombus_bimaculatus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","MO","transect","Bombus_bimaculatus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","MO","transect","Bombus_bimaculatus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","MO","transect","Bombus_bimaculatus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","MO","transect","Bombus_bimaculatus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","JE","transect","Bombus_griseocollis","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","JE","transect","Bombus_griseocollis","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","JE","transect","Bombus_griseocollis","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","JE","transect","Bombus_griseocollis","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","HP","transect","Bombus_griseocollis","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","HP","transect","Bombus_griseocollis","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","HP","transect","Bombus_griseocollis","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","HP","transect","Bombus_griseocollis","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","HP","transect","Bombus_griseocollis","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","HP","transect","Bombus_griseocollis","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","MO","transect","Bombus_griseocollis","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","MO","transect","Bombus_griseocollis","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","MO","transect","Bombus_griseocollis","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","MO","transect","Bombus_griseocollis","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","MO","transect","Bombus_griseocollis","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","MO","transect","Bombus_griseocollis","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","MO","transect","Bombus_griseocollis","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","MO","transect","Bombus_griseocollis","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","MO","transect","Bombus_griseocollis","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","MO","transect","Bombus_griseocollis","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","MO","transect","Bombus_griseocollis","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","MO","transect","Bombus_griseocollis","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","MO","transect","Bombus_griseocollis","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","MO","transect","Bombus_griseocollis","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","MO","transect","Bombus_griseocollis","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","MO","transect","Bombus_griseocollis","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","MO","transect","Bombus_griseocollis","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","MO","transect","Bombus_griseocollis","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","MO","transect","Bombus_griseocollis","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","MO","transect","Bombus_griseocollis","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","JE","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","JE","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","JE","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","JE","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","JE","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","JE","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","JE","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","JE","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","JE","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","JE","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","JE","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","JE","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","JE","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","JE","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","JE","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","JE","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","JE","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","JE","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","JE","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","HP","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","HP","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","HP","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","HP","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","HP","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","HP","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","HP","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","MO","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","MO","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","MO","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","MO","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","MO","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","MO","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","MO","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","MO","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","MO","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","MO","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","MO","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","MO","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","MO","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","MO","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","MO","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","MO","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","MO","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","MO","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","MO","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","MO","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","MO","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","MO","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","MO","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","MO","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","MO","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","MO","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","MO","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","MO","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","MO","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","MO","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","MO","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","MO","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","MO","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","MO","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","MO","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","MO","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","MO","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","MO","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","MO","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","MO","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","MO","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","MO","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","JE","transect","Bombus_perplexus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","JE","transect","Bombus_perplexus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","JE","transect","Bombus_perplexus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","JE","transect","Bombus_perplexus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","JE","transect","Bombus_perplexus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","JE","transect","Bombus_perplexus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","JE","transect","Bombus_perplexus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","JE","transect","Bombus_perplexus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","JE","transect","Bombus_perplexus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","JE","transect","Bombus_perplexus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","JE","transect","Bombus_perplexus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","JE","transect","Bombus_perplexus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","JE","transect","Bombus_perplexus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","JE","transect","Bombus_perplexus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","JE","transect","Bombus_perplexus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","JE","transect","Bombus_perplexus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","JE","transect","Bombus_perplexus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","HP","transect","Bombus_perplexus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","HP","transect","Bombus_perplexus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","HP","transect","Bombus_perplexus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","HP","transect","Bombus_perplexus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","HP","transect","Bombus_perplexus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","HP","transect","Bombus_perplexus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","HP","transect","Bombus_perplexus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","JE","transect","Bombus_vagans","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","JE","transect","Bombus_vagans","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","HP","transect","Bombus_vagans","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","HP","transect","Bombus_vagans","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","HP","transect","Bombus_vagans","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","HP","transect","Bombus_vagans","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","HP","transect","Bombus_vagans","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","HP","transect","Bombus_vagans","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","MO","transect","Ceratina_calcarata","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","MO","transect","Coelioxys_porterae","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","HP","transect","Lasioglossum_oblongum","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","HP","transect","Lasioglossum_oblongum","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","HP","transect","Lasioglossum_oblongum","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","HP","transect","Lasioglossum_oblongum","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","MO","transect","Lasioglossum_subviridatum","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","MO","transect","Lasioglossum_subviridatum","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","HP","transect","Lasioglossum_trigeminum","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","HP","transect","Megachile_mendica","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","HP","transect","Melitta_americana","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","JE","transect","Osmia_inspergens","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","JE","transect","Osmia_virga","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","JE","transect","Xylocopa_virginica","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","HS","transect","Augochlorella_aurata","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","HS","transect","Augochlorella_aurata","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","LE","transect","Augochlorella_aurata","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","LE","transect","Augochloropsis_metallica","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","HS","transect","Bombus_bimaculatus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","WH","transect","Bombus_bimaculatus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","HS","transect","Bombus_griseocollis","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","HS","transect","Bombus_griseocollis","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","HS","transect","Bombus_griseocollis","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","HS","transect","Bombus_griseocollis","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","WH","transect","Bombus_griseocollis","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","WH","transect","Bombus_griseocollis","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","HS","transect","Bombus_griseocollis","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","LE","transect","Bombus_griseocollis","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","HS","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","HS","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","HS","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","HS","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","WH","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","WH","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","WH","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","WH","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","WH","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","WH","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","WH","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","WH","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","WH","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","WH","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","WH","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","WH","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","WH","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","WH","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","WH","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","WH","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","WH","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","WH","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","WH","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","WH","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","WH","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","WH","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","WH","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","WH","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","WH","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","WH","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","WH","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","WH","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","WH","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","WH","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","WH","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","WH","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","HS","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","LE","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","LE","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","LE","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","LE","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","LE","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","LE","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","WH","transect","Bombus_perplexus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","HS","transect","Bombus_perplexus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","LE","transect","Bombus_perplexus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","WH","transect","Bombus_vagans","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","WH","transect","Bombus_vagans","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","WH","transect","Bombus_vagans","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","WH","transect","Bombus_vagans","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","WH","transect","Bombus_vagans","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","LE","transect","Lasioglossum_georgeickworti","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","LE","transect","Lasioglossum_georgeickworti","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","WH","transect","Lasioglossum_oblongum","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","HS","transect","Lasioglossum_oblongum","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","LE","transect","Lasioglossum_oblongum","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","HS","transect","Melitta_americana","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","HS","transect","Osmia_virga","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","WH","transect","Osmia_virga","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","LE","transect","Osmia_virga","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","WH","transect","Xylocopa_virginica","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","HN","transect","Agapostemon_splendens","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","HN","transect","Augochlorella_aurata","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","HN","transect","Augochlorella_aurata","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","HN","transect","Augochlorella_aurata","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","HN","transect","Augochlorella_aurata","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","HN","transect","Augochlorella_aurata","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","HN","transect","Bombus_bimaculatus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","HN","transect","Bombus_bimaculatus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","HN","transect","Bombus_bimaculatus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","JN","transect","Bombus_bimaculatus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","JN","transect","Bombus_bimaculatus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","JN","transect","Bombus_bimaculatus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","JN","transect","Bombus_bimaculatus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","JN","transect","Bombus_bimaculatus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","JN","transect","Bombus_bimaculatus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","JN","transect","Bombus_bimaculatus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","HN","transect","Bombus_bimaculatus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","HN","transect","Bombus_bimaculatus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","HN","transect","Bombus_griseocollis","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","HN","transect","Bombus_griseocollis","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","HN","transect","Bombus_griseocollis","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","HN","transect","Bombus_griseocollis","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","HN","transect","Bombus_griseocollis","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","HN","transect","Bombus_griseocollis","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","JN","transect","Bombus_griseocollis","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","JN","transect","Bombus_griseocollis","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","JN","transect","Bombus_griseocollis","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","HN","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","HN","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","HN","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","HN","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","HN","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","HN","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","HN","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","HN","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","HN","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","HN","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","HN","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","HN","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","HN","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","HN","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","HN","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","HN","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","HN","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","HN","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","HN","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","HN","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","JN","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","JN","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","JN","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","JN","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","JN","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","JN","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","JN","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","JN","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","JN","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","JN","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","JN","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","JN","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","JN","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","JN","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","JN","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","JN","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","JN","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","JN","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","JN","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","JN","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","JN","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","HN","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","HN","transect","Bombus_perplexus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","HN","transect","Bombus_perplexus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","JN","transect","Bombus_perplexus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","JN","transect","Bombus_perplexus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","HN","transect","Bombus_perplexus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","HN","transect","Bombus_vagans","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","HN","transect","Bombus_vagans","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","HN","transect","Bombus_vagans","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","HN","transect","Lasioglossum_oblongum","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","HN","transect","Lasioglossum_oblongum","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","HN","transect","Lasioglossum_oblongum","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","HN","transect","Lasioglossum_oblongum","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","HN","transect","Lasioglossum_subviridatum","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","HN","transect","Lasioglossum_trigeminum","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","HN","transect","Megachile_addenda","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","HN","transect","Megachile_mendica","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","HN","transect","Megachile_texana","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","HN","transect","Megachile_texana","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","HN","transect","Melitta_americana","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","HN","transect","Melitta_americana","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","HN","transect","Melitta_americana","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","HN","transect","Melitta_americana","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","HN","transect","Melitta_americana","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","HN","transect","Melitta_americana","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","JN","transect","Melitta_americana","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","HN","transect","Melitta_americana","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","HN","transect","Melitta_americana","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","HN","transect","Melitta_americana","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","HN","transect","Melitta_americana","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","HN","transect","Osmia_virga","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","JN","transect","Osmia_virga","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","JN","transect","Osmia_virga","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","JN","transect","Osmia_virga","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","JN","transect","Osmia_virga","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","JN","transect","Osmia_virga","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","HN","transect","Osmia_virga","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","JN","transect","Panurginus_atramontensis","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","HN","transect","Sphecodes_fattigi","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","HN","transect","Xylocopa_virginica","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","TH","transect","Augochlora_pura","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","TH","transect","Augochlora_pura","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","TH","transect","Augochlora_pura","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","TH","transect","Augochlora_pura","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","HR","transect","Augochlorella_aurata","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","HR","transect","Augochloropsis_metallica","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","TH","transect","Augochloropsis_metallica","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","TH","transect","Augochloropsis_metallica","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","TH","transect","Augochloropsis_metallica","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","TH","transect","Augochloropsis_metallica","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","HR","transect","Bombus_bimaculatus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","HR","transect","Bombus_bimaculatus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","TH","transect","Bombus_bimaculatus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","TH","transect","Bombus_bimaculatus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","HR","transect","Bombus_griseocollis","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","HR","transect","Bombus_griseocollis","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","HR","transect","Bombus_griseocollis","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","HR","transect","Bombus_griseocollis","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","HR","transect","Bombus_griseocollis","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","HR","transect","Bombus_griseocollis","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","HR","transect","Bombus_griseocollis","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","HR","transect","Bombus_griseocollis","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","HR","transect","Bombus_griseocollis","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","HR","transect","Bombus_griseocollis","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","HR","transect","Bombus_griseocollis","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","HR","transect","Bombus_griseocollis","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","HR","transect","Bombus_griseocollis","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","HR","transect","Bombus_griseocollis","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","HR","transect","Bombus_griseocollis","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","HR","transect","Bombus_griseocollis","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","HR","transect","Bombus_griseocollis","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","HR","transect","Bombus_griseocollis","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","HR","transect","Bombus_griseocollis","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","HR","transect","Bombus_griseocollis","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","HR","transect","Bombus_griseocollis","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","TH","transect","Bombus_griseocollis","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","TH","transect","Bombus_griseocollis","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","TH","transect","Bombus_griseocollis","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","TH","transect","Bombus_griseocollis","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","TH","transect","Bombus_griseocollis","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","TH","transect","Bombus_griseocollis","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","HR","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","HR","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","HR","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","HR","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","HR","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","HR","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","HR","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","HR","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","HR","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","HR","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","HR","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","HR","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","HR","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","HR","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","HR","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","HR","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","HR","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","HR","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","HR","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","HR","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","HR","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","HR","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","HR","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","HR","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","HR","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","HR","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","HR","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","HR","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","HR","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","HR","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","HR","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","TH","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","TH","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","TH","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","TH","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","TH","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","TH","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","TH","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","TH","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","TH","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","TH","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","TH","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","TH","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","TH","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","TH","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","TH","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","TH","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","TH","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","HR","transect","Bombus_perplexus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","HR","transect","Bombus_perplexus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","TH","transect","Lasioglossum_oblongum","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","TH","transect","Lasioglossum_oblongum","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","TH","transect","Lasioglossum_oblongum","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","TH","transect","Lasioglossum_oblongum","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","TH","transect","Lasioglossum_oblongum","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","TH","transect","Lasioglossum_oblongum","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","TH","transect","Lasioglossum_oblongum","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","TH","transect","Lasioglossum_oblongum","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","TH","transect","Lasioglossum_oblongum","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","TH","transect","Lasioglossum_oblongum","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","TH","transect","Lasioglossum_oblongum","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","TH","transect","Lasioglossum_oblongum","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","HR","transect","Melitta_americana","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","HR","transect","Melitta_americana","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","HR","transect","Melitta_americana","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","HR","transect","Melitta_americana","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","HR","transect","Melitta_americana","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","HR","transect","Melitta_americana","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","HR","transect","Melitta_americana","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","HR","transect","Melitta_americana","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","HR","transect","Melitta_americana","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","HR","transect","Melitta_americana","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","HR","transect","Melitta_americana","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","HR","transect","Nomada_rodecki","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","HR","transect","Nomada_rodecki","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","TH","transect","Osmia_virga","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","TH","transect","Osmia_virga","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","TH","transect","Osmia_virga","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","HR","transect","Xylocopa_virginica","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","HR","transect","Xylocopa_virginica","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","HR","transect","Xylocopa_virginica","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","TH","transect","Xylocopa_virginica","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","TH","transect","Xylocopa_virginica","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","TH","transect","Xylocopa_virginica","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","TH","transect","Xylocopa_virginica","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","TH","transect","Xylocopa_virginica","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","LC","transect","Augochlorella_aurata","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","LC","transect","Bombus_bimaculatus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","LC","transect","Bombus_bimaculatus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","LC","transect","Bombus_bimaculatus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","LC","transect","Bombus_bimaculatus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","LC","transect","Bombus_bimaculatus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","LC","transect","Bombus_bimaculatus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","LC","transect","Bombus_bimaculatus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","LC","transect","Bombus_bimaculatus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","LC","transect","Bombus_bimaculatus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","LC","transect","Bombus_bimaculatus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","LC","transect","Bombus_bimaculatus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","LC","transect","Bombus_bimaculatus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","LC","transect","Bombus_bimaculatus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","LC","transect","Bombus_bimaculatus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","LC","transect","Bombus_griseocollis","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","LC","transect","Bombus_griseocollis","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","LC","transect","Bombus_griseocollis","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","LC","transect","Bombus_griseocollis","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","LC","transect","Bombus_griseocollis","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","LC","transect","Bombus_griseocollis","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","LC","transect","Bombus_griseocollis","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","LC","transect","Bombus_griseocollis","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","LC","transect","Bombus_griseocollis","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","LC","transect","Bombus_griseocollis","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","LC","transect","Bombus_griseocollis","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","LC","transect","Bombus_griseocollis","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","LC","transect","Bombus_griseocollis","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","LC","transect","Bombus_griseocollis","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","LC","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","LC","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","LC","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","LC","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","LC","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","LC","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","LC","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","LC","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","LC","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","LC","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","LC","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","LC","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","LC","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","LC","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","LC","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","LC","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","LC","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","LC","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","LC","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","LC","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","LC","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","LC","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","LC","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","LC","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","LC","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","LC","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","LC","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","LC","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","LC","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","LC","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","LC","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","LC","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","LC","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","LC","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","LC","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","LC","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","LC","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","LC","transect","Bombus_perplexus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","LC","transect","Bombus_perplexus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","LC","transect","Bombus_perplexus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","LC","transect","Bombus_perplexus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","LC","transect","Bombus_vagans","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","LC","transect","Lasioglossum_georgeickworti","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","LC","transect","Lasioglossum_subviridatum","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","LC","transect","Lasioglossum_subviridatum","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","LC","transect","Megachile_gemula","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","LC","transect","Melitta_americana","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","LC","transect","Melitta_americana","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","LC","transect","Melitta_americana","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","LC","transect","Melitta_americana","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","LC","transect","Melitta_americana","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","LC","transect","Melitta_americana","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","LC","transect","Osmia_pumila","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","LC","transect","Osmia_virga","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","LC","transect","Osmia_virga","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","TH","transect","Augochlora_pura","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","TH","transect","Augochloropsis_metallica","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","BU","transect","Bombus_bimaculatus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","TH","transect","Bombus_griseocollis","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","TH","transect","Bombus_griseocollis","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","TH","transect","Bombus_griseocollis","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","BU","transect","Bombus_griseocollis","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","BU","transect","Bombus_griseocollis","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","BU","transect","Bombus_griseocollis","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","BU","transect","Bombus_griseocollis","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","BU","transect","Bombus_griseocollis","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","BU","transect","Bombus_griseocollis","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","BU","transect","Bombus_griseocollis","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","BU","transect","Bombus_griseocollis","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","TH","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","TH","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","TH","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","TH","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","TH","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","TH","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","TH","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","TH","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","BU","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","BU","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","BU","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","BU","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","BU","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","BU","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","BU","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","BU","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","BU","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","BU","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","BU","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","BU","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","BU","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","BU","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","BU","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","BU","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","BU","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","BU","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","BU","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","BU","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","BU","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","BU","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","BU","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","BU","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","BU","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","BU","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","BU","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","BU","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","BU","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","BU","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","BU","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","BU","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","BU","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","BU","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","BU","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","BU","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","BU","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","BU","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","BU","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","BU","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","BU","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","BU","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","BU","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","BU","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","BU","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","BU","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","BU","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","BU","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","BU","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","BU","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","BU","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","BU","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","BU","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","BU","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","BU","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","BU","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","BU","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","BU","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","BU","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","BU","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","BU","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","BU","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","BU","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","BU","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","BU","transect","Lasioglossum_creberrimum","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","BU","transect","Lasioglossum_georgeickworti","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","TH","transect","Lasioglossum_oblongum","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","TH","transect","Lasioglossum_oblongum","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","TH","transect","Lasioglossum_oblongum","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","TH","transect","Lasioglossum_oblongum","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","TH","transect","Lasioglossum_oblongum","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","BU","transect","Lasioglossum_oblongum","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","BU","transect","Lasioglossum_pilosum","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","BU","transect","Melitta_americana","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","BU","transect","Melitta_americana","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","BU","transect","Melitta_americana","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","TH","transect","Xylocopa_virginica","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","BU","transect","Xylocopa_virginica","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","BU","transect","Xylocopa_virginica","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","BU","transect","Xylocopa_virginica","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","BU","transect","Xylocopa_virginica","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","BU","transect","Xylocopa_virginica","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","UC","transect","Augochlorella_aurata","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","UC","transect","Bombus_bimaculatus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","UC","transect","Bombus_griseocollis","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","UC","transect","Bombus_griseocollis","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","UC","transect","Bombus_griseocollis","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","UC","transect","Bombus_griseocollis","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","UC","transect","Bombus_griseocollis","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","UC","transect","Bombus_griseocollis","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","UC","transect","Bombus_griseocollis","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","UC","transect","Bombus_griseocollis","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","UC","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","UC","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","UC","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","UC","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","UC","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","UC","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","UC","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","UC","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","UC","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","UC","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","UC","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","UC","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","UC","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","UC","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","UC","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","UC","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","UC","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","UC","transect","Bombus_impatiens","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","UC","transect","Bombus_perplexus","species","bumblebees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","UC","transect","Lasioglossum_oblongum","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","UC","transect","Lasioglossum_subviridatum","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","UC","transect","Lasioglossum_subviridatum","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","UC","transect","Lasioglossum_subviridatum","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","UC","transect","Melitta_americana","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","UC","transect","Melitta_americana","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","UC","transect","Melitta_americana","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","UC","transect","Melitta_americana","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","UC","transect","Melitta_americana","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","UC","transect","Melitta_americana","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","UC","transect","Melitta_americana","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","UC","transect","Melitta_americana","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","UC","transect","Melitta_americana","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","UC","transect","Melitta_americana","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","UC","transect","Nomada_rodecki","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","UC","transect","Sphecodes_aroniae","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachael_Winfree_Vaccinium_macrocarpon_USA_2010","UC","transect","Xylocopa_virginica","species","other_wild_bees",1,480,240,NA,"The 16 cranberry sites were sampled on two different days in each of 2009 and 2010 for a total of 64 data collection days. Two 60-m transects were delineated at each cranberry site with one paralleling the edge of a bog and near natural habitat and a second situated in an interior of the bog. On each sample date, any bees visiting flowers were collected for 30 min in the morning and 30 min in the afternoon for a total of 60 min of data collection per day per transect and 120 min per day per site.",NA
"Rachel_Mallinger_Malus_domestica_USA_2012","mall01_AH","Plan traps","Andrena commoda","species","other_wild_bees",1,NA,NA,NA,"10 pan trap/bee bowl, two sampling rounds, or 2 weeks, during apple bloom in 2012",NA
"Rachel_Mallinger_Malus_domestica_USA_2012","mall01_AH","Plan traps","Andrena cressonii","species","other_wild_bees",1,NA,NA,NA,"10 pan trap/bee bowl, two sampling rounds, or 2 weeks, during apple bloom in 2012",NA
"Rachel_Mallinger_Malus_domestica_USA_2012","mall01_AH","Plan traps","Andrena hippotes","species","other_wild_bees",1,NA,NA,NA,"10 pan trap/bee bowl, two sampling rounds, or 2 weeks, during apple bloom in 2012",NA
"Rachel_Mallinger_Malus_domestica_USA_2012","mall01_AH","Plan traps","Andrena miserabilis","species","other_wild_bees",4,NA,NA,NA,"10 pan trap/bee bowl, two sampling rounds, or 2 weeks, during apple bloom in 2012",NA
"Rachel_Mallinger_Malus_domestica_USA_2012","mall01_AH","Plan traps","Andrena nasonii","species","other_wild_bees",6,NA,NA,NA,"10 pan trap/bee bowl, two sampling rounds, or 2 weeks, during apple bloom in 2012",NA
"Rachel_Mallinger_Malus_domestica_USA_2012","mall01_AH","Plan traps","Lasioglossum atwoodi","species","other_wild_bees",1,NA,NA,NA,"10 pan trap/bee bowl, two sampling rounds, or 2 weeks, during apple bloom in 2012",NA
"Rachel_Mallinger_Malus_domestica_USA_2012","mall01_AH","Plan traps","Lasioglossum hitchensi","species","other_wild_bees",4,NA,NA,NA,"10 pan trap/bee bowl, two sampling rounds, or 2 weeks, during apple bloom in 2012",NA
"Rachel_Mallinger_Malus_domestica_USA_2012","mall01_AB","Plan traps","Andrena carlini","species","other_wild_bees",11,NA,NA,NA,"10 pan trap/bee bowl, two sampling rounds, or 2 weeks, during apple bloom in 2012",NA
"Rachel_Mallinger_Malus_domestica_USA_2012","mall01_AB","Plan traps","Andrena commoda","species","other_wild_bees",2,NA,NA,NA,"10 pan trap/bee bowl, two sampling rounds, or 2 weeks, during apple bloom in 2012",NA
"Rachel_Mallinger_Malus_domestica_USA_2012","mall01_AB","Plan traps","Andrena cressonii","species","other_wild_bees",10,NA,NA,NA,"10 pan trap/bee bowl, two sampling rounds, or 2 weeks, during apple bloom in 2012",NA
"Rachel_Mallinger_Malus_domestica_USA_2012","mall01_AB","Plan traps","Andrena forbesii","species","other_wild_bees",5,NA,NA,NA,"10 pan trap/bee bowl, two sampling rounds, or 2 weeks, during apple bloom in 2012",NA
"Rachel_Mallinger_Malus_domestica_USA_2012","mall01_AB","Plan traps","Andrena hippotes","species","other_wild_bees",3,NA,NA,NA,"10 pan trap/bee bowl, two sampling rounds, or 2 weeks, during apple bloom in 2012",NA
"Rachel_Mallinger_Malus_domestica_USA_2012","mall01_AB","Plan traps","Andrena imitatrix","species","other_wild_bees",1,NA,NA,NA,"10 pan trap/bee bowl, two sampling rounds, or 2 weeks, during apple bloom in 2012",NA
"Rachel_Mallinger_Malus_domestica_USA_2012","mall01_AB","Plan traps","Andrena miserabilis","species","other_wild_bees",1,NA,NA,NA,"10 pan trap/bee bowl, two sampling rounds, or 2 weeks, during apple bloom in 2012",NA
"Rachel_Mallinger_Malus_domestica_USA_2012","mall01_AB","Plan traps","Andrena nasonii","species","other_wild_bees",82,NA,NA,NA,"10 pan trap/bee bowl, two sampling rounds, or 2 weeks, during apple bloom in 2012",NA
"Rachel_Mallinger_Malus_domestica_USA_2012","mall01_AB","Plan traps","Andrena perplexa","species","other_wild_bees",2,NA,NA,NA,"10 pan trap/bee bowl, two sampling rounds, or 2 weeks, during apple bloom in 2012",NA
"Rachel_Mallinger_Malus_domestica_USA_2012","mall01_AB","Plan traps","Andrena rugosa","species","other_wild_bees",1,NA,NA,NA,"10 pan trap/bee bowl, two sampling rounds, or 2 weeks, during apple bloom in 2012",NA
"Rachel_Mallinger_Malus_domestica_USA_2012","mall01_AB","Plan traps","Lasioglossum anomalum","species","other_wild_bees",1,NA,NA,NA,"10 pan trap/bee bowl, two sampling rounds, or 2 weeks, during apple bloom in 2012",NA
"Rachel_Mallinger_Malus_domestica_USA_2012","mall01_AB","Plan traps","Lasioglossum bruneri","species","other_wild_bees",1,NA,NA,NA,"10 pan trap/bee bowl, two sampling rounds, or 2 weeks, during apple bloom in 2012",NA
"Rachel_Mallinger_Malus_domestica_USA_2012","mall01_AB","Plan traps","Lasioglossum cinctipes","species","other_wild_bees",2,NA,NA,NA,"10 pan trap/bee bowl, two sampling rounds, or 2 weeks, during apple bloom in 2012",NA
"Rachel_Mallinger_Malus_domestica_USA_2012","mall01_AB","Plan traps","Lasioglossum hitchensi","species","other_wild_bees",17,NA,NA,NA,"10 pan trap/bee bowl, two sampling rounds, or 2 weeks, during apple bloom in 2012",NA
"Rachel_Mallinger_Malus_domestica_USA_2012","mall01_AB","Plan traps","Lasioglossum foxii","species","other_wild_bees",2,NA,NA,NA,"10 pan trap/bee bowl, two sampling rounds, or 2 weeks, during apple bloom in 2012",NA
"Rachel_Mallinger_Malus_domestica_USA_2012","mall01_AB","Plan traps","Lasioglossum smilacinae","species","other_wild_bees",2,NA,NA,NA,"10 pan trap/bee bowl, two sampling rounds, or 2 weeks, during apple bloom in 2012",NA
"Rachel_Mallinger_Malus_domestica_USA_2012","mall01_AB","Plan traps","Lasioglossum weemsi","species","other_wild_bees",1,NA,NA,NA,"10 pan trap/bee bowl, two sampling rounds, or 2 weeks, during apple bloom in 2012",NA
"Rachel_Mallinger_Malus_domestica_USA_2012","mall01_BR","Plan traps","Andrena carlini","species","other_wild_bees",6,NA,NA,NA,"10 pan trap/bee bowl, two sampling rounds, or 2 weeks, during apple bloom in 2012",NA
"Rachel_Mallinger_Malus_domestica_USA_2012","mall01_BR","Plan traps","Andrena commoda","species","other_wild_bees",1,NA,NA,NA,"10 pan trap/bee bowl, two sampling rounds, or 2 weeks, during apple bloom in 2012",NA
"Rachel_Mallinger_Malus_domestica_USA_2012","mall01_BR","Plan traps","Andrena cressonii","species","other_wild_bees",5,NA,NA,NA,"10 pan trap/bee bowl, two sampling rounds, or 2 weeks, during apple bloom in 2012",NA
"Rachel_Mallinger_Malus_domestica_USA_2012","mall01_BR","Plan traps","Andrena hippotes","species","other_wild_bees",2,NA,NA,NA,"10 pan trap/bee bowl, two sampling rounds, or 2 weeks, during apple bloom in 2012",NA
"Rachel_Mallinger_Malus_domestica_USA_2012","mall01_BR","Plan traps","Andrena imitatrix","species","other_wild_bees",1,NA,NA,NA,"10 pan trap/bee bowl, two sampling rounds, or 2 weeks, during apple bloom in 2012",NA
"Rachel_Mallinger_Malus_domestica_USA_2012","mall01_BR","Plan traps","Andrena miserabilis","species","other_wild_bees",1,NA,NA,NA,"10 pan trap/bee bowl, two sampling rounds, or 2 weeks, during apple bloom in 2012",NA
"Rachel_Mallinger_Malus_domestica_USA_2012","mall01_BR","Plan traps","Andrena nasonii","species","other_wild_bees",15,NA,NA,NA,"10 pan trap/bee bowl, two sampling rounds, or 2 weeks, during apple bloom in 2012",NA
"Rachel_Mallinger_Malus_domestica_USA_2012","mall01_BR","Plan traps","Andrena perplexa","species","other_wild_bees",1,NA,NA,NA,"10 pan trap/bee bowl, two sampling rounds, or 2 weeks, during apple bloom in 2012",NA
"Rachel_Mallinger_Malus_domestica_USA_2012","mall01_BR","Plan traps","Halictus rubicundus","species","other_wild_bees",2,NA,NA,NA,"10 pan trap/bee bowl, two sampling rounds, or 2 weeks, during apple bloom in 2012",NA
"Rachel_Mallinger_Malus_domestica_USA_2012","mall01_BR","Plan traps","Lasioglossum hitchensi","species","other_wild_bees",1,NA,NA,NA,"10 pan trap/bee bowl, two sampling rounds, or 2 weeks, during apple bloom in 2012",NA
"Rachel_Mallinger_Malus_domestica_USA_2012","mall01_DC","Plan traps","Andrena carlini","species","other_wild_bees",8,NA,NA,NA,"10 pan trap/bee bowl, two sampling rounds, or 2 weeks, during apple bloom in 2012",NA
"Rachel_Mallinger_Malus_domestica_USA_2012","mall01_DC","Plan traps","Andrena commoda","species","other_wild_bees",1,NA,NA,NA,"10 pan trap/bee bowl, two sampling rounds, or 2 weeks, during apple bloom in 2012",NA
"Rachel_Mallinger_Malus_domestica_USA_2012","mall01_DC","Plan traps","Andrena cressonii","species","other_wild_bees",12,NA,NA,NA,"10 pan trap/bee bowl, two sampling rounds, or 2 weeks, during apple bloom in 2012",NA
"Rachel_Mallinger_Malus_domestica_USA_2012","mall01_DC","Plan traps","Andrena dunningi","species","other_wild_bees",4,NA,NA,NA,"10 pan trap/bee bowl, two sampling rounds, or 2 weeks, during apple bloom in 2012",NA
"Rachel_Mallinger_Malus_domestica_USA_2012","mall01_DC","Plan traps","Andrena forbesii","species","other_wild_bees",6,NA,NA,NA,"10 pan trap/bee bowl, two sampling rounds, or 2 weeks, during apple bloom in 2012",NA
"Rachel_Mallinger_Malus_domestica_USA_2012","mall01_DC","Plan traps","Andrena hippotes","species","other_wild_bees",1,NA,NA,NA,"10 pan trap/bee bowl, two sampling rounds, or 2 weeks, during apple bloom in 2012",NA
"Rachel_Mallinger_Malus_domestica_USA_2012","mall01_DC","Plan traps","Andrena illini","species","other_wild_bees",1,NA,NA,NA,"10 pan trap/bee bowl, two sampling rounds, or 2 weeks, during apple bloom in 2012",NA
"Rachel_Mallinger_Malus_domestica_USA_2012","mall01_DC","Plan traps","Andrena imitatrix","species","other_wild_bees",2,NA,NA,NA,"10 pan trap/bee bowl, two sampling rounds, or 2 weeks, during apple bloom in 2012",NA
"Rachel_Mallinger_Malus_domestica_USA_2012","mall01_DC","Plan traps","Andrena mariae","species","other_wild_bees",1,NA,NA,NA,"10 pan trap/bee bowl, two sampling rounds, or 2 weeks, during apple bloom in 2012",NA
"Rachel_Mallinger_Malus_domestica_USA_2012","mall01_DC","Plan traps","Andrena milwaukeensis","species","other_wild_bees",1,NA,NA,NA,"10 pan trap/bee bowl, two sampling rounds, or 2 weeks, during apple bloom in 2012",NA
"Rachel_Mallinger_Malus_domestica_USA_2012","mall01_DC","Plan traps","Andrena miserabilis","species","other_wild_bees",1,NA,NA,NA,"10 pan trap/bee bowl, two sampling rounds, or 2 weeks, during apple bloom in 2012",NA
"Rachel_Mallinger_Malus_domestica_USA_2012","mall01_DC","Plan traps","Andrena nasonii","species","other_wild_bees",126,NA,NA,NA,"10 pan trap/bee bowl, two sampling rounds, or 2 weeks, during apple bloom in 2012",NA
"Rachel_Mallinger_Malus_domestica_USA_2012","mall01_DC","Plan traps","Andrena perplexa","species","other_wild_bees",2,NA,NA,NA,"10 pan trap/bee bowl, two sampling rounds, or 2 weeks, during apple bloom in 2012",NA
"Rachel_Mallinger_Malus_domestica_USA_2012","mall01_DC","Plan traps","Andrena rugosa","species","other_wild_bees",1,NA,NA,NA,"10 pan trap/bee bowl, two sampling rounds, or 2 weeks, during apple bloom in 2012",NA
"Rachel_Mallinger_Malus_domestica_USA_2012","mall01_DC","Plan traps","Ceratina mikmaqi","species","other_wild_bees",1,NA,NA,NA,"10 pan trap/bee bowl, two sampling rounds, or 2 weeks, during apple bloom in 2012",NA
"Rachel_Mallinger_Malus_domestica_USA_2012","mall01_DC","Plan traps","Halictus confusus","species","other_wild_bees",2,NA,NA,NA,"10 pan trap/bee bowl, two sampling rounds, or 2 weeks, during apple bloom in 2012",NA
"Rachel_Mallinger_Malus_domestica_USA_2012","mall01_DC","Plan traps","Lasioglossum hitchensi","species","other_wild_bees",4,NA,NA,NA,"10 pan trap/bee bowl, two sampling rounds, or 2 weeks, during apple bloom in 2012",NA
"Rachel_Mallinger_Malus_domestica_USA_2012","mall01_DC","Plan traps","Lasioglossum versatum","species","other_wild_bees",3,NA,NA,NA,"10 pan trap/bee bowl, two sampling rounds, or 2 weeks, during apple bloom in 2012",NA
"Rachel_Mallinger_Malus_domestica_USA_2012","mall01_DC","Plan traps","Lasioglossum admirandum","species","other_wild_bees",1,NA,NA,NA,"10 pan trap/bee bowl, two sampling rounds, or 2 weeks, during apple bloom in 2012",NA
"Rachel_Mallinger_Malus_domestica_USA_2012","mall01_EL","Plan traps","Andrena carlini","species","other_wild_bees",11,NA,NA,NA,"10 pan trap/bee bowl, two sampling rounds, or 2 weeks, during apple bloom in 2012",NA
"Rachel_Mallinger_Malus_domestica_USA_2012","mall01_EL","Plan traps","Andrena cressonii","species","other_wild_bees",8,NA,NA,NA,"10 pan trap/bee bowl, two sampling rounds, or 2 weeks, during apple bloom in 2012",NA
"Rachel_Mallinger_Malus_domestica_USA_2012","mall01_EL","Plan traps","Andrena dunningi","species","other_wild_bees",7,NA,NA,NA,"10 pan trap/bee bowl, two sampling rounds, or 2 weeks, during apple bloom in 2012",NA
"Rachel_Mallinger_Malus_domestica_USA_2012","mall01_EL","Plan traps","Andrena forbesii","species","other_wild_bees",3,NA,NA,NA,"10 pan trap/bee bowl, two sampling rounds, or 2 weeks, during apple bloom in 2012",NA
"Rachel_Mallinger_Malus_domestica_USA_2012","mall01_EL","Plan traps","Andrena hippotes","species","other_wild_bees",2,NA,NA,NA,"10 pan trap/bee bowl, two sampling rounds, or 2 weeks, during apple bloom in 2012",NA
"Rachel_Mallinger_Malus_domestica_USA_2012","mall01_EL","Plan traps","Andrena imitatrix","species","other_wild_bees",2,NA,NA,NA,"10 pan trap/bee bowl, two sampling rounds, or 2 weeks, during apple bloom in 2012",NA
"Rachel_Mallinger_Malus_domestica_USA_2012","mall01_EL","Plan traps","Andrena mandibularis","species","other_wild_bees",2,NA,NA,NA,"10 pan trap/bee bowl, two sampling rounds, or 2 weeks, during apple bloom in 2012",NA
"Rachel_Mallinger_Malus_domestica_USA_2012","mall01_EL","Plan traps","Andrena nasonii","species","other_wild_bees",164,NA,NA,NA,"10 pan trap/bee bowl, two sampling rounds, or 2 weeks, during apple bloom in 2012",NA
"Rachel_Mallinger_Malus_domestica_USA_2012","mall01_EL","Plan traps","Andrena rugosa","species","other_wild_bees",1,NA,NA,NA,"10 pan trap/bee bowl, two sampling rounds, or 2 weeks, during apple bloom in 2012",NA
"Rachel_Mallinger_Malus_domestica_USA_2012","mall01_EL","Plan traps","Andrena vicina","species","other_wild_bees",3,NA,NA,NA,"10 pan trap/bee bowl, two sampling rounds, or 2 weeks, during apple bloom in 2012",NA
"Rachel_Mallinger_Malus_domestica_USA_2012","mall01_EL","Plan traps","Bombus impatiens","species","bumblebees",1,NA,NA,NA,"10 pan trap/bee bowl, two sampling rounds, or 2 weeks, during apple bloom in 2012",NA
"Rachel_Mallinger_Malus_domestica_USA_2012","mall01_EL","Plan traps","Lasioglossum hitchensi","species","other_wild_bees",1,NA,NA,NA,"10 pan trap/bee bowl, two sampling rounds, or 2 weeks, during apple bloom in 2012",NA
"Rachel_Mallinger_Malus_domestica_USA_2012","mall01_EL","Plan traps","Osmia lignaria","species","other_wild_bees",1,NA,NA,NA,"10 pan trap/bee bowl, two sampling rounds, or 2 weeks, during apple bloom in 2012",NA
"Rachel_Mallinger_Malus_domestica_USA_2012","mall01_HR","Plan traps","Andrena carlini","species","other_wild_bees",12,NA,NA,NA,"10 pan trap/bee bowl, two sampling rounds, or 2 weeks, during apple bloom in 2012",NA
"Rachel_Mallinger_Malus_domestica_USA_2012","mall01_HR","Plan traps","Andrena cressonii","species","other_wild_bees",17,NA,NA,NA,"10 pan trap/bee bowl, two sampling rounds, or 2 weeks, during apple bloom in 2012",NA
"Rachel_Mallinger_Malus_domestica_USA_2012","mall01_HR","Plan traps","Andrena erythrogaster","species","other_wild_bees",1,NA,NA,NA,"10 pan trap/bee bowl, two sampling rounds, or 2 weeks, during apple bloom in 2012",NA
"Rachel_Mallinger_Malus_domestica_USA_2012","mall01_HR","Plan traps","Andrena forbesii","species","other_wild_bees",1,NA,NA,NA,"10 pan trap/bee bowl, two sampling rounds, or 2 weeks, during apple bloom in 2012",NA
"Rachel_Mallinger_Malus_domestica_USA_2012","mall01_HR","Plan traps","Andrena frigida","species","other_wild_bees",1,NA,NA,NA,"10 pan trap/bee bowl, two sampling rounds, or 2 weeks, during apple bloom in 2012",NA
"Rachel_Mallinger_Malus_domestica_USA_2012","mall01_HR","Plan traps","Andrena hippotes","species","other_wild_bees",4,NA,NA,NA,"10 pan trap/bee bowl, two sampling rounds, or 2 weeks, during apple bloom in 2012",NA
"Rachel_Mallinger_Malus_domestica_USA_2012","mall01_HR","Plan traps","Andrena imitatrix","species","other_wild_bees",2,NA,NA,NA,"10 pan trap/bee bowl, two sampling rounds, or 2 weeks, during apple bloom in 2012",NA
"Rachel_Mallinger_Malus_domestica_USA_2012","mall01_HR","Plan traps","Andrena miserabilis","species","other_wild_bees",3,NA,NA,NA,"10 pan trap/bee bowl, two sampling rounds, or 2 weeks, during apple bloom in 2012",NA
"Rachel_Mallinger_Malus_domestica_USA_2012","mall01_HR","Plan traps","Andrena nasonii","species","other_wild_bees",39,NA,NA,NA,"10 pan trap/bee bowl, two sampling rounds, or 2 weeks, during apple bloom in 2012",NA
"Rachel_Mallinger_Malus_domestica_USA_2012","mall01_HR","Plan traps","Andrena perplexa","species","other_wild_bees",5,NA,NA,NA,"10 pan trap/bee bowl, two sampling rounds, or 2 weeks, during apple bloom in 2012",NA
"Rachel_Mallinger_Malus_domestica_USA_2012","mall01_HR","Plan traps","Bombus fervidus","species","bumblebees",2,NA,NA,NA,"10 pan trap/bee bowl, two sampling rounds, or 2 weeks, during apple bloom in 2012",NA
"Rachel_Mallinger_Malus_domestica_USA_2012","mall01_HR","Plan traps","Bombus impatiens","species","bumblebees",1,NA,NA,NA,"10 pan trap/bee bowl, two sampling rounds, or 2 weeks, during apple bloom in 2012",NA
"Rachel_Mallinger_Malus_domestica_USA_2012","mall01_HR","Plan traps","Colletes inaequalis","species","other_wild_bees",1,NA,NA,NA,"10 pan trap/bee bowl, two sampling rounds, or 2 weeks, during apple bloom in 2012",NA
"Rachel_Mallinger_Malus_domestica_USA_2012","mall01_HR","Plan traps","Halictus rubicundus","species","other_wild_bees",7,NA,NA,NA,"10 pan trap/bee bowl, two sampling rounds, or 2 weeks, during apple bloom in 2012",NA
"Rachel_Mallinger_Malus_domestica_USA_2012","mall01_HR","Plan traps","Lasioglossum pectorale","species","other_wild_bees",1,NA,NA,NA,"10 pan trap/bee bowl, two sampling rounds, or 2 weeks, during apple bloom in 2012",NA
"Rachel_Mallinger_Malus_domestica_USA_2012","mall01_J","Plan traps","Andrena carlini","species","other_wild_bees",1,NA,NA,NA,"10 pan trap/bee bowl, two sampling rounds, or 2 weeks, during apple bloom in 2012",NA
"Rachel_Mallinger_Malus_domestica_USA_2012","mall01_J","Plan traps","Andrena cressonii","species","other_wild_bees",2,NA,NA,NA,"10 pan trap/bee bowl, two sampling rounds, or 2 weeks, during apple bloom in 2012",NA
"Rachel_Mallinger_Malus_domestica_USA_2012","mall01_J","Plan traps","Andrena dunningi","species","other_wild_bees",1,NA,NA,NA,"10 pan trap/bee bowl, two sampling rounds, or 2 weeks, during apple bloom in 2012",NA
"Rachel_Mallinger_Malus_domestica_USA_2012","mall01_J","Plan traps","Andrena hippotes","species","other_wild_bees",4,NA,NA,NA,"10 pan trap/bee bowl, two sampling rounds, or 2 weeks, during apple bloom in 2012",NA
"Rachel_Mallinger_Malus_domestica_USA_2012","mall01_J","Plan traps","Andrena imitatrix","species","other_wild_bees",8,NA,NA,NA,"10 pan trap/bee bowl, two sampling rounds, or 2 weeks, during apple bloom in 2012",NA
"Rachel_Mallinger_Malus_domestica_USA_2012","mall01_J","Plan traps","Andrena mandibularis","species","other_wild_bees",1,NA,NA,NA,"10 pan trap/bee bowl, two sampling rounds, or 2 weeks, during apple bloom in 2012",NA
"Rachel_Mallinger_Malus_domestica_USA_2012","mall01_J","Plan traps","Andrena miserabilis","species","other_wild_bees",8,NA,NA,NA,"10 pan trap/bee bowl, two sampling rounds, or 2 weeks, during apple bloom in 2012",NA
"Rachel_Mallinger_Malus_domestica_USA_2012","mall01_J","Plan traps","Andrena nasonii","species","other_wild_bees",54,NA,NA,NA,"10 pan trap/bee bowl, two sampling rounds, or 2 weeks, during apple bloom in 2012",NA
"Rachel_Mallinger_Malus_domestica_USA_2012","mall01_J","Plan traps","Andrena rugosa","species","other_wild_bees",1,NA,NA,NA,"10 pan trap/bee bowl, two sampling rounds, or 2 weeks, during apple bloom in 2012",NA
"Rachel_Mallinger_Malus_domestica_USA_2012","mall01_J","Plan traps","Augochlora pura","species","other_wild_bees",1,NA,NA,NA,"10 pan trap/bee bowl, two sampling rounds, or 2 weeks, during apple bloom in 2012",NA
"Rachel_Mallinger_Malus_domestica_USA_2012","mall01_J","Plan traps","Lasioglossum cinctipes","species","other_wild_bees",1,NA,NA,NA,"10 pan trap/bee bowl, two sampling rounds, or 2 weeks, during apple bloom in 2012",NA
"Rachel_Mallinger_Malus_domestica_USA_2012","mall01_J","Plan traps","Lasioglossum hitchensi","species","other_wild_bees",9,NA,NA,NA,"10 pan trap/bee bowl, two sampling rounds, or 2 weeks, during apple bloom in 2012",NA
"Rachel_Mallinger_Malus_domestica_USA_2012","mall01_J","Plan traps","Lasioglossum smilacinae","species","other_wild_bees",2,NA,NA,NA,"10 pan trap/bee bowl, two sampling rounds, or 2 weeks, during apple bloom in 2012",NA
"Rachel_Mallinger_Malus_domestica_USA_2012","mall01_KA","Plan traps","Andrena cressonii","species","other_wild_bees",1,NA,NA,NA,"10 pan trap/bee bowl, two sampling rounds, or 2 weeks, during apple bloom in 2012",NA
"Rachel_Mallinger_Malus_domestica_USA_2012","mall01_KA","Plan traps","Andrena hippotes","species","other_wild_bees",2,NA,NA,NA,"10 pan trap/bee bowl, two sampling rounds, or 2 weeks, during apple bloom in 2012",NA
"Rachel_Mallinger_Malus_domestica_USA_2012","mall01_KA","Plan traps","Andrena miserabilis","species","other_wild_bees",2,NA,NA,NA,"10 pan trap/bee bowl, two sampling rounds, or 2 weeks, during apple bloom in 2012",NA
"Rachel_Mallinger_Malus_domestica_USA_2012","mall01_KA","Plan traps","Andrena nasonii","species","other_wild_bees",1,NA,NA,NA,"10 pan trap/bee bowl, two sampling rounds, or 2 weeks, during apple bloom in 2012",NA
"Rachel_Mallinger_Malus_domestica_USA_2012","mall01_KA","Plan traps","Andrena vicina","species","other_wild_bees",1,NA,NA,NA,"10 pan trap/bee bowl, two sampling rounds, or 2 weeks, during apple bloom in 2012",NA
"Rachel_Mallinger_Malus_domestica_USA_2012","mall01_KA","Plan traps","Lasioglossum hitchensi","species","other_wild_bees",2,NA,NA,NA,"10 pan trap/bee bowl, two sampling rounds, or 2 weeks, during apple bloom in 2012",NA
"Rachel_Mallinger_Malus_domestica_USA_2012","mall01_KI","Plan traps","Andrena carlini","species","other_wild_bees",5,NA,NA,NA,"10 pan trap/bee bowl, two sampling rounds, or 2 weeks, during apple bloom in 2012",NA
"Rachel_Mallinger_Malus_domestica_USA_2012","mall01_KI","Plan traps","Andrena commoda","species","other_wild_bees",1,NA,NA,NA,"10 pan trap/bee bowl, two sampling rounds, or 2 weeks, during apple bloom in 2012",NA
"Rachel_Mallinger_Malus_domestica_USA_2012","mall01_KI","Plan traps","Andrena dunningi","species","other_wild_bees",1,NA,NA,NA,"10 pan trap/bee bowl, two sampling rounds, or 2 weeks, during apple bloom in 2012",NA
"Rachel_Mallinger_Malus_domestica_USA_2012","mall01_KI","Plan traps","Andrena forbesii","species","other_wild_bees",7,NA,NA,NA,"10 pan trap/bee bowl, two sampling rounds, or 2 weeks, during apple bloom in 2012",NA
"Rachel_Mallinger_Malus_domestica_USA_2012","mall01_KI","Plan traps","Andrena imitatrix","species","other_wild_bees",8,NA,NA,NA,"10 pan trap/bee bowl, two sampling rounds, or 2 weeks, during apple bloom in 2012",NA
"Rachel_Mallinger_Malus_domestica_USA_2012","mall01_KI","Plan traps","Andrena miserabilis","species","other_wild_bees",9,NA,NA,NA,"10 pan trap/bee bowl, two sampling rounds, or 2 weeks, during apple bloom in 2012",NA
"Rachel_Mallinger_Malus_domestica_USA_2012","mall01_KI","Plan traps","Andrena nasonii","species","other_wild_bees",41,NA,NA,NA,"10 pan trap/bee bowl, two sampling rounds, or 2 weeks, during apple bloom in 2012",NA
"Rachel_Mallinger_Malus_domestica_USA_2012","mall01_KI","Plan traps","Andrena perplexa","species","other_wild_bees",7,NA,NA,NA,"10 pan trap/bee bowl, two sampling rounds, or 2 weeks, during apple bloom in 2012",NA
"Rachel_Mallinger_Malus_domestica_USA_2012","mall01_KI","Plan traps","Andrena vicina","species","other_wild_bees",1,NA,NA,NA,"10 pan trap/bee bowl, two sampling rounds, or 2 weeks, during apple bloom in 2012",NA
"Rachel_Mallinger_Malus_domestica_USA_2012","mall01_KI","Plan traps","Lasioglossum hitchensi","species","other_wild_bees",4,NA,NA,NA,"10 pan trap/bee bowl, two sampling rounds, or 2 weeks, during apple bloom in 2012",NA
"Rachel_Mallinger_Malus_domestica_USA_2012","mall01_KI","Plan traps","Lasioglossum versatum","species","other_wild_bees",2,NA,NA,NA,"10 pan trap/bee bowl, two sampling rounds, or 2 weeks, during apple bloom in 2012",NA
"Rachel_Mallinger_Malus_domestica_USA_2012","mall01_QU","Plan traps","Andrena carlini","species","other_wild_bees",1,NA,NA,NA,"10 pan trap/bee bowl, two sampling rounds, or 2 weeks, during apple bloom in 2012",NA
"Rachel_Mallinger_Malus_domestica_USA_2012","mall01_QU","Plan traps","Andrena commoda","species","other_wild_bees",2,NA,NA,NA,"10 pan trap/bee bowl, two sampling rounds, or 2 weeks, during apple bloom in 2012",NA
"Rachel_Mallinger_Malus_domestica_USA_2012","mall01_QU","Plan traps","Andrena cressonii","species","other_wild_bees",3,NA,NA,NA,"10 pan trap/bee bowl, two sampling rounds, or 2 weeks, during apple bloom in 2012",NA
"Rachel_Mallinger_Malus_domestica_USA_2012","mall01_QU","Plan traps","Andrena dunningi","species","other_wild_bees",1,NA,NA,NA,"10 pan trap/bee bowl, two sampling rounds, or 2 weeks, during apple bloom in 2012",NA
"Rachel_Mallinger_Malus_domestica_USA_2012","mall01_QU","Plan traps","Andrena erythronii","species","other_wild_bees",1,NA,NA,NA,"10 pan trap/bee bowl, two sampling rounds, or 2 weeks, during apple bloom in 2012",NA
"Rachel_Mallinger_Malus_domestica_USA_2012","mall01_QU","Plan traps","Andrena frigida","species","other_wild_bees",1,NA,NA,NA,"10 pan trap/bee bowl, two sampling rounds, or 2 weeks, during apple bloom in 2012",NA
"Rachel_Mallinger_Malus_domestica_USA_2012","mall01_QU","Plan traps","Andrena hippotes","species","other_wild_bees",2,NA,NA,NA,"10 pan trap/bee bowl, two sampling rounds, or 2 weeks, during apple bloom in 2012",NA
"Rachel_Mallinger_Malus_domestica_USA_2012","mall01_QU","Plan traps","Andrena imitatrix","species","other_wild_bees",4,NA,NA,NA,"10 pan trap/bee bowl, two sampling rounds, or 2 weeks, during apple bloom in 2012",NA
"Rachel_Mallinger_Malus_domestica_USA_2012","mall01_QU","Plan traps","Andrena miserabilis","species","other_wild_bees",5,NA,NA,NA,"10 pan trap/bee bowl, two sampling rounds, or 2 weeks, during apple bloom in 2012",NA
"Rachel_Mallinger_Malus_domestica_USA_2012","mall01_QU","Plan traps","Andrena vicina","species","other_wild_bees",1,NA,NA,NA,"10 pan trap/bee bowl, two sampling rounds, or 2 weeks, during apple bloom in 2012",NA
"Rachel_Mallinger_Malus_domestica_USA_2012","mall01_QU","Plan traps","Bombus impatiens","species","bumblebees",1,NA,NA,NA,"10 pan trap/bee bowl, two sampling rounds, or 2 weeks, during apple bloom in 2012",NA
"Rachel_Mallinger_Malus_domestica_USA_2012","mall01_QU","Plan traps","Colletes inaequalis","species","other_wild_bees",2,NA,NA,NA,"10 pan trap/bee bowl, two sampling rounds, or 2 weeks, during apple bloom in 2012",NA
"Rachel_Mallinger_Malus_domestica_USA_2012","mall01_QU","Plan traps","Halictus confusus","species","other_wild_bees",1,NA,NA,NA,"10 pan trap/bee bowl, two sampling rounds, or 2 weeks, during apple bloom in 2012",NA
"Rachel_Mallinger_Malus_domestica_USA_2012","mall01_QU","Plan traps","Halictus rubicundus","species","other_wild_bees",1,NA,NA,NA,"10 pan trap/bee bowl, two sampling rounds, or 2 weeks, during apple bloom in 2012",NA
"Rachel_Mallinger_Malus_domestica_USA_2012","mall01_TR","Plan traps","Andrena carlini","species","other_wild_bees",4,NA,NA,NA,"10 pan trap/bee bowl, two sampling rounds, or 2 weeks, during apple bloom in 2012",NA
"Rachel_Mallinger_Malus_domestica_USA_2012","mall01_TR","Plan traps","Andrena erythronii","species","other_wild_bees",3,NA,NA,NA,"10 pan trap/bee bowl, two sampling rounds, or 2 weeks, during apple bloom in 2012",NA
"Rachel_Mallinger_Malus_domestica_USA_2012","mall01_TR","Plan traps","Andrena forbesii","species","other_wild_bees",1,NA,NA,NA,"10 pan trap/bee bowl, two sampling rounds, or 2 weeks, during apple bloom in 2012",NA
"Rachel_Mallinger_Malus_domestica_USA_2012","mall01_TR","Plan traps","Andrena hippotes","species","other_wild_bees",1,NA,NA,NA,"10 pan trap/bee bowl, two sampling rounds, or 2 weeks, during apple bloom in 2012",NA
"Rachel_Mallinger_Malus_domestica_USA_2012","mall01_TR","Plan traps","Andrena imitatrix","species","other_wild_bees",1,NA,NA,NA,"10 pan trap/bee bowl, two sampling rounds, or 2 weeks, during apple bloom in 2012",NA
"Rachel_Mallinger_Malus_domestica_USA_2012","mall01_TR","Plan traps","Andrena mandibularis","species","other_wild_bees",1,NA,NA,NA,"10 pan trap/bee bowl, two sampling rounds, or 2 weeks, during apple bloom in 2012",NA
"Rachel_Mallinger_Malus_domestica_USA_2012","mall01_TR","Plan traps","Andrena miserabilis","species","other_wild_bees",7,NA,NA,NA,"10 pan trap/bee bowl, two sampling rounds, or 2 weeks, during apple bloom in 2012",NA
"Rachel_Mallinger_Malus_domestica_USA_2012","mall01_TR","Plan traps","Andrena nasonii","species","other_wild_bees",18,NA,NA,NA,"10 pan trap/bee bowl, two sampling rounds, or 2 weeks, during apple bloom in 2012",NA
"Rachel_Mallinger_Malus_domestica_USA_2012","mall01_TR","Plan traps","Colletes inaequalis","species","other_wild_bees",6,NA,NA,NA,"10 pan trap/bee bowl, two sampling rounds, or 2 weeks, during apple bloom in 2012",NA
"Rachel_Mallinger_Malus_domestica_USA_2012","mall01_TR","Plan traps","Halictus confusus","species","other_wild_bees",1,NA,NA,NA,"10 pan trap/bee bowl, two sampling rounds, or 2 weeks, during apple bloom in 2012",NA
"Rachel_Mallinger_Malus_domestica_USA_2012","mall01_TR","Plan traps","Halictus rubicundus","species","other_wild_bees",1,NA,NA,NA,"10 pan trap/bee bowl, two sampling rounds, or 2 weeks, during apple bloom in 2012",NA
"Rachel_Mallinger_Malus_domestica_USA_2012","mall01_TR","Plan traps","Lasioglossum bruneri","species","other_wild_bees",1,NA,NA,NA,"10 pan trap/bee bowl, two sampling rounds, or 2 weeks, during apple bloom in 2012",NA
"Rachel_Mallinger_Malus_domestica_USA_2012","mall01_TR","Plan traps","Lasioglossum illinoense","species","other_wild_bees",1,NA,NA,NA,"10 pan trap/bee bowl, two sampling rounds, or 2 weeks, during apple bloom in 2012",NA
"Rachel_Mallinger_Malus_domestica_USA_2012","mall01_TR","Plan traps","Lasioglossum hitchensi","species","other_wild_bees",4,NA,NA,NA,"10 pan trap/bee bowl, two sampling rounds, or 2 weeks, during apple bloom in 2012",NA
"Rachel_Mallinger_Malus_domestica_USA_2012","mall01_TR","Plan traps","Lasioglossum admirandum","species","other_wild_bees",1,NA,NA,NA,"10 pan trap/bee bowl, two sampling rounds, or 2 weeks, during apple bloom in 2012",NA
"Rachel_Mallinger_Malus_domestica_USA_2012","mall01_TR","Plan traps","Lasioglossum nigroviridae","species","other_wild_bees",7,NA,NA,NA,"10 pan trap/bee bowl, two sampling rounds, or 2 weeks, during apple bloom in 2012",NA
"Rachel_Mallinger_Malus_domestica_USA_2012","mall01_TR","Plan traps","Lasioglossum smilacinae","species","other_wild_bees",1,NA,NA,NA,"10 pan trap/bee bowl, two sampling rounds, or 2 weeks, during apple bloom in 2012",NA
"Rachel_Mallinger_Malus_domestica_USA_2012","mall01_TR","Plan traps","Osmia lignaria","species","other_wild_bees",1,NA,NA,NA,"10 pan trap/bee bowl, two sampling rounds, or 2 weeks, during apple bloom in 2012",NA
"Rachel_Mallinger_Malus_domestica_USA_2012","mall01_HO","Plan traps","Andrena carlini","species","other_wild_bees",25,NA,NA,NA,"10 pan trap/bee bowl, two sampling rounds, or 2 weeks, during apple bloom in 2012",NA
"Rachel_Mallinger_Malus_domestica_USA_2012","mall01_HO","Plan traps","Andrena cressonii","species","other_wild_bees",5,NA,NA,NA,"10 pan trap/bee bowl, two sampling rounds, or 2 weeks, during apple bloom in 2012",NA
"Rachel_Mallinger_Malus_domestica_USA_2012","mall01_HO","Plan traps","Andrena forbesii","species","other_wild_bees",3,NA,NA,NA,"10 pan trap/bee bowl, two sampling rounds, or 2 weeks, during apple bloom in 2012",NA
"Rachel_Mallinger_Malus_domestica_USA_2012","mall01_HO","Plan traps","Andrena hippotes","species","other_wild_bees",1,NA,NA,NA,"10 pan trap/bee bowl, two sampling rounds, or 2 weeks, during apple bloom in 2012",NA
"Rachel_Mallinger_Malus_domestica_USA_2012","mall01_HO","Plan traps","Andrena imitatrix","species","other_wild_bees",2,NA,NA,NA,"10 pan trap/bee bowl, two sampling rounds, or 2 weeks, during apple bloom in 2012",NA
"Rachel_Mallinger_Malus_domestica_USA_2012","mall01_HO","Plan traps","Andrena mandibularis","species","other_wild_bees",1,NA,NA,NA,"10 pan trap/bee bowl, two sampling rounds, or 2 weeks, during apple bloom in 2012",NA
"Rachel_Mallinger_Malus_domestica_USA_2012","mall01_HO","Plan traps","Andrena milwaukeensis","species","other_wild_bees",1,NA,NA,NA,"10 pan trap/bee bowl, two sampling rounds, or 2 weeks, during apple bloom in 2012",NA
"Rachel_Mallinger_Malus_domestica_USA_2012","mall01_HO","Plan traps","Andrena nasonii","species","other_wild_bees",22,NA,NA,NA,"10 pan trap/bee bowl, two sampling rounds, or 2 weeks, during apple bloom in 2012",NA
"Rachel_Mallinger_Malus_domestica_USA_2012","mall01_HO","Plan traps","Andrena perplexa","species","other_wild_bees",13,NA,NA,NA,"10 pan trap/bee bowl, two sampling rounds, or 2 weeks, during apple bloom in 2012",NA
"Rachel_Mallinger_Malus_domestica_USA_2012","mall01_HO","Plan traps","Andrena rufosignata","species","other_wild_bees",3,NA,NA,NA,"10 pan trap/bee bowl, two sampling rounds, or 2 weeks, during apple bloom in 2012",NA
"Rachel_Mallinger_Malus_domestica_USA_2012","mall01_HO","Plan traps","Andrena rugosa","species","other_wild_bees",2,NA,NA,NA,"10 pan trap/bee bowl, two sampling rounds, or 2 weeks, during apple bloom in 2012",NA
"Rachel_Mallinger_Malus_domestica_USA_2012","mall01_HO","Plan traps","Andrena vicina","species","other_wild_bees",1,NA,NA,NA,"10 pan trap/bee bowl, two sampling rounds, or 2 weeks, during apple bloom in 2012",NA
"Rachel_Mallinger_Malus_domestica_USA_2012","mall01_HO","Plan traps","Bombus bimaculatus","species","bumblebees",1,NA,NA,NA,"10 pan trap/bee bowl, two sampling rounds, or 2 weeks, during apple bloom in 2012",NA
"Rachel_Mallinger_Malus_domestica_USA_2012","mall01_HO","Plan traps","Colletes inaequalis","species","other_wild_bees",1,NA,NA,NA,"10 pan trap/bee bowl, two sampling rounds, or 2 weeks, during apple bloom in 2012",NA
"Rachel_Mallinger_Malus_domestica_USA_2012","mall01_HO","Plan traps","Halictus confusus","species","other_wild_bees",11,NA,NA,NA,"10 pan trap/bee bowl, two sampling rounds, or 2 weeks, during apple bloom in 2012",NA
"Rachel_Mallinger_Malus_domestica_USA_2012","mall01_HO","Plan traps","Lasioglossum anomalum","species","other_wild_bees",1,NA,NA,NA,"10 pan trap/bee bowl, two sampling rounds, or 2 weeks, during apple bloom in 2012",NA
"Rachel_Mallinger_Malus_domestica_USA_2012","mall01_HO","Plan traps","Lasioglossum cressonii","species","other_wild_bees",1,NA,NA,NA,"10 pan trap/bee bowl, two sampling rounds, or 2 weeks, during apple bloom in 2012",NA
"Rachel_Mallinger_Malus_domestica_USA_2012","mall01_HO","Plan traps","Lasioglossum hitchensi","species","other_wild_bees",10,NA,NA,NA,"10 pan trap/bee bowl, two sampling rounds, or 2 weeks, during apple bloom in 2012",NA
"Rachel_Mallinger_Malus_domestica_USA_2012","mall01_HO","Plan traps","Lasioglossum admirandum","species","other_wild_bees",1,NA,NA,NA,"10 pan trap/bee bowl, two sampling rounds, or 2 weeks, during apple bloom in 2012",NA
"Rachel_Mallinger_Malus_domestica_USA_2012","mall01_HO","Plan traps","Lasioglossum weemsi","species","other_wild_bees",2,NA,NA,NA,"10 pan trap/bee bowl, two sampling rounds, or 2 weeks, during apple bloom in 2012",NA
"Rachel_Mallinger_Malus_domestica_USA_2012","mall01_HO","Plan traps","Lasioglossum foxii","species","other_wild_bees",2,NA,NA,NA,"10 pan trap/bee bowl, two sampling rounds, or 2 weeks, during apple bloom in 2012",NA
"Rachel_Mallinger_Malus_domestica_USA_2012","mall01_HO","Plan traps","Lasioglossum smilacinae","species","other_wild_bees",2,NA,NA,NA,"10 pan trap/bee bowl, two sampling rounds, or 2 weeks, during apple bloom in 2012",NA
"Rachel_Mallinger_Malus_domestica_USA_2012","mall01_HO","Plan traps","Lasioglossum versatum","species","other_wild_bees",1,NA,NA,NA,"10 pan trap/bee bowl, two sampling rounds, or 2 weeks, during apple bloom in 2012",NA
"Rachel_Mallinger_Malus_domestica_USA_2012","mall01_PB","Plan traps","Andrena carlini","species","other_wild_bees",3,NA,NA,NA,"10 pan trap/bee bowl, two sampling rounds, or 2 weeks, during apple bloom in 2012",NA
"Rachel_Mallinger_Malus_domestica_USA_2012","mall01_PB","Plan traps","Andrena dunningi","species","other_wild_bees",1,NA,NA,NA,"10 pan trap/bee bowl, two sampling rounds, or 2 weeks, during apple bloom in 2012",NA
"Rachel_Mallinger_Malus_domestica_USA_2012","mall01_PB","Plan traps","Bombus fervidus","species","bumblebees",1,NA,NA,NA,"10 pan trap/bee bowl, two sampling rounds, or 2 weeks, during apple bloom in 2012",NA
"Rachel_Mallinger_Malus_domestica_USA_2012","mall01_PB","Plan traps","Halictus rubicundus","species","other_wild_bees",4,NA,NA,NA,"10 pan trap/bee bowl, two sampling rounds, or 2 weeks, during apple bloom in 2012",NA
"Rachel_Mallinger_Malus_domestica_USA_2012","mall01_PB","Plan traps","Lasioglossum cinctipes","species","other_wild_bees",3,NA,NA,NA,"10 pan trap/bee bowl, two sampling rounds, or 2 weeks, during apple bloom in 2012",NA
"Rachel_Mallinger_Malus_domestica_USA_2012","mall01_PB","Plan traps","Lasioglossum smilacinae","species","other_wild_bees",4,NA,NA,NA,"10 pan trap/bee bowl, two sampling rounds, or 2 weeks, during apple bloom in 2012",NA
"Rachel_Mallinger_Malus_domestica_USA_2012","mall01_CO","Plan traps","Andrena carlini","species","other_wild_bees",4,NA,NA,NA,"10 pan trap/bee bowl, two sampling rounds, or 2 weeks, during apple bloom in 2012",NA
"Rachel_Mallinger_Malus_domestica_USA_2012","mall01_CO","Plan traps","Andrena miserabilis","species","other_wild_bees",1,NA,NA,NA,"10 pan trap/bee bowl, two sampling rounds, or 2 weeks, during apple bloom in 2012",NA
"Rachel_Mallinger_Malus_domestica_USA_2012","mall01_CO","Plan traps","Andrena nasonii","species","other_wild_bees",1,NA,NA,NA,"10 pan trap/bee bowl, two sampling rounds, or 2 weeks, during apple bloom in 2012",NA
"Rachel_Mallinger_Malus_domestica_USA_2012","mall01_CO","Plan traps","Lasioglossum paraforbesii","species","other_wild_bees",2,NA,NA,NA,"10 pan trap/bee bowl, two sampling rounds, or 2 weeks, during apple bloom in 2012",NA
"Rachel_Mallinger_Malus_domestica_USA_2012","mall01_CO","Plan traps","Lasioglossum zephyrum","species","other_wild_bees",3,NA,NA,NA,"10 pan trap/bee bowl, two sampling rounds, or 2 weeks, during apple bloom in 2012",NA
"Rachel_Mallinger_Malus_domestica_USA_2012","mall01_CO","Plan traps","Lasioglossum perpunctatum","species","other_wild_bees",1,NA,NA,NA,"10 pan trap/bee bowl, two sampling rounds, or 2 weeks, during apple bloom in 2012",NA
"Rachel_Mallinger_Malus_domestica_USA_2012","mall01_CO","Plan traps","Lasioglossum hitchensi","species","other_wild_bees",11,NA,NA,NA,"10 pan trap/bee bowl, two sampling rounds, or 2 weeks, during apple bloom in 2012",NA
"Rachel_Mallinger_Malus_domestica_USA_2012","mall01_CO","Plan traps","Lasioglossum weemsi","species","other_wild_bees",1,NA,NA,NA,"10 pan trap/bee bowl, two sampling rounds, or 2 weeks, during apple bloom in 2012",NA
"Rachel_Mallinger_Malus_domestica_USA_2012","mall01_CO","Plan traps","Lasioglossum admirandum","species","other_wild_bees",1,NA,NA,NA,"10 pan trap/bee bowl, two sampling rounds, or 2 weeks, during apple bloom in 2012",NA
"Rachel_Mallinger_Malus_domestica_USA_2012","mall01_CO","Plan traps","Lasioglossum paradmirandum","species","other_wild_bees",1,NA,NA,NA,"10 pan trap/bee bowl, two sampling rounds, or 2 weeks, during apple bloom in 2012",NA
"Rachel_Mallinger_Malus_domestica_USA_2012","mall01_CO","Plan traps","Lasioglossum smilacinae","species","other_wild_bees",1,NA,NA,NA,"10 pan trap/bee bowl, two sampling rounds, or 2 weeks, during apple bloom in 2012",NA
"Rachel_Mallinger_Malus_domestica_USA_2012","mall01_HK","Plan traps","Andrena carlini","species","other_wild_bees",8,NA,NA,NA,"10 pan trap/bee bowl, two sampling rounds, or 2 weeks, during apple bloom in 2012",NA
"Rachel_Mallinger_Malus_domestica_USA_2012","mall01_HK","Plan traps","Andrena commoda","species","other_wild_bees",3,NA,NA,NA,"10 pan trap/bee bowl, two sampling rounds, or 2 weeks, during apple bloom in 2012",NA
"Rachel_Mallinger_Malus_domestica_USA_2012","mall01_HK","Plan traps","Andrena cressonii","species","other_wild_bees",3,NA,NA,NA,"10 pan trap/bee bowl, two sampling rounds, or 2 weeks, during apple bloom in 2012",NA
"Rachel_Mallinger_Malus_domestica_USA_2012","mall01_HK","Plan traps","Andrena forbesii","species","other_wild_bees",2,NA,NA,NA,"10 pan trap/bee bowl, two sampling rounds, or 2 weeks, during apple bloom in 2012",NA
"Rachel_Mallinger_Malus_domestica_USA_2012","mall01_HK","Plan traps","Andrena imitatrix","species","other_wild_bees",1,NA,NA,NA,"10 pan trap/bee bowl, two sampling rounds, or 2 weeks, during apple bloom in 2012",NA
"Rachel_Mallinger_Malus_domestica_USA_2012","mall01_HK","Plan traps","Andrena miserabilis","species","other_wild_bees",1,NA,NA,NA,"10 pan trap/bee bowl, two sampling rounds, or 2 weeks, during apple bloom in 2012",NA
"Rachel_Mallinger_Malus_domestica_USA_2012","mall01_HK","Plan traps","Andrena nasonii","species","other_wild_bees",3,NA,NA,NA,"10 pan trap/bee bowl, two sampling rounds, or 2 weeks, during apple bloom in 2012",NA
"Rachel_Mallinger_Malus_domestica_USA_2012","mall01_HK","Plan traps","Andrena perplexa","species","other_wild_bees",1,NA,NA,NA,"10 pan trap/bee bowl, two sampling rounds, or 2 weeks, during apple bloom in 2012",NA
"Rachel_Mallinger_Malus_domestica_USA_2012","mall01_HK","Plan traps","Andrena vicina","species","other_wild_bees",5,NA,NA,NA,"10 pan trap/bee bowl, two sampling rounds, or 2 weeks, during apple bloom in 2012",NA
"Rachel_Mallinger_Malus_domestica_USA_2012","mall01_HK","Plan traps","Colletes inaequalis","species","other_wild_bees",1,NA,NA,NA,"10 pan trap/bee bowl, two sampling rounds, or 2 weeks, during apple bloom in 2012",NA
"Rachel_Mallinger_Malus_domestica_USA_2012","mall01_HK","Plan traps","Halictus confusus","species","other_wild_bees",1,NA,NA,NA,"10 pan trap/bee bowl, two sampling rounds, or 2 weeks, during apple bloom in 2012",NA
"Rachel_Mallinger_Malus_domestica_USA_2012","mall01_HK","Plan traps","Andrena nivalis","species","other_wild_bees",1,NA,NA,NA,"10 pan trap/bee bowl, two sampling rounds, or 2 weeks, during apple bloom in 2012",NA
"Rachel_Mallinger_Malus_domestica_USA_2012","mall01_HK","Plan traps","Lasioglossum perpunctatum","species","other_wild_bees",1,NA,NA,NA,"10 pan trap/bee bowl, two sampling rounds, or 2 weeks, during apple bloom in 2012",NA
"Rachel_Mallinger_Malus_domestica_USA_2012","mall01_HK","Plan traps","Lasioglossum hitchensi","species","other_wild_bees",5,NA,NA,NA,"10 pan trap/bee bowl, two sampling rounds, or 2 weeks, during apple bloom in 2012",NA
"Rachel_Mallinger_Malus_domestica_USA_2012","mall01_HK","Plan traps","Andrena tridens","species","other_wild_bees",1,NA,NA,NA,"10 pan trap/bee bowl, two sampling rounds, or 2 weeks, during apple bloom in 2012",NA
"Rachel_Mallinger_Malus_domestica_USA_2012","mall01_MH","Plan traps","Andrena carlini","species","other_wild_bees",12,NA,NA,NA,"10 pan trap/bee bowl, two sampling rounds, or 2 weeks, during apple bloom in 2012",NA
"Rachel_Mallinger_Malus_domestica_USA_2012","mall01_MH","Plan traps","Andrena miserabilis","species","other_wild_bees",3,NA,NA,NA,"10 pan trap/bee bowl, two sampling rounds, or 2 weeks, during apple bloom in 2012",NA
"Rachel_Mallinger_Malus_domestica_USA_2012","mall01_MH","Plan traps","Andrena nasonii","species","other_wild_bees",34,NA,NA,NA,"10 pan trap/bee bowl, two sampling rounds, or 2 weeks, during apple bloom in 2012",NA
"Rachel_Mallinger_Malus_domestica_USA_2012","mall01_MH","Plan traps","Andrena perplexa","species","other_wild_bees",1,NA,NA,NA,"10 pan trap/bee bowl, two sampling rounds, or 2 weeks, during apple bloom in 2012",NA
"Rachel_Mallinger_Malus_domestica_USA_2012","mall01_MH","Plan traps","Halictus confusus","species","other_wild_bees",1,NA,NA,NA,"10 pan trap/bee bowl, two sampling rounds, or 2 weeks, during apple bloom in 2012",NA
"Rachel_Mallinger_Malus_domestica_USA_2012","mall01_MH","Plan traps","Lasioglossum coriaceum","species","other_wild_bees",1,NA,NA,NA,"10 pan trap/bee bowl, two sampling rounds, or 2 weeks, during apple bloom in 2012",NA
"Rachel_Mallinger_Malus_domestica_USA_2012","mall01_MH","Plan traps","Lasioglossum versatum","species","other_wild_bees",5,NA,NA,NA,"10 pan trap/bee bowl, two sampling rounds, or 2 weeks, during apple bloom in 2012",NA
"Rachel_Mallinger_Malus_domestica_USA_2012","mall01_MH","Plan traps","Lasioglossum hitchensi","species","other_wild_bees",2,NA,NA,NA,"10 pan trap/bee bowl, two sampling rounds, or 2 weeks, during apple bloom in 2012",NA
"Rachel_Mallinger_Malus_domestica_USA_2012","mall01_SB","Plan traps","Andrena carlini","species","other_wild_bees",14,NA,NA,NA,"10 pan trap/bee bowl, two sampling rounds, or 2 weeks, during apple bloom in 2012",NA
"Rachel_Mallinger_Malus_domestica_USA_2012","mall01_SB","Plan traps","Andrena cressonii","species","other_wild_bees",1,NA,NA,NA,"10 pan trap/bee bowl, two sampling rounds, or 2 weeks, during apple bloom in 2012",NA
"Rachel_Mallinger_Malus_domestica_USA_2012","mall01_SB","Plan traps","Andrena forbesii","species","other_wild_bees",2,NA,NA,NA,"10 pan trap/bee bowl, two sampling rounds, or 2 weeks, during apple bloom in 2012",NA
"Rachel_Mallinger_Malus_domestica_USA_2012","mall01_SB","Plan traps","Andrena hippotes","species","other_wild_bees",1,NA,NA,NA,"10 pan trap/bee bowl, two sampling rounds, or 2 weeks, during apple bloom in 2012",NA
"Rachel_Mallinger_Malus_domestica_USA_2012","mall01_SB","Plan traps","Andrena imitatrix","species","other_wild_bees",4,NA,NA,NA,"10 pan trap/bee bowl, two sampling rounds, or 2 weeks, during apple bloom in 2012",NA
"Rachel_Mallinger_Malus_domestica_USA_2012","mall01_SB","Plan traps","Andrena mandibularis","species","other_wild_bees",2,NA,NA,NA,"10 pan trap/bee bowl, two sampling rounds, or 2 weeks, during apple bloom in 2012",NA
"Rachel_Mallinger_Malus_domestica_USA_2012","mall01_SB","Plan traps","Andrena nasonii","species","other_wild_bees",1,NA,NA,NA,"10 pan trap/bee bowl, two sampling rounds, or 2 weeks, during apple bloom in 2012",NA
"Rachel_Mallinger_Malus_domestica_USA_2012","mall01_SB","Plan traps","Andrena perplexa","species","other_wild_bees",1,NA,NA,NA,"10 pan trap/bee bowl, two sampling rounds, or 2 weeks, during apple bloom in 2012",NA
"Rachel_Mallinger_Malus_domestica_USA_2012","mall01_SB","Plan traps","Andrena vicina","species","other_wild_bees",1,NA,NA,NA,"10 pan trap/bee bowl, two sampling rounds, or 2 weeks, during apple bloom in 2012",NA
"Rachel_Mallinger_Malus_domestica_USA_2012","mall01_SB","Plan traps","Lasioglossum coriaceum","species","other_wild_bees",1,NA,NA,NA,"10 pan trap/bee bowl, two sampling rounds, or 2 weeks, during apple bloom in 2012",NA
"Rachel_Mallinger_Malus_domestica_USA_2012","mall01_SB","Plan traps","Lasioglossum versatum","species","other_wild_bees",2,NA,NA,NA,"10 pan trap/bee bowl, two sampling rounds, or 2 weeks, during apple bloom in 2012",NA
"Rachel_Mallinger_Malus_domestica_USA_2012","mall01_SB","Plan traps","Lasioglossum ephialtum complex spp","species complex","other_wild_bees",1,NA,NA,NA,"10 pan trap/bee bowl, two sampling rounds, or 2 weeks, during apple bloom in 2012",NA
"Rachel_Mallinger_Malus_domestica_USA_2012","mall01_SB","Plan traps","Lasioglossum hitchensi","species","other_wild_bees",1,NA,NA,NA,"10 pan trap/bee bowl, two sampling rounds, or 2 weeks, during apple bloom in 2012",NA
"Rachel_Mallinger_Malus_domestica_USA_2012","mall01_SB","Plan traps","Lasioglossum paradmirandum","species","other_wild_bees",1,NA,NA,NA,"10 pan trap/bee bowl, two sampling rounds, or 2 weeks, during apple bloom in 2012",NA
"Rachel_Mallinger_Malus_domestica_USA_2012","mall01_SB","Plan traps","Lasioglossum smilacinae","species","other_wild_bees",1,NA,NA,NA,"10 pan trap/bee bowl, two sampling rounds, or 2 weeks, during apple bloom in 2012",NA
"Rachel_Mallinger_Malus_domestica_USA_2013","mall01_AB","Plan traps","Andrena forbesii","species","other_wild_bees",1,NA,NA,NA,"10 pan trap/bee bowl, one sampling round, or 1 week, during apple bloom in 2013",NA
"Rachel_Mallinger_Malus_domestica_USA_2013","mall01_AB","Plan traps","Andrena commoda","species","other_wild_bees",2,NA,NA,NA,"10 pan trap/bee bowl, one sampling round, or 1 week, during apple bloom in 2013",NA
"Rachel_Mallinger_Malus_domestica_USA_2013","mall01_AB","Plan traps","Andrena cressonii","species","other_wild_bees",2,NA,NA,NA,"10 pan trap/bee bowl, one sampling round, or 1 week, during apple bloom in 2013",NA
"Rachel_Mallinger_Malus_domestica_USA_2013","mall01_AB","Plan traps","Andrena imitatrix","species","other_wild_bees",1,NA,NA,NA,"10 pan trap/bee bowl, one sampling round, or 1 week, during apple bloom in 2013",NA
"Rachel_Mallinger_Malus_domestica_USA_2013","mall01_AB","Plan traps","Andrena nasonii","species","other_wild_bees",29,NA,NA,NA,"10 pan trap/bee bowl, one sampling round, or 1 week, during apple bloom in 2013",NA
"Rachel_Mallinger_Malus_domestica_USA_2013","mall01_AB","Plan traps","Andrena perplexa","species","other_wild_bees",3,NA,NA,NA,"10 pan trap/bee bowl, one sampling round, or 1 week, during apple bloom in 2013",NA
"Rachel_Mallinger_Malus_domestica_USA_2013","mall01_AB","Plan traps","Augochlorella aurata","species","other_wild_bees",1,NA,NA,NA,"10 pan trap/bee bowl, one sampling round, or 1 week, during apple bloom in 2013",NA
"Rachel_Mallinger_Malus_domestica_USA_2013","mall01_AB","Plan traps","Bombus auricomus","species","bumblebees",1,NA,NA,NA,"10 pan trap/bee bowl, one sampling round, or 1 week, during apple bloom in 2013",NA
"Rachel_Mallinger_Malus_domestica_USA_2013","mall01_AB","Plan traps","Bombus fervidus","species","bumblebees",1,NA,NA,NA,"10 pan trap/bee bowl, one sampling round, or 1 week, during apple bloom in 2013",NA
"Rachel_Mallinger_Malus_domestica_USA_2013","mall01_AB","Plan traps","Halictus rubicundus","species","other_wild_bees",1,NA,NA,NA,"10 pan trap/bee bowl, one sampling round, or 1 week, during apple bloom in 2013",NA
"Rachel_Mallinger_Malus_domestica_USA_2013","mall01_AB","Plan traps","Lasioglossum admirandum","species","other_wild_bees",1,NA,NA,NA,"10 pan trap/bee bowl, one sampling round, or 1 week, during apple bloom in 2013",NA
"Rachel_Mallinger_Malus_domestica_USA_2013","mall01_AB","Plan traps","Lasioglossum anomalum","species","other_wild_bees",1,NA,NA,NA,"10 pan trap/bee bowl, one sampling round, or 1 week, during apple bloom in 2013",NA
"Rachel_Mallinger_Malus_domestica_USA_2013","mall01_AB","Plan traps","Lasioglossum hitchensi","species","other_wild_bees",5,NA,NA,NA,"10 pan trap/bee bowl, one sampling round, or 1 week, during apple bloom in 2013",NA
"Rachel_Mallinger_Malus_domestica_USA_2013","mall01_AB","Plan traps","Lasioglossum paradmirandum","species","other_wild_bees",1,NA,NA,NA,"10 pan trap/bee bowl, one sampling round, or 1 week, during apple bloom in 2013",NA
"Rachel_Mallinger_Malus_domestica_USA_2013","mall01_AB","Plan traps","Lasioglossum pilosum","species","other_wild_bees",1,NA,NA,NA,"10 pan trap/bee bowl, one sampling round, or 1 week, during apple bloom in 2013",NA
"Rachel_Mallinger_Malus_domestica_USA_2013","mall01_AB","Plan traps","Lasioglossum platyparium","species","other_wild_bees",1,NA,NA,NA,"10 pan trap/bee bowl, one sampling round, or 1 week, during apple bloom in 2013",NA
"Rachel_Mallinger_Malus_domestica_USA_2013","mall01_AB","Plan traps","Lasioglossum versatum","species","other_wild_bees",1,NA,NA,NA,"10 pan trap/bee bowl, one sampling round, or 1 week, during apple bloom in 2013",NA
"Rachel_Mallinger_Malus_domestica_USA_2013","mall01_AH","Plan traps","Andrena hippotes","species","other_wild_bees",1,NA,NA,NA,"10 pan trap/bee bowl, one sampling round, or 1 week, during apple bloom in 2013",NA
"Rachel_Mallinger_Malus_domestica_USA_2013","mall01_AH","Plan traps","Andrena miserabilis","species","other_wild_bees",1,NA,NA,NA,"10 pan trap/bee bowl, one sampling round, or 1 week, during apple bloom in 2013",NA
"Rachel_Mallinger_Malus_domestica_USA_2013","mall01_AH","Plan traps","Andrena nasonii","species","other_wild_bees",4,NA,NA,NA,"10 pan trap/bee bowl, one sampling round, or 1 week, during apple bloom in 2013",NA
"Rachel_Mallinger_Malus_domestica_USA_2013","mall01_AH","Plan traps","Andrena robertsonii","species","other_wild_bees",1,NA,NA,NA,"10 pan trap/bee bowl, one sampling round, or 1 week, during apple bloom in 2013",NA
"Rachel_Mallinger_Malus_domestica_USA_2013","mall01_AH","Plan traps","Halictus ligatus","species","other_wild_bees",1,NA,NA,NA,"10 pan trap/bee bowl, one sampling round, or 1 week, during apple bloom in 2013",NA
"Rachel_Mallinger_Malus_domestica_USA_2013","mall01_BR","Plan traps","Andrena forbesii","species","other_wild_bees",1,NA,NA,NA,"10 pan trap/bee bowl, one sampling round, or 1 week, during apple bloom in 2013",NA
"Rachel_Mallinger_Malus_domestica_USA_2013","mall01_BR","Plan traps","Andrena nasonii","species","other_wild_bees",6,NA,NA,NA,"10 pan trap/bee bowl, one sampling round, or 1 week, during apple bloom in 2013",NA
"Rachel_Mallinger_Malus_domestica_USA_2013","mall01_BR","Plan traps","Andrena perplexa","species","other_wild_bees",1,NA,NA,NA,"10 pan trap/bee bowl, one sampling round, or 1 week, during apple bloom in 2013",NA
"Rachel_Mallinger_Malus_domestica_USA_2013","mall01_BR","Plan traps","Andrena robertsonii","species","other_wild_bees",1,NA,NA,NA,"10 pan trap/bee bowl, one sampling round, or 1 week, during apple bloom in 2013",NA
"Rachel_Mallinger_Malus_domestica_USA_2013","mall01_BR","Plan traps","Bombus fervidus","species","bumblebees",1,NA,NA,NA,"10 pan trap/bee bowl, one sampling round, or 1 week, during apple bloom in 2013",NA
"Rachel_Mallinger_Malus_domestica_USA_2013","mall01_BR","Plan traps","Halictus confusus","species","other_wild_bees",3,NA,NA,NA,"10 pan trap/bee bowl, one sampling round, or 1 week, during apple bloom in 2013",NA
"Rachel_Mallinger_Malus_domestica_USA_2013","mall01_BR","Plan traps","Lasioglossum versatum","species","other_wild_bees",1,NA,NA,NA,"10 pan trap/bee bowl, one sampling round, or 1 week, during apple bloom in 2013",NA
"Rachel_Mallinger_Malus_domestica_USA_2013","mall01_CF","Plan traps","Andrena carlini","species","other_wild_bees",1,NA,NA,NA,"10 pan trap/bee bowl, one sampling round, or 1 week, during apple bloom in 2013",NA
"Rachel_Mallinger_Malus_domestica_USA_2013","mall01_CF","Plan traps","Andrena cressonii","species","other_wild_bees",1,NA,NA,NA,"10 pan trap/bee bowl, one sampling round, or 1 week, during apple bloom in 2013",NA
"Rachel_Mallinger_Malus_domestica_USA_2013","mall01_CF","Plan traps","Andrena imitatrix","species","other_wild_bees",1,NA,NA,NA,"10 pan trap/bee bowl, one sampling round, or 1 week, during apple bloom in 2013",NA
"Rachel_Mallinger_Malus_domestica_USA_2013","mall01_CF","Plan traps","Andrena nasonii","species","other_wild_bees",17,NA,NA,NA,"10 pan trap/bee bowl, one sampling round, or 1 week, during apple bloom in 2013",NA
"Rachel_Mallinger_Malus_domestica_USA_2013","mall01_CF","Plan traps","Andrena perplexa","species","other_wild_bees",2,NA,NA,NA,"10 pan trap/bee bowl, one sampling round, or 1 week, during apple bloom in 2013",NA
"Rachel_Mallinger_Malus_domestica_USA_2013","mall01_CF","Plan traps","Bombus fervidus","species","bumblebees",1,NA,NA,NA,"10 pan trap/bee bowl, one sampling round, or 1 week, during apple bloom in 2013",NA
"Rachel_Mallinger_Malus_domestica_USA_2013","mall01_CF","Plan traps","Bombus impatiens","species","bumblebees",1,NA,NA,NA,"10 pan trap/bee bowl, one sampling round, or 1 week, during apple bloom in 2013",NA
"Rachel_Mallinger_Malus_domestica_USA_2013","mall01_CF","Plan traps","Lasioglossum anomalum","species","other_wild_bees",5,NA,NA,NA,"10 pan trap/bee bowl, one sampling round, or 1 week, during apple bloom in 2013",NA
"Rachel_Mallinger_Malus_domestica_USA_2013","mall01_CF","Plan traps","Lasioglossum hitchensi","species","other_wild_bees",10,NA,NA,NA,"10 pan trap/bee bowl, one sampling round, or 1 week, during apple bloom in 2013",NA
"Rachel_Mallinger_Malus_domestica_USA_2013","mall01_CF","Plan traps","Lasioglossum paradmirandum","species","other_wild_bees",1,NA,NA,NA,"10 pan trap/bee bowl, one sampling round, or 1 week, during apple bloom in 2013",NA
"Rachel_Mallinger_Malus_domestica_USA_2013","mall01_CF","Plan traps","Lasioglossum pectorale","species","other_wild_bees",1,NA,NA,NA,"10 pan trap/bee bowl, one sampling round, or 1 week, during apple bloom in 2013",NA
"Rachel_Mallinger_Malus_domestica_USA_2013","mall01_CF","Plan traps","Lasioglossum pilosum","species","other_wild_bees",1,NA,NA,NA,"10 pan trap/bee bowl, one sampling round, or 1 week, during apple bloom in 2013",NA
"Rachel_Mallinger_Malus_domestica_USA_2013","mall01_CF","Plan traps","Lasioglossum versatum","species","other_wild_bees",1,NA,NA,NA,"10 pan trap/bee bowl, one sampling round, or 1 week, during apple bloom in 2013",NA
"Rachel_Mallinger_Malus_domestica_USA_2013","mall01_CO","Plan traps","Andrena commoda","species","other_wild_bees",1,NA,NA,NA,"10 pan trap/bee bowl, one sampling round, or 1 week, during apple bloom in 2013",NA
"Rachel_Mallinger_Malus_domestica_USA_2013","mall01_CO","Plan traps","Andrena forbesii","species","other_wild_bees",1,NA,NA,NA,"10 pan trap/bee bowl, one sampling round, or 1 week, during apple bloom in 2013",NA
"Rachel_Mallinger_Malus_domestica_USA_2013","mall01_CO","Plan traps","Andrena nasonii","species","other_wild_bees",4,NA,NA,NA,"10 pan trap/bee bowl, one sampling round, or 1 week, during apple bloom in 2013",NA
"Rachel_Mallinger_Malus_domestica_USA_2013","mall01_CO","Plan traps","Bombus fervidus","species","bumblebees",1,NA,NA,NA,"10 pan trap/bee bowl, one sampling round, or 1 week, during apple bloom in 2013",NA
"Rachel_Mallinger_Malus_domestica_USA_2013","mall01_CO","Plan traps","Bombus vagans","species","bumblebees",1,NA,NA,NA,"10 pan trap/bee bowl, one sampling round, or 1 week, during apple bloom in 2013",NA
"Rachel_Mallinger_Malus_domestica_USA_2013","mall01_CO","Plan traps","Halictus confusus","species","other_wild_bees",2,NA,NA,NA,"10 pan trap/bee bowl, one sampling round, or 1 week, during apple bloom in 2013",NA
"Rachel_Mallinger_Malus_domestica_USA_2013","mall01_CO","Plan traps","Lasioglossum admirandum","species","other_wild_bees",6,NA,NA,NA,"10 pan trap/bee bowl, one sampling round, or 1 week, during apple bloom in 2013",NA
"Rachel_Mallinger_Malus_domestica_USA_2013","mall01_CO","Plan traps","Lasioglossum albipenne","species","other_wild_bees",1,NA,NA,NA,"10 pan trap/bee bowl, one sampling round, or 1 week, during apple bloom in 2013",NA
"Rachel_Mallinger_Malus_domestica_USA_2013","mall01_CO","Plan traps","Lasioglossum anomalum","species","other_wild_bees",5,NA,NA,NA,"10 pan trap/bee bowl, one sampling round, or 1 week, during apple bloom in 2013",NA
"Rachel_Mallinger_Malus_domestica_USA_2013","mall01_CO","Plan traps","Lasioglossum cressonii","species","other_wild_bees",1,NA,NA,NA,"10 pan trap/bee bowl, one sampling round, or 1 week, during apple bloom in 2013",NA
"Rachel_Mallinger_Malus_domestica_USA_2013","mall01_CO","Plan traps","Lasioglossum hitchensi","species","other_wild_bees",10,NA,NA,NA,"10 pan trap/bee bowl, one sampling round, or 1 week, during apple bloom in 2013",NA
"Rachel_Mallinger_Malus_domestica_USA_2013","mall01_CO","Plan traps","Lasioglossum paradmirandum","species","other_wild_bees",1,NA,NA,NA,"10 pan trap/bee bowl, one sampling round, or 1 week, during apple bloom in 2013",NA
"Rachel_Mallinger_Malus_domestica_USA_2013","mall01_CO","Plan traps","Lasioglossum zephyrum","species","other_wild_bees",1,NA,NA,NA,"10 pan trap/bee bowl, one sampling round, or 1 week, during apple bloom in 2013",NA
"Rachel_Mallinger_Malus_domestica_USA_2013","mall01_DC","Plan traps","Andrena cressonii","species","other_wild_bees",3,NA,NA,NA,"10 pan trap/bee bowl, one sampling round, or 1 week, during apple bloom in 2013",NA
"Rachel_Mallinger_Malus_domestica_USA_2013","mall01_DC","Plan traps","Andrena distans","species","other_wild_bees",1,NA,NA,NA,"10 pan trap/bee bowl, one sampling round, or 1 week, during apple bloom in 2013",NA
"Rachel_Mallinger_Malus_domestica_USA_2013","mall01_DC","Plan traps","Andrena nasonii","species","other_wild_bees",10,NA,NA,NA,"10 pan trap/bee bowl, one sampling round, or 1 week, during apple bloom in 2013",NA
"Rachel_Mallinger_Malus_domestica_USA_2013","mall01_DC","Plan traps","Lasioglossum hitchensi","species","other_wild_bees",1,NA,NA,NA,"10 pan trap/bee bowl, one sampling round, or 1 week, during apple bloom in 2013",NA
"Rachel_Mallinger_Malus_domestica_USA_2013","mall01_DC","Plan traps","Lasioglossum paradmirandum","species","other_wild_bees",1,NA,NA,NA,"10 pan trap/bee bowl, one sampling round, or 1 week, during apple bloom in 2013",NA
"Rachel_Mallinger_Malus_domestica_USA_2013","mall01_EL","Plan traps","Andrena carlini","species","other_wild_bees",3,NA,NA,NA,"10 pan trap/bee bowl, one sampling round, or 1 week, during apple bloom in 2013",NA
"Rachel_Mallinger_Malus_domestica_USA_2013","mall01_EL","Plan traps","Andrena cressonii","species","other_wild_bees",3,NA,NA,NA,"10 pan trap/bee bowl, one sampling round, or 1 week, during apple bloom in 2013",NA
"Rachel_Mallinger_Malus_domestica_USA_2013","mall01_EL","Plan traps","Andrena dunningi","species","other_wild_bees",2,NA,NA,NA,"10 pan trap/bee bowl, one sampling round, or 1 week, during apple bloom in 2013",NA
"Rachel_Mallinger_Malus_domestica_USA_2013","mall01_EL","Plan traps","Andrena mandibularis","species","other_wild_bees",1,NA,NA,NA,"10 pan trap/bee bowl, one sampling round, or 1 week, during apple bloom in 2013",NA
"Rachel_Mallinger_Malus_domestica_USA_2013","mall01_EL","Plan traps","Andrena miserabilis","species","other_wild_bees",1,NA,NA,NA,"10 pan trap/bee bowl, one sampling round, or 1 week, during apple bloom in 2013",NA
"Rachel_Mallinger_Malus_domestica_USA_2013","mall01_EL","Plan traps","Andrena nasonii","species","other_wild_bees",21,NA,NA,NA,"10 pan trap/bee bowl, one sampling round, or 1 week, during apple bloom in 2013",NA
"Rachel_Mallinger_Malus_domestica_USA_2013","mall01_EL","Plan traps","Andrena perplexa","species","other_wild_bees",1,NA,NA,NA,"10 pan trap/bee bowl, one sampling round, or 1 week, during apple bloom in 2013",NA
"Rachel_Mallinger_Malus_domestica_USA_2013","mall01_EL","Plan traps","Andrena robertsonii","species","other_wild_bees",1,NA,NA,NA,"10 pan trap/bee bowl, one sampling round, or 1 week, during apple bloom in 2013",NA
"Rachel_Mallinger_Malus_domestica_USA_2013","mall01_EL","Plan traps","Andrena vicina","species","other_wild_bees",1,NA,NA,NA,"10 pan trap/bee bowl, one sampling round, or 1 week, during apple bloom in 2013",NA
"Rachel_Mallinger_Malus_domestica_USA_2013","mall01_EL","Plan traps","Halictus confusus","species","other_wild_bees",1,NA,NA,NA,"10 pan trap/bee bowl, one sampling round, or 1 week, during apple bloom in 2013",NA
"Rachel_Mallinger_Malus_domestica_USA_2013","mall01_GG","Plan traps","Andrena carlini","species","other_wild_bees",2,NA,NA,NA,"10 pan trap/bee bowl, one sampling round, or 1 week, during apple bloom in 2013",NA
"Rachel_Mallinger_Malus_domestica_USA_2013","mall01_GG","Plan traps","Andrena commoda","species","other_wild_bees",1,NA,NA,NA,"10 pan trap/bee bowl, one sampling round, or 1 week, during apple bloom in 2013",NA
"Rachel_Mallinger_Malus_domestica_USA_2013","mall01_GG","Plan traps","Andrena mandibularis","species","other_wild_bees",1,NA,NA,NA,"10 pan trap/bee bowl, one sampling round, or 1 week, during apple bloom in 2013",NA
"Rachel_Mallinger_Malus_domestica_USA_2013","mall01_GG","Plan traps","Andrena nasonii","species","other_wild_bees",5,NA,NA,NA,"10 pan trap/bee bowl, one sampling round, or 1 week, during apple bloom in 2013",NA
"Rachel_Mallinger_Malus_domestica_USA_2013","mall01_GG","Plan traps","Lasioglossum hitchensi","species","other_wild_bees",2,NA,NA,NA,"10 pan trap/bee bowl, one sampling round, or 1 week, during apple bloom in 2013",NA
"Rachel_Mallinger_Malus_domestica_USA_2013","mall01_GG","Plan traps","Lasioglossum paradmirandum","species","other_wild_bees",1,NA,NA,NA,"10 pan trap/bee bowl, one sampling round, or 1 week, during apple bloom in 2013",NA
"Rachel_Mallinger_Malus_domestica_USA_2013","mall01_HO","Plan traps","Andrena carlini","species","other_wild_bees",6,NA,NA,NA,"10 pan trap/bee bowl, one sampling round, or 1 week, during apple bloom in 2013",NA
"Rachel_Mallinger_Malus_domestica_USA_2013","mall01_HO","Plan traps","Andrena cressonii","species","other_wild_bees",1,NA,NA,NA,"10 pan trap/bee bowl, one sampling round, or 1 week, during apple bloom in 2013",NA
"Rachel_Mallinger_Malus_domestica_USA_2013","mall01_HO","Plan traps","Andrena nasonii","species","other_wild_bees",1,NA,NA,NA,"10 pan trap/bee bowl, one sampling round, or 1 week, during apple bloom in 2013",NA
"Rachel_Mallinger_Malus_domestica_USA_2013","mall01_HO","Plan traps","Andrena perplexa","species","other_wild_bees",3,NA,NA,NA,"10 pan trap/bee bowl, one sampling round, or 1 week, during apple bloom in 2013",NA
"Rachel_Mallinger_Malus_domestica_USA_2013","mall01_HO","Plan traps","Halictus confusus","species","other_wild_bees",1,NA,NA,NA,"10 pan trap/bee bowl, one sampling round, or 1 week, during apple bloom in 2013",NA
"Rachel_Mallinger_Malus_domestica_USA_2013","mall01_HO","Plan traps","Lasioglossum hitchensi","species","other_wild_bees",2,NA,NA,NA,"10 pan trap/bee bowl, one sampling round, or 1 week, during apple bloom in 2013",NA
"Rachel_Mallinger_Malus_domestica_USA_2013","mall01_HO","Plan traps","Lasioglossum versatum","species","other_wild_bees",1,NA,NA,NA,"10 pan trap/bee bowl, one sampling round, or 1 week, during apple bloom in 2013",NA
"Rachel_Mallinger_Malus_domestica_USA_2013","mall01_HR","Plan traps","Andrena cressonii","species","other_wild_bees",3,NA,NA,NA,"10 pan trap/bee bowl, one sampling round, or 1 week, during apple bloom in 2013",NA
"Rachel_Mallinger_Malus_domestica_USA_2013","mall01_HR","Plan traps","Andrena imitatrix","species","other_wild_bees",1,NA,NA,NA,"10 pan trap/bee bowl, one sampling round, or 1 week, during apple bloom in 2013",NA
"Rachel_Mallinger_Malus_domestica_USA_2013","mall01_HR","Plan traps","Andrena nasonii","species","other_wild_bees",5,NA,NA,NA,"10 pan trap/bee bowl, one sampling round, or 1 week, during apple bloom in 2013",NA
"Rachel_Mallinger_Malus_domestica_USA_2013","mall01_HR","Plan traps","Andrena perplexa","species","other_wild_bees",1,NA,NA,NA,"10 pan trap/bee bowl, one sampling round, or 1 week, during apple bloom in 2013",NA
"Rachel_Mallinger_Malus_domestica_USA_2013","mall01_HR","Plan traps","Ceratina calcarata","species","other_wild_bees",1,NA,NA,NA,"10 pan trap/bee bowl, one sampling round, or 1 week, during apple bloom in 2013",NA
"Rachel_Mallinger_Malus_domestica_USA_2013","mall01_HR","Plan traps","Lasioglossum cressonii","species","other_wild_bees",1,NA,NA,NA,"10 pan trap/bee bowl, one sampling round, or 1 week, during apple bloom in 2013",NA
"Rachel_Mallinger_Malus_domestica_USA_2013","mall01_HR","Plan traps","Lasioglossum hitchensi","species","other_wild_bees",2,NA,NA,NA,"10 pan trap/bee bowl, one sampling round, or 1 week, during apple bloom in 2013",NA
"Rachel_Mallinger_Malus_domestica_USA_2013","mall01_J","Plan traps","Andrena hippotes","species","other_wild_bees",3,NA,NA,NA,"10 pan trap/bee bowl, one sampling round, or 1 week, during apple bloom in 2013",NA
"Rachel_Mallinger_Malus_domestica_USA_2013","mall01_J","Plan traps","Andrena imitatrix","species","other_wild_bees",1,NA,NA,NA,"10 pan trap/bee bowl, one sampling round, or 1 week, during apple bloom in 2013",NA
"Rachel_Mallinger_Malus_domestica_USA_2013","mall01_J","Plan traps","Andrena miserabilis","species","other_wild_bees",2,NA,NA,NA,"10 pan trap/bee bowl, one sampling round, or 1 week, during apple bloom in 2013",NA
"Rachel_Mallinger_Malus_domestica_USA_2013","mall01_J","Plan traps","Andrena nasonii","species","other_wild_bees",6,NA,NA,NA,"10 pan trap/bee bowl, one sampling round, or 1 week, during apple bloom in 2013",NA
"Rachel_Mallinger_Malus_domestica_USA_2013","mall01_J","Plan traps","Andrena nigrae","species","other_wild_bees",1,NA,NA,NA,"10 pan trap/bee bowl, one sampling round, or 1 week, during apple bloom in 2013",NA
"Rachel_Mallinger_Malus_domestica_USA_2013","mall01_J","Plan traps","Lasioglossum cressonii","species","other_wild_bees",1,NA,NA,NA,"10 pan trap/bee bowl, one sampling round, or 1 week, during apple bloom in 2013",NA
"Rachel_Mallinger_Malus_domestica_USA_2013","mall01_J","Plan traps","Lasioglossum hitchensi","species","other_wild_bees",1,NA,NA,NA,"10 pan trap/bee bowl, one sampling round, or 1 week, during apple bloom in 2013",NA
"Rachel_Mallinger_Malus_domestica_USA_2013","mall01_J","Plan traps","Lasioglossum illinoense","species","other_wild_bees",1,NA,NA,NA,"10 pan trap/bee bowl, one sampling round, or 1 week, during apple bloom in 2013",NA
"Rachel_Mallinger_Malus_domestica_USA_2013","mall01_KA","Plan traps","Andrena cressonii","species","other_wild_bees",2,NA,NA,NA,"10 pan trap/bee bowl, one sampling round, or 1 week, during apple bloom in 2013",NA
"Rachel_Mallinger_Malus_domestica_USA_2013","mall01_KA","Plan traps","Andrena hippotes","species","other_wild_bees",1,NA,NA,NA,"10 pan trap/bee bowl, one sampling round, or 1 week, during apple bloom in 2013",NA
"Rachel_Mallinger_Malus_domestica_USA_2013","mall01_KA","Plan traps","Andrena nasonii","species","other_wild_bees",1,NA,NA,NA,"10 pan trap/bee bowl, one sampling round, or 1 week, during apple bloom in 2013",NA
"Rachel_Mallinger_Malus_domestica_USA_2013","mall01_KA","Plan traps","Bombus fervidus","species","bumblebees",1,NA,NA,NA,"10 pan trap/bee bowl, one sampling round, or 1 week, during apple bloom in 2013",NA
"Rachel_Mallinger_Malus_domestica_USA_2013","mall01_KA","Plan traps","Lasioglossum hitchensi","species","other_wild_bees",2,NA,NA,NA,"10 pan trap/bee bowl, one sampling round, or 1 week, during apple bloom in 2013",NA
"Rachel_Mallinger_Malus_domestica_USA_2013","mall01_KI","Plan traps","Agapostemon virescens","species","other_wild_bees",2,NA,NA,NA,"10 pan trap/bee bowl, one sampling round, or 1 week, during apple bloom in 2013",NA
"Rachel_Mallinger_Malus_domestica_USA_2013","mall01_KI","Plan traps","Andrena carlini","species","other_wild_bees",2,NA,NA,NA,"10 pan trap/bee bowl, one sampling round, or 1 week, during apple bloom in 2013",NA
"Rachel_Mallinger_Malus_domestica_USA_2013","mall01_KI","Plan traps","Andrena hippotes","species","other_wild_bees",1,NA,NA,NA,"10 pan trap/bee bowl, one sampling round, or 1 week, during apple bloom in 2013",NA
"Rachel_Mallinger_Malus_domestica_USA_2013","mall01_KI","Plan traps","Andrena imitatrix","species","other_wild_bees",1,NA,NA,NA,"10 pan trap/bee bowl, one sampling round, or 1 week, during apple bloom in 2013",NA
"Rachel_Mallinger_Malus_domestica_USA_2013","mall01_KI","Plan traps","Andrena miserabilis","species","other_wild_bees",4,NA,NA,NA,"10 pan trap/bee bowl, one sampling round, or 1 week, during apple bloom in 2013",NA
"Rachel_Mallinger_Malus_domestica_USA_2013","mall01_KI","Plan traps","Andrena nasonii","species","other_wild_bees",26,NA,NA,NA,"10 pan trap/bee bowl, one sampling round, or 1 week, during apple bloom in 2013",NA
"Rachel_Mallinger_Malus_domestica_USA_2013","mall01_KI","Plan traps","Andrena perplexa","species","other_wild_bees",3,NA,NA,NA,"10 pan trap/bee bowl, one sampling round, or 1 week, during apple bloom in 2013",NA
"Rachel_Mallinger_Malus_domestica_USA_2013","mall01_KI","Plan traps","Andrena rugosa","species","other_wild_bees",1,NA,NA,NA,"10 pan trap/bee bowl, one sampling round, or 1 week, during apple bloom in 2013",NA
"Rachel_Mallinger_Malus_domestica_USA_2013","mall01_KI","Plan traps","Bombus bimaculatus","species","bumblebees",1,NA,NA,NA,"10 pan trap/bee bowl, one sampling round, or 1 week, during apple bloom in 2013",NA
"Rachel_Mallinger_Malus_domestica_USA_2013","mall01_KI","Plan traps","Lasioglossum coeruleum","species","other_wild_bees",1,NA,NA,NA,"10 pan trap/bee bowl, one sampling round, or 1 week, during apple bloom in 2013",NA
"Rachel_Mallinger_Malus_domestica_USA_2013","mall01_KI","Plan traps","Lasioglossum hitchensi","species","other_wild_bees",2,NA,NA,NA,"10 pan trap/bee bowl, one sampling round, or 1 week, during apple bloom in 2013",NA
"Rachel_Mallinger_Malus_domestica_USA_2013","mall01_KI","Plan traps","Lasioglossum obscurum","species","other_wild_bees",1,NA,NA,NA,"10 pan trap/bee bowl, one sampling round, or 1 week, during apple bloom in 2013",NA
"Rachel_Mallinger_Malus_domestica_USA_2013","mall01_KI","Plan traps","Lasioglossum quebecense","species","other_wild_bees",1,NA,NA,NA,"10 pan trap/bee bowl, one sampling round, or 1 week, during apple bloom in 2013",NA
"Rachel_Mallinger_Malus_domestica_USA_2013","mall01_KI","Plan traps","Lasioglossum zonulum","species","other_wild_bees",16,NA,NA,NA,"10 pan trap/bee bowl, one sampling round, or 1 week, during apple bloom in 2013",NA
"Rachel_Mallinger_Malus_domestica_USA_2013","mall01_KLE","Plan traps","Andrena cressonii","species","other_wild_bees",1,NA,NA,NA,"10 pan trap/bee bowl, one sampling round, or 1 week, during apple bloom in 2013",NA
"Rachel_Mallinger_Malus_domestica_USA_2013","mall01_KLE","Plan traps","Andrena perplexa","species","other_wild_bees",1,NA,NA,NA,"10 pan trap/bee bowl, one sampling round, or 1 week, during apple bloom in 2013",NA
"Rachel_Mallinger_Malus_domestica_USA_2013","mall01_KLE","Plan traps","Bombus fervidus","species","bumblebees",2,NA,NA,NA,"10 pan trap/bee bowl, one sampling round, or 1 week, during apple bloom in 2013",NA
"Rachel_Mallinger_Malus_domestica_USA_2013","mall01_KLE","Plan traps","Ceratina calcarata","species","other_wild_bees",2,NA,NA,NA,"10 pan trap/bee bowl, one sampling round, or 1 week, during apple bloom in 2013",NA
"Rachel_Mallinger_Malus_domestica_USA_2013","mall01_KLE","Plan traps","Lasioglossum hitchensi","species","other_wild_bees",1,NA,NA,NA,"10 pan trap/bee bowl, one sampling round, or 1 week, during apple bloom in 2013",NA
"Rachel_Mallinger_Malus_domestica_USA_2013","mall01_MH","Plan traps","Andrena carlini","species","other_wild_bees",1,NA,NA,NA,"10 pan trap/bee bowl, one sampling round, or 1 week, during apple bloom in 2013",NA
"Rachel_Mallinger_Malus_domestica_USA_2013","mall01_MH","Plan traps","Andrena commoda","species","other_wild_bees",1,NA,NA,NA,"10 pan trap/bee bowl, one sampling round, or 1 week, during apple bloom in 2013",NA
"Rachel_Mallinger_Malus_domestica_USA_2013","mall01_MH","Plan traps","Andrena distans","species","other_wild_bees",3,NA,NA,NA,"10 pan trap/bee bowl, one sampling round, or 1 week, during apple bloom in 2013",NA
"Rachel_Mallinger_Malus_domestica_USA_2013","mall01_MH","Plan traps","Andrena nasonii","species","other_wild_bees",5,NA,NA,NA,"10 pan trap/bee bowl, one sampling round, or 1 week, during apple bloom in 2013",NA
"Rachel_Mallinger_Malus_domestica_USA_2013","mall01_MH","Plan traps","Lasioglossum anomalum","species","other_wild_bees",2,NA,NA,NA,"10 pan trap/bee bowl, one sampling round, or 1 week, during apple bloom in 2013",NA
"Rachel_Mallinger_Malus_domestica_USA_2013","mall01_MH","Plan traps","Lasioglossum coeruleum","species","other_wild_bees",1,NA,NA,NA,"10 pan trap/bee bowl, one sampling round, or 1 week, during apple bloom in 2013",NA
"Rachel_Mallinger_Malus_domestica_USA_2013","mall01_MH","Plan traps","Lasioglossum cressonii","species","other_wild_bees",3,NA,NA,NA,"10 pan trap/bee bowl, one sampling round, or 1 week, during apple bloom in 2013",NA
"Rachel_Mallinger_Malus_domestica_USA_2013","mall01_MH","Plan traps","Lasioglossum versatum","species","other_wild_bees",1,NA,NA,NA,"10 pan trap/bee bowl, one sampling round, or 1 week, during apple bloom in 2013",NA
"Rachel_Mallinger_Malus_domestica_USA_2013","mall01_MH","Plan traps","Lasioglossum zonulum","species","other_wild_bees",2,NA,NA,NA,"10 pan trap/bee bowl, one sampling round, or 1 week, during apple bloom in 2013",NA
"Rachel_Mallinger_Malus_domestica_USA_2013","mall01_MR","Plan traps","Andrena imitatrix","species","other_wild_bees",2,NA,NA,NA,"10 pan trap/bee bowl, one sampling round, or 1 week, during apple bloom in 2013",NA
"Rachel_Mallinger_Malus_domestica_USA_2013","mall01_MR","Plan traps","Andrena nasonii","species","other_wild_bees",21,NA,NA,NA,"10 pan trap/bee bowl, one sampling round, or 1 week, during apple bloom in 2013",NA
"Rachel_Mallinger_Malus_domestica_USA_2013","mall01_MR","Plan traps","Andrena perplexa","species","other_wild_bees",2,NA,NA,NA,"10 pan trap/bee bowl, one sampling round, or 1 week, during apple bloom in 2013",NA
"Rachel_Mallinger_Malus_domestica_USA_2013","mall01_MR","Plan traps","Bombus fervidus","species","bumblebees",1,NA,NA,NA,"10 pan trap/bee bowl, one sampling round, or 1 week, during apple bloom in 2013",NA
"Rachel_Mallinger_Malus_domestica_USA_2013","mall01_MR","Plan traps","Lasioglossum hitchensi","species","other_wild_bees",2,NA,NA,NA,"10 pan trap/bee bowl, one sampling round, or 1 week, during apple bloom in 2013",NA
"Rachel_Mallinger_Malus_domestica_USA_2013","mall01_MR","Plan traps","Lasioglossum paradmirandum","species","other_wild_bees",3,NA,NA,NA,"10 pan trap/bee bowl, one sampling round, or 1 week, during apple bloom in 2013",NA
"Rachel_Mallinger_Malus_domestica_USA_2013","mall01_MR","Plan traps","Lasioglossum quebecense","species","other_wild_bees",1,NA,NA,NA,"10 pan trap/bee bowl, one sampling round, or 1 week, during apple bloom in 2013",NA
"Rachel_Mallinger_Malus_domestica_USA_2013","mall01_PB","Plan traps","Andrena cressonii","species","other_wild_bees",1,NA,NA,NA,"10 pan trap/bee bowl, one sampling round, or 1 week, during apple bloom in 2013",NA
"Rachel_Mallinger_Malus_domestica_USA_2013","mall01_PB","Plan traps","Andrena dunningi","species","other_wild_bees",1,NA,NA,NA,"10 pan trap/bee bowl, one sampling round, or 1 week, during apple bloom in 2013",NA
"Rachel_Mallinger_Malus_domestica_USA_2013","mall01_PB","Plan traps","Andrena forbesii","species","other_wild_bees",1,NA,NA,NA,"10 pan trap/bee bowl, one sampling round, or 1 week, during apple bloom in 2013",NA
"Rachel_Mallinger_Malus_domestica_USA_2013","mall01_PB","Plan traps","Andrena hippotes","species","other_wild_bees",1,NA,NA,NA,"10 pan trap/bee bowl, one sampling round, or 1 week, during apple bloom in 2013",NA
"Rachel_Mallinger_Malus_domestica_USA_2013","mall01_PB","Plan traps","Andrena nasonii","species","other_wild_bees",10,NA,NA,NA,"10 pan trap/bee bowl, one sampling round, or 1 week, during apple bloom in 2013",NA
"Rachel_Mallinger_Malus_domestica_USA_2013","mall01_PB","Plan traps","Andrena perplexa","species","other_wild_bees",2,NA,NA,NA,"10 pan trap/bee bowl, one sampling round, or 1 week, during apple bloom in 2013",NA
"Rachel_Mallinger_Malus_domestica_USA_2013","mall01_PB","Plan traps","Halictus confusus","species","other_wild_bees",8,NA,NA,NA,"10 pan trap/bee bowl, one sampling round, or 1 week, during apple bloom in 2013",NA
"Rachel_Mallinger_Malus_domestica_USA_2013","mall01_PB","Plan traps","Halictus rubicundus","species","other_wild_bees",3,NA,NA,NA,"10 pan trap/bee bowl, one sampling round, or 1 week, during apple bloom in 2013",NA
"Rachel_Mallinger_Malus_domestica_USA_2013","mall01_PB","Plan traps","Lasioglossum cinctipes","species","other_wild_bees",3,NA,NA,NA,"10 pan trap/bee bowl, one sampling round, or 1 week, during apple bloom in 2013",NA
"Rachel_Mallinger_Malus_domestica_USA_2013","mall01_QU","Plan traps","Agapostemon texanus","species","other_wild_bees",1,NA,NA,NA,"10 pan trap/bee bowl, one sampling round, or 1 week, during apple bloom in 2013",NA
"Rachel_Mallinger_Malus_domestica_USA_2013","mall01_QU","Plan traps","Andrena cressonii","species","other_wild_bees",1,NA,NA,NA,"10 pan trap/bee bowl, one sampling round, or 1 week, during apple bloom in 2013",NA
"Rachel_Mallinger_Malus_domestica_USA_2013","mall01_QU","Plan traps","Andrena forbesii","species","other_wild_bees",1,NA,NA,NA,"10 pan trap/bee bowl, one sampling round, or 1 week, during apple bloom in 2013",NA
"Rachel_Mallinger_Malus_domestica_USA_2013","mall01_QU","Plan traps","Andrena imitatrix","species","other_wild_bees",1,NA,NA,NA,"10 pan trap/bee bowl, one sampling round, or 1 week, during apple bloom in 2013",NA
"Rachel_Mallinger_Malus_domestica_USA_2013","mall01_QU","Plan traps","Andrena mandibularis","species","other_wild_bees",1,NA,NA,NA,"10 pan trap/bee bowl, one sampling round, or 1 week, during apple bloom in 2013",NA
"Rachel_Mallinger_Malus_domestica_USA_2013","mall01_QU","Plan traps","Andrena miserabilis","species","other_wild_bees",1,NA,NA,NA,"10 pan trap/bee bowl, one sampling round, or 1 week, during apple bloom in 2013",NA
"Rachel_Mallinger_Malus_domestica_USA_2013","mall01_QU","Plan traps","Andrena nasonii","species","other_wild_bees",1,NA,NA,NA,"10 pan trap/bee bowl, one sampling round, or 1 week, during apple bloom in 2013",NA
"Rachel_Mallinger_Malus_domestica_USA_2013","mall01_SB","Plan traps","Andrena carlini","species","other_wild_bees",1,NA,NA,NA,"10 pan trap/bee bowl, one sampling round, or 1 week, during apple bloom in 2013",NA
"Rachel_Mallinger_Malus_domestica_USA_2013","mall01_SB","Plan traps","Andrena cressonii","species","other_wild_bees",2,NA,NA,NA,"10 pan trap/bee bowl, one sampling round, or 1 week, during apple bloom in 2013",NA
"Rachel_Mallinger_Malus_domestica_USA_2013","mall01_SB","Plan traps","Andrena miserabilis","species","other_wild_bees",1,NA,NA,NA,"10 pan trap/bee bowl, one sampling round, or 1 week, during apple bloom in 2013",NA
"Rachel_Mallinger_Malus_domestica_USA_2013","mall01_SB","Plan traps","Andrena nasonii","species","other_wild_bees",6,NA,NA,NA,"10 pan trap/bee bowl, one sampling round, or 1 week, during apple bloom in 2013",NA
"Rachel_Mallinger_Malus_domestica_USA_2013","mall01_SB","Plan traps","Andrena perplexa","species","other_wild_bees",8,NA,NA,NA,"10 pan trap/bee bowl, one sampling round, or 1 week, during apple bloom in 2013",NA
"Rachel_Mallinger_Malus_domestica_USA_2013","mall01_SB","Plan traps","Halictus confusus","species","other_wild_bees",6,NA,NA,NA,"10 pan trap/bee bowl, one sampling round, or 1 week, during apple bloom in 2013",NA
"Rachel_Mallinger_Malus_domestica_USA_2013","mall01_SB","Plan traps","Lasioglossum paradmirandum","species","other_wild_bees",1,NA,NA,NA,"10 pan trap/bee bowl, one sampling round, or 1 week, during apple bloom in 2013",NA
"Rebecca_Steward_Fragaria_ananassa_Sweden_2014","pond1","Sweep nets along a 200m transect","Apoidea","Superfamily","other_wild_bees",9,600,NA,NA,"Sweep nets along a 200m transect in 1 season. 3 sampling rounds",NA
"Rebecca_Steward_Fragaria_ananassa_Sweden_2014","seminatural1","Sweep nets along a 200m transect","Apoidea","Superfamily","other_wild_bees",11,600,NA,NA,"Sweep nets along a 200m transect in 1 season. 3 sampling rounds",NA
"Rebecca_Steward_Fragaria_ananassa_Sweden_2014","control1","Sweep nets along a 200m transect","Apoidea","Superfamily","other_wild_bees",3,600,NA,NA,"Sweep nets along a 200m transect in 1 season. 3 sampling rounds",NA
"Rebecca_Steward_Fragaria_ananassa_Sweden_2014","pond2","Sweep nets along a 200m transect","Apoidea","Superfamily","other_wild_bees",13,600,NA,NA,"Sweep nets along a 200m transect in 1 season. 3 sampling rounds",NA
"Rebecca_Steward_Fragaria_ananassa_Sweden_2014","seminatural2","Sweep nets along a 200m transect","Apoidea","Superfamily","other_wild_bees",9,600,NA,NA,"Sweep nets along a 200m transect in 1 season. 3 sampling rounds",NA
"Rebecca_Steward_Fragaria_ananassa_Sweden_2014","control2","Sweep nets along a 200m transect","Apoidea","Superfamily","other_wild_bees",2,600,NA,NA,"Sweep nets along a 200m transect in 1 season. 3 sampling rounds",NA
"Rebecca_Steward_Fragaria_ananassa_Sweden_2014","pond3","Sweep nets along a 200m transect","Apoidea","Superfamily","other_wild_bees",8,600,NA,NA,"Sweep nets along a 200m transect in 1 season. 3 sampling rounds",NA
"Rebecca_Steward_Fragaria_ananassa_Sweden_2014","seminatural3","Sweep nets along a 200m transect","Apoidea","Superfamily","other_wild_bees",5,600,NA,NA,"Sweep nets along a 200m transect in 1 season. 3 sampling rounds",NA
"Rebecca_Steward_Fragaria_ananassa_Sweden_2014","control3","Sweep nets along a 200m transect","Apoidea","Superfamily","other_wild_bees",12,600,NA,NA,"Sweep nets along a 200m transect in 1 season. 3 sampling rounds",NA
"Rebecca_Steward_Fragaria_ananassa_Sweden_2014","pond4","Sweep nets along a 200m transect","Apoidea","Superfamily","other_wild_bees",8,600,NA,NA,"Sweep nets along a 200m transect in 1 season. 3 sampling rounds",NA
"Rebecca_Steward_Fragaria_ananassa_Sweden_2014","seminatural4","Sweep nets along a 200m transect","Apoidea","Superfamily","other_wild_bees",6,600,NA,NA,"Sweep nets along a 200m transect in 1 season. 3 sampling rounds",NA
"Rebecca_Steward_Fragaria_ananassa_Sweden_2014","control4","Sweep nets along a 200m transect","Apoidea","Superfamily","other_wild_bees",3,600,NA,NA,"Sweep nets along a 200m transect in 1 season. 3 sampling rounds",NA
"Rebecca_Steward_Fragaria_ananassa_Sweden_2014","pond5","Sweep nets along a 200m transect","Apoidea","Superfamily","other_wild_bees",13,600,NA,NA,"Sweep nets along a 200m transect in 1 season. 3 sampling rounds",NA
"Rebecca_Steward_Fragaria_ananassa_Sweden_2014","seminatural5","Sweep nets along a 200m transect","Apoidea","Superfamily","other_wild_bees",6,600,NA,NA,"Sweep nets along a 200m transect in 1 season. 3 sampling rounds",NA
"Rebecca_Steward_Fragaria_ananassa_Sweden_2014","control5","Sweep nets along a 200m transect","Apoidea","Superfamily","other_wild_bees",3,600,NA,NA,"Sweep nets along a 200m transect in 1 season. 3 sampling rounds",NA
"Rebecca_Steward_Fragaria_ananassa_Sweden_2014","pond6","Sweep nets along a 200m transect","Apoidea","Superfamily","other_wild_bees",2,600,NA,NA,"Sweep nets along a 200m transect in 1 season. 3 sampling rounds",NA
"Rebecca_Steward_Fragaria_ananassa_Sweden_2014","seminatural6","Sweep nets along a 200m transect","Apoidea","Superfamily","other_wild_bees",2,600,NA,NA,"Sweep nets along a 200m transect in 1 season. 3 sampling rounds",NA
"Rebecca_Steward_Fragaria_ananassa_Sweden_2014","control6","Sweep nets along a 200m transect","Apoidea","Superfamily","other_wild_bees",1,600,NA,NA,"Sweep nets along a 200m transect in 1 season. 3 sampling rounds",NA
"Rebecca_Steward_Fragaria_ananassa_Sweden_2014","pond7","Sweep nets along a 200m transect","Apoidea","Superfamily","other_wild_bees",3,600,NA,NA,"Sweep nets along a 200m transect in 1 season. 3 sampling rounds",NA
"Rebecca_Steward_Fragaria_ananassa_Sweden_2014","seminatural7","Sweep nets along a 200m transect","Apoidea","Superfamily","other_wild_bees",4,600,NA,NA,"Sweep nets along a 200m transect in 1 season. 3 sampling rounds",NA
"Rebecca_Steward_Fragaria_ananassa_Sweden_2014","control7","Sweep nets along a 200m transect","Apoidea","Superfamily","other_wild_bees",3,600,NA,NA,"Sweep nets along a 200m transect in 1 season. 3 sampling rounds",NA
"Rebecca_Steward_Fragaria_ananassa_Sweden_2014","pond8","Sweep nets along a 200m transect","Apoidea","Superfamily","other_wild_bees",5,600,NA,NA,"Sweep nets along a 200m transect in 1 season. 3 sampling rounds",NA
"Rebecca_Steward_Fragaria_ananassa_Sweden_2014","seminatural8","Sweep nets along a 200m transect","Apoidea","Superfamily","other_wild_bees",11,600,NA,NA,"Sweep nets along a 200m transect in 1 season. 3 sampling rounds",NA
"Rebecca_Steward_Fragaria_ananassa_Sweden_2014","control8","Sweep nets along a 200m transect","Apoidea","Superfamily","other_wild_bees",7,600,NA,NA,"Sweep nets along a 200m transect in 1 season. 3 sampling rounds",NA
"Rebecca_Steward_Fragaria_ananassa_Sweden_2014","pond9","Sweep nets along a 200m transect","Apoidea","Superfamily","other_wild_bees",13,600,NA,NA,"Sweep nets along a 200m transect in 1 season. 3 sampling rounds",NA
"Rebecca_Steward_Fragaria_ananassa_Sweden_2014","seminatural9","Sweep nets along a 200m transect","Apoidea","Superfamily","other_wild_bees",5,600,NA,NA,"Sweep nets along a 200m transect in 1 season. 3 sampling rounds",NA
"Rebecca_Steward_Fragaria_ananassa_Sweden_2014","control9","Sweep nets along a 200m transect","Apoidea","Superfamily","other_wild_bees",8,600,NA,NA,"Sweep nets along a 200m transect in 1 season. 3 sampling rounds",NA
"Rebecca_Steward_Fragaria_ananassa_Sweden_2014","pond10","Sweep nets along a 200m transect","Apoidea","Superfamily","other_wild_bees",3,600,NA,NA,"Sweep nets along a 200m transect in 1 season. 3 sampling rounds",NA
"Rebecca_Steward_Fragaria_ananassa_Sweden_2014","seminatural10","Sweep nets along a 200m transect","Apoidea","Superfamily","other_wild_bees",14,600,NA,NA,"Sweep nets along a 200m transect in 1 season. 3 sampling rounds",NA
"Rebecca_Steward_Fragaria_ananassa_Sweden_2014","control10","Sweep nets along a 200m transect","Apoidea","Superfamily","other_wild_bees",1,600,NA,NA,"Sweep nets along a 200m transect in 1 season. 3 sampling rounds",NA
"Rebecca_Steward_Fragaria_ananassa_Sweden_2014","pond1",NA,"Episyrphus balteatus","species","syrphids",36,600,NA,NA,"Sweep nets along a 200m transect in 1 season. 3 sampling rounds",NA
"Rebecca_Steward_Fragaria_ananassa_Sweden_2014","pond1",NA,"Syritta pipiens","species","syrphids",13,600,NA,NA,"Sweep nets along a 200m transect in 1 season. 3 sampling rounds",NA
"Rebecca_Steward_Fragaria_ananassa_Sweden_2014","pond1",NA,"Melanostoma sp.","genus","syrphids",14,600,NA,NA,"Sweep nets along a 200m transect in 1 season. 3 sampling rounds",NA
"Rebecca_Steward_Fragaria_ananassa_Sweden_2014","pond1",NA,"Eristalis tenax","species","syrphids",14,600,NA,NA,"Sweep nets along a 200m transect in 1 season. 3 sampling rounds",NA
"Rebecca_Steward_Fragaria_ananassa_Sweden_2014","seminatural1",NA,"Platycheirus occultus","species","syrphids",11,600,NA,NA,"Sweep nets along a 200m transect in 1 season. 3 sampling rounds",NA
"Rebecca_Steward_Fragaria_ananassa_Sweden_2014","seminatural1",NA,"Melanostoma mellinum","species","syrphids",4,600,NA,NA,"Sweep nets along a 200m transect in 1 season. 3 sampling rounds",NA
"Rebecca_Steward_Fragaria_ananassa_Sweden_2014","seminatural1",NA,"Episyrphus balteatus","species","syrphids",9,600,NA,NA,"Sweep nets along a 200m transect in 1 season. 3 sampling rounds",NA
"Rebecca_Steward_Fragaria_ananassa_Sweden_2014","seminatural1",NA,"Sphaerophoria sp.","genus","syrphids",13,600,NA,NA,"Sweep nets along a 200m transect in 1 season. 3 sampling rounds",NA
"Rebecca_Steward_Fragaria_ananassa_Sweden_2014","control1",NA,"Episyrphus balteatus","species","syrphids",16,600,NA,NA,"Sweep nets along a 200m transect in 1 season. 3 sampling rounds",NA
"Rebecca_Steward_Fragaria_ananassa_Sweden_2014","control1",NA,"Melanostoma mellinum","species","syrphids",5,600,NA,NA,"Sweep nets along a 200m transect in 1 season. 3 sampling rounds",NA
"Rebecca_Steward_Fragaria_ananassa_Sweden_2014","pond2",NA,"Platycheirus occultus","species","syrphids",16,600,NA,NA,"Sweep nets along a 200m transect in 1 season. 3 sampling rounds",NA
"Rebecca_Steward_Fragaria_ananassa_Sweden_2014","pond2",NA,"Platycheirus clypeatus","species","syrphids",10,600,NA,NA,"Sweep nets along a 200m transect in 1 season. 3 sampling rounds",NA
"Rebecca_Steward_Fragaria_ananassa_Sweden_2014","pond2",NA,"Episyrphus balteatus","species","syrphids",11,600,NA,NA,"Sweep nets along a 200m transect in 1 season. 3 sampling rounds",NA
"Rebecca_Steward_Fragaria_ananassa_Sweden_2014","pond2",NA,"Platycheirus clypeatus","species","syrphids",10,600,NA,NA,"Sweep nets along a 200m transect in 1 season. 3 sampling rounds",NA
"Rebecca_Steward_Fragaria_ananassa_Sweden_2014","pond2",NA,"Platycheirus angustatus","species","syrphids",9,600,NA,NA,"Sweep nets along a 200m transect in 1 season. 3 sampling rounds",NA
"Rebecca_Steward_Fragaria_ananassa_Sweden_2014","seminatural2",NA,"Lejogaster tarsata","species","syrphids",11,600,NA,NA,"Sweep nets along a 200m transect in 1 season. 3 sampling rounds",NA
"Rebecca_Steward_Fragaria_ananassa_Sweden_2014","seminatural2",NA,"Orthonevra nobilis","species","syrphids",11,600,NA,NA,"Sweep nets along a 200m transect in 1 season. 3 sampling rounds",NA
"Rebecca_Steward_Fragaria_ananassa_Sweden_2014","seminatural2",NA,"Neoascia tenur","species","syrphids",6,600,NA,NA,"Sweep nets along a 200m transect in 1 season. 3 sampling rounds",NA
"Rebecca_Steward_Fragaria_ananassa_Sweden_2014","control2",NA,"Episyrphus balteatus","species","syrphids",13,600,NA,NA,"Sweep nets along a 200m transect in 1 season. 3 sampling rounds",NA
"Rebecca_Steward_Fragaria_ananassa_Sweden_2014","control2",NA,"Melanostoma mellinum","species","syrphids",25,600,NA,NA,"Sweep nets along a 200m transect in 1 season. 3 sampling rounds",NA
"Rebecca_Steward_Fragaria_ananassa_Sweden_2014","pond3",NA,"Episyrphus balteatus","species","syrphids",13,600,NA,NA,"Sweep nets along a 200m transect in 1 season. 3 sampling rounds",NA
"Rebecca_Steward_Fragaria_ananassa_Sweden_2014","pond3",NA,"Melanostoma mellinum","species","syrphids",9,600,NA,NA,"Sweep nets along a 200m transect in 1 season. 3 sampling rounds",NA
"Rebecca_Steward_Fragaria_ananassa_Sweden_2014","pond3",NA,"Platycheirus angustatus","species","syrphids",17,600,NA,NA,"Sweep nets along a 200m transect in 1 season. 3 sampling rounds",NA
"Rebecca_Steward_Fragaria_ananassa_Sweden_2014","pond3",NA,"Sphaerophoria sp.","genus","syrphids",13,600,NA,NA,"Sweep nets along a 200m transect in 1 season. 3 sampling rounds",NA
"Rebecca_Steward_Fragaria_ananassa_Sweden_2014","seminatural3",NA,"Sphaerophoria scripta","species","syrphids",19,600,NA,NA,"Sweep nets along a 200m transect in 1 season. 3 sampling rounds",NA
"Rebecca_Steward_Fragaria_ananassa_Sweden_2014","control3",NA,"Episyrphus balteatus","species","syrphids",4,600,NA,NA,"Sweep nets along a 200m transect in 1 season. 3 sampling rounds",NA
"Rebecca_Steward_Fragaria_ananassa_Sweden_2014","control3",NA,"Platycheirus angustatus","species","syrphids",8,600,NA,NA,"Sweep nets along a 200m transect in 1 season. 3 sampling rounds",NA
"Rebecca_Steward_Fragaria_ananassa_Sweden_2014","pond4",NA,"Platycheirus occultus","species","syrphids",4,600,NA,NA,"Sweep nets along a 200m transect in 1 season. 3 sampling rounds",NA
"Rebecca_Steward_Fragaria_ananassa_Sweden_2014","pond4",NA,"Platycheirus clypeatus","species","syrphids",4,600,NA,NA,"Sweep nets along a 200m transect in 1 season. 3 sampling rounds",NA
"Rebecca_Steward_Fragaria_ananassa_Sweden_2014","pond4",NA,"Episyrphus balteatus","species","syrphids",7,600,NA,NA,"Sweep nets along a 200m transect in 1 season. 3 sampling rounds",NA
"Rebecca_Steward_Fragaria_ananassa_Sweden_2014","pond4",NA,"Platycheirus clypeatus","species","syrphids",4,600,NA,NA,"Sweep nets along a 200m transect in 1 season. 3 sampling rounds",NA
"Rebecca_Steward_Fragaria_ananassa_Sweden_2014","pond4",NA,"Platycheirus angustatus","species","syrphids",11,600,NA,NA,"Sweep nets along a 200m transect in 1 season. 3 sampling rounds",NA
"Rebecca_Steward_Fragaria_ananassa_Sweden_2014","pond4",NA,"Episyrphus balteatus","species","syrphids",9,600,NA,NA,"Sweep nets along a 200m transect in 1 season. 3 sampling rounds",NA
"Rebecca_Steward_Fragaria_ananassa_Sweden_2014","pond4",NA,"Melanostoma mellinum","species","syrphids",8,600,NA,NA,"Sweep nets along a 200m transect in 1 season. 3 sampling rounds",NA
"Rebecca_Steward_Fragaria_ananassa_Sweden_2014","pond4",NA,"Platycheirus angustatus","species","syrphids",1,600,NA,NA,"Sweep nets along a 200m transect in 1 season. 3 sampling rounds",NA
"Rebecca_Steward_Fragaria_ananassa_Sweden_2014","seminatural4",NA,"Platycheirus angustatus","species","syrphids",8,600,NA,NA,"Sweep nets along a 200m transect in 1 season. 3 sampling rounds",NA
"Rebecca_Steward_Fragaria_ananassa_Sweden_2014","seminatural4",NA,"Sphaerophoria sp.","genus","syrphids",4,600,NA,NA,"Sweep nets along a 200m transect in 1 season. 3 sampling rounds",NA
"Rebecca_Steward_Fragaria_ananassa_Sweden_2014","control4",NA,"Episyrphus balteatus","species","syrphids",4,600,NA,NA,"Sweep nets along a 200m transect in 1 season. 3 sampling rounds",NA
"Rebecca_Steward_Fragaria_ananassa_Sweden_2014","control4",NA,"Melanostoma mellinum","species","syrphids",3,600,NA,NA,"Sweep nets along a 200m transect in 1 season. 3 sampling rounds",NA
"Rebecca_Steward_Fragaria_ananassa_Sweden_2014","control4",NA,"Episyrphus balteatus","species","syrphids",4,600,NA,NA,"Sweep nets along a 200m transect in 1 season. 3 sampling rounds",NA
"Rebecca_Steward_Fragaria_ananassa_Sweden_2014","pond5",NA,"Episyrphus balteatus","species","syrphids",10,600,NA,NA,"Sweep nets along a 200m transect in 1 season. 3 sampling rounds",NA
"Rebecca_Steward_Fragaria_ananassa_Sweden_2014","pond5",NA,"Melanostoma mellinum","species","syrphids",5,600,NA,NA,"Sweep nets along a 200m transect in 1 season. 3 sampling rounds",NA
"Rebecca_Steward_Fragaria_ananassa_Sweden_2014","pond5",NA,"Platycheirus angustatus","species","syrphids",4,600,NA,NA,"Sweep nets along a 200m transect in 1 season. 3 sampling rounds",NA
"Rebecca_Steward_Fragaria_ananassa_Sweden_2014","pond5",NA,"Eristalis tenax","species","syrphids",9,600,NA,NA,"Sweep nets along a 200m transect in 1 season. 3 sampling rounds",NA
"Rebecca_Steward_Fragaria_ananassa_Sweden_2014","seminatural5",NA,"Platycheirus clypeatus","species","syrphids",10,600,NA,NA,"Sweep nets along a 200m transect in 1 season. 3 sampling rounds",NA
"Rebecca_Steward_Fragaria_ananassa_Sweden_2014","control5",NA,"Episyrphus balteatus","species","syrphids",6,600,NA,NA,"Sweep nets along a 200m transect in 1 season. 3 sampling rounds",NA
"Rebecca_Steward_Fragaria_ananassa_Sweden_2014","pond6",NA,"Episyrphus balteatus","species","syrphids",8,600,NA,NA,"Sweep nets along a 200m transect in 1 season. 3 sampling rounds",NA
"Rebecca_Steward_Fragaria_ananassa_Sweden_2014","pond6",NA,"Platycheirus occultus","species","syrphids",10,600,NA,NA,"Sweep nets along a 200m transect in 1 season. 3 sampling rounds",NA
"Rebecca_Steward_Fragaria_ananassa_Sweden_2014","pond6",NA,"Eristalis tenax","species","syrphids",10,600,NA,NA,"Sweep nets along a 200m transect in 1 season. 3 sampling rounds",NA
"Rebecca_Steward_Fragaria_ananassa_Sweden_2014","seminatural6",NA,"Episyrphus balteatus","species","syrphids",3,600,NA,NA,"Sweep nets along a 200m transect in 1 season. 3 sampling rounds",NA
"Rebecca_Steward_Fragaria_ananassa_Sweden_2014","seminatural6",NA,"Melanostoma mellinum","species","syrphids",10,600,NA,NA,"Sweep nets along a 200m transect in 1 season. 3 sampling rounds",NA
"Rebecca_Steward_Fragaria_ananassa_Sweden_2014","control6",NA,"Melanostoma mellinum","species","syrphids",6,600,NA,NA,"Sweep nets along a 200m transect in 1 season. 3 sampling rounds",NA
"Rebecca_Steward_Fragaria_ananassa_Sweden_2014","pond7",NA,"Episyrphus balteatus","species","syrphids",31,600,NA,NA,"Sweep nets along a 200m transect in 1 season. 3 sampling rounds",NA
"Rebecca_Steward_Fragaria_ananassa_Sweden_2014","pond7",NA,"Platycheirus angustatus","species","syrphids",11,600,NA,NA,"Sweep nets along a 200m transect in 1 season. 3 sampling rounds",NA
"Rebecca_Steward_Fragaria_ananassa_Sweden_2014","pond7",NA,"Eristalis tenax","species","syrphids",3,600,NA,NA,"Sweep nets along a 200m transect in 1 season. 3 sampling rounds",NA
"Rebecca_Steward_Fragaria_ananassa_Sweden_2014","seminatural7",NA,"Platycheirus angustatus","species","syrphids",4,600,NA,NA,"Sweep nets along a 200m transect in 1 season. 3 sampling rounds",NA
"Rebecca_Steward_Fragaria_ananassa_Sweden_2014","control7",NA,"Eristalis tenax","species","syrphids",4,600,NA,NA,"Sweep nets along a 200m transect in 1 season. 3 sampling rounds",NA
"Rebecca_Steward_Fragaria_ananassa_Sweden_2014","pond8",NA,"Episyrphus balteatus","species","syrphids",7,600,NA,NA,"Sweep nets along a 200m transect in 1 season. 3 sampling rounds",NA
"Rebecca_Steward_Fragaria_ananassa_Sweden_2014","pond8",NA,"Platycheirus angustatus","species","syrphids",13,600,NA,NA,"Sweep nets along a 200m transect in 1 season. 3 sampling rounds",NA
"Rebecca_Steward_Fragaria_ananassa_Sweden_2014","pond8",NA,"Platycheirus fulviventris","species","syrphids",5,600,NA,NA,"Sweep nets along a 200m transect in 1 season. 3 sampling rounds",NA
"Rebecca_Steward_Fragaria_ananassa_Sweden_2014","pond8",NA,"Melanostoma mellinum","species","syrphids",7,600,NA,NA,"Sweep nets along a 200m transect in 1 season. 3 sampling rounds",NA
"Rebecca_Steward_Fragaria_ananassa_Sweden_2014","pond8",NA,"Platycheirus clypeatus","species","syrphids",5,600,NA,NA,"Sweep nets along a 200m transect in 1 season. 3 sampling rounds",NA
"Rebecca_Steward_Fragaria_ananassa_Sweden_2014","pond8",NA,"Sphaerophoria scripta","species","syrphids",8,600,NA,NA,"Sweep nets along a 200m transect in 1 season. 3 sampling rounds",NA
"Rebecca_Steward_Fragaria_ananassa_Sweden_2014","pond8",NA,"Eristalis tenax","species","syrphids",4,600,NA,NA,"Sweep nets along a 200m transect in 1 season. 3 sampling rounds",NA
"Rebecca_Steward_Fragaria_ananassa_Sweden_2014","seminatural8",NA,"Episyrphus balteatus","species","syrphids",12,600,NA,NA,"Sweep nets along a 200m transect in 1 season. 3 sampling rounds",NA
"Rebecca_Steward_Fragaria_ananassa_Sweden_2014","seminatural8",NA,"Melanostoma mellinum","species","syrphids",5,600,NA,NA,"Sweep nets along a 200m transect in 1 season. 3 sampling rounds",NA
"Rebecca_Steward_Fragaria_ananassa_Sweden_2014","seminatural8",NA,"Eupeodes latifasciatus","species","syrphids",11,600,NA,NA,"Sweep nets along a 200m transect in 1 season. 3 sampling rounds",NA
"Rebecca_Steward_Fragaria_ananassa_Sweden_2014","control8",NA,"Episyrphus balteatus","species","syrphids",9,600,NA,NA,"Sweep nets along a 200m transect in 1 season. 3 sampling rounds",NA
"Rebecca_Steward_Fragaria_ananassa_Sweden_2014","control8",NA,"Melanostoma sp.","genus","syrphids",10,600,NA,NA,"Sweep nets along a 200m transect in 1 season. 3 sampling rounds",NA
"Rebecca_Steward_Fragaria_ananassa_Sweden_2014","control8",NA,"Eristalis tenax","species","syrphids",6,600,NA,NA,"Sweep nets along a 200m transect in 1 season. 3 sampling rounds",NA
"Rebecca_Steward_Fragaria_ananassa_Sweden_2014","pond9",NA,"Lejogaster tarsata","species","syrphids",7,600,NA,NA,"Sweep nets along a 200m transect in 1 season. 3 sampling rounds",NA
"Rebecca_Steward_Fragaria_ananassa_Sweden_2014","pond9",NA,"Episyrphus balteatus","species","syrphids",10,600,NA,NA,"Sweep nets along a 200m transect in 1 season. 3 sampling rounds",NA
"Rebecca_Steward_Fragaria_ananassa_Sweden_2014","pond9",NA,"Melanostoma mellinum","species","syrphids",8,600,NA,NA,"Sweep nets along a 200m transect in 1 season. 3 sampling rounds",NA
"Rebecca_Steward_Fragaria_ananassa_Sweden_2014","pond9",NA,"Platycheirus occultus","species","syrphids",3,600,NA,NA,"Sweep nets along a 200m transect in 1 season. 3 sampling rounds",NA
"Rebecca_Steward_Fragaria_ananassa_Sweden_2014","pond9",NA,"Eumerus funeralis","species","syrphids",5,600,NA,NA,"Sweep nets along a 200m transect in 1 season. 3 sampling rounds",NA
"Rebecca_Steward_Fragaria_ananassa_Sweden_2014","pond9",NA,"Orthonevra geniculata","species","syrphids",6,600,NA,NA,"Sweep nets along a 200m transect in 1 season. 3 sampling rounds",NA
"Rebecca_Steward_Fragaria_ananassa_Sweden_2014","pond9",NA,"Eumerus strigatus","species","syrphids",6,600,NA,NA,"Sweep nets along a 200m transect in 1 season. 3 sampling rounds",NA
"Rebecca_Steward_Fragaria_ananassa_Sweden_2014","pond9",NA,"Melanostoma mellinum","species","syrphids",17,600,NA,NA,"Sweep nets along a 200m transect in 1 season. 3 sampling rounds",NA
"Rebecca_Steward_Fragaria_ananassa_Sweden_2014","seminatural9",NA,"Platycheirus angustatus","species","syrphids",11,600,NA,NA,"Sweep nets along a 200m transect in 1 season. 3 sampling rounds",NA
"Rebecca_Steward_Fragaria_ananassa_Sweden_2014","control9",NA,"Lejogaster tarsata","species","syrphids",6,600,NA,NA,"Sweep nets along a 200m transect in 1 season. 3 sampling rounds",NA
"Rebecca_Steward_Fragaria_ananassa_Sweden_2014","control9",NA,"Episyrphus balteatus","species","syrphids",9,600,NA,NA,"Sweep nets along a 200m transect in 1 season. 3 sampling rounds",NA
"Rebecca_Steward_Fragaria_ananassa_Sweden_2014","control9",NA,"Melanostoma scalare","species","syrphids",7,600,NA,NA,"Sweep nets along a 200m transect in 1 season. 3 sampling rounds",NA
"Rebecca_Steward_Fragaria_ananassa_Sweden_2014","control9",NA,"Eupeodes latifasciatus","species","syrphids",5,600,NA,NA,"Sweep nets along a 200m transect in 1 season. 3 sampling rounds",NA
"Rebecca_Steward_Fragaria_ananassa_Sweden_2014","control9",NA,"Sphaerophoria sp.","genus","syrphids",3,600,NA,NA,"Sweep nets along a 200m transect in 1 season. 3 sampling rounds",NA
"Rebecca_Steward_Fragaria_ananassa_Sweden_2014","pond10",NA,"Episyrphus balteatus","species","syrphids",4,600,NA,NA,"Sweep nets along a 200m transect in 1 season. 3 sampling rounds",NA
"Rebecca_Steward_Fragaria_ananassa_Sweden_2014","pond10",NA,"Platycheirus occultus","species","syrphids",7,600,NA,NA,"Sweep nets along a 200m transect in 1 season. 3 sampling rounds",NA
"Rebecca_Steward_Fragaria_ananassa_Sweden_2014","pond10",NA,"Melanostoma mellinum","species","syrphids",5,600,NA,NA,"Sweep nets along a 200m transect in 1 season. 3 sampling rounds",NA
"Rebecca_Steward_Fragaria_ananassa_Sweden_2014","pond10",NA,"Sphaerophoria sp.","genus","syrphids",9,600,NA,NA,"Sweep nets along a 200m transect in 1 season. 3 sampling rounds",NA
"Rebecca_Steward_Fragaria_ananassa_Sweden_2014","seminatural10",NA,"Eristalis pertinax","species","syrphids",5,600,NA,NA,"Sweep nets along a 200m transect in 1 season. 3 sampling rounds",NA
"Rebecca_Steward_Fragaria_ananassa_Sweden_2014","seminatural10",NA,"Episyrphus balteatus","species","syrphids",3,600,NA,NA,"Sweep nets along a 200m transect in 1 season. 3 sampling rounds",NA
"Rebecca_Steward_Fragaria_ananassa_Sweden_2014","seminatural10",NA,"Platycheirus angustatus","species","syrphids",4,600,NA,NA,"Sweep nets along a 200m transect in 1 season. 3 sampling rounds",NA
"Rebecca_Steward_Fragaria_ananassa_Sweden_2014","control10",NA,"Episyrphus balteatus","species","syrphids",8,600,NA,NA,"Sweep nets along a 200m transect in 1 season. 3 sampling rounds",NA
"Riccardo_Bommarco_Brassica_napus_Sweden_2005","A","survey","Aglais_urticae","species","lepidoptera",1,NA,NA,NA,"Measures per site: 4 visits to each field for 1 season",NA
"Riccardo_Bommarco_Brassica_napus_Sweden_2005","A","survey","Apis_mellifera","species","honeybees",1,NA,NA,NA,"Measures per site: 4 visits to each field for 1 season",NA
"Riccardo_Bommarco_Brassica_napus_Sweden_2005","A","survey","Apis_mellifera","species","honeybees",4,NA,NA,NA,"Measures per site: 4 visits to each field for 1 season",NA
"Riccardo_Bommarco_Brassica_napus_Sweden_2005","A","survey","Apis_mellifera","species","honeybees",2,NA,NA,NA,"Measures per site: 4 visits to each field for 1 season",NA
"Riccardo_Bommarco_Brassica_napus_Sweden_2005","A","survey","Apis_mellifera","species","honeybees",1,NA,NA,NA,"Measures per site: 4 visits to each field for 1 season",NA
"Riccardo_Bommarco_Brassica_napus_Sweden_2005","A","survey","Apis_mellifera","species","honeybees",3,NA,NA,NA,"Measures per site: 4 visits to each field for 1 season",NA
"Riccardo_Bommarco_Brassica_napus_Sweden_2005","A","survey","Apis_mellifera","species","honeybees",1,NA,NA,NA,"Measures per site: 4 visits to each field for 1 season",NA
"Riccardo_Bommarco_Brassica_napus_Sweden_2005","A","survey","Bombus_lapidarius","species","bumblebees",1,NA,NA,NA,"Measures per site: 4 visits to each field for 1 season",NA
"Riccardo_Bommarco_Brassica_napus_Sweden_2005","A","survey","Bombus_sp","morphospecies","bumblebees",1,NA,NA,NA,"Measures per site: 4 visits to each field for 1 season",NA
"Riccardo_Bommarco_Brassica_napus_Sweden_2005","A","survey","Bombus_terrestris","species","bumblebees",1,NA,NA,NA,"Measures per site: 4 visits to each field for 1 season",NA
"Riccardo_Bommarco_Brassica_napus_Sweden_2005","A","survey","Bombus_terrestris","species","bumblebees",1,NA,NA,NA,"Measures per site: 4 visits to each field for 1 season",NA
"Riccardo_Bommarco_Brassica_napus_Sweden_2005","A","survey","Bombus_terrestris","species","bumblebees",1,NA,NA,NA,"Measures per site: 4 visits to each field for 1 season",NA
"Riccardo_Bommarco_Brassica_napus_Sweden_2005","A","survey","Bombus_terrestris","species","bumblebees",1,NA,NA,NA,"Measures per site: 4 visits to each field for 1 season",NA
"Riccardo_Bommarco_Brassica_napus_Sweden_2005","A","survey","Bombus_terrestris","species","bumblebees",1,NA,NA,NA,"Measures per site: 4 visits to each field for 1 season",NA
"Riccardo_Bommarco_Brassica_napus_Sweden_2005","A","survey","Melanostoma_mellinum","species","syrphids",1,NA,NA,NA,"Measures per site: 4 visits to each field for 1 season",NA
"Riccardo_Bommarco_Brassica_napus_Sweden_2005","A","survey","Melanostoma_mellinum","species","syrphids",1,NA,NA,NA,"Measures per site: 4 visits to each field for 1 season",NA
"Riccardo_Bommarco_Brassica_napus_Sweden_2005","A","survey","Melanostoma_mellinum","species","syrphids",1,NA,NA,NA,"Measures per site: 4 visits to each field for 1 season",NA
"Riccardo_Bommarco_Brassica_napus_Sweden_2005","A","survey","Sphaerophoria_scripta","species","syrphids",1,NA,NA,NA,"Measures per site: 4 visits to each field for 1 season",NA
"Riccardo_Bommarco_Brassica_napus_Sweden_2005","A","survey","Sphaerophoria_scripta","species","syrphids",1,NA,NA,NA,"Measures per site: 4 visits to each field for 1 season",NA
"Riccardo_Bommarco_Brassica_napus_Sweden_2005","A","survey","Sphaerophoria_taeniata","species","syrphids",1,NA,NA,NA,"Measures per site: 4 visits to each field for 1 season",NA
"Riccardo_Bommarco_Brassica_napus_Sweden_2005","D","survey","Aglais_urticae","species","lepidoptera",1,NA,NA,NA,"Measures per site: 4 visits to each field for 1 season",NA
"Riccardo_Bommarco_Brassica_napus_Sweden_2005","D","survey","Aglais_urticae","species","lepidoptera",1,NA,NA,NA,"Measures per site: 4 visits to each field for 1 season",NA
"Riccardo_Bommarco_Brassica_napus_Sweden_2005","D","survey","Apis_mellifera","species","honeybees",3,NA,NA,NA,"Measures per site: 4 visits to each field for 1 season",NA
"Riccardo_Bommarco_Brassica_napus_Sweden_2005","D","survey","Apis_mellifera","species","honeybees",4,NA,NA,NA,"Measures per site: 4 visits to each field for 1 season",NA
"Riccardo_Bommarco_Brassica_napus_Sweden_2005","D","survey","Apis_mellifera","species","honeybees",1,NA,NA,NA,"Measures per site: 4 visits to each field for 1 season",NA
"Riccardo_Bommarco_Brassica_napus_Sweden_2005","D","survey","Apis_mellifera","species","honeybees",9,NA,NA,NA,"Measures per site: 4 visits to each field for 1 season",NA
"Riccardo_Bommarco_Brassica_napus_Sweden_2005","D","survey","Apis_mellifera","species","honeybees",1,NA,NA,NA,"Measures per site: 4 visits to each field for 1 season",NA
"Riccardo_Bommarco_Brassica_napus_Sweden_2005","D","survey","Apis_mellifera","species","honeybees",35,NA,NA,NA,"Measures per site: 4 visits to each field for 1 season",NA
"Riccardo_Bommarco_Brassica_napus_Sweden_2005","D","survey","Apis_mellifera","species","honeybees",15,NA,NA,NA,"Measures per site: 4 visits to each field for 1 season",NA
"Riccardo_Bommarco_Brassica_napus_Sweden_2005","D","survey","Apis_mellifera","species","honeybees",27,NA,NA,NA,"Measures per site: 4 visits to each field for 1 season",NA
"Riccardo_Bommarco_Brassica_napus_Sweden_2005","D","survey","Apis_mellifera","species","honeybees",27,NA,NA,NA,"Measures per site: 4 visits to each field for 1 season",NA
"Riccardo_Bommarco_Brassica_napus_Sweden_2005","D","survey","Apis_mellifera","species","honeybees",24,NA,NA,NA,"Measures per site: 4 visits to each field for 1 season",NA
"Riccardo_Bommarco_Brassica_napus_Sweden_2005","D","survey","Apis_mellifera","species","honeybees",19,NA,NA,NA,"Measures per site: 4 visits to each field for 1 season",NA
"Riccardo_Bommarco_Brassica_napus_Sweden_2005","D","survey","Apis_mellifera","species","honeybees",47,NA,NA,NA,"Measures per site: 4 visits to each field for 1 season",NA
"Riccardo_Bommarco_Brassica_napus_Sweden_2005","D","survey","Apis_mellifera","species","honeybees",40,NA,NA,NA,"Measures per site: 4 visits to each field for 1 season",NA
"Riccardo_Bommarco_Brassica_napus_Sweden_2005","D","survey","Apis_mellifera","species","honeybees",37,NA,NA,NA,"Measures per site: 4 visits to each field for 1 season",NA
"Riccardo_Bommarco_Brassica_napus_Sweden_2005","D","survey","Apis_mellifera","species","honeybees",49,NA,NA,NA,"Measures per site: 4 visits to each field for 1 season",NA
"Riccardo_Bommarco_Brassica_napus_Sweden_2005","D","survey","Apis_mellifera","species","honeybees",57,NA,NA,NA,"Measures per site: 4 visits to each field for 1 season",NA
"Riccardo_Bommarco_Brassica_napus_Sweden_2005","D","survey","Apis_mellifera","species","honeybees",40,NA,NA,NA,"Measures per site: 4 visits to each field for 1 season",NA
"Riccardo_Bommarco_Brassica_napus_Sweden_2005","D","survey","Apis_mellifera","species","honeybees",20,NA,NA,NA,"Measures per site: 4 visits to each field for 1 season",NA
"Riccardo_Bommarco_Brassica_napus_Sweden_2005","D","survey","Apis_mellifera","species","honeybees",26,NA,NA,NA,"Measures per site: 4 visits to each field for 1 season",NA
"Riccardo_Bommarco_Brassica_napus_Sweden_2005","D","survey","Apis_mellifera","species","honeybees",14,NA,NA,NA,"Measures per site: 4 visits to each field for 1 season",NA
"Riccardo_Bommarco_Brassica_napus_Sweden_2005","D","survey","Apis_mellifera","species","honeybees",13,NA,NA,NA,"Measures per site: 4 visits to each field for 1 season",NA
"Riccardo_Bommarco_Brassica_napus_Sweden_2005","D","survey","Apis_mellifera","species","honeybees",13,NA,NA,NA,"Measures per site: 4 visits to each field for 1 season",NA
"Riccardo_Bommarco_Brassica_napus_Sweden_2005","D","survey","Apis_mellifera","species","honeybees",15,NA,NA,NA,"Measures per site: 4 visits to each field for 1 season",NA
"Riccardo_Bommarco_Brassica_napus_Sweden_2005","D","survey","Bombus_sp","morphospecies","bumblebees",1,NA,NA,NA,"Measures per site: 4 visits to each field for 1 season",NA
"Riccardo_Bommarco_Brassica_napus_Sweden_2005","D","survey","Bombus_sp","morphospecies","bumblebees",1,NA,NA,NA,"Measures per site: 4 visits to each field for 1 season",NA
"Riccardo_Bommarco_Brassica_napus_Sweden_2005","D","survey","Bombus_sp","morphospecies","bumblebees",1,NA,NA,NA,"Measures per site: 4 visits to each field for 1 season",NA
"Riccardo_Bommarco_Brassica_napus_Sweden_2005","D","survey","Bombus_sylvanum","species","bumblebees",1,NA,NA,NA,"Measures per site: 4 visits to each field for 1 season",NA
"Riccardo_Bommarco_Brassica_napus_Sweden_2005","D","survey","Bombus_terrestris","species","bumblebees",1,NA,NA,NA,"Measures per site: 4 visits to each field for 1 season",NA
"Riccardo_Bommarco_Brassica_napus_Sweden_2005","D","survey","Bombus_terrestris","species","bumblebees",1,NA,NA,NA,"Measures per site: 4 visits to each field for 1 season",NA
"Riccardo_Bommarco_Brassica_napus_Sweden_2005","D","survey","Bombus_terrestris","species","bumblebees",1,NA,NA,NA,"Measures per site: 4 visits to each field for 1 season",NA
"Riccardo_Bommarco_Brassica_napus_Sweden_2005","D","survey","Bombus_terrestris","species","bumblebees",1,NA,NA,NA,"Measures per site: 4 visits to each field for 1 season",NA
"Riccardo_Bommarco_Brassica_napus_Sweden_2005","D","survey","Bombus_terrestris","species","bumblebees",1,NA,NA,NA,"Measures per site: 4 visits to each field for 1 season",NA
"Riccardo_Bommarco_Brassica_napus_Sweden_2005","D","survey","Bombus_terrestris","species","bumblebees",1,NA,NA,NA,"Measures per site: 4 visits to each field for 1 season",NA
"Riccardo_Bommarco_Brassica_napus_Sweden_2005","D","survey","Empis_sp","morphospecies","other_flies",1,NA,NA,NA,"Measures per site: 4 visits to each field for 1 season",NA
"Riccardo_Bommarco_Brassica_napus_Sweden_2005","D","survey","Empis_sp","morphospecies","other_flies",2,NA,NA,NA,"Measures per site: 4 visits to each field for 1 season",NA
"Riccardo_Bommarco_Brassica_napus_Sweden_2005","D","survey","Empis_sp","morphospecies","other_flies",1,NA,NA,NA,"Measures per site: 4 visits to each field for 1 season",NA
"Riccardo_Bommarco_Brassica_napus_Sweden_2005","D","survey","Empis_sp","morphospecies","other_flies",1,NA,NA,NA,"Measures per site: 4 visits to each field for 1 season",NA
"Riccardo_Bommarco_Brassica_napus_Sweden_2005","D","survey","Empis_sp","morphospecies","other_flies",1,NA,NA,NA,"Measures per site: 4 visits to each field for 1 season",NA
"Riccardo_Bommarco_Brassica_napus_Sweden_2005","D","survey","Empis_sp","morphospecies","other_flies",2,NA,NA,NA,"Measures per site: 4 visits to each field for 1 season",NA
"Riccardo_Bommarco_Brassica_napus_Sweden_2005","D","survey","Empis_sp","morphospecies","other_flies",1,NA,NA,NA,"Measures per site: 4 visits to each field for 1 season",NA
"Riccardo_Bommarco_Brassica_napus_Sweden_2005","D","survey","Empis_sp","morphospecies","other_flies",1,NA,NA,NA,"Measures per site: 4 visits to each field for 1 season",NA
"Riccardo_Bommarco_Brassica_napus_Sweden_2005","D","survey","gen_sp","genus","syrphids",3,NA,NA,NA,"Measures per site: 4 visits to each field for 1 season",NA
"Riccardo_Bommarco_Brassica_napus_Sweden_2005","D","survey","gen_sp","genus","syrphids",5,NA,NA,NA,"Measures per site: 4 visits to each field for 1 season",NA
"Riccardo_Bommarco_Brassica_napus_Sweden_2005","D","survey","gen_sp","genus","syrphids",4,NA,NA,NA,"Measures per site: 4 visits to each field for 1 season",NA
"Riccardo_Bommarco_Brassica_napus_Sweden_2005","D","survey","gen_sp","genus","syrphids",2,NA,NA,NA,"Measures per site: 4 visits to each field for 1 season",NA
"Riccardo_Bommarco_Brassica_napus_Sweden_2005","D","survey","gen_sp","genus","syrphids",2,NA,NA,NA,"Measures per site: 4 visits to each field for 1 season",NA
"Riccardo_Bommarco_Brassica_napus_Sweden_2005","D","survey","gen_sp","genus","syrphids",1,NA,NA,NA,"Measures per site: 4 visits to each field for 1 season",NA
"Riccardo_Bommarco_Brassica_napus_Sweden_2005","D","survey","gen_sp","genus","syrphids",1,NA,NA,NA,"Measures per site: 4 visits to each field for 1 season",NA
"Riccardo_Bommarco_Brassica_napus_Sweden_2005","D","survey","Melanostoma_mellinum","species","syrphids",1,NA,NA,NA,"Measures per site: 4 visits to each field for 1 season",NA
"Riccardo_Bommarco_Brassica_napus_Sweden_2005","D","survey","Pieris_brassicae","species","lepidoptera",1,NA,NA,NA,"Measures per site: 4 visits to each field for 1 season",NA
"Riccardo_Bommarco_Brassica_napus_Sweden_2005","F","survey","Apis_mellifera","species","honeybees",1,NA,NA,NA,"Measures per site: 4 visits to each field for 1 season",NA
"Riccardo_Bommarco_Brassica_napus_Sweden_2005","F","survey","Apis_mellifera","species","honeybees",1,NA,NA,NA,"Measures per site: 4 visits to each field for 1 season",NA
"Riccardo_Bommarco_Brassica_napus_Sweden_2005","F","survey","Apis_mellifera","species","honeybees",1,NA,NA,NA,"Measures per site: 4 visits to each field for 1 season",NA
"Riccardo_Bommarco_Brassica_napus_Sweden_2005","F","survey","Apis_mellifera","species","honeybees",1,NA,NA,NA,"Measures per site: 4 visits to each field for 1 season",NA
"Riccardo_Bommarco_Brassica_napus_Sweden_2005","F","survey","Apis_mellifera","species","honeybees",2,NA,NA,NA,"Measures per site: 4 visits to each field for 1 season",NA
"Riccardo_Bommarco_Brassica_napus_Sweden_2005","F","survey","Apis_mellifera","species","honeybees",3,NA,NA,NA,"Measures per site: 4 visits to each field for 1 season",NA
"Riccardo_Bommarco_Brassica_napus_Sweden_2005","F","survey","Apis_mellifera","species","honeybees",4,NA,NA,NA,"Measures per site: 4 visits to each field for 1 season",NA
"Riccardo_Bommarco_Brassica_napus_Sweden_2005","F","survey","Apis_mellifera","species","honeybees",7,NA,NA,NA,"Measures per site: 4 visits to each field for 1 season",NA
"Riccardo_Bommarco_Brassica_napus_Sweden_2005","F","survey","Apis_mellifera","species","honeybees",1,NA,NA,NA,"Measures per site: 4 visits to each field for 1 season",NA
"Riccardo_Bommarco_Brassica_napus_Sweden_2005","F","survey","Apis_mellifera","species","honeybees",7,NA,NA,NA,"Measures per site: 4 visits to each field for 1 season",NA
"Riccardo_Bommarco_Brassica_napus_Sweden_2005","F","survey","Apis_mellifera","species","honeybees",3,NA,NA,NA,"Measures per site: 4 visits to each field for 1 season",NA
"Riccardo_Bommarco_Brassica_napus_Sweden_2005","F","survey","Bombus_lapidarius","species","bumblebees",1,NA,NA,NA,"Measures per site: 4 visits to each field for 1 season",NA
"Riccardo_Bommarco_Brassica_napus_Sweden_2005","F","survey","Bombus_sp","morphospecies","bumblebees",1,NA,NA,NA,"Measures per site: 4 visits to each field for 1 season",NA
"Riccardo_Bommarco_Brassica_napus_Sweden_2005","F","survey","Bombus_sp","morphospecies","bumblebees",1,NA,NA,NA,"Measures per site: 4 visits to each field for 1 season",NA
"Riccardo_Bommarco_Brassica_napus_Sweden_2005","F","survey","Empis_sp","morphospecies","other_flies",1,NA,NA,NA,"Measures per site: 4 visits to each field for 1 season",NA
"Riccardo_Bommarco_Brassica_napus_Sweden_2005","F","survey","Empis_sp","morphospecies","other_flies",1,NA,NA,NA,"Measures per site: 4 visits to each field for 1 season",NA
"Riccardo_Bommarco_Brassica_napus_Sweden_2005","F","survey","Empis_sp","morphospecies","other_flies",1,NA,NA,NA,"Measures per site: 4 visits to each field for 1 season",NA
"Riccardo_Bommarco_Brassica_napus_Sweden_2005","F","survey","Empis_sp","morphospecies","other_flies",1,NA,NA,NA,"Measures per site: 4 visits to each field for 1 season",NA
"Riccardo_Bommarco_Brassica_napus_Sweden_2005","F","survey","Empis_sp","morphospecies","other_flies",1,NA,NA,NA,"Measures per site: 4 visits to each field for 1 season",NA
"Riccardo_Bommarco_Brassica_napus_Sweden_2005","F","survey","Empis_sp","morphospecies","other_flies",2,NA,NA,NA,"Measures per site: 4 visits to each field for 1 season",NA
"Riccardo_Bommarco_Brassica_napus_Sweden_2005","F","survey","Episyrphus_balteatus","species","syrphids",1,NA,NA,NA,"Measures per site: 4 visits to each field for 1 season",NA
"Riccardo_Bommarco_Brassica_napus_Sweden_2005","F","survey","Episyrphus_balteatus","species","syrphids",2,NA,NA,NA,"Measures per site: 4 visits to each field for 1 season",NA
"Riccardo_Bommarco_Brassica_napus_Sweden_2005","F","survey","Episyrphus_balteatus","species","syrphids",1,NA,NA,NA,"Measures per site: 4 visits to each field for 1 season",NA
"Riccardo_Bommarco_Brassica_napus_Sweden_2005","F","survey","Episyrphus_balteatus","species","syrphids",1,NA,NA,NA,"Measures per site: 4 visits to each field for 1 season",NA
"Riccardo_Bommarco_Brassica_napus_Sweden_2005","F","survey","gen_sp","genus","syrphids",1,NA,NA,NA,"Measures per site: 4 visits to each field for 1 season",NA
"Riccardo_Bommarco_Brassica_napus_Sweden_2005","F","survey","gen_sp","genus","syrphids",1,NA,NA,NA,"Measures per site: 4 visits to each field for 1 season",NA
"Riccardo_Bommarco_Brassica_napus_Sweden_2005","F","survey","gen_sp","genus","other_wild_bees",1,NA,NA,NA,"Measures per site: 4 visits to each field for 1 season",NA
"Riccardo_Bommarco_Brassica_napus_Sweden_2005","F","survey","Melanostoma_mellinum","species","syrphids",1,NA,NA,NA,"Measures per site: 4 visits to each field for 1 season",NA
"Riccardo_Bommarco_Brassica_napus_Sweden_2005","F","survey","Sphaerophoria_scripta","species","syrphids",1,NA,NA,NA,"Measures per site: 4 visits to each field for 1 season",NA
"Riccardo_Bommarco_Brassica_napus_Sweden_2005","F","survey","Sphaerophoria_scripta","species","syrphids",1,NA,NA,NA,"Measures per site: 4 visits to each field for 1 season",NA
"Riccardo_Bommarco_Brassica_napus_Sweden_2005","H","survey","Aglais_urticae","species","lepidoptera",3,NA,NA,NA,"Measures per site: 4 visits to each field for 1 season",NA
"Riccardo_Bommarco_Brassica_napus_Sweden_2005","H","survey","Aglais_urticae","species","lepidoptera",1,NA,NA,NA,"Measures per site: 4 visits to each field for 1 season",NA
"Riccardo_Bommarco_Brassica_napus_Sweden_2005","H","survey","Aglais_urticae","species","lepidoptera",1,NA,NA,NA,"Measures per site: 4 visits to each field for 1 season",NA
"Riccardo_Bommarco_Brassica_napus_Sweden_2005","H","survey","Apis_mellifera","species","honeybees",5,NA,NA,NA,"Measures per site: 4 visits to each field for 1 season",NA
"Riccardo_Bommarco_Brassica_napus_Sweden_2005","H","survey","Apis_mellifera","species","honeybees",4,NA,NA,NA,"Measures per site: 4 visits to each field for 1 season",NA
"Riccardo_Bommarco_Brassica_napus_Sweden_2005","H","survey","Apis_mellifera","species","honeybees",1,NA,NA,NA,"Measures per site: 4 visits to each field for 1 season",NA
"Riccardo_Bommarco_Brassica_napus_Sweden_2005","H","survey","Apis_mellifera","species","honeybees",2,NA,NA,NA,"Measures per site: 4 visits to each field for 1 season",NA
"Riccardo_Bommarco_Brassica_napus_Sweden_2005","H","survey","Apis_mellifera","species","honeybees",25,NA,NA,NA,"Measures per site: 4 visits to each field for 1 season",NA
"Riccardo_Bommarco_Brassica_napus_Sweden_2005","H","survey","Apis_mellifera","species","honeybees",20,NA,NA,NA,"Measures per site: 4 visits to each field for 1 season",NA
"Riccardo_Bommarco_Brassica_napus_Sweden_2005","H","survey","Apis_mellifera","species","honeybees",23,NA,NA,NA,"Measures per site: 4 visits to each field for 1 season",NA
"Riccardo_Bommarco_Brassica_napus_Sweden_2005","H","survey","Apis_mellifera","species","honeybees",16,NA,NA,NA,"Measures per site: 4 visits to each field for 1 season",NA
"Riccardo_Bommarco_Brassica_napus_Sweden_2005","H","survey","Apis_mellifera","species","honeybees",32,NA,NA,NA,"Measures per site: 4 visits to each field for 1 season",NA
"Riccardo_Bommarco_Brassica_napus_Sweden_2005","H","survey","Apis_mellifera","species","honeybees",11,NA,NA,NA,"Measures per site: 4 visits to each field for 1 season",NA
"Riccardo_Bommarco_Brassica_napus_Sweden_2005","H","survey","Apis_mellifera","species","honeybees",13,NA,NA,NA,"Measures per site: 4 visits to each field for 1 season",NA
"Riccardo_Bommarco_Brassica_napus_Sweden_2005","H","survey","Apis_mellifera","species","honeybees",19,NA,NA,NA,"Measures per site: 4 visits to each field for 1 season",NA
"Riccardo_Bommarco_Brassica_napus_Sweden_2005","H","survey","Apis_mellifera","species","honeybees",14,NA,NA,NA,"Measures per site: 4 visits to each field for 1 season",NA
"Riccardo_Bommarco_Brassica_napus_Sweden_2005","H","survey","Apis_mellifera","species","honeybees",15,NA,NA,NA,"Measures per site: 4 visits to each field for 1 season",NA
"Riccardo_Bommarco_Brassica_napus_Sweden_2005","H","survey","Apis_mellifera","species","honeybees",9,NA,NA,NA,"Measures per site: 4 visits to each field for 1 season",NA
"Riccardo_Bommarco_Brassica_napus_Sweden_2005","H","survey","Apis_mellifera","species","honeybees",23,NA,NA,NA,"Measures per site: 4 visits to each field for 1 season",NA
"Riccardo_Bommarco_Brassica_napus_Sweden_2005","H","survey","Apis_mellifera","species","honeybees",3,NA,NA,NA,"Measures per site: 4 visits to each field for 1 season",NA
"Riccardo_Bommarco_Brassica_napus_Sweden_2005","H","survey","Apis_mellifera","species","honeybees",11,NA,NA,NA,"Measures per site: 4 visits to each field for 1 season",NA
"Riccardo_Bommarco_Brassica_napus_Sweden_2005","H","survey","Apis_mellifera","species","honeybees",4,NA,NA,NA,"Measures per site: 4 visits to each field for 1 season",NA
"Riccardo_Bommarco_Brassica_napus_Sweden_2005","H","survey","Apis_mellifera","species","honeybees",6,NA,NA,NA,"Measures per site: 4 visits to each field for 1 season",NA
"Riccardo_Bommarco_Brassica_napus_Sweden_2005","H","survey","Apis_mellifera","species","honeybees",5,NA,NA,NA,"Measures per site: 4 visits to each field for 1 season",NA
"Riccardo_Bommarco_Brassica_napus_Sweden_2005","H","survey","Apis_mellifera","species","honeybees",6,NA,NA,NA,"Measures per site: 4 visits to each field for 1 season",NA
"Riccardo_Bommarco_Brassica_napus_Sweden_2005","H","survey","Bombus_sp","morphospecies","bumblebees",1,NA,NA,NA,"Measures per site: 4 visits to each field for 1 season",NA
"Riccardo_Bommarco_Brassica_napus_Sweden_2005","H","survey","Bombus_sp","morphospecies","bumblebees",1,NA,NA,NA,"Measures per site: 4 visits to each field for 1 season",NA
"Riccardo_Bommarco_Brassica_napus_Sweden_2005","H","survey","Bombus_subterraneus","species","bumblebees",1,NA,NA,NA,"Measures per site: 4 visits to each field for 1 season",NA
"Riccardo_Bommarco_Brassica_napus_Sweden_2005","H","survey","Bombus_terrestris","species","bumblebees",1,NA,NA,NA,"Measures per site: 4 visits to each field for 1 season",NA
"Riccardo_Bommarco_Brassica_napus_Sweden_2005","H","survey","Bombus_terrestris","species","bumblebees",3,NA,NA,NA,"Measures per site: 4 visits to each field for 1 season",NA
"Riccardo_Bommarco_Brassica_napus_Sweden_2005","H","survey","Bombus_terrestris","species","bumblebees",1,NA,NA,NA,"Measures per site: 4 visits to each field for 1 season",NA
"Riccardo_Bommarco_Brassica_napus_Sweden_2005","H","survey","Bombus_terrestris","species","bumblebees",1,NA,NA,NA,"Measures per site: 4 visits to each field for 1 season",NA
"Riccardo_Bommarco_Brassica_napus_Sweden_2005","H","survey","Cheilosia_vernalis","species","syrphids",1,NA,NA,NA,"Measures per site: 4 visits to each field for 1 season",NA
"Riccardo_Bommarco_Brassica_napus_Sweden_2005","H","survey","Empis_sp","morphospecies","other_flies",1,NA,NA,NA,"Measures per site: 4 visits to each field for 1 season",NA
"Riccardo_Bommarco_Brassica_napus_Sweden_2005","H","survey","Eristalis_arbustorum","species","syrphids",1,NA,NA,NA,"Measures per site: 4 visits to each field for 1 season",NA
"Riccardo_Bommarco_Brassica_napus_Sweden_2005","H","survey","Eristalis_arbustorum","species","syrphids",1,NA,NA,NA,"Measures per site: 4 visits to each field for 1 season",NA
"Riccardo_Bommarco_Brassica_napus_Sweden_2005","H","survey","Eristalis_interrupta","species","syrphids",2,NA,NA,NA,"Measures per site: 4 visits to each field for 1 season",NA
"Riccardo_Bommarco_Brassica_napus_Sweden_2005","H","survey","Eristalis_interrupta","species","syrphids",1,NA,NA,NA,"Measures per site: 4 visits to each field for 1 season",NA
"Riccardo_Bommarco_Brassica_napus_Sweden_2005","H","survey","Eristalis_interrupta","species","syrphids",2,NA,NA,NA,"Measures per site: 4 visits to each field for 1 season",NA
"Riccardo_Bommarco_Brassica_napus_Sweden_2005","H","survey","gen_sp","genus","syrphids",1,NA,NA,NA,"Measures per site: 4 visits to each field for 1 season",NA
"Riccardo_Bommarco_Brassica_napus_Sweden_2005","H","survey","gen_sp","genus","syrphids",2,NA,NA,NA,"Measures per site: 4 visits to each field for 1 season",NA
"Riccardo_Bommarco_Brassica_napus_Sweden_2005","H","survey","gen_sp","genus","syrphids",1,NA,NA,NA,"Measures per site: 4 visits to each field for 1 season",NA
"Riccardo_Bommarco_Brassica_napus_Sweden_2005","H","survey","gen_sp","genus","syrphids",2,NA,NA,NA,"Measures per site: 4 visits to each field for 1 season",NA
"Riccardo_Bommarco_Brassica_napus_Sweden_2005","H","survey","gen_sp","genus","syrphids",3,NA,NA,NA,"Measures per site: 4 visits to each field for 1 season",NA
"Riccardo_Bommarco_Brassica_napus_Sweden_2005","H","survey","gen_sp","genus","syrphids",1,NA,NA,NA,"Measures per site: 4 visits to each field for 1 season",NA
"Riccardo_Bommarco_Brassica_napus_Sweden_2005","H","survey","gen_sp","genus","syrphids",3,NA,NA,NA,"Measures per site: 4 visits to each field for 1 season",NA
"Riccardo_Bommarco_Brassica_napus_Sweden_2005","H","survey","gen_sp","genus","syrphids",2,NA,NA,NA,"Measures per site: 4 visits to each field for 1 season",NA
"Riccardo_Bommarco_Brassica_napus_Sweden_2005","H","survey","gen_sp","genus","syrphids",1,NA,NA,NA,"Measures per site: 4 visits to each field for 1 season",NA
"Riccardo_Bommarco_Brassica_napus_Sweden_2005","H","survey","gen_sp","genus","syrphids",1,NA,NA,NA,"Measures per site: 4 visits to each field for 1 season",NA
"Riccardo_Bommarco_Brassica_napus_Sweden_2005","H","survey","gen_sp","genus","syrphids",4,NA,NA,NA,"Measures per site: 4 visits to each field for 1 season",NA
"Riccardo_Bommarco_Brassica_napus_Sweden_2005","H","survey","gen_sp","genus","syrphids",1,NA,NA,NA,"Measures per site: 4 visits to each field for 1 season",NA
"Riccardo_Bommarco_Brassica_napus_Sweden_2005","H","survey","gen_sp","genus","syrphids",1,NA,NA,NA,"Measures per site: 4 visits to each field for 1 season",NA
"Riccardo_Bommarco_Brassica_napus_Sweden_2005","H","survey","gen_sp","genus","syrphids",1,NA,NA,NA,"Measures per site: 4 visits to each field for 1 season",NA
"Riccardo_Bommarco_Brassica_napus_Sweden_2005","H","survey","gen_sp","genus","syrphids",1,NA,NA,NA,"Measures per site: 4 visits to each field for 1 season",NA
"Riccardo_Bommarco_Brassica_napus_Sweden_2005","H","survey","gen_sp","genus","syrphids",1,NA,NA,NA,"Measures per site: 4 visits to each field for 1 season",NA
"Riccardo_Bommarco_Brassica_napus_Sweden_2005","H","survey","gen_sp","genus","syrphids",1,NA,NA,NA,"Measures per site: 4 visits to each field for 1 season",NA
"Riccardo_Bommarco_Brassica_napus_Sweden_2005","H","survey","gen_sp","genus","syrphids",2,NA,NA,NA,"Measures per site: 4 visits to each field for 1 season",NA
"Riccardo_Bommarco_Brassica_napus_Sweden_2005","H","survey","gen_sp","genus","syrphids",1,NA,NA,NA,"Measures per site: 4 visits to each field for 1 season",NA
"Riccardo_Bommarco_Brassica_napus_Sweden_2005","H","survey","gen_sp","genus","syrphids",1,NA,NA,NA,"Measures per site: 4 visits to each field for 1 season",NA
"Riccardo_Bommarco_Brassica_napus_Sweden_2005","H","survey","gen_sp","genus","syrphids",1,NA,NA,NA,"Measures per site: 4 visits to each field for 1 season",NA
"Riccardo_Bommarco_Brassica_napus_Sweden_2005","H","survey","gen_sp","genus","syrphids",1,NA,NA,NA,"Measures per site: 4 visits to each field for 1 season",NA
"Riccardo_Bommarco_Brassica_napus_Sweden_2005","H","survey","gen_sp","genus","other_wild_bees",1,NA,NA,NA,"Measures per site: 4 visits to each field for 1 season",NA
"Riccardo_Bommarco_Brassica_napus_Sweden_2005","H","survey","Gonopteryx_rhamni","species","lepidoptera",1,NA,NA,NA,"Measures per site: 4 visits to each field for 1 season",NA
"Riccardo_Bommarco_Brassica_napus_Sweden_2005","H","survey","Helophilus_hybridus","species","syrphids",1,NA,NA,NA,"Measures per site: 4 visits to each field for 1 season",NA
"Riccardo_Bommarco_Brassica_napus_Sweden_2005","H","survey","Melanostoma_mellinum","species","syrphids",1,NA,NA,NA,"Measures per site: 4 visits to each field for 1 season",NA
"Riccardo_Bommarco_Brassica_napus_Sweden_2005","H","survey","Melanostoma_mellinum","species","syrphids",1,NA,NA,NA,"Measures per site: 4 visits to each field for 1 season",NA
"Riccardo_Bommarco_Brassica_napus_Sweden_2005","H","survey","Melanostoma_mellinum","species","syrphids",1,NA,NA,NA,"Measures per site: 4 visits to each field for 1 season",NA
"Riccardo_Bommarco_Brassica_napus_Sweden_2005","H","survey","Melanostoma_mellinum","species","syrphids",1,NA,NA,NA,"Measures per site: 4 visits to each field for 1 season",NA
"Riccardo_Bommarco_Brassica_napus_Sweden_2005","H","survey","Melanostoma_mellinum","species","syrphids",1,NA,NA,NA,"Measures per site: 4 visits to each field for 1 season",NA
"Riccardo_Bommarco_Brassica_napus_Sweden_2005","H","survey","Melanostoma_mellinum","species","syrphids",1,NA,NA,NA,"Measures per site: 4 visits to each field for 1 season",NA
"Riccardo_Bommarco_Brassica_napus_Sweden_2005","H","survey","Merodon_equestris","species","syrphids",1,NA,NA,NA,"Measures per site: 4 visits to each field for 1 season",NA
"Riccardo_Bommarco_Brassica_napus_Sweden_2005","H","survey","Platycheirus_albimanus","species","syrphids",1,NA,NA,NA,"Measures per site: 4 visits to each field for 1 season",NA
"Riccardo_Bommarco_Brassica_napus_Sweden_2005","H","survey","Platycheirus_nielseni","species","syrphids",1,NA,NA,NA,"Measures per site: 4 visits to each field for 1 season",NA
"Riccardo_Bommarco_Brassica_napus_Sweden_2005","H","survey","Platycheirus_sp","morphospecies","syrphids",1,NA,NA,NA,"Measures per site: 4 visits to each field for 1 season",NA
"Riccardo_Bommarco_Brassica_napus_Sweden_2005","H","survey","Sphaerophoria_batava","species","syrphids",1,NA,NA,NA,"Measures per site: 4 visits to each field for 1 season",NA
"Riccardo_Bommarco_Brassica_napus_Sweden_2005","H","survey","Sphaerophoria_scripta","species","syrphids",1,NA,NA,NA,"Measures per site: 4 visits to each field for 1 season",NA
"Riccardo_Bommarco_Brassica_napus_Sweden_2005","H","survey","Syritta_pipiens","species","syrphids",1,NA,NA,NA,"Measures per site: 4 visits to each field for 1 season",NA
"Riccardo_Bommarco_Brassica_napus_Sweden_2005","H","survey","Syritta_pipiens","species","syrphids",1,NA,NA,NA,"Measures per site: 4 visits to each field for 1 season",NA
"Riccardo_Bommarco_Brassica_napus_Sweden_2005","HA","survey","Apis_mellifera","species","honeybees",1,NA,NA,NA,"Measures per site: 4 visits to each field for 1 season",NA
"Riccardo_Bommarco_Brassica_napus_Sweden_2005","HA","survey","Apis_mellifera","species","honeybees",1,NA,NA,NA,"Measures per site: 4 visits to each field for 1 season",NA
"Riccardo_Bommarco_Brassica_napus_Sweden_2005","HA","survey","Apis_mellifera","species","honeybees",18,NA,NA,NA,"Measures per site: 4 visits to each field for 1 season",NA
"Riccardo_Bommarco_Brassica_napus_Sweden_2005","HA","survey","Apis_mellifera","species","honeybees",10,NA,NA,NA,"Measures per site: 4 visits to each field for 1 season",NA
"Riccardo_Bommarco_Brassica_napus_Sweden_2005","HA","survey","Apis_mellifera","species","honeybees",5,NA,NA,NA,"Measures per site: 4 visits to each field for 1 season",NA
"Riccardo_Bommarco_Brassica_napus_Sweden_2005","HA","survey","Apis_mellifera","species","honeybees",17,NA,NA,NA,"Measures per site: 4 visits to each field for 1 season",NA
"Riccardo_Bommarco_Brassica_napus_Sweden_2005","HA","survey","Apis_mellifera","species","honeybees",11,NA,NA,NA,"Measures per site: 4 visits to each field for 1 season",NA
"Riccardo_Bommarco_Brassica_napus_Sweden_2005","HA","survey","Apis_mellifera","species","honeybees",8,NA,NA,NA,"Measures per site: 4 visits to each field for 1 season",NA
"Riccardo_Bommarco_Brassica_napus_Sweden_2005","HA","survey","Apis_mellifera","species","honeybees",5,NA,NA,NA,"Measures per site: 4 visits to each field for 1 season",NA
"Riccardo_Bommarco_Brassica_napus_Sweden_2005","HA","survey","Apis_mellifera","species","honeybees",4,NA,NA,NA,"Measures per site: 4 visits to each field for 1 season",NA
"Riccardo_Bommarco_Brassica_napus_Sweden_2005","HA","survey","Apis_mellifera","species","honeybees",4,NA,NA,NA,"Measures per site: 4 visits to each field for 1 season",NA
"Riccardo_Bommarco_Brassica_napus_Sweden_2005","HA","survey","Apis_mellifera","species","honeybees",7,NA,NA,NA,"Measures per site: 4 visits to each field for 1 season",NA
"Riccardo_Bommarco_Brassica_napus_Sweden_2005","HA","survey","Apis_mellifera","species","honeybees",2,NA,NA,NA,"Measures per site: 4 visits to each field for 1 season",NA
"Riccardo_Bommarco_Brassica_napus_Sweden_2005","HA","survey","Apis_mellifera","species","honeybees",2,NA,NA,NA,"Measures per site: 4 visits to each field for 1 season",NA
"Riccardo_Bommarco_Brassica_napus_Sweden_2005","HA","survey","Apis_mellifera","species","honeybees",1,NA,NA,NA,"Measures per site: 4 visits to each field for 1 season",NA
"Riccardo_Bommarco_Brassica_napus_Sweden_2005","HA","survey","Apis_mellifera","species","honeybees",3,NA,NA,NA,"Measures per site: 4 visits to each field for 1 season",NA
"Riccardo_Bommarco_Brassica_napus_Sweden_2005","HA","survey","Apis_mellifera","species","honeybees",2,NA,NA,NA,"Measures per site: 4 visits to each field for 1 season",NA
"Riccardo_Bommarco_Brassica_napus_Sweden_2005","HA","survey","Apis_mellifera","species","honeybees",3,NA,NA,NA,"Measures per site: 4 visits to each field for 1 season",NA
"Riccardo_Bommarco_Brassica_napus_Sweden_2005","HA","survey","Apis_mellifera","species","honeybees",3,NA,NA,NA,"Measures per site: 4 visits to each field for 1 season",NA
"Riccardo_Bommarco_Brassica_napus_Sweden_2005","HA","survey","Bombus_lapidarius","species","bumblebees",2,NA,NA,NA,"Measures per site: 4 visits to each field for 1 season",NA
"Riccardo_Bommarco_Brassica_napus_Sweden_2005","HA","survey","Bombus_lapidarius","species","bumblebees",1,NA,NA,NA,"Measures per site: 4 visits to each field for 1 season",NA
"Riccardo_Bommarco_Brassica_napus_Sweden_2005","HA","survey","Bombus_lapidarius","species","bumblebees",1,NA,NA,NA,"Measures per site: 4 visits to each field for 1 season",NA
"Riccardo_Bommarco_Brassica_napus_Sweden_2005","HA","survey","Bombus_sp","morphospecies","bumblebees",1,NA,NA,NA,"Measures per site: 4 visits to each field for 1 season",NA
"Riccardo_Bommarco_Brassica_napus_Sweden_2005","HA","survey","Bombus_sp","morphospecies","bumblebees",1,NA,NA,NA,"Measures per site: 4 visits to each field for 1 season",NA
"Riccardo_Bommarco_Brassica_napus_Sweden_2005","HA","survey","Bombus_sp","morphospecies","bumblebees",1,NA,NA,NA,"Measures per site: 4 visits to each field for 1 season",NA
"Riccardo_Bommarco_Brassica_napus_Sweden_2005","HA","survey","Bombus_sp","morphospecies","bumblebees",1,NA,NA,NA,"Measures per site: 4 visits to each field for 1 season",NA
"Riccardo_Bommarco_Brassica_napus_Sweden_2005","HA","survey","Bombus_sp","morphospecies","bumblebees",1,NA,NA,NA,"Measures per site: 4 visits to each field for 1 season",NA
"Riccardo_Bommarco_Brassica_napus_Sweden_2005","HA","survey","Bombus_sp","morphospecies","bumblebees",1,NA,NA,NA,"Measures per site: 4 visits to each field for 1 season",NA
"Riccardo_Bommarco_Brassica_napus_Sweden_2005","HA","survey","Empis_sp","morphospecies","other_flies",1,NA,NA,NA,"Measures per site: 4 visits to each field for 1 season",NA
"Riccardo_Bommarco_Brassica_napus_Sweden_2005","HA","survey","Empis_sp","morphospecies","other_flies",2,NA,NA,NA,"Measures per site: 4 visits to each field for 1 season",NA
"Riccardo_Bommarco_Brassica_napus_Sweden_2005","HA","survey","Empis_sp","morphospecies","other_flies",2,NA,NA,NA,"Measures per site: 4 visits to each field for 1 season",NA
"Riccardo_Bommarco_Brassica_napus_Sweden_2005","HA","survey","Empis_sp","morphospecies","other_flies",1,NA,NA,NA,"Measures per site: 4 visits to each field for 1 season",NA
"Riccardo_Bommarco_Brassica_napus_Sweden_2005","HA","survey","Empis_sp","morphospecies","other_flies",1,NA,NA,NA,"Measures per site: 4 visits to each field for 1 season",NA
"Riccardo_Bommarco_Brassica_napus_Sweden_2005","HA","survey","Empis_sp","morphospecies","other_flies",1,NA,NA,NA,"Measures per site: 4 visits to each field for 1 season",NA
"Riccardo_Bommarco_Brassica_napus_Sweden_2005","HA","survey","Eristalis_arbustorum","species","syrphids",1,NA,NA,NA,"Measures per site: 4 visits to each field for 1 season",NA
"Riccardo_Bommarco_Brassica_napus_Sweden_2005","HA","survey","Eristalis_arbustorum","species","syrphids",1,NA,NA,NA,"Measures per site: 4 visits to each field for 1 season",NA
"Riccardo_Bommarco_Brassica_napus_Sweden_2005","HA","survey","Eristalis_arbustorum","species","syrphids",1,NA,NA,NA,"Measures per site: 4 visits to each field for 1 season",NA
"Riccardo_Bommarco_Brassica_napus_Sweden_2005","HA","survey","gen_sp","genus","syrphids",1,NA,NA,NA,"Measures per site: 4 visits to each field for 1 season",NA
"Riccardo_Bommarco_Brassica_napus_Sweden_2005","HA","survey","gen_sp","genus","syrphids",1,NA,NA,NA,"Measures per site: 4 visits to each field for 1 season",NA
"Riccardo_Bommarco_Brassica_napus_Sweden_2005","HI","survey","Apis_mellifera","species","honeybees",1,NA,NA,NA,"Measures per site: 4 visits to each field for 1 season",NA
"Riccardo_Bommarco_Brassica_napus_Sweden_2005","HI","survey","Apis_mellifera","species","honeybees",3,NA,NA,NA,"Measures per site: 4 visits to each field for 1 season",NA
"Riccardo_Bommarco_Brassica_napus_Sweden_2005","HI","survey","Apis_mellifera","species","honeybees",3,NA,NA,NA,"Measures per site: 4 visits to each field for 1 season",NA
"Riccardo_Bommarco_Brassica_napus_Sweden_2005","HI","survey","Apis_mellifera","species","honeybees",2,NA,NA,NA,"Measures per site: 4 visits to each field for 1 season",NA
"Riccardo_Bommarco_Brassica_napus_Sweden_2005","HI","survey","Apis_mellifera","species","honeybees",2,NA,NA,NA,"Measures per site: 4 visits to each field for 1 season",NA
"Riccardo_Bommarco_Brassica_napus_Sweden_2005","HI","survey","Apis_mellifera","species","honeybees",2,NA,NA,NA,"Measures per site: 4 visits to each field for 1 season",NA
"Riccardo_Bommarco_Brassica_napus_Sweden_2005","HI","survey","Apis_mellifera","species","honeybees",1,NA,NA,NA,"Measures per site: 4 visits to each field for 1 season",NA
"Riccardo_Bommarco_Brassica_napus_Sweden_2005","HI","survey","Apis_mellifera","species","honeybees",3,NA,NA,NA,"Measures per site: 4 visits to each field for 1 season",NA
"Riccardo_Bommarco_Brassica_napus_Sweden_2005","HI","survey","Apis_mellifera","species","honeybees",7,NA,NA,NA,"Measures per site: 4 visits to each field for 1 season",NA
"Riccardo_Bommarco_Brassica_napus_Sweden_2005","HI","survey","Apis_mellifera","species","honeybees",11,NA,NA,NA,"Measures per site: 4 visits to each field for 1 season",NA
"Riccardo_Bommarco_Brassica_napus_Sweden_2005","HI","survey","Apis_mellifera","species","honeybees",21,NA,NA,NA,"Measures per site: 4 visits to each field for 1 season",NA
"Riccardo_Bommarco_Brassica_napus_Sweden_2005","HI","survey","Apis_mellifera","species","honeybees",13,NA,NA,NA,"Measures per site: 4 visits to each field for 1 season",NA
"Riccardo_Bommarco_Brassica_napus_Sweden_2005","HI","survey","Apis_mellifera","species","honeybees",14,NA,NA,NA,"Measures per site: 4 visits to each field for 1 season",NA
"Riccardo_Bommarco_Brassica_napus_Sweden_2005","HI","survey","Apis_mellifera","species","honeybees",9,NA,NA,NA,"Measures per site: 4 visits to each field for 1 season",NA
"Riccardo_Bommarco_Brassica_napus_Sweden_2005","HI","survey","Apis_mellifera","species","honeybees",5,NA,NA,NA,"Measures per site: 4 visits to each field for 1 season",NA
"Riccardo_Bommarco_Brassica_napus_Sweden_2005","HI","survey","Apis_mellifera","species","honeybees",7,NA,NA,NA,"Measures per site: 4 visits to each field for 1 season",NA
"Riccardo_Bommarco_Brassica_napus_Sweden_2005","HI","survey","Apis_mellifera","species","honeybees",6,NA,NA,NA,"Measures per site: 4 visits to each field for 1 season",NA
"Riccardo_Bommarco_Brassica_napus_Sweden_2005","HI","survey","Apis_mellifera","species","honeybees",8,NA,NA,NA,"Measures per site: 4 visits to each field for 1 season",NA
"Riccardo_Bommarco_Brassica_napus_Sweden_2005","HI","survey","Apis_mellifera","species","honeybees",10,NA,NA,NA,"Measures per site: 4 visits to each field for 1 season",NA
"Riccardo_Bommarco_Brassica_napus_Sweden_2005","HI","survey","Apis_mellifera","species","honeybees",22,NA,NA,NA,"Measures per site: 4 visits to each field for 1 season",NA
"Riccardo_Bommarco_Brassica_napus_Sweden_2005","HI","survey","Bombus_lapidarius","species","bumblebees",1,NA,NA,NA,"Measures per site: 4 visits to each field for 1 season",NA
"Riccardo_Bommarco_Brassica_napus_Sweden_2005","HI","survey","Bombus_lapidarius","species","bumblebees",1,NA,NA,NA,"Measures per site: 4 visits to each field for 1 season",NA
"Riccardo_Bommarco_Brassica_napus_Sweden_2005","HI","survey","Bombus_lapidarius","species","bumblebees",1,NA,NA,NA,"Measures per site: 4 visits to each field for 1 season",NA
"Riccardo_Bommarco_Brassica_napus_Sweden_2005","HI","survey","Bombus_lapidarius","species","bumblebees",1,NA,NA,NA,"Measures per site: 4 visits to each field for 1 season",NA
"Riccardo_Bommarco_Brassica_napus_Sweden_2005","HI","survey","Bombus_lapidarius","species","bumblebees",1,NA,NA,NA,"Measures per site: 4 visits to each field for 1 season",NA
"Riccardo_Bommarco_Brassica_napus_Sweden_2005","HI","survey","Bombus_lapidarius","species","bumblebees",2,NA,NA,NA,"Measures per site: 4 visits to each field for 1 season",NA
"Riccardo_Bommarco_Brassica_napus_Sweden_2005","HI","survey","Bombus_lapidarius","species","bumblebees",1,NA,NA,NA,"Measures per site: 4 visits to each field for 1 season",NA
"Riccardo_Bommarco_Brassica_napus_Sweden_2005","HI","survey","Bombus_lapidarius","species","bumblebees",1,NA,NA,NA,"Measures per site: 4 visits to each field for 1 season",NA
"Riccardo_Bommarco_Brassica_napus_Sweden_2005","HI","survey","Bombus_lucorum","species","bumblebees",1,NA,NA,NA,"Measures per site: 4 visits to each field for 1 season",NA
"Riccardo_Bommarco_Brassica_napus_Sweden_2005","HI","survey","Bombus_lucorum","species","bumblebees",1,NA,NA,NA,"Measures per site: 4 visits to each field for 1 season",NA
"Riccardo_Bommarco_Brassica_napus_Sweden_2005","HI","survey","Bombus_lucorum","species","bumblebees",1,NA,NA,NA,"Measures per site: 4 visits to each field for 1 season",NA
"Riccardo_Bommarco_Brassica_napus_Sweden_2005","HI","survey","Bombus_lucorum","species","bumblebees",1,NA,NA,NA,"Measures per site: 4 visits to each field for 1 season",NA
"Riccardo_Bommarco_Brassica_napus_Sweden_2005","HI","survey","Bombus_lucorum","species","bumblebees",1,NA,NA,NA,"Measures per site: 4 visits to each field for 1 season",NA
"Riccardo_Bommarco_Brassica_napus_Sweden_2005","HI","survey","Bombus_soroeensis","species","bumblebees",3,NA,NA,NA,"Measures per site: 4 visits to each field for 1 season",NA
"Riccardo_Bommarco_Brassica_napus_Sweden_2005","HI","survey","Bombus_terrestris","species","bumblebees",2,NA,NA,NA,"Measures per site: 4 visits to each field for 1 season",NA
"Riccardo_Bommarco_Brassica_napus_Sweden_2005","HI","survey","Bombus_terrestris","species","bumblebees",1,NA,NA,NA,"Measures per site: 4 visits to each field for 1 season",NA
"Riccardo_Bommarco_Brassica_napus_Sweden_2005","HI","survey","Bombus_terrestris","species","bumblebees",1,NA,NA,NA,"Measures per site: 4 visits to each field for 1 season",NA
"Riccardo_Bommarco_Brassica_napus_Sweden_2005","HI","survey","Bombus_terrestris","species","bumblebees",1,NA,NA,NA,"Measures per site: 4 visits to each field for 1 season",NA
"Riccardo_Bommarco_Brassica_napus_Sweden_2005","HI","survey","Bombus_terrestris","species","bumblebees",1,NA,NA,NA,"Measures per site: 4 visits to each field for 1 season",NA
"Riccardo_Bommarco_Brassica_napus_Sweden_2005","HI","survey","Empis_sp","morphospecies","other_flies",1,NA,NA,NA,"Measures per site: 4 visits to each field for 1 season",NA
"Riccardo_Bommarco_Brassica_napus_Sweden_2005","HI","survey","Episyrphus_balteatus","species","syrphids",1,NA,NA,NA,"Measures per site: 4 visits to each field for 1 season",NA
"Riccardo_Bommarco_Brassica_napus_Sweden_2005","HI","survey","Episyrphus_balteatus","species","syrphids",1,NA,NA,NA,"Measures per site: 4 visits to each field for 1 season",NA
"Riccardo_Bommarco_Brassica_napus_Sweden_2005","HI","survey","Episyrphus_balteatus","species","syrphids",1,NA,NA,NA,"Measures per site: 4 visits to each field for 1 season",NA
"Riccardo_Bommarco_Brassica_napus_Sweden_2005","HI","survey","Episyrphus_balteatus","species","syrphids",1,NA,NA,NA,"Measures per site: 4 visits to each field for 1 season",NA
"Riccardo_Bommarco_Brassica_napus_Sweden_2005","HI","survey","Episyrphus_balteatus","species","syrphids",1,NA,NA,NA,"Measures per site: 4 visits to each field for 1 season",NA
"Riccardo_Bommarco_Brassica_napus_Sweden_2005","HI","survey","Episyrphus_balteatus","species","syrphids",1,NA,NA,NA,"Measures per site: 4 visits to each field for 1 season",NA
"Riccardo_Bommarco_Brassica_napus_Sweden_2005","HI","survey","Eristalis_arbustorum","species","syrphids",1,NA,NA,NA,"Measures per site: 4 visits to each field for 1 season",NA
"Riccardo_Bommarco_Brassica_napus_Sweden_2005","HI","survey","Eristalis_arbustorum","species","syrphids",1,NA,NA,NA,"Measures per site: 4 visits to each field for 1 season",NA
"Riccardo_Bommarco_Brassica_napus_Sweden_2005","HI","survey","Eristalis_arbustorum","species","syrphids",1,NA,NA,NA,"Measures per site: 4 visits to each field for 1 season",NA
"Riccardo_Bommarco_Brassica_napus_Sweden_2005","HI","survey","Eristalis_arbustorum","species","syrphids",1,NA,NA,NA,"Measures per site: 4 visits to each field for 1 season",NA
"Riccardo_Bommarco_Brassica_napus_Sweden_2005","HI","survey","Eristalis_tenax","species","syrphids",1,NA,NA,NA,"Measures per site: 4 visits to each field for 1 season",NA
"Riccardo_Bommarco_Brassica_napus_Sweden_2005","HI","survey","Eupeodes_corollae","species","syrphids",1,NA,NA,NA,"Measures per site: 4 visits to each field for 1 season",NA
"Riccardo_Bommarco_Brassica_napus_Sweden_2005","HI","survey","Eupeodes_corollae","species","syrphids",1,NA,NA,NA,"Measures per site: 4 visits to each field for 1 season",NA
"Riccardo_Bommarco_Brassica_napus_Sweden_2005","HI","survey","gen_sp","genus","syrphids",1,NA,NA,NA,"Measures per site: 4 visits to each field for 1 season",NA
"Riccardo_Bommarco_Brassica_napus_Sweden_2005","HI","survey","gen_sp","genus","syrphids",1,NA,NA,NA,"Measures per site: 4 visits to each field for 1 season",NA
"Riccardo_Bommarco_Brassica_napus_Sweden_2005","HI","survey","gen_sp","genus","syrphids",1,NA,NA,NA,"Measures per site: 4 visits to each field for 1 season",NA
"Riccardo_Bommarco_Brassica_napus_Sweden_2005","HI","survey","gen_sp","genus","syrphids",1,NA,NA,NA,"Measures per site: 4 visits to each field for 1 season",NA
"Riccardo_Bommarco_Brassica_napus_Sweden_2005","HI","survey","gen_sp","genus","syrphids",1,NA,NA,NA,"Measures per site: 4 visits to each field for 1 season",NA
"Riccardo_Bommarco_Brassica_napus_Sweden_2005","HI","survey","gen_sp","genus","syrphids",1,NA,NA,NA,"Measures per site: 4 visits to each field for 1 season",NA
"Riccardo_Bommarco_Brassica_napus_Sweden_2005","HI","survey","gen_sp","genus","syrphids",2,NA,NA,NA,"Measures per site: 4 visits to each field for 1 season",NA
"Riccardo_Bommarco_Brassica_napus_Sweden_2005","HI","survey","gen_sp","genus","other_wild_bees",1,NA,NA,NA,"Measures per site: 4 visits to each field for 1 season",NA
"Riccardo_Bommarco_Brassica_napus_Sweden_2005","HI","survey","gen_sp","genus","other_wild_bees",1,NA,NA,NA,"Measures per site: 4 visits to each field for 1 season",NA
"Riccardo_Bommarco_Brassica_napus_Sweden_2005","HI","survey","Helophilus_pendulus","species","syrphids",1,NA,NA,NA,"Measures per site: 4 visits to each field for 1 season",NA
"Riccardo_Bommarco_Brassica_napus_Sweden_2005","HI","survey","Melanogaster_aerosa","species","syrphids",1,NA,NA,NA,"Measures per site: 4 visits to each field for 1 season",NA
"Riccardo_Bommarco_Brassica_napus_Sweden_2005","HI","survey","Melanostoma_mellinum","species","syrphids",2,NA,NA,NA,"Measures per site: 4 visits to each field for 1 season",NA
"Riccardo_Bommarco_Brassica_napus_Sweden_2005","HI","survey","Melanostoma_mellinum","species","syrphids",1,NA,NA,NA,"Measures per site: 4 visits to each field for 1 season",NA
"Riccardo_Bommarco_Brassica_napus_Sweden_2005","HI","survey","Platycheirus_nielseni","species","syrphids",1,NA,NA,NA,"Measures per site: 4 visits to each field for 1 season",NA
"Riccardo_Bommarco_Brassica_napus_Sweden_2005","HI","survey","Platycheirus_peltatus","species","syrphids",1,NA,NA,NA,"Measures per site: 4 visits to each field for 1 season",NA
"Riccardo_Bommarco_Brassica_napus_Sweden_2005","HI","survey","Platycheirus_peltatus","species","syrphids",1,NA,NA,NA,"Measures per site: 4 visits to each field for 1 season",NA
"Riccardo_Bommarco_Brassica_napus_Sweden_2005","HI","survey","Platycheirus_scambus","species","syrphids",1,NA,NA,NA,"Measures per site: 4 visits to each field for 1 season",NA
"Riccardo_Bommarco_Brassica_napus_Sweden_2005","HI","survey","Scaeva_pyrastri","species","syrphids",1,NA,NA,NA,"Measures per site: 4 visits to each field for 1 season",NA
"Riccardo_Bommarco_Brassica_napus_Sweden_2005","HI","survey","Sericomyia_silentis","species","syrphids",1,NA,NA,NA,"Measures per site: 4 visits to each field for 1 season",NA
"Riccardo_Bommarco_Brassica_napus_Sweden_2005","HI","survey","Sphaerophoria_batava","species","syrphids",1,NA,NA,NA,"Measures per site: 4 visits to each field for 1 season",NA
"Riccardo_Bommarco_Brassica_napus_Sweden_2005","HI","survey","Sphaerophoria_batava","species","syrphids",1,NA,NA,NA,"Measures per site: 4 visits to each field for 1 season",NA
"Riccardo_Bommarco_Brassica_napus_Sweden_2005","HI","survey","Sphaerophoria_batava","species","syrphids",2,NA,NA,NA,"Measures per site: 4 visits to each field for 1 season",NA
"Riccardo_Bommarco_Brassica_napus_Sweden_2005","HI","survey","Sphaerophoria_scripta","species","syrphids",1,NA,NA,NA,"Measures per site: 4 visits to each field for 1 season",NA
"Riccardo_Bommarco_Brassica_napus_Sweden_2005","HI","survey","Sphaerophoria_sp","morphospecies","syrphids",1,NA,NA,NA,"Measures per site: 4 visits to each field for 1 season",NA
"Riccardo_Bommarco_Brassica_napus_Sweden_2005","HI","survey","Syritta_pipiens","species","syrphids",3,NA,NA,NA,"Measures per site: 4 visits to each field for 1 season",NA
"Riccardo_Bommarco_Brassica_napus_Sweden_2005","HI","survey","Syritta_pipiens","species","syrphids",1,NA,NA,NA,"Measures per site: 4 visits to each field for 1 season",NA
"Riccardo_Bommarco_Brassica_napus_Sweden_2005","HI","survey","Syritta_pipiens","species","syrphids",1,NA,NA,NA,"Measures per site: 4 visits to each field for 1 season",NA
"Riccardo_Bommarco_Brassica_napus_Sweden_2005","HI","survey","Syrphus_ribesii","species","syrphids",1,NA,NA,NA,"Measures per site: 4 visits to each field for 1 season",NA
"Riccardo_Bommarco_Brassica_napus_Sweden_2005","HI","survey","Syrphus_vitripennis","species","syrphids",1,NA,NA,NA,"Measures per site: 4 visits to each field for 1 season",NA
"Riccardo_Bommarco_Brassica_napus_Sweden_2005","HI","survey","Xylota_tarda","species","syrphids",1,NA,NA,NA,"Measures per site: 4 visits to each field for 1 season",NA
"Riccardo_Bommarco_Brassica_napus_Sweden_2005","HU","survey","Aglais_urticae","species","lepidoptera",3,NA,NA,NA,"Measures per site: 4 visits to each field for 1 season",NA
"Riccardo_Bommarco_Brassica_napus_Sweden_2005","HU","survey","Apis_mellifera","species","honeybees",1,NA,NA,NA,"Measures per site: 4 visits to each field for 1 season",NA
"Riccardo_Bommarco_Brassica_napus_Sweden_2005","HU","survey","Apis_mellifera","species","honeybees",12,NA,NA,NA,"Measures per site: 4 visits to each field for 1 season",NA
"Riccardo_Bommarco_Brassica_napus_Sweden_2005","HU","survey","Apis_mellifera","species","honeybees",27,NA,NA,NA,"Measures per site: 4 visits to each field for 1 season",NA
"Riccardo_Bommarco_Brassica_napus_Sweden_2005","HU","survey","Apis_mellifera","species","honeybees",7,NA,NA,NA,"Measures per site: 4 visits to each field for 1 season",NA
"Riccardo_Bommarco_Brassica_napus_Sweden_2005","HU","survey","Apis_mellifera","species","honeybees",19,NA,NA,NA,"Measures per site: 4 visits to each field for 1 season",NA
"Riccardo_Bommarco_Brassica_napus_Sweden_2005","HU","survey","Apis_mellifera","species","honeybees",19,NA,NA,NA,"Measures per site: 4 visits to each field for 1 season",NA
"Riccardo_Bommarco_Brassica_napus_Sweden_2005","HU","survey","Apis_mellifera","species","honeybees",44,NA,NA,NA,"Measures per site: 4 visits to each field for 1 season",NA
"Riccardo_Bommarco_Brassica_napus_Sweden_2005","HU","survey","Apis_mellifera","species","honeybees",21,NA,NA,NA,"Measures per site: 4 visits to each field for 1 season",NA
"Riccardo_Bommarco_Brassica_napus_Sweden_2005","HU","survey","Apis_mellifera","species","honeybees",19,NA,NA,NA,"Measures per site: 4 visits to each field for 1 season",NA
"Riccardo_Bommarco_Brassica_napus_Sweden_2005","HU","survey","Apis_mellifera","species","honeybees",36,NA,NA,NA,"Measures per site: 4 visits to each field for 1 season",NA
"Riccardo_Bommarco_Brassica_napus_Sweden_2005","HU","survey","Apis_mellifera","species","honeybees",36,NA,NA,NA,"Measures per site: 4 visits to each field for 1 season",NA
"Riccardo_Bommarco_Brassica_napus_Sweden_2005","HU","survey","Apis_mellifera","species","honeybees",9,NA,NA,NA,"Measures per site: 4 visits to each field for 1 season",NA
"Riccardo_Bommarco_Brassica_napus_Sweden_2005","HU","survey","Apis_mellifera","species","honeybees",10,NA,NA,NA,"Measures per site: 4 visits to each field for 1 season",NA
"Riccardo_Bommarco_Brassica_napus_Sweden_2005","HU","survey","Apis_mellifera","species","honeybees",4,NA,NA,NA,"Measures per site: 4 visits to each field for 1 season",NA
"Riccardo_Bommarco_Brassica_napus_Sweden_2005","HU","survey","Apis_mellifera","species","honeybees",4,NA,NA,NA,"Measures per site: 4 visits to each field for 1 season",NA
"Riccardo_Bommarco_Brassica_napus_Sweden_2005","HU","survey","Apis_mellifera","species","honeybees",5,NA,NA,NA,"Measures per site: 4 visits to each field for 1 season",NA
"Riccardo_Bommarco_Brassica_napus_Sweden_2005","HU","survey","Apis_mellifera","species","honeybees",9,NA,NA,NA,"Measures per site: 4 visits to each field for 1 season",NA
"Riccardo_Bommarco_Brassica_napus_Sweden_2005","HU","survey","Apis_mellifera","species","honeybees",2,NA,NA,NA,"Measures per site: 4 visits to each field for 1 season",NA
"Riccardo_Bommarco_Brassica_napus_Sweden_2005","HU","survey","Apis_mellifera","species","honeybees",7,NA,NA,NA,"Measures per site: 4 visits to each field for 1 season",NA
"Riccardo_Bommarco_Brassica_napus_Sweden_2005","HU","survey","Apis_mellifera","species","honeybees",6,NA,NA,NA,"Measures per site: 4 visits to each field for 1 season",NA
"Riccardo_Bommarco_Brassica_napus_Sweden_2005","HU","survey","Apis_mellifera","species","honeybees",4,NA,NA,NA,"Measures per site: 4 visits to each field for 1 season",NA
"Riccardo_Bommarco_Brassica_napus_Sweden_2005","HU","survey","Apis_mellifera","species","honeybees",4,NA,NA,NA,"Measures per site: 4 visits to each field for 1 season",NA
"Riccardo_Bommarco_Brassica_napus_Sweden_2005","HU","survey","Apis_mellifera","species","honeybees",6,NA,NA,NA,"Measures per site: 4 visits to each field for 1 season",NA
"Riccardo_Bommarco_Brassica_napus_Sweden_2005","HU","survey","Apis_mellifera","species","honeybees",42,NA,NA,NA,"Measures per site: 4 visits to each field for 1 season",NA
"Riccardo_Bommarco_Brassica_napus_Sweden_2005","HU","survey","Bombus_lapidarius","species","bumblebees",1,NA,NA,NA,"Measures per site: 4 visits to each field for 1 season",NA
"Riccardo_Bommarco_Brassica_napus_Sweden_2005","HU","survey","Bombus_lapidarius","species","bumblebees",1,NA,NA,NA,"Measures per site: 4 visits to each field for 1 season",NA
"Riccardo_Bommarco_Brassica_napus_Sweden_2005","HU","survey","Bombus_sp","morphospecies","bumblebees",1,NA,NA,NA,"Measures per site: 4 visits to each field for 1 season",NA
"Riccardo_Bommarco_Brassica_napus_Sweden_2005","HU","survey","Bombus_sp","morphospecies","bumblebees",1,NA,NA,NA,"Measures per site: 4 visits to each field for 1 season",NA
"Riccardo_Bommarco_Brassica_napus_Sweden_2005","HU","survey","Bombus_sp","morphospecies","bumblebees",1,NA,NA,NA,"Measures per site: 4 visits to each field for 1 season",NA
"Riccardo_Bommarco_Brassica_napus_Sweden_2005","HU","survey","Bombus_terrestris","species","bumblebees",1,NA,NA,NA,"Measures per site: 4 visits to each field for 1 season",NA
"Riccardo_Bommarco_Brassica_napus_Sweden_2005","HU","survey","Dasysyrphus_hilaris","species","syrphids",1,NA,NA,NA,"Measures per site: 4 visits to each field for 1 season",NA
"Riccardo_Bommarco_Brassica_napus_Sweden_2005","HU","survey","Empis_sp","morphospecies","other_flies",2,NA,NA,NA,"Measures per site: 4 visits to each field for 1 season",NA
"Riccardo_Bommarco_Brassica_napus_Sweden_2005","HU","survey","Empis_sp","morphospecies","other_flies",1,NA,NA,NA,"Measures per site: 4 visits to each field for 1 season",NA
"Riccardo_Bommarco_Brassica_napus_Sweden_2005","HU","survey","Empis_sp","morphospecies","other_flies",2,NA,NA,NA,"Measures per site: 4 visits to each field for 1 season",NA
"Riccardo_Bommarco_Brassica_napus_Sweden_2005","HU","survey","Eristalis_arbustorum","species","syrphids",1,NA,NA,NA,"Measures per site: 4 visits to each field for 1 season",NA
"Riccardo_Bommarco_Brassica_napus_Sweden_2005","HU","survey","Eristalis_arbustorum","species","syrphids",1,NA,NA,NA,"Measures per site: 4 visits to each field for 1 season",NA
"Riccardo_Bommarco_Brassica_napus_Sweden_2005","HU","survey","Eristalis_arbustorum","species","syrphids",1,NA,NA,NA,"Measures per site: 4 visits to each field for 1 season",NA
"Riccardo_Bommarco_Brassica_napus_Sweden_2005","HU","survey","Eristalis_arbustorum","species","syrphids",1,NA,NA,NA,"Measures per site: 4 visits to each field for 1 season",NA
"Riccardo_Bommarco_Brassica_napus_Sweden_2005","HU","survey","Eristalis_arbustorum","species","syrphids",1,NA,NA,NA,"Measures per site: 4 visits to each field for 1 season",NA
"Riccardo_Bommarco_Brassica_napus_Sweden_2005","HU","survey","Eristalis_interrupta","species","syrphids",3,NA,NA,NA,"Measures per site: 4 visits to each field for 1 season",NA
"Riccardo_Bommarco_Brassica_napus_Sweden_2005","HU","survey","gen_sp","genus","syrphids",2,NA,NA,NA,"Measures per site: 4 visits to each field for 1 season",NA
"Riccardo_Bommarco_Brassica_napus_Sweden_2005","HU","survey","gen_sp","genus","syrphids",2,NA,NA,NA,"Measures per site: 4 visits to each field for 1 season",NA
"Riccardo_Bommarco_Brassica_napus_Sweden_2005","HU","survey","gen_sp","genus","syrphids",2,NA,NA,NA,"Measures per site: 4 visits to each field for 1 season",NA
"Riccardo_Bommarco_Brassica_napus_Sweden_2005","HU","survey","gen_sp","genus","syrphids",2,NA,NA,NA,"Measures per site: 4 visits to each field for 1 season",NA
"Riccardo_Bommarco_Brassica_napus_Sweden_2005","HU","survey","gen_sp","genus","syrphids",1,NA,NA,NA,"Measures per site: 4 visits to each field for 1 season",NA
"Riccardo_Bommarco_Brassica_napus_Sweden_2005","HU","survey","gen_sp","genus","syrphids",1,NA,NA,NA,"Measures per site: 4 visits to each field for 1 season",NA
"Riccardo_Bommarco_Brassica_napus_Sweden_2005","HU","survey","gen_sp","genus","syrphids",1,NA,NA,NA,"Measures per site: 4 visits to each field for 1 season",NA
"Riccardo_Bommarco_Brassica_napus_Sweden_2005","HU","survey","gen_sp","genus","other_wild_bees",1,NA,NA,NA,"Measures per site: 4 visits to each field for 1 season",NA
"Riccardo_Bommarco_Brassica_napus_Sweden_2005","HU","survey","Syritta_pipiens","species","syrphids",2,NA,NA,NA,"Measures per site: 4 visits to each field for 1 season",NA
"Riccardo_Bommarco_Brassica_napus_Sweden_2005","L","survey","Aglais_urticae","species","lepidoptera",1,NA,NA,NA,"Measures per site: 4 visits to each field for 1 season",NA
"Riccardo_Bommarco_Brassica_napus_Sweden_2005","L","survey","Apis_mellifera","species","honeybees",2,NA,NA,NA,"Measures per site: 4 visits to each field for 1 season",NA
"Riccardo_Bommarco_Brassica_napus_Sweden_2005","L","survey","Apis_mellifera","species","honeybees",1,NA,NA,NA,"Measures per site: 4 visits to each field for 1 season",NA
"Riccardo_Bommarco_Brassica_napus_Sweden_2005","L","survey","Apis_mellifera","species","honeybees",1,NA,NA,NA,"Measures per site: 4 visits to each field for 1 season",NA
"Riccardo_Bommarco_Brassica_napus_Sweden_2005","L","survey","Bombus_sp","morphospecies","bumblebees",1,NA,NA,NA,"Measures per site: 4 visits to each field for 1 season",NA
"Riccardo_Bommarco_Brassica_napus_Sweden_2005","L","survey","Bombus_sp","morphospecies","bumblebees",1,NA,NA,NA,"Measures per site: 4 visits to each field for 1 season",NA
"Riccardo_Bommarco_Brassica_napus_Sweden_2005","L","survey","Bombus_sp","morphospecies","bumblebees",1,NA,NA,NA,"Measures per site: 4 visits to each field for 1 season",NA
"Riccardo_Bommarco_Brassica_napus_Sweden_2005","L","survey","Bombus_sp","morphospecies","bumblebees",2,NA,NA,NA,"Measures per site: 4 visits to each field for 1 season",NA
"Riccardo_Bommarco_Brassica_napus_Sweden_2005","L","survey","Bombus_sp","morphospecies","bumblebees",3,NA,NA,NA,"Measures per site: 4 visits to each field for 1 season",NA
"Riccardo_Bommarco_Brassica_napus_Sweden_2005","L","survey","Bombus_terrestris","species","bumblebees",2,NA,NA,NA,"Measures per site: 4 visits to each field for 1 season",NA
"Riccardo_Bommarco_Brassica_napus_Sweden_2005","L","survey","Bombus_terrestris","species","bumblebees",2,NA,NA,NA,"Measures per site: 4 visits to each field for 1 season",NA
"Riccardo_Bommarco_Brassica_napus_Sweden_2005","L","survey","Bombus_terrestris","species","bumblebees",2,NA,NA,NA,"Measures per site: 4 visits to each field for 1 season",NA
"Riccardo_Bommarco_Brassica_napus_Sweden_2005","L","survey","gen_sp","genus","syrphids",1,NA,NA,NA,"Measures per site: 4 visits to each field for 1 season",NA
"Riccardo_Bommarco_Brassica_napus_Sweden_2005","L","survey","Sphaerophoria_scripta","species","syrphids",1,NA,NA,NA,"Measures per site: 4 visits to each field for 1 season",NA
"Riccardo_Bommarco_Brassica_napus_Sweden_2005","L","survey","Sphaerophoria_sp","morphospecies","syrphids",1,NA,NA,NA,"Measures per site: 4 visits to each field for 1 season",NA
"Riccardo_Bommarco_Brassica_napus_Sweden_2005","R","survey","Apis_mellifera","species","honeybees",1,NA,NA,NA,"Measures per site: 4 visits to each field for 1 season",NA
"Riccardo_Bommarco_Brassica_napus_Sweden_2005","R","survey","Bombus_terrestris","species","bumblebees",1,NA,NA,NA,"Measures per site: 4 visits to each field for 1 season",NA
"Riccardo_Bommarco_Brassica_napus_Sweden_2005","R","survey","Bombus_terrestris","species","bumblebees",1,NA,NA,NA,"Measures per site: 4 visits to each field for 1 season",NA
"Riccardo_Bommarco_Brassica_napus_Sweden_2005","R","survey","Bombus_terrestris","species","bumblebees",1,NA,NA,NA,"Measures per site: 4 visits to each field for 1 season",NA
"Riccardo_Bommarco_Brassica_napus_Sweden_2005","R","survey","Bombus_terrestris","species","bumblebees",1,NA,NA,NA,"Measures per site: 4 visits to each field for 1 season",NA
"Riccardo_Bommarco_Brassica_napus_Sweden_2005","R","survey","Bombus_terrestris","species","bumblebees",1,NA,NA,NA,"Measures per site: 4 visits to each field for 1 season",NA
"Riccardo_Bommarco_Brassica_napus_Sweden_2005","R","survey","Bombus_terrestris","species","bumblebees",1,NA,NA,NA,"Measures per site: 4 visits to each field for 1 season",NA
"Riccardo_Bommarco_Brassica_napus_Sweden_2005","R","survey","Bombus_terrestris","species","bumblebees",1,NA,NA,NA,"Measures per site: 4 visits to each field for 1 season",NA
"Riccardo_Bommarco_Brassica_napus_Sweden_2005","R","survey","Bombus_terrestris","species","bumblebees",1,NA,NA,NA,"Measures per site: 4 visits to each field for 1 season",NA
"Riccardo_Bommarco_Brassica_napus_Sweden_2005","R","survey","Bombus_terrestris","species","bumblebees",2,NA,NA,NA,"Measures per site: 4 visits to each field for 1 season",NA
"Riccardo_Bommarco_Brassica_napus_Sweden_2005","R","survey","gen_sp","genus","syrphids",1,NA,NA,NA,"Measures per site: 4 visits to each field for 1 season",NA
"Riccardo_Bommarco_Brassica_napus_Sweden_2005","R","survey","gen_sp","genus","syrphids",1,NA,NA,NA,"Measures per site: 4 visits to each field for 1 season",NA
"Riccardo_Bommarco_Brassica_napus_Sweden_2005","V","survey","Apis_mellifera","species","honeybees",1,NA,NA,NA,"Measures per site: 4 visits to each field for 1 season",NA
"Riccardo_Bommarco_Brassica_napus_Sweden_2005","V","survey","Apis_mellifera","species","honeybees",4,NA,NA,NA,"Measures per site: 4 visits to each field for 1 season",NA
"Riccardo_Bommarco_Brassica_napus_Sweden_2005","V","survey","Apis_mellifera","species","honeybees",2,NA,NA,NA,"Measures per site: 4 visits to each field for 1 season",NA
"Riccardo_Bommarco_Brassica_napus_Sweden_2005","V","survey","Apis_mellifera","species","honeybees",3,NA,NA,NA,"Measures per site: 4 visits to each field for 1 season",NA
"Riccardo_Bommarco_Brassica_napus_Sweden_2005","V","survey","Bombus_humilis","species","bumblebees",1,NA,NA,NA,"Measures per site: 4 visits to each field for 1 season",NA
"Riccardo_Bommarco_Brassica_napus_Sweden_2005","V","survey","Bombus_lapidarius","species","bumblebees",1,NA,NA,NA,"Measures per site: 4 visits to each field for 1 season",NA
"Riccardo_Bommarco_Brassica_napus_Sweden_2005","V","survey","Bombus_sylvanum","species","bumblebees",1,NA,NA,NA,"Measures per site: 4 visits to each field for 1 season",NA
"Riccardo_Bommarco_Brassica_napus_Sweden_2005","V","survey","Bombus_sylvanum","species","bumblebees",1,NA,NA,NA,"Measures per site: 4 visits to each field for 1 season",NA
"Riccardo_Bommarco_Brassica_napus_Sweden_2005","V","survey","Empis_sp","morphospecies","other_flies",1,NA,NA,NA,"Measures per site: 4 visits to each field for 1 season",NA
"Riccardo_Bommarco_Brassica_napus_Sweden_2005","V","survey","Episyrphus_balteatus","species","syrphids",1,NA,NA,NA,"Measures per site: 4 visits to each field for 1 season",NA
"Riccardo_Bommarco_Brassica_napus_Sweden_2005","V","survey","Eristalis_arbustorum","species","syrphids",1,NA,NA,NA,"Measures per site: 4 visits to each field for 1 season",NA
"Riccardo_Bommarco_Brassica_napus_Sweden_2005","V","survey","Eristalis_arbustorum","species","syrphids",1,NA,NA,NA,"Measures per site: 4 visits to each field for 1 season",NA
"Riccardo_Bommarco_Brassica_napus_Sweden_2005","V","survey","Eupeodes_corollae","species","syrphids",1,NA,NA,NA,"Measures per site: 4 visits to each field for 1 season",NA
"Riccardo_Bommarco_Brassica_napus_Sweden_2005","V","survey","Eupeodes_corollae","species","syrphids",1,NA,NA,NA,"Measures per site: 4 visits to each field for 1 season",NA
"Riccardo_Bommarco_Brassica_napus_Sweden_2005","V","survey","Eupeodes_corollae","species","syrphids",1,NA,NA,NA,"Measures per site: 4 visits to each field for 1 season",NA
"Riccardo_Bommarco_Brassica_napus_Sweden_2005","V","survey","gen_sp","genus","syrphids",1,NA,NA,NA,"Measures per site: 4 visits to each field for 1 season",NA
"Riccardo_Bommarco_Brassica_napus_Sweden_2005","V","survey","gen_sp","genus","syrphids",1,NA,NA,NA,"Measures per site: 4 visits to each field for 1 season",NA
"Riccardo_Bommarco_Brassica_napus_Sweden_2005","V","survey","gen_sp","genus","syrphids",1,NA,NA,NA,"Measures per site: 4 visits to each field for 1 season",NA
"Riccardo_Bommarco_Brassica_napus_Sweden_2005","V","survey","gen_sp","genus","syrphids",1,NA,NA,NA,"Measures per site: 4 visits to each field for 1 season",NA
"Riccardo_Bommarco_Brassica_napus_Sweden_2005","V","survey","gen_sp","genus","syrphids",1,NA,NA,NA,"Measures per site: 4 visits to each field for 1 season",NA
"Riccardo_Bommarco_Brassica_napus_Sweden_2005","V","survey","gen_sp","genus","syrphids",1,NA,NA,NA,"Measures per site: 4 visits to each field for 1 season",NA
"Riccardo_Bommarco_Brassica_napus_Sweden_2005","V","survey","gen_sp","genus","syrphids",1,NA,NA,NA,"Measures per site: 4 visits to each field for 1 season",NA
"Riccardo_Bommarco_Brassica_napus_Sweden_2005","V","survey","gen_sp","genus","syrphids",1,NA,NA,NA,"Measures per site: 4 visits to each field for 1 season",NA
"Riccardo_Bommarco_Brassica_napus_Sweden_2005","V","survey","gen_sp","genus","syrphids",1,NA,NA,NA,"Measures per site: 4 visits to each field for 1 season",NA
"Riccardo_Bommarco_Brassica_napus_Sweden_2005","V","survey","gen_sp","genus","syrphids",1,NA,NA,NA,"Measures per site: 4 visits to each field for 1 season",NA
"Riccardo_Bommarco_Brassica_napus_Sweden_2005","V","survey","gen_sp","genus","syrphids",1,NA,NA,NA,"Measures per site: 4 visits to each field for 1 season",NA
"Riccardo_Bommarco_Brassica_napus_Sweden_2005","V","survey","gen_sp","genus","syrphids",2,NA,NA,NA,"Measures per site: 4 visits to each field for 1 season",NA
"Riccardo_Bommarco_Brassica_napus_Sweden_2005","V","survey","Helophilus_pendulus","species","syrphids",1,NA,NA,NA,"Measures per site: 4 visits to each field for 1 season",NA
"Riccardo_Bommarco_Brassica_napus_Sweden_2005","V","survey","Melanostoma_mellinum","species","syrphids",3,NA,NA,NA,"Measures per site: 4 visits to each field for 1 season",NA
"Riccardo_Bommarco_Brassica_napus_Sweden_2005","V","survey","Platycheirus_nielseni","species","syrphids",1,NA,NA,NA,"Measures per site: 4 visits to each field for 1 season",NA
"Riccardo_Bommarco_Brassica_napus_Sweden_2005","V","survey","Platycheirus_nielseni","species","syrphids",1,NA,NA,NA,"Measures per site: 4 visits to each field for 1 season",NA
"Riccardo_Bommarco_Brassica_napus_Sweden_2005","V","survey","Scaeva_pyrastri","species","syrphids",1,NA,NA,NA,"Measures per site: 4 visits to each field for 1 season",NA
"Riccardo_Bommarco_Brassica_napus_Sweden_2005","V","survey","Sphaerophoria_scripta","species","syrphids",1,NA,NA,NA,"Measures per site: 4 visits to each field for 1 season",NA
"Riccardo_Bommarco_Brassica_napus_Sweden_2009","1","transects","Apis_mellifera","species","honeybees",28,4800,NA,NA,"Four surveys per field, and surveys were conducted in three 200 x 2 m transects per field",NA
"Riccardo_Bommarco_Brassica_napus_Sweden_2009","1","transects","Apis_mellifera","species","honeybees",65,4800,NA,NA,"Four surveys per field, and surveys were conducted in three 200 x 2 m transects per field",NA
"Riccardo_Bommarco_Brassica_napus_Sweden_2009","1","transects","Apis_mellifera","species","honeybees",89,4800,NA,NA,"Four surveys per field, and surveys were conducted in three 200 x 2 m transects per field",NA
"Riccardo_Bommarco_Brassica_napus_Sweden_2009","2","transects","Apis_mellifera","species","honeybees",143,4800,NA,NA,"Four surveys per field, and surveys were conducted in three 200 x 2 m transects per field",NA
"Riccardo_Bommarco_Brassica_napus_Sweden_2009","2","transects","Apis_mellifera","species","honeybees",74,4800,NA,NA,"Four surveys per field, and surveys were conducted in three 200 x 2 m transects per field",NA
"Riccardo_Bommarco_Brassica_napus_Sweden_2009","2","transects","Apis_mellifera","species","honeybees",18,4800,NA,NA,"Four surveys per field, and surveys were conducted in three 200 x 2 m transects per field",NA
"Riccardo_Bommarco_Brassica_napus_Sweden_2009","3","transects","Apis_mellifera","species","honeybees",67,4800,NA,NA,"Four surveys per field, and surveys were conducted in three 200 x 2 m transects per field",NA
"Riccardo_Bommarco_Brassica_napus_Sweden_2009","3","transects","Apis_mellifera","species","honeybees",29,4800,NA,NA,"Four surveys per field, and surveys were conducted in three 200 x 2 m transects per field",NA
"Riccardo_Bommarco_Brassica_napus_Sweden_2009","3","transects","Apis_mellifera","species","honeybees",28,4800,NA,NA,"Four surveys per field, and surveys were conducted in three 200 x 2 m transects per field",NA
"Riccardo_Bommarco_Brassica_napus_Sweden_2009","4","transects","Apis_mellifera","species","honeybees",98,4800,NA,NA,"Four surveys per field, and surveys were conducted in three 200 x 2 m transects per field",NA
"Riccardo_Bommarco_Brassica_napus_Sweden_2009","4","transects","Apis_mellifera","species","honeybees",42,4800,NA,NA,"Four surveys per field, and surveys were conducted in three 200 x 2 m transects per field",NA
"Riccardo_Bommarco_Brassica_napus_Sweden_2009","4","transects","Apis_mellifera","species","honeybees",12,4800,NA,NA,"Four surveys per field, and surveys were conducted in three 200 x 2 m transects per field",NA
"Riccardo_Bommarco_Brassica_napus_Sweden_2009","5","transects","Apis_mellifera","species","honeybees",38,4800,NA,NA,"Four surveys per field, and surveys were conducted in three 200 x 2 m transects per field",NA
"Riccardo_Bommarco_Brassica_napus_Sweden_2009","5","transects","Apis_mellifera","species","honeybees",37,4800,NA,NA,"Four surveys per field, and surveys were conducted in three 200 x 2 m transects per field",NA
"Riccardo_Bommarco_Brassica_napus_Sweden_2009","5","transects","Apis_mellifera","species","honeybees",20,4800,NA,NA,"Four surveys per field, and surveys were conducted in three 200 x 2 m transects per field",NA
"Riccardo_Bommarco_Brassica_napus_Sweden_2009","6","transects","Apis_mellifera","species","honeybees",110,4800,NA,NA,"Four surveys per field, and surveys were conducted in three 200 x 2 m transects per field",NA
"Riccardo_Bommarco_Brassica_napus_Sweden_2009","6","transects","Apis_mellifera","species","honeybees",125,4800,NA,NA,"Four surveys per field, and surveys were conducted in three 200 x 2 m transects per field",NA
"Riccardo_Bommarco_Brassica_napus_Sweden_2009","6","transects","Apis_mellifera","species","honeybees",164,4800,NA,NA,"Four surveys per field, and surveys were conducted in three 200 x 2 m transects per field",NA
"Riccardo_Bommarco_Brassica_napus_Sweden_2009","7","transects","Apis_mellifera","species","honeybees",282,4800,NA,NA,"Four surveys per field, and surveys were conducted in three 200 x 2 m transects per field",NA
"Riccardo_Bommarco_Brassica_napus_Sweden_2009","7","transects","Apis_mellifera","species","honeybees",193,4800,NA,NA,"Four surveys per field, and surveys were conducted in three 200 x 2 m transects per field",NA
"Riccardo_Bommarco_Brassica_napus_Sweden_2009","7","transects","Apis_mellifera","species","honeybees",185,4800,NA,NA,"Four surveys per field, and surveys were conducted in three 200 x 2 m transects per field",NA
"Riccardo_Bommarco_Brassica_napus_Sweden_2009","8","transects","Apis_mellifera","species","honeybees",127,4800,NA,NA,"Four surveys per field, and surveys were conducted in three 200 x 2 m transects per field",NA
"Riccardo_Bommarco_Brassica_napus_Sweden_2009","8","transects","Apis_mellifera","species","honeybees",92,4800,NA,NA,"Four surveys per field, and surveys were conducted in three 200 x 2 m transects per field",NA
"Riccardo_Bommarco_Brassica_napus_Sweden_2009","8","transects","Apis_mellifera","species","honeybees",66,4800,NA,NA,"Four surveys per field, and surveys were conducted in three 200 x 2 m transects per field",NA
"Riccardo_Bommarco_Brassica_napus_Sweden_2009","9","transects","Apis_mellifera","species","honeybees",5,4800,NA,NA,"Four surveys per field, and surveys were conducted in three 200 x 2 m transects per field",NA
"Riccardo_Bommarco_Brassica_napus_Sweden_2009","9","transects","Apis_mellifera","species","honeybees",20,4800,NA,NA,"Four surveys per field, and surveys were conducted in three 200 x 2 m transects per field",NA
"Riccardo_Bommarco_Brassica_napus_Sweden_2009","9","transects","Apis_mellifera","species","honeybees",14,4800,NA,NA,"Four surveys per field, and surveys were conducted in three 200 x 2 m transects per field",NA
"Riccardo_Bommarco_Brassica_napus_Sweden_2009","10","transects","Apis_mellifera","species","honeybees",75,4800,NA,NA,"Four surveys per field, and surveys were conducted in three 200 x 2 m transects per field",NA
"Riccardo_Bommarco_Brassica_napus_Sweden_2009","10","transects","Apis_mellifera","species","honeybees",70,4800,NA,NA,"Four surveys per field, and surveys were conducted in three 200 x 2 m transects per field",NA
"Riccardo_Bommarco_Brassica_napus_Sweden_2009","10","transects","Apis_mellifera","species","honeybees",41,4800,NA,NA,"Four surveys per field, and surveys were conducted in three 200 x 2 m transects per field",NA
"Riccardo_Bommarco_Brassica_napus_Sweden_2009","1","transects","Bombus_spp.","genus","bumblebees",14,4800,NA,NA,"Four surveys per field, and surveys were conducted in three 200 x 2 m transects per field",NA
"Riccardo_Bommarco_Brassica_napus_Sweden_2009","1","transects","Bombus_spp.","genus","bumblebees",21,4800,NA,NA,"Four surveys per field, and surveys were conducted in three 200 x 2 m transects per field",NA
"Riccardo_Bommarco_Brassica_napus_Sweden_2009","1","transects","Bombus_spp.","genus","bumblebees",18,4800,NA,NA,"Four surveys per field, and surveys were conducted in three 200 x 2 m transects per field",NA
"Riccardo_Bommarco_Brassica_napus_Sweden_2009","2","transects","Bombus_spp.","genus","bumblebees",6,4800,NA,NA,"Four surveys per field, and surveys were conducted in three 200 x 2 m transects per field",NA
"Riccardo_Bommarco_Brassica_napus_Sweden_2009","2","transects","Bombus_spp.","genus","bumblebees",10,4800,NA,NA,"Four surveys per field, and surveys were conducted in three 200 x 2 m transects per field",NA
"Riccardo_Bommarco_Brassica_napus_Sweden_2009","2","transects","Bombus_spp.","genus","bumblebees",15,4800,NA,NA,"Four surveys per field, and surveys were conducted in three 200 x 2 m transects per field",NA
"Riccardo_Bommarco_Brassica_napus_Sweden_2009","3","transects","Bombus_spp.","genus","bumblebees",9,4800,NA,NA,"Four surveys per field, and surveys were conducted in three 200 x 2 m transects per field",NA
"Riccardo_Bommarco_Brassica_napus_Sweden_2009","3","transects","Bombus_spp.","genus","bumblebees",3,4800,NA,NA,"Four surveys per field, and surveys were conducted in three 200 x 2 m transects per field",NA
"Riccardo_Bommarco_Brassica_napus_Sweden_2009","3","transects","Bombus_spp.","genus","bumblebees",5,4800,NA,NA,"Four surveys per field, and surveys were conducted in three 200 x 2 m transects per field",NA
"Riccardo_Bommarco_Brassica_napus_Sweden_2009","4","transects","Bombus_spp.","genus","bumblebees",15,4800,NA,NA,"Four surveys per field, and surveys were conducted in three 200 x 2 m transects per field",NA
"Riccardo_Bommarco_Brassica_napus_Sweden_2009","4","transects","Bombus_spp.","genus","bumblebees",15,4800,NA,NA,"Four surveys per field, and surveys were conducted in three 200 x 2 m transects per field",NA
"Riccardo_Bommarco_Brassica_napus_Sweden_2009","4","transects","Bombus_spp.","genus","bumblebees",7,4800,NA,NA,"Four surveys per field, and surveys were conducted in three 200 x 2 m transects per field",NA
"Riccardo_Bommarco_Brassica_napus_Sweden_2009","5","transects","Bombus_spp.","genus","bumblebees",1,4800,NA,NA,"Four surveys per field, and surveys were conducted in three 200 x 2 m transects per field",NA
"Riccardo_Bommarco_Brassica_napus_Sweden_2009","5","transects","Bombus_spp.","genus","bumblebees",2,4800,NA,NA,"Four surveys per field, and surveys were conducted in three 200 x 2 m transects per field",NA
"Riccardo_Bommarco_Brassica_napus_Sweden_2009","5","transects","Bombus_spp.","genus","bumblebees",2,4800,NA,NA,"Four surveys per field, and surveys were conducted in three 200 x 2 m transects per field",NA
"Riccardo_Bommarco_Brassica_napus_Sweden_2009","6","transects","Bombus_spp.","genus","bumblebees",13,4800,NA,NA,"Four surveys per field, and surveys were conducted in three 200 x 2 m transects per field",NA
"Riccardo_Bommarco_Brassica_napus_Sweden_2009","6","transects","Bombus_spp.","genus","bumblebees",29,4800,NA,NA,"Four surveys per field, and surveys were conducted in three 200 x 2 m transects per field",NA
"Riccardo_Bommarco_Brassica_napus_Sweden_2009","6","transects","Bombus_spp.","genus","bumblebees",41,4800,NA,NA,"Four surveys per field, and surveys were conducted in three 200 x 2 m transects per field",NA
"Riccardo_Bommarco_Brassica_napus_Sweden_2009","7","transects","Bombus_spp.","genus","bumblebees",38,4800,NA,NA,"Four surveys per field, and surveys were conducted in three 200 x 2 m transects per field",NA
"Riccardo_Bommarco_Brassica_napus_Sweden_2009","7","transects","Bombus_spp.","genus","bumblebees",26,4800,NA,NA,"Four surveys per field, and surveys were conducted in three 200 x 2 m transects per field",NA
"Riccardo_Bommarco_Brassica_napus_Sweden_2009","7","transects","Bombus_spp.","genus","bumblebees",75,4800,NA,NA,"Four surveys per field, and surveys were conducted in three 200 x 2 m transects per field",NA
"Riccardo_Bommarco_Brassica_napus_Sweden_2009","8","transects","Bombus_spp.","genus","bumblebees",8,4800,NA,NA,"Four surveys per field, and surveys were conducted in three 200 x 2 m transects per field",NA
"Riccardo_Bommarco_Brassica_napus_Sweden_2009","8","transects","Bombus_spp.","genus","bumblebees",11,4800,NA,NA,"Four surveys per field, and surveys were conducted in three 200 x 2 m transects per field",NA
"Riccardo_Bommarco_Brassica_napus_Sweden_2009","8","transects","Bombus_spp.","genus","bumblebees",6,4800,NA,NA,"Four surveys per field, and surveys were conducted in three 200 x 2 m transects per field",NA
"Riccardo_Bommarco_Brassica_napus_Sweden_2009","9","transects","Bombus_spp.","genus","bumblebees",1,4800,NA,NA,"Four surveys per field, and surveys were conducted in three 200 x 2 m transects per field",NA
"Riccardo_Bommarco_Brassica_napus_Sweden_2009","9","transects","Bombus_spp.","genus","bumblebees",7,4800,NA,NA,"Four surveys per field, and surveys were conducted in three 200 x 2 m transects per field",NA
"Riccardo_Bommarco_Brassica_napus_Sweden_2009","9","transects","Bombus_spp.","genus","bumblebees",7,4800,NA,NA,"Four surveys per field, and surveys were conducted in three 200 x 2 m transects per field",NA
"Riccardo_Bommarco_Brassica_napus_Sweden_2009","10","transects","Bombus_spp.","genus","bumblebees",22,4800,NA,NA,"Four surveys per field, and surveys were conducted in three 200 x 2 m transects per field",NA
"Riccardo_Bommarco_Brassica_napus_Sweden_2009","10","transects","Bombus_spp.","genus","bumblebees",17,4800,NA,NA,"Four surveys per field, and surveys were conducted in three 200 x 2 m transects per field",NA
"Riccardo_Bommarco_Brassica_napus_Sweden_2009","10","transects","Bombus_spp.","genus","bumblebees",17,4800,NA,NA,"Four surveys per field, and surveys were conducted in three 200 x 2 m transects per field",NA
"Riccardo_Bommarco_Brassica_napus_Sweden_2009","1","transects","Lepidoptera","order","lepidoptera",1,4800,NA,NA,"Four surveys per field, and surveys were conducted in three 200 x 2 m transects per field",NA
"Riccardo_Bommarco_Brassica_napus_Sweden_2009","1","transects","Lepidoptera","order","lepidoptera",1,4800,NA,NA,"Four surveys per field, and surveys were conducted in three 200 x 2 m transects per field",NA
"Riccardo_Bommarco_Brassica_napus_Sweden_2009","1","transects","Lepidoptera","order","lepidoptera",7,4800,NA,NA,"Four surveys per field, and surveys were conducted in three 200 x 2 m transects per field",NA
"Riccardo_Bommarco_Brassica_napus_Sweden_2009","2","transects","Lepidoptera","order","lepidoptera",4,4800,NA,NA,"Four surveys per field, and surveys were conducted in three 200 x 2 m transects per field",NA
"Riccardo_Bommarco_Brassica_napus_Sweden_2009","2","transects","Lepidoptera","order","lepidoptera",3,4800,NA,NA,"Four surveys per field, and surveys were conducted in three 200 x 2 m transects per field",NA
"Riccardo_Bommarco_Brassica_napus_Sweden_2009","3","transects","Lepidoptera","order","lepidoptera",1,4800,NA,NA,"Four surveys per field, and surveys were conducted in three 200 x 2 m transects per field",NA
"Riccardo_Bommarco_Brassica_napus_Sweden_2009","3","transects","Lepidoptera","order","lepidoptera",1,4800,NA,NA,"Four surveys per field, and surveys were conducted in three 200 x 2 m transects per field",NA
"Riccardo_Bommarco_Brassica_napus_Sweden_2009","4","transects","Lepidoptera","order","lepidoptera",1,4800,NA,NA,"Four surveys per field, and surveys were conducted in three 200 x 2 m transects per field",NA
"Riccardo_Bommarco_Brassica_napus_Sweden_2009","5","transects","Lepidoptera","order","lepidoptera",1,4800,NA,NA,"Four surveys per field, and surveys were conducted in three 200 x 2 m transects per field",NA
"Riccardo_Bommarco_Brassica_napus_Sweden_2009","5","transects","Lepidoptera","order","lepidoptera",2,4800,NA,NA,"Four surveys per field, and surveys were conducted in three 200 x 2 m transects per field",NA
"Riccardo_Bommarco_Brassica_napus_Sweden_2009","6","transects","Lepidoptera","order","lepidoptera",1,4800,NA,NA,"Four surveys per field, and surveys were conducted in three 200 x 2 m transects per field",NA
"Riccardo_Bommarco_Brassica_napus_Sweden_2009","6","transects","Lepidoptera","order","lepidoptera",1,4800,NA,NA,"Four surveys per field, and surveys were conducted in three 200 x 2 m transects per field",NA
"Riccardo_Bommarco_Brassica_napus_Sweden_2009","6","transects","Lepidoptera","order","lepidoptera",2,4800,NA,NA,"Four surveys per field, and surveys were conducted in three 200 x 2 m transects per field",NA
"Riccardo_Bommarco_Brassica_napus_Sweden_2009","7","transects","Lepidoptera","order","lepidoptera",2,4800,NA,NA,"Four surveys per field, and surveys were conducted in three 200 x 2 m transects per field",NA
"Riccardo_Bommarco_Brassica_napus_Sweden_2009","7","transects","Lepidoptera","order","lepidoptera",3,4800,NA,NA,"Four surveys per field, and surveys were conducted in three 200 x 2 m transects per field",NA
"Riccardo_Bommarco_Brassica_napus_Sweden_2009","8","transects","Lepidoptera","order","lepidoptera",1,4800,NA,NA,"Four surveys per field, and surveys were conducted in three 200 x 2 m transects per field",NA
"Riccardo_Bommarco_Brassica_napus_Sweden_2009","8","transects","Lepidoptera","order","lepidoptera",1,4800,NA,NA,"Four surveys per field, and surveys were conducted in three 200 x 2 m transects per field",NA
"Riccardo_Bommarco_Brassica_napus_Sweden_2009","8","transects","Lepidoptera","order","lepidoptera",1,4800,NA,NA,"Four surveys per field, and surveys were conducted in three 200 x 2 m transects per field",NA
"Riccardo_Bommarco_Brassica_napus_Sweden_2009","9","transects","Lepidoptera","order","lepidoptera",6,4800,NA,NA,"Four surveys per field, and surveys were conducted in three 200 x 2 m transects per field",NA
"Riccardo_Bommarco_Brassica_napus_Sweden_2009","9","transects","Lepidoptera","order","lepidoptera",1,4800,NA,NA,"Four surveys per field, and surveys were conducted in three 200 x 2 m transects per field",NA
"Riccardo_Bommarco_Brassica_napus_Sweden_2009","10","transects","Lepidoptera","order","lepidoptera",2,4800,NA,NA,"Four surveys per field, and surveys were conducted in three 200 x 2 m transects per field",NA
"Riccardo_Bommarco_Brassica_napus_Sweden_2009","10","transects","Lepidoptera","order","lepidoptera",2,4800,NA,NA,"Four surveys per field, and surveys were conducted in three 200 x 2 m transects per field",NA
"Riccardo_Bommarco_Brassica_napus_Sweden_2009","10","transects","Lepidoptera","order","lepidoptera",1,4800,NA,NA,"Four surveys per field, and surveys were conducted in three 200 x 2 m transects per field",NA
"Riccardo_Bommarco_Brassica_napus_Sweden_2009","2","transects","syrphidae","family","syrphids",5,4800,NA,NA,"Four surveys per field, and surveys were conducted in three 200 x 2 m transects per field",NA
"Riccardo_Bommarco_Brassica_napus_Sweden_2009","2","transects","syrphidae","family","syrphids",5,4800,NA,NA,"Four surveys per field, and surveys were conducted in three 200 x 2 m transects per field",NA
"Riccardo_Bommarco_Brassica_napus_Sweden_2009","2","transects","syrphidae","family","syrphids",2,4800,NA,NA,"Four surveys per field, and surveys were conducted in three 200 x 2 m transects per field",NA
"Riccardo_Bommarco_Brassica_napus_Sweden_2009","3","transects","syrphidae","family","syrphids",4,4800,NA,NA,"Four surveys per field, and surveys were conducted in three 200 x 2 m transects per field",NA
"Riccardo_Bommarco_Brassica_napus_Sweden_2009","3","transects","syrphidae","family","syrphids",1,4800,NA,NA,"Four surveys per field, and surveys were conducted in three 200 x 2 m transects per field",NA
"Riccardo_Bommarco_Brassica_napus_Sweden_2009","3","transects","syrphidae","family","syrphids",4,4800,NA,NA,"Four surveys per field, and surveys were conducted in three 200 x 2 m transects per field",NA
"Riccardo_Bommarco_Brassica_napus_Sweden_2009","4","transects","syrphidae","family","syrphids",1,4800,NA,NA,"Four surveys per field, and surveys were conducted in three 200 x 2 m transects per field",NA
"Riccardo_Bommarco_Brassica_napus_Sweden_2009","4","transects","syrphidae","family","syrphids",2,4800,NA,NA,"Four surveys per field, and surveys were conducted in three 200 x 2 m transects per field",NA
"Riccardo_Bommarco_Brassica_napus_Sweden_2009","6","transects","syrphidae","family","syrphids",3,4800,NA,NA,"Four surveys per field, and surveys were conducted in three 200 x 2 m transects per field",NA
"Riccardo_Bommarco_Brassica_napus_Sweden_2009","6","transects","syrphidae","family","syrphids",8,4800,NA,NA,"Four surveys per field, and surveys were conducted in three 200 x 2 m transects per field",NA
"Riccardo_Bommarco_Brassica_napus_Sweden_2009","6","transects","syrphidae","family","syrphids",5,4800,NA,NA,"Four surveys per field, and surveys were conducted in three 200 x 2 m transects per field",NA
"Riccardo_Bommarco_Brassica_napus_Sweden_2009","7","transects","syrphidae","family","syrphids",1,4800,NA,NA,"Four surveys per field, and surveys were conducted in three 200 x 2 m transects per field",NA
"Riccardo_Bommarco_Brassica_napus_Sweden_2009","8","transects","syrphidae","family","syrphids",1,4800,NA,NA,"Four surveys per field, and surveys were conducted in three 200 x 2 m transects per field",NA
"Riccardo_Bommarco_Brassica_napus_Sweden_2009","8","transects","syrphidae","family","syrphids",2,4800,NA,NA,"Four surveys per field, and surveys were conducted in three 200 x 2 m transects per field",NA
"Riccardo_Bommarco_Brassica_napus_Sweden_2009","10","transects","syrphidae","family","syrphids",2,4800,NA,NA,"Four surveys per field, and surveys were conducted in three 200 x 2 m transects per field",NA
"Riccardo_Bommarco_Brassica_napus_Sweden_2009","10","transects","syrphidae","family","syrphids",1,4800,NA,NA,"Four surveys per field, and surveys were conducted in three 200 x 2 m transects per field",NA
"Riccardo_Bommarco_Brassica_napus_Sweden_2009","2","transects","wild_bee_unknown","superfamily","other_wild_bees",1,4800,NA,NA,"Four surveys per field, and surveys were conducted in three 200 x 2 m transects per field","Apoidea?"
"Riccardo_Bommarco_Brassica_napus_Sweden_2009","2","transects","wild_bee_unknown","superfamily","other_wild_bees",1,4800,NA,NA,"Four surveys per field, and surveys were conducted in three 200 x 2 m transects per field","Apoidea?"
"Riccardo_Bommarco_Brassica_napus_Sweden_2009","6","transects","wild_bee_unknown","superfamily","other_wild_bees",1,4800,NA,NA,"Four surveys per field, and surveys were conducted in three 200 x 2 m transects per field","Apoidea?"
"Riccardo_Bommarco_Brassica_napus_Sweden_2009","7","transects","wild_bee_unknown","superfamily","other_wild_bees",1,4800,NA,NA,"Four surveys per field, and surveys were conducted in three 200 x 2 m transects per field","Apoidea?"
"Riccardo_Bommarco_Brassica_napus_Sweden_2009","8","transects","wild_bee_unknown","superfamily","other_wild_bees",1,4800,NA,NA,"Four surveys per field, and surveys were conducted in three 200 x 2 m transects per field","Apoidea?"
"Riccardo_Bommarco_Brassica_napus_Sweden_2009","8","transects","wild_bee_unknown","superfamily","other_wild_bees",1,4800,NA,NA,"Four surveys per field, and surveys were conducted in three 200 x 2 m transects per field","Apoidea?"
"Riccardo_Bommarco_Brassica_napus_Sweden_2009","9","transects","wild_bee_unknown","superfamily","other_wild_bees",2,4800,NA,NA,"Four surveys per field, and surveys were conducted in three 200 x 2 m transects per field","Apoidea?"
"Riccardo_Bommarco_Brassica_napus_Sweden_2009","10","transects","wild_bee_unknown","superfamily","other_wild_bees",1,4800,NA,NA,"Four surveys per field, and surveys were conducted in three 200 x 2 m transects per field","Apoidea?"
"Riccardo_Bommarco_Brassica_napus_Sweden_2009","10","transects","wild_bee_unknown","superfamily","other_wild_bees",2,4800,NA,NA,"Four surveys per field, and surveys were conducted in three 200 x 2 m transects per field","Apoidea?"
"Riccardo_Bommarco_Trifolium_pratense_Sweden_2008","Ostergotland","transects","Bombus hortorum","species","bumblebees",26,1400,NA,NA,"Bumble-bees were collected along 1 m wide and 50 m long transects in 14 sites. Each site was visited twice.",NA
"Riccardo_Bommarco_Trifolium_pratense_Sweden_2008","Ostergotland","transects","Bombus hypnorum","species","bumblebees",1,1400,NA,NA,"Bumble-bees were collected along 1 m wide and 50 m long transects in 14 sites. Each site was visited twice.",NA
"Riccardo_Bommarco_Trifolium_pratense_Sweden_2008","Ostergotland","transects","Bombus lapidarius","species","bumblebees",460,1400,NA,NA,"Bumble-bees were collected along 1 m wide and 50 m long transects in 14 sites. Each site was visited twice.",NA
"Riccardo_Bommarco_Trifolium_pratense_Sweden_2008","Ostergotland","transects","Bombus lucorum","species","bumblebees",8,1400,NA,NA,"Bumble-bees were collected along 1 m wide and 50 m long transects in 14 sites. Each site was visited twice.",NA
"Riccardo_Bommarco_Trifolium_pratense_Sweden_2008","Ostergotland","transects","Bombus muscorum","species","bumblebees",1,1400,NA,NA,"Bumble-bees were collected along 1 m wide and 50 m long transects in 14 sites. Each site was visited twice.",NA
"Riccardo_Bommarco_Trifolium_pratense_Sweden_2008","Ostergotland","transects","Bombus spp","genus","bumblebees",13,1400,NA,NA,"Bumble-bees were collected along 1 m wide and 50 m long transects in 14 sites. Each site was visited twice.",NA
"Riccardo_Bommarco_Trifolium_pratense_Sweden_2008","Ostergotland","transects","Bombus pascuorum","species","bumblebees",40,1400,NA,NA,"Bumble-bees were collected along 1 m wide and 50 m long transects in 14 sites. Each site was visited twice.",NA
"Riccardo_Bommarco_Trifolium_pratense_Sweden_2008","Ostergotland","transects","Bombus pratorum","species","bumblebees",1,1400,NA,NA,"Bumble-bees were collected along 1 m wide and 50 m long transects in 14 sites. Each site was visited twice.",NA
"Riccardo_Bommarco_Trifolium_pratense_Sweden_2008","Ostergotland","transects","Bombus ruderarius","species","bumblebees",9,1400,NA,NA,"Bumble-bees were collected along 1 m wide and 50 m long transects in 14 sites. Each site was visited twice.",NA
"Riccardo_Bommarco_Trifolium_pratense_Sweden_2008","Ostergotland","transects","Psithyrus rupestris","species","bumblebees",3,1400,NA,NA,"Bumble-bees were collected along 1 m wide and 50 m long transects in 14 sites. Each site was visited twice.",NA
"Riccardo_Bommarco_Trifolium_pratense_Sweden_2008","Ostergotland","transects","Bombus subterraneus","species","bumblebees",11,1400,NA,NA,"Bumble-bees were collected along 1 m wide and 50 m long transects in 14 sites. Each site was visited twice.",NA
"Riccardo_Bommarco_Trifolium_pratense_Sweden_2008","Ostergotland","transects","Bombus sylvarum","species","bumblebees",3,1400,NA,NA,"Bumble-bees were collected along 1 m wide and 50 m long transects in 14 sites. Each site was visited twice.",NA
"Riccardo_Bommarco_Trifolium_pratense_Sweden_2008","Ostergotland","transects","Apis mellifera","species","honeybees",403,1400,NA,NA,"Bumble-bees were collected along 1 m wide and 50 m long transects in 14 sites. Each site was visited twice.",NA
"Riccardo_Bommarco_Trifolium_pratense_Sweden_2008","Ostergotland","transects","Bombus terrestris","species","bumblebees",1060,1400,NA,NA,"Bumble-bees were collected along 1 m wide and 50 m long transects in 14 sites. Each site was visited twice.",NA
"Riccardo_Bommarco_Trifolium_pratense_Sweden_2008","Ostergotland","transects","Psithyrus vestalis","species","bumblebees",1,1400,NA,NA,"Bumble-bees were collected along 1 m wide and 50 m long transects in 14 sites. Each site was visited twice.",NA
"Riccardo_Bommarco_Trifolium_pratense_Sweden_2009","Skane","transects","Psithyrus campestris","species","bumblebees",1,3600,NA,NA,"Bumble-bees were collected along 1 m wide and 50 m long transects in 14 sites. Each site was visited three to five times (mean 3.6  visits per site).",NA
"Riccardo_Bommarco_Trifolium_pratense_Sweden_2009","Skane","transects","Bombus cryptarum","species","bumblebees",1,3600,NA,NA,"Bumble-bees were collected along 1 m wide and 50 m long transects in 14 sites. Each site was visited three to five times (mean 3.6  visits per site).",NA
"Riccardo_Bommarco_Trifolium_pratense_Sweden_2009","Skane","transects","Bombus distinguendus","species","bumblebees",14,3600,NA,NA,"Bumble-bees were collected along 1 m wide and 50 m long transects in 14 sites. Each site was visited three to five times (mean 3.6  visits per site).",NA
"Riccardo_Bommarco_Trifolium_pratense_Sweden_2009","Skane","transects","Bombus hortorum","species","bumblebees",33,3600,NA,NA,"Bumble-bees were collected along 1 m wide and 50 m long transects in 14 sites. Each site was visited three to five times (mean 3.6  visits per site).",NA
"Riccardo_Bommarco_Trifolium_pratense_Sweden_2009","Ostergotland","transects","Bombus hortorum","species","bumblebees",22,3060,NA,NA,"Bumble-bees were collected along 1 m wide and 50 m long transects in 14 sites. Each site was visited three to five times (mean 3.6  visits per site).",NA
"Riccardo_Bommarco_Trifolium_pratense_Sweden_2009","Skane","transects","Bombus hypnorum","species","bumblebees",1,3600,NA,NA,"Bumble-bees were collected along 1 m wide and 50 m long transects in 14 sites. Each site was visited three to five times (mean 3.6  visits per site).",NA
"Riccardo_Bommarco_Trifolium_pratense_Sweden_2009","Skane","transects","Bombus lapidarius","species","bumblebees",104,3600,NA,NA,"Bumble-bees were collected along 1 m wide and 50 m long transects in 14 sites. Each site was visited three to five times (mean 3.6  visits per site).",NA
"Riccardo_Bommarco_Trifolium_pratense_Sweden_2009","Ostergotland","transects","Bombus lapidarius","species","bumblebees",299,3060,NA,NA,"Bumble-bees were collected along 1 m wide and 50 m long transects in 14 sites. Each site was visited three to five times (mean 3.6  visits per site).",NA
"Riccardo_Bommarco_Trifolium_pratense_Sweden_2009","Skane","transects","Bombus lucorum","species","bumblebees",256,3600,NA,NA,"Bumble-bees were collected along 1 m wide and 50 m long transects in 14 sites. Each site was visited three to five times (mean 3.6  visits per site).",NA
"Riccardo_Bommarco_Trifolium_pratense_Sweden_2009","Ostergotland","transects","Bombus lucorum","species","bumblebees",69,3060,NA,NA,"Bumble-bees were collected along 1 m wide and 50 m long transects in 14 sites. Each site was visited three to five times (mean 3.6  visits per site).",NA
"Riccardo_Bommarco_Trifolium_pratense_Sweden_2009","Skane","transects","Bombus muscorum","species","bumblebees",3,3600,NA,NA,"Bumble-bees were collected along 1 m wide and 50 m long transects in 14 sites. Each site was visited three to five times (mean 3.6  visits per site).",NA
"Riccardo_Bommarco_Trifolium_pratense_Sweden_2009","Ostergotland","transects","Bombus muscorum","species","bumblebees",2,3060,NA,NA,"Bumble-bees were collected along 1 m wide and 50 m long transects in 14 sites. Each site was visited three to five times (mean 3.6  visits per site).",NA
"Riccardo_Bommarco_Trifolium_pratense_Sweden_2009","Skane","transects","Bombus spp","genus","bumblebees",38,3600,NA,NA,"Bumble-bees were collected along 1 m wide and 50 m long transects in 14 sites. Each site was visited three to five times (mean 3.6  visits per site).",NA
"Riccardo_Bommarco_Trifolium_pratense_Sweden_2009","Ostergotland","transects","Bombus spp","genus","bumblebees",86,3060,NA,NA,"Bumble-bees were collected along 1 m wide and 50 m long transects in 14 sites. Each site was visited three to five times (mean 3.6  visits per site).",NA
"Riccardo_Bommarco_Trifolium_pratense_Sweden_2009","Skane","transects","Bombus pascuorum","species","bumblebees",18,3600,NA,NA,"Bumble-bees were collected along 1 m wide and 50 m long transects in 14 sites. Each site was visited three to five times (mean 3.6  visits per site).",NA
"Riccardo_Bommarco_Trifolium_pratense_Sweden_2009","Ostergotland","transects","Bombus pascuorum","species","bumblebees",15,3060,NA,NA,"Bumble-bees were collected along 1 m wide and 50 m long transects in 14 sites. Each site was visited three to five times (mean 3.6  visits per site).",NA
"Riccardo_Bommarco_Trifolium_pratense_Sweden_2009","Skane","transects","Bombus pratorum","species","bumblebees",3,3600,NA,NA,"Bumble-bees were collected along 1 m wide and 50 m long transects in 14 sites. Each site was visited three to five times (mean 3.6  visits per site).",NA
"Riccardo_Bommarco_Trifolium_pratense_Sweden_2009","Ostergotland","transects","Bombus pratorum","species","bumblebees",1,3060,NA,NA,"Bumble-bees were collected along 1 m wide and 50 m long transects in 14 sites. Each site was visited three to five times (mean 3.6  visits per site).",NA
"Riccardo_Bommarco_Trifolium_pratense_Sweden_2009","Skane","transects","Bombus ruderarius","species","bumblebees",7,3600,NA,NA,"Bumble-bees were collected along 1 m wide and 50 m long transects in 14 sites. Each site was visited three to five times (mean 3.6  visits per site).",NA
"Riccardo_Bommarco_Trifolium_pratense_Sweden_2009","Ostergotland","transects","Bombus ruderarius","species","bumblebees",1,3060,NA,NA,"Bumble-bees were collected along 1 m wide and 50 m long transects in 14 sites. Each site was visited three to five times (mean 3.6  visits per site).",NA
"Riccardo_Bommarco_Trifolium_pratense_Sweden_2009","Skane","transects","Psithyrus rupestris","species","bumblebees",3,3600,NA,NA,"Bumble-bees were collected along 1 m wide and 50 m long transects in 14 sites. Each site was visited three to five times (mean 3.6  visits per site).",NA
"Riccardo_Bommarco_Trifolium_pratense_Sweden_2009","Ostergotland","transects","Psithyrus rupestris","species","bumblebees",2,3060,NA,NA,"Bumble-bees were collected along 1 m wide and 50 m long transects in 14 sites. Each site was visited three to five times (mean 3.6  visits per site).",NA
"Riccardo_Bommarco_Trifolium_pratense_Sweden_2009","Skane","transects","Bombus soroeensis","species","bumblebees",16,3600,NA,NA,"Bumble-bees were collected along 1 m wide and 50 m long transects in 14 sites. Each site was visited three to five times (mean 3.6  visits per site).",NA
"Riccardo_Bommarco_Trifolium_pratense_Sweden_2009","Ostergotland","transects","Bombus soroeensis","species","bumblebees",8,3060,NA,NA,"Bumble-bees were collected along 1 m wide and 50 m long transects in 14 sites. Each site was visited three to five times (mean 3.6  visits per site).",NA
"Riccardo_Bommarco_Trifolium_pratense_Sweden_2009","Skane","transects","Bombus subterraneus","species","bumblebees",24,3600,NA,NA,"Bumble-bees were collected along 1 m wide and 50 m long transects in 14 sites. Each site was visited three to five times (mean 3.6  visits per site).",NA
"Riccardo_Bommarco_Trifolium_pratense_Sweden_2009","Ostergotland","transects","Bombus subterraneus","species","bumblebees",25,3060,NA,NA,"Bumble-bees were collected along 1 m wide and 50 m long transects in 14 sites. Each site was visited three to five times (mean 3.6  visits per site).",NA
"Riccardo_Bommarco_Trifolium_pratense_Sweden_2009","Skane","transects","Bombus sylvarum","species","bumblebees",8,3600,NA,NA,"Bumble-bees were collected along 1 m wide and 50 m long transects in 14 sites. Each site was visited three to five times (mean 3.6  visits per site).",NA
"Riccardo_Bommarco_Trifolium_pratense_Sweden_2009","Ostergotland","transects","Bombus sylvarum","species","bumblebees",22,3060,NA,NA,"Bumble-bees were collected along 1 m wide and 50 m long transects in 14 sites. Each site was visited three to five times (mean 3.6  visits per site).",NA
"Riccardo_Bommarco_Trifolium_pratense_Sweden_2009","Skane","transects","Apis mellifera","species","honeybees",1124,3600,NA,NA,"Bumble-bees were collected along 1 m wide and 50 m long transects in 14 sites. Each site was visited three to five times (mean 3.6  visits per site).",NA
"Riccardo_Bommarco_Trifolium_pratense_Sweden_2009","Ostergotland","transects","Apis mellifera","species","honeybees",680,3060,NA,NA,"Bumble-bees were collected along 1 m wide and 50 m long transects in 14 sites. Each site was visited three to five times (mean 3.6  visits per site).",NA
"Riccardo_Bommarco_Trifolium_pratense_Sweden_2009","Skane","transects","Bombus terrestris","species","bumblebees",1288,3600,NA,NA,"Bumble-bees were collected along 1 m wide and 50 m long transects in 14 sites. Each site was visited three to five times (mean 3.6  visits per site).",NA
"Riccardo_Bommarco_Trifolium_pratense_Sweden_2009","Ostergotland","transects","Bombus terrestris","species","bumblebees",1354,3060,NA,NA,"Bumble-bees were collected along 1 m wide and 50 m long transects in 14 sites. Each site was visited three to five times (mean 3.6  visits per site).",NA
"Riccardo_Bommarco_Trifolium_pratense_Sweden_2009","Skane","transects","unidentified solitary bee","superfamily",NA,8,3600,NA,NA,"Bumble-bees were collected along 1 m wide and 50 m long transects in 14 sites. Each site was visited three to five times (mean 3.6  visits per site).","Apoidea?"
"Riccardo_Bommarco_Trifolium_pratense_Sweden_2009","Ostergotland","transects","unidentified solitary bee","superfamily",NA,6,3060,NA,NA,"Bumble-bees were collected along 1 m wide and 50 m long transects in 14 sites. Each site was visited three to five times (mean 3.6  visits per site).","Apoidea?"
"Riccardo_Bommarco_Trifolium_pratense_Sweden_2010","Skane","transects","Bombus distinguendus","species","bumblebees",11,2200,NA,NA,"Bumble-bees were collected along 1 m wide and 50 m long transects in 14 sites. Each site was visited three to five times (mean 4  visits per site).",NA
"Riccardo_Bommarco_Trifolium_pratense_Sweden_2010","Skane","transects","Bombus hortorum","species","bumblebees",21,2200,NA,NA,"Bumble-bees were collected along 1 m wide and 50 m long transects in 14 sites. Each site was visited three to five times (mean 4  visits per site).",NA
"Riccardo_Bommarco_Trifolium_pratense_Sweden_2010","Ostergotland","transects","Bombus hortorum","species","bumblebees",24,3400,NA,NA,"Bumble-bees were collected along 1 m wide and 50 m long transects in 14 sites. Each site was visited three to five times (mean 4  visits per site).",NA
"Riccardo_Bommarco_Trifolium_pratense_Sweden_2010","Skane","transects","Bombus lapidarius","species","bumblebees",53,2200,NA,NA,"Bumble-bees were collected along 1 m wide and 50 m long transects in 14 sites. Each site was visited three to five times (mean 4  visits per site).",NA
"Riccardo_Bommarco_Trifolium_pratense_Sweden_2010","Ostergotland","transects","Bombus lapidarius","species","bumblebees",169,3400,NA,NA,"Bumble-bees were collected along 1 m wide and 50 m long transects in 14 sites. Each site was visited three to five times (mean 4  visits per site).",NA
"Riccardo_Bommarco_Trifolium_pratense_Sweden_2010","Skane","transects","Bombus lucorum","species","bumblebees",84,2200,NA,NA,"Bumble-bees were collected along 1 m wide and 50 m long transects in 14 sites. Each site was visited three to five times (mean 4  visits per site).",NA
"Riccardo_Bommarco_Trifolium_pratense_Sweden_2010","Ostergotland","transects","Bombus lucorum","species","bumblebees",79,3400,NA,NA,"Bumble-bees were collected along 1 m wide and 50 m long transects in 14 sites. Each site was visited three to five times (mean 4  visits per site).",NA
"Riccardo_Bommarco_Trifolium_pratense_Sweden_2010","Skane","transects","Bombus muscorum","species","bumblebees",1,2200,NA,NA,"Bumble-bees were collected along 1 m wide and 50 m long transects in 14 sites. Each site was visited three to five times (mean 4  visits per site).",NA
"Riccardo_Bommarco_Trifolium_pratense_Sweden_2010","Ostergotland","transects","Bombus muscorum","species","bumblebees",7,3400,NA,NA,"Bumble-bees were collected along 1 m wide and 50 m long transects in 14 sites. Each site was visited three to five times (mean 4  visits per site).",NA
"Riccardo_Bommarco_Trifolium_pratense_Sweden_2010","Ostergotland","transects","Bombus spp","genus","bumblebees",69,3400,NA,NA,"Bumble-bees were collected along 1 m wide and 50 m long transects in 14 sites. Each site was visited three to five times (mean 4  visits per site).",NA
"Riccardo_Bommarco_Trifolium_pratense_Sweden_2010","Skane","transects","Bombus pascuorum","species","bumblebees",6,2200,NA,NA,"Bumble-bees were collected along 1 m wide and 50 m long transects in 14 sites. Each site was visited three to five times (mean 4  visits per site).",NA
"Riccardo_Bommarco_Trifolium_pratense_Sweden_2010","Ostergotland","transects","Bombus pascuorum","species","bumblebees",22,3400,NA,NA,"Bumble-bees were collected along 1 m wide and 50 m long transects in 14 sites. Each site was visited three to five times (mean 4  visits per site).",NA
"Riccardo_Bommarco_Trifolium_pratense_Sweden_2010","Skane","transects","Bombus ruderarius","species","bumblebees",1,2200,NA,NA,"Bumble-bees were collected along 1 m wide and 50 m long transects in 14 sites. Each site was visited three to five times (mean 4  visits per site).",NA
"Riccardo_Bommarco_Trifolium_pratense_Sweden_2010","Ostergotland","transects","Bombus ruderarius","species","bumblebees",5,3400,NA,NA,"Bumble-bees were collected along 1 m wide and 50 m long transects in 14 sites. Each site was visited three to five times (mean 4  visits per site).",NA
"Riccardo_Bommarco_Trifolium_pratense_Sweden_2010","Ostergotland","transects","Psithyrus rupestris","species","bumblebees",1,3400,NA,NA,"Bumble-bees were collected along 1 m wide and 50 m long transects in 14 sites. Each site was visited three to five times (mean 4  visits per site).",NA
"Riccardo_Bommarco_Trifolium_pratense_Sweden_2010","Skane","transects","Bombus soroeensis","species","bumblebees",26,2200,NA,NA,"Bumble-bees were collected along 1 m wide and 50 m long transects in 14 sites. Each site was visited three to five times (mean 4  visits per site).",NA
"Riccardo_Bommarco_Trifolium_pratense_Sweden_2010","Ostergotland","transects","Bombus soroeensis","species","bumblebees",8,3400,NA,NA,"Bumble-bees were collected along 1 m wide and 50 m long transects in 14 sites. Each site was visited three to five times (mean 4  visits per site).",NA
"Riccardo_Bommarco_Trifolium_pratense_Sweden_2010","Skane","transects","Bombus subterraneus","species","bumblebees",32,2200,NA,NA,"Bumble-bees were collected along 1 m wide and 50 m long transects in 14 sites. Each site was visited three to five times (mean 4  visits per site).",NA
"Riccardo_Bommarco_Trifolium_pratense_Sweden_2010","Ostergotland","transects","Bombus subterraneus","species","bumblebees",45,3400,NA,NA,"Bumble-bees were collected along 1 m wide and 50 m long transects in 14 sites. Each site was visited three to five times (mean 4  visits per site).",NA
"Riccardo_Bommarco_Trifolium_pratense_Sweden_2010","Skane","transects","Bombus sylvarum","species","bumblebees",7,2200,NA,NA,"Bumble-bees were collected along 1 m wide and 50 m long transects in 14 sites. Each site was visited three to five times (mean 4  visits per site).",NA
"Riccardo_Bommarco_Trifolium_pratense_Sweden_2010","Ostergotland","transects","Bombus sylvarum","species","bumblebees",20,3400,NA,NA,"Bumble-bees were collected along 1 m wide and 50 m long transects in 14 sites. Each site was visited three to five times (mean 4  visits per site).",NA
"Riccardo_Bommarco_Trifolium_pratense_Sweden_2010","Skane","transects","Apis mellifera","species","honeybees",498,2200,NA,NA,"Bumble-bees were collected along 1 m wide and 50 m long transects in 14 sites. Each site was visited three to five times (mean 4  visits per site).",NA
"Riccardo_Bommarco_Trifolium_pratense_Sweden_2010","Ostergotland","transects","Apis mellifera","species","honeybees",953,3400,NA,NA,"Bumble-bees were collected along 1 m wide and 50 m long transects in 14 sites. Each site was visited three to five times (mean 4  visits per site).",NA
"Riccardo_Bommarco_Trifolium_pratense_Sweden_2010","Skane","transects","Bombus terrestris","species","bumblebees",311,2200,NA,NA,"Bumble-bees were collected along 1 m wide and 50 m long transects in 14 sites. Each site was visited three to five times (mean 4  visits per site).",NA
"Riccardo_Bommarco_Trifolium_pratense_Sweden_2010","Ostergotland","transects","Bombus terrestris","species","bumblebees",611,3400,NA,NA,"Bumble-bees were collected along 1 m wide and 50 m long transects in 14 sites. Each site was visited three to five times (mean 4  visits per site).",NA
"Riccardo_Bommarco_Trifolium_pratense_Sweden_2010","Skane","transects","unidentified solitary bee","superfamily",NA,2,2200,NA,NA,"Bumble-bees were collected along 1 m wide and 50 m long transects in 14 sites. Each site was visited three to five times (mean 4  visits per site).","Apoidea?"
"Riccardo_Bommarco_Trifolium_pratense_Sweden_2010","Ostergotland","transects","unidentified solitary bee","superfamily",NA,11,3400,NA,NA,"Bumble-bees were collected along 1 m wide and 50 m long transects in 14 sites. Each site was visited three to five times (mean 4  visits per site).","Apoidea?"
"Ruan_Veldtman_Helianthus_annuus_South_Africa_2011","A1","sweep net","Apis_millifera_scutellata","species","honeybees",39,NA,136,400,"On each field study site, 100 flower heads in each of four parallel transects (total 400 flower heads) were surveyed in the morning and afternoon",NA
"Ruan_Veldtman_Helianthus_annuus_South_Africa_2011","A1","sweep net","Apis_millifera_scutellata","species","honeybees",59,NA,136,400,"On each field study site, 100 flower heads in each of four parallel transects (total 400 flower heads) were surveyed in the morning and afternoon",NA
"Ruan_Veldtman_Helianthus_annuus_South_Africa_2011","A1","sweep net","Apis_millifera_scutellata","species","honeybees",49,NA,136,400,"On each field study site, 100 flower heads in each of four parallel transects (total 400 flower heads) were surveyed in the morning and afternoon",NA
"Ruan_Veldtman_Helianthus_annuus_South_Africa_2011","A1","sweep net","Apis_millifera_scutellata","species","honeybees",45,NA,136,400,"On each field study site, 100 flower heads in each of four parallel transects (total 400 flower heads) were surveyed in the morning and afternoon",NA
"Ruan_Veldtman_Helianthus_annuus_South_Africa_2011","A1","sweep net","Apis_millifera_scutellata","species","honeybees",46,NA,136,400,"On each field study site, 100 flower heads in each of four parallel transects (total 400 flower heads) were surveyed in the morning and afternoon",NA
"Ruan_Veldtman_Helianthus_annuus_South_Africa_2011","A1","sweep net","Apis_millifera_scutellata","species","honeybees",38,NA,136,400,"On each field study site, 100 flower heads in each of four parallel transects (total 400 flower heads) were surveyed in the morning and afternoon",NA
"Ruan_Veldtman_Helianthus_annuus_South_Africa_2011","A1","sweep net","Apis_millifera_scutellata","species","honeybees",55,NA,136,400,"On each field study site, 100 flower heads in each of four parallel transects (total 400 flower heads) were surveyed in the morning and afternoon",NA
"Ruan_Veldtman_Helianthus_annuus_South_Africa_2011","A1","sweep net","Apis_millifera_scutellata","species","honeybees",37,NA,136,400,"On each field study site, 100 flower heads in each of four parallel transects (total 400 flower heads) were surveyed in the morning and afternoon",NA
"Ruan_Veldtman_Helianthus_annuus_South_Africa_2011","A2","sweep net","Apis_millifera_scutellata","species","honeybees",36,NA,104,400,"On each field study site, 100 flower heads in each of four parallel transects (total 400 flower heads) were surveyed in the morning and afternoon",NA
"Ruan_Veldtman_Helianthus_annuus_South_Africa_2011","A2","sweep net","Apis_millifera_scutellata","species","honeybees",27,NA,104,400,"On each field study site, 100 flower heads in each of four parallel transects (total 400 flower heads) were surveyed in the morning and afternoon",NA
"Ruan_Veldtman_Helianthus_annuus_South_Africa_2011","A2","sweep net","Apis_millifera_scutellata","species","honeybees",21,NA,104,400,"On each field study site, 100 flower heads in each of four parallel transects (total 400 flower heads) were surveyed in the morning and afternoon",NA
"Ruan_Veldtman_Helianthus_annuus_South_Africa_2011","A2","sweep net","Apis_millifera_scutellata","species","honeybees",27,NA,104,400,"On each field study site, 100 flower heads in each of four parallel transects (total 400 flower heads) were surveyed in the morning and afternoon",NA
"Ruan_Veldtman_Helianthus_annuus_South_Africa_2011","A2","sweep net","Apis_millifera_scutellata","species","honeybees",40,NA,104,400,"On each field study site, 100 flower heads in each of four parallel transects (total 400 flower heads) were surveyed in the morning and afternoon",NA
"Ruan_Veldtman_Helianthus_annuus_South_Africa_2011","A2","sweep net","Apis_millifera_scutellata","species","honeybees",46,NA,104,400,"On each field study site, 100 flower heads in each of four parallel transects (total 400 flower heads) were surveyed in the morning and afternoon",NA
"Ruan_Veldtman_Helianthus_annuus_South_Africa_2011","A2","sweep net","Apis_millifera_scutellata","species","honeybees",42,NA,104,400,"On each field study site, 100 flower heads in each of four parallel transects (total 400 flower heads) were surveyed in the morning and afternoon",NA
"Ruan_Veldtman_Helianthus_annuus_South_Africa_2011","A2","sweep net","Apis_millifera_scutellata","species","honeybees",45,NA,104,400,"On each field study site, 100 flower heads in each of four parallel transects (total 400 flower heads) were surveyed in the morning and afternoon",NA
"Ruan_Veldtman_Helianthus_annuus_South_Africa_2011","A3","sweep net","Apis_millifera_scutellata","species","honeybees",73,NA,134,400,"On each field study site, 100 flower heads in each of four parallel transects (total 400 flower heads) were surveyed in the morning and afternoon",NA
"Ruan_Veldtman_Helianthus_annuus_South_Africa_2011","A3","sweep net","Apis_millifera_scutellata","species","honeybees",74,NA,134,400,"On each field study site, 100 flower heads in each of four parallel transects (total 400 flower heads) were surveyed in the morning and afternoon",NA
"Ruan_Veldtman_Helianthus_annuus_South_Africa_2011","A3","sweep net","Apis_millifera_scutellata","species","honeybees",78,NA,134,400,"On each field study site, 100 flower heads in each of four parallel transects (total 400 flower heads) were surveyed in the morning and afternoon",NA
"Ruan_Veldtman_Helianthus_annuus_South_Africa_2011","A3","sweep net","Apis_millifera_scutellata","species","honeybees",55,NA,134,400,"On each field study site, 100 flower heads in each of four parallel transects (total 400 flower heads) were surveyed in the morning and afternoon",NA
"Ruan_Veldtman_Helianthus_annuus_South_Africa_2011","A3","sweep net","Apis_millifera_scutellata","species","honeybees",44,NA,134,400,"On each field study site, 100 flower heads in each of four parallel transects (total 400 flower heads) were surveyed in the morning and afternoon",NA
"Ruan_Veldtman_Helianthus_annuus_South_Africa_2011","A3","sweep net","Apis_millifera_scutellata","species","honeybees",43,NA,134,400,"On each field study site, 100 flower heads in each of four parallel transects (total 400 flower heads) were surveyed in the morning and afternoon",NA
"Ruan_Veldtman_Helianthus_annuus_South_Africa_2011","A3","sweep net","Apis_millifera_scutellata","species","honeybees",58,NA,134,400,"On each field study site, 100 flower heads in each of four parallel transects (total 400 flower heads) were surveyed in the morning and afternoon",NA
"Ruan_Veldtman_Helianthus_annuus_South_Africa_2011","A3","sweep net","Apis_millifera_scutellata","species","honeybees",35,NA,134,400,"On each field study site, 100 flower heads in each of four parallel transects (total 400 flower heads) were surveyed in the morning and afternoon",NA
"Ruan_Veldtman_Helianthus_annuus_South_Africa_2011","A4","sweep net","Apis_millifera_scutellata","species","honeybees",34,NA,140,400,"On each field study site, 100 flower heads in each of four parallel transects (total 400 flower heads) were surveyed in the morning and afternoon",NA
"Ruan_Veldtman_Helianthus_annuus_South_Africa_2011","A4","sweep net","Apis_millifera_scutellata","species","honeybees",18,NA,140,400,"On each field study site, 100 flower heads in each of four parallel transects (total 400 flower heads) were surveyed in the morning and afternoon",NA
"Ruan_Veldtman_Helianthus_annuus_South_Africa_2011","A4","sweep net","Apis_millifera_scutellata","species","honeybees",20,NA,140,400,"On each field study site, 100 flower heads in each of four parallel transects (total 400 flower heads) were surveyed in the morning and afternoon",NA
"Ruan_Veldtman_Helianthus_annuus_South_Africa_2011","A4","sweep net","Apis_millifera_scutellata","species","honeybees",17,NA,140,400,"On each field study site, 100 flower heads in each of four parallel transects (total 400 flower heads) were surveyed in the morning and afternoon",NA
"Ruan_Veldtman_Helianthus_annuus_South_Africa_2011","A4","sweep net","Apis_millifera_scutellata","species","honeybees",28,NA,140,400,"On each field study site, 100 flower heads in each of four parallel transects (total 400 flower heads) were surveyed in the morning and afternoon",NA
"Ruan_Veldtman_Helianthus_annuus_South_Africa_2011","A4","sweep net","Apis_millifera_scutellata","species","honeybees",29,NA,140,400,"On each field study site, 100 flower heads in each of four parallel transects (total 400 flower heads) were surveyed in the morning and afternoon",NA
"Ruan_Veldtman_Helianthus_annuus_South_Africa_2011","A4","sweep net","Apis_millifera_scutellata","species","honeybees",28,NA,140,400,"On each field study site, 100 flower heads in each of four parallel transects (total 400 flower heads) were surveyed in the morning and afternoon",NA
"Ruan_Veldtman_Helianthus_annuus_South_Africa_2011","A4","sweep net","Apis_millifera_scutellata","species","honeybees",34,NA,140,400,"On each field study site, 100 flower heads in each of four parallel transects (total 400 flower heads) were surveyed in the morning and afternoon",NA
"Ruan_Veldtman_Helianthus_annuus_South_Africa_2011","A5","sweep net","Apis_millifera_scutellata","species","honeybees",30,NA,102,400,"On each field study site, 100 flower heads in each of four parallel transects (total 400 flower heads) were surveyed in the morning and afternoon",NA
"Ruan_Veldtman_Helianthus_annuus_South_Africa_2011","A5","sweep net","Apis_millifera_scutellata","species","honeybees",41,NA,102,400,"On each field study site, 100 flower heads in each of four parallel transects (total 400 flower heads) were surveyed in the morning and afternoon",NA
"Ruan_Veldtman_Helianthus_annuus_South_Africa_2011","A5","sweep net","Apis_millifera_scutellata","species","honeybees",39,NA,102,400,"On each field study site, 100 flower heads in each of four parallel transects (total 400 flower heads) were surveyed in the morning and afternoon",NA
"Ruan_Veldtman_Helianthus_annuus_South_Africa_2011","A5","sweep net","Apis_millifera_scutellata","species","honeybees",40,NA,102,400,"On each field study site, 100 flower heads in each of four parallel transects (total 400 flower heads) were surveyed in the morning and afternoon",NA
"Ruan_Veldtman_Helianthus_annuus_South_Africa_2011","A5","sweep net","Apis_millifera_scutellata","species","honeybees",30,NA,102,400,"On each field study site, 100 flower heads in each of four parallel transects (total 400 flower heads) were surveyed in the morning and afternoon",NA
"Ruan_Veldtman_Helianthus_annuus_South_Africa_2011","A5","sweep net","Apis_millifera_scutellata","species","honeybees",36,NA,102,400,"On each field study site, 100 flower heads in each of four parallel transects (total 400 flower heads) were surveyed in the morning and afternoon",NA
"Ruan_Veldtman_Helianthus_annuus_South_Africa_2011","A5","sweep net","Apis_millifera_scutellata","species","honeybees",30,NA,102,400,"On each field study site, 100 flower heads in each of four parallel transects (total 400 flower heads) were surveyed in the morning and afternoon",NA
"Ruan_Veldtman_Helianthus_annuus_South_Africa_2011","A5","sweep net","Apis_millifera_scutellata","species","honeybees",28,NA,102,400,"On each field study site, 100 flower heads in each of four parallel transects (total 400 flower heads) were surveyed in the morning and afternoon",NA
"Ruan_Veldtman_Helianthus_annuus_South_Africa_2011","N1","sweep net","Apis_millifera_scutellata","species","honeybees",32,NA,153,400,"On each field study site, 100 flower heads in each of four parallel transects (total 400 flower heads) were surveyed in the morning and afternoon",NA
"Ruan_Veldtman_Helianthus_annuus_South_Africa_2011","N1","sweep net","Apis_millifera_scutellata","species","honeybees",25,NA,153,400,"On each field study site, 100 flower heads in each of four parallel transects (total 400 flower heads) were surveyed in the morning and afternoon",NA
"Ruan_Veldtman_Helianthus_annuus_South_Africa_2011","N1","sweep net","Apis_millifera_scutellata","species","honeybees",28,NA,153,400,"On each field study site, 100 flower heads in each of four parallel transects (total 400 flower heads) were surveyed in the morning and afternoon",NA
"Ruan_Veldtman_Helianthus_annuus_South_Africa_2011","N1","sweep net","Apis_millifera_scutellata","species","honeybees",18,NA,153,400,"On each field study site, 100 flower heads in each of four parallel transects (total 400 flower heads) were surveyed in the morning and afternoon",NA
"Ruan_Veldtman_Helianthus_annuus_South_Africa_2011","N1","sweep net","Apis_millifera_scutellata","species","honeybees",14,NA,153,400,"On each field study site, 100 flower heads in each of four parallel transects (total 400 flower heads) were surveyed in the morning and afternoon",NA
"Ruan_Veldtman_Helianthus_annuus_South_Africa_2011","N1","sweep net","Apis_millifera_scutellata","species","honeybees",13,NA,153,400,"On each field study site, 100 flower heads in each of four parallel transects (total 400 flower heads) were surveyed in the morning and afternoon",NA
"Ruan_Veldtman_Helianthus_annuus_South_Africa_2011","N1","sweep net","Apis_millifera_scutellata","species","honeybees",12,NA,153,400,"On each field study site, 100 flower heads in each of four parallel transects (total 400 flower heads) were surveyed in the morning and afternoon",NA
"Ruan_Veldtman_Helianthus_annuus_South_Africa_2011","N1","sweep net","Apis_millifera_scutellata","species","honeybees",10,NA,153,400,"On each field study site, 100 flower heads in each of four parallel transects (total 400 flower heads) were surveyed in the morning and afternoon",NA
"Ruan_Veldtman_Helianthus_annuus_South_Africa_2011","N2","sweep net","Apis_millifera_scutellata","species","honeybees",46,NA,134,400,"On each field study site, 100 flower heads in each of four parallel transects (total 400 flower heads) were surveyed in the morning and afternoon",NA
"Ruan_Veldtman_Helianthus_annuus_South_Africa_2011","N2","sweep net","Apis_millifera_scutellata","species","honeybees",43,NA,134,400,"On each field study site, 100 flower heads in each of four parallel transects (total 400 flower heads) were surveyed in the morning and afternoon",NA
"Ruan_Veldtman_Helianthus_annuus_South_Africa_2011","N2","sweep net","Apis_millifera_scutellata","species","honeybees",48,NA,134,400,"On each field study site, 100 flower heads in each of four parallel transects (total 400 flower heads) were surveyed in the morning and afternoon",NA
"Ruan_Veldtman_Helianthus_annuus_South_Africa_2011","N2","sweep net","Apis_millifera_scutellata","species","honeybees",44,NA,134,400,"On each field study site, 100 flower heads in each of four parallel transects (total 400 flower heads) were surveyed in the morning and afternoon",NA
"Ruan_Veldtman_Helianthus_annuus_South_Africa_2011","N2","sweep net","Apis_millifera_scutellata","species","honeybees",51,NA,134,400,"On each field study site, 100 flower heads in each of four parallel transects (total 400 flower heads) were surveyed in the morning and afternoon",NA
"Ruan_Veldtman_Helianthus_annuus_South_Africa_2011","N2","sweep net","Apis_millifera_scutellata","species","honeybees",43,NA,134,400,"On each field study site, 100 flower heads in each of four parallel transects (total 400 flower heads) were surveyed in the morning and afternoon",NA
"Ruan_Veldtman_Helianthus_annuus_South_Africa_2011","N2","sweep net","Apis_millifera_scutellata","species","honeybees",37,NA,134,400,"On each field study site, 100 flower heads in each of four parallel transects (total 400 flower heads) were surveyed in the morning and afternoon",NA
"Ruan_Veldtman_Helianthus_annuus_South_Africa_2011","N2","sweep net","Apis_millifera_scutellata","species","honeybees",41,NA,134,400,"On each field study site, 100 flower heads in each of four parallel transects (total 400 flower heads) were surveyed in the morning and afternoon",NA
"Ruan_Veldtman_Helianthus_annuus_South_Africa_2011","N3","sweep net","Apis_millifera_scutellata","species","honeybees",35,NA,114,400,"On each field study site, 100 flower heads in each of four parallel transects (total 400 flower heads) were surveyed in the morning and afternoon",NA
"Ruan_Veldtman_Helianthus_annuus_South_Africa_2011","N3","sweep net","Apis_millifera_scutellata","species","honeybees",45,NA,114,400,"On each field study site, 100 flower heads in each of four parallel transects (total 400 flower heads) were surveyed in the morning and afternoon",NA
"Ruan_Veldtman_Helianthus_annuus_South_Africa_2011","N3","sweep net","Apis_millifera_scutellata","species","honeybees",39,NA,114,400,"On each field study site, 100 flower heads in each of four parallel transects (total 400 flower heads) were surveyed in the morning and afternoon",NA
"Ruan_Veldtman_Helianthus_annuus_South_Africa_2011","N3","sweep net","Apis_millifera_scutellata","species","honeybees",49,NA,114,400,"On each field study site, 100 flower heads in each of four parallel transects (total 400 flower heads) were surveyed in the morning and afternoon",NA
"Ruan_Veldtman_Helianthus_annuus_South_Africa_2011","N3","sweep net","Apis_millifera_scutellata","species","honeybees",37,NA,114,400,"On each field study site, 100 flower heads in each of four parallel transects (total 400 flower heads) were surveyed in the morning and afternoon",NA
"Ruan_Veldtman_Helianthus_annuus_South_Africa_2011","N3","sweep net","Apis_millifera_scutellata","species","honeybees",39,NA,114,400,"On each field study site, 100 flower heads in each of four parallel transects (total 400 flower heads) were surveyed in the morning and afternoon",NA
"Ruan_Veldtman_Helianthus_annuus_South_Africa_2011","N3","sweep net","Apis_millifera_scutellata","species","honeybees",49,NA,114,400,"On each field study site, 100 flower heads in each of four parallel transects (total 400 flower heads) were surveyed in the morning and afternoon",NA
"Ruan_Veldtman_Helianthus_annuus_South_Africa_2011","N3","sweep net","Apis_millifera_scutellata","species","honeybees",37,NA,114,400,"On each field study site, 100 flower heads in each of four parallel transects (total 400 flower heads) were surveyed in the morning and afternoon",NA
"Ruan_Veldtman_Helianthus_annuus_South_Africa_2011","N4","sweep net","Apis_millifera_scutellata","species","honeybees",46,NA,114,400,"On each field study site, 100 flower heads in each of four parallel transects (total 400 flower heads) were surveyed in the morning and afternoon",NA
"Ruan_Veldtman_Helianthus_annuus_South_Africa_2011","N4","sweep net","Apis_millifera_scutellata","species","honeybees",56,NA,114,400,"On each field study site, 100 flower heads in each of four parallel transects (total 400 flower heads) were surveyed in the morning and afternoon",NA
"Ruan_Veldtman_Helianthus_annuus_South_Africa_2011","N4","sweep net","Apis_millifera_scutellata","species","honeybees",63,NA,114,400,"On each field study site, 100 flower heads in each of four parallel transects (total 400 flower heads) were surveyed in the morning and afternoon",NA
"Ruan_Veldtman_Helianthus_annuus_South_Africa_2011","N4","sweep net","Apis_millifera_scutellata","species","honeybees",50,NA,114,400,"On each field study site, 100 flower heads in each of four parallel transects (total 400 flower heads) were surveyed in the morning and afternoon",NA
"Ruan_Veldtman_Helianthus_annuus_South_Africa_2011","N4","sweep net","Apis_millifera_scutellata","species","honeybees",29,NA,114,400,"On each field study site, 100 flower heads in each of four parallel transects (total 400 flower heads) were surveyed in the morning and afternoon",NA
"Ruan_Veldtman_Helianthus_annuus_South_Africa_2011","N4","sweep net","Apis_millifera_scutellata","species","honeybees",26,NA,114,400,"On each field study site, 100 flower heads in each of four parallel transects (total 400 flower heads) were surveyed in the morning and afternoon",NA
"Ruan_Veldtman_Helianthus_annuus_South_Africa_2011","N4","sweep net","Apis_millifera_scutellata","species","honeybees",38,NA,114,400,"On each field study site, 100 flower heads in each of four parallel transects (total 400 flower heads) were surveyed in the morning and afternoon",NA
"Ruan_Veldtman_Helianthus_annuus_South_Africa_2011","N4","sweep net","Apis_millifera_scutellata","species","honeybees",24,NA,114,400,"On each field study site, 100 flower heads in each of four parallel transects (total 400 flower heads) were surveyed in the morning and afternoon",NA
"Ruan_Veldtman_Helianthus_annuus_South_Africa_2011","N5","sweep net","Apis_millifera_scutellata","species","honeybees",81,NA,139,400,"On each field study site, 100 flower heads in each of four parallel transects (total 400 flower heads) were surveyed in the morning and afternoon",NA
"Ruan_Veldtman_Helianthus_annuus_South_Africa_2011","N5","sweep net","Apis_millifera_scutellata","species","honeybees",66,NA,139,400,"On each field study site, 100 flower heads in each of four parallel transects (total 400 flower heads) were surveyed in the morning and afternoon",NA
"Ruan_Veldtman_Helianthus_annuus_South_Africa_2011","N5","sweep net","Apis_millifera_scutellata","species","honeybees",64,NA,139,400,"On each field study site, 100 flower heads in each of four parallel transects (total 400 flower heads) were surveyed in the morning and afternoon",NA
"Ruan_Veldtman_Helianthus_annuus_South_Africa_2011","N5","sweep net","Apis_millifera_scutellata","species","honeybees",76,NA,139,400,"On each field study site, 100 flower heads in each of four parallel transects (total 400 flower heads) were surveyed in the morning and afternoon",NA
"Ruan_Veldtman_Helianthus_annuus_South_Africa_2011","N5","sweep net","Apis_millifera_scutellata","species","honeybees",68,NA,139,400,"On each field study site, 100 flower heads in each of four parallel transects (total 400 flower heads) were surveyed in the morning and afternoon",NA
"Ruan_Veldtman_Helianthus_annuus_South_Africa_2011","N5","sweep net","Apis_millifera_scutellata","species","honeybees",75,NA,139,400,"On each field study site, 100 flower heads in each of four parallel transects (total 400 flower heads) were surveyed in the morning and afternoon",NA
"Ruan_Veldtman_Helianthus_annuus_South_Africa_2011","N5","sweep net","Apis_millifera_scutellata","species","honeybees",83,NA,139,400,"On each field study site, 100 flower heads in each of four parallel transects (total 400 flower heads) were surveyed in the morning and afternoon",NA
"Ruan_Veldtman_Helianthus_annuus_South_Africa_2011","N5","sweep net","Apis_millifera_scutellata","species","honeybees",51,NA,139,400,"On each field study site, 100 flower heads in each of four parallel transects (total 400 flower heads) were surveyed in the morning and afternoon",NA
"Ruan_Veldtman_Helianthus_annuus_South_Africa_2011","A1","sweep net","Lasioglossum_sp.1","morphospecies","other_wild_bees",1,NA,136,400,"On each field study site, 100 flower heads in each of four parallel transects (total 400 flower heads) were surveyed in the morning and afternoon",NA
"Ruan_Veldtman_Helianthus_annuus_South_Africa_2011","A1","sweep net","Lasioglossum_sp.1","morphospecies","other_wild_bees",1,NA,136,400,"On each field study site, 100 flower heads in each of four parallel transects (total 400 flower heads) were surveyed in the morning and afternoon",NA
"Ruan_Veldtman_Helianthus_annuus_South_Africa_2011","A1","sweep net","Lasioglossum_sp.1","morphospecies","other_wild_bees",1,NA,136,400,"On each field study site, 100 flower heads in each of four parallel transects (total 400 flower heads) were surveyed in the morning and afternoon",NA
"Ruan_Veldtman_Helianthus_annuus_South_Africa_2011","A1","sweep net","Lasioglossum_sp.1","morphospecies","other_wild_bees",5,NA,136,400,"On each field study site, 100 flower heads in each of four parallel transects (total 400 flower heads) were surveyed in the morning and afternoon",NA
"Ruan_Veldtman_Helianthus_annuus_South_Africa_2011","A1","sweep net","Lasioglossum_sp.1","morphospecies","other_wild_bees",9,NA,136,400,"On each field study site, 100 flower heads in each of four parallel transects (total 400 flower heads) were surveyed in the morning and afternoon",NA
"Ruan_Veldtman_Helianthus_annuus_South_Africa_2011","A2","sweep net","Lasioglossum_sp.1","morphospecies","other_wild_bees",6,NA,104,400,"On each field study site, 100 flower heads in each of four parallel transects (total 400 flower heads) were surveyed in the morning and afternoon",NA
"Ruan_Veldtman_Helianthus_annuus_South_Africa_2011","A2","sweep net","Lasioglossum_sp.1","morphospecies","other_wild_bees",4,NA,104,400,"On each field study site, 100 flower heads in each of four parallel transects (total 400 flower heads) were surveyed in the morning and afternoon",NA
"Ruan_Veldtman_Helianthus_annuus_South_Africa_2011","A2","sweep net","Lasioglossum_sp.1","morphospecies","other_wild_bees",7,NA,104,400,"On each field study site, 100 flower heads in each of four parallel transects (total 400 flower heads) were surveyed in the morning and afternoon",NA
"Ruan_Veldtman_Helianthus_annuus_South_Africa_2011","A2","sweep net","Lasioglossum_sp.1","morphospecies","other_wild_bees",11,NA,104,400,"On each field study site, 100 flower heads in each of four parallel transects (total 400 flower heads) were surveyed in the morning and afternoon",NA
"Ruan_Veldtman_Helianthus_annuus_South_Africa_2011","A2","sweep net","Lasioglossum_sp.1","morphospecies","other_wild_bees",5,NA,104,400,"On each field study site, 100 flower heads in each of four parallel transects (total 400 flower heads) were surveyed in the morning and afternoon",NA
"Ruan_Veldtman_Helianthus_annuus_South_Africa_2011","A2","sweep net","Lasioglossum_sp.1","morphospecies","other_wild_bees",5,NA,104,400,"On each field study site, 100 flower heads in each of four parallel transects (total 400 flower heads) were surveyed in the morning and afternoon",NA
"Ruan_Veldtman_Helianthus_annuus_South_Africa_2011","A2","sweep net","Lasioglossum_sp.1","morphospecies","other_wild_bees",10,NA,104,400,"On each field study site, 100 flower heads in each of four parallel transects (total 400 flower heads) were surveyed in the morning and afternoon",NA
"Ruan_Veldtman_Helianthus_annuus_South_Africa_2011","A2","sweep net","Lasioglossum_sp.1","morphospecies","other_wild_bees",2,NA,104,400,"On each field study site, 100 flower heads in each of four parallel transects (total 400 flower heads) were surveyed in the morning and afternoon",NA
"Ruan_Veldtman_Helianthus_annuus_South_Africa_2011","A3","sweep net","Lasioglossum_sp.1","morphospecies","other_wild_bees",2,NA,134,400,"On each field study site, 100 flower heads in each of four parallel transects (total 400 flower heads) were surveyed in the morning and afternoon",NA
"Ruan_Veldtman_Helianthus_annuus_South_Africa_2011","A3","sweep net","Lasioglossum_sp.1","morphospecies","other_wild_bees",2,NA,134,400,"On each field study site, 100 flower heads in each of four parallel transects (total 400 flower heads) were surveyed in the morning and afternoon",NA
"Ruan_Veldtman_Helianthus_annuus_South_Africa_2011","A3","sweep net","Lasioglossum_sp.1","morphospecies","other_wild_bees",2,NA,134,400,"On each field study site, 100 flower heads in each of four parallel transects (total 400 flower heads) were surveyed in the morning and afternoon",NA
"Ruan_Veldtman_Helianthus_annuus_South_Africa_2011","A3","sweep net","Lasioglossum_sp.1","morphospecies","other_wild_bees",4,NA,134,400,"On each field study site, 100 flower heads in each of four parallel transects (total 400 flower heads) were surveyed in the morning and afternoon",NA
"Ruan_Veldtman_Helianthus_annuus_South_Africa_2011","A3","sweep net","Lasioglossum_sp.1","morphospecies","other_wild_bees",1,NA,134,400,"On each field study site, 100 flower heads in each of four parallel transects (total 400 flower heads) were surveyed in the morning and afternoon",NA
"Ruan_Veldtman_Helianthus_annuus_South_Africa_2011","A3","sweep net","Lasioglossum_sp.1","morphospecies","other_wild_bees",1,NA,134,400,"On each field study site, 100 flower heads in each of four parallel transects (total 400 flower heads) were surveyed in the morning and afternoon",NA
"Ruan_Veldtman_Helianthus_annuus_South_Africa_2011","A3","sweep net","Lasioglossum_sp.1","morphospecies","other_wild_bees",2,NA,134,400,"On each field study site, 100 flower heads in each of four parallel transects (total 400 flower heads) were surveyed in the morning and afternoon",NA
"Ruan_Veldtman_Helianthus_annuus_South_Africa_2011","A4","sweep net","Lasioglossum_sp.1","morphospecies","other_wild_bees",1,NA,140,400,"On each field study site, 100 flower heads in each of four parallel transects (total 400 flower heads) were surveyed in the morning and afternoon",NA
"Ruan_Veldtman_Helianthus_annuus_South_Africa_2011","A4","sweep net","Lasioglossum_sp.1","morphospecies","other_wild_bees",1,NA,140,400,"On each field study site, 100 flower heads in each of four parallel transects (total 400 flower heads) were surveyed in the morning and afternoon",NA
"Ruan_Veldtman_Helianthus_annuus_South_Africa_2011","A4","sweep net","Lasioglossum_sp.1","morphospecies","other_wild_bees",1,NA,140,400,"On each field study site, 100 flower heads in each of four parallel transects (total 400 flower heads) were surveyed in the morning and afternoon",NA
"Ruan_Veldtman_Helianthus_annuus_South_Africa_2011","A5","sweep net","Lasioglossum_sp.1","morphospecies","other_wild_bees",2,NA,102,400,"On each field study site, 100 flower heads in each of four parallel transects (total 400 flower heads) were surveyed in the morning and afternoon",NA
"Ruan_Veldtman_Helianthus_annuus_South_Africa_2011","A5","sweep net","Lasioglossum_sp.1","morphospecies","other_wild_bees",2,NA,102,400,"On each field study site, 100 flower heads in each of four parallel transects (total 400 flower heads) were surveyed in the morning and afternoon",NA
"Ruan_Veldtman_Helianthus_annuus_South_Africa_2011","N1","sweep net","Lasioglossum_sp.1","morphospecies","other_wild_bees",8,NA,153,400,"On each field study site, 100 flower heads in each of four parallel transects (total 400 flower heads) were surveyed in the morning and afternoon",NA
"Ruan_Veldtman_Helianthus_annuus_South_Africa_2011","N1","sweep net","Lasioglossum_sp.1","morphospecies","other_wild_bees",12,NA,153,400,"On each field study site, 100 flower heads in each of four parallel transects (total 400 flower heads) were surveyed in the morning and afternoon",NA
"Ruan_Veldtman_Helianthus_annuus_South_Africa_2011","N1","sweep net","Lasioglossum_sp.1","morphospecies","other_wild_bees",6,NA,153,400,"On each field study site, 100 flower heads in each of four parallel transects (total 400 flower heads) were surveyed in the morning and afternoon",NA
"Ruan_Veldtman_Helianthus_annuus_South_Africa_2011","N1","sweep net","Lasioglossum_sp.1","morphospecies","other_wild_bees",10,NA,153,400,"On each field study site, 100 flower heads in each of four parallel transects (total 400 flower heads) were surveyed in the morning and afternoon",NA
"Ruan_Veldtman_Helianthus_annuus_South_Africa_2011","N1","sweep net","Lasioglossum_sp.1","morphospecies","other_wild_bees",4,NA,153,400,"On each field study site, 100 flower heads in each of four parallel transects (total 400 flower heads) were surveyed in the morning and afternoon",NA
"Ruan_Veldtman_Helianthus_annuus_South_Africa_2011","N1","sweep net","Lasioglossum_sp.1","morphospecies","other_wild_bees",3,NA,153,400,"On each field study site, 100 flower heads in each of four parallel transects (total 400 flower heads) were surveyed in the morning and afternoon",NA
"Ruan_Veldtman_Helianthus_annuus_South_Africa_2011","N1","sweep net","Lasioglossum_sp.1","morphospecies","other_wild_bees",3,NA,153,400,"On each field study site, 100 flower heads in each of four parallel transects (total 400 flower heads) were surveyed in the morning and afternoon",NA
"Ruan_Veldtman_Helianthus_annuus_South_Africa_2011","N1","sweep net","Lasioglossum_sp.1","morphospecies","other_wild_bees",5,NA,153,400,"On each field study site, 100 flower heads in each of four parallel transects (total 400 flower heads) were surveyed in the morning and afternoon",NA
"Ruan_Veldtman_Helianthus_annuus_South_Africa_2011","N2","sweep net","Lasioglossum_sp.1","morphospecies","other_wild_bees",1,NA,134,400,"On each field study site, 100 flower heads in each of four parallel transects (total 400 flower heads) were surveyed in the morning and afternoon",NA
"Ruan_Veldtman_Helianthus_annuus_South_Africa_2011","N2","sweep net","Lasioglossum_sp.1","morphospecies","other_wild_bees",4,NA,134,400,"On each field study site, 100 flower heads in each of four parallel transects (total 400 flower heads) were surveyed in the morning and afternoon",NA
"Ruan_Veldtman_Helianthus_annuus_South_Africa_2011","N2","sweep net","Lasioglossum_sp.1","morphospecies","other_wild_bees",3,NA,134,400,"On each field study site, 100 flower heads in each of four parallel transects (total 400 flower heads) were surveyed in the morning and afternoon",NA
"Ruan_Veldtman_Helianthus_annuus_South_Africa_2011","N2","sweep net","Lasioglossum_sp.1","morphospecies","other_wild_bees",7,NA,134,400,"On each field study site, 100 flower heads in each of four parallel transects (total 400 flower heads) were surveyed in the morning and afternoon",NA
"Ruan_Veldtman_Helianthus_annuus_South_Africa_2011","N2","sweep net","Lasioglossum_sp.1","morphospecies","other_wild_bees",1,NA,134,400,"On each field study site, 100 flower heads in each of four parallel transects (total 400 flower heads) were surveyed in the morning and afternoon",NA
"Ruan_Veldtman_Helianthus_annuus_South_Africa_2011","N2","sweep net","Lasioglossum_sp.1","morphospecies","other_wild_bees",5,NA,134,400,"On each field study site, 100 flower heads in each of four parallel transects (total 400 flower heads) were surveyed in the morning and afternoon",NA
"Ruan_Veldtman_Helianthus_annuus_South_Africa_2011","N2","sweep net","Lasioglossum_sp.1","morphospecies","other_wild_bees",5,NA,134,400,"On each field study site, 100 flower heads in each of four parallel transects (total 400 flower heads) were surveyed in the morning and afternoon",NA
"Ruan_Veldtman_Helianthus_annuus_South_Africa_2011","N3","sweep net","Lasioglossum_sp.1","morphospecies","other_wild_bees",5,NA,114,400,"On each field study site, 100 flower heads in each of four parallel transects (total 400 flower heads) were surveyed in the morning and afternoon",NA
"Ruan_Veldtman_Helianthus_annuus_South_Africa_2011","N3","sweep net","Lasioglossum_sp.1","morphospecies","other_wild_bees",1,NA,114,400,"On each field study site, 100 flower heads in each of four parallel transects (total 400 flower heads) were surveyed in the morning and afternoon",NA
"Ruan_Veldtman_Helianthus_annuus_South_Africa_2011","N3","sweep net","Lasioglossum_sp.1","morphospecies","other_wild_bees",2,NA,114,400,"On each field study site, 100 flower heads in each of four parallel transects (total 400 flower heads) were surveyed in the morning and afternoon",NA
"Ruan_Veldtman_Helianthus_annuus_South_Africa_2011","N3","sweep net","Lasioglossum_sp.1","morphospecies","other_wild_bees",3,NA,114,400,"On each field study site, 100 flower heads in each of four parallel transects (total 400 flower heads) were surveyed in the morning and afternoon",NA
"Ruan_Veldtman_Helianthus_annuus_South_Africa_2011","N3","sweep net","Lasioglossum_sp.1","morphospecies","other_wild_bees",3,NA,114,400,"On each field study site, 100 flower heads in each of four parallel transects (total 400 flower heads) were surveyed in the morning and afternoon",NA
"Ruan_Veldtman_Helianthus_annuus_South_Africa_2011","N3","sweep net","Lasioglossum_sp.1","morphospecies","other_wild_bees",1,NA,114,400,"On each field study site, 100 flower heads in each of four parallel transects (total 400 flower heads) were surveyed in the morning and afternoon",NA
"Ruan_Veldtman_Helianthus_annuus_South_Africa_2011","N4","sweep net","Lasioglossum_sp.1","morphospecies","other_wild_bees",1,NA,114,400,"On each field study site, 100 flower heads in each of four parallel transects (total 400 flower heads) were surveyed in the morning and afternoon",NA
"Ruan_Veldtman_Helianthus_annuus_South_Africa_2011","N4","sweep net","Lasioglossum_sp.1","morphospecies","other_wild_bees",2,NA,114,400,"On each field study site, 100 flower heads in each of four parallel transects (total 400 flower heads) were surveyed in the morning and afternoon",NA
"Ruan_Veldtman_Helianthus_annuus_South_Africa_2011","N4","sweep net","Lasioglossum_sp.1","morphospecies","other_wild_bees",3,NA,114,400,"On each field study site, 100 flower heads in each of four parallel transects (total 400 flower heads) were surveyed in the morning and afternoon",NA
"Ruan_Veldtman_Helianthus_annuus_South_Africa_2011","N4","sweep net","Lasioglossum_sp.1","morphospecies","other_wild_bees",1,NA,114,400,"On each field study site, 100 flower heads in each of four parallel transects (total 400 flower heads) were surveyed in the morning and afternoon",NA
"Ruan_Veldtman_Helianthus_annuus_South_Africa_2011","N4","sweep net","Lasioglossum_sp.1","morphospecies","other_wild_bees",1,NA,114,400,"On each field study site, 100 flower heads in each of four parallel transects (total 400 flower heads) were surveyed in the morning and afternoon",NA
"Ruan_Veldtman_Helianthus_annuus_South_Africa_2011","N4","sweep net","Lasioglossum_sp.1","morphospecies","other_wild_bees",2,NA,114,400,"On each field study site, 100 flower heads in each of four parallel transects (total 400 flower heads) were surveyed in the morning and afternoon",NA
"Ruan_Veldtman_Helianthus_annuus_South_Africa_2011","N5","sweep net","Lasioglossum_sp.1","morphospecies","other_wild_bees",4,NA,139,400,"On each field study site, 100 flower heads in each of four parallel transects (total 400 flower heads) were surveyed in the morning and afternoon",NA
"Ruan_Veldtman_Helianthus_annuus_South_Africa_2011","N5","sweep net","Lasioglossum_sp.1","morphospecies","other_wild_bees",3,NA,139,400,"On each field study site, 100 flower heads in each of four parallel transects (total 400 flower heads) were surveyed in the morning and afternoon",NA
"Ruan_Veldtman_Helianthus_annuus_South_Africa_2011","N5","sweep net","Lasioglossum_sp.1","morphospecies","other_wild_bees",3,NA,139,400,"On each field study site, 100 flower heads in each of four parallel transects (total 400 flower heads) were surveyed in the morning and afternoon",NA
"Ruan_Veldtman_Helianthus_annuus_South_Africa_2011","N5","sweep net","Lasioglossum_sp.1","morphospecies","other_wild_bees",2,NA,139,400,"On each field study site, 100 flower heads in each of four parallel transects (total 400 flower heads) were surveyed in the morning and afternoon",NA
"Ruan_Veldtman_Helianthus_annuus_South_Africa_2011","N5","sweep net","Lasioglossum_sp.1","morphospecies","other_wild_bees",4,NA,139,400,"On each field study site, 100 flower heads in each of four parallel transects (total 400 flower heads) were surveyed in the morning and afternoon",NA
"Ruan_Veldtman_Helianthus_annuus_South_Africa_2011","N5","sweep net","Lasioglossum_sp.1","morphospecies","other_wild_bees",1,NA,139,400,"On each field study site, 100 flower heads in each of four parallel transects (total 400 flower heads) were surveyed in the morning and afternoon",NA
"Ruan_Veldtman_Helianthus_annuus_South_Africa_2011","A1","sweep net","Lasioglossum_sp.2","morphospecies","other_wild_bees",3,NA,136,400,"On each field study site, 100 flower heads in each of four parallel transects (total 400 flower heads) were surveyed in the morning and afternoon",NA
"Ruan_Veldtman_Helianthus_annuus_South_Africa_2011","A1","sweep net","Lasioglossum_sp.2","morphospecies","other_wild_bees",1,NA,136,400,"On each field study site, 100 flower heads in each of four parallel transects (total 400 flower heads) were surveyed in the morning and afternoon",NA
"Ruan_Veldtman_Helianthus_annuus_South_Africa_2011","A1","sweep net","Lasioglossum_sp.2","morphospecies","other_wild_bees",1,NA,136,400,"On each field study site, 100 flower heads in each of four parallel transects (total 400 flower heads) were surveyed in the morning and afternoon",NA
"Ruan_Veldtman_Helianthus_annuus_South_Africa_2011","A1","sweep net","Lasioglossum_sp.2","morphospecies","other_wild_bees",4,NA,136,400,"On each field study site, 100 flower heads in each of four parallel transects (total 400 flower heads) were surveyed in the morning and afternoon",NA
"Ruan_Veldtman_Helianthus_annuus_South_Africa_2011","N3","sweep net","Lasioglossum_sp.2","morphospecies","other_wild_bees",1,NA,114,400,"On each field study site, 100 flower heads in each of four parallel transects (total 400 flower heads) were surveyed in the morning and afternoon",NA
"Ruan_Veldtman_Helianthus_annuus_South_Africa_2011","A1","sweep net","Tetraloniella_braunsiana","species","other_wild_bees",1,NA,136,400,"On each field study site, 100 flower heads in each of four parallel transects (total 400 flower heads) were surveyed in the morning and afternoon",NA
"Ruan_Veldtman_Helianthus_annuus_South_Africa_2011","A1","sweep net","Tetraloniella_braunsiana","species","other_wild_bees",1,NA,136,400,"On each field study site, 100 flower heads in each of four parallel transects (total 400 flower heads) were surveyed in the morning and afternoon",NA
"Ruan_Veldtman_Helianthus_annuus_South_Africa_2011","A1","sweep net","Tetraloniella_braunsiana","species","other_wild_bees",8,NA,136,400,"On each field study site, 100 flower heads in each of four parallel transects (total 400 flower heads) were surveyed in the morning and afternoon",NA
"Ruan_Veldtman_Helianthus_annuus_South_Africa_2011","A1","sweep net","Tetraloniella_braunsiana","species","other_wild_bees",5,NA,136,400,"On each field study site, 100 flower heads in each of four parallel transects (total 400 flower heads) were surveyed in the morning and afternoon",NA
"Ruan_Veldtman_Helianthus_annuus_South_Africa_2011","A1","sweep net","Tetraloniella_braunsiana","species","other_wild_bees",5,NA,136,400,"On each field study site, 100 flower heads in each of four parallel transects (total 400 flower heads) were surveyed in the morning and afternoon",NA
"Ruan_Veldtman_Helianthus_annuus_South_Africa_2011","A1","sweep net","Tetraloniella_braunsiana","species","other_wild_bees",2,NA,136,400,"On each field study site, 100 flower heads in each of four parallel transects (total 400 flower heads) were surveyed in the morning and afternoon",NA
"Ruan_Veldtman_Helianthus_annuus_South_Africa_2011","A2","sweep net","Tetraloniella_braunsiana","species","other_wild_bees",1,NA,104,400,"On each field study site, 100 flower heads in each of four parallel transects (total 400 flower heads) were surveyed in the morning and afternoon",NA
"Ruan_Veldtman_Helianthus_annuus_South_Africa_2011","A2","sweep net","Tetraloniella_braunsiana","species","other_wild_bees",4,NA,104,400,"On each field study site, 100 flower heads in each of four parallel transects (total 400 flower heads) were surveyed in the morning and afternoon",NA
"Ruan_Veldtman_Helianthus_annuus_South_Africa_2011","A2","sweep net","Tetraloniella_braunsiana","species","other_wild_bees",1,NA,104,400,"On each field study site, 100 flower heads in each of four parallel transects (total 400 flower heads) were surveyed in the morning and afternoon",NA
"Ruan_Veldtman_Helianthus_annuus_South_Africa_2011","A2","sweep net","Tetraloniella_braunsiana","species","other_wild_bees",2,NA,104,400,"On each field study site, 100 flower heads in each of four parallel transects (total 400 flower heads) were surveyed in the morning and afternoon",NA
"Ruan_Veldtman_Helianthus_annuus_South_Africa_2011","A2","sweep net","Tetraloniella_braunsiana","species","other_wild_bees",1,NA,104,400,"On each field study site, 100 flower heads in each of four parallel transects (total 400 flower heads) were surveyed in the morning and afternoon",NA
"Ruan_Veldtman_Helianthus_annuus_South_Africa_2011","A3","sweep net","Tetraloniella_braunsiana","species","other_wild_bees",1,NA,134,400,"On each field study site, 100 flower heads in each of four parallel transects (total 400 flower heads) were surveyed in the morning and afternoon",NA
"Ruan_Veldtman_Helianthus_annuus_South_Africa_2011","A3","sweep net","Tetraloniella_braunsiana","species","other_wild_bees",4,NA,134,400,"On each field study site, 100 flower heads in each of four parallel transects (total 400 flower heads) were surveyed in the morning and afternoon",NA
"Ruan_Veldtman_Helianthus_annuus_South_Africa_2011","A3","sweep net","Tetraloniella_braunsiana","species","other_wild_bees",5,NA,134,400,"On each field study site, 100 flower heads in each of four parallel transects (total 400 flower heads) were surveyed in the morning and afternoon",NA
"Ruan_Veldtman_Helianthus_annuus_South_Africa_2011","N1","sweep net","Tetraloniella_braunsiana","species","other_wild_bees",5,NA,153,400,"On each field study site, 100 flower heads in each of four parallel transects (total 400 flower heads) were surveyed in the morning and afternoon",NA
"Ruan_Veldtman_Helianthus_annuus_South_Africa_2011","N1","sweep net","Tetraloniella_braunsiana","species","other_wild_bees",8,NA,153,400,"On each field study site, 100 flower heads in each of four parallel transects (total 400 flower heads) were surveyed in the morning and afternoon",NA
"Ruan_Veldtman_Helianthus_annuus_South_Africa_2011","N1","sweep net","Tetraloniella_braunsiana","species","other_wild_bees",8,NA,153,400,"On each field study site, 100 flower heads in each of four parallel transects (total 400 flower heads) were surveyed in the morning and afternoon",NA
"Ruan_Veldtman_Helianthus_annuus_South_Africa_2011","N1","sweep net","Tetraloniella_braunsiana","species","other_wild_bees",3,NA,153,400,"On each field study site, 100 flower heads in each of four parallel transects (total 400 flower heads) were surveyed in the morning and afternoon",NA
"Ruan_Veldtman_Helianthus_annuus_South_Africa_2011","N1","sweep net","Tetraloniella_braunsiana","species","other_wild_bees",8,NA,153,400,"On each field study site, 100 flower heads in each of four parallel transects (total 400 flower heads) were surveyed in the morning and afternoon",NA
"Ruan_Veldtman_Helianthus_annuus_South_Africa_2011","N1","sweep net","Tetraloniella_braunsiana","species","other_wild_bees",7,NA,153,400,"On each field study site, 100 flower heads in each of four parallel transects (total 400 flower heads) were surveyed in the morning and afternoon",NA
"Ruan_Veldtman_Helianthus_annuus_South_Africa_2011","N1","sweep net","Tetraloniella_braunsiana","species","other_wild_bees",13,NA,153,400,"On each field study site, 100 flower heads in each of four parallel transects (total 400 flower heads) were surveyed in the morning and afternoon",NA
"Ruan_Veldtman_Helianthus_annuus_South_Africa_2011","N1","sweep net","Tetraloniella_braunsiana","species","other_wild_bees",6,NA,153,400,"On each field study site, 100 flower heads in each of four parallel transects (total 400 flower heads) were surveyed in the morning and afternoon",NA
"Ruan_Veldtman_Helianthus_annuus_South_Africa_2011","N2","sweep net","Tetraloniella_braunsiana","species","other_wild_bees",2,NA,134,400,"On each field study site, 100 flower heads in each of four parallel transects (total 400 flower heads) were surveyed in the morning and afternoon",NA
"Ruan_Veldtman_Helianthus_annuus_South_Africa_2011","N2","sweep net","Tetraloniella_braunsiana","species","other_wild_bees",1,NA,134,400,"On each field study site, 100 flower heads in each of four parallel transects (total 400 flower heads) were surveyed in the morning and afternoon",NA
"Ruan_Veldtman_Helianthus_annuus_South_Africa_2011","N2","sweep net","Tetraloniella_braunsiana","species","other_wild_bees",2,NA,134,400,"On each field study site, 100 flower heads in each of four parallel transects (total 400 flower heads) were surveyed in the morning and afternoon",NA
"Ruan_Veldtman_Helianthus_annuus_South_Africa_2011","N3","sweep net","Tetraloniella_braunsiana","species","other_wild_bees",2,NA,114,400,"On each field study site, 100 flower heads in each of four parallel transects (total 400 flower heads) were surveyed in the morning and afternoon",NA
"Ruan_Veldtman_Helianthus_annuus_South_Africa_2011","N3","sweep net","Tetraloniella_braunsiana","species","other_wild_bees",2,NA,114,400,"On each field study site, 100 flower heads in each of four parallel transects (total 400 flower heads) were surveyed in the morning and afternoon",NA
"Ruan_Veldtman_Helianthus_annuus_South_Africa_2011","N4","sweep net","Tetraloniella_braunsiana","species","other_wild_bees",1,NA,114,400,"On each field study site, 100 flower heads in each of four parallel transects (total 400 flower heads) were surveyed in the morning and afternoon",NA
"Ruan_Veldtman_Helianthus_annuus_South_Africa_2011","N5","sweep net","Tetraloniella_braunsiana","species","other_wild_bees",1,NA,139,400,"On each field study site, 100 flower heads in each of four parallel transects (total 400 flower heads) were surveyed in the morning and afternoon",NA
"Ruan_Veldtman_Helianthus_annuus_South_Africa_2011","N5","sweep net","Tetraloniella_braunsiana","species","other_wild_bees",2,NA,139,400,"On each field study site, 100 flower heads in each of four parallel transects (total 400 flower heads) were surveyed in the morning and afternoon",NA
"Ruan_Veldtman_Helianthus_annuus_South_Africa_2011","N5","sweep net","Tetraloniella_braunsiana","species","other_wild_bees",1,NA,139,400,"On each field study site, 100 flower heads in each of four parallel transects (total 400 flower heads) were surveyed in the morning and afternoon",NA
"Ruan_Veldtman_Helianthus_annuus_South_Africa_2011","N5","sweep net","Tetraloniella_braunsiana","species","other_wild_bees",1,NA,139,400,"On each field study site, 100 flower heads in each of four parallel transects (total 400 flower heads) were surveyed in the morning and afternoon",NA
"Ruan_Veldtman_Helianthus_annuus_South_Africa_2011","N1","sweep net","Xylocopa_sp1.","morphospecies","other_wild_bees",1,NA,153,400,"On each field study site, 100 flower heads in each of four parallel transects (total 400 flower heads) were surveyed in the morning and afternoon",NA
"Ruan_Veldtman_Helianthus_annuus_South_Africa_2011","N2","sweep net","Xylocopa_sp1.","morphospecies","other_wild_bees",1,NA,134,400,"On each field study site, 100 flower heads in each of four parallel transects (total 400 flower heads) were surveyed in the morning and afternoon",NA
"Ruan_Veldtman_Helianthus_annuus_South_Africa_2011","N3","sweep net","Xylocopa_sp2.","morphospecies","other_wild_bees",2,NA,114,400,"On each field study site, 100 flower heads in each of four parallel transects (total 400 flower heads) were surveyed in the morning and afternoon",NA
"Ruan_Veldtman_Helianthus_annuus_South_Africa_2011","N3","sweep net","Sphecidae_wasp_sp1.","morphospecies","non_bee_hymenoptera",1,NA,114,400,"On each field study site, 100 flower heads in each of four parallel transects (total 400 flower heads) were surveyed in the morning and afternoon",NA
"Ruan_Veldtman_Helianthus_annuus_South_Africa_2011","A1","sweep net","small_hover_(Asarkina_sp1.)","morphospecies","syrphids",3,NA,136,400,"On each field study site, 100 flower heads in each of four parallel transects (total 400 flower heads) were surveyed in the morning and afternoon",NA
"Ruan_Veldtman_Helianthus_annuus_South_Africa_2011","A2","sweep net","small_hover_(Asarkina_sp1.)","morphospecies","syrphids",2,NA,104,400,"On each field study site, 100 flower heads in each of four parallel transects (total 400 flower heads) were surveyed in the morning and afternoon",NA
"Ruan_Veldtman_Helianthus_annuus_South_Africa_2011","A2","sweep net","small_hover_(Asarkina_sp1.)","morphospecies","syrphids",1,NA,104,400,"On each field study site, 100 flower heads in each of four parallel transects (total 400 flower heads) were surveyed in the morning and afternoon",NA
"Ruan_Veldtman_Helianthus_annuus_South_Africa_2011","A2","sweep net","small_hover_(Asarkina_sp1.)","morphospecies","syrphids",1,NA,104,400,"On each field study site, 100 flower heads in each of four parallel transects (total 400 flower heads) were surveyed in the morning and afternoon",NA
"Ruan_Veldtman_Helianthus_annuus_South_Africa_2011","A2","sweep net","small_hover_(Asarkina_sp1.)","morphospecies","syrphids",1,NA,104,400,"On each field study site, 100 flower heads in each of four parallel transects (total 400 flower heads) were surveyed in the morning and afternoon",NA
"Ruan_Veldtman_Helianthus_annuus_South_Africa_2011","A3","sweep net","small_hover_(Asarkina_sp1.)","morphospecies","syrphids",1,NA,134,400,"On each field study site, 100 flower heads in each of four parallel transects (total 400 flower heads) were surveyed in the morning and afternoon",NA
"Ruan_Veldtman_Helianthus_annuus_South_Africa_2011","A3","sweep net","small_hover_(Asarkina_sp1.)","morphospecies","syrphids",1,NA,134,400,"On each field study site, 100 flower heads in each of four parallel transects (total 400 flower heads) were surveyed in the morning and afternoon",NA
"Ruan_Veldtman_Helianthus_annuus_South_Africa_2011","A4","sweep net","small_hover_(Asarkina_sp1.)","morphospecies","syrphids",1,NA,140,400,"On each field study site, 100 flower heads in each of four parallel transects (total 400 flower heads) were surveyed in the morning and afternoon",NA
"Ruan_Veldtman_Helianthus_annuus_South_Africa_2011","A5","sweep net","small_hover_(Asarkina_sp1.)","morphospecies","syrphids",1,NA,102,400,"On each field study site, 100 flower heads in each of four parallel transects (total 400 flower heads) were surveyed in the morning and afternoon",NA
"Ruan_Veldtman_Helianthus_annuus_South_Africa_2011","A5","sweep net","small_hover_(Asarkina_sp1.)","morphospecies","syrphids",2,NA,102,400,"On each field study site, 100 flower heads in each of four parallel transects (total 400 flower heads) were surveyed in the morning and afternoon",NA
"Ruan_Veldtman_Helianthus_annuus_South_Africa_2011","A5","sweep net","small_hover_(Asarkina_sp1.)","morphospecies","syrphids",1,NA,102,400,"On each field study site, 100 flower heads in each of four parallel transects (total 400 flower heads) were surveyed in the morning and afternoon",NA
"Ruan_Veldtman_Helianthus_annuus_South_Africa_2011","A5","sweep net","small_hover_(Asarkina_sp1.)","morphospecies","syrphids",2,NA,102,400,"On each field study site, 100 flower heads in each of four parallel transects (total 400 flower heads) were surveyed in the morning and afternoon",NA
"Ruan_Veldtman_Helianthus_annuus_South_Africa_2011","A5","sweep net","small_hover_(Asarkina_sp1.)","morphospecies","syrphids",1,NA,102,400,"On each field study site, 100 flower heads in each of four parallel transects (total 400 flower heads) were surveyed in the morning and afternoon",NA
"Ruan_Veldtman_Helianthus_annuus_South_Africa_2011","A5","sweep net","small_hover_(Asarkina_sp1.)","morphospecies","syrphids",1,NA,102,400,"On each field study site, 100 flower heads in each of four parallel transects (total 400 flower heads) were surveyed in the morning and afternoon",NA
"Ruan_Veldtman_Helianthus_annuus_South_Africa_2011","N2","sweep net","small_hover_(Asarkina_sp1.)","morphospecies","syrphids",1,NA,134,400,"On each field study site, 100 flower heads in each of four parallel transects (total 400 flower heads) were surveyed in the morning and afternoon",NA
"Ruan_Veldtman_Helianthus_annuus_South_Africa_2011","N2","sweep net","small_hover_(Asarkina_sp1.)","morphospecies","syrphids",1,NA,134,400,"On each field study site, 100 flower heads in each of four parallel transects (total 400 flower heads) were surveyed in the morning and afternoon",NA
"Ruan_Veldtman_Helianthus_annuus_South_Africa_2011","N3","sweep net","small_hover_(Asarkina_sp1.)","morphospecies","syrphids",1,NA,114,400,"On each field study site, 100 flower heads in each of four parallel transects (total 400 flower heads) were surveyed in the morning and afternoon",NA
"Ruan_Veldtman_Helianthus_annuus_South_Africa_2011","N4","sweep net","small_hover_(Asarkina_sp1.)","morphospecies","syrphids",1,NA,114,400,"On each field study site, 100 flower heads in each of four parallel transects (total 400 flower heads) were surveyed in the morning and afternoon",NA
"Ruan_Veldtman_Helianthus_annuus_South_Africa_2011","N5","sweep net","small_hover_(Asarkina_sp1.)","morphospecies","syrphids",1,NA,139,400,"On each field study site, 100 flower heads in each of four parallel transects (total 400 flower heads) were surveyed in the morning and afternoon",NA
"Ruan_Veldtman_Helianthus_annuus_South_Africa_2011","A1","sweep net","large_hover_(Eristalis_sp1.)","morphospecies","syrphids",3,NA,136,400,"On each field study site, 100 flower heads in each of four parallel transects (total 400 flower heads) were surveyed in the morning and afternoon",NA
"Ruan_Veldtman_Helianthus_annuus_South_Africa_2011","A1","sweep net","large_hover_(Eristalis_sp1.)","morphospecies","syrphids",2,NA,136,400,"On each field study site, 100 flower heads in each of four parallel transects (total 400 flower heads) were surveyed in the morning and afternoon",NA
"Ruan_Veldtman_Helianthus_annuus_South_Africa_2011","A1","sweep net","large_hover_(Eristalis_sp1.)","morphospecies","syrphids",6,NA,136,400,"On each field study site, 100 flower heads in each of four parallel transects (total 400 flower heads) were surveyed in the morning and afternoon",NA
"Ruan_Veldtman_Helianthus_annuus_South_Africa_2011","A1","sweep net","large_hover_(Eristalis_sp1.)","morphospecies","syrphids",1,NA,136,400,"On each field study site, 100 flower heads in each of four parallel transects (total 400 flower heads) were surveyed in the morning and afternoon",NA
"Ruan_Veldtman_Helianthus_annuus_South_Africa_2011","A1","sweep net","large_hover_(Eristalis_sp1.)","morphospecies","syrphids",1,NA,136,400,"On each field study site, 100 flower heads in each of four parallel transects (total 400 flower heads) were surveyed in the morning and afternoon",NA
"Ruan_Veldtman_Helianthus_annuus_South_Africa_2011","A1","sweep net","large_hover_(Eristalis_sp1.)","morphospecies","syrphids",1,NA,136,400,"On each field study site, 100 flower heads in each of four parallel transects (total 400 flower heads) were surveyed in the morning and afternoon",NA
"Ruan_Veldtman_Helianthus_annuus_South_Africa_2011","A2","sweep net","large_hover_(Eristalis_sp1.)","morphospecies","syrphids",1,NA,104,400,"On each field study site, 100 flower heads in each of four parallel transects (total 400 flower heads) were surveyed in the morning and afternoon",NA
"Ruan_Veldtman_Helianthus_annuus_South_Africa_2011","A3","sweep net","large_hover_(Eristalis_sp1.)","morphospecies","syrphids",1,NA,134,400,"On each field study site, 100 flower heads in each of four parallel transects (total 400 flower heads) were surveyed in the morning and afternoon",NA
"Ruan_Veldtman_Helianthus_annuus_South_Africa_2011","A3","sweep net","large_hover_(Eristalis_sp1.)","morphospecies","syrphids",2,NA,134,400,"On each field study site, 100 flower heads in each of four parallel transects (total 400 flower heads) were surveyed in the morning and afternoon",NA
"Ruan_Veldtman_Helianthus_annuus_South_Africa_2011","A3","sweep net","large_hover_(Eristalis_sp1.)","morphospecies","syrphids",1,NA,134,400,"On each field study site, 100 flower heads in each of four parallel transects (total 400 flower heads) were surveyed in the morning and afternoon",NA
"Ruan_Veldtman_Helianthus_annuus_South_Africa_2011","A4","sweep net","large_hover_(Eristalis_sp1.)","morphospecies","syrphids",2,NA,140,400,"On each field study site, 100 flower heads in each of four parallel transects (total 400 flower heads) were surveyed in the morning and afternoon",NA
"Ruan_Veldtman_Helianthus_annuus_South_Africa_2011","N1","sweep net","large_hover_(Eristalis_sp1.)","morphospecies","syrphids",1,NA,153,400,"On each field study site, 100 flower heads in each of four parallel transects (total 400 flower heads) were surveyed in the morning and afternoon",NA
"Ruan_Veldtman_Helianthus_annuus_South_Africa_2011","N1","sweep net","large_hover_(Eristalis_sp1.)","morphospecies","syrphids",1,NA,153,400,"On each field study site, 100 flower heads in each of four parallel transects (total 400 flower heads) were surveyed in the morning and afternoon",NA
"Ruan_Veldtman_Helianthus_annuus_South_Africa_2011","N2","sweep net","large_hover_(Eristalis_sp1.)","morphospecies","syrphids",2,NA,134,400,"On each field study site, 100 flower heads in each of four parallel transects (total 400 flower heads) were surveyed in the morning and afternoon",NA
"Ruan_Veldtman_Helianthus_annuus_South_Africa_2011","N2","sweep net","large_hover_(Eristalis_sp1.)","morphospecies","syrphids",1,NA,134,400,"On each field study site, 100 flower heads in each of four parallel transects (total 400 flower heads) were surveyed in the morning and afternoon",NA
"Ruan_Veldtman_Helianthus_annuus_South_Africa_2011","N2","sweep net","large_hover_(Eristalis_sp1.)","morphospecies","syrphids",1,NA,134,400,"On each field study site, 100 flower heads in each of four parallel transects (total 400 flower heads) were surveyed in the morning and afternoon",NA
"Ruan_Veldtman_Helianthus_annuus_South_Africa_2011","N2","sweep net","large_hover_(Eristalis_sp1.)","morphospecies","syrphids",1,NA,134,400,"On each field study site, 100 flower heads in each of four parallel transects (total 400 flower heads) were surveyed in the morning and afternoon",NA
"Ruan_Veldtman_Helianthus_annuus_South_Africa_2011","N2","sweep net","large_hover_(Eristalis_sp1.)","morphospecies","syrphids",2,NA,134,400,"On each field study site, 100 flower heads in each of four parallel transects (total 400 flower heads) were surveyed in the morning and afternoon",NA
"Ruan_Veldtman_Helianthus_annuus_South_Africa_2011","N2","sweep net","large_hover_(Eristalis_sp1.)","morphospecies","syrphids",1,NA,134,400,"On each field study site, 100 flower heads in each of four parallel transects (total 400 flower heads) were surveyed in the morning and afternoon",NA
"Ruan_Veldtman_Helianthus_annuus_South_Africa_2011","N3","sweep net","large_hover_(Eristalis_sp1.)","morphospecies","syrphids",2,NA,114,400,"On each field study site, 100 flower heads in each of four parallel transects (total 400 flower heads) were surveyed in the morning and afternoon",NA
"Ruan_Veldtman_Helianthus_annuus_South_Africa_2011","N4","sweep net","large_hover_(Eristalis_sp1.)","morphospecies","syrphids",1,NA,114,400,"On each field study site, 100 flower heads in each of four parallel transects (total 400 flower heads) were surveyed in the morning and afternoon",NA
"Ruan_Veldtman_Helianthus_annuus_South_Africa_2011","N4","sweep net","large_hover_(Eristalis_sp1.)","morphospecies","syrphids",1,NA,114,400,"On each field study site, 100 flower heads in each of four parallel transects (total 400 flower heads) were surveyed in the morning and afternoon",NA
"Ruan_Veldtman_Helianthus_annuus_South_Africa_2011","N5","sweep net","large_hover_(Eristalis_sp1.)","morphospecies","syrphids",1,NA,139,400,"On each field study site, 100 flower heads in each of four parallel transects (total 400 flower heads) were surveyed in the morning and afternoon",NA
"Ruan_Veldtman_Helianthus_annuus_South_Africa_2011","N5","sweep net","large_hover_(Eristalis_sp1.)","morphospecies","syrphids",1,NA,139,400,"On each field study site, 100 flower heads in each of four parallel transects (total 400 flower heads) were surveyed in the morning and afternoon",NA
"Ruan_Veldtman_Helianthus_annuus_South_Africa_2011","N5","sweep net","large_hover_(Eristalis_sp1.)","morphospecies","syrphids",1,NA,139,400,"On each field study site, 100 flower heads in each of four parallel transects (total 400 flower heads) were surveyed in the morning and afternoon",NA
"Ruan_Veldtman_Helianthus_annuus_South_Africa_2011","A1","sweep net","Muscid_sp1.","morphospecies","other_flies",2,NA,136,400,"On each field study site, 100 flower heads in each of four parallel transects (total 400 flower heads) were surveyed in the morning and afternoon",NA
"Ruan_Veldtman_Helianthus_annuus_South_Africa_2011","A1","sweep net","Muscid_sp1.","morphospecies","other_flies",1,NA,136,400,"On each field study site, 100 flower heads in each of four parallel transects (total 400 flower heads) were surveyed in the morning and afternoon",NA
"Ruan_Veldtman_Helianthus_annuus_South_Africa_2011","A3","sweep net","Muscid_sp1.","morphospecies","other_flies",1,NA,134,400,"On each field study site, 100 flower heads in each of four parallel transects (total 400 flower heads) were surveyed in the morning and afternoon",NA
"Ruan_Veldtman_Helianthus_annuus_South_Africa_2011","A5","sweep net","Muscid_sp1.","morphospecies","other_flies",1,NA,102,400,"On each field study site, 100 flower heads in each of four parallel transects (total 400 flower heads) were surveyed in the morning and afternoon",NA
"Ruan_Veldtman_Helianthus_annuus_South_Africa_2011","N1","sweep net","Muscid_sp1.","morphospecies","other_flies",1,NA,153,400,"On each field study site, 100 flower heads in each of four parallel transects (total 400 flower heads) were surveyed in the morning and afternoon",NA
"Ruan_Veldtman_Helianthus_annuus_South_Africa_2011","N1","sweep net","Muscid_sp1.","morphospecies","other_flies",1,NA,153,400,"On each field study site, 100 flower heads in each of four parallel transects (total 400 flower heads) were surveyed in the morning and afternoon",NA
"Ruan_Veldtman_Helianthus_annuus_South_Africa_2011","N1","sweep net","Muscid_sp1.","morphospecies","other_flies",1,NA,153,400,"On each field study site, 100 flower heads in each of four parallel transects (total 400 flower heads) were surveyed in the morning and afternoon",NA
"Ruan_Veldtman_Helianthus_annuus_South_Africa_2011","N2","sweep net","Muscid_sp1.","morphospecies","other_flies",1,NA,134,400,"On each field study site, 100 flower heads in each of four parallel transects (total 400 flower heads) were surveyed in the morning and afternoon",NA
"Ruan_Veldtman_Helianthus_annuus_South_Africa_2011","N2","sweep net","Muscid_sp1.","morphospecies","other_flies",1,NA,134,400,"On each field study site, 100 flower heads in each of four parallel transects (total 400 flower heads) were surveyed in the morning and afternoon",NA
"Ruan_Veldtman_Helianthus_annuus_South_Africa_2011","N2","sweep net","Muscid_sp1.","morphospecies","other_flies",1,NA,134,400,"On each field study site, 100 flower heads in each of four parallel transects (total 400 flower heads) were surveyed in the morning and afternoon",NA
"Ruan_Veldtman_Helianthus_annuus_South_Africa_2011","N3","sweep net","Muscid_sp1.","morphospecies","other_flies",1,NA,114,400,"On each field study site, 100 flower heads in each of four parallel transects (total 400 flower heads) were surveyed in the morning and afternoon",NA
"Ruan_Veldtman_Helianthus_annuus_South_Africa_2011","A2","sweep net","Hesperiidae_sp1.(brown_skipper)","morphospecies","lepidoptera",2,NA,104,400,"On each field study site, 100 flower heads in each of four parallel transects (total 400 flower heads) were surveyed in the morning and afternoon",NA
"Ruan_Veldtman_Helianthus_annuus_South_Africa_2011","A4","sweep net","Hesperiidae_sp1.(brown_skipper)","morphospecies","lepidoptera",1,NA,140,400,"On each field study site, 100 flower heads in each of four parallel transects (total 400 flower heads) were surveyed in the morning and afternoon",NA
"Ruan_Veldtman_Helianthus_annuus_South_Africa_2011","N1","sweep net","Hesperiidae_sp1.(brown_skipper)","morphospecies","lepidoptera",1,NA,153,400,"On each field study site, 100 flower heads in each of four parallel transects (total 400 flower heads) were surveyed in the morning and afternoon",NA
"Ruan_Veldtman_Helianthus_annuus_South_Africa_2011","N1","sweep net","Hesperiidae_sp1.(brown_skipper)","morphospecies","lepidoptera",1,NA,153,400,"On each field study site, 100 flower heads in each of four parallel transects (total 400 flower heads) were surveyed in the morning and afternoon",NA
"Ruan_Veldtman_Helianthus_annuus_South_Africa_2011","N1","sweep net","Hesperiidae_sp1.(brown_skipper)","morphospecies","lepidoptera",2,NA,153,400,"On each field study site, 100 flower heads in each of four parallel transects (total 400 flower heads) were surveyed in the morning and afternoon",NA
"Ruan_Veldtman_Helianthus_annuus_South_Africa_2011","N3","sweep net","Hesperiidae_sp1.(brown_skipper)","morphospecies","lepidoptera",1,NA,114,400,"On each field study site, 100 flower heads in each of four parallel transects (total 400 flower heads) were surveyed in the morning and afternoon",NA
"Ruan_Veldtman_Helianthus_annuus_South_Africa_2011","N3","sweep net","Hesperiidae_sp1.(brown_skipper)","morphospecies","lepidoptera",1,NA,114,400,"On each field study site, 100 flower heads in each of four parallel transects (total 400 flower heads) were surveyed in the morning and afternoon",NA
"Ruan_Veldtman_Helianthus_annuus_South_Africa_2011","N3","sweep net","Hesperiidae_sp1.(brown_skipper)","morphospecies","lepidoptera",1,NA,114,400,"On each field study site, 100 flower heads in each of four parallel transects (total 400 flower heads) were surveyed in the morning and afternoon",NA
"Ruan_Veldtman_Helianthus_annuus_South_Africa_2011","N5","sweep net","Hesperiidae_sp1.(brown_skipper)","morphospecies","lepidoptera",1,NA,139,400,"On each field study site, 100 flower heads in each of four parallel transects (total 400 flower heads) were surveyed in the morning and afternoon",NA
"Ruan_Veldtman_Helianthus_annuus_South_Africa_2011","N5","sweep net","Hesperiidae_sp1.(brown_skipper)","morphospecies","lepidoptera",2,NA,139,400,"On each field study site, 100 flower heads in each of four parallel transects (total 400 flower heads) were surveyed in the morning and afternoon",NA
"Ruan_Veldtman_Helianthus_annuus_South_Africa_2011","N5","sweep net","Hesperiidae_sp1.(brown_skipper)","morphospecies","lepidoptera",1,NA,139,400,"On each field study site, 100 flower heads in each of four parallel transects (total 400 flower heads) were surveyed in the morning and afternoon",NA
"Ruan_Veldtman_Helianthus_annuus_South_Africa_2011","A2","sweep net","Acraea_horta","species","lepidoptera",1,NA,104,400,"On each field study site, 100 flower heads in each of four parallel transects (total 400 flower heads) were surveyed in the morning and afternoon",NA
"Ruan_Veldtman_Helianthus_annuus_South_Africa_2011","N2","sweep net","Acraea_horta","species","lepidoptera",1,NA,134,400,"On each field study site, 100 flower heads in each of four parallel transects (total 400 flower heads) were surveyed in the morning and afternoon",NA
"Ruan_Veldtman_Helianthus_annuus_South_Africa_2011","N3","sweep net","Acraea_horta","species","lepidoptera",1,NA,114,400,"On each field study site, 100 flower heads in each of four parallel transects (total 400 flower heads) were surveyed in the morning and afternoon",NA
"Ruan_Veldtman_Helianthus_annuus_South_Africa_2011","N3","sweep net","Acraea_horta","species","lepidoptera",1,NA,114,400,"On each field study site, 100 flower heads in each of four parallel transects (total 400 flower heads) were surveyed in the morning and afternoon",NA
"Ruan_Veldtman_Helianthus_annuus_South_Africa_2011","N3","sweep net","Acraea_horta","species","lepidoptera",1,NA,114,400,"On each field study site, 100 flower heads in each of four parallel transects (total 400 flower heads) were surveyed in the morning and afternoon",NA
"Ruan_Veldtman_Helianthus_annuus_South_Africa_2011","N3","sweep net","Acraea_horta","species","lepidoptera",1,NA,114,400,"On each field study site, 100 flower heads in each of four parallel transects (total 400 flower heads) were surveyed in the morning and afternoon",NA
"Ruan_Veldtman_Helianthus_annuus_South_Africa_2011","N3","sweep net","Acraea_horta","species","lepidoptera",1,NA,114,400,"On each field study site, 100 flower heads in each of four parallel transects (total 400 flower heads) were surveyed in the morning and afternoon",NA
"Ruan_Veldtman_Helianthus_annuus_South_Africa_2011","N5","sweep net","Acraea_horta","species","lepidoptera",1,NA,139,400,"On each field study site, 100 flower heads in each of four parallel transects (total 400 flower heads) were surveyed in the morning and afternoon",NA
"Ruan_Veldtman_Helianthus_annuus_South_Africa_2011","A2","sweep net","Colotis_sp1._(white_b-fly)","morphospecies","lepidoptera",1,NA,104,400,"On each field study site, 100 flower heads in each of four parallel transects (total 400 flower heads) were surveyed in the morning and afternoon",NA
"Ruan_Veldtman_Helianthus_annuus_South_Africa_2011","N1","sweep net","Colotis_sp1._(white_b-fly)","morphospecies","lepidoptera",1,NA,153,400,"On each field study site, 100 flower heads in each of four parallel transects (total 400 flower heads) were surveyed in the morning and afternoon",NA
"Ruan_Veldtman_Helianthus_annuus_South_Africa_2011","N3","sweep net","Colotis_sp1._(white_b-fly)","morphospecies","lepidoptera",1,NA,114,400,"On each field study site, 100 flower heads in each of four parallel transects (total 400 flower heads) were surveyed in the morning and afternoon",NA
"Ruan_Veldtman_Helianthus_annuus_South_Africa_2011","N3","sweep net","Colotis_sp1._(white_b-fly)","morphospecies","lepidoptera",1,NA,114,400,"On each field study site, 100 flower heads in each of four parallel transects (total 400 flower heads) were surveyed in the morning and afternoon",NA
"Ruan_Veldtman_Helianthus_annuus_South_Africa_2011","N3","sweep net","Colotis_sp1._(white_b-fly)","morphospecies","lepidoptera",1,NA,114,400,"On each field study site, 100 flower heads in each of four parallel transects (total 400 flower heads) were surveyed in the morning and afternoon",NA
"Ruan_Veldtman_Helianthus_annuus_South_Africa_2011","N3","sweep net","Colotis_sp1._(white_b-fly)","morphospecies","lepidoptera",1,NA,114,400,"On each field study site, 100 flower heads in each of four parallel transects (total 400 flower heads) were surveyed in the morning and afternoon",NA
"Ruan_Veldtman_Helianthus_annuus_South_Africa_2011","N5","sweep net","Colotis_sp1._(white_b-fly)","morphospecies","lepidoptera",1,NA,139,400,"On each field study site, 100 flower heads in each of four parallel transects (total 400 flower heads) were surveyed in the morning and afternoon",NA
"Ruan_Veldtman_Helianthus_annuus_South_Africa_2011","N5","sweep net","Colotis_sp1._(white_b-fly)","morphospecies","lepidoptera",1,NA,139,400,"On each field study site, 100 flower heads in each of four parallel transects (total 400 flower heads) were surveyed in the morning and afternoon",NA
"Ruan_Veldtman_Helianthus_annuus_South_Africa_2011","A3","sweep net","Vanessa_cardui","species","lepidoptera",1,NA,134,400,"On each field study site, 100 flower heads in each of four parallel transects (total 400 flower heads) were surveyed in the morning and afternoon",NA
"Ruan_Veldtman_Helianthus_annuus_South_Africa_2011","N1","sweep net","Vanessa_cardui","species","lepidoptera",1,NA,153,400,"On each field study site, 100 flower heads in each of four parallel transects (total 400 flower heads) were surveyed in the morning and afternoon",NA
"Ruan_Veldtman_Helianthus_annuus_South_Africa_2011","N1","sweep net","Vanessa_cardui","species","lepidoptera",1,NA,153,400,"On each field study site, 100 flower heads in each of four parallel transects (total 400 flower heads) were surveyed in the morning and afternoon",NA
"Ruan_Veldtman_Helianthus_annuus_South_Africa_2011","N4","sweep net","Vanessa_cardui","species","lepidoptera",1,NA,114,400,"On each field study site, 100 flower heads in each of four parallel transects (total 400 flower heads) were surveyed in the morning and afternoon",NA
"Ruan_Veldtman_Helianthus_annuus_South_Africa_2011","A5","sweep net","Danus_chrysippus_aegyptius","species","lepidoptera",1,NA,102,400,"On each field study site, 100 flower heads in each of four parallel transects (total 400 flower heads) were surveyed in the morning and afternoon",NA
"Ruan_Veldtman_Helianthus_annuus_South_Africa_2011","N2","sweep net","Danus_chrysippus_aegyptius","species","lepidoptera",1,NA,134,400,"On each field study site, 100 flower heads in each of four parallel transects (total 400 flower heads) were surveyed in the morning and afternoon",NA
"Ruan_Veldtman_Helianthus_annuus_South_Africa_2011","N2","sweep net","Danus_chrysippus_aegyptius","species","lepidoptera",1,NA,134,400,"On each field study site, 100 flower heads in each of four parallel transects (total 400 flower heads) were surveyed in the morning and afternoon",NA
"Ruan_Veldtman_Helianthus_annuus_South_Africa_2011","N3","sweep net","Danus_chrysippus_aegyptius","species","lepidoptera",1,NA,114,400,"On each field study site, 100 flower heads in each of four parallel transects (total 400 flower heads) were surveyed in the morning and afternoon",NA
"Ruan_Veldtman_Helianthus_annuus_South_Africa_2011","N3","sweep net","Danus_chrysippus_aegyptius","species","lepidoptera",1,NA,114,400,"On each field study site, 100 flower heads in each of four parallel transects (total 400 flower heads) were surveyed in the morning and afternoon",NA
"Ruan_Veldtman_Helianthus_annuus_South_Africa_2011","N4","sweep net","Danus_chrysippus_aegyptius","species","lepidoptera",1,NA,114,400,"On each field study site, 100 flower heads in each of four parallel transects (total 400 flower heads) were surveyed in the morning and afternoon",NA
"Ruan_Veldtman_Helianthus_annuus_South_Africa_2011","N4","sweep net","Danus_chrysippus_aegyptius","species","lepidoptera",1,NA,114,400,"On each field study site, 100 flower heads in each of four parallel transects (total 400 flower heads) were surveyed in the morning and afternoon",NA
"Ruan_Veldtman_Helianthus_annuus_South_Africa_2011","N4","sweep net","Danus_chrysippus_aegyptius","species","lepidoptera",1,NA,114,400,"On each field study site, 100 flower heads in each of four parallel transects (total 400 flower heads) were surveyed in the morning and afternoon",NA
"Ruan_Veldtman_Helianthus_annuus_South_Africa_2011","N5","sweep net","Danus_chrysippus_aegyptius","species","lepidoptera",1,NA,139,400,"On each field study site, 100 flower heads in each of four parallel transects (total 400 flower heads) were surveyed in the morning and afternoon",NA
"Ruan_Veldtman_Helianthus_annuus_South_Africa_2011","N3","sweep net","Hypolimnas_misippus(black_and_white)","species","lepidoptera",1,NA,114,400,"On each field study site, 100 flower heads in each of four parallel transects (total 400 flower heads) were surveyed in the morning and afternoon",NA
"Ruan_Veldtman_Helianthus_annuus_South_Africa_2011","N3","sweep net","Hypolimnas_misippus(black_and_white)","species","lepidoptera",1,NA,114,400,"On each field study site, 100 flower heads in each of four parallel transects (total 400 flower heads) were surveyed in the morning and afternoon",NA
"Ruan_Veldtman_Helianthus_annuus_South_Africa_2011","N3","sweep net","Hypolimnas_misippus(black_and_white)","species","lepidoptera",2,NA,114,400,"On each field study site, 100 flower heads in each of four parallel transects (total 400 flower heads) were surveyed in the morning and afternoon",NA
"Ruan_Veldtman_Helianthus_annuus_South_Africa_2011","N3","sweep net","Hypolimnas_misippus(black_and_white)","species","lepidoptera",1,NA,114,400,"On each field study site, 100 flower heads in each of four parallel transects (total 400 flower heads) were surveyed in the morning and afternoon",NA
"Ruan_Veldtman_Helianthus_annuus_South_Africa_2011","N5","sweep net","Hypolimnas_misippus(black_and_white)","species","lepidoptera",1,NA,139,400,"On each field study site, 100 flower heads in each of four parallel transects (total 400 flower heads) were surveyed in the morning and afternoon",NA
"Ruan_Veldtman_Helianthus_annuus_South_Africa_2011","A5","sweep net","Precis_oenone(blue_pansy)","species","lepidoptera",1,NA,102,400,"On each field study site, 100 flower heads in each of four parallel transects (total 400 flower heads) were surveyed in the morning and afternoon",NA
"Ruan_Veldtman_Helianthus_annuus_South_Africa_2011","N1","sweep net","Precis_oenone(blue_pansy)","species","lepidoptera",1,NA,153,400,"On each field study site, 100 flower heads in each of four parallel transects (total 400 flower heads) were surveyed in the morning and afternoon",NA
"Ruan_Veldtman_Helianthus_annuus_South_Africa_2011","N2","sweep net","Precis_oenone(blue_pansy)","species","lepidoptera",1,NA,134,400,"On each field study site, 100 flower heads in each of four parallel transects (total 400 flower heads) were surveyed in the morning and afternoon",NA
"Ruan_Veldtman_Helianthus_annuus_South_Africa_2011","N2","sweep net","Precis_oenone(blue_pansy)","species","lepidoptera",1,NA,134,400,"On each field study site, 100 flower heads in each of four parallel transects (total 400 flower heads) were surveyed in the morning and afternoon",NA
"Ruan_Veldtman_Helianthus_annuus_South_Africa_2011","N3","sweep net","Precis_oenone(blue_pansy)","species","lepidoptera",1,NA,114,400,"On each field study site, 100 flower heads in each of four parallel transects (total 400 flower heads) were surveyed in the morning and afternoon",NA
"Ruan_Veldtman_Helianthus_annuus_South_Africa_2011","N4","sweep net","Precis_oenone(blue_pansy)","species","lepidoptera",1,NA,114,400,"On each field study site, 100 flower heads in each of four parallel transects (total 400 flower heads) were surveyed in the morning and afternoon",NA
"Ruan_Veldtman_Helianthus_annuus_South_Africa_2011","N5","sweep net","Precis_oenone(blue_pansy)","species","lepidoptera",1,NA,139,400,"On each field study site, 100 flower heads in each of four parallel transects (total 400 flower heads) were surveyed in the morning and afternoon",NA
"Ruan_Veldtman_Helianthus_annuus_South_Africa_2011","N5","sweep net","Precis_oenone(blue_pansy)","species","lepidoptera",1,NA,139,400,"On each field study site, 100 flower heads in each of four parallel transects (total 400 flower heads) were surveyed in the morning and afternoon",NA
"Ruan_Veldtman_Helianthus_annuus_South_Africa_2011","A5","sweep net","Lycaenidae_sp1.","morphospecies","lepidoptera",1,NA,102,400,"On each field study site, 100 flower heads in each of four parallel transects (total 400 flower heads) were surveyed in the morning and afternoon",NA
"Ruan_Veldtman_Helianthus_annuus_South_Africa_2011","N3","sweep net","Macroglossum_trochilus(hummingbird_hawkmoth)","species","lepidoptera",1,NA,114,400,"On each field study site, 100 flower heads in each of four parallel transects (total 400 flower heads) were surveyed in the morning and afternoon",NA
"Ruan_Veldtman_Helianthus_annuus_South_Africa_2011","N4","sweep net","Noctuidae_sp1.","morphospecies","lepidoptera",1,NA,114,400,"On each field study site, 100 flower heads in each of four parallel transects (total 400 flower heads) were surveyed in the morning and afternoon",NA
"Ruan_Veldtman_Helianthus_annuus_South_Africa_2011","N5","sweep net","Noctuidae_sp1.","morphospecies","lepidoptera",1,NA,139,400,"On each field study site, 100 flower heads in each of four parallel transects (total 400 flower heads) were surveyed in the morning and afternoon",NA
"Ruan_Veldtman_Helianthus_annuus_South_Africa_2011","A3","sweep net","Astylus_atromaculatus","species","beetles",1,NA,134,400,"On each field study site, 100 flower heads in each of four parallel transects (total 400 flower heads) were surveyed in the morning and afternoon",NA
"Ruan_Veldtman_Helianthus_annuus_South_Africa_2011","N3","sweep net","Astylus_atromaculatus","species","beetles",1,NA,114,400,"On each field study site, 100 flower heads in each of four parallel transects (total 400 flower heads) were surveyed in the morning and afternoon",NA
"Ruan_Veldtman_Helianthus_annuus_South_Africa_2011","N3","sweep net","Astylus_atromaculatus","species","beetles",1,NA,114,400,"On each field study site, 100 flower heads in each of four parallel transects (total 400 flower heads) were surveyed in the morning and afternoon",NA
"Ruan_Veldtman_Helianthus_annuus_South_Africa_2011","N3","sweep net","Astylus_atromaculatus","species","beetles",1,NA,114,400,"On each field study site, 100 flower heads in each of four parallel transects (total 400 flower heads) were surveyed in the morning and afternoon",NA
"Ruan_Veldtman_Helianthus_annuus_South_Africa_2011","N5","sweep net","Astylus_atromaculatus","species","beetles",1,NA,139,400,"On each field study site, 100 flower heads in each of four parallel transects (total 400 flower heads) were surveyed in the morning and afternoon",NA
"Ruan_Veldtman_Helianthus_annuus_South_Africa_2011","N5","sweep net","Astylus_atromaculatus","species","beetles",1,NA,139,400,"On each field study site, 100 flower heads in each of four parallel transects (total 400 flower heads) were surveyed in the morning and afternoon",NA
"Ruan_Veldtman_Helianthus_annuus_South_Africa_2011","N3","sweep net","Tenebrionidae_sp1.","morphospecies","beetles",1,NA,114,400,"On each field study site, 100 flower heads in each of four parallel transects (total 400 flower heads) were surveyed in the morning and afternoon",NA
"Ruan_Veldtman_Helianthus_annuus_South_Africa_2011","N3","sweep net","Tenebrionidae_sp1.","morphospecies","beetles",1,NA,114,400,"On each field study site, 100 flower heads in each of four parallel transects (total 400 flower heads) were surveyed in the morning and afternoon",NA
"Ruan_Veldtman_Helianthus_annuus_South_Africa_2011","A4","sweep net","Lygus_sp1.(green_bug)","morphospecies","other",1,NA,140,400,"On each field study site, 100 flower heads in each of four parallel transects (total 400 flower heads) were surveyed in the morning and afternoon",NA
"Ruan_Veldtman_Helianthus_annuus_South_Africa_2011","A4","sweep net","Lygus_sp1.(green_bug)","morphospecies","other",1,NA,140,400,"On each field study site, 100 flower heads in each of four parallel transects (total 400 flower heads) were surveyed in the morning and afternoon",NA
"Ruan_Veldtman_Helianthus_annuus_South_Africa_2011","A4","sweep net","Lygus_sp1.(green_bug)","morphospecies","other",2,NA,140,400,"On each field study site, 100 flower heads in each of four parallel transects (total 400 flower heads) were surveyed in the morning and afternoon",NA
"Ruan_Veldtman_Helianthus_annuus_South_Africa_2011","A4","sweep net","Lygus_sp1.(green_bug)","morphospecies","other",2,NA,140,400,"On each field study site, 100 flower heads in each of four parallel transects (total 400 flower heads) were surveyed in the morning and afternoon",NA
"Ruan_Veldtman_Helianthus_annuus_South_Africa_2011","A4","sweep net","Lygus_sp1.(green_bug)","morphospecies","other",1,NA,140,400,"On each field study site, 100 flower heads in each of four parallel transects (total 400 flower heads) were surveyed in the morning and afternoon",NA
"Ruan_Veldtman_Helianthus_annuus_South_Africa_2011","A4","sweep net","Lygus_sp1.(green_bug)","morphospecies","other",3,NA,140,400,"On each field study site, 100 flower heads in each of four parallel transects (total 400 flower heads) were surveyed in the morning and afternoon",NA
"Ruan_Veldtman_Helianthus_annuus_South_Africa_2011","N1","sweep net","Lygus_sp1.(green_bug)","morphospecies","other",1,NA,153,400,"On each field study site, 100 flower heads in each of four parallel transects (total 400 flower heads) were surveyed in the morning and afternoon",NA
"Ruan_Veldtman_Helianthus_annuus_South_Africa_2011","N1","sweep net","Lygus_sp1.(green_bug)","morphospecies","other",1,NA,153,400,"On each field study site, 100 flower heads in each of four parallel transects (total 400 flower heads) were surveyed in the morning and afternoon",NA
"Ruan_Veldtman_Helianthus_annuus_South_Africa_2011","N1","sweep net","Lygus_sp1.(green_bug)","morphospecies","other",3,NA,153,400,"On each field study site, 100 flower heads in each of four parallel transects (total 400 flower heads) were surveyed in the morning and afternoon",NA
"Ruan_Veldtman_Helianthus_annuus_South_Africa_2011","N4","sweep net","Lygus_sp1.(green_bug)","morphospecies","other",1,NA,114,400,"On each field study site, 100 flower heads in each of four parallel transects (total 400 flower heads) were surveyed in the morning and afternoon",NA
"Ruan_Veldtman_Helianthus_annuus_South_Africa_2011","N5","sweep net","Lygus_sp1.(green_bug)","morphospecies","other",1,NA,139,400,"On each field study site, 100 flower heads in each of four parallel transects (total 400 flower heads) were surveyed in the morning and afternoon",NA
"Ruan_Veldtman_Helianthus_annuus_South_Africa_2011","N5","sweep net","Lygus_sp1.(green_bug)","morphospecies","other",2,NA,139,400,"On each field study site, 100 flower heads in each of four parallel transects (total 400 flower heads) were surveyed in the morning and afternoon",NA
"Ruan_Veldtman_Helianthus_annuus_South_Africa_2011","N5","sweep net","Lygus_sp1.(green_bug)","morphospecies","other",1,NA,139,400,"On each field study site, 100 flower heads in each of four parallel transects (total 400 flower heads) were surveyed in the morning and afternoon",NA
"Ruan_Veldtman_Helianthus_annuus_South_Africa_2011","N5","sweep net","Lygus_sp1.(green_bug)","morphospecies","other",2,NA,139,400,"On each field study site, 100 flower heads in each of four parallel transects (total 400 flower heads) were surveyed in the morning and afternoon",NA
"Ruan_Veldtman_Helianthus_annuus_South_Africa_2011","A2","observation","Lasioglossum_sp.1","morphospecies","other_wild_bees",1,NA,NA,NA,"Voucher specimens for all insect flower visitors that touched the reproductive structures of surveyed sunflower heads were collected. From this, all bee specimens were identified to the lowest possible taxonomic level.",NA
"Ruan_Veldtman_Helianthus_annuus_South_Africa_2011","A2","observation","Lasioglossum_sp.1","morphospecies","other_wild_bees",1,NA,NA,NA,"Voucher specimens for all insect flower visitors that touched the reproductive structures of surveyed sunflower heads were collected. From this, all bee specimens were identified to the lowest possible taxonomic level.",NA
"Ruan_Veldtman_Helianthus_annuus_South_Africa_2011","N3","observation","Lasioglossum_sp.1","morphospecies","other_wild_bees",1,NA,NA,NA,"Voucher specimens for all insect flower visitors that touched the reproductive structures of surveyed sunflower heads were collected. From this, all bee specimens were identified to the lowest possible taxonomic level.",NA
"Ruan_Veldtman_Helianthus_annuus_South_Africa_2011","N3","observation","Lasioglossum_sp.1","morphospecies","other_wild_bees",1,NA,NA,NA,"Voucher specimens for all insect flower visitors that touched the reproductive structures of surveyed sunflower heads were collected. From this, all bee specimens were identified to the lowest possible taxonomic level.",NA
"Ruan_Veldtman_Helianthus_annuus_South_Africa_2011","N4","observation","Lasioglossum_sp.1","morphospecies","other_wild_bees",1,NA,NA,NA,"Voucher specimens for all insect flower visitors that touched the reproductive structures of surveyed sunflower heads were collected. From this, all bee specimens were identified to the lowest possible taxonomic level.",NA
"Ruan_Veldtman_Helianthus_annuus_South_Africa_2011","A1","observation","Lasioglossum_sp.2","morphospecies","other_wild_bees",1,NA,NA,NA,"Voucher specimens for all insect flower visitors that touched the reproductive structures of surveyed sunflower heads were collected. From this, all bee specimens were identified to the lowest possible taxonomic level.",NA
"Ruan_Veldtman_Helianthus_annuus_South_Africa_2011","A1","observation","Lasioglossum_sp.2","morphospecies","other_wild_bees",1,NA,NA,NA,"Voucher specimens for all insect flower visitors that touched the reproductive structures of surveyed sunflower heads were collected. From this, all bee specimens were identified to the lowest possible taxonomic level.",NA
"Ruan_Veldtman_Helianthus_annuus_South_Africa_2011","A1","observation","Lasioglossum_sp.2","morphospecies","other_wild_bees",2,NA,NA,NA,"Voucher specimens for all insect flower visitors that touched the reproductive structures of surveyed sunflower heads were collected. From this, all bee specimens were identified to the lowest possible taxonomic level.",NA
"Ruan_Veldtman_Helianthus_annuus_South_Africa_2011","A1","observation","Lasioglossum_sp.2","morphospecies","other_wild_bees",2,NA,NA,NA,"Voucher specimens for all insect flower visitors that touched the reproductive structures of surveyed sunflower heads were collected. From this, all bee specimens were identified to the lowest possible taxonomic level.",NA
"Ruan_Veldtman_Helianthus_annuus_South_Africa_2011","A1","observation","Lasioglossum_sp.2","morphospecies","other_wild_bees",1,NA,NA,NA,"Voucher specimens for all insect flower visitors that touched the reproductive structures of surveyed sunflower heads were collected. From this, all bee specimens were identified to the lowest possible taxonomic level.",NA
"Ruan_Veldtman_Helianthus_annuus_South_Africa_2011","A1","observation","Lasioglossum_sp.2","morphospecies","other_wild_bees",2,NA,NA,NA,"Voucher specimens for all insect flower visitors that touched the reproductive structures of surveyed sunflower heads were collected. From this, all bee specimens were identified to the lowest possible taxonomic level.",NA
"Ruan_Veldtman_Helianthus_annuus_South_Africa_2011","A1","observation","Lasioglossum_sp.2","morphospecies","other_wild_bees",1,NA,NA,NA,"Voucher specimens for all insect flower visitors that touched the reproductive structures of surveyed sunflower heads were collected. From this, all bee specimens were identified to the lowest possible taxonomic level.",NA
"Ruan_Veldtman_Helianthus_annuus_South_Africa_2011","A1","observation","Lasioglossum_sp.2","morphospecies","other_wild_bees",1,NA,NA,NA,"Voucher specimens for all insect flower visitors that touched the reproductive structures of surveyed sunflower heads were collected. From this, all bee specimens were identified to the lowest possible taxonomic level.",NA
"Ruan_Veldtman_Helianthus_annuus_South_Africa_2011","A2","observation","Lasioglossum_sp.2","morphospecies","other_wild_bees",2,NA,NA,NA,"Voucher specimens for all insect flower visitors that touched the reproductive structures of surveyed sunflower heads were collected. From this, all bee specimens were identified to the lowest possible taxonomic level.",NA
"Ruan_Veldtman_Helianthus_annuus_South_Africa_2011","A2","observation","Lasioglossum_sp.2","morphospecies","other_wild_bees",2,NA,NA,NA,"Voucher specimens for all insect flower visitors that touched the reproductive structures of surveyed sunflower heads were collected. From this, all bee specimens were identified to the lowest possible taxonomic level.",NA
"Ruan_Veldtman_Helianthus_annuus_South_Africa_2011","A2","observation","Lasioglossum_sp.2","morphospecies","other_wild_bees",1,NA,NA,NA,"Voucher specimens for all insect flower visitors that touched the reproductive structures of surveyed sunflower heads were collected. From this, all bee specimens were identified to the lowest possible taxonomic level.",NA
"Ruan_Veldtman_Helianthus_annuus_South_Africa_2011","A2","observation","Lasioglossum_sp.2","morphospecies","other_wild_bees",2,NA,NA,NA,"Voucher specimens for all insect flower visitors that touched the reproductive structures of surveyed sunflower heads were collected. From this, all bee specimens were identified to the lowest possible taxonomic level.",NA
"Ruan_Veldtman_Helianthus_annuus_South_Africa_2011","A2","observation","Lasioglossum_sp.2","morphospecies","other_wild_bees",1,NA,NA,NA,"Voucher specimens for all insect flower visitors that touched the reproductive structures of surveyed sunflower heads were collected. From this, all bee specimens were identified to the lowest possible taxonomic level.",NA
"Ruan_Veldtman_Helianthus_annuus_South_Africa_2011","A3","observation","Lasioglossum_sp.2","morphospecies","other_wild_bees",2,NA,NA,NA,"Voucher specimens for all insect flower visitors that touched the reproductive structures of surveyed sunflower heads were collected. From this, all bee specimens were identified to the lowest possible taxonomic level.",NA
"Ruan_Veldtman_Helianthus_annuus_South_Africa_2011","A3","observation","Lasioglossum_sp.2","morphospecies","other_wild_bees",2,NA,NA,NA,"Voucher specimens for all insect flower visitors that touched the reproductive structures of surveyed sunflower heads were collected. From this, all bee specimens were identified to the lowest possible taxonomic level.",NA
"Ruan_Veldtman_Helianthus_annuus_South_Africa_2011","A3","observation","Lasioglossum_sp.2","morphospecies","other_wild_bees",1,NA,NA,NA,"Voucher specimens for all insect flower visitors that touched the reproductive structures of surveyed sunflower heads were collected. From this, all bee specimens were identified to the lowest possible taxonomic level.",NA
"Ruan_Veldtman_Helianthus_annuus_South_Africa_2011","A3","observation","Lasioglossum_sp.2","morphospecies","other_wild_bees",2,NA,NA,NA,"Voucher specimens for all insect flower visitors that touched the reproductive structures of surveyed sunflower heads were collected. From this, all bee specimens were identified to the lowest possible taxonomic level.",NA
"Ruan_Veldtman_Helianthus_annuus_South_Africa_2011","A3","observation","Lasioglossum_sp.2","morphospecies","other_wild_bees",1,NA,NA,NA,"Voucher specimens for all insect flower visitors that touched the reproductive structures of surveyed sunflower heads were collected. From this, all bee specimens were identified to the lowest possible taxonomic level.",NA
"Ruan_Veldtman_Helianthus_annuus_South_Africa_2011","A4","observation","Lasioglossum_sp.2","morphospecies","other_wild_bees",1,NA,NA,NA,"Voucher specimens for all insect flower visitors that touched the reproductive structures of surveyed sunflower heads were collected. From this, all bee specimens were identified to the lowest possible taxonomic level.",NA
"Ruan_Veldtman_Helianthus_annuus_South_Africa_2011","A5","observation","Lasioglossum_sp.2","morphospecies","other_wild_bees",1,NA,NA,NA,"Voucher specimens for all insect flower visitors that touched the reproductive structures of surveyed sunflower heads were collected. From this, all bee specimens were identified to the lowest possible taxonomic level.",NA
"Ruan_Veldtman_Helianthus_annuus_South_Africa_2011","N1","observation","Lasioglossum_sp.2","morphospecies","other_wild_bees",3,NA,NA,NA,"Voucher specimens for all insect flower visitors that touched the reproductive structures of surveyed sunflower heads were collected. From this, all bee specimens were identified to the lowest possible taxonomic level.",NA
"Ruan_Veldtman_Helianthus_annuus_South_Africa_2011","N1","observation","Lasioglossum_sp.2","morphospecies","other_wild_bees",3,NA,NA,NA,"Voucher specimens for all insect flower visitors that touched the reproductive structures of surveyed sunflower heads were collected. From this, all bee specimens were identified to the lowest possible taxonomic level.",NA
"Ruan_Veldtman_Helianthus_annuus_South_Africa_2011","N1","observation","Lasioglossum_sp.2","morphospecies","other_wild_bees",1,NA,NA,NA,"Voucher specimens for all insect flower visitors that touched the reproductive structures of surveyed sunflower heads were collected. From this, all bee specimens were identified to the lowest possible taxonomic level.",NA
"Ruan_Veldtman_Helianthus_annuus_South_Africa_2011","N1","observation","Lasioglossum_sp.2","morphospecies","other_wild_bees",2,NA,NA,NA,"Voucher specimens for all insect flower visitors that touched the reproductive structures of surveyed sunflower heads were collected. From this, all bee specimens were identified to the lowest possible taxonomic level.",NA
"Ruan_Veldtman_Helianthus_annuus_South_Africa_2011","N1","observation","Lasioglossum_sp.2","morphospecies","other_wild_bees",2,NA,NA,NA,"Voucher specimens for all insect flower visitors that touched the reproductive structures of surveyed sunflower heads were collected. From this, all bee specimens were identified to the lowest possible taxonomic level.",NA
"Ruan_Veldtman_Helianthus_annuus_South_Africa_2011","N1","observation","Lasioglossum_sp.2","morphospecies","other_wild_bees",1,NA,NA,NA,"Voucher specimens for all insect flower visitors that touched the reproductive structures of surveyed sunflower heads were collected. From this, all bee specimens were identified to the lowest possible taxonomic level.",NA
"Ruan_Veldtman_Helianthus_annuus_South_Africa_2011","N2","observation","Lasioglossum_sp.2","morphospecies","other_wild_bees",1,NA,NA,NA,"Voucher specimens for all insect flower visitors that touched the reproductive structures of surveyed sunflower heads were collected. From this, all bee specimens were identified to the lowest possible taxonomic level.",NA
"Ruan_Veldtman_Helianthus_annuus_South_Africa_2011","N2","observation","Lasioglossum_sp.2","morphospecies","other_wild_bees",2,NA,NA,NA,"Voucher specimens for all insect flower visitors that touched the reproductive structures of surveyed sunflower heads were collected. From this, all bee specimens were identified to the lowest possible taxonomic level.",NA
"Ruan_Veldtman_Helianthus_annuus_South_Africa_2011","N2","observation","Lasioglossum_sp.2","morphospecies","other_wild_bees",1,NA,NA,NA,"Voucher specimens for all insect flower visitors that touched the reproductive structures of surveyed sunflower heads were collected. From this, all bee specimens were identified to the lowest possible taxonomic level.",NA
"Ruan_Veldtman_Helianthus_annuus_South_Africa_2011","N2","observation","Lasioglossum_sp.2","morphospecies","other_wild_bees",1,NA,NA,NA,"Voucher specimens for all insect flower visitors that touched the reproductive structures of surveyed sunflower heads were collected. From this, all bee specimens were identified to the lowest possible taxonomic level.",NA
"Ruan_Veldtman_Helianthus_annuus_South_Africa_2011","N2","observation","Lasioglossum_sp.2","morphospecies","other_wild_bees",2,NA,NA,NA,"Voucher specimens for all insect flower visitors that touched the reproductive structures of surveyed sunflower heads were collected. From this, all bee specimens were identified to the lowest possible taxonomic level.",NA
"Ruan_Veldtman_Helianthus_annuus_South_Africa_2011","N3","observation","Lasioglossum_sp.2","morphospecies","other_wild_bees",2,NA,NA,NA,"Voucher specimens for all insect flower visitors that touched the reproductive structures of surveyed sunflower heads were collected. From this, all bee specimens were identified to the lowest possible taxonomic level.",NA
"Ruan_Veldtman_Helianthus_annuus_South_Africa_2011","N3","observation","Lasioglossum_sp.2","morphospecies","other_wild_bees",1,NA,NA,NA,"Voucher specimens for all insect flower visitors that touched the reproductive structures of surveyed sunflower heads were collected. From this, all bee specimens were identified to the lowest possible taxonomic level.",NA
"Ruan_Veldtman_Helianthus_annuus_South_Africa_2011","N3","observation","Lasioglossum_sp.2","morphospecies","other_wild_bees",1,NA,NA,NA,"Voucher specimens for all insect flower visitors that touched the reproductive structures of surveyed sunflower heads were collected. From this, all bee specimens were identified to the lowest possible taxonomic level.",NA
"Ruan_Veldtman_Helianthus_annuus_South_Africa_2011","N3","observation","Lasioglossum_sp.2","morphospecies","other_wild_bees",1,NA,NA,NA,"Voucher specimens for all insect flower visitors that touched the reproductive structures of surveyed sunflower heads were collected. From this, all bee specimens were identified to the lowest possible taxonomic level.",NA
"Ruan_Veldtman_Helianthus_annuus_South_Africa_2011","N3","observation","Lasioglossum_sp.2","morphospecies","other_wild_bees",1,NA,NA,NA,"Voucher specimens for all insect flower visitors that touched the reproductive structures of surveyed sunflower heads were collected. From this, all bee specimens were identified to the lowest possible taxonomic level.",NA
"Ruan_Veldtman_Helianthus_annuus_South_Africa_2011","N3","observation","Lasioglossum_sp.2","morphospecies","other_wild_bees",1,NA,NA,NA,"Voucher specimens for all insect flower visitors that touched the reproductive structures of surveyed sunflower heads were collected. From this, all bee specimens were identified to the lowest possible taxonomic level.",NA
"Ruan_Veldtman_Helianthus_annuus_South_Africa_2011","N4","observation","Lasioglossum_sp.2","morphospecies","other_wild_bees",1,NA,NA,NA,"Voucher specimens for all insect flower visitors that touched the reproductive structures of surveyed sunflower heads were collected. From this, all bee specimens were identified to the lowest possible taxonomic level.",NA
"Ruan_Veldtman_Helianthus_annuus_South_Africa_2011","N4","observation","Lasioglossum_sp.2","morphospecies","other_wild_bees",2,NA,NA,NA,"Voucher specimens for all insect flower visitors that touched the reproductive structures of surveyed sunflower heads were collected. From this, all bee specimens were identified to the lowest possible taxonomic level.",NA
"Ruan_Veldtman_Helianthus_annuus_South_Africa_2011","N4","observation","Lasioglossum_sp.2","morphospecies","other_wild_bees",1,NA,NA,NA,"Voucher specimens for all insect flower visitors that touched the reproductive structures of surveyed sunflower heads were collected. From this, all bee specimens were identified to the lowest possible taxonomic level.",NA
"Ruan_Veldtman_Helianthus_annuus_South_Africa_2011","N4","observation","Lasioglossum_sp.2","morphospecies","other_wild_bees",1,NA,NA,NA,"Voucher specimens for all insect flower visitors that touched the reproductive structures of surveyed sunflower heads were collected. From this, all bee specimens were identified to the lowest possible taxonomic level.",NA
"Ruan_Veldtman_Helianthus_annuus_South_Africa_2011","N4","observation","Lasioglossum_sp.2","morphospecies","other_wild_bees",1,NA,NA,NA,"Voucher specimens for all insect flower visitors that touched the reproductive structures of surveyed sunflower heads were collected. From this, all bee specimens were identified to the lowest possible taxonomic level.",NA
"Ruan_Veldtman_Helianthus_annuus_South_Africa_2011","N5","observation","Lasioglossum_sp.2","morphospecies","other_wild_bees",3,NA,NA,NA,"Voucher specimens for all insect flower visitors that touched the reproductive structures of surveyed sunflower heads were collected. From this, all bee specimens were identified to the lowest possible taxonomic level.",NA
"Ruan_Veldtman_Helianthus_annuus_South_Africa_2011","N5","observation","Lasioglossum_sp.2","morphospecies","other_wild_bees",1,NA,NA,NA,"Voucher specimens for all insect flower visitors that touched the reproductive structures of surveyed sunflower heads were collected. From this, all bee specimens were identified to the lowest possible taxonomic level.",NA
"Ruan_Veldtman_Helianthus_annuus_South_Africa_2011","N5","observation","Lasioglossum_sp.2","morphospecies","other_wild_bees",1,NA,NA,NA,"Voucher specimens for all insect flower visitors that touched the reproductive structures of surveyed sunflower heads were collected. From this, all bee specimens were identified to the lowest possible taxonomic level.",NA
"Ruan_Veldtman_Helianthus_annuus_South_Africa_2011","N5","observation","Lasioglossum_sp.2","morphospecies","other_wild_bees",1,NA,NA,NA,"Voucher specimens for all insect flower visitors that touched the reproductive structures of surveyed sunflower heads were collected. From this, all bee specimens were identified to the lowest possible taxonomic level.",NA
"Ruan_Veldtman_Helianthus_annuus_South_Africa_2011","N5","observation","Lasioglossum_sp.2","morphospecies","other_wild_bees",1,NA,NA,NA,"Voucher specimens for all insect flower visitors that touched the reproductive structures of surveyed sunflower heads were collected. From this, all bee specimens were identified to the lowest possible taxonomic level.",NA
"Ruan_Veldtman_Helianthus_annuus_South_Africa_2011","N5","observation","Lasioglossum_sp.2","morphospecies","other_wild_bees",1,NA,NA,NA,"Voucher specimens for all insect flower visitors that touched the reproductive structures of surveyed sunflower heads were collected. From this, all bee specimens were identified to the lowest possible taxonomic level.",NA
"Ruan_Veldtman_Helianthus_annuus_South_Africa_2011","N5","observation","Lasioglossum_sp.2","morphospecies","other_wild_bees",1,NA,NA,NA,"Voucher specimens for all insect flower visitors that touched the reproductive structures of surveyed sunflower heads were collected. From this, all bee specimens were identified to the lowest possible taxonomic level.",NA
"Ruan_Veldtman_Helianthus_annuus_South_Africa_2011","N5","observation","Lasioglossum_sp.2","morphospecies","other_wild_bees",1,NA,NA,NA,"Voucher specimens for all insect flower visitors that touched the reproductive structures of surveyed sunflower heads were collected. From this, all bee specimens were identified to the lowest possible taxonomic level.",NA
"Ruan_Veldtman_Helianthus_annuus_South_Africa_2011","A1","observation","Tetraloniella_braunsiana","species","other_wild_bees",3,NA,NA,NA,"Voucher specimens for all insect flower visitors that touched the reproductive structures of surveyed sunflower heads were collected. From this, all bee specimens were identified to the lowest possible taxonomic level.",NA
"Ruan_Veldtman_Helianthus_annuus_South_Africa_2011","A1","observation","Tetraloniella_braunsiana","species","other_wild_bees",2,NA,NA,NA,"Voucher specimens for all insect flower visitors that touched the reproductive structures of surveyed sunflower heads were collected. From this, all bee specimens were identified to the lowest possible taxonomic level.",NA
"Ruan_Veldtman_Helianthus_annuus_South_Africa_2011","A1","observation","Tetraloniella_braunsiana","species","other_wild_bees",2,NA,NA,NA,"Voucher specimens for all insect flower visitors that touched the reproductive structures of surveyed sunflower heads were collected. From this, all bee specimens were identified to the lowest possible taxonomic level.",NA
"Ruan_Veldtman_Helianthus_annuus_South_Africa_2011","A1","observation","Tetraloniella_braunsiana","species","other_wild_bees",1,NA,NA,NA,"Voucher specimens for all insect flower visitors that touched the reproductive structures of surveyed sunflower heads were collected. From this, all bee specimens were identified to the lowest possible taxonomic level.",NA
"Ruan_Veldtman_Helianthus_annuus_South_Africa_2011","A1","observation","Tetraloniella_braunsiana","species","other_wild_bees",1,NA,NA,NA,"Voucher specimens for all insect flower visitors that touched the reproductive structures of surveyed sunflower heads were collected. From this, all bee specimens were identified to the lowest possible taxonomic level.",NA
"Ruan_Veldtman_Helianthus_annuus_South_Africa_2011","A1","observation","Tetraloniella_braunsiana","species","other_wild_bees",5,NA,NA,NA,"Voucher specimens for all insect flower visitors that touched the reproductive structures of surveyed sunflower heads were collected. From this, all bee specimens were identified to the lowest possible taxonomic level.",NA
"Ruan_Veldtman_Helianthus_annuus_South_Africa_2011","A1","observation","Tetraloniella_braunsiana","species","other_wild_bees",1,NA,NA,NA,"Voucher specimens for all insect flower visitors that touched the reproductive structures of surveyed sunflower heads were collected. From this, all bee specimens were identified to the lowest possible taxonomic level.",NA
"Ruan_Veldtman_Helianthus_annuus_South_Africa_2011","A1","observation","Tetraloniella_braunsiana","species","other_wild_bees",1,NA,NA,NA,"Voucher specimens for all insect flower visitors that touched the reproductive structures of surveyed sunflower heads were collected. From this, all bee specimens were identified to the lowest possible taxonomic level.",NA
"Ruan_Veldtman_Helianthus_annuus_South_Africa_2011","A2","observation","Tetraloniella_braunsiana","species","other_wild_bees",1,NA,NA,NA,"Voucher specimens for all insect flower visitors that touched the reproductive structures of surveyed sunflower heads were collected. From this, all bee specimens were identified to the lowest possible taxonomic level.",NA
"Ruan_Veldtman_Helianthus_annuus_South_Africa_2011","A3","observation","Tetraloniella_braunsiana","species","other_wild_bees",2,NA,NA,NA,"Voucher specimens for all insect flower visitors that touched the reproductive structures of surveyed sunflower heads were collected. From this, all bee specimens were identified to the lowest possible taxonomic level.",NA
"Ruan_Veldtman_Helianthus_annuus_South_Africa_2011","A3","observation","Tetraloniella_braunsiana","species","other_wild_bees",1,NA,NA,NA,"Voucher specimens for all insect flower visitors that touched the reproductive structures of surveyed sunflower heads were collected. From this, all bee specimens were identified to the lowest possible taxonomic level.",NA
"Ruan_Veldtman_Helianthus_annuus_South_Africa_2011","N1","observation","Tetraloniella_braunsiana","species","other_wild_bees",3,NA,NA,NA,"Voucher specimens for all insect flower visitors that touched the reproductive structures of surveyed sunflower heads were collected. From this, all bee specimens were identified to the lowest possible taxonomic level.",NA
"Ruan_Veldtman_Helianthus_annuus_South_Africa_2011","N1","observation","Tetraloniella_braunsiana","species","other_wild_bees",1,NA,NA,NA,"Voucher specimens for all insect flower visitors that touched the reproductive structures of surveyed sunflower heads were collected. From this, all bee specimens were identified to the lowest possible taxonomic level.",NA
"Ruan_Veldtman_Helianthus_annuus_South_Africa_2011","N1","observation","Tetraloniella_braunsiana","species","other_wild_bees",1,NA,NA,NA,"Voucher specimens for all insect flower visitors that touched the reproductive structures of surveyed sunflower heads were collected. From this, all bee specimens were identified to the lowest possible taxonomic level.",NA
"Ruan_Veldtman_Helianthus_annuus_South_Africa_2011","N1","observation","Tetraloniella_braunsiana","species","other_wild_bees",2,NA,NA,NA,"Voucher specimens for all insect flower visitors that touched the reproductive structures of surveyed sunflower heads were collected. From this, all bee specimens were identified to the lowest possible taxonomic level.",NA
"Ruan_Veldtman_Helianthus_annuus_South_Africa_2011","N1","observation","Tetraloniella_braunsiana","species","other_wild_bees",1,NA,NA,NA,"Voucher specimens for all insect flower visitors that touched the reproductive structures of surveyed sunflower heads were collected. From this, all bee specimens were identified to the lowest possible taxonomic level.",NA
"Ruan_Veldtman_Helianthus_annuus_South_Africa_2011","N1","observation","Tetraloniella_braunsiana","species","other_wild_bees",1,NA,NA,NA,"Voucher specimens for all insect flower visitors that touched the reproductive structures of surveyed sunflower heads were collected. From this, all bee specimens were identified to the lowest possible taxonomic level.",NA
"Ruan_Veldtman_Helianthus_annuus_South_Africa_2011","N1","observation","Tetraloniella_braunsiana","species","other_wild_bees",1,NA,NA,NA,"Voucher specimens for all insect flower visitors that touched the reproductive structures of surveyed sunflower heads were collected. From this, all bee specimens were identified to the lowest possible taxonomic level.",NA
"Ruan_Veldtman_Helianthus_annuus_South_Africa_2011","N3","observation","Tetraloniella_braunsiana","species","other_wild_bees",1,NA,NA,NA,"Voucher specimens for all insect flower visitors that touched the reproductive structures of surveyed sunflower heads were collected. From this, all bee specimens were identified to the lowest possible taxonomic level.",NA
"Ruan_Veldtman_Helianthus_annuus_South_Africa_2011","N3","observation","Tetraloniella_braunsiana","species","other_wild_bees",1,NA,NA,NA,"Voucher specimens for all insect flower visitors that touched the reproductive structures of surveyed sunflower heads were collected. From this, all bee specimens were identified to the lowest possible taxonomic level.",NA
"Ruan_Veldtman_Helianthus_annuus_South_Africa_2011","N4","observation","Tetraloniella_braunsiana","species","other_wild_bees",1,NA,NA,NA,"Voucher specimens for all insect flower visitors that touched the reproductive structures of surveyed sunflower heads were collected. From this, all bee specimens were identified to the lowest possible taxonomic level.",NA
"Ruan_Veldtman_Helianthus_annuus_South_Africa_2011","N5","observation","Tetraloniella_braunsiana","species","other_wild_bees",1,NA,NA,NA,"Voucher specimens for all insect flower visitors that touched the reproductive structures of surveyed sunflower heads were collected. From this, all bee specimens were identified to the lowest possible taxonomic level.",NA
"Ruan_Veldtman_Helianthus_annuus_South_Africa_2011","N5","observation","Tetraloniella_braunsiana","species","other_wild_bees",1,NA,NA,NA,"Voucher specimens for all insect flower visitors that touched the reproductive structures of surveyed sunflower heads were collected. From this, all bee specimens were identified to the lowest possible taxonomic level.",NA
"Ruan_Veldtman_Helianthus_annuus_South_Africa_2011","N5","observation","Tetraloniella_braunsiana","species","other_wild_bees",1,NA,NA,NA,"Voucher specimens for all insect flower visitors that touched the reproductive structures of surveyed sunflower heads were collected. From this, all bee specimens were identified to the lowest possible taxonomic level.",NA
"Ruan_Veldtman_Helianthus_annuus_South_Africa_2011","N1","observation","bee.red.abdomen.sp1","morphospecies","other_wild_bees",1,NA,NA,NA,"Voucher specimens for all insect flower visitors that touched the reproductive structures of surveyed sunflower heads were collected. From this, all bee specimens were identified to the lowest possible taxonomic level.",NA
"Ruan_Veldtman_Helianthus_annuus_South_Africa_2011","N1","observation","Xylocopa_sp1.","morphospecies","other_wild_bees",1,NA,NA,NA,"Voucher specimens for all insect flower visitors that touched the reproductive structures of surveyed sunflower heads were collected. From this, all bee specimens were identified to the lowest possible taxonomic level.",NA
"Ruan_Veldtman_Helianthus_annuus_South_Africa_2011","A1","observation","Xylocopa_sp2.(black_white)","morphospecies","other_wild_bees",1,NA,NA,NA,"Voucher specimens for all insect flower visitors that touched the reproductive structures of surveyed sunflower heads were collected. From this, all bee specimens were identified to the lowest possible taxonomic level.",NA
"Ruan_Veldtman_Helianthus_annuus_South_Africa_2011","A1","observation","small_hover_(Asarkina_sp1.)","morphospecies","syrphids",2,NA,NA,NA,"Voucher specimens for all insect flower visitors that touched the reproductive structures of surveyed sunflower heads were collected. From this, all bee specimens were identified to the lowest possible taxonomic level.",NA
"Ruan_Veldtman_Helianthus_annuus_South_Africa_2011","A1","observation","small_hover_(Asarkina_sp1.)","morphospecies","syrphids",1,NA,NA,NA,"Voucher specimens for all insect flower visitors that touched the reproductive structures of surveyed sunflower heads were collected. From this, all bee specimens were identified to the lowest possible taxonomic level.",NA
"Ruan_Veldtman_Helianthus_annuus_South_Africa_2011","A2","observation","small_hover_(Asarkina_sp1.)","morphospecies","syrphids",1,NA,NA,NA,"Voucher specimens for all insect flower visitors that touched the reproductive structures of surveyed sunflower heads were collected. From this, all bee specimens were identified to the lowest possible taxonomic level.",NA
"Ruan_Veldtman_Helianthus_annuus_South_Africa_2011","A2","observation","small_hover_(Asarkina_sp1.)","morphospecies","syrphids",1,NA,NA,NA,"Voucher specimens for all insect flower visitors that touched the reproductive structures of surveyed sunflower heads were collected. From this, all bee specimens were identified to the lowest possible taxonomic level.",NA
"Ruan_Veldtman_Helianthus_annuus_South_Africa_2011","A3","observation","small_hover_(Asarkina_sp1.)","morphospecies","syrphids",1,NA,NA,NA,"Voucher specimens for all insect flower visitors that touched the reproductive structures of surveyed sunflower heads were collected. From this, all bee specimens were identified to the lowest possible taxonomic level.",NA
"Ruan_Veldtman_Helianthus_annuus_South_Africa_2011","A4","observation","small_hover_(Asarkina_sp1.)","morphospecies","syrphids",1,NA,NA,NA,"Voucher specimens for all insect flower visitors that touched the reproductive structures of surveyed sunflower heads were collected. From this, all bee specimens were identified to the lowest possible taxonomic level.",NA
"Ruan_Veldtman_Helianthus_annuus_South_Africa_2011","A5","observation","small_hover_(Asarkina_sp1.)","morphospecies","syrphids",2,NA,NA,NA,"Voucher specimens for all insect flower visitors that touched the reproductive structures of surveyed sunflower heads were collected. From this, all bee specimens were identified to the lowest possible taxonomic level.",NA
"Ruan_Veldtman_Helianthus_annuus_South_Africa_2011","A5","observation","small_hover_(Asarkina_sp1.)","morphospecies","syrphids",1,NA,NA,NA,"Voucher specimens for all insect flower visitors that touched the reproductive structures of surveyed sunflower heads were collected. From this, all bee specimens were identified to the lowest possible taxonomic level.",NA
"Ruan_Veldtman_Helianthus_annuus_South_Africa_2011","A5","observation","small_hover_(Asarkina_sp1.)","morphospecies","syrphids",1,NA,NA,NA,"Voucher specimens for all insect flower visitors that touched the reproductive structures of surveyed sunflower heads were collected. From this, all bee specimens were identified to the lowest possible taxonomic level.",NA
"Ruan_Veldtman_Helianthus_annuus_South_Africa_2011","A5","observation","small_hover_(Asarkina_sp1.)","morphospecies","syrphids",1,NA,NA,NA,"Voucher specimens for all insect flower visitors that touched the reproductive structures of surveyed sunflower heads were collected. From this, all bee specimens were identified to the lowest possible taxonomic level.",NA
"Ruan_Veldtman_Helianthus_annuus_South_Africa_2011","A5","observation","small_hover_(Asarkina_sp1.)","morphospecies","syrphids",1,NA,NA,NA,"Voucher specimens for all insect flower visitors that touched the reproductive structures of surveyed sunflower heads were collected. From this, all bee specimens were identified to the lowest possible taxonomic level.",NA
"Ruan_Veldtman_Helianthus_annuus_South_Africa_2011","N5","observation","small_hover_(Asarkina_sp1.)","morphospecies","syrphids",1,NA,NA,NA,"Voucher specimens for all insect flower visitors that touched the reproductive structures of surveyed sunflower heads were collected. From this, all bee specimens were identified to the lowest possible taxonomic level.",NA
"Ruan_Veldtman_Helianthus_annuus_South_Africa_2011","A5","observation","small_hover_(Asarkina_sp2.)","morphospecies","syrphids",1,NA,NA,NA,"Voucher specimens for all insect flower visitors that touched the reproductive structures of surveyed sunflower heads were collected. From this, all bee specimens were identified to the lowest possible taxonomic level.",NA
"Ruan_Veldtman_Helianthus_annuus_South_Africa_2011","N5","observation","small_hover_(Asarkina_sp2.)","morphospecies","syrphids",1,NA,NA,NA,"Voucher specimens for all insect flower visitors that touched the reproductive structures of surveyed sunflower heads were collected. From this, all bee specimens were identified to the lowest possible taxonomic level.",NA
"Ruan_Veldtman_Helianthus_annuus_South_Africa_2011","A1","observation","large_hover_(Eristalis_sp1.)","morphospecies","syrphids",1,NA,NA,NA,"Voucher specimens for all insect flower visitors that touched the reproductive structures of surveyed sunflower heads were collected. From this, all bee specimens were identified to the lowest possible taxonomic level.",NA
"Ruan_Veldtman_Helianthus_annuus_South_Africa_2011","A1","observation","large_hover_(Eristalis_sp1.)","morphospecies","syrphids",1,NA,NA,NA,"Voucher specimens for all insect flower visitors that touched the reproductive structures of surveyed sunflower heads were collected. From this, all bee specimens were identified to the lowest possible taxonomic level.",NA
"Ruan_Veldtman_Helianthus_annuus_South_Africa_2011","A5","observation","large_hover_(Eristalis_sp1.)","morphospecies","syrphids",1,NA,NA,NA,"Voucher specimens for all insect flower visitors that touched the reproductive structures of surveyed sunflower heads were collected. From this, all bee specimens were identified to the lowest possible taxonomic level.",NA
"Ruan_Veldtman_Helianthus_annuus_South_Africa_2011","N1","observation","large_hover_(Eristalis_sp1.)","morphospecies","syrphids",1,NA,NA,NA,"Voucher specimens for all insect flower visitors that touched the reproductive structures of surveyed sunflower heads were collected. From this, all bee specimens were identified to the lowest possible taxonomic level.",NA
"Ruan_Veldtman_Helianthus_annuus_South_Africa_2011","N2","observation","large_hover_(Eristalis_sp1.)","morphospecies","syrphids",1,NA,NA,NA,"Voucher specimens for all insect flower visitors that touched the reproductive structures of surveyed sunflower heads were collected. From this, all bee specimens were identified to the lowest possible taxonomic level.",NA
"Ruan_Veldtman_Helianthus_annuus_South_Africa_2011","N2","observation","large_hover_(Eristalis_sp1.)","morphospecies","syrphids",1,NA,NA,NA,"Voucher specimens for all insect flower visitors that touched the reproductive structures of surveyed sunflower heads were collected. From this, all bee specimens were identified to the lowest possible taxonomic level.",NA
"Ruan_Veldtman_Helianthus_annuus_South_Africa_2011","N2","observation","large_hover_(Eristalis_sp1.)","morphospecies","syrphids",3,NA,NA,NA,"Voucher specimens for all insect flower visitors that touched the reproductive structures of surveyed sunflower heads were collected. From this, all bee specimens were identified to the lowest possible taxonomic level.",NA
"Ruan_Veldtman_Helianthus_annuus_South_Africa_2011","N2","observation","large_hover_(Eristalis_sp1.)","morphospecies","syrphids",2,NA,NA,NA,"Voucher specimens for all insect flower visitors that touched the reproductive structures of surveyed sunflower heads were collected. From this, all bee specimens were identified to the lowest possible taxonomic level.",NA
"Ruan_Veldtman_Helianthus_annuus_South_Africa_2011","N3","observation","large_hover_(Eristalis_sp1.)","morphospecies","syrphids",1,NA,NA,NA,"Voucher specimens for all insect flower visitors that touched the reproductive structures of surveyed sunflower heads were collected. From this, all bee specimens were identified to the lowest possible taxonomic level.",NA
"Ruan_Veldtman_Helianthus_annuus_South_Africa_2011","N4","observation","large_hover_(Eristalis_sp1.)","morphospecies","syrphids",1,NA,NA,NA,"Voucher specimens for all insect flower visitors that touched the reproductive structures of surveyed sunflower heads were collected. From this, all bee specimens were identified to the lowest possible taxonomic level.",NA
"Ruan_Veldtman_Helianthus_annuus_South_Africa_2011","N4","observation","large_hover_(Eristalis_sp1.)","morphospecies","syrphids",1,NA,NA,NA,"Voucher specimens for all insect flower visitors that touched the reproductive structures of surveyed sunflower heads were collected. From this, all bee specimens were identified to the lowest possible taxonomic level.",NA
"Ruan_Veldtman_Helianthus_annuus_South_Africa_2011","N5","observation","large_hover_(Eristalis_sp1.)","morphospecies","syrphids",2,NA,NA,NA,"Voucher specimens for all insect flower visitors that touched the reproductive structures of surveyed sunflower heads were collected. From this, all bee specimens were identified to the lowest possible taxonomic level.",NA
"Ruan_Veldtman_Helianthus_annuus_South_Africa_2011","A2","observation","Muscid_sp1.","morphospecies","other_flies",1,NA,NA,NA,"Voucher specimens for all insect flower visitors that touched the reproductive structures of surveyed sunflower heads were collected. From this, all bee specimens were identified to the lowest possible taxonomic level.",NA
"Ruan_Veldtman_Helianthus_annuus_South_Africa_2011","A2","observation","Muscid_sp1.","morphospecies","other_flies",1,NA,NA,NA,"Voucher specimens for all insect flower visitors that touched the reproductive structures of surveyed sunflower heads were collected. From this, all bee specimens were identified to the lowest possible taxonomic level.",NA
"Ruan_Veldtman_Helianthus_annuus_South_Africa_2011","A3","observation","Muscid_sp1.","morphospecies","other_flies",1,NA,NA,NA,"Voucher specimens for all insect flower visitors that touched the reproductive structures of surveyed sunflower heads were collected. From this, all bee specimens were identified to the lowest possible taxonomic level.",NA
"Ruan_Veldtman_Helianthus_annuus_South_Africa_2011","A3","observation","Muscid_sp1.","morphospecies","other_flies",1,NA,NA,NA,"Voucher specimens for all insect flower visitors that touched the reproductive structures of surveyed sunflower heads were collected. From this, all bee specimens were identified to the lowest possible taxonomic level.",NA
"Ruan_Veldtman_Helianthus_annuus_South_Africa_2011","A3","observation","Muscid_sp1.","morphospecies","other_flies",1,NA,NA,NA,"Voucher specimens for all insect flower visitors that touched the reproductive structures of surveyed sunflower heads were collected. From this, all bee specimens were identified to the lowest possible taxonomic level.",NA
"Ruan_Veldtman_Helianthus_annuus_South_Africa_2011","A3","observation","Muscid_sp1.","morphospecies","other_flies",1,NA,NA,NA,"Voucher specimens for all insect flower visitors that touched the reproductive structures of surveyed sunflower heads were collected. From this, all bee specimens were identified to the lowest possible taxonomic level.",NA
"Ruan_Veldtman_Helianthus_annuus_South_Africa_2011","A5","observation","Muscid_sp1.","morphospecies","other_flies",1,NA,NA,NA,"Voucher specimens for all insect flower visitors that touched the reproductive structures of surveyed sunflower heads were collected. From this, all bee specimens were identified to the lowest possible taxonomic level.",NA
"Ruan_Veldtman_Helianthus_annuus_South_Africa_2011","A5","observation","Muscid_sp1.","morphospecies","other_flies",1,NA,NA,NA,"Voucher specimens for all insect flower visitors that touched the reproductive structures of surveyed sunflower heads were collected. From this, all bee specimens were identified to the lowest possible taxonomic level.",NA
"Ruan_Veldtman_Helianthus_annuus_South_Africa_2011","N1","observation","Muscid_sp1.","morphospecies","other_flies",1,NA,NA,NA,"Voucher specimens for all insect flower visitors that touched the reproductive structures of surveyed sunflower heads were collected. From this, all bee specimens were identified to the lowest possible taxonomic level.",NA
"Ruan_Veldtman_Helianthus_annuus_South_Africa_2011","N2","observation","Muscid_sp1.","morphospecies","other_flies",3,NA,NA,NA,"Voucher specimens for all insect flower visitors that touched the reproductive structures of surveyed sunflower heads were collected. From this, all bee specimens were identified to the lowest possible taxonomic level.",NA
"Ruan_Veldtman_Helianthus_annuus_South_Africa_2011","N2","observation","Muscid_sp1.","morphospecies","other_flies",1,NA,NA,NA,"Voucher specimens for all insect flower visitors that touched the reproductive structures of surveyed sunflower heads were collected. From this, all bee specimens were identified to the lowest possible taxonomic level.",NA
"Ruan_Veldtman_Helianthus_annuus_South_Africa_2011","N2","observation","Muscid_sp1.","morphospecies","other_flies",1,NA,NA,NA,"Voucher specimens for all insect flower visitors that touched the reproductive structures of surveyed sunflower heads were collected. From this, all bee specimens were identified to the lowest possible taxonomic level.",NA
"Ruan_Veldtman_Helianthus_annuus_South_Africa_2011","N2","observation","Sarcophagidae_sp1.","morphospecies","other_flies",1,NA,NA,NA,"Voucher specimens for all insect flower visitors that touched the reproductive structures of surveyed sunflower heads were collected. From this, all bee specimens were identified to the lowest possible taxonomic level.",NA
"Ruan_Veldtman_Helianthus_annuus_South_Africa_2011","N4","observation","Caliphoridae_sp1.","morphospecies","other_flies",1,NA,NA,NA,"Voucher specimens for all insect flower visitors that touched the reproductive structures of surveyed sunflower heads were collected. From this, all bee specimens were identified to the lowest possible taxonomic level.",NA
"Ruan_Veldtman_Helianthus_annuus_South_Africa_2011","A2","observation","Coeliades_pisistratus(skipper)","species","lepidoptera",1,NA,NA,NA,"Voucher specimens for all insect flower visitors that touched the reproductive structures of surveyed sunflower heads were collected. From this, all bee specimens were identified to the lowest possible taxonomic level.",NA
"Ruan_Veldtman_Helianthus_annuus_South_Africa_2011","A2","observation","brown_skipper_sp1.","morphospecies","lepidoptera",1,NA,NA,NA,"Voucher specimens for all insect flower visitors that touched the reproductive structures of surveyed sunflower heads were collected. From this, all bee specimens were identified to the lowest possible taxonomic level.",NA
"Ruan_Veldtman_Helianthus_annuus_South_Africa_2011","N3","observation","brown_skipper_sp1.","morphospecies","lepidoptera",1,NA,NA,NA,"Voucher specimens for all insect flower visitors that touched the reproductive structures of surveyed sunflower heads were collected. From this, all bee specimens were identified to the lowest possible taxonomic level.",NA
"Ruan_Veldtman_Helianthus_annuus_South_Africa_2011","N5","observation","brown_skipper_sp1.","morphospecies","lepidoptera",1,NA,NA,NA,"Voucher specimens for all insect flower visitors that touched the reproductive structures of surveyed sunflower heads were collected. From this, all bee specimens were identified to the lowest possible taxonomic level.",NA
"Ruan_Veldtman_Helianthus_annuus_South_Africa_2011","N5","observation","Mylothris_sp1.","morphospecies","lepidoptera",1,NA,NA,NA,"Voucher specimens for all insect flower visitors that touched the reproductive structures of surveyed sunflower heads were collected. From this, all bee specimens were identified to the lowest possible taxonomic level.",NA
"Ruan_Veldtman_Helianthus_annuus_South_Africa_2011","A2","observation","Acraea_horta","species","lepidoptera",1,NA,NA,NA,"Voucher specimens for all insect flower visitors that touched the reproductive structures of surveyed sunflower heads were collected. From this, all bee specimens were identified to the lowest possible taxonomic level.",NA
"Ruan_Veldtman_Helianthus_annuus_South_Africa_2011","A3","observation","Acraea_horta","species","lepidoptera",2,NA,NA,NA,"Voucher specimens for all insect flower visitors that touched the reproductive structures of surveyed sunflower heads were collected. From this, all bee specimens were identified to the lowest possible taxonomic level.",NA
"Ruan_Veldtman_Helianthus_annuus_South_Africa_2011","A4","observation","Acraea_horta","species","lepidoptera",1,NA,NA,NA,"Voucher specimens for all insect flower visitors that touched the reproductive structures of surveyed sunflower heads were collected. From this, all bee specimens were identified to the lowest possible taxonomic level.",NA
"Ruan_Veldtman_Helianthus_annuus_South_Africa_2011","N1","observation","Acraea_horta","species","lepidoptera",1,NA,NA,NA,"Voucher specimens for all insect flower visitors that touched the reproductive structures of surveyed sunflower heads were collected. From this, all bee specimens were identified to the lowest possible taxonomic level.",NA
"Ruan_Veldtman_Helianthus_annuus_South_Africa_2011","N1","observation","Acraea_horta","species","lepidoptera",1,NA,NA,NA,"Voucher specimens for all insect flower visitors that touched the reproductive structures of surveyed sunflower heads were collected. From this, all bee specimens were identified to the lowest possible taxonomic level.",NA
"Ruan_Veldtman_Helianthus_annuus_South_Africa_2011","N2","observation","Acraea_horta","species","lepidoptera",1,NA,NA,NA,"Voucher specimens for all insect flower visitors that touched the reproductive structures of surveyed sunflower heads were collected. From this, all bee specimens were identified to the lowest possible taxonomic level.",NA
"Ruan_Veldtman_Helianthus_annuus_South_Africa_2011","N3","observation","Acraea_horta","species","lepidoptera",1,NA,NA,NA,"Voucher specimens for all insect flower visitors that touched the reproductive structures of surveyed sunflower heads were collected. From this, all bee specimens were identified to the lowest possible taxonomic level.",NA
"Ruan_Veldtman_Helianthus_annuus_South_Africa_2011","N3","observation","Acraea_horta","species","lepidoptera",1,NA,NA,NA,"Voucher specimens for all insect flower visitors that touched the reproductive structures of surveyed sunflower heads were collected. From this, all bee specimens were identified to the lowest possible taxonomic level.",NA
"Ruan_Veldtman_Helianthus_annuus_South_Africa_2011","N3","observation","Colotis_sp1._(white_b-fly)","morphospecies","lepidoptera",1,NA,NA,NA,"Voucher specimens for all insect flower visitors that touched the reproductive structures of surveyed sunflower heads were collected. From this, all bee specimens were identified to the lowest possible taxonomic level.",NA
"Ruan_Veldtman_Helianthus_annuus_South_Africa_2011","N3","observation","Colotis_sp1._(white_b-fly)","morphospecies","lepidoptera",1,NA,NA,NA,"Voucher specimens for all insect flower visitors that touched the reproductive structures of surveyed sunflower heads were collected. From this, all bee specimens were identified to the lowest possible taxonomic level.",NA
"Ruan_Veldtman_Helianthus_annuus_South_Africa_2011","N3","observation","Colotis_sp1._(white_b-fly)","morphospecies","lepidoptera",1,NA,NA,NA,"Voucher specimens for all insect flower visitors that touched the reproductive structures of surveyed sunflower heads were collected. From this, all bee specimens were identified to the lowest possible taxonomic level.",NA
"Ruan_Veldtman_Helianthus_annuus_South_Africa_2011","N4","observation","Colotis_sp1._(white_b-fly)","morphospecies","lepidoptera",1,NA,NA,NA,"Voucher specimens for all insect flower visitors that touched the reproductive structures of surveyed sunflower heads were collected. From this, all bee specimens were identified to the lowest possible taxonomic level.",NA
"Ruan_Veldtman_Helianthus_annuus_South_Africa_2011","N2","observation","Colotis_sp2._(white_b-fly.orange.wing.tip)","morphospecies","lepidoptera",1,NA,NA,NA,"Voucher specimens for all insect flower visitors that touched the reproductive structures of surveyed sunflower heads were collected. From this, all bee specimens were identified to the lowest possible taxonomic level.",NA
"Ruan_Veldtman_Helianthus_annuus_South_Africa_2011","A5","observation","Colias_sp.1","morphospecies","lepidoptera",1,NA,NA,NA,"Voucher specimens for all insect flower visitors that touched the reproductive structures of surveyed sunflower heads were collected. From this, all bee specimens were identified to the lowest possible taxonomic level.",NA
"Ruan_Veldtman_Helianthus_annuus_South_Africa_2011","A5","observation","Colias_sp.1","morphospecies","lepidoptera",1,NA,NA,NA,"Voucher specimens for all insect flower visitors that touched the reproductive structures of surveyed sunflower heads were collected. From this, all bee specimens were identified to the lowest possible taxonomic level.",NA
"Ruan_Veldtman_Helianthus_annuus_South_Africa_2011","N1","observation","Colias_sp.1","morphospecies","lepidoptera",1,NA,NA,NA,"Voucher specimens for all insect flower visitors that touched the reproductive structures of surveyed sunflower heads were collected. From this, all bee specimens were identified to the lowest possible taxonomic level.",NA
"Ruan_Veldtman_Helianthus_annuus_South_Africa_2011","N2","observation","Colias_sp.1","morphospecies","lepidoptera",1,NA,NA,NA,"Voucher specimens for all insect flower visitors that touched the reproductive structures of surveyed sunflower heads were collected. From this, all bee specimens were identified to the lowest possible taxonomic level.",NA
"Ruan_Veldtman_Helianthus_annuus_South_Africa_2011","N5","observation","Colias_sp.1","morphospecies","lepidoptera",1,NA,NA,NA,"Voucher specimens for all insect flower visitors that touched the reproductive structures of surveyed sunflower heads were collected. From this, all bee specimens were identified to the lowest possible taxonomic level.",NA
"Ruan_Veldtman_Helianthus_annuus_South_Africa_2011","N5","observation","Colias_sp.1","morphospecies","lepidoptera",2,NA,NA,NA,"Voucher specimens for all insect flower visitors that touched the reproductive structures of surveyed sunflower heads were collected. From this, all bee specimens were identified to the lowest possible taxonomic level.",NA
"Ruan_Veldtman_Helianthus_annuus_South_Africa_2011","A2","observation","Vanessa_cardui","species","lepidoptera",1,NA,NA,NA,"Voucher specimens for all insect flower visitors that touched the reproductive structures of surveyed sunflower heads were collected. From this, all bee specimens were identified to the lowest possible taxonomic level.",NA
"Ruan_Veldtman_Helianthus_annuus_South_Africa_2011","A3","observation","Vanessa_cardui","species","lepidoptera",1,NA,NA,NA,"Voucher specimens for all insect flower visitors that touched the reproductive structures of surveyed sunflower heads were collected. From this, all bee specimens were identified to the lowest possible taxonomic level.",NA
"Ruan_Veldtman_Helianthus_annuus_South_Africa_2011","A5","observation","Vanessa_cardui","species","lepidoptera",1,NA,NA,NA,"Voucher specimens for all insect flower visitors that touched the reproductive structures of surveyed sunflower heads were collected. From this, all bee specimens were identified to the lowest possible taxonomic level.",NA
"Ruan_Veldtman_Helianthus_annuus_South_Africa_2011","A5","observation","Vanessa_cardui","species","lepidoptera",1,NA,NA,NA,"Voucher specimens for all insect flower visitors that touched the reproductive structures of surveyed sunflower heads were collected. From this, all bee specimens were identified to the lowest possible taxonomic level.",NA
"Ruan_Veldtman_Helianthus_annuus_South_Africa_2011","A5","observation","Vanessa_cardui","species","lepidoptera",1,NA,NA,NA,"Voucher specimens for all insect flower visitors that touched the reproductive structures of surveyed sunflower heads were collected. From this, all bee specimens were identified to the lowest possible taxonomic level.",NA
"Ruan_Veldtman_Helianthus_annuus_South_Africa_2011","N1","observation","Vanessa_cardui","species","lepidoptera",1,NA,NA,NA,"Voucher specimens for all insect flower visitors that touched the reproductive structures of surveyed sunflower heads were collected. From this, all bee specimens were identified to the lowest possible taxonomic level.",NA
"Ruan_Veldtman_Helianthus_annuus_South_Africa_2011","N2","observation","Vanessa_cardui","species","lepidoptera",1,NA,NA,NA,"Voucher specimens for all insect flower visitors that touched the reproductive structures of surveyed sunflower heads were collected. From this, all bee specimens were identified to the lowest possible taxonomic level.",NA
"Ruan_Veldtman_Helianthus_annuus_South_Africa_2011","N3","observation","Vanessa_cardui","species","lepidoptera",1,NA,NA,NA,"Voucher specimens for all insect flower visitors that touched the reproductive structures of surveyed sunflower heads were collected. From this, all bee specimens were identified to the lowest possible taxonomic level.",NA
"Ruan_Veldtman_Helianthus_annuus_South_Africa_2011","N4","observation","Vanessa_cardui","species","lepidoptera",1,NA,NA,NA,"Voucher specimens for all insect flower visitors that touched the reproductive structures of surveyed sunflower heads were collected. From this, all bee specimens were identified to the lowest possible taxonomic level.",NA
"Ruan_Veldtman_Helianthus_annuus_South_Africa_2011","A1","observation","Astylus_atromaculatus","species","beetles",1,NA,NA,NA,"Voucher specimens for all insect flower visitors that touched the reproductive structures of surveyed sunflower heads were collected. From this, all bee specimens were identified to the lowest possible taxonomic level.",NA
"Ruan_Veldtman_Helianthus_annuus_South_Africa_2011","A1","observation","Astylus_atromaculatus","species","beetles",1,NA,NA,NA,"Voucher specimens for all insect flower visitors that touched the reproductive structures of surveyed sunflower heads were collected. From this, all bee specimens were identified to the lowest possible taxonomic level.",NA
"Ruan_Veldtman_Helianthus_annuus_South_Africa_2011","N3","observation","Astylus_atromaculatus","species","beetles",1,NA,NA,NA,"Voucher specimens for all insect flower visitors that touched the reproductive structures of surveyed sunflower heads were collected. From this, all bee specimens were identified to the lowest possible taxonomic level.",NA
"Ruan_Veldtman_Helianthus_annuus_South_Africa_2011","N3","observation","Astylus_atromaculatus","species","beetles",2,NA,NA,NA,"Voucher specimens for all insect flower visitors that touched the reproductive structures of surveyed sunflower heads were collected. From this, all bee specimens were identified to the lowest possible taxonomic level.",NA
"Ruan_Veldtman_Helianthus_annuus_South_Africa_2011","N5","observation","Astylus_atromaculatus","species","beetles",1,NA,NA,NA,"Voucher specimens for all insect flower visitors that touched the reproductive structures of surveyed sunflower heads were collected. From this, all bee specimens were identified to the lowest possible taxonomic level.",NA
"Ruan_Veldtman_Helianthus_annuus_South_Africa_2011","N5","observation","Astylus_atromaculatus","species","beetles",1,NA,NA,NA,"Voucher specimens for all insect flower visitors that touched the reproductive structures of surveyed sunflower heads were collected. From this, all bee specimens were identified to the lowest possible taxonomic level.",NA
"Ruan_Veldtman_Helianthus_annuus_South_Africa_2011","N5","observation","Astylus_atromaculatus","species","beetles",3,NA,NA,NA,"Voucher specimens for all insect flower visitors that touched the reproductive structures of surveyed sunflower heads were collected. From this, all bee specimens were identified to the lowest possible taxonomic level.",NA
"Ruan_Veldtman_Helianthus_annuus_South_Africa_2011","N5","observation","Astylus_atromaculatus","species","beetles",1,NA,NA,NA,"Voucher specimens for all insect flower visitors that touched the reproductive structures of surveyed sunflower heads were collected. From this, all bee specimens were identified to the lowest possible taxonomic level.",NA
"Ruan_Veldtman_Helianthus_annuus_South_Africa_2011","N5","observation","Astylus_atromaculatus","species","beetles",2,NA,NA,NA,"Voucher specimens for all insect flower visitors that touched the reproductive structures of surveyed sunflower heads were collected. From this, all bee specimens were identified to the lowest possible taxonomic level.",NA
"Ruan_Veldtman_Helianthus_annuus_South_Africa_2011","N5","observation","Astylus_atromaculatus","species","beetles",2,NA,NA,NA,"Voucher specimens for all insect flower visitors that touched the reproductive structures of surveyed sunflower heads were collected. From this, all bee specimens were identified to the lowest possible taxonomic level.",NA
"Ruan_Veldtman_Helianthus_annuus_South_Africa_2011","N1","observation","Danus_chrysippus_aegyptius","species","lepidoptera",1,NA,NA,NA,"Voucher specimens for all insect flower visitors that touched the reproductive structures of surveyed sunflower heads were collected. From this, all bee specimens were identified to the lowest possible taxonomic level.",NA
"Ruan_Veldtman_Helianthus_annuus_South_Africa_2011","N1","observation","Danus_chrysippus_aegyptius","species","lepidoptera",1,NA,NA,NA,"Voucher specimens for all insect flower visitors that touched the reproductive structures of surveyed sunflower heads were collected. From this, all bee specimens were identified to the lowest possible taxonomic level.",NA
"Ruan_Veldtman_Helianthus_annuus_South_Africa_2011","N2","observation","Danus_chrysippus_aegyptius","species","lepidoptera",1,NA,NA,NA,"Voucher specimens for all insect flower visitors that touched the reproductive structures of surveyed sunflower heads were collected. From this, all bee specimens were identified to the lowest possible taxonomic level.",NA
"Ruan_Veldtman_Helianthus_annuus_South_Africa_2011","N3","observation","Danus_chrysippus_aegyptius","species","lepidoptera",2,NA,NA,NA,"Voucher specimens for all insect flower visitors that touched the reproductive structures of surveyed sunflower heads were collected. From this, all bee specimens were identified to the lowest possible taxonomic level.",NA
"Ruan_Veldtman_Helianthus_annuus_South_Africa_2011","N3","observation","Danus_chrysippus_aegyptius","species","lepidoptera",2,NA,NA,NA,"Voucher specimens for all insect flower visitors that touched the reproductive structures of surveyed sunflower heads were collected. From this, all bee specimens were identified to the lowest possible taxonomic level.",NA
"Ruan_Veldtman_Helianthus_annuus_South_Africa_2011","N3","observation","Danus_chrysippus_aegyptius","species","lepidoptera",2,NA,NA,NA,"Voucher specimens for all insect flower visitors that touched the reproductive structures of surveyed sunflower heads were collected. From this, all bee specimens were identified to the lowest possible taxonomic level.",NA
"Ruan_Veldtman_Helianthus_annuus_South_Africa_2011","N4","observation","Danus_chrysippus_aegyptius","species","lepidoptera",1,NA,NA,NA,"Voucher specimens for all insect flower visitors that touched the reproductive structures of surveyed sunflower heads were collected. From this, all bee specimens were identified to the lowest possible taxonomic level.",NA
"Ruan_Veldtman_Helianthus_annuus_South_Africa_2011","N4","observation","Danus_chrysippus_aegyptius","species","lepidoptera",1,NA,NA,NA,"Voucher specimens for all insect flower visitors that touched the reproductive structures of surveyed sunflower heads were collected. From this, all bee specimens were identified to the lowest possible taxonomic level.",NA
"Ruan_Veldtman_Helianthus_annuus_South_Africa_2011","N4","observation","Danus_chrysippus_aegyptius","species","lepidoptera",1,NA,NA,NA,"Voucher specimens for all insect flower visitors that touched the reproductive structures of surveyed sunflower heads were collected. From this, all bee specimens were identified to the lowest possible taxonomic level.",NA
"Ruan_Veldtman_Helianthus_annuus_South_Africa_2011","N5","observation","Danus_chrysippus_aegyptius","species","lepidoptera",1,NA,NA,NA,"Voucher specimens for all insect flower visitors that touched the reproductive structures of surveyed sunflower heads were collected. From this, all bee specimens were identified to the lowest possible taxonomic level.",NA
"Ruan_Veldtman_Helianthus_annuus_South_Africa_2011","A1","observation","Hypolimnas_misippus(black_and_white)","species","lepidoptera",1,NA,NA,NA,"Voucher specimens for all insect flower visitors that touched the reproductive structures of surveyed sunflower heads were collected. From this, all bee specimens were identified to the lowest possible taxonomic level.",NA
"Ruan_Veldtman_Helianthus_annuus_South_Africa_2011","A3","observation","Hypolimnas_misippus(black_and_white)","species","lepidoptera",1,NA,NA,NA,"Voucher specimens for all insect flower visitors that touched the reproductive structures of surveyed sunflower heads were collected. From this, all bee specimens were identified to the lowest possible taxonomic level.",NA
"Ruan_Veldtman_Helianthus_annuus_South_Africa_2011","A1","observation","Lygus_sp1.(green_bug)","morphospecies","other",2,NA,NA,NA,"Voucher specimens for all insect flower visitors that touched the reproductive structures of surveyed sunflower heads were collected. From this, all bee specimens were identified to the lowest possible taxonomic level.",NA
"Ruan_Veldtman_Helianthus_annuus_South_Africa_2011","A1","observation","Lygus_sp1.(green_bug)","morphospecies","other",1,NA,NA,NA,"Voucher specimens for all insect flower visitors that touched the reproductive structures of surveyed sunflower heads were collected. From this, all bee specimens were identified to the lowest possible taxonomic level.",NA
"Ruan_Veldtman_Helianthus_annuus_South_Africa_2011","A1","observation","Lygus_sp1.(green_bug)","morphospecies","other",4,NA,NA,NA,"Voucher specimens for all insect flower visitors that touched the reproductive structures of surveyed sunflower heads were collected. From this, all bee specimens were identified to the lowest possible taxonomic level.",NA
"Ruan_Veldtman_Helianthus_annuus_South_Africa_2011","A1","observation","Lygus_sp1.(green_bug)","morphospecies","other",2,NA,NA,NA,"Voucher specimens for all insect flower visitors that touched the reproductive structures of surveyed sunflower heads were collected. From this, all bee specimens were identified to the lowest possible taxonomic level.",NA
"Ruan_Veldtman_Helianthus_annuus_South_Africa_2011","A1","observation","Lygus_sp1.(green_bug)","morphospecies","other",2,NA,NA,NA,"Voucher specimens for all insect flower visitors that touched the reproductive structures of surveyed sunflower heads were collected. From this, all bee specimens were identified to the lowest possible taxonomic level.",NA
"Ruan_Veldtman_Helianthus_annuus_South_Africa_2011","A2","observation","Lygus_sp1.(green_bug)","morphospecies","other",1,NA,NA,NA,"Voucher specimens for all insect flower visitors that touched the reproductive structures of surveyed sunflower heads were collected. From this, all bee specimens were identified to the lowest possible taxonomic level.",NA
"Ruan_Veldtman_Helianthus_annuus_South_Africa_2011","A2","observation","Lygus_sp1.(green_bug)","morphospecies","other",1,NA,NA,NA,"Voucher specimens for all insect flower visitors that touched the reproductive structures of surveyed sunflower heads were collected. From this, all bee specimens were identified to the lowest possible taxonomic level.",NA
"Ruan_Veldtman_Helianthus_annuus_South_Africa_2011","A2","observation","Lygus_sp1.(green_bug)","morphospecies","other",2,NA,NA,NA,"Voucher specimens for all insect flower visitors that touched the reproductive structures of surveyed sunflower heads were collected. From this, all bee specimens were identified to the lowest possible taxonomic level.",NA
"Ruan_Veldtman_Helianthus_annuus_South_Africa_2011","A2","observation","Lygus_sp1.(green_bug)","morphospecies","other",1,NA,NA,NA,"Voucher specimens for all insect flower visitors that touched the reproductive structures of surveyed sunflower heads were collected. From this, all bee specimens were identified to the lowest possible taxonomic level.",NA
"Ruan_Veldtman_Helianthus_annuus_South_Africa_2011","A2","observation","Lygus_sp1.(green_bug)","morphospecies","other",2,NA,NA,NA,"Voucher specimens for all insect flower visitors that touched the reproductive structures of surveyed sunflower heads were collected. From this, all bee specimens were identified to the lowest possible taxonomic level.",NA
"Ruan_Veldtman_Helianthus_annuus_South_Africa_2011","A2","observation","Lygus_sp1.(green_bug)","morphospecies","other",1,NA,NA,NA,"Voucher specimens for all insect flower visitors that touched the reproductive structures of surveyed sunflower heads were collected. From this, all bee specimens were identified to the lowest possible taxonomic level.",NA
"Ruan_Veldtman_Helianthus_annuus_South_Africa_2011","A2","observation","Lygus_sp1.(green_bug)","morphospecies","other",1,NA,NA,NA,"Voucher specimens for all insect flower visitors that touched the reproductive structures of surveyed sunflower heads were collected. From this, all bee specimens were identified to the lowest possible taxonomic level.",NA
"Ruan_Veldtman_Helianthus_annuus_South_Africa_2011","A2","observation","Lygus_sp1.(green_bug)","morphospecies","other",3,NA,NA,NA,"Voucher specimens for all insect flower visitors that touched the reproductive structures of surveyed sunflower heads were collected. From this, all bee specimens were identified to the lowest possible taxonomic level.",NA
"Ruan_Veldtman_Helianthus_annuus_South_Africa_2011","A3","observation","Lygus_sp1.(green_bug)","morphospecies","other",1,NA,NA,NA,"Voucher specimens for all insect flower visitors that touched the reproductive structures of surveyed sunflower heads were collected. From this, all bee specimens were identified to the lowest possible taxonomic level.",NA
"Ruan_Veldtman_Helianthus_annuus_South_Africa_2011","A3","observation","Lygus_sp1.(green_bug)","morphospecies","other",1,NA,NA,NA,"Voucher specimens for all insect flower visitors that touched the reproductive structures of surveyed sunflower heads were collected. From this, all bee specimens were identified to the lowest possible taxonomic level.",NA
"Ruan_Veldtman_Helianthus_annuus_South_Africa_2011","A3","observation","Lygus_sp1.(green_bug)","morphospecies","other",2,NA,NA,NA,"Voucher specimens for all insect flower visitors that touched the reproductive structures of surveyed sunflower heads were collected. From this, all bee specimens were identified to the lowest possible taxonomic level.",NA
"Ruan_Veldtman_Helianthus_annuus_South_Africa_2011","A3","observation","Lygus_sp1.(green_bug)","morphospecies","other",1,NA,NA,NA,"Voucher specimens for all insect flower visitors that touched the reproductive structures of surveyed sunflower heads were collected. From this, all bee specimens were identified to the lowest possible taxonomic level.",NA
"Ruan_Veldtman_Helianthus_annuus_South_Africa_2011","A3","observation","Lygus_sp1.(green_bug)","morphospecies","other",2,NA,NA,NA,"Voucher specimens for all insect flower visitors that touched the reproductive structures of surveyed sunflower heads were collected. From this, all bee specimens were identified to the lowest possible taxonomic level.",NA
"Ruan_Veldtman_Helianthus_annuus_South_Africa_2011","A4","observation","Lygus_sp1.(green_bug)","morphospecies","other",1,NA,NA,NA,"Voucher specimens for all insect flower visitors that touched the reproductive structures of surveyed sunflower heads were collected. From this, all bee specimens were identified to the lowest possible taxonomic level.",NA
"Ruan_Veldtman_Helianthus_annuus_South_Africa_2011","A4","observation","Lygus_sp1.(green_bug)","morphospecies","other",2,NA,NA,NA,"Voucher specimens for all insect flower visitors that touched the reproductive structures of surveyed sunflower heads were collected. From this, all bee specimens were identified to the lowest possible taxonomic level.",NA
"Ruan_Veldtman_Helianthus_annuus_South_Africa_2011","A5","observation","Lygus_sp1.(green_bug)","morphospecies","other",1,NA,NA,NA,"Voucher specimens for all insect flower visitors that touched the reproductive structures of surveyed sunflower heads were collected. From this, all bee specimens were identified to the lowest possible taxonomic level.",NA
"Ruan_Veldtman_Helianthus_annuus_South_Africa_2011","A5","observation","Lygus_sp1.(green_bug)","morphospecies","other",1,NA,NA,NA,"Voucher specimens for all insect flower visitors that touched the reproductive structures of surveyed sunflower heads were collected. From this, all bee specimens were identified to the lowest possible taxonomic level.",NA
"Ruan_Veldtman_Helianthus_annuus_South_Africa_2011","A5","observation","Lygus_sp1.(green_bug)","morphospecies","other",1,NA,NA,NA,"Voucher specimens for all insect flower visitors that touched the reproductive structures of surveyed sunflower heads were collected. From this, all bee specimens were identified to the lowest possible taxonomic level.",NA
"Ruan_Veldtman_Helianthus_annuus_South_Africa_2011","N1","observation","Lygus_sp1.(green_bug)","morphospecies","other",3,NA,NA,NA,"Voucher specimens for all insect flower visitors that touched the reproductive structures of surveyed sunflower heads were collected. From this, all bee specimens were identified to the lowest possible taxonomic level.",NA
"Ruan_Veldtman_Helianthus_annuus_South_Africa_2011","N1","observation","Lygus_sp1.(green_bug)","morphospecies","other",1,NA,NA,NA,"Voucher specimens for all insect flower visitors that touched the reproductive structures of surveyed sunflower heads were collected. From this, all bee specimens were identified to the lowest possible taxonomic level.",NA
"Ruan_Veldtman_Helianthus_annuus_South_Africa_2011","N2","observation","Lygus_sp1.(green_bug)","morphospecies","other",1,NA,NA,NA,"Voucher specimens for all insect flower visitors that touched the reproductive structures of surveyed sunflower heads were collected. From this, all bee specimens were identified to the lowest possible taxonomic level.",NA
"Ruan_Veldtman_Helianthus_annuus_South_Africa_2011","N3","observation","Lygus_sp1.(green_bug)","morphospecies","other",1,NA,NA,NA,"Voucher specimens for all insect flower visitors that touched the reproductive structures of surveyed sunflower heads were collected. From this, all bee specimens were identified to the lowest possible taxonomic level.",NA
"Ruan_Veldtman_Helianthus_annuus_South_Africa_2011","N3","observation","Lygus_sp1.(green_bug)","morphospecies","other",1,NA,NA,NA,"Voucher specimens for all insect flower visitors that touched the reproductive structures of surveyed sunflower heads were collected. From this, all bee specimens were identified to the lowest possible taxonomic level.",NA
"Ruan_Veldtman_Helianthus_annuus_South_Africa_2011","N4","observation","Lygus_sp1.(green_bug)","morphospecies","other",1,NA,NA,NA,"Voucher specimens for all insect flower visitors that touched the reproductive structures of surveyed sunflower heads were collected. From this, all bee specimens were identified to the lowest possible taxonomic level.",NA
"Ruan_Veldtman_Helianthus_annuus_South_Africa_2011","N4","observation","Lygus_sp1.(green_bug)","morphospecies","other",1,NA,NA,NA,"Voucher specimens for all insect flower visitors that touched the reproductive structures of surveyed sunflower heads were collected. From this, all bee specimens were identified to the lowest possible taxonomic level.",NA
"Ruan_Veldtman_Helianthus_annuus_South_Africa_2011","N4","observation","Lygus_sp1.(green_bug)","morphospecies","other",1,NA,NA,NA,"Voucher specimens for all insect flower visitors that touched the reproductive structures of surveyed sunflower heads were collected. From this, all bee specimens were identified to the lowest possible taxonomic level.",NA
"Ruan_Veldtman_Helianthus_annuus_South_Africa_2011","N5","observation","Lygus_sp1.(green_bug)","morphospecies","other",1,NA,NA,NA,"Voucher specimens for all insect flower visitors that touched the reproductive structures of surveyed sunflower heads were collected. From this, all bee specimens were identified to the lowest possible taxonomic level.",NA
"Ruan_Veldtman_Helianthus_annuus_South_Africa_2011","N5","observation","Precis_oenone(blue_pansy)","species","lepidoptera",1,NA,NA,NA,"Voucher specimens for all insect flower visitors that touched the reproductive structures of surveyed sunflower heads were collected. From this, all bee specimens were identified to the lowest possible taxonomic level.",NA
"Ruan_Veldtman_Helianthus_annuus_South_Africa_2011","N3","observation","Lycaenidae_sp2.","morphospecies","lepidoptera",1,NA,NA,NA,"Voucher specimens for all insect flower visitors that touched the reproductive structures of surveyed sunflower heads were collected. From this, all bee specimens were identified to the lowest possible taxonomic level.",NA
"Ruan_Veldtman_Helianthus_annuus_South_Africa_2011","N3","observation","Macroglossum_trochilus(hummingbird_hawkmoth)","species","lepidoptera",1,NA,NA,NA,"Voucher specimens for all insect flower visitors that touched the reproductive structures of surveyed sunflower heads were collected. From this, all bee specimens were identified to the lowest possible taxonomic level.",NA
"Ruan_Veldtman_Helianthus_annuus_South_Africa_2011","A1","observation","Tenebrionidae_sp1.","morphospecies","beetles",2,NA,NA,NA,"Voucher specimens for all insect flower visitors that touched the reproductive structures of surveyed sunflower heads were collected. From this, all bee specimens were identified to the lowest possible taxonomic level.",NA
"Ruan_Veldtman_Helianthus_annuus_South_Africa_2011","A1","observation","Tenebrionidae_sp1.","morphospecies","beetles",2,NA,NA,NA,"Voucher specimens for all insect flower visitors that touched the reproductive structures of surveyed sunflower heads were collected. From this, all bee specimens were identified to the lowest possible taxonomic level.",NA
"Ruan_Veldtman_Helianthus_annuus_South_Africa_2011","A2","observation","Tenebrionidae_sp1.","morphospecies","beetles",1,NA,NA,NA,"Voucher specimens for all insect flower visitors that touched the reproductive structures of surveyed sunflower heads were collected. From this, all bee specimens were identified to the lowest possible taxonomic level.",NA
"Ruan_Veldtman_Helianthus_annuus_South_Africa_2011","A2","observation","Tenebrionidae_sp1.","morphospecies","beetles",2,NA,NA,NA,"Voucher specimens for all insect flower visitors that touched the reproductive structures of surveyed sunflower heads were collected. From this, all bee specimens were identified to the lowest possible taxonomic level.",NA
"Ruan_Veldtman_Helianthus_annuus_South_Africa_2011","A2","observation","Tenebrionidae_sp1.","morphospecies","beetles",1,NA,NA,NA,"Voucher specimens for all insect flower visitors that touched the reproductive structures of surveyed sunflower heads were collected. From this, all bee specimens were identified to the lowest possible taxonomic level.",NA
"Ruan_Veldtman_Helianthus_annuus_South_Africa_2011","A2","observation","Tenebrionidae_sp1.","morphospecies","beetles",2,NA,NA,NA,"Voucher specimens for all insect flower visitors that touched the reproductive structures of surveyed sunflower heads were collected. From this, all bee specimens were identified to the lowest possible taxonomic level.",NA
"Ruan_Veldtman_Helianthus_annuus_South_Africa_2011","A2","observation","Tenebrionidae_sp1.","morphospecies","beetles",1,NA,NA,NA,"Voucher specimens for all insect flower visitors that touched the reproductive structures of surveyed sunflower heads were collected. From this, all bee specimens were identified to the lowest possible taxonomic level.",NA
"Ruan_Veldtman_Helianthus_annuus_South_Africa_2011","A2","observation","Tenebrionidae_sp1.","morphospecies","beetles",1,NA,NA,NA,"Voucher specimens for all insect flower visitors that touched the reproductive structures of surveyed sunflower heads were collected. From this, all bee specimens were identified to the lowest possible taxonomic level.",NA
"Ruan_Veldtman_Helianthus_annuus_South_Africa_2011","A5","observation","Tenebrionidae_sp1.","morphospecies","beetles",1,NA,NA,NA,"Voucher specimens for all insect flower visitors that touched the reproductive structures of surveyed sunflower heads were collected. From this, all bee specimens were identified to the lowest possible taxonomic level.",NA
"Ruan_Veldtman_Helianthus_annuus_South_Africa_2011","N2","observation","Tenebrionidae_sp1.","morphospecies","beetles",1,NA,NA,NA,"Voucher specimens for all insect flower visitors that touched the reproductive structures of surveyed sunflower heads were collected. From this, all bee specimens were identified to the lowest possible taxonomic level.",NA
"Ruan_Veldtman_Helianthus_annuus_South_Africa_2011","N3","observation","Tenebrionidae_sp1.","morphospecies","beetles",1,NA,NA,NA,"Voucher specimens for all insect flower visitors that touched the reproductive structures of surveyed sunflower heads were collected. From this, all bee specimens were identified to the lowest possible taxonomic level.",NA
"Ruan_Veldtman_Helianthus_annuus_South_Africa_2011","N3","observation","Tenebrionidae_sp1.","morphospecies","beetles",1,NA,NA,NA,"Voucher specimens for all insect flower visitors that touched the reproductive structures of surveyed sunflower heads were collected. From this, all bee specimens were identified to the lowest possible taxonomic level.",NA
"Ruan_Veldtman_Helianthus_annuus_South_Africa_2011","N5","observation","Tenebrionidae_sp1.","morphospecies","beetles",1,NA,NA,NA,"Voucher specimens for all insect flower visitors that touched the reproductive structures of surveyed sunflower heads were collected. From this, all bee specimens were identified to the lowest possible taxonomic level.",NA
"Ruan_Veldtman_Helianthus_annuus_South_Africa_2011","N1","observation","Noctuidae_sp1.","morphospecies","lepidoptera",1,NA,NA,NA,"Voucher specimens for all insect flower visitors that touched the reproductive structures of surveyed sunflower heads were collected. From this, all bee specimens were identified to the lowest possible taxonomic level.",NA
"Ruan_Veldtman_Helianthus_annuus_South_Africa_2011","N5","observation","Noctuidae_sp1.","morphospecies","lepidoptera",1,NA,NA,NA,"Voucher specimens for all insect flower visitors that touched the reproductive structures of surveyed sunflower heads were collected. From this, all bee specimens were identified to the lowest possible taxonomic level.",NA
"Ruan_Veldtman_Helianthus_annuus_South_Africa_2011","A1","observation","Fulgoridae_sp1.","morphospecies","other",1,NA,NA,NA,"Voucher specimens for all insect flower visitors that touched the reproductive structures of surveyed sunflower heads were collected. From this, all bee specimens were identified to the lowest possible taxonomic level.",NA
"Ruan_Veldtman_Helianthus_annuus_South_Africa_2011","N2","observation","Fulgoridae_sp1.","morphospecies","other",2,NA,NA,NA,"Voucher specimens for all insect flower visitors that touched the reproductive structures of surveyed sunflower heads were collected. From this, all bee specimens were identified to the lowest possible taxonomic level.",NA
"Ruan_Veldtman_Helianthus_annuus_South_Africa_2011","A1","observation","Lace_bug_sp1.","morphospecies","other",1,NA,NA,NA,"Voucher specimens for all insect flower visitors that touched the reproductive structures of surveyed sunflower heads were collected. From this, all bee specimens were identified to the lowest possible taxonomic level.",NA
"Ruan_Veldtman_Helianthus_annuus_South_Africa_2011","A2","observation","Lace_bug_sp1.","morphospecies","other",1,NA,NA,NA,"Voucher specimens for all insect flower visitors that touched the reproductive structures of surveyed sunflower heads were collected. From this, all bee specimens were identified to the lowest possible taxonomic level.",NA
"Ruan_Veldtman_Helianthus_annuus_South_Africa_2011","A2","observation","Lace_bug_sp1.","morphospecies","other",1,NA,NA,NA,"Voucher specimens for all insect flower visitors that touched the reproductive structures of surveyed sunflower heads were collected. From this, all bee specimens were identified to the lowest possible taxonomic level.",NA
"Ruan_Veldtman_Helianthus_annuus_South_Africa_2011","A2","observation","Lace_bug_sp1.","morphospecies","other",1,NA,NA,NA,"Voucher specimens for all insect flower visitors that touched the reproductive structures of surveyed sunflower heads were collected. From this, all bee specimens were identified to the lowest possible taxonomic level.",NA
"Ruan_Veldtman_Helianthus_annuus_South_Africa_2011","A4","observation","Lace_bug_sp1.","morphospecies","other",3,NA,NA,NA,"Voucher specimens for all insect flower visitors that touched the reproductive structures of surveyed sunflower heads were collected. From this, all bee specimens were identified to the lowest possible taxonomic level.",NA
"Ruan_Veldtman_Helianthus_annuus_South_Africa_2011","A4","observation","Lace_bug_sp1.","morphospecies","other",1,NA,NA,NA,"Voucher specimens for all insect flower visitors that touched the reproductive structures of surveyed sunflower heads were collected. From this, all bee specimens were identified to the lowest possible taxonomic level.",NA
"Ruan_Veldtman_Helianthus_annuus_South_Africa_2011","N3","observation","Lace_bug_sp1.","morphospecies","other",2,NA,NA,NA,"Voucher specimens for all insect flower visitors that touched the reproductive structures of surveyed sunflower heads were collected. From this, all bee specimens were identified to the lowest possible taxonomic level.",NA
"Ruan_Veldtman_Helianthus_annuus_South_Africa_2011","N3","observation","Lace_bug_sp1.","morphospecies","other",1,NA,NA,NA,"Voucher specimens for all insect flower visitors that touched the reproductive structures of surveyed sunflower heads were collected. From this, all bee specimens were identified to the lowest possible taxonomic level.",NA
"Ruan_Veldtman_Helianthus_annuus_South_Africa_2011","N4","observation","Lace_bug_sp1.","morphospecies","other",1,NA,NA,NA,"Voucher specimens for all insect flower visitors that touched the reproductive structures of surveyed sunflower heads were collected. From this, all bee specimens were identified to the lowest possible taxonomic level.",NA
"Ruan_Veldtman_Helianthus_annuus_South_Africa_2011","N5","observation","Lace_bug_sp1.","morphospecies","other",2,NA,NA,NA,"Voucher specimens for all insect flower visitors that touched the reproductive structures of surveyed sunflower heads were collected. From this, all bee specimens were identified to the lowest possible taxonomic level.",NA
"Ruan_Veldtman_Helianthus_annuus_South_Africa_2011","A2","observation","Cetoniidae_sp1.","morphospecies","beetles",1,NA,NA,NA,"Voucher specimens for all insect flower visitors that touched the reproductive structures of surveyed sunflower heads were collected. From this, all bee specimens were identified to the lowest possible taxonomic level.",NA
"Ruan_Veldtman_Helianthus_annuus_South_Africa_2011","A2","observation","ladybird_sp1.","morphospecies","beetles",1,NA,NA,NA,"Voucher specimens for all insect flower visitors that touched the reproductive structures of surveyed sunflower heads were collected. From this, all bee specimens were identified to the lowest possible taxonomic level.",NA
"Ruan_Veldtman_Helianthus_annuus_South_Africa_2011","A2","observation","ladybird_sp1.","morphospecies","beetles",1,NA,NA,NA,"Voucher specimens for all insect flower visitors that touched the reproductive structures of surveyed sunflower heads were collected. From this, all bee specimens were identified to the lowest possible taxonomic level.",NA
"Ruan_Veldtman_Helianthus_annuus_South_Africa_2011","A3","observation","ladybird_sp1.","morphospecies","beetles",2,NA,NA,NA,"Voucher specimens for all insect flower visitors that touched the reproductive structures of surveyed sunflower heads were collected. From this, all bee specimens were identified to the lowest possible taxonomic level.",NA
"Ruan_Veldtman_Helianthus_annuus_South_Africa_2011","A5","observation","ladybird_sp1.","morphospecies","beetles",1,NA,NA,NA,"Voucher specimens for all insect flower visitors that touched the reproductive structures of surveyed sunflower heads were collected. From this, all bee specimens were identified to the lowest possible taxonomic level.",NA
"Ruan_Veldtman_Helianthus_annuus_South_Africa_2011","N1","observation","ladybird_sp1.","morphospecies","beetles",1,NA,NA,NA,"Voucher specimens for all insect flower visitors that touched the reproductive structures of surveyed sunflower heads were collected. From this, all bee specimens were identified to the lowest possible taxonomic level.",NA
"Ruan_Veldtman_Helianthus_annuus_South_Africa_2011","N1","observation","ladybird_sp1.","morphospecies","beetles",1,NA,NA,NA,"Voucher specimens for all insect flower visitors that touched the reproductive structures of surveyed sunflower heads were collected. From this, all bee specimens were identified to the lowest possible taxonomic level.",NA
"Ruan_Veldtman_Helianthus_annuus_South_Africa_2011","N2","observation","ladybird_sp1.","morphospecies","beetles",1,NA,NA,NA,"Voucher specimens for all insect flower visitors that touched the reproductive structures of surveyed sunflower heads were collected. From this, all bee specimens were identified to the lowest possible taxonomic level.",NA
"Ruan_Veldtman_Helianthus_annuus_South_Africa_2011","A2","observation","Bombyliidae_sp.1","morphospecies","humbleflies",1,NA,NA,NA,"Voucher specimens for all insect flower visitors that touched the reproductive structures of surveyed sunflower heads were collected. From this, all bee specimens were identified to the lowest possible taxonomic level.",NA
"Ruan_Veldtman_Helianthus_annuus_South_Africa_2011","A3","observation","Chrysoperla_sp1.(green_lacewing)","morphospecies","other",1,NA,NA,NA,"Voucher specimens for all insect flower visitors that touched the reproductive structures of surveyed sunflower heads were collected. From this, all bee specimens were identified to the lowest possible taxonomic level.",NA
"Ruan_Veldtman_Helianthus_annuus_South_Africa_2011","A3","observation","Chrysoperla_sp1.(green_lacewing)","morphospecies","other",2,NA,NA,NA,"Voucher specimens for all insect flower visitors that touched the reproductive structures of surveyed sunflower heads were collected. From this, all bee specimens were identified to the lowest possible taxonomic level.",NA
"Ruan_Veldtman_Helianthus_annuus_South_Africa_2011","A4","observation","Cleridae_sp1.","morphospecies","beetles",1,NA,NA,NA,"Voucher specimens for all insect flower visitors that touched the reproductive structures of surveyed sunflower heads were collected. From this, all bee specimens were identified to the lowest possible taxonomic level.",NA
"Ruan_Veldtman_Helianthus_annuus_South_Africa_2011","A4","observation","Cleridae_sp1.","morphospecies","beetles",1,NA,NA,NA,"Voucher specimens for all insect flower visitors that touched the reproductive structures of surveyed sunflower heads were collected. From this, all bee specimens were identified to the lowest possible taxonomic level.",NA
"Ruan_Veldtman_Helianthus_annuus_South_Africa_2011","A4","observation","Cleridae_sp1.","morphospecies","beetles",1,NA,NA,NA,"Voucher specimens for all insect flower visitors that touched the reproductive structures of surveyed sunflower heads were collected. From this, all bee specimens were identified to the lowest possible taxonomic level.",NA
"Ruan_Veldtman_Helianthus_annuus_South_Africa_2011","N2","observation","Cleridae_sp1.","morphospecies","beetles",1,NA,NA,NA,"Voucher specimens for all insect flower visitors that touched the reproductive structures of surveyed sunflower heads were collected. From this, all bee specimens were identified to the lowest possible taxonomic level.",NA
"Ruan_Veldtman_Helianthus_annuus_South_Africa_2011","N3","observation","Cleridae_sp1.","morphospecies","beetles",1,NA,NA,NA,"Voucher specimens for all insect flower visitors that touched the reproductive structures of surveyed sunflower heads were collected. From this, all bee specimens were identified to the lowest possible taxonomic level.",NA
"Ruan_Veldtman_Helianthus_annuus_South_Africa_2011","N5","observation","Cleridae_sp1.","morphospecies","beetles",1,NA,NA,NA,"Voucher specimens for all insect flower visitors that touched the reproductive structures of surveyed sunflower heads were collected. From this, all bee specimens were identified to the lowest possible taxonomic level.",NA
"Ruan_Veldtman_Helianthus_annuus_South_Africa_2011","N2","observation","Chamaesphecia_anthraciformis","species","lepidoptera",1,NA,NA,NA,"Voucher specimens for all insect flower visitors that touched the reproductive structures of surveyed sunflower heads were collected. From this, all bee specimens were identified to the lowest possible taxonomic level.",NA
"Ruan_Veldtman_Malus_domestica_South_Africa_2011","Vredelust Farm  - near","observation","Xylocopa.sp.","genus","other_wild_bees",1,70,80,6068,"On each survey, one side of eight trees along a transect (trees spaced 5 m apart) were scanned for five minutes each and bee species were recorded and voucher specimens collected (average of 758.5 +/- 265.1 [1SD] open flowers per apple tree).",NA
"Ruan_Veldtman_Malus_domestica_South_Africa_2011","Deepdale Farm - far","observation","Honeybees","genus","honeybees",11,70,80,6068,"On each survey, one side of eight trees along a transect (trees spaced 5 m apart) were scanned for five minutes each and bee species were recorded and voucher specimens collected (average of 758.5 +/- 265.1 [1SD] open flowers per apple tree).",NA
"Ruan_Veldtman_Malus_domestica_South_Africa_2011","Deepdale Farm - far","observation","Honeybees","genus","honeybees",13,70,80,6068,"On each survey, one side of eight trees along a transect (trees spaced 5 m apart) were scanned for five minutes each and bee species were recorded and voucher specimens collected (average of 758.5 +/- 265.1 [1SD] open flowers per apple tree).",NA
"Ruan_Veldtman_Malus_domestica_South_Africa_2011","Deepdale Farm - far","observation","Honeybees","genus","honeybees",10,70,80,6068,"On each survey, one side of eight trees along a transect (trees spaced 5 m apart) were scanned for five minutes each and bee species were recorded and voucher specimens collected (average of 758.5 +/- 265.1 [1SD] open flowers per apple tree).",NA
"Ruan_Veldtman_Malus_domestica_South_Africa_2011","Deepdale Farm - far","observation","Honeybees","genus","honeybees",8,70,80,6068,"On each survey, one side of eight trees along a transect (trees spaced 5 m apart) were scanned for five minutes each and bee species were recorded and voucher specimens collected (average of 758.5 +/- 265.1 [1SD] open flowers per apple tree).",NA
"Ruan_Veldtman_Malus_domestica_South_Africa_2011","Deepdale Farm - far","observation","Honeybees","genus","honeybees",14,70,80,6068,"On each survey, one side of eight trees along a transect (trees spaced 5 m apart) were scanned for five minutes each and bee species were recorded and voucher specimens collected (average of 758.5 +/- 265.1 [1SD] open flowers per apple tree).",NA
"Ruan_Veldtman_Malus_domestica_South_Africa_2011","Deepdale Farm - far","observation","Honeybees","genus","honeybees",11,70,80,6068,"On each survey, one side of eight trees along a transect (trees spaced 5 m apart) were scanned for five minutes each and bee species were recorded and voucher specimens collected (average of 758.5 +/- 265.1 [1SD] open flowers per apple tree).",NA
"Ruan_Veldtman_Malus_domestica_South_Africa_2011","Deepdale Farm - far","observation","Honeybees","genus","honeybees",18,70,80,6068,"On each survey, one side of eight trees along a transect (trees spaced 5 m apart) were scanned for five minutes each and bee species were recorded and voucher specimens collected (average of 758.5 +/- 265.1 [1SD] open flowers per apple tree).",NA
"Ruan_Veldtman_Malus_domestica_South_Africa_2011","Deepdale Farm - far","observation","Honeybees","genus","honeybees",18,70,80,6068,"On each survey, one side of eight trees along a transect (trees spaced 5 m apart) were scanned for five minutes each and bee species were recorded and voucher specimens collected (average of 758.5 +/- 265.1 [1SD] open flowers per apple tree).",NA
"Ruan_Veldtman_Malus_domestica_South_Africa_2011","Deepdale Farm - far","observation","Honeybees","genus","honeybees",14,70,80,6068,"On each survey, one side of eight trees along a transect (trees spaced 5 m apart) were scanned for five minutes each and bee species were recorded and voucher specimens collected (average of 758.5 +/- 265.1 [1SD] open flowers per apple tree).",NA
"Ruan_Veldtman_Malus_domestica_South_Africa_2011","Deepdale Farm - far","observation","Honeybees","genus","honeybees",17,70,80,6068,"On each survey, one side of eight trees along a transect (trees spaced 5 m apart) were scanned for five minutes each and bee species were recorded and voucher specimens collected (average of 758.5 +/- 265.1 [1SD] open flowers per apple tree).",NA
"Ruan_Veldtman_Malus_domestica_South_Africa_2011","Deepdale Farm - far","observation","Honeybees","genus","honeybees",8,70,80,6068,"On each survey, one side of eight trees along a transect (trees spaced 5 m apart) were scanned for five minutes each and bee species were recorded and voucher specimens collected (average of 758.5 +/- 265.1 [1SD] open flowers per apple tree).",NA
"Ruan_Veldtman_Malus_domestica_South_Africa_2011","Deepdale Farm - far","observation","Honeybees","genus","honeybees",11,70,80,6068,"On each survey, one side of eight trees along a transect (trees spaced 5 m apart) were scanned for five minutes each and bee species were recorded and voucher specimens collected (average of 758.5 +/- 265.1 [1SD] open flowers per apple tree).",NA
"Ruan_Veldtman_Malus_domestica_South_Africa_2011","Deepdale Farm - far","observation","Honeybees","genus","honeybees",23,70,80,6068,"On each survey, one side of eight trees along a transect (trees spaced 5 m apart) were scanned for five minutes each and bee species were recorded and voucher specimens collected (average of 758.5 +/- 265.1 [1SD] open flowers per apple tree).",NA
"Ruan_Veldtman_Malus_domestica_South_Africa_2011","Deepdale Farm - far","observation","Honeybees","genus","honeybees",30,70,80,6068,"On each survey, one side of eight trees along a transect (trees spaced 5 m apart) were scanned for five minutes each and bee species were recorded and voucher specimens collected (average of 758.5 +/- 265.1 [1SD] open flowers per apple tree).",NA
"Ruan_Veldtman_Malus_domestica_South_Africa_2011","Deepdale Farm - far","observation","Honeybees","genus","honeybees",5,70,80,6068,"On each survey, one side of eight trees along a transect (trees spaced 5 m apart) were scanned for five minutes each and bee species were recorded and voucher specimens collected (average of 758.5 +/- 265.1 [1SD] open flowers per apple tree).",NA
"Ruan_Veldtman_Malus_domestica_South_Africa_2011","Deepdale Farm - far","observation","Honeybees","genus","honeybees",20,70,80,6068,"On each survey, one side of eight trees along a transect (trees spaced 5 m apart) were scanned for five minutes each and bee species were recorded and voucher specimens collected (average of 758.5 +/- 265.1 [1SD] open flowers per apple tree).",NA
"Ruan_Veldtman_Malus_domestica_South_Africa_2011","Riverside - far","observation","Honeybees","genus","honeybees",13,70,80,6068,"On each survey, one side of eight trees along a transect (trees spaced 5 m apart) were scanned for five minutes each and bee species were recorded and voucher specimens collected (average of 758.5 +/- 265.1 [1SD] open flowers per apple tree).",NA
"Ruan_Veldtman_Malus_domestica_South_Africa_2011","Riverside - far","observation","Honeybees","genus","honeybees",18,70,80,6068,"On each survey, one side of eight trees along a transect (trees spaced 5 m apart) were scanned for five minutes each and bee species were recorded and voucher specimens collected (average of 758.5 +/- 265.1 [1SD] open flowers per apple tree).",NA
"Ruan_Veldtman_Malus_domestica_South_Africa_2011","Riverside - far","observation","Honeybees","genus","honeybees",14,70,80,6068,"On each survey, one side of eight trees along a transect (trees spaced 5 m apart) were scanned for five minutes each and bee species were recorded and voucher specimens collected (average of 758.5 +/- 265.1 [1SD] open flowers per apple tree).",NA
"Ruan_Veldtman_Malus_domestica_South_Africa_2011","Riverside - far","observation","Honeybees","genus","honeybees",6,70,80,6068,"On each survey, one side of eight trees along a transect (trees spaced 5 m apart) were scanned for five minutes each and bee species were recorded and voucher specimens collected (average of 758.5 +/- 265.1 [1SD] open flowers per apple tree).",NA
"Ruan_Veldtman_Malus_domestica_South_Africa_2011","Riverside - far","observation","Honeybees","genus","honeybees",1,70,80,6068,"On each survey, one side of eight trees along a transect (trees spaced 5 m apart) were scanned for five minutes each and bee species were recorded and voucher specimens collected (average of 758.5 +/- 265.1 [1SD] open flowers per apple tree).",NA
"Ruan_Veldtman_Malus_domestica_South_Africa_2011","Riverside - far","observation","Honeybees","genus","honeybees",4,70,80,6068,"On each survey, one side of eight trees along a transect (trees spaced 5 m apart) were scanned for five minutes each and bee species were recorded and voucher specimens collected (average of 758.5 +/- 265.1 [1SD] open flowers per apple tree).",NA
"Ruan_Veldtman_Malus_domestica_South_Africa_2011","Riverside - far","observation","Honeybees","genus","honeybees",13,70,80,6068,"On each survey, one side of eight trees along a transect (trees spaced 5 m apart) were scanned for five minutes each and bee species were recorded and voucher specimens collected (average of 758.5 +/- 265.1 [1SD] open flowers per apple tree).",NA
"Ruan_Veldtman_Malus_domestica_South_Africa_2011","Riverside - far","observation","Honeybees","genus","honeybees",17,70,80,6068,"On each survey, one side of eight trees along a transect (trees spaced 5 m apart) were scanned for five minutes each and bee species were recorded and voucher specimens collected (average of 758.5 +/- 265.1 [1SD] open flowers per apple tree).",NA
"Ruan_Veldtman_Malus_domestica_South_Africa_2011","Riverside - far","observation","Honeybees","genus","honeybees",18,70,80,6068,"On each survey, one side of eight trees along a transect (trees spaced 5 m apart) were scanned for five minutes each and bee species were recorded and voucher specimens collected (average of 758.5 +/- 265.1 [1SD] open flowers per apple tree).",NA
"Ruan_Veldtman_Malus_domestica_South_Africa_2011","Riverside - far","observation","Honeybees","genus","honeybees",15,70,80,6068,"On each survey, one side of eight trees along a transect (trees spaced 5 m apart) were scanned for five minutes each and bee species were recorded and voucher specimens collected (average of 758.5 +/- 265.1 [1SD] open flowers per apple tree).",NA
"Ruan_Veldtman_Malus_domestica_South_Africa_2011","Riverside - far","observation","Honeybees","genus","honeybees",11,70,80,6068,"On each survey, one side of eight trees along a transect (trees spaced 5 m apart) were scanned for five minutes each and bee species were recorded and voucher specimens collected (average of 758.5 +/- 265.1 [1SD] open flowers per apple tree).",NA
"Ruan_Veldtman_Malus_domestica_South_Africa_2011","Riverside - far","observation","Honeybees","genus","honeybees",13,70,80,6068,"On each survey, one side of eight trees along a transect (trees spaced 5 m apart) were scanned for five minutes each and bee species were recorded and voucher specimens collected (average of 758.5 +/- 265.1 [1SD] open flowers per apple tree).",NA
"Ruan_Veldtman_Malus_domestica_South_Africa_2011","Riverside - far","observation","Honeybees","genus","honeybees",13,70,80,6068,"On each survey, one side of eight trees along a transect (trees spaced 5 m apart) were scanned for five minutes each and bee species were recorded and voucher specimens collected (average of 758.5 +/- 265.1 [1SD] open flowers per apple tree).",NA
"Ruan_Veldtman_Malus_domestica_South_Africa_2011","Riverside - far","observation","Honeybees","genus","honeybees",12,70,80,6068,"On each survey, one side of eight trees along a transect (trees spaced 5 m apart) were scanned for five minutes each and bee species were recorded and voucher specimens collected (average of 758.5 +/- 265.1 [1SD] open flowers per apple tree).",NA
"Ruan_Veldtman_Malus_domestica_South_Africa_2011","Riverside - far","observation","Honeybees","genus","honeybees",16,70,80,6068,"On each survey, one side of eight trees along a transect (trees spaced 5 m apart) were scanned for five minutes each and bee species were recorded and voucher specimens collected (average of 758.5 +/- 265.1 [1SD] open flowers per apple tree).",NA
"Ruan_Veldtman_Malus_domestica_South_Africa_2011","Riverside - far","observation","Honeybees","genus","honeybees",16,70,80,6068,"On each survey, one side of eight trees along a transect (trees spaced 5 m apart) were scanned for five minutes each and bee species were recorded and voucher specimens collected (average of 758.5 +/- 265.1 [1SD] open flowers per apple tree).",NA
"Ruan_Veldtman_Malus_domestica_South_Africa_2011","Graymead - far","observation","Honeybees","genus","honeybees",9,70,80,6068,"On each survey, one side of eight trees along a transect (trees spaced 5 m apart) were scanned for five minutes each and bee species were recorded and voucher specimens collected (average of 758.5 +/- 265.1 [1SD] open flowers per apple tree).",NA
"Ruan_Veldtman_Malus_domestica_South_Africa_2011","Graymead - far","observation","Honeybees","genus","honeybees",9,70,80,6068,"On each survey, one side of eight trees along a transect (trees spaced 5 m apart) were scanned for five minutes each and bee species were recorded and voucher specimens collected (average of 758.5 +/- 265.1 [1SD] open flowers per apple tree).",NA
"Ruan_Veldtman_Malus_domestica_South_Africa_2011","Graymead - far","observation","Honeybees","genus","honeybees",8,70,80,6068,"On each survey, one side of eight trees along a transect (trees spaced 5 m apart) were scanned for five minutes each and bee species were recorded and voucher specimens collected (average of 758.5 +/- 265.1 [1SD] open flowers per apple tree).",NA
"Ruan_Veldtman_Malus_domestica_South_Africa_2011","Graymead - far","observation","Honeybees","genus","honeybees",16,70,80,6068,"On each survey, one side of eight trees along a transect (trees spaced 5 m apart) were scanned for five minutes each and bee species were recorded and voucher specimens collected (average of 758.5 +/- 265.1 [1SD] open flowers per apple tree).",NA
"Ruan_Veldtman_Malus_domestica_South_Africa_2011","Graymead - far","observation","Honeybees","genus","honeybees",8,70,80,6068,"On each survey, one side of eight trees along a transect (trees spaced 5 m apart) were scanned for five minutes each and bee species were recorded and voucher specimens collected (average of 758.5 +/- 265.1 [1SD] open flowers per apple tree).",NA
"Ruan_Veldtman_Malus_domestica_South_Africa_2011","Graymead - far","observation","Honeybees","genus","honeybees",6,70,80,6068,"On each survey, one side of eight trees along a transect (trees spaced 5 m apart) were scanned for five minutes each and bee species were recorded and voucher specimens collected (average of 758.5 +/- 265.1 [1SD] open flowers per apple tree).",NA
"Ruan_Veldtman_Malus_domestica_South_Africa_2011","Graymead - far","observation","Honeybees","genus","honeybees",5,70,80,6068,"On each survey, one side of eight trees along a transect (trees spaced 5 m apart) were scanned for five minutes each and bee species were recorded and voucher specimens collected (average of 758.5 +/- 265.1 [1SD] open flowers per apple tree).",NA
"Ruan_Veldtman_Malus_domestica_South_Africa_2011","Graymead - far","observation","Honeybees","genus","honeybees",17,70,80,6068,"On each survey, one side of eight trees along a transect (trees spaced 5 m apart) were scanned for five minutes each and bee species were recorded and voucher specimens collected (average of 758.5 +/- 265.1 [1SD] open flowers per apple tree).",NA
"Ruan_Veldtman_Malus_domestica_South_Africa_2011","Graymead - far","observation","Honeybees","genus","honeybees",12,70,80,6068,"On each survey, one side of eight trees along a transect (trees spaced 5 m apart) were scanned for five minutes each and bee species were recorded and voucher specimens collected (average of 758.5 +/- 265.1 [1SD] open flowers per apple tree).",NA
"Ruan_Veldtman_Malus_domestica_South_Africa_2011","Graymead - far","observation","Honeybees","genus","honeybees",15,70,80,6068,"On each survey, one side of eight trees along a transect (trees spaced 5 m apart) were scanned for five minutes each and bee species were recorded and voucher specimens collected (average of 758.5 +/- 265.1 [1SD] open flowers per apple tree).",NA
"Ruan_Veldtman_Malus_domestica_South_Africa_2011","Graymead - far","observation","Honeybees","genus","honeybees",18,70,80,6068,"On each survey, one side of eight trees along a transect (trees spaced 5 m apart) were scanned for five minutes each and bee species were recorded and voucher specimens collected (average of 758.5 +/- 265.1 [1SD] open flowers per apple tree).",NA
"Ruan_Veldtman_Malus_domestica_South_Africa_2011","Graymead - far","observation","Honeybees","genus","honeybees",20,70,80,6068,"On each survey, one side of eight trees along a transect (trees spaced 5 m apart) were scanned for five minutes each and bee species were recorded and voucher specimens collected (average of 758.5 +/- 265.1 [1SD] open flowers per apple tree).",NA
"Ruan_Veldtman_Malus_domestica_South_Africa_2011","Graymead - far","observation","Honeybees","genus","honeybees",7,70,80,6068,"On each survey, one side of eight trees along a transect (trees spaced 5 m apart) were scanned for five minutes each and bee species were recorded and voucher specimens collected (average of 758.5 +/- 265.1 [1SD] open flowers per apple tree).",NA
"Ruan_Veldtman_Malus_domestica_South_Africa_2011","Graymead - far","observation","Honeybees","genus","honeybees",10,70,80,6068,"On each survey, one side of eight trees along a transect (trees spaced 5 m apart) were scanned for five minutes each and bee species were recorded and voucher specimens collected (average of 758.5 +/- 265.1 [1SD] open flowers per apple tree).",NA
"Ruan_Veldtman_Malus_domestica_South_Africa_2011","Graymead - far","observation","Honeybees","genus","honeybees",8,70,80,6068,"On each survey, one side of eight trees along a transect (trees spaced 5 m apart) were scanned for five minutes each and bee species were recorded and voucher specimens collected (average of 758.5 +/- 265.1 [1SD] open flowers per apple tree).",NA
"Ruan_Veldtman_Malus_domestica_South_Africa_2011","Graymead - far","observation","Honeybees","genus","honeybees",24,70,80,6068,"On each survey, one side of eight trees along a transect (trees spaced 5 m apart) were scanned for five minutes each and bee species were recorded and voucher specimens collected (average of 758.5 +/- 265.1 [1SD] open flowers per apple tree).",NA
"Ruan_Veldtman_Malus_domestica_South_Africa_2011","Southfield - far","observation","Honeybees","genus","honeybees",12,70,80,6068,"On each survey, one side of eight trees along a transect (trees spaced 5 m apart) were scanned for five minutes each and bee species were recorded and voucher specimens collected (average of 758.5 +/- 265.1 [1SD] open flowers per apple tree).",NA
"Ruan_Veldtman_Malus_domestica_South_Africa_2011","Southfield - far","observation","Honeybees","genus","honeybees",11,70,80,6068,"On each survey, one side of eight trees along a transect (trees spaced 5 m apart) were scanned for five minutes each and bee species were recorded and voucher specimens collected (average of 758.5 +/- 265.1 [1SD] open flowers per apple tree).",NA
"Ruan_Veldtman_Malus_domestica_South_Africa_2011","Southfield - far","observation","Honeybees","genus","honeybees",13,70,80,6068,"On each survey, one side of eight trees along a transect (trees spaced 5 m apart) were scanned for five minutes each and bee species were recorded and voucher specimens collected (average of 758.5 +/- 265.1 [1SD] open flowers per apple tree).",NA
"Ruan_Veldtman_Malus_domestica_South_Africa_2011","Southfield - far","observation","Honeybees","genus","honeybees",2,70,80,6068,"On each survey, one side of eight trees along a transect (trees spaced 5 m apart) were scanned for five minutes each and bee species were recorded and voucher specimens collected (average of 758.5 +/- 265.1 [1SD] open flowers per apple tree).",NA
"Ruan_Veldtman_Malus_domestica_South_Africa_2011","Southfield - far","observation","Honeybees","genus","honeybees",6,70,80,6068,"On each survey, one side of eight trees along a transect (trees spaced 5 m apart) were scanned for five minutes each and bee species were recorded and voucher specimens collected (average of 758.5 +/- 265.1 [1SD] open flowers per apple tree).",NA
"Ruan_Veldtman_Malus_domestica_South_Africa_2011","Southfield - far","observation","Honeybees","genus","honeybees",4,70,80,6068,"On each survey, one side of eight trees along a transect (trees spaced 5 m apart) were scanned for five minutes each and bee species were recorded and voucher specimens collected (average of 758.5 +/- 265.1 [1SD] open flowers per apple tree).",NA
"Ruan_Veldtman_Malus_domestica_South_Africa_2011","Southfield - far","observation","Honeybees","genus","honeybees",10,70,80,6068,"On each survey, one side of eight trees along a transect (trees spaced 5 m apart) were scanned for five minutes each and bee species were recorded and voucher specimens collected (average of 758.5 +/- 265.1 [1SD] open flowers per apple tree).",NA
"Ruan_Veldtman_Malus_domestica_South_Africa_2011","Southfield - far","observation","Honeybees","genus","honeybees",17,70,80,6068,"On each survey, one side of eight trees along a transect (trees spaced 5 m apart) were scanned for five minutes each and bee species were recorded and voucher specimens collected (average of 758.5 +/- 265.1 [1SD] open flowers per apple tree).",NA
"Ruan_Veldtman_Malus_domestica_South_Africa_2011","Southfield - far","observation","Honeybees","genus","honeybees",11,70,80,6068,"On each survey, one side of eight trees along a transect (trees spaced 5 m apart) were scanned for five minutes each and bee species were recorded and voucher specimens collected (average of 758.5 +/- 265.1 [1SD] open flowers per apple tree).",NA
"Ruan_Veldtman_Malus_domestica_South_Africa_2011","Southfield - far","observation","Honeybees","genus","honeybees",16,70,80,6068,"On each survey, one side of eight trees along a transect (trees spaced 5 m apart) were scanned for five minutes each and bee species were recorded and voucher specimens collected (average of 758.5 +/- 265.1 [1SD] open flowers per apple tree).",NA
"Ruan_Veldtman_Malus_domestica_South_Africa_2011","Southfield - far","observation","Honeybees","genus","honeybees",17,70,80,6068,"On each survey, one side of eight trees along a transect (trees spaced 5 m apart) were scanned for five minutes each and bee species were recorded and voucher specimens collected (average of 758.5 +/- 265.1 [1SD] open flowers per apple tree).",NA
"Ruan_Veldtman_Malus_domestica_South_Africa_2011","Southfield - far","observation","Honeybees","genus","honeybees",8,70,80,6068,"On each survey, one side of eight trees along a transect (trees spaced 5 m apart) were scanned for five minutes each and bee species were recorded and voucher specimens collected (average of 758.5 +/- 265.1 [1SD] open flowers per apple tree).",NA
"Ruan_Veldtman_Malus_domestica_South_Africa_2011","Southfield - far","observation","Honeybees","genus","honeybees",11,70,80,6068,"On each survey, one side of eight trees along a transect (trees spaced 5 m apart) were scanned for five minutes each and bee species were recorded and voucher specimens collected (average of 758.5 +/- 265.1 [1SD] open flowers per apple tree).",NA
"Ruan_Veldtman_Malus_domestica_South_Africa_2011","Southfield - far","observation","Honeybees","genus","honeybees",13,70,80,6068,"On each survey, one side of eight trees along a transect (trees spaced 5 m apart) were scanned for five minutes each and bee species were recorded and voucher specimens collected (average of 758.5 +/- 265.1 [1SD] open flowers per apple tree).",NA
"Ruan_Veldtman_Malus_domestica_South_Africa_2011","Southfield - far","observation","Honeybees","genus","honeybees",13,70,80,6068,"On each survey, one side of eight trees along a transect (trees spaced 5 m apart) were scanned for five minutes each and bee species were recorded and voucher specimens collected (average of 758.5 +/- 265.1 [1SD] open flowers per apple tree).",NA
"Ruan_Veldtman_Malus_domestica_South_Africa_2011","Southfield - far","observation","Honeybees","genus","honeybees",12,70,80,6068,"On each survey, one side of eight trees along a transect (trees spaced 5 m apart) were scanned for five minutes each and bee species were recorded and voucher specimens collected (average of 758.5 +/- 265.1 [1SD] open flowers per apple tree).",NA
"Ruan_Veldtman_Malus_domestica_South_Africa_2011","Rosenhof - far","observation","Honeybees","genus","honeybees",12,70,80,6068,"On each survey, one side of eight trees along a transect (trees spaced 5 m apart) were scanned for five minutes each and bee species were recorded and voucher specimens collected (average of 758.5 +/- 265.1 [1SD] open flowers per apple tree).",NA
"Ruan_Veldtman_Malus_domestica_South_Africa_2011","Rosenhof - far","observation","Honeybees","genus","honeybees",17,70,80,6068,"On each survey, one side of eight trees along a transect (trees spaced 5 m apart) were scanned for five minutes each and bee species were recorded and voucher specimens collected (average of 758.5 +/- 265.1 [1SD] open flowers per apple tree).",NA
"Ruan_Veldtman_Malus_domestica_South_Africa_2011","Rosenhof - far","observation","Honeybees","genus","honeybees",24,70,80,6068,"On each survey, one side of eight trees along a transect (trees spaced 5 m apart) were scanned for five minutes each and bee species were recorded and voucher specimens collected (average of 758.5 +/- 265.1 [1SD] open flowers per apple tree).",NA
"Ruan_Veldtman_Malus_domestica_South_Africa_2011","Rosenhof - far","observation","Honeybees","genus","honeybees",27,70,80,6068,"On each survey, one side of eight trees along a transect (trees spaced 5 m apart) were scanned for five minutes each and bee species were recorded and voucher specimens collected (average of 758.5 +/- 265.1 [1SD] open flowers per apple tree).",NA
"Ruan_Veldtman_Malus_domestica_South_Africa_2011","Rosenhof - far","observation","Honeybees","genus","honeybees",13,70,80,6068,"On each survey, one side of eight trees along a transect (trees spaced 5 m apart) were scanned for five minutes each and bee species were recorded and voucher specimens collected (average of 758.5 +/- 265.1 [1SD] open flowers per apple tree).",NA
"Ruan_Veldtman_Malus_domestica_South_Africa_2011","Rosenhof - far","observation","Honeybees","genus","honeybees",12,70,80,6068,"On each survey, one side of eight trees along a transect (trees spaced 5 m apart) were scanned for five minutes each and bee species were recorded and voucher specimens collected (average of 758.5 +/- 265.1 [1SD] open flowers per apple tree).",NA
"Ruan_Veldtman_Malus_domestica_South_Africa_2011","Rosenhof - far","observation","Honeybees","genus","honeybees",38,70,80,6068,"On each survey, one side of eight trees along a transect (trees spaced 5 m apart) were scanned for five minutes each and bee species were recorded and voucher specimens collected (average of 758.5 +/- 265.1 [1SD] open flowers per apple tree).",NA
"Ruan_Veldtman_Malus_domestica_South_Africa_2011","Rosenhof - far","observation","Honeybees","genus","honeybees",20,70,80,6068,"On each survey, one side of eight trees along a transect (trees spaced 5 m apart) were scanned for five minutes each and bee species were recorded and voucher specimens collected (average of 758.5 +/- 265.1 [1SD] open flowers per apple tree).",NA
"Ruan_Veldtman_Malus_domestica_South_Africa_2011","Rosenhof - far","observation","Honeybees","genus","honeybees",16,70,80,6068,"On each survey, one side of eight trees along a transect (trees spaced 5 m apart) were scanned for five minutes each and bee species were recorded and voucher specimens collected (average of 758.5 +/- 265.1 [1SD] open flowers per apple tree).",NA
"Ruan_Veldtman_Malus_domestica_South_Africa_2011","Rosenhof - far","observation","Honeybees","genus","honeybees",30,70,80,6068,"On each survey, one side of eight trees along a transect (trees spaced 5 m apart) were scanned for five minutes each and bee species were recorded and voucher specimens collected (average of 758.5 +/- 265.1 [1SD] open flowers per apple tree).",NA
"Ruan_Veldtman_Malus_domestica_South_Africa_2011","Rosenhof - far","observation","Honeybees","genus","honeybees",29,70,80,6068,"On each survey, one side of eight trees along a transect (trees spaced 5 m apart) were scanned for five minutes each and bee species were recorded and voucher specimens collected (average of 758.5 +/- 265.1 [1SD] open flowers per apple tree).",NA
"Ruan_Veldtman_Malus_domestica_South_Africa_2011","Rosenhof - far","observation","Honeybees","genus","honeybees",31,70,80,6068,"On each survey, one side of eight trees along a transect (trees spaced 5 m apart) were scanned for five minutes each and bee species were recorded and voucher specimens collected (average of 758.5 +/- 265.1 [1SD] open flowers per apple tree).",NA
"Ruan_Veldtman_Malus_domestica_South_Africa_2011","Rosenhof - far","observation","Honeybees","genus","honeybees",14,70,80,6068,"On each survey, one side of eight trees along a transect (trees spaced 5 m apart) were scanned for five minutes each and bee species were recorded and voucher specimens collected (average of 758.5 +/- 265.1 [1SD] open flowers per apple tree).",NA
"Ruan_Veldtman_Malus_domestica_South_Africa_2011","Rosenhof - far","observation","Honeybees","genus","honeybees",15,70,80,6068,"On each survey, one side of eight trees along a transect (trees spaced 5 m apart) were scanned for five minutes each and bee species were recorded and voucher specimens collected (average of 758.5 +/- 265.1 [1SD] open flowers per apple tree).",NA
"Ruan_Veldtman_Malus_domestica_South_Africa_2011","Rosenhof - far","observation","Honeybees","genus","honeybees",35,70,80,6068,"On each survey, one side of eight trees along a transect (trees spaced 5 m apart) were scanned for five minutes each and bee species were recorded and voucher specimens collected (average of 758.5 +/- 265.1 [1SD] open flowers per apple tree).",NA
"Ruan_Veldtman_Malus_domestica_South_Africa_2011","Rosenhof - far","observation","Honeybees","genus","honeybees",38,70,80,6068,"On each survey, one side of eight trees along a transect (trees spaced 5 m apart) were scanned for five minutes each and bee species were recorded and voucher specimens collected (average of 758.5 +/- 265.1 [1SD] open flowers per apple tree).",NA
"Ruan_Veldtman_Malus_domestica_South_Africa_2011","Transpalmiet Water site - near","observation","Honeybees","genus","honeybees",13,70,80,6068,"On each survey, one side of eight trees along a transect (trees spaced 5 m apart) were scanned for five minutes each and bee species were recorded and voucher specimens collected (average of 758.5 +/- 265.1 [1SD] open flowers per apple tree).",NA
"Ruan_Veldtman_Malus_domestica_South_Africa_2011","Transpalmiet Water site - near","observation","Honeybees","genus","honeybees",13,70,80,6068,"On each survey, one side of eight trees along a transect (trees spaced 5 m apart) were scanned for five minutes each and bee species were recorded and voucher specimens collected (average of 758.5 +/- 265.1 [1SD] open flowers per apple tree).",NA
"Ruan_Veldtman_Malus_domestica_South_Africa_2011","Transpalmiet Water site - near","observation","Honeybees","genus","honeybees",18,70,80,6068,"On each survey, one side of eight trees along a transect (trees spaced 5 m apart) were scanned for five minutes each and bee species were recorded and voucher specimens collected (average of 758.5 +/- 265.1 [1SD] open flowers per apple tree).",NA
"Ruan_Veldtman_Malus_domestica_South_Africa_2011","Transpalmiet Water site - near","observation","Honeybees","genus","honeybees",20,70,80,6068,"On each survey, one side of eight trees along a transect (trees spaced 5 m apart) were scanned for five minutes each and bee species were recorded and voucher specimens collected (average of 758.5 +/- 265.1 [1SD] open flowers per apple tree).",NA
"Ruan_Veldtman_Malus_domestica_South_Africa_2011","Transpalmiet Water site - near","observation","Honeybees","genus","honeybees",7,70,80,6068,"On each survey, one side of eight trees along a transect (trees spaced 5 m apart) were scanned for five minutes each and bee species were recorded and voucher specimens collected (average of 758.5 +/- 265.1 [1SD] open flowers per apple tree).",NA
"Ruan_Veldtman_Malus_domestica_South_Africa_2011","Transpalmiet Water site - near","observation","Honeybees","genus","honeybees",11,70,80,6068,"On each survey, one side of eight trees along a transect (trees spaced 5 m apart) were scanned for five minutes each and bee species were recorded and voucher specimens collected (average of 758.5 +/- 265.1 [1SD] open flowers per apple tree).",NA
"Ruan_Veldtman_Malus_domestica_South_Africa_2011","Transpalmiet Water site - near","observation","Honeybees","genus","honeybees",11,70,80,6068,"On each survey, one side of eight trees along a transect (trees spaced 5 m apart) were scanned for five minutes each and bee species were recorded and voucher specimens collected (average of 758.5 +/- 265.1 [1SD] open flowers per apple tree).",NA
"Ruan_Veldtman_Malus_domestica_South_Africa_2011","Transpalmiet Water site - near","observation","Honeybees","genus","honeybees",13,70,80,6068,"On each survey, one side of eight trees along a transect (trees spaced 5 m apart) were scanned for five minutes each and bee species were recorded and voucher specimens collected (average of 758.5 +/- 265.1 [1SD] open flowers per apple tree).",NA
"Ruan_Veldtman_Malus_domestica_South_Africa_2011","Transpalmiet Water site - near","observation","Honeybees","genus","honeybees",11,70,80,6068,"On each survey, one side of eight trees along a transect (trees spaced 5 m apart) were scanned for five minutes each and bee species were recorded and voucher specimens collected (average of 758.5 +/- 265.1 [1SD] open flowers per apple tree).",NA
"Ruan_Veldtman_Malus_domestica_South_Africa_2011","Transpalmiet Water site - near","observation","Honeybees","genus","honeybees",9,70,80,6068,"On each survey, one side of eight trees along a transect (trees spaced 5 m apart) were scanned for five minutes each and bee species were recorded and voucher specimens collected (average of 758.5 +/- 265.1 [1SD] open flowers per apple tree).",NA
"Ruan_Veldtman_Malus_domestica_South_Africa_2011","Transpalmiet Water site - near","observation","Honeybees","genus","honeybees",15,70,80,6068,"On each survey, one side of eight trees along a transect (trees spaced 5 m apart) were scanned for five minutes each and bee species were recorded and voucher specimens collected (average of 758.5 +/- 265.1 [1SD] open flowers per apple tree).",NA
"Ruan_Veldtman_Malus_domestica_South_Africa_2011","Transpalmiet Water site - near","observation","Honeybees","genus","honeybees",10,70,80,6068,"On each survey, one side of eight trees along a transect (trees spaced 5 m apart) were scanned for five minutes each and bee species were recorded and voucher specimens collected (average of 758.5 +/- 265.1 [1SD] open flowers per apple tree).",NA
"Ruan_Veldtman_Malus_domestica_South_Africa_2011","Transpalmiet Water site - near","observation","Honeybees","genus","honeybees",2,70,80,6068,"On each survey, one side of eight trees along a transect (trees spaced 5 m apart) were scanned for five minutes each and bee species were recorded and voucher specimens collected (average of 758.5 +/- 265.1 [1SD] open flowers per apple tree).",NA
"Ruan_Veldtman_Malus_domestica_South_Africa_2011","Transpalmiet Water site - near","observation","Honeybees","genus","honeybees",4,70,80,6068,"On each survey, one side of eight trees along a transect (trees spaced 5 m apart) were scanned for five minutes each and bee species were recorded and voucher specimens collected (average of 758.5 +/- 265.1 [1SD] open flowers per apple tree).",NA
"Ruan_Veldtman_Malus_domestica_South_Africa_2011","Transpalmiet Water site - near","observation","Honeybees","genus","honeybees",3,70,80,6068,"On each survey, one side of eight trees along a transect (trees spaced 5 m apart) were scanned for five minutes each and bee species were recorded and voucher specimens collected (average of 758.5 +/- 265.1 [1SD] open flowers per apple tree).",NA
"Ruan_Veldtman_Malus_domestica_South_Africa_2011","Transpalmiet Water site - near","observation","Honeybees","genus","honeybees",7,70,80,6068,"On each survey, one side of eight trees along a transect (trees spaced 5 m apart) were scanned for five minutes each and bee species were recorded and voucher specimens collected (average of 758.5 +/- 265.1 [1SD] open flowers per apple tree).",NA
"Ruan_Veldtman_Malus_domestica_South_Africa_2011","Transpalmiet Ratel - near","observation","Honeybees","genus","honeybees",12,70,80,6068,"On each survey, one side of eight trees along a transect (trees spaced 5 m apart) were scanned for five minutes each and bee species were recorded and voucher specimens collected (average of 758.5 +/- 265.1 [1SD] open flowers per apple tree).",NA
"Ruan_Veldtman_Malus_domestica_South_Africa_2011","Transpalmiet Ratel - near","observation","Honeybees","genus","honeybees",15,70,80,6068,"On each survey, one side of eight trees along a transect (trees spaced 5 m apart) were scanned for five minutes each and bee species were recorded and voucher specimens collected (average of 758.5 +/- 265.1 [1SD] open flowers per apple tree).",NA
"Ruan_Veldtman_Malus_domestica_South_Africa_2011","Transpalmiet Ratel - near","observation","Honeybees","genus","honeybees",19,70,80,6068,"On each survey, one side of eight trees along a transect (trees spaced 5 m apart) were scanned for five minutes each and bee species were recorded and voucher specimens collected (average of 758.5 +/- 265.1 [1SD] open flowers per apple tree).",NA
"Ruan_Veldtman_Malus_domestica_South_Africa_2011","Transpalmiet Ratel - near","observation","Honeybees","genus","honeybees",16,70,80,6068,"On each survey, one side of eight trees along a transect (trees spaced 5 m apart) were scanned for five minutes each and bee species were recorded and voucher specimens collected (average of 758.5 +/- 265.1 [1SD] open flowers per apple tree).",NA
"Ruan_Veldtman_Malus_domestica_South_Africa_2011","Transpalmiet Ratel - near","observation","Honeybees","genus","honeybees",12,70,80,6068,"On each survey, one side of eight trees along a transect (trees spaced 5 m apart) were scanned for five minutes each and bee species were recorded and voucher specimens collected (average of 758.5 +/- 265.1 [1SD] open flowers per apple tree).",NA
"Ruan_Veldtman_Malus_domestica_South_Africa_2011","Transpalmiet Ratel - near","observation","Honeybees","genus","honeybees",8,70,80,6068,"On each survey, one side of eight trees along a transect (trees spaced 5 m apart) were scanned for five minutes each and bee species were recorded and voucher specimens collected (average of 758.5 +/- 265.1 [1SD] open flowers per apple tree).",NA
"Ruan_Veldtman_Malus_domestica_South_Africa_2011","Transpalmiet Ratel - near","observation","Honeybees","genus","honeybees",2,70,80,6068,"On each survey, one side of eight trees along a transect (trees spaced 5 m apart) were scanned for five minutes each and bee species were recorded and voucher specimens collected (average of 758.5 +/- 265.1 [1SD] open flowers per apple tree).",NA
"Ruan_Veldtman_Malus_domestica_South_Africa_2011","Transpalmiet Ratel - near","observation","Honeybees","genus","honeybees",11,70,80,6068,"On each survey, one side of eight trees along a transect (trees spaced 5 m apart) were scanned for five minutes each and bee species were recorded and voucher specimens collected (average of 758.5 +/- 265.1 [1SD] open flowers per apple tree).",NA
"Ruan_Veldtman_Malus_domestica_South_Africa_2011","Transpalmiet Ratel - near","observation","Honeybees","genus","honeybees",24,70,80,6068,"On each survey, one side of eight trees along a transect (trees spaced 5 m apart) were scanned for five minutes each and bee species were recorded and voucher specimens collected (average of 758.5 +/- 265.1 [1SD] open flowers per apple tree).",NA
"Ruan_Veldtman_Malus_domestica_South_Africa_2011","Transpalmiet Ratel - near","observation","Honeybees","genus","honeybees",28,70,80,6068,"On each survey, one side of eight trees along a transect (trees spaced 5 m apart) were scanned for five minutes each and bee species were recorded and voucher specimens collected (average of 758.5 +/- 265.1 [1SD] open flowers per apple tree).",NA
"Ruan_Veldtman_Malus_domestica_South_Africa_2011","Transpalmiet Ratel - near","observation","Honeybees","genus","honeybees",31,70,80,6068,"On each survey, one side of eight trees along a transect (trees spaced 5 m apart) were scanned for five minutes each and bee species were recorded and voucher specimens collected (average of 758.5 +/- 265.1 [1SD] open flowers per apple tree).",NA
"Ruan_Veldtman_Malus_domestica_South_Africa_2011","Transpalmiet Ratel - near","observation","Honeybees","genus","honeybees",20,70,80,6068,"On each survey, one side of eight trees along a transect (trees spaced 5 m apart) were scanned for five minutes each and bee species were recorded and voucher specimens collected (average of 758.5 +/- 265.1 [1SD] open flowers per apple tree).",NA
"Ruan_Veldtman_Malus_domestica_South_Africa_2011","Transpalmiet Ratel - near","observation","Honeybees","genus","honeybees",16,70,80,6068,"On each survey, one side of eight trees along a transect (trees spaced 5 m apart) were scanned for five minutes each and bee species were recorded and voucher specimens collected (average of 758.5 +/- 265.1 [1SD] open flowers per apple tree).",NA
"Ruan_Veldtman_Malus_domestica_South_Africa_2011","Transpalmiet Ratel - near","observation","Honeybees","genus","honeybees",19,70,80,6068,"On each survey, one side of eight trees along a transect (trees spaced 5 m apart) were scanned for five minutes each and bee species were recorded and voucher specimens collected (average of 758.5 +/- 265.1 [1SD] open flowers per apple tree).",NA
"Ruan_Veldtman_Malus_domestica_South_Africa_2011","Transpalmiet Ratel - near","observation","Honeybees","genus","honeybees",18,70,80,6068,"On each survey, one side of eight trees along a transect (trees spaced 5 m apart) were scanned for five minutes each and bee species were recorded and voucher specimens collected (average of 758.5 +/- 265.1 [1SD] open flowers per apple tree).",NA
"Ruan_Veldtman_Malus_domestica_South_Africa_2011","Transpalmiet Ratel - near","observation","Honeybees","genus","honeybees",14,70,80,6068,"On each survey, one side of eight trees along a transect (trees spaced 5 m apart) were scanned for five minutes each and bee species were recorded and voucher specimens collected (average of 758.5 +/- 265.1 [1SD] open flowers per apple tree).",NA
"Ruan_Veldtman_Malus_domestica_South_Africa_2011","Vredelust Farm  - near","observation","Honeybees","genus","honeybees",13,70,80,6068,"On each survey, one side of eight trees along a transect (trees spaced 5 m apart) were scanned for five minutes each and bee species were recorded and voucher specimens collected (average of 758.5 +/- 265.1 [1SD] open flowers per apple tree).",NA
"Ruan_Veldtman_Malus_domestica_South_Africa_2011","Vredelust Farm  - near","observation","Honeybees","genus","honeybees",8,70,80,6068,"On each survey, one side of eight trees along a transect (trees spaced 5 m apart) were scanned for five minutes each and bee species were recorded and voucher specimens collected (average of 758.5 +/- 265.1 [1SD] open flowers per apple tree).",NA
"Ruan_Veldtman_Malus_domestica_South_Africa_2011","Vredelust Farm  - near","observation","Honeybees","genus","honeybees",10,70,80,6068,"On each survey, one side of eight trees along a transect (trees spaced 5 m apart) were scanned for five minutes each and bee species were recorded and voucher specimens collected (average of 758.5 +/- 265.1 [1SD] open flowers per apple tree).",NA
"Ruan_Veldtman_Malus_domestica_South_Africa_2011","Vredelust Farm  - near","observation","Honeybees","genus","honeybees",12,70,80,6068,"On each survey, one side of eight trees along a transect (trees spaced 5 m apart) were scanned for five minutes each and bee species were recorded and voucher specimens collected (average of 758.5 +/- 265.1 [1SD] open flowers per apple tree).",NA
"Ruan_Veldtman_Malus_domestica_South_Africa_2011","Vredelust Farm  - near","observation","Honeybees","genus","honeybees",19,70,80,6068,"On each survey, one side of eight trees along a transect (trees spaced 5 m apart) were scanned for five minutes each and bee species were recorded and voucher specimens collected (average of 758.5 +/- 265.1 [1SD] open flowers per apple tree).",NA
"Ruan_Veldtman_Malus_domestica_South_Africa_2011","Vredelust Farm  - near","observation","Honeybees","genus","honeybees",4,70,80,6068,"On each survey, one side of eight trees along a transect (trees spaced 5 m apart) were scanned for five minutes each and bee species were recorded and voucher specimens collected (average of 758.5 +/- 265.1 [1SD] open flowers per apple tree).",NA
"Ruan_Veldtman_Malus_domestica_South_Africa_2011","Vredelust Farm  - near","observation","Honeybees","genus","honeybees",5,70,80,6068,"On each survey, one side of eight trees along a transect (trees spaced 5 m apart) were scanned for five minutes each and bee species were recorded and voucher specimens collected (average of 758.5 +/- 265.1 [1SD] open flowers per apple tree).",NA
"Ruan_Veldtman_Malus_domestica_South_Africa_2011","Vredelust Farm  - near","observation","Honeybees","genus","honeybees",4,70,80,6068,"On each survey, one side of eight trees along a transect (trees spaced 5 m apart) were scanned for five minutes each and bee species were recorded and voucher specimens collected (average of 758.5 +/- 265.1 [1SD] open flowers per apple tree).",NA
"Ruan_Veldtman_Malus_domestica_South_Africa_2011","Vredelust Farm  - near","observation","Honeybees","genus","honeybees",14,70,80,6068,"On each survey, one side of eight trees along a transect (trees spaced 5 m apart) were scanned for five minutes each and bee species were recorded and voucher specimens collected (average of 758.5 +/- 265.1 [1SD] open flowers per apple tree).",NA
"Ruan_Veldtman_Malus_domestica_South_Africa_2011","Vredelust Farm  - near","observation","Honeybees","genus","honeybees",14,70,80,6068,"On each survey, one side of eight trees along a transect (trees spaced 5 m apart) were scanned for five minutes each and bee species were recorded and voucher specimens collected (average of 758.5 +/- 265.1 [1SD] open flowers per apple tree).",NA
"Ruan_Veldtman_Malus_domestica_South_Africa_2011","Vredelust Farm  - near","observation","Honeybees","genus","honeybees",17,70,80,6068,"On each survey, one side of eight trees along a transect (trees spaced 5 m apart) were scanned for five minutes each and bee species were recorded and voucher specimens collected (average of 758.5 +/- 265.1 [1SD] open flowers per apple tree).",NA
"Ruan_Veldtman_Malus_domestica_South_Africa_2011","Vredelust Farm  - near","observation","Honeybees","genus","honeybees",16,70,80,6068,"On each survey, one side of eight trees along a transect (trees spaced 5 m apart) were scanned for five minutes each and bee species were recorded and voucher specimens collected (average of 758.5 +/- 265.1 [1SD] open flowers per apple tree).",NA
"Ruan_Veldtman_Malus_domestica_South_Africa_2011","Vredelust Farm  - near","observation","Honeybees","genus","honeybees",20,70,80,6068,"On each survey, one side of eight trees along a transect (trees spaced 5 m apart) were scanned for five minutes each and bee species were recorded and voucher specimens collected (average of 758.5 +/- 265.1 [1SD] open flowers per apple tree).",NA
"Ruan_Veldtman_Malus_domestica_South_Africa_2011","Vredelust Farm  - near","observation","Honeybees","genus","honeybees",15,70,80,6068,"On each survey, one side of eight trees along a transect (trees spaced 5 m apart) were scanned for five minutes each and bee species were recorded and voucher specimens collected (average of 758.5 +/- 265.1 [1SD] open flowers per apple tree).",NA
"Ruan_Veldtman_Malus_domestica_South_Africa_2011","Vredelust Farm  - near","observation","Honeybees","genus","honeybees",8,70,80,6068,"On each survey, one side of eight trees along a transect (trees spaced 5 m apart) were scanned for five minutes each and bee species were recorded and voucher specimens collected (average of 758.5 +/- 265.1 [1SD] open flowers per apple tree).",NA
"Ruan_Veldtman_Malus_domestica_South_Africa_2011","Vredelust Farm  - near","observation","Honeybees","genus","honeybees",10,70,80,6068,"On each survey, one side of eight trees along a transect (trees spaced 5 m apart) were scanned for five minutes each and bee species were recorded and voucher specimens collected (average of 758.5 +/- 265.1 [1SD] open flowers per apple tree).",NA
"Ruan_Veldtman_Malus_domestica_South_Africa_2011","Monteith 1 - near","observation","Honeybees","genus","honeybees",6,70,80,6068,"On each survey, one side of eight trees along a transect (trees spaced 5 m apart) were scanned for five minutes each and bee species were recorded and voucher specimens collected (average of 758.5 +/- 265.1 [1SD] open flowers per apple tree).",NA
"Ruan_Veldtman_Malus_domestica_South_Africa_2011","Monteith 1 - near","observation","Honeybees","genus","honeybees",9,70,80,6068,"On each survey, one side of eight trees along a transect (trees spaced 5 m apart) were scanned for five minutes each and bee species were recorded and voucher specimens collected (average of 758.5 +/- 265.1 [1SD] open flowers per apple tree).",NA
"Ruan_Veldtman_Malus_domestica_South_Africa_2011","Monteith 1 - near","observation","Honeybees","genus","honeybees",5,70,80,6068,"On each survey, one side of eight trees along a transect (trees spaced 5 m apart) were scanned for five minutes each and bee species were recorded and voucher specimens collected (average of 758.5 +/- 265.1 [1SD] open flowers per apple tree).",NA
"Ruan_Veldtman_Malus_domestica_South_Africa_2011","Monteith 1 - near","observation","Honeybees","genus","honeybees",4,70,80,6068,"On each survey, one side of eight trees along a transect (trees spaced 5 m apart) were scanned for five minutes each and bee species were recorded and voucher specimens collected (average of 758.5 +/- 265.1 [1SD] open flowers per apple tree).",NA
"Ruan_Veldtman_Malus_domestica_South_Africa_2011","Monteith 1 - near","observation","Honeybees","genus","honeybees",11,70,80,6068,"On each survey, one side of eight trees along a transect (trees spaced 5 m apart) were scanned for five minutes each and bee species were recorded and voucher specimens collected (average of 758.5 +/- 265.1 [1SD] open flowers per apple tree).",NA
"Ruan_Veldtman_Malus_domestica_South_Africa_2011","Monteith 1 - near","observation","Honeybees","genus","honeybees",9,70,80,6068,"On each survey, one side of eight trees along a transect (trees spaced 5 m apart) were scanned for five minutes each and bee species were recorded and voucher specimens collected (average of 758.5 +/- 265.1 [1SD] open flowers per apple tree).",NA
"Ruan_Veldtman_Malus_domestica_South_Africa_2011","Monteith 1 - near","observation","Honeybees","genus","honeybees",11,70,80,6068,"On each survey, one side of eight trees along a transect (trees spaced 5 m apart) were scanned for five minutes each and bee species were recorded and voucher specimens collected (average of 758.5 +/- 265.1 [1SD] open flowers per apple tree).",NA
"Ruan_Veldtman_Malus_domestica_South_Africa_2011","Monteith 1 - near","observation","Honeybees","genus","honeybees",14,70,80,6068,"On each survey, one side of eight trees along a transect (trees spaced 5 m apart) were scanned for five minutes each and bee species were recorded and voucher specimens collected (average of 758.5 +/- 265.1 [1SD] open flowers per apple tree).",NA
"Ruan_Veldtman_Malus_domestica_South_Africa_2011","Monteith 1 - near","observation","Honeybees","genus","honeybees",9,70,80,6068,"On each survey, one side of eight trees along a transect (trees spaced 5 m apart) were scanned for five minutes each and bee species were recorded and voucher specimens collected (average of 758.5 +/- 265.1 [1SD] open flowers per apple tree).",NA
"Ruan_Veldtman_Malus_domestica_South_Africa_2011","Monteith 1 - near","observation","Honeybees","genus","honeybees",8,70,80,6068,"On each survey, one side of eight trees along a transect (trees spaced 5 m apart) were scanned for five minutes each and bee species were recorded and voucher specimens collected (average of 758.5 +/- 265.1 [1SD] open flowers per apple tree).",NA
"Ruan_Veldtman_Malus_domestica_South_Africa_2011","Monteith 1 - near","observation","Honeybees","genus","honeybees",11,70,80,6068,"On each survey, one side of eight trees along a transect (trees spaced 5 m apart) were scanned for five minutes each and bee species were recorded and voucher specimens collected (average of 758.5 +/- 265.1 [1SD] open flowers per apple tree).",NA
"Ruan_Veldtman_Malus_domestica_South_Africa_2011","Monteith 1 - near","observation","Honeybees","genus","honeybees",10,70,80,6068,"On each survey, one side of eight trees along a transect (trees spaced 5 m apart) were scanned for five minutes each and bee species were recorded and voucher specimens collected (average of 758.5 +/- 265.1 [1SD] open flowers per apple tree).",NA
"Ruan_Veldtman_Malus_domestica_South_Africa_2011","Monteith 1 - near","observation","Honeybees","genus","honeybees",9,70,80,6068,"On each survey, one side of eight trees along a transect (trees spaced 5 m apart) were scanned for five minutes each and bee species were recorded and voucher specimens collected (average of 758.5 +/- 265.1 [1SD] open flowers per apple tree).",NA
"Ruan_Veldtman_Malus_domestica_South_Africa_2011","Monteith 1 - near","observation","Honeybees","genus","honeybees",12,70,80,6068,"On each survey, one side of eight trees along a transect (trees spaced 5 m apart) were scanned for five minutes each and bee species were recorded and voucher specimens collected (average of 758.5 +/- 265.1 [1SD] open flowers per apple tree).",NA
"Ruan_Veldtman_Malus_domestica_South_Africa_2011","Monteith 1 - near","observation","Honeybees","genus","honeybees",10,70,80,6068,"On each survey, one side of eight trees along a transect (trees spaced 5 m apart) were scanned for five minutes each and bee species were recorded and voucher specimens collected (average of 758.5 +/- 265.1 [1SD] open flowers per apple tree).",NA
"Ruan_Veldtman_Malus_domestica_South_Africa_2011","Monteith 1 - near","observation","Honeybees","genus","honeybees",11,70,80,6068,"On each survey, one side of eight trees along a transect (trees spaced 5 m apart) were scanned for five minutes each and bee species were recorded and voucher specimens collected (average of 758.5 +/- 265.1 [1SD] open flowers per apple tree).",NA
"Ruan_Veldtman_Malus_domestica_South_Africa_2011","Monteith 2 - near","observation","Honeybees","genus","honeybees",9,70,80,6068,"On each survey, one side of eight trees along a transect (trees spaced 5 m apart) were scanned for five minutes each and bee species were recorded and voucher specimens collected (average of 758.5 +/- 265.1 [1SD] open flowers per apple tree).",NA
"Ruan_Veldtman_Malus_domestica_South_Africa_2011","Monteith 2 - near","observation","Honeybees","genus","honeybees",12,70,80,6068,"On each survey, one side of eight trees along a transect (trees spaced 5 m apart) were scanned for five minutes each and bee species were recorded and voucher specimens collected (average of 758.5 +/- 265.1 [1SD] open flowers per apple tree).",NA
"Ruan_Veldtman_Malus_domestica_South_Africa_2011","Monteith 2 - near","observation","Honeybees","genus","honeybees",8,70,80,6068,"On each survey, one side of eight trees along a transect (trees spaced 5 m apart) were scanned for five minutes each and bee species were recorded and voucher specimens collected (average of 758.5 +/- 265.1 [1SD] open flowers per apple tree).",NA
"Ruan_Veldtman_Malus_domestica_South_Africa_2011","Monteith 2 - near","observation","Honeybees","genus","honeybees",11,70,80,6068,"On each survey, one side of eight trees along a transect (trees spaced 5 m apart) were scanned for five minutes each and bee species were recorded and voucher specimens collected (average of 758.5 +/- 265.1 [1SD] open flowers per apple tree).",NA
"Ruan_Veldtman_Malus_domestica_South_Africa_2011","Monteith 2 - near","observation","Honeybees","genus","honeybees",11,70,80,6068,"On each survey, one side of eight trees along a transect (trees spaced 5 m apart) were scanned for five minutes each and bee species were recorded and voucher specimens collected (average of 758.5 +/- 265.1 [1SD] open flowers per apple tree).",NA
"Ruan_Veldtman_Malus_domestica_South_Africa_2011","Monteith 2 - near","observation","Honeybees","genus","honeybees",10,70,80,6068,"On each survey, one side of eight trees along a transect (trees spaced 5 m apart) were scanned for five minutes each and bee species were recorded and voucher specimens collected (average of 758.5 +/- 265.1 [1SD] open flowers per apple tree).",NA
"Ruan_Veldtman_Malus_domestica_South_Africa_2011","Monteith 2 - near","observation","Honeybees","genus","honeybees",9,70,80,6068,"On each survey, one side of eight trees along a transect (trees spaced 5 m apart) were scanned for five minutes each and bee species were recorded and voucher specimens collected (average of 758.5 +/- 265.1 [1SD] open flowers per apple tree).",NA
"Ruan_Veldtman_Malus_domestica_South_Africa_2011","Monteith 2 - near","observation","Honeybees","genus","honeybees",12,70,80,6068,"On each survey, one side of eight trees along a transect (trees spaced 5 m apart) were scanned for five minutes each and bee species were recorded and voucher specimens collected (average of 758.5 +/- 265.1 [1SD] open flowers per apple tree).",NA
"Ruan_Veldtman_Malus_domestica_South_Africa_2011","Monteith 2 - near","observation","Honeybees","genus","honeybees",13,70,80,6068,"On each survey, one side of eight trees along a transect (trees spaced 5 m apart) were scanned for five minutes each and bee species were recorded and voucher specimens collected (average of 758.5 +/- 265.1 [1SD] open flowers per apple tree).",NA
"Ruan_Veldtman_Malus_domestica_South_Africa_2011","Monteith 2 - near","observation","Honeybees","genus","honeybees",16,70,80,6068,"On each survey, one side of eight trees along a transect (trees spaced 5 m apart) were scanned for five minutes each and bee species were recorded and voucher specimens collected (average of 758.5 +/- 265.1 [1SD] open flowers per apple tree).",NA
"Ruan_Veldtman_Malus_domestica_South_Africa_2011","Monteith 2 - near","observation","Honeybees","genus","honeybees",15,70,80,6068,"On each survey, one side of eight trees along a transect (trees spaced 5 m apart) were scanned for five minutes each and bee species were recorded and voucher specimens collected (average of 758.5 +/- 265.1 [1SD] open flowers per apple tree).",NA
"Ruan_Veldtman_Malus_domestica_South_Africa_2011","Monteith 2 - near","observation","Honeybees","genus","honeybees",13,70,80,6068,"On each survey, one side of eight trees along a transect (trees spaced 5 m apart) were scanned for five minutes each and bee species were recorded and voucher specimens collected (average of 758.5 +/- 265.1 [1SD] open flowers per apple tree).",NA
"Ruan_Veldtman_Malus_domestica_South_Africa_2011","Monteith 2 - near","observation","Honeybees","genus","honeybees",12,70,80,6068,"On each survey, one side of eight trees along a transect (trees spaced 5 m apart) were scanned for five minutes each and bee species were recorded and voucher specimens collected (average of 758.5 +/- 265.1 [1SD] open flowers per apple tree).",NA
"Ruan_Veldtman_Malus_domestica_South_Africa_2011","Monteith 2 - near","observation","Honeybees","genus","honeybees",12,70,80,6068,"On each survey, one side of eight trees along a transect (trees spaced 5 m apart) were scanned for five minutes each and bee species were recorded and voucher specimens collected (average of 758.5 +/- 265.1 [1SD] open flowers per apple tree).",NA
"Ruan_Veldtman_Malus_domestica_South_Africa_2011","Monteith 2 - near","observation","Honeybees","genus","honeybees",14,70,80,6068,"On each survey, one side of eight trees along a transect (trees spaced 5 m apart) were scanned for five minutes each and bee species were recorded and voucher specimens collected (average of 758.5 +/- 265.1 [1SD] open flowers per apple tree).",NA
"Ruan_Veldtman_Malus_domestica_South_Africa_2011","Monteith 2 - near","observation","Honeybees","genus","honeybees",15,70,80,6068,"On each survey, one side of eight trees along a transect (trees spaced 5 m apart) were scanned for five minutes each and bee species were recorded and voucher specimens collected (average of 758.5 +/- 265.1 [1SD] open flowers per apple tree).",NA
"Sandra_Lindstrom_Brassica_napus_Sweden_2011","4",NA,"Andrena_chrysosceles","species","other_wild_bees",1,NA,NA,NA,NA,NA
"Sandra_Lindstrom_Brassica_napus_Sweden_2011","19",NA,"Andrena_cineraria","species","other_wild_bees",1,NA,NA,NA,NA,NA
"Sandra_Lindstrom_Brassica_napus_Sweden_2011","2",NA,"Andrena_haemorrhoa","species","other_wild_bees",1,NA,NA,NA,NA,NA
"Sandra_Lindstrom_Brassica_napus_Sweden_2011","4",NA,"Andrena_haemorrhoa","species","other_wild_bees",1,NA,NA,NA,NA,NA
"Sandra_Lindstrom_Brassica_napus_Sweden_2011","12",NA,"Andrena_helvola","species","other_wild_bees",1,NA,NA,NA,NA,NA
"Sandra_Lindstrom_Brassica_napus_Sweden_2011","18",NA,"Andrena_nigrospina","species","other_wild_bees",1,NA,NA,NA,NA,NA
"Sandra_Lindstrom_Brassica_napus_Sweden_2011","1",NA,"Andrena_nigroaenea","species","other_wild_bees",1,NA,NA,NA,NA,NA
"Sandra_Lindstrom_Brassica_napus_Sweden_2011","11",NA,"Andrena_nigroaenea","species","other_wild_bees",1,NA,NA,NA,NA,NA
"Sandra_Lindstrom_Brassica_napus_Sweden_2011","13",NA,"Andrena_nigroaenea","species","other_wild_bees",1,NA,NA,NA,NA,NA
"Sandra_Lindstrom_Brassica_napus_Sweden_2011","13",NA,"Andrena_nigroaenea","species","other_wild_bees",1,NA,NA,NA,NA,NA
"Sandra_Lindstrom_Brassica_napus_Sweden_2011","19",NA,"Andrena_nigroaenea","species","other_wild_bees",1,NA,NA,NA,NA,NA
"Sandra_Lindstrom_Brassica_napus_Sweden_2011","2",NA,"Andrena_nigroaenea","species","other_wild_bees",1,NA,NA,NA,NA,NA
"Sandra_Lindstrom_Brassica_napus_Sweden_2011","8",NA,"Andrena_nigroaenea","species","other_wild_bees",1,NA,NA,NA,NA,NA
"Sandra_Lindstrom_Brassica_napus_Sweden_2011","5",NA,"Andrena_tibialis","species","other_wild_bees",1,NA,NA,NA,NA,NA
"Sandra_Lindstrom_Brassica_napus_Sweden_2011","1",NA,"Anthomyiidae_sp.","family","non_bee_hymenoptera",1,NA,NA,NA,NA,NA
"Sandra_Lindstrom_Brassica_napus_Sweden_2011","12",NA,"Anthomyiidae_sp.","family","non_bee_hymenoptera",1,NA,NA,NA,NA,NA
"Sandra_Lindstrom_Brassica_napus_Sweden_2011","13",NA,"Anthomyiidae_sp.","family","non_bee_hymenoptera",1,NA,NA,NA,NA,NA
"Sandra_Lindstrom_Brassica_napus_Sweden_2011","14",NA,"Anthomyiidae_sp.","family","non_bee_hymenoptera",1,NA,NA,NA,NA,NA
"Sandra_Lindstrom_Brassica_napus_Sweden_2011","14",NA,"Anthomyiidae_sp.","family","non_bee_hymenoptera",1,NA,NA,NA,NA,NA
"Sandra_Lindstrom_Brassica_napus_Sweden_2011","15",NA,"Anthomyiidae_sp.","family","non_bee_hymenoptera",2,NA,NA,NA,NA,NA
"Sandra_Lindstrom_Brassica_napus_Sweden_2011","15",NA,"Anthomyiidae_sp.","family","non_bee_hymenoptera",2,NA,NA,NA,NA,NA
"Sandra_Lindstrom_Brassica_napus_Sweden_2011","16",NA,"Anthomyiidae_sp.","family","non_bee_hymenoptera",3,NA,NA,NA,NA,NA
"Sandra_Lindstrom_Brassica_napus_Sweden_2011","16",NA,"Anthomyiidae_sp.","family","non_bee_hymenoptera",1,NA,NA,NA,NA,NA
"Sandra_Lindstrom_Brassica_napus_Sweden_2011","17",NA,"Anthomyiidae_sp.","family","non_bee_hymenoptera",1,NA,NA,NA,NA,NA
"Sandra_Lindstrom_Brassica_napus_Sweden_2011","19",NA,"Anthomyiidae_sp.","family","non_bee_hymenoptera",1,NA,NA,NA,NA,NA
"Sandra_Lindstrom_Brassica_napus_Sweden_2011","19",NA,"Anthomyiidae_sp.","family","non_bee_hymenoptera",1,NA,NA,NA,NA,NA
"Sandra_Lindstrom_Brassica_napus_Sweden_2011","2",NA,"Anthomyiidae_sp.","family","non_bee_hymenoptera",2,NA,NA,NA,NA,NA
"Sandra_Lindstrom_Brassica_napus_Sweden_2011","20",NA,"Anthomyiidae_sp.","family","non_bee_hymenoptera",2,NA,NA,NA,NA,NA
"Sandra_Lindstrom_Brassica_napus_Sweden_2011","24",NA,"Anthomyiidae_sp.","family","non_bee_hymenoptera",1,NA,NA,NA,NA,NA
"Sandra_Lindstrom_Brassica_napus_Sweden_2011","5",NA,"Anthomyiidae_sp.","family","non_bee_hymenoptera",1,NA,NA,NA,NA,NA
"Sandra_Lindstrom_Brassica_napus_Sweden_2011","5",NA,"Anthomyiidae_sp.","family","non_bee_hymenoptera",1,NA,NA,NA,NA,NA
"Sandra_Lindstrom_Brassica_napus_Sweden_2011","6",NA,"Anthomyiidae_sp.","family","non_bee_hymenoptera",1,NA,NA,NA,NA,NA
"Sandra_Lindstrom_Brassica_napus_Sweden_2011","8",NA,"Anthomyiidae_sp.","family","non_bee_hymenoptera",2,NA,NA,NA,NA,NA
"Sandra_Lindstrom_Brassica_napus_Sweden_2011","1",NA,"Apoidea_sp","superfamily","other_wild_bees",3,NA,NA,NA,NA,NA
"Sandra_Lindstrom_Brassica_napus_Sweden_2011","10",NA,"Apoidea_sp","superfamily","other_wild_bees",1,NA,NA,NA,NA,NA
"Sandra_Lindstrom_Brassica_napus_Sweden_2011","11",NA,"Apoidea_sp","superfamily","other_wild_bees",1,NA,NA,NA,NA,NA
"Sandra_Lindstrom_Brassica_napus_Sweden_2011","12",NA,"Apoidea_sp","superfamily","other_wild_bees",1,NA,NA,NA,NA,NA
"Sandra_Lindstrom_Brassica_napus_Sweden_2011","12",NA,"Apoidea_sp","superfamily","other_wild_bees",1,NA,NA,NA,NA,NA
"Sandra_Lindstrom_Brassica_napus_Sweden_2011","13",NA,"Apoidea_sp","superfamily","other_wild_bees",1,NA,NA,NA,NA,NA
"Sandra_Lindstrom_Brassica_napus_Sweden_2011","14",NA,"Apoidea_sp","superfamily","other_wild_bees",1,NA,NA,NA,NA,NA
"Sandra_Lindstrom_Brassica_napus_Sweden_2011","15",NA,"Apoidea_sp","superfamily","other_wild_bees",1,NA,NA,NA,NA,NA
"Sandra_Lindstrom_Brassica_napus_Sweden_2011","17",NA,"Apoidea_sp","superfamily","other_wild_bees",2,NA,NA,NA,NA,NA
"Sandra_Lindstrom_Brassica_napus_Sweden_2011","17",NA,"Apoidea_sp","superfamily","other_wild_bees",1,NA,NA,NA,NA,NA
"Sandra_Lindstrom_Brassica_napus_Sweden_2011","18",NA,"Apoidea_sp","superfamily","other_wild_bees",1,NA,NA,NA,NA,NA
"Sandra_Lindstrom_Brassica_napus_Sweden_2011","18",NA,"Apoidea_sp","superfamily","other_wild_bees",1,NA,NA,NA,NA,NA
"Sandra_Lindstrom_Brassica_napus_Sweden_2011","2",NA,"Apoidea_sp","superfamily","other_wild_bees",1,NA,NA,NA,NA,NA
"Sandra_Lindstrom_Brassica_napus_Sweden_2011","21",NA,"Apoidea_sp","superfamily","other_wild_bees",1,NA,NA,NA,NA,NA
"Sandra_Lindstrom_Brassica_napus_Sweden_2011","22",NA,"Apoidea_sp","superfamily","other_wild_bees",1,NA,NA,NA,NA,NA
"Sandra_Lindstrom_Brassica_napus_Sweden_2011","23",NA,"Apoidea_sp","superfamily","other_wild_bees",1,NA,NA,NA,NA,NA
"Sandra_Lindstrom_Brassica_napus_Sweden_2011","24",NA,"Apoidea_sp","superfamily","other_wild_bees",1,NA,NA,NA,NA,NA
"Sandra_Lindstrom_Brassica_napus_Sweden_2011","24",NA,"Apoidea_sp","superfamily","other_wild_bees",1,NA,NA,NA,NA,NA
"Sandra_Lindstrom_Brassica_napus_Sweden_2011","4",NA,"Apoidea_sp","superfamily","other_wild_bees",1,NA,NA,NA,NA,NA
"Sandra_Lindstrom_Brassica_napus_Sweden_2011","4",NA,"Apoidea_sp","superfamily","other_wild_bees",4,NA,NA,NA,NA,NA
"Sandra_Lindstrom_Brassica_napus_Sweden_2011","4",NA,"Apoidea_sp","superfamily","other_wild_bees",1,NA,NA,NA,NA,NA
"Sandra_Lindstrom_Brassica_napus_Sweden_2011","5",NA,"Apoidea_sp","superfamily","other_wild_bees",1,NA,NA,NA,NA,NA
"Sandra_Lindstrom_Brassica_napus_Sweden_2011","6",NA,"Apoidea_sp","superfamily","other_wild_bees",2,NA,NA,NA,NA,NA
"Sandra_Lindstrom_Brassica_napus_Sweden_2011","7",NA,"Apoidea_sp","superfamily","other_wild_bees",2,NA,NA,NA,NA,NA
"Sandra_Lindstrom_Brassica_napus_Sweden_2011","1",NA,"Apis_mellifera","species","honeybees",39,NA,NA,NA,NA,NA
"Sandra_Lindstrom_Brassica_napus_Sweden_2011","1",NA,"Apis_mellifera","species","honeybees",20,NA,NA,NA,NA,NA
"Sandra_Lindstrom_Brassica_napus_Sweden_2011","1",NA,"Apis_mellifera","species","honeybees",41,NA,NA,NA,NA,NA
"Sandra_Lindstrom_Brassica_napus_Sweden_2011","1",NA,"Apis_mellifera","species","honeybees",2,NA,NA,NA,NA,NA
"Sandra_Lindstrom_Brassica_napus_Sweden_2011","10",NA,"Apis_mellifera","species","honeybees",3,NA,NA,NA,NA,NA
"Sandra_Lindstrom_Brassica_napus_Sweden_2011","10",NA,"Apis_mellifera","species","honeybees",1,NA,NA,NA,NA,NA
"Sandra_Lindstrom_Brassica_napus_Sweden_2011","10",NA,"Apis_mellifera","species","honeybees",1,NA,NA,NA,NA,NA
"Sandra_Lindstrom_Brassica_napus_Sweden_2011","10",NA,"Apis_mellifera","species","honeybees",6,NA,NA,NA,NA,NA
"Sandra_Lindstrom_Brassica_napus_Sweden_2011","11",NA,"Apis_mellifera","species","honeybees",14,NA,NA,NA,NA,NA
"Sandra_Lindstrom_Brassica_napus_Sweden_2011","11",NA,"Apis_mellifera","species","honeybees",26,NA,NA,NA,NA,NA
"Sandra_Lindstrom_Brassica_napus_Sweden_2011","11",NA,"Apis_mellifera","species","honeybees",11,NA,NA,NA,NA,NA
"Sandra_Lindstrom_Brassica_napus_Sweden_2011","11",NA,"Apis_mellifera","species","honeybees",12,NA,NA,NA,NA,NA
"Sandra_Lindstrom_Brassica_napus_Sweden_2011","12",NA,"Apis_mellifera","species","honeybees",11,NA,NA,NA,NA,NA
"Sandra_Lindstrom_Brassica_napus_Sweden_2011","12",NA,"Apis_mellifera","species","honeybees",13,NA,NA,NA,NA,NA
"Sandra_Lindstrom_Brassica_napus_Sweden_2011","12",NA,"Apis_mellifera","species","honeybees",1,NA,NA,NA,NA,NA
"Sandra_Lindstrom_Brassica_napus_Sweden_2011","12",NA,"Apis_mellifera","species","honeybees",23,NA,NA,NA,NA,NA
"Sandra_Lindstrom_Brassica_napus_Sweden_2011","13",NA,"Apis_mellifera","species","honeybees",24,NA,NA,NA,NA,NA
"Sandra_Lindstrom_Brassica_napus_Sweden_2011","13",NA,"Apis_mellifera","species","honeybees",40,NA,NA,NA,NA,NA
"Sandra_Lindstrom_Brassica_napus_Sweden_2011","13",NA,"Apis_mellifera","species","honeybees",102,NA,NA,NA,NA,NA
"Sandra_Lindstrom_Brassica_napus_Sweden_2011","13",NA,"Apis_mellifera","species","honeybees",29,NA,NA,NA,NA,NA
"Sandra_Lindstrom_Brassica_napus_Sweden_2011","16",NA,"Apis_mellifera","species","honeybees",18,NA,NA,NA,NA,NA
"Sandra_Lindstrom_Brassica_napus_Sweden_2011","16",NA,"Apis_mellifera","species","honeybees",23,NA,NA,NA,NA,NA
"Sandra_Lindstrom_Brassica_napus_Sweden_2011","16",NA,"Apis_mellifera","species","honeybees",42,NA,NA,NA,NA,NA
"Sandra_Lindstrom_Brassica_napus_Sweden_2011","16",NA,"Apis_mellifera","species","honeybees",17,NA,NA,NA,NA,NA
"Sandra_Lindstrom_Brassica_napus_Sweden_2011","17",NA,"Apis_mellifera","species","honeybees",1,NA,NA,NA,NA,NA
"Sandra_Lindstrom_Brassica_napus_Sweden_2011","17",NA,"Apis_mellifera","species","honeybees",2,NA,NA,NA,NA,NA
"Sandra_Lindstrom_Brassica_napus_Sweden_2011","18",NA,"Apis_mellifera","species","honeybees",13,NA,NA,NA,NA,NA
"Sandra_Lindstrom_Brassica_napus_Sweden_2011","18",NA,"Apis_mellifera","species","honeybees",55,NA,NA,NA,NA,NA
"Sandra_Lindstrom_Brassica_napus_Sweden_2011","18",NA,"Apis_mellifera","species","honeybees",67,NA,NA,NA,NA,NA
"Sandra_Lindstrom_Brassica_napus_Sweden_2011","18",NA,"Apis_mellifera","species","honeybees",42,NA,NA,NA,NA,NA
"Sandra_Lindstrom_Brassica_napus_Sweden_2011","19",NA,"Apis_mellifera","species","honeybees",26,NA,NA,NA,NA,NA
"Sandra_Lindstrom_Brassica_napus_Sweden_2011","19",NA,"Apis_mellifera","species","honeybees",67,NA,NA,NA,NA,NA
"Sandra_Lindstrom_Brassica_napus_Sweden_2011","19",NA,"Apis_mellifera","species","honeybees",60,NA,NA,NA,NA,NA
"Sandra_Lindstrom_Brassica_napus_Sweden_2011","19",NA,"Apis_mellifera","species","honeybees",12,NA,NA,NA,NA,NA
"Sandra_Lindstrom_Brassica_napus_Sweden_2011","2",NA,"Apis_mellifera","species","honeybees",4,NA,NA,NA,NA,NA
"Sandra_Lindstrom_Brassica_napus_Sweden_2011","20",NA,"Apis_mellifera","species","honeybees",1,NA,NA,NA,NA,NA
"Sandra_Lindstrom_Brassica_napus_Sweden_2011","20",NA,"Apis_mellifera","species","honeybees",3,NA,NA,NA,NA,NA
"Sandra_Lindstrom_Brassica_napus_Sweden_2011","21",NA,"Apis_mellifera","species","honeybees",1,NA,NA,NA,NA,NA
"Sandra_Lindstrom_Brassica_napus_Sweden_2011","21",NA,"Apis_mellifera","species","honeybees",3,NA,NA,NA,NA,NA
"Sandra_Lindstrom_Brassica_napus_Sweden_2011","21",NA,"Apis_mellifera","species","honeybees",5,NA,NA,NA,NA,NA
"Sandra_Lindstrom_Brassica_napus_Sweden_2011","22",NA,"Apis_mellifera","species","honeybees",5,NA,NA,NA,NA,NA
"Sandra_Lindstrom_Brassica_napus_Sweden_2011","22",NA,"Apis_mellifera","species","honeybees",57,NA,NA,NA,NA,NA
"Sandra_Lindstrom_Brassica_napus_Sweden_2011","22",NA,"Apis_mellifera","species","honeybees",41,NA,NA,NA,NA,NA
"Sandra_Lindstrom_Brassica_napus_Sweden_2011","22",NA,"Apis_mellifera","species","honeybees",7,NA,NA,NA,NA,NA
"Sandra_Lindstrom_Brassica_napus_Sweden_2011","23",NA,"Apis_mellifera","species","honeybees",11,NA,NA,NA,NA,NA
"Sandra_Lindstrom_Brassica_napus_Sweden_2011","23",NA,"Apis_mellifera","species","honeybees",4,NA,NA,NA,NA,NA
"Sandra_Lindstrom_Brassica_napus_Sweden_2011","23",NA,"Apis_mellifera","species","honeybees",6,NA,NA,NA,NA,NA
"Sandra_Lindstrom_Brassica_napus_Sweden_2011","23",NA,"Apis_mellifera","species","honeybees",2,NA,NA,NA,NA,NA
"Sandra_Lindstrom_Brassica_napus_Sweden_2011","24",NA,"Apis_mellifera","species","honeybees",19,NA,NA,NA,NA,NA
"Sandra_Lindstrom_Brassica_napus_Sweden_2011","24",NA,"Apis_mellifera","species","honeybees",54,NA,NA,NA,NA,NA
"Sandra_Lindstrom_Brassica_napus_Sweden_2011","24",NA,"Apis_mellifera","species","honeybees",39,NA,NA,NA,NA,NA
"Sandra_Lindstrom_Brassica_napus_Sweden_2011","24",NA,"Apis_mellifera","species","honeybees",11,NA,NA,NA,NA,NA
"Sandra_Lindstrom_Brassica_napus_Sweden_2011","4",NA,"Apis_mellifera","species","honeybees",42,NA,NA,NA,NA,NA
"Sandra_Lindstrom_Brassica_napus_Sweden_2011","4",NA,"Apis_mellifera","species","honeybees",25,NA,NA,NA,NA,NA
"Sandra_Lindstrom_Brassica_napus_Sweden_2011","4",NA,"Apis_mellifera","species","honeybees",12,NA,NA,NA,NA,NA
"Sandra_Lindstrom_Brassica_napus_Sweden_2011","5",NA,"Apis_mellifera","species","honeybees",25,NA,NA,NA,NA,NA
"Sandra_Lindstrom_Brassica_napus_Sweden_2011","5",NA,"Apis_mellifera","species","honeybees",96,NA,NA,NA,NA,NA
"Sandra_Lindstrom_Brassica_napus_Sweden_2011","5",NA,"Apis_mellifera","species","honeybees",23,NA,NA,NA,NA,NA
"Sandra_Lindstrom_Brassica_napus_Sweden_2011","6",NA,"Apis_mellifera","species","honeybees",12,NA,NA,NA,NA,NA
"Sandra_Lindstrom_Brassica_napus_Sweden_2011","6",NA,"Apis_mellifera","species","honeybees",52,NA,NA,NA,NA,NA
"Sandra_Lindstrom_Brassica_napus_Sweden_2011","7",NA,"Apis_mellifera","species","honeybees",23,NA,NA,NA,NA,NA
"Sandra_Lindstrom_Brassica_napus_Sweden_2011","7",NA,"Apis_mellifera","species","honeybees",65,NA,NA,NA,NA,NA
"Sandra_Lindstrom_Brassica_napus_Sweden_2011","8",NA,"Apis_mellifera","species","honeybees",10,NA,NA,NA,NA,NA
"Sandra_Lindstrom_Brassica_napus_Sweden_2011","8",NA,"Apis_mellifera","species","honeybees",1,NA,NA,NA,NA,NA
"Sandra_Lindstrom_Brassica_napus_Sweden_2011","8",NA,"Apis_mellifera","species","honeybees",2,NA,NA,NA,NA,NA
"Sandra_Lindstrom_Brassica_napus_Sweden_2011","1",NA,"Bombus_lucorum_terrestris","species","bumblebees",1,NA,NA,NA,NA,NA
"Sandra_Lindstrom_Brassica_napus_Sweden_2011","11",NA,"Bombus_lucorum_terrestris","species","bumblebees",3,NA,NA,NA,NA,NA
"Sandra_Lindstrom_Brassica_napus_Sweden_2011","12",NA,"Bombus_lucorum_terrestris","species","bumblebees",1,NA,NA,NA,NA,NA
"Sandra_Lindstrom_Brassica_napus_Sweden_2011","12",NA,"Bombus_lucorum_terrestris","species","bumblebees",1,NA,NA,NA,NA,NA
"Sandra_Lindstrom_Brassica_napus_Sweden_2011","12",NA,"Bombus_lucorum_terrestris","species","bumblebees",3,NA,NA,NA,NA,NA
"Sandra_Lindstrom_Brassica_napus_Sweden_2011","17",NA,"Bombus_lucorum_terrestris","species","bumblebees",1,NA,NA,NA,NA,NA
"Sandra_Lindstrom_Brassica_napus_Sweden_2011","19",NA,"Bombus_lucorum_terrestris","species","bumblebees",1,NA,NA,NA,NA,NA
"Sandra_Lindstrom_Brassica_napus_Sweden_2011","22",NA,"Bombus_lucorum_terrestris","species","bumblebees",1,NA,NA,NA,NA,NA
"Sandra_Lindstrom_Brassica_napus_Sweden_2011","4",NA,"Bombus_lucorum_terrestris","species","bumblebees",1,NA,NA,NA,NA,NA
"Sandra_Lindstrom_Brassica_napus_Sweden_2011","4",NA,"Bombus_lucorum_terrestris","species","bumblebees",5,NA,NA,NA,NA,NA
"Sandra_Lindstrom_Brassica_napus_Sweden_2011","4",NA,"Bombus_lucorum_terrestris","species","bumblebees",4,NA,NA,NA,NA,NA
"Sandra_Lindstrom_Brassica_napus_Sweden_2011","6",NA,"Bombus_lucorum_terrestris","species","bumblebees",1,NA,NA,NA,NA,NA
"Sandra_Lindstrom_Brassica_napus_Sweden_2011","7",NA,"Bombus_lucorum_terrestris","species","bumblebees",2,NA,NA,NA,NA,NA
"Sandra_Lindstrom_Brassica_napus_Sweden_2011","8",NA,"Bombus_lucorum_terrestris","species","bumblebees",1,NA,NA,NA,NA,NA
"Sandra_Lindstrom_Brassica_napus_Sweden_2011","12",NA,"Bombus_lucorum","species","bumblebees",1,NA,NA,NA,NA,NA
"Sandra_Lindstrom_Brassica_napus_Sweden_2011","11",NA,"Bombus_lapidarius","species","bumblebees",2,NA,NA,NA,NA,NA
"Sandra_Lindstrom_Brassica_napus_Sweden_2011","12",NA,"Bombus_lapidarius","species","bumblebees",2,NA,NA,NA,NA,NA
"Sandra_Lindstrom_Brassica_napus_Sweden_2011","12",NA,"Bombus_lapidarius","species","bumblebees",1,NA,NA,NA,NA,NA
"Sandra_Lindstrom_Brassica_napus_Sweden_2011","16",NA,"Bombus_lapidarius","species","bumblebees",1,NA,NA,NA,NA,NA
"Sandra_Lindstrom_Brassica_napus_Sweden_2011","19",NA,"Bombus_lapidarius","species","bumblebees",1,NA,NA,NA,NA,NA
"Sandra_Lindstrom_Brassica_napus_Sweden_2011","2",NA,"Bombus_lapidarius","species","bumblebees",1,NA,NA,NA,NA,NA
"Sandra_Lindstrom_Brassica_napus_Sweden_2011","4",NA,"Bombus_lapidarius","species","bumblebees",3,NA,NA,NA,NA,NA
"Sandra_Lindstrom_Brassica_napus_Sweden_2011","4",NA,"Bombus_lapidarius","species","bumblebees",2,NA,NA,NA,NA,NA
"Sandra_Lindstrom_Brassica_napus_Sweden_2011","7",NA,"Bombus_lapidarius","species","bumblebees",1,NA,NA,NA,NA,NA
"Sandra_Lindstrom_Brassica_napus_Sweden_2011","12",NA,"Bombus_sylvarum","species","bumblebees",1,NA,NA,NA,NA,NA
"Sandra_Lindstrom_Brassica_napus_Sweden_2011","2",NA,"Bombus_sylvarum","species","bumblebees",1,NA,NA,NA,NA,NA
"Sandra_Lindstrom_Brassica_napus_Sweden_2011","11",NA,"Bombus_spp.","genus","bumblebees",2,NA,NA,NA,NA,NA
"Sandra_Lindstrom_Brassica_napus_Sweden_2011","11",NA,"Bombus_spp.","genus","bumblebees",2,NA,NA,NA,NA,NA
"Sandra_Lindstrom_Brassica_napus_Sweden_2011","11",NA,"Bombus_spp.","genus","bumblebees",1,NA,NA,NA,NA,NA
"Sandra_Lindstrom_Brassica_napus_Sweden_2011","12",NA,"Bombus_spp.","genus","bumblebees",1,NA,NA,NA,NA,NA
"Sandra_Lindstrom_Brassica_napus_Sweden_2011","12",NA,"Bombus_spp.","genus","bumblebees",6,NA,NA,NA,NA,NA
"Sandra_Lindstrom_Brassica_napus_Sweden_2011","12",NA,"Bombus_spp.","genus","bumblebees",1,NA,NA,NA,NA,NA
"Sandra_Lindstrom_Brassica_napus_Sweden_2011","17",NA,"Bombus_spp.","genus","bumblebees",1,NA,NA,NA,NA,NA
"Sandra_Lindstrom_Brassica_napus_Sweden_2011","4",NA,"Bombus_spp.","genus","bumblebees",1,NA,NA,NA,NA,NA
"Sandra_Lindstrom_Brassica_napus_Sweden_2011","6",NA,"Bombus_spp.","genus","bumblebees",1,NA,NA,NA,NA,NA
"Sandra_Lindstrom_Brassica_napus_Sweden_2011","10",NA,"Bibionidae_sp.","family","other_flies",15,NA,NA,NA,NA,NA
"Sandra_Lindstrom_Brassica_napus_Sweden_2011","12",NA,"Bibionidae_sp.","family","other_flies",8,NA,NA,NA,NA,NA
"Sandra_Lindstrom_Brassica_napus_Sweden_2011","14",NA,"Bibionidae_sp.","family","other_flies",1,NA,NA,NA,NA,NA
"Sandra_Lindstrom_Brassica_napus_Sweden_2011","15",NA,"Bibionidae_sp.","family","other_flies",2,NA,NA,NA,NA,NA
"Sandra_Lindstrom_Brassica_napus_Sweden_2011","17",NA,"Bibionidae_sp.","family","other_flies",1,NA,NA,NA,NA,NA
"Sandra_Lindstrom_Brassica_napus_Sweden_2011","19",NA,"Bibionidae_sp.","family","other_flies",1,NA,NA,NA,NA,NA
"Sandra_Lindstrom_Brassica_napus_Sweden_2011","2",NA,"Bibionidae_sp.","family","other_flies",1,NA,NA,NA,NA,NA
"Sandra_Lindstrom_Brassica_napus_Sweden_2011","22",NA,"Bibionidae_sp.","family","other_flies",9,NA,NA,NA,NA,NA
"Sandra_Lindstrom_Brassica_napus_Sweden_2011","23",NA,"Bibionidae_sp.","family","other_flies",1,NA,NA,NA,NA,NA
"Sandra_Lindstrom_Brassica_napus_Sweden_2011","8",NA,"Bibionidae_sp.","family","other_flies",6,NA,NA,NA,NA,NA
"Sandra_Lindstrom_Brassica_napus_Sweden_2011","20",NA,"Bibo_hortulans","species","other_flies",1,NA,NA,NA,NA,NA
"Sandra_Lindstrom_Brassica_napus_Sweden_2011","1",NA,"Bibo_marci","species","other_flies",1,NA,NA,NA,NA,NA
"Sandra_Lindstrom_Brassica_napus_Sweden_2011","10",NA,"Bibo_marci","species","other_flies",3,NA,NA,NA,NA,NA
"Sandra_Lindstrom_Brassica_napus_Sweden_2011","12",NA,"Bibo_marci","species","other_flies",2,NA,NA,NA,NA,NA
"Sandra_Lindstrom_Brassica_napus_Sweden_2011","12",NA,"Bibo_marci","species","other_flies",1,NA,NA,NA,NA,NA
"Sandra_Lindstrom_Brassica_napus_Sweden_2011","17",NA,"Bibo_marci","species","other_flies",1,NA,NA,NA,NA,NA
"Sandra_Lindstrom_Brassica_napus_Sweden_2011","22",NA,"Bibo_marci","species","other_flies",3,NA,NA,NA,NA,NA
"Sandra_Lindstrom_Brassica_napus_Sweden_2011","23",NA,"Bibo_marci","species","other_flies",2,NA,NA,NA,NA,NA
"Sandra_Lindstrom_Brassica_napus_Sweden_2011","4",NA,"Bibo_marci","species","other_flies",1,NA,NA,NA,NA,NA
"Sandra_Lindstrom_Brassica_napus_Sweden_2011","5",NA,"Bibo_marci","species","other_flies",1,NA,NA,NA,NA,NA
"Sandra_Lindstrom_Brassica_napus_Sweden_2011","5",NA,"Bibo_marci","species","other_flies",1,NA,NA,NA,NA,NA
"Sandra_Lindstrom_Brassica_napus_Sweden_2011","8",NA,"Bibo_marci","species","other_flies",3,NA,NA,NA,NA,NA
"Sandra_Lindstrom_Brassica_napus_Sweden_2011","12",NA,"Bibo_varipes","species","other_flies",1,NA,NA,NA,NA,NA
"Sandra_Lindstrom_Brassica_napus_Sweden_2011","2",NA,"Bibo_varipes","species","other_flies",1,NA,NA,NA,NA,NA
"Sandra_Lindstrom_Brassica_napus_Sweden_2011","15",NA,"Calliphoridae_sp.","family","other_flies",1,NA,NA,NA,NA,NA
"Sandra_Lindstrom_Brassica_napus_Sweden_2011","8",NA,"Chironomidae_sp.","family","other_flies",1,NA,NA,NA,NA,NA
"Sandra_Lindstrom_Brassica_napus_Sweden_2011","1",NA,"Coccinella_sp.","genus","beetles",1,NA,NA,NA,NA,NA
"Sandra_Lindstrom_Brassica_napus_Sweden_2011","23",NA,"Coccinella_sp.","genus","beetles",1,NA,NA,NA,NA,NA
"Sandra_Lindstrom_Brassica_napus_Sweden_2011","10",NA,"Coccinella_septempunctata","species","beetles",1,NA,NA,NA,NA,NA
"Sandra_Lindstrom_Brassica_napus_Sweden_2011","1",NA,"Coleoptera_sp.","order","beetles",1,NA,NA,NA,NA,NA
"Sandra_Lindstrom_Brassica_napus_Sweden_2011","2",NA,"Coleoptera_sp.","order","beetles",1,NA,NA,NA,NA,NA
"Sandra_Lindstrom_Brassica_napus_Sweden_2011","22",NA,"Coleoptera_sp.","order","beetles",2,NA,NA,NA,NA,NA
"Sandra_Lindstrom_Brassica_napus_Sweden_2011","1",NA,"Diptera_sp.","order","other_flies",2,NA,NA,NA,NA,NA
"Sandra_Lindstrom_Brassica_napus_Sweden_2011","1",NA,"Diptera_sp.","order","other_flies",5,NA,NA,NA,NA,NA
"Sandra_Lindstrom_Brassica_napus_Sweden_2011","1",NA,"Diptera_sp.","order","other_flies",5,NA,NA,NA,NA,NA
"Sandra_Lindstrom_Brassica_napus_Sweden_2011","1",NA,"Diptera_sp.","order","other_flies",8,NA,NA,NA,NA,NA
"Sandra_Lindstrom_Brassica_napus_Sweden_2011","10",NA,"Diptera_sp.","order","other_flies",1,NA,NA,NA,NA,NA
"Sandra_Lindstrom_Brassica_napus_Sweden_2011","10",NA,"Diptera_sp.","order","other_flies",1,NA,NA,NA,NA,NA
"Sandra_Lindstrom_Brassica_napus_Sweden_2011","10",NA,"Diptera_sp.","order","other_flies",4,NA,NA,NA,NA,NA
"Sandra_Lindstrom_Brassica_napus_Sweden_2011","13",NA,"Diptera_sp.","order","other_flies",5,NA,NA,NA,NA,NA
"Sandra_Lindstrom_Brassica_napus_Sweden_2011","13",NA,"Diptera_sp.","order","other_flies",5,NA,NA,NA,NA,NA
"Sandra_Lindstrom_Brassica_napus_Sweden_2011","14",NA,"Diptera_sp.","order","other_flies",1,NA,NA,NA,NA,NA
"Sandra_Lindstrom_Brassica_napus_Sweden_2011","14",NA,"Diptera_sp.","order","other_flies",11,NA,NA,NA,NA,NA
"Sandra_Lindstrom_Brassica_napus_Sweden_2011","14",NA,"Diptera_sp.","order","other_flies",9,NA,NA,NA,NA,NA
"Sandra_Lindstrom_Brassica_napus_Sweden_2011","14",NA,"Diptera_sp.","order","other_flies",1,NA,NA,NA,NA,NA
"Sandra_Lindstrom_Brassica_napus_Sweden_2011","15",NA,"Diptera_sp.","order","other_flies",8,NA,NA,NA,NA,NA
"Sandra_Lindstrom_Brassica_napus_Sweden_2011","15",NA,"Diptera_sp.","order","other_flies",5,NA,NA,NA,NA,NA
"Sandra_Lindstrom_Brassica_napus_Sweden_2011","15",NA,"Diptera_sp.","order","other_flies",6,NA,NA,NA,NA,NA
"Sandra_Lindstrom_Brassica_napus_Sweden_2011","16",NA,"Diptera_sp.","order","other_flies",27,NA,NA,NA,NA,NA
"Sandra_Lindstrom_Brassica_napus_Sweden_2011","16",NA,"Diptera_sp.","order","other_flies",18,NA,NA,NA,NA,NA
"Sandra_Lindstrom_Brassica_napus_Sweden_2011","16",NA,"Diptera_sp.","order","other_flies",6,NA,NA,NA,NA,NA
"Sandra_Lindstrom_Brassica_napus_Sweden_2011","17",NA,"Diptera_sp.","order","other_flies",18,NA,NA,NA,NA,NA
"Sandra_Lindstrom_Brassica_napus_Sweden_2011","17",NA,"Diptera_sp.","order","other_flies",1,NA,NA,NA,NA,NA
"Sandra_Lindstrom_Brassica_napus_Sweden_2011","18",NA,"Diptera_sp.","order","other_flies",3,NA,NA,NA,NA,NA
"Sandra_Lindstrom_Brassica_napus_Sweden_2011","18",NA,"Diptera_sp.","order","other_flies",1,NA,NA,NA,NA,NA
"Sandra_Lindstrom_Brassica_napus_Sweden_2011","18",NA,"Diptera_sp.","order","other_flies",1,NA,NA,NA,NA,NA
"Sandra_Lindstrom_Brassica_napus_Sweden_2011","19",NA,"Diptera_sp.","order","other_flies",2,NA,NA,NA,NA,NA
"Sandra_Lindstrom_Brassica_napus_Sweden_2011","19",NA,"Diptera_sp.","order","other_flies",2,NA,NA,NA,NA,NA
"Sandra_Lindstrom_Brassica_napus_Sweden_2011","19",NA,"Diptera_sp.","order","other_flies",7,NA,NA,NA,NA,NA
"Sandra_Lindstrom_Brassica_napus_Sweden_2011","19",NA,"Diptera_sp.","order","other_flies",5,NA,NA,NA,NA,NA
"Sandra_Lindstrom_Brassica_napus_Sweden_2011","2",NA,"Diptera_sp.","order","other_flies",9,NA,NA,NA,NA,NA
"Sandra_Lindstrom_Brassica_napus_Sweden_2011","2",NA,"Diptera_sp.","order","other_flies",3,NA,NA,NA,NA,NA
"Sandra_Lindstrom_Brassica_napus_Sweden_2011","2",NA,"Diptera_sp.","order","other_flies",7,NA,NA,NA,NA,NA
"Sandra_Lindstrom_Brassica_napus_Sweden_2011","20",NA,"Diptera_sp.","order","other_flies",1,NA,NA,NA,NA,NA
"Sandra_Lindstrom_Brassica_napus_Sweden_2011","20",NA,"Diptera_sp.","order","other_flies",3,NA,NA,NA,NA,NA
"Sandra_Lindstrom_Brassica_napus_Sweden_2011","20",NA,"Diptera_sp.","order","other_flies",5,NA,NA,NA,NA,NA
"Sandra_Lindstrom_Brassica_napus_Sweden_2011","20",NA,"Diptera_sp.","order","other_flies",5,NA,NA,NA,NA,NA
"Sandra_Lindstrom_Brassica_napus_Sweden_2011","21",NA,"Diptera_sp.","order","other_flies",2,NA,NA,NA,NA,NA
"Sandra_Lindstrom_Brassica_napus_Sweden_2011","21",NA,"Diptera_sp.","order","other_flies",1,NA,NA,NA,NA,NA
"Sandra_Lindstrom_Brassica_napus_Sweden_2011","21",NA,"Diptera_sp.","order","other_flies",1,NA,NA,NA,NA,NA
"Sandra_Lindstrom_Brassica_napus_Sweden_2011","22",NA,"Diptera_sp.","order","other_flies",5,NA,NA,NA,NA,NA
"Sandra_Lindstrom_Brassica_napus_Sweden_2011","22",NA,"Diptera_sp.","order","other_flies",2,NA,NA,NA,NA,NA
"Sandra_Lindstrom_Brassica_napus_Sweden_2011","22",NA,"Diptera_sp.","order","other_flies",4,NA,NA,NA,NA,NA
"Sandra_Lindstrom_Brassica_napus_Sweden_2011","23",NA,"Diptera_sp.","order","other_flies",5,NA,NA,NA,NA,NA
"Sandra_Lindstrom_Brassica_napus_Sweden_2011","23",NA,"Diptera_sp.","order","other_flies",3,NA,NA,NA,NA,NA
"Sandra_Lindstrom_Brassica_napus_Sweden_2011","24",NA,"Diptera_sp.","order","other_flies",11,NA,NA,NA,NA,NA
"Sandra_Lindstrom_Brassica_napus_Sweden_2011","24",NA,"Diptera_sp.","order","other_flies",3,NA,NA,NA,NA,NA
"Sandra_Lindstrom_Brassica_napus_Sweden_2011","4",NA,"Diptera_sp.","order","other_flies",2,NA,NA,NA,NA,NA
"Sandra_Lindstrom_Brassica_napus_Sweden_2011","4",NA,"Diptera_sp.","order","other_flies",5,NA,NA,NA,NA,NA
"Sandra_Lindstrom_Brassica_napus_Sweden_2011","4",NA,"Diptera_sp.","order","other_flies",3,NA,NA,NA,NA,NA
"Sandra_Lindstrom_Brassica_napus_Sweden_2011","4",NA,"Diptera_sp.","order","other_flies",2,NA,NA,NA,NA,NA
"Sandra_Lindstrom_Brassica_napus_Sweden_2011","5",NA,"Diptera_sp.","order","other_flies",3,NA,NA,NA,NA,NA
"Sandra_Lindstrom_Brassica_napus_Sweden_2011","5",NA,"Diptera_sp.","order","other_flies",9,NA,NA,NA,NA,NA
"Sandra_Lindstrom_Brassica_napus_Sweden_2011","6",NA,"Diptera_sp.","order","other_flies",7,NA,NA,NA,NA,NA
"Sandra_Lindstrom_Brassica_napus_Sweden_2011","6",NA,"Diptera_sp.","order","other_flies",2,NA,NA,NA,NA,NA
"Sandra_Lindstrom_Brassica_napus_Sweden_2011","6",NA,"Diptera_sp.","order","other_flies",6,NA,NA,NA,NA,NA
"Sandra_Lindstrom_Brassica_napus_Sweden_2011","7",NA,"Diptera_sp.","order","other_flies",4,NA,NA,NA,NA,NA
"Sandra_Lindstrom_Brassica_napus_Sweden_2011","7",NA,"Diptera_sp.","order","other_flies",1,NA,NA,NA,NA,NA
"Sandra_Lindstrom_Brassica_napus_Sweden_2011","8",NA,"Diptera_sp.","order","other_flies",1,NA,NA,NA,NA,NA
"Sandra_Lindstrom_Brassica_napus_Sweden_2011","8",NA,"Diptera_sp.","order","other_flies",1,NA,NA,NA,NA,NA
"Sandra_Lindstrom_Brassica_napus_Sweden_2011","8",NA,"Diptera_sp.","order","other_flies",4,NA,NA,NA,NA,NA
"Sandra_Lindstrom_Brassica_napus_Sweden_2011","12",NA,"Heteroptera_sp.","suborder","other",1,NA,NA,NA,NA,NA
"Sandra_Lindstrom_Brassica_napus_Sweden_2011","22",NA,"Heteroptera_sp.","suborder","other",1,NA,NA,NA,NA,NA
"Sandra_Lindstrom_Brassica_napus_Sweden_2011","1",NA,"hymenoptera_sp.","order","non_bee_hymenoptera",1,NA,NA,NA,NA,NA
"Sandra_Lindstrom_Brassica_napus_Sweden_2011","2",NA,"Melanostoma_mellinum","species","syrphids",1,NA,NA,NA,NA,NA
"Sandra_Lindstrom_Brassica_napus_Sweden_2011","2",NA,"Melanostoma_mellinum","species","syrphids",1,NA,NA,NA,NA,NA
"Sandra_Lindstrom_Brassica_napus_Sweden_2011","22",NA,"Melanostoma_mellinum","species","syrphids",1,NA,NA,NA,NA,NA
"Sandra_Lindstrom_Brassica_napus_Sweden_2011","4",NA,"Melanostoma_mellinum","species","syrphids",1,NA,NA,NA,NA,NA
"Sandra_Lindstrom_Brassica_napus_Sweden_2011","14",NA,"Melanostoma_sp","genus","syrphids",1,NA,NA,NA,NA,NA
"Sandra_Lindstrom_Brassica_napus_Sweden_2011","2",NA,"Melanostoma_sp","genus","syrphids",1,NA,NA,NA,NA,NA
"Sandra_Lindstrom_Brassica_napus_Sweden_2011","4",NA,"Melanostoma_sp","genus","syrphids",1,NA,NA,NA,NA,NA
"Sandra_Lindstrom_Brassica_napus_Sweden_2011","2",NA,"Muscidae_sp.","family","other_flies",1,NA,NA,NA,NA,NA
"Sandra_Lindstrom_Brassica_napus_Sweden_2011","8",NA,"Muscidae_sp.","family","other_flies",1,NA,NA,NA,NA,NA
"Sandra_Lindstrom_Brassica_napus_Sweden_2011","12",NA,"Nematocera_sp.","suborder","other_flies",2,NA,NA,NA,NA,NA
"Sandra_Lindstrom_Brassica_napus_Sweden_2011","12",NA,"Pieridae_sp","family","lepidoptera",2,NA,NA,NA,NA,NA
"Sandra_Lindstrom_Brassica_napus_Sweden_2011","7",NA,"Pieridae_sp","family","lepidoptera",1,NA,NA,NA,NA,NA
"Sandra_Lindstrom_Brassica_napus_Sweden_2011","2",NA,"Sarcophagidae","family","other_flies",1,NA,NA,NA,NA,NA
"Sandra_Lindstrom_Brassica_napus_Sweden_2011","2",NA,"Sarcophagidae","family","other_flies",1,NA,NA,NA,NA,NA
"Sandra_Lindstrom_Brassica_napus_Sweden_2011","4",NA,"Sarcophagidae","family","other_flies",1,NA,NA,NA,NA,NA
"Sandra_Lindstrom_Brassica_napus_Sweden_2011","2",NA,"Scatophagidae","family","other_flies",1,NA,NA,NA,NA,NA
"Sandra_Lindstrom_Brassica_napus_Sweden_2011","2",NA,"Scatophagidae","family","other_flies",1,NA,NA,NA,NA,NA
"Sandra_Lindstrom_Brassica_napus_Sweden_2011","1",NA,"syrphidae","family","syrphids",1,NA,NA,NA,NA,NA
"Sandra_Lindstrom_Brassica_napus_Sweden_2011","12",NA,"syrphidae","family","syrphids",1,NA,NA,NA,NA,NA
"Sandra_Lindstrom_Brassica_napus_Sweden_2011","12",NA,"syrphidae","family","syrphids",1,NA,NA,NA,NA,NA
"Sandra_Lindstrom_Brassica_napus_Sweden_2011","14",NA,"syrphidae","family","syrphids",1,NA,NA,NA,NA,NA
"Sandra_Lindstrom_Brassica_napus_Sweden_2011","15",NA,"syrphidae","family","syrphids",1,NA,NA,NA,NA,NA
"Sandra_Lindstrom_Brassica_napus_Sweden_2011","16",NA,"syrphidae","family","syrphids",1,NA,NA,NA,NA,NA
"Sandra_Lindstrom_Brassica_napus_Sweden_2011","18",NA,"syrphidae","family","syrphids",1,NA,NA,NA,NA,NA
"Sandra_Lindstrom_Brassica_napus_Sweden_2011","19",NA,"syrphidae","family","syrphids",1,NA,NA,NA,NA,NA
"Sandra_Lindstrom_Brassica_napus_Sweden_2011","21",NA,"syrphidae","family","syrphids",1,NA,NA,NA,NA,NA
"Sandra_Lindstrom_Brassica_napus_Sweden_2011","4",NA,"syrphidae","family","syrphids",2,NA,NA,NA,NA,NA
"Sandra_Lindstrom_Brassica_napus_Sweden_2011","4",NA,"syrphidae","family","syrphids",1,NA,NA,NA,NA,NA
"Sandra_Lindstrom_Brassica_napus_Sweden_2011","22",NA,"Tineoidea_sp.","superfamily","lepidoptera",1,NA,NA,NA,NA,NA
"Sandra_Lindstrom_Brassica_napus_Sweden_2011","4",NA,"Zygoptera_sp.","suborder","other",1,NA,NA,NA,NA,NA
"Sandra_Lindstrom_Brassica_napus_Sweden_2012","29",NA,"Andrena_carantonica","species","other_wild_bees",1,NA,NA,NA,NA,NA
"Sandra_Lindstrom_Brassica_napus_Sweden_2012","32",NA,"Andrena_haemorrhoa","species","other_wild_bees",1,NA,NA,NA,NA,NA
"Sandra_Lindstrom_Brassica_napus_Sweden_2012","38",NA,"Andrena_haemorrhoa","species","other_wild_bees",1,NA,NA,NA,NA,NA
"Sandra_Lindstrom_Brassica_napus_Sweden_2012","36",NA,"Andrena_nigroaenea","species","other_wild_bees",1,NA,NA,NA,NA,NA
"Sandra_Lindstrom_Brassica_napus_Sweden_2012","43",NA,"Andrena_nigroaenea","species","other_wild_bees",1,NA,NA,NA,NA,NA
"Sandra_Lindstrom_Brassica_napus_Sweden_2012","46",NA,"Andrena_nigroaenea","species","other_wild_bees",1,NA,NA,NA,NA,NA
"Sandra_Lindstrom_Brassica_napus_Sweden_2012","27",NA,"Anthomyiidae_sp.","family","non_bee_hymenoptera",1,NA,NA,NA,NA,NA
"Sandra_Lindstrom_Brassica_napus_Sweden_2012","27",NA,"Anthomyiidae_sp.","family","non_bee_hymenoptera",1,NA,NA,NA,NA,NA
"Sandra_Lindstrom_Brassica_napus_Sweden_2012","28",NA,"Anthomyiidae_sp.","family","non_bee_hymenoptera",1,NA,NA,NA,NA,NA
"Sandra_Lindstrom_Brassica_napus_Sweden_2012","29",NA,"Anthomyiidae_sp.","family","non_bee_hymenoptera",1,NA,NA,NA,NA,NA
"Sandra_Lindstrom_Brassica_napus_Sweden_2012","31",NA,"Anthomyiidae_sp.","family","non_bee_hymenoptera",1,NA,NA,NA,NA,NA
"Sandra_Lindstrom_Brassica_napus_Sweden_2012","36",NA,"Anthomyiidae_sp.","family","non_bee_hymenoptera",2,NA,NA,NA,NA,NA
"Sandra_Lindstrom_Brassica_napus_Sweden_2012","37",NA,"Anthomyiidae_sp.","family","non_bee_hymenoptera",1,NA,NA,NA,NA,NA
"Sandra_Lindstrom_Brassica_napus_Sweden_2012","38",NA,"Anthomyiidae_sp.","family","non_bee_hymenoptera",1,NA,NA,NA,NA,NA
"Sandra_Lindstrom_Brassica_napus_Sweden_2012","39",NA,"Anthomyiidae_sp.","family","non_bee_hymenoptera",1,NA,NA,NA,NA,NA
"Sandra_Lindstrom_Brassica_napus_Sweden_2012","40",NA,"Anthomyiidae_sp.","family","non_bee_hymenoptera",1,NA,NA,NA,NA,NA
"Sandra_Lindstrom_Brassica_napus_Sweden_2012","25",NA,"Apoidea_sp","superfamily","other_wild_bees",1,NA,NA,NA,NA,NA
"Sandra_Lindstrom_Brassica_napus_Sweden_2012","27",NA,"Apoidea_sp","superfamily","other_wild_bees",4,NA,NA,NA,NA,NA
"Sandra_Lindstrom_Brassica_napus_Sweden_2012","27",NA,"Apoidea_sp","superfamily","other_wild_bees",1,NA,NA,NA,NA,NA
"Sandra_Lindstrom_Brassica_napus_Sweden_2012","29",NA,"Apoidea_sp","superfamily","other_wild_bees",1,NA,NA,NA,NA,NA
"Sandra_Lindstrom_Brassica_napus_Sweden_2012","29",NA,"Apoidea_sp","superfamily","other_wild_bees",1,NA,NA,NA,NA,NA
"Sandra_Lindstrom_Brassica_napus_Sweden_2012","31",NA,"Apoidea_sp","superfamily","other_wild_bees",1,NA,NA,NA,NA,NA
"Sandra_Lindstrom_Brassica_napus_Sweden_2012","32",NA,"Apoidea_sp","superfamily","other_wild_bees",1,NA,NA,NA,NA,NA
"Sandra_Lindstrom_Brassica_napus_Sweden_2012","34",NA,"Apoidea_sp","superfamily","other_wild_bees",2,NA,NA,NA,NA,NA
"Sandra_Lindstrom_Brassica_napus_Sweden_2012","35",NA,"Apoidea_sp","superfamily","other_wild_bees",1,NA,NA,NA,NA,NA
"Sandra_Lindstrom_Brassica_napus_Sweden_2012","38",NA,"Apoidea_sp","superfamily","other_wild_bees",3,NA,NA,NA,NA,NA
"Sandra_Lindstrom_Brassica_napus_Sweden_2012","46",NA,"Apoidea_sp","superfamily","other_wild_bees",1,NA,NA,NA,NA,NA
"Sandra_Lindstrom_Brassica_napus_Sweden_2012","46",NA,"Apoidea_sp","superfamily","other_wild_bees",2,NA,NA,NA,NA,NA
"Sandra_Lindstrom_Brassica_napus_Sweden_2012","26",NA,"Apis_mellifera","species","honeybees",4,NA,NA,NA,NA,NA
"Sandra_Lindstrom_Brassica_napus_Sweden_2012","26",NA,"Apis_mellifera","species","honeybees",29,NA,NA,NA,NA,NA
"Sandra_Lindstrom_Brassica_napus_Sweden_2012","26",NA,"Apis_mellifera","species","honeybees",24,NA,NA,NA,NA,NA
"Sandra_Lindstrom_Brassica_napus_Sweden_2012","26",NA,"Apis_mellifera","species","honeybees",10,NA,NA,NA,NA,NA
"Sandra_Lindstrom_Brassica_napus_Sweden_2012","27",NA,"Apis_mellifera","species","honeybees",18,NA,NA,NA,NA,NA
"Sandra_Lindstrom_Brassica_napus_Sweden_2012","27",NA,"Apis_mellifera","species","honeybees",10,NA,NA,NA,NA,NA
"Sandra_Lindstrom_Brassica_napus_Sweden_2012","27",NA,"Apis_mellifera","species","honeybees",46,NA,NA,NA,NA,NA
"Sandra_Lindstrom_Brassica_napus_Sweden_2012","27",NA,"Apis_mellifera","species","honeybees",41,NA,NA,NA,NA,NA
"Sandra_Lindstrom_Brassica_napus_Sweden_2012","27",NA,"Apis_mellifera","species","honeybees",42,NA,NA,NA,NA,NA
"Sandra_Lindstrom_Brassica_napus_Sweden_2012","28",NA,"Apis_mellifera","species","honeybees",14,NA,NA,NA,NA,NA
"Sandra_Lindstrom_Brassica_napus_Sweden_2012","30",NA,"Apis_mellifera","species","honeybees",26,NA,NA,NA,NA,NA
"Sandra_Lindstrom_Brassica_napus_Sweden_2012","30",NA,"Apis_mellifera","species","honeybees",6,NA,NA,NA,NA,NA
"Sandra_Lindstrom_Brassica_napus_Sweden_2012","30",NA,"Apis_mellifera","species","honeybees",14,NA,NA,NA,NA,NA
"Sandra_Lindstrom_Brassica_napus_Sweden_2012","30",NA,"Apis_mellifera","species","honeybees",21,NA,NA,NA,NA,NA
"Sandra_Lindstrom_Brassica_napus_Sweden_2012","32",NA,"Apis_mellifera","species","honeybees",7,NA,NA,NA,NA,NA
"Sandra_Lindstrom_Brassica_napus_Sweden_2012","32",NA,"Apis_mellifera","species","honeybees",29,NA,NA,NA,NA,NA
"Sandra_Lindstrom_Brassica_napus_Sweden_2012","32",NA,"Apis_mellifera","species","honeybees",19,NA,NA,NA,NA,NA
"Sandra_Lindstrom_Brassica_napus_Sweden_2012","32",NA,"Apis_mellifera","species","honeybees",9,NA,NA,NA,NA,NA
"Sandra_Lindstrom_Brassica_napus_Sweden_2012","33",NA,"Apis_mellifera","species","honeybees",25,NA,NA,NA,NA,NA
"Sandra_Lindstrom_Brassica_napus_Sweden_2012","33",NA,"Apis_mellifera","species","honeybees",29,NA,NA,NA,NA,NA
"Sandra_Lindstrom_Brassica_napus_Sweden_2012","33",NA,"Apis_mellifera","species","honeybees",1,NA,NA,NA,NA,NA
"Sandra_Lindstrom_Brassica_napus_Sweden_2012","33",NA,"Apis_mellifera","species","honeybees",22,NA,NA,NA,NA,NA
"Sandra_Lindstrom_Brassica_napus_Sweden_2012","33",NA,"Apis_mellifera","species","honeybees",38,NA,NA,NA,NA,NA
"Sandra_Lindstrom_Brassica_napus_Sweden_2012","34",NA,"Apis_mellifera","species","honeybees",2,NA,NA,NA,NA,NA
"Sandra_Lindstrom_Brassica_napus_Sweden_2012","35",NA,"Apis_mellifera","species","honeybees",3,NA,NA,NA,NA,NA
"Sandra_Lindstrom_Brassica_napus_Sweden_2012","35",NA,"Apis_mellifera","species","honeybees",22,NA,NA,NA,NA,NA
"Sandra_Lindstrom_Brassica_napus_Sweden_2012","35",NA,"Apis_mellifera","species","honeybees",31,NA,NA,NA,NA,NA
"Sandra_Lindstrom_Brassica_napus_Sweden_2012","37",NA,"Apis_mellifera","species","honeybees",1,NA,NA,NA,NA,NA
"Sandra_Lindstrom_Brassica_napus_Sweden_2012","37",NA,"Apis_mellifera","species","honeybees",51,NA,NA,NA,NA,NA
"Sandra_Lindstrom_Brassica_napus_Sweden_2012","37",NA,"Apis_mellifera","species","honeybees",39,NA,NA,NA,NA,NA
"Sandra_Lindstrom_Brassica_napus_Sweden_2012","37",NA,"Apis_mellifera","species","honeybees",8,NA,NA,NA,NA,NA
"Sandra_Lindstrom_Brassica_napus_Sweden_2012","38",NA,"Apis_mellifera","species","honeybees",3,NA,NA,NA,NA,NA
"Sandra_Lindstrom_Brassica_napus_Sweden_2012","39",NA,"Apis_mellifera","species","honeybees",1,NA,NA,NA,NA,NA
"Sandra_Lindstrom_Brassica_napus_Sweden_2012","40",NA,"Apis_mellifera","species","honeybees",8,NA,NA,NA,NA,NA
"Sandra_Lindstrom_Brassica_napus_Sweden_2012","40",NA,"Apis_mellifera","species","honeybees",7,NA,NA,NA,NA,NA
"Sandra_Lindstrom_Brassica_napus_Sweden_2012","40",NA,"Apis_mellifera","species","honeybees",1,NA,NA,NA,NA,NA
"Sandra_Lindstrom_Brassica_napus_Sweden_2012","40",NA,"Apis_mellifera","species","honeybees",31,NA,NA,NA,NA,NA
"Sandra_Lindstrom_Brassica_napus_Sweden_2012","40",NA,"Apis_mellifera","species","honeybees",4,NA,NA,NA,NA,NA
"Sandra_Lindstrom_Brassica_napus_Sweden_2012","41",NA,"Apis_mellifera","species","honeybees",2,NA,NA,NA,NA,NA
"Sandra_Lindstrom_Brassica_napus_Sweden_2012","41",NA,"Apis_mellifera","species","honeybees",7,NA,NA,NA,NA,NA
"Sandra_Lindstrom_Brassica_napus_Sweden_2012","41",NA,"Apis_mellifera","species","honeybees",14,NA,NA,NA,NA,NA
"Sandra_Lindstrom_Brassica_napus_Sweden_2012","42",NA,"Apis_mellifera","species","honeybees",6,NA,NA,NA,NA,NA
"Sandra_Lindstrom_Brassica_napus_Sweden_2012","42",NA,"Apis_mellifera","species","honeybees",12,NA,NA,NA,NA,NA
"Sandra_Lindstrom_Brassica_napus_Sweden_2012","42",NA,"Apis_mellifera","species","honeybees",23,NA,NA,NA,NA,NA
"Sandra_Lindstrom_Brassica_napus_Sweden_2012","42",NA,"Apis_mellifera","species","honeybees",24,NA,NA,NA,NA,NA
"Sandra_Lindstrom_Brassica_napus_Sweden_2012","43",NA,"Apis_mellifera","species","honeybees",3,NA,NA,NA,NA,NA
"Sandra_Lindstrom_Brassica_napus_Sweden_2012","44",NA,"Apis_mellifera","species","honeybees",7,NA,NA,NA,NA,NA
"Sandra_Lindstrom_Brassica_napus_Sweden_2012","44",NA,"Apis_mellifera","species","honeybees",1,NA,NA,NA,NA,NA
"Sandra_Lindstrom_Brassica_napus_Sweden_2012","44",NA,"Apis_mellifera","species","honeybees",19,NA,NA,NA,NA,NA
"Sandra_Lindstrom_Brassica_napus_Sweden_2012","44",NA,"Apis_mellifera","species","honeybees",21,NA,NA,NA,NA,NA
"Sandra_Lindstrom_Brassica_napus_Sweden_2012","45",NA,"Apis_mellifera","species","honeybees",24,NA,NA,NA,NA,NA
"Sandra_Lindstrom_Brassica_napus_Sweden_2012","45",NA,"Apis_mellifera","species","honeybees",22,NA,NA,NA,NA,NA
"Sandra_Lindstrom_Brassica_napus_Sweden_2012","45",NA,"Apis_mellifera","species","honeybees",7,NA,NA,NA,NA,NA
"Sandra_Lindstrom_Brassica_napus_Sweden_2012","45",NA,"Apis_mellifera","species","honeybees",11,NA,NA,NA,NA,NA
"Sandra_Lindstrom_Brassica_napus_Sweden_2012","45",NA,"Apis_mellifera","species","honeybees",54,NA,NA,NA,NA,NA
"Sandra_Lindstrom_Brassica_napus_Sweden_2012","46",NA,"Apis_mellifera","species","honeybees",1,NA,NA,NA,NA,NA
"Sandra_Lindstrom_Brassica_napus_Sweden_2012","39",NA,"Bombus_lucorum_terrestris","species","bumblebees",2,NA,NA,NA,NA,NA
"Sandra_Lindstrom_Brassica_napus_Sweden_2012","40",NA,"Bombus_lucorum_terrestris","species","bumblebees",1,NA,NA,NA,NA,NA
"Sandra_Lindstrom_Brassica_napus_Sweden_2012","44",NA,"Bombus_lucorum_terrestris","species","bumblebees",1,NA,NA,NA,NA,NA
"Sandra_Lindstrom_Brassica_napus_Sweden_2012","46",NA,"Bombus_lucorum_terrestris","species","bumblebees",1,NA,NA,NA,NA,NA
"Sandra_Lindstrom_Brassica_napus_Sweden_2012","28",NA,"Bombus_spp.","genus","bumblebees",1,NA,NA,NA,NA,NA
"Sandra_Lindstrom_Brassica_napus_Sweden_2012","33",NA,"Bombus_spp.","genus","bumblebees",1,NA,NA,NA,NA,NA
"Sandra_Lindstrom_Brassica_napus_Sweden_2012","37",NA,"Bombus_spp.","genus","bumblebees",1,NA,NA,NA,NA,NA
"Sandra_Lindstrom_Brassica_napus_Sweden_2012","25",NA,"Bibionidae_sp.","family","other_flies",2,NA,NA,NA,NA,NA
"Sandra_Lindstrom_Brassica_napus_Sweden_2012","29",NA,"Bibionidae_sp.","family","other_flies",2,NA,NA,NA,NA,NA
"Sandra_Lindstrom_Brassica_napus_Sweden_2012","31",NA,"Bibionidae_sp.","family","other_flies",1,NA,NA,NA,NA,NA
"Sandra_Lindstrom_Brassica_napus_Sweden_2012","31",NA,"Bibionidae_sp.","family","other_flies",21,NA,NA,NA,NA,NA
"Sandra_Lindstrom_Brassica_napus_Sweden_2012","32",NA,"Bibionidae_sp.","family","other_flies",1,NA,NA,NA,NA,NA
"Sandra_Lindstrom_Brassica_napus_Sweden_2012","34",NA,"Bibionidae_sp.","family","other_flies",4,NA,NA,NA,NA,NA
"Sandra_Lindstrom_Brassica_napus_Sweden_2012","25",NA,"Bibo_marci","species","other_flies",2,NA,NA,NA,NA,NA
"Sandra_Lindstrom_Brassica_napus_Sweden_2012","25",NA,"Bibo_marci","species","other_flies",1,NA,NA,NA,NA,NA
"Sandra_Lindstrom_Brassica_napus_Sweden_2012","29",NA,"Bibo_marci","species","other_flies",1,NA,NA,NA,NA,NA
"Sandra_Lindstrom_Brassica_napus_Sweden_2012","31",NA,"Bibo_marci","species","other_flies",1,NA,NA,NA,NA,NA
"Sandra_Lindstrom_Brassica_napus_Sweden_2012","33",NA,"Bibo_marci","species","other_flies",1,NA,NA,NA,NA,NA
"Sandra_Lindstrom_Brassica_napus_Sweden_2012","34",NA,"Bibo_marci","species","other_flies",1,NA,NA,NA,NA,NA
"Sandra_Lindstrom_Brassica_napus_Sweden_2012","37",NA,"Bibo_marci","species","other_flies",1,NA,NA,NA,NA,NA
"Sandra_Lindstrom_Brassica_napus_Sweden_2012","41",NA,"Bibo_marci","species","other_flies",2,NA,NA,NA,NA,NA
"Sandra_Lindstrom_Brassica_napus_Sweden_2012","43",NA,"Bibo_marci","species","other_flies",1,NA,NA,NA,NA,NA
"Sandra_Lindstrom_Brassica_napus_Sweden_2012","33",NA,"Dilophilus_febrilis","species","other_flies",1,NA,NA,NA,NA,NA
"Sandra_Lindstrom_Brassica_napus_Sweden_2012","25",NA,"Diptera_sp.","order","other_flies",2,NA,NA,NA,NA,NA
"Sandra_Lindstrom_Brassica_napus_Sweden_2012","25",NA,"Diptera_sp.","order","other_flies",5,NA,NA,NA,NA,NA
"Sandra_Lindstrom_Brassica_napus_Sweden_2012","25",NA,"Diptera_sp.","order","other_flies",3,NA,NA,NA,NA,NA
"Sandra_Lindstrom_Brassica_napus_Sweden_2012","25",NA,"Diptera_sp.","order","other_flies",9,NA,NA,NA,NA,NA
"Sandra_Lindstrom_Brassica_napus_Sweden_2012","26",NA,"Diptera_sp.","order","other_flies",1,NA,NA,NA,NA,NA
"Sandra_Lindstrom_Brassica_napus_Sweden_2012","26",NA,"Diptera_sp.","order","other_flies",1,NA,NA,NA,NA,NA
"Sandra_Lindstrom_Brassica_napus_Sweden_2012","26",NA,"Diptera_sp.","order","other_flies",3,NA,NA,NA,NA,NA
"Sandra_Lindstrom_Brassica_napus_Sweden_2012","27",NA,"Diptera_sp.","order","other_flies",3,NA,NA,NA,NA,NA
"Sandra_Lindstrom_Brassica_napus_Sweden_2012","27",NA,"Diptera_sp.","order","other_flies",7,NA,NA,NA,NA,NA
"Sandra_Lindstrom_Brassica_napus_Sweden_2012","27",NA,"Diptera_sp.","order","other_flies",6,NA,NA,NA,NA,NA
"Sandra_Lindstrom_Brassica_napus_Sweden_2012","27",NA,"Diptera_sp.","order","other_flies",7,NA,NA,NA,NA,NA
"Sandra_Lindstrom_Brassica_napus_Sweden_2012","28",NA,"Diptera_sp.","order","other_flies",2,NA,NA,NA,NA,NA
"Sandra_Lindstrom_Brassica_napus_Sweden_2012","28",NA,"Diptera_sp.","order","other_flies",1,NA,NA,NA,NA,NA
"Sandra_Lindstrom_Brassica_napus_Sweden_2012","29",NA,"Diptera_sp.","order","other_flies",3,NA,NA,NA,NA,NA
"Sandra_Lindstrom_Brassica_napus_Sweden_2012","29",NA,"Diptera_sp.","order","other_flies",2,NA,NA,NA,NA,NA
"Sandra_Lindstrom_Brassica_napus_Sweden_2012","30",NA,"Diptera_sp.","order","other_flies",1,NA,NA,NA,NA,NA
"Sandra_Lindstrom_Brassica_napus_Sweden_2012","31",NA,"Diptera_sp.","order","other_flies",1,NA,NA,NA,NA,NA
"Sandra_Lindstrom_Brassica_napus_Sweden_2012","31",NA,"Diptera_sp.","order","other_flies",9,NA,NA,NA,NA,NA
"Sandra_Lindstrom_Brassica_napus_Sweden_2012","32",NA,"Diptera_sp.","order","other_flies",3,NA,NA,NA,NA,NA
"Sandra_Lindstrom_Brassica_napus_Sweden_2012","32",NA,"Diptera_sp.","order","other_flies",10,NA,NA,NA,NA,NA
"Sandra_Lindstrom_Brassica_napus_Sweden_2012","33",NA,"Diptera_sp.","order","other_flies",2,NA,NA,NA,NA,NA
"Sandra_Lindstrom_Brassica_napus_Sweden_2012","34",NA,"Diptera_sp.","order","other_flies",3,NA,NA,NA,NA,NA
"Sandra_Lindstrom_Brassica_napus_Sweden_2012","34",NA,"Diptera_sp.","order","other_flies",1,NA,NA,NA,NA,NA
"Sandra_Lindstrom_Brassica_napus_Sweden_2012","35",NA,"Diptera_sp.","order","other_flies",4,NA,NA,NA,NA,NA
"Sandra_Lindstrom_Brassica_napus_Sweden_2012","35",NA,"Diptera_sp.","order","other_flies",12,NA,NA,NA,NA,NA
"Sandra_Lindstrom_Brassica_napus_Sweden_2012","36",NA,"Diptera_sp.","order","other_flies",36,NA,NA,NA,NA,NA
"Sandra_Lindstrom_Brassica_napus_Sweden_2012","36",NA,"Diptera_sp.","order","other_flies",3,NA,NA,NA,NA,NA
"Sandra_Lindstrom_Brassica_napus_Sweden_2012","36",NA,"Diptera_sp.","order","other_flies",6,NA,NA,NA,NA,NA
"Sandra_Lindstrom_Brassica_napus_Sweden_2012","37",NA,"Diptera_sp.","order","other_flies",7,NA,NA,NA,NA,NA
"Sandra_Lindstrom_Brassica_napus_Sweden_2012","37",NA,"Diptera_sp.","order","other_flies",1,NA,NA,NA,NA,NA
"Sandra_Lindstrom_Brassica_napus_Sweden_2012","37",NA,"Diptera_sp.","order","other_flies",4,NA,NA,NA,NA,NA
"Sandra_Lindstrom_Brassica_napus_Sweden_2012","37",NA,"Diptera_sp.","order","other_flies",7,NA,NA,NA,NA,NA
"Sandra_Lindstrom_Brassica_napus_Sweden_2012","38",NA,"Diptera_sp.","order","other_flies",2,NA,NA,NA,NA,NA
"Sandra_Lindstrom_Brassica_napus_Sweden_2012","38",NA,"Diptera_sp.","order","other_flies",1,NA,NA,NA,NA,NA
"Sandra_Lindstrom_Brassica_napus_Sweden_2012","38",NA,"Diptera_sp.","order","other_flies",4,NA,NA,NA,NA,NA
"Sandra_Lindstrom_Brassica_napus_Sweden_2012","38",NA,"Diptera_sp.","order","other_flies",8,NA,NA,NA,NA,NA
"Sandra_Lindstrom_Brassica_napus_Sweden_2012","39",NA,"Diptera_sp.","order","other_flies",5,NA,NA,NA,NA,NA
"Sandra_Lindstrom_Brassica_napus_Sweden_2012","39",NA,"Diptera_sp.","order","other_flies",2,NA,NA,NA,NA,NA
"Sandra_Lindstrom_Brassica_napus_Sweden_2012","39",NA,"Diptera_sp.","order","other_flies",2,NA,NA,NA,NA,NA
"Sandra_Lindstrom_Brassica_napus_Sweden_2012","39",NA,"Diptera_sp.","order","other_flies",1,NA,NA,NA,NA,NA
"Sandra_Lindstrom_Brassica_napus_Sweden_2012","40",NA,"Diptera_sp.","order","other_flies",3,NA,NA,NA,NA,NA
"Sandra_Lindstrom_Brassica_napus_Sweden_2012","40",NA,"Diptera_sp.","order","other_flies",1,NA,NA,NA,NA,NA
"Sandra_Lindstrom_Brassica_napus_Sweden_2012","40",NA,"Diptera_sp.","order","other_flies",1,NA,NA,NA,NA,NA
"Sandra_Lindstrom_Brassica_napus_Sweden_2012","41",NA,"Diptera_sp.","order","other_flies",3,NA,NA,NA,NA,NA
"Sandra_Lindstrom_Brassica_napus_Sweden_2012","41",NA,"Diptera_sp.","order","other_flies",16,NA,NA,NA,NA,NA
"Sandra_Lindstrom_Brassica_napus_Sweden_2012","41",NA,"Diptera_sp.","order","other_flies",4,NA,NA,NA,NA,NA
"Sandra_Lindstrom_Brassica_napus_Sweden_2012","41",NA,"Diptera_sp.","order","other_flies",4,NA,NA,NA,NA,NA
"Sandra_Lindstrom_Brassica_napus_Sweden_2012","42",NA,"Diptera_sp.","order","other_flies",7,NA,NA,NA,NA,NA
"Sandra_Lindstrom_Brassica_napus_Sweden_2012","42",NA,"Diptera_sp.","order","other_flies",6,NA,NA,NA,NA,NA
"Sandra_Lindstrom_Brassica_napus_Sweden_2012","42",NA,"Diptera_sp.","order","other_flies",5,NA,NA,NA,NA,NA
"Sandra_Lindstrom_Brassica_napus_Sweden_2012","42",NA,"Diptera_sp.","order","other_flies",5,NA,NA,NA,NA,NA
"Sandra_Lindstrom_Brassica_napus_Sweden_2012","43",NA,"Diptera_sp.","order","other_flies",3,NA,NA,NA,NA,NA
"Sandra_Lindstrom_Brassica_napus_Sweden_2012","43",NA,"Diptera_sp.","order","other_flies",4,NA,NA,NA,NA,NA
"Sandra_Lindstrom_Brassica_napus_Sweden_2012","43",NA,"Diptera_sp.","order","other_flies",2,NA,NA,NA,NA,NA
"Sandra_Lindstrom_Brassica_napus_Sweden_2012","43",NA,"Diptera_sp.","order","other_flies",2,NA,NA,NA,NA,NA
"Sandra_Lindstrom_Brassica_napus_Sweden_2012","44",NA,"Diptera_sp.","order","other_flies",1,NA,NA,NA,NA,NA
"Sandra_Lindstrom_Brassica_napus_Sweden_2012","44",NA,"Diptera_sp.","order","other_flies",1,NA,NA,NA,NA,NA
"Sandra_Lindstrom_Brassica_napus_Sweden_2012","44",NA,"Diptera_sp.","order","other_flies",9,NA,NA,NA,NA,NA
"Sandra_Lindstrom_Brassica_napus_Sweden_2012","45",NA,"Diptera_sp.","order","other_flies",3,NA,NA,NA,NA,NA
"Sandra_Lindstrom_Brassica_napus_Sweden_2012","45",NA,"Diptera_sp.","order","other_flies",1,NA,NA,NA,NA,NA
"Sandra_Lindstrom_Brassica_napus_Sweden_2012","45",NA,"Diptera_sp.","order","other_flies",5,NA,NA,NA,NA,NA
"Sandra_Lindstrom_Brassica_napus_Sweden_2012","46",NA,"Diptera_sp.","order","other_flies",1,NA,NA,NA,NA,NA
"Sandra_Lindstrom_Brassica_napus_Sweden_2012","46",NA,"Diptera_sp.","order","other_flies",6,NA,NA,NA,NA,NA
"Sandra_Lindstrom_Brassica_napus_Sweden_2012","31",NA,"Empididae_sp.","family","other_flies",1,NA,NA,NA,NA,NA
"Sandra_Lindstrom_Brassica_napus_Sweden_2012","27",NA,"Eristalis_interrupta","species","syrphids",1,NA,NA,NA,NA,NA
"Sandra_Lindstrom_Brassica_napus_Sweden_2012","27",NA,"Eristalis_intricaria","species","syrphids",1,NA,NA,NA,NA,NA
"Sandra_Lindstrom_Brassica_napus_Sweden_2012","25",NA,"syrphidae","family","syrphids",1,NA,NA,NA,NA,NA
"Sandra_Lindstrom_Brassica_napus_Sweden_2012","27",NA,"syrphidae","family","syrphids",4,NA,NA,NA,NA,NA
"Sandra_Lindstrom_Brassica_napus_Sweden_2012","27",NA,"syrphidae","family","syrphids",2,NA,NA,NA,NA,NA
"Sandra_Lindstrom_Brassica_napus_Sweden_2012","27",NA,"syrphidae","family","syrphids",2,NA,NA,NA,NA,NA
"Sandra_Lindstrom_Brassica_napus_Sweden_2012","28",NA,"syrphidae","family","syrphids",1,NA,NA,NA,NA,NA
"Sandra_Lindstrom_Brassica_napus_Sweden_2012","30",NA,"syrphidae","family","syrphids",1,NA,NA,NA,NA,NA
"Sandra_Lindstrom_Brassica_napus_Sweden_2012","31",NA,"syrphidae","family","syrphids",1,NA,NA,NA,NA,NA
"Sandra_Lindstrom_Brassica_napus_Sweden_2012","32",NA,"syrphidae","family","syrphids",4,NA,NA,NA,NA,NA
"Sandra_Lindstrom_Brassica_napus_Sweden_2012","32",NA,"syrphidae","family","syrphids",1,NA,NA,NA,NA,NA
"Sandra_Lindstrom_Brassica_napus_Sweden_2012","33",NA,"syrphidae","family","syrphids",1,NA,NA,NA,NA,NA
"Sandra_Lindstrom_Brassica_napus_Sweden_2012","37",NA,"syrphidae","family","syrphids",1,NA,NA,NA,NA,NA
"Sandra_Lindstrom_Brassica_napus_Sweden_2012","39",NA,"syrphidae","family","syrphids",1,NA,NA,NA,NA,NA
"Sandra_Lindstrom_Brassica_napus_Sweden_2012","43",NA,"syrphidae","family","syrphids",1,NA,NA,NA,NA,NA
"Sandra_Lindstrom_Brassica_napus_Sweden_2012","44",NA,"syrphidae","family","syrphids",1,NA,NA,NA,NA,NA
"Sandra_Lindstrom_Brassica_napus_Sweden_2012","45",NA,"syrphidae","family","syrphids",1,NA,NA,NA,NA,NA
"Sandra_Lindstrom_Brassica_napus_Sweden_2012","28",NA,"Syrphus_sp","genus","syrphids",1,NA,NA,NA,NA,NA
"Sandra_Lindstrom_Brassica_napus_Sweden_2012","31",NA,"Tineoidea_sp.","superfamily","lepidoptera",2,NA,NA,NA,NA,NA
"Sarah_Cusser_Gossypium_hirsutum_USA_2014","Chris","Ariel Netting from cotton flowers","Agapostemon texana","Species","other_wild_bees",3,600,180,NA,"Measures per site: four 50m transects per plot (pooled), 3 temporal replicates",NA
"Sarah_Cusser_Gossypium_hirsutum_USA_2014","Chris","Ariel Netting from cotton flowers","Allograpta exotica","Species","syrphids",7,600,180,NA,"Measures per site: four 50m transects per plot (pooled), 3 temporal replicates",NA
"Sarah_Cusser_Gossypium_hirsutum_USA_2014","Chris","Ariel Netting from cotton flowers","Apis mellifera","Species","honeybees",28,600,180,NA,"Measures per site: four 50m transects per plot (pooled), 3 temporal replicates",NA
"Sarah_Cusser_Gossypium_hirsutum_USA_2014","Chris","Ariel Netting from cotton flowers","Lasioglossum tegulare","Species","other_wild_bees",1,600,180,NA,"Measures per site: four 50m transects per plot (pooled), 3 temporal replicates",NA
"Sarah_Cusser_Gossypium_hirsutum_USA_2014","Chris","Ariel Netting from cotton flowers","Lerodae eufala","Species","lepidoptera",1,600,180,NA,"Measures per site: four 50m transects per plot (pooled), 3 temporal replicates",NA
"Sarah_Cusser_Gossypium_hirsutum_USA_2014","Chris","Ariel Netting from cotton flowers","Melissodes tepanaca","Species","other_wild_bees",40,600,180,NA,"Measures per site: four 50m transects per plot (pooled), 3 temporal replicates",NA
"Sarah_Cusser_Gossypium_hirsutum_USA_2014","Chris","Ariel Netting from cotton flowers","Toxomerus politus","Species","syrphids",3,600,180,NA,"Measures per site: four 50m transects per plot (pooled), 3 temporal replicates",NA
"Sarah_Cusser_Gossypium_hirsutum_USA_2014","Chris","Ariel Netting from cotton flowers","Ladybird sp1","morphospecies","beetles",2,600,180,NA,"Measures per site: four 50m transects per plot (pooled), 3 temporal replicates",NA
"Sarah_Cusser_Gossypium_hirsutum_USA_2014","Chris","Ariel Netting from cotton flowers","Lasioglossum dialictus sp.","morphospecies","other_wild_bees",6,600,180,NA,"Measures per site: four 50m transects per plot (pooled), 3 temporal replicates",NA
"Sarah_Cusser_Gossypium_hirsutum_USA_2014","House.Block","Ariel Netting from cotton flowers","Allograpta exotica","Species","syrphids",2,600,180,NA,"Measures per site: four 50m transects per plot (pooled), 3 temporal replicates",NA
"Sarah_Cusser_Gossypium_hirsutum_USA_2014","House.Block","Ariel Netting from cotton flowers","Ancyloscelis apiformis","Species","other_wild_bees",1,600,180,NA,"Measures per site: four 50m transects per plot (pooled), 3 temporal replicates",NA
"Sarah_Cusser_Gossypium_hirsutum_USA_2014","House.Block","Ariel Netting from cotton flowers","Apis mellifera","Species","honeybees",38,600,180,NA,"Measures per site: four 50m transects per plot (pooled), 3 temporal replicates",NA
"Sarah_Cusser_Gossypium_hirsutum_USA_2014","House.Block","Ariel Netting from cotton flowers","Diadasia diminuta","Species","other_wild_bees",1,600,180,NA,"Measures per site: four 50m transects per plot (pooled), 3 temporal replicates",NA
"Sarah_Cusser_Gossypium_hirsutum_USA_2014","House.Block","Ariel Netting from cotton flowers","Lasioglossum coactum","Species","other_wild_bees",4,600,180,NA,"Measures per site: four 50m transects per plot (pooled), 3 temporal replicates",NA
"Sarah_Cusser_Gossypium_hirsutum_USA_2014","House.Block","Ariel Netting from cotton flowers","Lasioglossum tegulare","Species","other_wild_bees",1,600,180,NA,"Measures per site: four 50m transects per plot (pooled), 3 temporal replicates",NA
"Sarah_Cusser_Gossypium_hirsutum_USA_2014","House.Block","Ariel Netting from cotton flowers","Melissodes tepanaca","Species","other_wild_bees",9,600,180,NA,"Measures per site: four 50m transects per plot (pooled), 3 temporal replicates",NA
"Sarah_Cusser_Gossypium_hirsutum_USA_2014","House.Block","Ariel Netting from cotton flowers","Strymon melinus","Species","lepidoptera",1,600,180,NA,"Measures per site: four 50m transects per plot (pooled), 3 temporal replicates",NA
"Sarah_Cusser_Gossypium_hirsutum_USA_2014","House.Block","Ariel Netting from cotton flowers","Svastra obliqua","Species","other_wild_bees",1,600,180,NA,"Measures per site: four 50m transects per plot (pooled), 3 temporal replicates",NA
"Sarah_Cusser_Gossypium_hirsutum_USA_2014","House.Block","Ariel Netting from cotton flowers","Toxomerus politus","Species","syrphids",1,600,180,NA,"Measures per site: four 50m transects per plot (pooled), 3 temporal replicates",NA
"Sarah_Cusser_Gossypium_hirsutum_USA_2014","House.Block","Ariel Netting from cotton flowers","Xylocopa micans","Species","other_wild_bees",2,600,180,NA,"Measures per site: four 50m transects per plot (pooled), 3 temporal replicates",NA
"Sarah_Cusser_Gossypium_hirsutum_USA_2014","House.Block","Ariel Netting from cotton flowers","Lasioglossum dialictus sp.","morphospecies","other_wild_bees",5,600,180,NA,"Measures per site: four 50m transects per plot (pooled), 3 temporal replicates",NA
"Sarah_Cusser_Gossypium_hirsutum_USA_2014","House.Block","Ariel Netting from cotton flowers","Polistes sp2","morphospecies","non_bee_hymenoptera",1,600,180,NA,"Measures per site: four 50m transects per plot (pooled), 3 temporal replicates",NA
"Sarah_Cusser_Gossypium_hirsutum_USA_2014","JJ.35","Ariel Netting from cotton flowers","Allograpta exotica","Species","syrphids",9,600,180,NA,"Measures per site: four 50m transects per plot (pooled), 3 temporal replicates",NA
"Sarah_Cusser_Gossypium_hirsutum_USA_2014","JJ.35","Ariel Netting from cotton flowers","Colletes mandibularis","Species","other_wild_bees",1,600,180,NA,"Measures per site: four 50m transects per plot (pooled), 3 temporal replicates",NA
"Sarah_Cusser_Gossypium_hirsutum_USA_2014","JJ.35","Ariel Netting from cotton flowers","Halictus ligatus","Species","other_wild_bees",1,600,180,NA,"Measures per site: four 50m transects per plot (pooled), 3 temporal replicates",NA
"Sarah_Cusser_Gossypium_hirsutum_USA_2014","JJ.35","Ariel Netting from cotton flowers","Palpada mexicana","Species","syrphids",2,600,180,NA,"Measures per site: four 50m transects per plot (pooled), 3 temporal replicates",NA
"Sarah_Cusser_Gossypium_hirsutum_USA_2014","JJ.35","Ariel Netting from cotton flowers","Svastra atripes","Species","other_wild_bees",1,600,180,NA,"Measures per site: four 50m transects per plot (pooled), 3 temporal replicates",NA
"Sarah_Cusser_Gossypium_hirsutum_USA_2014","JJ.35","Ariel Netting from cotton flowers","Toxomerus politus","Species","syrphids",5,600,180,NA,"Measures per site: four 50m transects per plot (pooled), 3 temporal replicates",NA
"Sarah_Cusser_Gossypium_hirsutum_USA_2014","JJ.35","Ariel Netting from cotton flowers","Xylocopa virginica","Species","other_wild_bees",1,600,180,NA,"Measures per site: four 50m transects per plot (pooled), 3 temporal replicates",NA
"Sarah_Cusser_Gossypium_hirsutum_USA_2014","JJ.Aransas","Ariel Netting from cotton flowers","Agapostemon splendens","Species","other_wild_bees",2,600,180,NA,"Measures per site: four 50m transects per plot (pooled), 3 temporal replicates",NA
"Sarah_Cusser_Gossypium_hirsutum_USA_2014","JJ.Aransas","Ariel Netting from cotton flowers","Agapostemon texana","Species","other_wild_bees",1,600,180,NA,"Measures per site: four 50m transects per plot (pooled), 3 temporal replicates",NA
"Sarah_Cusser_Gossypium_hirsutum_USA_2014","JJ.Aransas","Ariel Netting from cotton flowers","Allograpta exotica","Species","syrphids",4,600,180,NA,"Measures per site: four 50m transects per plot (pooled), 3 temporal replicates",NA
"Sarah_Cusser_Gossypium_hirsutum_USA_2014","JJ.Aransas","Ariel Netting from cotton flowers","Apis mellifera","Species","honeybees",8,600,180,NA,"Measures per site: four 50m transects per plot (pooled), 3 temporal replicates",NA
"Sarah_Cusser_Gossypium_hirsutum_USA_2014","JJ.Aransas","Ariel Netting from cotton flowers","Brephidium exile","Species","lepidoptera",3,600,180,NA,"Measures per site: four 50m transects per plot (pooled), 3 temporal replicates",NA
"Sarah_Cusser_Gossypium_hirsutum_USA_2014","JJ.Aransas","Ariel Netting from cotton flowers","Coelioxys slossoni","Species","other_wild_bees",1,600,180,NA,"Measures per site: four 50m transects per plot (pooled), 3 temporal replicates",NA
"Sarah_Cusser_Gossypium_hirsutum_USA_2014","JJ.Aransas","Ariel Netting from cotton flowers","Diadasia diminuta","Species","other_wild_bees",5,600,180,NA,"Measures per site: four 50m transects per plot (pooled), 3 temporal replicates",NA
"Sarah_Cusser_Gossypium_hirsutum_USA_2014","JJ.Aransas","Ariel Netting from cotton flowers","Halictus ligatus","Species","other_wild_bees",1,600,180,NA,"Measures per site: four 50m transects per plot (pooled), 3 temporal replicates",NA
"Sarah_Cusser_Gossypium_hirsutum_USA_2014","JJ.Aransas","Ariel Netting from cotton flowers","Hermetia  illucens ","Species","other_flies",1,600,180,NA,"Measures per site: four 50m transects per plot (pooled), 3 temporal replicates",NA
"Sarah_Cusser_Gossypium_hirsutum_USA_2014","JJ.Aransas","Ariel Netting from cotton flowers","Lerodae eufala","Species","lepidoptera",1,600,180,NA,"Measures per site: four 50m transects per plot (pooled), 3 temporal replicates",NA
"Sarah_Cusser_Gossypium_hirsutum_USA_2014","JJ.Aransas","Ariel Netting from cotton flowers","Megachile albitarsis","Species","other_wild_bees",1,600,180,NA,"Measures per site: four 50m transects per plot (pooled), 3 temporal replicates",NA
"Sarah_Cusser_Gossypium_hirsutum_USA_2014","JJ.Aransas","Ariel Netting from cotton flowers","Megachile brevis","Species","other_wild_bees",2,600,180,NA,"Measures per site: four 50m transects per plot (pooled), 3 temporal replicates",NA
"Sarah_Cusser_Gossypium_hirsutum_USA_2014","JJ.Aransas","Ariel Netting from cotton flowers","Megachile parallela","Species","other_wild_bees",3,600,180,NA,"Measures per site: four 50m transects per plot (pooled), 3 temporal replicates",NA
"Sarah_Cusser_Gossypium_hirsutum_USA_2014","JJ.Aransas","Ariel Netting from cotton flowers","Melissodes tepanaca","Species","other_wild_bees",4,600,180,NA,"Measures per site: four 50m transects per plot (pooled), 3 temporal replicates",NA
"Sarah_Cusser_Gossypium_hirsutum_USA_2014","JJ.Aransas","Ariel Netting from cotton flowers","Strymon melinus","Species","lepidoptera",3,600,180,NA,"Measures per site: four 50m transects per plot (pooled), 3 temporal replicates",NA
"Sarah_Cusser_Gossypium_hirsutum_USA_2014","JJ.Aransas","Ariel Netting from cotton flowers","Xylocopa micans","Species","other_wild_bees",1,600,180,NA,"Measures per site: four 50m transects per plot (pooled), 3 temporal replicates",NA
"Sarah_Cusser_Gossypium_hirsutum_USA_2014","JJ.Aransas","Ariel Netting from cotton flowers","Xylocopa virginica","Species","other_wild_bees",4,600,180,NA,"Measures per site: four 50m transects per plot (pooled), 3 temporal replicates",NA
"Sarah_Cusser_Gossypium_hirsutum_USA_2014","JJ.Aransas","Ariel Netting from cotton flowers","Ladybird sp2","morphospecies","beetles",1,600,180,NA,"Measures per site: four 50m transects per plot (pooled), 3 temporal replicates",NA
"Sarah_Cusser_Gossypium_hirsutum_USA_2014","JJ.Home","Ariel Netting from cotton flowers","Allograpta exotica","Species","syrphids",4,600,180,NA,"Measures per site: four 50m transects per plot (pooled), 3 temporal replicates",NA
"Sarah_Cusser_Gossypium_hirsutum_USA_2014","JJ.Home","Ariel Netting from cotton flowers","Melissodes tepanaca","Species","other_wild_bees",2,600,180,NA,"Measures per site: four 50m transects per plot (pooled), 3 temporal replicates",NA
"Sarah_Cusser_Gossypium_hirsutum_USA_2014","JJ.Home","Ariel Netting from cotton flowers","Melitoma marginella","Species","other_wild_bees",2,600,180,NA,"Measures per site: four 50m transects per plot (pooled), 3 temporal replicates",NA
"Sarah_Cusser_Gossypium_hirsutum_USA_2014","JJ.Home","Ariel Netting from cotton flowers","Strymon melinus","Species","lepidoptera",1,600,180,NA,"Measures per site: four 50m transects per plot (pooled), 3 temporal replicates",NA
"Sarah_Cusser_Gossypium_hirsutum_USA_2014","JJ.Home","Ariel Netting from cotton flowers","Lasioglossum dialictus sp.","morphospecies","other_wild_bees",2,600,180,NA,"Measures per site: four 50m transects per plot (pooled), 3 temporal replicates",NA
"Sarah_Cusser_Gossypium_hirsutum_USA_2014","JJ.Home","Ariel Netting from cotton flowers","Lasioglossum dialictus sp. TX 16","morphospecies","other_wild_bees",1,600,180,NA,"Measures per site: four 50m transects per plot (pooled), 3 temporal replicates",NA
"Sarah_Cusser_Gossypium_hirsutum_USA_2014","JR.Corner","Ariel Netting from cotton flowers","Allograpta exotica","Species","syrphids",6,600,180,NA,"Measures per site: four 50m transects per plot (pooled), 3 temporal replicates",NA
"Sarah_Cusser_Gossypium_hirsutum_USA_2014","JR.Corner","Ariel Netting from cotton flowers","Apis mellifera","Species","honeybees",1,600,180,NA,"Measures per site: four 50m transects per plot (pooled), 3 temporal replicates",NA
"Sarah_Cusser_Gossypium_hirsutum_USA_2014","JR.Corner","Ariel Netting from cotton flowers","Lerodae eufala","Species","lepidoptera",1,600,180,NA,"Measures per site: four 50m transects per plot (pooled), 3 temporal replicates",NA
"Sarah_Cusser_Gossypium_hirsutum_USA_2014","JR.Corner","Ariel Netting from cotton flowers","Megachile brevis","Species","other_wild_bees",1,600,180,NA,"Measures per site: four 50m transects per plot (pooled), 3 temporal replicates",NA
"Sarah_Cusser_Gossypium_hirsutum_USA_2014","JR.Corner","Ariel Netting from cotton flowers","Melissodes tepanaca","Species","other_wild_bees",1,600,180,NA,"Measures per site: four 50m transects per plot (pooled), 3 temporal replicates",NA
"Sarah_Cusser_Gossypium_hirsutum_USA_2014","JR.Corner","Ariel Netting from cotton flowers","Melitoma marginella","Species","other_wild_bees",1,600,180,NA,"Measures per site: four 50m transects per plot (pooled), 3 temporal replicates",NA
"Sarah_Cusser_Gossypium_hirsutum_USA_2014","JR.Corner","Ariel Netting from cotton flowers","Strymon melinus","Species","lepidoptera",1,600,180,NA,"Measures per site: four 50m transects per plot (pooled), 3 temporal replicates",NA
"Sarah_Cusser_Gossypium_hirsutum_USA_2014","JR.Corner","Ariel Netting from cotton flowers","Svastra atripes","Species","other_wild_bees",1,600,180,NA,"Measures per site: four 50m transects per plot (pooled), 3 temporal replicates",NA
"Sarah_Cusser_Gossypium_hirsutum_USA_2014","JR.Corner","Ariel Netting from cotton flowers","Toxomerus politus","Species","syrphids",1,600,180,NA,"Measures per site: four 50m transects per plot (pooled), 3 temporal replicates",NA
"Sarah_Cusser_Gossypium_hirsutum_USA_2014","JR.Corner","Ariel Netting from cotton flowers","Xylocopa micans","Species","other_wild_bees",1,600,180,NA,"Measures per site: four 50m transects per plot (pooled), 3 temporal replicates",NA
"Sarah_Cusser_Gossypium_hirsutum_USA_2014","JR.Corner","Ariel Netting from cotton flowers","Xylocopa virginica","Species","other_wild_bees",2,600,180,NA,"Measures per site: four 50m transects per plot (pooled), 3 temporal replicates",NA
"Sarah_Cusser_Gossypium_hirsutum_USA_2014","JR.Corner","Ariel Netting from cotton flowers","Ladybird sp1","morphospecies","beetles",2,600,180,NA,"Measures per site: four 50m transects per plot (pooled), 3 temporal replicates",NA
"Sarah_Cusser_Gossypium_hirsutum_USA_2014","JR.Corner","Ariel Netting from cotton flowers","Ladybird sp2","morphospecies","beetles",1,600,180,NA,"Measures per site: four 50m transects per plot (pooled), 3 temporal replicates",NA
"Sarah_Cusser_Gossypium_hirsutum_USA_2014","JR.Corner","Ariel Netting from cotton flowers","Ladybird sp3","morphospecies","beetles",1,600,180,NA,"Measures per site: four 50m transects per plot (pooled), 3 temporal replicates",NA
"Sarah_Cusser_Gossypium_hirsutum_USA_2014","JR.Corner","Ariel Netting from cotton flowers","Lasioglossum dialictus sp. TX 16","morphospecies","other_wild_bees",5,600,180,NA,"Measures per site: four 50m transects per plot (pooled), 3 temporal replicates",NA
"Sarah_Cusser_Gossypium_hirsutum_USA_2014","Ken.2014","Ariel Netting from cotton flowers","Allograpta exotica","Species","syrphids",8,600,180,NA,"Measures per site: four 50m transects per plot (pooled), 3 temporal replicates",NA
"Sarah_Cusser_Gossypium_hirsutum_USA_2014","Ken.2014","Ariel Netting from cotton flowers","Apis mellifera","Species","honeybees",3,600,180,NA,"Measures per site: four 50m transects per plot (pooled), 3 temporal replicates",NA
"Sarah_Cusser_Gossypium_hirsutum_USA_2014","Ken.2014","Ariel Netting from cotton flowers","Brephidium exile","Species","lepidoptera",1,600,180,NA,"Measures per site: four 50m transects per plot (pooled), 3 temporal replicates",NA
"Sarah_Cusser_Gossypium_hirsutum_USA_2014","Ken.2014","Ariel Netting from cotton flowers","Lasioglossum coactum","Species","other_wild_bees",1,600,180,NA,"Measures per site: four 50m transects per plot (pooled), 3 temporal replicates",NA
"Sarah_Cusser_Gossypium_hirsutum_USA_2014","Ken.2014","Ariel Netting from cotton flowers","Melissodes tepanaca","Species","other_wild_bees",20,600,180,NA,"Measures per site: four 50m transects per plot (pooled), 3 temporal replicates",NA
"Sarah_Cusser_Gossypium_hirsutum_USA_2014","Ken.2014","Ariel Netting from cotton flowers","Palpada furcata","Species","syrphids",1,600,180,NA,"Measures per site: four 50m transects per plot (pooled), 3 temporal replicates",NA
"Sarah_Cusser_Gossypium_hirsutum_USA_2014","Ken.2014","Ariel Netting from cotton flowers","Toxomerus politus","Species","syrphids",2,600,180,NA,"Measures per site: four 50m transects per plot (pooled), 3 temporal replicates",NA
"Sarah_Cusser_Gossypium_hirsutum_USA_2014","New.Ground","Ariel Netting from cotton flowers","Agapostemon texana","Species","other_wild_bees",1,600,180,NA,"Measures per site: four 50m transects per plot (pooled), 3 temporal replicates",NA
"Sarah_Cusser_Gossypium_hirsutum_USA_2014","New.Ground","Ariel Netting from cotton flowers","Allograpta exotica","Species","syrphids",2,600,180,NA,"Measures per site: four 50m transects per plot (pooled), 3 temporal replicates",NA
"Sarah_Cusser_Gossypium_hirsutum_USA_2014","New.Ground","Ariel Netting from cotton flowers","Apis mellifera","Species","honeybees",23,600,180,NA,"Measures per site: four 50m transects per plot (pooled), 3 temporal replicates",NA
"Sarah_Cusser_Gossypium_hirsutum_USA_2014","New.Ground","Ariel Netting from cotton flowers","Augochlorella bracteata","Species","other_wild_bees",1,600,180,NA,"Measures per site: four 50m transects per plot (pooled), 3 temporal replicates",NA
"Sarah_Cusser_Gossypium_hirsutum_USA_2014","New.Ground","Ariel Netting from cotton flowers","Bombus pensylvanicus","Species","bumblebees",1,600,180,NA,"Measures per site: four 50m transects per plot (pooled), 3 temporal replicates",NA
"Sarah_Cusser_Gossypium_hirsutum_USA_2014","New.Ground","Ariel Netting from cotton flowers","Colletes mandibularis","Species","other_wild_bees",1,600,180,NA,"Measures per site: four 50m transects per plot (pooled), 3 temporal replicates",NA
"Sarah_Cusser_Gossypium_hirsutum_USA_2014","New.Ground","Ariel Netting from cotton flowers","Diadasia diminuta","Species","other_wild_bees",2,600,180,NA,"Measures per site: four 50m transects per plot (pooled), 3 temporal replicates",NA
"Sarah_Cusser_Gossypium_hirsutum_USA_2014","New.Ground","Ariel Netting from cotton flowers","Dioprosopa clavata","Species","syrphids",2,600,180,NA,"Measures per site: four 50m transects per plot (pooled), 3 temporal replicates",NA
"Sarah_Cusser_Gossypium_hirsutum_USA_2014","New.Ground","Ariel Netting from cotton flowers","Halictus ligatus","Species","other_wild_bees",4,600,180,NA,"Measures per site: four 50m transects per plot (pooled), 3 temporal replicates",NA
"Sarah_Cusser_Gossypium_hirsutum_USA_2014","New.Ground","Ariel Netting from cotton flowers","Lasioglossum  disparile","Species","other_wild_bees",1,600,180,NA,"Measures per site: four 50m transects per plot (pooled), 3 temporal replicates",NA
"Sarah_Cusser_Gossypium_hirsutum_USA_2014","New.Ground","Ariel Netting from cotton flowers","Lasioglossum coactum","Species","other_wild_bees",18,600,180,NA,"Measures per site: four 50m transects per plot (pooled), 3 temporal replicates",NA
"Sarah_Cusser_Gossypium_hirsutum_USA_2014","New.Ground","Ariel Netting from cotton flowers","Lasioglossum connexum","Species","other_wild_bees",1,600,180,NA,"Measures per site: four 50m transects per plot (pooled), 3 temporal replicates",NA
"Sarah_Cusser_Gossypium_hirsutum_USA_2014","New.Ground","Ariel Netting from cotton flowers","Lasioglossum fedorense","Species","other_wild_bees",2,600,180,NA,"Measures per site: four 50m transects per plot (pooled), 3 temporal replicates",NA
"Sarah_Cusser_Gossypium_hirsutum_USA_2014","New.Ground","Ariel Netting from cotton flowers","Lasioglossum hunteri","Species","other_wild_bees",6,600,180,NA,"Measures per site: four 50m transects per plot (pooled), 3 temporal replicates",NA
"Sarah_Cusser_Gossypium_hirsutum_USA_2014","New.Ground","Ariel Netting from cotton flowers","Lasioglossum tegulare","Species","other_wild_bees",1,600,180,NA,"Measures per site: four 50m transects per plot (pooled), 3 temporal replicates",NA
"Sarah_Cusser_Gossypium_hirsutum_USA_2014","New.Ground","Ariel Netting from cotton flowers","Lerodae eufala","Species","lepidoptera",2,600,180,NA,"Measures per site: four 50m transects per plot (pooled), 3 temporal replicates",NA
"Sarah_Cusser_Gossypium_hirsutum_USA_2014","New.Ground","Ariel Netting from cotton flowers","Megachile deflexa","Species","other_wild_bees",1,600,180,NA,"Measures per site: four 50m transects per plot (pooled), 3 temporal replicates",NA
"Sarah_Cusser_Gossypium_hirsutum_USA_2014","New.Ground","Ariel Netting from cotton flowers","Melissodes tepanaca","Species","other_wild_bees",26,600,180,NA,"Measures per site: four 50m transects per plot (pooled), 3 temporal replicates",NA
"Sarah_Cusser_Gossypium_hirsutum_USA_2014","New.Ground","Ariel Netting from cotton flowers","Ptilothrix bombiformis","Species","other_wild_bees",7,600,180,NA,"Measures per site: four 50m transects per plot (pooled), 3 temporal replicates",NA
"Sarah_Cusser_Gossypium_hirsutum_USA_2014","New.Ground","Ariel Netting from cotton flowers","Pyrgus communis/albescens","Species","lepidoptera",1,600,180,NA,"Measures per site: four 50m transects per plot (pooled), 3 temporal replicates",NA
"Sarah_Cusser_Gossypium_hirsutum_USA_2014","New.Ground","Ariel Netting from cotton flowers","Strymon melinus","Species","lepidoptera",8,600,180,NA,"Measures per site: four 50m transects per plot (pooled), 3 temporal replicates",NA
"Sarah_Cusser_Gossypium_hirsutum_USA_2014","New.Ground","Ariel Netting from cotton flowers","Svastra atripes","Species","other_wild_bees",6,600,180,NA,"Measures per site: four 50m transects per plot (pooled), 3 temporal replicates",NA
"Sarah_Cusser_Gossypium_hirsutum_USA_2014","New.Ground","Ariel Netting from cotton flowers","Svastra obliqua","Species","other_wild_bees",3,600,180,NA,"Measures per site: four 50m transects per plot (pooled), 3 temporal replicates",NA
"Sarah_Cusser_Gossypium_hirsutum_USA_2014","New.Ground","Ariel Netting from cotton flowers","Lasioglossum dialictus sp.","morphospecies","other_wild_bees",11,600,180,NA,"Measures per site: four 50m transects per plot (pooled), 3 temporal replicates",NA
"Sarah_Cusser_Gossypium_hirsutum_USA_2014","New.Ground","Ariel Netting from cotton flowers","Lasioglossum dialictus sp. TX 16","morphospecies","other_wild_bees",2,600,180,NA,"Measures per site: four 50m transects per plot (pooled), 3 temporal replicates",NA
"Sarah_Cusser_Gossypium_hirsutum_USA_2014","South.Clarkson","Ariel Netting from cotton flowers","Agapostemon texana","Species","other_wild_bees",1,600,180,NA,"Measures per site: four 50m transects per plot (pooled), 3 temporal replicates",NA
"Sarah_Cusser_Gossypium_hirsutum_USA_2014","South.Clarkson","Ariel Netting from cotton flowers","Allograpta exotica","Species","syrphids",3,600,180,NA,"Measures per site: four 50m transects per plot (pooled), 3 temporal replicates",NA
"Sarah_Cusser_Gossypium_hirsutum_USA_2014","South.Clarkson","Ariel Netting from cotton flowers","Apis mellifera","Species","honeybees",12,600,180,NA,"Measures per site: four 50m transects per plot (pooled), 3 temporal replicates",NA
"Sarah_Cusser_Gossypium_hirsutum_USA_2014","South.Clarkson","Ariel Netting from cotton flowers","Augochloropsis metallica","Species","other_wild_bees",1,600,180,NA,"Measures per site: four 50m transects per plot (pooled), 3 temporal replicates",NA
"Sarah_Cusser_Gossypium_hirsutum_USA_2014","South.Clarkson","Ariel Netting from cotton flowers","Diadasia diminuta","Species","other_wild_bees",3,600,180,NA,"Measures per site: four 50m transects per plot (pooled), 3 temporal replicates",NA
"Sarah_Cusser_Gossypium_hirsutum_USA_2014","South.Clarkson","Ariel Netting from cotton flowers","Halictus ligatus","Species","other_wild_bees",5,600,180,NA,"Measures per site: four 50m transects per plot (pooled), 3 temporal replicates",NA
"Sarah_Cusser_Gossypium_hirsutum_USA_2014","South.Clarkson","Ariel Netting from cotton flowers","Lasioglossum coactum","Species","other_wild_bees",10,600,180,NA,"Measures per site: four 50m transects per plot (pooled), 3 temporal replicates",NA
"Sarah_Cusser_Gossypium_hirsutum_USA_2014","South.Clarkson","Ariel Netting from cotton flowers","Lasioglossum connexum","Species","other_wild_bees",1,600,180,NA,"Measures per site: four 50m transects per plot (pooled), 3 temporal replicates",NA
"Sarah_Cusser_Gossypium_hirsutum_USA_2014","South.Clarkson","Ariel Netting from cotton flowers","Lasioglossum hunteri","Species","other_wild_bees",6,600,180,NA,"Measures per site: four 50m transects per plot (pooled), 3 temporal replicates",NA
"Sarah_Cusser_Gossypium_hirsutum_USA_2014","South.Clarkson","Ariel Netting from cotton flowers","Lasioglossum tegulare","Species","other_wild_bees",5,600,180,NA,"Measures per site: four 50m transects per plot (pooled), 3 temporal replicates",NA
"Sarah_Cusser_Gossypium_hirsutum_USA_2014","South.Clarkson","Ariel Netting from cotton flowers","Megachile brevis","Species","other_wild_bees",1,600,180,NA,"Measures per site: four 50m transects per plot (pooled), 3 temporal replicates",NA
"Sarah_Cusser_Gossypium_hirsutum_USA_2014","South.Clarkson","Ariel Netting from cotton flowers","Melissodes tepanaca","Species","other_wild_bees",21,600,180,NA,"Measures per site: four 50m transects per plot (pooled), 3 temporal replicates",NA
"Sarah_Cusser_Gossypium_hirsutum_USA_2014","South.Clarkson","Ariel Netting from cotton flowers","Ptilothrix bombiformis","Species","other_wild_bees",2,600,180,NA,"Measures per site: four 50m transects per plot (pooled), 3 temporal replicates",NA
"Sarah_Cusser_Gossypium_hirsutum_USA_2014","South.Clarkson","Ariel Netting from cotton flowers","Strymon melinus","Species","lepidoptera",2,600,180,NA,"Measures per site: four 50m transects per plot (pooled), 3 temporal replicates",NA
"Sarah_Cusser_Gossypium_hirsutum_USA_2014","South.Clarkson","Ariel Netting from cotton flowers","Svastra obliqua","Species","other_wild_bees",8,600,180,NA,"Measures per site: four 50m transects per plot (pooled), 3 temporal replicates",NA
"Sarah_Cusser_Gossypium_hirsutum_USA_2014","South.Clarkson","Ariel Netting from cotton flowers","Triepeolus concavus","Species","other_wild_bees",1,600,180,NA,"Measures per site: four 50m transects per plot (pooled), 3 temporal replicates",NA
"Sarah_Cusser_Gossypium_hirsutum_USA_2014","South.Clarkson","Ariel Netting from cotton flowers","Ladybird sp1","morphospecies","beetles",1,600,180,NA,"Measures per site: four 50m transects per plot (pooled), 3 temporal replicates",NA
"Sarah_Cusser_Gossypium_hirsutum_USA_2014","South.Clarkson","Ariel Netting from cotton flowers","Ladybird sp4","morphospecies","beetles",1,600,180,NA,"Measures per site: four 50m transects per plot (pooled), 3 temporal replicates",NA
"Sarah_Cusser_Gossypium_hirsutum_USA_2014","South.Clarkson","Ariel Netting from cotton flowers","Lasioglossum dialictus sp.","morphospecies","other_wild_bees",12,600,180,NA,"Measures per site: four 50m transects per plot (pooled), 3 temporal replicates",NA
"Sarah_Cusser_Gossypium_hirsutum_USA_2014","South.Floerke","Ariel Netting from cotton flowers","Agapostemon texana","Species","other_wild_bees",1,600,180,NA,"Measures per site: four 50m transects per plot (pooled), 3 temporal replicates",NA
"Sarah_Cusser_Gossypium_hirsutum_USA_2014","South.Floerke","Ariel Netting from cotton flowers","Allograpta exotica","Species","syrphids",3,600,180,NA,"Measures per site: four 50m transects per plot (pooled), 3 temporal replicates",NA
"Sarah_Cusser_Gossypium_hirsutum_USA_2014","South.Floerke","Ariel Netting from cotton flowers","Ancyloscelis apiformis","Species","other_wild_bees",1,600,180,NA,"Measures per site: four 50m transects per plot (pooled), 3 temporal replicates",NA
"Sarah_Cusser_Gossypium_hirsutum_USA_2014","South.Floerke","Ariel Netting from cotton flowers","Apis mellifera","Species","honeybees",45,600,180,NA,"Measures per site: four 50m transects per plot (pooled), 3 temporal replicates",NA
"Sarah_Cusser_Gossypium_hirsutum_USA_2014","South.Floerke","Ariel Netting from cotton flowers","Coelioxys slossoni","Species","other_wild_bees",1,600,180,NA,"Measures per site: four 50m transects per plot (pooled), 3 temporal replicates",NA
"Sarah_Cusser_Gossypium_hirsutum_USA_2014","South.Floerke","Ariel Netting from cotton flowers","Diadasia diminuta","Species","other_wild_bees",6,600,180,NA,"Measures per site: four 50m transects per plot (pooled), 3 temporal replicates",NA
"Sarah_Cusser_Gossypium_hirsutum_USA_2014","South.Floerke","Ariel Netting from cotton flowers","Dieunomia heteropoda","Species","other_wild_bees",1,600,180,NA,"Measures per site: four 50m transects per plot (pooled), 3 temporal replicates",NA
"Sarah_Cusser_Gossypium_hirsutum_USA_2014","South.Floerke","Ariel Netting from cotton flowers","Halictus ligatus","Species","other_wild_bees",6,600,180,NA,"Measures per site: four 50m transects per plot (pooled), 3 temporal replicates",NA
"Sarah_Cusser_Gossypium_hirsutum_USA_2014","South.Floerke","Ariel Netting from cotton flowers","Lasioglossum coactum","Species","other_wild_bees",10,600,180,NA,"Measures per site: four 50m transects per plot (pooled), 3 temporal replicates",NA
"Sarah_Cusser_Gossypium_hirsutum_USA_2014","South.Floerke","Ariel Netting from cotton flowers","Lasioglossum fedorense","Species","other_wild_bees",1,600,180,NA,"Measures per site: four 50m transects per plot (pooled), 3 temporal replicates",NA
"Sarah_Cusser_Gossypium_hirsutum_USA_2014","South.Floerke","Ariel Netting from cotton flowers","Lasioglossum hunteri","Species","other_wild_bees",1,600,180,NA,"Measures per site: four 50m transects per plot (pooled), 3 temporal replicates",NA
"Sarah_Cusser_Gossypium_hirsutum_USA_2014","South.Floerke","Ariel Netting from cotton flowers","Lerodae eufala","Species","lepidoptera",1,600,180,NA,"Measures per site: four 50m transects per plot (pooled), 3 temporal replicates",NA
"Sarah_Cusser_Gossypium_hirsutum_USA_2014","South.Floerke","Ariel Netting from cotton flowers","Megachile montivaga","Species","other_wild_bees",1,600,180,NA,"Measures per site: four 50m transects per plot (pooled), 3 temporal replicates",NA
"Sarah_Cusser_Gossypium_hirsutum_USA_2014","South.Floerke","Ariel Netting from cotton flowers","Megachile parallela","Species","other_wild_bees",2,600,180,NA,"Measures per site: four 50m transects per plot (pooled), 3 temporal replicates",NA
"Sarah_Cusser_Gossypium_hirsutum_USA_2014","South.Floerke","Ariel Netting from cotton flowers","Melissodes tepanaca","Species","other_wild_bees",12,600,180,NA,"Measures per site: four 50m transects per plot (pooled), 3 temporal replicates",NA
"Sarah_Cusser_Gossypium_hirsutum_USA_2014","South.Floerke","Ariel Netting from cotton flowers","Melitoma marginella","Species","other_wild_bees",1,600,180,NA,"Measures per site: four 50m transects per plot (pooled), 3 temporal replicates",NA
"Sarah_Cusser_Gossypium_hirsutum_USA_2014","South.Floerke","Ariel Netting from cotton flowers","Ptilothrix bombiformis","Species","other_wild_bees",1,600,180,NA,"Measures per site: four 50m transects per plot (pooled), 3 temporal replicates",NA
"Sarah_Cusser_Gossypium_hirsutum_USA_2014","South.Floerke","Ariel Netting from cotton flowers","Strymon melinus","Species","lepidoptera",5,600,180,NA,"Measures per site: four 50m transects per plot (pooled), 3 temporal replicates",NA
"Sarah_Cusser_Gossypium_hirsutum_USA_2014","South.Floerke","Ariel Netting from cotton flowers","Svastra atripes","Species","other_wild_bees",2,600,180,NA,"Measures per site: four 50m transects per plot (pooled), 3 temporal replicates",NA
"Sarah_Cusser_Gossypium_hirsutum_USA_2014","South.Floerke","Ariel Netting from cotton flowers","Svastra obliqua","Species","other_wild_bees",2,600,180,NA,"Measures per site: four 50m transects per plot (pooled), 3 temporal replicates",NA
"Sarah_Cusser_Gossypium_hirsutum_USA_2014","South.Floerke","Ariel Netting from cotton flowers","Svastra petulca","Species","other_wild_bees",1,600,180,NA,"Measures per site: four 50m transects per plot (pooled), 3 temporal replicates",NA
"Sarah_Cusser_Gossypium_hirsutum_USA_2014","South.Floerke","Ariel Netting from cotton flowers","Lasioglossum dialictus sp.","morphospecies","other_wild_bees",4,600,180,NA,"Measures per site: four 50m transects per plot (pooled), 3 temporal replicates",NA
"Sarah_Cusser_Gossypium_hirsutum_USA_2014","South.Floerke","Ariel Netting from cotton flowers","Lasioglossum dialictus sp. TX 16","morphospecies","other_wild_bees",2,600,180,NA,"Measures per site: four 50m transects per plot (pooled), 3 temporal replicates",NA
"Sarah_Cusser_Gossypium_hirsutum_USA_2014","South.Floerke","Ariel Netting from cotton flowers","Polistes sp2","morphospecies","non_bee_hymenoptera",1,600,180,NA,"Measures per site: four 50m transects per plot (pooled), 3 temporal replicates",NA
"Sarah_Cusser_Gossypium_hirsutum_USA_2014","Tom.1","Ariel Netting from cotton flowers","Agapostemon texana","Species","other_wild_bees",3,600,180,NA,"Measures per site: four 50m transects per plot (pooled), 3 temporal replicates",NA
"Sarah_Cusser_Gossypium_hirsutum_USA_2014","Tom.1","Ariel Netting from cotton flowers","Allograpta exotica","Species","syrphids",6,600,180,NA,"Measures per site: four 50m transects per plot (pooled), 3 temporal replicates",NA
"Sarah_Cusser_Gossypium_hirsutum_USA_2014","Tom.1","Ariel Netting from cotton flowers","Apis mellifera","Species","honeybees",5,600,180,NA,"Measures per site: four 50m transects per plot (pooled), 3 temporal replicates",NA
"Sarah_Cusser_Gossypium_hirsutum_USA_2014","Tom.1","Ariel Netting from cotton flowers","Brephidium exile","Species","lepidoptera",1,600,180,NA,"Measures per site: four 50m transects per plot (pooled), 3 temporal replicates",NA
"Sarah_Cusser_Gossypium_hirsutum_USA_2014","Tom.1","Ariel Netting from cotton flowers","Halictus ligatus","Species","other_wild_bees",1,600,180,NA,"Measures per site: four 50m transects per plot (pooled), 3 temporal replicates",NA
"Sarah_Cusser_Gossypium_hirsutum_USA_2014","Tom.1","Ariel Netting from cotton flowers","Lasioglossum  disparile","Species","other_wild_bees",1,600,180,NA,"Measures per site: four 50m transects per plot (pooled), 3 temporal replicates",NA
"Sarah_Cusser_Gossypium_hirsutum_USA_2014","Tom.1","Ariel Netting from cotton flowers","Lasioglossum coactum","Species","other_wild_bees",1,600,180,NA,"Measures per site: four 50m transects per plot (pooled), 3 temporal replicates",NA
"Sarah_Cusser_Gossypium_hirsutum_USA_2014","Tom.1","Ariel Netting from cotton flowers","Melissodes tepanaca","Species","other_wild_bees",17,600,180,NA,"Measures per site: four 50m transects per plot (pooled), 3 temporal replicates",NA
"Sarah_Cusser_Gossypium_hirsutum_USA_2014","Tom.1","Ariel Netting from cotton flowers","Phyciodes tharos","Species","lepidoptera",1,600,180,NA,"Measures per site: four 50m transects per plot (pooled), 3 temporal replicates",NA
"Sarah_Cusser_Gossypium_hirsutum_USA_2014","Tom.1","Ariel Netting from cotton flowers","Strymon melinus","Species","lepidoptera",1,600,180,NA,"Measures per site: four 50m transects per plot (pooled), 3 temporal replicates",NA
"Sarah_Cusser_Gossypium_hirsutum_USA_2014","Tom.1","Ariel Netting from cotton flowers","Toxomerus politus","Species","syrphids",5,600,180,NA,"Measures per site: four 50m transects per plot (pooled), 3 temporal replicates",NA
"Sarah_Cusser_Gossypium_hirsutum_USA_2014","Tom.1","Ariel Netting from cotton flowers","Muscidae sp1","morphospecies","other_flies",1,600,180,NA,"Measures per site: four 50m transects per plot (pooled), 3 temporal replicates",NA
"Sarah_Cusser_Gossypium_hirsutum_USA_2014","Tom.1","Ariel Netting from cotton flowers","Lasioglossum dialictus sp.","morphospecies","other_wild_bees",2,600,180,NA,"Measures per site: four 50m transects per plot (pooled), 3 temporal replicates",NA
"Sarah_Cusser_Gossypium_hirsutum_USA_2014","Tom.1","Ariel Netting from cotton flowers","Lepidoptera sp1","morphospecies","lepidoptera",1,600,180,NA,"Measures per site: four 50m transects per plot (pooled), 3 temporal replicates",NA
"Sarah_Cusser_Gossypium_hirsutum_USA_2014","Tom.2","Ariel Netting from cotton flowers","Agapostemon splendens","Species","other_wild_bees",1,600,180,NA,"Measures per site: four 50m transects per plot (pooled), 3 temporal replicates",NA
"Sarah_Cusser_Gossypium_hirsutum_USA_2014","Tom.2","Ariel Netting from cotton flowers","Agapostemon texana","Species","other_wild_bees",3,600,180,NA,"Measures per site: four 50m transects per plot (pooled), 3 temporal replicates",NA
"Sarah_Cusser_Gossypium_hirsutum_USA_2014","Tom.2","Ariel Netting from cotton flowers","Allograpta exotica","Species","syrphids",42,600,180,NA,"Measures per site: four 50m transects per plot (pooled), 3 temporal replicates",NA
"Sarah_Cusser_Gossypium_hirsutum_USA_2014","Tom.2","Ariel Netting from cotton flowers","Apis mellifera","Species","honeybees",2,600,180,NA,"Measures per site: four 50m transects per plot (pooled), 3 temporal replicates",NA
"Sarah_Cusser_Gossypium_hirsutum_USA_2014","Tom.2","Ariel Netting from cotton flowers","Bombus pensylvanicus","Species","bumblebees",1,600,180,NA,"Measures per site: four 50m transects per plot (pooled), 3 temporal replicates",NA
"Sarah_Cusser_Gossypium_hirsutum_USA_2014","Tom.2","Ariel Netting from cotton flowers","Brephidium exile","Species","lepidoptera",3,600,180,NA,"Measures per site: four 50m transects per plot (pooled), 3 temporal replicates",NA
"Sarah_Cusser_Gossypium_hirsutum_USA_2014","Tom.2","Ariel Netting from cotton flowers","Ceratina shinnersi","Species","other_wild_bees",1,600,180,NA,"Measures per site: four 50m transects per plot (pooled), 3 temporal replicates",NA
"Sarah_Cusser_Gossypium_hirsutum_USA_2014","Tom.2","Ariel Netting from cotton flowers","Diabrotica undecimpunctata","Species","beetles",2,600,180,NA,"Measures per site: four 50m transects per plot (pooled), 3 temporal replicates",NA
"Sarah_Cusser_Gossypium_hirsutum_USA_2014","Tom.2","Ariel Netting from cotton flowers","Dianthidium suburfulum","Species","other_wild_bees",2,600,180,NA,"Measures per site: four 50m transects per plot (pooled), 3 temporal replicates",NA
"Sarah_Cusser_Gossypium_hirsutum_USA_2014","Tom.2","Ariel Netting from cotton flowers","Eurema lisa","Species","lepidoptera",4,600,180,NA,"Measures per site: four 50m transects per plot (pooled), 3 temporal replicates",NA
"Sarah_Cusser_Gossypium_hirsutum_USA_2014","Tom.2","Ariel Netting from cotton flowers","Lerodae eufala","Species","lepidoptera",1,600,180,NA,"Measures per site: four 50m transects per plot (pooled), 3 temporal replicates",NA
"Sarah_Cusser_Gossypium_hirsutum_USA_2014","Tom.2","Ariel Netting from cotton flowers","Libytheana carinenta","Species","lepidoptera",1,600,180,NA,"Measures per site: four 50m transects per plot (pooled), 3 temporal replicates",NA
"Sarah_Cusser_Gossypium_hirsutum_USA_2014","Tom.2","Ariel Netting from cotton flowers","Melissodes tepanaca","Species","other_wild_bees",27,600,180,NA,"Measures per site: four 50m transects per plot (pooled), 3 temporal replicates",NA
"Sarah_Cusser_Gossypium_hirsutum_USA_2014","Tom.2","Ariel Netting from cotton flowers","Palpada furcata","Species","syrphids",1,600,180,NA,"Measures per site: four 50m transects per plot (pooled), 3 temporal replicates",NA
"Sarah_Cusser_Gossypium_hirsutum_USA_2014","Tom.2","Ariel Netting from cotton flowers","Ptilothrix bombiformis","Species","other_wild_bees",1,600,180,NA,"Measures per site: four 50m transects per plot (pooled), 3 temporal replicates",NA
"Sarah_Cusser_Gossypium_hirsutum_USA_2014","Tom.2","Ariel Netting from cotton flowers","Strymon melinus","Species","lepidoptera",1,600,180,NA,"Measures per site: four 50m transects per plot (pooled), 3 temporal replicates",NA
"Sarah_Cusser_Gossypium_hirsutum_USA_2014","Tom.2","Ariel Netting from cotton flowers","Toxomerus politus","Species","syrphids",2,600,180,NA,"Measures per site: four 50m transects per plot (pooled), 3 temporal replicates",NA
"Sarah_Cusser_Gossypium_hirsutum_USA_2014","Tom.2","Ariel Netting from cotton flowers","Ladybird sp2","morphospecies","beetles",1,600,180,NA,"Measures per site: four 50m transects per plot (pooled), 3 temporal replicates",NA
"Sarah_Cusser_Gossypium_hirsutum_USA_2014","Tom.2","Ariel Netting from cotton flowers","Lasioglossum dialictus sp.","morphospecies","other_wild_bees",3,600,180,NA,"Measures per site: four 50m transects per plot (pooled), 3 temporal replicates",NA
"Sarah_Cusser_Gossypium_hirsutum_USA_2014","Tom.2","Ariel Netting from cotton flowers","Lasioglossum dialictus sp. TX 16","morphospecies","other_wild_bees",1,600,180,NA,"Measures per site: four 50m transects per plot (pooled), 3 temporal replicates",NA
"Sarah_Cusser_Gossypium_hirsutum_USA_2014","Tom.2","Ariel Netting from cotton flowers","Lepidoptera sp1","morphospecies","lepidoptera",1,600,180,NA,"Measures per site: four 50m transects per plot (pooled), 3 temporal replicates",NA
"Sarah_S_Greenleaf_Solanum_lycopersicum_USA_2001","DUR","transect","Anthophora urbana","species","other_wild_bees",3,1920,192,NA,"In each field, bee visits to tomato flowers were recorded along walking transects at the rate of 10 m/min, covering each row twice, once in each direction. In small fields, transects were walked along all rows. In larger fields, surveys were carried out at up to four transects, each 80m long. Each field was sampled between 8:30 and 12:30 on three different days, in the early, mid, and late morning, respectively.",NA
"Sarah_S_Greenleaf_Solanum_lycopersicum_USA_2001","DUR","transect","Anthophora urbana","species","other_wild_bees",2,1920,192,NA,"In each field, bee visits to tomato flowers were recorded along walking transects at the rate of 10 m/min, covering each row twice, once in each direction. In small fields, transects were walked along all rows. In larger fields, surveys were carried out at up to four transects, each 80m long. Each field was sampled between 8:30 and 12:30 on three different days, in the early, mid, and late morning, respectively.",NA
"Sarah_S_Greenleaf_Solanum_lycopersicum_USA_2001","DUR","transect","Anthophora urbana","species","other_wild_bees",5,1920,192,NA,"In each field, bee visits to tomato flowers were recorded along walking transects at the rate of 10 m/min, covering each row twice, once in each direction. In small fields, transects were walked along all rows. In larger fields, surveys were carried out at up to four transects, each 80m long. Each field was sampled between 8:30 and 12:30 on three different days, in the early, mid, and late morning, respectively.",NA
"Sarah_S_Greenleaf_Solanum_lycopersicum_USA_2001","DUR","transect","Anthophora urbana","species","other_wild_bees",1,1920,192,NA,"In each field, bee visits to tomato flowers were recorded along walking transects at the rate of 10 m/min, covering each row twice, once in each direction. In small fields, transects were walked along all rows. In larger fields, surveys were carried out at up to four transects, each 80m long. Each field was sampled between 8:30 and 12:30 on three different days, in the early, mid, and late morning, respectively.",NA
"Sarah_S_Greenleaf_Solanum_lycopersicum_USA_2001","DUR","transect","Anthophora urbana","species","other_wild_bees",3,1920,192,NA,"In each field, bee visits to tomato flowers were recorded along walking transects at the rate of 10 m/min, covering each row twice, once in each direction. In small fields, transects were walked along all rows. In larger fields, surveys were carried out at up to four transects, each 80m long. Each field was sampled between 8:30 and 12:30 on three different days, in the early, mid, and late morning, respectively.",NA
"Sarah_S_Greenleaf_Solanum_lycopersicum_USA_2001","DUR","transect","Anthophora urbana","species","other_wild_bees",2,1920,192,NA,"In each field, bee visits to tomato flowers were recorded along walking transects at the rate of 10 m/min, covering each row twice, once in each direction. In small fields, transects were walked along all rows. In larger fields, surveys were carried out at up to four transects, each 80m long. Each field was sampled between 8:30 and 12:30 on three different days, in the early, mid, and late morning, respectively.",NA
"Sarah_S_Greenleaf_Solanum_lycopersicum_USA_2001","DUR","transect","Anthophora urbana","species","other_wild_bees",2,1920,192,NA,"In each field, bee visits to tomato flowers were recorded along walking transects at the rate of 10 m/min, covering each row twice, once in each direction. In small fields, transects were walked along all rows. In larger fields, surveys were carried out at up to four transects, each 80m long. Each field was sampled between 8:30 and 12:30 on three different days, in the early, mid, and late morning, respectively.",NA
"Sarah_S_Greenleaf_Solanum_lycopersicum_USA_2001","DUR","transect","Anthophora urbana","species","other_wild_bees",4,1920,192,NA,"In each field, bee visits to tomato flowers were recorded along walking transects at the rate of 10 m/min, covering each row twice, once in each direction. In small fields, transects were walked along all rows. In larger fields, surveys were carried out at up to four transects, each 80m long. Each field was sampled between 8:30 and 12:30 on three different days, in the early, mid, and late morning, respectively.",NA
"Sarah_S_Greenleaf_Solanum_lycopersicum_USA_2001","DUR","transect","Anthophora urbana","species","other_wild_bees",1,1920,192,NA,"In each field, bee visits to tomato flowers were recorded along walking transects at the rate of 10 m/min, covering each row twice, once in each direction. In small fields, transects were walked along all rows. In larger fields, surveys were carried out at up to four transects, each 80m long. Each field was sampled between 8:30 and 12:30 on three different days, in the early, mid, and late morning, respectively.",NA
"Sarah_S_Greenleaf_Solanum_lycopersicum_USA_2001","DUR","transect","Anthophora urbana","species","other_wild_bees",3,1920,192,NA,"In each field, bee visits to tomato flowers were recorded along walking transects at the rate of 10 m/min, covering each row twice, once in each direction. In small fields, transects were walked along all rows. In larger fields, surveys were carried out at up to four transects, each 80m long. Each field was sampled between 8:30 and 12:30 on three different days, in the early, mid, and late morning, respectively.",NA
"Sarah_S_Greenleaf_Solanum_lycopersicum_USA_2001","DUR","transect","Anthophora urbana","species","other_wild_bees",4,1920,192,NA,"In each field, bee visits to tomato flowers were recorded along walking transects at the rate of 10 m/min, covering each row twice, once in each direction. In small fields, transects were walked along all rows. In larger fields, surveys were carried out at up to four transects, each 80m long. Each field was sampled between 8:30 and 12:30 on three different days, in the early, mid, and late morning, respectively.",NA
"Sarah_S_Greenleaf_Solanum_lycopersicum_USA_2001","EVE","transect","Anthophora urbana","species","other_wild_bees",1,1080,108,NA,"In each field, bee visits to tomato flowers were recorded along walking transects at the rate of 10 m/min, covering each row twice, once in each direction. In small fields, transects were walked along all rows. In larger fields, surveys were carried out at up to four transects, each 80m long. Each field was sampled between 8:30 and 12:30 on three different days, in the early, mid, and late morning, respectively.",NA
"Sarah_S_Greenleaf_Solanum_lycopersicum_USA_2001","FID","transect","Anthophora urbana","species","other_wild_bees",3,960,96,NA,"In each field, bee visits to tomato flowers were recorded along walking transects at the rate of 10 m/min, covering each row twice, once in each direction. In small fields, transects were walked along all rows. In larger fields, surveys were carried out at up to four transects, each 80m long. Each field was sampled between 8:30 and 12:30 on three different days, in the early, mid, and late morning, respectively.",NA
"Sarah_S_Greenleaf_Solanum_lycopersicum_USA_2001","FID","transect","Anthophora urbana","species","other_wild_bees",4,960,96,NA,"In each field, bee visits to tomato flowers were recorded along walking transects at the rate of 10 m/min, covering each row twice, once in each direction. In small fields, transects were walked along all rows. In larger fields, surveys were carried out at up to four transects, each 80m long. Each field was sampled between 8:30 and 12:30 on three different days, in the early, mid, and late morning, respectively.",NA
"Sarah_S_Greenleaf_Solanum_lycopersicum_USA_2001","FID","transect","Anthophora urbana","species","other_wild_bees",4,960,96,NA,"In each field, bee visits to tomato flowers were recorded along walking transects at the rate of 10 m/min, covering each row twice, once in each direction. In small fields, transects were walked along all rows. In larger fields, surveys were carried out at up to four transects, each 80m long. Each field was sampled between 8:30 and 12:30 on three different days, in the early, mid, and late morning, respectively.",NA
"Sarah_S_Greenleaf_Solanum_lycopersicum_USA_2001","FUL3","transect","Anthophora urbana","species","other_wild_bees",1,360,36,NA,"In each field, bee visits to tomato flowers were recorded along walking transects at the rate of 10 m/min, covering each row twice, once in each direction. In small fields, transects were walked along all rows. In larger fields, surveys were carried out at up to four transects, each 80m long. Each field was sampled between 8:30 and 12:30 on three different days, in the early, mid, and late morning, respectively.",NA
"Sarah_S_Greenleaf_Solanum_lycopersicum_USA_2001","FUL3","transect","Anthophora urbana","species","other_wild_bees",2,360,36,NA,"In each field, bee visits to tomato flowers were recorded along walking transects at the rate of 10 m/min, covering each row twice, once in each direction. In small fields, transects were walked along all rows. In larger fields, surveys were carried out at up to four transects, each 80m long. Each field was sampled between 8:30 and 12:30 on three different days, in the early, mid, and late morning, respectively.",NA
"Sarah_S_Greenleaf_Solanum_lycopersicum_USA_2001","FUL3","transect","Anthophora urbana","species","other_wild_bees",4,360,36,NA,"In each field, bee visits to tomato flowers were recorded along walking transects at the rate of 10 m/min, covering each row twice, once in each direction. In small fields, transects were walked along all rows. In larger fields, surveys were carried out at up to four transects, each 80m long. Each field was sampled between 8:30 and 12:30 on three different days, in the early, mid, and late morning, respectively.",NA
"Sarah_S_Greenleaf_Solanum_lycopersicum_USA_2001","GOO","transect","Anthophora urbana","species","other_wild_bees",10,720,72,NA,"In each field, bee visits to tomato flowers were recorded along walking transects at the rate of 10 m/min, covering each row twice, once in each direction. In small fields, transects were walked along all rows. In larger fields, surveys were carried out at up to four transects, each 80m long. Each field was sampled between 8:30 and 12:30 on three different days, in the early, mid, and late morning, respectively.",NA
"Sarah_S_Greenleaf_Solanum_lycopersicum_USA_2001","GOO","transect","Anthophora urbana","species","other_wild_bees",8,720,72,NA,"In each field, bee visits to tomato flowers were recorded along walking transects at the rate of 10 m/min, covering each row twice, once in each direction. In small fields, transects were walked along all rows. In larger fields, surveys were carried out at up to four transects, each 80m long. Each field was sampled between 8:30 and 12:30 on three different days, in the early, mid, and late morning, respectively.",NA
"Sarah_S_Greenleaf_Solanum_lycopersicum_USA_2001","GOO","transect","Anthophora urbana","species","other_wild_bees",8,720,72,NA,"In each field, bee visits to tomato flowers were recorded along walking transects at the rate of 10 m/min, covering each row twice, once in each direction. In small fields, transects were walked along all rows. In larger fields, surveys were carried out at up to four transects, each 80m long. Each field was sampled between 8:30 and 12:30 on three different days, in the early, mid, and late morning, respectively.",NA
"Sarah_S_Greenleaf_Solanum_lycopersicum_USA_2001","GOO","transect","Anthophora urbana","species","other_wild_bees",29,720,72,NA,"In each field, bee visits to tomato flowers were recorded along walking transects at the rate of 10 m/min, covering each row twice, once in each direction. In small fields, transects were walked along all rows. In larger fields, surveys were carried out at up to four transects, each 80m long. Each field was sampled between 8:30 and 12:30 on three different days, in the early, mid, and late morning, respectively.",NA
"Sarah_S_Greenleaf_Solanum_lycopersicum_USA_2001","GOO","transect","Anthophora urbana","species","other_wild_bees",10,720,72,NA,"In each field, bee visits to tomato flowers were recorded along walking transects at the rate of 10 m/min, covering each row twice, once in each direction. In small fields, transects were walked along all rows. In larger fields, surveys were carried out at up to four transects, each 80m long. Each field was sampled between 8:30 and 12:30 on three different days, in the early, mid, and late morning, respectively.",NA
"Sarah_S_Greenleaf_Solanum_lycopersicum_USA_2001","GOO","transect","Anthophora urbana","species","other_wild_bees",6,720,72,NA,"In each field, bee visits to tomato flowers were recorded along walking transects at the rate of 10 m/min, covering each row twice, once in each direction. In small fields, transects were walked along all rows. In larger fields, surveys were carried out at up to four transects, each 80m long. Each field was sampled between 8:30 and 12:30 on three different days, in the early, mid, and late morning, respectively.",NA
"Sarah_S_Greenleaf_Solanum_lycopersicum_USA_2001","GOO","transect","Anthophora urbana","species","other_wild_bees",13,720,72,NA,"In each field, bee visits to tomato flowers were recorded along walking transects at the rate of 10 m/min, covering each row twice, once in each direction. In small fields, transects were walked along all rows. In larger fields, surveys were carried out at up to four transects, each 80m long. Each field was sampled between 8:30 and 12:30 on three different days, in the early, mid, and late morning, respectively.",NA
"Sarah_S_Greenleaf_Solanum_lycopersicum_USA_2001","GOO","transect","Anthophora urbana","species","other_wild_bees",5,720,72,NA,"In each field, bee visits to tomato flowers were recorded along walking transects at the rate of 10 m/min, covering each row twice, once in each direction. In small fields, transects were walked along all rows. In larger fields, surveys were carried out at up to four transects, each 80m long. Each field was sampled between 8:30 and 12:30 on three different days, in the early, mid, and late morning, respectively.",NA
"Sarah_S_Greenleaf_Solanum_lycopersicum_USA_2001","GOO","transect","Anthophora urbana","species","other_wild_bees",3,720,72,NA,"In each field, bee visits to tomato flowers were recorded along walking transects at the rate of 10 m/min, covering each row twice, once in each direction. In small fields, transects were walked along all rows. In larger fields, surveys were carried out at up to four transects, each 80m long. Each field was sampled between 8:30 and 12:30 on three different days, in the early, mid, and late morning, respectively.",NA
"Sarah_S_Greenleaf_Solanum_lycopersicum_USA_2001","GOO","transect","Anthophora urbana","species","other_wild_bees",12,720,72,NA,"In each field, bee visits to tomato flowers were recorded along walking transects at the rate of 10 m/min, covering each row twice, once in each direction. In small fields, transects were walked along all rows. In larger fields, surveys were carried out at up to four transects, each 80m long. Each field was sampled between 8:30 and 12:30 on three different days, in the early, mid, and late morning, respectively.",NA
"Sarah_S_Greenleaf_Solanum_lycopersicum_USA_2001","GOO","transect","Anthophora urbana","species","other_wild_bees",5,720,72,NA,"In each field, bee visits to tomato flowers were recorded along walking transects at the rate of 10 m/min, covering each row twice, once in each direction. In small fields, transects were walked along all rows. In larger fields, surveys were carried out at up to four transects, each 80m long. Each field was sampled between 8:30 and 12:30 on three different days, in the early, mid, and late morning, respectively.",NA
"Sarah_S_Greenleaf_Solanum_lycopersicum_USA_2001","GOO","transect","Anthophora urbana","species","other_wild_bees",25,720,72,NA,"In each field, bee visits to tomato flowers were recorded along walking transects at the rate of 10 m/min, covering each row twice, once in each direction. In small fields, transects were walked along all rows. In larger fields, surveys were carried out at up to four transects, each 80m long. Each field was sampled between 8:30 and 12:30 on three different days, in the early, mid, and late morning, respectively.",NA
"Sarah_S_Greenleaf_Solanum_lycopersicum_USA_2001","JOH","transect","Anthophora urbana","species","other_wild_bees",1,720,72,NA,"In each field, bee visits to tomato flowers were recorded along walking transects at the rate of 10 m/min, covering each row twice, once in each direction. In small fields, transects were walked along all rows. In larger fields, surveys were carried out at up to four transects, each 80m long. Each field was sampled between 8:30 and 12:30 on three different days, in the early, mid, and late morning, respectively.",NA
"Sarah_S_Greenleaf_Solanum_lycopersicum_USA_2001","JOH","transect","Anthophora urbana","species","other_wild_bees",1,720,72,NA,"In each field, bee visits to tomato flowers were recorded along walking transects at the rate of 10 m/min, covering each row twice, once in each direction. In small fields, transects were walked along all rows. In larger fields, surveys were carried out at up to four transects, each 80m long. Each field was sampled between 8:30 and 12:30 on three different days, in the early, mid, and late morning, respectively.",NA
"Sarah_S_Greenleaf_Solanum_lycopersicum_USA_2001","JOH","transect","Anthophora urbana","species","other_wild_bees",1,720,72,NA,"In each field, bee visits to tomato flowers were recorded along walking transects at the rate of 10 m/min, covering each row twice, once in each direction. In small fields, transects were walked along all rows. In larger fields, surveys were carried out at up to four transects, each 80m long. Each field was sampled between 8:30 and 12:30 on three different days, in the early, mid, and late morning, respectively.",NA
"Sarah_S_Greenleaf_Solanum_lycopersicum_USA_2001","JOH","transect","Anthophora urbana","species","other_wild_bees",7,720,72,NA,"In each field, bee visits to tomato flowers were recorded along walking transects at the rate of 10 m/min, covering each row twice, once in each direction. In small fields, transects were walked along all rows. In larger fields, surveys were carried out at up to four transects, each 80m long. Each field was sampled between 8:30 and 12:30 on three different days, in the early, mid, and late morning, respectively.",NA
"Sarah_S_Greenleaf_Solanum_lycopersicum_USA_2001","RIV4","transect","Anthophora urbana","species","other_wild_bees",20,1440,144,NA,"In each field, bee visits to tomato flowers were recorded along walking transects at the rate of 10 m/min, covering each row twice, once in each direction. In small fields, transects were walked along all rows. In larger fields, surveys were carried out at up to four transects, each 80m long. Each field was sampled between 8:30 and 12:30 on three different days, in the early, mid, and late morning, respectively.",NA
"Sarah_S_Greenleaf_Solanum_lycopersicum_USA_2001","RIV4","transect","Anthophora urbana","species","other_wild_bees",23,1440,144,NA,"In each field, bee visits to tomato flowers were recorded along walking transects at the rate of 10 m/min, covering each row twice, once in each direction. In small fields, transects were walked along all rows. In larger fields, surveys were carried out at up to four transects, each 80m long. Each field was sampled between 8:30 and 12:30 on three different days, in the early, mid, and late morning, respectively.",NA
"Sarah_S_Greenleaf_Solanum_lycopersicum_USA_2001","RIV4","transect","Anthophora urbana","species","other_wild_bees",7,1440,144,NA,"In each field, bee visits to tomato flowers were recorded along walking transects at the rate of 10 m/min, covering each row twice, once in each direction. In small fields, transects were walked along all rows. In larger fields, surveys were carried out at up to four transects, each 80m long. Each field was sampled between 8:30 and 12:30 on three different days, in the early, mid, and late morning, respectively.",NA
"Sarah_S_Greenleaf_Solanum_lycopersicum_USA_2001","RIV4","transect","Anthophora urbana","species","other_wild_bees",10,1440,144,NA,"In each field, bee visits to tomato flowers were recorded along walking transects at the rate of 10 m/min, covering each row twice, once in each direction. In small fields, transects were walked along all rows. In larger fields, surveys were carried out at up to four transects, each 80m long. Each field was sampled between 8:30 and 12:30 on three different days, in the early, mid, and late morning, respectively.",NA
"Sarah_S_Greenleaf_Solanum_lycopersicum_USA_2001","RIV4","transect","Anthophora urbana","species","other_wild_bees",7,1440,144,NA,"In each field, bee visits to tomato flowers were recorded along walking transects at the rate of 10 m/min, covering each row twice, once in each direction. In small fields, transects were walked along all rows. In larger fields, surveys were carried out at up to four transects, each 80m long. Each field was sampled between 8:30 and 12:30 on three different days, in the early, mid, and late morning, respectively.",NA
"Sarah_S_Greenleaf_Solanum_lycopersicum_USA_2001","RIV4","transect","Anthophora urbana","species","other_wild_bees",11,1440,144,NA,"In each field, bee visits to tomato flowers were recorded along walking transects at the rate of 10 m/min, covering each row twice, once in each direction. In small fields, transects were walked along all rows. In larger fields, surveys were carried out at up to four transects, each 80m long. Each field was sampled between 8:30 and 12:30 on three different days, in the early, mid, and late morning, respectively.",NA
"Sarah_S_Greenleaf_Solanum_lycopersicum_USA_2001","RIV4","transect","Anthophora urbana","species","other_wild_bees",5,1440,144,NA,"In each field, bee visits to tomato flowers were recorded along walking transects at the rate of 10 m/min, covering each row twice, once in each direction. In small fields, transects were walked along all rows. In larger fields, surveys were carried out at up to four transects, each 80m long. Each field was sampled between 8:30 and 12:30 on three different days, in the early, mid, and late morning, respectively.",NA
"Sarah_S_Greenleaf_Solanum_lycopersicum_USA_2001","RIV4","transect","Anthophora urbana","species","other_wild_bees",8,1440,144,NA,"In each field, bee visits to tomato flowers were recorded along walking transects at the rate of 10 m/min, covering each row twice, once in each direction. In small fields, transects were walked along all rows. In larger fields, surveys were carried out at up to four transects, each 80m long. Each field was sampled between 8:30 and 12:30 on three different days, in the early, mid, and late morning, respectively.",NA
"Sarah_S_Greenleaf_Solanum_lycopersicum_USA_2001","RIV4","transect","Anthophora urbana","species","other_wild_bees",9,1440,144,NA,"In each field, bee visits to tomato flowers were recorded along walking transects at the rate of 10 m/min, covering each row twice, once in each direction. In small fields, transects were walked along all rows. In larger fields, surveys were carried out at up to four transects, each 80m long. Each field was sampled between 8:30 and 12:30 on three different days, in the early, mid, and late morning, respectively.",NA
"Sarah_S_Greenleaf_Solanum_lycopersicum_USA_2001","RIV4","transect","Anthophora urbana","species","other_wild_bees",11,1440,144,NA,"In each field, bee visits to tomato flowers were recorded along walking transects at the rate of 10 m/min, covering each row twice, once in each direction. In small fields, transects were walked along all rows. In larger fields, surveys were carried out at up to four transects, each 80m long. Each field was sampled between 8:30 and 12:30 on three different days, in the early, mid, and late morning, respectively.",NA
"Sarah_S_Greenleaf_Solanum_lycopersicum_USA_2001","RIV4","transect","Anthophora urbana","species","other_wild_bees",4,1440,144,NA,"In each field, bee visits to tomato flowers were recorded along walking transects at the rate of 10 m/min, covering each row twice, once in each direction. In small fields, transects were walked along all rows. In larger fields, surveys were carried out at up to four transects, each 80m long. Each field was sampled between 8:30 and 12:30 on three different days, in the early, mid, and late morning, respectively.",NA
"Sarah_S_Greenleaf_Solanum_lycopersicum_USA_2001","RIV4","transect","Anthophora urbana","species","other_wild_bees",14,1440,144,NA,"In each field, bee visits to tomato flowers were recorded along walking transects at the rate of 10 m/min, covering each row twice, once in each direction. In small fields, transects were walked along all rows. In larger fields, surveys were carried out at up to four transects, each 80m long. Each field was sampled between 8:30 and 12:30 on three different days, in the early, mid, and late morning, respectively.",NA
"Sarah_S_Greenleaf_Solanum_lycopersicum_USA_2001","RIV4","transect","Anthophora urbana","species","other_wild_bees",3,1440,144,NA,"In each field, bee visits to tomato flowers were recorded along walking transects at the rate of 10 m/min, covering each row twice, once in each direction. In small fields, transects were walked along all rows. In larger fields, surveys were carried out at up to four transects, each 80m long. Each field was sampled between 8:30 and 12:30 on three different days, in the early, mid, and late morning, respectively.",NA
"Sarah_S_Greenleaf_Solanum_lycopersicum_USA_2001","TER","transect","Anthophora urbana","species","other_wild_bees",1,1680,168,NA,"In each field, bee visits to tomato flowers were recorded along walking transects at the rate of 10 m/min, covering each row twice, once in each direction. In small fields, transects were walked along all rows. In larger fields, surveys were carried out at up to four transects, each 80m long. Each field was sampled between 8:30 and 12:30 on three different days, in the early, mid, and late morning, respectively.",NA
"Sarah_S_Greenleaf_Solanum_lycopersicum_USA_2001","TER","transect","Anthophora urbana","species","other_wild_bees",5,1680,168,NA,"In each field, bee visits to tomato flowers were recorded along walking transects at the rate of 10 m/min, covering each row twice, once in each direction. In small fields, transects were walked along all rows. In larger fields, surveys were carried out at up to four transects, each 80m long. Each field was sampled between 8:30 and 12:30 on three different days, in the early, mid, and late morning, respectively.",NA
"Sarah_S_Greenleaf_Solanum_lycopersicum_USA_2001","TER","transect","Anthophora urbana","species","other_wild_bees",7,1680,168,NA,"In each field, bee visits to tomato flowers were recorded along walking transects at the rate of 10 m/min, covering each row twice, once in each direction. In small fields, transects were walked along all rows. In larger fields, surveys were carried out at up to four transects, each 80m long. Each field was sampled between 8:30 and 12:30 on three different days, in the early, mid, and late morning, respectively.",NA
"Sarah_S_Greenleaf_Solanum_lycopersicum_USA_2001","TER","transect","Anthophora urbana","species","other_wild_bees",2,1680,168,NA,"In each field, bee visits to tomato flowers were recorded along walking transects at the rate of 10 m/min, covering each row twice, once in each direction. In small fields, transects were walked along all rows. In larger fields, surveys were carried out at up to four transects, each 80m long. Each field was sampled between 8:30 and 12:30 on three different days, in the early, mid, and late morning, respectively.",NA
"Sarah_S_Greenleaf_Solanum_lycopersicum_USA_2001","TER","transect","Anthophora urbana","species","other_wild_bees",5,1680,168,NA,"In each field, bee visits to tomato flowers were recorded along walking transects at the rate of 10 m/min, covering each row twice, once in each direction. In small fields, transects were walked along all rows. In larger fields, surveys were carried out at up to four transects, each 80m long. Each field was sampled between 8:30 and 12:30 on three different days, in the early, mid, and late morning, respectively.",NA
"Sarah_S_Greenleaf_Solanum_lycopersicum_USA_2001","TER","transect","Anthophora urbana","species","other_wild_bees",8,1680,168,NA,"In each field, bee visits to tomato flowers were recorded along walking transects at the rate of 10 m/min, covering each row twice, once in each direction. In small fields, transects were walked along all rows. In larger fields, surveys were carried out at up to four transects, each 80m long. Each field was sampled between 8:30 and 12:30 on three different days, in the early, mid, and late morning, respectively.",NA
"Sarah_S_Greenleaf_Solanum_lycopersicum_USA_2001","TER","transect","Anthophora urbana","species","other_wild_bees",13,1680,168,NA,"In each field, bee visits to tomato flowers were recorded along walking transects at the rate of 10 m/min, covering each row twice, once in each direction. In small fields, transects were walked along all rows. In larger fields, surveys were carried out at up to four transects, each 80m long. Each field was sampled between 8:30 and 12:30 on three different days, in the early, mid, and late morning, respectively.",NA
"Sarah_S_Greenleaf_Solanum_lycopersicum_USA_2001","TER","transect","Anthophora urbana","species","other_wild_bees",13,1680,168,NA,"In each field, bee visits to tomato flowers were recorded along walking transects at the rate of 10 m/min, covering each row twice, once in each direction. In small fields, transects were walked along all rows. In larger fields, surveys were carried out at up to four transects, each 80m long. Each field was sampled between 8:30 and 12:30 on three different days, in the early, mid, and late morning, respectively.",NA
"Sarah_S_Greenleaf_Solanum_lycopersicum_USA_2001","TER","transect","Anthophora urbana","species","other_wild_bees",2,1680,168,NA,"In each field, bee visits to tomato flowers were recorded along walking transects at the rate of 10 m/min, covering each row twice, once in each direction. In small fields, transects were walked along all rows. In larger fields, surveys were carried out at up to four transects, each 80m long. Each field was sampled between 8:30 and 12:30 on three different days, in the early, mid, and late morning, respectively.",NA
"Sarah_S_Greenleaf_Solanum_lycopersicum_USA_2001","TER","transect","Anthophora urbana","species","other_wild_bees",4,1680,168,NA,"In each field, bee visits to tomato flowers were recorded along walking transects at the rate of 10 m/min, covering each row twice, once in each direction. In small fields, transects were walked along all rows. In larger fields, surveys were carried out at up to four transects, each 80m long. Each field was sampled between 8:30 and 12:30 on three different days, in the early, mid, and late morning, respectively.",NA
"Sarah_S_Greenleaf_Solanum_lycopersicum_USA_2001","TER","transect","Anthophora urbana","species","other_wild_bees",4,1680,168,NA,"In each field, bee visits to tomato flowers were recorded along walking transects at the rate of 10 m/min, covering each row twice, once in each direction. In small fields, transects were walked along all rows. In larger fields, surveys were carried out at up to four transects, each 80m long. Each field was sampled between 8:30 and 12:30 on three different days, in the early, mid, and late morning, respectively.",NA
"Sarah_S_Greenleaf_Solanum_lycopersicum_USA_2001","TER","transect","Anthophora urbana","species","other_wild_bees",4,1680,168,NA,"In each field, bee visits to tomato flowers were recorded along walking transects at the rate of 10 m/min, covering each row twice, once in each direction. In small fields, transects were walked along all rows. In larger fields, surveys were carried out at up to four transects, each 80m long. Each field was sampled between 8:30 and 12:30 on three different days, in the early, mid, and late morning, respectively.",NA
"Sarah_S_Greenleaf_Solanum_lycopersicum_USA_2001","TER","transect","Anthophora urbana","species","other_wild_bees",7,1680,168,NA,"In each field, bee visits to tomato flowers were recorded along walking transects at the rate of 10 m/min, covering each row twice, once in each direction. In small fields, transects were walked along all rows. In larger fields, surveys were carried out at up to four transects, each 80m long. Each field was sampled between 8:30 and 12:30 on three different days, in the early, mid, and late morning, respectively.",NA
"Sarah_S_Greenleaf_Solanum_lycopersicum_USA_2001","TER","transect","Anthophora urbana","species","other_wild_bees",3,1680,168,NA,"In each field, bee visits to tomato flowers were recorded along walking transects at the rate of 10 m/min, covering each row twice, once in each direction. In small fields, transects were walked along all rows. In larger fields, surveys were carried out at up to four transects, each 80m long. Each field was sampled between 8:30 and 12:30 on three different days, in the early, mid, and late morning, respectively.",NA
"Sarah_S_Greenleaf_Solanum_lycopersicum_USA_2001","BLU","transect","Bombus vosnesenskii","species","bumblebees",10,240,24,NA,"In each field, bee visits to tomato flowers were recorded along walking transects at the rate of 10 m/min, covering each row twice, once in each direction. In small fields, transects were walked along all rows. In larger fields, surveys were carried out at up to four transects, each 80m long. Each field was sampled between 8:30 and 12:30 on three different days, in the early, mid, and late morning, respectively.",NA
"Sarah_S_Greenleaf_Solanum_lycopersicum_USA_2001","BLU","transect","Bombus vosnesenskii","species","bumblebees",11,240,24,NA,"In each field, bee visits to tomato flowers were recorded along walking transects at the rate of 10 m/min, covering each row twice, once in each direction. In small fields, transects were walked along all rows. In larger fields, surveys were carried out at up to four transects, each 80m long. Each field was sampled between 8:30 and 12:30 on three different days, in the early, mid, and late morning, respectively.",NA
"Sarah_S_Greenleaf_Solanum_lycopersicum_USA_2001","BLU","transect","Bombus vosnesenskii","species","bumblebees",3,240,24,NA,"In each field, bee visits to tomato flowers were recorded along walking transects at the rate of 10 m/min, covering each row twice, once in each direction. In small fields, transects were walked along all rows. In larger fields, surveys were carried out at up to four transects, each 80m long. Each field was sampled between 8:30 and 12:30 on three different days, in the early, mid, and late morning, respectively.",NA
"Sarah_S_Greenleaf_Solanum_lycopersicum_USA_2001","BLU","transect","Bombus vosnesenskii","species","bumblebees",2,240,24,NA,"In each field, bee visits to tomato flowers were recorded along walking transects at the rate of 10 m/min, covering each row twice, once in each direction. In small fields, transects were walked along all rows. In larger fields, surveys were carried out at up to four transects, each 80m long. Each field was sampled between 8:30 and 12:30 on three different days, in the early, mid, and late morning, respectively.",NA
"Sarah_S_Greenleaf_Solanum_lycopersicum_USA_2001","BLU","transect","Bombus vosnesenskii","species","bumblebees",3,240,24,NA,"In each field, bee visits to tomato flowers were recorded along walking transects at the rate of 10 m/min, covering each row twice, once in each direction. In small fields, transects were walked along all rows. In larger fields, surveys were carried out at up to four transects, each 80m long. Each field was sampled between 8:30 and 12:30 on three different days, in the early, mid, and late morning, respectively.",NA
"Sarah_S_Greenleaf_Solanum_lycopersicum_USA_2001","BLU","transect","Bombus vosnesenskii","species","bumblebees",4,240,24,NA,"In each field, bee visits to tomato flowers were recorded along walking transects at the rate of 10 m/min, covering each row twice, once in each direction. In small fields, transects were walked along all rows. In larger fields, surveys were carried out at up to four transects, each 80m long. Each field was sampled between 8:30 and 12:30 on three different days, in the early, mid, and late morning, respectively.",NA
"Sarah_S_Greenleaf_Solanum_lycopersicum_USA_2001","EVE","transect","Bombus vosnesenskii","species","bumblebees",1,1080,108,NA,"In each field, bee visits to tomato flowers were recorded along walking transects at the rate of 10 m/min, covering each row twice, once in each direction. In small fields, transects were walked along all rows. In larger fields, surveys were carried out at up to four transects, each 80m long. Each field was sampled between 8:30 and 12:30 on three different days, in the early, mid, and late morning, respectively.",NA
"Sarah_S_Greenleaf_Solanum_lycopersicum_USA_2001","EVE","transect","Bombus vosnesenskii","species","bumblebees",5,1080,108,NA,"In each field, bee visits to tomato flowers were recorded along walking transects at the rate of 10 m/min, covering each row twice, once in each direction. In small fields, transects were walked along all rows. In larger fields, surveys were carried out at up to four transects, each 80m long. Each field was sampled between 8:30 and 12:30 on three different days, in the early, mid, and late morning, respectively.",NA
"Sarah_S_Greenleaf_Solanum_lycopersicum_USA_2001","EVE","transect","Bombus vosnesenskii","species","bumblebees",3,1080,108,NA,"In each field, bee visits to tomato flowers were recorded along walking transects at the rate of 10 m/min, covering each row twice, once in each direction. In small fields, transects were walked along all rows. In larger fields, surveys were carried out at up to four transects, each 80m long. Each field was sampled between 8:30 and 12:30 on three different days, in the early, mid, and late morning, respectively.",NA
"Sarah_S_Greenleaf_Solanum_lycopersicum_USA_2001","FID","transect","Bombus vosnesenskii","species","bumblebees",6,960,96,NA,"In each field, bee visits to tomato flowers were recorded along walking transects at the rate of 10 m/min, covering each row twice, once in each direction. In small fields, transects were walked along all rows. In larger fields, surveys were carried out at up to four transects, each 80m long. Each field was sampled between 8:30 and 12:30 on three different days, in the early, mid, and late morning, respectively.",NA
"Sarah_S_Greenleaf_Solanum_lycopersicum_USA_2001","FID","transect","Bombus vosnesenskii","species","bumblebees",5,960,96,NA,"In each field, bee visits to tomato flowers were recorded along walking transects at the rate of 10 m/min, covering each row twice, once in each direction. In small fields, transects were walked along all rows. In larger fields, surveys were carried out at up to four transects, each 80m long. Each field was sampled between 8:30 and 12:30 on three different days, in the early, mid, and late morning, respectively.",NA
"Sarah_S_Greenleaf_Solanum_lycopersicum_USA_2001","FID","transect","Bombus vosnesenskii","species","bumblebees",6,960,96,NA,"In each field, bee visits to tomato flowers were recorded along walking transects at the rate of 10 m/min, covering each row twice, once in each direction. In small fields, transects were walked along all rows. In larger fields, surveys were carried out at up to four transects, each 80m long. Each field was sampled between 8:30 and 12:30 on three different days, in the early, mid, and late morning, respectively.",NA
"Sarah_S_Greenleaf_Solanum_lycopersicum_USA_2001","FUL3","transect","Bombus vosnesenskii","species","bumblebees",24,360,36,NA,"In each field, bee visits to tomato flowers were recorded along walking transects at the rate of 10 m/min, covering each row twice, once in each direction. In small fields, transects were walked along all rows. In larger fields, surveys were carried out at up to four transects, each 80m long. Each field was sampled between 8:30 and 12:30 on three different days, in the early, mid, and late morning, respectively.",NA
"Sarah_S_Greenleaf_Solanum_lycopersicum_USA_2001","FUL3","transect","Bombus vosnesenskii","species","bumblebees",21,360,36,NA,"In each field, bee visits to tomato flowers were recorded along walking transects at the rate of 10 m/min, covering each row twice, once in each direction. In small fields, transects were walked along all rows. In larger fields, surveys were carried out at up to four transects, each 80m long. Each field was sampled between 8:30 and 12:30 on three different days, in the early, mid, and late morning, respectively.",NA
"Sarah_S_Greenleaf_Solanum_lycopersicum_USA_2001","FUL3","transect","Bombus vosnesenskii","species","bumblebees",10,360,36,NA,"In each field, bee visits to tomato flowers were recorded along walking transects at the rate of 10 m/min, covering each row twice, once in each direction. In small fields, transects were walked along all rows. In larger fields, surveys were carried out at up to four transects, each 80m long. Each field was sampled between 8:30 and 12:30 on three different days, in the early, mid, and late morning, respectively.",NA
"Sarah_S_Greenleaf_Solanum_lycopersicum_USA_2001","FUL3","transect","Bombus vosnesenskii","species","bumblebees",9,360,36,NA,"In each field, bee visits to tomato flowers were recorded along walking transects at the rate of 10 m/min, covering each row twice, once in each direction. In small fields, transects were walked along all rows. In larger fields, surveys were carried out at up to four transects, each 80m long. Each field was sampled between 8:30 and 12:30 on three different days, in the early, mid, and late morning, respectively.",NA
"Sarah_S_Greenleaf_Solanum_lycopersicum_USA_2001","FUL3","transect","Bombus vosnesenskii","species","bumblebees",14,360,36,NA,"In each field, bee visits to tomato flowers were recorded along walking transects at the rate of 10 m/min, covering each row twice, once in each direction. In small fields, transects were walked along all rows. In larger fields, surveys were carried out at up to four transects, each 80m long. Each field was sampled between 8:30 and 12:30 on three different days, in the early, mid, and late morning, respectively.",NA
"Sarah_S_Greenleaf_Solanum_lycopersicum_USA_2001","FUL3","transect","Bombus vosnesenskii","species","bumblebees",9,360,36,NA,"In each field, bee visits to tomato flowers were recorded along walking transects at the rate of 10 m/min, covering each row twice, once in each direction. In small fields, transects were walked along all rows. In larger fields, surveys were carried out at up to four transects, each 80m long. Each field was sampled between 8:30 and 12:30 on three different days, in the early, mid, and late morning, respectively.",NA
"Sarah_S_Greenleaf_Solanum_lycopersicum_USA_2001","RIV4","transect","Bombus vosnesenskii","species","bumblebees",3,1440,144,NA,"In each field, bee visits to tomato flowers were recorded along walking transects at the rate of 10 m/min, covering each row twice, once in each direction. In small fields, transects were walked along all rows. In larger fields, surveys were carried out at up to four transects, each 80m long. Each field was sampled between 8:30 and 12:30 on three different days, in the early, mid, and late morning, respectively.",NA
"Sarah_S_Greenleaf_Solanum_lycopersicum_USA_2001","RIV4","transect","Bombus vosnesenskii","species","bumblebees",2,1440,144,NA,"In each field, bee visits to tomato flowers were recorded along walking transects at the rate of 10 m/min, covering each row twice, once in each direction. In small fields, transects were walked along all rows. In larger fields, surveys were carried out at up to four transects, each 80m long. Each field was sampled between 8:30 and 12:30 on three different days, in the early, mid, and late morning, respectively.",NA
"Sarah_S_Greenleaf_Solanum_lycopersicum_USA_2001","RIV4","transect","Bombus vosnesenskii","species","bumblebees",1,1440,144,NA,"In each field, bee visits to tomato flowers were recorded along walking transects at the rate of 10 m/min, covering each row twice, once in each direction. In small fields, transects were walked along all rows. In larger fields, surveys were carried out at up to four transects, each 80m long. Each field was sampled between 8:30 and 12:30 on three different days, in the early, mid, and late morning, respectively.",NA
"Sarah_S_Greenleaf_Solanum_lycopersicum_USA_2001","RIV4","transect","Bombus vosnesenskii","species","bumblebees",11,1440,144,NA,"In each field, bee visits to tomato flowers were recorded along walking transects at the rate of 10 m/min, covering each row twice, once in each direction. In small fields, transects were walked along all rows. In larger fields, surveys were carried out at up to four transects, each 80m long. Each field was sampled between 8:30 and 12:30 on three different days, in the early, mid, and late morning, respectively.",NA
"Sarah_S_Greenleaf_Solanum_lycopersicum_USA_2001","RIV4","transect","Bombus vosnesenskii","species","bumblebees",2,1440,144,NA,"In each field, bee visits to tomato flowers were recorded along walking transects at the rate of 10 m/min, covering each row twice, once in each direction. In small fields, transects were walked along all rows. In larger fields, surveys were carried out at up to four transects, each 80m long. Each field was sampled between 8:30 and 12:30 on three different days, in the early, mid, and late morning, respectively.",NA
"Sarah_S_Greenleaf_Solanum_lycopersicum_USA_2001","RIV4","transect","Bombus vosnesenskii","species","bumblebees",1,1440,144,NA,"In each field, bee visits to tomato flowers were recorded along walking transects at the rate of 10 m/min, covering each row twice, once in each direction. In small fields, transects were walked along all rows. In larger fields, surveys were carried out at up to four transects, each 80m long. Each field was sampled between 8:30 and 12:30 on three different days, in the early, mid, and late morning, respectively.",NA
"Sarah_S_Greenleaf_Solanum_lycopersicum_USA_2001","RIV4","transect","Bombus vosnesenskii","species","bumblebees",10,1440,144,NA,"In each field, bee visits to tomato flowers were recorded along walking transects at the rate of 10 m/min, covering each row twice, once in each direction. In small fields, transects were walked along all rows. In larger fields, surveys were carried out at up to four transects, each 80m long. Each field was sampled between 8:30 and 12:30 on three different days, in the early, mid, and late morning, respectively.",NA
"Sarah_S_Greenleaf_Solanum_lycopersicum_USA_2001","RIV4","transect","Bombus vosnesenskii","species","bumblebees",5,1440,144,NA,"In each field, bee visits to tomato flowers were recorded along walking transects at the rate of 10 m/min, covering each row twice, once in each direction. In small fields, transects were walked along all rows. In larger fields, surveys were carried out at up to four transects, each 80m long. Each field was sampled between 8:30 and 12:30 on three different days, in the early, mid, and late morning, respectively.",NA
"Sarah_S_Greenleaf_Solanum_lycopersicum_USA_2001","RIV4","transect","Bombus vosnesenskii","species","bumblebees",9,1440,144,NA,"In each field, bee visits to tomato flowers were recorded along walking transects at the rate of 10 m/min, covering each row twice, once in each direction. In small fields, transects were walked along all rows. In larger fields, surveys were carried out at up to four transects, each 80m long. Each field was sampled between 8:30 and 12:30 on three different days, in the early, mid, and late morning, respectively.",NA
"Sarah_S_Greenleaf_Solanum_lycopersicum_USA_2001","RIV4","transect","Bombus vosnesenskii","species","bumblebees",16,1440,144,NA,"In each field, bee visits to tomato flowers were recorded along walking transects at the rate of 10 m/min, covering each row twice, once in each direction. In small fields, transects were walked along all rows. In larger fields, surveys were carried out at up to four transects, each 80m long. Each field was sampled between 8:30 and 12:30 on three different days, in the early, mid, and late morning, respectively.",NA
"Sarah_S_Greenleaf_Solanum_lycopersicum_USA_2001","RIV4","transect","Bombus vosnesenskii","species","bumblebees",2,1440,144,NA,"In each field, bee visits to tomato flowers were recorded along walking transects at the rate of 10 m/min, covering each row twice, once in each direction. In small fields, transects were walked along all rows. In larger fields, surveys were carried out at up to four transects, each 80m long. Each field was sampled between 8:30 and 12:30 on three different days, in the early, mid, and late morning, respectively.",NA
"Sarah_S_Greenleaf_Solanum_lycopersicum_USA_2001","RIV4","transect","Bombus vosnesenskii","species","bumblebees",11,1440,144,NA,"In each field, bee visits to tomato flowers were recorded along walking transects at the rate of 10 m/min, covering each row twice, once in each direction. In small fields, transects were walked along all rows. In larger fields, surveys were carried out at up to four transects, each 80m long. Each field was sampled between 8:30 and 12:30 on three different days, in the early, mid, and late morning, respectively.",NA
"Sarah_S_Greenleaf_Solanum_lycopersicum_USA_2001","RIV4","transect","Bombus vosnesenskii","species","bumblebees",1,1440,144,NA,"In each field, bee visits to tomato flowers were recorded along walking transects at the rate of 10 m/min, covering each row twice, once in each direction. In small fields, transects were walked along all rows. In larger fields, surveys were carried out at up to four transects, each 80m long. Each field was sampled between 8:30 and 12:30 on three different days, in the early, mid, and late morning, respectively.",NA
"Sarah_S_Greenleaf_Solanum_lycopersicum_USA_2001","RIV4","transect","Bombus vosnesenskii","species","bumblebees",3,1440,144,NA,"In each field, bee visits to tomato flowers were recorded along walking transects at the rate of 10 m/min, covering each row twice, once in each direction. In small fields, transects were walked along all rows. In larger fields, surveys were carried out at up to four transects, each 80m long. Each field was sampled between 8:30 and 12:30 on three different days, in the early, mid, and late morning, respectively.",NA
"Sarah_S_Greenleaf_Solanum_lycopersicum_USA_2001","RIV4","transect","Bombus vosnesenskii","species","bumblebees",8,1440,144,NA,"In each field, bee visits to tomato flowers were recorded along walking transects at the rate of 10 m/min, covering each row twice, once in each direction. In small fields, transects were walked along all rows. In larger fields, surveys were carried out at up to four transects, each 80m long. Each field was sampled between 8:30 and 12:30 on three different days, in the early, mid, and late morning, respectively.",NA
"Sarah_S_Greenleaf_Solanum_lycopersicum_USA_2001","RIV4","transect","Bombus vosnesenskii","species","bumblebees",7,1440,144,NA,"In each field, bee visits to tomato flowers were recorded along walking transects at the rate of 10 m/min, covering each row twice, once in each direction. In small fields, transects were walked along all rows. In larger fields, surveys were carried out at up to four transects, each 80m long. Each field was sampled between 8:30 and 12:30 on three different days, in the early, mid, and late morning, respectively.",NA
"Sarah_S_Greenleaf_Solanum_lycopersicum_USA_2001","RIV4","transect","Bombus vosnesenskii","species","bumblebees",3,1440,144,NA,"In each field, bee visits to tomato flowers were recorded along walking transects at the rate of 10 m/min, covering each row twice, once in each direction. In small fields, transects were walked along all rows. In larger fields, surveys were carried out at up to four transects, each 80m long. Each field was sampled between 8:30 and 12:30 on three different days, in the early, mid, and late morning, respectively.",NA
"Sarah_S_Greenleaf_Solanum_lycopersicum_USA_2001","RIV4","transect","Bombus vosnesenskii","species","bumblebees",7,1440,144,NA,"In each field, bee visits to tomato flowers were recorded along walking transects at the rate of 10 m/min, covering each row twice, once in each direction. In small fields, transects were walked along all rows. In larger fields, surveys were carried out at up to four transects, each 80m long. Each field was sampled between 8:30 and 12:30 on three different days, in the early, mid, and late morning, respectively.",NA
"Sarah_S_Greenleaf_Solanum_lycopersicum_USA_2001","RIV4","transect","Bombus vosnesenskii","species","bumblebees",1,1440,144,NA,"In each field, bee visits to tomato flowers were recorded along walking transects at the rate of 10 m/min, covering each row twice, once in each direction. In small fields, transects were walked along all rows. In larger fields, surveys were carried out at up to four transects, each 80m long. Each field was sampled between 8:30 and 12:30 on three different days, in the early, mid, and late morning, respectively.",NA
"Sarah_S_Greenleaf_Solanum_lycopersicum_USA_2001","RIV4","transect","Bombus vosnesenskii","species","bumblebees",6,1440,144,NA,"In each field, bee visits to tomato flowers were recorded along walking transects at the rate of 10 m/min, covering each row twice, once in each direction. In small fields, transects were walked along all rows. In larger fields, surveys were carried out at up to four transects, each 80m long. Each field was sampled between 8:30 and 12:30 on three different days, in the early, mid, and late morning, respectively.",NA
"Sarah_S_Greenleaf_Solanum_lycopersicum_USA_2001","RIV4","transect","Bombus vosnesenskii","species","bumblebees",3,1440,144,NA,"In each field, bee visits to tomato flowers were recorded along walking transects at the rate of 10 m/min, covering each row twice, once in each direction. In small fields, transects were walked along all rows. In larger fields, surveys were carried out at up to four transects, each 80m long. Each field was sampled between 8:30 and 12:30 on three different days, in the early, mid, and late morning, respectively.",NA
"Sarah_S_Greenleaf_Solanum_lycopersicum_USA_2001","RIV4","transect","Bombus vosnesenskii","species","bumblebees",5,1440,144,NA,"In each field, bee visits to tomato flowers were recorded along walking transects at the rate of 10 m/min, covering each row twice, once in each direction. In small fields, transects were walked along all rows. In larger fields, surveys were carried out at up to four transects, each 80m long. Each field was sampled between 8:30 and 12:30 on three different days, in the early, mid, and late morning, respectively.",NA
"Sarah_S_Greenleaf_Solanum_lycopersicum_USA_2001","TER","transect","Bombus vosnesenskii","species","bumblebees",1,1680,168,NA,"In each field, bee visits to tomato flowers were recorded along walking transects at the rate of 10 m/min, covering each row twice, once in each direction. In small fields, transects were walked along all rows. In larger fields, surveys were carried out at up to four transects, each 80m long. Each field was sampled between 8:30 and 12:30 on three different days, in the early, mid, and late morning, respectively.",NA
"Sarah_S_Greenleaf_Solanum_lycopersicum_USA_2001","TER","transect","Bombus vosnesenskii","species","bumblebees",5,1680,168,NA,"In each field, bee visits to tomato flowers were recorded along walking transects at the rate of 10 m/min, covering each row twice, once in each direction. In small fields, transects were walked along all rows. In larger fields, surveys were carried out at up to four transects, each 80m long. Each field was sampled between 8:30 and 12:30 on three different days, in the early, mid, and late morning, respectively.",NA
"Sarah_S_Greenleaf_Solanum_lycopersicum_USA_2001","TER","transect","Bombus vosnesenskii","species","bumblebees",3,1680,168,NA,"In each field, bee visits to tomato flowers were recorded along walking transects at the rate of 10 m/min, covering each row twice, once in each direction. In small fields, transects were walked along all rows. In larger fields, surveys were carried out at up to four transects, each 80m long. Each field was sampled between 8:30 and 12:30 on three different days, in the early, mid, and late morning, respectively.",NA
"Sarah_S_Greenleaf_Solanum_lycopersicum_USA_2001","TER","transect","Bombus vosnesenskii","species","bumblebees",7,1680,168,NA,"In each field, bee visits to tomato flowers were recorded along walking transects at the rate of 10 m/min, covering each row twice, once in each direction. In small fields, transects were walked along all rows. In larger fields, surveys were carried out at up to four transects, each 80m long. Each field was sampled between 8:30 and 12:30 on three different days, in the early, mid, and late morning, respectively.",NA
"Sarah_S_Greenleaf_Solanum_lycopersicum_USA_2001","TER","transect","Bombus vosnesenskii","species","bumblebees",5,1680,168,NA,"In each field, bee visits to tomato flowers were recorded along walking transects at the rate of 10 m/min, covering each row twice, once in each direction. In small fields, transects were walked along all rows. In larger fields, surveys were carried out at up to four transects, each 80m long. Each field was sampled between 8:30 and 12:30 on three different days, in the early, mid, and late morning, respectively.",NA
"Sarah_S_Greenleaf_Solanum_lycopersicum_USA_2001","TER","transect","Bombus vosnesenskii","species","bumblebees",2,1680,168,NA,"In each field, bee visits to tomato flowers were recorded along walking transects at the rate of 10 m/min, covering each row twice, once in each direction. In small fields, transects were walked along all rows. In larger fields, surveys were carried out at up to four transects, each 80m long. Each field was sampled between 8:30 and 12:30 on three different days, in the early, mid, and late morning, respectively.",NA
"Sarah_S_Greenleaf_Solanum_lycopersicum_USA_2001","TER","transect","Bombus vosnesenskii","species","bumblebees",2,1680,168,NA,"In each field, bee visits to tomato flowers were recorded along walking transects at the rate of 10 m/min, covering each row twice, once in each direction. In small fields, transects were walked along all rows. In larger fields, surveys were carried out at up to four transects, each 80m long. Each field was sampled between 8:30 and 12:30 on three different days, in the early, mid, and late morning, respectively.",NA
"Sarah_S_Greenleaf_Solanum_lycopersicum_USA_2001","DUR","transect","Dialictus","subgenus","other_wild_bees",1,1920,192,NA,"In each field, bee visits to tomato flowers were recorded along walking transects at the rate of 10 m/min, covering each row twice, once in each direction. In small fields, transects were walked along all rows. In larger fields, surveys were carried out at up to four transects, each 80m long. Each field was sampled between 8:30 and 12:30 on three different days, in the early, mid, and late morning, respectively.",NA
"Sarah_S_Greenleaf_Solanum_lycopersicum_USA_2001","DUR","transect","Dialictus","subgenus","other_wild_bees",2,1920,192,NA,"In each field, bee visits to tomato flowers were recorded along walking transects at the rate of 10 m/min, covering each row twice, once in each direction. In small fields, transects were walked along all rows. In larger fields, surveys were carried out at up to four transects, each 80m long. Each field was sampled between 8:30 and 12:30 on three different days, in the early, mid, and late morning, respectively.",NA
"Sarah_S_Greenleaf_Solanum_lycopersicum_USA_2001","EVE","transect","Dialictus","subgenus","other_wild_bees",2,1080,108,NA,"In each field, bee visits to tomato flowers were recorded along walking transects at the rate of 10 m/min, covering each row twice, once in each direction. In small fields, transects were walked along all rows. In larger fields, surveys were carried out at up to four transects, each 80m long. Each field was sampled between 8:30 and 12:30 on three different days, in the early, mid, and late morning, respectively.",NA
"Sarah_S_Greenleaf_Solanum_lycopersicum_USA_2001","TER","transect","Dialictus","subgenus","other_wild_bees",1,1680,168,NA,"In each field, bee visits to tomato flowers were recorded along walking transects at the rate of 10 m/min, covering each row twice, once in each direction. In small fields, transects were walked along all rows. In larger fields, surveys were carried out at up to four transects, each 80m long. Each field was sampled between 8:30 and 12:30 on three different days, in the early, mid, and late morning, respectively.",NA
"Sarah_S_Greenleaf_Solanum_lycopersicum_USA_2001","TER","transect","Dialictus","subgenus","other_wild_bees",1,1680,168,NA,"In each field, bee visits to tomato flowers were recorded along walking transects at the rate of 10 m/min, covering each row twice, once in each direction. In small fields, transects were walked along all rows. In larger fields, surveys were carried out at up to four transects, each 80m long. Each field was sampled between 8:30 and 12:30 on three different days, in the early, mid, and late morning, respectively.",NA
"Sarah_S_Greenleaf_Solanum_lycopersicum_USA_2001","TER","transect","Dialictus","subgenus","other_wild_bees",1,1680,168,NA,"In each field, bee visits to tomato flowers were recorded along walking transects at the rate of 10 m/min, covering each row twice, once in each direction. In small fields, transects were walked along all rows. In larger fields, surveys were carried out at up to four transects, each 80m long. Each field was sampled between 8:30 and 12:30 on three different days, in the early, mid, and late morning, respectively.",NA
"Sarah_S_Greenleaf_Solanum_lycopersicum_USA_2001","DUR","transect","Apis","genus","honeybees",1,1920,192,NA,"In each field, bee visits to tomato flowers were recorded along walking transects at the rate of 10 m/min, covering each row twice, once in each direction. In small fields, transects were walked along all rows. In larger fields, surveys were carried out at up to four transects, each 80m long. Each field was sampled between 8:30 and 12:30 on three different days, in the early, mid, and late morning, respectively.",NA
"Sarah_S_Greenleaf_Solanum_lycopersicum_USA_2001","DUR","transect","Apis","genus","honeybees",2,1920,192,NA,"In each field, bee visits to tomato flowers were recorded along walking transects at the rate of 10 m/min, covering each row twice, once in each direction. In small fields, transects were walked along all rows. In larger fields, surveys were carried out at up to four transects, each 80m long. Each field was sampled between 8:30 and 12:30 on three different days, in the early, mid, and late morning, respectively.",NA
"Sarah_S_Greenleaf_Solanum_lycopersicum_USA_2001","DUR","transect","Apis","genus","honeybees",1,1920,192,NA,"In each field, bee visits to tomato flowers were recorded along walking transects at the rate of 10 m/min, covering each row twice, once in each direction. In small fields, transects were walked along all rows. In larger fields, surveys were carried out at up to four transects, each 80m long. Each field was sampled between 8:30 and 12:30 on three different days, in the early, mid, and late morning, respectively.",NA
"Sarah_S_Greenleaf_Solanum_lycopersicum_USA_2001","EVE","transect","Apis","genus","honeybees",1,1080,108,NA,"In each field, bee visits to tomato flowers were recorded along walking transects at the rate of 10 m/min, covering each row twice, once in each direction. In small fields, transects were walked along all rows. In larger fields, surveys were carried out at up to four transects, each 80m long. Each field was sampled between 8:30 and 12:30 on three different days, in the early, mid, and late morning, respectively.",NA
"Sarah_S_Greenleaf_Solanum_lycopersicum_USA_2001","RIV4","transect","Apis","genus","honeybees",1,1440,144,NA,"In each field, bee visits to tomato flowers were recorded along walking transects at the rate of 10 m/min, covering each row twice, once in each direction. In small fields, transects were walked along all rows. In larger fields, surveys were carried out at up to four transects, each 80m long. Each field was sampled between 8:30 and 12:30 on three different days, in the early, mid, and late morning, respectively.",NA
"Sarah_S_Greenleaf_Solanum_lycopersicum_USA_2001","TER","transect","Apis","genus","honeybees",1,1680,168,NA,"In each field, bee visits to tomato flowers were recorded along walking transects at the rate of 10 m/min, covering each row twice, once in each direction. In small fields, transects were walked along all rows. In larger fields, surveys were carried out at up to four transects, each 80m long. Each field was sampled between 8:30 and 12:30 on three different days, in the early, mid, and late morning, respectively.",NA
"Sarah_S_Greenleaf_Solanum_lycopersicum_USA_2001","TER","transect","Apis","genus","honeybees",2,1680,168,NA,"In each field, bee visits to tomato flowers were recorded along walking transects at the rate of 10 m/min, covering each row twice, once in each direction. In small fields, transects were walked along all rows. In larger fields, surveys were carried out at up to four transects, each 80m long. Each field was sampled between 8:30 and 12:30 on three different days, in the early, mid, and late morning, respectively.",NA
"Saul_A_Cunningham_Annona_squamosa atemoya_Australia_2001","briggs_lease","sample of female flowers","Coleoptera_sp.","order","beetles",0.39,NA,NA,NA,"Insects/flower: sample of 100 female-phase flowers from 30 to 50 randomly selected trees at each orchard.",NA
"Saul_A_Cunningham_Annona_squamosa atemoya_Australia_2001","briggs_house","sample of female flowers","Coleoptera_sp.","order","beetles",0.69,NA,NA,NA,"Insects/flower: sample of 100 female-phase flowers from 30 to 50 randomly selected trees at each orchard.",NA
"Saul_A_Cunningham_Annona_squamosa atemoya_Australia_2001","cummings","sample of female flowers","Coleoptera_sp.","order","beetles",0.93,NA,NA,NA,"Insects/flower: sample of 100 female-phase flowers from 30 to 50 randomly selected trees at each orchard.",NA
"Saul_A_Cunningham_Annona_squamosa atemoya_Australia_2001","cescotta","sample of female flowers","Coleoptera_sp.","order","beetles",0.15,NA,NA,NA,"Insects/flower: sample of 100 female-phase flowers from 30 to 50 randomly selected trees at each orchard.",NA
"Saul_A_Cunningham_Annona_squamosa atemoya_Australia_2001","Kilpatrick","sample of female flowers","Coleoptera_sp.","order","beetles",0.19,NA,NA,NA,"Insects/flower: sample of 100 female-phase flowers from 30 to 50 randomly selected trees at each orchard.",NA
"Saul_A_Cunningham_Annona_squamosa atemoya_Australia_2001","Lavers","sample of female flowers","Coleoptera_sp.","order","beetles",1.19,NA,NA,NA,"Insects/flower: sample of 100 female-phase flowers from 30 to 50 randomly selected trees at each orchard.",NA
"Saul_A_Cunningham_Annona_squamosa atemoya_Australia_2001","Samanes","sample of female flowers","Coleoptera_sp.","order","beetles",0.31,NA,NA,NA,"Insects/flower: sample of 100 female-phase flowers from 30 to 50 randomly selected trees at each orchard.",NA
"Saul_A_Cunningham_Annona_squamosa atemoya_Australia_2001","Stewart","sample of female flowers","Coleoptera_sp.","order","beetles",0.02,NA,NA,NA,"Insects/flower: sample of 100 female-phase flowers from 30 to 50 randomly selected trees at each orchard.",NA
"Saul_A_Cunningham_Annona_squamosa atemoya_Australia_2001","Land","sample of female flowers","Coleoptera_sp.","order","beetles",0.04,NA,NA,NA,"Insects/flower: sample of 100 female-phase flowers from 30 to 50 randomly selected trees at each orchard.",NA
"Saul_A_Cunningham_Brassica_napus_Australia_2006","f","transects","Apis_mellifera","species","honeybees",284,2160,208,NA,"22.5 m long by 3 m wide transects, 5-8 min each.",NA
"Saul_A_Cunningham_Brassica_napus_Australia_2006","d","transects","Apis_mellifera","species","honeybees",201.00000006,1215,117,NA,"22.5 m long by 3 m wide transects, 5-8 min each.",NA
"Saul_A_Cunningham_Brassica_napus_Australia_2006","e","transects","Apis_mellifera","species","honeybees",573.00000002,4725,455,NA,"22.5 m long by 3 m wide transects, 5-8 min each.",NA
"Saul_A_Cunningham_Brassica_napus_Australia_2006","a","transects","Apis_mellifera","species","honeybees",391.99999984,2295,221,NA,"22.5 m long by 3 m wide transects, 5-8 min each.",NA
"Saul_A_Cunningham_Brassica_napus_Australia_2006","c","transects","Apis_mellifera","species","honeybees",59.000000004,1485,143,NA,"22.5 m long by 3 m wide transects, 5-8 min each.",NA
"Saul_A_Cunningham_Brassica_napus_Australia_2006","b","transects","Apis_mellifera","species","honeybees",659.00000016,2430,234,NA,"22.5 m long by 3 m wide transects, 5-8 min each.",NA
"Saul_A_Cunningham_Brassica_napus_Australia_2006","f","transects","syrphidae","family","syrphids",211,2160,208,NA,"22.5 m long by 3 m wide transects, 5-8 min each.",NA
"Saul_A_Cunningham_Brassica_napus_Australia_2006","d","transects","syrphidae","family","syrphids",111.999999996,1215,117,NA,"22.5 m long by 3 m wide transects, 5-8 min each.",NA
"Saul_A_Cunningham_Brassica_napus_Australia_2006","e","transects","syrphidae","family","syrphids",174.00000002,4725,455,NA,"22.5 m long by 3 m wide transects, 5-8 min each.",NA
"Saul_A_Cunningham_Brassica_napus_Australia_2006","a","transects","syrphidae","family","syrphids",510,2295,221,NA,"22.5 m long by 3 m wide transects, 5-8 min each.",NA
"Saul_A_Cunningham_Brassica_napus_Australia_2006","c","transects","syrphidae","family","syrphids",229.00000002,1485,143,NA,"22.5 m long by 3 m wide transects, 5-8 min each.",NA
"Saul_A_Cunningham_Brassica_napus_Australia_2006","b","transects","syrphidae","family","syrphids",1782,2430,234,NA,"22.5 m long by 3 m wide transects, 5-8 min each.",NA
"Saul_A_Cunningham_Brassica_napus_Australia_2006","f","transects","wild_bee_unknown","superfamily","other_wild_bees",89,2160,208,NA,"22.5 m long by 3 m wide transects, 5-8 min each.","Apoidea?"
"Saul_A_Cunningham_Brassica_napus_Australia_2006","d","transects","wild_bee_unknown","superfamily","other_wild_bees",14.999999994,1215,117,NA,"22.5 m long by 3 m wide transects, 5-8 min each.","Apoidea?"
"Saul_A_Cunningham_Brassica_napus_Australia_2006","e","transects","wild_bee_unknown","superfamily","other_wild_bees",70,4725,455,NA,"22.5 m long by 3 m wide transects, 5-8 min each.","Apoidea?"
"Saul_A_Cunningham_Brassica_napus_Australia_2006","a","transects","wild_bee_unknown","superfamily","other_wild_bees",448.00000006,2295,221,NA,"22.5 m long by 3 m wide transects, 5-8 min each.","Apoidea?"
"Saul_A_Cunningham_Brassica_napus_Australia_2006","c","transects","wild_bee_unknown","superfamily","other_wild_bees",81.999999994,1485,143,NA,"22.5 m long by 3 m wide transects, 5-8 min each.","Apoidea?"
"Saul_A_Cunningham_Brassica_napus_Australia_2006","b","transects","wild_bee_unknown","superfamily","other_wild_bees",240.000000012,2430,234,NA,"22.5 m long by 3 m wide transects, 5-8 min each.","Apoidea?"
"Shalene_Jha_Coffea_arabica_robusta_Mexico_2006","Ir1","observation","Dialictus sp. 2","morphospecies","other_wild_bees",2,NA,15,NA,"Abundance here refers to total amount of flowers visited by an organism. Surveys were conducted in 15 minute periods between 8:00 and 14:00. At each site, four fully flowering branches were randomly selected from a randomly chosen cofffe bush.Observation period: 43",NA
"Shalene_Jha_Coffea_arabica_robusta_Mexico_2006","Ir1","observation","Nanotrigona testaceicornis","species","other_wild_bees",1,NA,15,NA,"Abundance here refers to total amount of flowers visited by an organism. Surveys were conducted in 15 minute periods between 8:00 and 14:00. At each site, four fully flowering branches were randomly selected from a randomly chosen cofffe bush.Observation period: 43",NA
"Shalene_Jha_Coffea_arabica_robusta_Mexico_2006","Ir1","observation","Apis","genus","honeybees",1,NA,15,NA,"Abundance here refers to total amount of flowers visited by an organism. Surveys were conducted in 15 minute periods between 8:00 and 14:00. At each site, four fully flowering branches were randomly selected from a randomly chosen cofffe bush.Observation period: 43",NA
"Shalene_Jha_Coffea_arabica_robusta_Mexico_2006","Ir1","observation","Halictus hesperus","species","other_wild_bees",1,NA,15,NA,"Abundance here refers to total amount of flowers visited by an organism. Surveys were conducted in 15 minute periods between 8:00 and 14:00. At each site, four fully flowering branches were randomly selected from a randomly chosen cofffe bush.Observation period: 46",NA
"Shalene_Jha_Coffea_arabica_robusta_Mexico_2006","Ir1","observation","Halictus hesperus","species","other_wild_bees",1,NA,15,NA,"Abundance here refers to total amount of flowers visited by an organism. Surveys were conducted in 15 minute periods between 8:00 and 14:00. At each site, four fully flowering branches were randomly selected from a randomly chosen cofffe bush.Observation period: 46",NA
"Shalene_Jha_Coffea_arabica_robusta_Mexico_2006","Ir1","observation","Scaptotrigona mexicana","species","other_wild_bees",1,NA,15,NA,"Abundance here refers to total amount of flowers visited by an organism. Surveys were conducted in 15 minute periods between 8:00 and 14:00. At each site, four fully flowering branches were randomly selected from a randomly chosen cofffe bush.Observation period: 46",NA
"Shalene_Jha_Coffea_arabica_robusta_Mexico_2006","Ir1","observation","Plebia sp. 2","morphospecies","other_wild_bees",2,NA,15,NA,"Abundance here refers to total amount of flowers visited by an organism. Surveys were conducted in 15 minute periods between 8:00 and 14:00. At each site, four fully flowering branches were randomly selected from a randomly chosen cofffe bush.Observation period: 46",NA
"Shalene_Jha_Coffea_arabica_robusta_Mexico_2006","Ir1","observation","Apis","genus","honeybees",3,NA,15,NA,"Abundance here refers to total amount of flowers visited by an organism. Surveys were conducted in 15 minute periods between 8:00 and 14:00. At each site, four fully flowering branches were randomly selected from a randomly chosen cofffe bush.Observation period: 47",NA
"Shalene_Jha_Coffea_arabica_robusta_Mexico_2006","Ir1","observation","Scaptotrigona mexicana","species","other_wild_bees",1,NA,15,NA,"Abundance here refers to total amount of flowers visited by an organism. Surveys were conducted in 15 minute periods between 8:00 and 14:00. At each site, four fully flowering branches were randomly selected from a randomly chosen cofffe bush.Observation period: 47",NA
"Shalene_Jha_Coffea_arabica_robusta_Mexico_2006","Ir1","observation","Scaptotrigona mexicana","species","other_wild_bees",2,NA,15,NA,"Abundance here refers to total amount of flowers visited by an organism. Surveys were conducted in 15 minute periods between 8:00 and 14:00. At each site, four fully flowering branches were randomly selected from a randomly chosen cofffe bush.Observation period: 47",NA
"Shalene_Jha_Coffea_arabica_robusta_Mexico_2006","Ir1","observation","Dialictus sp. 2","morphospecies","other_wild_bees",1,NA,15,NA,"Abundance here refers to total amount of flowers visited by an organism. Surveys were conducted in 15 minute periods between 8:00 and 14:00. At each site, four fully flowering branches were randomly selected from a randomly chosen cofffe bush.Observation period: 47",NA
"Shalene_Jha_Coffea_arabica_robusta_Mexico_2006","Ir1","observation","Dialictus sp. 2","morphospecies","other_wild_bees",2,NA,15,NA,"Abundance here refers to total amount of flowers visited by an organism. Surveys were conducted in 15 minute periods between 8:00 and 14:00. At each site, four fully flowering branches were randomly selected from a randomly chosen cofffe bush.Observation period: 47",NA
"Shalene_Jha_Coffea_arabica_robusta_Mexico_2006","Ir1","observation","Scaptotrigona mexicana","species","other_wild_bees",2,NA,15,NA,"Abundance here refers to total amount of flowers visited by an organism. Surveys were conducted in 15 minute periods between 8:00 and 14:00. At each site, four fully flowering branches were randomly selected from a randomly chosen cofffe bush.Observation period: 47",NA
"Shalene_Jha_Coffea_arabica_robusta_Mexico_2006","Ir1","observation","Dialictus sp. 2","morphospecies","other_wild_bees",1,NA,15,NA,"Abundance here refers to total amount of flowers visited by an organism. Surveys were conducted in 15 minute periods between 8:00 and 14:00. At each site, four fully flowering branches were randomly selected from a randomly chosen cofffe bush.Observation period: 48",NA
"Shalene_Jha_Coffea_arabica_robusta_Mexico_2006","Ir1","observation","Scaptotrigona mexicana","species","other_wild_bees",2,NA,15,NA,"Abundance here refers to total amount of flowers visited by an organism. Surveys were conducted in 15 minute periods between 8:00 and 14:00. At each site, four fully flowering branches were randomly selected from a randomly chosen cofffe bush.Observation period: 48",NA
"Shalene_Jha_Coffea_arabica_robusta_Mexico_2006","Ir1","observation","Scaptotrigona mexicana","species","other_wild_bees",3,NA,15,NA,"Abundance here refers to total amount of flowers visited by an organism. Surveys were conducted in 15 minute periods between 8:00 and 14:00. At each site, four fully flowering branches were randomly selected from a randomly chosen cofffe bush.Observation period: 48",NA
"Shalene_Jha_Coffea_arabica_robusta_Mexico_2006","Ir1","observation","Scaptotrigona mexicana","species","other_wild_bees",1,NA,15,NA,"Abundance here refers to total amount of flowers visited by an organism. Surveys were conducted in 15 minute periods between 8:00 and 14:00. At each site, four fully flowering branches were randomly selected from a randomly chosen cofffe bush.Observation period: 48",NA
"Shalene_Jha_Coffea_arabica_robusta_Mexico_2006","Ir1","observation","Dialictus sp. 2","morphospecies","other_wild_bees",1,NA,15,NA,"Abundance here refers to total amount of flowers visited by an organism. Surveys were conducted in 15 minute periods between 8:00 and 14:00. At each site, four fully flowering branches were randomly selected from a randomly chosen cofffe bush.Observation period: 48",NA
"Shalene_Jha_Coffea_arabica_robusta_Mexico_2006","Ir1","observation","Dialictus sp. 2","morphospecies","other_wild_bees",2,NA,15,NA,"Abundance here refers to total amount of flowers visited by an organism. Surveys were conducted in 15 minute periods between 8:00 and 14:00. At each site, four fully flowering branches were randomly selected from a randomly chosen cofffe bush.Observation period: 48",NA
"Shalene_Jha_Coffea_arabica_robusta_Mexico_2006","Ir1","observation","Dialictus sp. 2","morphospecies","other_wild_bees",1,NA,15,NA,"Abundance here refers to total amount of flowers visited by an organism. Surveys were conducted in 15 minute periods between 8:00 and 14:00. At each site, four fully flowering branches were randomly selected from a randomly chosen cofffe bush.Observation period: 48",NA
"Shalene_Jha_Coffea_arabica_robusta_Mexico_2006","Ir1","observation","Dialictus sp. 2","morphospecies","other_wild_bees",2,NA,15,NA,"Abundance here refers to total amount of flowers visited by an organism. Surveys were conducted in 15 minute periods between 8:00 and 14:00. At each site, four fully flowering branches were randomly selected from a randomly chosen cofffe bush.Observation period: 48",NA
"Shalene_Jha_Coffea_arabica_robusta_Mexico_2006","Ir1","observation","Dialictus sp. 2","morphospecies","other_wild_bees",1,NA,15,NA,"Abundance here refers to total amount of flowers visited by an organism. Surveys were conducted in 15 minute periods between 8:00 and 14:00. At each site, four fully flowering branches were randomly selected from a randomly chosen cofffe bush.Observation period: 48",NA
"Shalene_Jha_Coffea_arabica_robusta_Mexico_2006","Ir1","observation","Scaptotrigona mexicana","species","other_wild_bees",1,NA,15,NA,"Abundance here refers to total amount of flowers visited by an organism. Surveys were conducted in 15 minute periods between 8:00 and 14:00. At each site, four fully flowering branches were randomly selected from a randomly chosen cofffe bush.Observation period: 48",NA
"Shalene_Jha_Coffea_arabica_robusta_Mexico_2006","Ir1","observation","Scaptotrigona mexicana","species","other_wild_bees",4,NA,15,NA,"Abundance here refers to total amount of flowers visited by an organism. Surveys were conducted in 15 minute periods between 8:00 and 14:00. At each site, four fully flowering branches were randomly selected from a randomly chosen cofffe bush.Observation period: 48",NA
"Shalene_Jha_Coffea_arabica_robusta_Mexico_2006","Ir1","observation","Scaptotrigona mexicana","species","other_wild_bees",5,NA,15,NA,"Abundance here refers to total amount of flowers visited by an organism. Surveys were conducted in 15 minute periods between 8:00 and 14:00. At each site, four fully flowering branches were randomly selected from a randomly chosen cofffe bush.Observation period: 70",NA
"Shalene_Jha_Coffea_arabica_robusta_Mexico_2006","Ir1","observation","Xylocopa tabaniformis","species","other_wild_bees",8,NA,15,NA,"Abundance here refers to total amount of flowers visited by an organism. Surveys were conducted in 15 minute periods between 8:00 and 14:00. At each site, four fully flowering branches were randomly selected from a randomly chosen cofffe bush.Observation period: 70",NA
"Shalene_Jha_Coffea_arabica_robusta_Mexico_2006","Ir1","observation","Xylocopa tabaniformis","species","other_wild_bees",8,NA,15,NA,"Abundance here refers to total amount of flowers visited by an organism. Surveys were conducted in 15 minute periods between 8:00 and 14:00. At each site, four fully flowering branches were randomly selected from a randomly chosen cofffe bush.Observation period: 70",NA
"Shalene_Jha_Coffea_arabica_robusta_Mexico_2006","Ir1","observation","Scaptotrigona mexicana","species","other_wild_bees",4,NA,15,NA,"Abundance here refers to total amount of flowers visited by an organism. Surveys were conducted in 15 minute periods between 8:00 and 14:00. At each site, four fully flowering branches were randomly selected from a randomly chosen cofffe bush.Observation period: 70",NA
"Shalene_Jha_Coffea_arabica_robusta_Mexico_2006","Ir1","observation","Scaptotrigona mexicana","species","other_wild_bees",1,NA,15,NA,"Abundance here refers to total amount of flowers visited by an organism. Surveys were conducted in 15 minute periods between 8:00 and 14:00. At each site, four fully flowering branches were randomly selected from a randomly chosen cofffe bush.Observation period: 70",NA
"Shalene_Jha_Coffea_arabica_robusta_Mexico_2006","Ir1","observation","Scaptotrigona mexicana","species","other_wild_bees",1,NA,15,NA,"Abundance here refers to total amount of flowers visited by an organism. Surveys were conducted in 15 minute periods between 8:00 and 14:00. At each site, four fully flowering branches were randomly selected from a randomly chosen cofffe bush.Observation period: 70",NA
"Shalene_Jha_Coffea_arabica_robusta_Mexico_2006","Ir1","observation","Scaptotrigona mexicana","species","other_wild_bees",2,NA,15,NA,"Abundance here refers to total amount of flowers visited by an organism. Surveys were conducted in 15 minute periods between 8:00 and 14:00. At each site, four fully flowering branches were randomly selected from a randomly chosen cofffe bush.Observation period: 70",NA
"Shalene_Jha_Coffea_arabica_robusta_Mexico_2006","Ir1","observation","Scaptotrigona mexicana","species","other_wild_bees",1,NA,15,NA,"Abundance here refers to total amount of flowers visited by an organism. Surveys were conducted in 15 minute periods between 8:00 and 14:00. At each site, four fully flowering branches were randomly selected from a randomly chosen cofffe bush.Observation period: 70",NA
"Shalene_Jha_Coffea_arabica_robusta_Mexico_2006","Ir1","observation","Scaptotrigona mexicana","species","other_wild_bees",5,NA,15,NA,"Abundance here refers to total amount of flowers visited by an organism. Surveys were conducted in 15 minute periods between 8:00 and 14:00. At each site, four fully flowering branches were randomly selected from a randomly chosen cofffe bush.Observation period: 70",NA
"Shalene_Jha_Coffea_arabica_robusta_Mexico_2006","Ir1","observation","Scaptotrigona mexicana","species","other_wild_bees",3,NA,15,NA,"Abundance here refers to total amount of flowers visited by an organism. Surveys were conducted in 15 minute periods between 8:00 and 14:00. At each site, four fully flowering branches were randomly selected from a randomly chosen cofffe bush.Observation period: 70",NA
"Shalene_Jha_Coffea_arabica_robusta_Mexico_2006","Ir1","observation","Scaptotrigona mexicana","species","other_wild_bees",2,NA,15,NA,"Abundance here refers to total amount of flowers visited by an organism. Surveys were conducted in 15 minute periods between 8:00 and 14:00. At each site, four fully flowering branches were randomly selected from a randomly chosen cofffe bush.Observation period: 70",NA
"Shalene_Jha_Coffea_arabica_robusta_Mexico_2006","Ir1","observation","Scaptotrigona mexicana","species","other_wild_bees",2,NA,15,NA,"Abundance here refers to total amount of flowers visited by an organism. Surveys were conducted in 15 minute periods between 8:00 and 14:00. At each site, four fully flowering branches were randomly selected from a randomly chosen cofffe bush.Observation period: 70",NA
"Shalene_Jha_Coffea_arabica_robusta_Mexico_2006","Ir1","observation","Dialictus sp. 2","morphospecies","other_wild_bees",1,NA,15,NA,"Abundance here refers to total amount of flowers visited by an organism. Surveys were conducted in 15 minute periods between 8:00 and 14:00. At each site, four fully flowering branches were randomly selected from a randomly chosen cofffe bush.Observation period: 70",NA
"Shalene_Jha_Coffea_arabica_robusta_Mexico_2006","Ir1","observation","Scaptotrigona mexicana","species","other_wild_bees",2,NA,15,NA,"Abundance here refers to total amount of flowers visited by an organism. Surveys were conducted in 15 minute periods between 8:00 and 14:00. At each site, four fully flowering branches were randomly selected from a randomly chosen cofffe bush.Observation period: 70",NA
"Shalene_Jha_Coffea_arabica_robusta_Mexico_2006","Ir1","observation","Plebia sp. 2","morphospecies","other_wild_bees",1,NA,15,NA,"Abundance here refers to total amount of flowers visited by an organism. Surveys were conducted in 15 minute periods between 8:00 and 14:00. At each site, four fully flowering branches were randomly selected from a randomly chosen cofffe bush.Observation period: 70",NA
"Shalene_Jha_Coffea_arabica_robusta_Mexico_2006","Ir1","observation","Plebia sp. 2","morphospecies","other_wild_bees",2,NA,15,NA,"Abundance here refers to total amount of flowers visited by an organism. Surveys were conducted in 15 minute periods between 8:00 and 14:00. At each site, four fully flowering branches were randomly selected from a randomly chosen cofffe bush.Observation period: 70",NA
"Shalene_Jha_Coffea_arabica_robusta_Mexico_2006","Ir1","observation","Scaptotrigona mexicana","species","other_wild_bees",1,NA,15,NA,"Abundance here refers to total amount of flowers visited by an organism. Surveys were conducted in 15 minute periods between 8:00 and 14:00. At each site, four fully flowering branches were randomly selected from a randomly chosen cofffe bush.Observation period: 70",NA
"Shalene_Jha_Coffea_arabica_robusta_Mexico_2006","Ir1","observation","Apis","genus","honeybees",1,NA,15,NA,"Abundance here refers to total amount of flowers visited by an organism. Surveys were conducted in 15 minute periods between 8:00 and 14:00. At each site, four fully flowering branches were randomly selected from a randomly chosen cofffe bush.Observation period: 73",NA
"Shalene_Jha_Coffea_arabica_robusta_Mexico_2006","Ir1","observation","Apis","genus","honeybees",2,NA,15,NA,"Abundance here refers to total amount of flowers visited by an organism. Surveys were conducted in 15 minute periods between 8:00 and 14:00. At each site, four fully flowering branches were randomly selected from a randomly chosen cofffe bush.Observation period: 73",NA
"Shalene_Jha_Coffea_arabica_robusta_Mexico_2006","Ir1","observation","Apis","genus","honeybees",9,NA,15,NA,"Abundance here refers to total amount of flowers visited by an organism. Surveys were conducted in 15 minute periods between 8:00 and 14:00. At each site, four fully flowering branches were randomly selected from a randomly chosen cofffe bush.Observation period: 74",NA
"Shalene_Jha_Coffea_arabica_robusta_Mexico_2006","Ir1","observation","Apis","genus","honeybees",2,NA,15,NA,"Abundance here refers to total amount of flowers visited by an organism. Surveys were conducted in 15 minute periods between 8:00 and 14:00. At each site, four fully flowering branches were randomly selected from a randomly chosen cofffe bush.Observation period: 75",NA
"Shalene_Jha_Coffea_arabica_robusta_Mexico_2006","Ir1","observation","Apis","genus","honeybees",1,NA,15,NA,"Abundance here refers to total amount of flowers visited by an organism. Surveys were conducted in 15 minute periods between 8:00 and 14:00. At each site, four fully flowering branches were randomly selected from a randomly chosen cofffe bush.Observation period: 75",NA
"Shalene_Jha_Coffea_arabica_robusta_Mexico_2006","Ir1","observation","Apis","genus","honeybees",3,NA,15,NA,"Abundance here refers to total amount of flowers visited by an organism. Surveys were conducted in 15 minute periods between 8:00 and 14:00. At each site, four fully flowering branches were randomly selected from a randomly chosen cofffe bush.Observation period: 75",NA
"Shalene_Jha_Coffea_arabica_robusta_Mexico_2006","Ir1","observation","Apis","genus","honeybees",3,NA,15,NA,"Abundance here refers to total amount of flowers visited by an organism. Surveys were conducted in 15 minute periods between 8:00 and 14:00. At each site, four fully flowering branches were randomly selected from a randomly chosen cofffe bush.Observation period: 75",NA
"Shalene_Jha_Coffea_arabica_robusta_Mexico_2006","Ir1","observation","Apis","genus","honeybees",2,NA,15,NA,"Abundance here refers to total amount of flowers visited by an organism. Surveys were conducted in 15 minute periods between 8:00 and 14:00. At each site, four fully flowering branches were randomly selected from a randomly chosen cofffe bush.Observation period: 75",NA
"Shalene_Jha_Coffea_arabica_robusta_Mexico_2006","Ir1","observation","Apis","genus","honeybees",4,NA,15,NA,"Abundance here refers to total amount of flowers visited by an organism. Surveys were conducted in 15 minute periods between 8:00 and 14:00. At each site, four fully flowering branches were randomly selected from a randomly chosen cofffe bush.Observation period: 76",NA
"Shalene_Jha_Coffea_arabica_robusta_Mexico_2006","Ir1","observation","Apis","genus","honeybees",2,NA,15,NA,"Abundance here refers to total amount of flowers visited by an organism. Surveys were conducted in 15 minute periods between 8:00 and 14:00. At each site, four fully flowering branches were randomly selected from a randomly chosen cofffe bush.Observation period: 76",NA
"Shalene_Jha_Coffea_arabica_robusta_Mexico_2006","Ir1","observation","Apis","genus","honeybees",1,NA,15,NA,"Abundance here refers to total amount of flowers visited by an organism. Surveys were conducted in 15 minute periods between 8:00 and 14:00. At each site, four fully flowering branches were randomly selected from a randomly chosen cofffe bush.Observation period: 76",NA
"Shalene_Jha_Coffea_arabica_robusta_Mexico_2006","Ir1","observation","Apis","genus","honeybees",1,NA,15,NA,"Abundance here refers to total amount of flowers visited by an organism. Surveys were conducted in 15 minute periods between 8:00 and 14:00. At each site, four fully flowering branches were randomly selected from a randomly chosen cofffe bush.Observation period: 76",NA
"Shalene_Jha_Coffea_arabica_robusta_Mexico_2006","Ir1","observation","Apis","genus","honeybees",1,NA,15,NA,"Abundance here refers to total amount of flowers visited by an organism. Surveys were conducted in 15 minute periods between 8:00 and 14:00. At each site, four fully flowering branches were randomly selected from a randomly chosen cofffe bush.Observation period: 76",NA
"Shalene_Jha_Coffea_arabica_robusta_Mexico_2006","Ir1","observation","Apis","genus","honeybees",6,NA,15,NA,"Abundance here refers to total amount of flowers visited by an organism. Surveys were conducted in 15 minute periods between 8:00 and 14:00. At each site, four fully flowering branches were randomly selected from a randomly chosen cofffe bush.Observation period: 76",NA
"Shalene_Jha_Coffea_arabica_robusta_Mexico_2006","Ir1","observation","Apis","genus","honeybees",4,NA,15,NA,"Abundance here refers to total amount of flowers visited by an organism. Surveys were conducted in 15 minute periods between 8:00 and 14:00. At each site, four fully flowering branches were randomly selected from a randomly chosen cofffe bush.Observation period: 77",NA
"Shalene_Jha_Coffea_arabica_robusta_Mexico_2006","Ir1","observation","Apis","genus","honeybees",1,NA,15,NA,"Abundance here refers to total amount of flowers visited by an organism. Surveys were conducted in 15 minute periods between 8:00 and 14:00. At each site, four fully flowering branches were randomly selected from a randomly chosen cofffe bush.Observation period: 77",NA
"Shalene_Jha_Coffea_arabica_robusta_Mexico_2006","Ir1","observation","Apis","genus","honeybees",1,NA,15,NA,"Abundance here refers to total amount of flowers visited by an organism. Surveys were conducted in 15 minute periods between 8:00 and 14:00. At each site, four fully flowering branches were randomly selected from a randomly chosen cofffe bush.Observation period: 77",NA
"Shalene_Jha_Coffea_arabica_robusta_Mexico_2006","Ir1","observation","Apis","genus","honeybees",8,NA,15,NA,"Abundance here refers to total amount of flowers visited by an organism. Surveys were conducted in 15 minute periods between 8:00 and 14:00. At each site, four fully flowering branches were randomly selected from a randomly chosen cofffe bush.Observation period: 77",NA
"Shalene_Jha_Coffea_arabica_robusta_Mexico_2006","Ir1","observation","Apis","genus","honeybees",3,NA,15,NA,"Abundance here refers to total amount of flowers visited by an organism. Surveys were conducted in 15 minute periods between 8:00 and 14:00. At each site, four fully flowering branches were randomly selected from a randomly chosen cofffe bush.Observation period: 77",NA
"Shalene_Jha_Coffea_arabica_robusta_Mexico_2006","Ir1","observation","Apis","genus","honeybees",6,NA,15,NA,"Abundance here refers to total amount of flowers visited by an organism. Surveys were conducted in 15 minute periods between 8:00 and 14:00. At each site, four fully flowering branches were randomly selected from a randomly chosen cofffe bush.Observation period: 77",NA
"Shalene_Jha_Coffea_arabica_robusta_Mexico_2006","Ir1","observation","Apis","genus","honeybees",1,NA,15,NA,"Abundance here refers to total amount of flowers visited by an organism. Surveys were conducted in 15 minute periods between 8:00 and 14:00. At each site, four fully flowering branches were randomly selected from a randomly chosen cofffe bush.Observation period: 78",NA
"Shalene_Jha_Coffea_arabica_robusta_Mexico_2006","Ir1","observation","Apis","genus","honeybees",9,NA,15,NA,"Abundance here refers to total amount of flowers visited by an organism. Surveys were conducted in 15 minute periods between 8:00 and 14:00. At each site, four fully flowering branches were randomly selected from a randomly chosen cofffe bush.Observation period: 78",NA
"Shalene_Jha_Coffea_arabica_robusta_Mexico_2006","Ir1","observation","Apis","genus","honeybees",6,NA,15,NA,"Abundance here refers to total amount of flowers visited by an organism. Surveys were conducted in 15 minute periods between 8:00 and 14:00. At each site, four fully flowering branches were randomly selected from a randomly chosen cofffe bush.Observation period: 78",NA
"Shalene_Jha_Coffea_arabica_robusta_Mexico_2006","Ir1","observation","Apis","genus","honeybees",2,NA,15,NA,"Abundance here refers to total amount of flowers visited by an organism. Surveys were conducted in 15 minute periods between 8:00 and 14:00. At each site, four fully flowering branches were randomly selected from a randomly chosen cofffe bush.Observation period: 78",NA
"Shalene_Jha_Coffea_arabica_robusta_Mexico_2006","Ir1","observation","Apis","genus","honeybees",5,NA,15,NA,"Abundance here refers to total amount of flowers visited by an organism. Surveys were conducted in 15 minute periods between 8:00 and 14:00. At each site, four fully flowering branches were randomly selected from a randomly chosen cofffe bush.Observation period: 78",NA
"Shalene_Jha_Coffea_arabica_robusta_Mexico_2006","Ir1","observation","Apis","genus","honeybees",1,NA,15,NA,"Abundance here refers to total amount of flowers visited by an organism. Surveys were conducted in 15 minute periods between 8:00 and 14:00. At each site, four fully flowering branches were randomly selected from a randomly chosen cofffe bush.Observation period: 78",NA
"Shalene_Jha_Coffea_arabica_robusta_Mexico_2006","Ir1","observation","Apis","genus","honeybees",7,NA,15,NA,"Abundance here refers to total amount of flowers visited by an organism. Surveys were conducted in 15 minute periods between 8:00 and 14:00. At each site, four fully flowering branches were randomly selected from a randomly chosen cofffe bush.Observation period: 78",NA
"Shalene_Jha_Coffea_arabica_robusta_Mexico_2006","Ir1","observation","Scaptotrigona mexicana","species","other_wild_bees",3,NA,15,NA,"Abundance here refers to total amount of flowers visited by an organism. Surveys were conducted in 15 minute periods between 8:00 and 14:00. At each site, four fully flowering branches were randomly selected from a randomly chosen cofffe bush.Observation period: 79",NA
"Shalene_Jha_Coffea_arabica_robusta_Mexico_2006","Ir1","observation","Dialictus sp. 2","morphospecies","other_wild_bees",2,NA,15,NA,"Abundance here refers to total amount of flowers visited by an organism. Surveys were conducted in 15 minute periods between 8:00 and 14:00. At each site, four fully flowering branches were randomly selected from a randomly chosen cofffe bush.Observation period: 79",NA
"Shalene_Jha_Coffea_arabica_robusta_Mexico_2006","Ir1","observation","Scaptotrigona mexicana","species","other_wild_bees",1,NA,15,NA,"Abundance here refers to total amount of flowers visited by an organism. Surveys were conducted in 15 minute periods between 8:00 and 14:00. At each site, four fully flowering branches were randomly selected from a randomly chosen cofffe bush.Observation period: 79",NA
"Shalene_Jha_Coffea_arabica_robusta_Mexico_2006","Ir1","observation","Scaptotrigona mexicana","species","other_wild_bees",2,NA,15,NA,"Abundance here refers to total amount of flowers visited by an organism. Surveys were conducted in 15 minute periods between 8:00 and 14:00. At each site, four fully flowering branches were randomly selected from a randomly chosen cofffe bush.Observation period: 79",NA
"Shalene_Jha_Coffea_arabica_robusta_Mexico_2006","Ir1","observation","Scaptotrigona mexicana","species","other_wild_bees",1,NA,15,NA,"Abundance here refers to total amount of flowers visited by an organism. Surveys were conducted in 15 minute periods between 8:00 and 14:00. At each site, four fully flowering branches were randomly selected from a randomly chosen cofffe bush.Observation period: 79",NA
"Shalene_Jha_Coffea_arabica_robusta_Mexico_2006","Ir1","observation","Scaptotrigona mexicana","species","other_wild_bees",1,NA,15,NA,"Abundance here refers to total amount of flowers visited by an organism. Surveys were conducted in 15 minute periods between 8:00 and 14:00. At each site, four fully flowering branches were randomly selected from a randomly chosen cofffe bush.Observation period: 79",NA
"Shalene_Jha_Coffea_arabica_robusta_Mexico_2006","Ir1","observation","Nanotrigona testaceicornis","species","other_wild_bees",3,NA,15,NA,"Abundance here refers to total amount of flowers visited by an organism. Surveys were conducted in 15 minute periods between 8:00 and 14:00. At each site, four fully flowering branches were randomly selected from a randomly chosen cofffe bush.Observation period: 79",NA
"Shalene_Jha_Coffea_arabica_robusta_Mexico_2006","Ir1","observation","Scaptotrigona mexicana","species","other_wild_bees",4,NA,15,NA,"Abundance here refers to total amount of flowers visited by an organism. Surveys were conducted in 15 minute periods between 8:00 and 14:00. At each site, four fully flowering branches were randomly selected from a randomly chosen cofffe bush.Observation period: 79",NA
"Shalene_Jha_Coffea_arabica_robusta_Mexico_2006","Ir1","observation","Scaptotrigona mexicana","species","other_wild_bees",3,NA,15,NA,"Abundance here refers to total amount of flowers visited by an organism. Surveys were conducted in 15 minute periods between 8:00 and 14:00. At each site, four fully flowering branches were randomly selected from a randomly chosen cofffe bush.Observation period: 79",NA
"Shalene_Jha_Coffea_arabica_robusta_Mexico_2006","Ir1","observation","Halictus hesperus","species","other_wild_bees",1,NA,15,NA,"Abundance here refers to total amount of flowers visited by an organism. Surveys were conducted in 15 minute periods between 8:00 and 14:00. At each site, four fully flowering branches were randomly selected from a randomly chosen cofffe bush.Observation period: 80",NA
"Shalene_Jha_Coffea_arabica_robusta_Mexico_2006","Ir1","observation","Apis","genus","honeybees",3,NA,15,NA,"Abundance here refers to total amount of flowers visited by an organism. Surveys were conducted in 15 minute periods between 8:00 and 14:00. At each site, four fully flowering branches were randomly selected from a randomly chosen cofffe bush.Observation period: 82",NA
"Shalene_Jha_Coffea_arabica_robusta_Mexico_2006","Ir1","observation","Apis","genus","honeybees",4,NA,15,NA,"Abundance here refers to total amount of flowers visited by an organism. Surveys were conducted in 15 minute periods between 8:00 and 14:00. At each site, four fully flowering branches were randomly selected from a randomly chosen cofffe bush.Observation period: 83",NA
"Shalene_Jha_Coffea_arabica_robusta_Mexico_2006","Ir1","observation","Apis","genus","honeybees",5,NA,15,NA,"Abundance here refers to total amount of flowers visited by an organism. Surveys were conducted in 15 minute periods between 8:00 and 14:00. At each site, four fully flowering branches were randomly selected from a randomly chosen cofffe bush.Observation period: 83",NA
"Shalene_Jha_Coffea_arabica_robusta_Mexico_2006","Ir1","observation","Apis","genus","honeybees",9,NA,15,NA,"Abundance here refers to total amount of flowers visited by an organism. Surveys were conducted in 15 minute periods between 8:00 and 14:00. At each site, four fully flowering branches were randomly selected from a randomly chosen cofffe bush.Observation period: 83",NA
"Shalene_Jha_Coffea_arabica_robusta_Mexico_2006","Ir1","observation","Apis","genus","honeybees",2,NA,15,NA,"Abundance here refers to total amount of flowers visited by an organism. Surveys were conducted in 15 minute periods between 8:00 and 14:00. At each site, four fully flowering branches were randomly selected from a randomly chosen cofffe bush.Observation period: 83",NA
"Shalene_Jha_Coffea_arabica_robusta_Mexico_2006","Ir1","observation","Apis","genus","honeybees",4,NA,15,NA,"Abundance here refers to total amount of flowers visited by an organism. Surveys were conducted in 15 minute periods between 8:00 and 14:00. At each site, four fully flowering branches were randomly selected from a randomly chosen cofffe bush.Observation period: 83",NA
"Shalene_Jha_Coffea_arabica_robusta_Mexico_2006","Ir1","observation","Apis","genus","honeybees",4,NA,15,NA,"Abundance here refers to total amount of flowers visited by an organism. Surveys were conducted in 15 minute periods between 8:00 and 14:00. At each site, four fully flowering branches were randomly selected from a randomly chosen cofffe bush.Observation period: 84",NA
"Shalene_Jha_Coffea_arabica_robusta_Mexico_2006","Ir1","observation","Apis","genus","honeybees",1,NA,15,NA,"Abundance here refers to total amount of flowers visited by an organism. Surveys were conducted in 15 minute periods between 8:00 and 14:00. At each site, four fully flowering branches were randomly selected from a randomly chosen cofffe bush.Observation period: 84",NA
"Shalene_Jha_Coffea_arabica_robusta_Mexico_2006","Ir1","observation","Apis","genus","honeybees",3,NA,15,NA,"Abundance here refers to total amount of flowers visited by an organism. Surveys were conducted in 15 minute periods between 8:00 and 14:00. At each site, four fully flowering branches were randomly selected from a randomly chosen cofffe bush.Observation period: 85",NA
"Shalene_Jha_Coffea_arabica_robusta_Mexico_2006","Ir1","observation","Apis","genus","honeybees",13,NA,15,NA,"Abundance here refers to total amount of flowers visited by an organism. Surveys were conducted in 15 minute periods between 8:00 and 14:00. At each site, four fully flowering branches were randomly selected from a randomly chosen cofffe bush.Observation period: 85",NA
"Shalene_Jha_Coffea_arabica_robusta_Mexico_2006","Ir1","observation","Apis","genus","honeybees",3,NA,15,NA,"Abundance here refers to total amount of flowers visited by an organism. Surveys were conducted in 15 minute periods between 8:00 and 14:00. At each site, four fully flowering branches were randomly selected from a randomly chosen cofffe bush.Observation period: 86",NA
"Shalene_Jha_Coffea_arabica_robusta_Mexico_2006","Ir1","observation","Apis","genus","honeybees",1,NA,15,NA,"Abundance here refers to total amount of flowers visited by an organism. Surveys were conducted in 15 minute periods between 8:00 and 14:00. At each site, four fully flowering branches were randomly selected from a randomly chosen cofffe bush.Observation period: 86",NA
"Shalene_Jha_Coffea_arabica_robusta_Mexico_2006","Ir1","observation","Apis","genus","honeybees",1,NA,15,NA,"Abundance here refers to total amount of flowers visited by an organism. Surveys were conducted in 15 minute periods between 8:00 and 14:00. At each site, four fully flowering branches were randomly selected from a randomly chosen cofffe bush.Observation period: 86",NA
"Shalene_Jha_Coffea_arabica_robusta_Mexico_2006","Ir1","observation","Apis","genus","honeybees",1,NA,15,NA,"Abundance here refers to total amount of flowers visited by an organism. Surveys were conducted in 15 minute periods between 8:00 and 14:00. At each site, four fully flowering branches were randomly selected from a randomly chosen cofffe bush.Observation period: 86",NA
"Shalene_Jha_Coffea_arabica_robusta_Mexico_2006","Ir1","observation","Apis","genus","honeybees",7,NA,15,NA,"Abundance here refers to total amount of flowers visited by an organism. Surveys were conducted in 15 minute periods between 8:00 and 14:00. At each site, four fully flowering branches were randomly selected from a randomly chosen cofffe bush.Observation period: 87",NA
"Shalene_Jha_Coffea_arabica_robusta_Mexico_2006","Ir1","observation","Apis","genus","honeybees",3,NA,15,NA,"Abundance here refers to total amount of flowers visited by an organism. Surveys were conducted in 15 minute periods between 8:00 and 14:00. At each site, four fully flowering branches were randomly selected from a randomly chosen cofffe bush.Observation period: 88",NA
"Shalene_Jha_Coffea_arabica_robusta_Mexico_2006","Ir1","observation","Apis","genus","honeybees",1,NA,15,NA,"Abundance here refers to total amount of flowers visited by an organism. Surveys were conducted in 15 minute periods between 8:00 and 14:00. At each site, four fully flowering branches were randomly selected from a randomly chosen cofffe bush.Observation period: 88",NA
"Shalene_Jha_Coffea_arabica_robusta_Mexico_2006","Ir1","observation","Apis","genus","honeybees",2,NA,15,NA,"Abundance here refers to total amount of flowers visited by an organism. Surveys were conducted in 15 minute periods between 8:00 and 14:00. At each site, four fully flowering branches were randomly selected from a randomly chosen cofffe bush.Observation period: 88",NA
"Shalene_Jha_Coffea_arabica_robusta_Mexico_2006","Ir1","observation","Apis","genus","honeybees",2,NA,15,NA,"Abundance here refers to total amount of flowers visited by an organism. Surveys were conducted in 15 minute periods between 8:00 and 14:00. At each site, four fully flowering branches were randomly selected from a randomly chosen cofffe bush.Observation period: 88",NA
"Shalene_Jha_Coffea_arabica_robusta_Mexico_2006","Ir1","observation","Apis","genus","honeybees",3,NA,15,NA,"Abundance here refers to total amount of flowers visited by an organism. Surveys were conducted in 15 minute periods between 8:00 and 14:00. At each site, four fully flowering branches were randomly selected from a randomly chosen cofffe bush.Observation period: 88",NA
"Shalene_Jha_Coffea_arabica_robusta_Mexico_2006","Ir1","observation","Apis","genus","honeybees",4,NA,15,NA,"Abundance here refers to total amount of flowers visited by an organism. Surveys were conducted in 15 minute periods between 8:00 and 14:00. At each site, four fully flowering branches were randomly selected from a randomly chosen cofffe bush.Observation period: 88",NA
"Shalene_Jha_Coffea_arabica_robusta_Mexico_2006","Ir1","observation","Apis","genus","honeybees",2,NA,15,NA,"Abundance here refers to total amount of flowers visited by an organism. Surveys were conducted in 15 minute periods between 8:00 and 14:00. At each site, four fully flowering branches were randomly selected from a randomly chosen cofffe bush.Observation period: 89",NA
"Shalene_Jha_Coffea_arabica_robusta_Mexico_2006","Ir1","observation","Apis","genus","honeybees",1,NA,15,NA,"Abundance here refers to total amount of flowers visited by an organism. Surveys were conducted in 15 minute periods between 8:00 and 14:00. At each site, four fully flowering branches were randomly selected from a randomly chosen cofffe bush.Observation period: 89",NA
"Shalene_Jha_Coffea_arabica_robusta_Mexico_2006","Ir1","observation","Dialictus sp. 2","morphospecies","other_wild_bees",1,NA,15,NA,"Abundance here refers to total amount of flowers visited by an organism. Surveys were conducted in 15 minute periods between 8:00 and 14:00. At each site, four fully flowering branches were randomly selected from a randomly chosen cofffe bush.Observation period: 89",NA
"Shalene_Jha_Coffea_arabica_robusta_Mexico_2006","Ir1","observation","Apis","genus","honeybees",1,NA,15,NA,"Abundance here refers to total amount of flowers visited by an organism. Surveys were conducted in 15 minute periods between 8:00 and 14:00. At each site, four fully flowering branches were randomly selected from a randomly chosen cofffe bush.Observation period: 89",NA
"Shalene_Jha_Coffea_arabica_robusta_Mexico_2006","Ir1","observation","Apis","genus","honeybees",1,NA,15,NA,"Abundance here refers to total amount of flowers visited by an organism. Surveys were conducted in 15 minute periods between 8:00 and 14:00. At each site, four fully flowering branches were randomly selected from a randomly chosen cofffe bush.Observation period: 89",NA
"Shalene_Jha_Coffea_arabica_robusta_Mexico_2006","Ir1","observation","Apis","genus","honeybees",2,NA,15,NA,"Abundance here refers to total amount of flowers visited by an organism. Surveys were conducted in 15 minute periods between 8:00 and 14:00. At each site, four fully flowering branches were randomly selected from a randomly chosen cofffe bush.Observation period: 89",NA
"Shalene_Jha_Coffea_arabica_robusta_Mexico_2006","Ir1","observation","Apis","genus","honeybees",7,NA,15,NA,"Abundance here refers to total amount of flowers visited by an organism. Surveys were conducted in 15 minute periods between 8:00 and 14:00. At each site, four fully flowering branches were randomly selected from a randomly chosen cofffe bush.Observation period: 89",NA
"Shalene_Jha_Coffea_arabica_robusta_Mexico_2006","Ir1","observation","Apis","genus","honeybees",7,NA,15,NA,"Abundance here refers to total amount of flowers visited by an organism. Surveys were conducted in 15 minute periods between 8:00 and 14:00. At each site, four fully flowering branches were randomly selected from a randomly chosen cofffe bush.Observation period: 89",NA
"Shalene_Jha_Coffea_arabica_robusta_Mexico_2006","Ir1","observation","Apis","genus","honeybees",2,NA,15,NA,"Abundance here refers to total amount of flowers visited by an organism. Surveys were conducted in 15 minute periods between 8:00 and 14:00. At each site, four fully flowering branches were randomly selected from a randomly chosen cofffe bush.Observation period: 90",NA
"Shalene_Jha_Coffea_arabica_robusta_Mexico_2006","Ir1","observation","Apis","genus","honeybees",8,NA,15,NA,"Abundance here refers to total amount of flowers visited by an organism. Surveys were conducted in 15 minute periods between 8:00 and 14:00. At each site, four fully flowering branches were randomly selected from a randomly chosen cofffe bush.Observation period: 91",NA
"Shalene_Jha_Coffea_arabica_robusta_Mexico_2006","Ir1","observation","Apis","genus","honeybees",1,NA,15,NA,"Abundance here refers to total amount of flowers visited by an organism. Surveys were conducted in 15 minute periods between 8:00 and 14:00. At each site, four fully flowering branches were randomly selected from a randomly chosen cofffe bush.Observation period: 91",NA
"Shalene_Jha_Coffea_arabica_robusta_Mexico_2006","Ir1","observation","Trigona fulviventris","species","other_wild_bees",1,NA,15,NA,"Abundance here refers to total amount of flowers visited by an organism. Surveys were conducted in 15 minute periods between 8:00 and 14:00. At each site, four fully flowering branches were randomly selected from a randomly chosen cofffe bush.Observation period: 91",NA
"Shalene_Jha_Coffea_arabica_robusta_Mexico_2006","Ir1","observation","Trigona fulviventris","species","other_wild_bees",2,NA,15,NA,"Abundance here refers to total amount of flowers visited by an organism. Surveys were conducted in 15 minute periods between 8:00 and 14:00. At each site, four fully flowering branches were randomly selected from a randomly chosen cofffe bush.Observation period: 91",NA
"Shalene_Jha_Coffea_arabica_robusta_Mexico_2006","Ir1","observation","Apis","genus","honeybees",4,NA,15,NA,"Abundance here refers to total amount of flowers visited by an organism. Surveys were conducted in 15 minute periods between 8:00 and 14:00. At each site, four fully flowering branches were randomly selected from a randomly chosen cofffe bush.Observation period: 93",NA
"Shalene_Jha_Coffea_arabica_robusta_Mexico_2006","Ir1","observation","Apis","genus","honeybees",1,NA,15,NA,"Abundance here refers to total amount of flowers visited by an organism. Surveys were conducted in 15 minute periods between 8:00 and 14:00. At each site, four fully flowering branches were randomly selected from a randomly chosen cofffe bush.Observation period: 93",NA
"Shalene_Jha_Coffea_arabica_robusta_Mexico_2006","Ir1","observation","Trigona fulviventris","species","other_wild_bees",6,NA,15,NA,"Abundance here refers to total amount of flowers visited by an organism. Surveys were conducted in 15 minute periods between 8:00 and 14:00. At each site, four fully flowering branches were randomly selected from a randomly chosen cofffe bush.Observation period: 93",NA
"Shalene_Jha_Coffea_arabica_robusta_Mexico_2006","Ir1","observation","Apis","genus","honeybees",1,NA,15,NA,"Abundance here refers to total amount of flowers visited by an organism. Surveys were conducted in 15 minute periods between 8:00 and 14:00. At each site, four fully flowering branches were randomly selected from a randomly chosen cofffe bush.Observation period: 94",NA
"Shalene_Jha_Coffea_arabica_robusta_Mexico_2006","Ir1","observation","Apis","genus","honeybees",1,NA,15,NA,"Abundance here refers to total amount of flowers visited by an organism. Surveys were conducted in 15 minute periods between 8:00 and 14:00. At each site, four fully flowering branches were randomly selected from a randomly chosen cofffe bush.Observation period: 94",NA
"Shalene_Jha_Coffea_arabica_robusta_Mexico_2006","Ir1","observation","Apis","genus","honeybees",10,NA,15,NA,"Abundance here refers to total amount of flowers visited by an organism. Surveys were conducted in 15 minute periods between 8:00 and 14:00. At each site, four fully flowering branches were randomly selected from a randomly chosen cofffe bush.Observation period: 94",NA
"Shalene_Jha_Coffea_arabica_robusta_Mexico_2006","Ir1","observation","Apis","genus","honeybees",15,NA,15,NA,"Abundance here refers to total amount of flowers visited by an organism. Surveys were conducted in 15 minute periods between 8:00 and 14:00. At each site, four fully flowering branches were randomly selected from a randomly chosen cofffe bush.Observation period: 94",NA
"Shalene_Jha_Coffea_arabica_robusta_Mexico_2006","Ir1","observation","Apis","genus","honeybees",9,NA,15,NA,"Abundance here refers to total amount of flowers visited by an organism. Surveys were conducted in 15 minute periods between 8:00 and 14:00. At each site, four fully flowering branches were randomly selected from a randomly chosen cofffe bush.Observation period: 94",NA
"Shalene_Jha_Coffea_arabica_robusta_Mexico_2006","Ir1","observation","Apis","genus","honeybees",5,NA,15,NA,"Abundance here refers to total amount of flowers visited by an organism. Surveys were conducted in 15 minute periods between 8:00 and 14:00. At each site, four fully flowering branches were randomly selected from a randomly chosen cofffe bush.Observation period: 94",NA
"Shalene_Jha_Coffea_arabica_robusta_Mexico_2006","Ir1","observation","Apis","genus","honeybees",6,NA,15,NA,"Abundance here refers to total amount of flowers visited by an organism. Surveys were conducted in 15 minute periods between 8:00 and 14:00. At each site, four fully flowering branches were randomly selected from a randomly chosen cofffe bush.Observation period: 94",NA
"Shalene_Jha_Coffea_arabica_robusta_Mexico_2006","Ir1","observation","Apis","genus","honeybees",2,NA,15,NA,"Abundance here refers to total amount of flowers visited by an organism. Surveys were conducted in 15 minute periods between 8:00 and 14:00. At each site, four fully flowering branches were randomly selected from a randomly chosen cofffe bush.Observation period: 94",NA
"Shalene_Jha_Coffea_arabica_robusta_Mexico_2006","Ir1","observation","Apis","genus","honeybees",1,NA,15,NA,"Abundance here refers to total amount of flowers visited by an organism. Surveys were conducted in 15 minute periods between 8:00 and 14:00. At each site, four fully flowering branches were randomly selected from a randomly chosen cofffe bush.Observation period: 94",NA
"Shalene_Jha_Coffea_arabica_robusta_Mexico_2006","Ir1","observation","Apis","genus","honeybees",6,NA,15,NA,"Abundance here refers to total amount of flowers visited by an organism. Surveys were conducted in 15 minute periods between 8:00 and 14:00. At each site, four fully flowering branches were randomly selected from a randomly chosen cofffe bush.Observation period: 95",NA
"Shalene_Jha_Coffea_arabica_robusta_Mexico_2006","Ir1","observation","Apis","genus","honeybees",2,NA,15,NA,"Abundance here refers to total amount of flowers visited by an organism. Surveys were conducted in 15 minute periods between 8:00 and 14:00. At each site, four fully flowering branches were randomly selected from a randomly chosen cofffe bush.Observation period: 95",NA
"Shalene_Jha_Coffea_arabica_robusta_Mexico_2006","Ir1","observation","Apis","genus","honeybees",4,NA,15,NA,"Abundance here refers to total amount of flowers visited by an organism. Surveys were conducted in 15 minute periods between 8:00 and 14:00. At each site, four fully flowering branches were randomly selected from a randomly chosen cofffe bush.Observation period: 95",NA
"Shalene_Jha_Coffea_arabica_robusta_Mexico_2006","Ir1","observation","Apis","genus","honeybees",1,NA,15,NA,"Abundance here refers to total amount of flowers visited by an organism. Surveys were conducted in 15 minute periods between 8:00 and 14:00. At each site, four fully flowering branches were randomly selected from a randomly chosen cofffe bush.Observation period: 95",NA
"Shalene_Jha_Coffea_arabica_robusta_Mexico_2006","Ir1","observation","Apis","genus","honeybees",5,NA,15,NA,"Abundance here refers to total amount of flowers visited by an organism. Surveys were conducted in 15 minute periods between 8:00 and 14:00. At each site, four fully flowering branches were randomly selected from a randomly chosen cofffe bush.Observation period: 95",NA
"Shalene_Jha_Coffea_arabica_robusta_Mexico_2006","Ir1","observation","Apis","genus","honeybees",1,NA,15,NA,"Abundance here refers to total amount of flowers visited by an organism. Surveys were conducted in 15 minute periods between 8:00 and 14:00. At each site, four fully flowering branches were randomly selected from a randomly chosen cofffe bush.Observation period: 96",NA
"Shalene_Jha_Coffea_arabica_robusta_Mexico_2006","Ir1","observation","Apis","genus","honeybees",2,NA,15,NA,"Abundance here refers to total amount of flowers visited by an organism. Surveys were conducted in 15 minute periods between 8:00 and 14:00. At each site, four fully flowering branches were randomly selected from a randomly chosen cofffe bush.Observation period: 96",NA
"Shalene_Jha_Coffea_arabica_robusta_Mexico_2006","Ir1","observation","Apis","genus","honeybees",10,NA,15,NA,"Abundance here refers to total amount of flowers visited by an organism. Surveys were conducted in 15 minute periods between 8:00 and 14:00. At each site, four fully flowering branches were randomly selected from a randomly chosen cofffe bush.Observation period: 96",NA
"Shalene_Jha_Coffea_arabica_robusta_Mexico_2006","Ir1","observation","Apis","genus","honeybees",7,NA,15,NA,"Abundance here refers to total amount of flowers visited by an organism. Surveys were conducted in 15 minute periods between 8:00 and 14:00. At each site, four fully flowering branches were randomly selected from a randomly chosen cofffe bush.Observation period: 96",NA
"Shalene_Jha_Coffea_arabica_robusta_Mexico_2006","Ir1","observation","Dialictus sp. 2","morphospecies","other_wild_bees",1,NA,15,NA,"Abundance here refers to total amount of flowers visited by an organism. Surveys were conducted in 15 minute periods between 8:00 and 14:00. At each site, four fully flowering branches were randomly selected from a randomly chosen cofffe bush.Observation period: 96",NA
"Shalene_Jha_Coffea_arabica_robusta_Mexico_2006","Ir1","observation","Apis","genus","honeybees",27,NA,15,NA,"Abundance here refers to total amount of flowers visited by an organism. Surveys were conducted in 15 minute periods between 8:00 and 14:00. At each site, four fully flowering branches were randomly selected from a randomly chosen cofffe bush.Observation period: 96",NA
"Shalene_Jha_Coffea_arabica_robusta_Mexico_2006","Ir1","observation","Apis","genus","honeybees",4,NA,15,NA,"Abundance here refers to total amount of flowers visited by an organism. Surveys were conducted in 15 minute periods between 8:00 and 14:00. At each site, four fully flowering branches were randomly selected from a randomly chosen cofffe bush.Observation period: 96",NA
"Shalene_Jha_Coffea_arabica_robusta_Mexico_2006","Ir1","observation","Apis","genus","honeybees",6,NA,15,NA,"Abundance here refers to total amount of flowers visited by an organism. Surveys were conducted in 15 minute periods between 8:00 and 14:00. At each site, four fully flowering branches were randomly selected from a randomly chosen cofffe bush.Observation period: 96",NA
"Shalene_Jha_Coffea_arabica_robusta_Mexico_2006","Ir1","observation","Apis","genus","honeybees",6,NA,15,NA,"Abundance here refers to total amount of flowers visited by an organism. Surveys were conducted in 15 minute periods between 8:00 and 14:00. At each site, four fully flowering branches were randomly selected from a randomly chosen cofffe bush.Observation period: 96",NA
"Shalene_Jha_Coffea_arabica_robusta_Mexico_2006","Ir1","observation","Apis","genus","honeybees",2,NA,15,NA,"Abundance here refers to total amount of flowers visited by an organism. Surveys were conducted in 15 minute periods between 8:00 and 14:00. At each site, four fully flowering branches were randomly selected from a randomly chosen cofffe bush.Observation period: 96",NA
"Shalene_Jha_Coffea_arabica_robusta_Mexico_2006","Ir1","observation","Apis","genus","honeybees",17,NA,15,NA,"Abundance here refers to total amount of flowers visited by an organism. Surveys were conducted in 15 minute periods between 8:00 and 14:00. At each site, four fully flowering branches were randomly selected from a randomly chosen cofffe bush.Observation period: 96",NA
"Shalene_Jha_Coffea_arabica_robusta_Mexico_2006","Ir1","observation","Apis","genus","honeybees",2,NA,15,NA,"Abundance here refers to total amount of flowers visited by an organism. Surveys were conducted in 15 minute periods between 8:00 and 14:00. At each site, four fully flowering branches were randomly selected from a randomly chosen cofffe bush.Observation period: 96",NA
"Shalene_Jha_Coffea_arabica_robusta_Mexico_2006","Ir1","observation","Apis","genus","honeybees",4,NA,15,NA,"Abundance here refers to total amount of flowers visited by an organism. Surveys were conducted in 15 minute periods between 8:00 and 14:00. At each site, four fully flowering branches were randomly selected from a randomly chosen cofffe bush.Observation period: 97",NA
"Shalene_Jha_Coffea_arabica_robusta_Mexico_2006","Ir1","observation","Apis","genus","honeybees",19,NA,15,NA,"Abundance here refers to total amount of flowers visited by an organism. Surveys were conducted in 15 minute periods between 8:00 and 14:00. At each site, four fully flowering branches were randomly selected from a randomly chosen cofffe bush.Observation period: 97",NA
"Shalene_Jha_Coffea_arabica_robusta_Mexico_2006","Ir1","observation","Nanotrigona testaceicornis","species","other_wild_bees",2,NA,15,NA,"Abundance here refers to total amount of flowers visited by an organism. Surveys were conducted in 15 minute periods between 8:00 and 14:00. At each site, four fully flowering branches were randomly selected from a randomly chosen cofffe bush.Observation period: 97",NA
"Shalene_Jha_Coffea_arabica_robusta_Mexico_2006","Ir1","observation","Trigona fulviventris","species","other_wild_bees",2,NA,15,NA,"Abundance here refers to total amount of flowers visited by an organism. Surveys were conducted in 15 minute periods between 8:00 and 14:00. At each site, four fully flowering branches were randomly selected from a randomly chosen cofffe bush.Observation period: 97",NA
"Shalene_Jha_Coffea_arabica_robusta_Mexico_2006","Ir1","observation","Apis","genus","honeybees",5,NA,15,NA,"Abundance here refers to total amount of flowers visited by an organism. Surveys were conducted in 15 minute periods between 8:00 and 14:00. At each site, four fully flowering branches were randomly selected from a randomly chosen cofffe bush.Observation period: 97",NA
"Shalene_Jha_Coffea_arabica_robusta_Mexico_2006","Ir1","observation","Apis","genus","honeybees",4,NA,15,NA,"Abundance here refers to total amount of flowers visited by an organism. Surveys were conducted in 15 minute periods between 8:00 and 14:00. At each site, four fully flowering branches were randomly selected from a randomly chosen cofffe bush.Observation period: 97",NA
"Shalene_Jha_Coffea_arabica_robusta_Mexico_2006","Ir1","observation","Apis","genus","honeybees",2,NA,15,NA,"Abundance here refers to total amount of flowers visited by an organism. Surveys were conducted in 15 minute periods between 8:00 and 14:00. At each site, four fully flowering branches were randomly selected from a randomly chosen cofffe bush.Observation period: 97",NA
"Shalene_Jha_Coffea_arabica_robusta_Mexico_2006","Ir1","observation","Apis","genus","honeybees",3,NA,15,NA,"Abundance here refers to total amount of flowers visited by an organism. Surveys were conducted in 15 minute periods between 8:00 and 14:00. At each site, four fully flowering branches were randomly selected from a randomly chosen cofffe bush.Observation period: 97",NA
"Shalene_Jha_Coffea_arabica_robusta_Mexico_2006","Ir1","observation","Apis","genus","honeybees",4,NA,15,NA,"Abundance here refers to total amount of flowers visited by an organism. Surveys were conducted in 15 minute periods between 8:00 and 14:00. At each site, four fully flowering branches were randomly selected from a randomly chosen cofffe bush.Observation period: 98",NA
"Shalene_Jha_Coffea_arabica_robusta_Mexico_2006","Ir1","observation","Apis","genus","honeybees",2,NA,15,NA,"Abundance here refers to total amount of flowers visited by an organism. Surveys were conducted in 15 minute periods between 8:00 and 14:00. At each site, four fully flowering branches were randomly selected from a randomly chosen cofffe bush.Observation period: 98",NA
"Shalene_Jha_Coffea_arabica_robusta_Mexico_2006","Ir1","observation","Apis","genus","honeybees",1,NA,15,NA,"Abundance here refers to total amount of flowers visited by an organism. Surveys were conducted in 15 minute periods between 8:00 and 14:00. At each site, four fully flowering branches were randomly selected from a randomly chosen cofffe bush.Observation period: 98",NA
"Shalene_Jha_Coffea_arabica_robusta_Mexico_2006","Ir1","observation","Apis","genus","honeybees",1,NA,15,NA,"Abundance here refers to total amount of flowers visited by an organism. Surveys were conducted in 15 minute periods between 8:00 and 14:00. At each site, four fully flowering branches were randomly selected from a randomly chosen cofffe bush.Observation period: 98",NA
"Shalene_Jha_Coffea_arabica_robusta_Mexico_2006","Ir1","observation","Apis","genus","honeybees",2,NA,15,NA,"Abundance here refers to total amount of flowers visited by an organism. Surveys were conducted in 15 minute periods between 8:00 and 14:00. At each site, four fully flowering branches were randomly selected from a randomly chosen cofffe bush.Observation period: 98",NA
"Shalene_Jha_Coffea_arabica_robusta_Mexico_2006","Ir1","observation","Apis","genus","honeybees",6,NA,15,NA,"Abundance here refers to total amount of flowers visited by an organism. Surveys were conducted in 15 minute periods between 8:00 and 14:00. At each site, four fully flowering branches were randomly selected from a randomly chosen cofffe bush.Observation period: 98",NA
"Shalene_Jha_Coffea_arabica_robusta_Mexico_2006","Ir1","observation","Apis","genus","honeybees",2,NA,15,NA,"Abundance here refers to total amount of flowers visited by an organism. Surveys were conducted in 15 minute periods between 8:00 and 14:00. At each site, four fully flowering branches were randomly selected from a randomly chosen cofffe bush.Observation period: 98",NA
"Shalene_Jha_Coffea_arabica_robusta_Mexico_2006","Ir1","observation","Apis","genus","honeybees",2,NA,15,NA,"Abundance here refers to total amount of flowers visited by an organism. Surveys were conducted in 15 minute periods between 8:00 and 14:00. At each site, four fully flowering branches were randomly selected from a randomly chosen cofffe bush.Observation period: 99",NA
"Shalene_Jha_Coffea_arabica_robusta_Mexico_2006","Ir1","observation","Apis","genus","honeybees",2,NA,15,NA,"Abundance here refers to total amount of flowers visited by an organism. Surveys were conducted in 15 minute periods between 8:00 and 14:00. At each site, four fully flowering branches were randomly selected from a randomly chosen cofffe bush.Observation period: 99",NA
"Shalene_Jha_Coffea_arabica_robusta_Mexico_2006","Ir1","observation","Apis","genus","honeybees",2,NA,15,NA,"Abundance here refers to total amount of flowers visited by an organism. Surveys were conducted in 15 minute periods between 8:00 and 14:00. At each site, four fully flowering branches were randomly selected from a randomly chosen cofffe bush.Observation period: 99",NA
"Shalene_Jha_Coffea_arabica_robusta_Mexico_2006","Ir1","observation","Apis","genus","honeybees",2,NA,15,NA,"Abundance here refers to total amount of flowers visited by an organism. Surveys were conducted in 15 minute periods between 8:00 and 14:00. At each site, four fully flowering branches were randomly selected from a randomly chosen cofffe bush.Observation period: 100",NA
"Shalene_Jha_Coffea_arabica_robusta_Mexico_2006","Ir1","observation","Apis","genus","honeybees",2,NA,15,NA,"Abundance here refers to total amount of flowers visited by an organism. Surveys were conducted in 15 minute periods between 8:00 and 14:00. At each site, four fully flowering branches were randomly selected from a randomly chosen cofffe bush.Observation period: 100",NA
"Shalene_Jha_Coffea_arabica_robusta_Mexico_2006","Ir1","observation","Apis","genus","honeybees",3,NA,15,NA,"Abundance here refers to total amount of flowers visited by an organism. Surveys were conducted in 15 minute periods between 8:00 and 14:00. At each site, four fully flowering branches were randomly selected from a randomly chosen cofffe bush.Observation period: 101",NA
"Shalene_Jha_Coffea_arabica_robusta_Mexico_2006","Ir1","observation","Apis","genus","honeybees",4,NA,15,NA,"Abundance here refers to total amount of flowers visited by an organism. Surveys were conducted in 15 minute periods between 8:00 and 14:00. At each site, four fully flowering branches were randomly selected from a randomly chosen cofffe bush.Observation period: 101",NA
"Shalene_Jha_Coffea_arabica_robusta_Mexico_2006","Ir1","observation","Apis","genus","honeybees",1,NA,15,NA,"Abundance here refers to total amount of flowers visited by an organism. Surveys were conducted in 15 minute periods between 8:00 and 14:00. At each site, four fully flowering branches were randomly selected from a randomly chosen cofffe bush.Observation period: 101",NA
"Shalene_Jha_Coffea_arabica_robusta_Mexico_2006","Ir1","observation","Apis","genus","honeybees",10,NA,15,NA,"Abundance here refers to total amount of flowers visited by an organism. Surveys were conducted in 15 minute periods between 8:00 and 14:00. At each site, four fully flowering branches were randomly selected from a randomly chosen cofffe bush.Observation period: 101",NA
"Shalene_Jha_Coffea_arabica_robusta_Mexico_2006","Ir1","observation","Apis","genus","honeybees",4,NA,15,NA,"Abundance here refers to total amount of flowers visited by an organism. Surveys were conducted in 15 minute periods between 8:00 and 14:00. At each site, four fully flowering branches were randomly selected from a randomly chosen cofffe bush.Observation period: 101",NA
"Shalene_Jha_Coffea_arabica_robusta_Mexico_2006","Ir1","observation","Apis","genus","honeybees",19,NA,15,NA,"Abundance here refers to total amount of flowers visited by an organism. Surveys were conducted in 15 minute periods between 8:00 and 14:00. At each site, four fully flowering branches were randomly selected from a randomly chosen cofffe bush.Observation period: 101",NA
"Shalene_Jha_Coffea_arabica_robusta_Mexico_2006","Ir1","observation","Apis","genus","honeybees",2,NA,15,NA,"Abundance here refers to total amount of flowers visited by an organism. Surveys were conducted in 15 minute periods between 8:00 and 14:00. At each site, four fully flowering branches were randomly selected from a randomly chosen cofffe bush.Observation period: 102",NA
"Shalene_Jha_Coffea_arabica_robusta_Mexico_2006","Ir1","observation","Apis","genus","honeybees",5,NA,15,NA,"Abundance here refers to total amount of flowers visited by an organism. Surveys were conducted in 15 minute periods between 8:00 and 14:00. At each site, four fully flowering branches were randomly selected from a randomly chosen cofffe bush.Observation period: 102",NA
"Shalene_Jha_Coffea_arabica_robusta_Mexico_2006","Ir1","observation","Apis","genus","honeybees",1,NA,15,NA,"Abundance here refers to total amount of flowers visited by an organism. Surveys were conducted in 15 minute periods between 8:00 and 14:00. At each site, four fully flowering branches were randomly selected from a randomly chosen cofffe bush.Observation period: 103",NA
"Shalene_Jha_Coffea_arabica_robusta_Mexico_2006","Ir1","observation","Apis","genus","honeybees",2,NA,15,NA,"Abundance here refers to total amount of flowers visited by an organism. Surveys were conducted in 15 minute periods between 8:00 and 14:00. At each site, four fully flowering branches were randomly selected from a randomly chosen cofffe bush.Observation period: 103",NA
"Shalene_Jha_Coffea_arabica_robusta_Mexico_2006","Ir1","observation","Apis","genus","honeybees",1,NA,15,NA,"Abundance here refers to total amount of flowers visited by an organism. Surveys were conducted in 15 minute periods between 8:00 and 14:00. At each site, four fully flowering branches were randomly selected from a randomly chosen cofffe bush.Observation period: 103",NA
"Shalene_Jha_Coffea_arabica_robusta_Mexico_2006","Ir1","observation","Apis","genus","honeybees",3,NA,15,NA,"Abundance here refers to total amount of flowers visited by an organism. Surveys were conducted in 15 minute periods between 8:00 and 14:00. At each site, four fully flowering branches were randomly selected from a randomly chosen cofffe bush.Observation period: 103",NA
"Shalene_Jha_Coffea_arabica_robusta_Mexico_2006","Ir3","observation","Trigona fulviventris","species","other_wild_bees",2,NA,15,NA,"Abundance here refers to total amount of flowers visited by an organism. Surveys were conducted in 15 minute periods between 8:00 and 14:00. At each site, four fully flowering branches were randomly selected from a randomly chosen cofffe bush.Observation period: 142",NA
"Shalene_Jha_Coffea_arabica_robusta_Mexico_2006","Ir3","observation","Trigona fulviventris","species","other_wild_bees",1,NA,15,NA,"Abundance here refers to total amount of flowers visited by an organism. Surveys were conducted in 15 minute periods between 8:00 and 14:00. At each site, four fully flowering branches were randomly selected from a randomly chosen cofffe bush.Observation period: 142",NA
"Shalene_Jha_Coffea_arabica_robusta_Mexico_2006","Ir3","observation","Xylocopa tabaniformis","species","other_wild_bees",4,NA,15,NA,"Abundance here refers to total amount of flowers visited by an organism. Surveys were conducted in 15 minute periods between 8:00 and 14:00. At each site, four fully flowering branches were randomly selected from a randomly chosen cofffe bush.Observation period: 142",NA
"Shalene_Jha_Coffea_arabica_robusta_Mexico_2006","Ir3","observation","Xylocopa tabaniformis","species","other_wild_bees",4,NA,15,NA,"Abundance here refers to total amount of flowers visited by an organism. Surveys were conducted in 15 minute periods between 8:00 and 14:00. At each site, four fully flowering branches were randomly selected from a randomly chosen cofffe bush.Observation period: 142",NA
"Shalene_Jha_Coffea_arabica_robusta_Mexico_2006","Ir3","observation","Plebia sp. 2","morphospecies","other_wild_bees",1,NA,15,NA,"Abundance here refers to total amount of flowers visited by an organism. Surveys were conducted in 15 minute periods between 8:00 and 14:00. At each site, four fully flowering branches were randomly selected from a randomly chosen cofffe bush.Observation period: 142",NA
"Shalene_Jha_Coffea_arabica_robusta_Mexico_2006","Ir3","observation","Apis","genus","honeybees",7,NA,15,NA,"Abundance here refers to total amount of flowers visited by an organism. Surveys were conducted in 15 minute periods between 8:00 and 14:00. At each site, four fully flowering branches were randomly selected from a randomly chosen cofffe bush.Observation period: 142",NA
"Shalene_Jha_Coffea_arabica_robusta_Mexico_2006","Ir3","observation","Trigona fulviventris","species","other_wild_bees",2,NA,15,NA,"Abundance here refers to total amount of flowers visited by an organism. Surveys were conducted in 15 minute periods between 8:00 and 14:00. At each site, four fully flowering branches were randomly selected from a randomly chosen cofffe bush.Observation period: 142",NA
"Shalene_Jha_Coffea_arabica_robusta_Mexico_2006","Ir3","observation","Trigona fulviventris","species","other_wild_bees",1,NA,15,NA,"Abundance here refers to total amount of flowers visited by an organism. Surveys were conducted in 15 minute periods between 8:00 and 14:00. At each site, four fully flowering branches were randomly selected from a randomly chosen cofffe bush.Observation period: 142",NA
"Shalene_Jha_Coffea_arabica_robusta_Mexico_2006","Ir3","observation","Apis","genus","honeybees",1,NA,15,NA,"Abundance here refers to total amount of flowers visited by an organism. Surveys were conducted in 15 minute periods between 8:00 and 14:00. At each site, four fully flowering branches were randomly selected from a randomly chosen cofffe bush.Observation period: 143",NA
"Shalene_Jha_Coffea_arabica_robusta_Mexico_2006","Ir3","observation","Trigona fulviventris","species","other_wild_bees",1,NA,15,NA,"Abundance here refers to total amount of flowers visited by an organism. Surveys were conducted in 15 minute periods between 8:00 and 14:00. At each site, four fully flowering branches were randomly selected from a randomly chosen cofffe bush.Observation period: 143",NA
"Shalene_Jha_Coffea_arabica_robusta_Mexico_2006","Ir3","observation","Apis","genus","honeybees",1,NA,15,NA,"Abundance here refers to total amount of flowers visited by an organism. Surveys were conducted in 15 minute periods between 8:00 and 14:00. At each site, four fully flowering branches were randomly selected from a randomly chosen cofffe bush.Observation period: 143",NA
"Shalene_Jha_Coffea_arabica_robusta_Mexico_2006","Ir3","observation","Trigona fulviventris","species","other_wild_bees",1,NA,15,NA,"Abundance here refers to total amount of flowers visited by an organism. Surveys were conducted in 15 minute periods between 8:00 and 14:00. At each site, four fully flowering branches were randomly selected from a randomly chosen cofffe bush.Observation period: 143",NA
"Shalene_Jha_Coffea_arabica_robusta_Mexico_2006","Ir3","observation","Apis","genus","honeybees",3,NA,15,NA,"Abundance here refers to total amount of flowers visited by an organism. Surveys were conducted in 15 minute periods between 8:00 and 14:00. At each site, four fully flowering branches were randomly selected from a randomly chosen cofffe bush.Observation period: 144",NA
"Shalene_Jha_Coffea_arabica_robusta_Mexico_2006","Ir3","observation","Ceratina eximia","species","other_wild_bees",1,NA,15,NA,"Abundance here refers to total amount of flowers visited by an organism. Surveys were conducted in 15 minute periods between 8:00 and 14:00. At each site, four fully flowering branches were randomly selected from a randomly chosen cofffe bush.Observation period: 144",NA
"Shalene_Jha_Coffea_arabica_robusta_Mexico_2006","Ir3","observation","Nanotrigona testaceicornis","species","other_wild_bees",1,NA,15,NA,"Abundance here refers to total amount of flowers visited by an organism. Surveys were conducted in 15 minute periods between 8:00 and 14:00. At each site, four fully flowering branches were randomly selected from a randomly chosen cofffe bush.Observation period: 144",NA
"Shalene_Jha_Coffea_arabica_robusta_Mexico_2006","Ir3","observation","Apis","genus","honeybees",2,NA,15,NA,"Abundance here refers to total amount of flowers visited by an organism. Surveys were conducted in 15 minute periods between 8:00 and 14:00. At each site, four fully flowering branches were randomly selected from a randomly chosen cofffe bush.Observation period: 144",NA
"Shalene_Jha_Coffea_arabica_robusta_Mexico_2006","Ir3","observation","Apis","genus","honeybees",2,NA,15,NA,"Abundance here refers to total amount of flowers visited by an organism. Surveys were conducted in 15 minute periods between 8:00 and 14:00. At each site, four fully flowering branches were randomly selected from a randomly chosen cofffe bush.Observation period: 144",NA
"Shalene_Jha_Coffea_arabica_robusta_Mexico_2006","Ir3","observation","Apis","genus","honeybees",1,NA,15,NA,"Abundance here refers to total amount of flowers visited by an organism. Surveys were conducted in 15 minute periods between 8:00 and 14:00. At each site, four fully flowering branches were randomly selected from a randomly chosen cofffe bush.Observation period: 144",NA
"Shalene_Jha_Coffea_arabica_robusta_Mexico_2006","Ir3","observation","Apis","genus","honeybees",7,NA,15,NA,"Abundance here refers to total amount of flowers visited by an organism. Surveys were conducted in 15 minute periods between 8:00 and 14:00. At each site, four fully flowering branches were randomly selected from a randomly chosen cofffe bush.Observation period: 144",NA
"Shalene_Jha_Coffea_arabica_robusta_Mexico_2006","Ir3","observation","Apis","genus","honeybees",1,NA,15,NA,"Abundance here refers to total amount of flowers visited by an organism. Surveys were conducted in 15 minute periods between 8:00 and 14:00. At each site, four fully flowering branches were randomly selected from a randomly chosen cofffe bush.Observation period: 144",NA
"Shalene_Jha_Coffea_arabica_robusta_Mexico_2006","Ir3","observation","Ceratina ignara","species","other_wild_bees",1,NA,15,NA,"Abundance here refers to total amount of flowers visited by an organism. Surveys were conducted in 15 minute periods between 8:00 and 14:00. At each site, four fully flowering branches were randomly selected from a randomly chosen cofffe bush.Observation period: 145",NA
"Shalene_Jha_Coffea_arabica_robusta_Mexico_2006","Ir3","observation","Apis","genus","honeybees",5,NA,15,NA,"Abundance here refers to total amount of flowers visited by an organism. Surveys were conducted in 15 minute periods between 8:00 and 14:00. At each site, four fully flowering branches were randomly selected from a randomly chosen cofffe bush.Observation period: 145",NA
"Shalene_Jha_Coffea_arabica_robusta_Mexico_2006","Ir3","observation","Apis","genus","honeybees",1,NA,15,NA,"Abundance here refers to total amount of flowers visited by an organism. Surveys were conducted in 15 minute periods between 8:00 and 14:00. At each site, four fully flowering branches were randomly selected from a randomly chosen cofffe bush.Observation period: 145",NA
"Shalene_Jha_Coffea_arabica_robusta_Mexico_2006","Ir3","observation","Apis","genus","honeybees",4,NA,15,NA,"Abundance here refers to total amount of flowers visited by an organism. Surveys were conducted in 15 minute periods between 8:00 and 14:00. At each site, four fully flowering branches were randomly selected from a randomly chosen cofffe bush.Observation period: 145",NA
"Shalene_Jha_Coffea_arabica_robusta_Mexico_2006","Ir3","observation","Apis","genus","honeybees",11,NA,15,NA,"Abundance here refers to total amount of flowers visited by an organism. Surveys were conducted in 15 minute periods between 8:00 and 14:00. At each site, four fully flowering branches were randomly selected from a randomly chosen cofffe bush.Observation period: 145",NA
"Shalene_Jha_Coffea_arabica_robusta_Mexico_2006","Ir3","observation","Apis","genus","honeybees",4,NA,15,NA,"Abundance here refers to total amount of flowers visited by an organism. Surveys were conducted in 15 minute periods between 8:00 and 14:00. At each site, four fully flowering branches were randomly selected from a randomly chosen cofffe bush.Observation period: 145",NA
"Shalene_Jha_Coffea_arabica_robusta_Mexico_2006","Ir3","observation","Halictus hesperus","species","other_wild_bees",2,NA,15,NA,"Abundance here refers to total amount of flowers visited by an organism. Surveys were conducted in 15 minute periods between 8:00 and 14:00. At each site, four fully flowering branches were randomly selected from a randomly chosen cofffe bush.Observation period: 145",NA
"Shalene_Jha_Coffea_arabica_robusta_Mexico_2006","Ir3","observation","Apis","genus","honeybees",5,NA,15,NA,"Abundance here refers to total amount of flowers visited by an organism. Surveys were conducted in 15 minute periods between 8:00 and 14:00. At each site, four fully flowering branches were randomly selected from a randomly chosen cofffe bush.Observation period: 145",NA
"Shalene_Jha_Coffea_arabica_robusta_Mexico_2006","Ir3","observation","Nanotrigona testaceicornis","species","other_wild_bees",4,NA,15,NA,"Abundance here refers to total amount of flowers visited by an organism. Surveys were conducted in 15 minute periods between 8:00 and 14:00. At each site, four fully flowering branches were randomly selected from a randomly chosen cofffe bush.Observation period: 146",NA
"Shalene_Jha_Coffea_arabica_robusta_Mexico_2006","Ir3","observation","Apis","genus","honeybees",2,NA,15,NA,"Abundance here refers to total amount of flowers visited by an organism. Surveys were conducted in 15 minute periods between 8:00 and 14:00. At each site, four fully flowering branches were randomly selected from a randomly chosen cofffe bush.Observation period: 147",NA
"Shalene_Jha_Coffea_arabica_robusta_Mexico_2006","Ir3","observation","Augochlora aurifera","species","other_wild_bees",3,NA,15,NA,"Abundance here refers to total amount of flowers visited by an organism. Surveys were conducted in 15 minute periods between 8:00 and 14:00. At each site, four fully flowering branches were randomly selected from a randomly chosen cofffe bush.Observation period: 147",NA
"Shalene_Jha_Coffea_arabica_robusta_Mexico_2006","Ir3","observation","Melipona beechiie","species","other_wild_bees",3,NA,15,NA,"Abundance here refers to total amount of flowers visited by an organism. Surveys were conducted in 15 minute periods between 8:00 and 14:00. At each site, four fully flowering branches were randomly selected from a randomly chosen cofffe bush.Observation period: 147",NA
"Shalene_Jha_Coffea_arabica_robusta_Mexico_2006","Ir3","observation","Nanotrigona testaceicornis","species","other_wild_bees",1,NA,15,NA,"Abundance here refers to total amount of flowers visited by an organism. Surveys were conducted in 15 minute periods between 8:00 and 14:00. At each site, four fully flowering branches were randomly selected from a randomly chosen cofffe bush.Observation period: 147",NA
"Shalene_Jha_Coffea_arabica_robusta_Mexico_2006","Ir3","observation","Apis","genus","honeybees",3,NA,15,NA,"Abundance here refers to total amount of flowers visited by an organism. Surveys were conducted in 15 minute periods between 8:00 and 14:00. At each site, four fully flowering branches were randomly selected from a randomly chosen cofffe bush.Observation period: 147",NA
"Shalene_Jha_Coffea_arabica_robusta_Mexico_2006","Ir3","observation","Trigona fulviventris","species","other_wild_bees",3,NA,15,NA,"Abundance here refers to total amount of flowers visited by an organism. Surveys were conducted in 15 minute periods between 8:00 and 14:00. At each site, four fully flowering branches were randomly selected from a randomly chosen cofffe bush.Observation period: 147",NA
"Shalene_Jha_Coffea_arabica_robusta_Mexico_2006","Ir3","observation","Plebia sp. 2","morphospecies","other_wild_bees",3,NA,15,NA,"Abundance here refers to total amount of flowers visited by an organism. Surveys were conducted in 15 minute periods between 8:00 and 14:00. At each site, four fully flowering branches were randomly selected from a randomly chosen cofffe bush.Observation period: 147",NA
"Shalene_Jha_Coffea_arabica_robusta_Mexico_2006","Ir3","observation","Plebia sp. 2","morphospecies","other_wild_bees",1,NA,15,NA,"Abundance here refers to total amount of flowers visited by an organism. Surveys were conducted in 15 minute periods between 8:00 and 14:00. At each site, four fully flowering branches were randomly selected from a randomly chosen cofffe bush.Observation period: 147",NA
"Shalene_Jha_Coffea_arabica_robusta_Mexico_2006","Ir3","observation","Apis","genus","honeybees",1,NA,15,NA,"Abundance here refers to total amount of flowers visited by an organism. Surveys were conducted in 15 minute periods between 8:00 and 14:00. At each site, four fully flowering branches were randomly selected from a randomly chosen cofffe bush.Observation period: 147",NA
"Shalene_Jha_Coffea_arabica_robusta_Mexico_2006","Ir3","observation","Apis","genus","honeybees",1,NA,15,NA,"Abundance here refers to total amount of flowers visited by an organism. Surveys were conducted in 15 minute periods between 8:00 and 14:00. At each site, four fully flowering branches were randomly selected from a randomly chosen cofffe bush.Observation period: 147",NA
"Shalene_Jha_Coffea_arabica_robusta_Mexico_2006","Ir3","observation","Apis","genus","honeybees",2,NA,15,NA,"Abundance here refers to total amount of flowers visited by an organism. Surveys were conducted in 15 minute periods between 8:00 and 14:00. At each site, four fully flowering branches were randomly selected from a randomly chosen cofffe bush.Observation period: 147",NA
"Shalene_Jha_Coffea_arabica_robusta_Mexico_2006","Ir3","observation","Melipona beechiie","species","other_wild_bees",1,NA,15,NA,"Abundance here refers to total amount of flowers visited by an organism. Surveys were conducted in 15 minute periods between 8:00 and 14:00. At each site, four fully flowering branches were randomly selected from a randomly chosen cofffe bush.Observation period: 147",NA
"Shalene_Jha_Coffea_arabica_robusta_Mexico_2006","Ir3","observation","Apis","genus","honeybees",2,NA,15,NA,"Abundance here refers to total amount of flowers visited by an organism. Surveys were conducted in 15 minute periods between 8:00 and 14:00. At each site, four fully flowering branches were randomly selected from a randomly chosen cofffe bush.Observation period: 148",NA
"Shalene_Jha_Coffea_arabica_robusta_Mexico_2006","Ir3","observation","Apis","genus","honeybees",4,NA,15,NA,"Abundance here refers to total amount of flowers visited by an organism. Surveys were conducted in 15 minute periods between 8:00 and 14:00. At each site, four fully flowering branches were randomly selected from a randomly chosen cofffe bush.Observation period: 148",NA
"Shalene_Jha_Coffea_arabica_robusta_Mexico_2006","Ir3","observation","Apis","genus","honeybees",6,NA,15,NA,"Abundance here refers to total amount of flowers visited by an organism. Surveys were conducted in 15 minute periods between 8:00 and 14:00. At each site, four fully flowering branches were randomly selected from a randomly chosen cofffe bush.Observation period: 148",NA
"Shalene_Jha_Coffea_arabica_robusta_Mexico_2006","Ir3","observation","Apis","genus","honeybees",12,NA,15,NA,"Abundance here refers to total amount of flowers visited by an organism. Surveys were conducted in 15 minute periods between 8:00 and 14:00. At each site, four fully flowering branches were randomly selected from a randomly chosen cofffe bush.Observation period: 148",NA
"Shalene_Jha_Coffea_arabica_robusta_Mexico_2006","Ir3","observation","Apis","genus","honeybees",5,NA,15,NA,"Abundance here refers to total amount of flowers visited by an organism. Surveys were conducted in 15 minute periods between 8:00 and 14:00. At each site, four fully flowering branches were randomly selected from a randomly chosen cofffe bush.Observation period: 148",NA
"Shalene_Jha_Coffea_arabica_robusta_Mexico_2006","Ir3","observation","Apis","genus","honeybees",7,NA,15,NA,"Abundance here refers to total amount of flowers visited by an organism. Surveys were conducted in 15 minute periods between 8:00 and 14:00. At each site, four fully flowering branches were randomly selected from a randomly chosen cofffe bush.Observation period: 148",NA
"Shalene_Jha_Coffea_arabica_robusta_Mexico_2006","Ir3","observation","Apis","genus","honeybees",4,NA,15,NA,"Abundance here refers to total amount of flowers visited by an organism. Surveys were conducted in 15 minute periods between 8:00 and 14:00. At each site, four fully flowering branches were randomly selected from a randomly chosen cofffe bush.Observation period: 148",NA
"Shalene_Jha_Coffea_arabica_robusta_Mexico_2006","Ir3","observation","Apis","genus","honeybees",2,NA,15,NA,"Abundance here refers to total amount of flowers visited by an organism. Surveys were conducted in 15 minute periods between 8:00 and 14:00. At each site, four fully flowering branches were randomly selected from a randomly chosen cofffe bush.Observation period: 148",NA
"Shalene_Jha_Coffea_arabica_robusta_Mexico_2006","Ir3","observation","Apis","genus","honeybees",2,NA,15,NA,"Abundance here refers to total amount of flowers visited by an organism. Surveys were conducted in 15 minute periods between 8:00 and 14:00. At each site, four fully flowering branches were randomly selected from a randomly chosen cofffe bush.Observation period: 148",NA
"Shalene_Jha_Coffea_arabica_robusta_Mexico_2006","Ir3","observation","Apis","genus","honeybees",2,NA,15,NA,"Abundance here refers to total amount of flowers visited by an organism. Surveys were conducted in 15 minute periods between 8:00 and 14:00. At each site, four fully flowering branches were randomly selected from a randomly chosen cofffe bush.Observation period: 148",NA
"Shalene_Jha_Coffea_arabica_robusta_Mexico_2006","Ir3","observation","Apis","genus","honeybees",2,NA,15,NA,"Abundance here refers to total amount of flowers visited by an organism. Surveys were conducted in 15 minute periods between 8:00 and 14:00. At each site, four fully flowering branches were randomly selected from a randomly chosen cofffe bush.Observation period: 148",NA
"Shalene_Jha_Coffea_arabica_robusta_Mexico_2006","Ir3","observation","Apis","genus","honeybees",1,NA,15,NA,"Abundance here refers to total amount of flowers visited by an organism. Surveys were conducted in 15 minute periods between 8:00 and 14:00. At each site, four fully flowering branches were randomly selected from a randomly chosen cofffe bush.Observation period: 148",NA
"Shalene_Jha_Coffea_arabica_robusta_Mexico_2006","Ir3","observation","Apis","genus","honeybees",3,NA,15,NA,"Abundance here refers to total amount of flowers visited by an organism. Surveys were conducted in 15 minute periods between 8:00 and 14:00. At each site, four fully flowering branches were randomly selected from a randomly chosen cofffe bush.Observation period: 148",NA
"Shalene_Jha_Coffea_arabica_robusta_Mexico_2006","Ir3","observation","Apis","genus","honeybees",3,NA,15,NA,"Abundance here refers to total amount of flowers visited by an organism. Surveys were conducted in 15 minute periods between 8:00 and 14:00. At each site, four fully flowering branches were randomly selected from a randomly chosen cofffe bush.Observation period: 148",NA
"Shalene_Jha_Coffea_arabica_robusta_Mexico_2006","Ir3","observation","Apis","genus","honeybees",5,NA,15,NA,"Abundance here refers to total amount of flowers visited by an organism. Surveys were conducted in 15 minute periods between 8:00 and 14:00. At each site, four fully flowering branches were randomly selected from a randomly chosen cofffe bush.Observation period: 148",NA
"Shalene_Jha_Coffea_arabica_robusta_Mexico_2006","Ir3","observation","Apis","genus","honeybees",1,NA,15,NA,"Abundance here refers to total amount of flowers visited by an organism. Surveys were conducted in 15 minute periods between 8:00 and 14:00. At each site, four fully flowering branches were randomly selected from a randomly chosen cofffe bush.Observation period: 149",NA
"Shalene_Jha_Coffea_arabica_robusta_Mexico_2006","Ir3","observation","Apis","genus","honeybees",6,NA,15,NA,"Abundance here refers to total amount of flowers visited by an organism. Surveys were conducted in 15 minute periods between 8:00 and 14:00. At each site, four fully flowering branches were randomly selected from a randomly chosen cofffe bush.Observation period: 149",NA
"Shalene_Jha_Coffea_arabica_robusta_Mexico_2006","Ir3","observation","Apis","genus","honeybees",1,NA,15,NA,"Abundance here refers to total amount of flowers visited by an organism. Surveys were conducted in 15 minute periods between 8:00 and 14:00. At each site, four fully flowering branches were randomly selected from a randomly chosen cofffe bush.Observation period: 149",NA
"Shalene_Jha_Coffea_arabica_robusta_Mexico_2006","Ir3","observation","Apis","genus","honeybees",4,NA,15,NA,"Abundance here refers to total amount of flowers visited by an organism. Surveys were conducted in 15 minute periods between 8:00 and 14:00. At each site, four fully flowering branches were randomly selected from a randomly chosen cofffe bush.Observation period: 149",NA
"Shalene_Jha_Coffea_arabica_robusta_Mexico_2006","Ir3","observation","Apis","genus","honeybees",8,NA,15,NA,"Abundance here refers to total amount of flowers visited by an organism. Surveys were conducted in 15 minute periods between 8:00 and 14:00. At each site, four fully flowering branches were randomly selected from a randomly chosen cofffe bush.Observation period: 149",NA
"Shalene_Jha_Coffea_arabica_robusta_Mexico_2006","Ir3","observation","Apis","genus","honeybees",9,NA,15,NA,"Abundance here refers to total amount of flowers visited by an organism. Surveys were conducted in 15 minute periods between 8:00 and 14:00. At each site, four fully flowering branches were randomly selected from a randomly chosen cofffe bush.Observation period: 149",NA
"Shalene_Jha_Coffea_arabica_robusta_Mexico_2006","Ir3","observation","Apis","genus","honeybees",1,NA,15,NA,"Abundance here refers to total amount of flowers visited by an organism. Surveys were conducted in 15 minute periods between 8:00 and 14:00. At each site, four fully flowering branches were randomly selected from a randomly chosen cofffe bush.Observation period: 150",NA
"Shalene_Jha_Coffea_arabica_robusta_Mexico_2006","Ir3","observation","Apis","genus","honeybees",1,NA,15,NA,"Abundance here refers to total amount of flowers visited by an organism. Surveys were conducted in 15 minute periods between 8:00 and 14:00. At each site, four fully flowering branches were randomly selected from a randomly chosen cofffe bush.Observation period: 150",NA
"Shalene_Jha_Coffea_arabica_robusta_Mexico_2006","Ir3","observation","Apis","genus","honeybees",1,NA,15,NA,"Abundance here refers to total amount of flowers visited by an organism. Surveys were conducted in 15 minute periods between 8:00 and 14:00. At each site, four fully flowering branches were randomly selected from a randomly chosen cofffe bush.Observation period: 150",NA
"Shalene_Jha_Coffea_arabica_robusta_Mexico_2006","Ir3","observation","Apis","genus","honeybees",2,NA,15,NA,"Abundance here refers to total amount of flowers visited by an organism. Surveys were conducted in 15 minute periods between 8:00 and 14:00. At each site, four fully flowering branches were randomly selected from a randomly chosen cofffe bush.Observation period: 150",NA
"Shalene_Jha_Coffea_arabica_robusta_Mexico_2006","Ir3","observation","Apis","genus","honeybees",1,NA,15,NA,"Abundance here refers to total amount of flowers visited by an organism. Surveys were conducted in 15 minute periods between 8:00 and 14:00. At each site, four fully flowering branches were randomly selected from a randomly chosen cofffe bush.Observation period: 151",NA
"Shalene_Jha_Coffea_arabica_robusta_Mexico_2006","Ir3","observation","Apis","genus","honeybees",6,NA,15,NA,"Abundance here refers to total amount of flowers visited by an organism. Surveys were conducted in 15 minute periods between 8:00 and 14:00. At each site, four fully flowering branches were randomly selected from a randomly chosen cofffe bush.Observation period: 151",NA
"Shalene_Jha_Coffea_arabica_robusta_Mexico_2006","Ir3","observation","Apis","genus","honeybees",1,NA,15,NA,"Abundance here refers to total amount of flowers visited by an organism. Surveys were conducted in 15 minute periods between 8:00 and 14:00. At each site, four fully flowering branches were randomly selected from a randomly chosen cofffe bush.Observation period: 152",NA
"Shalene_Jha_Coffea_arabica_robusta_Mexico_2006","Ir3","observation","Apis","genus","honeybees",1,NA,15,NA,"Abundance here refers to total amount of flowers visited by an organism. Surveys were conducted in 15 minute periods between 8:00 and 14:00. At each site, four fully flowering branches were randomly selected from a randomly chosen cofffe bush.Observation period: 152",NA
"Shalene_Jha_Coffea_arabica_robusta_Mexico_2006","Ir3","observation","Apis","genus","honeybees",1,NA,15,NA,"Abundance here refers to total amount of flowers visited by an organism. Surveys were conducted in 15 minute periods between 8:00 and 14:00. At each site, four fully flowering branches were randomly selected from a randomly chosen cofffe bush.Observation period: 152",NA
"Shalene_Jha_Coffea_arabica_robusta_Mexico_2006","Ir3","observation","Apis","genus","honeybees",1,NA,15,NA,"Abundance here refers to total amount of flowers visited by an organism. Surveys were conducted in 15 minute periods between 8:00 and 14:00. At each site, four fully flowering branches were randomly selected from a randomly chosen cofffe bush.Observation period: 153",NA
"Shalene_Jha_Coffea_arabica_robusta_Mexico_2006","Ir3","observation","Apis","genus","honeybees",1,NA,15,NA,"Abundance here refers to total amount of flowers visited by an organism. Surveys were conducted in 15 minute periods between 8:00 and 14:00. At each site, four fully flowering branches were randomly selected from a randomly chosen cofffe bush.Observation period: 153",NA
"Shalene_Jha_Coffea_arabica_robusta_Mexico_2006","Ir3","observation","Apis","genus","honeybees",2,NA,15,NA,"Abundance here refers to total amount of flowers visited by an organism. Surveys were conducted in 15 minute periods between 8:00 and 14:00. At each site, four fully flowering branches were randomly selected from a randomly chosen cofffe bush.Observation period: 153",NA
"Shalene_Jha_Coffea_arabica_robusta_Mexico_2006","Ham1","observation","Apis","genus","honeybees",3,NA,15,NA,"Abundance here refers to total amount of flowers visited by an organism. Surveys were conducted in 15 minute periods between 8:00 and 14:00. At each site, four fully flowering branches were randomly selected from a randomly chosen cofffe bush.Observation period: 7",NA
"Shalene_Jha_Coffea_arabica_robusta_Mexico_2006","Ham1","observation","Plebia sp. 2","morphospecies","other_wild_bees",4,NA,15,NA,"Abundance here refers to total amount of flowers visited by an organism. Surveys were conducted in 15 minute periods between 8:00 and 14:00. At each site, four fully flowering branches were randomly selected from a randomly chosen cofffe bush.Observation period: 7",NA
"Shalene_Jha_Coffea_arabica_robusta_Mexico_2006","Ham1","observation","Apis","genus","honeybees",5,NA,15,NA,"Abundance here refers to total amount of flowers visited by an organism. Surveys were conducted in 15 minute periods between 8:00 and 14:00. At each site, four fully flowering branches were randomly selected from a randomly chosen cofffe bush.Observation period: 7",NA
"Shalene_Jha_Coffea_arabica_robusta_Mexico_2006","Ham1","observation","Apis","genus","honeybees",2,NA,15,NA,"Abundance here refers to total amount of flowers visited by an organism. Surveys were conducted in 15 minute periods between 8:00 and 14:00. At each site, four fully flowering branches were randomly selected from a randomly chosen cofffe bush.Observation period: 9",NA
"Shalene_Jha_Coffea_arabica_robusta_Mexico_2006","Ham1","observation","Apis","genus","honeybees",3,NA,15,NA,"Abundance here refers to total amount of flowers visited by an organism. Surveys were conducted in 15 minute periods between 8:00 and 14:00. At each site, four fully flowering branches were randomly selected from a randomly chosen cofffe bush.Observation period: 11",NA
"Shalene_Jha_Coffea_arabica_robusta_Mexico_2006","Ham1","observation","Apis","genus","honeybees",8,NA,15,NA,"Abundance here refers to total amount of flowers visited by an organism. Surveys were conducted in 15 minute periods between 8:00 and 14:00. At each site, four fully flowering branches were randomly selected from a randomly chosen cofffe bush.Observation period: 12",NA
"Shalene_Jha_Coffea_arabica_robusta_Mexico_2006","Ham1","observation","Apis","genus","honeybees",1,NA,15,NA,"Abundance here refers to total amount of flowers visited by an organism. Surveys were conducted in 15 minute periods between 8:00 and 14:00. At each site, four fully flowering branches were randomly selected from a randomly chosen cofffe bush.Observation period: 13",NA
"Shalene_Jha_Coffea_arabica_robusta_Mexico_2006","Ham1","observation","Apis","genus","honeybees",7,NA,15,NA,"Abundance here refers to total amount of flowers visited by an organism. Surveys were conducted in 15 minute periods between 8:00 and 14:00. At each site, four fully flowering branches were randomly selected from a randomly chosen cofffe bush.Observation period: 14",NA
"Shalene_Jha_Coffea_arabica_robusta_Mexico_2006","Ham1","observation","Apis","genus","honeybees",3,NA,15,NA,"Abundance here refers to total amount of flowers visited by an organism. Surveys were conducted in 15 minute periods between 8:00 and 14:00. At each site, four fully flowering branches were randomly selected from a randomly chosen cofffe bush.Observation period: 15",NA
"Shalene_Jha_Coffea_arabica_robusta_Mexico_2006","Ham1","observation","Apis","genus","honeybees",4,NA,15,NA,"Abundance here refers to total amount of flowers visited by an organism. Surveys were conducted in 15 minute periods between 8:00 and 14:00. At each site, four fully flowering branches were randomly selected from a randomly chosen cofffe bush.Observation period: 16",NA
"Shalene_Jha_Coffea_arabica_robusta_Mexico_2006","Ham1","observation","Apis","genus","honeybees",7,NA,15,NA,"Abundance here refers to total amount of flowers visited by an organism. Surveys were conducted in 15 minute periods between 8:00 and 14:00. At each site, four fully flowering branches were randomly selected from a randomly chosen cofffe bush.Observation period: 17",NA
"Shalene_Jha_Coffea_arabica_robusta_Mexico_2006","Ham1","observation","Nanotrigona testaceicornis","species","other_wild_bees",8,NA,15,NA,"Abundance here refers to total amount of flowers visited by an organism. Surveys were conducted in 15 minute periods between 8:00 and 14:00. At each site, four fully flowering branches were randomly selected from a randomly chosen cofffe bush.Observation period: 19",NA
"Shalene_Jha_Coffea_arabica_robusta_Mexico_2006","Ham1","observation","Apis","genus","honeybees",3,NA,15,NA,"Abundance here refers to total amount of flowers visited by an organism. Surveys were conducted in 15 minute periods between 8:00 and 14:00. At each site, four fully flowering branches were randomly selected from a randomly chosen cofffe bush.Observation period: 22",NA
"Shalene_Jha_Coffea_arabica_robusta_Mexico_2006","Ham1","observation","Apis","genus","honeybees",2,NA,15,NA,"Abundance here refers to total amount of flowers visited by an organism. Surveys were conducted in 15 minute periods between 8:00 and 14:00. At each site, four fully flowering branches were randomly selected from a randomly chosen cofffe bush.Observation period: 24",NA
"Shalene_Jha_Coffea_arabica_robusta_Mexico_2006","Ham1","observation","Euluema","genus","other_wild_bees",4,NA,15,NA,"Abundance here refers to total amount of flowers visited by an organism. Surveys were conducted in 15 minute periods between 8:00 and 14:00. At each site, four fully flowering branches were randomly selected from a randomly chosen cofffe bush.Observation period: 24",NA
"Shalene_Jha_Coffea_arabica_robusta_Mexico_2006","Ham1","observation","Apis","genus","honeybees",7,NA,15,NA,"Abundance here refers to total amount of flowers visited by an organism. Surveys were conducted in 15 minute periods between 8:00 and 14:00. At each site, four fully flowering branches were randomly selected from a randomly chosen cofffe bush.Observation period: 24",NA
"Shalene_Jha_Coffea_arabica_robusta_Mexico_2006","Ham1","observation","Apis","genus","honeybees",2,NA,15,NA,"Abundance here refers to total amount of flowers visited by an organism. Surveys were conducted in 15 minute periods between 8:00 and 14:00. At each site, four fully flowering branches were randomly selected from a randomly chosen cofffe bush.Observation period: 25",NA
"Shalene_Jha_Coffea_arabica_robusta_Mexico_2006","Ham1","observation","Apis","genus","honeybees",3,NA,15,NA,"Abundance here refers to total amount of flowers visited by an organism. Surveys were conducted in 15 minute periods between 8:00 and 14:00. At each site, four fully flowering branches were randomly selected from a randomly chosen cofffe bush.Observation period: 25",NA
"Shalene_Jha_Coffea_arabica_robusta_Mexico_2006","Ham1","observation","Apis","genus","honeybees",2,NA,15,NA,"Abundance here refers to total amount of flowers visited by an organism. Surveys were conducted in 15 minute periods between 8:00 and 14:00. At each site, four fully flowering branches were randomly selected from a randomly chosen cofffe bush.Observation period: 27",NA
"Shalene_Jha_Coffea_arabica_robusta_Mexico_2006","Ham1","observation","Apis","genus","honeybees",2,NA,15,NA,"Abundance here refers to total amount of flowers visited by an organism. Surveys were conducted in 15 minute periods between 8:00 and 14:00. At each site, four fully flowering branches were randomly selected from a randomly chosen cofffe bush.Observation period: 28",NA
"Shalene_Jha_Coffea_arabica_robusta_Mexico_2006","Ham1","observation","Apis","genus","honeybees",3,NA,15,NA,"Abundance here refers to total amount of flowers visited by an organism. Surveys were conducted in 15 minute periods between 8:00 and 14:00. At each site, four fully flowering branches were randomly selected from a randomly chosen cofffe bush.Observation period: 33",NA
"Shalene_Jha_Coffea_arabica_robusta_Mexico_2006","Ham1","observation","Apis","genus","honeybees",4,NA,15,NA,"Abundance here refers to total amount of flowers visited by an organism. Surveys were conducted in 15 minute periods between 8:00 and 14:00. At each site, four fully flowering branches were randomly selected from a randomly chosen cofffe bush.Observation period: 34",NA
"Shalene_Jha_Coffea_arabica_robusta_Mexico_2006","Ham1","observation","Apis","genus","honeybees",5,NA,15,NA,"Abundance here refers to total amount of flowers visited by an organism. Surveys were conducted in 15 minute periods between 8:00 and 14:00. At each site, four fully flowering branches were randomly selected from a randomly chosen cofffe bush.Observation period: 36",NA
"Shalene_Jha_Coffea_arabica_robusta_Mexico_2006","Ham1","observation","Apis","genus","honeybees",20,NA,15,NA,"Abundance here refers to total amount of flowers visited by an organism. Surveys were conducted in 15 minute periods between 8:00 and 14:00. At each site, four fully flowering branches were randomly selected from a randomly chosen cofffe bush.Observation period: 37",NA
"Shalene_Jha_Coffea_arabica_robusta_Mexico_2006","Ham1","observation","Apis","genus","honeybees",7,NA,15,NA,"Abundance here refers to total amount of flowers visited by an organism. Surveys were conducted in 15 minute periods between 8:00 and 14:00. At each site, four fully flowering branches were randomly selected from a randomly chosen cofffe bush.Observation period: 37",NA
"Shalene_Jha_Coffea_arabica_robusta_Mexico_2006","Ham2","observation","Apis","genus","honeybees",4,NA,15,NA,"Abundance here refers to total amount of flowers visited by an organism. Surveys were conducted in 15 minute periods between 8:00 and 14:00. At each site, four fully flowering branches were randomly selected from a randomly chosen cofffe bush.Observation period: 105",NA
"Shalene_Jha_Coffea_arabica_robusta_Mexico_2006","Ham2","observation","Apis","genus","honeybees",2,NA,15,NA,"Abundance here refers to total amount of flowers visited by an organism. Surveys were conducted in 15 minute periods between 8:00 and 14:00. At each site, four fully flowering branches were randomly selected from a randomly chosen cofffe bush.Observation period: 105",NA
"Shalene_Jha_Coffea_arabica_robusta_Mexico_2006","Ham2","observation","Apis","genus","honeybees",2,NA,15,NA,"Abundance here refers to total amount of flowers visited by an organism. Surveys were conducted in 15 minute periods between 8:00 and 14:00. At each site, four fully flowering branches were randomly selected from a randomly chosen cofffe bush.Observation period: 105",NA
"Shalene_Jha_Coffea_arabica_robusta_Mexico_2006","Ham2","observation","Apis","genus","honeybees",3,NA,15,NA,"Abundance here refers to total amount of flowers visited by an organism. Surveys were conducted in 15 minute periods between 8:00 and 14:00. At each site, four fully flowering branches were randomly selected from a randomly chosen cofffe bush.Observation period: 105",NA
"Shalene_Jha_Coffea_arabica_robusta_Mexico_2006","Ham2","observation","Apis","genus","honeybees",1,NA,15,NA,"Abundance here refers to total amount of flowers visited by an organism. Surveys were conducted in 15 minute periods between 8:00 and 14:00. At each site, four fully flowering branches were randomly selected from a randomly chosen cofffe bush.Observation period: 105",NA
"Shalene_Jha_Coffea_arabica_robusta_Mexico_2006","Ham2","observation","Apis","genus","honeybees",1,NA,15,NA,"Abundance here refers to total amount of flowers visited by an organism. Surveys were conducted in 15 minute periods between 8:00 and 14:00. At each site, four fully flowering branches were randomly selected from a randomly chosen cofffe bush.Observation period: 105",NA
"Shalene_Jha_Coffea_arabica_robusta_Mexico_2006","Ham2","observation","Apis","genus","honeybees",1,NA,15,NA,"Abundance here refers to total amount of flowers visited by an organism. Surveys were conducted in 15 minute periods between 8:00 and 14:00. At each site, four fully flowering branches were randomly selected from a randomly chosen cofffe bush.Observation period: 105",NA
"Shalene_Jha_Coffea_arabica_robusta_Mexico_2006","Ham2","observation","Apis","genus","honeybees",1,NA,15,NA,"Abundance here refers to total amount of flowers visited by an organism. Surveys were conducted in 15 minute periods between 8:00 and 14:00. At each site, four fully flowering branches were randomly selected from a randomly chosen cofffe bush.Observation period: 105",NA
"Shalene_Jha_Coffea_arabica_robusta_Mexico_2006","Ham2","observation","Apis","genus","honeybees",3,NA,15,NA,"Abundance here refers to total amount of flowers visited by an organism. Surveys were conducted in 15 minute periods between 8:00 and 14:00. At each site, four fully flowering branches were randomly selected from a randomly chosen cofffe bush.Observation period: 105",NA
"Shalene_Jha_Coffea_arabica_robusta_Mexico_2006","Ham2","observation","Apis","genus","honeybees",10,NA,15,NA,"Abundance here refers to total amount of flowers visited by an organism. Surveys were conducted in 15 minute periods between 8:00 and 14:00. At each site, four fully flowering branches were randomly selected from a randomly chosen cofffe bush.Observation period: 105",NA
"Shalene_Jha_Coffea_arabica_robusta_Mexico_2006","Ham2","observation","Apis","genus","honeybees",2,NA,15,NA,"Abundance here refers to total amount of flowers visited by an organism. Surveys were conducted in 15 minute periods between 8:00 and 14:00. At each site, four fully flowering branches were randomly selected from a randomly chosen cofffe bush.Observation period: 106",NA
"Shalene_Jha_Coffea_arabica_robusta_Mexico_2006","Ham2","observation","Apis","genus","honeybees",1,NA,15,NA,"Abundance here refers to total amount of flowers visited by an organism. Surveys were conducted in 15 minute periods between 8:00 and 14:00. At each site, four fully flowering branches were randomly selected from a randomly chosen cofffe bush.Observation period: 106",NA
"Shalene_Jha_Coffea_arabica_robusta_Mexico_2006","Ham2","observation","Apis","genus","honeybees",4,NA,15,NA,"Abundance here refers to total amount of flowers visited by an organism. Surveys were conducted in 15 minute periods between 8:00 and 14:00. At each site, four fully flowering branches were randomly selected from a randomly chosen cofffe bush.Observation period: 106",NA
"Shalene_Jha_Coffea_arabica_robusta_Mexico_2006","Ham2","observation","Apis","genus","honeybees",1,NA,15,NA,"Abundance here refers to total amount of flowers visited by an organism. Surveys were conducted in 15 minute periods between 8:00 and 14:00. At each site, four fully flowering branches were randomly selected from a randomly chosen cofffe bush.Observation period: 106",NA
"Shalene_Jha_Coffea_arabica_robusta_Mexico_2006","Ham2","observation","Apis","genus","honeybees",2,NA,15,NA,"Abundance here refers to total amount of flowers visited by an organism. Surveys were conducted in 15 minute periods between 8:00 and 14:00. At each site, four fully flowering branches were randomly selected from a randomly chosen cofffe bush.Observation period: 106",NA
"Shalene_Jha_Coffea_arabica_robusta_Mexico_2006","Ham2","observation","Apis","genus","honeybees",3,NA,15,NA,"Abundance here refers to total amount of flowers visited by an organism. Surveys were conducted in 15 minute periods between 8:00 and 14:00. At each site, four fully flowering branches were randomly selected from a randomly chosen cofffe bush.Observation period: 106",NA
"Shalene_Jha_Coffea_arabica_robusta_Mexico_2006","Ham2","observation","Apis","genus","honeybees",3,NA,15,NA,"Abundance here refers to total amount of flowers visited by an organism. Surveys were conducted in 15 minute periods between 8:00 and 14:00. At each site, four fully flowering branches were randomly selected from a randomly chosen cofffe bush.Observation period: 107",NA
"Shalene_Jha_Coffea_arabica_robusta_Mexico_2006","Ham2","observation","Apis","genus","honeybees",6,NA,15,NA,"Abundance here refers to total amount of flowers visited by an organism. Surveys were conducted in 15 minute periods between 8:00 and 14:00. At each site, four fully flowering branches were randomly selected from a randomly chosen cofffe bush.Observation period: 107",NA
"Shalene_Jha_Coffea_arabica_robusta_Mexico_2006","Ham2","observation","Dialictus sp. 1","morphospecies","other_wild_bees",1,NA,15,NA,"Abundance here refers to total amount of flowers visited by an organism. Surveys were conducted in 15 minute periods between 8:00 and 14:00. At each site, four fully flowering branches were randomly selected from a randomly chosen cofffe bush.Observation period: 107",NA
"Shalene_Jha_Coffea_arabica_robusta_Mexico_2006","Ham2","observation","Apis","genus","honeybees",2,NA,15,NA,"Abundance here refers to total amount of flowers visited by an organism. Surveys were conducted in 15 minute periods between 8:00 and 14:00. At each site, four fully flowering branches were randomly selected from a randomly chosen cofffe bush.Observation period: 107",NA
"Shalene_Jha_Coffea_arabica_robusta_Mexico_2006","Ham2","observation","Apis","genus","honeybees",6,NA,15,NA,"Abundance here refers to total amount of flowers visited by an organism. Surveys were conducted in 15 minute periods between 8:00 and 14:00. At each site, four fully flowering branches were randomly selected from a randomly chosen cofffe bush.Observation period: 107",NA
"Shalene_Jha_Coffea_arabica_robusta_Mexico_2006","Ham2","observation","Apis","genus","honeybees",5,NA,15,NA,"Abundance here refers to total amount of flowers visited by an organism. Surveys were conducted in 15 minute periods between 8:00 and 14:00. At each site, four fully flowering branches were randomly selected from a randomly chosen cofffe bush.Observation period: 108",NA
"Shalene_Jha_Coffea_arabica_robusta_Mexico_2006","Ham2","observation","Apis","genus","honeybees",4,NA,15,NA,"Abundance here refers to total amount of flowers visited by an organism. Surveys were conducted in 15 minute periods between 8:00 and 14:00. At each site, four fully flowering branches were randomly selected from a randomly chosen cofffe bush.Observation period: 109",NA
"Shalene_Jha_Coffea_arabica_robusta_Mexico_2006","Ham2","observation","Apis","genus","honeybees",3,NA,15,NA,"Abundance here refers to total amount of flowers visited by an organism. Surveys were conducted in 15 minute periods between 8:00 and 14:00. At each site, four fully flowering branches were randomly selected from a randomly chosen cofffe bush.Observation period: 109",NA
"Shalene_Jha_Coffea_arabica_robusta_Mexico_2006","Ham2","observation","Apis","genus","honeybees",7,NA,15,NA,"Abundance here refers to total amount of flowers visited by an organism. Surveys were conducted in 15 minute periods between 8:00 and 14:00. At each site, four fully flowering branches were randomly selected from a randomly chosen cofffe bush.Observation period: 109",NA
"Shalene_Jha_Coffea_arabica_robusta_Mexico_2006","Ham2","observation","Apis","genus","honeybees",2,NA,15,NA,"Abundance here refers to total amount of flowers visited by an organism. Surveys were conducted in 15 minute periods between 8:00 and 14:00. At each site, four fully flowering branches were randomly selected from a randomly chosen cofffe bush.Observation period: 110",NA
"Shalene_Jha_Coffea_arabica_robusta_Mexico_2006","Ham2","observation","Apis","genus","honeybees",4,NA,15,NA,"Abundance here refers to total amount of flowers visited by an organism. Surveys were conducted in 15 minute periods between 8:00 and 14:00. At each site, four fully flowering branches were randomly selected from a randomly chosen cofffe bush.Observation period: 111",NA
"Shalene_Jha_Coffea_arabica_robusta_Mexico_2006","Ham2","observation","Apis","genus","honeybees",2,NA,15,NA,"Abundance here refers to total amount of flowers visited by an organism. Surveys were conducted in 15 minute periods between 8:00 and 14:00. At each site, four fully flowering branches were randomly selected from a randomly chosen cofffe bush.Observation period: 111",NA
"Shalene_Jha_Coffea_arabica_robusta_Mexico_2006","Ham2","observation","Apis","genus","honeybees",4,NA,15,NA,"Abundance here refers to total amount of flowers visited by an organism. Surveys were conducted in 15 minute periods between 8:00 and 14:00. At each site, four fully flowering branches were randomly selected from a randomly chosen cofffe bush.Observation period: 111",NA
"Shalene_Jha_Coffea_arabica_robusta_Mexico_2006","Ham2","observation","Apis","genus","honeybees",2,NA,15,NA,"Abundance here refers to total amount of flowers visited by an organism. Surveys were conducted in 15 minute periods between 8:00 and 14:00. At each site, four fully flowering branches were randomly selected from a randomly chosen cofffe bush.Observation period: 111",NA
"Shalene_Jha_Coffea_arabica_robusta_Mexico_2006","Ham2","observation","Apis","genus","honeybees",2,NA,15,NA,"Abundance here refers to total amount of flowers visited by an organism. Surveys were conducted in 15 minute periods between 8:00 and 14:00. At each site, four fully flowering branches were randomly selected from a randomly chosen cofffe bush.Observation period: 111",NA
"Shalene_Jha_Coffea_arabica_robusta_Mexico_2006","Ham2","observation","Apis","genus","honeybees",1,NA,15,NA,"Abundance here refers to total amount of flowers visited by an organism. Surveys were conducted in 15 minute periods between 8:00 and 14:00. At each site, four fully flowering branches were randomly selected from a randomly chosen cofffe bush.Observation period: 111",NA
"Shalene_Jha_Coffea_arabica_robusta_Mexico_2006","Ham2","observation","Apis","genus","honeybees",3,NA,15,NA,"Abundance here refers to total amount of flowers visited by an organism. Surveys were conducted in 15 minute periods between 8:00 and 14:00. At each site, four fully flowering branches were randomly selected from a randomly chosen cofffe bush.Observation period: 114",NA
"Shalene_Jha_Coffea_arabica_robusta_Mexico_2006","Ham2","observation","Apis","genus","honeybees",3,NA,15,NA,"Abundance here refers to total amount of flowers visited by an organism. Surveys were conducted in 15 minute periods between 8:00 and 14:00. At each site, four fully flowering branches were randomly selected from a randomly chosen cofffe bush.Observation period: 114",NA
"Shalene_Jha_Coffea_arabica_robusta_Mexico_2006","Ham3","observation","Trigona fulviventris","species","other_wild_bees",2,NA,15,NA,"Abundance here refers to total amount of flowers visited by an organism. Surveys were conducted in 15 minute periods between 8:00 and 14:00. At each site, four fully flowering branches were randomly selected from a randomly chosen cofffe bush.Observation period: 55",NA
"Shalene_Jha_Coffea_arabica_robusta_Mexico_2006","Ham3","observation","Trigona fulviventris","species","other_wild_bees",1,NA,15,NA,"Abundance here refers to total amount of flowers visited by an organism. Surveys were conducted in 15 minute periods between 8:00 and 14:00. At each site, four fully flowering branches were randomly selected from a randomly chosen cofffe bush.Observation period: 55",NA
"Shalene_Jha_Coffea_arabica_robusta_Mexico_2006","Ham3","observation","Trigona fulviventris","species","other_wild_bees",1,NA,15,NA,"Abundance here refers to total amount of flowers visited by an organism. Surveys were conducted in 15 minute periods between 8:00 and 14:00. At each site, four fully flowering branches were randomly selected from a randomly chosen cofffe bush.Observation period: 56",NA
"Shalene_Jha_Coffea_arabica_robusta_Mexico_2006","Ham3","observation","Apis","genus","honeybees",5,NA,15,NA,"Abundance here refers to total amount of flowers visited by an organism. Surveys were conducted in 15 minute periods between 8:00 and 14:00. At each site, four fully flowering branches were randomly selected from a randomly chosen cofffe bush.Observation period: 58",NA
"Shalene_Jha_Coffea_arabica_robusta_Mexico_2006","Ham3","observation","Xylocopa tabaniformis","species","other_wild_bees",2,NA,15,NA,"Abundance here refers to total amount of flowers visited by an organism. Surveys were conducted in 15 minute periods between 8:00 and 14:00. At each site, four fully flowering branches were randomly selected from a randomly chosen cofffe bush.Observation period: 59",NA
"Shalene_Jha_Coffea_arabica_robusta_Mexico_2006","Ham3","observation","Xylocopa tabaniformis","species","other_wild_bees",2,NA,15,NA,"Abundance here refers to total amount of flowers visited by an organism. Surveys were conducted in 15 minute periods between 8:00 and 14:00. At each site, four fully flowering branches were randomly selected from a randomly chosen cofffe bush.Observation period: 59",NA
"Shalene_Jha_Coffea_arabica_robusta_Mexico_2006","Ham3","observation","Apis","genus","honeybees",2,NA,15,NA,"Abundance here refers to total amount of flowers visited by an organism. Surveys were conducted in 15 minute periods between 8:00 and 14:00. At each site, four fully flowering branches were randomly selected from a randomly chosen cofffe bush.Observation period: 60",NA
"Shalene_Jha_Coffea_arabica_robusta_Mexico_2006","Ham3","observation","Apis","genus","honeybees",7,NA,15,NA,"Abundance here refers to total amount of flowers visited by an organism. Surveys were conducted in 15 minute periods between 8:00 and 14:00. At each site, four fully flowering branches were randomly selected from a randomly chosen cofffe bush.Observation period: 60",NA
"Shalene_Jha_Coffea_arabica_robusta_Mexico_2006","Ham3","observation","Apis","genus","honeybees",3,NA,15,NA,"Abundance here refers to total amount of flowers visited by an organism. Surveys were conducted in 15 minute periods between 8:00 and 14:00. At each site, four fully flowering branches were randomly selected from a randomly chosen cofffe bush.Observation period: 60",NA
"Shalene_Jha_Coffea_arabica_robusta_Mexico_2006","Ham3","observation","Apis","genus","honeybees",2,NA,15,NA,"Abundance here refers to total amount of flowers visited by an organism. Surveys were conducted in 15 minute periods between 8:00 and 14:00. At each site, four fully flowering branches were randomly selected from a randomly chosen cofffe bush.Observation period: 61",NA
"Shalene_Jha_Coffea_arabica_robusta_Mexico_2006","Ham3","observation","Apis","genus","honeybees",9,NA,15,NA,"Abundance here refers to total amount of flowers visited by an organism. Surveys were conducted in 15 minute periods between 8:00 and 14:00. At each site, four fully flowering branches were randomly selected from a randomly chosen cofffe bush.Observation period: 61",NA
"Shalene_Jha_Coffea_arabica_robusta_Mexico_2006","Ham3","observation","Apis","genus","honeybees",5,NA,15,NA,"Abundance here refers to total amount of flowers visited by an organism. Surveys were conducted in 15 minute periods between 8:00 and 14:00. At each site, four fully flowering branches were randomly selected from a randomly chosen cofffe bush.Observation period: 62",NA
"Shalene_Jha_Coffea_arabica_robusta_Mexico_2006","Ham3","observation","Trigona fulviventris","species","other_wild_bees",1,NA,15,NA,"Abundance here refers to total amount of flowers visited by an organism. Surveys were conducted in 15 minute periods between 8:00 and 14:00. At each site, four fully flowering branches were randomly selected from a randomly chosen cofffe bush.Observation period: 62",NA
"Shalene_Jha_Coffea_arabica_robusta_Mexico_2006","Ham3","observation","Apis","genus","honeybees",3,NA,15,NA,"Abundance here refers to total amount of flowers visited by an organism. Surveys were conducted in 15 minute periods between 8:00 and 14:00. At each site, four fully flowering branches were randomly selected from a randomly chosen cofffe bush.Observation period: 62",NA
"Shalene_Jha_Coffea_arabica_robusta_Mexico_2006","Ham3","observation","Trigona fulviventris","species","other_wild_bees",6,NA,15,NA,"Abundance here refers to total amount of flowers visited by an organism. Surveys were conducted in 15 minute periods between 8:00 and 14:00. At each site, four fully flowering branches were randomly selected from a randomly chosen cofffe bush.Observation period: 62",NA
"Shalene_Jha_Coffea_arabica_robusta_Mexico_2006","Ham3","observation","Trigona fulviventris","species","other_wild_bees",1,NA,15,NA,"Abundance here refers to total amount of flowers visited by an organism. Surveys were conducted in 15 minute periods between 8:00 and 14:00. At each site, four fully flowering branches were randomly selected from a randomly chosen cofffe bush.Observation period: 62",NA
"Shalene_Jha_Coffea_arabica_robusta_Mexico_2006","Ham3","observation","Trigona fulviventris","species","other_wild_bees",3,NA,15,NA,"Abundance here refers to total amount of flowers visited by an organism. Surveys were conducted in 15 minute periods between 8:00 and 14:00. At each site, four fully flowering branches were randomly selected from a randomly chosen cofffe bush.Observation period: 63",NA
"Shalene_Jha_Coffea_arabica_robusta_Mexico_2006","Ham3","observation","Apis","genus","honeybees",2,NA,15,NA,"Abundance here refers to total amount of flowers visited by an organism. Surveys were conducted in 15 minute periods between 8:00 and 14:00. At each site, four fully flowering branches were randomly selected from a randomly chosen cofffe bush.Observation period: 64",NA
"Shalene_Jha_Coffea_arabica_robusta_Mexico_2006","Ham3","observation","Apis","genus","honeybees",2,NA,15,NA,"Abundance here refers to total amount of flowers visited by an organism. Surveys were conducted in 15 minute periods between 8:00 and 14:00. At each site, four fully flowering branches were randomly selected from a randomly chosen cofffe bush.Observation period: 64",NA
"Shalene_Jha_Coffea_arabica_robusta_Mexico_2006","Ham3","observation","Apis","genus","honeybees",1,NA,15,NA,"Abundance here refers to total amount of flowers visited by an organism. Surveys were conducted in 15 minute periods between 8:00 and 14:00. At each site, four fully flowering branches were randomly selected from a randomly chosen cofffe bush.Observation period: 66",NA
"Shalene_Jha_Coffea_arabica_robusta_Mexico_2006","Ham3","observation","Plebia sp. 2","morphospecies","other_wild_bees",3,NA,15,NA,"Abundance here refers to total amount of flowers visited by an organism. Surveys were conducted in 15 minute periods between 8:00 and 14:00. At each site, four fully flowering branches were randomly selected from a randomly chosen cofffe bush.Observation period: 67",NA
"Shalene_Jha_Coffea_arabica_robusta_Mexico_2006","Ham3","observation","Plebia sp. 2","morphospecies","other_wild_bees",2,NA,15,NA,"Abundance here refers to total amount of flowers visited by an organism. Surveys were conducted in 15 minute periods between 8:00 and 14:00. At each site, four fully flowering branches were randomly selected from a randomly chosen cofffe bush.Observation period: 67",NA
"Shalene_Jha_Coffea_arabica_robusta_Mexico_2006","Ham3","observation","Apis","genus","honeybees",8,NA,15,NA,"Abundance here refers to total amount of flowers visited by an organism. Surveys were conducted in 15 minute periods between 8:00 and 14:00. At each site, four fully flowering branches were randomly selected from a randomly chosen cofffe bush.Observation period: 68",NA
"Shalene_Jha_Coffea_arabica_robusta_Mexico_2006","Ham3","observation","Apis","genus","honeybees",7,NA,15,NA,"Abundance here refers to total amount of flowers visited by an organism. Surveys were conducted in 15 minute periods between 8:00 and 14:00. At each site, four fully flowering branches were randomly selected from a randomly chosen cofffe bush.Observation period: 68",NA
"Shalene_Jha_Coffea_arabica_robusta_Mexico_2006","Ham3","observation","Apis","genus","honeybees",1,NA,15,NA,"Abundance here refers to total amount of flowers visited by an organism. Surveys were conducted in 15 minute periods between 8:00 and 14:00. At each site, four fully flowering branches were randomly selected from a randomly chosen cofffe bush.Observation period: 69",NA
"Shalene_Jha_Coffea_arabica_robusta_Mexico_2006","Ir5","observation","Halictus hesperus","species","other_wild_bees",2,NA,15,NA,"Abundance here refers to total amount of flowers visited by an organism. Surveys were conducted in 15 minute periods between 8:00 and 14:00. At each site, four fully flowering branches were randomly selected from a randomly chosen cofffe bush.Observation period: 44",NA
"Shalene_Jha_Coffea_arabica_robusta_Mexico_2006","Ir5","observation","Apis","genus","honeybees",2,NA,15,NA,"Abundance here refers to total amount of flowers visited by an organism. Surveys were conducted in 15 minute periods between 8:00 and 14:00. At each site, four fully flowering branches were randomly selected from a randomly chosen cofffe bush.Observation period: 44",NA
"Shalene_Jha_Coffea_arabica_robusta_Mexico_2006","Ir5","observation","Halictus hesperus","species","other_wild_bees",1,NA,15,NA,"Abundance here refers to total amount of flowers visited by an organism. Surveys were conducted in 15 minute periods between 8:00 and 14:00. At each site, four fully flowering branches were randomly selected from a randomly chosen cofffe bush.Observation period: 44",NA
"Shalene_Jha_Coffea_arabica_robusta_Mexico_2006","Ir5","observation","Augochlora aurifera","species","other_wild_bees",1,NA,15,NA,"Abundance here refers to total amount of flowers visited by an organism. Surveys were conducted in 15 minute periods between 8:00 and 14:00. At each site, four fully flowering branches were randomly selected from a randomly chosen cofffe bush.Observation period: 44",NA
"Shalene_Jha_Coffea_arabica_robusta_Mexico_2006","Ir5","observation","Scaptotrigona mexicana","species","other_wild_bees",4,NA,15,NA,"Abundance here refers to total amount of flowers visited by an organism. Surveys were conducted in 15 minute periods between 8:00 and 14:00. At each site, four fully flowering branches were randomly selected from a randomly chosen cofffe bush.Observation period: 44",NA
"Shalene_Jha_Coffea_arabica_robusta_Mexico_2006","Ir5","observation","Halictus hesperus","species","other_wild_bees",2,NA,15,NA,"Abundance here refers to total amount of flowers visited by an organism. Surveys were conducted in 15 minute periods between 8:00 and 14:00. At each site, four fully flowering branches were randomly selected from a randomly chosen cofffe bush.Observation period: 45",NA
"Shalene_Jha_Coffea_arabica_robusta_Mexico_2006","Ir5","observation","Halictus hesperus","species","other_wild_bees",1,NA,15,NA,"Abundance here refers to total amount of flowers visited by an organism. Surveys were conducted in 15 minute periods between 8:00 and 14:00. At each site, four fully flowering branches were randomly selected from a randomly chosen cofffe bush.Observation period: 45",NA
"Shalene_Jha_Coffea_arabica_robusta_Mexico_2006","Ir5","observation","Apis","genus","honeybees",1,NA,15,NA,"Abundance here refers to total amount of flowers visited by an organism. Surveys were conducted in 15 minute periods between 8:00 and 14:00. At each site, four fully flowering branches were randomly selected from a randomly chosen cofffe bush.Observation period: 45",NA
"Shalene_Jha_Coffea_arabica_robusta_Mexico_2006","Ir5","observation","Scaptotrigona mexicana","species","other_wild_bees",2,NA,15,NA,"Abundance here refers to total amount of flowers visited by an organism. Surveys were conducted in 15 minute periods between 8:00 and 14:00. At each site, four fully flowering branches were randomly selected from a randomly chosen cofffe bush.Observation period: 45",NA
"Shalene_Jha_Coffea_arabica_robusta_Mexico_2006","Ir5","observation","Trigona fulviventris","species","other_wild_bees",2,NA,15,NA,"Abundance here refers to total amount of flowers visited by an organism. Surveys were conducted in 15 minute periods between 8:00 and 14:00. At each site, four fully flowering branches were randomly selected from a randomly chosen cofffe bush.Observation period: 119",NA
"Shalene_Jha_Coffea_arabica_robusta_Mexico_2006","Ir5","observation","Plebia sp. 2","morphospecies","other_wild_bees",2,NA,15,NA,"Abundance here refers to total amount of flowers visited by an organism. Surveys were conducted in 15 minute periods between 8:00 and 14:00. At each site, four fully flowering branches were randomly selected from a randomly chosen cofffe bush.Observation period: 119",NA
"Shalene_Jha_Coffea_arabica_robusta_Mexico_2006","Ir5","observation","Apis","genus","honeybees",5,NA,15,NA,"Abundance here refers to total amount of flowers visited by an organism. Surveys were conducted in 15 minute periods between 8:00 and 14:00. At each site, four fully flowering branches were randomly selected from a randomly chosen cofffe bush.Observation period: 125",NA
"Shalene_Jha_Coffea_arabica_robusta_Mexico_2006","Ir5","observation","Apis","genus","honeybees",2,NA,15,NA,"Abundance here refers to total amount of flowers visited by an organism. Surveys were conducted in 15 minute periods between 8:00 and 14:00. At each site, four fully flowering branches were randomly selected from a randomly chosen cofffe bush.Observation period: 129",NA
"Shalene_Jha_Coffea_arabica_robusta_Mexico_2006","Ir5","observation","Apis","genus","honeybees",2,NA,15,NA,"Abundance here refers to total amount of flowers visited by an organism. Surveys were conducted in 15 minute periods between 8:00 and 14:00. At each site, four fully flowering branches were randomly selected from a randomly chosen cofffe bush.Observation period: 129",NA
"Shalene_Jha_Coffea_arabica_robusta_Mexico_2006","Ir5","observation","Apis","genus","honeybees",1,NA,15,NA,"Abundance here refers to total amount of flowers visited by an organism. Surveys were conducted in 15 minute periods between 8:00 and 14:00. At each site, four fully flowering branches were randomly selected from a randomly chosen cofffe bush.Observation period: 129",NA
"Shalene_Jha_Coffea_arabica_robusta_Mexico_2006","Ir5","observation","Apis","genus","honeybees",5,NA,15,NA,"Abundance here refers to total amount of flowers visited by an organism. Surveys were conducted in 15 minute periods between 8:00 and 14:00. At each site, four fully flowering branches were randomly selected from a randomly chosen cofffe bush.Observation period: 129",NA
"Shalene_Jha_Coffea_arabica_robusta_Mexico_2006","Ir5","observation","Apis","genus","honeybees",3,NA,15,NA,"Abundance here refers to total amount of flowers visited by an organism. Surveys were conducted in 15 minute periods between 8:00 and 14:00. At each site, four fully flowering branches were randomly selected from a randomly chosen cofffe bush.Observation period: 129",NA
"Shalene_Jha_Coffea_arabica_robusta_Mexico_2006","Ir5","observation","Apis","genus","honeybees",4,NA,15,NA,"Abundance here refers to total amount of flowers visited by an organism. Surveys were conducted in 15 minute periods between 8:00 and 14:00. At each site, four fully flowering branches were randomly selected from a randomly chosen cofffe bush.Observation period: 129",NA
"Shalene_Jha_Coffea_arabica_robusta_Mexico_2006","Ir5","observation","Apis","genus","honeybees",1,NA,15,NA,"Abundance here refers to total amount of flowers visited by an organism. Surveys were conducted in 15 minute periods between 8:00 and 14:00. At each site, four fully flowering branches were randomly selected from a randomly chosen cofffe bush.Observation period: 130",NA
"Shalene_Jha_Coffea_arabica_robusta_Mexico_2006","Ir5","observation","Apis","genus","honeybees",5,NA,15,NA,"Abundance here refers to total amount of flowers visited by an organism. Surveys were conducted in 15 minute periods between 8:00 and 14:00. At each site, four fully flowering branches were randomly selected from a randomly chosen cofffe bush.Observation period: 130",NA
"Shalene_Jha_Coffea_arabica_robusta_Mexico_2006","Ir5","observation","Apis","genus","honeybees",1,NA,15,NA,"Abundance here refers to total amount of flowers visited by an organism. Surveys were conducted in 15 minute periods between 8:00 and 14:00. At each site, four fully flowering branches were randomly selected from a randomly chosen cofffe bush.Observation period: 130",NA
"Shalene_Jha_Coffea_arabica_robusta_Mexico_2006","Ir5","observation","Augochlora aurifera","species","other_wild_bees",1,NA,15,NA,"Abundance here refers to total amount of flowers visited by an organism. Surveys were conducted in 15 minute periods between 8:00 and 14:00. At each site, four fully flowering branches were randomly selected from a randomly chosen cofffe bush.Observation period: 130",NA
"Shalene_Jha_Coffea_arabica_robusta_Mexico_2006","Ir6","observation","Apis","genus","honeybees",2,NA,15,NA,"Abundance here refers to total amount of flowers visited by an organism. Surveys were conducted in 15 minute periods between 8:00 and 14:00. At each site, four fully flowering branches were randomly selected from a randomly chosen cofffe bush.Observation period: 131",NA
"Shalene_Jha_Coffea_arabica_robusta_Mexico_2006","Ir6","observation","Apis","genus","honeybees",5,NA,15,NA,"Abundance here refers to total amount of flowers visited by an organism. Surveys were conducted in 15 minute periods between 8:00 and 14:00. At each site, four fully flowering branches were randomly selected from a randomly chosen cofffe bush.Observation period: 131",NA
"Shalene_Jha_Coffea_arabica_robusta_Mexico_2006","Ir6","observation","Apis","genus","honeybees",3,NA,15,NA,"Abundance here refers to total amount of flowers visited by an organism. Surveys were conducted in 15 minute periods between 8:00 and 14:00. At each site, four fully flowering branches were randomly selected from a randomly chosen cofffe bush.Observation period: 131",NA
"Shalene_Jha_Coffea_arabica_robusta_Mexico_2006","Ir6","observation","Apis","genus","honeybees",1,NA,15,NA,"Abundance here refers to total amount of flowers visited by an organism. Surveys were conducted in 15 minute periods between 8:00 and 14:00. At each site, four fully flowering branches were randomly selected from a randomly chosen cofffe bush.Observation period: 131",NA
"Shalene_Jha_Coffea_arabica_robusta_Mexico_2006","Ir6","observation","Apis","genus","honeybees",3,NA,15,NA,"Abundance here refers to total amount of flowers visited by an organism. Surveys were conducted in 15 minute periods between 8:00 and 14:00. At each site, four fully flowering branches were randomly selected from a randomly chosen cofffe bush.Observation period: 131",NA
"Shalene_Jha_Coffea_arabica_robusta_Mexico_2006","Ir6","observation","Apis","genus","honeybees",4,NA,15,NA,"Abundance here refers to total amount of flowers visited by an organism. Surveys were conducted in 15 minute periods between 8:00 and 14:00. At each site, four fully flowering branches were randomly selected from a randomly chosen cofffe bush.Observation period: 131",NA
"Shalene_Jha_Coffea_arabica_robusta_Mexico_2006","Ir6","observation","Apis","genus","honeybees",3,NA,15,NA,"Abundance here refers to total amount of flowers visited by an organism. Surveys were conducted in 15 minute periods between 8:00 and 14:00. At each site, four fully flowering branches were randomly selected from a randomly chosen cofffe bush.Observation period: 131",NA
"Shalene_Jha_Coffea_arabica_robusta_Mexico_2006","Ir6","observation","Apis","genus","honeybees",2,NA,15,NA,"Abundance here refers to total amount of flowers visited by an organism. Surveys were conducted in 15 minute periods between 8:00 and 14:00. At each site, four fully flowering branches were randomly selected from a randomly chosen cofffe bush.Observation period: 132",NA
"Shalene_Jha_Coffea_arabica_robusta_Mexico_2006","Ir6","observation","Apis","genus","honeybees",3,NA,15,NA,"Abundance here refers to total amount of flowers visited by an organism. Surveys were conducted in 15 minute periods between 8:00 and 14:00. At each site, four fully flowering branches were randomly selected from a randomly chosen cofffe bush.Observation period: 132",NA
"Shalene_Jha_Coffea_arabica_robusta_Mexico_2006","Ir6","observation","Apis","genus","honeybees",1,NA,15,NA,"Abundance here refers to total amount of flowers visited by an organism. Surveys were conducted in 15 minute periods between 8:00 and 14:00. At each site, four fully flowering branches were randomly selected from a randomly chosen cofffe bush.Observation period: 132",NA
"Shalene_Jha_Coffea_arabica_robusta_Mexico_2006","Ir6","observation","Apis","genus","honeybees",1,NA,15,NA,"Abundance here refers to total amount of flowers visited by an organism. Surveys were conducted in 15 minute periods between 8:00 and 14:00. At each site, four fully flowering branches were randomly selected from a randomly chosen cofffe bush.Observation period: 132",NA
"Shalene_Jha_Coffea_arabica_robusta_Mexico_2006","Ir6","observation","Apis","genus","honeybees",3,NA,15,NA,"Abundance here refers to total amount of flowers visited by an organism. Surveys were conducted in 15 minute periods between 8:00 and 14:00. At each site, four fully flowering branches were randomly selected from a randomly chosen cofffe bush.Observation period: 132",NA
"Shalene_Jha_Coffea_arabica_robusta_Mexico_2006","Ir6","observation","Apis","genus","honeybees",2,NA,15,NA,"Abundance here refers to total amount of flowers visited by an organism. Surveys were conducted in 15 minute periods between 8:00 and 14:00. At each site, four fully flowering branches were randomly selected from a randomly chosen cofffe bush.Observation period: 133",NA
"Shalene_Jha_Coffea_arabica_robusta_Mexico_2006","Ir6","observation","Apis","genus","honeybees",5,NA,15,NA,"Abundance here refers to total amount of flowers visited by an organism. Surveys were conducted in 15 minute periods between 8:00 and 14:00. At each site, four fully flowering branches were randomly selected from a randomly chosen cofffe bush.Observation period: 133",NA
"Shalene_Jha_Coffea_arabica_robusta_Mexico_2006","Ir6","observation","Apis","genus","honeybees",1,NA,15,NA,"Abundance here refers to total amount of flowers visited by an organism. Surveys were conducted in 15 minute periods between 8:00 and 14:00. At each site, four fully flowering branches were randomly selected from a randomly chosen cofffe bush.Observation period: 133",NA
"Shalene_Jha_Coffea_arabica_robusta_Mexico_2006","Ir6","observation","Apis","genus","honeybees",2,NA,15,NA,"Abundance here refers to total amount of flowers visited by an organism. Surveys were conducted in 15 minute periods between 8:00 and 14:00. At each site, four fully flowering branches were randomly selected from a randomly chosen cofffe bush.Observation period: 133",NA
"Shalene_Jha_Coffea_arabica_robusta_Mexico_2006","Ir6","observation","Apis","genus","honeybees",2,NA,15,NA,"Abundance here refers to total amount of flowers visited by an organism. Surveys were conducted in 15 minute periods between 8:00 and 14:00. At each site, four fully flowering branches were randomly selected from a randomly chosen cofffe bush.Observation period: 133",NA
"Shalene_Jha_Coffea_arabica_robusta_Mexico_2006","Ir6","observation","Apis","genus","honeybees",2,NA,15,NA,"Abundance here refers to total amount of flowers visited by an organism. Surveys were conducted in 15 minute periods between 8:00 and 14:00. At each site, four fully flowering branches were randomly selected from a randomly chosen cofffe bush.Observation period: 133",NA
"Shalene_Jha_Coffea_arabica_robusta_Mexico_2006","Ir6","observation","Apis","genus","honeybees",7,NA,15,NA,"Abundance here refers to total amount of flowers visited by an organism. Surveys were conducted in 15 minute periods between 8:00 and 14:00. At each site, four fully flowering branches were randomly selected from a randomly chosen cofffe bush.Observation period: 134",NA
"Shalene_Jha_Coffea_arabica_robusta_Mexico_2006","Ir6","observation","Apis","genus","honeybees",4,NA,15,NA,"Abundance here refers to total amount of flowers visited by an organism. Surveys were conducted in 15 minute periods between 8:00 and 14:00. At each site, four fully flowering branches were randomly selected from a randomly chosen cofffe bush.Observation period: 135",NA
"Shalene_Jha_Coffea_arabica_robusta_Mexico_2006","Ir6","observation","Apis","genus","honeybees",2,NA,15,NA,"Abundance here refers to total amount of flowers visited by an organism. Surveys were conducted in 15 minute periods between 8:00 and 14:00. At each site, four fully flowering branches were randomly selected from a randomly chosen cofffe bush.Observation period: 135",NA
"Shalene_Jha_Coffea_arabica_robusta_Mexico_2006","Ir6","observation","Apis","genus","honeybees",3,NA,15,NA,"Abundance here refers to total amount of flowers visited by an organism. Surveys were conducted in 15 minute periods between 8:00 and 14:00. At each site, four fully flowering branches were randomly selected from a randomly chosen cofffe bush.Observation period: 135",NA
"Shalene_Jha_Coffea_arabica_robusta_Mexico_2006","Ir6","observation","Apis","genus","honeybees",4,NA,15,NA,"Abundance here refers to total amount of flowers visited by an organism. Surveys were conducted in 15 minute periods between 8:00 and 14:00. At each site, four fully flowering branches were randomly selected from a randomly chosen cofffe bush.Observation period: 135",NA
"Shalene_Jha_Coffea_arabica_robusta_Mexico_2006","Ir6","observation","Apis","genus","honeybees",1,NA,15,NA,"Abundance here refers to total amount of flowers visited by an organism. Surveys were conducted in 15 minute periods between 8:00 and 14:00. At each site, four fully flowering branches were randomly selected from a randomly chosen cofffe bush.Observation period: 135",NA
"Shalene_Jha_Coffea_arabica_robusta_Mexico_2006","Ir6","observation","Apis","genus","honeybees",2,NA,15,NA,"Abundance here refers to total amount of flowers visited by an organism. Surveys were conducted in 15 minute periods between 8:00 and 14:00. At each site, four fully flowering branches were randomly selected from a randomly chosen cofffe bush.Observation period: 135",NA
"Shalene_Jha_Coffea_arabica_robusta_Mexico_2006","Ir6","observation","Apis","genus","honeybees",6,NA,15,NA,"Abundance here refers to total amount of flowers visited by an organism. Surveys were conducted in 15 minute periods between 8:00 and 14:00. At each site, four fully flowering branches were randomly selected from a randomly chosen cofffe bush.Observation period: 135",NA
"Shalene_Jha_Coffea_arabica_robusta_Mexico_2006","Ir6","observation","Apis","genus","honeybees",1,NA,15,NA,"Abundance here refers to total amount of flowers visited by an organism. Surveys were conducted in 15 minute periods between 8:00 and 14:00. At each site, four fully flowering branches were randomly selected from a randomly chosen cofffe bush.Observation period: 135",NA
"Shalene_Jha_Coffea_arabica_robusta_Mexico_2006","Ir6","observation","Apis","genus","honeybees",1,NA,15,NA,"Abundance here refers to total amount of flowers visited by an organism. Surveys were conducted in 15 minute periods between 8:00 and 14:00. At each site, four fully flowering branches were randomly selected from a randomly chosen cofffe bush.Observation period: 135",NA
"Shalene_Jha_Coffea_arabica_robusta_Mexico_2006","Ir6","observation","Apis","genus","honeybees",4,NA,15,NA,"Abundance here refers to total amount of flowers visited by an organism. Surveys were conducted in 15 minute periods between 8:00 and 14:00. At each site, four fully flowering branches were randomly selected from a randomly chosen cofffe bush.Observation period: 136",NA
"Shalene_Jha_Coffea_arabica_robusta_Mexico_2006","Ir6","observation","Apis","genus","honeybees",3,NA,15,NA,"Abundance here refers to total amount of flowers visited by an organism. Surveys were conducted in 15 minute periods between 8:00 and 14:00. At each site, four fully flowering branches were randomly selected from a randomly chosen cofffe bush.Observation period: 136",NA
"Shalene_Jha_Coffea_arabica_robusta_Mexico_2006","Ir6","observation","Apis","genus","honeybees",1,NA,15,NA,"Abundance here refers to total amount of flowers visited by an organism. Surveys were conducted in 15 minute periods between 8:00 and 14:00. At each site, four fully flowering branches were randomly selected from a randomly chosen cofffe bush.Observation period: 136",NA
"Shalene_Jha_Coffea_arabica_robusta_Mexico_2006","Ir6","observation","Apis","genus","honeybees",4,NA,15,NA,"Abundance here refers to total amount of flowers visited by an organism. Surveys were conducted in 15 minute periods between 8:00 and 14:00. At each site, four fully flowering branches were randomly selected from a randomly chosen cofffe bush.Observation period: 138",NA
"Shalene_Jha_Coffea_arabica_robusta_Mexico_2006","Ir6","observation","Apis","genus","honeybees",4,NA,15,NA,"Abundance here refers to total amount of flowers visited by an organism. Surveys were conducted in 15 minute periods between 8:00 and 14:00. At each site, four fully flowering branches were randomly selected from a randomly chosen cofffe bush.Observation period: 139",NA
"Shalene_Jha_Coffea_arabica_robusta_Mexico_2006","Ir6","observation","Apis","genus","honeybees",1,NA,15,NA,"Abundance here refers to total amount of flowers visited by an organism. Surveys were conducted in 15 minute periods between 8:00 and 14:00. At each site, four fully flowering branches were randomly selected from a randomly chosen cofffe bush.Observation period: 141",NA
"Shalene_Jha_Coffea_arabica_robusta_Mexico_2006","Ir7","observation","Melipona beechiie (Bennett)","species","other_wild_bees",1,NA,15,NA,"Abundance here refers to total amount of flowers visited by an organism. Surveys were conducted in 15 minute periods between 8:00 and 14:00. At each site, four fully flowering branches were randomly selected from a randomly chosen cofffe bush.Observation period: 50",NA
"Shalene_Jha_Coffea_arabica_robusta_Mexico_2006","Ir7","observation","Melipona beechiie (Bennett)","species","other_wild_bees",1,NA,15,NA,"Abundance here refers to total amount of flowers visited by an organism. Surveys were conducted in 15 minute periods between 8:00 and 14:00. At each site, four fully flowering branches were randomly selected from a randomly chosen cofffe bush.Observation period: 50",NA
"Shalene_Jha_Coffea_arabica_robusta_Mexico_2006","Ir7","observation","Nanotrigona testaceicornis","species","other_wild_bees",3,NA,15,NA,"Abundance here refers to total amount of flowers visited by an organism. Surveys were conducted in 15 minute periods between 8:00 and 14:00. At each site, four fully flowering branches were randomly selected from a randomly chosen cofffe bush.Observation period: 41",NA
"Shalene_Jha_Coffea_arabica_robusta_Mexico_2006","Ir7","observation","Nanotrigona testaceicornis","species","other_wild_bees",1,NA,15,NA,"Abundance here refers to total amount of flowers visited by an organism. Surveys were conducted in 15 minute periods between 8:00 and 14:00. At each site, four fully flowering branches were randomly selected from a randomly chosen cofffe bush.Observation period: 41",NA
"Shalene_Jha_Coffea_arabica_robusta_Mexico_2006","Ir7","observation","Xylocopa tabaniformis","species","other_wild_bees",2,NA,15,NA,"Abundance here refers to total amount of flowers visited by an organism. Surveys were conducted in 15 minute periods between 8:00 and 14:00. At each site, four fully flowering branches were randomly selected from a randomly chosen cofffe bush.Observation period: 41",NA
"Shalene_Jha_Coffea_arabica_robusta_Mexico_2006","Ir7","observation","Xylocopa tabaniformis","species","other_wild_bees",2,NA,15,NA,"Abundance here refers to total amount of flowers visited by an organism. Surveys were conducted in 15 minute periods between 8:00 and 14:00. At each site, four fully flowering branches were randomly selected from a randomly chosen cofffe bush.Observation period: 41",NA
"Shalene_Jha_Coffea_arabica_robusta_Mexico_2006","Ir7","observation","Plebia sp. 2","morphospecies","other_wild_bees",1,NA,15,NA,"Abundance here refers to total amount of flowers visited by an organism. Surveys were conducted in 15 minute periods between 8:00 and 14:00. At each site, four fully flowering branches were randomly selected from a randomly chosen cofffe bush.Observation period: 41",NA
"Shalene_Jha_Coffea_arabica_robusta_Mexico_2006","Ir7","observation","Trigona fulviventris","species","other_wild_bees",1,NA,15,NA,"Abundance here refers to total amount of flowers visited by an organism. Surveys were conducted in 15 minute periods between 8:00 and 14:00. At each site, four fully flowering branches were randomly selected from a randomly chosen cofffe bush.Observation period: 41",NA
"Shalene_Jha_Coffea_arabica_robusta_Mexico_2006","Ir7","observation","Trigona fulviventris","species","other_wild_bees",1,NA,15,NA,"Abundance here refers to total amount of flowers visited by an organism. Surveys were conducted in 15 minute periods between 8:00 and 14:00. At each site, four fully flowering branches were randomly selected from a randomly chosen cofffe bush.Observation period: 41",NA
"Shalene_Jha_Coffea_arabica_robusta_Mexico_2006","Ir7","observation","Trigona fulviventris","species","other_wild_bees",2,NA,15,NA,"Abundance here refers to total amount of flowers visited by an organism. Surveys were conducted in 15 minute periods between 8:00 and 14:00. At each site, four fully flowering branches were randomly selected from a randomly chosen cofffe bush.Observation period: 42",NA
"Shalene_Jha_Coffea_arabica_robusta_Mexico_2006","Ir7","observation","Trigona fulviventris","species","other_wild_bees",1,NA,15,NA,"Abundance here refers to total amount of flowers visited by an organism. Surveys were conducted in 15 minute periods between 8:00 and 14:00. At each site, four fully flowering branches were randomly selected from a randomly chosen cofffe bush.Observation period: 42",NA
"Shalene_Jha_Coffea_arabica_robusta_Mexico_2006","Ir7","observation","Melipona beechiie (Bennett)","species","other_wild_bees",2,NA,15,NA,"Abundance here refers to total amount of flowers visited by an organism. Surveys were conducted in 15 minute periods between 8:00 and 14:00. At each site, four fully flowering branches were randomly selected from a randomly chosen cofffe bush.Observation period: 42",NA
"Shalene_Jha_Coffea_arabica_robusta_Mexico_2006","Ir7","observation","Melipona beechiie (Bennett)","species","other_wild_bees",3,NA,15,NA,"Abundance here refers to total amount of flowers visited by an organism. Surveys were conducted in 15 minute periods between 8:00 and 14:00. At each site, four fully flowering branches were randomly selected from a randomly chosen cofffe bush.Observation period: 42",NA
"Shalene_Jha_Coffea_arabica_robusta_Mexico_2006","Ir7","observation","Plebia sp. 2","morphospecies","other_wild_bees",2,NA,15,NA,"Abundance here refers to total amount of flowers visited by an organism. Surveys were conducted in 15 minute periods between 8:00 and 14:00. At each site, four fully flowering branches were randomly selected from a randomly chosen cofffe bush.Observation period: 42",NA
"Shalene_Jha_Coffea_arabica_robusta_Mexico_2006","Ir7","observation","Nanotrigona testaceicornis","species","other_wild_bees",1,NA,15,NA,"Abundance here refers to total amount of flowers visited by an organism. Surveys were conducted in 15 minute periods between 8:00 and 14:00. At each site, four fully flowering branches were randomly selected from a randomly chosen cofffe bush.Observation period: 42",NA
"Shalene_Jha_Coffea_arabica_robusta_Mexico_2006","Ir7","observation","Nanotrigona testaceicornis","species","other_wild_bees",1,NA,15,NA,"Abundance here refers to total amount of flowers visited by an organism. Surveys were conducted in 15 minute periods between 8:00 and 14:00. At each site, four fully flowering branches were randomly selected from a randomly chosen cofffe bush.Observation period: 42",NA
"Shalene_Jha_Coffea_arabica_robusta_Mexico_2006","Ir7","observation","Scaptotrigona mexicana","species","other_wild_bees",1,NA,15,NA,"Abundance here refers to total amount of flowers visited by an organism. Surveys were conducted in 15 minute periods between 8:00 and 14:00. At each site, four fully flowering branches were randomly selected from a randomly chosen cofffe bush.Observation period: 49",NA
"Shalene_Jha_Coffea_arabica_robusta_Mexico_2006","Ir7","observation","Plebia sp. 2","morphospecies","other_wild_bees",1,NA,15,NA,"Abundance here refers to total amount of flowers visited by an organism. Surveys were conducted in 15 minute periods between 8:00 and 14:00. At each site, four fully flowering branches were randomly selected from a randomly chosen cofffe bush.Observation period: 49",NA
"Shalene_Jha_Coffea_arabica_robusta_Mexico_2006","Ir7","observation","Nanotrigona testaceicornis","species","other_wild_bees",2,NA,15,NA,"Abundance here refers to total amount of flowers visited by an organism. Surveys were conducted in 15 minute periods between 8:00 and 14:00. At each site, four fully flowering branches were randomly selected from a randomly chosen cofffe bush.Observation period: 51",NA
"Shalene_Jha_Coffea_arabica_robusta_Mexico_2006","Ir7","observation","Scaptotrigona mexicana","species","other_wild_bees",1,NA,15,NA,"Abundance here refers to total amount of flowers visited by an organism. Surveys were conducted in 15 minute periods between 8:00 and 14:00. At each site, four fully flowering branches were randomly selected from a randomly chosen cofffe bush.Observation period: 51",NA
"Shalene_Jha_Coffea_arabica_robusta_Mexico_2006","Ir7","observation","Apis","genus","honeybees",6,NA,15,NA,"Abundance here refers to total amount of flowers visited by an organism. Surveys were conducted in 15 minute periods between 8:00 and 14:00. At each site, four fully flowering branches were randomly selected from a randomly chosen cofffe bush.Observation period: 52",NA
"Shalene_Jha_Coffea_arabica_robusta_Mexico_2006","Ir7","observation","Halictus hesperus","species","other_wild_bees",1,NA,15,NA,"Abundance here refers to total amount of flowers visited by an organism. Surveys were conducted in 15 minute periods between 8:00 and 14:00. At each site, four fully flowering branches were randomly selected from a randomly chosen cofffe bush.Observation period: 52",NA
"Shalene_Jha_Coffea_arabica_robusta_Mexico_2006","Ir7","observation","Halictus hesperus","species","other_wild_bees",1,NA,15,NA,"Abundance here refers to total amount of flowers visited by an organism. Surveys were conducted in 15 minute periods between 8:00 and 14:00. At each site, four fully flowering branches were randomly selected from a randomly chosen cofffe bush.Observation period: 53",NA
"Shalene_Jha_Coffea_arabica_robusta_Mexico_2006","Ir7","observation","Apis","genus","honeybees",3,NA,15,NA,"Abundance here refers to total amount of flowers visited by an organism. Surveys were conducted in 15 minute periods between 8:00 and 14:00. At each site, four fully flowering branches were randomly selected from a randomly chosen cofffe bush.Observation period: 53",NA
"Shalene_Jha_Coffea_arabica_robusta_Mexico_2006","Ir7","observation","Halictus hesperus","species","other_wild_bees",1,NA,15,NA,"Abundance here refers to total amount of flowers visited by an organism. Surveys were conducted in 15 minute periods between 8:00 and 14:00. At each site, four fully flowering branches were randomly selected from a randomly chosen cofffe bush.Observation period: 53",NA
"Shalene_Jha_Coffea_arabica_robusta_Mexico_2006","Ir7","observation","Apis","genus","honeybees",2,NA,15,NA,"Abundance here refers to total amount of flowers visited by an organism. Surveys were conducted in 15 minute periods between 8:00 and 14:00. At each site, four fully flowering branches were randomly selected from a randomly chosen cofffe bush.Observation period: 53",NA
"Shalene_Jha_Coffea_arabica_robusta_Mexico_2006","Ir7","observation","Halictus hesperus","species","other_wild_bees",2,NA,15,NA,"Abundance here refers to total amount of flowers visited by an organism. Surveys were conducted in 15 minute periods between 8:00 and 14:00. At each site, four fully flowering branches were randomly selected from a randomly chosen cofffe bush.Observation period: 53",NA
"Shalene_Jha_Coffea_arabica_robusta_Mexico_2006","Ir7","observation","Apis","genus","honeybees",1,NA,15,NA,"Abundance here refers to total amount of flowers visited by an organism. Surveys were conducted in 15 minute periods between 8:00 and 14:00. At each site, four fully flowering branches were randomly selected from a randomly chosen cofffe bush.Observation period: 53",NA
"Shalene_Jha_Coffea_arabica_robusta_Mexico_2006","Ir7","observation","Plebia sp. 2","morphospecies","other_wild_bees",1,NA,15,NA,"Abundance here refers to total amount of flowers visited by an organism. Surveys were conducted in 15 minute periods between 8:00 and 14:00. At each site, four fully flowering branches were randomly selected from a randomly chosen cofffe bush.Observation period: 54",NA
"Shalene_Jha_Coffea_arabica_robusta_Mexico_2006","Ir8","observation","Apis","genus","honeybees",4,NA,15,NA,"Abundance here refers to total amount of flowers visited by an organism. Surveys were conducted in 15 minute periods between 8:00 and 14:00. At each site, four fully flowering branches were randomly selected from a randomly chosen cofffe bush.Observation period: 2",NA
"Shalene_Jha_Coffea_arabica_robusta_Mexico_2006","Ir8","observation","Apis","genus","honeybees",7,NA,15,NA,"Abundance here refers to total amount of flowers visited by an organism. Surveys were conducted in 15 minute periods between 8:00 and 14:00. At each site, four fully flowering branches were randomly selected from a randomly chosen cofffe bush.Observation period: 2",NA
"Shalene_Jha_Coffea_arabica_robusta_Mexico_2006","Ir8","observation","Apis","genus","honeybees",3,NA,15,NA,"Abundance here refers to total amount of flowers visited by an organism. Surveys were conducted in 15 minute periods between 8:00 and 14:00. At each site, four fully flowering branches were randomly selected from a randomly chosen cofffe bush.Observation period: 2",NA
"Shalene_Jha_Coffea_arabica_robusta_Mexico_2006","Ir8","observation","Plebia sp. 2","morphospecies","other_wild_bees",6,NA,15,NA,"Abundance here refers to total amount of flowers visited by an organism. Surveys were conducted in 15 minute periods between 8:00 and 14:00. At each site, four fully flowering branches were randomly selected from a randomly chosen cofffe bush.Observation period: 2",NA
"Shalene_Jha_Coffea_arabica_robusta_Mexico_2006","Ir8","observation","Apis","genus","honeybees",2,NA,15,NA,"Abundance here refers to total amount of flowers visited by an organism. Surveys were conducted in 15 minute periods between 8:00 and 14:00. At each site, four fully flowering branches were randomly selected from a randomly chosen cofffe bush.Observation period: 2",NA
"Shalene_Jha_Coffea_arabica_robusta_Mexico_2006","Ir8","observation","Nanotrigona testaceicornis","species","other_wild_bees",2,NA,15,NA,"Abundance here refers to total amount of flowers visited by an organism. Surveys were conducted in 15 minute periods between 8:00 and 14:00. At each site, four fully flowering branches were randomly selected from a randomly chosen cofffe bush.Observation period: 3",NA
"Shalene_Jha_Coffea_arabica_robusta_Mexico_2006","Ir8","observation","Apis","genus","honeybees",1,NA,15,NA,"Abundance here refers to total amount of flowers visited by an organism. Surveys were conducted in 15 minute periods between 8:00 and 14:00. At each site, four fully flowering branches were randomly selected from a randomly chosen cofffe bush.Observation period: 3",NA
"Shalene_Jha_Coffea_arabica_robusta_Mexico_2006","Ir8","observation","Apis","genus","honeybees",7,NA,15,NA,"Abundance here refers to total amount of flowers visited by an organism. Surveys were conducted in 15 minute periods between 8:00 and 14:00. At each site, four fully flowering branches were randomly selected from a randomly chosen cofffe bush.Observation period: 4",NA
"Shalene_Jha_Coffea_arabica_robusta_Mexico_2006","Ir8","observation","Apis","genus","honeybees",4,NA,15,NA,"Abundance here refers to total amount of flowers visited by an organism. Surveys were conducted in 15 minute periods between 8:00 and 14:00. At each site, four fully flowering branches were randomly selected from a randomly chosen cofffe bush.Observation period: 4",NA
"Shalene_Jha_Coffea_arabica_robusta_Mexico_2006","Ir8","observation","Halictus hesperus","species","other_wild_bees",3,NA,15,NA,"Abundance here refers to total amount of flowers visited by an organism. Surveys were conducted in 15 minute periods between 8:00 and 14:00. At each site, four fully flowering branches were randomly selected from a randomly chosen cofffe bush.Observation period: 6",NA
"Shalene_Jha_Coffea_arabica_robusta_Mexico_2006","Ir8","observation","Trigona fulviventris","species","other_wild_bees",2,NA,15,NA,"Abundance here refers to total amount of flowers visited by an organism. Surveys were conducted in 15 minute periods between 8:00 and 14:00. At each site, four fully flowering branches were randomly selected from a randomly chosen cofffe bush.Observation period: 1",NA
"Shalene_Jha_Coffea_arabica_robusta_Mexico_2006","Ir8","observation","Halictus hesperus","species","other_wild_bees",1,NA,15,NA,"Abundance here refers to total amount of flowers visited by an organism. Surveys were conducted in 15 minute periods between 8:00 and 14:00. At each site, four fully flowering branches were randomly selected from a randomly chosen cofffe bush.Observation period: 1",NA
"Shalene_Jha_Coffea_arabica_robusta_Mexico_2006","Ir8","observation","Apis","genus","honeybees",7,NA,15,NA,"Abundance here refers to total amount of flowers visited by an organism. Surveys were conducted in 15 minute periods between 8:00 and 14:00. At each site, four fully flowering branches were randomly selected from a randomly chosen cofffe bush.Observation period: 1",NA
"Shalene_Jha_Coffea_arabica_robusta_Mexico_2006","Ir8","observation","Halictus hesperus","species","other_wild_bees",2,NA,15,NA,"Abundance here refers to total amount of flowers visited by an organism. Surveys were conducted in 15 minute periods between 8:00 and 14:00. At each site, four fully flowering branches were randomly selected from a randomly chosen cofffe bush.Observation period: 1",NA
"Shalene_Jha_Coffea_arabica_robusta_Mexico_2006","Ir8","observation","Halictus hesperus","species","other_wild_bees",2,NA,15,NA,"Abundance here refers to total amount of flowers visited by an organism. Surveys were conducted in 15 minute periods between 8:00 and 14:00. At each site, four fully flowering branches were randomly selected from a randomly chosen cofffe bush.Observation period: 1",NA
"Shalene_Jha_Coffea_arabica_robusta_Mexico_2006","Ir8","observation","Apis","genus","honeybees",5,NA,15,NA,"Abundance here refers to total amount of flowers visited by an organism. Surveys were conducted in 15 minute periods between 8:00 and 14:00. At each site, four fully flowering branches were randomly selected from a randomly chosen cofffe bush.Observation period: 1",NA
"Shalene_Jha_Coffea_arabica_robusta_Mexico_2006","Ir8","observation","Trigona fulviventris","species","other_wild_bees",2,NA,15,NA,"Abundance here refers to total amount of flowers visited by an organism. Surveys were conducted in 15 minute periods between 8:00 and 14:00. At each site, four fully flowering branches were randomly selected from a randomly chosen cofffe bush.Observation period: 1",NA
"Shalene_Jha_Coffea_arabica_robusta_Mexico_2006","Ir8","observation","Halictus hesperus","species","other_wild_bees",3,NA,15,NA,"Abundance here refers to total amount of flowers visited by an organism. Surveys were conducted in 15 minute periods between 8:00 and 14:00. At each site, four fully flowering branches were randomly selected from a randomly chosen cofffe bush.Observation period: 1",NA
"Shalene_Jha_Coffea_arabica_robusta_Mexico_2006","Ir8","observation","Plebia sp. 2","morphospecies","other_wild_bees",2,NA,15,NA,"Abundance here refers to total amount of flowers visited by an organism. Surveys were conducted in 15 minute periods between 8:00 and 14:00. At each site, four fully flowering branches were randomly selected from a randomly chosen cofffe bush.Observation period: 1",NA
"Shalene_Jha_Coffea_arabica_robusta_Mexico_2006","Ir8","observation","Plebia sp. 2","morphospecies","other_wild_bees",3,NA,15,NA,"Abundance here refers to total amount of flowers visited by an organism. Surveys were conducted in 15 minute periods between 8:00 and 14:00. At each site, four fully flowering branches were randomly selected from a randomly chosen cofffe bush.Observation period: 1",NA
"Shalene_Jha_Coffea_arabica_robusta_Mexico_2006","Ir8","observation","Plebia sp. 2","morphospecies","other_wild_bees",5,NA,15,NA,"Abundance here refers to total amount of flowers visited by an organism. Surveys were conducted in 15 minute periods between 8:00 and 14:00. At each site, four fully flowering branches were randomly selected from a randomly chosen cofffe bush.Observation period: 1",NA
"Shalene_Jha_Coffea_arabica_robusta_Mexico_2006","Ir8","observation","Apis","genus","honeybees",3,NA,15,NA,"Abundance here refers to total amount of flowers visited by an organism. Surveys were conducted in 15 minute periods between 8:00 and 14:00. At each site, four fully flowering branches were randomly selected from a randomly chosen cofffe bush.Observation period: 1",NA
"Shalene_Jha_Coffea_arabica_robusta_Mexico_2006","Ir8","observation","Trigona fulviventris","species","other_wild_bees",2,NA,15,NA,"Abundance here refers to total amount of flowers visited by an organism. Surveys were conducted in 15 minute periods between 8:00 and 14:00. At each site, four fully flowering branches were randomly selected from a randomly chosen cofffe bush.Observation period: 1",NA
"Simon_Potts_Vicia_faba_UK_2005","UK2","transect","Andrena_cineraria","species","other_wild_bees",1,600,NA,NA,"6 subunits of 150m transect, 4 rounds in 1 year

",NA
"Simon_Potts_Vicia_faba_UK_2005","UK4","transect","Andrena_labialis","species","other_wild_bees",2,600,NA,NA,"6 subunits of 150m transect, 4 rounds in 1 year

",NA
"Simon_Potts_Vicia_faba_UK_2005","UK6","transect","Andrena_wilkella","species","other_wild_bees",5,600,NA,NA,"6 subunits of 150m transect, 4 rounds in 1 year

",NA
"Simon_Potts_Vicia_faba_UK_2005","UK10","transect","Andrena_wilkella","species","other_wild_bees",1,600,NA,NA,"6 subunits of 150m transect, 4 rounds in 1 year

",NA
"Simon_Potts_Vicia_faba_UK_2005","UK2","transect","Andrena_wilkella","species","other_wild_bees",1,600,NA,NA,"6 subunits of 150m transect, 4 rounds in 1 year

",NA
"Simon_Potts_Vicia_faba_UK_2005","UK8","transect","Apis_mellifera","species","honeybees",1,600,NA,NA,"6 subunits of 150m transect, 4 rounds in 1 year

",NA
"Simon_Potts_Vicia_faba_UK_2005","UK7","transect","Apis_mellifera","species","honeybees",1,600,NA,NA,"6 subunits of 150m transect, 4 rounds in 1 year

",NA
"Simon_Potts_Vicia_faba_UK_2005","UK6","transect","Apis_mellifera","species","honeybees",16,600,NA,NA,"6 subunits of 150m transect, 4 rounds in 1 year

",NA
"Simon_Potts_Vicia_faba_UK_2005","UK2","transect","Apis_mellifera","species","honeybees",3,600,NA,NA,"6 subunits of 150m transect, 4 rounds in 1 year

",NA
"Simon_Potts_Vicia_faba_UK_2005","UK10","transect","Apis_mellifera","species","honeybees",7,600,NA,NA,"6 subunits of 150m transect, 4 rounds in 1 year

",NA
"Simon_Potts_Vicia_faba_UK_2005","UK1","transect","Apis_mellifera","species","honeybees",12,600,NA,NA,"6 subunits of 150m transect, 4 rounds in 1 year

",NA
"Simon_Potts_Vicia_faba_UK_2005","UK4","transect","Apis_mellifera","species","honeybees",8,600,NA,NA,"6 subunits of 150m transect, 4 rounds in 1 year

",NA
"Simon_Potts_Vicia_faba_UK_2005","UK5","transect","Bombus_hortorum","species","bumblebees",6,600,NA,NA,"6 subunits of 150m transect, 4 rounds in 1 year

",NA
"Simon_Potts_Vicia_faba_UK_2005","UK2","transect","Bombus_hortorum","species","bumblebees",6,600,NA,NA,"6 subunits of 150m transect, 4 rounds in 1 year

",NA
"Simon_Potts_Vicia_faba_UK_2005","UK1","transect","Bombus_hortorum","species","bumblebees",3,600,NA,NA,"6 subunits of 150m transect, 4 rounds in 1 year

",NA
"Simon_Potts_Vicia_faba_UK_2005","UK8","transect","Bombus_hortorum","species","bumblebees",7,600,NA,NA,"6 subunits of 150m transect, 4 rounds in 1 year

",NA
"Simon_Potts_Vicia_faba_UK_2005","UK4","transect","Bombus_hortorum","species","bumblebees",2,600,NA,NA,"6 subunits of 150m transect, 4 rounds in 1 year

",NA
"Simon_Potts_Vicia_faba_UK_2005","UK7","transect","Bombus_hortorum","species","bumblebees",6,600,NA,NA,"6 subunits of 150m transect, 4 rounds in 1 year

",NA
"Simon_Potts_Vicia_faba_UK_2005","UK10","transect","Bombus_hortorum","species","bumblebees",3,600,NA,NA,"6 subunits of 150m transect, 4 rounds in 1 year

",NA
"Simon_Potts_Vicia_faba_UK_2005","UK6","transect","Bombus_hortorum","species","bumblebees",11,600,NA,NA,"6 subunits of 150m transect, 4 rounds in 1 year

",NA
"Simon_Potts_Vicia_faba_UK_2005","UK9","transect","Bombus_hortorum","species","bumblebees",2,600,NA,NA,"6 subunits of 150m transect, 4 rounds in 1 year

",NA
"Simon_Potts_Vicia_faba_UK_2005","UK7","transect","Bombus_lapidarius","species","bumblebees",3,600,NA,NA,"6 subunits of 150m transect, 4 rounds in 1 year

",NA
"Simon_Potts_Vicia_faba_UK_2005","UK5","transect","Bombus_lapidarius","species","bumblebees",2,600,NA,NA,"6 subunits of 150m transect, 4 rounds in 1 year

",NA
"Simon_Potts_Vicia_faba_UK_2005","UK10","transect","Bombus_lapidarius","species","bumblebees",2,600,NA,NA,"6 subunits of 150m transect, 4 rounds in 1 year

",NA
"Simon_Potts_Vicia_faba_UK_2005","UK2","transect","Bombus_lapidarius","species","bumblebees",4,600,NA,NA,"6 subunits of 150m transect, 4 rounds in 1 year

",NA
"Simon_Potts_Vicia_faba_UK_2005","UK1","transect","Bombus_lapidarius","species","bumblebees",1,600,NA,NA,"6 subunits of 150m transect, 4 rounds in 1 year

",NA
"Simon_Potts_Vicia_faba_UK_2005","UK2","transect","Bombus_lucorum","species","bumblebees",3,600,NA,NA,"6 subunits of 150m transect, 4 rounds in 1 year

",NA
"Simon_Potts_Vicia_faba_UK_2005","UK10","transect","Bombus_lucorum/terrestris","species","bumblebees",2,600,NA,NA,"6 subunits of 150m transect, 4 rounds in 1 year

",NA
"Simon_Potts_Vicia_faba_UK_2005","UK7","transect","Bombus_lucorum/terrestris","species","bumblebees",3,600,NA,NA,"6 subunits of 150m transect, 4 rounds in 1 year

",NA
"Simon_Potts_Vicia_faba_UK_2005","UK3","transect","Bombus_lucorum/terrestris","species","bumblebees",1,600,NA,NA,"6 subunits of 150m transect, 4 rounds in 1 year

",NA
"Simon_Potts_Vicia_faba_UK_2005","UK2","transect","Bombus_lucorum/terrestris","species","bumblebees",3,600,NA,NA,"6 subunits of 150m transect, 4 rounds in 1 year

",NA
"Simon_Potts_Vicia_faba_UK_2005","UK5","transect","Bombus_lucorum/terrestris","species","bumblebees",2,600,NA,NA,"6 subunits of 150m transect, 4 rounds in 1 year

",NA
"Simon_Potts_Vicia_faba_UK_2005","UK4","transect","Bombus_lucorum/terrestris","species","bumblebees",2,600,NA,NA,"6 subunits of 150m transect, 4 rounds in 1 year

",NA
"Simon_Potts_Vicia_faba_UK_2005","UK6","transect","Bombus_lucorum/terrestris","species","bumblebees",1,600,NA,NA,"6 subunits of 150m transect, 4 rounds in 1 year

",NA
"Simon_Potts_Vicia_faba_UK_2005","UK8","transect","Bombus_pascuorum","species","bumblebees",1,600,NA,NA,"6 subunits of 150m transect, 4 rounds in 1 year

",NA
"Simon_Potts_Vicia_faba_UK_2005","UK5","transect","Bombus_pascuorum","species","bumblebees",1,600,NA,NA,"6 subunits of 150m transect, 4 rounds in 1 year

",NA
"Simon_Potts_Vicia_faba_UK_2005","UK7","transect","Bombus_pascuorum","species","bumblebees",3,600,NA,NA,"6 subunits of 150m transect, 4 rounds in 1 year

",NA
"Simon_Potts_Vicia_faba_UK_2005","UK2","transect","Bombus_pascuorum","species","bumblebees",2,600,NA,NA,"6 subunits of 150m transect, 4 rounds in 1 year

",NA
"Simon_Potts_Vicia_faba_UK_2005","UK6","transect","Bombus_pratorum","species","bumblebees",1,600,NA,NA,"6 subunits of 150m transect, 4 rounds in 1 year

",NA
"Smitha_Krishnan_Coffea_canephora_India_2007","bal0","Direct ocular observations","Apis dorsata","Species","honeybees",1,NA,45,NA,"Locations with 5 distance classes (<10, 50, 100, 250, 500m) measured from the edge of a forest fragment within each location. Few had to be discarded due to rains on day of observation. Measures per site: 5 branches per plant with 6 inflorescence per branch. 3 plants. Observations last 15 mins each. 1 temporal replicate",NA
"Smitha_Krishnan_Coffea_canephora_India_2007","bal0","Direct ocular observations","Apis cerana indica","Species","honeybees",3,NA,45,NA,"Locations with 5 distance classes (<10, 50, 100, 250, 500m) measured from the edge of a forest fragment within each location. Few had to be discarded due to rains on day of observation. Measures per site: 5 branches per plant with 6 inflorescence per branch. 3 plants. Observations last 15 mins each. 1 temporal replicate",NA
"Smitha_Krishnan_Coffea_canephora_India_2007","bal0","Direct ocular observations","Eumenine","Subfamily","non_bee_hymenoptera",1,NA,45,NA,"Locations with 5 distance classes (<10, 50, 100, 250, 500m) measured from the edge of a forest fragment within each location. Few had to be discarded due to rains on day of observation. Measures per site: 5 branches per plant with 6 inflorescence per branch. 3 plants. Observations last 15 mins each. 1 temporal replicate",NA
"Smitha_Krishnan_Coffea_canephora_India_2007","bal0","Direct ocular observations","Junonia iphita (Chocolate pansy)","Species","lepidoptera",1,NA,45,NA,"Locations with 5 distance classes (<10, 50, 100, 250, 500m) measured from the edge of a forest fragment within each location. Few had to be discarded due to rains on day of observation. Measures per site: 5 branches per plant with 6 inflorescence per branch. 3 plants. Observations last 15 mins each. 1 temporal replicate",NA
"Smitha_Krishnan_Coffea_canephora_India_2007","bal0","Direct ocular observations","Thysanoptera (Thrips)","Order","other",2,NA,45,NA,"Locations with 5 distance classes (<10, 50, 100, 250, 500m) measured from the edge of a forest fragment within each location. Few had to be discarded due to rains on day of observation. Measures per site: 5 branches per plant with 6 inflorescence per branch. 3 plants. Observations last 15 mins each. 1 temporal replicate",NA
"Smitha_Krishnan_Coffea_canephora_India_2007","bal10","Direct ocular observations","Tetragonula iridipennis","Species","other_wild_bees",2,NA,45,NA,"Locations with 5 distance classes (<10, 50, 100, 250, 500m) measured from the edge of a forest fragment within each location. Few had to be discarded due to rains on day of observation. Measures per site: 5 branches per plant with 6 inflorescence per branch. 3 plants. Observations last 15 mins each. 1 temporal replicate",NA
"Smitha_Krishnan_Coffea_canephora_India_2007","bal10","Direct ocular observations","Thysanoptera (Thrips)","Order","other",1,NA,45,NA,"Locations with 5 distance classes (<10, 50, 100, 250, 500m) measured from the edge of a forest fragment within each location. Few had to be discarded due to rains on day of observation. Measures per site: 5 branches per plant with 6 inflorescence per branch. 3 plants. Observations last 15 mins each. 1 temporal replicate",NA
"Smitha_Krishnan_Coffea_canephora_India_2007","bal50","Direct ocular observations","Tetragonula iridipennis","Species","other_wild_bees",2,NA,45,NA,"Locations with 5 distance classes (<10, 50, 100, 250, 500m) measured from the edge of a forest fragment within each location. Few had to be discarded due to rains on day of observation. Measures per site: 5 branches per plant with 6 inflorescence per branch. 3 plants. Observations last 15 mins each. 1 temporal replicate",NA
"Smitha_Krishnan_Coffea_canephora_India_2007","bal50","Direct ocular observations","Thysanoptera (Thrips)","Order","other",5,NA,45,NA,"Locations with 5 distance classes (<10, 50, 100, 250, 500m) measured from the edge of a forest fragment within each location. Few had to be discarded due to rains on day of observation. Measures per site: 5 branches per plant with 6 inflorescence per branch. 3 plants. Observations last 15 mins each. 1 temporal replicate",NA
"Smitha_Krishnan_Coffea_canephora_India_2007","bal100","Direct ocular observations","Apis dorsata","Species","honeybees",19,NA,45,NA,"Locations with 5 distance classes (<10, 50, 100, 250, 500m) measured from the edge of a forest fragment within each location. Few had to be discarded due to rains on day of observation. Measures per site: 5 branches per plant with 6 inflorescence per branch. 3 plants. Observations last 15 mins each. 1 temporal replicate",NA
"Smitha_Krishnan_Coffea_canephora_India_2007","bal100","Direct ocular observations","Apis cerana indica","Species","honeybees",107,NA,45,NA,"Locations with 5 distance classes (<10, 50, 100, 250, 500m) measured from the edge of a forest fragment within each location. Few had to be discarded due to rains on day of observation. Measures per site: 5 branches per plant with 6 inflorescence per branch. 3 plants. Observations last 15 mins each. 1 temporal replicate",NA
"Smitha_Krishnan_Coffea_canephora_India_2007","bal100","Direct ocular observations","Apis florea","Species","honeybees",1,NA,45,NA,"Locations with 5 distance classes (<10, 50, 100, 250, 500m) measured from the edge of a forest fragment within each location. Few had to be discarded due to rains on day of observation. Measures per site: 5 branches per plant with 6 inflorescence per branch. 3 plants. Observations last 15 mins each. 1 temporal replicate",NA
"Smitha_Krishnan_Coffea_canephora_India_2007","bal100","Direct ocular observations","Tetragonula iridipennis","Species","other_wild_bees",42,NA,45,NA,"Locations with 5 distance classes (<10, 50, 100, 250, 500m) measured from the edge of a forest fragment within each location. Few had to be discarded due to rains on day of observation. Measures per site: 5 branches per plant with 6 inflorescence per branch. 3 plants. Observations last 15 mins each. 1 temporal replicate",NA
"Smitha_Krishnan_Coffea_canephora_India_2007","bal100","Direct ocular observations","Braunsapsis picitarsis","Species","other_wild_bees",7,NA,45,NA,"Locations with 5 distance classes (<10, 50, 100, 250, 500m) measured from the edge of a forest fragment within each location. Few had to be discarded due to rains on day of observation. Measures per site: 5 branches per plant with 6 inflorescence per branch. 3 plants. Observations last 15 mins each. 1 temporal replicate",NA
"Smitha_Krishnan_Coffea_canephora_India_2007","bal100","Direct ocular observations","Eumenine","Subfamily","non_bee_hymenoptera",1,NA,45,NA,"Locations with 5 distance classes (<10, 50, 100, 250, 500m) measured from the edge of a forest fragment within each location. Few had to be discarded due to rains on day of observation. Measures per site: 5 branches per plant with 6 inflorescence per branch. 3 plants. Observations last 15 mins each. 1 temporal replicate",NA
"Smitha_Krishnan_Coffea_canephora_India_2007","bal100","Direct ocular observations","Muscidae (like a house fly)","Family","other_flies",2,NA,45,NA,"Locations with 5 distance classes (<10, 50, 100, 250, 500m) measured from the edge of a forest fragment within each location. Few had to be discarded due to rains on day of observation. Measures per site: 5 branches per plant with 6 inflorescence per branch. 3 plants. Observations last 15 mins each. 1 temporal replicate",NA
"Smitha_Krishnan_Coffea_canephora_India_2007","bal100","Direct ocular observations","Syrphidae (hover fly)","Family","syrphids",1,NA,45,NA,"Locations with 5 distance classes (<10, 50, 100, 250, 500m) measured from the edge of a forest fragment within each location. Few had to be discarded due to rains on day of observation. Measures per site: 5 branches per plant with 6 inflorescence per branch. 3 plants. Observations last 15 mins each. 1 temporal replicate",NA
"Smitha_Krishnan_Coffea_canephora_India_2007","bal100","Direct ocular observations","Thysanoptera (Thrips)","Order","other",1,NA,45,NA,"Locations with 5 distance classes (<10, 50, 100, 250, 500m) measured from the edge of a forest fragment within each location. Few had to be discarded due to rains on day of observation. Measures per site: 5 branches per plant with 6 inflorescence per branch. 3 plants. Observations last 15 mins each. 1 temporal replicate",NA
"Smitha_Krishnan_Coffea_canephora_India_2007","bal250","Direct ocular observations","Apis dorsata","Species","honeybees",55,NA,45,NA,"Locations with 5 distance classes (<10, 50, 100, 250, 500m) measured from the edge of a forest fragment within each location. Few had to be discarded due to rains on day of observation. Measures per site: 5 branches per plant with 6 inflorescence per branch. 3 plants. Observations last 15 mins each. 1 temporal replicate",NA
"Smitha_Krishnan_Coffea_canephora_India_2007","bal250","Direct ocular observations","Apis cerana indica","Species","honeybees",24,NA,45,NA,"Locations with 5 distance classes (<10, 50, 100, 250, 500m) measured from the edge of a forest fragment within each location. Few had to be discarded due to rains on day of observation. Measures per site: 5 branches per plant with 6 inflorescence per branch. 3 plants. Observations last 15 mins each. 1 temporal replicate",NA
"Smitha_Krishnan_Coffea_canephora_India_2007","bal250","Direct ocular observations","Thysanoptera (Thrips)","Order","other",1,NA,45,NA,"Locations with 5 distance classes (<10, 50, 100, 250, 500m) measured from the edge of a forest fragment within each location. Few had to be discarded due to rains on day of observation. Measures per site: 5 branches per plant with 6 inflorescence per branch. 3 plants. Observations last 15 mins each. 1 temporal replicate",NA
"Smitha_Krishnan_Coffea_canephora_India_2007","bal500","Direct ocular observations","Apis cerana indica","Species","honeybees",1,NA,45,NA,"Locations with 5 distance classes (<10, 50, 100, 250, 500m) measured from the edge of a forest fragment within each location. Few had to be discarded due to rains on day of observation. Measures per site: 5 branches per plant with 6 inflorescence per branch. 3 plants. Observations last 15 mins each. 1 temporal replicate",NA
"Smitha_Krishnan_Coffea_canephora_India_2007","bal500","Direct ocular observations","Tetragonula iridipennis","Species","other_wild_bees",25,NA,45,NA,"Locations with 5 distance classes (<10, 50, 100, 250, 500m) measured from the edge of a forest fragment within each location. Few had to be discarded due to rains on day of observation. Measures per site: 5 branches per plant with 6 inflorescence per branch. 3 plants. Observations last 15 mins each. 1 temporal replicate",NA
"Smitha_Krishnan_Coffea_canephora_India_2007","bal500","Direct ocular observations","Cetoniinae","Subfamily","beetles",2,NA,45,NA,"Locations with 5 distance classes (<10, 50, 100, 250, 500m) measured from the edge of a forest fragment within each location. Few had to be discarded due to rains on day of observation. Measures per site: 5 branches per plant with 6 inflorescence per branch. 3 plants. Observations last 15 mins each. 1 temporal replicate",NA
"Smitha_Krishnan_Coffea_canephora_India_2007","bal500","Direct ocular observations","Thysanoptera (Thrips)","Order","other",5,NA,45,NA,"Locations with 5 distance classes (<10, 50, 100, 250, 500m) measured from the edge of a forest fragment within each location. Few had to be discarded due to rains on day of observation. Measures per site: 5 branches per plant with 6 inflorescence per branch. 3 plants. Observations last 15 mins each. 1 temporal replicate",NA
"Smitha_Krishnan_Coffea_canephora_India_2007","bas0","Direct ocular observations","Apis dorsata","Species","honeybees",25,NA,45,NA,"Locations with 5 distance classes (<10, 50, 100, 250, 500m) measured from the edge of a forest fragment within each location. Few had to be discarded due to rains on day of observation. Measures per site: 5 branches per plant with 6 inflorescence per branch. 3 plants. Observations last 15 mins each. 1 temporal replicate",NA
"Smitha_Krishnan_Coffea_canephora_India_2007","bas0","Direct ocular observations","Apis cerana indica","Species","honeybees",12,NA,45,NA,"Locations with 5 distance classes (<10, 50, 100, 250, 500m) measured from the edge of a forest fragment within each location. Few had to be discarded due to rains on day of observation. Measures per site: 5 branches per plant with 6 inflorescence per branch. 3 plants. Observations last 15 mins each. 1 temporal replicate",NA
"Smitha_Krishnan_Coffea_canephora_India_2007","bas10","Direct ocular observations","Apis dorsata","Species","honeybees",49,NA,45,NA,"Locations with 5 distance classes (<10, 50, 100, 250, 500m) measured from the edge of a forest fragment within each location. Few had to be discarded due to rains on day of observation. Measures per site: 5 branches per plant with 6 inflorescence per branch. 3 plants. Observations last 15 mins each. 1 temporal replicate",NA
"Smitha_Krishnan_Coffea_canephora_India_2007","bas10","Direct ocular observations","Apis cerana indica","Species","honeybees",21,NA,45,NA,"Locations with 5 distance classes (<10, 50, 100, 250, 500m) measured from the edge of a forest fragment within each location. Few had to be discarded due to rains on day of observation. Measures per site: 5 branches per plant with 6 inflorescence per branch. 3 plants. Observations last 15 mins each. 1 temporal replicate",NA
"Smitha_Krishnan_Coffea_canephora_India_2007","bas10","Direct ocular observations","Thysanoptera (Thrips)","Order","other",6,NA,45,NA,"Locations with 5 distance classes (<10, 50, 100, 250, 500m) measured from the edge of a forest fragment within each location. Few had to be discarded due to rains on day of observation. Measures per site: 5 branches per plant with 6 inflorescence per branch. 3 plants. Observations last 15 mins each. 1 temporal replicate",NA
"Smitha_Krishnan_Coffea_canephora_India_2007","bas50","Direct ocular observations","Apis dorsata","Species","honeybees",35,NA,45,NA,"Locations with 5 distance classes (<10, 50, 100, 250, 500m) measured from the edge of a forest fragment within each location. Few had to be discarded due to rains on day of observation. Measures per site: 5 branches per plant with 6 inflorescence per branch. 3 plants. Observations last 15 mins each. 1 temporal replicate",NA
"Smitha_Krishnan_Coffea_canephora_India_2007","bas50","Direct ocular observations","Apis cerana indica","Species","honeybees",7,NA,45,NA,"Locations with 5 distance classes (<10, 50, 100, 250, 500m) measured from the edge of a forest fragment within each location. Few had to be discarded due to rains on day of observation. Measures per site: 5 branches per plant with 6 inflorescence per branch. 3 plants. Observations last 15 mins each. 1 temporal replicate",NA
"Smitha_Krishnan_Coffea_canephora_India_2007","bas100","Direct ocular observations","Apis dorsata","Species","honeybees",28,NA,45,NA,"Locations with 5 distance classes (<10, 50, 100, 250, 500m) measured from the edge of a forest fragment within each location. Few had to be discarded due to rains on day of observation. Measures per site: 5 branches per plant with 6 inflorescence per branch. 3 plants. Observations last 15 mins each. 1 temporal replicate",NA
"Smitha_Krishnan_Coffea_canephora_India_2007","bas100","Direct ocular observations","Apis cerana indica","Species","honeybees",8,NA,45,NA,"Locations with 5 distance classes (<10, 50, 100, 250, 500m) measured from the edge of a forest fragment within each location. Few had to be discarded due to rains on day of observation. Measures per site: 5 branches per plant with 6 inflorescence per branch. 3 plants. Observations last 15 mins each. 1 temporal replicate",NA
"Smitha_Krishnan_Coffea_canephora_India_2007","bas100","Direct ocular observations","Thysanoptera (Thrips)","Order","other",5,NA,45,NA,"Locations with 5 distance classes (<10, 50, 100, 250, 500m) measured from the edge of a forest fragment within each location. Few had to be discarded due to rains on day of observation. Measures per site: 5 branches per plant with 6 inflorescence per branch. 3 plants. Observations last 15 mins each. 1 temporal replicate",NA
"Smitha_Krishnan_Coffea_canephora_India_2007","bas250","Direct ocular observations","Apis cerana indica","Species","honeybees",1,NA,45,NA,"Locations with 5 distance classes (<10, 50, 100, 250, 500m) measured from the edge of a forest fragment within each location. Few had to be discarded due to rains on day of observation. Measures per site: 5 branches per plant with 6 inflorescence per branch. 3 plants. Observations last 15 mins each. 1 temporal replicate",NA
"Smitha_Krishnan_Coffea_canephora_India_2007","bas250","Direct ocular observations","Tetragonula iridipennis","Species","other_wild_bees",3,NA,45,NA,"Locations with 5 distance classes (<10, 50, 100, 250, 500m) measured from the edge of a forest fragment within each location. Few had to be discarded due to rains on day of observation. Measures per site: 5 branches per plant with 6 inflorescence per branch. 3 plants. Observations last 15 mins each. 1 temporal replicate",NA
"Smitha_Krishnan_Coffea_canephora_India_2007","bas250","Direct ocular observations","Xylocopa aestuans","Species","other_wild_bees",1,NA,45,NA,"Locations with 5 distance classes (<10, 50, 100, 250, 500m) measured from the edge of a forest fragment within each location. Few had to be discarded due to rains on day of observation. Measures per site: 5 branches per plant with 6 inflorescence per branch. 3 plants. Observations last 15 mins each. 1 temporal replicate",NA
"Smitha_Krishnan_Coffea_canephora_India_2007","bas500","Direct ocular observations","Tetragonula iridipennis","Species","other_wild_bees",5,NA,45,NA,"Locations with 5 distance classes (<10, 50, 100, 250, 500m) measured from the edge of a forest fragment within each location. Few had to be discarded due to rains on day of observation. Measures per site: 5 branches per plant with 6 inflorescence per branch. 3 plants. Observations last 15 mins each. 1 temporal replicate",NA
"Smitha_Krishnan_Coffea_canephora_India_2007","baso0","Direct ocular observations","Apis dorsata","Species","honeybees",50,NA,45,NA,"Locations with 5 distance classes (<10, 50, 100, 250, 500m) measured from the edge of a forest fragment within each location. Few had to be discarded due to rains on day of observation. Measures per site: 5 branches per plant with 6 inflorescence per branch. 3 plants. Observations last 15 mins each. 1 temporal replicate",NA
"Smitha_Krishnan_Coffea_canephora_India_2007","baso0","Direct ocular observations","Apis cerana indica","Species","honeybees",4,NA,45,NA,"Locations with 5 distance classes (<10, 50, 100, 250, 500m) measured from the edge of a forest fragment within each location. Few had to be discarded due to rains on day of observation. Measures per site: 5 branches per plant with 6 inflorescence per branch. 3 plants. Observations last 15 mins each. 1 temporal replicate",NA
"Smitha_Krishnan_Coffea_canephora_India_2007","baso0","Direct ocular observations","Tetragonula iridipennis","Species","other_wild_bees",1,NA,45,NA,"Locations with 5 distance classes (<10, 50, 100, 250, 500m) measured from the edge of a forest fragment within each location. Few had to be discarded due to rains on day of observation. Measures per site: 5 branches per plant with 6 inflorescence per branch. 3 plants. Observations last 15 mins each. 1 temporal replicate",NA
"Smitha_Krishnan_Coffea_canephora_India_2007","baso10","Direct ocular observations","Apis dorsata","Species","honeybees",19,NA,45,NA,"Locations with 5 distance classes (<10, 50, 100, 250, 500m) measured from the edge of a forest fragment within each location. Few had to be discarded due to rains on day of observation. Measures per site: 5 branches per plant with 6 inflorescence per branch. 3 plants. Observations last 15 mins each. 1 temporal replicate",NA
"Smitha_Krishnan_Coffea_canephora_India_2007","baso10","Direct ocular observations","Apis cerana indica","Species","honeybees",2,NA,45,NA,"Locations with 5 distance classes (<10, 50, 100, 250, 500m) measured from the edge of a forest fragment within each location. Few had to be discarded due to rains on day of observation. Measures per site: 5 branches per plant with 6 inflorescence per branch. 3 plants. Observations last 15 mins each. 1 temporal replicate",NA
"Smitha_Krishnan_Coffea_canephora_India_2007","baso10","Direct ocular observations","Tetragonula iridipennis","Species","other_wild_bees",3,NA,45,NA,"Locations with 5 distance classes (<10, 50, 100, 250, 500m) measured from the edge of a forest fragment within each location. Few had to be discarded due to rains on day of observation. Measures per site: 5 branches per plant with 6 inflorescence per branch. 3 plants. Observations last 15 mins each. 1 temporal replicate",NA
"Smitha_Krishnan_Coffea_canephora_India_2007","baso50","Direct ocular observations","Apis dorsata","Species","honeybees",6,NA,45,NA,"Locations with 5 distance classes (<10, 50, 100, 250, 500m) measured from the edge of a forest fragment within each location. Few had to be discarded due to rains on day of observation. Measures per site: 5 branches per plant with 6 inflorescence per branch. 3 plants. Observations last 15 mins each. 1 temporal replicate",NA
"Smitha_Krishnan_Coffea_canephora_India_2007","baso50","Direct ocular observations","Apis cerana indica","Species","honeybees",6,NA,45,NA,"Locations with 5 distance classes (<10, 50, 100, 250, 500m) measured from the edge of a forest fragment within each location. Few had to be discarded due to rains on day of observation. Measures per site: 5 branches per plant with 6 inflorescence per branch. 3 plants. Observations last 15 mins each. 1 temporal replicate",NA
"Smitha_Krishnan_Coffea_canephora_India_2007","baso50","Direct ocular observations","Apis florea","Species","honeybees",4,NA,45,NA,"Locations with 5 distance classes (<10, 50, 100, 250, 500m) measured from the edge of a forest fragment within each location. Few had to be discarded due to rains on day of observation. Measures per site: 5 branches per plant with 6 inflorescence per branch. 3 plants. Observations last 15 mins each. 1 temporal replicate",NA
"Smitha_Krishnan_Coffea_canephora_India_2007","baso50","Direct ocular observations","Tetragonula iridipennis","Species","other_wild_bees",11,NA,45,NA,"Locations with 5 distance classes (<10, 50, 100, 250, 500m) measured from the edge of a forest fragment within each location. Few had to be discarded due to rains on day of observation. Measures per site: 5 branches per plant with 6 inflorescence per branch. 3 plants. Observations last 15 mins each. 1 temporal replicate",NA
"Smitha_Krishnan_Coffea_canephora_India_2007","baso50","Direct ocular observations","Ceratina hieroglyphica","Species","other_wild_bees",1,NA,45,NA,"Locations with 5 distance classes (<10, 50, 100, 250, 500m) measured from the edge of a forest fragment within each location. Few had to be discarded due to rains on day of observation. Measures per site: 5 branches per plant with 6 inflorescence per branch. 3 plants. Observations last 15 mins each. 1 temporal replicate",NA
"Smitha_Krishnan_Coffea_canephora_India_2007","baso100","Direct ocular observations","Tetragonula iridipennis","Species","other_wild_bees",5,NA,45,NA,"Locations with 5 distance classes (<10, 50, 100, 250, 500m) measured from the edge of a forest fragment within each location. Few had to be discarded due to rains on day of observation. Measures per site: 5 branches per plant with 6 inflorescence per branch. 3 plants. Observations last 15 mins each. 1 temporal replicate",NA
"Smitha_Krishnan_Coffea_canephora_India_2007","baso100","Direct ocular observations","Amegilla zonata/ A. confusa","Genera (2 species not differentiated)","other_wild_bees",1,NA,45,NA,"Locations with 5 distance classes (<10, 50, 100, 250, 500m) measured from the edge of a forest fragment within each location. Few had to be discarded due to rains on day of observation. Measures per site: 5 branches per plant with 6 inflorescence per branch. 3 plants. Observations last 15 mins each. 1 temporal replicate",NA
"Smitha_Krishnan_Coffea_canephora_India_2007","be0","Direct ocular observations","Apis dorsata","Species","honeybees",6,NA,45,NA,"Locations with 5 distance classes (<10, 50, 100, 250, 500m) measured from the edge of a forest fragment within each location. Few had to be discarded due to rains on day of observation. Measures per site: 5 branches per plant with 6 inflorescence per branch. 3 plants. Observations last 15 mins each. 1 temporal replicate",NA
"Smitha_Krishnan_Coffea_canephora_India_2007","be0","Direct ocular observations","Apis cerana indica","Species","honeybees",14,NA,45,NA,"Locations with 5 distance classes (<10, 50, 100, 250, 500m) measured from the edge of a forest fragment within each location. Few had to be discarded due to rains on day of observation. Measures per site: 5 branches per plant with 6 inflorescence per branch. 3 plants. Observations last 15 mins each. 1 temporal replicate",NA
"Smitha_Krishnan_Coffea_canephora_India_2007","be0","Direct ocular observations","Apis florea","Species","honeybees",1,NA,45,NA,"Locations with 5 distance classes (<10, 50, 100, 250, 500m) measured from the edge of a forest fragment within each location. Few had to be discarded due to rains on day of observation. Measures per site: 5 branches per plant with 6 inflorescence per branch. 3 plants. Observations last 15 mins each. 1 temporal replicate",NA
"Smitha_Krishnan_Coffea_canephora_India_2007","be0","Direct ocular observations","Tetragonula iridipennis","Species","other_wild_bees",1,NA,45,NA,"Locations with 5 distance classes (<10, 50, 100, 250, 500m) measured from the edge of a forest fragment within each location. Few had to be discarded due to rains on day of observation. Measures per site: 5 branches per plant with 6 inflorescence per branch. 3 plants. Observations last 15 mins each. 1 temporal replicate",NA
"Smitha_Krishnan_Coffea_canephora_India_2007","be10","Direct ocular observations","Apis dorsata","Species","honeybees",9,NA,45,NA,"Locations with 5 distance classes (<10, 50, 100, 250, 500m) measured from the edge of a forest fragment within each location. Few had to be discarded due to rains on day of observation. Measures per site: 5 branches per plant with 6 inflorescence per branch. 3 plants. Observations last 15 mins each. 1 temporal replicate",NA
"Smitha_Krishnan_Coffea_canephora_India_2007","be10","Direct ocular observations","Apis cerana indica","Species","honeybees",10,NA,45,NA,"Locations with 5 distance classes (<10, 50, 100, 250, 500m) measured from the edge of a forest fragment within each location. Few had to be discarded due to rains on day of observation. Measures per site: 5 branches per plant with 6 inflorescence per branch. 3 plants. Observations last 15 mins each. 1 temporal replicate",NA
"Smitha_Krishnan_Coffea_canephora_India_2007","be10","Direct ocular observations","Tetragonula iridipennis","Species","other_wild_bees",2,NA,45,NA,"Locations with 5 distance classes (<10, 50, 100, 250, 500m) measured from the edge of a forest fragment within each location. Few had to be discarded due to rains on day of observation. Measures per site: 5 branches per plant with 6 inflorescence per branch. 3 plants. Observations last 15 mins each. 1 temporal replicate",NA
"Smitha_Krishnan_Coffea_canephora_India_2007","be10","Direct ocular observations","Syrphidae (hover fly)","Family","syrphids",2,NA,45,NA,"Locations with 5 distance classes (<10, 50, 100, 250, 500m) measured from the edge of a forest fragment within each location. Few had to be discarded due to rains on day of observation. Measures per site: 5 branches per plant with 6 inflorescence per branch. 3 plants. Observations last 15 mins each. 1 temporal replicate",NA
"Smitha_Krishnan_Coffea_canephora_India_2007","be50","Direct ocular observations","Apis dorsata","Species","honeybees",15,NA,45,NA,"Locations with 5 distance classes (<10, 50, 100, 250, 500m) measured from the edge of a forest fragment within each location. Few had to be discarded due to rains on day of observation. Measures per site: 5 branches per plant with 6 inflorescence per branch. 3 plants. Observations last 15 mins each. 1 temporal replicate",NA
"Smitha_Krishnan_Coffea_canephora_India_2007","be50","Direct ocular observations","Apis cerana indica","Species","honeybees",6,NA,45,NA,"Locations with 5 distance classes (<10, 50, 100, 250, 500m) measured from the edge of a forest fragment within each location. Few had to be discarded due to rains on day of observation. Measures per site: 5 branches per plant with 6 inflorescence per branch. 3 plants. Observations last 15 mins each. 1 temporal replicate",NA
"Smitha_Krishnan_Coffea_canephora_India_2007","chl0","Direct ocular observations","Syrphidae (hover fly)","Family","syrphids",1,NA,45,NA,"Locations with 5 distance classes (<10, 50, 100, 250, 500m) measured from the edge of a forest fragment within each location. Few had to be discarded due to rains on day of observation. Measures per site: 5 branches per plant with 6 inflorescence per branch. 3 plants. Observations last 15 mins each. 1 temporal replicate",NA
"Smitha_Krishnan_Coffea_canephora_India_2007","chl10","Direct ocular observations","Tetragonula iridipennis","Species","other_wild_bees",3,NA,45,NA,"Locations with 5 distance classes (<10, 50, 100, 250, 500m) measured from the edge of a forest fragment within each location. Few had to be discarded due to rains on day of observation. Measures per site: 5 branches per plant with 6 inflorescence per branch. 3 plants. Observations last 15 mins each. 1 temporal replicate",NA
"Smitha_Krishnan_Coffea_canephora_India_2007","chl10","Direct ocular observations","Amegilla zonata/ A. confusa","Genera (2 species not differentiated)","other_wild_bees",1,NA,45,NA,"Locations with 5 distance classes (<10, 50, 100, 250, 500m) measured from the edge of a forest fragment within each location. Few had to be discarded due to rains on day of observation. Measures per site: 5 branches per plant with 6 inflorescence per branch. 3 plants. Observations last 15 mins each. 1 temporal replicate",NA
"Smitha_Krishnan_Coffea_canephora_India_2007","chl10","Direct ocular observations","Amegilla quadrifasciata","Species","other_wild_bees",1,NA,45,NA,"Locations with 5 distance classes (<10, 50, 100, 250, 500m) measured from the edge of a forest fragment within each location. Few had to be discarded due to rains on day of observation. Measures per site: 5 branches per plant with 6 inflorescence per branch. 3 plants. Observations last 15 mins each. 1 temporal replicate",NA
"Smitha_Krishnan_Coffea_canephora_India_2007","chl50","Direct ocular observations","Apis cerana indica","Species","honeybees",5,NA,45,NA,"Locations with 5 distance classes (<10, 50, 100, 250, 500m) measured from the edge of a forest fragment within each location. Few had to be discarded due to rains on day of observation. Measures per site: 5 branches per plant with 6 inflorescence per branch. 3 plants. Observations last 15 mins each. 1 temporal replicate",NA
"Smitha_Krishnan_Coffea_canephora_India_2007","chl100","Direct ocular observations","Apis dorsata","Species","honeybees",3,NA,45,NA,"Locations with 5 distance classes (<10, 50, 100, 250, 500m) measured from the edge of a forest fragment within each location. Few had to be discarded due to rains on day of observation. Measures per site: 5 branches per plant with 6 inflorescence per branch. 3 plants. Observations last 15 mins each. 1 temporal replicate",NA
"Smitha_Krishnan_Coffea_canephora_India_2007","chl100","Direct ocular observations","Tetragonula iridipennis","Species","other_wild_bees",10,NA,45,NA,"Locations with 5 distance classes (<10, 50, 100, 250, 500m) measured from the edge of a forest fragment within each location. Few had to be discarded due to rains on day of observation. Measures per site: 5 branches per plant with 6 inflorescence per branch. 3 plants. Observations last 15 mins each. 1 temporal replicate",NA
"Smitha_Krishnan_Coffea_canephora_India_2007","chl100","Direct ocular observations","Thysanoptera (Thrips)","Order","other",4,NA,45,NA,"Locations with 5 distance classes (<10, 50, 100, 250, 500m) measured from the edge of a forest fragment within each location. Few had to be discarded due to rains on day of observation. Measures per site: 5 branches per plant with 6 inflorescence per branch. 3 plants. Observations last 15 mins each. 1 temporal replicate",NA
"Smitha_Krishnan_Coffea_canephora_India_2007","chl250","Direct ocular observations","Apis dorsata","Species","honeybees",105,NA,45,NA,"Locations with 5 distance classes (<10, 50, 100, 250, 500m) measured from the edge of a forest fragment within each location. Few had to be discarded due to rains on day of observation. Measures per site: 5 branches per plant with 6 inflorescence per branch. 3 plants. Observations last 15 mins each. 1 temporal replicate",NA
"Smitha_Krishnan_Coffea_canephora_India_2007","chl250","Direct ocular observations","Apis cerana indica","Species","honeybees",143,NA,45,NA,"Locations with 5 distance classes (<10, 50, 100, 250, 500m) measured from the edge of a forest fragment within each location. Few had to be discarded due to rains on day of observation. Measures per site: 5 branches per plant with 6 inflorescence per branch. 3 plants. Observations last 15 mins each. 1 temporal replicate",NA
"Smitha_Krishnan_Coffea_canephora_India_2007","chl250","Direct ocular observations","Apis florea","Species","honeybees",5,NA,45,NA,"Locations with 5 distance classes (<10, 50, 100, 250, 500m) measured from the edge of a forest fragment within each location. Few had to be discarded due to rains on day of observation. Measures per site: 5 branches per plant with 6 inflorescence per branch. 3 plants. Observations last 15 mins each. 1 temporal replicate",NA
"Smitha_Krishnan_Coffea_canephora_India_2007","chl250","Direct ocular observations","Diptera-Fly","Order","other_flies",7,NA,45,NA,"Locations with 5 distance classes (<10, 50, 100, 250, 500m) measured from the edge of a forest fragment within each location. Few had to be discarded due to rains on day of observation. Measures per site: 5 branches per plant with 6 inflorescence per branch. 3 plants. Observations last 15 mins each. 1 temporal replicate",NA
"Smitha_Krishnan_Coffea_canephora_India_2007","chl250","Direct ocular observations","Thysanoptera (Thrips)","Order","other",1,NA,45,NA,"Locations with 5 distance classes (<10, 50, 100, 250, 500m) measured from the edge of a forest fragment within each location. Few had to be discarded due to rains on day of observation. Measures per site: 5 branches per plant with 6 inflorescence per branch. 3 plants. Observations last 15 mins each. 1 temporal replicate",NA
"Smitha_Krishnan_Coffea_canephora_India_2007","chs250","Direct ocular observations","Apis dorsata","Species","honeybees",3,NA,45,NA,"Locations with 5 distance classes (<10, 50, 100, 250, 500m) measured from the edge of a forest fragment within each location. Few had to be discarded due to rains on day of observation. Measures per site: 5 branches per plant with 6 inflorescence per branch. 3 plants. Observations last 15 mins each. 1 temporal replicate",NA
"Smitha_Krishnan_Coffea_canephora_India_2007","chs250","Direct ocular observations","Tetragonula iridipennis","Species","other_wild_bees",9,NA,45,NA,"Locations with 5 distance classes (<10, 50, 100, 250, 500m) measured from the edge of a forest fragment within each location. Few had to be discarded due to rains on day of observation. Measures per site: 5 branches per plant with 6 inflorescence per branch. 3 plants. Observations last 15 mins each. 1 temporal replicate",NA
"Smitha_Krishnan_Coffea_canephora_India_2007","chs500","Direct ocular observations","Apis dorsata","Species","honeybees",1,NA,45,NA,"Locations with 5 distance classes (<10, 50, 100, 250, 500m) measured from the edge of a forest fragment within each location. Few had to be discarded due to rains on day of observation. Measures per site: 5 branches per plant with 6 inflorescence per branch. 3 plants. Observations last 15 mins each. 1 temporal replicate",NA
"Smitha_Krishnan_Coffea_canephora_India_2007","chs500","Direct ocular observations","Tetragonula iridipennis","Species","other_wild_bees",7,NA,45,NA,"Locations with 5 distance classes (<10, 50, 100, 250, 500m) measured from the edge of a forest fragment within each location. Few had to be discarded due to rains on day of observation. Measures per site: 5 branches per plant with 6 inflorescence per branch. 3 plants. Observations last 15 mins each. 1 temporal replicate",NA
"Smitha_Krishnan_Coffea_canephora_India_2007","devpur0","Direct ocular observations","Apis dorsata","Species","honeybees",4,NA,45,NA,"Locations with 5 distance classes (<10, 50, 100, 250, 500m) measured from the edge of a forest fragment within each location. Few had to be discarded due to rains on day of observation. Measures per site: 5 branches per plant with 6 inflorescence per branch. 3 plants. Observations last 15 mins each. 1 temporal replicate",NA
"Smitha_Krishnan_Coffea_canephora_India_2007","devpur0","Direct ocular observations","Apis cerana indica","Species","honeybees",9,NA,45,NA,"Locations with 5 distance classes (<10, 50, 100, 250, 500m) measured from the edge of a forest fragment within each location. Few had to be discarded due to rains on day of observation. Measures per site: 5 branches per plant with 6 inflorescence per branch. 3 plants. Observations last 15 mins each. 1 temporal replicate",NA
"Smitha_Krishnan_Coffea_canephora_India_2007","devpur0","Direct ocular observations","Tetragonula iridipennis","Species","other_wild_bees",41,NA,45,NA,"Locations with 5 distance classes (<10, 50, 100, 250, 500m) measured from the edge of a forest fragment within each location. Few had to be discarded due to rains on day of observation. Measures per site: 5 branches per plant with 6 inflorescence per branch. 3 plants. Observations last 15 mins each. 1 temporal replicate",NA
"Smitha_Krishnan_Coffea_canephora_India_2007","devpur0","Direct ocular observations","Diptera sp1","Order","other_flies",1,NA,45,NA,"Locations with 5 distance classes (<10, 50, 100, 250, 500m) measured from the edge of a forest fragment within each location. Few had to be discarded due to rains on day of observation. Measures per site: 5 branches per plant with 6 inflorescence per branch. 3 plants. Observations last 15 mins each. 1 temporal replicate",NA
"Smitha_Krishnan_Coffea_canephora_India_2007","devpur0","Direct ocular observations","Thysanoptera (Thrips)","Order","other",16,NA,45,NA,"Locations with 5 distance classes (<10, 50, 100, 250, 500m) measured from the edge of a forest fragment within each location. Few had to be discarded due to rains on day of observation. Measures per site: 5 branches per plant with 6 inflorescence per branch. 3 plants. Observations last 15 mins each. 1 temporal replicate",NA
"Smitha_Krishnan_Coffea_canephora_India_2007","devpur50","Direct ocular observations","Apis dorsata","Species","honeybees",7,NA,45,NA,"Locations with 5 distance classes (<10, 50, 100, 250, 500m) measured from the edge of a forest fragment within each location. Few had to be discarded due to rains on day of observation. Measures per site: 5 branches per plant with 6 inflorescence per branch. 3 plants. Observations last 15 mins each. 1 temporal replicate",NA
"Smitha_Krishnan_Coffea_canephora_India_2007","devpur50","Direct ocular observations","Tetragonula iridipennis","Species","other_wild_bees",21,NA,45,NA,"Locations with 5 distance classes (<10, 50, 100, 250, 500m) measured from the edge of a forest fragment within each location. Few had to be discarded due to rains on day of observation. Measures per site: 5 branches per plant with 6 inflorescence per branch. 3 plants. Observations last 15 mins each. 1 temporal replicate",NA
"Smitha_Krishnan_Coffea_canephora_India_2007","devpur50","Direct ocular observations","Thysanoptera (Thrips)","Order","other",8,NA,45,NA,"Locations with 5 distance classes (<10, 50, 100, 250, 500m) measured from the edge of a forest fragment within each location. Few had to be discarded due to rains on day of observation. Measures per site: 5 branches per plant with 6 inflorescence per branch. 3 plants. Observations last 15 mins each. 1 temporal replicate",NA
"Smitha_Krishnan_Coffea_canephora_India_2007","devpur100","Direct ocular observations","Apis dorsata","Species","honeybees",42,NA,45,NA,"Locations with 5 distance classes (<10, 50, 100, 250, 500m) measured from the edge of a forest fragment within each location. Few had to be discarded due to rains on day of observation. Measures per site: 5 branches per plant with 6 inflorescence per branch. 3 plants. Observations last 15 mins each. 1 temporal replicate",NA
"Smitha_Krishnan_Coffea_canephora_India_2007","devpur100","Direct ocular observations","Apis cerana indica","Species","honeybees",1,NA,45,NA,"Locations with 5 distance classes (<10, 50, 100, 250, 500m) measured from the edge of a forest fragment within each location. Few had to be discarded due to rains on day of observation. Measures per site: 5 branches per plant with 6 inflorescence per branch. 3 plants. Observations last 15 mins each. 1 temporal replicate",NA
"Smitha_Krishnan_Coffea_canephora_India_2007","devpur100","Direct ocular observations","Tetragonula iridipennis","Species","other_wild_bees",32,NA,45,NA,"Locations with 5 distance classes (<10, 50, 100, 250, 500m) measured from the edge of a forest fragment within each location. Few had to be discarded due to rains on day of observation. Measures per site: 5 branches per plant with 6 inflorescence per branch. 3 plants. Observations last 15 mins each. 1 temporal replicate",NA
"Smitha_Krishnan_Coffea_canephora_India_2007","devpur100","Direct ocular observations","Thysanoptera (Thrips)","Order","other",8,NA,45,NA,"Locations with 5 distance classes (<10, 50, 100, 250, 500m) measured from the edge of a forest fragment within each location. Few had to be discarded due to rains on day of observation. Measures per site: 5 branches per plant with 6 inflorescence per branch. 3 plants. Observations last 15 mins each. 1 temporal replicate",NA
"Smitha_Krishnan_Coffea_canephora_India_2007","devpur250","Direct ocular observations","Apis dorsata","Species","honeybees",121,NA,45,NA,"Locations with 5 distance classes (<10, 50, 100, 250, 500m) measured from the edge of a forest fragment within each location. Few had to be discarded due to rains on day of observation. Measures per site: 5 branches per plant with 6 inflorescence per branch. 3 plants. Observations last 15 mins each. 1 temporal replicate",NA
"Smitha_Krishnan_Coffea_canephora_India_2007","devpur250","Direct ocular observations","Apis cerana indica","Species","honeybees",13,NA,45,NA,"Locations with 5 distance classes (<10, 50, 100, 250, 500m) measured from the edge of a forest fragment within each location. Few had to be discarded due to rains on day of observation. Measures per site: 5 branches per plant with 6 inflorescence per branch. 3 plants. Observations last 15 mins each. 1 temporal replicate",NA
"Smitha_Krishnan_Coffea_canephora_India_2007","devpur250","Direct ocular observations","Tetragonula iridipennis","Species","other_wild_bees",45,NA,45,NA,"Locations with 5 distance classes (<10, 50, 100, 250, 500m) measured from the edge of a forest fragment within each location. Few had to be discarded due to rains on day of observation. Measures per site: 5 branches per plant with 6 inflorescence per branch. 3 plants. Observations last 15 mins each. 1 temporal replicate",NA
"Smitha_Krishnan_Coffea_canephora_India_2007","devpur500","Direct ocular observations","Apis dorsata","Species","honeybees",202,NA,45,NA,"Locations with 5 distance classes (<10, 50, 100, 250, 500m) measured from the edge of a forest fragment within each location. Few had to be discarded due to rains on day of observation. Measures per site: 5 branches per plant with 6 inflorescence per branch. 3 plants. Observations last 15 mins each. 1 temporal replicate",NA
"Smitha_Krishnan_Coffea_canephora_India_2007","devpur500","Direct ocular observations","Apis cerana indica","Species","honeybees",2,NA,45,NA,"Locations with 5 distance classes (<10, 50, 100, 250, 500m) measured from the edge of a forest fragment within each location. Few had to be discarded due to rains on day of observation. Measures per site: 5 branches per plant with 6 inflorescence per branch. 3 plants. Observations last 15 mins each. 1 temporal replicate",NA
"Smitha_Krishnan_Coffea_canephora_India_2007","devpur500","Direct ocular observations","Apis florea","Species","honeybees",1,NA,45,NA,"Locations with 5 distance classes (<10, 50, 100, 250, 500m) measured from the edge of a forest fragment within each location. Few had to be discarded due to rains on day of observation. Measures per site: 5 branches per plant with 6 inflorescence per branch. 3 plants. Observations last 15 mins each. 1 temporal replicate",NA
"Smitha_Krishnan_Coffea_canephora_India_2007","devpur500","Direct ocular observations","Tetragonula iridipennis","Species","other_wild_bees",3,NA,45,NA,"Locations with 5 distance classes (<10, 50, 100, 250, 500m) measured from the edge of a forest fragment within each location. Few had to be discarded due to rains on day of observation. Measures per site: 5 branches per plant with 6 inflorescence per branch. 3 plants. Observations last 15 mins each. 1 temporal replicate",NA
"Smitha_Krishnan_Coffea_canephora_India_2007","devpur500","Direct ocular observations","Braunsapsis picitarsis","Species","other_wild_bees",2,NA,45,NA,"Locations with 5 distance classes (<10, 50, 100, 250, 500m) measured from the edge of a forest fragment within each location. Few had to be discarded due to rains on day of observation. Measures per site: 5 branches per plant with 6 inflorescence per branch. 3 plants. Observations last 15 mins each. 1 temporal replicate",NA
"Smitha_Krishnan_Coffea_canephora_India_2007","devpur500","Direct ocular observations","Syrphidae (hover fly)","Family","syrphids",1,NA,45,NA,"Locations with 5 distance classes (<10, 50, 100, 250, 500m) measured from the edge of a forest fragment within each location. Few had to be discarded due to rains on day of observation. Measures per site: 5 branches per plant with 6 inflorescence per branch. 3 plants. Observations last 15 mins each. 1 temporal replicate",NA
"Smitha_Krishnan_Coffea_canephora_India_2007","dhm0","Direct ocular observations","Apis florea","Species","honeybees",1,NA,45,NA,"Locations with 5 distance classes (<10, 50, 100, 250, 500m) measured from the edge of a forest fragment within each location. Few had to be discarded due to rains on day of observation. Measures per site: 5 branches per plant with 6 inflorescence per branch. 3 plants. Observations last 15 mins each. 1 temporal replicate",NA
"Smitha_Krishnan_Coffea_canephora_India_2007","dhm10","Direct ocular observations","Apis dorsata","Species","honeybees",1,NA,45,NA,"Locations with 5 distance classes (<10, 50, 100, 250, 500m) measured from the edge of a forest fragment within each location. Few had to be discarded due to rains on day of observation. Measures per site: 5 branches per plant with 6 inflorescence per branch. 3 plants. Observations last 15 mins each. 1 temporal replicate",NA
"Smitha_Krishnan_Coffea_canephora_India_2007","dhm10","Direct ocular observations","Apis florea","Species","honeybees",2,NA,45,NA,"Locations with 5 distance classes (<10, 50, 100, 250, 500m) measured from the edge of a forest fragment within each location. Few had to be discarded due to rains on day of observation. Measures per site: 5 branches per plant with 6 inflorescence per branch. 3 plants. Observations last 15 mins each. 1 temporal replicate",NA
"Smitha_Krishnan_Coffea_canephora_India_2007","dhm10","Direct ocular observations","Tetragonula iridipennis","Species","other_wild_bees",3,NA,45,NA,"Locations with 5 distance classes (<10, 50, 100, 250, 500m) measured from the edge of a forest fragment within each location. Few had to be discarded due to rains on day of observation. Measures per site: 5 branches per plant with 6 inflorescence per branch. 3 plants. Observations last 15 mins each. 1 temporal replicate",NA
"Smitha_Krishnan_Coffea_canephora_India_2007","dhm50","Direct ocular observations","Apis dorsata","Species","honeybees",3,NA,45,NA,"Locations with 5 distance classes (<10, 50, 100, 250, 500m) measured from the edge of a forest fragment within each location. Few had to be discarded due to rains on day of observation. Measures per site: 5 branches per plant with 6 inflorescence per branch. 3 plants. Observations last 15 mins each. 1 temporal replicate",NA
"Smitha_Krishnan_Coffea_canephora_India_2007","dhm50","Direct ocular observations","Apis florea","Species","honeybees",1,NA,45,NA,"Locations with 5 distance classes (<10, 50, 100, 250, 500m) measured from the edge of a forest fragment within each location. Few had to be discarded due to rains on day of observation. Measures per site: 5 branches per plant with 6 inflorescence per branch. 3 plants. Observations last 15 mins each. 1 temporal replicate",NA
"Smitha_Krishnan_Coffea_canephora_India_2007","dhm50","Direct ocular observations","Tetragonula iridipennis","Species","other_wild_bees",6,NA,45,NA,"Locations with 5 distance classes (<10, 50, 100, 250, 500m) measured from the edge of a forest fragment within each location. Few had to be discarded due to rains on day of observation. Measures per site: 5 branches per plant with 6 inflorescence per branch. 3 plants. Observations last 15 mins each. 1 temporal replicate",NA
"Smitha_Krishnan_Coffea_canephora_India_2007","dhm100","Direct ocular observations","Tetragonula iridipennis","Species","other_wild_bees",15,NA,45,NA,"Locations with 5 distance classes (<10, 50, 100, 250, 500m) measured from the edge of a forest fragment within each location. Few had to be discarded due to rains on day of observation. Measures per site: 5 branches per plant with 6 inflorescence per branch. 3 plants. Observations last 15 mins each. 1 temporal replicate",NA
"Smitha_Krishnan_Coffea_canephora_India_2007","dhm100","Direct ocular observations","Unknown","Unknown","other",1,NA,45,NA,"Locations with 5 distance classes (<10, 50, 100, 250, 500m) measured from the edge of a forest fragment within each location. Few had to be discarded due to rains on day of observation. Measures per site: 5 branches per plant with 6 inflorescence per branch. 3 plants. Observations last 15 mins each. 1 temporal replicate",NA
"Smitha_Krishnan_Coffea_canephora_India_2007","dhm250","Direct ocular observations","Apis cerana indica","Species","honeybees",7,NA,45,NA,"Locations with 5 distance classes (<10, 50, 100, 250, 500m) measured from the edge of a forest fragment within each location. Few had to be discarded due to rains on day of observation. Measures per site: 5 branches per plant with 6 inflorescence per branch. 3 plants. Observations last 15 mins each. 1 temporal replicate",NA
"Smitha_Krishnan_Coffea_canephora_India_2007","dhm250","Direct ocular observations","Tetragonula iridipennis","Species","other_wild_bees",19,NA,45,NA,"Locations with 5 distance classes (<10, 50, 100, 250, 500m) measured from the edge of a forest fragment within each location. Few had to be discarded due to rains on day of observation. Measures per site: 5 branches per plant with 6 inflorescence per branch. 3 plants. Observations last 15 mins each. 1 temporal replicate",NA
"Smitha_Krishnan_Coffea_canephora_India_2007","dhm250","Direct ocular observations","Thysanoptera (Thrips)","Order","other",1,NA,45,NA,"Locations with 5 distance classes (<10, 50, 100, 250, 500m) measured from the edge of a forest fragment within each location. Few had to be discarded due to rains on day of observation. Measures per site: 5 branches per plant with 6 inflorescence per branch. 3 plants. Observations last 15 mins each. 1 temporal replicate",NA
"Smitha_Krishnan_Coffea_canephora_India_2007","dhm500","Direct ocular observations","Apis dorsata","Species","honeybees",5,NA,45,NA,"Locations with 5 distance classes (<10, 50, 100, 250, 500m) measured from the edge of a forest fragment within each location. Few had to be discarded due to rains on day of observation. Measures per site: 5 branches per plant with 6 inflorescence per branch. 3 plants. Observations last 15 mins each. 1 temporal replicate",NA
"Smitha_Krishnan_Coffea_canephora_India_2007","dhm500","Direct ocular observations","Apis cerana indica","Species","honeybees",5,NA,45,NA,"Locations with 5 distance classes (<10, 50, 100, 250, 500m) measured from the edge of a forest fragment within each location. Few had to be discarded due to rains on day of observation. Measures per site: 5 branches per plant with 6 inflorescence per branch. 3 plants. Observations last 15 mins each. 1 temporal replicate",NA
"Smitha_Krishnan_Coffea_canephora_India_2007","dhm500","Direct ocular observations","Apis florea","Species","honeybees",1,NA,45,NA,"Locations with 5 distance classes (<10, 50, 100, 250, 500m) measured from the edge of a forest fragment within each location. Few had to be discarded due to rains on day of observation. Measures per site: 5 branches per plant with 6 inflorescence per branch. 3 plants. Observations last 15 mins each. 1 temporal replicate",NA
"Smitha_Krishnan_Coffea_canephora_India_2007","dhm500","Direct ocular observations","Tetragonula iridipennis","Species","other_wild_bees",3,NA,45,NA,"Locations with 5 distance classes (<10, 50, 100, 250, 500m) measured from the edge of a forest fragment within each location. Few had to be discarded due to rains on day of observation. Measures per site: 5 branches per plant with 6 inflorescence per branch. 3 plants. Observations last 15 mins each. 1 temporal replicate",NA
"Smitha_Krishnan_Coffea_canephora_India_2007","dhm500","Direct ocular observations","Ceratina hieroglyphica","Species","other_wild_bees",1,NA,45,NA,"Locations with 5 distance classes (<10, 50, 100, 250, 500m) measured from the edge of a forest fragment within each location. Few had to be discarded due to rains on day of observation. Measures per site: 5 branches per plant with 6 inflorescence per branch. 3 plants. Observations last 15 mins each. 1 temporal replicate",NA
"Smitha_Krishnan_Coffea_canephora_India_2007","dhm500","Direct ocular observations","Thysanoptera (Thrips)","Order","other",1,NA,45,NA,"Locations with 5 distance classes (<10, 50, 100, 250, 500m) measured from the edge of a forest fragment within each location. Few had to be discarded due to rains on day of observation. Measures per site: 5 branches per plant with 6 inflorescence per branch. 3 plants. Observations last 15 mins each. 1 temporal replicate",NA
"Smitha_Krishnan_Coffea_canephora_India_2007","hal0","Direct ocular observations","Apis dorsata","Species","honeybees",44,NA,45,NA,"Locations with 5 distance classes (<10, 50, 100, 250, 500m) measured from the edge of a forest fragment within each location. Few had to be discarded due to rains on day of observation. Measures per site: 5 branches per plant with 6 inflorescence per branch. 3 plants. Observations last 15 mins each. 1 temporal replicate",NA
"Smitha_Krishnan_Coffea_canephora_India_2007","hal0","Direct ocular observations","Apis cerana indica","Species","honeybees",48,NA,45,NA,"Locations with 5 distance classes (<10, 50, 100, 250, 500m) measured from the edge of a forest fragment within each location. Few had to be discarded due to rains on day of observation. Measures per site: 5 branches per plant with 6 inflorescence per branch. 3 plants. Observations last 15 mins each. 1 temporal replicate",NA
"Smitha_Krishnan_Coffea_canephora_India_2007","hal0","Direct ocular observations","Tetragonula iridipennis","Species","other_wild_bees",11,NA,45,NA,"Locations with 5 distance classes (<10, 50, 100, 250, 500m) measured from the edge of a forest fragment within each location. Few had to be discarded due to rains on day of observation. Measures per site: 5 branches per plant with 6 inflorescence per branch. 3 plants. Observations last 15 mins each. 1 temporal replicate",NA
"Smitha_Krishnan_Coffea_canephora_India_2007","hal0","Direct ocular observations","Amegilla zonata/ A. confusa","Genera (2 species not differentiated)","other_wild_bees",2,NA,45,NA,"Locations with 5 distance classes (<10, 50, 100, 250, 500m) measured from the edge of a forest fragment within each location. Few had to be discarded due to rains on day of observation. Measures per site: 5 branches per plant with 6 inflorescence per branch. 3 plants. Observations last 15 mins each. 1 temporal replicate",NA
"Smitha_Krishnan_Coffea_canephora_India_2007","hal0","Direct ocular observations","Coleoptera_sp.1","Order","beetles",1,NA,45,NA,"Locations with 5 distance classes (<10, 50, 100, 250, 500m) measured from the edge of a forest fragment within each location. Few had to be discarded due to rains on day of observation. Measures per site: 5 branches per plant with 6 inflorescence per branch. 3 plants. Observations last 15 mins each. 1 temporal replicate",NA
"Smitha_Krishnan_Coffea_canephora_India_2007","hal10","Direct ocular observations","Apis dorsata","Species","honeybees",33,NA,45,NA,"Locations with 5 distance classes (<10, 50, 100, 250, 500m) measured from the edge of a forest fragment within each location. Few had to be discarded due to rains on day of observation. Measures per site: 5 branches per plant with 6 inflorescence per branch. 3 plants. Observations last 15 mins each. 1 temporal replicate",NA
"Smitha_Krishnan_Coffea_canephora_India_2007","hal10","Direct ocular observations","Apis cerana indica","Species","honeybees",28,NA,45,NA,"Locations with 5 distance classes (<10, 50, 100, 250, 500m) measured from the edge of a forest fragment within each location. Few had to be discarded due to rains on day of observation. Measures per site: 5 branches per plant with 6 inflorescence per branch. 3 plants. Observations last 15 mins each. 1 temporal replicate",NA
"Smitha_Krishnan_Coffea_canephora_India_2007","hal10","Direct ocular observations","Apis florea","Species","honeybees",1,NA,45,NA,"Locations with 5 distance classes (<10, 50, 100, 250, 500m) measured from the edge of a forest fragment within each location. Few had to be discarded due to rains on day of observation. Measures per site: 5 branches per plant with 6 inflorescence per branch. 3 plants. Observations last 15 mins each. 1 temporal replicate",NA
"Smitha_Krishnan_Coffea_canephora_India_2007","hal10","Direct ocular observations","Tetragonula iridipennis","Species","other_wild_bees",10,NA,45,NA,"Locations with 5 distance classes (<10, 50, 100, 250, 500m) measured from the edge of a forest fragment within each location. Few had to be discarded due to rains on day of observation. Measures per site: 5 branches per plant with 6 inflorescence per branch. 3 plants. Observations last 15 mins each. 1 temporal replicate",NA
"Smitha_Krishnan_Coffea_canephora_India_2007","hal10","Direct ocular observations","Eumenine","Subfamily","non_bee_hymenoptera",1,NA,45,NA,"Locations with 5 distance classes (<10, 50, 100, 250, 500m) measured from the edge of a forest fragment within each location. Few had to be discarded due to rains on day of observation. Measures per site: 5 branches per plant with 6 inflorescence per branch. 3 plants. Observations last 15 mins each. 1 temporal replicate",NA
"Smitha_Krishnan_Coffea_canephora_India_2007","hal10","Direct ocular observations","Thysanoptera (Thrips)","Order","other",1,NA,45,NA,"Locations with 5 distance classes (<10, 50, 100, 250, 500m) measured from the edge of a forest fragment within each location. Few had to be discarded due to rains on day of observation. Measures per site: 5 branches per plant with 6 inflorescence per branch. 3 plants. Observations last 15 mins each. 1 temporal replicate",NA
"Smitha_Krishnan_Coffea_canephora_India_2007","hal50","Direct ocular observations","Apis dorsata","Species","honeybees",21,NA,45,NA,"Locations with 5 distance classes (<10, 50, 100, 250, 500m) measured from the edge of a forest fragment within each location. Few had to be discarded due to rains on day of observation. Measures per site: 5 branches per plant with 6 inflorescence per branch. 3 plants. Observations last 15 mins each. 1 temporal replicate",NA
"Smitha_Krishnan_Coffea_canephora_India_2007","hal50","Direct ocular observations","Apis cerana indica","Species","honeybees",5,NA,45,NA,"Locations with 5 distance classes (<10, 50, 100, 250, 500m) measured from the edge of a forest fragment within each location. Few had to be discarded due to rains on day of observation. Measures per site: 5 branches per plant with 6 inflorescence per branch. 3 plants. Observations last 15 mins each. 1 temporal replicate",NA
"Smitha_Krishnan_Coffea_canephora_India_2007","hal100","Direct ocular observations","Apis dorsata","Species","honeybees",6,NA,45,NA,"Locations with 5 distance classes (<10, 50, 100, 250, 500m) measured from the edge of a forest fragment within each location. Few had to be discarded due to rains on day of observation. Measures per site: 5 branches per plant with 6 inflorescence per branch. 3 plants. Observations last 15 mins each. 1 temporal replicate",NA
"Smitha_Krishnan_Coffea_canephora_India_2007","hal100","Direct ocular observations","Apis cerana indica","Species","honeybees",31,NA,45,NA,"Locations with 5 distance classes (<10, 50, 100, 250, 500m) measured from the edge of a forest fragment within each location. Few had to be discarded due to rains on day of observation. Measures per site: 5 branches per plant with 6 inflorescence per branch. 3 plants. Observations last 15 mins each. 1 temporal replicate",NA
"Smitha_Krishnan_Coffea_canephora_India_2007","hal100","Direct ocular observations","Apis florea","Species","honeybees",4,NA,45,NA,"Locations with 5 distance classes (<10, 50, 100, 250, 500m) measured from the edge of a forest fragment within each location. Few had to be discarded due to rains on day of observation. Measures per site: 5 branches per plant with 6 inflorescence per branch. 3 plants. Observations last 15 mins each. 1 temporal replicate",NA
"Smitha_Krishnan_Coffea_canephora_India_2007","hal100","Direct ocular observations","Tetragonula iridipennis","Species","other_wild_bees",1,NA,45,NA,"Locations with 5 distance classes (<10, 50, 100, 250, 500m) measured from the edge of a forest fragment within each location. Few had to be discarded due to rains on day of observation. Measures per site: 5 branches per plant with 6 inflorescence per branch. 3 plants. Observations last 15 mins each. 1 temporal replicate",NA
"Smitha_Krishnan_Coffea_canephora_India_2007","hal100","Direct ocular observations","Ceratina hieroglyphica","Species","other_wild_bees",1,NA,45,NA,"Locations with 5 distance classes (<10, 50, 100, 250, 500m) measured from the edge of a forest fragment within each location. Few had to be discarded due to rains on day of observation. Measures per site: 5 branches per plant with 6 inflorescence per branch. 3 plants. Observations last 15 mins each. 1 temporal replicate",NA
"Smitha_Krishnan_Coffea_canephora_India_2007","hal100","Direct ocular observations","Thysanoptera (Thrips)","Order","other",2,NA,45,NA,"Locations with 5 distance classes (<10, 50, 100, 250, 500m) measured from the edge of a forest fragment within each location. Few had to be discarded due to rains on day of observation. Measures per site: 5 branches per plant with 6 inflorescence per branch. 3 plants. Observations last 15 mins each. 1 temporal replicate",NA
"Smitha_Krishnan_Coffea_canephora_India_2007","hal250","Direct ocular observations","Apis dorsata","Species","honeybees",50,NA,45,NA,"Locations with 5 distance classes (<10, 50, 100, 250, 500m) measured from the edge of a forest fragment within each location. Few had to be discarded due to rains on day of observation. Measures per site: 5 branches per plant with 6 inflorescence per branch. 3 plants. Observations last 15 mins each. 1 temporal replicate",NA
"Smitha_Krishnan_Coffea_canephora_India_2007","hal250","Direct ocular observations","Apis cerana indica","Species","honeybees",26,NA,45,NA,"Locations with 5 distance classes (<10, 50, 100, 250, 500m) measured from the edge of a forest fragment within each location. Few had to be discarded due to rains on day of observation. Measures per site: 5 branches per plant with 6 inflorescence per branch. 3 plants. Observations last 15 mins each. 1 temporal replicate",NA
"Smitha_Krishnan_Coffea_canephora_India_2007","hal250","Direct ocular observations","Tetragonula iridipennis","Species","other_wild_bees",17,NA,45,NA,"Locations with 5 distance classes (<10, 50, 100, 250, 500m) measured from the edge of a forest fragment within each location. Few had to be discarded due to rains on day of observation. Measures per site: 5 branches per plant with 6 inflorescence per branch. 3 plants. Observations last 15 mins each. 1 temporal replicate",NA
"Smitha_Krishnan_Coffea_canephora_India_2007","hal250","Direct ocular observations","Lasioglossum sp.","Genus","other_wild_bees",1,NA,45,NA,"Locations with 5 distance classes (<10, 50, 100, 250, 500m) measured from the edge of a forest fragment within each location. Few had to be discarded due to rains on day of observation. Measures per site: 5 branches per plant with 6 inflorescence per branch. 3 plants. Observations last 15 mins each. 1 temporal replicate",NA
"Smitha_Krishnan_Coffea_canephora_India_2007","hal250","Direct ocular observations","Ceratina hieroglyphica","Species","other_wild_bees",4,NA,45,NA,"Locations with 5 distance classes (<10, 50, 100, 250, 500m) measured from the edge of a forest fragment within each location. Few had to be discarded due to rains on day of observation. Measures per site: 5 branches per plant with 6 inflorescence per branch. 3 plants. Observations last 15 mins each. 1 temporal replicate",NA
"Smitha_Krishnan_Coffea_canephora_India_2007","hal250","Direct ocular observations","Diptera-Fly","Order","other_flies",3,NA,45,NA,"Locations with 5 distance classes (<10, 50, 100, 250, 500m) measured from the edge of a forest fragment within each location. Few had to be discarded due to rains on day of observation. Measures per site: 5 branches per plant with 6 inflorescence per branch. 3 plants. Observations last 15 mins each. 1 temporal replicate",NA
"Smitha_Krishnan_Coffea_canephora_India_2007","hal250","Direct ocular observations","Thysanoptera (Thrips)","Order","other",2,NA,45,NA,"Locations with 5 distance classes (<10, 50, 100, 250, 500m) measured from the edge of a forest fragment within each location. Few had to be discarded due to rains on day of observation. Measures per site: 5 branches per plant with 6 inflorescence per branch. 3 plants. Observations last 15 mins each. 1 temporal replicate",NA
"Smitha_Krishnan_Coffea_canephora_India_2007","hal500","Direct ocular observations","Apis dorsata","Species","honeybees",1,NA,45,NA,"Locations with 5 distance classes (<10, 50, 100, 250, 500m) measured from the edge of a forest fragment within each location. Few had to be discarded due to rains on day of observation. Measures per site: 5 branches per plant with 6 inflorescence per branch. 3 plants. Observations last 15 mins each. 1 temporal replicate",NA
"Smitha_Krishnan_Coffea_canephora_India_2007","hal500","Direct ocular observations","Thysanoptera (Thrips)","Order","other",1,NA,45,NA,"Locations with 5 distance classes (<10, 50, 100, 250, 500m) measured from the edge of a forest fragment within each location. Few had to be discarded due to rains on day of observation. Measures per site: 5 branches per plant with 6 inflorescence per branch. 3 plants. Observations last 15 mins each. 1 temporal replicate",NA
"Smitha_Krishnan_Coffea_canephora_India_2007","has0","Direct ocular observations","Apis dorsata","Species","honeybees",10,NA,45,NA,"Locations with 5 distance classes (<10, 50, 100, 250, 500m) measured from the edge of a forest fragment within each location. Few had to be discarded due to rains on day of observation. Measures per site: 5 branches per plant with 6 inflorescence per branch. 3 plants. Observations last 15 mins each. 1 temporal replicate",NA
"Smitha_Krishnan_Coffea_canephora_India_2007","has0","Direct ocular observations","Apis cerana indica","Species","honeybees",5,NA,45,NA,"Locations with 5 distance classes (<10, 50, 100, 250, 500m) measured from the edge of a forest fragment within each location. Few had to be discarded due to rains on day of observation. Measures per site: 5 branches per plant with 6 inflorescence per branch. 3 plants. Observations last 15 mins each. 1 temporal replicate",NA
"Smitha_Krishnan_Coffea_canephora_India_2007","has0","Direct ocular observations","Tetragonula iridipennis","Species","other_wild_bees",19,NA,45,NA,"Locations with 5 distance classes (<10, 50, 100, 250, 500m) measured from the edge of a forest fragment within each location. Few had to be discarded due to rains on day of observation. Measures per site: 5 branches per plant with 6 inflorescence per branch. 3 plants. Observations last 15 mins each. 1 temporal replicate",NA
"Smitha_Krishnan_Coffea_canephora_India_2007","has50","Direct ocular observations","Apis dorsata","Species","honeybees",23,NA,45,NA,"Locations with 5 distance classes (<10, 50, 100, 250, 500m) measured from the edge of a forest fragment within each location. Few had to be discarded due to rains on day of observation. Measures per site: 5 branches per plant with 6 inflorescence per branch. 3 plants. Observations last 15 mins each. 1 temporal replicate",NA
"Smitha_Krishnan_Coffea_canephora_India_2007","has50","Direct ocular observations","Apis cerana indica","Species","honeybees",4,NA,45,NA,"Locations with 5 distance classes (<10, 50, 100, 250, 500m) measured from the edge of a forest fragment within each location. Few had to be discarded due to rains on day of observation. Measures per site: 5 branches per plant with 6 inflorescence per branch. 3 plants. Observations last 15 mins each. 1 temporal replicate",NA
"Smitha_Krishnan_Coffea_canephora_India_2007","has100","Direct ocular observations","Apis dorsata","Species","honeybees",4,NA,45,NA,"Locations with 5 distance classes (<10, 50, 100, 250, 500m) measured from the edge of a forest fragment within each location. Few had to be discarded due to rains on day of observation. Measures per site: 5 branches per plant with 6 inflorescence per branch. 3 plants. Observations last 15 mins each. 1 temporal replicate",NA
"Smitha_Krishnan_Coffea_canephora_India_2007","has100","Direct ocular observations","Apis cerana indica","Species","honeybees",6,NA,45,NA,"Locations with 5 distance classes (<10, 50, 100, 250, 500m) measured from the edge of a forest fragment within each location. Few had to be discarded due to rains on day of observation. Measures per site: 5 branches per plant with 6 inflorescence per branch. 3 plants. Observations last 15 mins each. 1 temporal replicate",NA
"Smitha_Krishnan_Coffea_canephora_India_2007","has100","Direct ocular observations","Tetragonula iridipennis","Species","other_wild_bees",10,NA,45,NA,"Locations with 5 distance classes (<10, 50, 100, 250, 500m) measured from the edge of a forest fragment within each location. Few had to be discarded due to rains on day of observation. Measures per site: 5 branches per plant with 6 inflorescence per branch. 3 plants. Observations last 15 mins each. 1 temporal replicate",NA
"Smitha_Krishnan_Coffea_canephora_India_2007","has500","Direct ocular observations","Tetragonula iridipennis","Species","other_wild_bees",1,NA,45,NA,"Locations with 5 distance classes (<10, 50, 100, 250, 500m) measured from the edge of a forest fragment within each location. Few had to be discarded due to rains on day of observation. Measures per site: 5 branches per plant with 6 inflorescence per branch. 3 plants. Observations last 15 mins each. 1 temporal replicate",NA
"Smitha_Krishnan_Coffea_canephora_India_2007","has500","Direct ocular observations","Thysanoptera (Thrips)","Order","other",1,NA,45,NA,"Locations with 5 distance classes (<10, 50, 100, 250, 500m) measured from the edge of a forest fragment within each location. Few had to be discarded due to rains on day of observation. Measures per site: 5 branches per plant with 6 inflorescence per branch. 3 plants. Observations last 15 mins each. 1 temporal replicate",NA
"Smitha_Krishnan_Coffea_canephora_India_2007","kap0","Direct ocular observations","Apis cerana indica","Species","honeybees",4,NA,45,NA,"Locations with 5 distance classes (<10, 50, 100, 250, 500m) measured from the edge of a forest fragment within each location. Few had to be discarded due to rains on day of observation. Measures per site: 5 branches per plant with 6 inflorescence per branch. 3 plants. Observations last 15 mins each. 1 temporal replicate",NA
"Smitha_Krishnan_Coffea_canephora_India_2007","kap0","Direct ocular observations","Tetragonula iridipennis","Species","other_wild_bees",1,NA,45,NA,"Locations with 5 distance classes (<10, 50, 100, 250, 500m) measured from the edge of a forest fragment within each location. Few had to be discarded due to rains on day of observation. Measures per site: 5 branches per plant with 6 inflorescence per branch. 3 plants. Observations last 15 mins each. 1 temporal replicate",NA
"Smitha_Krishnan_Coffea_canephora_India_2007","kap0","Direct ocular observations","Ceratina hieroglyphica","Species","other_wild_bees",1,NA,45,NA,"Locations with 5 distance classes (<10, 50, 100, 250, 500m) measured from the edge of a forest fragment within each location. Few had to be discarded due to rains on day of observation. Measures per site: 5 branches per plant with 6 inflorescence per branch. 3 plants. Observations last 15 mins each. 1 temporal replicate",NA
"Smitha_Krishnan_Coffea_canephora_India_2007","kap0","Direct ocular observations","Thysanoptera (Thrips)","Order","other",7,NA,45,NA,"Locations with 5 distance classes (<10, 50, 100, 250, 500m) measured from the edge of a forest fragment within each location. Few had to be discarded due to rains on day of observation. Measures per site: 5 branches per plant with 6 inflorescence per branch. 3 plants. Observations last 15 mins each. 1 temporal replicate",NA
"Smitha_Krishnan_Coffea_canephora_India_2007","kap10","Direct ocular observations","Tetragonula iridipennis","Species","other_wild_bees",11,NA,45,NA,"Locations with 5 distance classes (<10, 50, 100, 250, 500m) measured from the edge of a forest fragment within each location. Few had to be discarded due to rains on day of observation. Measures per site: 5 branches per plant with 6 inflorescence per branch. 3 plants. Observations last 15 mins each. 1 temporal replicate",NA
"Smitha_Krishnan_Coffea_canephora_India_2007","kap50","Direct ocular observations","Tetragonula iridipennis","Species","other_wild_bees",2,NA,45,NA,"Locations with 5 distance classes (<10, 50, 100, 250, 500m) measured from the edge of a forest fragment within each location. Few had to be discarded due to rains on day of observation. Measures per site: 5 branches per plant with 6 inflorescence per branch. 3 plants. Observations last 15 mins each. 1 temporal replicate",NA
"Smitha_Krishnan_Coffea_canephora_India_2007","kap100","Direct ocular observations","Syrphid- Honeybee mimic","Order","syrphids",1,NA,45,NA,"Locations with 5 distance classes (<10, 50, 100, 250, 500m) measured from the edge of a forest fragment within each location. Few had to be discarded due to rains on day of observation. Measures per site: 5 branches per plant with 6 inflorescence per branch. 3 plants. Observations last 15 mins each. 1 temporal replicate",NA
"Smitha_Krishnan_Coffea_canephora_India_2007","kap100","Direct ocular observations","Thysanoptera (Thrips)","Order","other",1,NA,45,NA,"Locations with 5 distance classes (<10, 50, 100, 250, 500m) measured from the edge of a forest fragment within each location. Few had to be discarded due to rains on day of observation. Measures per site: 5 branches per plant with 6 inflorescence per branch. 3 plants. Observations last 15 mins each. 1 temporal replicate",NA
"Smitha_Krishnan_Coffea_canephora_India_2007","kap250","Direct ocular observations","Apis dorsata","Species","honeybees",59,NA,45,NA,"Locations with 5 distance classes (<10, 50, 100, 250, 500m) measured from the edge of a forest fragment within each location. Few had to be discarded due to rains on day of observation. Measures per site: 5 branches per plant with 6 inflorescence per branch. 3 plants. Observations last 15 mins each. 1 temporal replicate",NA
"Smitha_Krishnan_Coffea_canephora_India_2007","kap250","Direct ocular observations","Apis cerana indica","Species","honeybees",12,NA,45,NA,"Locations with 5 distance classes (<10, 50, 100, 250, 500m) measured from the edge of a forest fragment within each location. Few had to be discarded due to rains on day of observation. Measures per site: 5 branches per plant with 6 inflorescence per branch. 3 plants. Observations last 15 mins each. 1 temporal replicate",NA
"Smitha_Krishnan_Coffea_canephora_India_2007","kap250","Direct ocular observations","Tetragonula iridipennis","Species","other_wild_bees",5,NA,45,NA,"Locations with 5 distance classes (<10, 50, 100, 250, 500m) measured from the edge of a forest fragment within each location. Few had to be discarded due to rains on day of observation. Measures per site: 5 branches per plant with 6 inflorescence per branch. 3 plants. Observations last 15 mins each. 1 temporal replicate",NA
"Smitha_Krishnan_Coffea_canephora_India_2007","kap250","Direct ocular observations","Ceratina hieroglyphica","Species","other_wild_bees",1,NA,45,NA,"Locations with 5 distance classes (<10, 50, 100, 250, 500m) measured from the edge of a forest fragment within each location. Few had to be discarded due to rains on day of observation. Measures per site: 5 branches per plant with 6 inflorescence per branch. 3 plants. Observations last 15 mins each. 1 temporal replicate",NA
"Smitha_Krishnan_Coffea_canephora_India_2007","kap500","Direct ocular observations","Apis dorsata","Species","honeybees",40,NA,45,NA,"Locations with 5 distance classes (<10, 50, 100, 250, 500m) measured from the edge of a forest fragment within each location. Few had to be discarded due to rains on day of observation. Measures per site: 5 branches per plant with 6 inflorescence per branch. 3 plants. Observations last 15 mins each. 1 temporal replicate",NA
"Smitha_Krishnan_Coffea_canephora_India_2007","kap500","Direct ocular observations","Apis cerana indica","Species","honeybees",2,NA,45,NA,"Locations with 5 distance classes (<10, 50, 100, 250, 500m) measured from the edge of a forest fragment within each location. Few had to be discarded due to rains on day of observation. Measures per site: 5 branches per plant with 6 inflorescence per branch. 3 plants. Observations last 15 mins each. 1 temporal replicate",NA
"Smitha_Krishnan_Coffea_canephora_India_2007","kap500","Direct ocular observations","Tetragonula iridipennis","Species","other_wild_bees",5,NA,45,NA,"Locations with 5 distance classes (<10, 50, 100, 250, 500m) measured from the edge of a forest fragment within each location. Few had to be discarded due to rains on day of observation. Measures per site: 5 branches per plant with 6 inflorescence per branch. 3 plants. Observations last 15 mins each. 1 temporal replicate",NA
"Smitha_Krishnan_Coffea_canephora_India_2007","kap500","Direct ocular observations","Thysanoptera (Thrips)","Order","other",10,NA,45,NA,"Locations with 5 distance classes (<10, 50, 100, 250, 500m) measured from the edge of a forest fragment within each location. Few had to be discarded due to rains on day of observation. Measures per site: 5 branches per plant with 6 inflorescence per branch. 3 plants. Observations last 15 mins each. 1 temporal replicate",NA
"Smitha_Krishnan_Coffea_canephora_India_2007","kil0","Direct ocular observations","Apis dorsata","Species","honeybees",17,NA,45,NA,"Locations with 5 distance classes (<10, 50, 100, 250, 500m) measured from the edge of a forest fragment within each location. Few had to be discarded due to rains on day of observation. Measures per site: 5 branches per plant with 6 inflorescence per branch. 3 plants. Observations last 15 mins each. 1 temporal replicate",NA
"Smitha_Krishnan_Coffea_canephora_India_2007","kil0","Direct ocular observations","Apis cerana indica","Species","honeybees",26,NA,45,NA,"Locations with 5 distance classes (<10, 50, 100, 250, 500m) measured from the edge of a forest fragment within each location. Few had to be discarded due to rains on day of observation. Measures per site: 5 branches per plant with 6 inflorescence per branch. 3 plants. Observations last 15 mins each. 1 temporal replicate",NA
"Smitha_Krishnan_Coffea_canephora_India_2007","kil0","Direct ocular observations","Apis florea","Species","honeybees",2,NA,45,NA,"Locations with 5 distance classes (<10, 50, 100, 250, 500m) measured from the edge of a forest fragment within each location. Few had to be discarded due to rains on day of observation. Measures per site: 5 branches per plant with 6 inflorescence per branch. 3 plants. Observations last 15 mins each. 1 temporal replicate",NA
"Smitha_Krishnan_Coffea_canephora_India_2007","kil0","Direct ocular observations","Tetragonula iridipennis","Species","other_wild_bees",23,NA,45,NA,"Locations with 5 distance classes (<10, 50, 100, 250, 500m) measured from the edge of a forest fragment within each location. Few had to be discarded due to rains on day of observation. Measures per site: 5 branches per plant with 6 inflorescence per branch. 3 plants. Observations last 15 mins each. 1 temporal replicate",NA
"Smitha_Krishnan_Coffea_canephora_India_2007","kil0","Direct ocular observations","Thyreus smithii","Species","other_wild_bees",1,NA,45,NA,"Locations with 5 distance classes (<10, 50, 100, 250, 500m) measured from the edge of a forest fragment within each location. Few had to be discarded due to rains on day of observation. Measures per site: 5 branches per plant with 6 inflorescence per branch. 3 plants. Observations last 15 mins each. 1 temporal replicate",NA
"Smitha_Krishnan_Coffea_canephora_India_2007","kil0","Direct ocular observations","Coleoptera_sp.2","Order","beetles",1,NA,45,NA,"Locations with 5 distance classes (<10, 50, 100, 250, 500m) measured from the edge of a forest fragment within each location. Few had to be discarded due to rains on day of observation. Measures per site: 5 branches per plant with 6 inflorescence per branch. 3 plants. Observations last 15 mins each. 1 temporal replicate",NA
"Smitha_Krishnan_Coffea_canephora_India_2007","kil0","Direct ocular observations","Diptera-Fly","Order","other_flies",1,NA,45,NA,"Locations with 5 distance classes (<10, 50, 100, 250, 500m) measured from the edge of a forest fragment within each location. Few had to be discarded due to rains on day of observation. Measures per site: 5 branches per plant with 6 inflorescence per branch. 3 plants. Observations last 15 mins each. 1 temporal replicate",NA
"Smitha_Krishnan_Coffea_canephora_India_2007","kil10","Direct ocular observations","Apis dorsata","Species","honeybees",33,NA,45,NA,"Locations with 5 distance classes (<10, 50, 100, 250, 500m) measured from the edge of a forest fragment within each location. Few had to be discarded due to rains on day of observation. Measures per site: 5 branches per plant with 6 inflorescence per branch. 3 plants. Observations last 15 mins each. 1 temporal replicate",NA
"Smitha_Krishnan_Coffea_canephora_India_2007","kil10","Direct ocular observations","Apis cerana indica","Species","honeybees",1,NA,45,NA,"Locations with 5 distance classes (<10, 50, 100, 250, 500m) measured from the edge of a forest fragment within each location. Few had to be discarded due to rains on day of observation. Measures per site: 5 branches per plant with 6 inflorescence per branch. 3 plants. Observations last 15 mins each. 1 temporal replicate",NA
"Smitha_Krishnan_Coffea_canephora_India_2007","kil10","Direct ocular observations","Tetragonula iridipennis","Species","other_wild_bees",1,NA,45,NA,"Locations with 5 distance classes (<10, 50, 100, 250, 500m) measured from the edge of a forest fragment within each location. Few had to be discarded due to rains on day of observation. Measures per site: 5 branches per plant with 6 inflorescence per branch. 3 plants. Observations last 15 mins each. 1 temporal replicate",NA
"Smitha_Krishnan_Coffea_canephora_India_2007","kil50","Direct ocular observations","Apis dorsata","Species","honeybees",35,NA,45,NA,"Locations with 5 distance classes (<10, 50, 100, 250, 500m) measured from the edge of a forest fragment within each location. Few had to be discarded due to rains on day of observation. Measures per site: 5 branches per plant with 6 inflorescence per branch. 3 plants. Observations last 15 mins each. 1 temporal replicate",NA
"Smitha_Krishnan_Coffea_canephora_India_2007","kil50","Direct ocular observations","Apis cerana indica","Species","honeybees",2,NA,45,NA,"Locations with 5 distance classes (<10, 50, 100, 250, 500m) measured from the edge of a forest fragment within each location. Few had to be discarded due to rains on day of observation. Measures per site: 5 branches per plant with 6 inflorescence per branch. 3 plants. Observations last 15 mins each. 1 temporal replicate",NA
"Smitha_Krishnan_Coffea_canephora_India_2007","kil50","Direct ocular observations","Tetragonula iridipennis","Species","other_wild_bees",8,NA,45,NA,"Locations with 5 distance classes (<10, 50, 100, 250, 500m) measured from the edge of a forest fragment within each location. Few had to be discarded due to rains on day of observation. Measures per site: 5 branches per plant with 6 inflorescence per branch. 3 plants. Observations last 15 mins each. 1 temporal replicate",NA
"Smitha_Krishnan_Coffea_canephora_India_2007","kil50","Direct ocular observations","Thysanoptera (Thrips)","Order","other",2,NA,45,NA,"Locations with 5 distance classes (<10, 50, 100, 250, 500m) measured from the edge of a forest fragment within each location. Few had to be discarded due to rains on day of observation. Measures per site: 5 branches per plant with 6 inflorescence per branch. 3 plants. Observations last 15 mins each. 1 temporal replicate",NA
"Smitha_Krishnan_Coffea_canephora_India_2007","kil100","Direct ocular observations","Apis cerana indica","Species","honeybees",4,NA,45,NA,"Locations with 5 distance classes (<10, 50, 100, 250, 500m) measured from the edge of a forest fragment within each location. Few had to be discarded due to rains on day of observation. Measures per site: 5 branches per plant with 6 inflorescence per branch. 3 plants. Observations last 15 mins each. 1 temporal replicate",NA
"Smitha_Krishnan_Coffea_canephora_India_2007","kil100","Direct ocular observations","Tetragonula iridipennis","Species","other_wild_bees",35,NA,45,NA,"Locations with 5 distance classes (<10, 50, 100, 250, 500m) measured from the edge of a forest fragment within each location. Few had to be discarded due to rains on day of observation. Measures per site: 5 branches per plant with 6 inflorescence per branch. 3 plants. Observations last 15 mins each. 1 temporal replicate",NA
"Smitha_Krishnan_Coffea_canephora_India_2007","kil250","Direct ocular observations","Apis dorsata","Species","honeybees",25,NA,45,NA,"Locations with 5 distance classes (<10, 50, 100, 250, 500m) measured from the edge of a forest fragment within each location. Few had to be discarded due to rains on day of observation. Measures per site: 5 branches per plant with 6 inflorescence per branch. 3 plants. Observations last 15 mins each. 1 temporal replicate",NA
"Smitha_Krishnan_Coffea_canephora_India_2007","kil250","Direct ocular observations","Apis cerana indica","Species","honeybees",1,NA,45,NA,"Locations with 5 distance classes (<10, 50, 100, 250, 500m) measured from the edge of a forest fragment within each location. Few had to be discarded due to rains on day of observation. Measures per site: 5 branches per plant with 6 inflorescence per branch. 3 plants. Observations last 15 mins each. 1 temporal replicate",NA
"Smitha_Krishnan_Coffea_canephora_India_2007","kil250","Direct ocular observations","Tetragonula iridipennis","Species","other_wild_bees",7,NA,45,NA,"Locations with 5 distance classes (<10, 50, 100, 250, 500m) measured from the edge of a forest fragment within each location. Few had to be discarded due to rains on day of observation. Measures per site: 5 branches per plant with 6 inflorescence per branch. 3 plants. Observations last 15 mins each. 1 temporal replicate",NA
"Smitha_Krishnan_Coffea_canephora_India_2007","kil250","Direct ocular observations","Thysanoptera (Thrips)","Order","other",4,NA,45,NA,"Locations with 5 distance classes (<10, 50, 100, 250, 500m) measured from the edge of a forest fragment within each location. Few had to be discarded due to rains on day of observation. Measures per site: 5 branches per plant with 6 inflorescence per branch. 3 plants. Observations last 15 mins each. 1 temporal replicate",NA
"Smitha_Krishnan_Coffea_canephora_India_2007","kil500","Direct ocular observations","Apis dorsata","Species","honeybees",3,NA,45,NA,"Locations with 5 distance classes (<10, 50, 100, 250, 500m) measured from the edge of a forest fragment within each location. Few had to be discarded due to rains on day of observation. Measures per site: 5 branches per plant with 6 inflorescence per branch. 3 plants. Observations last 15 mins each. 1 temporal replicate",NA
"Smitha_Krishnan_Coffea_canephora_India_2007","kil500","Direct ocular observations","Apis cerana indica","Species","honeybees",1,NA,45,NA,"Locations with 5 distance classes (<10, 50, 100, 250, 500m) measured from the edge of a forest fragment within each location. Few had to be discarded due to rains on day of observation. Measures per site: 5 branches per plant with 6 inflorescence per branch. 3 plants. Observations last 15 mins each. 1 temporal replicate",NA
"Smitha_Krishnan_Coffea_canephora_India_2007","kil500","Direct ocular observations","Braunsapsis picitarsis","Species","other_wild_bees",1,NA,45,NA,"Locations with 5 distance classes (<10, 50, 100, 250, 500m) measured from the edge of a forest fragment within each location. Few had to be discarded due to rains on day of observation. Measures per site: 5 branches per plant with 6 inflorescence per branch. 3 plants. Observations last 15 mins each. 1 temporal replicate",NA
"Smitha_Krishnan_Coffea_canephora_India_2007","kil500","Direct ocular observations","Thysanoptera (Thrips)","Order","other",4,NA,45,NA,"Locations with 5 distance classes (<10, 50, 100, 250, 500m) measured from the edge of a forest fragment within each location. Few had to be discarded due to rains on day of observation. Measures per site: 5 branches per plant with 6 inflorescence per branch. 3 plants. Observations last 15 mins each. 1 temporal replicate",NA
"Smitha_Krishnan_Coffea_canephora_India_2007","kis0","Direct ocular observations","Apis dorsata","Species","honeybees",3,NA,45,NA,"Locations with 5 distance classes (<10, 50, 100, 250, 500m) measured from the edge of a forest fragment within each location. Few had to be discarded due to rains on day of observation. Measures per site: 5 branches per plant with 6 inflorescence per branch. 3 plants. Observations last 15 mins each. 1 temporal replicate",NA
"Smitha_Krishnan_Coffea_canephora_India_2007","kis0","Direct ocular observations","Apis cerana indica","Species","honeybees",2,NA,45,NA,"Locations with 5 distance classes (<10, 50, 100, 250, 500m) measured from the edge of a forest fragment within each location. Few had to be discarded due to rains on day of observation. Measures per site: 5 branches per plant with 6 inflorescence per branch. 3 plants. Observations last 15 mins each. 1 temporal replicate",NA
"Smitha_Krishnan_Coffea_canephora_India_2007","kis10","Direct ocular observations","Apis cerana indica","Species","honeybees",6,NA,45,NA,"Locations with 5 distance classes (<10, 50, 100, 250, 500m) measured from the edge of a forest fragment within each location. Few had to be discarded due to rains on day of observation. Measures per site: 5 branches per plant with 6 inflorescence per branch. 3 plants. Observations last 15 mins each. 1 temporal replicate",NA
"Smitha_Krishnan_Coffea_canephora_India_2007","kis50","Direct ocular observations","Cetoniinae","Subfamily","beetles",4,NA,45,NA,"Locations with 5 distance classes (<10, 50, 100, 250, 500m) measured from the edge of a forest fragment within each location. Few had to be discarded due to rains on day of observation. Measures per site: 5 branches per plant with 6 inflorescence per branch. 3 plants. Observations last 15 mins each. 1 temporal replicate",NA
"Smitha_Krishnan_Coffea_canephora_India_2007","kis50","Direct ocular observations","Stick insect","Order","other",2,NA,45,NA,"Locations with 5 distance classes (<10, 50, 100, 250, 500m) measured from the edge of a forest fragment within each location. Few had to be discarded due to rains on day of observation. Measures per site: 5 branches per plant with 6 inflorescence per branch. 3 plants. Observations last 15 mins each. 1 temporal replicate",NA
"Smitha_Krishnan_Coffea_canephora_India_2007","kis100","Direct ocular observations","Thysanoptera (Thrips)","Order","other",4,NA,45,NA,"Locations with 5 distance classes (<10, 50, 100, 250, 500m) measured from the edge of a forest fragment within each location. Few had to be discarded due to rains on day of observation. Measures per site: 5 branches per plant with 6 inflorescence per branch. 3 plants. Observations last 15 mins each. 1 temporal replicate",NA
"Smitha_Krishnan_Coffea_canephora_India_2007","kis250","Direct ocular observations","Eumenine","Subfamily","non_bee_hymenoptera",1,NA,45,NA,"Locations with 5 distance classes (<10, 50, 100, 250, 500m) measured from the edge of a forest fragment within each location. Few had to be discarded due to rains on day of observation. Measures per site: 5 branches per plant with 6 inflorescence per branch. 3 plants. Observations last 15 mins each. 1 temporal replicate",NA
"Smitha_Krishnan_Coffea_canephora_India_2007","kis250","Direct ocular observations","Diptera-Fly","Order","other_flies",1,NA,45,NA,"Locations with 5 distance classes (<10, 50, 100, 250, 500m) measured from the edge of a forest fragment within each location. Few had to be discarded due to rains on day of observation. Measures per site: 5 branches per plant with 6 inflorescence per branch. 3 plants. Observations last 15 mins each. 1 temporal replicate",NA
"Smitha_Krishnan_Coffea_canephora_India_2007","kis250","Direct ocular observations","Thysanoptera (Thrips)","Order","other",2,NA,45,NA,"Locations with 5 distance classes (<10, 50, 100, 250, 500m) measured from the edge of a forest fragment within each location. Few had to be discarded due to rains on day of observation. Measures per site: 5 branches per plant with 6 inflorescence per branch. 3 plants. Observations last 15 mins each. 1 temporal replicate",NA
"Smitha_Krishnan_Coffea_canephora_India_2007","kis500","Direct ocular observations","Apis cerana indica","Species","honeybees",7,NA,45,NA,"Locations with 5 distance classes (<10, 50, 100, 250, 500m) measured from the edge of a forest fragment within each location. Few had to be discarded due to rains on day of observation. Measures per site: 5 branches per plant with 6 inflorescence per branch. 3 plants. Observations last 15 mins each. 1 temporal replicate",NA
"Smitha_Krishnan_Coffea_canephora_India_2007","kis500","Direct ocular observations","Tetragonula iridipennis","Species","other_wild_bees",12,NA,45,NA,"Locations with 5 distance classes (<10, 50, 100, 250, 500m) measured from the edge of a forest fragment within each location. Few had to be discarded due to rains on day of observation. Measures per site: 5 branches per plant with 6 inflorescence per branch. 3 plants. Observations last 15 mins each. 1 temporal replicate",NA
"Smitha_Krishnan_Coffea_canephora_India_2007","kis500","Direct ocular observations","Thysanoptera (Thrips)","Order","other",10,NA,45,NA,"Locations with 5 distance classes (<10, 50, 100, 250, 500m) measured from the edge of a forest fragment within each location. Few had to be discarded due to rains on day of observation. Measures per site: 5 branches per plant with 6 inflorescence per branch. 3 plants. Observations last 15 mins each. 1 temporal replicate",NA
"Smitha_Krishnan_Coffea_canephora_India_2008","beg50","Direct ocular observations","Apis cerana indica","Species","honeybees",2,NA,45,NA,"Locations with 5 distance classes (<10, 50, 100, 250, 500m) measured from the edge of a forest fragment within each location. Few had to be discarded due to rains on day of observation. Measures per site: 5 branches per plant with 6 inflorescence per branch. 3 plants. Observations last 15 mins each. 1 temporal replicate",NA
"Smitha_Krishnan_Coffea_canephora_India_2008","beg100","Direct ocular observations","Apis florea","Species","honeybees",1,NA,45,NA,"Locations with 5 distance classes (<10, 50, 100, 250, 500m) measured from the edge of a forest fragment within each location. Few had to be discarded due to rains on day of observation. Measures per site: 5 branches per plant with 6 inflorescence per branch. 3 plants. Observations last 15 mins each. 1 temporal replicate",NA
"Smitha_Krishnan_Coffea_canephora_India_2008","beg100","Direct ocular observations","Tetragonula iridipennis","Species","other_wild_bees",1,NA,45,NA,"Locations with 5 distance classes (<10, 50, 100, 250, 500m) measured from the edge of a forest fragment within each location. Few had to be discarded due to rains on day of observation. Measures per site: 5 branches per plant with 6 inflorescence per branch. 3 plants. Observations last 15 mins each. 1 temporal replicate",NA
"Smitha_Krishnan_Coffea_canephora_India_2008","beg500","Direct ocular observations","Apis dorsata","Species","honeybees",3,NA,45,NA,"Locations with 5 distance classes (<10, 50, 100, 250, 500m) measured from the edge of a forest fragment within each location. Few had to be discarded due to rains on day of observation. Measures per site: 5 branches per plant with 6 inflorescence per branch. 3 plants. Observations last 15 mins each. 1 temporal replicate",NA
"Smitha_Krishnan_Coffea_canephora_India_2008","beg500","Direct ocular observations","Apis florea","Species","honeybees",4,NA,45,NA,"Locations with 5 distance classes (<10, 50, 100, 250, 500m) measured from the edge of a forest fragment within each location. Few had to be discarded due to rains on day of observation. Measures per site: 5 branches per plant with 6 inflorescence per branch. 3 plants. Observations last 15 mins each. 1 temporal replicate",NA
"Smitha_Krishnan_Coffea_canephora_India_2008","beg500","Direct ocular observations","Tetragonula iridipennis","Species","other_wild_bees",18,NA,45,NA,"Locations with 5 distance classes (<10, 50, 100, 250, 500m) measured from the edge of a forest fragment within each location. Few had to be discarded due to rains on day of observation. Measures per site: 5 branches per plant with 6 inflorescence per branch. 3 plants. Observations last 15 mins each. 1 temporal replicate",NA
"Smitha_Krishnan_Coffea_canephora_India_2008","bshbck50","Direct ocular observations","Tetragonula iridipennis","Species","other_wild_bees",3,NA,45,NA,"Locations with 5 distance classes (<10, 50, 100, 250, 500m) measured from the edge of a forest fragment within each location. Few had to be discarded due to rains on day of observation. Measures per site: 5 branches per plant with 6 inflorescence per branch. 3 plants. Observations last 15 mins each. 1 temporal replicate",NA
"Smitha_Krishnan_Coffea_canephora_India_2008","bshbck100","Direct ocular observations","Tetragonula iridipennis","Species","other_wild_bees",1,NA,45,NA,"Locations with 5 distance classes (<10, 50, 100, 250, 500m) measured from the edge of a forest fragment within each location. Few had to be discarded due to rains on day of observation. Measures per site: 5 branches per plant with 6 inflorescence per branch. 3 plants. Observations last 15 mins each. 1 temporal replicate",NA
"Smitha_Krishnan_Coffea_canephora_India_2008","dha.sulu100","Direct ocular observations","Apis dorsata","Species","honeybees",2,NA,45,NA,"Locations with 5 distance classes (<10, 50, 100, 250, 500m) measured from the edge of a forest fragment within each location. Few had to be discarded due to rains on day of observation. Measures per site: 5 branches per plant with 6 inflorescence per branch. 3 plants. Observations last 15 mins each. 1 temporal replicate",NA
"Smitha_Krishnan_Coffea_canephora_India_2008","dha.sulu100","Direct ocular observations","Tetragonula iridipennis","Species","other_wild_bees",1,NA,45,NA,"Locations with 5 distance classes (<10, 50, 100, 250, 500m) measured from the edge of a forest fragment within each location. Few had to be discarded due to rains on day of observation. Measures per site: 5 branches per plant with 6 inflorescence per branch. 3 plants. Observations last 15 mins each. 1 temporal replicate",NA
"Smitha_Krishnan_Coffea_canephora_India_2008","dha.sulu250","Direct ocular observations","Apis dorsata","Species","honeybees",5,NA,45,NA,"Locations with 5 distance classes (<10, 50, 100, 250, 500m) measured from the edge of a forest fragment within each location. Few had to be discarded due to rains on day of observation. Measures per site: 5 branches per plant with 6 inflorescence per branch. 3 plants. Observations last 15 mins each. 1 temporal replicate",NA
"Smitha_Krishnan_Coffea_canephora_India_2008","dha.sulu500","Direct ocular observations","Apis dorsata","Species","honeybees",1,NA,45,NA,"Locations with 5 distance classes (<10, 50, 100, 250, 500m) measured from the edge of a forest fragment within each location. Few had to be discarded due to rains on day of observation. Measures per site: 5 branches per plant with 6 inflorescence per branch. 3 plants. Observations last 15 mins each. 1 temporal replicate",NA
"Smitha_Krishnan_Coffea_canephora_India_2008","dha.sulu500","Direct ocular observations","Tetragonula iridipennis","Species","other_wild_bees",4,NA,45,NA,"Locations with 5 distance classes (<10, 50, 100, 250, 500m) measured from the edge of a forest fragment within each location. Few had to be discarded due to rains on day of observation. Measures per site: 5 branches per plant with 6 inflorescence per branch. 3 plants. Observations last 15 mins each. 1 temporal replicate",NA
"Smitha_Krishnan_Coffea_canephora_India_2008","hardha0","Direct ocular observations","Apis cerana indica","Species","honeybees",2,NA,45,NA,"Locations with 5 distance classes (<10, 50, 100, 250, 500m) measured from the edge of a forest fragment within each location. Few had to be discarded due to rains on day of observation. Measures per site: 5 branches per plant with 6 inflorescence per branch. 3 plants. Observations last 15 mins each. 1 temporal replicate",NA
"Smitha_Krishnan_Coffea_canephora_India_2008","hardha0","Direct ocular observations","Tetragonula iridipennis","Species","other_wild_bees",3,NA,45,NA,"Locations with 5 distance classes (<10, 50, 100, 250, 500m) measured from the edge of a forest fragment within each location. Few had to be discarded due to rains on day of observation. Measures per site: 5 branches per plant with 6 inflorescence per branch. 3 plants. Observations last 15 mins each. 1 temporal replicate",NA
"Smitha_Krishnan_Coffea_canephora_India_2008","hardha0","Direct ocular observations","Thyreus smithii","Species","other_wild_bees",1,NA,45,NA,"Locations with 5 distance classes (<10, 50, 100, 250, 500m) measured from the edge of a forest fragment within each location. Few had to be discarded due to rains on day of observation. Measures per site: 5 branches per plant with 6 inflorescence per branch. 3 plants. Observations last 15 mins each. 1 temporal replicate",NA
"Smitha_Krishnan_Coffea_canephora_India_2008","hardha0","Direct ocular observations","Dolichopodidae","Family","other_flies",1,NA,45,NA,"Locations with 5 distance classes (<10, 50, 100, 250, 500m) measured from the edge of a forest fragment within each location. Few had to be discarded due to rains on day of observation. Measures per site: 5 branches per plant with 6 inflorescence per branch. 3 plants. Observations last 15 mins each. 1 temporal replicate",NA
"Smitha_Krishnan_Coffea_canephora_India_2008","hardha50","Direct ocular observations","Apis cerana indica","Species","honeybees",3,NA,45,NA,"Locations with 5 distance classes (<10, 50, 100, 250, 500m) measured from the edge of a forest fragment within each location. Few had to be discarded due to rains on day of observation. Measures per site: 5 branches per plant with 6 inflorescence per branch. 3 plants. Observations last 15 mins each. 1 temporal replicate",NA
"Smitha_Krishnan_Coffea_canephora_India_2008","hardha100","Direct ocular observations","Megachile hera","Species","other_wild_bees",1,NA,45,NA,"Locations with 5 distance classes (<10, 50, 100, 250, 500m) measured from the edge of a forest fragment within each location. Few had to be discarded due to rains on day of observation. Measures per site: 5 branches per plant with 6 inflorescence per branch. 3 plants. Observations last 15 mins each. 1 temporal replicate",NA
"Smitha_Krishnan_Coffea_canephora_India_2008","hardha250","Direct ocular observations","Apis cerana indica","Species","honeybees",4,NA,45,NA,"Locations with 5 distance classes (<10, 50, 100, 250, 500m) measured from the edge of a forest fragment within each location. Few had to be discarded due to rains on day of observation. Measures per site: 5 branches per plant with 6 inflorescence per branch. 3 plants. Observations last 15 mins each. 1 temporal replicate",NA
"Smitha_Krishnan_Coffea_canephora_India_2008","hardha250","Direct ocular observations","Tetragonula iridipennis","Species","other_wild_bees",1,NA,45,NA,"Locations with 5 distance classes (<10, 50, 100, 250, 500m) measured from the edge of a forest fragment within each location. Few had to be discarded due to rains on day of observation. Measures per site: 5 branches per plant with 6 inflorescence per branch. 3 plants. Observations last 15 mins each. 1 temporal replicate",NA
"Smitha_Krishnan_Coffea_canephora_India_2008","hardha500","Direct ocular observations","Apis cerana indica","Species","honeybees",1,NA,45,NA,"Locations with 5 distance classes (<10, 50, 100, 250, 500m) measured from the edge of a forest fragment within each location. Few had to be discarded due to rains on day of observation. Measures per site: 5 branches per plant with 6 inflorescence per branch. 3 plants. Observations last 15 mins each. 1 temporal replicate",NA
"Smitha_Krishnan_Coffea_canephora_India_2008","hardha500","Direct ocular observations","Apis florea","Species","honeybees",2,NA,45,NA,"Locations with 5 distance classes (<10, 50, 100, 250, 500m) measured from the edge of a forest fragment within each location. Few had to be discarded due to rains on day of observation. Measures per site: 5 branches per plant with 6 inflorescence per branch. 3 plants. Observations last 15 mins each. 1 temporal replicate",NA
"Smitha_Krishnan_Coffea_canephora_India_2008","hardha500","Direct ocular observations","Tetragonula iridipennis","Species","other_wild_bees",3,NA,45,NA,"Locations with 5 distance classes (<10, 50, 100, 250, 500m) measured from the edge of a forest fragment within each location. Few had to be discarded due to rains on day of observation. Measures per site: 5 branches per plant with 6 inflorescence per branch. 3 plants. Observations last 15 mins each. 1 temporal replicate",NA
"Smitha_Krishnan_Coffea_canephora_India_2008","hardha500","Direct ocular observations","Amegilla zonata/ A. confusa","Genera (2 species not differentiated)","other_wild_bees",1,NA,45,NA,"Locations with 5 distance classes (<10, 50, 100, 250, 500m) measured from the edge of a forest fragment within each location. Few had to be discarded due to rains on day of observation. Measures per site: 5 branches per plant with 6 inflorescence per branch. 3 plants. Observations last 15 mins each. 1 temporal replicate",NA
"Smitha_Krishnan_Coffea_canephora_India_2008","harkas0","Direct ocular observations","Apis dorsata","Species","honeybees",5,NA,45,NA,"Locations with 5 distance classes (<10, 50, 100, 250, 500m) measured from the edge of a forest fragment within each location. Few had to be discarded due to rains on day of observation. Measures per site: 5 branches per plant with 6 inflorescence per branch. 3 plants. Observations last 15 mins each. 1 temporal replicate",NA
"Smitha_Krishnan_Coffea_canephora_India_2008","harkas250","Direct ocular observations","Tetragonula iridipennis","Species","other_wild_bees",3,NA,45,NA,"Locations with 5 distance classes (<10, 50, 100, 250, 500m) measured from the edge of a forest fragment within each location. Few had to be discarded due to rains on day of observation. Measures per site: 5 branches per plant with 6 inflorescence per branch. 3 plants. Observations last 15 mins each. 1 temporal replicate",NA
"Smitha_Krishnan_Coffea_canephora_India_2008","harkas500","Direct ocular observations","Apis cerana indica","Species","honeybees",1,NA,45,NA,"Locations with 5 distance classes (<10, 50, 100, 250, 500m) measured from the edge of a forest fragment within each location. Few had to be discarded due to rains on day of observation. Measures per site: 5 branches per plant with 6 inflorescence per branch. 3 plants. Observations last 15 mins each. 1 temporal replicate",NA
"Smitha_Krishnan_Coffea_canephora_India_2008","ichbha0","Direct ocular observations","Tetragonula iridipennis","Species","other_wild_bees",28,NA,45,NA,"Locations with 5 distance classes (<10, 50, 100, 250, 500m) measured from the edge of a forest fragment within each location. Few had to be discarded due to rains on day of observation. Measures per site: 5 branches per plant with 6 inflorescence per branch. 3 plants. Observations last 15 mins each. 1 temporal replicate",NA
"Smitha_Krishnan_Coffea_canephora_India_2008","ichbha0","Direct ocular observations","Amegilla zonata/ A. confusa","Genera (2 species not differentiated)","other_wild_bees",1,NA,45,NA,"Locations with 5 distance classes (<10, 50, 100, 250, 500m) measured from the edge of a forest fragment within each location. Few had to be discarded due to rains on day of observation. Measures per site: 5 branches per plant with 6 inflorescence per branch. 3 plants. Observations last 15 mins each. 1 temporal replicate",NA
"Smitha_Krishnan_Coffea_canephora_India_2008","ichbha50","Direct ocular observations","Apis dorsata","Species","honeybees",2,NA,45,NA,"Locations with 5 distance classes (<10, 50, 100, 250, 500m) measured from the edge of a forest fragment within each location. Few had to be discarded due to rains on day of observation. Measures per site: 5 branches per plant with 6 inflorescence per branch. 3 plants. Observations last 15 mins each. 1 temporal replicate",NA
"Smitha_Krishnan_Coffea_canephora_India_2008","ichbha50","Direct ocular observations","Tetragonula iridipennis","Species","other_wild_bees",4,NA,45,NA,"Locations with 5 distance classes (<10, 50, 100, 250, 500m) measured from the edge of a forest fragment within each location. Few had to be discarded due to rains on day of observation. Measures per site: 5 branches per plant with 6 inflorescence per branch. 3 plants. Observations last 15 mins each. 1 temporal replicate",NA
"Smitha_Krishnan_Coffea_canephora_India_2008","ichbha100","Direct ocular observations","Apis dorsata","Species","honeybees",1,NA,45,NA,"Locations with 5 distance classes (<10, 50, 100, 250, 500m) measured from the edge of a forest fragment within each location. Few had to be discarded due to rains on day of observation. Measures per site: 5 branches per plant with 6 inflorescence per branch. 3 plants. Observations last 15 mins each. 1 temporal replicate",NA
"Smitha_Krishnan_Coffea_canephora_India_2008","ichbha100","Direct ocular observations","Apis cerana indica","Species","honeybees",2,NA,45,NA,"Locations with 5 distance classes (<10, 50, 100, 250, 500m) measured from the edge of a forest fragment within each location. Few had to be discarded due to rains on day of observation. Measures per site: 5 branches per plant with 6 inflorescence per branch. 3 plants. Observations last 15 mins each. 1 temporal replicate",NA
"Smitha_Krishnan_Coffea_canephora_India_2008","ichbha100","Direct ocular observations","Tetragonula iridipennis","Species","other_wild_bees",2,NA,45,NA,"Locations with 5 distance classes (<10, 50, 100, 250, 500m) measured from the edge of a forest fragment within each location. Few had to be discarded due to rains on day of observation. Measures per site: 5 branches per plant with 6 inflorescence per branch. 3 plants. Observations last 15 mins each. 1 temporal replicate",NA
"Smitha_Krishnan_Coffea_canephora_India_2008","ichbha100","Direct ocular observations","Dolichopodidae","Family","other_flies",1,NA,45,NA,"Locations with 5 distance classes (<10, 50, 100, 250, 500m) measured from the edge of a forest fragment within each location. Few had to be discarded due to rains on day of observation. Measures per site: 5 branches per plant with 6 inflorescence per branch. 3 plants. Observations last 15 mins each. 1 temporal replicate",NA
"Smitha_Krishnan_Coffea_canephora_India_2008","kanfor250","Direct ocular observations","Diptera-Fly","Order","other_flies",1,NA,45,NA,"Locations with 5 distance classes (<10, 50, 100, 250, 500m) measured from the edge of a forest fragment within each location. Few had to be discarded due to rains on day of observation. Measures per site: 5 branches per plant with 6 inflorescence per branch. 3 plants. Observations last 15 mins each. 1 temporal replicate",NA
"Smitha_Krishnan_Coffea_canephora_India_2008","kon0","Direct ocular observations","Apis cerana indica","Species","honeybees",5,NA,45,NA,"Locations with 5 distance classes (<10, 50, 100, 250, 500m) measured from the edge of a forest fragment within each location. Few had to be discarded due to rains on day of observation. Measures per site: 5 branches per plant with 6 inflorescence per branch. 3 plants. Observations last 15 mins each. 1 temporal replicate",NA
"Smitha_Krishnan_Coffea_canephora_India_2008","kon100","Direct ocular observations","Apis dorsata","Species","honeybees",1,NA,45,NA,"Locations with 5 distance classes (<10, 50, 100, 250, 500m) measured from the edge of a forest fragment within each location. Few had to be discarded due to rains on day of observation. Measures per site: 5 branches per plant with 6 inflorescence per branch. 3 plants. Observations last 15 mins each. 1 temporal replicate",NA
"Smitha_Krishnan_Coffea_canephora_India_2008","kon500","Direct ocular observations","Apis cerana indica","Species","honeybees",1,NA,45,NA,"Locations with 5 distance classes (<10, 50, 100, 250, 500m) measured from the edge of a forest fragment within each location. Few had to be discarded due to rains on day of observation. Measures per site: 5 branches per plant with 6 inflorescence per branch. 3 plants. Observations last 15 mins each. 1 temporal replicate",NA
"Smitha_Krishnan_Coffea_canephora_India_2008","kottageri50","Direct ocular observations","Apis dorsata","Species","honeybees",2,NA,45,NA,"Locations with 5 distance classes (<10, 50, 100, 250, 500m) measured from the edge of a forest fragment within each location. Few had to be discarded due to rains on day of observation. Measures per site: 5 branches per plant with 6 inflorescence per branch. 3 plants. Observations last 15 mins each. 1 temporal replicate",NA
"Smitha_Krishnan_Coffea_canephora_India_2008","kottageri50","Direct ocular observations","Apis cerana indica","Species","honeybees",14,NA,45,NA,"Locations with 5 distance classes (<10, 50, 100, 250, 500m) measured from the edge of a forest fragment within each location. Few had to be discarded due to rains on day of observation. Measures per site: 5 branches per plant with 6 inflorescence per branch. 3 plants. Observations last 15 mins each. 1 temporal replicate",NA
"Smitha_Krishnan_Coffea_canephora_India_2008","kottageri50","Direct ocular observations","Tetragonula iridipennis","Species","other_wild_bees",1,NA,45,NA,"Locations with 5 distance classes (<10, 50, 100, 250, 500m) measured from the edge of a forest fragment within each location. Few had to be discarded due to rains on day of observation. Measures per site: 5 branches per plant with 6 inflorescence per branch. 3 plants. Observations last 15 mins each. 1 temporal replicate",NA
"Smitha_Krishnan_Coffea_canephora_India_2008","kottageri100","Direct ocular observations","Apis dorsata","Species","honeybees",9,NA,45,NA,"Locations with 5 distance classes (<10, 50, 100, 250, 500m) measured from the edge of a forest fragment within each location. Few had to be discarded due to rains on day of observation. Measures per site: 5 branches per plant with 6 inflorescence per branch. 3 plants. Observations last 15 mins each. 1 temporal replicate",NA
"Smitha_Krishnan_Coffea_canephora_India_2008","kottageri100","Direct ocular observations","Apis cerana indica","Species","honeybees",1,NA,45,NA,"Locations with 5 distance classes (<10, 50, 100, 250, 500m) measured from the edge of a forest fragment within each location. Few had to be discarded due to rains on day of observation. Measures per site: 5 branches per plant with 6 inflorescence per branch. 3 plants. Observations last 15 mins each. 1 temporal replicate",NA
"Smitha_Krishnan_Coffea_canephora_India_2008","kottageri250","Direct ocular observations","Apis dorsata","Species","honeybees",9,NA,45,NA,"Locations with 5 distance classes (<10, 50, 100, 250, 500m) measured from the edge of a forest fragment within each location. Few had to be discarded due to rains on day of observation. Measures per site: 5 branches per plant with 6 inflorescence per branch. 3 plants. Observations last 15 mins each. 1 temporal replicate",NA
"Smitha_Krishnan_Coffea_canephora_India_2008","kottageri250","Direct ocular observations","Apis cerana indica","Species","honeybees",3,NA,45,NA,"Locations with 5 distance classes (<10, 50, 100, 250, 500m) measured from the edge of a forest fragment within each location. Few had to be discarded due to rains on day of observation. Measures per site: 5 branches per plant with 6 inflorescence per branch. 3 plants. Observations last 15 mins each. 1 temporal replicate",NA
"Smitha_Krishnan_Coffea_canephora_India_2008","kottageri500","Direct ocular observations","Apis dorsata","Species","honeybees",5,NA,45,NA,"Locations with 5 distance classes (<10, 50, 100, 250, 500m) measured from the edge of a forest fragment within each location. Few had to be discarded due to rains on day of observation. Measures per site: 5 branches per plant with 6 inflorescence per branch. 3 plants. Observations last 15 mins each. 1 temporal replicate",NA
"Smitha_Krishnan_Coffea_canephora_India_2008","kutnan500","Direct ocular observations","Tetragonula iridipennis","Species","other_wild_bees",1,NA,45,NA,"Locations with 5 distance classes (<10, 50, 100, 250, 500m) measured from the edge of a forest fragment within each location. Few had to be discarded due to rains on day of observation. Measures per site: 5 branches per plant with 6 inflorescence per branch. 3 plants. Observations last 15 mins each. 1 temporal replicate",NA
"Smitha_Krishnan_Coffea_canephora_India_2008","nal0","Direct ocular observations","Apis dorsata","Species","honeybees",4,NA,45,NA,"Locations with 5 distance classes (<10, 50, 100, 250, 500m) measured from the edge of a forest fragment within each location. Few had to be discarded due to rains on day of observation. Measures per site: 5 branches per plant with 6 inflorescence per branch. 3 plants. Observations last 15 mins each. 1 temporal replicate",NA
"Smitha_Krishnan_Coffea_canephora_India_2008","nal0","Direct ocular observations","Apis cerana indica","Species","honeybees",10,NA,45,NA,"Locations with 5 distance classes (<10, 50, 100, 250, 500m) measured from the edge of a forest fragment within each location. Few had to be discarded due to rains on day of observation. Measures per site: 5 branches per plant with 6 inflorescence per branch. 3 plants. Observations last 15 mins each. 1 temporal replicate",NA
"Smitha_Krishnan_Coffea_canephora_India_2008","nal0","Direct ocular observations","Tetragonula iridipennis","Species","other_wild_bees",1,NA,45,NA,"Locations with 5 distance classes (<10, 50, 100, 250, 500m) measured from the edge of a forest fragment within each location. Few had to be discarded due to rains on day of observation. Measures per site: 5 branches per plant with 6 inflorescence per branch. 3 plants. Observations last 15 mins each. 1 temporal replicate",NA
"Smitha_Krishnan_Coffea_canephora_India_2008","nal0","Direct ocular observations","Ceratina hieroglyphica","Species","other_wild_bees",1,NA,45,NA,"Locations with 5 distance classes (<10, 50, 100, 250, 500m) measured from the edge of a forest fragment within each location. Few had to be discarded due to rains on day of observation. Measures per site: 5 branches per plant with 6 inflorescence per branch. 3 plants. Observations last 15 mins each. 1 temporal replicate",NA
"Smitha_Krishnan_Coffea_canephora_India_2008","nal50","Direct ocular observations","Apis dorsata","Species","honeybees",7,NA,45,NA,"Locations with 5 distance classes (<10, 50, 100, 250, 500m) measured from the edge of a forest fragment within each location. Few had to be discarded due to rains on day of observation. Measures per site: 5 branches per plant with 6 inflorescence per branch. 3 plants. Observations last 15 mins each. 1 temporal replicate",NA
"Smitha_Krishnan_Coffea_canephora_India_2008","nal50","Direct ocular observations","Apis cerana indica","Species","honeybees",5,NA,45,NA,"Locations with 5 distance classes (<10, 50, 100, 250, 500m) measured from the edge of a forest fragment within each location. Few had to be discarded due to rains on day of observation. Measures per site: 5 branches per plant with 6 inflorescence per branch. 3 plants. Observations last 15 mins each. 1 temporal replicate",NA
"Smitha_Krishnan_Coffea_canephora_India_2008","nal50","Direct ocular observations","Tetragonula iridipennis","Species","other_wild_bees",1,NA,45,NA,"Locations with 5 distance classes (<10, 50, 100, 250, 500m) measured from the edge of a forest fragment within each location. Few had to be discarded due to rains on day of observation. Measures per site: 5 branches per plant with 6 inflorescence per branch. 3 plants. Observations last 15 mins each. 1 temporal replicate",NA
"Smitha_Krishnan_Coffea_canephora_India_2008","nal100","Direct ocular observations","Apis dorsata","Species","honeybees",6,NA,45,NA,"Locations with 5 distance classes (<10, 50, 100, 250, 500m) measured from the edge of a forest fragment within each location. Few had to be discarded due to rains on day of observation. Measures per site: 5 branches per plant with 6 inflorescence per branch. 3 plants. Observations last 15 mins each. 1 temporal replicate",NA
"Smitha_Krishnan_Coffea_canephora_India_2008","nal100","Direct ocular observations","Apis cerana indica","Species","honeybees",9,NA,45,NA,"Locations with 5 distance classes (<10, 50, 100, 250, 500m) measured from the edge of a forest fragment within each location. Few had to be discarded due to rains on day of observation. Measures per site: 5 branches per plant with 6 inflorescence per branch. 3 plants. Observations last 15 mins each. 1 temporal replicate",NA
"Smitha_Krishnan_Coffea_canephora_India_2008","nal100","Direct ocular observations","Tetragonula iridipennis","Species","other_wild_bees",3,NA,45,NA,"Locations with 5 distance classes (<10, 50, 100, 250, 500m) measured from the edge of a forest fragment within each location. Few had to be discarded due to rains on day of observation. Measures per site: 5 branches per plant with 6 inflorescence per branch. 3 plants. Observations last 15 mins each. 1 temporal replicate",NA
"Smitha_Krishnan_Coffea_canephora_India_2008","nal250","Direct ocular observations","Apis dorsata","Species","honeybees",47,NA,45,NA,"Locations with 5 distance classes (<10, 50, 100, 250, 500m) measured from the edge of a forest fragment within each location. Few had to be discarded due to rains on day of observation. Measures per site: 5 branches per plant with 6 inflorescence per branch. 3 plants. Observations last 15 mins each. 1 temporal replicate",NA
"Smitha_Krishnan_Coffea_canephora_India_2008","nal500","Direct ocular observations","Apis dorsata","Species","honeybees",89,NA,45,NA,"Locations with 5 distance classes (<10, 50, 100, 250, 500m) measured from the edge of a forest fragment within each location. Few had to be discarded due to rains on day of observation. Measures per site: 5 branches per plant with 6 inflorescence per branch. 3 plants. Observations last 15 mins each. 1 temporal replicate",NA
"Smitha_Krishnan_Coffea_canephora_India_2008","nal500","Direct ocular observations","Apis cerana indica","Species","honeybees",16,NA,45,NA,"Locations with 5 distance classes (<10, 50, 100, 250, 500m) measured from the edge of a forest fragment within each location. Few had to be discarded due to rains on day of observation. Measures per site: 5 branches per plant with 6 inflorescence per branch. 3 plants. Observations last 15 mins each. 1 temporal replicate",NA
"Smitha_Krishnan_Coffea_canephora_India_2008","nal500","Direct ocular observations","Apis florea","Species","honeybees",1,NA,45,NA,"Locations with 5 distance classes (<10, 50, 100, 250, 500m) measured from the edge of a forest fragment within each location. Few had to be discarded due to rains on day of observation. Measures per site: 5 branches per plant with 6 inflorescence per branch. 3 plants. Observations last 15 mins each. 1 temporal replicate",NA
"Smitha_Krishnan_Coffea_canephora_India_2008","nal500","Direct ocular observations","Ceratina hieroglyphica","Species","other_wild_bees",3,NA,45,NA,"Locations with 5 distance classes (<10, 50, 100, 250, 500m) measured from the edge of a forest fragment within each location. Few had to be discarded due to rains on day of observation. Measures per site: 5 branches per plant with 6 inflorescence per branch. 3 plants. Observations last 15 mins each. 1 temporal replicate",NA
"Smitha_Krishnan_Coffea_canephora_India_2008","nit50","Direct ocular observations","Apis cerana indica","Species","honeybees",2,NA,45,NA,"Locations with 5 distance classes (<10, 50, 100, 250, 500m) measured from the edge of a forest fragment within each location. Few had to be discarded due to rains on day of observation. Measures per site: 5 branches per plant with 6 inflorescence per branch. 3 plants. Observations last 15 mins each. 1 temporal replicate",NA
"Smitha_Krishnan_Coffea_canephora_India_2008","nit50","Direct ocular observations","Ceratina hieroglyphica","Species","other_wild_bees",1,NA,45,NA,"Locations with 5 distance classes (<10, 50, 100, 250, 500m) measured from the edge of a forest fragment within each location. Few had to be discarded due to rains on day of observation. Measures per site: 5 branches per plant with 6 inflorescence per branch. 3 plants. Observations last 15 mins each. 1 temporal replicate",NA
"Smitha_Krishnan_Coffea_canephora_India_2008","nit250","Direct ocular observations","Apis dorsata","Species","honeybees",30,NA,45,NA,"Locations with 5 distance classes (<10, 50, 100, 250, 500m) measured from the edge of a forest fragment within each location. Few had to be discarded due to rains on day of observation. Measures per site: 5 branches per plant with 6 inflorescence per branch. 3 plants. Observations last 15 mins each. 1 temporal replicate",NA
"Smitha_Krishnan_Coffea_canephora_India_2008","nit250","Direct ocular observations","Tetragonula iridipennis","Species","other_wild_bees",8,NA,45,NA,"Locations with 5 distance classes (<10, 50, 100, 250, 500m) measured from the edge of a forest fragment within each location. Few had to be discarded due to rains on day of observation. Measures per site: 5 branches per plant with 6 inflorescence per branch. 3 plants. Observations last 15 mins each. 1 temporal replicate",NA
"Smitha_Krishnan_Coffea_canephora_India_2008","nit250","Direct ocular observations","Ceratina hieroglyphica","Species","other_wild_bees",5,NA,45,NA,"Locations with 5 distance classes (<10, 50, 100, 250, 500m) measured from the edge of a forest fragment within each location. Few had to be discarded due to rains on day of observation. Measures per site: 5 branches per plant with 6 inflorescence per branch. 3 plants. Observations last 15 mins each. 1 temporal replicate",NA
"Smitha_Krishnan_Coffea_canephora_India_2008","nit250","Direct ocular observations","Curvinomia strigata (Nomia iridiscens)","Species","other_wild_bees",1,NA,45,NA,"Locations with 5 distance classes (<10, 50, 100, 250, 500m) measured from the edge of a forest fragment within each location. Few had to be discarded due to rains on day of observation. Measures per site: 5 branches per plant with 6 inflorescence per branch. 3 plants. Observations last 15 mins each. 1 temporal replicate",NA
"Smitha_Krishnan_Coffea_canephora_India_2008","nit250","Direct ocular observations","Catopsilia pyranthe (Mottled Emigrant)","Species","lepidoptera",1,NA,45,NA,"Locations with 5 distance classes (<10, 50, 100, 250, 500m) measured from the edge of a forest fragment within each location. Few had to be discarded due to rains on day of observation. Measures per site: 5 branches per plant with 6 inflorescence per branch. 3 plants. Observations last 15 mins each. 1 temporal replicate",NA
"Smitha_Krishnan_Coffea_canephora_India_2008","nit250","Direct ocular observations","Euploea core (Common Indian crow)","Species","lepidoptera",1,NA,45,NA,"Locations with 5 distance classes (<10, 50, 100, 250, 500m) measured from the edge of a forest fragment within each location. Few had to be discarded due to rains on day of observation. Measures per site: 5 branches per plant with 6 inflorescence per branch. 3 plants. Observations last 15 mins each. 1 temporal replicate",NA
"Smitha_Krishnan_Coffea_canephora_India_2008","nit500","Direct ocular observations","Apis cerana indica","Species","honeybees",4,NA,45,NA,"Locations with 5 distance classes (<10, 50, 100, 250, 500m) measured from the edge of a forest fragment within each location. Few had to be discarded due to rains on day of observation. Measures per site: 5 branches per plant with 6 inflorescence per branch. 3 plants. Observations last 15 mins each. 1 temporal replicate",NA
"Smitha_Krishnan_Coffea_canephora_India_2008","nit500","Direct ocular observations","Tetragonula iridipennis","Species","other_wild_bees",2,NA,45,NA,"Locations with 5 distance classes (<10, 50, 100, 250, 500m) measured from the edge of a forest fragment within each location. Few had to be discarded due to rains on day of observation. Measures per site: 5 branches per plant with 6 inflorescence per branch. 3 plants. Observations last 15 mins each. 1 temporal replicate",NA
"Smitha_Krishnan_Coffea_canephora_India_2008","nit500","Direct ocular observations","Ceratina hieroglyphica","Species","other_wild_bees",1,NA,45,NA,"Locations with 5 distance classes (<10, 50, 100, 250, 500m) measured from the edge of a forest fragment within each location. Few had to be discarded due to rains on day of observation. Measures per site: 5 branches per plant with 6 inflorescence per branch. 3 plants. Observations last 15 mins each. 1 temporal replicate",NA
"Smitha_Krishnan_Coffea_canephora_India_2008","polche0","Direct ocular observations","Apis dorsata","Species","honeybees",20,NA,45,NA,"Locations with 5 distance classes (<10, 50, 100, 250, 500m) measured from the edge of a forest fragment within each location. Few had to be discarded due to rains on day of observation. Measures per site: 5 branches per plant with 6 inflorescence per branch. 3 plants. Observations last 15 mins each. 1 temporal replicate",NA
"Smitha_Krishnan_Coffea_canephora_India_2008","polche0","Direct ocular observations","Apis cerana indica","Species","honeybees",3,NA,45,NA,"Locations with 5 distance classes (<10, 50, 100, 250, 500m) measured from the edge of a forest fragment within each location. Few had to be discarded due to rains on day of observation. Measures per site: 5 branches per plant with 6 inflorescence per branch. 3 plants. Observations last 15 mins each. 1 temporal replicate",NA
"Smitha_Krishnan_Coffea_canephora_India_2008","polche0","Direct ocular observations","Diptera-Fly","Order","other_flies",1,NA,45,NA,"Locations with 5 distance classes (<10, 50, 100, 250, 500m) measured from the edge of a forest fragment within each location. Few had to be discarded due to rains on day of observation. Measures per site: 5 branches per plant with 6 inflorescence per branch. 3 plants. Observations last 15 mins each. 1 temporal replicate",NA
"Smitha_Krishnan_Coffea_canephora_India_2008","polche50","Direct ocular observations","Apis dorsata","Species","honeybees",17,NA,45,NA,"Locations with 5 distance classes (<10, 50, 100, 250, 500m) measured from the edge of a forest fragment within each location. Few had to be discarded due to rains on day of observation. Measures per site: 5 branches per plant with 6 inflorescence per branch. 3 plants. Observations last 15 mins each. 1 temporal replicate",NA
"Smitha_Krishnan_Coffea_canephora_India_2008","polche50","Direct ocular observations","Tetragonula iridipennis","Species","other_wild_bees",1,NA,45,NA,"Locations with 5 distance classes (<10, 50, 100, 250, 500m) measured from the edge of a forest fragment within each location. Few had to be discarded due to rains on day of observation. Measures per site: 5 branches per plant with 6 inflorescence per branch. 3 plants. Observations last 15 mins each. 1 temporal replicate",NA
"Smitha_Krishnan_Coffea_canephora_India_2008","polche50","Direct ocular observations","Diptera-Fly","Order","other_flies",1,NA,45,NA,"Locations with 5 distance classes (<10, 50, 100, 250, 500m) measured from the edge of a forest fragment within each location. Few had to be discarded due to rains on day of observation. Measures per site: 5 branches per plant with 6 inflorescence per branch. 3 plants. Observations last 15 mins each. 1 temporal replicate",NA
"Smitha_Krishnan_Coffea_canephora_India_2008","polche100","Direct ocular observations","Apis cerana indica","Species","honeybees",3,NA,45,NA,"Locations with 5 distance classes (<10, 50, 100, 250, 500m) measured from the edge of a forest fragment within each location. Few had to be discarded due to rains on day of observation. Measures per site: 5 branches per plant with 6 inflorescence per branch. 3 plants. Observations last 15 mins each. 1 temporal replicate",NA
"Smitha_Krishnan_Coffea_canephora_India_2008","polche100","Direct ocular observations","Tetragonula iridipennis","Species","other_wild_bees",8,NA,45,NA,"Locations with 5 distance classes (<10, 50, 100, 250, 500m) measured from the edge of a forest fragment within each location. Few had to be discarded due to rains on day of observation. Measures per site: 5 branches per plant with 6 inflorescence per branch. 3 plants. Observations last 15 mins each. 1 temporal replicate",NA
"Smitha_Krishnan_Coffea_canephora_India_2008","polche100","Direct ocular observations","Braunsapsis picitarsis","Species","other_wild_bees",1,NA,45,NA,"Locations with 5 distance classes (<10, 50, 100, 250, 500m) measured from the edge of a forest fragment within each location. Few had to be discarded due to rains on day of observation. Measures per site: 5 branches per plant with 6 inflorescence per branch. 3 plants. Observations last 15 mins each. 1 temporal replicate",NA
"Smitha_Krishnan_Coffea_canephora_India_2008","polche250","Direct ocular observations","Apis dorsata","Species","honeybees",70,NA,45,NA,"Locations with 5 distance classes (<10, 50, 100, 250, 500m) measured from the edge of a forest fragment within each location. Few had to be discarded due to rains on day of observation. Measures per site: 5 branches per plant with 6 inflorescence per branch. 3 plants. Observations last 15 mins each. 1 temporal replicate",NA
"Smitha_Krishnan_Coffea_canephora_India_2008","polche250","Direct ocular observations","Apis cerana indica","Species","honeybees",2,NA,45,NA,"Locations with 5 distance classes (<10, 50, 100, 250, 500m) measured from the edge of a forest fragment within each location. Few had to be discarded due to rains on day of observation. Measures per site: 5 branches per plant with 6 inflorescence per branch. 3 plants. Observations last 15 mins each. 1 temporal replicate",NA
"Smitha_Krishnan_Coffea_canephora_India_2008","polche250","Direct ocular observations","Tetragonula iridipennis","Species","other_wild_bees",3,NA,45,NA,"Locations with 5 distance classes (<10, 50, 100, 250, 500m) measured from the edge of a forest fragment within each location. Few had to be discarded due to rains on day of observation. Measures per site: 5 branches per plant with 6 inflorescence per branch. 3 plants. Observations last 15 mins each. 1 temporal replicate",NA
"Smitha_Krishnan_Coffea_canephora_India_2008","polche500","Direct ocular observations","Apis dorsata","Species","honeybees",113,NA,45,NA,"Locations with 5 distance classes (<10, 50, 100, 250, 500m) measured from the edge of a forest fragment within each location. Few had to be discarded due to rains on day of observation. Measures per site: 5 branches per plant with 6 inflorescence per branch. 3 plants. Observations last 15 mins each. 1 temporal replicate",NA
"Smitha_Krishnan_Coffea_canephora_India_2008","polche500","Direct ocular observations","Apis cerana indica","Species","honeybees",2,NA,45,NA,"Locations with 5 distance classes (<10, 50, 100, 250, 500m) measured from the edge of a forest fragment within each location. Few had to be discarded due to rains on day of observation. Measures per site: 5 branches per plant with 6 inflorescence per branch. 3 plants. Observations last 15 mins each. 1 temporal replicate",NA
"Smitha_Krishnan_Coffea_canephora_India_2008","polche500","Direct ocular observations","Tetragonula iridipennis","Species","other_wild_bees",1,NA,45,NA,"Locations with 5 distance classes (<10, 50, 100, 250, 500m) measured from the edge of a forest fragment within each location. Few had to be discarded due to rains on day of observation. Measures per site: 5 branches per plant with 6 inflorescence per branch. 3 plants. Observations last 15 mins each. 1 temporal replicate",NA
"Smitha_Krishnan_Coffea_canephora_India_2008","polche500","Direct ocular observations","Eumenine","Subfamily","non_bee_hymenoptera",2,NA,45,NA,"Locations with 5 distance classes (<10, 50, 100, 250, 500m) measured from the edge of a forest fragment within each location. Few had to be discarded due to rains on day of observation. Measures per site: 5 branches per plant with 6 inflorescence per branch. 3 plants. Observations last 15 mins each. 1 temporal replicate",NA
"Smitha_Krishnan_Coffea_canephora_India_2008","polche500","Direct ocular observations","Diptera-Fly","Order","other_flies",1,NA,45,NA,"Locations with 5 distance classes (<10, 50, 100, 250, 500m) measured from the edge of a forest fragment within each location. Few had to be discarded due to rains on day of observation. Measures per site: 5 branches per plant with 6 inflorescence per branch. 3 plants. Observations last 15 mins each. 1 temporal replicate",NA
"Smitha_Krishnan_Coffea_canephora_India_2008","polche500","Direct ocular observations","Euploea core (Common Indian crow)","Species","lepidoptera",1,NA,45,NA,"Locations with 5 distance classes (<10, 50, 100, 250, 500m) measured from the edge of a forest fragment within each location. Few had to be discarded due to rains on day of observation. Measures per site: 5 branches per plant with 6 inflorescence per branch. 3 plants. Observations last 15 mins each. 1 temporal replicate",NA
"Smitha_Krishnan_Coffea_canephora_India_2008","porpon50","Direct ocular observations","Apis cerana indica","Species","honeybees",1,NA,45,NA,"Locations with 5 distance classes (<10, 50, 100, 250, 500m) measured from the edge of a forest fragment within each location. Few had to be discarded due to rains on day of observation. Measures per site: 5 branches per plant with 6 inflorescence per branch. 3 plants. Observations last 15 mins each. 1 temporal replicate",NA
"Smitha_Krishnan_Coffea_canephora_India_2008","porpon100","Direct ocular observations","Apis dorsata","Species","honeybees",1,NA,45,NA,"Locations with 5 distance classes (<10, 50, 100, 250, 500m) measured from the edge of a forest fragment within each location. Few had to be discarded due to rains on day of observation. Measures per site: 5 branches per plant with 6 inflorescence per branch. 3 plants. Observations last 15 mins each. 1 temporal replicate",NA
"Smitha_Krishnan_Coffea_canephora_India_2008","porpon100","Direct ocular observations","Tetragonula iridipennis","Species","other_wild_bees",1,NA,45,NA,"Locations with 5 distance classes (<10, 50, 100, 250, 500m) measured from the edge of a forest fragment within each location. Few had to be discarded due to rains on day of observation. Measures per site: 5 branches per plant with 6 inflorescence per branch. 3 plants. Observations last 15 mins each. 1 temporal replicate",NA
"Smitha_Krishnan_Coffea_canephora_India_2008","titbck0","Direct ocular observations","Eumenine","Subfamily","non_bee_hymenoptera",1,NA,45,NA,"Locations with 5 distance classes (<10, 50, 100, 250, 500m) measured from the edge of a forest fragment within each location. Few had to be discarded due to rains on day of observation. Measures per site: 5 branches per plant with 6 inflorescence per branch. 3 plants. Observations last 15 mins each. 1 temporal replicate",NA
"Smitha_Krishnan_Coffea_canephora_India_2008","titbck50","Direct ocular observations","Diptera-Fly","Order","other_flies",1,NA,45,NA,"Locations with 5 distance classes (<10, 50, 100, 250, 500m) measured from the edge of a forest fragment within each location. Few had to be discarded due to rains on day of observation. Measures per site: 5 branches per plant with 6 inflorescence per branch. 3 plants. Observations last 15 mins each. 1 temporal replicate",NA
"Smitha_Krishnan_Coffea_canephora_India_2008","titbck50","Direct ocular observations","Pieris canidia (Indian cabbage white)","Species","lepidoptera",1,NA,45,NA,"Locations with 5 distance classes (<10, 50, 100, 250, 500m) measured from the edge of a forest fragment within each location. Few had to be discarded due to rains on day of observation. Measures per site: 5 branches per plant with 6 inflorescence per branch. 3 plants. Observations last 15 mins each. 1 temporal replicate",NA
"Smitha_Krishnan_Coffea_canephora_India_2008","titbck500","Direct ocular observations","Apis dorsata","Species","honeybees",11,NA,45,NA,"Locations with 5 distance classes (<10, 50, 100, 250, 500m) measured from the edge of a forest fragment within each location. Few had to be discarded due to rains on day of observation. Measures per site: 5 branches per plant with 6 inflorescence per branch. 3 plants. Observations last 15 mins each. 1 temporal replicate",NA
"Smitha_Krishnan_Coffea_canephora_India_2008","titbck500","Direct ocular observations","Apis cerana indica","Species","honeybees",5,NA,45,NA,"Locations with 5 distance classes (<10, 50, 100, 250, 500m) measured from the edge of a forest fragment within each location. Few had to be discarded due to rains on day of observation. Measures per site: 5 branches per plant with 6 inflorescence per branch. 3 plants. Observations last 15 mins each. 1 temporal replicate",NA
"Smitha_Krishnan_Coffea_canephora_India_2008","titbck500","Direct ocular observations","Tetragonula iridipennis","Species","other_wild_bees",3,NA,45,NA,"Locations with 5 distance classes (<10, 50, 100, 250, 500m) measured from the edge of a forest fragment within each location. Few had to be discarded due to rains on day of observation. Measures per site: 5 branches per plant with 6 inflorescence per branch. 3 plants. Observations last 15 mins each. 1 temporal replicate",NA
"Smitha_Krishnan_Coffea_canephora_India_2008","titbck500","Direct ocular observations","Diptera-Fly","Order","other_flies",1,NA,45,NA,"Locations with 5 distance classes (<10, 50, 100, 250, 500m) measured from the edge of a forest fragment within each location. Few had to be discarded due to rains on day of observation. Measures per site: 5 branches per plant with 6 inflorescence per branch. 3 plants. Observations last 15 mins each. 1 temporal replicate",NA
"Smitha_Krishnan_Coffea_canephora_India_2008","tittat0","Direct ocular observations","Apis dorsata","Species","honeybees",12,NA,45,NA,"Locations with 5 distance classes (<10, 50, 100, 250, 500m) measured from the edge of a forest fragment within each location. Few had to be discarded due to rains on day of observation. Measures per site: 5 branches per plant with 6 inflorescence per branch. 3 plants. Observations last 15 mins each. 1 temporal replicate",NA
"Smitha_Krishnan_Coffea_canephora_India_2008","tittat0","Direct ocular observations","Apis cerana indica","Species","honeybees",4,NA,45,NA,"Locations with 5 distance classes (<10, 50, 100, 250, 500m) measured from the edge of a forest fragment within each location. Few had to be discarded due to rains on day of observation. Measures per site: 5 branches per plant with 6 inflorescence per branch. 3 plants. Observations last 15 mins each. 1 temporal replicate",NA
"Smitha_Krishnan_Coffea_canephora_India_2008","tittat0","Direct ocular observations","Diptera-Fly","Order","other_flies",2,NA,45,NA,"Locations with 5 distance classes (<10, 50, 100, 250, 500m) measured from the edge of a forest fragment within each location. Few had to be discarded due to rains on day of observation. Measures per site: 5 branches per plant with 6 inflorescence per branch. 3 plants. Observations last 15 mins each. 1 temporal replicate",NA
"Smitha_Krishnan_Coffea_canephora_India_2008","tittat50","Direct ocular observations","Apis dorsata","Species","honeybees",12,NA,45,NA,"Locations with 5 distance classes (<10, 50, 100, 250, 500m) measured from the edge of a forest fragment within each location. Few had to be discarded due to rains on day of observation. Measures per site: 5 branches per plant with 6 inflorescence per branch. 3 plants. Observations last 15 mins each. 1 temporal replicate",NA
"Smitha_Krishnan_Coffea_canephora_India_2008","tittat50","Direct ocular observations","Eumenine","Subfamily","non_bee_hymenoptera",1,NA,45,NA,"Locations with 5 distance classes (<10, 50, 100, 250, 500m) measured from the edge of a forest fragment within each location. Few had to be discarded due to rains on day of observation. Measures per site: 5 branches per plant with 6 inflorescence per branch. 3 plants. Observations last 15 mins each. 1 temporal replicate",NA
"Smitha_Krishnan_Coffea_canephora_India_2008","tittat100","Direct ocular observations","Apis dorsata","Species","honeybees",14,NA,45,NA,"Locations with 5 distance classes (<10, 50, 100, 250, 500m) measured from the edge of a forest fragment within each location. Few had to be discarded due to rains on day of observation. Measures per site: 5 branches per plant with 6 inflorescence per branch. 3 plants. Observations last 15 mins each. 1 temporal replicate",NA
"Smitha_Krishnan_Coffea_canephora_India_2008","tittat100","Direct ocular observations","Apis cerana indica","Species","honeybees",1,NA,45,NA,"Locations with 5 distance classes (<10, 50, 100, 250, 500m) measured from the edge of a forest fragment within each location. Few had to be discarded due to rains on day of observation. Measures per site: 5 branches per plant with 6 inflorescence per branch. 3 plants. Observations last 15 mins each. 1 temporal replicate",NA
"Smitha_Krishnan_Coffea_canephora_India_2008","tittat250","Direct ocular observations","Apis dorsata","Species","honeybees",94,NA,45,NA,"Locations with 5 distance classes (<10, 50, 100, 250, 500m) measured from the edge of a forest fragment within each location. Few had to be discarded due to rains on day of observation. Measures per site: 5 branches per plant with 6 inflorescence per branch. 3 plants. Observations last 15 mins each. 1 temporal replicate",NA
"Smitha_Krishnan_Coffea_canephora_India_2008","tittat250","Direct ocular observations","Apis cerana indica","Species","honeybees",12,NA,45,NA,"Locations with 5 distance classes (<10, 50, 100, 250, 500m) measured from the edge of a forest fragment within each location. Few had to be discarded due to rains on day of observation. Measures per site: 5 branches per plant with 6 inflorescence per branch. 3 plants. Observations last 15 mins each. 1 temporal replicate",NA
"Smitha_Krishnan_Coffea_canephora_India_2008","tittat250","Direct ocular observations","Syrphidae (hover fly)","Family","syrphids",1,NA,45,NA,"Locations with 5 distance classes (<10, 50, 100, 250, 500m) measured from the edge of a forest fragment within each location. Few had to be discarded due to rains on day of observation. Measures per site: 5 branches per plant with 6 inflorescence per branch. 3 plants. Observations last 15 mins each. 1 temporal replicate",NA
"Smitha_Krishnan_Coffea_canephora_India_2008","tittat250","Direct ocular observations","Syrphidae (hover fly)","Family","syrphids",1,NA,45,NA,"Locations with 5 distance classes (<10, 50, 100, 250, 500m) measured from the edge of a forest fragment within each location. Few had to be discarded due to rains on day of observation. Measures per site: 5 branches per plant with 6 inflorescence per branch. 3 plants. Observations last 15 mins each. 1 temporal replicate",NA
"Smitha_Krishnan_Coffea_canephora_India_2008","tittat500","Direct ocular observations","Apis dorsata","Species","honeybees",25,NA,45,NA,"Locations with 5 distance classes (<10, 50, 100, 250, 500m) measured from the edge of a forest fragment within each location. Few had to be discarded due to rains on day of observation. Measures per site: 5 branches per plant with 6 inflorescence per branch. 3 plants. Observations last 15 mins each. 1 temporal replicate",NA
"Smitha_Krishnan_Coffea_canephora_India_2008","tittat500","Direct ocular observations","Apis cerana indica","Species","honeybees",26,NA,45,NA,"Locations with 5 distance classes (<10, 50, 100, 250, 500m) measured from the edge of a forest fragment within each location. Few had to be discarded due to rains on day of observation. Measures per site: 5 branches per plant with 6 inflorescence per branch. 3 plants. Observations last 15 mins each. 1 temporal replicate",NA
"Smitha_Krishnan_Coffea_canephora_India_2008","tittat500","Direct ocular observations","Ceratina hieroglyphica","Species","other_wild_bees",1,NA,45,NA,"Locations with 5 distance classes (<10, 50, 100, 250, 500m) measured from the edge of a forest fragment within each location. Few had to be discarded due to rains on day of observation. Measures per site: 5 branches per plant with 6 inflorescence per branch. 3 plants. Observations last 15 mins each. 1 temporal replicate",NA
"Smitha_Krishnan_Coffea_canephora_India_2008","tittat500","Direct ocular observations","Eumenine","Subfamily","non_bee_hymenoptera",1,NA,45,NA,"Locations with 5 distance classes (<10, 50, 100, 250, 500m) measured from the edge of a forest fragment within each location. Few had to be discarded due to rains on day of observation. Measures per site: 5 branches per plant with 6 inflorescence per branch. 3 plants. Observations last 15 mins each. 1 temporal replicate",NA
"Smitha_Krishnan_Coffea_canephora_India_2008","tittat500","Direct ocular observations","Diptera-Fly","Order","other_flies",4,NA,45,NA,"Locations with 5 distance classes (<10, 50, 100, 250, 500m) measured from the edge of a forest fragment within each location. Few had to be discarded due to rains on day of observation. Measures per site: 5 branches per plant with 6 inflorescence per branch. 3 plants. Observations last 15 mins each. 1 temporal replicate",NA
"Smitha_Krishnan_Coffea_canephora_India_2008","tshgov0","Direct ocular observations","Apis cerana indica","Species","honeybees",2,NA,45,NA,"Locations with 5 distance classes (<10, 50, 100, 250, 500m) measured from the edge of a forest fragment within each location. Few had to be discarded due to rains on day of observation. Measures per site: 5 branches per plant with 6 inflorescence per branch. 3 plants. Observations last 15 mins each. 1 temporal replicate",NA
"Smitha_Krishnan_Coffea_canephora_India_2008","tshkor0","Direct ocular observations","Apis dorsata","Species","honeybees",15,NA,45,NA,"Locations with 5 distance classes (<10, 50, 100, 250, 500m) measured from the edge of a forest fragment within each location. Few had to be discarded due to rains on day of observation. Measures per site: 5 branches per plant with 6 inflorescence per branch. 3 plants. Observations last 15 mins each. 1 temporal replicate",NA
"Smitha_Krishnan_Coffea_canephora_India_2008","tshkor500","Direct ocular observations","Apis dorsata","Species","honeybees",69,NA,45,NA,"Locations with 5 distance classes (<10, 50, 100, 250, 500m) measured from the edge of a forest fragment within each location. Few had to be discarded due to rains on day of observation. Measures per site: 5 branches per plant with 6 inflorescence per branch. 3 plants. Observations last 15 mins each. 1 temporal replicate",NA
"Smitha_Krishnan_Coffea_canephora_India_2008","tshkor500","Direct ocular observations","Apis cerana indica","Species","honeybees",19,NA,45,NA,"Locations with 5 distance classes (<10, 50, 100, 250, 500m) measured from the edge of a forest fragment within each location. Few had to be discarded due to rains on day of observation. Measures per site: 5 branches per plant with 6 inflorescence per branch. 3 plants. Observations last 15 mins each. 1 temporal replicate",NA
"Smitha_Krishnan_Coffea_canephora_India_2008","tshkor500","Direct ocular observations","Tetragonula iridipennis","Species","other_wild_bees",2,NA,45,NA,"Locations with 5 distance classes (<10, 50, 100, 250, 500m) measured from the edge of a forest fragment within each location. Few had to be discarded due to rains on day of observation. Measures per site: 5 branches per plant with 6 inflorescence per branch. 3 plants. Observations last 15 mins each. 1 temporal replicate",NA
"Smitha_Krishnan_Coffea_canephora_India_2008","tshkor500","Direct ocular observations","Eumenine","Subfamily","non_bee_hymenoptera",1,NA,45,NA,"Locations with 5 distance classes (<10, 50, 100, 250, 500m) measured from the edge of a forest fragment within each location. Few had to be discarded due to rains on day of observation. Measures per site: 5 branches per plant with 6 inflorescence per branch. 3 plants. Observations last 15 mins each. 1 temporal replicate",NA
"Smitha_Krishnan_Coffea_canephora_India_2008","tshogr0","Direct ocular observations","Tetragonula iridipennis","Species","other_wild_bees",2,NA,45,NA,"Locations with 5 distance classes (<10, 50, 100, 250, 500m) measured from the edge of a forest fragment within each location. Few had to be discarded due to rains on day of observation. Measures per site: 5 branches per plant with 6 inflorescence per branch. 3 plants. Observations last 15 mins each. 1 temporal replicate",NA
"Smitha_Krishnan_Coffea_canephora_India_2008","tshogr100","Direct ocular observations","Apis dorsata","Species","honeybees",1,NA,45,NA,"Locations with 5 distance classes (<10, 50, 100, 250, 500m) measured from the edge of a forest fragment within each location. Few had to be discarded due to rains on day of observation. Measures per site: 5 branches per plant with 6 inflorescence per branch. 3 plants. Observations last 15 mins each. 1 temporal replicate",NA
"Smitha_Krishnan_Coffea_canephora_India_2008","tshogr250","Direct ocular observations","Apis cerana indica","Species","honeybees",1,NA,45,NA,"Locations with 5 distance classes (<10, 50, 100, 250, 500m) measured from the edge of a forest fragment within each location. Few had to be discarded due to rains on day of observation. Measures per site: 5 branches per plant with 6 inflorescence per branch. 3 plants. Observations last 15 mins each. 1 temporal replicate",NA
"Smitha_Krishnan_Coffea_canephora_India_2008","tshogr250","Direct ocular observations","Tetragonula iridipennis","Species","other_wild_bees",1,NA,45,NA,"Locations with 5 distance classes (<10, 50, 100, 250, 500m) measured from the edge of a forest fragment within each location. Few had to be discarded due to rains on day of observation. Measures per site: 5 branches per plant with 6 inflorescence per branch. 3 plants. Observations last 15 mins each. 1 temporal replicate",NA
"Smitha_Krishnan_Coffea_canephora_India_2008","tshogr500","Direct ocular observations","Apis cerana indica","Species","honeybees",5,NA,45,NA,"Locations with 5 distance classes (<10, 50, 100, 250, 500m) measured from the edge of a forest fragment within each location. Few had to be discarded due to rains on day of observation. Measures per site: 5 branches per plant with 6 inflorescence per branch. 3 plants. Observations last 15 mins each. 1 temporal replicate",NA
"Smitha_Krishnan_Coffea_canephora_India_2008","tshogr500","Direct ocular observations","Tetragonula iridipennis","Species","other_wild_bees",1,NA,45,NA,"Locations with 5 distance classes (<10, 50, 100, 250, 500m) measured from the edge of a forest fragment within each location. Few had to be discarded due to rains on day of observation. Measures per site: 5 branches per plant with 6 inflorescence per branch. 3 plants. Observations last 15 mins each. 1 temporal replicate",NA
"Smitha_Krishnan_Coffea_canephora_India_2008","tshogr500","Direct ocular observations","Braunsapsis picitarsis","Species","other_wild_bees",1,NA,45,NA,"Locations with 5 distance classes (<10, 50, 100, 250, 500m) measured from the edge of a forest fragment within each location. Few had to be discarded due to rains on day of observation. Measures per site: 5 branches per plant with 6 inflorescence per branch. 3 plants. Observations last 15 mins each. 1 temporal replicate",NA
"Smitha_Krishnan_Coffea_canephora_India_2009","arm0","Direct ocular observations","Apis dorsata","Species","honeybees",68,NA,75,NA,"Locations with 5 distance classes (<10, 50, 100, 250, 500m) measured from the edge of a forest fragment within each location. Few had to be discarded due to rains on day of observation. Measures per site: 5 branches per plant with 6 inflorescence per branch. 5 plants. Observations last 15 mins each. 1 temporal replicate",NA
"Smitha_Krishnan_Coffea_canephora_India_2009","arm0","Direct ocular observations","Apis cerana indica","Species","honeybees",16,NA,75,NA,"Locations with 5 distance classes (<10, 50, 100, 250, 500m) measured from the edge of a forest fragment within each location. Few had to be discarded due to rains on day of observation. Measures per site: 5 branches per plant with 6 inflorescence per branch. 5 plants. Observations last 15 mins each. 1 temporal replicate",NA
"Smitha_Krishnan_Coffea_canephora_India_2009","arm0","Direct ocular observations","Ceratina hieroglyphica","Species","other_wild_bees",1,NA,75,NA,"Locations with 5 distance classes (<10, 50, 100, 250, 500m) measured from the edge of a forest fragment within each location. Few had to be discarded due to rains on day of observation. Measures per site: 5 branches per plant with 6 inflorescence per branch. 5 plants. Observations last 15 mins each. 1 temporal replicate",NA
"Smitha_Krishnan_Coffea_canephora_India_2009","arm0","Direct ocular observations","Thysanoptera (Thrips)","Order","other",3,NA,75,NA,"Locations with 5 distance classes (<10, 50, 100, 250, 500m) measured from the edge of a forest fragment within each location. Few had to be discarded due to rains on day of observation. Measures per site: 5 branches per plant with 6 inflorescence per branch. 5 plants. Observations last 15 mins each. 1 temporal replicate",NA
"Smitha_Krishnan_Coffea_canephora_India_2009","arm50","Direct ocular observations","Apis dorsata","Species","honeybees",115,NA,75,NA,"Locations with 5 distance classes (<10, 50, 100, 250, 500m) measured from the edge of a forest fragment within each location. Few had to be discarded due to rains on day of observation. Measures per site: 5 branches per plant with 6 inflorescence per branch. 5 plants. Observations last 15 mins each. 1 temporal replicate",NA
"Smitha_Krishnan_Coffea_canephora_India_2009","arm50","Direct ocular observations","Apis cerana indica","Species","honeybees",16,NA,75,NA,"Locations with 5 distance classes (<10, 50, 100, 250, 500m) measured from the edge of a forest fragment within each location. Few had to be discarded due to rains on day of observation. Measures per site: 5 branches per plant with 6 inflorescence per branch. 5 plants. Observations last 15 mins each. 1 temporal replicate",NA
"Smitha_Krishnan_Coffea_canephora_India_2009","arm50","Direct ocular observations","Tetragonula iridipennis","Species","other_wild_bees",10,NA,75,NA,"Locations with 5 distance classes (<10, 50, 100, 250, 500m) measured from the edge of a forest fragment within each location. Few had to be discarded due to rains on day of observation. Measures per site: 5 branches per plant with 6 inflorescence per branch. 5 plants. Observations last 15 mins each. 1 temporal replicate",NA
"Smitha_Krishnan_Coffea_canephora_India_2009","arm50","Direct ocular observations","Thysanoptera (Thrips)","Order","other",1,NA,75,NA,"Locations with 5 distance classes (<10, 50, 100, 250, 500m) measured from the edge of a forest fragment within each location. Few had to be discarded due to rains on day of observation. Measures per site: 5 branches per plant with 6 inflorescence per branch. 5 plants. Observations last 15 mins each. 1 temporal replicate",NA
"Smitha_Krishnan_Coffea_canephora_India_2009","arm100","Direct ocular observations","Apis dorsata","Species","honeybees",38,NA,75,NA,"Locations with 5 distance classes (<10, 50, 100, 250, 500m) measured from the edge of a forest fragment within each location. Few had to be discarded due to rains on day of observation. Measures per site: 5 branches per plant with 6 inflorescence per branch. 5 plants. Observations last 15 mins each. 1 temporal replicate",NA
"Smitha_Krishnan_Coffea_canephora_India_2009","arm100","Direct ocular observations","Apis cerana indica","Species","honeybees",9,NA,75,NA,"Locations with 5 distance classes (<10, 50, 100, 250, 500m) measured from the edge of a forest fragment within each location. Few had to be discarded due to rains on day of observation. Measures per site: 5 branches per plant with 6 inflorescence per branch. 5 plants. Observations last 15 mins each. 1 temporal replicate",NA
"Smitha_Krishnan_Coffea_canephora_India_2009","arm100","Direct ocular observations","Thysanoptera (Thrips)","Order","other",2,NA,75,NA,"Locations with 5 distance classes (<10, 50, 100, 250, 500m) measured from the edge of a forest fragment within each location. Few had to be discarded due to rains on day of observation. Measures per site: 5 branches per plant with 6 inflorescence per branch. 5 plants. Observations last 15 mins each. 1 temporal replicate",NA
"Smitha_Krishnan_Coffea_canephora_India_2009","arm250","Direct ocular observations","Apis dorsata","Species","honeybees",58,NA,75,NA,"Locations with 5 distance classes (<10, 50, 100, 250, 500m) measured from the edge of a forest fragment within each location. Few had to be discarded due to rains on day of observation. Measures per site: 5 branches per plant with 6 inflorescence per branch. 5 plants. Observations last 15 mins each. 1 temporal replicate",NA
"Smitha_Krishnan_Coffea_canephora_India_2009","arm250","Direct ocular observations","Apis cerana indica","Species","honeybees",13,NA,75,NA,"Locations with 5 distance classes (<10, 50, 100, 250, 500m) measured from the edge of a forest fragment within each location. Few had to be discarded due to rains on day of observation. Measures per site: 5 branches per plant with 6 inflorescence per branch. 5 plants. Observations last 15 mins each. 1 temporal replicate",NA
"Smitha_Krishnan_Coffea_canephora_India_2009","arm250","Direct ocular observations","Tetragonula iridipennis","Species","other_wild_bees",4,NA,75,NA,"Locations with 5 distance classes (<10, 50, 100, 250, 500m) measured from the edge of a forest fragment within each location. Few had to be discarded due to rains on day of observation. Measures per site: 5 branches per plant with 6 inflorescence per branch. 5 plants. Observations last 15 mins each. 1 temporal replicate",NA
"Smitha_Krishnan_Coffea_canephora_India_2009","arm250","Direct ocular observations","Thysanoptera (Thrips)","Order","other",1,NA,75,NA,"Locations with 5 distance classes (<10, 50, 100, 250, 500m) measured from the edge of a forest fragment within each location. Few had to be discarded due to rains on day of observation. Measures per site: 5 branches per plant with 6 inflorescence per branch. 5 plants. Observations last 15 mins each. 1 temporal replicate",NA
"Smitha_Krishnan_Coffea_canephora_India_2009","arm500","Direct ocular observations","Apis dorsata","Species","honeybees",24,NA,75,NA,"Locations with 5 distance classes (<10, 50, 100, 250, 500m) measured from the edge of a forest fragment within each location. Few had to be discarded due to rains on day of observation. Measures per site: 5 branches per plant with 6 inflorescence per branch. 5 plants. Observations last 15 mins each. 1 temporal replicate",NA
"Smitha_Krishnan_Coffea_canephora_India_2009","arm500","Direct ocular observations","Apis cerana indica","Species","honeybees",16,NA,75,NA,"Locations with 5 distance classes (<10, 50, 100, 250, 500m) measured from the edge of a forest fragment within each location. Few had to be discarded due to rains on day of observation. Measures per site: 5 branches per plant with 6 inflorescence per branch. 5 plants. Observations last 15 mins each. 1 temporal replicate",NA
"Smitha_Krishnan_Coffea_canephora_India_2009","arm500","Direct ocular observations","Tetragonula iridipennis","Species","other_wild_bees",25,NA,75,NA,"Locations with 5 distance classes (<10, 50, 100, 250, 500m) measured from the edge of a forest fragment within each location. Few had to be discarded due to rains on day of observation. Measures per site: 5 branches per plant with 6 inflorescence per branch. 5 plants. Observations last 15 mins each. 1 temporal replicate",NA
"Smitha_Krishnan_Coffea_canephora_India_2009","bol0","Direct ocular observations","Tetragonula iridipennis","Species","other_wild_bees",2,NA,75,NA,"Locations with 5 distance classes (<10, 50, 100, 250, 500m) measured from the edge of a forest fragment within each location. Few had to be discarded due to rains on day of observation. Measures per site: 5 branches per plant with 6 inflorescence per branch. 5 plants. Observations last 15 mins each. 1 temporal replicate",NA
"Smitha_Krishnan_Coffea_canephora_India_2009","bol0","Direct ocular observations","Thyreus smithii","Species","other_wild_bees",1,NA,75,NA,"Locations with 5 distance classes (<10, 50, 100, 250, 500m) measured from the edge of a forest fragment within each location. Few had to be discarded due to rains on day of observation. Measures per site: 5 branches per plant with 6 inflorescence per branch. 5 plants. Observations last 15 mins each. 1 temporal replicate",NA
"Smitha_Krishnan_Coffea_canephora_India_2009","bol50","Direct ocular observations","Apis dorsata","Species","honeybees",21,NA,75,NA,"Locations with 5 distance classes (<10, 50, 100, 250, 500m) measured from the edge of a forest fragment within each location. Few had to be discarded due to rains on day of observation. Measures per site: 5 branches per plant with 6 inflorescence per branch. 5 plants. Observations last 15 mins each. 1 temporal replicate",NA
"Smitha_Krishnan_Coffea_canephora_India_2009","bol50","Direct ocular observations","Apis cerana indica","Species","honeybees",4,NA,75,NA,"Locations with 5 distance classes (<10, 50, 100, 250, 500m) measured from the edge of a forest fragment within each location. Few had to be discarded due to rains on day of observation. Measures per site: 5 branches per plant with 6 inflorescence per branch. 5 plants. Observations last 15 mins each. 1 temporal replicate",NA
"Smitha_Krishnan_Coffea_canephora_India_2009","bol50","Direct ocular observations","Tetragonula iridipennis","Species","other_wild_bees",2,NA,75,NA,"Locations with 5 distance classes (<10, 50, 100, 250, 500m) measured from the edge of a forest fragment within each location. Few had to be discarded due to rains on day of observation. Measures per site: 5 branches per plant with 6 inflorescence per branch. 5 plants. Observations last 15 mins each. 1 temporal replicate",NA
"Smitha_Krishnan_Coffea_canephora_India_2009","bol50","Direct ocular observations","Thyreus smithii","Species","other_wild_bees",1,NA,75,NA,"Locations with 5 distance classes (<10, 50, 100, 250, 500m) measured from the edge of a forest fragment within each location. Few had to be discarded due to rains on day of observation. Measures per site: 5 branches per plant with 6 inflorescence per branch. 5 plants. Observations last 15 mins each. 1 temporal replicate",NA
"Smitha_Krishnan_Coffea_canephora_India_2009","bol100","Direct ocular observations","Apis dorsata","Species","honeybees",113,NA,75,NA,"Locations with 5 distance classes (<10, 50, 100, 250, 500m) measured from the edge of a forest fragment within each location. Few had to be discarded due to rains on day of observation. Measures per site: 5 branches per plant with 6 inflorescence per branch. 5 plants. Observations last 15 mins each. 1 temporal replicate",NA
"Smitha_Krishnan_Coffea_canephora_India_2009","bol100","Direct ocular observations","Apis cerana indica","Species","honeybees",9,NA,75,NA,"Locations with 5 distance classes (<10, 50, 100, 250, 500m) measured from the edge of a forest fragment within each location. Few had to be discarded due to rains on day of observation. Measures per site: 5 branches per plant with 6 inflorescence per branch. 5 plants. Observations last 15 mins each. 1 temporal replicate",NA
"Smitha_Krishnan_Coffea_canephora_India_2009","bol100","Direct ocular observations","Tetragonula iridipennis","Species","other_wild_bees",25,NA,75,NA,"Locations with 5 distance classes (<10, 50, 100, 250, 500m) measured from the edge of a forest fragment within each location. Few had to be discarded due to rains on day of observation. Measures per site: 5 branches per plant with 6 inflorescence per branch. 5 plants. Observations last 15 mins each. 1 temporal replicate",NA
"Smitha_Krishnan_Coffea_canephora_India_2009","bol100","Direct ocular observations","Thysanoptera (Thrips)","Order","other",1,NA,75,NA,"Locations with 5 distance classes (<10, 50, 100, 250, 500m) measured from the edge of a forest fragment within each location. Few had to be discarded due to rains on day of observation. Measures per site: 5 branches per plant with 6 inflorescence per branch. 5 plants. Observations last 15 mins each. 1 temporal replicate",NA
"Smitha_Krishnan_Coffea_canephora_India_2009","bol250","Direct ocular observations","Apis dorsata","Species","honeybees",43,NA,75,NA,"Locations with 5 distance classes (<10, 50, 100, 250, 500m) measured from the edge of a forest fragment within each location. Few had to be discarded due to rains on day of observation. Measures per site: 5 branches per plant with 6 inflorescence per branch. 5 plants. Observations last 15 mins each. 1 temporal replicate",NA
"Smitha_Krishnan_Coffea_canephora_India_2009","bol250","Direct ocular observations","Apis cerana indica","Species","honeybees",19,NA,75,NA,"Locations with 5 distance classes (<10, 50, 100, 250, 500m) measured from the edge of a forest fragment within each location. Few had to be discarded due to rains on day of observation. Measures per site: 5 branches per plant with 6 inflorescence per branch. 5 plants. Observations last 15 mins each. 1 temporal replicate",NA
"Smitha_Krishnan_Coffea_canephora_India_2009","bol250","Direct ocular observations","Tetragonula iridipennis","Species","other_wild_bees",43,NA,75,NA,"Locations with 5 distance classes (<10, 50, 100, 250, 500m) measured from the edge of a forest fragment within each location. Few had to be discarded due to rains on day of observation. Measures per site: 5 branches per plant with 6 inflorescence per branch. 5 plants. Observations last 15 mins each. 1 temporal replicate",NA
"Smitha_Krishnan_Coffea_canephora_India_2009","bol250","Direct ocular observations","Amegilla zonata/ A. confusa","Genera (2 species not differentiated)","other_wild_bees",1,NA,75,NA,"Locations with 5 distance classes (<10, 50, 100, 250, 500m) measured from the edge of a forest fragment within each location. Few had to be discarded due to rains on day of observation. Measures per site: 5 branches per plant with 6 inflorescence per branch. 5 plants. Observations last 15 mins each. 1 temporal replicate",NA
"Smitha_Krishnan_Coffea_canephora_India_2009","bol250","Direct ocular observations","Ceratina hieroglyphica","Species","other_wild_bees",1,NA,75,NA,"Locations with 5 distance classes (<10, 50, 100, 250, 500m) measured from the edge of a forest fragment within each location. Few had to be discarded due to rains on day of observation. Measures per site: 5 branches per plant with 6 inflorescence per branch. 5 plants. Observations last 15 mins each. 1 temporal replicate",NA
"Smitha_Krishnan_Coffea_canephora_India_2009","bol250","Direct ocular observations","Diptera-Fly","Order","other_flies",1,NA,75,NA,"Locations with 5 distance classes (<10, 50, 100, 250, 500m) measured from the edge of a forest fragment within each location. Few had to be discarded due to rains on day of observation. Measures per site: 5 branches per plant with 6 inflorescence per branch. 5 plants. Observations last 15 mins each. 1 temporal replicate",NA
"Smitha_Krishnan_Coffea_canephora_India_2009","bol500","Direct ocular observations","Apis dorsata","Species","honeybees",38,NA,75,NA,"Locations with 5 distance classes (<10, 50, 100, 250, 500m) measured from the edge of a forest fragment within each location. Few had to be discarded due to rains on day of observation. Measures per site: 5 branches per plant with 6 inflorescence per branch. 5 plants. Observations last 15 mins each. 1 temporal replicate",NA
"Smitha_Krishnan_Coffea_canephora_India_2009","bol500","Direct ocular observations","Apis cerana indica","Species","honeybees",14,NA,75,NA,"Locations with 5 distance classes (<10, 50, 100, 250, 500m) measured from the edge of a forest fragment within each location. Few had to be discarded due to rains on day of observation. Measures per site: 5 branches per plant with 6 inflorescence per branch. 5 plants. Observations last 15 mins each. 1 temporal replicate",NA
"Smitha_Krishnan_Coffea_canephora_India_2009","bol500","Direct ocular observations","Tetragonula iridipennis","Species","other_wild_bees",20,NA,75,NA,"Locations with 5 distance classes (<10, 50, 100, 250, 500m) measured from the edge of a forest fragment within each location. Few had to be discarded due to rains on day of observation. Measures per site: 5 branches per plant with 6 inflorescence per branch. 5 plants. Observations last 15 mins each. 1 temporal replicate",NA
"Smitha_Krishnan_Coffea_canephora_India_2009","bol500","Direct ocular observations","Ceratina hieroglyphica","Species","other_wild_bees",1,NA,75,NA,"Locations with 5 distance classes (<10, 50, 100, 250, 500m) measured from the edge of a forest fragment within each location. Few had to be discarded due to rains on day of observation. Measures per site: 5 branches per plant with 6 inflorescence per branch. 5 plants. Observations last 15 mins each. 1 temporal replicate",NA
"Smitha_Krishnan_Coffea_canephora_India_2009","deviyy0","Direct ocular observations","Apis dorsata","Species","honeybees",89,NA,75,NA,"Locations with 5 distance classes (<10, 50, 100, 250, 500m) measured from the edge of a forest fragment within each location. Few had to be discarded due to rains on day of observation. Measures per site: 5 branches per plant with 6 inflorescence per branch. 5 plants. Observations last 15 mins each. 1 temporal replicate",NA
"Smitha_Krishnan_Coffea_canephora_India_2009","deviyy0","Direct ocular observations","Apis cerana indica","Species","honeybees",27,NA,75,NA,"Locations with 5 distance classes (<10, 50, 100, 250, 500m) measured from the edge of a forest fragment within each location. Few had to be discarded due to rains on day of observation. Measures per site: 5 branches per plant with 6 inflorescence per branch. 5 plants. Observations last 15 mins each. 1 temporal replicate",NA
"Smitha_Krishnan_Coffea_canephora_India_2009","deviyy0","Direct ocular observations","Tetragonula iridipennis","Species","other_wild_bees",30,NA,75,NA,"Locations with 5 distance classes (<10, 50, 100, 250, 500m) measured from the edge of a forest fragment within each location. Few had to be discarded due to rains on day of observation. Measures per site: 5 branches per plant with 6 inflorescence per branch. 5 plants. Observations last 15 mins each. 1 temporal replicate",NA
"Smitha_Krishnan_Coffea_canephora_India_2009","deviyy0","Direct ocular observations","May fly","Order","other_flies",1,NA,75,NA,"Locations with 5 distance classes (<10, 50, 100, 250, 500m) measured from the edge of a forest fragment within each location. Few had to be discarded due to rains on day of observation. Measures per site: 5 branches per plant with 6 inflorescence per branch. 5 plants. Observations last 15 mins each. 1 temporal replicate",NA
"Smitha_Krishnan_Coffea_canephora_India_2009","deviyy50","Direct ocular observations","Apis dorsata","Species","honeybees",142,NA,75,NA,"Locations with 5 distance classes (<10, 50, 100, 250, 500m) measured from the edge of a forest fragment within each location. Few had to be discarded due to rains on day of observation. Measures per site: 5 branches per plant with 6 inflorescence per branch. 5 plants. Observations last 15 mins each. 1 temporal replicate",NA
"Smitha_Krishnan_Coffea_canephora_India_2009","deviyy50","Direct ocular observations","Apis cerana indica","Species","honeybees",24,NA,75,NA,"Locations with 5 distance classes (<10, 50, 100, 250, 500m) measured from the edge of a forest fragment within each location. Few had to be discarded due to rains on day of observation. Measures per site: 5 branches per plant with 6 inflorescence per branch. 5 plants. Observations last 15 mins each. 1 temporal replicate",NA
"Smitha_Krishnan_Coffea_canephora_India_2009","deviyy50","Direct ocular observations","Apis florea","Species","honeybees",1,NA,75,NA,"Locations with 5 distance classes (<10, 50, 100, 250, 500m) measured from the edge of a forest fragment within each location. Few had to be discarded due to rains on day of observation. Measures per site: 5 branches per plant with 6 inflorescence per branch. 5 plants. Observations last 15 mins each. 1 temporal replicate",NA
"Smitha_Krishnan_Coffea_canephora_India_2009","deviyy50","Direct ocular observations","Tetragonula iridipennis","Species","other_wild_bees",27,NA,75,NA,"Locations with 5 distance classes (<10, 50, 100, 250, 500m) measured from the edge of a forest fragment within each location. Few had to be discarded due to rains on day of observation. Measures per site: 5 branches per plant with 6 inflorescence per branch. 5 plants. Observations last 15 mins each. 1 temporal replicate",NA
"Smitha_Krishnan_Coffea_canephora_India_2009","deviyy50","Direct ocular observations","Ceratina hieroglyphica","Species","other_wild_bees",1,NA,75,NA,"Locations with 5 distance classes (<10, 50, 100, 250, 500m) measured from the edge of a forest fragment within each location. Few had to be discarded due to rains on day of observation. Measures per site: 5 branches per plant with 6 inflorescence per branch. 5 plants. Observations last 15 mins each. 1 temporal replicate",NA
"Smitha_Krishnan_Coffea_canephora_India_2009","deviyy50","Direct ocular observations","Eumenine","Subfamily","non_bee_hymenoptera",4,NA,75,NA,"Locations with 5 distance classes (<10, 50, 100, 250, 500m) measured from the edge of a forest fragment within each location. Few had to be discarded due to rains on day of observation. Measures per site: 5 branches per plant with 6 inflorescence per branch. 5 plants. Observations last 15 mins each. 1 temporal replicate",NA
"Smitha_Krishnan_Coffea_canephora_India_2009","deviyy100","Direct ocular observations","Apis dorsata","Species","honeybees",81,NA,75,NA,"Locations with 5 distance classes (<10, 50, 100, 250, 500m) measured from the edge of a forest fragment within each location. Few had to be discarded due to rains on day of observation. Measures per site: 5 branches per plant with 6 inflorescence per branch. 5 plants. Observations last 15 mins each. 1 temporal replicate",NA
"Smitha_Krishnan_Coffea_canephora_India_2009","deviyy100","Direct ocular observations","Apis cerana indica","Species","honeybees",36,NA,75,NA,"Locations with 5 distance classes (<10, 50, 100, 250, 500m) measured from the edge of a forest fragment within each location. Few had to be discarded due to rains on day of observation. Measures per site: 5 branches per plant with 6 inflorescence per branch. 5 plants. Observations last 15 mins each. 1 temporal replicate",NA
"Smitha_Krishnan_Coffea_canephora_India_2009","deviyy100","Direct ocular observations","Tetragonula iridipennis","Species","other_wild_bees",40,NA,75,NA,"Locations with 5 distance classes (<10, 50, 100, 250, 500m) measured from the edge of a forest fragment within each location. Few had to be discarded due to rains on day of observation. Measures per site: 5 branches per plant with 6 inflorescence per branch. 5 plants. Observations last 15 mins each. 1 temporal replicate",NA
"Smitha_Krishnan_Coffea_canephora_India_2009","deviyy250","Direct ocular observations","Apis dorsata","Species","honeybees",9,NA,75,NA,"Locations with 5 distance classes (<10, 50, 100, 250, 500m) measured from the edge of a forest fragment within each location. Few had to be discarded due to rains on day of observation. Measures per site: 5 branches per plant with 6 inflorescence per branch. 5 plants. Observations last 15 mins each. 1 temporal replicate",NA
"Smitha_Krishnan_Coffea_canephora_India_2009","deviyy250","Direct ocular observations","Apis cerana indica","Species","honeybees",1,NA,75,NA,"Locations with 5 distance classes (<10, 50, 100, 250, 500m) measured from the edge of a forest fragment within each location. Few had to be discarded due to rains on day of observation. Measures per site: 5 branches per plant with 6 inflorescence per branch. 5 plants. Observations last 15 mins each. 1 temporal replicate",NA
"Smitha_Krishnan_Coffea_canephora_India_2009","deviyy250","Direct ocular observations","Tetragonula iridipennis","Species","other_wild_bees",10,NA,75,NA,"Locations with 5 distance classes (<10, 50, 100, 250, 500m) measured from the edge of a forest fragment within each location. Few had to be discarded due to rains on day of observation. Measures per site: 5 branches per plant with 6 inflorescence per branch. 5 plants. Observations last 15 mins each. 1 temporal replicate",NA
"Smitha_Krishnan_Coffea_canephora_India_2009","deviyy250","Direct ocular observations","Diptera-Fly","Order","other_flies",1,NA,75,NA,"Locations with 5 distance classes (<10, 50, 100, 250, 500m) measured from the edge of a forest fragment within each location. Few had to be discarded due to rains on day of observation. Measures per site: 5 branches per plant with 6 inflorescence per branch. 5 plants. Observations last 15 mins each. 1 temporal replicate",NA
"Smitha_Krishnan_Coffea_canephora_India_2009","deviyy250","Direct ocular observations","Thysanoptera (Thrips)","Order","other",2,NA,75,NA,"Locations with 5 distance classes (<10, 50, 100, 250, 500m) measured from the edge of a forest fragment within each location. Few had to be discarded due to rains on day of observation. Measures per site: 5 branches per plant with 6 inflorescence per branch. 5 plants. Observations last 15 mins each. 1 temporal replicate",NA
"Smitha_Krishnan_Coffea_canephora_India_2009","deviyy500","Direct ocular observations","Apis dorsata","Species","honeybees",12,NA,75,NA,"Locations with 5 distance classes (<10, 50, 100, 250, 500m) measured from the edge of a forest fragment within each location. Few had to be discarded due to rains on day of observation. Measures per site: 5 branches per plant with 6 inflorescence per branch. 5 plants. Observations last 15 mins each. 1 temporal replicate",NA
"Smitha_Krishnan_Coffea_canephora_India_2009","deviyy500","Direct ocular observations","Apis cerana indica","Species","honeybees",4,NA,75,NA,"Locations with 5 distance classes (<10, 50, 100, 250, 500m) measured from the edge of a forest fragment within each location. Few had to be discarded due to rains on day of observation. Measures per site: 5 branches per plant with 6 inflorescence per branch. 5 plants. Observations last 15 mins each. 1 temporal replicate",NA
"Smitha_Krishnan_Coffea_canephora_India_2009","deviyy500","Direct ocular observations","Tetragonula iridipennis","Species","other_wild_bees",15,NA,75,NA,"Locations with 5 distance classes (<10, 50, 100, 250, 500m) measured from the edge of a forest fragment within each location. Few had to be discarded due to rains on day of observation. Measures per site: 5 branches per plant with 6 inflorescence per branch. 5 plants. Observations last 15 mins each. 1 temporal replicate",NA
"Smitha_Krishnan_Coffea_canephora_India_2009","deviyy500","Direct ocular observations","Syrphidae (hover fly)","Family","syrphids",1,NA,75,NA,"Locations with 5 distance classes (<10, 50, 100, 250, 500m) measured from the edge of a forest fragment within each location. Few had to be discarded due to rains on day of observation. Measures per site: 5 branches per plant with 6 inflorescence per branch. 5 plants. Observations last 15 mins each. 1 temporal replicate",NA
"Smitha_Krishnan_Coffea_canephora_India_2009","devtat0","Direct ocular observations","Apis dorsata","Species","honeybees",43,NA,75,NA,"Locations with 5 distance classes (<10, 50, 100, 250, 500m) measured from the edge of a forest fragment within each location. Few had to be discarded due to rains on day of observation. Measures per site: 5 branches per plant with 6 inflorescence per branch. 5 plants. Observations last 15 mins each. 1 temporal replicate",NA
"Smitha_Krishnan_Coffea_canephora_India_2009","devtat0","Direct ocular observations","Apis cerana indica","Species","honeybees",16,NA,75,NA,"Locations with 5 distance classes (<10, 50, 100, 250, 500m) measured from the edge of a forest fragment within each location. Few had to be discarded due to rains on day of observation. Measures per site: 5 branches per plant with 6 inflorescence per branch. 5 plants. Observations last 15 mins each. 1 temporal replicate",NA
"Smitha_Krishnan_Coffea_canephora_India_2009","devtat0","Direct ocular observations","Tetragonula iridipennis","Species","other_wild_bees",1,NA,75,NA,"Locations with 5 distance classes (<10, 50, 100, 250, 500m) measured from the edge of a forest fragment within each location. Few had to be discarded due to rains on day of observation. Measures per site: 5 branches per plant with 6 inflorescence per branch. 5 plants. Observations last 15 mins each. 1 temporal replicate",NA
"Smitha_Krishnan_Coffea_canephora_India_2009","devtat0","Direct ocular observations","Eumenine","Subfamily","non_bee_hymenoptera",2,NA,75,NA,"Locations with 5 distance classes (<10, 50, 100, 250, 500m) measured from the edge of a forest fragment within each location. Few had to be discarded due to rains on day of observation. Measures per site: 5 branches per plant with 6 inflorescence per branch. 5 plants. Observations last 15 mins each. 1 temporal replicate",NA
"Smitha_Krishnan_Coffea_canephora_India_2009","devtat0","Direct ocular observations","Syrphidae (hover fly)","Family","syrphids",1,NA,75,NA,"Locations with 5 distance classes (<10, 50, 100, 250, 500m) measured from the edge of a forest fragment within each location. Few had to be discarded due to rains on day of observation. Measures per site: 5 branches per plant with 6 inflorescence per branch. 5 plants. Observations last 15 mins each. 1 temporal replicate",NA
"Smitha_Krishnan_Coffea_canephora_India_2009","devtat0","Direct ocular observations","Diptera-Fly","Order","other_flies",2,NA,75,NA,"Locations with 5 distance classes (<10, 50, 100, 250, 500m) measured from the edge of a forest fragment within each location. Few had to be discarded due to rains on day of observation. Measures per site: 5 branches per plant with 6 inflorescence per branch. 5 plants. Observations last 15 mins each. 1 temporal replicate",NA
"Smitha_Krishnan_Coffea_canephora_India_2009","devtat0","Direct ocular observations","Thysanoptera (Thrips)","Order","other",3,NA,75,NA,"Locations with 5 distance classes (<10, 50, 100, 250, 500m) measured from the edge of a forest fragment within each location. Few had to be discarded due to rains on day of observation. Measures per site: 5 branches per plant with 6 inflorescence per branch. 5 plants. Observations last 15 mins each. 1 temporal replicate",NA
"Smitha_Krishnan_Coffea_canephora_India_2009","devtat50","Direct ocular observations","Apis dorsata","Species","honeybees",2,NA,75,NA,"Locations with 5 distance classes (<10, 50, 100, 250, 500m) measured from the edge of a forest fragment within each location. Few had to be discarded due to rains on day of observation. Measures per site: 5 branches per plant with 6 inflorescence per branch. 5 plants. Observations last 15 mins each. 1 temporal replicate",NA
"Smitha_Krishnan_Coffea_canephora_India_2009","devtat50","Direct ocular observations","Apis cerana indica","Species","honeybees",3,NA,75,NA,"Locations with 5 distance classes (<10, 50, 100, 250, 500m) measured from the edge of a forest fragment within each location. Few had to be discarded due to rains on day of observation. Measures per site: 5 branches per plant with 6 inflorescence per branch. 5 plants. Observations last 15 mins each. 1 temporal replicate",NA
"Smitha_Krishnan_Coffea_canephora_India_2009","devtat50","Direct ocular observations","Syrphidae (hover fly)","Family","syrphids",1,NA,75,NA,"Locations with 5 distance classes (<10, 50, 100, 250, 500m) measured from the edge of a forest fragment within each location. Few had to be discarded due to rains on day of observation. Measures per site: 5 branches per plant with 6 inflorescence per branch. 5 plants. Observations last 15 mins each. 1 temporal replicate",NA
"Smitha_Krishnan_Coffea_canephora_India_2009","devtat50","Direct ocular observations","Thysanoptera (Thrips)","Order","other",1,NA,75,NA,"Locations with 5 distance classes (<10, 50, 100, 250, 500m) measured from the edge of a forest fragment within each location. Few had to be discarded due to rains on day of observation. Measures per site: 5 branches per plant with 6 inflorescence per branch. 5 plants. Observations last 15 mins each. 1 temporal replicate",NA
"Smitha_Krishnan_Coffea_canephora_India_2009","devtat100","Direct ocular observations","Apis dorsata","Species","honeybees",21,NA,75,NA,"Locations with 5 distance classes (<10, 50, 100, 250, 500m) measured from the edge of a forest fragment within each location. Few had to be discarded due to rains on day of observation. Measures per site: 5 branches per plant with 6 inflorescence per branch. 5 plants. Observations last 15 mins each. 1 temporal replicate",NA
"Smitha_Krishnan_Coffea_canephora_India_2009","devtat100","Direct ocular observations","Apis cerana indica","Species","honeybees",19,NA,75,NA,"Locations with 5 distance classes (<10, 50, 100, 250, 500m) measured from the edge of a forest fragment within each location. Few had to be discarded due to rains on day of observation. Measures per site: 5 branches per plant with 6 inflorescence per branch. 5 plants. Observations last 15 mins each. 1 temporal replicate",NA
"Smitha_Krishnan_Coffea_canephora_India_2009","devtat100","Direct ocular observations","Tetragonula iridipennis","Species","other_wild_bees",2,NA,75,NA,"Locations with 5 distance classes (<10, 50, 100, 250, 500m) measured from the edge of a forest fragment within each location. Few had to be discarded due to rains on day of observation. Measures per site: 5 branches per plant with 6 inflorescence per branch. 5 plants. Observations last 15 mins each. 1 temporal replicate",NA
"Smitha_Krishnan_Coffea_canephora_India_2009","devtat100","Direct ocular observations","Ceratina hieroglyphica","Species","other_wild_bees",1,NA,75,NA,"Locations with 5 distance classes (<10, 50, 100, 250, 500m) measured from the edge of a forest fragment within each location. Few had to be discarded due to rains on day of observation. Measures per site: 5 branches per plant with 6 inflorescence per branch. 5 plants. Observations last 15 mins each. 1 temporal replicate",NA
"Smitha_Krishnan_Coffea_canephora_India_2009","devtat100","Direct ocular observations","Thysanoptera (Thrips)","Order","other",10,NA,75,NA,"Locations with 5 distance classes (<10, 50, 100, 250, 500m) measured from the edge of a forest fragment within each location. Few had to be discarded due to rains on day of observation. Measures per site: 5 branches per plant with 6 inflorescence per branch. 5 plants. Observations last 15 mins each. 1 temporal replicate",NA
"Smitha_Krishnan_Coffea_canephora_India_2009","devtat250","Direct ocular observations","Apis dorsata","Species","honeybees",78,NA,75,NA,"Locations with 5 distance classes (<10, 50, 100, 250, 500m) measured from the edge of a forest fragment within each location. Few had to be discarded due to rains on day of observation. Measures per site: 5 branches per plant with 6 inflorescence per branch. 5 plants. Observations last 15 mins each. 1 temporal replicate",NA
"Smitha_Krishnan_Coffea_canephora_India_2009","devtat250","Direct ocular observations","Apis cerana indica","Species","honeybees",6,NA,75,NA,"Locations with 5 distance classes (<10, 50, 100, 250, 500m) measured from the edge of a forest fragment within each location. Few had to be discarded due to rains on day of observation. Measures per site: 5 branches per plant with 6 inflorescence per branch. 5 plants. Observations last 15 mins each. 1 temporal replicate",NA
"Smitha_Krishnan_Coffea_canephora_India_2009","devtat250","Direct ocular observations","Eumenine","Subfamily","non_bee_hymenoptera",1,NA,75,NA,"Locations with 5 distance classes (<10, 50, 100, 250, 500m) measured from the edge of a forest fragment within each location. Few had to be discarded due to rains on day of observation. Measures per site: 5 branches per plant with 6 inflorescence per branch. 5 plants. Observations last 15 mins each. 1 temporal replicate",NA
"Smitha_Krishnan_Coffea_canephora_India_2009","devtat250","Direct ocular observations","Diptera-Fly","Order","other_flies",1,NA,75,NA,"Locations with 5 distance classes (<10, 50, 100, 250, 500m) measured from the edge of a forest fragment within each location. Few had to be discarded due to rains on day of observation. Measures per site: 5 branches per plant with 6 inflorescence per branch. 5 plants. Observations last 15 mins each. 1 temporal replicate",NA
"Smitha_Krishnan_Coffea_canephora_India_2009","devtat500","Direct ocular observations","Apis dorsata","Species","honeybees",49,NA,75,NA,"Locations with 5 distance classes (<10, 50, 100, 250, 500m) measured from the edge of a forest fragment within each location. Few had to be discarded due to rains on day of observation. Measures per site: 5 branches per plant with 6 inflorescence per branch. 5 plants. Observations last 15 mins each. 1 temporal replicate",NA
"Smitha_Krishnan_Coffea_canephora_India_2009","devtat500","Direct ocular observations","Apis cerana indica","Species","honeybees",42,NA,75,NA,"Locations with 5 distance classes (<10, 50, 100, 250, 500m) measured from the edge of a forest fragment within each location. Few had to be discarded due to rains on day of observation. Measures per site: 5 branches per plant with 6 inflorescence per branch. 5 plants. Observations last 15 mins each. 1 temporal replicate",NA
"Smitha_Krishnan_Coffea_canephora_India_2009","devtat500","Direct ocular observations","Tetragonula iridipennis","Species","other_wild_bees",12,NA,75,NA,"Locations with 5 distance classes (<10, 50, 100, 250, 500m) measured from the edge of a forest fragment within each location. Few had to be discarded due to rains on day of observation. Measures per site: 5 branches per plant with 6 inflorescence per branch. 5 plants. Observations last 15 mins each. 1 temporal replicate",NA
"Smitha_Krishnan_Coffea_canephora_India_2009","devtat500","Direct ocular observations","Eumenine","Subfamily","non_bee_hymenoptera",3,NA,75,NA,"Locations with 5 distance classes (<10, 50, 100, 250, 500m) measured from the edge of a forest fragment within each location. Few had to be discarded due to rains on day of observation. Measures per site: 5 branches per plant with 6 inflorescence per branch. 5 plants. Observations last 15 mins each. 1 temporal replicate",NA
"Smitha_Krishnan_Coffea_canephora_India_2009","hatvan0","Direct ocular observations","Apis dorsata","Species","honeybees",61,NA,75,NA,"Locations with 5 distance classes (<10, 50, 100, 250, 500m) measured from the edge of a forest fragment within each location. Few had to be discarded due to rains on day of observation. Measures per site: 5 branches per plant with 6 inflorescence per branch. 5 plants. Observations last 15 mins each. 1 temporal replicate",NA
"Smitha_Krishnan_Coffea_canephora_India_2009","hatvan0","Direct ocular observations","Apis cerana indica","Species","honeybees",12,NA,75,NA,"Locations with 5 distance classes (<10, 50, 100, 250, 500m) measured from the edge of a forest fragment within each location. Few had to be discarded due to rains on day of observation. Measures per site: 5 branches per plant with 6 inflorescence per branch. 5 plants. Observations last 15 mins each. 1 temporal replicate",NA
"Smitha_Krishnan_Coffea_canephora_India_2009","hatvan0","Direct ocular observations","Tetragonula iridipennis","Species","other_wild_bees",24,NA,75,NA,"Locations with 5 distance classes (<10, 50, 100, 250, 500m) measured from the edge of a forest fragment within each location. Few had to be discarded due to rains on day of observation. Measures per site: 5 branches per plant with 6 inflorescence per branch. 5 plants. Observations last 15 mins each. 1 temporal replicate",NA
"Smitha_Krishnan_Coffea_canephora_India_2009","hatvan0","Direct ocular observations","Eumenine","Subfamily","non_bee_hymenoptera",1,NA,75,NA,"Locations with 5 distance classes (<10, 50, 100, 250, 500m) measured from the edge of a forest fragment within each location. Few had to be discarded due to rains on day of observation. Measures per site: 5 branches per plant with 6 inflorescence per branch. 5 plants. Observations last 15 mins each. 1 temporal replicate",NA
"Smitha_Krishnan_Coffea_canephora_India_2009","hatvan50","Direct ocular observations","Apis dorsata","Species","honeybees",93,NA,75,NA,"Locations with 5 distance classes (<10, 50, 100, 250, 500m) measured from the edge of a forest fragment within each location. Few had to be discarded due to rains on day of observation. Measures per site: 5 branches per plant with 6 inflorescence per branch. 5 plants. Observations last 15 mins each. 1 temporal replicate",NA
"Smitha_Krishnan_Coffea_canephora_India_2009","hatvan50","Direct ocular observations","Apis cerana indica","Species","honeybees",25,NA,75,NA,"Locations with 5 distance classes (<10, 50, 100, 250, 500m) measured from the edge of a forest fragment within each location. Few had to be discarded due to rains on day of observation. Measures per site: 5 branches per plant with 6 inflorescence per branch. 5 plants. Observations last 15 mins each. 1 temporal replicate",NA
"Smitha_Krishnan_Coffea_canephora_India_2009","hatvan50","Direct ocular observations","Tetragonula iridipennis","Species","other_wild_bees",4,NA,75,NA,"Locations with 5 distance classes (<10, 50, 100, 250, 500m) measured from the edge of a forest fragment within each location. Few had to be discarded due to rains on day of observation. Measures per site: 5 branches per plant with 6 inflorescence per branch. 5 plants. Observations last 15 mins each. 1 temporal replicate",NA
"Smitha_Krishnan_Coffea_canephora_India_2009","hatvan50","Direct ocular observations","Xylocopa aestuans/ Xylocopa latipes","Species","other_wild_bees",1,NA,75,NA,"Locations with 5 distance classes (<10, 50, 100, 250, 500m) measured from the edge of a forest fragment within each location. Few had to be discarded due to rains on day of observation. Measures per site: 5 branches per plant with 6 inflorescence per branch. 5 plants. Observations last 15 mins each. 1 temporal replicate",NA
"Smitha_Krishnan_Coffea_canephora_India_2009","hatvan50","Direct ocular observations","Eumenine","Subfamily","non_bee_hymenoptera",2,NA,75,NA,"Locations with 5 distance classes (<10, 50, 100, 250, 500m) measured from the edge of a forest fragment within each location. Few had to be discarded due to rains on day of observation. Measures per site: 5 branches per plant with 6 inflorescence per branch. 5 plants. Observations last 15 mins each. 1 temporal replicate",NA
"Smitha_Krishnan_Coffea_canephora_India_2009","hatvan100","Direct ocular observations","Apis dorsata","Species","honeybees",28,NA,75,NA,"Locations with 5 distance classes (<10, 50, 100, 250, 500m) measured from the edge of a forest fragment within each location. Few had to be discarded due to rains on day of observation. Measures per site: 5 branches per plant with 6 inflorescence per branch. 5 plants. Observations last 15 mins each. 1 temporal replicate",NA
"Smitha_Krishnan_Coffea_canephora_India_2009","hatvan100","Direct ocular observations","Apis cerana indica","Species","honeybees",28,NA,75,NA,"Locations with 5 distance classes (<10, 50, 100, 250, 500m) measured from the edge of a forest fragment within each location. Few had to be discarded due to rains on day of observation. Measures per site: 5 branches per plant with 6 inflorescence per branch. 5 plants. Observations last 15 mins each. 1 temporal replicate",NA
"Smitha_Krishnan_Coffea_canephora_India_2009","hatvan100","Direct ocular observations","Tetragonula iridipennis","Species","other_wild_bees",5,NA,75,NA,"Locations with 5 distance classes (<10, 50, 100, 250, 500m) measured from the edge of a forest fragment within each location. Few had to be discarded due to rains on day of observation. Measures per site: 5 branches per plant with 6 inflorescence per branch. 5 plants. Observations last 15 mins each. 1 temporal replicate",NA
"Smitha_Krishnan_Coffea_canephora_India_2009","hatvan100","Direct ocular observations","Eumenine","Subfamily","non_bee_hymenoptera",1,NA,75,NA,"Locations with 5 distance classes (<10, 50, 100, 250, 500m) measured from the edge of a forest fragment within each location. Few had to be discarded due to rains on day of observation. Measures per site: 5 branches per plant with 6 inflorescence per branch. 5 plants. Observations last 15 mins each. 1 temporal replicate",NA
"Smitha_Krishnan_Coffea_canephora_India_2009","hatvan250","Direct ocular observations","Apis dorsata","Species","honeybees",38,NA,75,NA,"Locations with 5 distance classes (<10, 50, 100, 250, 500m) measured from the edge of a forest fragment within each location. Few had to be discarded due to rains on day of observation. Measures per site: 5 branches per plant with 6 inflorescence per branch. 5 plants. Observations last 15 mins each. 1 temporal replicate",NA
"Smitha_Krishnan_Coffea_canephora_India_2009","hatvan250","Direct ocular observations","Apis cerana indica","Species","honeybees",14,NA,75,NA,"Locations with 5 distance classes (<10, 50, 100, 250, 500m) measured from the edge of a forest fragment within each location. Few had to be discarded due to rains on day of observation. Measures per site: 5 branches per plant with 6 inflorescence per branch. 5 plants. Observations last 15 mins each. 1 temporal replicate",NA
"Smitha_Krishnan_Coffea_canephora_India_2009","hatvan250","Direct ocular observations","Tetragonula iridipennis","Species","other_wild_bees",21,NA,75,NA,"Locations with 5 distance classes (<10, 50, 100, 250, 500m) measured from the edge of a forest fragment within each location. Few had to be discarded due to rains on day of observation. Measures per site: 5 branches per plant with 6 inflorescence per branch. 5 plants. Observations last 15 mins each. 1 temporal replicate",NA
"Smitha_Krishnan_Coffea_canephora_India_2009","hatvan250","Direct ocular observations","Ceratina hieroglyphica","Species","other_wild_bees",2,NA,75,NA,"Locations with 5 distance classes (<10, 50, 100, 250, 500m) measured from the edge of a forest fragment within each location. Few had to be discarded due to rains on day of observation. Measures per site: 5 branches per plant with 6 inflorescence per branch. 5 plants. Observations last 15 mins each. 1 temporal replicate",NA
"Smitha_Krishnan_Coffea_canephora_India_2009","hatvan250","Direct ocular observations","Diptera-Fly","Order","other_flies",1,NA,75,NA,"Locations with 5 distance classes (<10, 50, 100, 250, 500m) measured from the edge of a forest fragment within each location. Few had to be discarded due to rains on day of observation. Measures per site: 5 branches per plant with 6 inflorescence per branch. 5 plants. Observations last 15 mins each. 1 temporal replicate",NA
"Smitha_Krishnan_Coffea_canephora_India_2009","hatvan500","Direct ocular observations","Apis cerana indica","Species","honeybees",9,NA,75,NA,"Locations with 5 distance classes (<10, 50, 100, 250, 500m) measured from the edge of a forest fragment within each location. Few had to be discarded due to rains on day of observation. Measures per site: 5 branches per plant with 6 inflorescence per branch. 5 plants. Observations last 15 mins each. 1 temporal replicate",NA
"Smitha_Krishnan_Coffea_canephora_India_2009","hatvan500","Direct ocular observations","Tetragonula iridipennis","Species","other_wild_bees",12,NA,75,NA,"Locations with 5 distance classes (<10, 50, 100, 250, 500m) measured from the edge of a forest fragment within each location. Few had to be discarded due to rains on day of observation. Measures per site: 5 branches per plant with 6 inflorescence per branch. 5 plants. Observations last 15 mins each. 1 temporal replicate",NA
"Smitha_Krishnan_Coffea_canephora_India_2009","hatvan500","Direct ocular observations","Ceratina hieroglyphica","Species","other_wild_bees",1,NA,75,NA,"Locations with 5 distance classes (<10, 50, 100, 250, 500m) measured from the edge of a forest fragment within each location. Few had to be discarded due to rains on day of observation. Measures per site: 5 branches per plant with 6 inflorescence per branch. 5 plants. Observations last 15 mins each. 1 temporal replicate",NA
"Smitha_Krishnan_Coffea_canephora_India_2009","kottoli0","Direct ocular observations","Apis cerana indica","Species","honeybees",3,NA,75,NA,"Locations with 5 distance classes (<10, 50, 100, 250, 500m) measured from the edge of a forest fragment within each location. Few had to be discarded due to rains on day of observation. Measures per site: 5 branches per plant with 6 inflorescence per branch. 5 plants. Observations last 15 mins each. 1 temporal replicate",NA
"Smitha_Krishnan_Coffea_canephora_India_2009","kottoli0","Direct ocular observations","Tetragonula iridipennis","Species","other_wild_bees",16,NA,75,NA,"Locations with 5 distance classes (<10, 50, 100, 250, 500m) measured from the edge of a forest fragment within each location. Few had to be discarded due to rains on day of observation. Measures per site: 5 branches per plant with 6 inflorescence per branch. 5 plants. Observations last 15 mins each. 1 temporal replicate",NA
"Smitha_Krishnan_Coffea_canephora_India_2009","kottoli0","Direct ocular observations","Ceratina hieroglyphica","Species","other_wild_bees",2,NA,75,NA,"Locations with 5 distance classes (<10, 50, 100, 250, 500m) measured from the edge of a forest fragment within each location. Few had to be discarded due to rains on day of observation. Measures per site: 5 branches per plant with 6 inflorescence per branch. 5 plants. Observations last 15 mins each. 1 temporal replicate",NA
"Smitha_Krishnan_Coffea_canephora_India_2009","kottoli50","Direct ocular observations","Apis cerana indica","Species","honeybees",5,NA,75,NA,"Locations with 5 distance classes (<10, 50, 100, 250, 500m) measured from the edge of a forest fragment within each location. Few had to be discarded due to rains on day of observation. Measures per site: 5 branches per plant with 6 inflorescence per branch. 5 plants. Observations last 15 mins each. 1 temporal replicate",NA
"Smitha_Krishnan_Coffea_canephora_India_2009","kottoli50","Direct ocular observations","Tetragonula iridipennis","Species","other_wild_bees",1,NA,75,NA,"Locations with 5 distance classes (<10, 50, 100, 250, 500m) measured from the edge of a forest fragment within each location. Few had to be discarded due to rains on day of observation. Measures per site: 5 branches per plant with 6 inflorescence per branch. 5 plants. Observations last 15 mins each. 1 temporal replicate",NA
"Smitha_Krishnan_Coffea_canephora_India_2009","kottoli50","Direct ocular observations","Diptera-Fly","Order","other_flies",2,NA,75,NA,"Locations with 5 distance classes (<10, 50, 100, 250, 500m) measured from the edge of a forest fragment within each location. Few had to be discarded due to rains on day of observation. Measures per site: 5 branches per plant with 6 inflorescence per branch. 5 plants. Observations last 15 mins each. 1 temporal replicate",NA
"Smitha_Krishnan_Coffea_canephora_India_2009","kottoli100","Direct ocular observations","Apis cerana indica","Species","honeybees",12,NA,75,NA,"Locations with 5 distance classes (<10, 50, 100, 250, 500m) measured from the edge of a forest fragment within each location. Few had to be discarded due to rains on day of observation. Measures per site: 5 branches per plant with 6 inflorescence per branch. 5 plants. Observations last 15 mins each. 1 temporal replicate",NA
"Smitha_Krishnan_Coffea_canephora_India_2009","kottoli100","Direct ocular observations","Ceratina hieroglyphica","Species","other_wild_bees",1,NA,75,NA,"Locations with 5 distance classes (<10, 50, 100, 250, 500m) measured from the edge of a forest fragment within each location. Few had to be discarded due to rains on day of observation. Measures per site: 5 branches per plant with 6 inflorescence per branch. 5 plants. Observations last 15 mins each. 1 temporal replicate",NA
"Smitha_Krishnan_Coffea_canephora_India_2009","kottoli100","Direct ocular observations","Diptera-Fly","Order","other_flies",1,NA,75,NA,"Locations with 5 distance classes (<10, 50, 100, 250, 500m) measured from the edge of a forest fragment within each location. Few had to be discarded due to rains on day of observation. Measures per site: 5 branches per plant with 6 inflorescence per branch. 5 plants. Observations last 15 mins each. 1 temporal replicate",NA
"Smitha_Krishnan_Coffea_canephora_India_2009","kottoli250","Direct ocular observations","Apis dorsata","Species","honeybees",2,NA,75,NA,"Locations with 5 distance classes (<10, 50, 100, 250, 500m) measured from the edge of a forest fragment within each location. Few had to be discarded due to rains on day of observation. Measures per site: 5 branches per plant with 6 inflorescence per branch. 5 plants. Observations last 15 mins each. 1 temporal replicate",NA
"Smitha_Krishnan_Coffea_canephora_India_2009","kottoli250","Direct ocular observations","Apis cerana indica","Species","honeybees",48,NA,75,NA,"Locations with 5 distance classes (<10, 50, 100, 250, 500m) measured from the edge of a forest fragment within each location. Few had to be discarded due to rains on day of observation. Measures per site: 5 branches per plant with 6 inflorescence per branch. 5 plants. Observations last 15 mins each. 1 temporal replicate",NA
"Smitha_Krishnan_Coffea_canephora_India_2009","kottoli250","Direct ocular observations","Tetragonula iridipennis","Species","other_wild_bees",17,NA,75,NA,"Locations with 5 distance classes (<10, 50, 100, 250, 500m) measured from the edge of a forest fragment within each location. Few had to be discarded due to rains on day of observation. Measures per site: 5 branches per plant with 6 inflorescence per branch. 5 plants. Observations last 15 mins each. 1 temporal replicate",NA
"Smitha_Krishnan_Coffea_canephora_India_2009","kottoli250","Direct ocular observations","Ceratina hieroglyphica","Species","other_wild_bees",1,NA,75,NA,"Locations with 5 distance classes (<10, 50, 100, 250, 500m) measured from the edge of a forest fragment within each location. Few had to be discarded due to rains on day of observation. Measures per site: 5 branches per plant with 6 inflorescence per branch. 5 plants. Observations last 15 mins each. 1 temporal replicate",NA
"Smitha_Krishnan_Coffea_canephora_India_2009","kottoli500","Direct ocular observations","Tetragonula iridipennis","Species","other_wild_bees",1,NA,75,NA,"Locations with 5 distance classes (<10, 50, 100, 250, 500m) measured from the edge of a forest fragment within each location. Few had to be discarded due to rains on day of observation. Measures per site: 5 branches per plant with 6 inflorescence per branch. 5 plants. Observations last 15 mins each. 1 temporal replicate",NA
"Smitha_Krishnan_Coffea_canephora_India_2009","maibat0","Direct ocular observations","Thysanoptera (Thrips)","Order","other",3,NA,75,NA,"Locations with 5 distance classes (<10, 50, 100, 250, 500m) measured from the edge of a forest fragment within each location. Few had to be discarded due to rains on day of observation. Measures per site: 5 branches per plant with 6 inflorescence per branch. 5 plants. Observations last 15 mins each. 1 temporal replicate",NA
"Smitha_Krishnan_Coffea_canephora_India_2009","maibat50","Direct ocular observations","Apis dorsata","Species","honeybees",2,NA,75,NA,"Locations with 5 distance classes (<10, 50, 100, 250, 500m) measured from the edge of a forest fragment within each location. Few had to be discarded due to rains on day of observation. Measures per site: 5 branches per plant with 6 inflorescence per branch. 5 plants. Observations last 15 mins each. 1 temporal replicate",NA
"Smitha_Krishnan_Coffea_canephora_India_2009","maibat100","Direct ocular observations","Apis dorsata","Species","honeybees",1,NA,75,NA,"Locations with 5 distance classes (<10, 50, 100, 250, 500m) measured from the edge of a forest fragment within each location. Few had to be discarded due to rains on day of observation. Measures per site: 5 branches per plant with 6 inflorescence per branch. 5 plants. Observations last 15 mins each. 1 temporal replicate",NA
"Smitha_Krishnan_Coffea_canephora_India_2009","maibat100","Direct ocular observations","Apis cerana indica","Species","honeybees",1,NA,75,NA,"Locations with 5 distance classes (<10, 50, 100, 250, 500m) measured from the edge of a forest fragment within each location. Few had to be discarded due to rains on day of observation. Measures per site: 5 branches per plant with 6 inflorescence per branch. 5 plants. Observations last 15 mins each. 1 temporal replicate",NA
"Smitha_Krishnan_Coffea_canephora_India_2009","maibat100","Direct ocular observations","Tetragonula iridipennis","Species","other_wild_bees",1,NA,75,NA,"Locations with 5 distance classes (<10, 50, 100, 250, 500m) measured from the edge of a forest fragment within each location. Few had to be discarded due to rains on day of observation. Measures per site: 5 branches per plant with 6 inflorescence per branch. 5 plants. Observations last 15 mins each. 1 temporal replicate",NA
"Smitha_Krishnan_Coffea_canephora_India_2009","maibat100","Direct ocular observations","Thysanoptera (Thrips)","Order","other",2,NA,75,NA,"Locations with 5 distance classes (<10, 50, 100, 250, 500m) measured from the edge of a forest fragment within each location. Few had to be discarded due to rains on day of observation. Measures per site: 5 branches per plant with 6 inflorescence per branch. 5 plants. Observations last 15 mins each. 1 temporal replicate",NA
"Smitha_Krishnan_Coffea_canephora_India_2009","maibat250","Direct ocular observations","Apis dorsata","Species","honeybees",1,NA,75,NA,"Locations with 5 distance classes (<10, 50, 100, 250, 500m) measured from the edge of a forest fragment within each location. Few had to be discarded due to rains on day of observation. Measures per site: 5 branches per plant with 6 inflorescence per branch. 5 plants. Observations last 15 mins each. 1 temporal replicate",NA
"Smitha_Krishnan_Coffea_canephora_India_2009","maibat250","Direct ocular observations","Apis cerana indica","Species","honeybees",6,NA,75,NA,"Locations with 5 distance classes (<10, 50, 100, 250, 500m) measured from the edge of a forest fragment within each location. Few had to be discarded due to rains on day of observation. Measures per site: 5 branches per plant with 6 inflorescence per branch. 5 plants. Observations last 15 mins each. 1 temporal replicate",NA
"Smitha_Krishnan_Coffea_canephora_India_2009","maibat250","Direct ocular observations","Tetragonula iridipennis","Species","other_wild_bees",1,NA,75,NA,"Locations with 5 distance classes (<10, 50, 100, 250, 500m) measured from the edge of a forest fragment within each location. Few had to be discarded due to rains on day of observation. Measures per site: 5 branches per plant with 6 inflorescence per branch. 5 plants. Observations last 15 mins each. 1 temporal replicate",NA
"Smitha_Krishnan_Coffea_canephora_India_2009","maibat250","Direct ocular observations","Thysanoptera (Thrips)","Order","other",3,NA,75,NA,"Locations with 5 distance classes (<10, 50, 100, 250, 500m) measured from the edge of a forest fragment within each location. Few had to be discarded due to rains on day of observation. Measures per site: 5 branches per plant with 6 inflorescence per branch. 5 plants. Observations last 15 mins each. 1 temporal replicate",NA
"Smitha_Krishnan_Coffea_canephora_India_2009","maibat500","Direct ocular observations","Apis dorsata","Species","honeybees",2,NA,75,NA,"Locations with 5 distance classes (<10, 50, 100, 250, 500m) measured from the edge of a forest fragment within each location. Few had to be discarded due to rains on day of observation. Measures per site: 5 branches per plant with 6 inflorescence per branch. 5 plants. Observations last 15 mins each. 1 temporal replicate",NA
"Smitha_Krishnan_Coffea_canephora_India_2009","maibat500","Direct ocular observations","Apis cerana indica","Species","honeybees",20,NA,75,NA,"Locations with 5 distance classes (<10, 50, 100, 250, 500m) measured from the edge of a forest fragment within each location. Few had to be discarded due to rains on day of observation. Measures per site: 5 branches per plant with 6 inflorescence per branch. 5 plants. Observations last 15 mins each. 1 temporal replicate",NA
"Smitha_Krishnan_Coffea_canephora_India_2009","maibat500","Direct ocular observations","Tetragonula iridipennis","Species","other_wild_bees",12,NA,75,NA,"Locations with 5 distance classes (<10, 50, 100, 250, 500m) measured from the edge of a forest fragment within each location. Few had to be discarded due to rains on day of observation. Measures per site: 5 branches per plant with 6 inflorescence per branch. 5 plants. Observations last 15 mins each. 1 temporal replicate",NA
"Smitha_Krishnan_Coffea_canephora_India_2009","maibat500","Direct ocular observations","Thysanoptera (Thrips)","Order","other",3,NA,75,NA,"Locations with 5 distance classes (<10, 50, 100, 250, 500m) measured from the edge of a forest fragment within each location. Few had to be discarded due to rains on day of observation. Measures per site: 5 branches per plant with 6 inflorescence per branch. 5 plants. Observations last 15 mins each. 1 temporal replicate",NA
"Smitha_Krishnan_Coffea_canephora_India_2009","maimal0","Direct ocular observations","Apis dorsata","Species","honeybees",13,NA,75,NA,"Locations with 5 distance classes (<10, 50, 100, 250, 500m) measured from the edge of a forest fragment within each location. Few had to be discarded due to rains on day of observation. Measures per site: 5 branches per plant with 6 inflorescence per branch. 5 plants. Observations last 15 mins each. 1 temporal replicate",NA
"Smitha_Krishnan_Coffea_canephora_India_2009","maimal0","Direct ocular observations","Apis cerana indica","Species","honeybees",7,NA,75,NA,"Locations with 5 distance classes (<10, 50, 100, 250, 500m) measured from the edge of a forest fragment within each location. Few had to be discarded due to rains on day of observation. Measures per site: 5 branches per plant with 6 inflorescence per branch. 5 plants. Observations last 15 mins each. 1 temporal replicate",NA
"Smitha_Krishnan_Coffea_canephora_India_2009","maimal0","Direct ocular observations","Apis florea","Species","honeybees",1,NA,75,NA,"Locations with 5 distance classes (<10, 50, 100, 250, 500m) measured from the edge of a forest fragment within each location. Few had to be discarded due to rains on day of observation. Measures per site: 5 branches per plant with 6 inflorescence per branch. 5 plants. Observations last 15 mins each. 1 temporal replicate",NA
"Smitha_Krishnan_Coffea_canephora_India_2009","maimal0","Direct ocular observations","Tetragonula iridipennis","Species","other_wild_bees",12,NA,75,NA,"Locations with 5 distance classes (<10, 50, 100, 250, 500m) measured from the edge of a forest fragment within each location. Few had to be discarded due to rains on day of observation. Measures per site: 5 branches per plant with 6 inflorescence per branch. 5 plants. Observations last 15 mins each. 1 temporal replicate",NA
"Smitha_Krishnan_Coffea_canephora_India_2009","maimal0","Direct ocular observations","Ceratina hieroglyphica","Species","other_wild_bees",1,NA,75,NA,"Locations with 5 distance classes (<10, 50, 100, 250, 500m) measured from the edge of a forest fragment within each location. Few had to be discarded due to rains on day of observation. Measures per site: 5 branches per plant with 6 inflorescence per branch. 5 plants. Observations last 15 mins each. 1 temporal replicate",NA
"Smitha_Krishnan_Coffea_canephora_India_2009","maimal0","Direct ocular observations","Coleoptera_sp.3","Order","beetles",1,NA,75,NA,"Locations with 5 distance classes (<10, 50, 100, 250, 500m) measured from the edge of a forest fragment within each location. Few had to be discarded due to rains on day of observation. Measures per site: 5 branches per plant with 6 inflorescence per branch. 5 plants. Observations last 15 mins each. 1 temporal replicate",NA
"Smitha_Krishnan_Coffea_canephora_India_2009","maimal0","Direct ocular observations","Thysanoptera (Thrips)","Order","other",5,NA,75,NA,"Locations with 5 distance classes (<10, 50, 100, 250, 500m) measured from the edge of a forest fragment within each location. Few had to be discarded due to rains on day of observation. Measures per site: 5 branches per plant with 6 inflorescence per branch. 5 plants. Observations last 15 mins each. 1 temporal replicate",NA
"Smitha_Krishnan_Coffea_canephora_India_2009","maimal50","Direct ocular observations","Apis dorsata","Species","honeybees",8,NA,75,NA,"Locations with 5 distance classes (<10, 50, 100, 250, 500m) measured from the edge of a forest fragment within each location. Few had to be discarded due to rains on day of observation. Measures per site: 5 branches per plant with 6 inflorescence per branch. 5 plants. Observations last 15 mins each. 1 temporal replicate",NA
"Smitha_Krishnan_Coffea_canephora_India_2009","maimal50","Direct ocular observations","Apis cerana indica","Species","honeybees",2,NA,75,NA,"Locations with 5 distance classes (<10, 50, 100, 250, 500m) measured from the edge of a forest fragment within each location. Few had to be discarded due to rains on day of observation. Measures per site: 5 branches per plant with 6 inflorescence per branch. 5 plants. Observations last 15 mins each. 1 temporal replicate",NA
"Smitha_Krishnan_Coffea_canephora_India_2009","maimal50","Direct ocular observations","Tetragonula iridipennis","Species","other_wild_bees",1,NA,75,NA,"Locations with 5 distance classes (<10, 50, 100, 250, 500m) measured from the edge of a forest fragment within each location. Few had to be discarded due to rains on day of observation. Measures per site: 5 branches per plant with 6 inflorescence per branch. 5 plants. Observations last 15 mins each. 1 temporal replicate",NA
"Smitha_Krishnan_Coffea_canephora_India_2009","maimal50","Direct ocular observations","Thysanoptera (Thrips)","Order","other",3,NA,75,NA,"Locations with 5 distance classes (<10, 50, 100, 250, 500m) measured from the edge of a forest fragment within each location. Few had to be discarded due to rains on day of observation. Measures per site: 5 branches per plant with 6 inflorescence per branch. 5 plants. Observations last 15 mins each. 1 temporal replicate",NA
"Smitha_Krishnan_Coffea_canephora_India_2009","maimal250","Direct ocular observations","Apis dorsata","Species","honeybees",3,NA,75,NA,"Locations with 5 distance classes (<10, 50, 100, 250, 500m) measured from the edge of a forest fragment within each location. Few had to be discarded due to rains on day of observation. Measures per site: 5 branches per plant with 6 inflorescence per branch. 5 plants. Observations last 15 mins each. 1 temporal replicate",NA
"Smitha_Krishnan_Coffea_canephora_India_2009","maimal250","Direct ocular observations","Apis cerana indica","Species","honeybees",1,NA,75,NA,"Locations with 5 distance classes (<10, 50, 100, 250, 500m) measured from the edge of a forest fragment within each location. Few had to be discarded due to rains on day of observation. Measures per site: 5 branches per plant with 6 inflorescence per branch. 5 plants. Observations last 15 mins each. 1 temporal replicate",NA
"Smitha_Krishnan_Coffea_canephora_India_2009","maimal250","Direct ocular observations","Thysanoptera (Thrips)","Order","other",3,NA,75,NA,"Locations with 5 distance classes (<10, 50, 100, 250, 500m) measured from the edge of a forest fragment within each location. Few had to be discarded due to rains on day of observation. Measures per site: 5 branches per plant with 6 inflorescence per branch. 5 plants. Observations last 15 mins each. 1 temporal replicate",NA
"Smitha_Krishnan_Coffea_canephora_India_2009","maimal500","Direct ocular observations","Tetragonula iridipennis","Species","other_wild_bees",1,NA,75,NA,"Locations with 5 distance classes (<10, 50, 100, 250, 500m) measured from the edge of a forest fragment within each location. Few had to be discarded due to rains on day of observation. Measures per site: 5 branches per plant with 6 inflorescence per branch. 5 plants. Observations last 15 mins each. 1 temporal replicate",NA
"Smitha_Krishnan_Coffea_canephora_India_2009","maiman0","Direct ocular observations","Apis dorsata","Species","honeybees",2,NA,75,NA,"Locations with 5 distance classes (<10, 50, 100, 250, 500m) measured from the edge of a forest fragment within each location. Few had to be discarded due to rains on day of observation. Measures per site: 5 branches per plant with 6 inflorescence per branch. 5 plants. Observations last 15 mins each. 1 temporal replicate",NA
"Smitha_Krishnan_Coffea_canephora_India_2009","maiman0","Direct ocular observations","Apis cerana indica","Species","honeybees",1,NA,75,NA,"Locations with 5 distance classes (<10, 50, 100, 250, 500m) measured from the edge of a forest fragment within each location. Few had to be discarded due to rains on day of observation. Measures per site: 5 branches per plant with 6 inflorescence per branch. 5 plants. Observations last 15 mins each. 1 temporal replicate",NA
"Smitha_Krishnan_Coffea_canephora_India_2009","maiman0","Direct ocular observations","Tetragonula iridipennis","Species","other_wild_bees",3,NA,75,NA,"Locations with 5 distance classes (<10, 50, 100, 250, 500m) measured from the edge of a forest fragment within each location. Few had to be discarded due to rains on day of observation. Measures per site: 5 branches per plant with 6 inflorescence per branch. 5 plants. Observations last 15 mins each. 1 temporal replicate",NA
"Smitha_Krishnan_Coffea_canephora_India_2009","maiman0","Direct ocular observations","Thysanoptera (Thrips)","Order","other",1,NA,75,NA,"Locations with 5 distance classes (<10, 50, 100, 250, 500m) measured from the edge of a forest fragment within each location. Few had to be discarded due to rains on day of observation. Measures per site: 5 branches per plant with 6 inflorescence per branch. 5 plants. Observations last 15 mins each. 1 temporal replicate",NA
"Smitha_Krishnan_Coffea_canephora_India_2009","maiman50","Direct ocular observations","Apis dorsata","Species","honeybees",1,NA,75,NA,"Locations with 5 distance classes (<10, 50, 100, 250, 500m) measured from the edge of a forest fragment within each location. Few had to be discarded due to rains on day of observation. Measures per site: 5 branches per plant with 6 inflorescence per branch. 5 plants. Observations last 15 mins each. 1 temporal replicate",NA
"Smitha_Krishnan_Coffea_canephora_India_2009","maiman50","Direct ocular observations","Apis cerana indica","Species","honeybees",15,NA,75,NA,"Locations with 5 distance classes (<10, 50, 100, 250, 500m) measured from the edge of a forest fragment within each location. Few had to be discarded due to rains on day of observation. Measures per site: 5 branches per plant with 6 inflorescence per branch. 5 plants. Observations last 15 mins each. 1 temporal replicate",NA
"Smitha_Krishnan_Coffea_canephora_India_2009","maiman50","Direct ocular observations","Tetragonula iridipennis","Species","other_wild_bees",1,NA,75,NA,"Locations with 5 distance classes (<10, 50, 100, 250, 500m) measured from the edge of a forest fragment within each location. Few had to be discarded due to rains on day of observation. Measures per site: 5 branches per plant with 6 inflorescence per branch. 5 plants. Observations last 15 mins each. 1 temporal replicate",NA
"Smitha_Krishnan_Coffea_canephora_India_2009","maiman50","Direct ocular observations","Thysanoptera (Thrips)","Order","other",2,NA,75,NA,"Locations with 5 distance classes (<10, 50, 100, 250, 500m) measured from the edge of a forest fragment within each location. Few had to be discarded due to rains on day of observation. Measures per site: 5 branches per plant with 6 inflorescence per branch. 5 plants. Observations last 15 mins each. 1 temporal replicate",NA
"Smitha_Krishnan_Coffea_canephora_India_2009","maiman250","Direct ocular observations","Apis dorsata","Species","honeybees",6,NA,75,NA,"Locations with 5 distance classes (<10, 50, 100, 250, 500m) measured from the edge of a forest fragment within each location. Few had to be discarded due to rains on day of observation. Measures per site: 5 branches per plant with 6 inflorescence per branch. 5 plants. Observations last 15 mins each. 1 temporal replicate",NA
"Smitha_Krishnan_Coffea_canephora_India_2009","maiman250","Direct ocular observations","Apis cerana indica","Species","honeybees",7,NA,75,NA,"Locations with 5 distance classes (<10, 50, 100, 250, 500m) measured from the edge of a forest fragment within each location. Few had to be discarded due to rains on day of observation. Measures per site: 5 branches per plant with 6 inflorescence per branch. 5 plants. Observations last 15 mins each. 1 temporal replicate",NA
"Smitha_Krishnan_Coffea_canephora_India_2009","maiman250","Direct ocular observations","Tetragonula iridipennis","Species","other_wild_bees",1,NA,75,NA,"Locations with 5 distance classes (<10, 50, 100, 250, 500m) measured from the edge of a forest fragment within each location. Few had to be discarded due to rains on day of observation. Measures per site: 5 branches per plant with 6 inflorescence per branch. 5 plants. Observations last 15 mins each. 1 temporal replicate",NA
"Smitha_Krishnan_Coffea_canephora_India_2009","maiman500","Direct ocular observations","Apis dorsata","Species","honeybees",12,NA,75,NA,"Locations with 5 distance classes (<10, 50, 100, 250, 500m) measured from the edge of a forest fragment within each location. Few had to be discarded due to rains on day of observation. Measures per site: 5 branches per plant with 6 inflorescence per branch. 5 plants. Observations last 15 mins each. 1 temporal replicate",NA
"Smitha_Krishnan_Coffea_canephora_India_2009","maiman500","Direct ocular observations","Apis cerana indica","Species","honeybees",1,NA,75,NA,"Locations with 5 distance classes (<10, 50, 100, 250, 500m) measured from the edge of a forest fragment within each location. Few had to be discarded due to rains on day of observation. Measures per site: 5 branches per plant with 6 inflorescence per branch. 5 plants. Observations last 15 mins each. 1 temporal replicate",NA
"Smitha_Krishnan_Coffea_canephora_India_2014","kushal org1","Direct ocular observations","Apis cerana indica","Species","honeybees",1,NA,45,NA,"The abundance is the total abundance of replications of 15 minute observations on each of the 3 plants observed (7 branches/plant with 4 floral clusters/branch)",NA
"Smitha_Krishnan_Coffea_canephora_India_2014","kushal org1","Direct ocular observations","Thysanoptera (Thrips)","Order","other",3,NA,45,NA,"The abundance is the total abundance of replications of 15 minute observations on each of the 3 plants observed (7 branches/plant with 4 floral clusters/branch)",NA
"Smitha_Krishnan_Coffea_canephora_India_2014","kushal org2","Direct ocular observations","Thysanoptera (Thrips)","Order","other",29,NA,45,NA,"The abundance is the total abundance of replications of 15 minute observations on each of the 3 plants observed (7 branches/plant with 4 floral clusters/branch)",NA
"Smitha_Krishnan_Coffea_canephora_India_2014","kushal org3","Direct ocular observations","Apis florea","Species","honeybees",1,NA,45,NA,"The abundance is the total abundance of replications of 15 minute observations on each of the 3 plants observed (7 branches/plant with 4 floral clusters/branch)",NA
"Smitha_Krishnan_Coffea_canephora_India_2014","kushal org3","Direct ocular observations","Tetragonula iridipennis","Species","other_wild_bees",6,NA,45,NA,"The abundance is the total abundance of replications of 15 minute observations on each of the 3 plants observed (7 branches/plant with 4 floral clusters/branch)",NA
"Smitha_Krishnan_Coffea_canephora_India_2014","kushal org3","Direct ocular observations","Thysanoptera (Thrips)","Order","other",8,NA,45,NA,"The abundance is the total abundance of replications of 15 minute observations on each of the 3 plants observed (7 branches/plant with 4 floral clusters/branch)",NA
"Smitha_Krishnan_Coffea_canephora_India_2014","bharath1","Direct ocular observations","Apis cerana indica","Species","honeybees",1,NA,45,NA,"The abundance is the total abundance of replications of 15 minute observations on each of the 3 plants observed (7 branches/plant with 4 floral clusters/branch)",NA
"Smitha_Krishnan_Coffea_canephora_India_2014","bharath1","Direct ocular observations","Tetragonula iridipennis","Species","other_wild_bees",7,NA,45,NA,"The abundance is the total abundance of replications of 15 minute observations on each of the 3 plants observed (7 branches/plant with 4 floral clusters/branch)",NA
"Smitha_Krishnan_Coffea_canephora_India_2014","bharath1","Direct ocular observations","Thysanoptera (Thrips)","Order","other",13,NA,45,NA,"The abundance is the total abundance of replications of 15 minute observations on each of the 3 plants observed (7 branches/plant with 4 floral clusters/branch)",NA
"Smitha_Krishnan_Coffea_canephora_India_2014","bharath2","Direct ocular observations","Eumenine","Subfamily","non_bee_hymenoptera",1,NA,45,NA,"The abundance is the total abundance of replications of 15 minute observations on each of the 3 plants observed (7 branches/plant with 4 floral clusters/branch)",NA
"Smitha_Krishnan_Coffea_canephora_India_2014","bharath2","Direct ocular observations","Thysanoptera (Thrips)","Order","other",3,NA,45,NA,"The abundance is the total abundance of replications of 15 minute observations on each of the 3 plants observed (7 branches/plant with 4 floral clusters/branch)",NA
"Smitha_Krishnan_Coffea_canephora_India_2014","bharath3","Direct ocular observations","Apis cerana indica","Species","honeybees",12,NA,45,NA,"The abundance is the total abundance of replications of 15 minute observations on each of the 3 plants observed (7 branches/plant with 4 floral clusters/branch)",NA
"Smitha_Krishnan_Coffea_canephora_India_2014","bharath3","Direct ocular observations","Apis dorsata","Species","honeybees",5,NA,45,NA,"The abundance is the total abundance of replications of 15 minute observations on each of the 3 plants observed (7 branches/plant with 4 floral clusters/branch)",NA
"Smitha_Krishnan_Coffea_canephora_India_2014","bharath3","Direct ocular observations","Coleoptera","Order","beetles",2,NA,45,NA,"The abundance is the total abundance of replications of 15 minute observations on each of the 3 plants observed (7 branches/plant with 4 floral clusters/branch)",NA
"Smitha_Krishnan_Coffea_canephora_India_2014","bharath3","Direct ocular observations","Diptera2","Order","other_flies",1,NA,45,NA,"The abundance is the total abundance of replications of 15 minute observations on each of the 3 plants observed (7 branches/plant with 4 floral clusters/branch)",NA
"Smitha_Krishnan_Coffea_canephora_India_2014","bharath3","Direct ocular observations","Syrphidae (hover fly)","Family","syrphids",1,NA,45,NA,"The abundance is the total abundance of replications of 15 minute observations on each of the 3 plants observed (7 branches/plant with 4 floral clusters/branch)",NA
"Smitha_Krishnan_Coffea_canephora_India_2014","bharath3","Direct ocular observations","Tetragonula iridipennis","Species","other_wild_bees",25,NA,45,NA,"The abundance is the total abundance of replications of 15 minute observations on each of the 3 plants observed (7 branches/plant with 4 floral clusters/branch)",NA
"Smitha_Krishnan_Coffea_canephora_India_2014","bharath3","Direct ocular observations","Thysanoptera (Thrips)","Order","other",28,NA,45,NA,"The abundance is the total abundance of replications of 15 minute observations on each of the 3 plants observed (7 branches/plant with 4 floral clusters/branch)",NA
"Smitha_Krishnan_Coffea_canephora_India_2014","govindan1","Direct ocular observations","Thysanoptera (Thrips)","Order","other",14,NA,45,NA,"The abundance is the total abundance of replications of 15 minute observations on each of the 3 plants observed (7 branches/plant with 4 floral clusters/branch)",NA
"Smitha_Krishnan_Coffea_canephora_India_2014","govindan3","Direct ocular observations","Thysanoptera (Thrips)","Order","other",4,NA,45,NA,"The abundance is the total abundance of replications of 15 minute observations on each of the 3 plants observed (7 branches/plant with 4 floral clusters/branch)",NA
"Smitha_Krishnan_Coffea_canephora_India_2014","hamsa2","Direct ocular observations","Apis cerana indica","Species","honeybees",1,NA,45,NA,"The abundance is the total abundance of replications of 15 minute observations on each of the 3 plants observed (7 branches/plant with 4 floral clusters/branch)",NA
"Smitha_Krishnan_Coffea_canephora_India_2014","hamsa2","Direct ocular observations","Apis dorsata","Species","honeybees",6,NA,45,NA,"The abundance is the total abundance of replications of 15 minute observations on each of the 3 plants observed (7 branches/plant with 4 floral clusters/branch)",NA
"Smitha_Krishnan_Coffea_canephora_India_2014","hamsa3","Direct ocular observations","Apis cerana indica","Species","honeybees",4,NA,45,NA,"The abundance is the total abundance of replications of 15 minute observations on each of the 3 plants observed (7 branches/plant with 4 floral clusters/branch)",NA
"Smitha_Krishnan_Coffea_canephora_India_2014","hamsa3","Direct ocular observations","Apis dorsata","Species","honeybees",4,NA,45,NA,"The abundance is the total abundance of replications of 15 minute observations on each of the 3 plants observed (7 branches/plant with 4 floral clusters/branch)",NA
"Smitha_Krishnan_Coffea_canephora_India_2014","vasanti2","Direct ocular observations","Apis cerana indica","Species","honeybees",7,NA,45,NA,"The abundance is the total abundance of replications of 15 minute observations on each of the 3 plants observed (7 branches/plant with 4 floral clusters/branch)",NA
"Smitha_Krishnan_Coffea_canephora_India_2014","vasanti2","Direct ocular observations","Ceratina hieroglyphica","Species","other_wild_bees",3,NA,45,NA,"The abundance is the total abundance of replications of 15 minute observations on each of the 3 plants observed (7 branches/plant with 4 floral clusters/branch)",NA
"Smitha_Krishnan_Coffea_canephora_India_2014","vasanti2","Direct ocular observations","Tetragonula iridipennis","Species","other_wild_bees",43,NA,45,NA,"The abundance is the total abundance of replications of 15 minute observations on each of the 3 plants observed (7 branches/plant with 4 floral clusters/branch)",NA
"Smitha_Krishnan_Coffea_canephora_India_2014","vasanti2","Direct ocular observations","Thysanoptera (Thrips)","Order","other",1,NA,45,NA,"The abundance is the total abundance of replications of 15 minute observations on each of the 3 plants observed (7 branches/plant with 4 floral clusters/branch)",NA
"Smitha_Krishnan_Coffea_canephora_India_2014","vasanti3","Direct ocular observations","Apis cerana indica","Species","honeybees",5,NA,45,NA,"The abundance is the total abundance of replications of 15 minute observations on each of the 3 plants observed (7 branches/plant with 4 floral clusters/branch)",NA
"Smitha_Krishnan_Coffea_canephora_India_2014","vasanti3","Direct ocular observations","Ceratina hieroglyphica","Species","other_wild_bees",1,NA,45,NA,"The abundance is the total abundance of replications of 15 minute observations on each of the 3 plants observed (7 branches/plant with 4 floral clusters/branch)",NA
"Smitha_Krishnan_Coffea_canephora_India_2014","vasanti3","Direct ocular observations","Tetragonula iridipennis","Species","other_wild_bees",30,NA,45,NA,"The abundance is the total abundance of replications of 15 minute observations on each of the 3 plants observed (7 branches/plant with 4 floral clusters/branch)",NA
"Smitha_Krishnan_Coffea_canephora_India_2014","vasanti3","Direct ocular observations","Thysanoptera (Thrips)","Order","other",9,NA,45,NA,"The abundance is the total abundance of replications of 15 minute observations on each of the 3 plants observed (7 branches/plant with 4 floral clusters/branch)",NA
"Smitha_Krishnan_Coffea_canephora_India_2014","uthaiah1","Direct ocular observations","Thysanoptera (Thrips)","Order","other",2,NA,45,NA,"The abundance is the total abundance of replications of 15 minute observations on each of the 3 plants observed (7 branches/plant with 4 floral clusters/branch)",NA
"Smitha_Krishnan_Coffea_canephora_India_2014","uthaiah2","Direct ocular observations","Apis cerana indica","Species","honeybees",1,NA,45,NA,"The abundance is the total abundance of replications of 15 minute observations on each of the 3 plants observed (7 branches/plant with 4 floral clusters/branch)",NA
"Smitha_Krishnan_Coffea_canephora_India_2014","BBtC org1","Direct ocular observations","Tetragonula iridipennis","Species","other_wild_bees",3,NA,45,NA,"The abundance is the total abundance of replications of 15 minute observations on each of the 3 plants observed (7 branches/plant with 4 floral clusters/branch)",NA
"Smitha_Krishnan_Coffea_canephora_India_2014","BBtC org1","Direct ocular observations","Thysanoptera (Thrips)","Order","other",8,NA,45,NA,"The abundance is the total abundance of replications of 15 minute observations on each of the 3 plants observed (7 branches/plant with 4 floral clusters/branch)",NA
"Smitha_Krishnan_Coffea_canephora_India_2014","BBtC org2","Direct ocular observations","Apis cerana indica","Species","honeybees",13,NA,45,NA,"The abundance is the total abundance of replications of 15 minute observations on each of the 3 plants observed (7 branches/plant with 4 floral clusters/branch)",NA
"Smitha_Krishnan_Coffea_canephora_India_2014","BBtC org2","Direct ocular observations","Apis dorsata","Species","honeybees",78,NA,45,NA,"The abundance is the total abundance of replications of 15 minute observations on each of the 3 plants observed (7 branches/plant with 4 floral clusters/branch)",NA
"Smitha_Krishnan_Coffea_canephora_India_2014","BBtC org2","Direct ocular observations","Ceratina hieroglyphica","Species","other_wild_bees",1,NA,45,NA,"The abundance is the total abundance of replications of 15 minute observations on each of the 3 plants observed (7 branches/plant with 4 floral clusters/branch)",NA
"Smitha_Krishnan_Coffea_canephora_India_2014","BBtC org2","Direct ocular observations","Tetragonula iridipennis","Species","other_wild_bees",16,NA,45,NA,"The abundance is the total abundance of replications of 15 minute observations on each of the 3 plants observed (7 branches/plant with 4 floral clusters/branch)",NA
"Smitha_Krishnan_Coffea_canephora_India_2014","BBtC org2","Direct ocular observations","Thysanoptera (Thrips)","Order","other",4,NA,45,NA,"The abundance is the total abundance of replications of 15 minute observations on each of the 3 plants observed (7 branches/plant with 4 floral clusters/branch)",NA
"Smitha_Krishnan_Coffea_canephora_India_2014","BBtC org3","Direct ocular observations","Apis cerana indica","Species","honeybees",2,NA,45,NA,"The abundance is the total abundance of replications of 15 minute observations on each of the 3 plants observed (7 branches/plant with 4 floral clusters/branch)",NA
"Smitha_Krishnan_Coffea_canephora_India_2014","BBtC org3","Direct ocular observations","Apis dorsata","Species","honeybees",15,NA,45,NA,"The abundance is the total abundance of replications of 15 minute observations on each of the 3 plants observed (7 branches/plant with 4 floral clusters/branch)",NA
"Smitha_Krishnan_Coffea_canephora_India_2014","BBtC org3","Direct ocular observations","Thysanoptera (Thrips)","Order","other",5,NA,45,NA,"The abundance is the total abundance of replications of 15 minute observations on each of the 3 plants observed (7 branches/plant with 4 floral clusters/branch)",NA
"Smitha_Krishnan_Coffea_canephora_India_2014","karumbaiah1","Direct ocular observations","Apis cerana indica","Species","honeybees",5,NA,45,NA,"The abundance is the total abundance of replications of 15 minute observations on each of the 3 plants observed (7 branches/plant with 4 floral clusters/branch)",NA
"Smitha_Krishnan_Coffea_canephora_India_2014","karumbaiah2","Direct ocular observations","Apis cerana indica","Species","honeybees",1,NA,45,NA,"The abundance is the total abundance of replications of 15 minute observations on each of the 3 plants observed (7 branches/plant with 4 floral clusters/branch)",NA
"Smitha_Krishnan_Coffea_canephora_India_2014","karumbaiah3","Direct ocular observations","Apis cerana indica","Species","honeybees",6,NA,45,NA,"The abundance is the total abundance of replications of 15 minute observations on each of the 3 plants observed (7 branches/plant with 4 floral clusters/branch)",NA
"Smitha_Krishnan_Coffea_canephora_India_2014","karumbaiah3","Direct ocular observations","Apis dorsata","Species","honeybees",1,NA,45,NA,"The abundance is the total abundance of replications of 15 minute observations on each of the 3 plants observed (7 branches/plant with 4 floral clusters/branch)",NA
"Smitha_Krishnan_Coffea_canephora_India_2014","karumbaiah3","Direct ocular observations","Tetragonula iridipennis","Species","other_wild_bees",23,NA,45,NA,"The abundance is the total abundance of replications of 15 minute observations on each of the 3 plants observed (7 branches/plant with 4 floral clusters/branch)",NA
"Smitha_Krishnan_Coffea_canephora_India_2014","muthanna1","Direct ocular observations","Tetragonula iridipennis","Species","other_wild_bees",3,NA,45,NA,"The abundance is the total abundance of replications of 15 minute observations on each of the 3 plants observed (7 branches/plant with 4 floral clusters/branch)",NA
"Smitha_Krishnan_Coffea_canephora_India_2014","muthanna1","Direct ocular observations","Thysanoptera (Thrips)","Order","other",4,NA,45,NA,"The abundance is the total abundance of replications of 15 minute observations on each of the 3 plants observed (7 branches/plant with 4 floral clusters/branch)",NA
"Smitha_Krishnan_Coffea_canephora_India_2014","muthanna2","Direct ocular observations","Eumenine","Subfamily","non_bee_hymenoptera",3,NA,45,NA,"The abundance is the total abundance of replications of 15 minute observations on each of the 3 plants observed (7 branches/plant with 4 floral clusters/branch)",NA
"Smitha_Krishnan_Coffea_canephora_India_2014","muthanna2","Direct ocular observations","Muscidae (like a house fly)","Family","other_flies",1,NA,45,NA,"The abundance is the total abundance of replications of 15 minute observations on each of the 3 plants observed (7 branches/plant with 4 floral clusters/branch)",NA
"Smitha_Krishnan_Coffea_canephora_India_2014","muthanna3","Direct ocular observations","Lepidoptera","Order","lepidoptera",1,NA,45,NA,"The abundance is the total abundance of replications of 15 minute observations on each of the 3 plants observed (7 branches/plant with 4 floral clusters/branch)",NA
"Smitha_Krishnan_Coffea_canephora_India_2014","muthanna3","Direct ocular observations","Tetragonula iridipennis","Species","other_wild_bees",1,NA,45,NA,"The abundance is the total abundance of replications of 15 minute observations on each of the 3 plants observed (7 branches/plant with 4 floral clusters/branch)",NA
"Smitha_Krishnan_Coffea_canephora_India_2014","muthanna3","Direct ocular observations","Thysanoptera (Thrips)","Order","other",6,NA,45,NA,"The abundance is the total abundance of replications of 15 minute observations on each of the 3 plants observed (7 branches/plant with 4 floral clusters/branch)",NA
"Smitha_Krishnan_Coffea_canephora_India_2014","kushal Nt1","Direct ocular observations","Amegilla zonata/ A. confusa","Genera (2 species not differentiated)","other_wild_bees",1,NA,45,NA,"The abundance is the total abundance of replications of 15 minute observations on each of the 3 plants observed (7 branches/plant with 4 floral clusters/branch)",NA
"Smitha_Krishnan_Coffea_canephora_India_2014","kushal Nt1","Direct ocular observations","Apis cerana indica","Species","honeybees",75,NA,45,NA,"The abundance is the total abundance of replications of 15 minute observations on each of the 3 plants observed (7 branches/plant with 4 floral clusters/branch)",NA
"Smitha_Krishnan_Coffea_canephora_India_2014","kushal Nt1","Direct ocular observations","Apis dorsata","Species","honeybees",1,NA,45,NA,"The abundance is the total abundance of replications of 15 minute observations on each of the 3 plants observed (7 branches/plant with 4 floral clusters/branch)",NA
"Smitha_Krishnan_Coffea_canephora_India_2014","kushal Nt1","Direct ocular observations","Ceratina hieroglyphica","Species","other_wild_bees",1,NA,45,NA,"The abundance is the total abundance of replications of 15 minute observations on each of the 3 plants observed (7 branches/plant with 4 floral clusters/branch)",NA
"Smitha_Krishnan_Coffea_canephora_India_2014","kushal Nt1","Direct ocular observations","Tetragonula iridipennis","Species","other_wild_bees",3,NA,45,NA,"The abundance is the total abundance of replications of 15 minute observations on each of the 3 plants observed (7 branches/plant with 4 floral clusters/branch)",NA
"Smitha_Krishnan_Coffea_canephora_India_2014","kushal Nt1","Direct ocular observations","Thysanoptera (Thrips)","Order","other",7,NA,45,NA,"The abundance is the total abundance of replications of 15 minute observations on each of the 3 plants observed (7 branches/plant with 4 floral clusters/branch)",NA
"Smitha_Krishnan_Coffea_canephora_India_2014","kushal Nt2","Direct ocular observations","Apis cerana indica","Species","honeybees",1,NA,45,NA,"The abundance is the total abundance of replications of 15 minute observations on each of the 3 plants observed (7 branches/plant with 4 floral clusters/branch)",NA
"Smitha_Krishnan_Coffea_canephora_India_2014","kushal Nt2","Direct ocular observations","Thysanoptera (Thrips)","Order","other",5,NA,45,NA,"The abundance is the total abundance of replications of 15 minute observations on each of the 3 plants observed (7 branches/plant with 4 floral clusters/branch)",NA
"Smitha_Krishnan_Coffea_canephora_India_2014","kushal Nt3","Direct ocular observations","Amegilla zonata/ A. confusa","Genera (2 species not differentiated)","other_wild_bees",2,NA,45,NA,"The abundance is the total abundance of replications of 15 minute observations on each of the 3 plants observed (7 branches/plant with 4 floral clusters/branch)",NA
"Smitha_Krishnan_Coffea_canephora_India_2014","kushal Nt3","Direct ocular observations","Apis cerana indica","Species","honeybees",19,NA,45,NA,"The abundance is the total abundance of replications of 15 minute observations on each of the 3 plants observed (7 branches/plant with 4 floral clusters/branch)",NA
"Smitha_Krishnan_Coffea_canephora_India_2014","kushal Nt3","Direct ocular observations","Apis dorsata","Species","honeybees",25,NA,45,NA,"The abundance is the total abundance of replications of 15 minute observations on each of the 3 plants observed (7 branches/plant with 4 floral clusters/branch)",NA
"Smitha_Krishnan_Coffea_canephora_India_2014","kushal Nt3","Direct ocular observations","Ceratina hieroglyphica","Species","other_wild_bees",1,NA,45,NA,"The abundance is the total abundance of replications of 15 minute observations on each of the 3 plants observed (7 branches/plant with 4 floral clusters/branch)",NA
"Smitha_Krishnan_Coffea_canephora_India_2014","kushal Nt3","Direct ocular observations","Tetragonula iridipennis","Species","other_wild_bees",24,NA,45,NA,"The abundance is the total abundance of replications of 15 minute observations on each of the 3 plants observed (7 branches/plant with 4 floral clusters/branch)",NA
"Smitha_Krishnan_Coffea_canephora_India_2014","kushal Nt3","Direct ocular observations","Thysanoptera (Thrips)","Order","other",5,NA,45,NA,"The abundance is the total abundance of replications of 15 minute observations on each of the 3 plants observed (7 branches/plant with 4 floral clusters/branch)",NA
"Smitha_Krishnan_Coffea_canephora_India_2014","kushal Nt3","Direct ocular observations","Xylocopa aestuans","Species","other_wild_bees",1,NA,45,NA,"The abundance is the total abundance of replications of 15 minute observations on each of the 3 plants observed (7 branches/plant with 4 floral clusters/branch)",NA
"Smitha_Krishnan_Coffea_canephora_India_2014","skanda Nt2","Direct ocular observations","Tetragonula iridipennis","Species","other_wild_bees",2,NA,45,NA,"The abundance is the total abundance of replications of 15 minute observations on each of the 3 plants observed (7 branches/plant with 4 floral clusters/branch)",NA
"Smitha_Krishnan_Coffea_canephora_India_2014","skanda Nt3","Direct ocular observations","Tetragonula iridipennis","Species","other_wild_bees",3,NA,45,NA,"The abundance is the total abundance of replications of 15 minute observations on each of the 3 plants observed (7 branches/plant with 4 floral clusters/branch)",NA
"Smitha_Krishnan_Coffea_canephora_India_2014","raju1","Direct ocular observations","Thysanoptera (Thrips)","Order","other",2,NA,45,NA,"The abundance is the total abundance of replications of 15 minute observations on each of the 3 plants observed (7 branches/plant with 4 floral clusters/branch)",NA
"Smitha_Krishnan_Coffea_canephora_India_2014","raju2","Direct ocular observations","Tetragonula iridipennis","Species","other_wild_bees",1,NA,45,NA,"The abundance is the total abundance of replications of 15 minute observations on each of the 3 plants observed (7 branches/plant with 4 floral clusters/branch)",NA
"Smitha_Krishnan_Coffea_canephora_India_2014","raju2","Direct ocular observations","Thysanoptera (Thrips)","Order","other",3,NA,45,NA,"The abundance is the total abundance of replications of 15 minute observations on each of the 3 plants observed (7 branches/plant with 4 floral clusters/branch)",NA
"Smitha_Krishnan_Coffea_canephora_India_2014","raju3","Direct ocular observations","Thysanoptera (Thrips)","Order","other",2,NA,45,NA,"The abundance is the total abundance of replications of 15 minute observations on each of the 3 plants observed (7 branches/plant with 4 floral clusters/branch)",NA
"Smitha_Krishnan_Coffea_canephora_India_2014","subaiah1","Direct ocular observations","Apis cerana indica","Species","honeybees",3,NA,45,NA,"The abundance is the total abundance of replications of 15 minute observations on each of the 3 plants observed (7 branches/plant with 4 floral clusters/branch)",NA
"Smitha_Krishnan_Coffea_canephora_India_2014","subaiah1","Direct ocular observations","Apis dorsata","Species","honeybees",1,NA,45,NA,"The abundance is the total abundance of replications of 15 minute observations on each of the 3 plants observed (7 branches/plant with 4 floral clusters/branch)",NA
"Smitha_Krishnan_Coffea_canephora_India_2014","subaiah1","Direct ocular observations","Thysanoptera (Thrips)","Order","other",12,NA,45,NA,"The abundance is the total abundance of replications of 15 minute observations on each of the 3 plants observed (7 branches/plant with 4 floral clusters/branch)",NA
"Smitha_Krishnan_Coffea_canephora_India_2014","subaiah2","Direct ocular observations","Apis cerana indica","Species","honeybees",1,NA,45,NA,"The abundance is the total abundance of replications of 15 minute observations on each of the 3 plants observed (7 branches/plant with 4 floral clusters/branch)",NA
"Smitha_Krishnan_Coffea_canephora_India_2014","subaiah2","Direct ocular observations","Apis florea","Species","honeybees",1,NA,45,NA,"The abundance is the total abundance of replications of 15 minute observations on each of the 3 plants observed (7 branches/plant with 4 floral clusters/branch)",NA
"Smitha_Krishnan_Coffea_canephora_India_2014","subaiah2","Direct ocular observations","Tetragonula iridipennis","Species","other_wild_bees",3,NA,45,NA,"The abundance is the total abundance of replications of 15 minute observations on each of the 3 plants observed (7 branches/plant with 4 floral clusters/branch)",NA
"Smitha_Krishnan_Coffea_canephora_India_2014","subaiah2","Direct ocular observations","Thysanoptera (Thrips)","Order","other",11,NA,45,NA,"The abundance is the total abundance of replications of 15 minute observations on each of the 3 plants observed (7 branches/plant with 4 floral clusters/branch)",NA
"Smitha_Krishnan_Coffea_canephora_India_2014","subaiah3","Direct ocular observations","Apis cerana indica","Species","honeybees",5,NA,45,NA,"The abundance is the total abundance of replications of 15 minute observations on each of the 3 plants observed (7 branches/plant with 4 floral clusters/branch)",NA
"Smitha_Krishnan_Coffea_canephora_India_2014","subaiah3","Direct ocular observations","Tetragonula iridipennis","Species","other_wild_bees",15,NA,45,NA,"The abundance is the total abundance of replications of 15 minute observations on each of the 3 plants observed (7 branches/plant with 4 floral clusters/branch)",NA
"Smitha_Krishnan_Coffea_canephora_India_2014","subaiah3","Direct ocular observations","Thysanoptera (Thrips)","Order","other",6,NA,45,NA,"The abundance is the total abundance of replications of 15 minute observations on each of the 3 plants observed (7 branches/plant with 4 floral clusters/branch)",NA
"Smitha_Krishnan_Coffea_canephora_India_2014","BBtC conv1","Direct ocular observations","Tetragonula iridipennis","Species","other_wild_bees",19,NA,45,NA,"The abundance is the total abundance of replications of 15 minute observations on each of the 3 plants observed (7 branches/plant with 4 floral clusters/branch)",NA
"Smitha_Krishnan_Coffea_canephora_India_2014","BBtC conv1","Direct ocular observations","Thysanoptera (Thrips)","Order","other",1,NA,45,NA,"The abundance is the total abundance of replications of 15 minute observations on each of the 3 plants observed (7 branches/plant with 4 floral clusters/branch)",NA
"Smitha_Krishnan_Coffea_canephora_India_2014","BBtC conv2","Direct ocular observations","Apis dorsata","Species","honeybees",1,NA,45,NA,"The abundance is the total abundance of replications of 15 minute observations on each of the 3 plants observed (7 branches/plant with 4 floral clusters/branch)",NA
"Smitha_Krishnan_Coffea_canephora_India_2014","BBtC conv3","Direct ocular observations","Thysanoptera (Thrips)","Order","other",1,NA,45,NA,"The abundance is the total abundance of replications of 15 minute observations on each of the 3 plants observed (7 branches/plant with 4 floral clusters/branch)",NA
"Smitha_Krishnan_Coffea_canephora_India_2014","somanna1","Direct ocular observations","Amegilla zonata/ A. confusa","Genera (2 species not differentiated)","other_wild_bees",1,NA,45,NA,"The abundance is the total abundance of replications of 15 minute observations on each of the 3 plants observed (7 branches/plant with 4 floral clusters/branch)",NA
"Smitha_Krishnan_Coffea_canephora_India_2014","somanna1","Direct ocular observations","Apis cerana indica","Species","honeybees",1,NA,45,NA,"The abundance is the total abundance of replications of 15 minute observations on each of the 3 plants observed (7 branches/plant with 4 floral clusters/branch)",NA
"Smitha_Krishnan_Coffea_canephora_India_2014","somanna1","Direct ocular observations","Eumenine","Subfamily","non_bee_hymenoptera",1,NA,45,NA,"The abundance is the total abundance of replications of 15 minute observations on each of the 3 plants observed (7 branches/plant with 4 floral clusters/branch)",NA
"Smitha_Krishnan_Coffea_canephora_India_2014","somanna1","Direct ocular observations","Tetragonula iridipennis","Species","other_wild_bees",5,NA,45,NA,"The abundance is the total abundance of replications of 15 minute observations on each of the 3 plants observed (7 branches/plant with 4 floral clusters/branch)",NA
"Smitha_Krishnan_Coffea_canephora_India_2014","somanna1","Direct ocular observations","Thysanoptera (Thrips)","Order","other",25,NA,45,NA,"The abundance is the total abundance of replications of 15 minute observations on each of the 3 plants observed (7 branches/plant with 4 floral clusters/branch)",NA
"Smitha_Krishnan_Coffea_canephora_India_2014","somanna2","Direct ocular observations","Apis cerana indica","Species","honeybees",6,NA,45,NA,"The abundance is the total abundance of replications of 15 minute observations on each of the 3 plants observed (7 branches/plant with 4 floral clusters/branch)",NA
"Smitha_Krishnan_Coffea_canephora_India_2014","somanna2","Direct ocular observations","Diptera1","Order","other_flies",1,NA,45,NA,"The abundance is the total abundance of replications of 15 minute observations on each of the 3 plants observed (7 branches/plant with 4 floral clusters/branch)",NA
"Smitha_Krishnan_Coffea_canephora_India_2014","somanna2","Direct ocular observations","Tetragonula iridipennis","Species","other_wild_bees",1,NA,45,NA,"The abundance is the total abundance of replications of 15 minute observations on each of the 3 plants observed (7 branches/plant with 4 floral clusters/branch)",NA
"Smitha_Krishnan_Coffea_canephora_India_2014","somanna2","Direct ocular observations","Thysanoptera (Thrips)","Order","other",29,NA,45,NA,"The abundance is the total abundance of replications of 15 minute observations on each of the 3 plants observed (7 branches/plant with 4 floral clusters/branch)",NA
"Smitha_Krishnan_Coffea_canephora_India_2014","somanna3","Direct ocular observations","Apis cerana indica","Species","honeybees",2,NA,45,NA,"The abundance is the total abundance of replications of 15 minute observations on each of the 3 plants observed (7 branches/plant with 4 floral clusters/branch)",NA
"Smitha_Krishnan_Coffea_canephora_India_2014","somanna3","Direct ocular observations","Tetragonula iridipennis","Species","other_wild_bees",1,NA,45,NA,"The abundance is the total abundance of replications of 15 minute observations on each of the 3 plants observed (7 branches/plant with 4 floral clusters/branch)",NA
"Smitha_Krishnan_Coffea_canephora_India_2014","somanna3","Direct ocular observations","Thysanoptera (Thrips)","Order","other",3,NA,45,NA,"The abundance is the total abundance of replications of 15 minute observations on each of the 3 plants observed (7 branches/plant with 4 floral clusters/branch)",NA
"Smitha_Krishnan_Coffea_canephora_India_2014","raja1","Direct ocular observations","Amegilla zonata/ A. confusa","Genera (2 species not differentiated)","other_wild_bees",1,NA,45,NA,"The abundance is the total abundance of replications of 15 minute observations on each of the 3 plants observed (7 branches/plant with 4 floral clusters/branch)",NA
"Smitha_Krishnan_Coffea_canephora_India_2014","raja1","Direct ocular observations","Apis cerana indica","Species","honeybees",1,NA,45,NA,"The abundance is the total abundance of replications of 15 minute observations on each of the 3 plants observed (7 branches/plant with 4 floral clusters/branch)",NA
"Smitha_Krishnan_Coffea_canephora_India_2014","raja1","Direct ocular observations","Apis dorsata","Species","honeybees",295,NA,45,NA,"The abundance is the total abundance of replications of 15 minute observations on each of the 3 plants observed (7 branches/plant with 4 floral clusters/branch)",NA
"Smitha_Krishnan_Coffea_canephora_India_2014","raja1","Direct ocular observations","Diptera1","Order","other_flies",1,NA,45,NA,"The abundance is the total abundance of replications of 15 minute observations on each of the 3 plants observed (7 branches/plant with 4 floral clusters/branch)",NA
"Smitha_Krishnan_Coffea_canephora_India_2014","raja1","Direct ocular observations","Diptera3","Order","other_flies",1,NA,45,NA,"The abundance is the total abundance of replications of 15 minute observations on each of the 3 plants observed (7 branches/plant with 4 floral clusters/branch)",NA
"Smitha_Krishnan_Coffea_canephora_India_2014","raja1","Direct ocular observations","Tetragonula iridipennis","Species","other_wild_bees",3,NA,45,NA,"The abundance is the total abundance of replications of 15 minute observations on each of the 3 plants observed (7 branches/plant with 4 floral clusters/branch)",NA
"Smitha_Krishnan_Coffea_canephora_India_2014","raja1","Direct ocular observations","Thysanoptera (Thrips)","Order","other",8,NA,45,NA,"The abundance is the total abundance of replications of 15 minute observations on each of the 3 plants observed (7 branches/plant with 4 floral clusters/branch)",NA
"Smitha_Krishnan_Coffea_canephora_India_2014","raja2","Direct ocular observations","Apis dorsata","Species","honeybees",1,NA,45,NA,"The abundance is the total abundance of replications of 15 minute observations on each of the 3 plants observed (7 branches/plant with 4 floral clusters/branch)",NA
"Smitha_Krishnan_Coffea_canephora_India_2014","raja2","Direct ocular observations","Oecophylla smaragdina","Species","non_bee_hymenoptera",1,NA,45,NA,"The abundance is the total abundance of replications of 15 minute observations on each of the 3 plants observed (7 branches/plant with 4 floral clusters/branch)",NA
"Smitha_Krishnan_Coffea_canephora_India_2014","raja2","Direct ocular observations","Tetragonula iridipennis","Species","other_wild_bees",4,NA,45,NA,"The abundance is the total abundance of replications of 15 minute observations on each of the 3 plants observed (7 branches/plant with 4 floral clusters/branch)",NA
"Smitha_Krishnan_Coffea_canephora_India_2014","raja2","Direct ocular observations","Thysanoptera (Thrips)","Order","other",40,NA,45,NA,"The abundance is the total abundance of replications of 15 minute observations on each of the 3 plants observed (7 branches/plant with 4 floral clusters/branch)",NA
"Smitha_Krishnan_Coffea_canephora_India_2014","raja3","Direct ocular observations","Apis cerana indica","Species","honeybees",6,NA,45,NA,"The abundance is the total abundance of replications of 15 minute observations on each of the 3 plants observed (7 branches/plant with 4 floral clusters/branch)",NA
"Smitha_Krishnan_Coffea_canephora_India_2014","raja3","Direct ocular observations","Apis dorsata","Species","honeybees",106,NA,45,NA,"The abundance is the total abundance of replications of 15 minute observations on each of the 3 plants observed (7 branches/plant with 4 floral clusters/branch)",NA
"Smitha_Krishnan_Coffea_canephora_India_2014","raja3","Direct ocular observations","Tetragonula iridipennis","Species","other_wild_bees",3,NA,45,NA,"The abundance is the total abundance of replications of 15 minute observations on each of the 3 plants observed (7 branches/plant with 4 floral clusters/branch)",NA
"Smitha_Krishnan_Coffea_canephora_India_2014","raja3","Direct ocular observations","Thysanoptera (Thrips)","Order","other",3,NA,45,NA,"The abundance is the total abundance of replications of 15 minute observations on each of the 3 plants observed (7 branches/plant with 4 floral clusters/branch)",NA
"Smitha_Krishnan_Coffea_canephora_India_2014","nanda1","Direct ocular observations","Thysanoptera (Thrips)","Order","other",3,NA,45,NA,"The abundance is the total abundance of replications of 15 minute observations on each of the 3 plants observed (7 branches/plant with 4 floral clusters/branch)",NA
"Smitha_Krishnan_Coffea_canephora_India_2014","nanda2","Direct ocular observations","Amegilla zonata/ A. confusa","Genera (2 species not differentiated)","other_wild_bees",2,NA,45,NA,"The abundance is the total abundance of replications of 15 minute observations on each of the 3 plants observed (7 branches/plant with 4 floral clusters/branch)",NA
"Smitha_Krishnan_Coffea_canephora_India_2014","nanda2","Direct ocular observations","Thysanoptera (Thrips)","Order","other",5,NA,45,NA,"The abundance is the total abundance of replications of 15 minute observations on each of the 3 plants observed (7 branches/plant with 4 floral clusters/branch)",NA
"Smitha_Krishnan_Coffea_canephora_India_2014","nanda3","Direct ocular observations","Diptera1","Order","other_flies",1,NA,45,NA,"The abundance is the total abundance of replications of 15 minute observations on each of the 3 plants observed (7 branches/plant with 4 floral clusters/branch)",NA
"Smitha_Krishnan_Coffea_canephora_India_2014","nanda3","Direct ocular observations","Tetragonula iridipennis","Species","other_wild_bees",1,NA,45,NA,"The abundance is the total abundance of replications of 15 minute observations on each of the 3 plants observed (7 branches/plant with 4 floral clusters/branch)",NA
"Smitha_Krishnan_Coffea_canephora_India_2014","nanda3","Direct ocular observations","Thysanoptera (Thrips)","Order","other",11,NA,45,NA,"The abundance is the total abundance of replications of 15 minute observations on each of the 3 plants observed (7 branches/plant with 4 floral clusters/branch)",NA
"Smitha_Krishnan_Coffea_canephora_India_2014","BCK1","Direct ocular observations","Apis cerana indica","Species","honeybees",16,NA,45,NA,"The abundance is the total abundance of replications of 15 minute observations on each of the 3 plants observed (7 branches/plant with 4 floral clusters/branch)",NA
"Smitha_Krishnan_Coffea_canephora_India_2014","BCK1","Direct ocular observations","Apis dorsata","Species","honeybees",8,NA,45,NA,"The abundance is the total abundance of replications of 15 minute observations on each of the 3 plants observed (7 branches/plant with 4 floral clusters/branch)",NA
"Smitha_Krishnan_Coffea_canephora_India_2014","BCK1","Direct ocular observations","Apis florea","Species","honeybees",4,NA,45,NA,"The abundance is the total abundance of replications of 15 minute observations on each of the 3 plants observed (7 branches/plant with 4 floral clusters/branch)",NA
"Smitha_Krishnan_Coffea_canephora_India_2014","BCK1","Direct ocular observations","Ceratina hieroglyphica","Species","other_wild_bees",5,NA,45,NA,"The abundance is the total abundance of replications of 15 minute observations on each of the 3 plants observed (7 branches/plant with 4 floral clusters/branch)",NA
"Smitha_Krishnan_Coffea_canephora_India_2014","BCK1","Direct ocular observations","Ceratina smaragdula","Species","other_wild_bees",1,NA,45,NA,"The abundance is the total abundance of replications of 15 minute observations on each of the 3 plants observed (7 branches/plant with 4 floral clusters/branch)",NA
"Smitha_Krishnan_Coffea_canephora_India_2014","BCK1","Direct ocular observations","Ceratina sp1","Genus","other_wild_bees",1,NA,45,NA,"The abundance is the total abundance of replications of 15 minute observations on each of the 3 plants observed (7 branches/plant with 4 floral clusters/branch)",NA
"Smitha_Krishnan_Coffea_canephora_India_2014","BCK1","Direct ocular observations","Megachilid","Genus","other_wild_bees",1,NA,45,NA,"The abundance is the total abundance of replications of 15 minute observations on each of the 3 plants observed (7 branches/plant with 4 floral clusters/branch)",NA
"Smitha_Krishnan_Coffea_canephora_India_2014","BCK1","Direct ocular observations","Tetragonula iridipennis","Species","other_wild_bees",4,NA,45,NA,"The abundance is the total abundance of replications of 15 minute observations on each of the 3 plants observed (7 branches/plant with 4 floral clusters/branch)",NA
"Smitha_Krishnan_Coffea_canephora_India_2014","BCK1","Direct ocular observations","Thysanoptera (Thrips)","Order","other",52,NA,45,NA,"The abundance is the total abundance of replications of 15 minute observations on each of the 3 plants observed (7 branches/plant with 4 floral clusters/branch)",NA
"Smitha_Krishnan_Coffea_canephora_India_2014","BCK2","Direct ocular observations","Amegilla zonata/ A. confusa","Genera (2 species not differentiated)","other_wild_bees",1,NA,45,NA,"The abundance is the total abundance of replications of 15 minute observations on each of the 3 plants observed (7 branches/plant with 4 floral clusters/branch)",NA
"Smitha_Krishnan_Coffea_canephora_India_2014","BCK2","Direct ocular observations","Apis cerana indica","Species","honeybees",2,NA,45,NA,"The abundance is the total abundance of replications of 15 minute observations on each of the 3 plants observed (7 branches/plant with 4 floral clusters/branch)",NA
"Smitha_Krishnan_Coffea_canephora_India_2014","BCK2","Direct ocular observations","Apis dorsata","Species","honeybees",35,NA,45,NA,"The abundance is the total abundance of replications of 15 minute observations on each of the 3 plants observed (7 branches/plant with 4 floral clusters/branch)",NA
"Smitha_Krishnan_Coffea_canephora_India_2014","BCK2","Direct ocular observations","Thysanoptera (Thrips)","Order","other",4,NA,45,NA,"The abundance is the total abundance of replications of 15 minute observations on each of the 3 plants observed (7 branches/plant with 4 floral clusters/branch)",NA
"Smitha_Krishnan_Coffea_canephora_India_2014","BCK3","Direct ocular observations","Apis cerana indica","Species","honeybees",61,NA,45,NA,"The abundance is the total abundance of replications of 15 minute observations on each of the 3 plants observed (7 branches/plant with 4 floral clusters/branch)",NA
"Smitha_Krishnan_Coffea_canephora_India_2014","BCK3","Direct ocular observations","Apis dorsata","Species","honeybees",98,NA,45,NA,"The abundance is the total abundance of replications of 15 minute observations on each of the 3 plants observed (7 branches/plant with 4 floral clusters/branch)",NA
"Smitha_Krishnan_Coffea_canephora_India_2014","BCK3","Direct ocular observations","Ceratina smaragdula","Species","other_wild_bees",1,NA,45,NA,"The abundance is the total abundance of replications of 15 minute observations on each of the 3 plants observed (7 branches/plant with 4 floral clusters/branch)",NA
"Smitha_Krishnan_Coffea_canephora_India_2014","BCK3","Direct ocular observations","Ceratina sp1","Genus","other_wild_bees",1,NA,45,NA,"The abundance is the total abundance of replications of 15 minute observations on each of the 3 plants observed (7 branches/plant with 4 floral clusters/branch)",NA
"Smitha_Krishnan_Coffea_canephora_India_2014","BCK3","Direct ocular observations","Syrphidae (hover fly)","Family","syrphids",1,NA,45,NA,"The abundance is the total abundance of replications of 15 minute observations on each of the 3 plants observed (7 branches/plant with 4 floral clusters/branch)",NA
"Smitha_Krishnan_Coffea_canephora_India_2014","BCK3","Direct ocular observations","Thysanoptera (Thrips)","Order","other",1,NA,45,NA,"The abundance is the total abundance of replications of 15 minute observations on each of the 3 plants observed (7 branches/plant with 4 floral clusters/branch)",NA
"Smitha_Krishnan_Coffea_canephora_India_2014","sannu1","Direct ocular observations","Apis cerana indica","Species","honeybees",8,NA,45,NA,"The abundance is the total abundance of replications of 15 minute observations on each of the 3 plants observed (7 branches/plant with 4 floral clusters/branch)",NA
"Smitha_Krishnan_Coffea_canephora_India_2014","sannu1","Direct ocular observations","Apis dorsata","Species","honeybees",38,NA,45,NA,"The abundance is the total abundance of replications of 15 minute observations on each of the 3 plants observed (7 branches/plant with 4 floral clusters/branch)",NA
"Smitha_Krishnan_Coffea_canephora_India_2014","sannu1","Direct ocular observations","Ceratina hieroglyphica","Species","other_wild_bees",2,NA,45,NA,"The abundance is the total abundance of replications of 15 minute observations on each of the 3 plants observed (7 branches/plant with 4 floral clusters/branch)",NA
"Smitha_Krishnan_Coffea_canephora_India_2014","sannu1","Direct ocular observations","Eumenine","Subfamily","non_bee_hymenoptera",1,NA,45,NA,"The abundance is the total abundance of replications of 15 minute observations on each of the 3 plants observed (7 branches/plant with 4 floral clusters/branch)",NA
"Smitha_Krishnan_Coffea_canephora_India_2014","sannu1","Direct ocular observations","Thysanoptera (Thrips)","Order","other",6,NA,45,NA,"The abundance is the total abundance of replications of 15 minute observations on each of the 3 plants observed (7 branches/plant with 4 floral clusters/branch)",NA
"Smitha_Krishnan_Coffea_canephora_India_2014","sannu2","Direct ocular observations","Apis cerana indica","Species","honeybees",20,NA,45,NA,"The abundance is the total abundance of replications of 15 minute observations on each of the 3 plants observed (7 branches/plant with 4 floral clusters/branch)",NA
"Smitha_Krishnan_Coffea_canephora_India_2014","sannu2","Direct ocular observations","Apis dorsata","Species","honeybees",32,NA,45,NA,"The abundance is the total abundance of replications of 15 minute observations on each of the 3 plants observed (7 branches/plant with 4 floral clusters/branch)",NA
"Smitha_Krishnan_Coffea_canephora_India_2014","sannu2","Direct ocular observations","Thysanoptera (Thrips)","Order","other",18,NA,45,NA,"The abundance is the total abundance of replications of 15 minute observations on each of the 3 plants observed (7 branches/plant with 4 floral clusters/branch)",NA
"Smitha_Krishnan_Coffea_canephora_India_2014","sannu3","Direct ocular observations","Apis cerana indica","Species","honeybees",19,NA,45,NA,"The abundance is the total abundance of replications of 15 minute observations on each of the 3 plants observed (7 branches/plant with 4 floral clusters/branch)",NA
"Smitha_Krishnan_Coffea_canephora_India_2014","sannu3","Direct ocular observations","Apis dorsata","Species","honeybees",23,NA,45,NA,"The abundance is the total abundance of replications of 15 minute observations on each of the 3 plants observed (7 branches/plant with 4 floral clusters/branch)",NA
"Smitha_Krishnan_Coffea_canephora_India_2014","sannu3","Direct ocular observations","Thysanoptera (Thrips)","Order","other",3,NA,45,NA,"The abundance is the total abundance of replications of 15 minute observations on each of the 3 plants observed (7 branches/plant with 4 floral clusters/branch)",NA
"Smitha_Krishnan_Coffea_canephora_India_2014","mohan1","Direct ocular observations","Amegilla zonata/ A. confusa","Genera (2 species not differentiated)","other_wild_bees",2,NA,45,NA,"The abundance is the total abundance of replications of 15 minute observations on each of the 3 plants observed (7 branches/plant with 4 floral clusters/branch)",NA
"Smitha_Krishnan_Coffea_canephora_India_2014","mohan1","Direct ocular observations","Apis cerana indica","Species","honeybees",17,NA,45,NA,"The abundance is the total abundance of replications of 15 minute observations on each of the 3 plants observed (7 branches/plant with 4 floral clusters/branch)",NA
"Smitha_Krishnan_Coffea_canephora_India_2014","mohan1","Direct ocular observations","Apis dorsata","Species","honeybees",22,NA,45,NA,"The abundance is the total abundance of replications of 15 minute observations on each of the 3 plants observed (7 branches/plant with 4 floral clusters/branch)",NA
"Smitha_Krishnan_Coffea_canephora_India_2014","mohan1","Direct ocular observations","Apis florea","Species","honeybees",2,NA,45,NA,"The abundance is the total abundance of replications of 15 minute observations on each of the 3 plants observed (7 branches/plant with 4 floral clusters/branch)",NA
"Smitha_Krishnan_Coffea_canephora_India_2014","mohan1","Direct ocular observations","Ceratina hieroglyphica","Species","other_wild_bees",3,NA,45,NA,"The abundance is the total abundance of replications of 15 minute observations on each of the 3 plants observed (7 branches/plant with 4 floral clusters/branch)",NA
"Smitha_Krishnan_Coffea_canephora_India_2014","mohan1","Direct ocular observations","Tetragonula iridipennis","Species","other_wild_bees",28,NA,45,NA,"The abundance is the total abundance of replications of 15 minute observations on each of the 3 plants observed (7 branches/plant with 4 floral clusters/branch)",NA
"Smitha_Krishnan_Coffea_canephora_India_2014","mohan1","Direct ocular observations","Thysanoptera (Thrips)","Order","other",6,NA,45,NA,"The abundance is the total abundance of replications of 15 minute observations on each of the 3 plants observed (7 branches/plant with 4 floral clusters/branch)",NA
"Smitha_Krishnan_Coffea_canephora_India_2014","mohan2","Direct ocular observations","Apis cerana indica","Species","honeybees",25,NA,45,NA,"The abundance is the total abundance of replications of 15 minute observations on each of the 3 plants observed (7 branches/plant with 4 floral clusters/branch)",NA
"Smitha_Krishnan_Coffea_canephora_India_2014","mohan2","Direct ocular observations","Apis dorsata","Species","honeybees",38,NA,45,NA,"The abundance is the total abundance of replications of 15 minute observations on each of the 3 plants observed (7 branches/plant with 4 floral clusters/branch)",NA
"Smitha_Krishnan_Coffea_canephora_India_2014","mohan2","Direct ocular observations","Tetragonula iridipennis","Species","other_wild_bees",13,NA,45,NA,"The abundance is the total abundance of replications of 15 minute observations on each of the 3 plants observed (7 branches/plant with 4 floral clusters/branch)",NA
"Smitha_Krishnan_Coffea_canephora_India_2014","mohan2","Direct ocular observations","Thysanoptera (Thrips)","Order","other",10,NA,45,NA,"The abundance is the total abundance of replications of 15 minute observations on each of the 3 plants observed (7 branches/plant with 4 floral clusters/branch)",NA
"Smitha_Krishnan_Coffea_canephora_India_2014","mohan3","Direct ocular observations","Apis cerana indica","Species","honeybees",63,NA,45,NA,"The abundance is the total abundance of replications of 15 minute observations on each of the 3 plants observed (7 branches/plant with 4 floral clusters/branch)",NA
"Smitha_Krishnan_Coffea_canephora_India_2014","mohan3","Direct ocular observations","Apis dorsata","Species","honeybees",55,NA,45,NA,"The abundance is the total abundance of replications of 15 minute observations on each of the 3 plants observed (7 branches/plant with 4 floral clusters/branch)",NA
"Smitha_Krishnan_Coffea_canephora_India_2014","mohan3","Direct ocular observations","Apis florea","Species","honeybees",1,NA,45,NA,"The abundance is the total abundance of replications of 15 minute observations on each of the 3 plants observed (7 branches/plant with 4 floral clusters/branch)",NA
"Smitha_Krishnan_Coffea_canephora_India_2014","mohan3","Direct ocular observations","Braunsapsis picitarsis","Species","other_wild_bees",2,NA,45,NA,"The abundance is the total abundance of replications of 15 minute observations on each of the 3 plants observed (7 branches/plant with 4 floral clusters/branch)",NA
"Smitha_Krishnan_Coffea_canephora_India_2014","mohan3","Direct ocular observations","Ceratina hieroglyphica","Species","other_wild_bees",3,NA,45,NA,"The abundance is the total abundance of replications of 15 minute observations on each of the 3 plants observed (7 branches/plant with 4 floral clusters/branch)",NA
"Smitha_Krishnan_Coffea_canephora_India_2014","mohan3","Direct ocular observations","Tetragonula iridipennis","Species","other_wild_bees",17,NA,45,NA,"The abundance is the total abundance of replications of 15 minute observations on each of the 3 plants observed (7 branches/plant with 4 floral clusters/branch)",NA
"Smitha_Krishnan_Coffea_canephora_India_2014","mohan3","Direct ocular observations","Thysanoptera (Thrips)","Order","other",69,NA,45,NA,"The abundance is the total abundance of replications of 15 minute observations on each of the 3 plants observed (7 branches/plant with 4 floral clusters/branch)",NA
"Smitha_Krishnan_Coffea_canephora_India_2014","manna1","Direct ocular observations","Vespidae_yellowbody","Family","non_bee_hymenoptera",1,NA,45,NA,"The abundance is the total abundance of replications of 15 minute observations on each of the 3 plants observed (7 branches/plant with 4 floral clusters/branch)",NA
"Smitha_Krishnan_Coffea_canephora_India_2014","manna2","Direct ocular observations","Eumenine","Subfamily","non_bee_hymenoptera",1,NA,45,NA,"The abundance is the total abundance of replications of 15 minute observations on each of the 3 plants observed (7 branches/plant with 4 floral clusters/branch)",NA
"Smitha_Krishnan_Coffea_canephora_India_2014","manna2","Direct ocular observations","Thysanoptera (Thrips)","Order","other",1,NA,45,NA,"The abundance is the total abundance of replications of 15 minute observations on each of the 3 plants observed (7 branches/plant with 4 floral clusters/branch)",NA
"Smitha_Krishnan_Coffea_canephora_India_2014","manna3","Direct ocular observations","Tetragonula iridipennis","Species","other_wild_bees",1,NA,45,NA,"The abundance is the total abundance of replications of 15 minute observations on each of the 3 plants observed (7 branches/plant with 4 floral clusters/branch)",NA
"Smitha_Krishnan_Coffea_canephora_India_2014","dechakka1","Direct ocular observations","Thysanoptera (Thrips)","Order","other",36,NA,45,NA,"The abundance is the total abundance of replications of 15 minute observations on each of the 3 plants observed (7 branches/plant with 4 floral clusters/branch)",NA
"Smitha_Krishnan_Coffea_canephora_India_2014","dechakka2","Direct ocular observations","Thysanoptera (Thrips)","Order","other",26,NA,45,NA,"The abundance is the total abundance of replications of 15 minute observations on each of the 3 plants observed (7 branches/plant with 4 floral clusters/branch)",NA
"Smitha_Krishnan_Coffea_canephora_India_2014","dechakka3","Direct ocular observations","Thysanoptera (Thrips)","Order","other",7,NA,45,NA,"The abundance is the total abundance of replications of 15 minute observations on each of the 3 plants observed (7 branches/plant with 4 floral clusters/branch)",NA
"Smitha_Krishnan_Coffea_canephora_India_2014","skanda SO1","Direct ocular observations","Apis dorsata","Species","honeybees",2,NA,45,NA,"The abundance is the total abundance of replications of 15 minute observations on each of the 3 plants observed (7 branches/plant with 4 floral clusters/branch)",NA
"Smitha_Krishnan_Coffea_canephora_India_2014","skanda SO1","Direct ocular observations","Apis florea","Species","honeybees",1,NA,45,NA,"The abundance is the total abundance of replications of 15 minute observations on each of the 3 plants observed (7 branches/plant with 4 floral clusters/branch)",NA
"Smitha_Krishnan_Coffea_canephora_India_2014","skanda SO1","Direct ocular observations","Tetragonula iridipennis","Species","other_wild_bees",1,NA,45,NA,"The abundance is the total abundance of replications of 15 minute observations on each of the 3 plants observed (7 branches/plant with 4 floral clusters/branch)",NA
"Smitha_Krishnan_Coffea_canephora_India_2014","skanda SO1","Direct ocular observations","Thysanoptera (Thrips)","Order","other",15,NA,45,NA,"The abundance is the total abundance of replications of 15 minute observations on each of the 3 plants observed (7 branches/plant with 4 floral clusters/branch)",NA
"Smitha_Krishnan_Coffea_canephora_India_2014","skanda SO2","Direct ocular observations","Apis cerana indica","Species","honeybees",4,NA,45,NA,"The abundance is the total abundance of replications of 15 minute observations on each of the 3 plants observed (7 branches/plant with 4 floral clusters/branch)",NA
"Smitha_Krishnan_Coffea_canephora_India_2014","skanda SO2","Direct ocular observations","Apis dorsata","Species","honeybees",15,NA,45,NA,"The abundance is the total abundance of replications of 15 minute observations on each of the 3 plants observed (7 branches/plant with 4 floral clusters/branch)",NA
"Smitha_Krishnan_Coffea_canephora_India_2014","skanda SO2","Direct ocular observations","Tetragonula iridipennis","Species","other_wild_bees",1,NA,45,NA,"The abundance is the total abundance of replications of 15 minute observations on each of the 3 plants observed (7 branches/plant with 4 floral clusters/branch)",NA
"Smitha_Krishnan_Coffea_canephora_India_2014","skanda SO2","Direct ocular observations","Thysanoptera (Thrips)","Order","other",1,NA,45,NA,"The abundance is the total abundance of replications of 15 minute observations on each of the 3 plants observed (7 branches/plant with 4 floral clusters/branch)",NA
"Smitha_Krishnan_Coffea_canephora_India_2014","skanda SO3","Direct ocular observations","Diptera4","Order","other_flies",2,NA,45,NA,"The abundance is the total abundance of replications of 15 minute observations on each of the 3 plants observed (7 branches/plant with 4 floral clusters/branch)",NA
"Smitha_Krishnan_Coffea_canephora_India_2014","skanda SO3","Direct ocular observations","Eumenine","Subfamily","non_bee_hymenoptera",1,NA,45,NA,"The abundance is the total abundance of replications of 15 minute observations on each of the 3 plants observed (7 branches/plant with 4 floral clusters/branch)",NA
"Smitha_Krishnan_Coffea_canephora_India_2014","skanda SO3","Direct ocular observations","Tetragonula iridipennis","Species","other_wild_bees",1,NA,45,NA,"The abundance is the total abundance of replications of 15 minute observations on each of the 3 plants observed (7 branches/plant with 4 floral clusters/branch)",NA
"Smitha_Krishnan_Coffea_canephora_India_2014","skanda SO3","Direct ocular observations","Thysanoptera (Thrips)","Order","other",3,NA,45,NA,"The abundance is the total abundance of replications of 15 minute observations on each of the 3 plants observed (7 branches/plant with 4 floral clusters/branch)",NA
"Smitha_Krishnan_Coffea_canephora_India_2014","bopanna1","Direct ocular observations","Apis cerana indica","Species","honeybees",1,NA,45,NA,"The abundance is the total abundance of replications of 15 minute observations on each of the 3 plants observed (7 branches/plant with 4 floral clusters/branch)",NA
"Smitha_Krishnan_Coffea_canephora_India_2014","bopanna1","Direct ocular observations","Tetragonula iridipennis","Species","other_wild_bees",1,NA,45,NA,"The abundance is the total abundance of replications of 15 minute observations on each of the 3 plants observed (7 branches/plant with 4 floral clusters/branch)",NA
"Smitha_Krishnan_Coffea_canephora_India_2014","bopanna1","Direct ocular observations","Thysanoptera (Thrips)","Order","other",9,NA,45,NA,"The abundance is the total abundance of replications of 15 minute observations on each of the 3 plants observed (7 branches/plant with 4 floral clusters/branch)",NA
"Smitha_Krishnan_Coffea_canephora_India_2014","bopanna2","Direct ocular observations","Apis cerana indica","Species","honeybees",2,NA,45,NA,"The abundance is the total abundance of replications of 15 minute observations on each of the 3 plants observed (7 branches/plant with 4 floral clusters/branch)",NA
"Smitha_Krishnan_Coffea_canephora_India_2014","bopanna2","Direct ocular observations","Tetragonula iridipennis","Species","other_wild_bees",2,NA,45,NA,"The abundance is the total abundance of replications of 15 minute observations on each of the 3 plants observed (7 branches/plant with 4 floral clusters/branch)",NA
"Smitha_Krishnan_Coffea_canephora_India_2014","bopanna2","Direct ocular observations","Thysanoptera (Thrips)","Order","other",9,NA,45,NA,"The abundance is the total abundance of replications of 15 minute observations on each of the 3 plants observed (7 branches/plant with 4 floral clusters/branch)",NA
"Smitha_Krishnan_Coffea_canephora_India_2014","bopanna3","Direct ocular observations","Tetragonula iridipennis","Species","other_wild_bees",1,NA,45,NA,"The abundance is the total abundance of replications of 15 minute observations on each of the 3 plants observed (7 branches/plant with 4 floral clusters/branch)",NA
"Smitha_Krishnan_Coffea_canephora_India_2014","bopanna3","Direct ocular observations","Thysanoptera (Thrips)","Order","other",13,NA,45,NA,"The abundance is the total abundance of replications of 15 minute observations on each of the 3 plants observed (7 branches/plant with 4 floral clusters/branch)",NA
"Smitha_Krishnan_Coffea_canephora_India_2014","chinappa1","Direct ocular observations","Eumenine","Subfamily","non_bee_hymenoptera",7,NA,45,NA,"The abundance is the total abundance of replications of 15 minute observations on each of the 3 plants observed (7 branches/plant with 4 floral clusters/branch)",NA
"Smitha_Krishnan_Coffea_canephora_India_2014","chinappa2","Direct ocular observations","Eumenine","Subfamily","non_bee_hymenoptera",1,NA,45,NA,"The abundance is the total abundance of replications of 15 minute observations on each of the 3 plants observed (7 branches/plant with 4 floral clusters/branch)",NA
"Smitha_Krishnan_Coffea_canephora_India_2014","chinappa2","Direct ocular observations","Tetragonula iridipennis","Species","other_wild_bees",3,NA,45,NA,"The abundance is the total abundance of replications of 15 minute observations on each of the 3 plants observed (7 branches/plant with 4 floral clusters/branch)",NA
"Smitha_Krishnan_Coffea_canephora_India_2014","chinappa3","Direct ocular observations","Apis cerana indica","Species","honeybees",1,NA,45,NA,"The abundance is the total abundance of replications of 15 minute observations on each of the 3 plants observed (7 branches/plant with 4 floral clusters/branch)",NA
"Smitha_Krishnan_Coffea_canephora_India_2014","chinappa3","Direct ocular observations","Eumenine","Subfamily","non_bee_hymenoptera",5,NA,45,NA,"The abundance is the total abundance of replications of 15 minute observations on each of the 3 plants observed (7 branches/plant with 4 floral clusters/branch)",NA
"Smitha_Krishnan_Coffea_canephora_India_2014","chinappa3","Direct ocular observations","Tetragonula iridipennis","Species","other_wild_bees",1,NA,45,NA,"The abundance is the total abundance of replications of 15 minute observations on each of the 3 plants observed (7 branches/plant with 4 floral clusters/branch)",NA
"Taylor_Ricketts_Coffea_arabica_Costa_Rica_2001","1","samples of flower visitors","Apis mellifera","species","honeybees",32,NA,110,2750,"At each site, on each day in which coffee was in flower, 2 simultaneous samples of flower visitors were taken. Each sample involved recording each visitor and the number of flowers visited for 10 minutes on an area of one bush comprising approximately 250 flowers.",NA
"Taylor_Ricketts_Coffea_arabica_Costa_Rica_2001","1","samples of flower visitors","Nannotrigona mellaria","species","other_wild_bees",12,NA,110,2750,"At each site, on each day in which coffee was in flower, 2 simultaneous samples of flower visitors were taken. Each sample involved recording each visitor and the number of flowers visited for 10 minutes on an area of one bush comprising approximately 250 flowers.",NA
"Taylor_Ricketts_Coffea_arabica_Costa_Rica_2001","1","samples of flower visitors","Partamona cupira / Trigona fussipennis / Trigona corvina","morphospecies","other_wild_bees",3,NA,110,2750,"At each site, on each day in which coffee was in flower, 2 simultaneous samples of flower visitors were taken. Each sample involved recording each visitor and the number of flowers visited for 10 minutes on an area of one bush comprising approximately 250 flowers.",NA
"Taylor_Ricketts_Coffea_arabica_Costa_Rica_2001","1","samples of flower visitors","Plebeia jatiformis","species","other_wild_bees",31,NA,110,2750,"At each site, on each day in which coffee was in flower, 2 simultaneous samples of flower visitors were taken. Each sample involved recording each visitor and the number of flowers visited for 10 minutes on an area of one bush comprising approximately 250 flowers.",NA
"Taylor_Ricketts_Coffea_arabica_Costa_Rica_2001","1","samples of flower visitors","Plebia frontalis","species","other_wild_bees",7,NA,110,2750,"At each site, on each day in which coffee was in flower, 2 simultaneous samples of flower visitors were taken. Each sample involved recording each visitor and the number of flowers visited for 10 minutes on an area of one bush comprising approximately 250 flowers.",NA
"Taylor_Ricketts_Coffea_arabica_Costa_Rica_2001","1","samples of flower visitors","Trigona (Tetragona) clavipes","species","other_wild_bees",3,NA,110,2750,"At each site, on each day in which coffee was in flower, 2 simultaneous samples of flower visitors were taken. Each sample involved recording each visitor and the number of flowers visited for 10 minutes on an area of one bush comprising approximately 250 flowers.",NA
"Taylor_Ricketts_Coffea_arabica_Costa_Rica_2001","1","samples of flower visitors","Trigona (tetragonisca) angustula","species","other_wild_bees",9,NA,110,2750,"At each site, on each day in which coffee was in flower, 2 simultaneous samples of flower visitors were taken. Each sample involved recording each visitor and the number of flowers visited for 10 minutes on an area of one bush comprising approximately 250 flowers.",NA
"Taylor_Ricketts_Coffea_arabica_Costa_Rica_2001","1","samples of flower visitors","Trigona dorsalis","species","other_wild_bees",1,NA,110,2750,"At each site, on each day in which coffee was in flower, 2 simultaneous samples of flower visitors were taken. Each sample involved recording each visitor and the number of flowers visited for 10 minutes on an area of one bush comprising approximately 250 flowers.",NA
"Taylor_Ricketts_Coffea_arabica_Costa_Rica_2001","1","samples of flower visitors","Trigona fulviventris","species","other_wild_bees",5,NA,110,2750,"At each site, on each day in which coffee was in flower, 2 simultaneous samples of flower visitors were taken. Each sample involved recording each visitor and the number of flowers visited for 10 minutes on an area of one bush comprising approximately 250 flowers.",NA
"Taylor_Ricketts_Coffea_arabica_Costa_Rica_2001","1","samples of flower visitors","Trigonisca sp.","genus","other_wild_bees",5,NA,110,2750,"At each site, on each day in which coffee was in flower, 2 simultaneous samples of flower visitors were taken. Each sample involved recording each visitor and the number of flowers visited for 10 minutes on an area of one bush comprising approximately 250 flowers.",NA
"Taylor_Ricketts_Coffea_arabica_Costa_Rica_2001","1","samples of flower visitors","Native-summ","morphospecies","other_wild_bees",6,NA,110,2750,"At each site, on each day in which coffee was in flower, 2 simultaneous samples of flower visitors were taken. Each sample involved recording each visitor and the number of flowers visited for 10 minutes on an area of one bush comprising approximately 250 flowers.",NA
"Taylor_Ricketts_Coffea_arabica_Costa_Rica_2001","2","samples of flower visitors","Apis mellifera","species","honeybees",31,NA,110,2750,"At each site, on each day in which coffee was in flower, 2 simultaneous samples of flower visitors were taken. Each sample involved recording each visitor and the number of flowers visited for 10 minutes on an area of one bush comprising approximately 250 flowers.",NA
"Taylor_Ricketts_Coffea_arabica_Costa_Rica_2001","2","samples of flower visitors","Melipona fasciata","species","other_wild_bees",1,NA,110,2750,"At each site, on each day in which coffee was in flower, 2 simultaneous samples of flower visitors were taken. Each sample involved recording each visitor and the number of flowers visited for 10 minutes on an area of one bush comprising approximately 250 flowers.",NA
"Taylor_Ricketts_Coffea_arabica_Costa_Rica_2001","2","samples of flower visitors","Nannotrigona mellaria","species","other_wild_bees",5,NA,110,2750,"At each site, on each day in which coffee was in flower, 2 simultaneous samples of flower visitors were taken. Each sample involved recording each visitor and the number of flowers visited for 10 minutes on an area of one bush comprising approximately 250 flowers.",NA
"Taylor_Ricketts_Coffea_arabica_Costa_Rica_2001","2","samples of flower visitors","Partamona cupira / Trigona fussipennis / Trigona corvina","morphospecies","other_wild_bees",1,NA,110,2750,"At each site, on each day in which coffee was in flower, 2 simultaneous samples of flower visitors were taken. Each sample involved recording each visitor and the number of flowers visited for 10 minutes on an area of one bush comprising approximately 250 flowers.",NA
"Taylor_Ricketts_Coffea_arabica_Costa_Rica_2001","2","samples of flower visitors","Plebeia jatiformis","species","other_wild_bees",23,NA,110,2750,"At each site, on each day in which coffee was in flower, 2 simultaneous samples of flower visitors were taken. Each sample involved recording each visitor and the number of flowers visited for 10 minutes on an area of one bush comprising approximately 250 flowers.",NA
"Taylor_Ricketts_Coffea_arabica_Costa_Rica_2001","2","samples of flower visitors","Plebia frontalis","species","other_wild_bees",7,NA,110,2750,"At each site, on each day in which coffee was in flower, 2 simultaneous samples of flower visitors were taken. Each sample involved recording each visitor and the number of flowers visited for 10 minutes on an area of one bush comprising approximately 250 flowers.",NA
"Taylor_Ricketts_Coffea_arabica_Costa_Rica_2001","2","samples of flower visitors","Trigona fulviventris","species","other_wild_bees",15,NA,110,2750,"At each site, on each day in which coffee was in flower, 2 simultaneous samples of flower visitors were taken. Each sample involved recording each visitor and the number of flowers visited for 10 minutes on an area of one bush comprising approximately 250 flowers.",NA
"Taylor_Ricketts_Coffea_arabica_Costa_Rica_2001","2","samples of flower visitors","Trigonisca sp.","genus","other_wild_bees",6,NA,110,2750,"At each site, on each day in which coffee was in flower, 2 simultaneous samples of flower visitors were taken. Each sample involved recording each visitor and the number of flowers visited for 10 minutes on an area of one bush comprising approximately 250 flowers.",NA
"Taylor_Ricketts_Coffea_arabica_Costa_Rica_2001","2","samples of flower visitors","Native-summ","morphospecies","other_wild_bees",13,NA,110,2750,"At each site, on each day in which coffee was in flower, 2 simultaneous samples of flower visitors were taken. Each sample involved recording each visitor and the number of flowers visited for 10 minutes on an area of one bush comprising approximately 250 flowers.",NA
"Taylor_Ricketts_Coffea_arabica_Costa_Rica_2001","3","samples of flower visitors","Apis mellifera","species","honeybees",21,NA,100,2500,"At each site, on each day in which coffee was in flower, 2 simultaneous samples of flower visitors were taken. Each sample involved recording each visitor and the number of flowers visited for 10 minutes on an area of one bush comprising approximately 250 flowers.",NA
"Taylor_Ricketts_Coffea_arabica_Costa_Rica_2001","3","samples of flower visitors","Native-summ","morphospecies","other_wild_bees",1,NA,100,2500,"At each site, on each day in which coffee was in flower, 2 simultaneous samples of flower visitors were taken. Each sample involved recording each visitor and the number of flowers visited for 10 minutes on an area of one bush comprising approximately 250 flowers.",NA
"Taylor_Ricketts_Coffea_arabica_Costa_Rica_2001","4","samples of flower visitors","Apis mellifera","species","honeybees",22,NA,100,2500,"At each site, on each day in which coffee was in flower, 2 simultaneous samples of flower visitors were taken. Each sample involved recording each visitor and the number of flowers visited for 10 minutes on an area of one bush comprising approximately 250 flowers.",NA
"Taylor_Ricketts_Coffea_arabica_Costa_Rica_2001","4","samples of flower visitors","Nannotrigona mellaria","species","other_wild_bees",1,NA,100,2500,"At each site, on each day in which coffee was in flower, 2 simultaneous samples of flower visitors were taken. Each sample involved recording each visitor and the number of flowers visited for 10 minutes on an area of one bush comprising approximately 250 flowers.",NA
"Taylor_Ricketts_Coffea_arabica_Costa_Rica_2001","4","samples of flower visitors","Plebia frontalis","species","other_wild_bees",3,NA,100,2500,"At each site, on each day in which coffee was in flower, 2 simultaneous samples of flower visitors were taken. Each sample involved recording each visitor and the number of flowers visited for 10 minutes on an area of one bush comprising approximately 250 flowers.",NA
"Taylor_Ricketts_Coffea_arabica_Costa_Rica_2001","4","samples of flower visitors","Trigona fulviventris","species","other_wild_bees",1,NA,100,2500,"At each site, on each day in which coffee was in flower, 2 simultaneous samples of flower visitors were taken. Each sample involved recording each visitor and the number of flowers visited for 10 minutes on an area of one bush comprising approximately 250 flowers.",NA
"Taylor_Ricketts_Coffea_arabica_Costa_Rica_2001","5","samples of flower visitors","Apis mellifera","species","honeybees",45,NA,100,2500,"At each site, on each day in which coffee was in flower, 2 simultaneous samples of flower visitors were taken. Each sample involved recording each visitor and the number of flowers visited for 10 minutes on an area of one bush comprising approximately 250 flowers.",NA
"Taylor_Ricketts_Coffea_arabica_Costa_Rica_2001","5","samples of flower visitors","Plebia frontalis","species","other_wild_bees",1,NA,100,2500,"At each site, on each day in which coffee was in flower, 2 simultaneous samples of flower visitors were taken. Each sample involved recording each visitor and the number of flowers visited for 10 minutes on an area of one bush comprising approximately 250 flowers.",NA
"Taylor_Ricketts_Coffea_arabica_Costa_Rica_2001","5","samples of flower visitors","Native-summ","morphospecies","other_wild_bees",2,NA,100,2500,"At each site, on each day in which coffee was in flower, 2 simultaneous samples of flower visitors were taken. Each sample involved recording each visitor and the number of flowers visited for 10 minutes on an area of one bush comprising approximately 250 flowers.",NA
"Taylor_Ricketts_Coffea_arabica_Costa_Rica_2001","6","samples of flower visitors","Apis mellifera","species","honeybees",23,NA,100,2500,"At each site, on each day in which coffee was in flower, 2 simultaneous samples of flower visitors were taken. Each sample involved recording each visitor and the number of flowers visited for 10 minutes on an area of one bush comprising approximately 250 flowers.",NA
"Taylor_Ricketts_Coffea_arabica_Costa_Rica_2001","7","samples of flower visitors","Apis mellifera","species","honeybees",17,NA,100,2500,"At each site, on each day in which coffee was in flower, 2 simultaneous samples of flower visitors were taken. Each sample involved recording each visitor and the number of flowers visited for 10 minutes on an area of one bush comprising approximately 250 flowers.",NA
"Taylor_Ricketts_Coffea_arabica_Costa_Rica_2001","7","samples of flower visitors","Trigona (tetragonisca) angustula","species","other_wild_bees",1,NA,100,2500,"At each site, on each day in which coffee was in flower, 2 simultaneous samples of flower visitors were taken. Each sample involved recording each visitor and the number of flowers visited for 10 minutes on an area of one bush comprising approximately 250 flowers.",NA
"Taylor_Ricketts_Coffea_arabica_Costa_Rica_2001","7","samples of flower visitors","Native-summ","morphospecies","other_wild_bees",1,NA,100,2500,"At each site, on each day in which coffee was in flower, 2 simultaneous samples of flower visitors were taken. Each sample involved recording each visitor and the number of flowers visited for 10 minutes on an area of one bush comprising approximately 250 flowers.",NA
"Taylor_Ricketts_Coffea_arabica_Costa_Rica_2001","8","samples of flower visitors","Apis mellifera","species","honeybees",19,NA,100,2500,"At each site, on each day in which coffee was in flower, 2 simultaneous samples of flower visitors were taken. Each sample involved recording each visitor and the number of flowers visited for 10 minutes on an area of one bush comprising approximately 250 flowers.",NA
"Taylor_Ricketts_Coffea_arabica_Costa_Rica_2001","9","samples of flower visitors","Apis mellifera","species","honeybees",19,NA,100,2500,"At each site, on each day in which coffee was in flower, 2 simultaneous samples of flower visitors were taken. Each sample involved recording each visitor and the number of flowers visited for 10 minutes on an area of one bush comprising approximately 250 flowers.",NA
"Taylor_Ricketts_Coffea_arabica_Costa_Rica_2001","9","samples of flower visitors","Native-summ","morphospecies","other_wild_bees",2,NA,100,2500,"At each site, on each day in which coffee was in flower, 2 simultaneous samples of flower visitors were taken. Each sample involved recording each visitor and the number of flowers visited for 10 minutes on an area of one bush comprising approximately 250 flowers.",NA
"Taylor_Ricketts_Coffea_arabica_Costa_Rica_2001","10","samples of flower visitors","Apis mellifera","species","honeybees",16,NA,100,2500,"At each site, on each day in which coffee was in flower, 2 simultaneous samples of flower visitors were taken. Each sample involved recording each visitor and the number of flowers visited for 10 minutes on an area of one bush comprising approximately 250 flowers.",NA
"Taylor_Ricketts_Coffea_arabica_Costa_Rica_2001","11","samples of flower visitors","Apis mellifera","species","honeybees",18,NA,100,2500,"At each site, on each day in which coffee was in flower, 2 simultaneous samples of flower visitors were taken. Each sample involved recording each visitor and the number of flowers visited for 10 minutes on an area of one bush comprising approximately 250 flowers.",NA
"Taylor_Ricketts_Coffea_arabica_Costa_Rica_2001","11","samples of flower visitors","Melipona fasciata","species","other_wild_bees",2,NA,100,2500,"At each site, on each day in which coffee was in flower, 2 simultaneous samples of flower visitors were taken. Each sample involved recording each visitor and the number of flowers visited for 10 minutes on an area of one bush comprising approximately 250 flowers.",NA
"Taylor_Ricketts_Coffea_arabica_Costa_Rica_2001","11","samples of flower visitors","Nannotrigona mellaria","species","other_wild_bees",3,NA,100,2500,"At each site, on each day in which coffee was in flower, 2 simultaneous samples of flower visitors were taken. Each sample involved recording each visitor and the number of flowers visited for 10 minutes on an area of one bush comprising approximately 250 flowers.",NA
"Taylor_Ricketts_Coffea_arabica_Costa_Rica_2001","11","samples of flower visitors","Partamona cupira / Trigona fussipennis / Trigona corvina","morphospecies","other_wild_bees",10,NA,100,2500,"At each site, on each day in which coffee was in flower, 2 simultaneous samples of flower visitors were taken. Each sample involved recording each visitor and the number of flowers visited for 10 minutes on an area of one bush comprising approximately 250 flowers.",NA
"Taylor_Ricketts_Coffea_arabica_Costa_Rica_2001","11","samples of flower visitors","Plebeia jatiformis","species","other_wild_bees",13,NA,100,2500,"At each site, on each day in which coffee was in flower, 2 simultaneous samples of flower visitors were taken. Each sample involved recording each visitor and the number of flowers visited for 10 minutes on an area of one bush comprising approximately 250 flowers.",NA
"Taylor_Ricketts_Coffea_arabica_Costa_Rica_2001","11","samples of flower visitors","Plebia frontalis","species","other_wild_bees",6,NA,100,2500,"At each site, on each day in which coffee was in flower, 2 simultaneous samples of flower visitors were taken. Each sample involved recording each visitor and the number of flowers visited for 10 minutes on an area of one bush comprising approximately 250 flowers.",NA
"Taylor_Ricketts_Coffea_arabica_Costa_Rica_2001","11","samples of flower visitors","Trigona (tetragonisca) angustula","species","other_wild_bees",3,NA,100,2500,"At each site, on each day in which coffee was in flower, 2 simultaneous samples of flower visitors were taken. Each sample involved recording each visitor and the number of flowers visited for 10 minutes on an area of one bush comprising approximately 250 flowers.",NA
"Taylor_Ricketts_Coffea_arabica_Costa_Rica_2001","11","samples of flower visitors","Trigona dorsalis","species","other_wild_bees",10,NA,100,2500,"At each site, on each day in which coffee was in flower, 2 simultaneous samples of flower visitors were taken. Each sample involved recording each visitor and the number of flowers visited for 10 minutes on an area of one bush comprising approximately 250 flowers.",NA
"Taylor_Ricketts_Coffea_arabica_Costa_Rica_2001","11","samples of flower visitors","Trigona fulviventris","species","other_wild_bees",16,NA,100,2500,"At each site, on each day in which coffee was in flower, 2 simultaneous samples of flower visitors were taken. Each sample involved recording each visitor and the number of flowers visited for 10 minutes on an area of one bush comprising approximately 250 flowers.",NA
"Taylor_Ricketts_Coffea_arabica_Costa_Rica_2001","11","samples of flower visitors","Trigonisca sp.","genus","other_wild_bees",1,NA,100,2500,"At each site, on each day in which coffee was in flower, 2 simultaneous samples of flower visitors were taken. Each sample involved recording each visitor and the number of flowers visited for 10 minutes on an area of one bush comprising approximately 250 flowers.",NA
"Taylor_Ricketts_Coffea_arabica_Costa_Rica_2001","11","samples of flower visitors","Native-summ","morphospecies","other_wild_bees",9,NA,100,2500,"At each site, on each day in which coffee was in flower, 2 simultaneous samples of flower visitors were taken. Each sample involved recording each visitor and the number of flowers visited for 10 minutes on an area of one bush comprising approximately 250 flowers.",NA
"Taylor_Ricketts_Coffea_arabica_Costa_Rica_2001","12","samples of flower visitors","Apis mellifera","species","honeybees",27,NA,100,2500,"At each site, on each day in which coffee was in flower, 2 simultaneous samples of flower visitors were taken. Each sample involved recording each visitor and the number of flowers visited for 10 minutes on an area of one bush comprising approximately 250 flowers.",NA
"Taylor_Ricketts_Coffea_arabica_Costa_Rica_2001","12","samples of flower visitors","Melipona fasciata","species","other_wild_bees",1,NA,100,2500,"At each site, on each day in which coffee was in flower, 2 simultaneous samples of flower visitors were taken. Each sample involved recording each visitor and the number of flowers visited for 10 minutes on an area of one bush comprising approximately 250 flowers.",NA
"Taylor_Ricketts_Coffea_arabica_Costa_Rica_2001","12","samples of flower visitors","Nannotrigona mellaria","species","other_wild_bees",3,NA,100,2500,"At each site, on each day in which coffee was in flower, 2 simultaneous samples of flower visitors were taken. Each sample involved recording each visitor and the number of flowers visited for 10 minutes on an area of one bush comprising approximately 250 flowers.",NA
"Taylor_Ricketts_Coffea_arabica_Costa_Rica_2001","12","samples of flower visitors","Partamona cupira / Trigona fussipennis / Trigona corvina","morphospecies","other_wild_bees",1,NA,100,2500,"At each site, on each day in which coffee was in flower, 2 simultaneous samples of flower visitors were taken. Each sample involved recording each visitor and the number of flowers visited for 10 minutes on an area of one bush comprising approximately 250 flowers.",NA
"Taylor_Ricketts_Coffea_arabica_Costa_Rica_2001","12","samples of flower visitors","Plebeia jatiformis","species","other_wild_bees",14,NA,100,2500,"At each site, on each day in which coffee was in flower, 2 simultaneous samples of flower visitors were taken. Each sample involved recording each visitor and the number of flowers visited for 10 minutes on an area of one bush comprising approximately 250 flowers.",NA
"Taylor_Ricketts_Coffea_arabica_Costa_Rica_2001","12","samples of flower visitors","Plebia frontalis","species","other_wild_bees",4,NA,100,2500,"At each site, on each day in which coffee was in flower, 2 simultaneous samples of flower visitors were taken. Each sample involved recording each visitor and the number of flowers visited for 10 minutes on an area of one bush comprising approximately 250 flowers.",NA
"Taylor_Ricketts_Coffea_arabica_Costa_Rica_2001","12","samples of flower visitors","Trigona (tetragonisca) angustula","species","other_wild_bees",4,NA,100,2500,"At each site, on each day in which coffee was in flower, 2 simultaneous samples of flower visitors were taken. Each sample involved recording each visitor and the number of flowers visited for 10 minutes on an area of one bush comprising approximately 250 flowers.",NA
"Taylor_Ricketts_Coffea_arabica_Costa_Rica_2001","12","samples of flower visitors","Trigona dorsalis","species","other_wild_bees",1,NA,100,2500,"At each site, on each day in which coffee was in flower, 2 simultaneous samples of flower visitors were taken. Each sample involved recording each visitor and the number of flowers visited for 10 minutes on an area of one bush comprising approximately 250 flowers.",NA
"Taylor_Ricketts_Coffea_arabica_Costa_Rica_2001","12","samples of flower visitors","Trigona fulviventris","species","other_wild_bees",8,NA,100,2500,"At each site, on each day in which coffee was in flower, 2 simultaneous samples of flower visitors were taken. Each sample involved recording each visitor and the number of flowers visited for 10 minutes on an area of one bush comprising approximately 250 flowers.",NA
"Taylor_Ricketts_Coffea_arabica_Costa_Rica_2001","12","samples of flower visitors","Native-summ","morphospecies","other_wild_bees",4,NA,100,2500,"At each site, on each day in which coffee was in flower, 2 simultaneous samples of flower visitors were taken. Each sample involved recording each visitor and the number of flowers visited for 10 minutes on an area of one bush comprising approximately 250 flowers.",NA
"Taylor_Ricketts_Coffea_arabica_Costa_Rica_2002","21","samples of flower visitors","Apis mellifera","species","honeybees",6,NA,NA,NA,"At each site, on each day in which coffee was in flower, 2 simultaneous samples of flower visitors were taken. Each sample involved recording each visitor and the number of flowers visited for 10 minutes on an area of one bush comprising approximately 250 flowers.",NA
"Taylor_Ricketts_Coffea_arabica_Costa_Rica_2002","21","samples of flower visitors","Nannotrigona mellaria","species","other_wild_bees",4,NA,NA,NA,"At each site, on each day in which coffee was in flower, 2 simultaneous samples of flower visitors were taken. Each sample involved recording each visitor and the number of flowers visited for 10 minutes on an area of one bush comprising approximately 250 flowers.",NA
"Taylor_Ricketts_Coffea_arabica_Costa_Rica_2002","21","samples of flower visitors","Plebeia jatiformis","species","other_wild_bees",40,NA,NA,NA,"At each site, on each day in which coffee was in flower, 2 simultaneous samples of flower visitors were taken. Each sample involved recording each visitor and the number of flowers visited for 10 minutes on an area of one bush comprising approximately 250 flowers.",NA
"Taylor_Ricketts_Coffea_arabica_Costa_Rica_2002","21","samples of flower visitors","Plebia frontalis","species","other_wild_bees",7,NA,NA,NA,"At each site, on each day in which coffee was in flower, 2 simultaneous samples of flower visitors were taken. Each sample involved recording each visitor and the number of flowers visited for 10 minutes on an area of one bush comprising approximately 250 flowers.",NA
"Taylor_Ricketts_Coffea_arabica_Costa_Rica_2002","21","samples of flower visitors","Trigona (tetragonisca) angustula","species","other_wild_bees",6,NA,NA,NA,"At each site, on each day in which coffee was in flower, 2 simultaneous samples of flower visitors were taken. Each sample involved recording each visitor and the number of flowers visited for 10 minutes on an area of one bush comprising approximately 250 flowers.",NA
"Taylor_Ricketts_Coffea_arabica_Costa_Rica_2002","21","samples of flower visitors","Trigona dorsalis","species","other_wild_bees",1,NA,NA,NA,"At each site, on each day in which coffee was in flower, 2 simultaneous samples of flower visitors were taken. Each sample involved recording each visitor and the number of flowers visited for 10 minutes on an area of one bush comprising approximately 250 flowers.",NA
"Taylor_Ricketts_Coffea_arabica_Costa_Rica_2002","21","samples of flower visitors","Trigonisca sp.","genus","other_wild_bees",18,NA,NA,NA,"At each site, on each day in which coffee was in flower, 2 simultaneous samples of flower visitors were taken. Each sample involved recording each visitor and the number of flowers visited for 10 minutes on an area of one bush comprising approximately 250 flowers.",NA
"Taylor_Ricketts_Coffea_arabica_Costa_Rica_2002","21","samples of flower visitors","Native-summ","morphospecies","other_wild_bees",3,NA,NA,NA,"At each site, on each day in which coffee was in flower, 2 simultaneous samples of flower visitors were taken. Each sample involved recording each visitor and the number of flowers visited for 10 minutes on an area of one bush comprising approximately 250 flowers.",NA
"Taylor_Ricketts_Coffea_arabica_Costa_Rica_2002","22","samples of flower visitors","Apis mellifera","species","honeybees",2,NA,NA,NA,"At each site, on each day in which coffee was in flower, 2 simultaneous samples of flower visitors were taken. Each sample involved recording each visitor and the number of flowers visited for 10 minutes on an area of one bush comprising approximately 250 flowers.",NA
"Taylor_Ricketts_Coffea_arabica_Costa_Rica_2002","22","samples of flower visitors","Nannotrigona mellaria","species","other_wild_bees",4,NA,NA,NA,"At each site, on each day in which coffee was in flower, 2 simultaneous samples of flower visitors were taken. Each sample involved recording each visitor and the number of flowers visited for 10 minutes on an area of one bush comprising approximately 250 flowers.",NA
"Taylor_Ricketts_Coffea_arabica_Costa_Rica_2002","22","samples of flower visitors","Plebeia jatiformis","species","other_wild_bees",56,NA,NA,NA,"At each site, on each day in which coffee was in flower, 2 simultaneous samples of flower visitors were taken. Each sample involved recording each visitor and the number of flowers visited for 10 minutes on an area of one bush comprising approximately 250 flowers.",NA
"Taylor_Ricketts_Coffea_arabica_Costa_Rica_2002","22","samples of flower visitors","Plebia frontalis","species","other_wild_bees",35,NA,NA,NA,"At each site, on each day in which coffee was in flower, 2 simultaneous samples of flower visitors were taken. Each sample involved recording each visitor and the number of flowers visited for 10 minutes on an area of one bush comprising approximately 250 flowers.",NA
"Taylor_Ricketts_Coffea_arabica_Costa_Rica_2002","22","samples of flower visitors","Trigona (tetragonisca) angustula","species","other_wild_bees",4,NA,NA,NA,"At each site, on each day in which coffee was in flower, 2 simultaneous samples of flower visitors were taken. Each sample involved recording each visitor and the number of flowers visited for 10 minutes on an area of one bush comprising approximately 250 flowers.",NA
"Taylor_Ricketts_Coffea_arabica_Costa_Rica_2002","22","samples of flower visitors","Trigona dorsalis","species","other_wild_bees",3,NA,NA,NA,"At each site, on each day in which coffee was in flower, 2 simultaneous samples of flower visitors were taken. Each sample involved recording each visitor and the number of flowers visited for 10 minutes on an area of one bush comprising approximately 250 flowers.",NA
"Taylor_Ricketts_Coffea_arabica_Costa_Rica_2002","22","samples of flower visitors","Trigonisca sp.","genus","other_wild_bees",29,NA,NA,NA,"At each site, on each day in which coffee was in flower, 2 simultaneous samples of flower visitors were taken. Each sample involved recording each visitor and the number of flowers visited for 10 minutes on an area of one bush comprising approximately 250 flowers.",NA
"Taylor_Ricketts_Coffea_arabica_Costa_Rica_2002","22","samples of flower visitors","Native-summ","morphospecies","other_wild_bees",5,NA,NA,NA,"At each site, on each day in which coffee was in flower, 2 simultaneous samples of flower visitors were taken. Each sample involved recording each visitor and the number of flowers visited for 10 minutes on an area of one bush comprising approximately 250 flowers.",NA
"Taylor_Ricketts_Coffea_arabica_Costa_Rica_2002","23","samples of flower visitors","Apis mellifera","species","honeybees",13,NA,NA,NA,"At each site, on each day in which coffee was in flower, 2 simultaneous samples of flower visitors were taken. Each sample involved recording each visitor and the number of flowers visited for 10 minutes on an area of one bush comprising approximately 250 flowers.",NA
"Taylor_Ricketts_Coffea_arabica_Costa_Rica_2002","23","samples of flower visitors","Native-summ","morphospecies","other_wild_bees",1,NA,NA,NA,"At each site, on each day in which coffee was in flower, 2 simultaneous samples of flower visitors were taken. Each sample involved recording each visitor and the number of flowers visited for 10 minutes on an area of one bush comprising approximately 250 flowers.",NA
"Taylor_Ricketts_Coffea_arabica_Costa_Rica_2002","24","samples of flower visitors","Apis mellifera","species","honeybees",5,NA,NA,NA,"At each site, on each day in which coffee was in flower, 2 simultaneous samples of flower visitors were taken. Each sample involved recording each visitor and the number of flowers visited for 10 minutes on an area of one bush comprising approximately 250 flowers.",NA
"Taylor_Ricketts_Coffea_arabica_Costa_Rica_2002","24","samples of flower visitors","Plebia frontalis","species","other_wild_bees",1,NA,NA,NA,"At each site, on each day in which coffee was in flower, 2 simultaneous samples of flower visitors were taken. Each sample involved recording each visitor and the number of flowers visited for 10 minutes on an area of one bush comprising approximately 250 flowers.",NA
"Taylor_Ricketts_Coffea_arabica_Costa_Rica_2002","24","samples of flower visitors","Native-summ","morphospecies","other_wild_bees",4,NA,NA,NA,"At each site, on each day in which coffee was in flower, 2 simultaneous samples of flower visitors were taken. Each sample involved recording each visitor and the number of flowers visited for 10 minutes on an area of one bush comprising approximately 250 flowers.",NA
"Taylor_Ricketts_Coffea_arabica_Costa_Rica_2002","101","samples of flower visitors","Apis mellifera","species","honeybees",2,NA,90,2250,"At each site, on each day in which coffee was in flower, 2 simultaneous samples of flower visitors were taken. Each sample involved recording each visitor and the number of flowers visited for 10 minutes on an area of one bush comprising approximately 250 flowers.",NA
"Taylor_Ricketts_Coffea_arabica_Costa_Rica_2002","101","samples of flower visitors","Plebeia jatiformis","species","other_wild_bees",4,NA,90,2250,"At each site, on each day in which coffee was in flower, 2 simultaneous samples of flower visitors were taken. Each sample involved recording each visitor and the number of flowers visited for 10 minutes on an area of one bush comprising approximately 250 flowers.",NA
"Taylor_Ricketts_Coffea_arabica_Costa_Rica_2002","101","samples of flower visitors","Plebia frontalis","species","other_wild_bees",8,NA,90,2250,"At each site, on each day in which coffee was in flower, 2 simultaneous samples of flower visitors were taken. Each sample involved recording each visitor and the number of flowers visited for 10 minutes on an area of one bush comprising approximately 250 flowers.",NA
"Taylor_Ricketts_Coffea_arabica_Costa_Rica_2002","101","samples of flower visitors","Trigonisca sp.","genus","other_wild_bees",6,NA,90,2250,"At each site, on each day in which coffee was in flower, 2 simultaneous samples of flower visitors were taken. Each sample involved recording each visitor and the number of flowers visited for 10 minutes on an area of one bush comprising approximately 250 flowers.",NA
"Taylor_Ricketts_Coffea_arabica_Costa_Rica_2002","101","samples of flower visitors","Native-summ","morphospecies","other_wild_bees",3,NA,90,2250,"At each site, on each day in which coffee was in flower, 2 simultaneous samples of flower visitors were taken. Each sample involved recording each visitor and the number of flowers visited for 10 minutes on an area of one bush comprising approximately 250 flowers.",NA
"Taylor_Ricketts_Coffea_arabica_Costa_Rica_2002","102","samples of flower visitors","Apis mellifera","species","honeybees",5,NA,90,2250,"At each site, on each day in which coffee was in flower, 2 simultaneous samples of flower visitors were taken. Each sample involved recording each visitor and the number of flowers visited for 10 minutes on an area of one bush comprising approximately 250 flowers.",NA
"Taylor_Ricketts_Coffea_arabica_Costa_Rica_2002","102","samples of flower visitors","Huge Black 2002","morphospecies","other_wild_bees",2,NA,90,2250,"At each site, on each day in which coffee was in flower, 2 simultaneous samples of flower visitors were taken. Each sample involved recording each visitor and the number of flowers visited for 10 minutes on an area of one bush comprising approximately 250 flowers.",NA
"Taylor_Ricketts_Coffea_arabica_Costa_Rica_2002","102","samples of flower visitors","Plebia frontalis","species","other_wild_bees",1,NA,90,2250,"At each site, on each day in which coffee was in flower, 2 simultaneous samples of flower visitors were taken. Each sample involved recording each visitor and the number of flowers visited for 10 minutes on an area of one bush comprising approximately 250 flowers.",NA
"Taylor_Ricketts_Coffea_arabica_Costa_Rica_2002","102","samples of flower visitors","Trigona (tetragonisca) angustula","species","other_wild_bees",2,NA,90,2250,"At each site, on each day in which coffee was in flower, 2 simultaneous samples of flower visitors were taken. Each sample involved recording each visitor and the number of flowers visited for 10 minutes on an area of one bush comprising approximately 250 flowers.",NA
"Taylor_Ricketts_Coffea_arabica_Costa_Rica_2002","102","samples of flower visitors","Trigona dorsalis","species","other_wild_bees",1,NA,90,2250,"At each site, on each day in which coffee was in flower, 2 simultaneous samples of flower visitors were taken. Each sample involved recording each visitor and the number of flowers visited for 10 minutes on an area of one bush comprising approximately 250 flowers.",NA
"Taylor_Ricketts_Coffea_arabica_Costa_Rica_2002","102","samples of flower visitors","Trigonisca sp.","genus","other_wild_bees",3,NA,90,2250,"At each site, on each day in which coffee was in flower, 2 simultaneous samples of flower visitors were taken. Each sample involved recording each visitor and the number of flowers visited for 10 minutes on an area of one bush comprising approximately 250 flowers.",NA
"Taylor_Ricketts_Coffea_arabica_Costa_Rica_2002","102","samples of flower visitors","Native-summ","morphospecies","other_wild_bees",3,NA,90,2250,"At each site, on each day in which coffee was in flower, 2 simultaneous samples of flower visitors were taken. Each sample involved recording each visitor and the number of flowers visited for 10 minutes on an area of one bush comprising approximately 250 flowers.",NA
"Taylor_Ricketts_Coffea_arabica_Costa_Rica_2002","103","samples of flower visitors","Apis mellifera","species","honeybees",19,NA,90,2250,"At each site, on each day in which coffee was in flower, 2 simultaneous samples of flower visitors were taken. Each sample involved recording each visitor and the number of flowers visited for 10 minutes on an area of one bush comprising approximately 250 flowers.",NA
"Taylor_Ricketts_Coffea_arabica_Costa_Rica_2002","103","samples of flower visitors","Melipona fasciata","species","other_wild_bees",1,NA,90,2250,"At each site, on each day in which coffee was in flower, 2 simultaneous samples of flower visitors were taken. Each sample involved recording each visitor and the number of flowers visited for 10 minutes on an area of one bush comprising approximately 250 flowers.",NA
"Taylor_Ricketts_Coffea_arabica_Costa_Rica_2002","103","samples of flower visitors","Native-summ","morphospecies","other_wild_bees",3,NA,90,2250,"At each site, on each day in which coffee was in flower, 2 simultaneous samples of flower visitors were taken. Each sample involved recording each visitor and the number of flowers visited for 10 minutes on an area of one bush comprising approximately 250 flowers.",NA
"Taylor_Ricketts_Coffea_arabica_Costa_Rica_2002","104","samples of flower visitors","Apis mellifera","species","honeybees",6,NA,90,2250,"At each site, on each day in which coffee was in flower, 2 simultaneous samples of flower visitors were taken. Each sample involved recording each visitor and the number of flowers visited for 10 minutes on an area of one bush comprising approximately 250 flowers.",NA
"Taylor_Ricketts_Coffea_arabica_Costa_Rica_2002","104","samples of flower visitors","Native-summ","morphospecies","other_wild_bees",4,NA,90,2250,"At each site, on each day in which coffee was in flower, 2 simultaneous samples of flower visitors were taken. Each sample involved recording each visitor and the number of flowers visited for 10 minutes on an area of one bush comprising approximately 250 flowers.",NA
"Taylor_Ricketts_Coffea_arabica_Costa_Rica_2002","105","samples of flower visitors","Apis mellifera","species","honeybees",9,NA,90,2250,"At each site, on each day in which coffee was in flower, 2 simultaneous samples of flower visitors were taken. Each sample involved recording each visitor and the number of flowers visited for 10 minutes on an area of one bush comprising approximately 250 flowers.",NA
"Taylor_Ricketts_Coffea_arabica_Costa_Rica_2002","105","samples of flower visitors","Nannotrigona mellaria","species","other_wild_bees",1,NA,90,2250,"At each site, on each day in which coffee was in flower, 2 simultaneous samples of flower visitors were taken. Each sample involved recording each visitor and the number of flowers visited for 10 minutes on an area of one bush comprising approximately 250 flowers.",NA
"Taylor_Ricketts_Coffea_arabica_Costa_Rica_2002","105","samples of flower visitors","Plebeia jatiformis","species","other_wild_bees",7,NA,90,2250,"At each site, on each day in which coffee was in flower, 2 simultaneous samples of flower visitors were taken. Each sample involved recording each visitor and the number of flowers visited for 10 minutes on an area of one bush comprising approximately 250 flowers.",NA
"Taylor_Ricketts_Coffea_arabica_Costa_Rica_2002","105","samples of flower visitors","Plebia frontalis","species","other_wild_bees",5,NA,90,2250,"At each site, on each day in which coffee was in flower, 2 simultaneous samples of flower visitors were taken. Each sample involved recording each visitor and the number of flowers visited for 10 minutes on an area of one bush comprising approximately 250 flowers.",NA
"Taylor_Ricketts_Coffea_arabica_Costa_Rica_2002","105","samples of flower visitors","Trigona (tetragonisca) angustula","species","other_wild_bees",1,NA,90,2250,"At each site, on each day in which coffee was in flower, 2 simultaneous samples of flower visitors were taken. Each sample involved recording each visitor and the number of flowers visited for 10 minutes on an area of one bush comprising approximately 250 flowers.",NA
"Taylor_Ricketts_Coffea_arabica_Costa_Rica_2002","105","samples of flower visitors","Trigona fulviventris","species","other_wild_bees",2,NA,90,2250,"At each site, on each day in which coffee was in flower, 2 simultaneous samples of flower visitors were taken. Each sample involved recording each visitor and the number of flowers visited for 10 minutes on an area of one bush comprising approximately 250 flowers.",NA
"Taylor_Ricketts_Coffea_arabica_Costa_Rica_2002","105","samples of flower visitors","Trigonisca sp.","genus","other_wild_bees",4,NA,90,2250,"At each site, on each day in which coffee was in flower, 2 simultaneous samples of flower visitors were taken. Each sample involved recording each visitor and the number of flowers visited for 10 minutes on an area of one bush comprising approximately 250 flowers.",NA
"Taylor_Ricketts_Coffea_arabica_Costa_Rica_2002","105","samples of flower visitors","Native-summ","morphospecies","other_wild_bees",9,NA,90,2250,"At each site, on each day in which coffee was in flower, 2 simultaneous samples of flower visitors were taken. Each sample involved recording each visitor and the number of flowers visited for 10 minutes on an area of one bush comprising approximately 250 flowers.",NA
"Taylor_Ricketts_Coffea_arabica_Costa_Rica_2002","106","samples of flower visitors","Apis mellifera","species","honeybees",5,NA,90,2250,"At each site, on each day in which coffee was in flower, 2 simultaneous samples of flower visitors were taken. Each sample involved recording each visitor and the number of flowers visited for 10 minutes on an area of one bush comprising approximately 250 flowers.",NA
"Taylor_Ricketts_Coffea_arabica_Costa_Rica_2002","106","samples of flower visitors","Huge Black 2002","morphospecies","other_wild_bees",1,NA,90,2250,"At each site, on each day in which coffee was in flower, 2 simultaneous samples of flower visitors were taken. Each sample involved recording each visitor and the number of flowers visited for 10 minutes on an area of one bush comprising approximately 250 flowers.",NA
"Taylor_Ricketts_Coffea_arabica_Costa_Rica_2002","106","samples of flower visitors","Plebia frontalis","species","other_wild_bees",2,NA,90,2250,"At each site, on each day in which coffee was in flower, 2 simultaneous samples of flower visitors were taken. Each sample involved recording each visitor and the number of flowers visited for 10 minutes on an area of one bush comprising approximately 250 flowers.",NA
"Taylor_Ricketts_Coffea_arabica_Costa_Rica_2002","106","samples of flower visitors","Trigonisca sp.","genus","other_wild_bees",1,NA,90,2250,"At each site, on each day in which coffee was in flower, 2 simultaneous samples of flower visitors were taken. Each sample involved recording each visitor and the number of flowers visited for 10 minutes on an area of one bush comprising approximately 250 flowers.",NA
"Taylor_Ricketts_Coffea_arabica_Costa_Rica_2002","106","samples of flower visitors","Native-summ","morphospecies","other_wild_bees",2,NA,90,2250,"At each site, on each day in which coffee was in flower, 2 simultaneous samples of flower visitors were taken. Each sample involved recording each visitor and the number of flowers visited for 10 minutes on an area of one bush comprising approximately 250 flowers.",NA
"Taylor_Ricketts_Coffea_arabica_Costa_Rica_2002","107","samples of flower visitors","Apis mellifera","species","honeybees",12,NA,90,2250,"At each site, on each day in which coffee was in flower, 2 simultaneous samples of flower visitors were taken. Each sample involved recording each visitor and the number of flowers visited for 10 minutes on an area of one bush comprising approximately 250 flowers.",NA
"Taylor_Ricketts_Coffea_arabica_Costa_Rica_2002","107","samples of flower visitors","Trigonisca sp.","genus","other_wild_bees",2,NA,90,2250,"At each site, on each day in which coffee was in flower, 2 simultaneous samples of flower visitors were taken. Each sample involved recording each visitor and the number of flowers visited for 10 minutes on an area of one bush comprising approximately 250 flowers.",NA
"Taylor_Ricketts_Coffea_arabica_Costa_Rica_2002","107","samples of flower visitors","Native-summ","morphospecies","other_wild_bees",4,NA,90,2250,"At each site, on each day in which coffee was in flower, 2 simultaneous samples of flower visitors were taken. Each sample involved recording each visitor and the number of flowers visited for 10 minutes on an area of one bush comprising approximately 250 flowers.",NA
"Taylor_Ricketts_Coffea_arabica_Costa_Rica_2002","108","samples of flower visitors","Apis mellifera","species","honeybees",17,NA,90,2250,"At each site, on each day in which coffee was in flower, 2 simultaneous samples of flower visitors were taken. Each sample involved recording each visitor and the number of flowers visited for 10 minutes on an area of one bush comprising approximately 250 flowers.",NA
"Taylor_Ricketts_Coffea_arabica_Costa_Rica_2002","109","samples of flower visitors","Apis mellifera","species","honeybees",4,NA,90,2250,"At each site, on each day in which coffee was in flower, 2 simultaneous samples of flower visitors were taken. Each sample involved recording each visitor and the number of flowers visited for 10 minutes on an area of one bush comprising approximately 250 flowers.",NA
"Taylor_Ricketts_Coffea_arabica_Costa_Rica_2002","109","samples of flower visitors","Plebeia jatiformis","species","other_wild_bees",19,NA,90,2250,"At each site, on each day in which coffee was in flower, 2 simultaneous samples of flower visitors were taken. Each sample involved recording each visitor and the number of flowers visited for 10 minutes on an area of one bush comprising approximately 250 flowers.",NA
"Taylor_Ricketts_Coffea_arabica_Costa_Rica_2002","109","samples of flower visitors","Plebia frontalis","species","other_wild_bees",4,NA,90,2250,"At each site, on each day in which coffee was in flower, 2 simultaneous samples of flower visitors were taken. Each sample involved recording each visitor and the number of flowers visited for 10 minutes on an area of one bush comprising approximately 250 flowers.",NA
"Taylor_Ricketts_Coffea_arabica_Costa_Rica_2002","109","samples of flower visitors","Trigona (tetragonisca) angustula","species","other_wild_bees",2,NA,90,2250,"At each site, on each day in which coffee was in flower, 2 simultaneous samples of flower visitors were taken. Each sample involved recording each visitor and the number of flowers visited for 10 minutes on an area of one bush comprising approximately 250 flowers.",NA
"Taylor_Ricketts_Coffea_arabica_Costa_Rica_2002","109","samples of flower visitors","Trigonisca sp.","genus","other_wild_bees",1,NA,90,2250,"At each site, on each day in which coffee was in flower, 2 simultaneous samples of flower visitors were taken. Each sample involved recording each visitor and the number of flowers visited for 10 minutes on an area of one bush comprising approximately 250 flowers.",NA
"Taylor_Ricketts_Coffea_arabica_Costa_Rica_2002","109","samples of flower visitors","Native-summ","morphospecies","other_wild_bees",2,NA,90,2250,"At each site, on each day in which coffee was in flower, 2 simultaneous samples of flower visitors were taken. Each sample involved recording each visitor and the number of flowers visited for 10 minutes on an area of one bush comprising approximately 250 flowers.",NA
"Taylor_Ricketts_Coffea_arabica_Costa_Rica_2002","110","samples of flower visitors","Apis mellifera","species","honeybees",9,NA,90,2250,"At each site, on each day in which coffee was in flower, 2 simultaneous samples of flower visitors were taken. Each sample involved recording each visitor and the number of flowers visited for 10 minutes on an area of one bush comprising approximately 250 flowers.",NA
"Taylor_Ricketts_Coffea_arabica_Costa_Rica_2002","110","samples of flower visitors","Plebeia jatiformis","species","other_wild_bees",1,NA,90,2250,"At each site, on each day in which coffee was in flower, 2 simultaneous samples of flower visitors were taken. Each sample involved recording each visitor and the number of flowers visited for 10 minutes on an area of one bush comprising approximately 250 flowers.",NA
"Taylor_Ricketts_Coffea_arabica_Costa_Rica_2002","110","samples of flower visitors","Trigona (tetragonisca) angustula","species","other_wild_bees",2,NA,90,2250,"At each site, on each day in which coffee was in flower, 2 simultaneous samples of flower visitors were taken. Each sample involved recording each visitor and the number of flowers visited for 10 minutes on an area of one bush comprising approximately 250 flowers.",NA
"Taylor_Ricketts_Coffea_arabica_Costa_Rica_2002","110","samples of flower visitors","Native-summ","morphospecies","other_wild_bees",1,NA,90,2250,"At each site, on each day in which coffee was in flower, 2 simultaneous samples of flower visitors were taken. Each sample involved recording each visitor and the number of flowers visited for 10 minutes on an area of one bush comprising approximately 250 flowers.",NA
"Taylor_Ricketts_Coffea_arabica_Costa_Rica_2002","111","samples of flower visitors","Apis mellifera","species","honeybees",10,NA,90,2250,"At each site, on each day in which coffee was in flower, 2 simultaneous samples of flower visitors were taken. Each sample involved recording each visitor and the number of flowers visited for 10 minutes on an area of one bush comprising approximately 250 flowers.",NA
"Taylor_Ricketts_Coffea_arabica_Costa_Rica_2002","111","samples of flower visitors","Plebeia jatiformis","species","other_wild_bees",1,NA,90,2250,"At each site, on each day in which coffee was in flower, 2 simultaneous samples of flower visitors were taken. Each sample involved recording each visitor and the number of flowers visited for 10 minutes on an area of one bush comprising approximately 250 flowers.",NA
"Taylor_Ricketts_Coffea_arabica_Costa_Rica_2002","111","samples of flower visitors","Plebia frontalis","species","other_wild_bees",2,NA,90,2250,"At each site, on each day in which coffee was in flower, 2 simultaneous samples of flower visitors were taken. Each sample involved recording each visitor and the number of flowers visited for 10 minutes on an area of one bush comprising approximately 250 flowers.",NA
"Taylor_Ricketts_Coffea_arabica_Costa_Rica_2002","111","samples of flower visitors","Native-summ","morphospecies","other_wild_bees",1,NA,90,2250,"At each site, on each day in which coffee was in flower, 2 simultaneous samples of flower visitors were taken. Each sample involved recording each visitor and the number of flowers visited for 10 minutes on an area of one bush comprising approximately 250 flowers.",NA
"Taylor_Ricketts_Coffea_arabica_Costa_Rica_2002","112","samples of flower visitors","Apis mellifera","species","honeybees",9,NA,90,2250,"At each site, on each day in which coffee was in flower, 2 simultaneous samples of flower visitors were taken. Each sample involved recording each visitor and the number of flowers visited for 10 minutes on an area of one bush comprising approximately 250 flowers.",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR01_B","Plant observations","Bombus lapidarius","species","bumblebees",1,NA,120,12000,"Line B. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR01_B","Plant observations","Bombus terrestris","species","bumblebees",9,NA,120,12000,"Line B. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR01_B","Plant observations","Eristalis tenax","species","syrphids",4,NA,120,12000,"Line B. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR01_B","Plant observations","Sphaerophoria scripta","species","syrphids",1,NA,120,12000,"Line B. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR01_C","Plant observations","Bombus lapidarius","species","bumblebees",1,NA,120,12000,"Line C. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR01_C","Plant observations","Eristalis tenax","species","syrphids",1,NA,120,12000,"Line C. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR01_D","Plant observations","Bombus terrestris","species","bumblebees",4,NA,120,12000,"Line D. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR01_D","Plant observations","Eristalis tenax","species","syrphids",1,NA,120,12000,"Line D. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR01_F","Plant observations","Bombus lapidarius","species","bumblebees",1,NA,120,12000,"Line F. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR01_F","Plant observations","Bombus terrestris","species","bumblebees",4,NA,120,12000,"Line F. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR01_F","Plant observations","Eristalis tenax","species","syrphids",1,NA,120,12000,"Line F. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR02_B","Plant observations","Apis mellifera","species","honeybees",1,NA,120,12000,"Line B. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR02_B","Plant observations","Bombus terrestris","species","bumblebees",10,NA,120,12000,"Line B. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR02_D","Plant observations","Apis mellifera","species","honeybees",2,NA,120,12000,"Line D. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR02_D","Plant observations","Bombus terrestris","species","bumblebees",3,NA,120,12000,"Line D. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR02_D","Plant observations","Eristalis tenax","species","syrphids",1,NA,120,12000,"Line D. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR02_E","Plant observations","Bombus terrestris","species","bumblebees",2,NA,120,12000,"Line E. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR02_F","Plant observations","Bombus terrestris","species","bumblebees",2,NA,120,12000,"Line F. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR02_F","Plant observations","Eristalis tenax","species","syrphids",2,NA,120,12000,"Line F. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR03_B","Plant observations","Andrena flavipes","species","other_wild_bees",2,NA,120,12000,"Line B. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR03_B","Plant observations","Apis mellifera","species","honeybees",1,NA,120,12000,"Line B. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR03_B","Plant observations","Bombus lapidarius","species","bumblebees",4,NA,120,12000,"Line B. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR03_B","Plant observations","Bombus terrestris","species","bumblebees",4,NA,120,12000,"Line B. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR03_B","Plant observations","Eristalis tenax","species","syrphids",33,NA,120,12000,"Line B. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR03_B","Plant observations","Syritta pipiens","species","syrphids",2,NA,120,12000,"Line B. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR03_B","Plant observations","Andrena labialis","species","other_wild_bees",1,NA,120,12000,"Line B. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR03_B","Plant observations","Melanostoma mellinum","species","syrphids",1,NA,120,12000,"Line B. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR03_B","Plant observations","Lasioglossum calceatum","species","other_wild_bees",1,NA,120,12000,"Line B. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR03_B","Plant observations","Lasioglossum laticeps","species","other_wild_bees",1,NA,120,12000,"Line B. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR03_C","Plant observations","Bombus terrestris","species","bumblebees",1,NA,120,12000,"Line C. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR03_D","Plant observations","Apis mellifera","species","honeybees",2,NA,120,12000,"Line D. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR03_D","Plant observations","Bombus terrestris","species","bumblebees",3,NA,120,12000,"Line D. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR03_D","Plant observations","Eristalis arbustorum","species","syrphids",1,NA,120,12000,"Line D. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR03_D","Plant observations","Eristalis tenax","species","syrphids",8,NA,120,12000,"Line D. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR03_D","Plant observations","Halictus scabiosae","species","other_wild_bees",1,NA,120,12000,"Line D. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR03_D","Plant observations","Andrena wilkella","species","other_wild_bees",1,NA,120,12000,"Line D. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR03_D","Plant observations","Lasioglossum calceatum","species","other_wild_bees",1,NA,120,12000,"Line D. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR03_E","Plant observations","Bombus terrestris","species","bumblebees",1,NA,120,12000,"Line E. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR03_E","Plant observations","Eristalis arbustorum","species","syrphids",1,NA,120,12000,"Line E. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR03_E","Plant observations","Eristalis tenax","species","syrphids",3,NA,120,12000,"Line E. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR03_E","Plant observations","Eristalis abusiva","species","syrphids",1,NA,120,12000,"Line E. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR03_F","Plant observations","Bombus terrestris","species","bumblebees",1,NA,120,12000,"Line F. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR03_F","Plant observations","Eristalis tenax","species","syrphids",1,NA,120,12000,"Line F. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR04_B","Plant observations","Bombus terrestris","species","bumblebees",2,NA,160,16000,"Line B. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR04_B","Plant observations","Sphaerophoria scripta","species","syrphids",3,NA,160,16000,"Line B. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR05_B","Plant observations","Bombus terrestris","species","bumblebees",15,NA,120,12000,"Line B. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR05_C","Plant observations","Bombus terrestris","species","bumblebees",2,NA,120,12000,"Line C. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR05_D","Plant observations","Bombus terrestris","species","bumblebees",3,NA,120,12000,"Line D. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR05_E","Plant observations","Bombus terrestris","species","bumblebees",5,NA,120,12000,"Line E. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR05_F","Plant observations","Bombus terrestris","species","bumblebees",3,NA,120,12000,"Line F. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR06_B","Plant observations","Bombus terrestris","species","bumblebees",3,NA,120,12000,"Line B. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR06_B","Plant observations","Eristalis tenax","species","syrphids",1,NA,120,12000,"Line B. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR06_C","Plant observations","Bombus terrestris","species","bumblebees",1,NA,120,12000,"Line C. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR06_E","Plant observations","Bombus terrestris","species","bumblebees",1,NA,120,12000,"Line E. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR06_E","Plant observations","Eristalis tenax","species","syrphids",1,NA,120,12000,"Line E. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR06_F","Plant observations","Bombus terrestris","species","bumblebees",1,NA,120,12000,"Line F. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR08_C","Plant observations","Bombus terrestris","species","bumblebees",1,NA,120,12000,"Line C. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR08_E","Plant observations","Bombus terrestris","species","bumblebees",2,NA,120,12000,"Line E. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR09_B","Plant observations","Bombus terrestris","species","bumblebees",9,NA,120,12000,"Line B. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR09_B","Plant observations","Eristalis tenax","species","syrphids",3,NA,120,12000,"Line B. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR09_B","Plant observations","Lasioglossum sp.","morphospecies","other_wild_bees",1,NA,120,12000,"Line B. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR09_B","Plant observations","Platycheirus sp.","morphospecies","syrphids",3,NA,120,12000,"Line B. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR09_C","Plant observations","Bombus terrestris","species","bumblebees",1,NA,120,12000,"Line C. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR09_D","Plant observations","Bombus terrestris","species","bumblebees",4,NA,120,12000,"Line D. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR09_D","Plant observations","Andrena nigroaenea","species","other_wild_bees",1,NA,120,12000,"Line D. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR09_E","Plant observations","Lasioglossum sp.","morphospecies","other_wild_bees",1,NA,120,12000,"Line E. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR09_F","Plant observations","Bombus terrestris","species","bumblebees",3,NA,120,12000,"Line F. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR10_B","Plant observations","Bombus terrestris","species","bumblebees",5,NA,120,12000,"Line B. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR10_C","Plant observations","Bombus terrestris","species","bumblebees",1,NA,120,12000,"Line C. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR10_D","Plant observations","Bombus terrestris","species","bumblebees",1,NA,120,12000,"Line D. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR10_E","Plant observations","Bombus terrestris","species","bumblebees",1,NA,120,12000,"Line E. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR11_B","Plant observations","Bombus terrestris","species","bumblebees",4,NA,120,12000,"Line B. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR11_B","Plant observations","Platycheirus sp.","morphospecies","syrphids",1,NA,120,12000,"Line B. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR11_B","Plant observations","Polistes dominula","species","non_bee_hymenoptera",1,NA,120,12000,"Line B. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR11_D","Plant observations","Bombus terrestris","species","bumblebees",3,NA,120,12000,"Line D. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR12_B","Plant observations","Bombus lapidarius","species","bumblebees",2,NA,160,16000,"Line B. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR12_B","Plant observations","Bombus terrestris","species","bumblebees",46,NA,160,16000,"Line B. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR12_B","Plant observations","Eristalis tenax","species","syrphids",1,NA,160,16000,"Line B. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR12_B","Plant observations","Lasioglossum malachurum","species","other_wild_bees",1,NA,160,16000,"Line B. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR12_B","Plant observations","Sphaerophoria scripta","species","syrphids",1,NA,160,16000,"Line B. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR12_B","Plant observations","Syritta pipiens","species","syrphids",1,NA,160,16000,"Line B. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR12_C","Plant observations","Bombus terrestris","species","bumblebees",4,NA,140,14000,"Line C. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR12_D","Plant observations","Bombus lapidarius","species","bumblebees",1,NA,160,16000,"Line D. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR12_D","Plant observations","Bombus terrestris","species","bumblebees",28,NA,160,16000,"Line D. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR12_E","Plant observations","Bombus terrestris","species","bumblebees",17,NA,120,12000,"Line E. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR12_E","Plant observations","Platycheirus sp.","morphospecies","syrphids",3,NA,120,12000,"Line E. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR12_E","Plant observations","Sphaerophoria scripta","species","syrphids",1,NA,120,12000,"Line E. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR12_E","Plant observations","Platycheirus","species","syrphids",2,NA,120,12000,"Line E. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR12_F","Plant observations","Bombus terrestris","species","bumblebees",3,NA,140,14000,"Line F. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR13_B","Plant observations","Bombus terrestris","species","bumblebees",7,NA,120,12000,"Line B. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR13_B","Plant observations","Stip of streep fopwesp","species","non_bee_hymenoptera",2,NA,120,12000,"Line B. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR13_B","Plant observations","Platycheirus","species","syrphids",1,NA,120,12000,"Line B. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR13_C","Plant observations","Bombus terrestris","species","bumblebees",2,NA,120,12000,"Line C. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR13_C","Plant observations","Platycheirus sp.","morphospecies","syrphids",1,NA,120,12000,"Line C. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR13_C","Plant observations","Bombus hypnorum","species","bumblebees",1,NA,120,12000,"Line C. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR13_D","Plant observations","Bombus terrestris","species","bumblebees",3,NA,120,12000,"Line D. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR13_D","Plant observations","Eristalis tenax","species","syrphids",1,NA,120,12000,"Line D. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR13_E","Plant observations","Bombus terrestris","species","bumblebees",2,NA,120,12000,"Line E. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR13_E","Plant observations","Polistes dominula","species","non_bee_hymenoptera",1,NA,120,12000,"Line E. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR13_F","Plant observations","Bombus terrestris","species","bumblebees",2,NA,120,12000,"Line F. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR14_B","Plant observations","Bombus terrestris","species","bumblebees",1,NA,160,16000,"Line B. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR14_B","Plant observations","Eristalis tenax","species","syrphids",2,NA,160,16000,"Line B. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR14_B","Plant observations","Platycheirus","species","syrphids",1,NA,160,16000,"Line B. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR14_C","Plant observations","Bombus terrestris","species","bumblebees",1,NA,120,12000,"Line C. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR14_F","Plant observations","Bombus terrestris","species","bumblebees",1,NA,160,16000,"Line F. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR14_F","Plant observations","Eupeodes corollae","species","syrphids",1,NA,160,16000,"Line F. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR15_B","Plant observations","Bombus lapidarius","species","bumblebees",5,NA,140,14000,"Line B. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR15_B","Plant observations","Bombus terrestris","species","bumblebees",13,NA,140,14000,"Line B. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR15_B","Plant observations","Sphaerophoria scripta","species","syrphids",3,NA,140,14000,"Line B. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR15_C","Plant observations","Apis mellifera","species","honeybees",1,NA,160,16000,"Line C. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR15_C","Plant observations","Bombus lapidarius","species","bumblebees",4,NA,160,16000,"Line C. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR15_C","Plant observations","Sphaerophoria scripta","species","syrphids",1,NA,160,16000,"Line C. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR15_D","Plant observations","Bombus lapidarius","species","bumblebees",3,NA,160,16000,"Line D. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR15_D","Plant observations","Bombus terrestris","species","bumblebees",1,NA,160,16000,"Line D. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR15_E","Plant observations","Bombus lapidarius","species","bumblebees",2,NA,120,12000,"Line E. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR15_E","Plant observations","Bombus terrestris","species","bumblebees",4,NA,120,12000,"Line E. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR15_F","Plant observations","Bombus lapidarius","species","bumblebees",2,NA,120,12000,"Line F. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR16_B","Plant observations","Apis mellifera","species","honeybees",10,NA,120,12000,"Line B. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR16_B","Plant observations","Bombus terrestris","species","bumblebees",10,NA,120,12000,"Line B. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR16_C","Plant observations","Apis mellifera","species","honeybees",1,NA,120,12000,"Line C. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR16_D","Plant observations","Apis mellifera","species","honeybees",4,NA,120,12000,"Line D. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR16_D","Plant observations","Bombus terrestris","species","bumblebees",6,NA,120,12000,"Line D. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR17_B","Plant observations","Bombus terrestris","species","bumblebees",13,NA,120,12000,"Line B. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR17_B","Plant observations","Lasioglossum subhirtum","species","other_wild_bees",1,NA,120,12000,"Line B. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR17_C","Plant observations","Bombus terrestris","species","bumblebees",4,NA,120,12000,"Line C. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR17_D","Plant observations","Bombus terrestris","species","bumblebees",1,NA,120,12000,"Line D. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR17_D","Plant observations","Eristalis tenax","species","syrphids",1,NA,120,12000,"Line D. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR17_D","Plant observations","Lasioglossum subhirtum","species","other_wild_bees",1,NA,120,12000,"Line D. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR17_E","Plant observations","Bombus lapidarius","species","bumblebees",2,NA,120,12000,"Line E. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR17_E","Plant observations","Bombus terrestris","species","bumblebees",1,NA,120,12000,"Line E. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR17_E","Plant observations","Eristalis arbustorum","species","syrphids",1,NA,120,12000,"Line E. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR17_E","Plant observations","wilde bij (klein)","morphospecies","other_wild_bees",1,NA,120,12000,"Line E. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR17_F","Plant observations","Bombus lapidarius","species","bumblebees",2,NA,120,12000,"Line F. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR17_F","Plant observations","Bombus terrestris","species","bumblebees",8,NA,120,12000,"Line F. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR18_B","Plant observations","Bombus terrestris","species","bumblebees",19,NA,120,12000,"Line B. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR18_C","Plant observations","Bombus terrestris","species","bumblebees",7,NA,120,12000,"Line C. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR18_D","Plant observations","Bombus terrestris","species","bumblebees",11,NA,120,12000,"Line D. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR18_E","Plant observations","Bombus terrestris","species","bumblebees",6,NA,120,12000,"Line E. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR18_F","Plant observations","Bombus terrestris","species","bumblebees",10,NA,120,12000,"Line F. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR01_B","Transect","Andrena flavipes","species","other_wild_bees",13,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR01_C","Transect","Andrena flavipes","species","other_wild_bees",13,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR01_D","Transect","Andrena flavipes","species","other_wild_bees",13,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR01_E","Transect","Andrena flavipes","species","other_wild_bees",13,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR01_F","Transect","Andrena flavipes","species","other_wild_bees",13,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR01_B","Transect","Andrena thoracica","species","other_wild_bees",6,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR01_C","Transect","Andrena thoracica","species","other_wild_bees",6,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR01_D","Transect","Andrena thoracica","species","other_wild_bees",6,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR01_E","Transect","Andrena thoracica","species","other_wild_bees",6,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR01_F","Transect","Andrena thoracica","species","other_wild_bees",6,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR01_B","Transect","Apis mellifera","species","honeybees",34,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR01_C","Transect","Apis mellifera","species","honeybees",34,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR01_D","Transect","Apis mellifera","species","honeybees",34,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR01_E","Transect","Apis mellifera","species","honeybees",34,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR01_F","Transect","Apis mellifera","species","honeybees",34,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR01_B","Transect","Bee sp. 3","morphospecies","other_wild_bees",1,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR01_C","Transect","Bee sp. 3","morphospecies","other_wild_bees",1,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR01_D","Transect","Bee sp. 3","morphospecies","other_wild_bees",1,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR01_E","Transect","Bee sp. 3","morphospecies","other_wild_bees",1,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR01_F","Transect","Bee sp. 3","morphospecies","other_wild_bees",1,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR01_B","Transect","Bombus lapidarius","species","bumblebees",154,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR01_C","Transect","Bombus lapidarius","species","bumblebees",154,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR01_D","Transect","Bombus lapidarius","species","bumblebees",154,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR01_E","Transect","Bombus lapidarius","species","bumblebees",154,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR01_F","Transect","Bombus lapidarius","species","bumblebees",154,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR01_B","Transect","Bombus pascuorum","species","bumblebees",4,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR01_C","Transect","Bombus pascuorum","species","bumblebees",4,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR01_D","Transect","Bombus pascuorum","species","bumblebees",4,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR01_E","Transect","Bombus pascuorum","species","bumblebees",4,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR01_F","Transect","Bombus pascuorum","species","bumblebees",4,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR01_B","Transect","Bombus terrestris","species","bumblebees",1091,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR01_C","Transect","Bombus terrestris","species","bumblebees",1091,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR01_D","Transect","Bombus terrestris","species","bumblebees",1091,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR01_E","Transect","Bombus terrestris","species","bumblebees",1091,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR01_F","Transect","Bombus terrestris","species","bumblebees",1091,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR01_B","Transect","Eristalis arbustorum","species","syrphids",11,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR01_C","Transect","Eristalis arbustorum","species","syrphids",11,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR01_D","Transect","Eristalis arbustorum","species","syrphids",11,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR01_E","Transect","Eristalis arbustorum","species","syrphids",11,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR01_F","Transect","Eristalis arbustorum","species","syrphids",11,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR01_B","Transect","Eristalis tenax","species","syrphids",113,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR01_C","Transect","Eristalis tenax","species","syrphids",113,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR01_D","Transect","Eristalis tenax","species","syrphids",113,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR01_E","Transect","Eristalis tenax","species","syrphids",113,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR01_F","Transect","Eristalis tenax","species","syrphids",113,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR01_B","Transect","Halictus scabiosae","species","other_wild_bees",2,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR01_C","Transect","Halictus scabiosae","species","other_wild_bees",2,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR01_D","Transect","Halictus scabiosae","species","other_wild_bees",2,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR01_E","Transect","Halictus scabiosae","species","other_wild_bees",2,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR01_F","Transect","Halictus scabiosae","species","other_wild_bees",2,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR01_B","Transect","Lasioglossum malachurum","species","other_wild_bees",2,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR01_C","Transect","Lasioglossum malachurum","species","other_wild_bees",2,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR01_D","Transect","Lasioglossum malachurum","species","other_wild_bees",2,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR01_E","Transect","Lasioglossum malachurum","species","other_wild_bees",2,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR01_F","Transect","Lasioglossum malachurum","species","other_wild_bees",2,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR01_B","Transect","Platycheirus sp.","morphospecies","syrphids",9,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR01_C","Transect","Platycheirus sp.","morphospecies","syrphids",9,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR01_D","Transect","Platycheirus sp.","morphospecies","syrphids",9,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR01_E","Transect","Platycheirus sp.","morphospecies","syrphids",9,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR01_F","Transect","Platycheirus sp.","morphospecies","syrphids",9,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR01_B","Transect","Polistes dominula","species","non_bee_hymenoptera",5,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR01_C","Transect","Polistes dominula","species","non_bee_hymenoptera",5,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR01_D","Transect","Polistes dominula","species","non_bee_hymenoptera",5,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR01_E","Transect","Polistes dominula","species","non_bee_hymenoptera",5,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR01_F","Transect","Polistes dominula","species","non_bee_hymenoptera",5,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR01_B","Transect","Sphaerophoria scripta","species","syrphids",7,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR01_C","Transect","Sphaerophoria scripta","species","syrphids",7,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR01_D","Transect","Sphaerophoria scripta","species","syrphids",7,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR01_E","Transect","Sphaerophoria scripta","species","syrphids",7,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR01_F","Transect","Sphaerophoria scripta","species","syrphids",7,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR01_B","Transect","Syritta pipiens","species","syrphids",1,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR01_C","Transect","Syritta pipiens","species","syrphids",1,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR01_D","Transect","Syritta pipiens","species","syrphids",1,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR01_E","Transect","Syritta pipiens","species","syrphids",1,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR01_F","Transect","Syritta pipiens","species","syrphids",1,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR01_B","Transect","Eristalis abusiva","species","syrphids",4,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR01_C","Transect","Eristalis abusiva","species","syrphids",4,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR01_D","Transect","Eristalis abusiva","species","syrphids",4,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR01_E","Transect","Eristalis abusiva","species","syrphids",4,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR01_F","Transect","Eristalis abusiva","species","syrphids",4,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR01_B","Transect","Sphiximorpha subsessilis","species","syrphids",1,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR01_C","Transect","Sphiximorpha subsessilis","species","syrphids",1,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR01_D","Transect","Sphiximorpha subsessilis","species","syrphids",1,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR01_E","Transect","Sphiximorpha subsessilis","species","syrphids",1,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR01_F","Transect","Sphiximorpha subsessilis","species","syrphids",1,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR01_B","Transect","Andrena ovatula","species","other_wild_bees",1,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR01_C","Transect","Andrena ovatula","species","other_wild_bees",1,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR01_D","Transect","Andrena ovatula","species","other_wild_bees",1,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR01_E","Transect","Andrena ovatula","species","other_wild_bees",1,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR01_F","Transect","Andrena ovatula","species","other_wild_bees",1,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR01_B","Transect","Halictus subauratus","species","other_wild_bees",1,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR01_C","Transect","Halictus subauratus","species","other_wild_bees",1,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR01_D","Transect","Halictus subauratus","species","other_wild_bees",1,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR01_E","Transect","Halictus subauratus","species","other_wild_bees",1,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR01_F","Transect","Halictus subauratus","species","other_wild_bees",1,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR02_B","Transect","Andrena flavipes","species","other_wild_bees",13,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR02_C","Transect","Andrena flavipes","species","other_wild_bees",13,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR02_D","Transect","Andrena flavipes","species","other_wild_bees",13,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR02_E","Transect","Andrena flavipes","species","other_wild_bees",13,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR02_F","Transect","Andrena flavipes","species","other_wild_bees",13,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR02_B","Transect","Andrena thoracica","species","other_wild_bees",2,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR02_C","Transect","Andrena thoracica","species","other_wild_bees",2,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR02_D","Transect","Andrena thoracica","species","other_wild_bees",2,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR02_E","Transect","Andrena thoracica","species","other_wild_bees",2,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR02_F","Transect","Andrena thoracica","species","other_wild_bees",2,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR02_B","Transect","Apis mellifera","species","honeybees",49,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR02_C","Transect","Apis mellifera","species","honeybees",49,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR02_D","Transect","Apis mellifera","species","honeybees",49,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR02_E","Transect","Apis mellifera","species","honeybees",49,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR02_F","Transect","Apis mellifera","species","honeybees",49,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR02_B","Transect","Bombus lapidarius","species","bumblebees",48,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR02_C","Transect","Bombus lapidarius","species","bumblebees",48,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR02_D","Transect","Bombus lapidarius","species","bumblebees",48,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR02_E","Transect","Bombus lapidarius","species","bumblebees",48,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR02_F","Transect","Bombus lapidarius","species","bumblebees",48,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR02_B","Transect","Bombus pratorum","species","bumblebees",1,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR02_C","Transect","Bombus pratorum","species","bumblebees",1,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR02_D","Transect","Bombus pratorum","species","bumblebees",1,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR02_E","Transect","Bombus pratorum","species","bumblebees",1,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR02_F","Transect","Bombus pratorum","species","bumblebees",1,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR02_B","Transect","Bombus terrestris","species","bumblebees",592,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR02_C","Transect","Bombus terrestris","species","bumblebees",592,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR02_D","Transect","Bombus terrestris","species","bumblebees",592,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR02_E","Transect","Bombus terrestris","species","bumblebees",592,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR02_F","Transect","Bombus terrestris","species","bumblebees",592,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR02_B","Transect","Eristalis arbustorum","species","syrphids",7,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR02_C","Transect","Eristalis arbustorum","species","syrphids",7,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR02_D","Transect","Eristalis arbustorum","species","syrphids",7,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR02_E","Transect","Eristalis arbustorum","species","syrphids",7,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR02_F","Transect","Eristalis arbustorum","species","syrphids",7,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR02_B","Transect","Eristalis tenax","species","syrphids",193,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR02_C","Transect","Eristalis tenax","species","syrphids",193,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR02_D","Transect","Eristalis tenax","species","syrphids",193,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR02_E","Transect","Eristalis tenax","species","syrphids",193,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR02_F","Transect","Eristalis tenax","species","syrphids",193,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR02_B","Transect","Halictus sp.","morphospecies","other_wild_bees",1,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR02_C","Transect","Halictus sp.","morphospecies","other_wild_bees",1,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR02_D","Transect","Halictus sp.","morphospecies","other_wild_bees",1,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR02_E","Transect","Halictus sp.","morphospecies","other_wild_bees",1,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR02_F","Transect","Halictus sp.","morphospecies","other_wild_bees",1,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR02_B","Transect","Lasioglossum sp.","morphospecies","other_wild_bees",1,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR02_C","Transect","Lasioglossum sp.","morphospecies","other_wild_bees",1,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR02_D","Transect","Lasioglossum sp.","morphospecies","other_wild_bees",1,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR02_E","Transect","Lasioglossum sp.","morphospecies","other_wild_bees",1,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR02_F","Transect","Lasioglossum sp.","morphospecies","other_wild_bees",1,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR02_B","Transect","Platycheirus sp.","morphospecies","syrphids",3,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR02_C","Transect","Platycheirus sp.","morphospecies","syrphids",3,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR02_D","Transect","Platycheirus sp.","morphospecies","syrphids",3,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR02_E","Transect","Platycheirus sp.","morphospecies","syrphids",3,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR02_F","Transect","Platycheirus sp.","morphospecies","syrphids",3,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR02_B","Transect","Sphaerophoria rueppelli","species","syrphids",5,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR02_C","Transect","Sphaerophoria rueppelli","species","syrphids",5,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR02_D","Transect","Sphaerophoria rueppelli","species","syrphids",5,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR02_E","Transect","Sphaerophoria rueppelli","species","syrphids",5,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR02_F","Transect","Sphaerophoria rueppelli","species","syrphids",5,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR02_B","Transect","Sphaerophoria scripta","species","syrphids",6,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR02_C","Transect","Sphaerophoria scripta","species","syrphids",6,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR02_D","Transect","Sphaerophoria scripta","species","syrphids",6,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR02_E","Transect","Sphaerophoria scripta","species","syrphids",6,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR02_F","Transect","Sphaerophoria scripta","species","syrphids",6,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR02_B","Transect","Syritta pipiens","species","syrphids",2,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR02_C","Transect","Syritta pipiens","species","syrphids",2,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR02_D","Transect","Syritta pipiens","species","syrphids",2,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR02_E","Transect","Syritta pipiens","species","syrphids",2,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR02_F","Transect","Syritta pipiens","species","syrphids",2,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR02_B","Transect","Eristalinus sepulchralis","species","syrphids",2,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR02_C","Transect","Eristalinus sepulchralis","species","syrphids",2,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR02_D","Transect","Eristalinus sepulchralis","species","syrphids",2,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR02_E","Transect","Eristalinus sepulchralis","species","syrphids",2,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR02_F","Transect","Eristalinus sepulchralis","species","syrphids",2,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR02_B","Transect","Eristalis abusiva","species","syrphids",11,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR02_C","Transect","Eristalis abusiva","species","syrphids",11,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR02_D","Transect","Eristalis abusiva","species","syrphids",11,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR02_E","Transect","Eristalis abusiva","species","syrphids",11,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR02_F","Transect","Eristalis abusiva","species","syrphids",11,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR02_B","Transect","Helophilus trivittatus","species","syrphids",2,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR02_C","Transect","Helophilus trivittatus","species","syrphids",2,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR02_D","Transect","Helophilus trivittatus","species","syrphids",2,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR02_E","Transect","Helophilus trivittatus","species","syrphids",2,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR02_F","Transect","Helophilus trivittatus","species","syrphids",2,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR02_B","Transect","Andrena wilkella","species","other_wild_bees",1,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR02_C","Transect","Andrena wilkella","species","other_wild_bees",1,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR02_D","Transect","Andrena wilkella","species","other_wild_bees",1,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR02_E","Transect","Andrena wilkella","species","other_wild_bees",1,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR02_F","Transect","Andrena wilkella","species","other_wild_bees",1,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR03_B","Transect","Andrena flavipes","species","other_wild_bees",42,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR03_C","Transect","Andrena flavipes","species","other_wild_bees",42,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR03_D","Transect","Andrena flavipes","species","other_wild_bees",42,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR03_E","Transect","Andrena flavipes","species","other_wild_bees",42,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR03_F","Transect","Andrena flavipes","species","other_wild_bees",42,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR03_B","Transect","Andrena thoracica","species","other_wild_bees",2,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR03_C","Transect","Andrena thoracica","species","other_wild_bees",2,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR03_D","Transect","Andrena thoracica","species","other_wild_bees",2,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR03_E","Transect","Andrena thoracica","species","other_wild_bees",2,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR03_F","Transect","Andrena thoracica","species","other_wild_bees",2,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR03_B","Transect","Apis mellifera","species","honeybees",73,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR03_C","Transect","Apis mellifera","species","honeybees",73,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR03_D","Transect","Apis mellifera","species","honeybees",73,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR03_E","Transect","Apis mellifera","species","honeybees",73,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR03_F","Transect","Apis mellifera","species","honeybees",73,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR03_B","Transect","Bee sp.","morphospecies","other_wild_bees",2,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR03_C","Transect","Bee sp.","morphospecies","other_wild_bees",2,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR03_D","Transect","Bee sp.","morphospecies","other_wild_bees",2,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR03_E","Transect","Bee sp.","morphospecies","other_wild_bees",2,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR03_F","Transect","Bee sp.","morphospecies","other_wild_bees",2,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR03_B","Transect","Bombus hypnorum","species","bumblebees",1,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR03_C","Transect","Bombus hypnorum","species","bumblebees",1,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR03_D","Transect","Bombus hypnorum","species","bumblebees",1,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR03_E","Transect","Bombus hypnorum","species","bumblebees",1,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR03_F","Transect","Bombus hypnorum","species","bumblebees",1,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR03_B","Transect","Bombus lapidarius","species","bumblebees",391,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR03_C","Transect","Bombus lapidarius","species","bumblebees",391,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR03_D","Transect","Bombus lapidarius","species","bumblebees",391,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR03_E","Transect","Bombus lapidarius","species","bumblebees",391,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR03_F","Transect","Bombus lapidarius","species","bumblebees",391,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR03_B","Transect","Bombus pratorum","species","bumblebees",1,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR03_C","Transect","Bombus pratorum","species","bumblebees",1,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR03_D","Transect","Bombus pratorum","species","bumblebees",1,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR03_E","Transect","Bombus pratorum","species","bumblebees",1,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR03_F","Transect","Bombus pratorum","species","bumblebees",1,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR03_B","Transect","Bombus terrestris","species","bumblebees",534,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR03_C","Transect","Bombus terrestris","species","bumblebees",534,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR03_D","Transect","Bombus terrestris","species","bumblebees",534,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR03_E","Transect","Bombus terrestris","species","bumblebees",534,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR03_F","Transect","Bombus terrestris","species","bumblebees",534,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR03_B","Transect","Eristalis arbustorum","species","syrphids",41,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR03_C","Transect","Eristalis arbustorum","species","syrphids",41,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR03_D","Transect","Eristalis arbustorum","species","syrphids",41,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR03_E","Transect","Eristalis arbustorum","species","syrphids",41,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR03_F","Transect","Eristalis arbustorum","species","syrphids",41,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR03_B","Transect","Eristalis tenax","species","syrphids",460,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR03_C","Transect","Eristalis tenax","species","syrphids",460,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR03_D","Transect","Eristalis tenax","species","syrphids",460,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR03_E","Transect","Eristalis tenax","species","syrphids",460,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR03_F","Transect","Eristalis tenax","species","syrphids",460,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR03_B","Transect","Lasioglossum malachurum","species","other_wild_bees",6,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR03_C","Transect","Lasioglossum malachurum","species","other_wild_bees",6,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR03_D","Transect","Lasioglossum malachurum","species","other_wild_bees",6,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR03_E","Transect","Lasioglossum malachurum","species","other_wild_bees",6,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR03_F","Transect","Lasioglossum malachurum","species","other_wild_bees",6,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR03_B","Transect","Lasioglossum sp.","morphospecies","other_wild_bees",1,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR03_C","Transect","Lasioglossum sp.","morphospecies","other_wild_bees",1,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR03_D","Transect","Lasioglossum sp.","morphospecies","other_wild_bees",1,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR03_E","Transect","Lasioglossum sp.","morphospecies","other_wild_bees",1,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR03_F","Transect","Lasioglossum sp.","morphospecies","other_wild_bees",1,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR03_B","Transect","Platycheirus sp.","morphospecies","syrphids",3,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR03_C","Transect","Platycheirus sp.","morphospecies","syrphids",3,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR03_D","Transect","Platycheirus sp.","morphospecies","syrphids",3,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR03_E","Transect","Platycheirus sp.","morphospecies","syrphids",3,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR03_F","Transect","Platycheirus sp.","morphospecies","syrphids",3,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR03_B","Transect","Polistes dominula","species","non_bee_hymenoptera",2,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR03_C","Transect","Polistes dominula","species","non_bee_hymenoptera",2,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR03_D","Transect","Polistes dominula","species","non_bee_hymenoptera",2,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR03_E","Transect","Polistes dominula","species","non_bee_hymenoptera",2,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR03_F","Transect","Polistes dominula","species","non_bee_hymenoptera",2,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR03_B","Transect","Sphaerophoria rueppelli","species","syrphids",1,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR03_C","Transect","Sphaerophoria rueppelli","species","syrphids",1,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR03_D","Transect","Sphaerophoria rueppelli","species","syrphids",1,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR03_E","Transect","Sphaerophoria rueppelli","species","syrphids",1,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR03_F","Transect","Sphaerophoria rueppelli","species","syrphids",1,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR03_B","Transect","Sphaerophoria scripta","species","syrphids",6,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR03_C","Transect","Sphaerophoria scripta","species","syrphids",6,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR03_D","Transect","Sphaerophoria scripta","species","syrphids",6,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR03_E","Transect","Sphaerophoria scripta","species","syrphids",6,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR03_F","Transect","Sphaerophoria scripta","species","syrphids",6,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR03_B","Transect","Syritta pipiens","species","syrphids",1,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR03_C","Transect","Syritta pipiens","species","syrphids",1,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR03_D","Transect","Syritta pipiens","species","syrphids",1,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR03_E","Transect","Syritta pipiens","species","syrphids",1,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR03_F","Transect","Syritta pipiens","species","syrphids",1,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR03_B","Transect","Andrena labialis","species","other_wild_bees",5,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR03_C","Transect","Andrena labialis","species","other_wild_bees",5,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR03_D","Transect","Andrena labialis","species","other_wild_bees",5,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR03_E","Transect","Andrena labialis","species","other_wild_bees",5,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR03_F","Transect","Andrena labialis","species","other_wild_bees",5,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR03_B","Transect","Eristalinus sepulchralis","species","syrphids",10,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR03_C","Transect","Eristalinus sepulchralis","species","syrphids",10,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR03_D","Transect","Eristalinus sepulchralis","species","syrphids",10,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR03_E","Transect","Eristalinus sepulchralis","species","syrphids",10,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR03_F","Transect","Eristalinus sepulchralis","species","syrphids",10,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR03_B","Transect","Eristalis abusiva","species","syrphids",13,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR03_C","Transect","Eristalis abusiva","species","syrphids",13,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR03_D","Transect","Eristalis abusiva","species","syrphids",13,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR03_E","Transect","Eristalis abusiva","species","syrphids",13,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR03_F","Transect","Eristalis abusiva","species","syrphids",13,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR03_B","Transect","Helophilus trivittatus","species","syrphids",8,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR03_C","Transect","Helophilus trivittatus","species","syrphids",8,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR03_D","Transect","Helophilus trivittatus","species","syrphids",8,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR03_E","Transect","Helophilus trivittatus","species","syrphids",8,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR03_F","Transect","Helophilus trivittatus","species","syrphids",8,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR03_B","Transect","Sphaerophoria sp.1","morphospecies","syrphids",2,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR03_C","Transect","Sphaerophoria sp.1","morphospecies","syrphids",2,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR03_D","Transect","Sphaerophoria sp.1","morphospecies","syrphids",2,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR03_E","Transect","Sphaerophoria sp.1","morphospecies","syrphids",2,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR03_F","Transect","Sphaerophoria sp.1","morphospecies","syrphids",2,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR03_B","Transect","Sphiximorpha subsessilis","species","syrphids",1,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR03_C","Transect","Sphiximorpha subsessilis","species","syrphids",1,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR03_D","Transect","Sphiximorpha subsessilis","species","syrphids",1,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR03_E","Transect","Sphiximorpha subsessilis","species","syrphids",1,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR03_F","Transect","Sphiximorpha subsessilis","species","syrphids",1,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR03_B","Transect","Lasioglossum calceatum","species","other_wild_bees",2,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR03_C","Transect","Lasioglossum calceatum","species","other_wild_bees",2,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR03_D","Transect","Lasioglossum calceatum","species","other_wild_bees",2,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR03_E","Transect","Lasioglossum calceatum","species","other_wild_bees",2,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR03_F","Transect","Lasioglossum calceatum","species","other_wild_bees",2,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR03_B","Transect","Nomada meridionalis","species","other_wild_bees",2,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR03_C","Transect","Nomada meridionalis","species","other_wild_bees",2,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR03_D","Transect","Nomada meridionalis","species","other_wild_bees",2,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR03_E","Transect","Nomada meridionalis","species","other_wild_bees",2,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR03_F","Transect","Nomada meridionalis","species","other_wild_bees",2,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR04_B","Transect","Andrena flavipes","species","other_wild_bees",1,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR04_C","Transect","Andrena flavipes","species","other_wild_bees",1,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR04_D","Transect","Andrena flavipes","species","other_wild_bees",1,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR04_E","Transect","Andrena flavipes","species","other_wild_bees",1,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR04_F","Transect","Andrena flavipes","species","other_wild_bees",1,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR04_B","Transect","Apis mellifera","species","honeybees",3,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR04_C","Transect","Apis mellifera","species","honeybees",3,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR04_D","Transect","Apis mellifera","species","honeybees",3,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR04_E","Transect","Apis mellifera","species","honeybees",3,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR04_F","Transect","Apis mellifera","species","honeybees",3,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR04_B","Transect","Bombus hypnorum","species","bumblebees",1,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR04_C","Transect","Bombus hypnorum","species","bumblebees",1,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR04_D","Transect","Bombus hypnorum","species","bumblebees",1,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR04_E","Transect","Bombus hypnorum","species","bumblebees",1,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR04_F","Transect","Bombus hypnorum","species","bumblebees",1,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR04_B","Transect","Bombus lapidarius","species","bumblebees",4,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR04_C","Transect","Bombus lapidarius","species","bumblebees",4,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR04_D","Transect","Bombus lapidarius","species","bumblebees",4,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR04_E","Transect","Bombus lapidarius","species","bumblebees",4,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR04_F","Transect","Bombus lapidarius","species","bumblebees",4,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR04_B","Transect","Bombus pascuorum","species","bumblebees",2,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR04_C","Transect","Bombus pascuorum","species","bumblebees",2,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR04_D","Transect","Bombus pascuorum","species","bumblebees",2,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR04_E","Transect","Bombus pascuorum","species","bumblebees",2,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR04_F","Transect","Bombus pascuorum","species","bumblebees",2,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR04_B","Transect","Bombus pratorum","species","bumblebees",6,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR04_C","Transect","Bombus pratorum","species","bumblebees",6,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR04_D","Transect","Bombus pratorum","species","bumblebees",6,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR04_E","Transect","Bombus pratorum","species","bumblebees",6,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR04_F","Transect","Bombus pratorum","species","bumblebees",6,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR04_B","Transect","Bombus terrestris","species","bumblebees",340,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR04_C","Transect","Bombus terrestris","species","bumblebees",340,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR04_D","Transect","Bombus terrestris","species","bumblebees",340,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR04_E","Transect","Bombus terrestris","species","bumblebees",340,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR04_F","Transect","Bombus terrestris","species","bumblebees",340,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR04_B","Transect","Eristalis tenax","species","syrphids",24,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR04_C","Transect","Eristalis tenax","species","syrphids",24,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR04_D","Transect","Eristalis tenax","species","syrphids",24,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR04_E","Transect","Eristalis tenax","species","syrphids",24,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR04_F","Transect","Eristalis tenax","species","syrphids",24,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR04_B","Transect","Myathropa florea","species","syrphids",1,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR04_C","Transect","Myathropa florea","species","syrphids",1,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR04_D","Transect","Myathropa florea","species","syrphids",1,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR04_E","Transect","Myathropa florea","species","syrphids",1,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR04_F","Transect","Myathropa florea","species","syrphids",1,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR04_B","Transect","Platycheirus sp.","morphospecies","syrphids",1,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR04_C","Transect","Platycheirus sp.","morphospecies","syrphids",1,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR04_D","Transect","Platycheirus sp.","morphospecies","syrphids",1,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR04_E","Transect","Platycheirus sp.","morphospecies","syrphids",1,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR04_F","Transect","Platycheirus sp.","morphospecies","syrphids",1,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR04_B","Transect","Polistes dominula","species","non_bee_hymenoptera",1,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR04_C","Transect","Polistes dominula","species","non_bee_hymenoptera",1,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR04_D","Transect","Polistes dominula","species","non_bee_hymenoptera",1,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR04_E","Transect","Polistes dominula","species","non_bee_hymenoptera",1,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR04_F","Transect","Polistes dominula","species","non_bee_hymenoptera",1,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR04_B","Transect","Sphaerophoria rueppelli","species","syrphids",1,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR04_C","Transect","Sphaerophoria rueppelli","species","syrphids",1,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR04_D","Transect","Sphaerophoria rueppelli","species","syrphids",1,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR04_E","Transect","Sphaerophoria rueppelli","species","syrphids",1,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR04_F","Transect","Sphaerophoria rueppelli","species","syrphids",1,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR04_B","Transect","Xylocopa violacea","species","other_wild_bees",3,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR04_C","Transect","Xylocopa violacea","species","other_wild_bees",3,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR04_D","Transect","Xylocopa violacea","species","other_wild_bees",3,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR04_E","Transect","Xylocopa violacea","species","other_wild_bees",3,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR04_F","Transect","Xylocopa violacea","species","other_wild_bees",3,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR04_B","Transect","Andrena labialis","species","other_wild_bees",1,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR04_C","Transect","Andrena labialis","species","other_wild_bees",1,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR04_D","Transect","Andrena labialis","species","other_wild_bees",1,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR04_E","Transect","Andrena labialis","species","other_wild_bees",1,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR04_F","Transect","Andrena labialis","species","other_wild_bees",1,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR04_B","Transect","Delta unguiculatus","species","syrphids",1,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR04_C","Transect","Delta unguiculatus","species","syrphids",1,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR04_D","Transect","Delta unguiculatus","species","syrphids",1,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR04_E","Transect","Delta unguiculatus","species","syrphids",1,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR04_F","Transect","Delta unguiculatus","species","syrphids",1,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR05_B","Transect","Andrena flavipes","species","other_wild_bees",8,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR05_C","Transect","Andrena flavipes","species","other_wild_bees",8,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR05_D","Transect","Andrena flavipes","species","other_wild_bees",8,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR05_E","Transect","Andrena flavipes","species","other_wild_bees",8,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR05_F","Transect","Andrena flavipes","species","other_wild_bees",8,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR05_B","Transect","Andrena sp.","morphospecies","other_wild_bees",1,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR05_C","Transect","Andrena sp.","morphospecies","other_wild_bees",1,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR05_D","Transect","Andrena sp.","morphospecies","other_wild_bees",1,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR05_E","Transect","Andrena sp.","morphospecies","other_wild_bees",1,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR05_F","Transect","Andrena sp.","morphospecies","other_wild_bees",1,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR05_B","Transect","Andrena thoracica","species","other_wild_bees",1,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR05_C","Transect","Andrena thoracica","species","other_wild_bees",1,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR05_D","Transect","Andrena thoracica","species","other_wild_bees",1,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR05_E","Transect","Andrena thoracica","species","other_wild_bees",1,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR05_F","Transect","Andrena thoracica","species","other_wild_bees",1,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR05_B","Transect","Apis mellifera","species","honeybees",14,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR05_C","Transect","Apis mellifera","species","honeybees",14,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR05_D","Transect","Apis mellifera","species","honeybees",14,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR05_E","Transect","Apis mellifera","species","honeybees",14,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR05_F","Transect","Apis mellifera","species","honeybees",14,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR05_B","Transect","Bombus hypnorum","species","bumblebees",1,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR05_C","Transect","Bombus hypnorum","species","bumblebees",1,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR05_D","Transect","Bombus hypnorum","species","bumblebees",1,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR05_E","Transect","Bombus hypnorum","species","bumblebees",1,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR05_F","Transect","Bombus hypnorum","species","bumblebees",1,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR05_B","Transect","Bombus lapidarius","species","bumblebees",22,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR05_C","Transect","Bombus lapidarius","species","bumblebees",22,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR05_D","Transect","Bombus lapidarius","species","bumblebees",22,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR05_E","Transect","Bombus lapidarius","species","bumblebees",22,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR05_F","Transect","Bombus lapidarius","species","bumblebees",22,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR05_B","Transect","Bombus pascuorum","species","bumblebees",2,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR05_C","Transect","Bombus pascuorum","species","bumblebees",2,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR05_D","Transect","Bombus pascuorum","species","bumblebees",2,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR05_E","Transect","Bombus pascuorum","species","bumblebees",2,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR05_F","Transect","Bombus pascuorum","species","bumblebees",2,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR05_B","Transect","Bombus terrestris","species","bumblebees",582,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR05_C","Transect","Bombus terrestris","species","bumblebees",582,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR05_D","Transect","Bombus terrestris","species","bumblebees",582,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR05_E","Transect","Bombus terrestris","species","bumblebees",582,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR05_F","Transect","Bombus terrestris","species","bumblebees",582,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR05_B","Transect","Eristalis tenax","species","syrphids",1,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR05_C","Transect","Eristalis tenax","species","syrphids",1,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR05_D","Transect","Eristalis tenax","species","syrphids",1,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR05_E","Transect","Eristalis tenax","species","syrphids",1,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR05_F","Transect","Eristalis tenax","species","syrphids",1,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR05_B","Transect","Hylaeus sp.","morphospecies","other_wild_bees",1,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR05_C","Transect","Hylaeus sp.","morphospecies","other_wild_bees",1,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR05_D","Transect","Hylaeus sp.","morphospecies","other_wild_bees",1,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR05_E","Transect","Hylaeus sp.","morphospecies","other_wild_bees",1,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR05_F","Transect","Hylaeus sp.","morphospecies","other_wild_bees",1,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR05_B","Transect","Lasioglossum malachurum","species","other_wild_bees",1,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR05_C","Transect","Lasioglossum malachurum","species","other_wild_bees",1,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR05_D","Transect","Lasioglossum malachurum","species","other_wild_bees",1,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR05_E","Transect","Lasioglossum malachurum","species","other_wild_bees",1,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR05_F","Transect","Lasioglossum malachurum","species","other_wild_bees",1,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR05_B","Transect","Platycheirus sp.","morphospecies","syrphids",1,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR05_C","Transect","Platycheirus sp.","morphospecies","syrphids",1,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR05_D","Transect","Platycheirus sp.","morphospecies","syrphids",1,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR05_E","Transect","Platycheirus sp.","morphospecies","syrphids",1,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR05_F","Transect","Platycheirus sp.","morphospecies","syrphids",1,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR05_B","Transect","Polistes dominula","species","non_bee_hymenoptera",6,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR05_C","Transect","Polistes dominula","species","non_bee_hymenoptera",6,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR05_D","Transect","Polistes dominula","species","non_bee_hymenoptera",6,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR05_E","Transect","Polistes dominula","species","non_bee_hymenoptera",6,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR05_F","Transect","Polistes dominula","species","non_bee_hymenoptera",6,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR05_B","Transect","Sphaerophoria rueppelli","species","syrphids",1,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR05_C","Transect","Sphaerophoria rueppelli","species","syrphids",1,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR05_D","Transect","Sphaerophoria rueppelli","species","syrphids",1,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR05_E","Transect","Sphaerophoria rueppelli","species","syrphids",1,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR05_F","Transect","Sphaerophoria rueppelli","species","syrphids",1,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR05_B","Transect","Xylocopa violacea","species","other_wild_bees",2,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR05_C","Transect","Xylocopa violacea","species","other_wild_bees",2,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR05_D","Transect","Xylocopa violacea","species","other_wild_bees",2,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR05_E","Transect","Xylocopa violacea","species","other_wild_bees",2,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR05_F","Transect","Xylocopa violacea","species","other_wild_bees",2,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR05_B","Transect","Andrena bimaculata","species","other_wild_bees",1,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR05_C","Transect","Andrena bimaculata","species","other_wild_bees",1,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR05_D","Transect","Andrena bimaculata","species","other_wild_bees",1,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR05_E","Transect","Andrena bimaculata","species","other_wild_bees",1,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR05_F","Transect","Andrena bimaculata","species","other_wild_bees",1,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR05_B","Transect","Halictus quadricinctus","species","other_wild_bees",1,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR05_C","Transect","Halictus quadricinctus","species","other_wild_bees",1,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR05_D","Transect","Halictus quadricinctus","species","other_wild_bees",1,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR05_E","Transect","Halictus quadricinctus","species","other_wild_bees",1,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR05_F","Transect","Halictus quadricinctus","species","other_wild_bees",1,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR05_B","Transect","Andrena dorsata","species","other_wild_bees",1,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR05_C","Transect","Andrena dorsata","species","other_wild_bees",1,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR05_D","Transect","Andrena dorsata","species","other_wild_bees",1,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR05_E","Transect","Andrena dorsata","species","other_wild_bees",1,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR05_F","Transect","Andrena dorsata","species","other_wild_bees",1,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR06_B","Transect","Andrena flavipes","species","other_wild_bees",1,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR06_C","Transect","Andrena flavipes","species","other_wild_bees",1,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR06_D","Transect","Andrena flavipes","species","other_wild_bees",1,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR06_E","Transect","Andrena flavipes","species","other_wild_bees",1,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR06_F","Transect","Andrena flavipes","species","other_wild_bees",1,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR06_B","Transect","Andrena nigroaenea","species","other_wild_bees",1,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR06_C","Transect","Andrena nigroaenea","species","other_wild_bees",1,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR06_D","Transect","Andrena nigroaenea","species","other_wild_bees",1,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR06_E","Transect","Andrena nigroaenea","species","other_wild_bees",1,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR06_F","Transect","Andrena nigroaenea","species","other_wild_bees",1,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR06_B","Transect","Apis mellifera","species","honeybees",29,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR06_C","Transect","Apis mellifera","species","honeybees",29,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR06_D","Transect","Apis mellifera","species","honeybees",29,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR06_E","Transect","Apis mellifera","species","honeybees",29,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR06_F","Transect","Apis mellifera","species","honeybees",29,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR06_B","Transect","Bombus lapidarius","species","bumblebees",3,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR06_C","Transect","Bombus lapidarius","species","bumblebees",3,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR06_D","Transect","Bombus lapidarius","species","bumblebees",3,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR06_E","Transect","Bombus lapidarius","species","bumblebees",3,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR06_F","Transect","Bombus lapidarius","species","bumblebees",3,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR06_B","Transect","Bombus terrestris","species","bumblebees",775,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR06_C","Transect","Bombus terrestris","species","bumblebees",775,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR06_D","Transect","Bombus terrestris","species","bumblebees",775,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR06_E","Transect","Bombus terrestris","species","bumblebees",775,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR06_F","Transect","Bombus terrestris","species","bumblebees",775,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR06_B","Transect","Eristalis tenax","species","syrphids",36,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR06_C","Transect","Eristalis tenax","species","syrphids",36,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR06_D","Transect","Eristalis tenax","species","syrphids",36,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR06_E","Transect","Eristalis tenax","species","syrphids",36,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR06_F","Transect","Eristalis tenax","species","syrphids",36,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR06_B","Transect","Platycheirus sp.","morphospecies","syrphids",3,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR06_C","Transect","Platycheirus sp.","morphospecies","syrphids",3,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR06_D","Transect","Platycheirus sp.","morphospecies","syrphids",3,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR06_E","Transect","Platycheirus sp.","morphospecies","syrphids",3,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR06_F","Transect","Platycheirus sp.","morphospecies","syrphids",3,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR06_B","Transect","Polistes dominula","species","non_bee_hymenoptera",1,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR06_C","Transect","Polistes dominula","species","non_bee_hymenoptera",1,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR06_D","Transect","Polistes dominula","species","non_bee_hymenoptera",1,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR06_E","Transect","Polistes dominula","species","non_bee_hymenoptera",1,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR06_F","Transect","Polistes dominula","species","non_bee_hymenoptera",1,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR06_B","Transect","Sphaerophoria rueppelli","species","syrphids",4,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR06_C","Transect","Sphaerophoria rueppelli","species","syrphids",4,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR06_D","Transect","Sphaerophoria rueppelli","species","syrphids",4,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR06_E","Transect","Sphaerophoria rueppelli","species","syrphids",4,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR06_F","Transect","Sphaerophoria rueppelli","species","syrphids",4,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR06_B","Transect","Sphaerophoria scripta","species","syrphids",8,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR06_C","Transect","Sphaerophoria scripta","species","syrphids",8,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR06_D","Transect","Sphaerophoria scripta","species","syrphids",8,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR06_E","Transect","Sphaerophoria scripta","species","syrphids",8,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR06_F","Transect","Sphaerophoria scripta","species","syrphids",8,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR06_B","Transect","Syritta pipiens","species","syrphids",1,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR06_C","Transect","Syritta pipiens","species","syrphids",1,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR06_D","Transect","Syritta pipiens","species","syrphids",1,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR06_E","Transect","Syritta pipiens","species","syrphids",1,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR06_F","Transect","Syritta pipiens","species","syrphids",1,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR06_B","Transect","Xylocopa violacea","species","other_wild_bees",2,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR06_C","Transect","Xylocopa violacea","species","other_wild_bees",2,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR06_D","Transect","Xylocopa violacea","species","other_wild_bees",2,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR06_E","Transect","Xylocopa violacea","species","other_wild_bees",2,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR06_F","Transect","Xylocopa violacea","species","other_wild_bees",2,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR06_B","Transect","Andrena agilissima","species","other_wild_bees",2,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR06_C","Transect","Andrena agilissima","species","other_wild_bees",2,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR06_D","Transect","Andrena agilissima","species","other_wild_bees",2,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR06_E","Transect","Andrena agilissima","species","other_wild_bees",2,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR06_F","Transect","Andrena agilissima","species","other_wild_bees",2,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR06_B","Transect","Andrena bimaculata","species","other_wild_bees",3,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR06_C","Transect","Andrena bimaculata","species","other_wild_bees",3,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR06_D","Transect","Andrena bimaculata","species","other_wild_bees",3,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR06_E","Transect","Andrena bimaculata","species","other_wild_bees",3,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR06_F","Transect","Andrena bimaculata","species","other_wild_bees",3,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR06_B","Transect","Halictus quadricinctus","species","other_wild_bees",4,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR06_C","Transect","Halictus quadricinctus","species","other_wild_bees",4,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR06_D","Transect","Halictus quadricinctus","species","other_wild_bees",4,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR06_E","Transect","Halictus quadricinctus","species","other_wild_bees",4,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR06_F","Transect","Halictus quadricinctus","species","other_wild_bees",4,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR06_B","Transect","Helophilus trivittatus","species","syrphids",1,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR06_C","Transect","Helophilus trivittatus","species","syrphids",1,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR06_D","Transect","Helophilus trivittatus","species","syrphids",1,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR06_E","Transect","Helophilus trivittatus","species","syrphids",1,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR06_F","Transect","Helophilus trivittatus","species","syrphids",1,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR06_B","Transect","Andrena dorsata","species","other_wild_bees",1,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR06_C","Transect","Andrena dorsata","species","other_wild_bees",1,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR06_D","Transect","Andrena dorsata","species","other_wild_bees",1,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR06_E","Transect","Andrena dorsata","species","other_wild_bees",1,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR06_F","Transect","Andrena dorsata","species","other_wild_bees",1,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR07_B","Transect","Apis mellifera","species","honeybees",1,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR07_C","Transect","Apis mellifera","species","honeybees",1,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR07_D","Transect","Apis mellifera","species","honeybees",1,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR07_E","Transect","Apis mellifera","species","honeybees",1,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR07_F","Transect","Apis mellifera","species","honeybees",1,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR07_B","Transect","Bombus lapidarius","species","bumblebees",1,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR07_C","Transect","Bombus lapidarius","species","bumblebees",1,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR07_D","Transect","Bombus lapidarius","species","bumblebees",1,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR07_E","Transect","Bombus lapidarius","species","bumblebees",1,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR07_F","Transect","Bombus lapidarius","species","bumblebees",1,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR07_B","Transect","Bombus terrestris","species","bumblebees",172,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR07_C","Transect","Bombus terrestris","species","bumblebees",172,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR07_D","Transect","Bombus terrestris","species","bumblebees",172,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR07_E","Transect","Bombus terrestris","species","bumblebees",172,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR07_F","Transect","Bombus terrestris","species","bumblebees",172,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR07_B","Transect","Eristalis tenax","species","syrphids",12,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR07_C","Transect","Eristalis tenax","species","syrphids",12,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR07_D","Transect","Eristalis tenax","species","syrphids",12,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR07_E","Transect","Eristalis tenax","species","syrphids",12,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR07_F","Transect","Eristalis tenax","species","syrphids",12,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR07_B","Transect","Platycheirus sp.","morphospecies","syrphids",12,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR07_C","Transect","Platycheirus sp.","morphospecies","syrphids",12,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR07_D","Transect","Platycheirus sp.","morphospecies","syrphids",12,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR07_E","Transect","Platycheirus sp.","morphospecies","syrphids",12,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR07_F","Transect","Platycheirus sp.","morphospecies","syrphids",12,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR07_B","Transect","Polistes dominula","species","non_bee_hymenoptera",3,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR07_C","Transect","Polistes dominula","species","non_bee_hymenoptera",3,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR07_D","Transect","Polistes dominula","species","non_bee_hymenoptera",3,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR07_E","Transect","Polistes dominula","species","non_bee_hymenoptera",3,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR07_F","Transect","Polistes dominula","species","non_bee_hymenoptera",3,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR07_B","Transect","Sphaerophoria scripta","species","syrphids",4,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR07_C","Transect","Sphaerophoria scripta","species","syrphids",4,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR07_D","Transect","Sphaerophoria scripta","species","syrphids",4,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR07_E","Transect","Sphaerophoria scripta","species","syrphids",4,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR07_F","Transect","Sphaerophoria scripta","species","syrphids",4,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR08_B","Transect","Bombus lapidarius","species","bumblebees",11,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR08_C","Transect","Bombus lapidarius","species","bumblebees",11,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR08_D","Transect","Bombus lapidarius","species","bumblebees",11,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR08_E","Transect","Bombus lapidarius","species","bumblebees",11,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR08_F","Transect","Bombus lapidarius","species","bumblebees",11,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR08_B","Transect","Bombus terrestris","species","bumblebees",243,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR08_C","Transect","Bombus terrestris","species","bumblebees",243,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR08_D","Transect","Bombus terrestris","species","bumblebees",243,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR08_E","Transect","Bombus terrestris","species","bumblebees",243,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR08_F","Transect","Bombus terrestris","species","bumblebees",243,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR08_B","Transect","Episyrphus balteatus","species","syrphids",2,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR08_C","Transect","Episyrphus balteatus","species","syrphids",2,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR08_D","Transect","Episyrphus balteatus","species","syrphids",2,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR08_E","Transect","Episyrphus balteatus","species","syrphids",2,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR08_F","Transect","Episyrphus balteatus","species","syrphids",2,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR08_B","Transect","Eristalis tenax","species","syrphids",33,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR08_C","Transect","Eristalis tenax","species","syrphids",33,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR08_D","Transect","Eristalis tenax","species","syrphids",33,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR08_E","Transect","Eristalis tenax","species","syrphids",33,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR08_F","Transect","Eristalis tenax","species","syrphids",33,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR08_B","Transect","Eupeodes corollae","species","syrphids",1,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR08_C","Transect","Eupeodes corollae","species","syrphids",1,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR08_D","Transect","Eupeodes corollae","species","syrphids",1,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR08_E","Transect","Eupeodes corollae","species","syrphids",1,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR08_F","Transect","Eupeodes corollae","species","syrphids",1,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR08_B","Transect","Platycheirus sp.","morphospecies","syrphids",6,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR08_C","Transect","Platycheirus sp.","morphospecies","syrphids",6,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR08_D","Transect","Platycheirus sp.","morphospecies","syrphids",6,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR08_E","Transect","Platycheirus sp.","morphospecies","syrphids",6,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR08_F","Transect","Platycheirus sp.","morphospecies","syrphids",6,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR08_B","Transect","Polistes dominula","species","non_bee_hymenoptera",2,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR08_C","Transect","Polistes dominula","species","non_bee_hymenoptera",2,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR08_D","Transect","Polistes dominula","species","non_bee_hymenoptera",2,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR08_E","Transect","Polistes dominula","species","non_bee_hymenoptera",2,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR08_F","Transect","Polistes dominula","species","non_bee_hymenoptera",2,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR08_B","Transect","Sphaerophoria rueppelli","species","syrphids",1,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR08_C","Transect","Sphaerophoria rueppelli","species","syrphids",1,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR08_D","Transect","Sphaerophoria rueppelli","species","syrphids",1,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR08_E","Transect","Sphaerophoria rueppelli","species","syrphids",1,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR08_F","Transect","Sphaerophoria rueppelli","species","syrphids",1,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR08_B","Transect","Sphaerophoria scripta","species","syrphids",9,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR08_C","Transect","Sphaerophoria scripta","species","syrphids",9,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR08_D","Transect","Sphaerophoria scripta","species","syrphids",9,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR08_E","Transect","Sphaerophoria scripta","species","syrphids",9,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR08_F","Transect","Sphaerophoria scripta","species","syrphids",9,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR08_B","Transect","Xylocopa violacea","species","other_wild_bees",4,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR08_C","Transect","Xylocopa violacea","species","other_wild_bees",4,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR08_D","Transect","Xylocopa violacea","species","other_wild_bees",4,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR08_E","Transect","Xylocopa violacea","species","other_wild_bees",4,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR08_F","Transect","Xylocopa violacea","species","other_wild_bees",4,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR08_B","Transect","Melanostoma mellinum","species","syrphids",3,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR08_C","Transect","Melanostoma mellinum","species","syrphids",3,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR08_D","Transect","Melanostoma mellinum","species","syrphids",3,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR08_E","Transect","Melanostoma mellinum","species","syrphids",3,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR08_F","Transect","Melanostoma mellinum","species","syrphids",3,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR09_B","Transect","Andrena flavipes","species","other_wild_bees",1,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR09_C","Transect","Andrena flavipes","species","other_wild_bees",1,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR09_D","Transect","Andrena flavipes","species","other_wild_bees",1,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR09_E","Transect","Andrena flavipes","species","other_wild_bees",1,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR09_F","Transect","Andrena flavipes","species","other_wild_bees",1,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR09_B","Transect","Andrena nigroaenea","species","other_wild_bees",1,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR09_C","Transect","Andrena nigroaenea","species","other_wild_bees",1,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR09_D","Transect","Andrena nigroaenea","species","other_wild_bees",1,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR09_E","Transect","Andrena nigroaenea","species","other_wild_bees",1,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR09_F","Transect","Andrena nigroaenea","species","other_wild_bees",1,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR09_B","Transect","Andrena thoracica","species","other_wild_bees",1,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR09_C","Transect","Andrena thoracica","species","other_wild_bees",1,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR09_D","Transect","Andrena thoracica","species","other_wild_bees",1,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR09_E","Transect","Andrena thoracica","species","other_wild_bees",1,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR09_F","Transect","Andrena thoracica","species","other_wild_bees",1,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR09_B","Transect","Apis mellifera","species","honeybees",3,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR09_C","Transect","Apis mellifera","species","honeybees",3,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR09_D","Transect","Apis mellifera","species","honeybees",3,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR09_E","Transect","Apis mellifera","species","honeybees",3,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR09_F","Transect","Apis mellifera","species","honeybees",3,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR09_B","Transect","Bombus lapidarius","species","bumblebees",5,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR09_C","Transect","Bombus lapidarius","species","bumblebees",5,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR09_D","Transect","Bombus lapidarius","species","bumblebees",5,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR09_E","Transect","Bombus lapidarius","species","bumblebees",5,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR09_F","Transect","Bombus lapidarius","species","bumblebees",5,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR09_B","Transect","Bombus terrestris","species","bumblebees",255,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR09_C","Transect","Bombus terrestris","species","bumblebees",255,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR09_D","Transect","Bombus terrestris","species","bumblebees",255,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR09_E","Transect","Bombus terrestris","species","bumblebees",255,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR09_F","Transect","Bombus terrestris","species","bumblebees",255,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR09_B","Transect","Eristalis tenax","species","syrphids",22,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR09_C","Transect","Eristalis tenax","species","syrphids",22,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR09_D","Transect","Eristalis tenax","species","syrphids",22,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR09_E","Transect","Eristalis tenax","species","syrphids",22,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR09_F","Transect","Eristalis tenax","species","syrphids",22,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR09_B","Transect","Eupeodes corollae","species","syrphids",1,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR09_C","Transect","Eupeodes corollae","species","syrphids",1,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR09_D","Transect","Eupeodes corollae","species","syrphids",1,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR09_E","Transect","Eupeodes corollae","species","syrphids",1,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR09_F","Transect","Eupeodes corollae","species","syrphids",1,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR09_B","Transect","Lasioglossum malachurum","species","other_wild_bees",2,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR09_C","Transect","Lasioglossum malachurum","species","other_wild_bees",2,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR09_D","Transect","Lasioglossum malachurum","species","other_wild_bees",2,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR09_E","Transect","Lasioglossum malachurum","species","other_wild_bees",2,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR09_F","Transect","Lasioglossum malachurum","species","other_wild_bees",2,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR09_B","Transect","Platycheirus sp.","morphospecies","syrphids",12,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR09_C","Transect","Platycheirus sp.","morphospecies","syrphids",12,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR09_D","Transect","Platycheirus sp.","morphospecies","syrphids",12,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR09_E","Transect","Platycheirus sp.","morphospecies","syrphids",12,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR09_F","Transect","Platycheirus sp.","morphospecies","syrphids",12,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR09_B","Transect","Polistes dominula","species","non_bee_hymenoptera",8,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR09_C","Transect","Polistes dominula","species","non_bee_hymenoptera",8,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR09_D","Transect","Polistes dominula","species","non_bee_hymenoptera",8,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR09_E","Transect","Polistes dominula","species","non_bee_hymenoptera",8,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR09_F","Transect","Polistes dominula","species","non_bee_hymenoptera",8,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR09_B","Transect","Sphaerophoria rueppelli","species","syrphids",2,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR09_C","Transect","Sphaerophoria rueppelli","species","syrphids",2,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR09_D","Transect","Sphaerophoria rueppelli","species","syrphids",2,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR09_E","Transect","Sphaerophoria rueppelli","species","syrphids",2,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR09_F","Transect","Sphaerophoria rueppelli","species","syrphids",2,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR09_B","Transect","Sphaerophoria scripta","species","syrphids",3,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR09_C","Transect","Sphaerophoria scripta","species","syrphids",3,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR09_D","Transect","Sphaerophoria scripta","species","syrphids",3,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR09_E","Transect","Sphaerophoria scripta","species","syrphids",3,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR09_F","Transect","Sphaerophoria scripta","species","syrphids",3,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR09_B","Transect","Xylocopa violacea","species","other_wild_bees",2,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR09_C","Transect","Xylocopa violacea","species","other_wild_bees",2,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR09_D","Transect","Xylocopa violacea","species","other_wild_bees",2,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR09_E","Transect","Xylocopa violacea","species","other_wild_bees",2,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR09_F","Transect","Xylocopa violacea","species","other_wild_bees",2,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR09_B","Transect","Lasioglossum laticeps","species","other_wild_bees",10,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR09_C","Transect","Lasioglossum laticeps","species","other_wild_bees",10,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR09_D","Transect","Lasioglossum laticeps","species","other_wild_bees",10,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR09_E","Transect","Lasioglossum laticeps","species","other_wild_bees",10,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR09_F","Transect","Lasioglossum laticeps","species","other_wild_bees",10,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR10_B","Transect","Andrena nigroaenea","species","other_wild_bees",1,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR10_C","Transect","Andrena nigroaenea","species","other_wild_bees",1,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR10_D","Transect","Andrena nigroaenea","species","other_wild_bees",1,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR10_E","Transect","Andrena nigroaenea","species","other_wild_bees",1,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR10_F","Transect","Andrena nigroaenea","species","other_wild_bees",1,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR10_B","Transect","Andrena sp.","morphospecies","other_wild_bees",1,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR10_C","Transect","Andrena sp.","morphospecies","other_wild_bees",1,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR10_D","Transect","Andrena sp.","morphospecies","other_wild_bees",1,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR10_E","Transect","Andrena sp.","morphospecies","other_wild_bees",1,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR10_F","Transect","Andrena sp.","morphospecies","other_wild_bees",1,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR10_B","Transect","Apis mellifera","species","honeybees",3,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR10_C","Transect","Apis mellifera","species","honeybees",3,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR10_D","Transect","Apis mellifera","species","honeybees",3,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR10_E","Transect","Apis mellifera","species","honeybees",3,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR10_F","Transect","Apis mellifera","species","honeybees",3,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR10_B","Transect","Bombus hypnorum","species","bumblebees",1,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR10_C","Transect","Bombus hypnorum","species","bumblebees",1,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR10_D","Transect","Bombus hypnorum","species","bumblebees",1,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR10_E","Transect","Bombus hypnorum","species","bumblebees",1,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR10_F","Transect","Bombus hypnorum","species","bumblebees",1,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR10_B","Transect","Bombus lapidarius","species","bumblebees",6,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR10_C","Transect","Bombus lapidarius","species","bumblebees",6,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR10_D","Transect","Bombus lapidarius","species","bumblebees",6,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR10_E","Transect","Bombus lapidarius","species","bumblebees",6,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR10_F","Transect","Bombus lapidarius","species","bumblebees",6,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR10_B","Transect","Bombus terrestris","species","bumblebees",96,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR10_C","Transect","Bombus terrestris","species","bumblebees",96,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR10_D","Transect","Bombus terrestris","species","bumblebees",96,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR10_E","Transect","Bombus terrestris","species","bumblebees",96,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR10_F","Transect","Bombus terrestris","species","bumblebees",96,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR10_B","Transect","Eristalis tenax","species","syrphids",12,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR10_C","Transect","Eristalis tenax","species","syrphids",12,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR10_D","Transect","Eristalis tenax","species","syrphids",12,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR10_E","Transect","Eristalis tenax","species","syrphids",12,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR10_F","Transect","Eristalis tenax","species","syrphids",12,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR10_B","Transect","Nomada sp.","morphospecies","other_wild_bees",2,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR10_C","Transect","Nomada sp.","morphospecies","other_wild_bees",2,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR10_D","Transect","Nomada sp.","morphospecies","other_wild_bees",2,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR10_E","Transect","Nomada sp.","morphospecies","other_wild_bees",2,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR10_F","Transect","Nomada sp.","morphospecies","other_wild_bees",2,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR10_B","Transect","Platycheirus sp.","morphospecies","syrphids",1,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR10_C","Transect","Platycheirus sp.","morphospecies","syrphids",1,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR10_D","Transect","Platycheirus sp.","morphospecies","syrphids",1,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR10_E","Transect","Platycheirus sp.","morphospecies","syrphids",1,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR10_F","Transect","Platycheirus sp.","morphospecies","syrphids",1,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR10_B","Transect","Polistes dominula","species","non_bee_hymenoptera",1,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR10_C","Transect","Polistes dominula","species","non_bee_hymenoptera",1,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR10_D","Transect","Polistes dominula","species","non_bee_hymenoptera",1,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR10_E","Transect","Polistes dominula","species","non_bee_hymenoptera",1,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR10_F","Transect","Polistes dominula","species","non_bee_hymenoptera",1,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR10_B","Transect","Sphaerophoria rueppelli","species","syrphids",4,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR10_C","Transect","Sphaerophoria rueppelli","species","syrphids",4,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR10_D","Transect","Sphaerophoria rueppelli","species","syrphids",4,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR10_E","Transect","Sphaerophoria rueppelli","species","syrphids",4,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR10_F","Transect","Sphaerophoria rueppelli","species","syrphids",4,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR10_B","Transect","Sphaerophoria scripta","species","syrphids",5,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR10_C","Transect","Sphaerophoria scripta","species","syrphids",5,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR10_D","Transect","Sphaerophoria scripta","species","syrphids",5,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR10_E","Transect","Sphaerophoria scripta","species","syrphids",5,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR10_F","Transect","Sphaerophoria scripta","species","syrphids",5,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR10_B","Transect","Xylocopa violacea","species","other_wild_bees",1,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR10_C","Transect","Xylocopa violacea","species","other_wild_bees",1,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR10_D","Transect","Xylocopa violacea","species","other_wild_bees",1,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR10_E","Transect","Xylocopa violacea","species","other_wild_bees",1,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR10_F","Transect","Xylocopa violacea","species","other_wild_bees",1,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR10_B","Transect","Andrena bimaculata","species","other_wild_bees",1,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR10_C","Transect","Andrena bimaculata","species","other_wild_bees",1,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR10_D","Transect","Andrena bimaculata","species","other_wild_bees",1,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR10_E","Transect","Andrena bimaculata","species","other_wild_bees",1,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR10_F","Transect","Andrena bimaculata","species","other_wild_bees",1,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR10_B","Transect","Andrena dorsata","species","other_wild_bees",1,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR10_C","Transect","Andrena dorsata","species","other_wild_bees",1,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR10_D","Transect","Andrena dorsata","species","other_wild_bees",1,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR10_E","Transect","Andrena dorsata","species","other_wild_bees",1,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR10_F","Transect","Andrena dorsata","species","other_wild_bees",1,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR11_B","Transect","Andrena thoracica","species","other_wild_bees",1,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR11_C","Transect","Andrena thoracica","species","other_wild_bees",1,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR11_D","Transect","Andrena thoracica","species","other_wild_bees",1,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR11_E","Transect","Andrena thoracica","species","other_wild_bees",1,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR11_F","Transect","Andrena thoracica","species","other_wild_bees",1,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR11_B","Transect","Apis mellifera","species","honeybees",2,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR11_C","Transect","Apis mellifera","species","honeybees",2,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR11_D","Transect","Apis mellifera","species","honeybees",2,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR11_E","Transect","Apis mellifera","species","honeybees",2,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR11_F","Transect","Apis mellifera","species","honeybees",2,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR11_B","Transect","Bombus lapidarius","species","bumblebees",6,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR11_C","Transect","Bombus lapidarius","species","bumblebees",6,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR11_D","Transect","Bombus lapidarius","species","bumblebees",6,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR11_E","Transect","Bombus lapidarius","species","bumblebees",6,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR11_F","Transect","Bombus lapidarius","species","bumblebees",6,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR11_B","Transect","Bombus pratorum","species","bumblebees",1,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR11_C","Transect","Bombus pratorum","species","bumblebees",1,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR11_D","Transect","Bombus pratorum","species","bumblebees",1,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR11_E","Transect","Bombus pratorum","species","bumblebees",1,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR11_F","Transect","Bombus pratorum","species","bumblebees",1,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR11_B","Transect","Bombus terrestris","species","bumblebees",344,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR11_C","Transect","Bombus terrestris","species","bumblebees",344,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR11_D","Transect","Bombus terrestris","species","bumblebees",344,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR11_E","Transect","Bombus terrestris","species","bumblebees",344,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR11_F","Transect","Bombus terrestris","species","bumblebees",344,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR11_B","Transect","Eristalis tenax","species","syrphids",34,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR11_C","Transect","Eristalis tenax","species","syrphids",34,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR11_D","Transect","Eristalis tenax","species","syrphids",34,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR11_E","Transect","Eristalis tenax","species","syrphids",34,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR11_F","Transect","Eristalis tenax","species","syrphids",34,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR11_B","Transect","Eupeodes corollae","species","syrphids",1,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR11_C","Transect","Eupeodes corollae","species","syrphids",1,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR11_D","Transect","Eupeodes corollae","species","syrphids",1,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR11_E","Transect","Eupeodes corollae","species","syrphids",1,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR11_F","Transect","Eupeodes corollae","species","syrphids",1,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR11_B","Transect","Lasioglossum sp.","morphospecies","other_wild_bees",1,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR11_C","Transect","Lasioglossum sp.","morphospecies","other_wild_bees",1,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR11_D","Transect","Lasioglossum sp.","morphospecies","other_wild_bees",1,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR11_E","Transect","Lasioglossum sp.","morphospecies","other_wild_bees",1,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR11_F","Transect","Lasioglossum sp.","morphospecies","other_wild_bees",1,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR11_B","Transect","Paravespula sp.","morphospecies","non_bee_hymenoptera",1,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR11_C","Transect","Paravespula sp.","morphospecies","non_bee_hymenoptera",1,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR11_D","Transect","Paravespula sp.","morphospecies","non_bee_hymenoptera",1,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR11_E","Transect","Paravespula sp.","morphospecies","non_bee_hymenoptera",1,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR11_F","Transect","Paravespula sp.","morphospecies","non_bee_hymenoptera",1,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR11_B","Transect","Platycheirus sp.","morphospecies","syrphids",2,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR11_C","Transect","Platycheirus sp.","morphospecies","syrphids",2,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR11_D","Transect","Platycheirus sp.","morphospecies","syrphids",2,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR11_E","Transect","Platycheirus sp.","morphospecies","syrphids",2,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR11_F","Transect","Platycheirus sp.","morphospecies","syrphids",2,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR11_B","Transect","Polistes dominula","species","non_bee_hymenoptera",1,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR11_C","Transect","Polistes dominula","species","non_bee_hymenoptera",1,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR11_D","Transect","Polistes dominula","species","non_bee_hymenoptera",1,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR11_E","Transect","Polistes dominula","species","non_bee_hymenoptera",1,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR11_F","Transect","Polistes dominula","species","non_bee_hymenoptera",1,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR11_B","Transect","Melanostoma mellinum","species","syrphids",3,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR11_C","Transect","Melanostoma mellinum","species","syrphids",3,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR11_D","Transect","Melanostoma mellinum","species","syrphids",3,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR11_E","Transect","Melanostoma mellinum","species","syrphids",3,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR11_F","Transect","Melanostoma mellinum","species","syrphids",3,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR12_B","Transect","Andrena flavipes","species","other_wild_bees",1,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR12_C","Transect","Andrena flavipes","species","other_wild_bees",1,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR12_D","Transect","Andrena flavipes","species","other_wild_bees",1,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR12_E","Transect","Andrena flavipes","species","other_wild_bees",1,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR12_F","Transect","Andrena flavipes","species","other_wild_bees",1,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR12_B","Transect","Andrena nigroaenea","species","other_wild_bees",8,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR12_C","Transect","Andrena nigroaenea","species","other_wild_bees",8,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR12_D","Transect","Andrena nigroaenea","species","other_wild_bees",8,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR12_E","Transect","Andrena nigroaenea","species","other_wild_bees",8,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR12_F","Transect","Andrena nigroaenea","species","other_wild_bees",8,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR12_B","Transect","Andrena pilipes","species","other_wild_bees",5,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR12_C","Transect","Andrena pilipes","species","other_wild_bees",5,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR12_D","Transect","Andrena pilipes","species","other_wild_bees",5,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR12_E","Transect","Andrena pilipes","species","other_wild_bees",5,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR12_F","Transect","Andrena pilipes","species","other_wild_bees",5,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR12_B","Transect","Andrena sp.","morphospecies","other_wild_bees",5,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR12_C","Transect","Andrena sp.","morphospecies","other_wild_bees",5,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR12_D","Transect","Andrena sp.","morphospecies","other_wild_bees",5,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR12_E","Transect","Andrena sp.","morphospecies","other_wild_bees",5,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR12_F","Transect","Andrena sp.","morphospecies","other_wild_bees",5,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR12_B","Transect","Apis mellifera","species","honeybees",7,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR12_C","Transect","Apis mellifera","species","honeybees",7,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR12_D","Transect","Apis mellifera","species","honeybees",7,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR12_E","Transect","Apis mellifera","species","honeybees",7,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR12_F","Transect","Apis mellifera","species","honeybees",7,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR12_B","Transect","Bombus hypnorum","species","bumblebees",4,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR12_C","Transect","Bombus hypnorum","species","bumblebees",4,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR12_D","Transect","Bombus hypnorum","species","bumblebees",4,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR12_E","Transect","Bombus hypnorum","species","bumblebees",4,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR12_F","Transect","Bombus hypnorum","species","bumblebees",4,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR12_B","Transect","Bombus lapidarius","species","bumblebees",125,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR12_C","Transect","Bombus lapidarius","species","bumblebees",125,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR12_D","Transect","Bombus lapidarius","species","bumblebees",125,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR12_E","Transect","Bombus lapidarius","species","bumblebees",125,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR12_F","Transect","Bombus lapidarius","species","bumblebees",125,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR12_B","Transect","Bombus pascuorum","species","bumblebees",2,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR12_C","Transect","Bombus pascuorum","species","bumblebees",2,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR12_D","Transect","Bombus pascuorum","species","bumblebees",2,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR12_E","Transect","Bombus pascuorum","species","bumblebees",2,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR12_F","Transect","Bombus pascuorum","species","bumblebees",2,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR12_B","Transect","Bombus terrestris","species","bumblebees",1666,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR12_C","Transect","Bombus terrestris","species","bumblebees",1666,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR12_D","Transect","Bombus terrestris","species","bumblebees",1666,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR12_E","Transect","Bombus terrestris","species","bumblebees",1666,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR12_F","Transect","Bombus terrestris","species","bumblebees",1666,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR12_B","Transect","Eristalis tenax","species","syrphids",21,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR12_C","Transect","Eristalis tenax","species","syrphids",21,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR12_D","Transect","Eristalis tenax","species","syrphids",21,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR12_E","Transect","Eristalis tenax","species","syrphids",21,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR12_F","Transect","Eristalis tenax","species","syrphids",21,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR12_B","Transect","Eupeodes corollae","species","syrphids",4,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR12_C","Transect","Eupeodes corollae","species","syrphids",4,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR12_D","Transect","Eupeodes corollae","species","syrphids",4,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR12_E","Transect","Eupeodes corollae","species","syrphids",4,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR12_F","Transect","Eupeodes corollae","species","syrphids",4,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR12_B","Transect","Lasioglossum malachurum","species","other_wild_bees",1,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR12_C","Transect","Lasioglossum malachurum","species","other_wild_bees",1,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR12_D","Transect","Lasioglossum malachurum","species","other_wild_bees",1,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR12_E","Transect","Lasioglossum malachurum","species","other_wild_bees",1,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR12_F","Transect","Lasioglossum malachurum","species","other_wild_bees",1,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR12_B","Transect","Lasioglossum sp.","morphospecies","other_wild_bees",2,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR12_C","Transect","Lasioglossum sp.","morphospecies","other_wild_bees",2,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR12_D","Transect","Lasioglossum sp.","morphospecies","other_wild_bees",2,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR12_E","Transect","Lasioglossum sp.","morphospecies","other_wild_bees",2,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR12_F","Transect","Lasioglossum sp.","morphospecies","other_wild_bees",2,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR12_B","Transect","Paravespula sp.","morphospecies","non_bee_hymenoptera",1,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR12_C","Transect","Paravespula sp.","morphospecies","non_bee_hymenoptera",1,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR12_D","Transect","Paravespula sp.","morphospecies","non_bee_hymenoptera",1,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR12_E","Transect","Paravespula sp.","morphospecies","non_bee_hymenoptera",1,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR12_F","Transect","Paravespula sp.","morphospecies","non_bee_hymenoptera",1,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR12_B","Transect","Platycheirus sp.","morphospecies","syrphids",14,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR12_C","Transect","Platycheirus sp.","morphospecies","syrphids",14,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR12_D","Transect","Platycheirus sp.","morphospecies","syrphids",14,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR12_E","Transect","Platycheirus sp.","morphospecies","syrphids",14,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR12_F","Transect","Platycheirus sp.","morphospecies","syrphids",14,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR12_B","Transect","Polistes dominula","species","non_bee_hymenoptera",1,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR12_C","Transect","Polistes dominula","species","non_bee_hymenoptera",1,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR12_D","Transect","Polistes dominula","species","non_bee_hymenoptera",1,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR12_E","Transect","Polistes dominula","species","non_bee_hymenoptera",1,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR12_F","Transect","Polistes dominula","species","non_bee_hymenoptera",1,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR12_B","Transect","Sphaerophoria rueppelli","species","syrphids",7,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR12_C","Transect","Sphaerophoria rueppelli","species","syrphids",7,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR12_D","Transect","Sphaerophoria rueppelli","species","syrphids",7,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR12_E","Transect","Sphaerophoria rueppelli","species","syrphids",7,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR12_F","Transect","Sphaerophoria rueppelli","species","syrphids",7,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR12_B","Transect","Sphaerophoria scripta","species","syrphids",20,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR12_C","Transect","Sphaerophoria scripta","species","syrphids",20,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR12_D","Transect","Sphaerophoria scripta","species","syrphids",20,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR12_E","Transect","Sphaerophoria scripta","species","syrphids",20,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR12_F","Transect","Sphaerophoria scripta","species","syrphids",20,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR12_B","Transect","Xylocopa violacea","species","other_wild_bees",2,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR12_C","Transect","Xylocopa violacea","species","other_wild_bees",2,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR12_D","Transect","Xylocopa violacea","species","other_wild_bees",2,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR12_E","Transect","Xylocopa violacea","species","other_wild_bees",2,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR12_F","Transect","Xylocopa violacea","species","other_wild_bees",2,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR12_B","Transect","Andrena agilissima","species","other_wild_bees",1,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR12_C","Transect","Andrena agilissima","species","other_wild_bees",1,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR12_D","Transect","Andrena agilissima","species","other_wild_bees",1,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR12_E","Transect","Andrena agilissima","species","other_wild_bees",1,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR12_F","Transect","Andrena agilissima","species","other_wild_bees",1,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR12_B","Transect","Andrena florea","species","other_wild_bees",1,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR12_C","Transect","Andrena florea","species","other_wild_bees",1,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR12_D","Transect","Andrena florea","species","other_wild_bees",1,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR12_E","Transect","Andrena florea","species","other_wild_bees",1,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR12_F","Transect","Andrena florea","species","other_wild_bees",1,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR12_B","Transect","Andrena labialis","species","other_wild_bees",1,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR12_C","Transect","Andrena labialis","species","other_wild_bees",1,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR12_D","Transect","Andrena labialis","species","other_wild_bees",1,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR12_E","Transect","Andrena labialis","species","other_wild_bees",1,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR12_F","Transect","Andrena labialis","species","other_wild_bees",1,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR12_B","Transect","Chrysotoxum festivum","species","syrphids",1,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR12_C","Transect","Chrysotoxum festivum","species","syrphids",1,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR12_D","Transect","Chrysotoxum festivum","species","syrphids",1,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR12_E","Transect","Chrysotoxum festivum","species","syrphids",1,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR12_F","Transect","Chrysotoxum festivum","species","syrphids",1,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR12_B","Transect","Halictus quadricinctus","species","other_wild_bees",1,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR12_C","Transect","Halictus quadricinctus","species","other_wild_bees",1,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR12_D","Transect","Halictus quadricinctus","species","other_wild_bees",1,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR12_E","Transect","Halictus quadricinctus","species","other_wild_bees",1,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR12_F","Transect","Halictus quadricinctus","species","other_wild_bees",1,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR12_B","Transect","Melanostoma mellinum","species","syrphids",1,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR12_C","Transect","Melanostoma mellinum","species","syrphids",1,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR12_D","Transect","Melanostoma mellinum","species","syrphids",1,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR12_E","Transect","Melanostoma mellinum","species","syrphids",1,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR12_F","Transect","Melanostoma mellinum","species","syrphids",1,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR12_B","Transect","Andrena dorsata","species","other_wild_bees",1,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR12_C","Transect","Andrena dorsata","species","other_wild_bees",1,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR12_D","Transect","Andrena dorsata","species","other_wild_bees",1,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR12_E","Transect","Andrena dorsata","species","other_wild_bees",1,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR12_F","Transect","Andrena dorsata","species","other_wild_bees",1,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR12_B","Transect","Halictus sexcinctus","species","other_wild_bees",4,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR12_C","Transect","Halictus sexcinctus","species","other_wild_bees",4,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR12_D","Transect","Halictus sexcinctus","species","other_wild_bees",4,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR12_E","Transect","Halictus sexcinctus","species","other_wild_bees",4,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR12_F","Transect","Halictus sexcinctus","species","other_wild_bees",4,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR12_B","Transect","Nomada melathoracica","species","other_wild_bees",2,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR12_C","Transect","Nomada melathoracica","species","other_wild_bees",2,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR12_D","Transect","Nomada melathoracica","species","other_wild_bees",2,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR12_E","Transect","Nomada melathoracica","species","other_wild_bees",2,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR12_F","Transect","Nomada melathoracica","species","other_wild_bees",2,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR13_B","Transect","Andrena nigroaenea","species","other_wild_bees",1,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR13_C","Transect","Andrena nigroaenea","species","other_wild_bees",1,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR13_D","Transect","Andrena nigroaenea","species","other_wild_bees",1,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR13_E","Transect","Andrena nigroaenea","species","other_wild_bees",1,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR13_F","Transect","Andrena nigroaenea","species","other_wild_bees",1,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR13_B","Transect","Andrena thoracica","species","other_wild_bees",3,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR13_C","Transect","Andrena thoracica","species","other_wild_bees",3,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR13_D","Transect","Andrena thoracica","species","other_wild_bees",3,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR13_E","Transect","Andrena thoracica","species","other_wild_bees",3,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR13_F","Transect","Andrena thoracica","species","other_wild_bees",3,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR13_B","Transect","Apis mellifera","species","honeybees",26,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR13_C","Transect","Apis mellifera","species","honeybees",26,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR13_D","Transect","Apis mellifera","species","honeybees",26,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR13_E","Transect","Apis mellifera","species","honeybees",26,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR13_F","Transect","Apis mellifera","species","honeybees",26,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR13_B","Transect","Bombus hypnorum","species","bumblebees",9,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR13_C","Transect","Bombus hypnorum","species","bumblebees",9,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR13_D","Transect","Bombus hypnorum","species","bumblebees",9,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR13_E","Transect","Bombus hypnorum","species","bumblebees",9,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR13_F","Transect","Bombus hypnorum","species","bumblebees",9,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR13_B","Transect","Bombus pratorum","species","bumblebees",3,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR13_C","Transect","Bombus pratorum","species","bumblebees",3,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR13_D","Transect","Bombus pratorum","species","bumblebees",3,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR13_E","Transect","Bombus pratorum","species","bumblebees",3,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR13_F","Transect","Bombus pratorum","species","bumblebees",3,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR13_B","Transect","Bombus terrestris","species","bumblebees",999,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR13_C","Transect","Bombus terrestris","species","bumblebees",999,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR13_D","Transect","Bombus terrestris","species","bumblebees",999,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR13_E","Transect","Bombus terrestris","species","bumblebees",999,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR13_F","Transect","Bombus terrestris","species","bumblebees",999,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR13_B","Transect","Eristalis tenax","species","syrphids",31,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR13_C","Transect","Eristalis tenax","species","syrphids",31,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR13_D","Transect","Eristalis tenax","species","syrphids",31,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR13_E","Transect","Eristalis tenax","species","syrphids",31,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR13_F","Transect","Eristalis tenax","species","syrphids",31,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR13_B","Transect","Paravespula sp.","morphospecies","non_bee_hymenoptera",2,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR13_C","Transect","Paravespula sp.","morphospecies","non_bee_hymenoptera",2,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR13_D","Transect","Paravespula sp.","morphospecies","non_bee_hymenoptera",2,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR13_E","Transect","Paravespula sp.","morphospecies","non_bee_hymenoptera",2,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR13_F","Transect","Paravespula sp.","morphospecies","non_bee_hymenoptera",2,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR13_B","Transect","Platycheirus sp.","morphospecies","syrphids",6,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR13_C","Transect","Platycheirus sp.","morphospecies","syrphids",6,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR13_D","Transect","Platycheirus sp.","morphospecies","syrphids",6,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR13_E","Transect","Platycheirus sp.","morphospecies","syrphids",6,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR13_F","Transect","Platycheirus sp.","morphospecies","syrphids",6,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR13_B","Transect","Polistes dominula","species","non_bee_hymenoptera",6,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR13_C","Transect","Polistes dominula","species","non_bee_hymenoptera",6,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR13_D","Transect","Polistes dominula","species","non_bee_hymenoptera",6,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR13_E","Transect","Polistes dominula","species","non_bee_hymenoptera",6,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR13_F","Transect","Polistes dominula","species","non_bee_hymenoptera",6,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR13_B","Transect","Sphaerophoria rueppelli","species","syrphids",6,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR13_C","Transect","Sphaerophoria rueppelli","species","syrphids",6,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR13_D","Transect","Sphaerophoria rueppelli","species","syrphids",6,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR13_E","Transect","Sphaerophoria rueppelli","species","syrphids",6,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR13_F","Transect","Sphaerophoria rueppelli","species","syrphids",6,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR13_B","Transect","Sphaerophoria scripta","species","syrphids",1,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR13_C","Transect","Sphaerophoria scripta","species","syrphids",1,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR13_D","Transect","Sphaerophoria scripta","species","syrphids",1,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR13_E","Transect","Sphaerophoria scripta","species","syrphids",1,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR13_F","Transect","Sphaerophoria scripta","species","syrphids",1,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR13_B","Transect","Xylocopa violacea","species","other_wild_bees",3,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR13_C","Transect","Xylocopa violacea","species","other_wild_bees",3,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR13_D","Transect","Xylocopa violacea","species","other_wild_bees",3,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR13_E","Transect","Xylocopa violacea","species","other_wild_bees",3,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR13_F","Transect","Xylocopa violacea","species","other_wild_bees",3,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR13_B","Transect","Andrena bicolor","species","other_wild_bees",2,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR13_C","Transect","Andrena bicolor","species","other_wild_bees",2,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR13_D","Transect","Andrena bicolor","species","other_wild_bees",2,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR13_E","Transect","Andrena bicolor","species","other_wild_bees",2,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR13_F","Transect","Andrena bicolor","species","other_wild_bees",2,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR13_B","Transect","Andrena labialis","species","other_wild_bees",1,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR13_C","Transect","Andrena labialis","species","other_wild_bees",1,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR13_D","Transect","Andrena labialis","species","other_wild_bees",1,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR13_E","Transect","Andrena labialis","species","other_wild_bees",1,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR13_F","Transect","Andrena labialis","species","other_wild_bees",1,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR13_B","Transect","Eristalis abusiva","species","syrphids",1,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR13_C","Transect","Eristalis abusiva","species","syrphids",1,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR13_D","Transect","Eristalis abusiva","species","syrphids",1,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR13_E","Transect","Eristalis abusiva","species","syrphids",1,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR13_F","Transect","Eristalis abusiva","species","syrphids",1,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR13_B","Transect","Lasioglossum sexnotatum","species","other_wild_bees",4,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR13_C","Transect","Lasioglossum sexnotatum","species","other_wild_bees",4,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR13_D","Transect","Lasioglossum sexnotatum","species","other_wild_bees",4,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR13_E","Transect","Lasioglossum sexnotatum","species","other_wild_bees",4,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR13_F","Transect","Lasioglossum sexnotatum","species","other_wild_bees",4,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR13_B","Transect","Sphaerophoria sp. 2","morphospecies","syrphids",1,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR13_C","Transect","Sphaerophoria sp. 2","morphospecies","syrphids",1,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR13_D","Transect","Sphaerophoria sp. 2","morphospecies","syrphids",1,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR13_E","Transect","Sphaerophoria sp. 2","morphospecies","syrphids",1,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR13_F","Transect","Sphaerophoria sp. 2","morphospecies","syrphids",1,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR13_B","Transect","Bombus magnus","species","bumblebees",1,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR13_C","Transect","Bombus magnus","species","bumblebees",1,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR13_D","Transect","Bombus magnus","species","bumblebees",1,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR13_E","Transect","Bombus magnus","species","bumblebees",1,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR13_F","Transect","Bombus magnus","species","bumblebees",1,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR14_B","Transect","Andrena flavipes","species","other_wild_bees",1,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR14_C","Transect","Andrena flavipes","species","other_wild_bees",1,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR14_D","Transect","Andrena flavipes","species","other_wild_bees",1,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR14_E","Transect","Andrena flavipes","species","other_wild_bees",1,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR14_F","Transect","Andrena flavipes","species","other_wild_bees",1,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR14_B","Transect","Andrena thoracica","species","other_wild_bees",1,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR14_C","Transect","Andrena thoracica","species","other_wild_bees",1,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR14_D","Transect","Andrena thoracica","species","other_wild_bees",1,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR14_E","Transect","Andrena thoracica","species","other_wild_bees",1,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR14_F","Transect","Andrena thoracica","species","other_wild_bees",1,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR14_B","Transect","Apis mellifera","species","honeybees",9,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR14_C","Transect","Apis mellifera","species","honeybees",9,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR14_D","Transect","Apis mellifera","species","honeybees",9,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR14_E","Transect","Apis mellifera","species","honeybees",9,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR14_F","Transect","Apis mellifera","species","honeybees",9,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR14_B","Transect","Bombus hortorum","species","bumblebees",1,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR14_C","Transect","Bombus hortorum","species","bumblebees",1,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR14_D","Transect","Bombus hortorum","species","bumblebees",1,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR14_E","Transect","Bombus hortorum","species","bumblebees",1,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR14_F","Transect","Bombus hortorum","species","bumblebees",1,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR14_B","Transect","Bombus pratorum","species","bumblebees",2,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR14_C","Transect","Bombus pratorum","species","bumblebees",2,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR14_D","Transect","Bombus pratorum","species","bumblebees",2,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR14_E","Transect","Bombus pratorum","species","bumblebees",2,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR14_F","Transect","Bombus pratorum","species","bumblebees",2,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR14_B","Transect","Bombus terrestris","species","bumblebees",358,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR14_C","Transect","Bombus terrestris","species","bumblebees",358,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR14_D","Transect","Bombus terrestris","species","bumblebees",358,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR14_E","Transect","Bombus terrestris","species","bumblebees",358,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR14_F","Transect","Bombus terrestris","species","bumblebees",358,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR14_B","Transect","Eristalis arbustorum","species","syrphids",1,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR14_C","Transect","Eristalis arbustorum","species","syrphids",1,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR14_D","Transect","Eristalis arbustorum","species","syrphids",1,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR14_E","Transect","Eristalis arbustorum","species","syrphids",1,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR14_F","Transect","Eristalis arbustorum","species","syrphids",1,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR14_B","Transect","Eristalis tenax","species","syrphids",20,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR14_C","Transect","Eristalis tenax","species","syrphids",20,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR14_D","Transect","Eristalis tenax","species","syrphids",20,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR14_E","Transect","Eristalis tenax","species","syrphids",20,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR14_F","Transect","Eristalis tenax","species","syrphids",20,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR14_B","Transect","Lasioglossum sp.","morphospecies","other_wild_bees",3,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR14_C","Transect","Lasioglossum sp.","morphospecies","other_wild_bees",3,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR14_D","Transect","Lasioglossum sp.","morphospecies","other_wild_bees",3,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR14_E","Transect","Lasioglossum sp.","morphospecies","other_wild_bees",3,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR14_F","Transect","Lasioglossum sp.","morphospecies","other_wild_bees",3,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR14_B","Transect","Platycheirus sp.","morphospecies","syrphids",5,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR14_C","Transect","Platycheirus sp.","morphospecies","syrphids",5,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR14_D","Transect","Platycheirus sp.","morphospecies","syrphids",5,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR14_E","Transect","Platycheirus sp.","morphospecies","syrphids",5,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR14_F","Transect","Platycheirus sp.","morphospecies","syrphids",5,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR14_B","Transect","Sphaerophoria rueppelli","species","syrphids",1,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR14_C","Transect","Sphaerophoria rueppelli","species","syrphids",1,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR14_D","Transect","Sphaerophoria rueppelli","species","syrphids",1,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR14_E","Transect","Sphaerophoria rueppelli","species","syrphids",1,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR14_F","Transect","Sphaerophoria rueppelli","species","syrphids",1,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR14_B","Transect","Sphaerophoria scripta","species","syrphids",2,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR14_C","Transect","Sphaerophoria scripta","species","syrphids",2,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR14_D","Transect","Sphaerophoria scripta","species","syrphids",2,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR14_E","Transect","Sphaerophoria scripta","species","syrphids",2,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR14_F","Transect","Sphaerophoria scripta","species","syrphids",2,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR14_B","Transect","Andrena bimaculata","species","other_wild_bees",2,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR14_C","Transect","Andrena bimaculata","species","other_wild_bees",2,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR14_D","Transect","Andrena bimaculata","species","other_wild_bees",2,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR14_E","Transect","Andrena bimaculata","species","other_wild_bees",2,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR14_F","Transect","Andrena bimaculata","species","other_wild_bees",2,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR14_B","Transect","Andrena carantonica","species","other_wild_bees",1,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR14_C","Transect","Andrena carantonica","species","other_wild_bees",1,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR14_D","Transect","Andrena carantonica","species","other_wild_bees",1,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR14_E","Transect","Andrena carantonica","species","other_wild_bees",1,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR14_F","Transect","Andrena carantonica","species","other_wild_bees",1,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR14_B","Transect","Andrena labialis","species","other_wild_bees",1,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR14_C","Transect","Andrena labialis","species","other_wild_bees",1,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR14_D","Transect","Andrena labialis","species","other_wild_bees",1,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR14_E","Transect","Andrena labialis","species","other_wild_bees",1,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR14_F","Transect","Andrena labialis","species","other_wild_bees",1,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR14_B","Transect","Bembix rostrata","species","other_flies",2,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR14_C","Transect","Bembix rostrata","species","other_flies",2,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR14_D","Transect","Bembix rostrata","species","other_flies",2,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR14_E","Transect","Bembix rostrata","species","other_flies",2,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR14_F","Transect","Bembix rostrata","species","other_flies",2,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR14_B","Transect","Helophilus trivittatus","species","syrphids",3,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR14_C","Transect","Helophilus trivittatus","species","syrphids",3,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR14_D","Transect","Helophilus trivittatus","species","syrphids",3,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR14_E","Transect","Helophilus trivittatus","species","syrphids",3,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR14_F","Transect","Helophilus trivittatus","species","syrphids",3,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR14_B","Transect","Lasioglossum sexnotatum","species","other_wild_bees",1,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR14_C","Transect","Lasioglossum sexnotatum","species","other_wild_bees",1,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR14_D","Transect","Lasioglossum sexnotatum","species","other_wild_bees",1,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR14_E","Transect","Lasioglossum sexnotatum","species","other_wild_bees",1,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR14_F","Transect","Lasioglossum sexnotatum","species","other_wild_bees",1,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR14_B","Transect","Scaeva pyrastri","species","syrphids",1,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR14_C","Transect","Scaeva pyrastri","species","syrphids",1,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR14_D","Transect","Scaeva pyrastri","species","syrphids",1,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR14_E","Transect","Scaeva pyrastri","species","syrphids",1,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR14_F","Transect","Scaeva pyrastri","species","syrphids",1,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR14_B","Transect","Lasioglossum calceatum","species","other_wild_bees",1,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR14_C","Transect","Lasioglossum calceatum","species","other_wild_bees",1,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR14_D","Transect","Lasioglossum calceatum","species","other_wild_bees",1,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR14_E","Transect","Lasioglossum calceatum","species","other_wild_bees",1,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR14_F","Transect","Lasioglossum calceatum","species","other_wild_bees",1,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR15_B","Transect","Apis mellifera","species","honeybees",52,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR15_C","Transect","Apis mellifera","species","honeybees",52,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR15_D","Transect","Apis mellifera","species","honeybees",52,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR15_E","Transect","Apis mellifera","species","honeybees",52,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR15_F","Transect","Apis mellifera","species","honeybees",52,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR15_B","Transect","Bombus lapidarius","species","bumblebees",175,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR15_C","Transect","Bombus lapidarius","species","bumblebees",175,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR15_D","Transect","Bombus lapidarius","species","bumblebees",175,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR15_E","Transect","Bombus lapidarius","species","bumblebees",175,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR15_F","Transect","Bombus lapidarius","species","bumblebees",175,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR15_B","Transect","Bombus terrestris","species","bumblebees",735,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR15_C","Transect","Bombus terrestris","species","bumblebees",735,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR15_D","Transect","Bombus terrestris","species","bumblebees",735,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR15_E","Transect","Bombus terrestris","species","bumblebees",735,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR15_F","Transect","Bombus terrestris","species","bumblebees",735,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR15_B","Transect","Eristalis sp.","morphospecies","syrphids",1,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR15_C","Transect","Eristalis sp.","morphospecies","syrphids",1,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR15_D","Transect","Eristalis sp.","morphospecies","syrphids",1,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR15_E","Transect","Eristalis sp.","morphospecies","syrphids",1,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR15_F","Transect","Eristalis sp.","morphospecies","syrphids",1,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR15_B","Transect","Eristalis tenax","species","syrphids",45,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR15_C","Transect","Eristalis tenax","species","syrphids",45,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR15_D","Transect","Eristalis tenax","species","syrphids",45,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR15_E","Transect","Eristalis tenax","species","syrphids",45,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR15_F","Transect","Eristalis tenax","species","syrphids",45,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR15_B","Transect","Hylaeus sp.","morphospecies","other_wild_bees",1,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR15_C","Transect","Hylaeus sp.","morphospecies","other_wild_bees",1,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR15_D","Transect","Hylaeus sp.","morphospecies","other_wild_bees",1,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR15_E","Transect","Hylaeus sp.","morphospecies","other_wild_bees",1,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR15_F","Transect","Hylaeus sp.","morphospecies","other_wild_bees",1,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR15_B","Transect","Lasioglossum sp.","morphospecies","other_wild_bees",1,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR15_C","Transect","Lasioglossum sp.","morphospecies","other_wild_bees",1,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR15_D","Transect","Lasioglossum sp.","morphospecies","other_wild_bees",1,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR15_E","Transect","Lasioglossum sp.","morphospecies","other_wild_bees",1,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR15_F","Transect","Lasioglossum sp.","morphospecies","other_wild_bees",1,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR15_B","Transect","Platycheirus sp.","morphospecies","syrphids",8,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR15_C","Transect","Platycheirus sp.","morphospecies","syrphids",8,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR15_D","Transect","Platycheirus sp.","morphospecies","syrphids",8,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR15_E","Transect","Platycheirus sp.","morphospecies","syrphids",8,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR15_F","Transect","Platycheirus sp.","morphospecies","syrphids",8,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR15_B","Transect","Polistes dominula","species","non_bee_hymenoptera",1,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR15_C","Transect","Polistes dominula","species","non_bee_hymenoptera",1,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR15_D","Transect","Polistes dominula","species","non_bee_hymenoptera",1,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR15_E","Transect","Polistes dominula","species","non_bee_hymenoptera",1,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR15_F","Transect","Polistes dominula","species","non_bee_hymenoptera",1,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR15_B","Transect","Sphaerophoria rueppelli","species","syrphids",3,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR15_C","Transect","Sphaerophoria rueppelli","species","syrphids",3,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR15_D","Transect","Sphaerophoria rueppelli","species","syrphids",3,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR15_E","Transect","Sphaerophoria rueppelli","species","syrphids",3,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR15_F","Transect","Sphaerophoria rueppelli","species","syrphids",3,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR15_B","Transect","Sphaerophoria scripta","species","syrphids",5,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR15_C","Transect","Sphaerophoria scripta","species","syrphids",5,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR15_D","Transect","Sphaerophoria scripta","species","syrphids",5,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR15_E","Transect","Sphaerophoria scripta","species","syrphids",5,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR15_F","Transect","Sphaerophoria scripta","species","syrphids",5,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR15_B","Transect","Xylocopa violacea","species","other_wild_bees",4,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR15_C","Transect","Xylocopa violacea","species","other_wild_bees",4,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR15_D","Transect","Xylocopa violacea","species","other_wild_bees",4,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR15_E","Transect","Xylocopa violacea","species","other_wild_bees",4,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR15_F","Transect","Xylocopa violacea","species","other_wild_bees",4,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR15_B","Transect","Eristalinus sepulchralis","species","syrphids",1,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR15_C","Transect","Eristalinus sepulchralis","species","syrphids",1,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR15_D","Transect","Eristalinus sepulchralis","species","syrphids",1,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR15_E","Transect","Eristalinus sepulchralis","species","syrphids",1,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR15_F","Transect","Eristalinus sepulchralis","species","syrphids",1,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR15_B","Transect","Eristalis abusiva","species","syrphids",1,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR15_C","Transect","Eristalis abusiva","species","syrphids",1,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR15_D","Transect","Eristalis abusiva","species","syrphids",1,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR15_E","Transect","Eristalis abusiva","species","syrphids",1,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR15_F","Transect","Eristalis abusiva","species","syrphids",1,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR15_B","Transect","Helophilus trivittatus","species","syrphids",1,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR15_C","Transect","Helophilus trivittatus","species","syrphids",1,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR15_D","Transect","Helophilus trivittatus","species","syrphids",1,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR15_E","Transect","Helophilus trivittatus","species","syrphids",1,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR15_F","Transect","Helophilus trivittatus","species","syrphids",1,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR15_B","Transect","Lasioglossum pauxillum","species","other_wild_bees",1,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR15_C","Transect","Lasioglossum pauxillum","species","other_wild_bees",1,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR15_D","Transect","Lasioglossum pauxillum","species","other_wild_bees",1,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR15_E","Transect","Lasioglossum pauxillum","species","other_wild_bees",1,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR15_F","Transect","Lasioglossum pauxillum","species","other_wild_bees",1,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR16_B","Transect","Apis mellifera","species","honeybees",904,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR16_C","Transect","Apis mellifera","species","honeybees",904,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR16_D","Transect","Apis mellifera","species","honeybees",904,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR16_E","Transect","Apis mellifera","species","honeybees",904,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR16_F","Transect","Apis mellifera","species","honeybees",904,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR16_B","Transect","Bee sp.","morphospecies","other_wild_bees",1,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR16_C","Transect","Bee sp.","morphospecies","other_wild_bees",1,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR16_D","Transect","Bee sp.","morphospecies","other_wild_bees",1,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR16_E","Transect","Bee sp.","morphospecies","other_wild_bees",1,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR16_F","Transect","Bee sp.","morphospecies","other_wild_bees",1,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR16_B","Transect","Bombus hypnorum","species","bumblebees",2,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR16_C","Transect","Bombus hypnorum","species","bumblebees",2,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR16_D","Transect","Bombus hypnorum","species","bumblebees",2,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR16_E","Transect","Bombus hypnorum","species","bumblebees",2,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR16_F","Transect","Bombus hypnorum","species","bumblebees",2,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR16_B","Transect","Bombus lapidarius","species","bumblebees",78,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR16_C","Transect","Bombus lapidarius","species","bumblebees",78,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR16_D","Transect","Bombus lapidarius","species","bumblebees",78,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR16_E","Transect","Bombus lapidarius","species","bumblebees",78,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR16_F","Transect","Bombus lapidarius","species","bumblebees",78,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR16_B","Transect","Bombus terrestris","species","bumblebees",660,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR16_C","Transect","Bombus terrestris","species","bumblebees",660,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR16_D","Transect","Bombus terrestris","species","bumblebees",660,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR16_E","Transect","Bombus terrestris","species","bumblebees",660,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR16_F","Transect","Bombus terrestris","species","bumblebees",660,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR16_B","Transect","Eristalis tenax","species","syrphids",14,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR16_C","Transect","Eristalis tenax","species","syrphids",14,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR16_D","Transect","Eristalis tenax","species","syrphids",14,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR16_E","Transect","Eristalis tenax","species","syrphids",14,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR16_F","Transect","Eristalis tenax","species","syrphids",14,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR16_B","Transect","Platycheirus sp.","morphospecies","syrphids",16,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR16_C","Transect","Platycheirus sp.","morphospecies","syrphids",16,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR16_D","Transect","Platycheirus sp.","morphospecies","syrphids",16,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR16_E","Transect","Platycheirus sp.","morphospecies","syrphids",16,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR16_F","Transect","Platycheirus sp.","morphospecies","syrphids",16,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR16_B","Transect","Polistes dominula","species","non_bee_hymenoptera",2,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR16_C","Transect","Polistes dominula","species","non_bee_hymenoptera",2,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR16_D","Transect","Polistes dominula","species","non_bee_hymenoptera",2,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR16_E","Transect","Polistes dominula","species","non_bee_hymenoptera",2,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR16_F","Transect","Polistes dominula","species","non_bee_hymenoptera",2,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR16_B","Transect","Sphaerophoria rueppelli","species","syrphids",4,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR16_C","Transect","Sphaerophoria rueppelli","species","syrphids",4,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR16_D","Transect","Sphaerophoria rueppelli","species","syrphids",4,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR16_E","Transect","Sphaerophoria rueppelli","species","syrphids",4,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR16_F","Transect","Sphaerophoria rueppelli","species","syrphids",4,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR16_B","Transect","Sphaerophoria scripta","species","syrphids",7,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR16_C","Transect","Sphaerophoria scripta","species","syrphids",7,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR16_D","Transect","Sphaerophoria scripta","species","syrphids",7,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR16_E","Transect","Sphaerophoria scripta","species","syrphids",7,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR16_F","Transect","Sphaerophoria scripta","species","syrphids",7,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR16_B","Transect","Chrysotoxum festivum","species","syrphids",1,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR16_C","Transect","Chrysotoxum festivum","species","syrphids",1,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR16_D","Transect","Chrysotoxum festivum","species","syrphids",1,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR16_E","Transect","Chrysotoxum festivum","species","syrphids",1,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR16_F","Transect","Chrysotoxum festivum","species","syrphids",1,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR16_B","Transect","Hylaeus punctulatissimus","species","other_wild_bees",1,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR16_C","Transect","Hylaeus punctulatissimus","species","other_wild_bees",1,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR16_D","Transect","Hylaeus punctulatissimus","species","other_wild_bees",1,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR16_E","Transect","Hylaeus punctulatissimus","species","other_wild_bees",1,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR16_F","Transect","Hylaeus punctulatissimus","species","other_wild_bees",1,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR17_B","Transect","Andrena flavipes","species","other_wild_bees",14,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR17_C","Transect","Andrena flavipes","species","other_wild_bees",14,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR17_D","Transect","Andrena flavipes","species","other_wild_bees",14,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR17_E","Transect","Andrena flavipes","species","other_wild_bees",14,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR17_F","Transect","Andrena flavipes","species","other_wild_bees",14,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR17_B","Transect","Apis mellifera","species","honeybees",9,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR17_C","Transect","Apis mellifera","species","honeybees",9,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR17_D","Transect","Apis mellifera","species","honeybees",9,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR17_E","Transect","Apis mellifera","species","honeybees",9,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR17_F","Transect","Apis mellifera","species","honeybees",9,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR17_B","Transect","Bee sp. 2","morphospecies","other_wild_bees",1,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR17_C","Transect","Bee sp. 2","morphospecies","other_wild_bees",1,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR17_D","Transect","Bee sp. 2","morphospecies","other_wild_bees",1,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR17_E","Transect","Bee sp. 2","morphospecies","other_wild_bees",1,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR17_F","Transect","Bee sp. 2","morphospecies","other_wild_bees",1,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR17_B","Transect","Bombus hypnorum","species","bumblebees",3,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR17_C","Transect","Bombus hypnorum","species","bumblebees",3,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR17_D","Transect","Bombus hypnorum","species","bumblebees",3,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR17_E","Transect","Bombus hypnorum","species","bumblebees",3,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR17_F","Transect","Bombus hypnorum","species","bumblebees",3,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR17_B","Transect","Bombus lapidarius","species","bumblebees",48,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR17_C","Transect","Bombus lapidarius","species","bumblebees",48,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR17_D","Transect","Bombus lapidarius","species","bumblebees",48,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR17_E","Transect","Bombus lapidarius","species","bumblebees",48,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR17_F","Transect","Bombus lapidarius","species","bumblebees",48,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR17_B","Transect","Bombus terrestris","species","bumblebees",579,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR17_C","Transect","Bombus terrestris","species","bumblebees",579,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR17_D","Transect","Bombus terrestris","species","bumblebees",579,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR17_E","Transect","Bombus terrestris","species","bumblebees",579,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR17_F","Transect","Bombus terrestris","species","bumblebees",579,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR17_B","Transect","Eristalis tenax","species","syrphids",23,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR17_C","Transect","Eristalis tenax","species","syrphids",23,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR17_D","Transect","Eristalis tenax","species","syrphids",23,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR17_E","Transect","Eristalis tenax","species","syrphids",23,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR17_F","Transect","Eristalis tenax","species","syrphids",23,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR17_B","Transect","Eupeodes corollae","species","syrphids",2,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR17_C","Transect","Eupeodes corollae","species","syrphids",2,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR17_D","Transect","Eupeodes corollae","species","syrphids",2,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR17_E","Transect","Eupeodes corollae","species","syrphids",2,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR17_F","Transect","Eupeodes corollae","species","syrphids",2,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR17_B","Transect","Halictus sp.","morphospecies","other_wild_bees",1,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR17_C","Transect","Halictus sp.","morphospecies","other_wild_bees",1,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR17_D","Transect","Halictus sp.","morphospecies","other_wild_bees",1,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR17_E","Transect","Halictus sp.","morphospecies","other_wild_bees",1,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR17_F","Transect","Halictus sp.","morphospecies","other_wild_bees",1,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR17_B","Transect","Lasioglossum malachurum","species","other_wild_bees",4,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR17_C","Transect","Lasioglossum malachurum","species","other_wild_bees",4,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR17_D","Transect","Lasioglossum malachurum","species","other_wild_bees",4,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR17_E","Transect","Lasioglossum malachurum","species","other_wild_bees",4,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR17_F","Transect","Lasioglossum malachurum","species","other_wild_bees",4,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR17_B","Transect","Platycheirus sp.","morphospecies","syrphids",10,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR17_C","Transect","Platycheirus sp.","morphospecies","syrphids",10,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR17_D","Transect","Platycheirus sp.","morphospecies","syrphids",10,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR17_E","Transect","Platycheirus sp.","morphospecies","syrphids",10,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR17_F","Transect","Platycheirus sp.","morphospecies","syrphids",10,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR17_B","Transect","Polistes dominula","species","non_bee_hymenoptera",4,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR17_C","Transect","Polistes dominula","species","non_bee_hymenoptera",4,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR17_D","Transect","Polistes dominula","species","non_bee_hymenoptera",4,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR17_E","Transect","Polistes dominula","species","non_bee_hymenoptera",4,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR17_F","Transect","Polistes dominula","species","non_bee_hymenoptera",4,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR17_B","Transect","Sphaerophoria rueppelli","species","syrphids",26,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR17_C","Transect","Sphaerophoria rueppelli","species","syrphids",26,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR17_D","Transect","Sphaerophoria rueppelli","species","syrphids",26,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR17_E","Transect","Sphaerophoria rueppelli","species","syrphids",26,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR17_F","Transect","Sphaerophoria rueppelli","species","syrphids",26,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR17_B","Transect","Sphaerophoria scripta","species","syrphids",19,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR17_C","Transect","Sphaerophoria scripta","species","syrphids",19,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR17_D","Transect","Sphaerophoria scripta","species","syrphids",19,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR17_E","Transect","Sphaerophoria scripta","species","syrphids",19,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR17_F","Transect","Sphaerophoria scripta","species","syrphids",19,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR17_B","Transect","Syrphus ribesii","species","syrphids",2,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR17_C","Transect","Syrphus ribesii","species","syrphids",2,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR17_D","Transect","Syrphus ribesii","species","syrphids",2,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR17_E","Transect","Syrphus ribesii","species","syrphids",2,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR17_F","Transect","Syrphus ribesii","species","syrphids",2,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR17_B","Transect","Andrena dorsata","species","other_wild_bees",1,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR17_C","Transect","Andrena dorsata","species","other_wild_bees",1,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR17_D","Transect","Andrena dorsata","species","other_wild_bees",1,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR17_E","Transect","Andrena dorsata","species","other_wild_bees",1,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR17_F","Transect","Andrena dorsata","species","other_wild_bees",1,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR17_B","Transect","Lasioglossum subhirtum","species","other_wild_bees",12,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR17_C","Transect","Lasioglossum subhirtum","species","other_wild_bees",12,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR17_D","Transect","Lasioglossum subhirtum","species","other_wild_bees",12,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR17_E","Transect","Lasioglossum subhirtum","species","other_wild_bees",12,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR17_F","Transect","Lasioglossum subhirtum","species","other_wild_bees",12,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR18_B","Transect","Andrena flavipes","species","other_wild_bees",1,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR18_C","Transect","Andrena flavipes","species","other_wild_bees",1,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR18_D","Transect","Andrena flavipes","species","other_wild_bees",1,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR18_E","Transect","Andrena flavipes","species","other_wild_bees",1,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR18_F","Transect","Andrena flavipes","species","other_wild_bees",1,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR18_B","Transect","Andrena nigroaenea","species","other_wild_bees",1,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR18_C","Transect","Andrena nigroaenea","species","other_wild_bees",1,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR18_D","Transect","Andrena nigroaenea","species","other_wild_bees",1,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR18_E","Transect","Andrena nigroaenea","species","other_wild_bees",1,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR18_F","Transect","Andrena nigroaenea","species","other_wild_bees",1,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR18_B","Transect","Apis mellifera","species","honeybees",35,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR18_C","Transect","Apis mellifera","species","honeybees",35,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR18_D","Transect","Apis mellifera","species","honeybees",35,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR18_E","Transect","Apis mellifera","species","honeybees",35,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR18_F","Transect","Apis mellifera","species","honeybees",35,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR18_B","Transect","Bee sp. 2","morphospecies","other_wild_bees",1,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR18_C","Transect","Bee sp. 2","morphospecies","other_wild_bees",1,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR18_D","Transect","Bee sp. 2","morphospecies","other_wild_bees",1,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR18_E","Transect","Bee sp. 2","morphospecies","other_wild_bees",1,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR18_F","Transect","Bee sp. 2","morphospecies","other_wild_bees",1,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR18_B","Transect","Bombus lapidarius","species","bumblebees",31,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR18_C","Transect","Bombus lapidarius","species","bumblebees",31,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR18_D","Transect","Bombus lapidarius","species","bumblebees",31,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR18_E","Transect","Bombus lapidarius","species","bumblebees",31,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR18_F","Transect","Bombus lapidarius","species","bumblebees",31,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR18_B","Transect","Bombus pascuorum","species","bumblebees",2,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR18_C","Transect","Bombus pascuorum","species","bumblebees",2,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR18_D","Transect","Bombus pascuorum","species","bumblebees",2,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR18_E","Transect","Bombus pascuorum","species","bumblebees",2,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR18_F","Transect","Bombus pascuorum","species","bumblebees",2,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR18_B","Transect","Bombus pratorum","species","bumblebees",1,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR18_C","Transect","Bombus pratorum","species","bumblebees",1,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR18_D","Transect","Bombus pratorum","species","bumblebees",1,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR18_E","Transect","Bombus pratorum","species","bumblebees",1,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR18_F","Transect","Bombus pratorum","species","bumblebees",1,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR18_B","Transect","Bombus terrestris","species","bumblebees",693,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR18_C","Transect","Bombus terrestris","species","bumblebees",693,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR18_D","Transect","Bombus terrestris","species","bumblebees",693,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR18_E","Transect","Bombus terrestris","species","bumblebees",693,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR18_F","Transect","Bombus terrestris","species","bumblebees",693,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR18_B","Transect","Episyrphus balteatus","species","syrphids",1,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR18_C","Transect","Episyrphus balteatus","species","syrphids",1,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR18_D","Transect","Episyrphus balteatus","species","syrphids",1,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR18_E","Transect","Episyrphus balteatus","species","syrphids",1,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR18_F","Transect","Episyrphus balteatus","species","syrphids",1,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR18_B","Transect","Eristalis tenax","species","syrphids",13,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR18_C","Transect","Eristalis tenax","species","syrphids",13,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR18_D","Transect","Eristalis tenax","species","syrphids",13,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR18_E","Transect","Eristalis tenax","species","syrphids",13,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR18_F","Transect","Eristalis tenax","species","syrphids",13,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR18_B","Transect","Lasioglossum malachurum","species","other_wild_bees",3,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR18_C","Transect","Lasioglossum malachurum","species","other_wild_bees",3,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR18_D","Transect","Lasioglossum malachurum","species","other_wild_bees",3,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR18_E","Transect","Lasioglossum malachurum","species","other_wild_bees",3,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR18_F","Transect","Lasioglossum malachurum","species","other_wild_bees",3,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR18_B","Transect","Platycheirus sp.","morphospecies","syrphids",6,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR18_C","Transect","Platycheirus sp.","morphospecies","syrphids",6,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR18_D","Transect","Platycheirus sp.","morphospecies","syrphids",6,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR18_E","Transect","Platycheirus sp.","morphospecies","syrphids",6,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR18_F","Transect","Platycheirus sp.","morphospecies","syrphids",6,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR18_B","Transect","Polistes dominula","species","non_bee_hymenoptera",4,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR18_C","Transect","Polistes dominula","species","non_bee_hymenoptera",4,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR18_D","Transect","Polistes dominula","species","non_bee_hymenoptera",4,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR18_E","Transect","Polistes dominula","species","non_bee_hymenoptera",4,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR18_F","Transect","Polistes dominula","species","non_bee_hymenoptera",4,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR18_B","Transect","Sphaerophoria rueppelli","species","syrphids",1,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR18_C","Transect","Sphaerophoria rueppelli","species","syrphids",1,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR18_D","Transect","Sphaerophoria rueppelli","species","syrphids",1,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR18_E","Transect","Sphaerophoria rueppelli","species","syrphids",1,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR18_F","Transect","Sphaerophoria rueppelli","species","syrphids",1,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR18_B","Transect","Syrphid sp.","morphospecies","syrphids",1,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR18_C","Transect","Syrphid sp.","morphospecies","syrphids",1,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR18_D","Transect","Syrphid sp.","morphospecies","syrphids",1,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR18_E","Transect","Syrphid sp.","morphospecies","syrphids",1,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR18_F","Transect","Syrphid sp.","morphospecies","syrphids",1,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR18_B","Transect","Andrena bimaculata","species","other_wild_bees",1,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR18_C","Transect","Andrena bimaculata","species","other_wild_bees",1,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR18_D","Transect","Andrena bimaculata","species","other_wild_bees",1,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR18_E","Transect","Andrena bimaculata","species","other_wild_bees",1,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR18_F","Transect","Andrena bimaculata","species","other_wild_bees",1,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR18_B","Transect","Syrphid sp. 2","morphospecies","syrphids",2,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR18_C","Transect","Syrphid sp. 2","morphospecies","syrphids",2,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR18_D","Transect","Syrphid sp. 2","morphospecies","syrphids",2,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR18_E","Transect","Syrphid sp. 2","morphospecies","syrphids",2,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR18_F","Transect","Syrphid sp. 2","morphospecies","syrphids",2,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR18_B","Transect","Syrphus ribesii","species","syrphids",2,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR18_C","Transect","Syrphus ribesii","species","syrphids",2,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR18_D","Transect","Syrphus ribesii","species","syrphids",2,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR18_E","Transect","Syrphus ribesii","species","syrphids",2,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_France_2016","FR18_F","Transect","Syrphus ribesii","species","syrphids",2,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT01_B","Plant observations","Andrena flavipes","species","other_wild_bees",2,NA,160,16000,"Line B. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT01_B","Plant observations","Andrena pilipes","species","other_wild_bees",1,NA,160,16000,"Line B. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT01_B","Plant observations","Eupeodes lapponicus","species","syrphids",3,NA,160,16000,"Line B. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT01_B","Plant observations","Lasioglossum malachurum","species","other_wild_bees",1,NA,160,16000,"Line B. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT01_B","Plant observations","Sphaerophoria scripta","species","syrphids",1,NA,160,16000,"Line B. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT01_C","Plant observations","Andrena flavipes","species","other_wild_bees",1,NA,160,16000,"Line C. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT01_C","Plant observations","Sphaerophoria scripta","species","syrphids",1,NA,160,16000,"Line C. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT01_C","Plant observations","Lasioglossum pauperatum","species","other_wild_bees",1,NA,160,16000,"Line C. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT01_C","Plant observations","Andrena lepida","species","other_wild_bees",2,NA,160,16000,"Line C. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT01_D","Plant observations","Andrena flavipes","species","other_wild_bees",1,NA,160,16000,"Line D. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT01_D","Plant observations","Andrena pilipes","species","other_wild_bees",1,NA,160,16000,"Line D. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT01_D","Plant observations","Apis mellifera","species","honeybees",1,NA,160,16000,"Line D. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT01_D","Plant observations","Eupeodes lapponicus","species","syrphids",1,NA,160,16000,"Line D. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT01_D","Plant observations","Syritta pipiens","species","syrphids",2,NA,160,16000,"Line D. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT01_F","Plant observations","Andrena flavipes","species","other_wild_bees",2,NA,140,14000,"Line F. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT01_F","Plant observations","Andrena pilipes","species","other_wild_bees",3,NA,140,14000,"Line F. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT01_F","Plant observations","Apis mellifera","species","honeybees",1,NA,140,14000,"Line F. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT01_F","Plant observations","Bee sp.","morphospecies","other_wild_bees",1,NA,140,14000,"Line F. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT01_F","Plant observations","Eristalis tenax","species","syrphids",3,NA,140,14000,"Line F. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT01_F","Plant observations","Sphaerophoria rueppelli","species","syrphids",1,NA,140,14000,"Line F. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT02_B","Plant observations","Andrena flavipes","species","other_wild_bees",3,NA,160,16000,"Line B. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT02_B","Plant observations","Andrena pilipes","species","other_wild_bees",1,NA,160,16000,"Line B. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT02_B","Plant observations","Apis mellifera","species","honeybees",1,NA,160,16000,"Line B. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT02_B","Plant observations","Eristalis tenax","species","syrphids",1,NA,160,16000,"Line B. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT02_B","Plant observations","Cheilosia sp. 2","morphospecies","syrphids",1,NA,160,16000,"Line B. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT02_B","Plant observations","Polistes dominula","species","non_bee_hymenoptera",1,NA,160,16000,"Line B. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT02_B","Plant observations","Sphaerophoria scripta","species","syrphids",2,NA,160,16000,"Line B. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT02_B","Plant observations","Syritta pipiens","species","syrphids",2,NA,160,16000,"Line B. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT02_C","Plant observations","Andrena pilipes","species","other_wild_bees",1,NA,120,12000,"Line C. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT02_C","Plant observations","Apis mellifera","species","honeybees",1,NA,120,12000,"Line C. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT02_C","Plant observations","Polistes dominula","species","non_bee_hymenoptera",1,NA,120,12000,"Line C. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT02_C","Plant observations","Syritta pipiens","species","syrphids",2,NA,120,12000,"Line C. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT02_D","Plant observations","Apis mellifera","species","honeybees",3,NA,160,16000,"Line D. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT02_D","Plant observations","Bombus terrestris","species","bumblebees",1,NA,160,16000,"Line D. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT02_D","Plant observations","Sphaerophoria rueppelli","species","syrphids",1,NA,160,16000,"Line D. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT02_D","Plant observations","Sphaerophoria scripta","species","syrphids",7,NA,160,16000,"Line D. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT02_D","Plant observations","Syritta pipiens","species","syrphids",2,NA,160,16000,"Line D. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT02_D","Plant observations","Andrena lepida","species","other_wild_bees",1,NA,160,16000,"Line D. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT02_E","Plant observations","Andrena flavipes","species","other_wild_bees",1,NA,120,12000,"Line E. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT02_E","Plant observations","Lasioglossum sp.","morphospecies","other_wild_bees",1,NA,120,12000,"Line E. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT02_E","Plant observations","Syritta pipiens","species","syrphids",1,NA,120,12000,"Line E. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT02_F","Plant observations","Apis mellifera","species","honeybees",3,NA,120,12000,"Line F. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT02_F","Plant observations","Bee sp.","morphospecies","other_wild_bees",1,NA,120,12000,"Line F. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT02_F","Plant observations","Lasioglossum malachurum","species","other_wild_bees",1,NA,120,12000,"Line F. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT03_B","Plant observations","Lasioglossum malachurum","species","other_wild_bees",1,NA,120,12000,"Line B. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT03_B","Plant observations","Syritta pipiens","species","syrphids",1,NA,120,12000,"Line B. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT03_C","Plant observations","Polistes dominula","species","non_bee_hymenoptera",1,NA,120,12000,"Line C. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT03_C","Plant observations","Unknown wasp sp. 21","morphospecies","non_bee_hymenoptera",1,NA,120,12000,"Line C. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT03_D","Plant observations","Apis mellifera","species","honeybees",2,NA,120,12000,"Line D. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT03_D","Plant observations","Bombus lapidarius","species","bumblebees",2,NA,120,12000,"Line D. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT03_D","Plant observations","Bombus terrestris","species","bumblebees",1,NA,120,12000,"Line D. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT03_E","Plant observations","Unknown wasp sp. 21","morphospecies","non_bee_hymenoptera",1,NA,120,12000,"Line E. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT03_F","Plant observations","Andrena flavipes","species","other_wild_bees",1,NA,120,12000,"Line F. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT03_F","Plant observations","Polistes dominula","species","non_bee_hymenoptera",1,NA,120,12000,"Line F. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT04_B","Plant observations","Andrena flavipes","species","other_wild_bees",2,NA,160,16000,"Line B. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT04_B","Plant observations","Lasioglossum malachurum","species","other_wild_bees",1,NA,160,16000,"Line B. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT04_B","Plant observations","Polistes dominula","species","non_bee_hymenoptera",5,NA,160,16000,"Line B. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT04_B","Plant observations","Syritta pipiens","species","syrphids",3,NA,160,16000,"Line B. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT04_C","Plant observations","Andrena flavipes","species","other_wild_bees",5,NA,160,16000,"Line C. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT04_C","Plant observations","Polistes dominula","species","non_bee_hymenoptera",2,NA,160,16000,"Line C. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT04_D","Plant observations","Andrena flavipes","species","other_wild_bees",1,NA,160,16000,"Line D. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT04_D","Plant observations","Lasioglossum malachurum","species","other_wild_bees",1,NA,160,16000,"Line D. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT04_D","Plant observations","Polistes dominula","species","non_bee_hymenoptera",3,NA,160,16000,"Line D. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT04_D","Plant observations","Lasioglossum pauperatum","species","other_wild_bees",1,NA,160,16000,"Line D. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT04_E","Plant observations","Syritta pipiens","species","syrphids",1,NA,140,14000,"Line E. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT04_F","Plant observations","Andrena flavipes","species","other_wild_bees",1,NA,160,16000,"Line F. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT04_F","Plant observations","Polistes dominula","species","non_bee_hymenoptera",2,NA,160,16000,"Line F. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT04_F","Plant observations","Andrena lepida","species","other_wild_bees",1,NA,160,16000,"Line F. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT05_B","Plant observations","Andrena flavipes","species","other_wild_bees",2,NA,120,12000,"Line B. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT05_B","Plant observations","Apis mellifera","species","honeybees",4,NA,120,12000,"Line B. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT05_B","Plant observations","Bombus terrestris","species","bumblebees",1,NA,120,12000,"Line B. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT05_B","Plant observations","Lasioglossum malachurum","species","other_wild_bees",2,NA,120,12000,"Line B. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT05_B","Plant observations","Syritta pipiens","species","syrphids",4,NA,120,12000,"Line B. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT05_B","Plant observations","Eristalinus aeneus","species","syrphids",4,NA,120,12000,"Line B. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT05_B","Plant observations","Andrena lepida","species","other_wild_bees",5,NA,120,12000,"Line B. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT05_C","Plant observations","Andrena flavipes","species","other_wild_bees",2,NA,120,12000,"Line C. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT05_C","Plant observations","Apis mellifera","species","honeybees",3,NA,120,12000,"Line C. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT05_C","Plant observations","Sphaerophoria scripta","species","syrphids",2,NA,120,12000,"Line C. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT05_C","Plant observations","Eristalinus aeneus","species","syrphids",1,NA,120,12000,"Line C. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT05_C","Plant observations","Andrena lepida","species","other_wild_bees",2,NA,120,12000,"Line C. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT05_D","Plant observations","Andrena flavipes","species","other_wild_bees",2,NA,120,12000,"Line D. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT05_D","Plant observations","Apis mellifera","species","honeybees",2,NA,120,12000,"Line D. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT05_D","Plant observations","Andrena lepida","species","other_wild_bees",8,NA,120,12000,"Line D. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT05_E","Plant observations","Andrena flavipes","species","other_wild_bees",8,NA,120,12000,"Line E. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT05_E","Plant observations","Andrena sp.","morphospecies","other_wild_bees",1,NA,120,12000,"Line E. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT05_E","Plant observations","Apis mellifera","species","honeybees",11,NA,120,12000,"Line E. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT05_E","Plant observations","Bombus lapidarius","species","bumblebees",1,NA,120,12000,"Line E. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT05_E","Plant observations","Halictus scabiosae","species","other_wild_bees",2,NA,120,12000,"Line E. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT05_E","Plant observations","Lasioglossum malachurum","species","other_wild_bees",1,NA,120,12000,"Line E. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT05_E","Plant observations","Sphaerophoria scripta","species","syrphids",1,NA,120,12000,"Line E. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT05_E","Plant observations","Syritta pipiens","species","syrphids",3,NA,120,12000,"Line E. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT05_F","Plant observations","Andrena flavipes","species","other_wild_bees",2,NA,120,12000,"Line F. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT05_F","Plant observations","Apis mellifera","species","honeybees",5,NA,120,12000,"Line F. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT05_F","Plant observations","Eristalinus taeniops","species","syrphids",1,NA,120,12000,"Line F. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT06_B","Plant observations","Andrena flavipes","species","other_wild_bees",1,NA,160,16000,"Line B. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT06_B","Plant observations","Lasioglossum malachurum","species","other_wild_bees",2,NA,160,16000,"Line B. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT06_B","Plant observations","Polistes dominula","species","non_bee_hymenoptera",1,NA,160,16000,"Line B. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT06_B","Plant observations","Andrena sp. 4","morphospecies","other_wild_bees",1,NA,160,16000,"Line B. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT06_C","Plant observations","Andrena flavipes","species","other_wild_bees",2,NA,160,16000,"Line C. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT06_C","Plant observations","Apis mellifera","species","honeybees",1,NA,160,16000,"Line C. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT06_C","Plant observations","Eristalis tenax","species","syrphids",2,NA,160,16000,"Line C. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT06_C","Plant observations","Polistes dominula","species","non_bee_hymenoptera",1,NA,160,16000,"Line C. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT06_C","Plant observations","Syritta pipiens","species","syrphids",1,NA,160,16000,"Line C. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT06_C","Plant observations","Andrena lepida","species","other_wild_bees",1,NA,160,16000,"Line C. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT06_D","Plant observations","Andrena flavipes","species","other_wild_bees",1,NA,160,16000,"Line D. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT06_D","Plant observations","Andrena pilipes","species","other_wild_bees",1,NA,160,16000,"Line D. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT06_D","Plant observations","Apis mellifera","species","honeybees",1,NA,160,16000,"Line D. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT06_D","Plant observations","Sphaerophoria scripta","species","syrphids",4,NA,160,16000,"Line D. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT06_D","Plant observations","Lasioglossum laterale","species","other_wild_bees",1,NA,160,16000,"Line D. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT06_E","Plant observations","Andrena flavipes","species","other_wild_bees",3,NA,140,14000,"Line E. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT06_E","Plant observations","Andrena pilipes","species","other_wild_bees",4,NA,140,14000,"Line E. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT06_E","Plant observations","Apis mellifera","species","honeybees",2,NA,140,14000,"Line E. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT06_E","Plant observations","Halictus scabiosae","species","other_wild_bees",3,NA,140,14000,"Line E. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT06_E","Plant observations","Lasioglossum malachurum","species","other_wild_bees",8,NA,140,14000,"Line E. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT06_E","Plant observations","Andrena lepida","species","other_wild_bees",2,NA,140,14000,"Line E. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT06_F","Plant observations","Andrena flavipes","species","other_wild_bees",2,NA,160,16000,"Line F. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT06_F","Plant observations","Lasioglossum malachurum","species","other_wild_bees",1,NA,160,16000,"Line F. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT07_C","Plant observations","Andrena flavipes","species","other_wild_bees",4,NA,120,12000,"Line C. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT07_C","Plant observations","Apis mellifera","species","honeybees",3,NA,120,12000,"Line C. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT07_C","Plant observations","Bombus lapidarius","species","bumblebees",1,NA,120,12000,"Line C. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT07_C","Plant observations","Bombus terrestris","species","bumblebees",1,NA,120,12000,"Line C. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT07_C","Plant observations","Eupeodes lapponicus","species","syrphids",1,NA,120,12000,"Line C. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT07_C","Plant observations","Halictus scabiosae","species","other_wild_bees",1,NA,120,12000,"Line C. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT07_C","Plant observations","Polistes dominula","species","non_bee_hymenoptera",2,NA,120,12000,"Line C. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT07_C","Plant observations","Sphaerophoria scripta","species","syrphids",4,NA,120,12000,"Line C. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT07_C","Plant observations","Syritta pipiens","species","syrphids",1,NA,120,12000,"Line C. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT07_C","Plant observations","Andrena lepida","species","other_wild_bees",2,NA,120,12000,"Line C. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT07_D","Plant observations","Apis mellifera","species","honeybees",3,NA,120,12000,"Line D. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT07_D","Plant observations","Bombus lapidarius","species","bumblebees",9,NA,120,12000,"Line D. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT07_D","Plant observations","Bombus terrestris","species","bumblebees",1,NA,120,12000,"Line D. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT07_D","Plant observations","Lasioglossum malachurum","species","other_wild_bees",1,NA,120,12000,"Line D. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT07_D","Plant observations","Polistes dominula","species","non_bee_hymenoptera",2,NA,120,12000,"Line D. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT07_D","Plant observations","Sphaerophoria scripta","species","syrphids",1,NA,120,12000,"Line D. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT07_E","Plant observations","Bombus lapidarius","species","bumblebees",2,NA,120,12000,"Line E. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT07_E","Plant observations","Polistes dominula","species","non_bee_hymenoptera",1,NA,120,12000,"Line E. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT07_F","Plant observations","Andrena flavipes","species","other_wild_bees",2,NA,120,12000,"Line F. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT07_F","Plant observations","Bombus terrestris","species","bumblebees",2,NA,120,12000,"Line F. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT07_F","Plant observations","Halictus scabiosae","species","other_wild_bees",2,NA,120,12000,"Line F. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT07_F","Plant observations","Polistes dominula","species","non_bee_hymenoptera",2,NA,120,12000,"Line F. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT07_F","Plant observations","Sphaerophoria rueppelli","species","syrphids",1,NA,120,12000,"Line F. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT07_F","Plant observations","Sphaerophoria scripta","species","syrphids",2,NA,120,12000,"Line F. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT07_F","Plant observations","Andrena lepida","species","other_wild_bees",3,NA,120,12000,"Line F. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT08_B","Plant observations","Andrena flavipes","species","other_wild_bees",1,NA,160,16000,"Line B. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT08_B","Plant observations","Andrena pilipes","species","other_wild_bees",1,NA,160,16000,"Line B. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT08_B","Plant observations","Apis mellifera","species","honeybees",4,NA,160,16000,"Line B. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT08_B","Plant observations","Syritta pipiens","species","syrphids",2,NA,160,16000,"Line B. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT08_C","Plant observations","Andrena flavipes","species","other_wild_bees",1,NA,160,16000,"Line C. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT08_C","Plant observations","Andrena pilipes","species","other_wild_bees",1,NA,160,16000,"Line C. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT08_C","Plant observations","Apis mellifera","species","honeybees",1,NA,160,16000,"Line C. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT08_C","Plant observations","Polistes dominula","species","non_bee_hymenoptera",2,NA,160,16000,"Line C. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT08_E","Plant observations","Andrena flavipes","species","other_wild_bees",6,NA,140,14000,"Line E. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT08_E","Plant observations","Andrena pilipes","species","other_wild_bees",1,NA,140,14000,"Line E. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT08_F","Plant observations","Lasioglossum malachurum","species","other_wild_bees",5,NA,160,16000,"Line F. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT08_F","Plant observations","Lasioglossum sp.","morphospecies","other_wild_bees",1,NA,160,16000,"Line F. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT08_F","Plant observations","Polistes dominula","species","non_bee_hymenoptera",1,NA,160,16000,"Line F. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT09_B","Plant observations","Andrena flavipes","species","other_wild_bees",2,NA,120,12000,"Line B. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT09_B","Plant observations","Andrena pilipes","species","other_wild_bees",1,NA,120,12000,"Line B. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT09_B","Plant observations","Apis mellifera","species","honeybees",2,NA,120,12000,"Line B. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT09_B","Plant observations","Bombus lapidarius","species","bumblebees",8,NA,120,12000,"Line B. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT09_B","Plant observations","Bombus terrestris","species","bumblebees",3,NA,120,12000,"Line B. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT09_B","Plant observations","Halictus scabiosae","species","other_wild_bees",2,NA,120,12000,"Line B. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT09_B","Plant observations","Lasioglossum malachurum","species","other_wild_bees",1,NA,120,12000,"Line B. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT09_B","Plant observations","Syritta pipiens","species","syrphids",4,NA,120,12000,"Line B. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT09_B","Plant observations","Andrena lepida","species","other_wild_bees",2,NA,120,12000,"Line B. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT09_C","Plant observations","Andrena flavipes","species","other_wild_bees",1,NA,200,20000,"Line C. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT09_C","Plant observations","Apis mellifera","species","honeybees",2,NA,200,20000,"Line C. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT09_C","Plant observations","Bombus lapidarius","species","bumblebees",1,NA,200,20000,"Line C. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT09_C","Plant observations","Eristalis tenax","species","syrphids",2,NA,200,20000,"Line C. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT09_C","Plant observations","Polistes dominula","species","non_bee_hymenoptera",8,NA,200,20000,"Line C. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT09_C","Plant observations","Andrena lepida","species","other_wild_bees",1,NA,200,20000,"Line C. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT09_D","Plant observations","Andrena flavipes","species","other_wild_bees",2,NA,160,16000,"Line D. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT09_D","Plant observations","Apis mellifera","species","honeybees",7,NA,160,16000,"Line D. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT09_D","Plant observations","Bombus lapidarius","species","bumblebees",5,NA,160,16000,"Line D. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT09_D","Plant observations","Bombus terrestris","species","bumblebees",4,NA,160,16000,"Line D. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT09_D","Plant observations","Eristalis tenax","species","syrphids",3,NA,160,16000,"Line D. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT09_D","Plant observations","Halictus scabiosae","species","other_wild_bees",6,NA,160,16000,"Line D. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT09_D","Plant observations","Lasioglossum malachurum","species","other_wild_bees",3,NA,160,16000,"Line D. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT09_D","Plant observations","Polistes dominula","species","non_bee_hymenoptera",1,NA,160,16000,"Line D. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT09_D","Plant observations","Andrena lepida","species","other_wild_bees",4,NA,160,16000,"Line D. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT09_D","Plant observations","Lasioglossum interruptum","species","other_wild_bees",1,NA,160,16000,"Line D. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT09_E","Plant observations","Andrena flavipes","species","other_wild_bees",3,NA,160,16000,"Line E. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT09_E","Plant observations","Apis mellifera","species","honeybees",2,NA,160,16000,"Line E. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT09_E","Plant observations","Halictus scabiosae","species","other_wild_bees",6,NA,160,16000,"Line E. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT09_E","Plant observations","Lasioglossum malachurum","species","other_wild_bees",1,NA,160,16000,"Line E. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT09_E","Plant observations","Sphaerophoria scripta","species","syrphids",1,NA,160,16000,"Line E. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT09_E","Plant observations","Syritta pipiens","species","syrphids",1,NA,160,16000,"Line E. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT09_E","Plant observations","Wasp sp.","morphospecies","non_bee_hymenoptera",1,NA,160,16000,"Line E. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT09_E","Plant observations","Andrena lepida","species","other_wild_bees",2,NA,160,16000,"Line E. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT09_E","Plant observations","Lasioglossum interruptum","species","other_wild_bees",1,NA,160,16000,"Line E. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT09_F","Plant observations","Andrena flavipes","species","other_wild_bees",3,NA,120,12000,"Line F. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT09_F","Plant observations","Andrena pilipes","species","other_wild_bees",4,NA,120,12000,"Line F. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT09_F","Plant observations","Apis mellifera","species","honeybees",1,NA,120,12000,"Line F. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT09_F","Plant observations","Bombus lapidarius","species","bumblebees",2,NA,120,12000,"Line F. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT09_F","Plant observations","Lasioglossum malachurum","species","other_wild_bees",2,NA,120,12000,"Line F. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT09_F","Plant observations","Polistes dominula","species","non_bee_hymenoptera",2,NA,120,12000,"Line F. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT09_F","Plant observations","Andrena lepida","species","other_wild_bees",4,NA,120,12000,"Line F. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT10_B","Plant observations","Bombus lapidarius","species","bumblebees",1,NA,120,12000,"Line B. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT10_B","Plant observations","Bombus terrestris","species","bumblebees",2,NA,120,12000,"Line B. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT10_B","Plant observations","Polistes dominula","species","non_bee_hymenoptera",2,NA,120,12000,"Line B. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT10_B","Plant observations","Syrphid sp.","morphospecies","syrphids",1,NA,120,12000,"Line B. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT10_C","Plant observations","Bombus lapidarius","species","bumblebees",3,NA,120,12000,"Line C. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT10_C","Plant observations","Bombus pascuorum","species","bumblebees",2,NA,120,12000,"Line C. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT10_C","Plant observations","Eristalis tenax","species","syrphids",1,NA,120,12000,"Line C. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT10_C","Plant observations","Polistes dominula","species","non_bee_hymenoptera",1,NA,120,12000,"Line C. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT10_C","Plant observations","Sphaerophoria scripta","species","syrphids",1,NA,120,12000,"Line C. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT10_D","Plant observations","Andrena flavipes","species","other_wild_bees",3,NA,120,12000,"Line D. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT10_D","Plant observations","Bombus lapidarius","species","bumblebees",7,NA,120,12000,"Line D. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT10_D","Plant observations","Sphaerophoria scripta","species","syrphids",1,NA,120,12000,"Line D. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT10_E","Plant observations","Andrena flavipes","species","other_wild_bees",1,NA,120,12000,"Line E. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT10_E","Plant observations","Eupeodes lapponicus","species","syrphids",2,NA,120,12000,"Line E. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT10_E","Plant observations","Lasioglossum malachurum","species","other_wild_bees",1,NA,120,12000,"Line E. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT10_F","Plant observations","Andrena flavipes","species","other_wild_bees",4,NA,120,12000,"Line F. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT10_F","Plant observations","Bombus lapidarius","species","bumblebees",1,NA,120,12000,"Line F. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT10_F","Plant observations","Bombus terrestris","species","bumblebees",3,NA,120,12000,"Line F. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT10_F","Plant observations","Polistes dominula","species","non_bee_hymenoptera",1,NA,120,12000,"Line F. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT11_B","Plant observations","Andrena flavipes","species","other_wild_bees",2,NA,160,16000,"Line B. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT11_B","Plant observations","Andrena pilipes","species","other_wild_bees",2,NA,160,16000,"Line B. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT11_B","Plant observations","Andrena thoracica","species","other_wild_bees",1,NA,160,16000,"Line B. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT11_B","Plant observations","Anthidium manicatum","species","other_wild_bees",1,NA,160,16000,"Line B. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT11_B","Plant observations","Bombus lapidarius","species","bumblebees",2,NA,160,16000,"Line B. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT11_B","Plant observations","Eupeodes latifasciatus","species","syrphids",1,NA,160,16000,"Line B. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT11_B","Plant observations","Halictus scabiosae","species","other_wild_bees",1,NA,160,16000,"Line B. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT11_B","Plant observations","Lasioglossum malachurum","species","other_wild_bees",2,NA,160,16000,"Line B. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT11_B","Plant observations","Polistes dominula","species","non_bee_hymenoptera",1,NA,160,16000,"Line B. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT11_B","Plant observations","Eristalinus aeneus","species","syrphids",1,NA,160,16000,"Line B. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT11_B","Plant observations","Milesia sp. 1","morphospecies","syrphids",1,NA,160,16000,"Line B. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT11_B","Plant observations","Andrena lepida","species","other_wild_bees",1,NA,160,16000,"Line B. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT11_C","Plant observations","Apis mellifera","species","honeybees",1,NA,160,16000,"Line C. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT11_C","Plant observations","Bombus terrestris","species","bumblebees",1,NA,160,16000,"Line C. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT11_C","Plant observations","Eupeodes sp.","morphospecies","syrphids",1,NA,160,16000,"Line C. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT11_C","Plant observations","Halictus scabiosae","species","other_wild_bees",2,NA,160,16000,"Line C. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT11_C","Plant observations","Lasioglossum malachurum","species","other_wild_bees",1,NA,160,16000,"Line C. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT11_D","Plant observations","Andrena flavipes","species","other_wild_bees",3,NA,160,16000,"Line D. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT11_D","Plant observations","Bombus lapidarius","species","bumblebees",6,NA,160,16000,"Line D. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT11_D","Plant observations","Bombus terrestris","species","bumblebees",1,NA,160,16000,"Line D. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT11_D","Plant observations","Eupeodes lapponicus","species","syrphids",1,NA,160,16000,"Line D. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT11_D","Plant observations","Halictus scabiosae","species","other_wild_bees",1,NA,160,16000,"Line D. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT11_D","Plant observations","Lasioglossum malachurum","species","other_wild_bees",4,NA,160,16000,"Line D. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT11_D","Plant observations","Syritta pipiens","species","syrphids",2,NA,160,16000,"Line D. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT11_E","Plant observations","Apis mellifera","species","honeybees",1,NA,160,16000,"Line E. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT11_E","Plant observations","Bombus lapidarius","species","bumblebees",6,NA,160,16000,"Line E. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT11_E","Plant observations","Eristalis arbustorum","species","syrphids",1,NA,160,16000,"Line E. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT11_E","Plant observations","Eupeodes latifasciatus","species","syrphids",1,NA,160,16000,"Line E. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT11_E","Plant observations","Halictus scabiosae","species","other_wild_bees",1,NA,160,16000,"Line E. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT11_E","Plant observations","Lasioglossum malachurum","species","other_wild_bees",1,NA,160,16000,"Line E. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT11_E","Plant observations","Polistes dominula","species","non_bee_hymenoptera",1,NA,160,16000,"Line E. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT11_E","Plant observations","Sphaerophoria sp. 2","morphospecies","syrphids",1,NA,160,16000,"Line E. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT11_E","Plant observations","Andrena lepida","species","other_wild_bees",1,NA,160,16000,"Line E. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT11_F","Plant observations","Andrena flavipes","species","other_wild_bees",2,NA,140,14000,"Line F. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT11_F","Plant observations","Andrena pilipes","species","other_wild_bees",4,NA,140,14000,"Line F. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT11_F","Plant observations","Bombus lapidarius","species","bumblebees",5,NA,140,14000,"Line F. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT11_F","Plant observations","Bombus terrestris","species","bumblebees",1,NA,140,14000,"Line F. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT11_F","Plant observations","Halictus scabiosae","species","other_wild_bees",2,NA,140,14000,"Line F. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT11_F","Plant observations","Lasioglossum malachurum","species","other_wild_bees",2,NA,140,14000,"Line F. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT11_F","Plant observations","Polistes dominula","species","non_bee_hymenoptera",2,NA,140,14000,"Line F. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT11_F","Plant observations","Andrena lepida","species","other_wild_bees",2,NA,140,14000,"Line F. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT12_B","Plant observations","Bombus terrestris","species","bumblebees",3,NA,160,16000,"Line B. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT12_B","Plant observations","Lasioglossum malachurum","species","other_wild_bees",1,NA,160,16000,"Line B. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT12_B","Plant observations","Polistes dominula","species","non_bee_hymenoptera",5,NA,160,16000,"Line B. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT12_B","Plant observations","Syritta pipiens","species","syrphids",1,NA,160,16000,"Line B. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT12_B","Plant observations","Xylocopa violacea","species","other_wild_bees",4,NA,160,16000,"Line B. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT12_C","Plant observations","Andrena flavipes","species","other_wild_bees",1,NA,160,16000,"Line C. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT12_C","Plant observations","Bombus terrestris","species","bumblebees",1,NA,160,16000,"Line C. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT12_C","Plant observations","Lasioglossum sp.","morphospecies","other_wild_bees",1,NA,160,16000,"Line C. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT12_C","Plant observations","Polistes dominula","species","non_bee_hymenoptera",4,NA,160,16000,"Line C. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT12_C","Plant observations","Sphaerophoria rueppelli","species","syrphids",1,NA,160,16000,"Line C. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT12_C","Plant observations","Sphaerophoria scripta","species","syrphids",1,NA,160,16000,"Line C. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT12_C","Plant observations","Unknown wasp sp. 19","morphospecies","non_bee_hymenoptera",1,NA,160,16000,"Line C. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT12_C","Plant observations","Unknown wasp sp. 25","morphospecies","non_bee_hymenoptera",1,NA,160,16000,"Line C. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT12_C","Plant observations","Vespula sp. 1","morphospecies","non_bee_hymenoptera",1,NA,160,16000,"Line C. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT12_D","Plant observations","Andrena flavipes","species","other_wild_bees",3,NA,160,16000,"Line D. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT12_D","Plant observations","Bombus lapidarius","species","bumblebees",1,NA,160,16000,"Line D. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT12_D","Plant observations","Eupeodes latifasciatus","species","syrphids",1,NA,160,16000,"Line D. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT12_D","Plant observations","Polistes dominula","species","non_bee_hymenoptera",4,NA,160,16000,"Line D. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT12_E","Plant observations","Andrena pilipes","species","other_wild_bees",2,NA,160,16000,"Line E. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT12_E","Plant observations","Polistes dominula","species","non_bee_hymenoptera",10,NA,160,16000,"Line E. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT12_F","Plant observations","Polistes dominula","species","non_bee_hymenoptera",9,NA,120,12000,"Line F. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT13_D","Plant observations","Polistes dominula","species","non_bee_hymenoptera",1,NA,160,16000,"Line D. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT13_E","Plant observations","Andrena flavipes","species","other_wild_bees",1,NA,120,12000,"Line E. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT13_E","Plant observations","Apis mellifera","species","honeybees",1,NA,120,12000,"Line E. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT13_F","Plant observations","Apis mellifera","species","honeybees",1,NA,120,12000,"Line F. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT13_F","Plant observations","Polistes dominula","species","non_bee_hymenoptera",2,NA,120,12000,"Line F. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT14_B","Plant observations","Andrena flavipes","species","other_wild_bees",1,NA,120,12000,"Line B. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT14_B","Plant observations","Apis mellifera","species","honeybees",2,NA,120,12000,"Line B. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT14_C","Plant observations","Apis mellifera","species","honeybees",2,NA,200,20000,"Line C. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT14_C","Plant observations","Halictus scabiosae","species","other_wild_bees",2,NA,200,20000,"Line C. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT14_C","Plant observations","Lasioglossum malachurum","species","other_wild_bees",1,NA,200,20000,"Line C. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT14_C","Plant observations","Syritta pipiens","species","syrphids",1,NA,200,20000,"Line C. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT14_C","Plant observations","Lasioglossum bimaculatum","species","other_wild_bees",1,NA,200,20000,"Line C. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT14_D","Plant observations","Apis mellifera","species","honeybees",1,NA,160,16000,"Line D. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT14_D","Plant observations","Lasioglossum malachurum","species","other_wild_bees",2,NA,160,16000,"Line D. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT14_E","Plant observations","Andrena flavipes","species","other_wild_bees",1,NA,160,16000,"Line E. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT14_E","Plant observations","Apis mellifera","species","honeybees",1,NA,160,16000,"Line E. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT14_E","Plant observations","Syritta pipiens","species","syrphids",1,NA,160,16000,"Line E. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT14_E","Plant observations","Lasioglossum bimaculatum","species","other_wild_bees",1,NA,160,16000,"Line E. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT14_F","Plant observations","Apis mellifera","species","honeybees",1,NA,160,16000,"Line F. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT14_F","Plant observations","Episyrphus balteatus","species","syrphids",1,NA,160,16000,"Line F. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT15_B","Plant observations","Apis mellifera","species","honeybees",7,NA,120,12000,"Line B. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT15_B","Plant observations","Eristalis tenax","species","syrphids",1,NA,120,12000,"Line B. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT15_B","Plant observations","Polistes dominula","species","non_bee_hymenoptera",3,NA,120,12000,"Line B. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT15_B","Plant observations","Sphaerophoria scripta","species","syrphids",1,NA,120,12000,"Line B. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT15_B","Plant observations","Syritta pipiens","species","syrphids",3,NA,120,12000,"Line B. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT15_C","Plant observations","Syritta pipiens","species","syrphids",6,NA,120,12000,"Line C. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT15_D","Plant observations","Apis mellifera","species","honeybees",3,NA,120,12000,"Line D. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT15_D","Plant observations","Syritta pipiens","species","syrphids",2,NA,120,12000,"Line D. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT15_E","Plant observations","Andrena flavipes","species","other_wild_bees",1,NA,120,12000,"Line E. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT15_E","Plant observations","Apis mellifera","species","honeybees",4,NA,120,12000,"Line E. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT15_E","Plant observations","Eupeodes lapponicus","species","syrphids",5,NA,120,12000,"Line E. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT15_E","Plant observations","Polistes dominula","species","non_bee_hymenoptera",4,NA,120,12000,"Line E. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT15_E","Plant observations","Sphaerophoria scripta","species","syrphids",1,NA,120,12000,"Line E. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT15_F","Plant observations","Andrena flavipes","species","other_wild_bees",1,NA,120,12000,"Line F. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT15_F","Plant observations","Eupeodes lapponicus","species","syrphids",2,NA,120,12000,"Line F. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT15_F","Plant observations","Polistes dominula","species","non_bee_hymenoptera",7,NA,120,12000,"Line F. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT15_F","Plant observations","Sphaerophoria scripta","species","syrphids",1,NA,120,12000,"Line F. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT15_F","Plant observations","Syritta pipiens","species","syrphids",4,NA,120,12000,"Line F. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT16_B","Plant observations","Andrena flavipes","species","other_wild_bees",12,NA,120,12000,"Line B. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT16_B","Plant observations","Andrena pilipes","species","other_wild_bees",14,NA,120,12000,"Line B. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT16_B","Plant observations","Andrena sp.","morphospecies","other_wild_bees",3,NA,120,12000,"Line B. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT16_B","Plant observations","Apis mellifera","species","honeybees",20,NA,120,12000,"Line B. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT16_B","Plant observations","Halictus sp.","morphospecies","other_wild_bees",1,NA,120,12000,"Line B. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT16_B","Plant observations","Lasioglossum malachurum","species","other_wild_bees",2,NA,120,12000,"Line B. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT16_B","Plant observations","Lasioglossum sp.","morphospecies","other_wild_bees",1,NA,120,12000,"Line B. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT16_B","Plant observations","Syritta pipiens","species","syrphids",13,NA,120,12000,"Line B. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT16_B","Plant observations","Sphecodes monilicornis","species","other_wild_bees",2,NA,120,12000,"Line B. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT16_B","Plant observations","Andrena lepida","species","other_wild_bees",8,NA,120,12000,"Line B. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT16_C","Plant observations","Andrena albopunctata","species","other_wild_bees",1,NA,160,16000,"Line C. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT16_C","Plant observations","Andrena flavipes","species","other_wild_bees",7,NA,160,16000,"Line C. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT16_C","Plant observations","Apis mellifera","species","honeybees",5,NA,160,16000,"Line C. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT16_C","Plant observations","Lasioglossum malachurum","species","other_wild_bees",10,NA,160,16000,"Line C. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT16_C","Plant observations","Polistes dominula","species","non_bee_hymenoptera",4,NA,160,16000,"Line C. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT16_C","Plant observations","Sphaerophoria scripta","species","syrphids",2,NA,160,16000,"Line C. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT16_C","Plant observations","Syritta pipiens","species","syrphids",1,NA,160,16000,"Line C. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT16_C","Plant observations","Andrena lepida","species","other_wild_bees",3,NA,160,16000,"Line C. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT16_D","Plant observations","Andrena flavipes","species","other_wild_bees",16,NA,160,16000,"Line D. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT16_D","Plant observations","Andrena pilipes","species","other_wild_bees",12,NA,160,16000,"Line D. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT16_D","Plant observations","Apis mellifera","species","honeybees",38,NA,160,16000,"Line D. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT16_D","Plant observations","Lasioglossum malachurum","species","other_wild_bees",3,NA,160,16000,"Line D. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT16_D","Plant observations","Lasioglossum sp.","morphospecies","other_wild_bees",1,NA,160,16000,"Line D. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT16_D","Plant observations","Polistes dominula","species","non_bee_hymenoptera",1,NA,160,16000,"Line D. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT16_D","Plant observations","Sphaerophoria scripta","species","syrphids",1,NA,160,16000,"Line D. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT16_D","Plant observations","Syritta pipiens","species","syrphids",4,NA,160,16000,"Line D. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT16_D","Plant observations","Wasp sp.","morphospecies","non_bee_hymenoptera",1,NA,160,16000,"Line D. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT16_D","Plant observations","Sphecodes monilicornis","species","other_wild_bees",1,NA,160,16000,"Line D. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT16_D","Plant observations","Andrena lepida","species","other_wild_bees",5,NA,160,16000,"Line D. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT16_D","Plant observations","Ceratina nigrolabiata","species","other_wild_bees",1,NA,160,16000,"Line D. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT16_D","Plant observations","Lasioglossum discum","species","other_wild_bees",1,NA,160,16000,"Line D. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT16_D","Plant observations","Nomiapis bispinosa","species","other_wild_bees",1,NA,160,16000,"Line D. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT16_E","Plant observations","Andrena albopunctata","species","other_wild_bees",1,NA,140,14000,"Line E. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT16_E","Plant observations","Andrena flavipes","species","other_wild_bees",6,NA,140,14000,"Line E. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT16_E","Plant observations","Andrena pilipes","species","other_wild_bees",4,NA,140,14000,"Line E. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT16_E","Plant observations","Apis mellifera","species","honeybees",11,NA,140,14000,"Line E. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT16_E","Plant observations","Halictus scabiosae","species","other_wild_bees",2,NA,140,14000,"Line E. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT16_E","Plant observations","Lasioglossum malachurum","species","other_wild_bees",4,NA,140,14000,"Line E. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT16_E","Plant observations","Syritta pipiens","species","syrphids",2,NA,140,14000,"Line E. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT16_E","Plant observations","Sphecodes monilicornis","species","other_wild_bees",2,NA,140,14000,"Line E. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT16_E","Plant observations","Andrena lepida","species","other_wild_bees",1,NA,140,14000,"Line E. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT16_E","Plant observations","Nomiapis bispinosa","species","other_wild_bees",2,NA,140,14000,"Line E. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT16_F","Plant observations","Andrena flavipes","species","other_wild_bees",4,NA,120,12000,"Line F. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT16_F","Plant observations","Apis mellifera","species","honeybees",3,NA,120,12000,"Line F. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT16_F","Plant observations","Lasioglossum malachurum","species","other_wild_bees",24,NA,120,12000,"Line F. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT16_F","Plant observations","Lasioglossum sp.","morphospecies","other_wild_bees",3,NA,120,12000,"Line F. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT16_F","Plant observations","Polistes dominula","species","non_bee_hymenoptera",6,NA,120,12000,"Line F. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT16_F","Plant observations","Syritta pipiens","species","syrphids",2,NA,120,12000,"Line F. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT16_F","Plant observations","Andrena lepida","species","other_wild_bees",2,NA,120,12000,"Line F. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT16_F","Plant observations","Nomiapis bispinosa","species","other_wild_bees",1,NA,120,12000,"Line F. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT17_B","Plant observations","Andrena flavipes","species","other_wild_bees",3,NA,120,12000,"Line B. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT17_B","Plant observations","Andrena pilipes","species","other_wild_bees",2,NA,120,12000,"Line B. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT17_B","Plant observations","Apis mellifera","species","honeybees",1,NA,120,12000,"Line B. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT17_B","Plant observations","Lasioglossum malachurum","species","other_wild_bees",1,NA,120,12000,"Line B. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT17_B","Plant observations","Polistes dominula","species","non_bee_hymenoptera",3,NA,120,12000,"Line B. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT17_B","Plant observations","Sphaerophoria scripta","species","syrphids",1,NA,120,12000,"Line B. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT17_B","Plant observations","Syritta pipiens","species","syrphids",2,NA,120,12000,"Line B. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT17_B","Plant observations","Andrena lepida","species","other_wild_bees",2,NA,120,12000,"Line B. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT17_B","Plant observations","Andrena variabilis","species","other_wild_bees",2,NA,120,12000,"Line B. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT17_C","Plant observations","Andrena flavipes","species","other_wild_bees",5,NA,120,12000,"Line C. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT17_C","Plant observations","Apis mellifera","species","honeybees",2,NA,120,12000,"Line C. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT17_C","Plant observations","Lasioglossum malachurum","species","other_wild_bees",5,NA,120,12000,"Line C. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT17_C","Plant observations","Polistes dominula","species","non_bee_hymenoptera",3,NA,120,12000,"Line C. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT17_C","Plant observations","Sphaerophoria scripta","species","syrphids",3,NA,120,12000,"Line C. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT17_C","Plant observations","Andrena lepida","species","other_wild_bees",1,NA,120,12000,"Line C. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT17_D","Plant observations","Andrena flavipes","species","other_wild_bees",3,NA,120,12000,"Line D. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT17_D","Plant observations","Apis mellifera","species","honeybees",4,NA,120,12000,"Line D. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT17_D","Plant observations","Lasioglossum malachurum","species","other_wild_bees",3,NA,120,12000,"Line D. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT17_D","Plant observations","Syritta pipiens","species","syrphids",1,NA,120,12000,"Line D. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT17_E","Plant observations","Andrena flavipes","species","other_wild_bees",4,NA,120,12000,"Line E. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT17_E","Plant observations","Andrena pilipes","species","other_wild_bees",1,NA,120,12000,"Line E. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT17_E","Plant observations","Apis mellifera","species","honeybees",3,NA,120,12000,"Line E. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT17_E","Plant observations","Eupeodes lapponicus","species","syrphids",1,NA,120,12000,"Line E. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT17_E","Plant observations","Lasioglossum malachurum","species","other_wild_bees",2,NA,120,12000,"Line E. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT17_E","Plant observations","Wasp sp.","morphospecies","non_bee_hymenoptera",1,NA,120,12000,"Line E. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT17_F","Plant observations","Andrena flavipes","species","other_wild_bees",9,NA,120,12000,"Line F. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT17_F","Plant observations","Apis mellifera","species","honeybees",2,NA,120,12000,"Line F. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT17_F","Plant observations","Lasioglossum malachurum","species","other_wild_bees",1,NA,120,12000,"Line F. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT17_F","Plant observations","Syritta pipiens","species","syrphids",1,NA,120,12000,"Line F. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT18_B","Plant observations","Andrena flavipes","species","other_wild_bees",2,NA,120,12000,"Line B. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT18_B","Plant observations","Andrena pilipes","species","other_wild_bees",1,NA,120,12000,"Line B. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT18_B","Plant observations","Polistes dominula","species","non_bee_hymenoptera",3,NA,120,12000,"Line B. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT18_B","Plant observations","Syritta pipiens","species","syrphids",5,NA,120,12000,"Line B. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT18_D","Plant observations","Halictus scabiosae","species","other_wild_bees",1,NA,120,12000,"Line D. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT18_D","Plant observations","Syritta pipiens","species","syrphids",1,NA,120,12000,"Line D. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT18_D","Plant observations","Andrena lepida","species","other_wild_bees",1,NA,120,12000,"Line D. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT18_E","Plant observations","Andrena albopunctata","species","other_wild_bees",1,NA,120,12000,"Line E. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT18_E","Plant observations","Andrena flavipes","species","other_wild_bees",4,NA,120,12000,"Line E. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT18_E","Plant observations","Andrena pilipes","species","other_wild_bees",2,NA,120,12000,"Line E. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT18_E","Plant observations","Andrena lepida","species","other_wild_bees",3,NA,120,12000,"Line E. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT18_E","Plant observations","Andrena variabilis","species","other_wild_bees",1,NA,120,12000,"Line E. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT18_F","Plant observations","Andrena flavipes","species","other_wild_bees",4,NA,120,12000,"Line F. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT18_F","Plant observations","Andrena pilipes","species","other_wild_bees",3,NA,120,12000,"Line F. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT18_F","Plant observations","Halictus scabiosae","species","other_wild_bees",1,NA,120,12000,"Line F. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT18_F","Plant observations","Syritta pipiens","species","syrphids",4,NA,120,12000,"Line F. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT18_F","Plant observations","Andrena lepida","species","other_wild_bees",2,NA,120,12000,"Line F. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT01_B","Transect","Andrena flavipes","species","other_wild_bees",43,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT01_C","Transect","Andrena flavipes","species","other_wild_bees",43,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT01_D","Transect","Andrena flavipes","species","other_wild_bees",43,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT01_E","Transect","Andrena flavipes","species","other_wild_bees",43,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT01_F","Transect","Andrena flavipes","species","other_wild_bees",43,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT01_B","Transect","Andrena pilipes","species","other_wild_bees",11,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT01_C","Transect","Andrena pilipes","species","other_wild_bees",11,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT01_D","Transect","Andrena pilipes","species","other_wild_bees",11,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT01_E","Transect","Andrena pilipes","species","other_wild_bees",11,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT01_F","Transect","Andrena pilipes","species","other_wild_bees",11,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT01_B","Transect","Andrena thoracica","species","other_wild_bees",1,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT01_C","Transect","Andrena thoracica","species","other_wild_bees",1,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT01_D","Transect","Andrena thoracica","species","other_wild_bees",1,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT01_E","Transect","Andrena thoracica","species","other_wild_bees",1,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT01_F","Transect","Andrena thoracica","species","other_wild_bees",1,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT01_B","Transect","Apis mellifera","species","honeybees",27,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT01_C","Transect","Apis mellifera","species","honeybees",27,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT01_D","Transect","Apis mellifera","species","honeybees",27,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT01_E","Transect","Apis mellifera","species","honeybees",27,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT01_F","Transect","Apis mellifera","species","honeybees",27,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT01_B","Transect","Bombus hortorum","species","bumblebees",2,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT01_C","Transect","Bombus hortorum","species","bumblebees",2,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT01_D","Transect","Bombus hortorum","species","bumblebees",2,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT01_E","Transect","Bombus hortorum","species","bumblebees",2,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT01_F","Transect","Bombus hortorum","species","bumblebees",2,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT01_B","Transect","Bombus terrestris","species","bumblebees",3,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT01_C","Transect","Bombus terrestris","species","bumblebees",3,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT01_D","Transect","Bombus terrestris","species","bumblebees",3,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT01_E","Transect","Bombus terrestris","species","bumblebees",3,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT01_F","Transect","Bombus terrestris","species","bumblebees",3,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT01_B","Transect","Episyrphus balteatus","species","syrphids",1,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT01_C","Transect","Episyrphus balteatus","species","syrphids",1,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT01_D","Transect","Episyrphus balteatus","species","syrphids",1,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT01_E","Transect","Episyrphus balteatus","species","syrphids",1,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT01_F","Transect","Episyrphus balteatus","species","syrphids",1,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT01_B","Transect","Eristalinus aeneus","species","syrphids",1,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT01_C","Transect","Eristalinus aeneus","species","syrphids",1,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT01_D","Transect","Eristalinus aeneus","species","syrphids",1,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT01_E","Transect","Eristalinus aeneus","species","syrphids",1,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT01_F","Transect","Eristalinus aeneus","species","syrphids",1,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT01_B","Transect","Eristalis arbustorum","species","syrphids",1,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT01_C","Transect","Eristalis arbustorum","species","syrphids",1,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT01_D","Transect","Eristalis arbustorum","species","syrphids",1,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT01_E","Transect","Eristalis arbustorum","species","syrphids",1,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT01_F","Transect","Eristalis arbustorum","species","syrphids",1,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT01_B","Transect","Eristalis tenax","species","syrphids",1,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT01_C","Transect","Eristalis tenax","species","syrphids",1,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT01_D","Transect","Eristalis tenax","species","syrphids",1,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT01_E","Transect","Eristalis tenax","species","syrphids",1,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT01_F","Transect","Eristalis tenax","species","syrphids",1,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT01_B","Transect","Eupeodes lapponicus","species","syrphids",12,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT01_C","Transect","Eupeodes lapponicus","species","syrphids",12,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT01_D","Transect","Eupeodes lapponicus","species","syrphids",12,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT01_E","Transect","Eupeodes lapponicus","species","syrphids",12,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT01_F","Transect","Eupeodes lapponicus","species","syrphids",12,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT01_B","Transect","Eupeodes latifasciatus","species","syrphids",3,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT01_C","Transect","Eupeodes latifasciatus","species","syrphids",3,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT01_D","Transect","Eupeodes latifasciatus","species","syrphids",3,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT01_E","Transect","Eupeodes latifasciatus","species","syrphids",3,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT01_F","Transect","Eupeodes latifasciatus","species","syrphids",3,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT01_B","Transect","Halictus scabiosae","species","other_wild_bees",3,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT01_C","Transect","Halictus scabiosae","species","other_wild_bees",3,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT01_D","Transect","Halictus scabiosae","species","other_wild_bees",3,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT01_E","Transect","Halictus scabiosae","species","other_wild_bees",3,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT01_F","Transect","Halictus scabiosae","species","other_wild_bees",3,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT01_B","Transect","Lasioglossum malachurum","species","other_wild_bees",10,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT01_C","Transect","Lasioglossum malachurum","species","other_wild_bees",10,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT01_D","Transect","Lasioglossum malachurum","species","other_wild_bees",10,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT01_E","Transect","Lasioglossum malachurum","species","other_wild_bees",10,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT01_F","Transect","Lasioglossum malachurum","species","other_wild_bees",10,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT01_B","Transect","Lasioglossum sp.","morphospecies","other_wild_bees",1,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT01_C","Transect","Lasioglossum sp.","morphospecies","other_wild_bees",1,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT01_D","Transect","Lasioglossum sp.","morphospecies","other_wild_bees",1,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT01_E","Transect","Lasioglossum sp.","morphospecies","other_wild_bees",1,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT01_F","Transect","Lasioglossum sp.","morphospecies","other_wild_bees",1,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT01_B","Transect","Polistes dominula","species","non_bee_hymenoptera",6,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT01_C","Transect","Polistes dominula","species","non_bee_hymenoptera",6,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT01_D","Transect","Polistes dominula","species","non_bee_hymenoptera",6,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT01_E","Transect","Polistes dominula","species","non_bee_hymenoptera",6,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT01_F","Transect","Polistes dominula","species","non_bee_hymenoptera",6,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT01_B","Transect","Scaeva selenitica","species","syrphids",3,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT01_C","Transect","Scaeva selenitica","species","syrphids",3,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT01_D","Transect","Scaeva selenitica","species","syrphids",3,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT01_E","Transect","Scaeva selenitica","species","syrphids",3,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT01_F","Transect","Scaeva selenitica","species","syrphids",3,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT01_B","Transect","Sphaerophoria rueppelli","species","syrphids",6,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT01_C","Transect","Sphaerophoria rueppelli","species","syrphids",6,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT01_D","Transect","Sphaerophoria rueppelli","species","syrphids",6,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT01_E","Transect","Sphaerophoria rueppelli","species","syrphids",6,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT01_F","Transect","Sphaerophoria rueppelli","species","syrphids",6,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT01_B","Transect","Sphaerophoria scripta","species","syrphids",24,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT01_C","Transect","Sphaerophoria scripta","species","syrphids",24,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT01_D","Transect","Sphaerophoria scripta","species","syrphids",24,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT01_E","Transect","Sphaerophoria scripta","species","syrphids",24,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT01_F","Transect","Sphaerophoria scripta","species","syrphids",24,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT01_B","Transect","Syritta pipiens","species","syrphids",26,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT01_C","Transect","Syritta pipiens","species","syrphids",26,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT01_D","Transect","Syritta pipiens","species","syrphids",26,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT01_E","Transect","Syritta pipiens","species","syrphids",26,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT01_F","Transect","Syritta pipiens","species","syrphids",26,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT01_B","Transect","Helophilus trivittatus","species","syrphids",1,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT01_C","Transect","Helophilus trivittatus","species","syrphids",1,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT01_D","Transect","Helophilus trivittatus","species","syrphids",1,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT01_E","Transect","Helophilus trivittatus","species","syrphids",1,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT01_F","Transect","Helophilus trivittatus","species","syrphids",1,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT01_B","Transect","Sphaerophoria sp. 2","morphospecies","syrphids",3,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT01_C","Transect","Sphaerophoria sp. 2","morphospecies","syrphids",3,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT01_D","Transect","Sphaerophoria sp. 2","morphospecies","syrphids",3,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT01_E","Transect","Sphaerophoria sp. 2","morphospecies","syrphids",3,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT01_F","Transect","Sphaerophoria sp. 2","morphospecies","syrphids",3,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT01_B","Transect","Unknown bee sp. 13","morphospecies","other_wild_bees",2,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT01_C","Transect","Unknown bee sp. 13","morphospecies","other_wild_bees",2,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT01_D","Transect","Unknown bee sp. 13","morphospecies","other_wild_bees",2,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT01_E","Transect","Unknown bee sp. 13","morphospecies","other_wild_bees",2,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT01_F","Transect","Unknown bee sp. 13","morphospecies","other_wild_bees",2,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT01_B","Transect","Andrena decipiens","species","other_wild_bees",1,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT01_C","Transect","Andrena decipiens","species","other_wild_bees",1,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT01_D","Transect","Andrena decipiens","species","other_wild_bees",1,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT01_E","Transect","Andrena decipiens","species","other_wild_bees",1,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT01_F","Transect","Andrena decipiens","species","other_wild_bees",1,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT01_B","Transect","Andrena lepida","species","other_wild_bees",7,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT01_C","Transect","Andrena lepida","species","other_wild_bees",7,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT01_D","Transect","Andrena lepida","species","other_wild_bees",7,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT01_E","Transect","Andrena lepida","species","other_wild_bees",7,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT01_F","Transect","Andrena lepida","species","other_wild_bees",7,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT01_B","Transect","Andrena rosae","species","other_wild_bees",1,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT01_C","Transect","Andrena rosae","species","other_wild_bees",1,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT01_D","Transect","Andrena rosae","species","other_wild_bees",1,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT01_E","Transect","Andrena rosae","species","other_wild_bees",1,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT01_F","Transect","Andrena rosae","species","other_wild_bees",1,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT02_B","Transect","Andrena flavipes","species","other_wild_bees",63,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT02_C","Transect","Andrena flavipes","species","other_wild_bees",63,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT02_D","Transect","Andrena flavipes","species","other_wild_bees",63,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT02_E","Transect","Andrena flavipes","species","other_wild_bees",63,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT02_F","Transect","Andrena flavipes","species","other_wild_bees",63,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT02_B","Transect","Andrena nigroaenea","species","other_wild_bees",2,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT02_C","Transect","Andrena nigroaenea","species","other_wild_bees",2,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT02_D","Transect","Andrena nigroaenea","species","other_wild_bees",2,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT02_E","Transect","Andrena nigroaenea","species","other_wild_bees",2,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT02_F","Transect","Andrena nigroaenea","species","other_wild_bees",2,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT02_B","Transect","Andrena pilipes","species","other_wild_bees",100,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT02_C","Transect","Andrena pilipes","species","other_wild_bees",100,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT02_D","Transect","Andrena pilipes","species","other_wild_bees",100,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT02_E","Transect","Andrena pilipes","species","other_wild_bees",100,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT02_F","Transect","Andrena pilipes","species","other_wild_bees",100,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT02_B","Transect","Andrena thoracica","species","other_wild_bees",3,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT02_C","Transect","Andrena thoracica","species","other_wild_bees",3,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT02_D","Transect","Andrena thoracica","species","other_wild_bees",3,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT02_E","Transect","Andrena thoracica","species","other_wild_bees",3,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT02_F","Transect","Andrena thoracica","species","other_wild_bees",3,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT02_B","Transect","Apis mellifera","species","honeybees",68,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT02_C","Transect","Apis mellifera","species","honeybees",68,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT02_D","Transect","Apis mellifera","species","honeybees",68,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT02_E","Transect","Apis mellifera","species","honeybees",68,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT02_F","Transect","Apis mellifera","species","honeybees",68,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT02_B","Transect","Bombus hortorum","species","bumblebees",1,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT02_C","Transect","Bombus hortorum","species","bumblebees",1,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT02_D","Transect","Bombus hortorum","species","bumblebees",1,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT02_E","Transect","Bombus hortorum","species","bumblebees",1,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT02_F","Transect","Bombus hortorum","species","bumblebees",1,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT02_B","Transect","Bombus terrestris","species","bumblebees",26,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT02_C","Transect","Bombus terrestris","species","bumblebees",26,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT02_D","Transect","Bombus terrestris","species","bumblebees",26,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT02_E","Transect","Bombus terrestris","species","bumblebees",26,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT02_F","Transect","Bombus terrestris","species","bumblebees",26,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT02_B","Transect","Eristalis tenax","species","syrphids",3,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT02_C","Transect","Eristalis tenax","species","syrphids",3,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT02_D","Transect","Eristalis tenax","species","syrphids",3,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT02_E","Transect","Eristalis tenax","species","syrphids",3,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT02_F","Transect","Eristalis tenax","species","syrphids",3,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT02_B","Transect","Halictus scabiosae","species","other_wild_bees",4,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT02_C","Transect","Halictus scabiosae","species","other_wild_bees",4,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT02_D","Transect","Halictus scabiosae","species","other_wild_bees",4,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT02_E","Transect","Halictus scabiosae","species","other_wild_bees",4,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT02_F","Transect","Halictus scabiosae","species","other_wild_bees",4,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT02_B","Transect","Lasioglossum malachurum","species","other_wild_bees",5,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT02_C","Transect","Lasioglossum malachurum","species","other_wild_bees",5,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT02_D","Transect","Lasioglossum malachurum","species","other_wild_bees",5,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT02_E","Transect","Lasioglossum malachurum","species","other_wild_bees",5,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT02_F","Transect","Lasioglossum malachurum","species","other_wild_bees",5,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT02_B","Transect","Megascolia maculata","species","non_bee_hymenoptera",1,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT02_C","Transect","Megascolia maculata","species","non_bee_hymenoptera",1,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT02_D","Transect","Megascolia maculata","species","non_bee_hymenoptera",1,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT02_E","Transect","Megascolia maculata","species","non_bee_hymenoptera",1,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT02_F","Transect","Megascolia maculata","species","non_bee_hymenoptera",1,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT02_B","Transect","Polistes dominula","species","non_bee_hymenoptera",5,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT02_C","Transect","Polistes dominula","species","non_bee_hymenoptera",5,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT02_D","Transect","Polistes dominula","species","non_bee_hymenoptera",5,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT02_E","Transect","Polistes dominula","species","non_bee_hymenoptera",5,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT02_F","Transect","Polistes dominula","species","non_bee_hymenoptera",5,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT02_B","Transect","Sphaerophoria scripta","species","syrphids",5,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT02_C","Transect","Sphaerophoria scripta","species","syrphids",5,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT02_D","Transect","Sphaerophoria scripta","species","syrphids",5,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT02_E","Transect","Sphaerophoria scripta","species","syrphids",5,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT02_F","Transect","Sphaerophoria scripta","species","syrphids",5,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT02_B","Transect","Xylocopa sp.","morphospecies","other_wild_bees",1,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT02_C","Transect","Xylocopa sp.","morphospecies","other_wild_bees",1,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT02_D","Transect","Xylocopa sp.","morphospecies","other_wild_bees",1,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT02_E","Transect","Xylocopa sp.","morphospecies","other_wild_bees",1,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT02_F","Transect","Xylocopa sp.","morphospecies","other_wild_bees",1,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT02_B","Transect","Andrena lepida","species","other_wild_bees",6,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT02_C","Transect","Andrena lepida","species","other_wild_bees",6,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT02_D","Transect","Andrena lepida","species","other_wild_bees",6,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT02_E","Transect","Andrena lepida","species","other_wild_bees",6,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT02_F","Transect","Andrena lepida","species","other_wild_bees",6,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT02_B","Transect","Lasioglossum discum","species","other_wild_bees",1,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT02_C","Transect","Lasioglossum discum","species","other_wild_bees",1,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT02_D","Transect","Lasioglossum discum","species","other_wild_bees",1,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT02_E","Transect","Lasioglossum discum","species","other_wild_bees",1,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT02_F","Transect","Lasioglossum discum","species","other_wild_bees",1,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT03_B","Transect","Andrena albopunctata","species","other_wild_bees",1,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT03_C","Transect","Andrena albopunctata","species","other_wild_bees",1,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT03_D","Transect","Andrena albopunctata","species","other_wild_bees",1,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT03_E","Transect","Andrena albopunctata","species","other_wild_bees",1,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT03_F","Transect","Andrena albopunctata","species","other_wild_bees",1,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT03_B","Transect","Andrena flavipes","species","other_wild_bees",29,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT03_C","Transect","Andrena flavipes","species","other_wild_bees",29,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT03_D","Transect","Andrena flavipes","species","other_wild_bees",29,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT03_E","Transect","Andrena flavipes","species","other_wild_bees",29,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT03_F","Transect","Andrena flavipes","species","other_wild_bees",29,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT03_B","Transect","Andrena pilipes","species","other_wild_bees",14,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT03_C","Transect","Andrena pilipes","species","other_wild_bees",14,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT03_D","Transect","Andrena pilipes","species","other_wild_bees",14,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT03_E","Transect","Andrena pilipes","species","other_wild_bees",14,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT03_F","Transect","Andrena pilipes","species","other_wild_bees",14,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT03_B","Transect","Anthidium manicatum","species","other_wild_bees",1,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT03_C","Transect","Anthidium manicatum","species","other_wild_bees",1,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT03_D","Transect","Anthidium manicatum","species","other_wild_bees",1,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT03_E","Transect","Anthidium manicatum","species","other_wild_bees",1,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT03_F","Transect","Anthidium manicatum","species","other_wild_bees",1,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT03_B","Transect","Apis mellifera","species","honeybees",45,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT03_C","Transect","Apis mellifera","species","honeybees",45,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT03_D","Transect","Apis mellifera","species","honeybees",45,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT03_E","Transect","Apis mellifera","species","honeybees",45,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT03_F","Transect","Apis mellifera","species","honeybees",45,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT03_B","Transect","Bombus lapidarius","species","bumblebees",165,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT03_C","Transect","Bombus lapidarius","species","bumblebees",165,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT03_D","Transect","Bombus lapidarius","species","bumblebees",165,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT03_E","Transect","Bombus lapidarius","species","bumblebees",165,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT03_F","Transect","Bombus lapidarius","species","bumblebees",165,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT03_B","Transect","Bombus pascuorum","species","bumblebees",2,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT03_C","Transect","Bombus pascuorum","species","bumblebees",2,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT03_D","Transect","Bombus pascuorum","species","bumblebees",2,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT03_E","Transect","Bombus pascuorum","species","bumblebees",2,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT03_F","Transect","Bombus pascuorum","species","bumblebees",2,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT03_B","Transect","Bombus terrestris","species","bumblebees",74,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT03_C","Transect","Bombus terrestris","species","bumblebees",74,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT03_D","Transect","Bombus terrestris","species","bumblebees",74,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT03_E","Transect","Bombus terrestris","species","bumblebees",74,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT03_F","Transect","Bombus terrestris","species","bumblebees",74,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT03_B","Transect","Eristalinus aeneus","species","syrphids",4,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT03_C","Transect","Eristalinus aeneus","species","syrphids",4,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT03_D","Transect","Eristalinus aeneus","species","syrphids",4,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT03_E","Transect","Eristalinus aeneus","species","syrphids",4,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT03_F","Transect","Eristalinus aeneus","species","syrphids",4,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT03_B","Transect","Eristalis tenax","species","syrphids",6,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT03_C","Transect","Eristalis tenax","species","syrphids",6,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT03_D","Transect","Eristalis tenax","species","syrphids",6,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT03_E","Transect","Eristalis tenax","species","syrphids",6,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT03_F","Transect","Eristalis tenax","species","syrphids",6,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT03_B","Transect","Hylaeus sp.","morphospecies","other_wild_bees",1,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT03_C","Transect","Hylaeus sp.","morphospecies","other_wild_bees",1,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT03_D","Transect","Hylaeus sp.","morphospecies","other_wild_bees",1,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT03_E","Transect","Hylaeus sp.","morphospecies","other_wild_bees",1,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT03_F","Transect","Hylaeus sp.","morphospecies","other_wild_bees",1,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT03_B","Transect","Lasioglossum malachurum","species","other_wild_bees",7,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT03_C","Transect","Lasioglossum malachurum","species","other_wild_bees",7,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT03_D","Transect","Lasioglossum malachurum","species","other_wild_bees",7,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT03_E","Transect","Lasioglossum malachurum","species","other_wild_bees",7,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT03_F","Transect","Lasioglossum malachurum","species","other_wild_bees",7,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT03_B","Transect","Lasioglossum sp.","morphospecies","other_wild_bees",2,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT03_C","Transect","Lasioglossum sp.","morphospecies","other_wild_bees",2,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT03_D","Transect","Lasioglossum sp.","morphospecies","other_wild_bees",2,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT03_E","Transect","Lasioglossum sp.","morphospecies","other_wild_bees",2,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT03_F","Transect","Lasioglossum sp.","morphospecies","other_wild_bees",2,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT03_B","Transect","Megascolia maculata","species","non_bee_hymenoptera",2,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT03_C","Transect","Megascolia maculata","species","non_bee_hymenoptera",2,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT03_D","Transect","Megascolia maculata","species","non_bee_hymenoptera",2,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT03_E","Transect","Megascolia maculata","species","non_bee_hymenoptera",2,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT03_F","Transect","Megascolia maculata","species","non_bee_hymenoptera",2,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT03_B","Transect","Polistes dominula","species","non_bee_hymenoptera",45,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT03_C","Transect","Polistes dominula","species","non_bee_hymenoptera",45,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT03_D","Transect","Polistes dominula","species","non_bee_hymenoptera",45,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT03_E","Transect","Polistes dominula","species","non_bee_hymenoptera",45,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT03_F","Transect","Polistes dominula","species","non_bee_hymenoptera",45,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT03_B","Transect","Sphaerophoria scripta","species","syrphids",8,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT03_C","Transect","Sphaerophoria scripta","species","syrphids",8,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT03_D","Transect","Sphaerophoria scripta","species","syrphids",8,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT03_E","Transect","Sphaerophoria scripta","species","syrphids",8,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT03_F","Transect","Sphaerophoria scripta","species","syrphids",8,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT03_B","Transect","Syritta pipiens","species","syrphids",5,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT03_C","Transect","Syritta pipiens","species","syrphids",5,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT03_D","Transect","Syritta pipiens","species","syrphids",5,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT03_E","Transect","Syritta pipiens","species","syrphids",5,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT03_F","Transect","Syritta pipiens","species","syrphids",5,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT03_B","Transect","Syrphid sp.","morphospecies","syrphids",1,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT03_C","Transect","Syrphid sp.","morphospecies","syrphids",1,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT03_D","Transect","Syrphid sp.","morphospecies","syrphids",1,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT03_E","Transect","Syrphid sp.","morphospecies","syrphids",1,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT03_F","Transect","Syrphid sp.","morphospecies","syrphids",1,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT03_B","Transect","Xylocopa violacea","species","other_wild_bees",3,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT03_C","Transect","Xylocopa violacea","species","other_wild_bees",3,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT03_D","Transect","Xylocopa violacea","species","other_wild_bees",3,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT03_E","Transect","Xylocopa violacea","species","other_wild_bees",3,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT03_F","Transect","Xylocopa violacea","species","other_wild_bees",3,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT03_B","Transect","Eristalinus taeniops","species","syrphids",1,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT03_C","Transect","Eristalinus taeniops","species","syrphids",1,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT03_D","Transect","Eristalinus taeniops","species","syrphids",1,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT03_E","Transect","Eristalinus taeniops","species","syrphids",1,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT03_F","Transect","Eristalinus taeniops","species","syrphids",1,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT03_B","Transect","Unknown wasp sp. 13","morphospecies","non_bee_hymenoptera",1,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT03_C","Transect","Unknown wasp sp. 13","morphospecies","non_bee_hymenoptera",1,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT03_D","Transect","Unknown wasp sp. 13","morphospecies","non_bee_hymenoptera",1,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT03_E","Transect","Unknown wasp sp. 13","morphospecies","non_bee_hymenoptera",1,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT03_F","Transect","Unknown wasp sp. 13","morphospecies","non_bee_hymenoptera",1,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT03_B","Transect","Unknown wasp sp. 15","morphospecies","non_bee_hymenoptera",1,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT03_C","Transect","Unknown wasp sp. 15","morphospecies","non_bee_hymenoptera",1,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT03_D","Transect","Unknown wasp sp. 15","morphospecies","non_bee_hymenoptera",1,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT03_E","Transect","Unknown wasp sp. 15","morphospecies","non_bee_hymenoptera",1,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT03_F","Transect","Unknown wasp sp. 15","morphospecies","non_bee_hymenoptera",1,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT03_B","Transect","Andrena lepida","species","other_wild_bees",25,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT03_C","Transect","Andrena lepida","species","other_wild_bees",25,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT03_D","Transect","Andrena lepida","species","other_wild_bees",25,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT03_E","Transect","Andrena lepida","species","other_wild_bees",25,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT03_F","Transect","Andrena lepida","species","other_wild_bees",25,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT03_B","Transect","Andrena variabilis","species","other_wild_bees",1,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT03_C","Transect","Andrena variabilis","species","other_wild_bees",1,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT03_D","Transect","Andrena variabilis","species","other_wild_bees",1,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT03_E","Transect","Andrena variabilis","species","other_wild_bees",1,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT03_F","Transect","Andrena variabilis","species","other_wild_bees",1,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT03_B","Transect","Osmia ligurica","species","other_wild_bees",1,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT03_C","Transect","Osmia ligurica","species","other_wild_bees",1,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT03_D","Transect","Osmia ligurica","species","other_wild_bees",1,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT03_E","Transect","Osmia ligurica","species","other_wild_bees",1,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT03_F","Transect","Osmia ligurica","species","other_wild_bees",1,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT04_B","Transect","Andrena albopunctata","species","other_wild_bees",5,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT04_C","Transect","Andrena albopunctata","species","other_wild_bees",5,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT04_D","Transect","Andrena albopunctata","species","other_wild_bees",5,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT04_E","Transect","Andrena albopunctata","species","other_wild_bees",5,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT04_F","Transect","Andrena albopunctata","species","other_wild_bees",5,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT04_B","Transect","Andrena flavipes","species","other_wild_bees",46,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT04_C","Transect","Andrena flavipes","species","other_wild_bees",46,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT04_D","Transect","Andrena flavipes","species","other_wild_bees",46,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT04_E","Transect","Andrena flavipes","species","other_wild_bees",46,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT04_F","Transect","Andrena flavipes","species","other_wild_bees",46,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT04_B","Transect","Andrena pilipes","species","other_wild_bees",14,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT04_C","Transect","Andrena pilipes","species","other_wild_bees",14,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT04_D","Transect","Andrena pilipes","species","other_wild_bees",14,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT04_E","Transect","Andrena pilipes","species","other_wild_bees",14,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT04_F","Transect","Andrena pilipes","species","other_wild_bees",14,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT04_B","Transect","Andrena thoracica","species","other_wild_bees",6,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT04_C","Transect","Andrena thoracica","species","other_wild_bees",6,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT04_D","Transect","Andrena thoracica","species","other_wild_bees",6,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT04_E","Transect","Andrena thoracica","species","other_wild_bees",6,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT04_F","Transect","Andrena thoracica","species","other_wild_bees",6,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT04_B","Transect","Apis mellifera","species","honeybees",11,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT04_C","Transect","Apis mellifera","species","honeybees",11,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT04_D","Transect","Apis mellifera","species","honeybees",11,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT04_E","Transect","Apis mellifera","species","honeybees",11,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT04_F","Transect","Apis mellifera","species","honeybees",11,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT04_B","Transect","Bombus lapidarius","species","bumblebees",1,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT04_C","Transect","Bombus lapidarius","species","bumblebees",1,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT04_D","Transect","Bombus lapidarius","species","bumblebees",1,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT04_E","Transect","Bombus lapidarius","species","bumblebees",1,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT04_F","Transect","Bombus lapidarius","species","bumblebees",1,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT04_B","Transect","Bombus terrestris","species","bumblebees",5,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT04_C","Transect","Bombus terrestris","species","bumblebees",5,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT04_D","Transect","Bombus terrestris","species","bumblebees",5,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT04_E","Transect","Bombus terrestris","species","bumblebees",5,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT04_F","Transect","Bombus terrestris","species","bumblebees",5,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT04_B","Transect","Eristalinus aeneus","species","syrphids",3,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT04_C","Transect","Eristalinus aeneus","species","syrphids",3,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT04_D","Transect","Eristalinus aeneus","species","syrphids",3,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT04_E","Transect","Eristalinus aeneus","species","syrphids",3,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT04_F","Transect","Eristalinus aeneus","species","syrphids",3,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT04_B","Transect","Eristalis arbustorum","species","syrphids",1,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT04_C","Transect","Eristalis arbustorum","species","syrphids",1,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT04_D","Transect","Eristalis arbustorum","species","syrphids",1,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT04_E","Transect","Eristalis arbustorum","species","syrphids",1,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT04_F","Transect","Eristalis arbustorum","species","syrphids",1,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT04_B","Transect","Eristalis tenax","species","syrphids",8,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT04_C","Transect","Eristalis tenax","species","syrphids",8,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT04_D","Transect","Eristalis tenax","species","syrphids",8,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT04_E","Transect","Eristalis tenax","species","syrphids",8,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT04_F","Transect","Eristalis tenax","species","syrphids",8,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT04_B","Transect","Halictus scabiosae","species","other_wild_bees",38,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT04_C","Transect","Halictus scabiosae","species","other_wild_bees",38,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT04_D","Transect","Halictus scabiosae","species","other_wild_bees",38,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT04_E","Transect","Halictus scabiosae","species","other_wild_bees",38,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT04_F","Transect","Halictus scabiosae","species","other_wild_bees",38,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT04_B","Transect","Lasioglossum malachurum","species","other_wild_bees",29,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT04_C","Transect","Lasioglossum malachurum","species","other_wild_bees",29,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT04_D","Transect","Lasioglossum malachurum","species","other_wild_bees",29,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT04_E","Transect","Lasioglossum malachurum","species","other_wild_bees",29,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT04_F","Transect","Lasioglossum malachurum","species","other_wild_bees",29,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT04_B","Transect","Lasioglossum sp.","morphospecies","other_wild_bees",1,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT04_C","Transect","Lasioglossum sp.","morphospecies","other_wild_bees",1,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT04_D","Transect","Lasioglossum sp.","morphospecies","other_wild_bees",1,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT04_E","Transect","Lasioglossum sp.","morphospecies","other_wild_bees",1,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT04_F","Transect","Lasioglossum sp.","morphospecies","other_wild_bees",1,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT04_B","Transect","Megascolia maculata","species","non_bee_hymenoptera",9,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT04_C","Transect","Megascolia maculata","species","non_bee_hymenoptera",9,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT04_D","Transect","Megascolia maculata","species","non_bee_hymenoptera",9,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT04_E","Transect","Megascolia maculata","species","non_bee_hymenoptera",9,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT04_F","Transect","Megascolia maculata","species","non_bee_hymenoptera",9,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT04_B","Transect","Polistes dominula","species","non_bee_hymenoptera",237,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT04_C","Transect","Polistes dominula","species","non_bee_hymenoptera",237,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT04_D","Transect","Polistes dominula","species","non_bee_hymenoptera",237,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT04_E","Transect","Polistes dominula","species","non_bee_hymenoptera",237,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT04_F","Transect","Polistes dominula","species","non_bee_hymenoptera",237,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT04_B","Transect","Sphaerophoria rueppelli","species","syrphids",2,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT04_C","Transect","Sphaerophoria rueppelli","species","syrphids",2,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT04_D","Transect","Sphaerophoria rueppelli","species","syrphids",2,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT04_E","Transect","Sphaerophoria rueppelli","species","syrphids",2,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT04_F","Transect","Sphaerophoria rueppelli","species","syrphids",2,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT04_B","Transect","Sphaerophoria scripta","species","syrphids",3,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT04_C","Transect","Sphaerophoria scripta","species","syrphids",3,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT04_D","Transect","Sphaerophoria scripta","species","syrphids",3,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT04_E","Transect","Sphaerophoria scripta","species","syrphids",3,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT04_F","Transect","Sphaerophoria scripta","species","syrphids",3,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT04_B","Transect","Syritta pipiens","species","syrphids",5,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT04_C","Transect","Syritta pipiens","species","syrphids",5,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT04_D","Transect","Syritta pipiens","species","syrphids",5,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT04_E","Transect","Syritta pipiens","species","syrphids",5,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT04_F","Transect","Syritta pipiens","species","syrphids",5,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT04_B","Transect","Hylaeus cornutus","species","other_wild_bees",1,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT04_C","Transect","Hylaeus cornutus","species","other_wild_bees",1,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT04_D","Transect","Hylaeus cornutus","species","other_wild_bees",1,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT04_E","Transect","Hylaeus cornutus","species","other_wild_bees",1,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT04_F","Transect","Hylaeus cornutus","species","other_wild_bees",1,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT04_B","Transect","Sphecodes monilicornis","species","other_wild_bees",1,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT04_C","Transect","Sphecodes monilicornis","species","other_wild_bees",1,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT04_D","Transect","Sphecodes monilicornis","species","other_wild_bees",1,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT04_E","Transect","Sphecodes monilicornis","species","other_wild_bees",1,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT04_F","Transect","Sphecodes monilicornis","species","other_wild_bees",1,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT04_B","Transect","Unknown wasp sp. 21","morphospecies","non_bee_hymenoptera",3,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT04_C","Transect","Unknown wasp sp. 21","morphospecies","non_bee_hymenoptera",3,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT04_D","Transect","Unknown wasp sp. 21","morphospecies","non_bee_hymenoptera",3,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT04_E","Transect","Unknown wasp sp. 21","morphospecies","non_bee_hymenoptera",3,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT04_F","Transect","Unknown wasp sp. 21","morphospecies","non_bee_hymenoptera",3,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT04_B","Transect","Andrena decipiens","species","other_wild_bees",1,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT04_C","Transect","Andrena decipiens","species","other_wild_bees",1,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT04_D","Transect","Andrena decipiens","species","other_wild_bees",1,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT04_E","Transect","Andrena decipiens","species","other_wild_bees",1,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT04_F","Transect","Andrena decipiens","species","other_wild_bees",1,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT04_B","Transect","Andrena lepida","species","other_wild_bees",16,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT04_C","Transect","Andrena lepida","species","other_wild_bees",16,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT04_D","Transect","Andrena lepida","species","other_wild_bees",16,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT04_E","Transect","Andrena lepida","species","other_wild_bees",16,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT04_F","Transect","Andrena lepida","species","other_wild_bees",16,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT04_B","Transect","Andrena variabilis","species","other_wild_bees",7,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT04_C","Transect","Andrena variabilis","species","other_wild_bees",7,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT04_D","Transect","Andrena variabilis","species","other_wild_bees",7,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT04_E","Transect","Andrena variabilis","species","other_wild_bees",7,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT04_F","Transect","Andrena variabilis","species","other_wild_bees",7,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT04_B","Transect","Eucera clypeata","species","other_wild_bees",1,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT04_C","Transect","Eucera clypeata","species","other_wild_bees",1,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT04_D","Transect","Eucera clypeata","species","other_wild_bees",1,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT04_E","Transect","Eucera clypeata","species","other_wild_bees",1,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT04_F","Transect","Eucera clypeata","species","other_wild_bees",1,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT04_B","Transect","Halictus sajoi","species","other_wild_bees",2,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT04_C","Transect","Halictus sajoi","species","other_wild_bees",2,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT04_D","Transect","Halictus sajoi","species","other_wild_bees",2,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT04_E","Transect","Halictus sajoi","species","other_wild_bees",2,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT04_F","Transect","Halictus sajoi","species","other_wild_bees",2,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT04_B","Transect","Halictus subauratus","species","other_wild_bees",1,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT04_C","Transect","Halictus subauratus","species","other_wild_bees",1,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT04_D","Transect","Halictus subauratus","species","other_wild_bees",1,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT04_E","Transect","Halictus subauratus","species","other_wild_bees",1,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT04_F","Transect","Halictus subauratus","species","other_wild_bees",1,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT04_B","Transect","Lasioglossum bimaculatum","species","other_wild_bees",2,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT04_C","Transect","Lasioglossum bimaculatum","species","other_wild_bees",2,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT04_D","Transect","Lasioglossum bimaculatum","species","other_wild_bees",2,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT04_E","Transect","Lasioglossum bimaculatum","species","other_wild_bees",2,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT04_F","Transect","Lasioglossum bimaculatum","species","other_wild_bees",2,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT04_B","Transect","Lasioglossum laterale","species","other_wild_bees",1,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT04_C","Transect","Lasioglossum laterale","species","other_wild_bees",1,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT04_D","Transect","Lasioglossum laterale","species","other_wild_bees",1,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT04_E","Transect","Lasioglossum laterale","species","other_wild_bees",1,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT04_F","Transect","Lasioglossum laterale","species","other_wild_bees",1,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT05_B","Transect","Andrena albopunctata","species","other_wild_bees",6,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT05_C","Transect","Andrena albopunctata","species","other_wild_bees",6,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT05_D","Transect","Andrena albopunctata","species","other_wild_bees",6,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT05_E","Transect","Andrena albopunctata","species","other_wild_bees",6,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT05_F","Transect","Andrena albopunctata","species","other_wild_bees",6,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT05_B","Transect","Andrena flavipes","species","other_wild_bees",66,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT05_C","Transect","Andrena flavipes","species","other_wild_bees",66,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT05_D","Transect","Andrena flavipes","species","other_wild_bees",66,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT05_E","Transect","Andrena flavipes","species","other_wild_bees",66,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT05_F","Transect","Andrena flavipes","species","other_wild_bees",66,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT05_B","Transect","Andrena pilipes","species","other_wild_bees",8,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT05_C","Transect","Andrena pilipes","species","other_wild_bees",8,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT05_D","Transect","Andrena pilipes","species","other_wild_bees",8,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT05_E","Transect","Andrena pilipes","species","other_wild_bees",8,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT05_F","Transect","Andrena pilipes","species","other_wild_bees",8,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT05_B","Transect","Andrena sp.","morphospecies","other_wild_bees",12,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT05_C","Transect","Andrena sp.","morphospecies","other_wild_bees",12,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT05_D","Transect","Andrena sp.","morphospecies","other_wild_bees",12,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT05_E","Transect","Andrena sp.","morphospecies","other_wild_bees",12,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT05_F","Transect","Andrena sp.","morphospecies","other_wild_bees",12,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT05_B","Transect","Andrena thoracica","species","other_wild_bees",2,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT05_C","Transect","Andrena thoracica","species","other_wild_bees",2,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT05_D","Transect","Andrena thoracica","species","other_wild_bees",2,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT05_E","Transect","Andrena thoracica","species","other_wild_bees",2,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT05_F","Transect","Andrena thoracica","species","other_wild_bees",2,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT05_B","Transect","Apis mellifera","species","honeybees",108,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT05_C","Transect","Apis mellifera","species","honeybees",108,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT05_D","Transect","Apis mellifera","species","honeybees",108,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT05_E","Transect","Apis mellifera","species","honeybees",108,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT05_F","Transect","Apis mellifera","species","honeybees",108,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT05_B","Transect","Bombus lapidarius","species","bumblebees",23,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT05_C","Transect","Bombus lapidarius","species","bumblebees",23,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT05_D","Transect","Bombus lapidarius","species","bumblebees",23,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT05_E","Transect","Bombus lapidarius","species","bumblebees",23,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT05_F","Transect","Bombus lapidarius","species","bumblebees",23,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT05_B","Transect","Bombus terrestris","species","bumblebees",11,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT05_C","Transect","Bombus terrestris","species","bumblebees",11,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT05_D","Transect","Bombus terrestris","species","bumblebees",11,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT05_E","Transect","Bombus terrestris","species","bumblebees",11,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT05_F","Transect","Bombus terrestris","species","bumblebees",11,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT05_B","Transect","Eristalinus aeneus","species","syrphids",8,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT05_C","Transect","Eristalinus aeneus","species","syrphids",8,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT05_D","Transect","Eristalinus aeneus","species","syrphids",8,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT05_E","Transect","Eristalinus aeneus","species","syrphids",8,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT05_F","Transect","Eristalinus aeneus","species","syrphids",8,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT05_B","Transect","Eristalis arbustorum","species","syrphids",1,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT05_C","Transect","Eristalis arbustorum","species","syrphids",1,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT05_D","Transect","Eristalis arbustorum","species","syrphids",1,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT05_E","Transect","Eristalis arbustorum","species","syrphids",1,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT05_F","Transect","Eristalis arbustorum","species","syrphids",1,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT05_B","Transect","Eristalis tenax","species","syrphids",1,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT05_C","Transect","Eristalis tenax","species","syrphids",1,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT05_D","Transect","Eristalis tenax","species","syrphids",1,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT05_E","Transect","Eristalis tenax","species","syrphids",1,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT05_F","Transect","Eristalis tenax","species","syrphids",1,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT05_B","Transect","Eupeodes latifasciatus","species","syrphids",1,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT05_C","Transect","Eupeodes latifasciatus","species","syrphids",1,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT05_D","Transect","Eupeodes latifasciatus","species","syrphids",1,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT05_E","Transect","Eupeodes latifasciatus","species","syrphids",1,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT05_F","Transect","Eupeodes latifasciatus","species","syrphids",1,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT05_B","Transect","Halictus scabiosae","species","other_wild_bees",7,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT05_C","Transect","Halictus scabiosae","species","other_wild_bees",7,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT05_D","Transect","Halictus scabiosae","species","other_wild_bees",7,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT05_E","Transect","Halictus scabiosae","species","other_wild_bees",7,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT05_F","Transect","Halictus scabiosae","species","other_wild_bees",7,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT05_B","Transect","Halictus sp.","morphospecies","other_wild_bees",1,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT05_C","Transect","Halictus sp.","morphospecies","other_wild_bees",1,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT05_D","Transect","Halictus sp.","morphospecies","other_wild_bees",1,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT05_E","Transect","Halictus sp.","morphospecies","other_wild_bees",1,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT05_F","Transect","Halictus sp.","morphospecies","other_wild_bees",1,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT05_B","Transect","Lasioglossum malachurum","species","other_wild_bees",4,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT05_C","Transect","Lasioglossum malachurum","species","other_wild_bees",4,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT05_D","Transect","Lasioglossum malachurum","species","other_wild_bees",4,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT05_E","Transect","Lasioglossum malachurum","species","other_wild_bees",4,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT05_F","Transect","Lasioglossum malachurum","species","other_wild_bees",4,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT05_B","Transect","Polistes dominula","species","non_bee_hymenoptera",85,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT05_C","Transect","Polistes dominula","species","non_bee_hymenoptera",85,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT05_D","Transect","Polistes dominula","species","non_bee_hymenoptera",85,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT05_E","Transect","Polistes dominula","species","non_bee_hymenoptera",85,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT05_F","Transect","Polistes dominula","species","non_bee_hymenoptera",85,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT05_B","Transect","Sphaerophoria rueppelli","species","syrphids",13,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT05_C","Transect","Sphaerophoria rueppelli","species","syrphids",13,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT05_D","Transect","Sphaerophoria rueppelli","species","syrphids",13,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT05_E","Transect","Sphaerophoria rueppelli","species","syrphids",13,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT05_F","Transect","Sphaerophoria rueppelli","species","syrphids",13,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT05_B","Transect","Sphaerophoria scripta","species","syrphids",17,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT05_C","Transect","Sphaerophoria scripta","species","syrphids",17,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT05_D","Transect","Sphaerophoria scripta","species","syrphids",17,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT05_E","Transect","Sphaerophoria scripta","species","syrphids",17,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT05_F","Transect","Sphaerophoria scripta","species","syrphids",17,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT05_B","Transect","Syritta pipiens","species","syrphids",58,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT05_C","Transect","Syritta pipiens","species","syrphids",58,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT05_D","Transect","Syritta pipiens","species","syrphids",58,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT05_E","Transect","Syritta pipiens","species","syrphids",58,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT05_F","Transect","Syritta pipiens","species","syrphids",58,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT05_B","Transect","Wasp sp.","morphospecies","non_bee_hymenoptera",1,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT05_C","Transect","Wasp sp.","morphospecies","non_bee_hymenoptera",1,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT05_D","Transect","Wasp sp.","morphospecies","non_bee_hymenoptera",1,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT05_E","Transect","Wasp sp.","morphospecies","non_bee_hymenoptera",1,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT05_F","Transect","Wasp sp.","morphospecies","non_bee_hymenoptera",1,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT05_B","Transect","Eristalis abusiva","species","syrphids",1,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT05_C","Transect","Eristalis abusiva","species","syrphids",1,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT05_D","Transect","Eristalis abusiva","species","syrphids",1,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT05_E","Transect","Eristalis abusiva","species","syrphids",1,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT05_F","Transect","Eristalis abusiva","species","syrphids",1,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT05_B","Transect","Unknown wasp sp. 18","morphospecies","non_bee_hymenoptera",1,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT05_C","Transect","Unknown wasp sp. 18","morphospecies","non_bee_hymenoptera",1,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT05_D","Transect","Unknown wasp sp. 18","morphospecies","non_bee_hymenoptera",1,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT05_E","Transect","Unknown wasp sp. 18","morphospecies","non_bee_hymenoptera",1,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT05_F","Transect","Unknown wasp sp. 18","morphospecies","non_bee_hymenoptera",1,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT05_B","Transect","Andrena decipiens","species","other_wild_bees",2,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT05_C","Transect","Andrena decipiens","species","other_wild_bees",2,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT05_D","Transect","Andrena decipiens","species","other_wild_bees",2,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT05_E","Transect","Andrena decipiens","species","other_wild_bees",2,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT05_F","Transect","Andrena decipiens","species","other_wild_bees",2,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT05_B","Transect","Andrena lepida","species","other_wild_bees",180,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT05_C","Transect","Andrena lepida","species","other_wild_bees",180,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT05_D","Transect","Andrena lepida","species","other_wild_bees",180,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT05_E","Transect","Andrena lepida","species","other_wild_bees",180,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT05_F","Transect","Andrena lepida","species","other_wild_bees",180,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT05_B","Transect","Andrena variabilis","species","other_wild_bees",1,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT05_C","Transect","Andrena variabilis","species","other_wild_bees",1,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT05_D","Transect","Andrena variabilis","species","other_wild_bees",1,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT05_E","Transect","Andrena variabilis","species","other_wild_bees",1,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT05_F","Transect","Andrena variabilis","species","other_wild_bees",1,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT05_B","Transect","Halictus brunnescens","species","other_wild_bees",1,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT05_C","Transect","Halictus brunnescens","species","other_wild_bees",1,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT05_D","Transect","Halictus brunnescens","species","other_wild_bees",1,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT05_E","Transect","Halictus brunnescens","species","other_wild_bees",1,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT05_F","Transect","Halictus brunnescens","species","other_wild_bees",1,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT05_B","Transect","Halictus sajoi","species","other_wild_bees",3,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT05_C","Transect","Halictus sajoi","species","other_wild_bees",3,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT05_D","Transect","Halictus sajoi","species","other_wild_bees",3,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT05_E","Transect","Halictus sajoi","species","other_wild_bees",3,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT05_F","Transect","Halictus sajoi","species","other_wild_bees",3,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT06_B","Transect","Andrena albopunctata","species","other_wild_bees",4,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT06_C","Transect","Andrena albopunctata","species","other_wild_bees",4,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT06_D","Transect","Andrena albopunctata","species","other_wild_bees",4,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT06_E","Transect","Andrena albopunctata","species","other_wild_bees",4,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT06_F","Transect","Andrena albopunctata","species","other_wild_bees",4,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT06_B","Transect","Andrena flavipes","species","other_wild_bees",49,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT06_C","Transect","Andrena flavipes","species","other_wild_bees",49,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT06_D","Transect","Andrena flavipes","species","other_wild_bees",49,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT06_E","Transect","Andrena flavipes","species","other_wild_bees",49,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT06_F","Transect","Andrena flavipes","species","other_wild_bees",49,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT06_B","Transect","Andrena nigroaenea","species","other_wild_bees",1,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT06_C","Transect","Andrena nigroaenea","species","other_wild_bees",1,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT06_D","Transect","Andrena nigroaenea","species","other_wild_bees",1,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT06_E","Transect","Andrena nigroaenea","species","other_wild_bees",1,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT06_F","Transect","Andrena nigroaenea","species","other_wild_bees",1,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT06_B","Transect","Andrena pilipes","species","other_wild_bees",46,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT06_C","Transect","Andrena pilipes","species","other_wild_bees",46,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT06_D","Transect","Andrena pilipes","species","other_wild_bees",46,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT06_E","Transect","Andrena pilipes","species","other_wild_bees",46,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT06_F","Transect","Andrena pilipes","species","other_wild_bees",46,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT06_B","Transect","Andrena thoracica","species","other_wild_bees",4,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT06_C","Transect","Andrena thoracica","species","other_wild_bees",4,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT06_D","Transect","Andrena thoracica","species","other_wild_bees",4,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT06_E","Transect","Andrena thoracica","species","other_wild_bees",4,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT06_F","Transect","Andrena thoracica","species","other_wild_bees",4,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT06_B","Transect","Apis mellifera","species","honeybees",92,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT06_C","Transect","Apis mellifera","species","honeybees",92,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT06_D","Transect","Apis mellifera","species","honeybees",92,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT06_E","Transect","Apis mellifera","species","honeybees",92,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT06_F","Transect","Apis mellifera","species","honeybees",92,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT06_B","Transect","Bombus terrestris","species","bumblebees",5,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT06_C","Transect","Bombus terrestris","species","bumblebees",5,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT06_D","Transect","Bombus terrestris","species","bumblebees",5,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT06_E","Transect","Bombus terrestris","species","bumblebees",5,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT06_F","Transect","Bombus terrestris","species","bumblebees",5,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT06_B","Transect","Eristalis tenax","species","syrphids",5,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT06_C","Transect","Eristalis tenax","species","syrphids",5,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT06_D","Transect","Eristalis tenax","species","syrphids",5,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT06_E","Transect","Eristalis tenax","species","syrphids",5,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT06_F","Transect","Eristalis tenax","species","syrphids",5,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT06_B","Transect","Eupeodes lapponicus","species","syrphids",4,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT06_C","Transect","Eupeodes lapponicus","species","syrphids",4,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT06_D","Transect","Eupeodes lapponicus","species","syrphids",4,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT06_E","Transect","Eupeodes lapponicus","species","syrphids",4,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT06_F","Transect","Eupeodes lapponicus","species","syrphids",4,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT06_B","Transect","Halictus scabiosae","species","other_wild_bees",16,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT06_C","Transect","Halictus scabiosae","species","other_wild_bees",16,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT06_D","Transect","Halictus scabiosae","species","other_wild_bees",16,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT06_E","Transect","Halictus scabiosae","species","other_wild_bees",16,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT06_F","Transect","Halictus scabiosae","species","other_wild_bees",16,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT06_B","Transect","Lasioglossum malachurum","species","other_wild_bees",20,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT06_C","Transect","Lasioglossum malachurum","species","other_wild_bees",20,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT06_D","Transect","Lasioglossum malachurum","species","other_wild_bees",20,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT06_E","Transect","Lasioglossum malachurum","species","other_wild_bees",20,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT06_F","Transect","Lasioglossum malachurum","species","other_wild_bees",20,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT06_B","Transect","Megascolia maculata","species","non_bee_hymenoptera",16,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT06_C","Transect","Megascolia maculata","species","non_bee_hymenoptera",16,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT06_D","Transect","Megascolia maculata","species","non_bee_hymenoptera",16,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT06_E","Transect","Megascolia maculata","species","non_bee_hymenoptera",16,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT06_F","Transect","Megascolia maculata","species","non_bee_hymenoptera",16,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT06_B","Transect","Polistes dominula","species","non_bee_hymenoptera",278,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT06_C","Transect","Polistes dominula","species","non_bee_hymenoptera",278,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT06_D","Transect","Polistes dominula","species","non_bee_hymenoptera",278,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT06_E","Transect","Polistes dominula","species","non_bee_hymenoptera",278,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT06_F","Transect","Polistes dominula","species","non_bee_hymenoptera",278,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT06_B","Transect","Sphaerophoria rueppelli","species","syrphids",13,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT06_C","Transect","Sphaerophoria rueppelli","species","syrphids",13,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT06_D","Transect","Sphaerophoria rueppelli","species","syrphids",13,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT06_E","Transect","Sphaerophoria rueppelli","species","syrphids",13,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT06_F","Transect","Sphaerophoria rueppelli","species","syrphids",13,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT06_B","Transect","Sphaerophoria scripta","species","syrphids",20,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT06_C","Transect","Sphaerophoria scripta","species","syrphids",20,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT06_D","Transect","Sphaerophoria scripta","species","syrphids",20,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT06_E","Transect","Sphaerophoria scripta","species","syrphids",20,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT06_F","Transect","Sphaerophoria scripta","species","syrphids",20,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT06_B","Transect","Sphecodes sp.","morphospecies","other_wild_bees",1,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT06_C","Transect","Sphecodes sp.","morphospecies","other_wild_bees",1,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT06_D","Transect","Sphecodes sp.","morphospecies","other_wild_bees",1,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT06_E","Transect","Sphecodes sp.","morphospecies","other_wild_bees",1,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT06_F","Transect","Sphecodes sp.","morphospecies","other_wild_bees",1,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT06_B","Transect","Syritta pipiens","species","syrphids",14,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT06_C","Transect","Syritta pipiens","species","syrphids",14,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT06_D","Transect","Syritta pipiens","species","syrphids",14,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT06_E","Transect","Syritta pipiens","species","syrphids",14,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT06_F","Transect","Syritta pipiens","species","syrphids",14,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT06_B","Transect","Xylocopa sp.","morphospecies","other_wild_bees",1,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT06_C","Transect","Xylocopa sp.","morphospecies","other_wild_bees",1,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT06_D","Transect","Xylocopa sp.","morphospecies","other_wild_bees",1,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT06_E","Transect","Xylocopa sp.","morphospecies","other_wild_bees",1,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT06_F","Transect","Xylocopa sp.","morphospecies","other_wild_bees",1,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT06_B","Transect","Andrena sp. 4","morphospecies","other_wild_bees",2,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT06_C","Transect","Andrena sp. 4","morphospecies","other_wild_bees",2,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT06_D","Transect","Andrena sp. 4","morphospecies","other_wild_bees",2,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT06_E","Transect","Andrena sp. 4","morphospecies","other_wild_bees",2,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT06_F","Transect","Andrena sp. 4","morphospecies","other_wild_bees",2,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT06_B","Transect","Lasioglossum pauperatum","species","other_wild_bees",1,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT06_C","Transect","Lasioglossum pauperatum","species","other_wild_bees",1,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT06_D","Transect","Lasioglossum pauperatum","species","other_wild_bees",1,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT06_E","Transect","Lasioglossum pauperatum","species","other_wild_bees",1,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT06_F","Transect","Lasioglossum pauperatum","species","other_wild_bees",1,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT06_B","Transect","Polistes bischoffi","species","non_bee_hymenoptera",7,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT06_C","Transect","Polistes bischoffi","species","non_bee_hymenoptera",7,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT06_D","Transect","Polistes bischoffi","species","non_bee_hymenoptera",7,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT06_E","Transect","Polistes bischoffi","species","non_bee_hymenoptera",7,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT06_F","Transect","Polistes bischoffi","species","non_bee_hymenoptera",7,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT06_B","Transect","Sphaerophoria sp. 2","morphospecies","syrphids",1,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT06_C","Transect","Sphaerophoria sp. 2","morphospecies","syrphids",1,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT06_D","Transect","Sphaerophoria sp. 2","morphospecies","syrphids",1,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT06_E","Transect","Sphaerophoria sp. 2","morphospecies","syrphids",1,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT06_F","Transect","Sphaerophoria sp. 2","morphospecies","syrphids",1,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT06_B","Transect","Unknown wasp sp. 21","morphospecies","non_bee_hymenoptera",6,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT06_C","Transect","Unknown wasp sp. 21","morphospecies","non_bee_hymenoptera",6,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT06_D","Transect","Unknown wasp sp. 21","morphospecies","non_bee_hymenoptera",6,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT06_E","Transect","Unknown wasp sp. 21","morphospecies","non_bee_hymenoptera",6,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT06_F","Transect","Unknown wasp sp. 21","morphospecies","non_bee_hymenoptera",6,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT06_B","Transect","Unknown wasp sp. 26","morphospecies","non_bee_hymenoptera",7,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT06_C","Transect","Unknown wasp sp. 26","morphospecies","non_bee_hymenoptera",7,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT06_D","Transect","Unknown wasp sp. 26","morphospecies","non_bee_hymenoptera",7,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT06_E","Transect","Unknown wasp sp. 26","morphospecies","non_bee_hymenoptera",7,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT06_F","Transect","Unknown wasp sp. 26","morphospecies","non_bee_hymenoptera",7,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT06_B","Transect","Andrena decipiens","species","other_wild_bees",2,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT06_C","Transect","Andrena decipiens","species","other_wild_bees",2,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT06_D","Transect","Andrena decipiens","species","other_wild_bees",2,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT06_E","Transect","Andrena decipiens","species","other_wild_bees",2,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT06_F","Transect","Andrena decipiens","species","other_wild_bees",2,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT06_B","Transect","Andrena lepida","species","other_wild_bees",25,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT06_C","Transect","Andrena lepida","species","other_wild_bees",25,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT06_D","Transect","Andrena lepida","species","other_wild_bees",25,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT06_E","Transect","Andrena lepida","species","other_wild_bees",25,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT06_F","Transect","Andrena lepida","species","other_wild_bees",25,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT06_B","Transect","Andrena rosae","species","other_wild_bees",1,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT06_C","Transect","Andrena rosae","species","other_wild_bees",1,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT06_D","Transect","Andrena rosae","species","other_wild_bees",1,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT06_E","Transect","Andrena rosae","species","other_wild_bees",1,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT06_F","Transect","Andrena rosae","species","other_wild_bees",1,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT06_B","Transect","Andrena variabilis","species","other_wild_bees",10,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT06_C","Transect","Andrena variabilis","species","other_wild_bees",10,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT06_D","Transect","Andrena variabilis","species","other_wild_bees",10,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT06_E","Transect","Andrena variabilis","species","other_wild_bees",10,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT06_F","Transect","Andrena variabilis","species","other_wild_bees",10,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT06_B","Transect","Ceratina nigrolabiata","species","other_wild_bees",3,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT06_C","Transect","Ceratina nigrolabiata","species","other_wild_bees",3,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT06_D","Transect","Ceratina nigrolabiata","species","other_wild_bees",3,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT06_E","Transect","Ceratina nigrolabiata","species","other_wild_bees",3,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT06_F","Transect","Ceratina nigrolabiata","species","other_wild_bees",3,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT06_B","Transect","Halictus vestitus","species","other_wild_bees",2,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT06_C","Transect","Halictus vestitus","species","other_wild_bees",2,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT06_D","Transect","Halictus vestitus","species","other_wild_bees",2,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT06_E","Transect","Halictus vestitus","species","other_wild_bees",2,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT06_F","Transect","Halictus vestitus","species","other_wild_bees",2,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT06_B","Transect","Lasioglossum discum","species","other_wild_bees",7,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT06_C","Transect","Lasioglossum discum","species","other_wild_bees",7,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT06_D","Transect","Lasioglossum discum","species","other_wild_bees",7,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT06_E","Transect","Lasioglossum discum","species","other_wild_bees",7,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT06_F","Transect","Lasioglossum discum","species","other_wild_bees",7,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT06_B","Transect","Lasioglossum laterale","species","other_wild_bees",2,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT06_C","Transect","Lasioglossum laterale","species","other_wild_bees",2,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT06_D","Transect","Lasioglossum laterale","species","other_wild_bees",2,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT06_E","Transect","Lasioglossum laterale","species","other_wild_bees",2,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT06_F","Transect","Lasioglossum laterale","species","other_wild_bees",2,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT07_C","Transect","Andrena albopunctata","species","other_wild_bees",20,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT07_D","Transect","Andrena albopunctata","species","other_wild_bees",20,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT07_E","Transect","Andrena albopunctata","species","other_wild_bees",20,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT07_F","Transect","Andrena albopunctata","species","other_wild_bees",20,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT07_C","Transect","Andrena flavipes","species","other_wild_bees",63,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT07_D","Transect","Andrena flavipes","species","other_wild_bees",63,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT07_E","Transect","Andrena flavipes","species","other_wild_bees",63,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT07_F","Transect","Andrena flavipes","species","other_wild_bees",63,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT07_C","Transect","Andrena pilipes","species","other_wild_bees",22,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT07_D","Transect","Andrena pilipes","species","other_wild_bees",22,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT07_E","Transect","Andrena pilipes","species","other_wild_bees",22,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT07_F","Transect","Andrena pilipes","species","other_wild_bees",22,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT07_C","Transect","Andrena thoracica","species","other_wild_bees",7,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT07_D","Transect","Andrena thoracica","species","other_wild_bees",7,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT07_E","Transect","Andrena thoracica","species","other_wild_bees",7,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT07_F","Transect","Andrena thoracica","species","other_wild_bees",7,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT07_C","Transect","Apis mellifera","species","honeybees",130,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT07_D","Transect","Apis mellifera","species","honeybees",130,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT07_E","Transect","Apis mellifera","species","honeybees",130,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT07_F","Transect","Apis mellifera","species","honeybees",130,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT07_C","Transect","Bombus lapidarius","species","bumblebees",459,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT07_D","Transect","Bombus lapidarius","species","bumblebees",459,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT07_E","Transect","Bombus lapidarius","species","bumblebees",459,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT07_F","Transect","Bombus lapidarius","species","bumblebees",459,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT07_C","Transect","Bombus terrestris","species","bumblebees",264,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT07_D","Transect","Bombus terrestris","species","bumblebees",264,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT07_E","Transect","Bombus terrestris","species","bumblebees",264,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT07_F","Transect","Bombus terrestris","species","bumblebees",264,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT07_C","Transect","Eristalis tenax","species","syrphids",5,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT07_D","Transect","Eristalis tenax","species","syrphids",5,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT07_E","Transect","Eristalis tenax","species","syrphids",5,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT07_F","Transect","Eristalis tenax","species","syrphids",5,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT07_C","Transect","Eupeodes latifasciatus","species","syrphids",2,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT07_D","Transect","Eupeodes latifasciatus","species","syrphids",2,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT07_E","Transect","Eupeodes latifasciatus","species","syrphids",2,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT07_F","Transect","Eupeodes latifasciatus","species","syrphids",2,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT07_C","Transect","Halictus scabiosae","species","other_wild_bees",13,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT07_D","Transect","Halictus scabiosae","species","other_wild_bees",13,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT07_E","Transect","Halictus scabiosae","species","other_wild_bees",13,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT07_F","Transect","Halictus scabiosae","species","other_wild_bees",13,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT07_C","Transect","Lasioglossum malachurum","species","other_wild_bees",9,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT07_D","Transect","Lasioglossum malachurum","species","other_wild_bees",9,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT07_E","Transect","Lasioglossum malachurum","species","other_wild_bees",9,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT07_F","Transect","Lasioglossum malachurum","species","other_wild_bees",9,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT07_C","Transect","Lasioglossum sp.","morphospecies","other_wild_bees",2,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT07_D","Transect","Lasioglossum sp.","morphospecies","other_wild_bees",2,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT07_E","Transect","Lasioglossum sp.","morphospecies","other_wild_bees",2,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT07_F","Transect","Lasioglossum sp.","morphospecies","other_wild_bees",2,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT07_C","Transect","Megascolia maculata","species","non_bee_hymenoptera",1,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT07_D","Transect","Megascolia maculata","species","non_bee_hymenoptera",1,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT07_E","Transect","Megascolia maculata","species","non_bee_hymenoptera",1,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT07_F","Transect","Megascolia maculata","species","non_bee_hymenoptera",1,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT07_C","Transect","Myathropa florea","species","syrphids",2,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT07_D","Transect","Myathropa florea","species","syrphids",2,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT07_E","Transect","Myathropa florea","species","syrphids",2,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT07_F","Transect","Myathropa florea","species","syrphids",2,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT07_C","Transect","Polistes dominula","species","non_bee_hymenoptera",156,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT07_D","Transect","Polistes dominula","species","non_bee_hymenoptera",156,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT07_E","Transect","Polistes dominula","species","non_bee_hymenoptera",156,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT07_F","Transect","Polistes dominula","species","non_bee_hymenoptera",156,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT07_C","Transect","Sphaerophoria rueppelli","species","syrphids",20,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT07_D","Transect","Sphaerophoria rueppelli","species","syrphids",20,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT07_E","Transect","Sphaerophoria rueppelli","species","syrphids",20,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT07_F","Transect","Sphaerophoria rueppelli","species","syrphids",20,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT07_C","Transect","Sphaerophoria scripta","species","syrphids",51,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT07_D","Transect","Sphaerophoria scripta","species","syrphids",51,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT07_E","Transect","Sphaerophoria scripta","species","syrphids",51,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT07_F","Transect","Sphaerophoria scripta","species","syrphids",51,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT07_C","Transect","Syritta pipiens","species","syrphids",38,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT07_D","Transect","Syritta pipiens","species","syrphids",38,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT07_E","Transect","Syritta pipiens","species","syrphids",38,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT07_F","Transect","Syritta pipiens","species","syrphids",38,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT07_C","Transect","Vespa crabro","species","non_bee_hymenoptera",1,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT07_D","Transect","Vespa crabro","species","non_bee_hymenoptera",1,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT07_E","Transect","Vespa crabro","species","non_bee_hymenoptera",1,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT07_F","Transect","Vespa crabro","species","non_bee_hymenoptera",1,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT07_C","Transect","Wasp sp.","morphospecies","non_bee_hymenoptera",1,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT07_D","Transect","Wasp sp.","morphospecies","non_bee_hymenoptera",1,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT07_E","Transect","Wasp sp.","morphospecies","non_bee_hymenoptera",1,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT07_F","Transect","Wasp sp.","morphospecies","non_bee_hymenoptera",1,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT07_C","Transect","Xylocopa violacea","species","other_wild_bees",6,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT07_D","Transect","Xylocopa violacea","species","other_wild_bees",6,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT07_E","Transect","Xylocopa violacea","species","other_wild_bees",6,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT07_F","Transect","Xylocopa violacea","species","other_wild_bees",6,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT07_C","Transect","Eristalinus taeniops","species","syrphids",1,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT07_D","Transect","Eristalinus taeniops","species","syrphids",1,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT07_E","Transect","Eristalinus taeniops","species","syrphids",1,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT07_F","Transect","Eristalinus taeniops","species","syrphids",1,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT07_C","Transect","Eristalis abusiva","species","syrphids",2,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT07_D","Transect","Eristalis abusiva","species","syrphids",2,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT07_E","Transect","Eristalis abusiva","species","syrphids",2,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT07_F","Transect","Eristalis abusiva","species","syrphids",2,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT07_C","Transect","Lasioglossum pauperatum","species","other_wild_bees",3,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT07_D","Transect","Lasioglossum pauperatum","species","other_wild_bees",3,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT07_E","Transect","Lasioglossum pauperatum","species","other_wild_bees",3,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT07_F","Transect","Lasioglossum pauperatum","species","other_wild_bees",3,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT07_C","Transect","Sphaerophoria sp. 2","morphospecies","syrphids",1,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT07_D","Transect","Sphaerophoria sp. 2","morphospecies","syrphids",1,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT07_E","Transect","Sphaerophoria sp. 2","morphospecies","syrphids",1,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT07_F","Transect","Sphaerophoria sp. 2","morphospecies","syrphids",1,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT07_C","Transect","Sphecodes monilicornis","species","other_wild_bees",1,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT07_D","Transect","Sphecodes monilicornis","species","other_wild_bees",1,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT07_E","Transect","Sphecodes monilicornis","species","other_wild_bees",1,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT07_F","Transect","Sphecodes monilicornis","species","other_wild_bees",1,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT07_C","Transect","Unknown wasp sp. 3","morphospecies","non_bee_hymenoptera",1,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT07_D","Transect","Unknown wasp sp. 3","morphospecies","non_bee_hymenoptera",1,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT07_E","Transect","Unknown wasp sp. 3","morphospecies","non_bee_hymenoptera",1,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT07_F","Transect","Unknown wasp sp. 3","morphospecies","non_bee_hymenoptera",1,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT07_C","Transect","Andrena cf. limata","species","other_wild_bees",2,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT07_D","Transect","Andrena cf. limata","species","other_wild_bees",2,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT07_E","Transect","Andrena cf. limata","species","other_wild_bees",2,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT07_F","Transect","Andrena cf. limata","species","other_wild_bees",2,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT07_C","Transect","Andrena decipiens","species","other_wild_bees",4,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT07_D","Transect","Andrena decipiens","species","other_wild_bees",4,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT07_E","Transect","Andrena decipiens","species","other_wild_bees",4,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT07_F","Transect","Andrena decipiens","species","other_wild_bees",4,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT07_C","Transect","Andrena lepida","species","other_wild_bees",180,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT07_D","Transect","Andrena lepida","species","other_wild_bees",180,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT07_E","Transect","Andrena lepida","species","other_wild_bees",180,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT07_F","Transect","Andrena lepida","species","other_wild_bees",180,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT07_C","Transect","Andrena rosae","species","other_wild_bees",1,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT07_D","Transect","Andrena rosae","species","other_wild_bees",1,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT07_E","Transect","Andrena rosae","species","other_wild_bees",1,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT07_F","Transect","Andrena rosae","species","other_wild_bees",1,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT07_C","Transect","Andrena variabilis","species","other_wild_bees",1,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT07_D","Transect","Andrena variabilis","species","other_wild_bees",1,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT07_E","Transect","Andrena variabilis","species","other_wild_bees",1,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT07_F","Transect","Andrena variabilis","species","other_wild_bees",1,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT07_C","Transect","Halictus sajoi","species","other_wild_bees",4,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT07_D","Transect","Halictus sajoi","species","other_wild_bees",4,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT07_E","Transect","Halictus sajoi","species","other_wild_bees",4,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT07_F","Transect","Halictus sajoi","species","other_wild_bees",4,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT07_C","Transect","Halictus simplex-complex","species","other_wild_bees",1,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT07_D","Transect","Halictus simplex-complex","species","other_wild_bees",1,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT07_E","Transect","Halictus simplex-complex","species","other_wild_bees",1,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT07_F","Transect","Halictus simplex-complex","species","other_wild_bees",1,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT08_B","Transect","Andrena albopunctata","species","other_wild_bees",2,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT08_C","Transect","Andrena albopunctata","species","other_wild_bees",2,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT08_D","Transect","Andrena albopunctata","species","other_wild_bees",2,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT08_E","Transect","Andrena albopunctata","species","other_wild_bees",2,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT08_F","Transect","Andrena albopunctata","species","other_wild_bees",2,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT08_B","Transect","Andrena flavipes","species","other_wild_bees",56,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT08_C","Transect","Andrena flavipes","species","other_wild_bees",56,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT08_D","Transect","Andrena flavipes","species","other_wild_bees",56,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT08_E","Transect","Andrena flavipes","species","other_wild_bees",56,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT08_F","Transect","Andrena flavipes","species","other_wild_bees",56,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT08_B","Transect","Andrena nigroaenea","species","other_wild_bees",1,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT08_C","Transect","Andrena nigroaenea","species","other_wild_bees",1,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT08_D","Transect","Andrena nigroaenea","species","other_wild_bees",1,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT08_E","Transect","Andrena nigroaenea","species","other_wild_bees",1,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT08_F","Transect","Andrena nigroaenea","species","other_wild_bees",1,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT08_B","Transect","Andrena pilipes","species","other_wild_bees",23,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT08_C","Transect","Andrena pilipes","species","other_wild_bees",23,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT08_D","Transect","Andrena pilipes","species","other_wild_bees",23,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT08_E","Transect","Andrena pilipes","species","other_wild_bees",23,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT08_F","Transect","Andrena pilipes","species","other_wild_bees",23,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT08_B","Transect","Andrena thoracica","species","other_wild_bees",2,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT08_C","Transect","Andrena thoracica","species","other_wild_bees",2,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT08_D","Transect","Andrena thoracica","species","other_wild_bees",2,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT08_E","Transect","Andrena thoracica","species","other_wild_bees",2,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT08_F","Transect","Andrena thoracica","species","other_wild_bees",2,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT08_B","Transect","Apis mellifera","species","honeybees",17,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT08_C","Transect","Apis mellifera","species","honeybees",17,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT08_D","Transect","Apis mellifera","species","honeybees",17,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT08_E","Transect","Apis mellifera","species","honeybees",17,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT08_F","Transect","Apis mellifera","species","honeybees",17,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT08_B","Transect","Bombus hortorum","species","bumblebees",1,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT08_C","Transect","Bombus hortorum","species","bumblebees",1,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT08_D","Transect","Bombus hortorum","species","bumblebees",1,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT08_E","Transect","Bombus hortorum","species","bumblebees",1,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT08_F","Transect","Bombus hortorum","species","bumblebees",1,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT08_B","Transect","Bombus terrestris","species","bumblebees",12,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT08_C","Transect","Bombus terrestris","species","bumblebees",12,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT08_D","Transect","Bombus terrestris","species","bumblebees",12,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT08_E","Transect","Bombus terrestris","species","bumblebees",12,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT08_F","Transect","Bombus terrestris","species","bumblebees",12,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT08_B","Transect","Eristalinus aeneus","species","syrphids",1,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT08_C","Transect","Eristalinus aeneus","species","syrphids",1,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT08_D","Transect","Eristalinus aeneus","species","syrphids",1,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT08_E","Transect","Eristalinus aeneus","species","syrphids",1,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT08_F","Transect","Eristalinus aeneus","species","syrphids",1,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT08_B","Transect","Eristalis arbustorum","species","syrphids",1,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT08_C","Transect","Eristalis arbustorum","species","syrphids",1,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT08_D","Transect","Eristalis arbustorum","species","syrphids",1,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT08_E","Transect","Eristalis arbustorum","species","syrphids",1,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT08_F","Transect","Eristalis arbustorum","species","syrphids",1,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT08_B","Transect","Eristalis tenax","species","syrphids",3,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT08_C","Transect","Eristalis tenax","species","syrphids",3,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT08_D","Transect","Eristalis tenax","species","syrphids",3,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT08_E","Transect","Eristalis tenax","species","syrphids",3,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT08_F","Transect","Eristalis tenax","species","syrphids",3,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT08_B","Transect","Megascolia maculata","species","non_bee_hymenoptera",6,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT08_C","Transect","Megascolia maculata","species","non_bee_hymenoptera",6,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT08_D","Transect","Megascolia maculata","species","non_bee_hymenoptera",6,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT08_E","Transect","Megascolia maculata","species","non_bee_hymenoptera",6,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT08_F","Transect","Megascolia maculata","species","non_bee_hymenoptera",6,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT08_B","Transect","Polistes dominula","species","non_bee_hymenoptera",148,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT08_C","Transect","Polistes dominula","species","non_bee_hymenoptera",148,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT08_D","Transect","Polistes dominula","species","non_bee_hymenoptera",148,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT08_E","Transect","Polistes dominula","species","non_bee_hymenoptera",148,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT08_F","Transect","Polistes dominula","species","non_bee_hymenoptera",148,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT08_B","Transect","Sphaerophoria rueppelli","species","syrphids",2,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT08_C","Transect","Sphaerophoria rueppelli","species","syrphids",2,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT08_D","Transect","Sphaerophoria rueppelli","species","syrphids",2,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT08_E","Transect","Sphaerophoria rueppelli","species","syrphids",2,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT08_F","Transect","Sphaerophoria rueppelli","species","syrphids",2,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT08_B","Transect","Sphaerophoria scripta","species","syrphids",7,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT08_C","Transect","Sphaerophoria scripta","species","syrphids",7,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT08_D","Transect","Sphaerophoria scripta","species","syrphids",7,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT08_E","Transect","Sphaerophoria scripta","species","syrphids",7,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT08_F","Transect","Sphaerophoria scripta","species","syrphids",7,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT08_B","Transect","Syritta pipiens","species","syrphids",9,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT08_C","Transect","Syritta pipiens","species","syrphids",9,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT08_D","Transect","Syritta pipiens","species","syrphids",9,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT08_E","Transect","Syritta pipiens","species","syrphids",9,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT08_F","Transect","Syritta pipiens","species","syrphids",9,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT08_B","Transect","Bembix sp. 1","species","other_flies",1,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT08_C","Transect","Bembix sp. 1","species","other_flies",1,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT08_D","Transect","Bembix sp. 1","species","other_flies",1,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT08_E","Transect","Bembix sp. 1","species","other_flies",1,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT08_F","Transect","Bembix sp. 1","species","other_flies",1,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT08_B","Transect","Lasioglossum pauperatum","species","other_wild_bees",1,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT08_C","Transect","Lasioglossum pauperatum","species","other_wild_bees",1,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT08_D","Transect","Lasioglossum pauperatum","species","other_wild_bees",1,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT08_E","Transect","Lasioglossum pauperatum","species","other_wild_bees",1,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT08_F","Transect","Lasioglossum pauperatum","species","other_wild_bees",1,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT08_B","Transect","Unknown wasp sp. 21","morphospecies","non_bee_hymenoptera",1,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT08_C","Transect","Unknown wasp sp. 21","morphospecies","non_bee_hymenoptera",1,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT08_D","Transect","Unknown wasp sp. 21","morphospecies","non_bee_hymenoptera",1,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT08_E","Transect","Unknown wasp sp. 21","morphospecies","non_bee_hymenoptera",1,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT08_F","Transect","Unknown wasp sp. 21","morphospecies","non_bee_hymenoptera",1,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT08_B","Transect","Andrena lepida","species","other_wild_bees",15,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT08_C","Transect","Andrena lepida","species","other_wild_bees",15,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT08_D","Transect","Andrena lepida","species","other_wild_bees",15,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT08_E","Transect","Andrena lepida","species","other_wild_bees",15,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT08_F","Transect","Andrena lepida","species","other_wild_bees",15,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT08_B","Transect","Andrena variabilis","species","other_wild_bees",1,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT08_C","Transect","Andrena variabilis","species","other_wild_bees",1,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT08_D","Transect","Andrena variabilis","species","other_wild_bees",1,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT08_E","Transect","Andrena variabilis","species","other_wild_bees",1,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT08_F","Transect","Andrena variabilis","species","other_wild_bees",1,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT08_B","Transect","Halictus vestitus","species","other_wild_bees",2,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT08_C","Transect","Halictus vestitus","species","other_wild_bees",2,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT08_D","Transect","Halictus vestitus","species","other_wild_bees",2,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT08_E","Transect","Halictus vestitus","species","other_wild_bees",2,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT08_F","Transect","Halictus vestitus","species","other_wild_bees",2,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT08_B","Transect","Nomiapis bispinosa","species","other_wild_bees",1,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT08_C","Transect","Nomiapis bispinosa","species","other_wild_bees",1,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT08_D","Transect","Nomiapis bispinosa","species","other_wild_bees",1,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT08_E","Transect","Nomiapis bispinosa","species","other_wild_bees",1,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT08_F","Transect","Nomiapis bispinosa","species","other_wild_bees",1,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT09_B","Transect","Andrena albopunctata","species","other_wild_bees",9,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT09_C","Transect","Andrena albopunctata","species","other_wild_bees",9,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT09_D","Transect","Andrena albopunctata","species","other_wild_bees",9,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT09_E","Transect","Andrena albopunctata","species","other_wild_bees",9,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT09_F","Transect","Andrena albopunctata","species","other_wild_bees",9,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT09_B","Transect","Andrena flavipes","species","other_wild_bees",79,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT09_C","Transect","Andrena flavipes","species","other_wild_bees",79,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT09_D","Transect","Andrena flavipes","species","other_wild_bees",79,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT09_E","Transect","Andrena flavipes","species","other_wild_bees",79,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT09_F","Transect","Andrena flavipes","species","other_wild_bees",79,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT09_B","Transect","Andrena nigroaenea","species","other_wild_bees",2,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT09_C","Transect","Andrena nigroaenea","species","other_wild_bees",2,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT09_D","Transect","Andrena nigroaenea","species","other_wild_bees",2,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT09_E","Transect","Andrena nigroaenea","species","other_wild_bees",2,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT09_F","Transect","Andrena nigroaenea","species","other_wild_bees",2,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT09_B","Transect","Andrena pilipes","species","other_wild_bees",57,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT09_C","Transect","Andrena pilipes","species","other_wild_bees",57,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT09_D","Transect","Andrena pilipes","species","other_wild_bees",57,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT09_E","Transect","Andrena pilipes","species","other_wild_bees",57,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT09_F","Transect","Andrena pilipes","species","other_wild_bees",57,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT09_B","Transect","Andrena sp.","morphospecies","other_wild_bees",1,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT09_C","Transect","Andrena sp.","morphospecies","other_wild_bees",1,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT09_D","Transect","Andrena sp.","morphospecies","other_wild_bees",1,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT09_E","Transect","Andrena sp.","morphospecies","other_wild_bees",1,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT09_F","Transect","Andrena sp.","morphospecies","other_wild_bees",1,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT09_B","Transect","Andrena thoracica","species","other_wild_bees",10,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT09_C","Transect","Andrena thoracica","species","other_wild_bees",10,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT09_D","Transect","Andrena thoracica","species","other_wild_bees",10,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT09_E","Transect","Andrena thoracica","species","other_wild_bees",10,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT09_F","Transect","Andrena thoracica","species","other_wild_bees",10,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT09_B","Transect","Anthidium manicatum","species","other_wild_bees",1,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT09_C","Transect","Anthidium manicatum","species","other_wild_bees",1,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT09_D","Transect","Anthidium manicatum","species","other_wild_bees",1,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT09_E","Transect","Anthidium manicatum","species","other_wild_bees",1,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT09_F","Transect","Anthidium manicatum","species","other_wild_bees",1,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT09_B","Transect","Apis mellifera","species","honeybees",237,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT09_C","Transect","Apis mellifera","species","honeybees",237,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT09_D","Transect","Apis mellifera","species","honeybees",237,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT09_E","Transect","Apis mellifera","species","honeybees",237,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT09_F","Transect","Apis mellifera","species","honeybees",237,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT09_B","Transect","Bombus lapidarius","species","bumblebees",69,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT09_C","Transect","Bombus lapidarius","species","bumblebees",69,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT09_D","Transect","Bombus lapidarius","species","bumblebees",69,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT09_E","Transect","Bombus lapidarius","species","bumblebees",69,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT09_F","Transect","Bombus lapidarius","species","bumblebees",69,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT09_B","Transect","Bombus terrestris","species","bumblebees",102,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT09_C","Transect","Bombus terrestris","species","bumblebees",102,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT09_D","Transect","Bombus terrestris","species","bumblebees",102,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT09_E","Transect","Bombus terrestris","species","bumblebees",102,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT09_F","Transect","Bombus terrestris","species","bumblebees",102,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT09_B","Transect","Eristalinus aeneus","species","syrphids",1,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT09_C","Transect","Eristalinus aeneus","species","syrphids",1,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT09_D","Transect","Eristalinus aeneus","species","syrphids",1,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT09_E","Transect","Eristalinus aeneus","species","syrphids",1,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT09_F","Transect","Eristalinus aeneus","species","syrphids",1,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT09_B","Transect","Eristalis arbustorum","species","syrphids",1,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT09_C","Transect","Eristalis arbustorum","species","syrphids",1,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT09_D","Transect","Eristalis arbustorum","species","syrphids",1,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT09_E","Transect","Eristalis arbustorum","species","syrphids",1,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT09_F","Transect","Eristalis arbustorum","species","syrphids",1,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT09_B","Transect","Eristalis tenax","species","syrphids",13,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT09_C","Transect","Eristalis tenax","species","syrphids",13,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT09_D","Transect","Eristalis tenax","species","syrphids",13,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT09_E","Transect","Eristalis tenax","species","syrphids",13,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT09_F","Transect","Eristalis tenax","species","syrphids",13,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT09_B","Transect","Eupeodes latifasciatus","species","syrphids",1,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT09_C","Transect","Eupeodes latifasciatus","species","syrphids",1,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT09_D","Transect","Eupeodes latifasciatus","species","syrphids",1,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT09_E","Transect","Eupeodes latifasciatus","species","syrphids",1,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT09_F","Transect","Eupeodes latifasciatus","species","syrphids",1,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT09_B","Transect","Halictus scabiosae","species","other_wild_bees",71,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT09_C","Transect","Halictus scabiosae","species","other_wild_bees",71,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT09_D","Transect","Halictus scabiosae","species","other_wild_bees",71,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT09_E","Transect","Halictus scabiosae","species","other_wild_bees",71,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT09_F","Transect","Halictus scabiosae","species","other_wild_bees",71,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT09_B","Transect","Lasioglossum malachurum","species","other_wild_bees",59,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT09_C","Transect","Lasioglossum malachurum","species","other_wild_bees",59,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT09_D","Transect","Lasioglossum malachurum","species","other_wild_bees",59,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT09_E","Transect","Lasioglossum malachurum","species","other_wild_bees",59,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT09_F","Transect","Lasioglossum malachurum","species","other_wild_bees",59,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT09_B","Transect","Lasioglossum sp.","morphospecies","other_wild_bees",1,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT09_C","Transect","Lasioglossum sp.","morphospecies","other_wild_bees",1,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT09_D","Transect","Lasioglossum sp.","morphospecies","other_wild_bees",1,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT09_E","Transect","Lasioglossum sp.","morphospecies","other_wild_bees",1,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT09_F","Transect","Lasioglossum sp.","morphospecies","other_wild_bees",1,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT09_B","Transect","Megascolia maculata","species","non_bee_hymenoptera",4,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT09_C","Transect","Megascolia maculata","species","non_bee_hymenoptera",4,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT09_D","Transect","Megascolia maculata","species","non_bee_hymenoptera",4,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT09_E","Transect","Megascolia maculata","species","non_bee_hymenoptera",4,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT09_F","Transect","Megascolia maculata","species","non_bee_hymenoptera",4,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT09_B","Transect","Myathropa florea","species","syrphids",1,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT09_C","Transect","Myathropa florea","species","syrphids",1,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT09_D","Transect","Myathropa florea","species","syrphids",1,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT09_E","Transect","Myathropa florea","species","syrphids",1,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT09_F","Transect","Myathropa florea","species","syrphids",1,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT09_B","Transect","Nomada sp.","morphospecies","other_wild_bees",1,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT09_C","Transect","Nomada sp.","morphospecies","other_wild_bees",1,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT09_D","Transect","Nomada sp.","morphospecies","other_wild_bees",1,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT09_E","Transect","Nomada sp.","morphospecies","other_wild_bees",1,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT09_F","Transect","Nomada sp.","morphospecies","other_wild_bees",1,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT09_B","Transect","Polistes dominula","species","non_bee_hymenoptera",195,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT09_C","Transect","Polistes dominula","species","non_bee_hymenoptera",195,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT09_D","Transect","Polistes dominula","species","non_bee_hymenoptera",195,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT09_E","Transect","Polistes dominula","species","non_bee_hymenoptera",195,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT09_F","Transect","Polistes dominula","species","non_bee_hymenoptera",195,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT09_B","Transect","Scaeva selenitica","species","syrphids",1,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT09_C","Transect","Scaeva selenitica","species","syrphids",1,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT09_D","Transect","Scaeva selenitica","species","syrphids",1,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT09_E","Transect","Scaeva selenitica","species","syrphids",1,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT09_F","Transect","Scaeva selenitica","species","syrphids",1,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT09_B","Transect","Sphaerophoria rueppelli","species","syrphids",7,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT09_C","Transect","Sphaerophoria rueppelli","species","syrphids",7,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT09_D","Transect","Sphaerophoria rueppelli","species","syrphids",7,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT09_E","Transect","Sphaerophoria rueppelli","species","syrphids",7,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT09_F","Transect","Sphaerophoria rueppelli","species","syrphids",7,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT09_B","Transect","Sphaerophoria scripta","species","syrphids",16,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT09_C","Transect","Sphaerophoria scripta","species","syrphids",16,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT09_D","Transect","Sphaerophoria scripta","species","syrphids",16,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT09_E","Transect","Sphaerophoria scripta","species","syrphids",16,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT09_F","Transect","Sphaerophoria scripta","species","syrphids",16,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT09_B","Transect","Syritta pipiens","species","syrphids",57,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT09_C","Transect","Syritta pipiens","species","syrphids",57,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT09_D","Transect","Syritta pipiens","species","syrphids",57,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT09_E","Transect","Syritta pipiens","species","syrphids",57,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT09_F","Transect","Syritta pipiens","species","syrphids",57,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT09_B","Transect","Wasp sp.","morphospecies","non_bee_hymenoptera",1,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT09_C","Transect","Wasp sp.","morphospecies","non_bee_hymenoptera",1,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT09_D","Transect","Wasp sp.","morphospecies","non_bee_hymenoptera",1,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT09_E","Transect","Wasp sp.","morphospecies","non_bee_hymenoptera",1,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT09_F","Transect","Wasp sp.","morphospecies","non_bee_hymenoptera",1,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT09_B","Transect","Xylocopa violacea","species","other_wild_bees",4,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT09_C","Transect","Xylocopa violacea","species","other_wild_bees",4,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT09_D","Transect","Xylocopa violacea","species","other_wild_bees",4,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT09_E","Transect","Xylocopa violacea","species","other_wild_bees",4,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT09_F","Transect","Xylocopa violacea","species","other_wild_bees",4,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT09_B","Transect","Ceratina cucurbitina","species","other_wild_bees",2,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT09_C","Transect","Ceratina cucurbitina","species","other_wild_bees",2,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT09_D","Transect","Ceratina cucurbitina","species","other_wild_bees",2,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT09_E","Transect","Ceratina cucurbitina","species","other_wild_bees",2,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT09_F","Transect","Ceratina cucurbitina","species","other_wild_bees",2,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT09_B","Transect","Chrysotoxum cautum","species","syrphids",2,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT09_C","Transect","Chrysotoxum cautum","species","syrphids",2,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT09_D","Transect","Chrysotoxum cautum","species","syrphids",2,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT09_E","Transect","Chrysotoxum cautum","species","syrphids",2,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT09_F","Transect","Chrysotoxum cautum","species","syrphids",2,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT09_B","Transect","Delta unguiculatus","species","syrphids",1,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT09_C","Transect","Delta unguiculatus","species","syrphids",1,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT09_D","Transect","Delta unguiculatus","species","syrphids",1,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT09_E","Transect","Delta unguiculatus","species","syrphids",1,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT09_F","Transect","Delta unguiculatus","species","syrphids",1,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT09_B","Transect","Eristalis abusiva","species","syrphids",4,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT09_C","Transect","Eristalis abusiva","species","syrphids",4,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT09_D","Transect","Eristalis abusiva","species","syrphids",4,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT09_E","Transect","Eristalis abusiva","species","syrphids",4,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT09_F","Transect","Eristalis abusiva","species","syrphids",4,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT09_B","Transect","Lasioglossum pauperatum","species","other_wild_bees",1,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT09_C","Transect","Lasioglossum pauperatum","species","other_wild_bees",1,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT09_D","Transect","Lasioglossum pauperatum","species","other_wild_bees",1,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT09_E","Transect","Lasioglossum pauperatum","species","other_wild_bees",1,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT09_F","Transect","Lasioglossum pauperatum","species","other_wild_bees",1,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT09_B","Transect","Nomada fucata","species","other_wild_bees",1,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT09_C","Transect","Nomada fucata","species","other_wild_bees",1,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT09_D","Transect","Nomada fucata","species","other_wild_bees",1,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT09_E","Transect","Nomada fucata","species","other_wild_bees",1,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT09_F","Transect","Nomada fucata","species","other_wild_bees",1,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT09_B","Transect","Sphaerophoria sp. 2","morphospecies","syrphids",1,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT09_C","Transect","Sphaerophoria sp. 2","morphospecies","syrphids",1,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT09_D","Transect","Sphaerophoria sp. 2","morphospecies","syrphids",1,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT09_E","Transect","Sphaerophoria sp. 2","morphospecies","syrphids",1,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT09_F","Transect","Sphaerophoria sp. 2","morphospecies","syrphids",1,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT09_B","Transect","Sphecodes monilicornis","species","other_wild_bees",1,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT09_C","Transect","Sphecodes monilicornis","species","other_wild_bees",1,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT09_D","Transect","Sphecodes monilicornis","species","other_wild_bees",1,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT09_E","Transect","Sphecodes monilicornis","species","other_wild_bees",1,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT09_F","Transect","Sphecodes monilicornis","species","other_wild_bees",1,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT09_B","Transect","Unknown wasp sp. 11","morphospecies","non_bee_hymenoptera",2,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT09_C","Transect","Unknown wasp sp. 11","morphospecies","non_bee_hymenoptera",2,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT09_D","Transect","Unknown wasp sp. 11","morphospecies","non_bee_hymenoptera",2,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT09_E","Transect","Unknown wasp sp. 11","morphospecies","non_bee_hymenoptera",2,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT09_F","Transect","Unknown wasp sp. 11","morphospecies","non_bee_hymenoptera",2,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT09_B","Transect","Unknown wasp sp. 13","morphospecies","non_bee_hymenoptera",2,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT09_C","Transect","Unknown wasp sp. 13","morphospecies","non_bee_hymenoptera",2,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT09_D","Transect","Unknown wasp sp. 13","morphospecies","non_bee_hymenoptera",2,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT09_E","Transect","Unknown wasp sp. 13","morphospecies","non_bee_hymenoptera",2,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT09_F","Transect","Unknown wasp sp. 13","morphospecies","non_bee_hymenoptera",2,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT09_B","Transect","Unknown wasp sp. 15","morphospecies","non_bee_hymenoptera",1,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT09_C","Transect","Unknown wasp sp. 15","morphospecies","non_bee_hymenoptera",1,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT09_D","Transect","Unknown wasp sp. 15","morphospecies","non_bee_hymenoptera",1,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT09_E","Transect","Unknown wasp sp. 15","morphospecies","non_bee_hymenoptera",1,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT09_F","Transect","Unknown wasp sp. 15","morphospecies","non_bee_hymenoptera",1,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT09_B","Transect","Unknown wasp sp. 18","morphospecies","non_bee_hymenoptera",1,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT09_C","Transect","Unknown wasp sp. 18","morphospecies","non_bee_hymenoptera",1,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT09_D","Transect","Unknown wasp sp. 18","morphospecies","non_bee_hymenoptera",1,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT09_E","Transect","Unknown wasp sp. 18","morphospecies","non_bee_hymenoptera",1,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT09_F","Transect","Unknown wasp sp. 18","morphospecies","non_bee_hymenoptera",1,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT09_B","Transect","Unknown wasp sp. 3","morphospecies","non_bee_hymenoptera",1,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT09_C","Transect","Unknown wasp sp. 3","morphospecies","non_bee_hymenoptera",1,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT09_D","Transect","Unknown wasp sp. 3","morphospecies","non_bee_hymenoptera",1,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT09_E","Transect","Unknown wasp sp. 3","morphospecies","non_bee_hymenoptera",1,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT09_F","Transect","Unknown wasp sp. 3","morphospecies","non_bee_hymenoptera",1,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT09_B","Transect","Andrena decipiens","species","other_wild_bees",2,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT09_C","Transect","Andrena decipiens","species","other_wild_bees",2,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT09_D","Transect","Andrena decipiens","species","other_wild_bees",2,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT09_E","Transect","Andrena decipiens","species","other_wild_bees",2,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT09_F","Transect","Andrena decipiens","species","other_wild_bees",2,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT09_B","Transect","Andrena lepida","species","other_wild_bees",100,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT09_C","Transect","Andrena lepida","species","other_wild_bees",100,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT09_D","Transect","Andrena lepida","species","other_wild_bees",100,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT09_E","Transect","Andrena lepida","species","other_wild_bees",100,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT09_F","Transect","Andrena lepida","species","other_wild_bees",100,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT09_B","Transect","Andrena rosae","species","other_wild_bees",2,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT09_C","Transect","Andrena rosae","species","other_wild_bees",2,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT09_D","Transect","Andrena rosae","species","other_wild_bees",2,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT09_E","Transect","Andrena rosae","species","other_wild_bees",2,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT09_F","Transect","Andrena rosae","species","other_wild_bees",2,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT09_B","Transect","Andrena variabilis","species","other_wild_bees",3,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT09_C","Transect","Andrena variabilis","species","other_wild_bees",3,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT09_D","Transect","Andrena variabilis","species","other_wild_bees",3,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT09_E","Transect","Andrena variabilis","species","other_wild_bees",3,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT09_F","Transect","Andrena variabilis","species","other_wild_bees",3,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT09_B","Transect","Halictus simplex-complex","species","other_wild_bees",1,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT09_C","Transect","Halictus simplex-complex","species","other_wild_bees",1,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT09_D","Transect","Halictus simplex-complex","species","other_wild_bees",1,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT09_E","Transect","Halictus simplex-complex","species","other_wild_bees",1,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT09_F","Transect","Halictus simplex-complex","species","other_wild_bees",1,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT09_B","Transect","Lasioglossum calceatum","species","other_wild_bees",1,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT09_C","Transect","Lasioglossum calceatum","species","other_wild_bees",1,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT09_D","Transect","Lasioglossum calceatum","species","other_wild_bees",1,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT09_E","Transect","Lasioglossum calceatum","species","other_wild_bees",1,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT09_F","Transect","Lasioglossum calceatum","species","other_wild_bees",1,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT09_B","Transect","Lasioglossum interruptum","species","other_wild_bees",1,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT09_C","Transect","Lasioglossum interruptum","species","other_wild_bees",1,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT09_D","Transect","Lasioglossum interruptum","species","other_wild_bees",1,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT09_E","Transect","Lasioglossum interruptum","species","other_wild_bees",1,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT09_F","Transect","Lasioglossum interruptum","species","other_wild_bees",1,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT09_B","Transect","Lasioglossum laticeps","species","other_wild_bees",3,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT09_C","Transect","Lasioglossum laticeps","species","other_wild_bees",3,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT09_D","Transect","Lasioglossum laticeps","species","other_wild_bees",3,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT09_E","Transect","Lasioglossum laticeps","species","other_wild_bees",3,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT09_F","Transect","Lasioglossum laticeps","species","other_wild_bees",3,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT09_B","Transect","Lasioglossum pygmaeum","species","other_wild_bees",2,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT09_C","Transect","Lasioglossum pygmaeum","species","other_wild_bees",2,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT09_D","Transect","Lasioglossum pygmaeum","species","other_wild_bees",2,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT09_E","Transect","Lasioglossum pygmaeum","species","other_wild_bees",2,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT09_F","Transect","Lasioglossum pygmaeum","species","other_wild_bees",2,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT10_B","Transect","Andrena albopunctata","species","other_wild_bees",2,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT10_C","Transect","Andrena albopunctata","species","other_wild_bees",2,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT10_D","Transect","Andrena albopunctata","species","other_wild_bees",2,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT10_E","Transect","Andrena albopunctata","species","other_wild_bees",2,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT10_F","Transect","Andrena albopunctata","species","other_wild_bees",2,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT10_B","Transect","Andrena flavipes","species","other_wild_bees",29,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT10_C","Transect","Andrena flavipes","species","other_wild_bees",29,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT10_D","Transect","Andrena flavipes","species","other_wild_bees",29,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT10_E","Transect","Andrena flavipes","species","other_wild_bees",29,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT10_F","Transect","Andrena flavipes","species","other_wild_bees",29,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT10_B","Transect","Andrena pilipes","species","other_wild_bees",21,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT10_C","Transect","Andrena pilipes","species","other_wild_bees",21,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT10_D","Transect","Andrena pilipes","species","other_wild_bees",21,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT10_E","Transect","Andrena pilipes","species","other_wild_bees",21,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT10_F","Transect","Andrena pilipes","species","other_wild_bees",21,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT10_B","Transect","Andrena thoracica","species","other_wild_bees",3,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT10_C","Transect","Andrena thoracica","species","other_wild_bees",3,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT10_D","Transect","Andrena thoracica","species","other_wild_bees",3,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT10_E","Transect","Andrena thoracica","species","other_wild_bees",3,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT10_F","Transect","Andrena thoracica","species","other_wild_bees",3,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT10_B","Transect","Anthidium manicatum","species","other_wild_bees",2,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT10_C","Transect","Anthidium manicatum","species","other_wild_bees",2,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT10_D","Transect","Anthidium manicatum","species","other_wild_bees",2,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT10_E","Transect","Anthidium manicatum","species","other_wild_bees",2,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT10_F","Transect","Anthidium manicatum","species","other_wild_bees",2,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT10_B","Transect","Apis mellifera","species","honeybees",23,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT10_C","Transect","Apis mellifera","species","honeybees",23,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT10_D","Transect","Apis mellifera","species","honeybees",23,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT10_E","Transect","Apis mellifera","species","honeybees",23,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT10_F","Transect","Apis mellifera","species","honeybees",23,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT10_B","Transect","Bombus lapidarius","species","bumblebees",277,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT10_C","Transect","Bombus lapidarius","species","bumblebees",277,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT10_D","Transect","Bombus lapidarius","species","bumblebees",277,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT10_E","Transect","Bombus lapidarius","species","bumblebees",277,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT10_F","Transect","Bombus lapidarius","species","bumblebees",277,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT10_B","Transect","Bombus pascuorum","species","bumblebees",20,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT10_C","Transect","Bombus pascuorum","species","bumblebees",20,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT10_D","Transect","Bombus pascuorum","species","bumblebees",20,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT10_E","Transect","Bombus pascuorum","species","bumblebees",20,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT10_F","Transect","Bombus pascuorum","species","bumblebees",20,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT10_B","Transect","Bombus terrestris","species","bumblebees",206,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT10_C","Transect","Bombus terrestris","species","bumblebees",206,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT10_D","Transect","Bombus terrestris","species","bumblebees",206,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT10_E","Transect","Bombus terrestris","species","bumblebees",206,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT10_F","Transect","Bombus terrestris","species","bumblebees",206,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT10_B","Transect","Eristalinus aeneus","species","syrphids",3,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT10_C","Transect","Eristalinus aeneus","species","syrphids",3,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT10_D","Transect","Eristalinus aeneus","species","syrphids",3,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT10_E","Transect","Eristalinus aeneus","species","syrphids",3,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT10_F","Transect","Eristalinus aeneus","species","syrphids",3,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT10_B","Transect","Eristalis tenax","species","syrphids",3,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT10_C","Transect","Eristalis tenax","species","syrphids",3,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT10_D","Transect","Eristalis tenax","species","syrphids",3,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT10_E","Transect","Eristalis tenax","species","syrphids",3,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT10_F","Transect","Eristalis tenax","species","syrphids",3,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT10_B","Transect","Eupeodes latifasciatus","species","syrphids",3,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT10_C","Transect","Eupeodes latifasciatus","species","syrphids",3,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT10_D","Transect","Eupeodes latifasciatus","species","syrphids",3,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT10_E","Transect","Eupeodes latifasciatus","species","syrphids",3,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT10_F","Transect","Eupeodes latifasciatus","species","syrphids",3,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT10_B","Transect","Halictus scabiosae","species","other_wild_bees",10,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT10_C","Transect","Halictus scabiosae","species","other_wild_bees",10,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT10_D","Transect","Halictus scabiosae","species","other_wild_bees",10,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT10_E","Transect","Halictus scabiosae","species","other_wild_bees",10,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT10_F","Transect","Halictus scabiosae","species","other_wild_bees",10,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT10_B","Transect","Lasioglossum malachurum","species","other_wild_bees",8,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT10_C","Transect","Lasioglossum malachurum","species","other_wild_bees",8,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT10_D","Transect","Lasioglossum malachurum","species","other_wild_bees",8,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT10_E","Transect","Lasioglossum malachurum","species","other_wild_bees",8,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT10_F","Transect","Lasioglossum malachurum","species","other_wild_bees",8,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT10_B","Transect","Megascolia maculata","species","non_bee_hymenoptera",1,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT10_C","Transect","Megascolia maculata","species","non_bee_hymenoptera",1,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT10_D","Transect","Megascolia maculata","species","non_bee_hymenoptera",1,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT10_E","Transect","Megascolia maculata","species","non_bee_hymenoptera",1,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT10_F","Transect","Megascolia maculata","species","non_bee_hymenoptera",1,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT10_B","Transect","Myathropa florea","species","syrphids",2,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT10_C","Transect","Myathropa florea","species","syrphids",2,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT10_D","Transect","Myathropa florea","species","syrphids",2,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT10_E","Transect","Myathropa florea","species","syrphids",2,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT10_F","Transect","Myathropa florea","species","syrphids",2,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT10_B","Transect","Polistes dominula","species","non_bee_hymenoptera",20,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT10_C","Transect","Polistes dominula","species","non_bee_hymenoptera",20,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT10_D","Transect","Polistes dominula","species","non_bee_hymenoptera",20,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT10_E","Transect","Polistes dominula","species","non_bee_hymenoptera",20,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT10_F","Transect","Polistes dominula","species","non_bee_hymenoptera",20,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT10_B","Transect","Sphaerophoria rueppelli","species","syrphids",8,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT10_C","Transect","Sphaerophoria rueppelli","species","syrphids",8,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT10_D","Transect","Sphaerophoria rueppelli","species","syrphids",8,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT10_E","Transect","Sphaerophoria rueppelli","species","syrphids",8,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT10_F","Transect","Sphaerophoria rueppelli","species","syrphids",8,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT10_B","Transect","Sphaerophoria scripta","species","syrphids",7,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT10_C","Transect","Sphaerophoria scripta","species","syrphids",7,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT10_D","Transect","Sphaerophoria scripta","species","syrphids",7,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT10_E","Transect","Sphaerophoria scripta","species","syrphids",7,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT10_F","Transect","Sphaerophoria scripta","species","syrphids",7,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT10_B","Transect","Syritta pipiens","species","syrphids",14,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT10_C","Transect","Syritta pipiens","species","syrphids",14,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT10_D","Transect","Syritta pipiens","species","syrphids",14,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT10_E","Transect","Syritta pipiens","species","syrphids",14,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT10_F","Transect","Syritta pipiens","species","syrphids",14,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT10_B","Transect","Xylocopa violacea","species","other_wild_bees",5,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT10_C","Transect","Xylocopa violacea","species","other_wild_bees",5,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT10_D","Transect","Xylocopa violacea","species","other_wild_bees",5,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT10_E","Transect","Xylocopa violacea","species","other_wild_bees",5,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT10_F","Transect","Xylocopa violacea","species","other_wild_bees",5,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT10_B","Transect","Eristalinus taeniops","species","syrphids",1,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT10_C","Transect","Eristalinus taeniops","species","syrphids",1,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT10_D","Transect","Eristalinus taeniops","species","syrphids",1,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT10_E","Transect","Eristalinus taeniops","species","syrphids",1,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT10_F","Transect","Eristalinus taeniops","species","syrphids",1,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT10_B","Transect","Sphaerophoria sp. 2","morphospecies","syrphids",1,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT10_C","Transect","Sphaerophoria sp. 2","morphospecies","syrphids",1,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT10_D","Transect","Sphaerophoria sp. 2","morphospecies","syrphids",1,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT10_E","Transect","Sphaerophoria sp. 2","morphospecies","syrphids",1,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT10_F","Transect","Sphaerophoria sp. 2","morphospecies","syrphids",1,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT10_B","Transect","Andrena lepida","species","other_wild_bees",13,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT10_C","Transect","Andrena lepida","species","other_wild_bees",13,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT10_D","Transect","Andrena lepida","species","other_wild_bees",13,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT10_E","Transect","Andrena lepida","species","other_wild_bees",13,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT10_F","Transect","Andrena lepida","species","other_wild_bees",13,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT11_B","Transect","Andrena albopunctata","species","other_wild_bees",6,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT11_C","Transect","Andrena albopunctata","species","other_wild_bees",6,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT11_D","Transect","Andrena albopunctata","species","other_wild_bees",6,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT11_E","Transect","Andrena albopunctata","species","other_wild_bees",6,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT11_F","Transect","Andrena albopunctata","species","other_wild_bees",6,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT11_B","Transect","Andrena flavipes","species","other_wild_bees",48,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT11_C","Transect","Andrena flavipes","species","other_wild_bees",48,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT11_D","Transect","Andrena flavipes","species","other_wild_bees",48,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT11_E","Transect","Andrena flavipes","species","other_wild_bees",48,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT11_F","Transect","Andrena flavipes","species","other_wild_bees",48,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT11_B","Transect","Andrena pilipes","species","other_wild_bees",49,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT11_C","Transect","Andrena pilipes","species","other_wild_bees",49,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT11_D","Transect","Andrena pilipes","species","other_wild_bees",49,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT11_E","Transect","Andrena pilipes","species","other_wild_bees",49,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT11_F","Transect","Andrena pilipes","species","other_wild_bees",49,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT11_B","Transect","Andrena thoracica","species","other_wild_bees",5,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT11_C","Transect","Andrena thoracica","species","other_wild_bees",5,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT11_D","Transect","Andrena thoracica","species","other_wild_bees",5,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT11_E","Transect","Andrena thoracica","species","other_wild_bees",5,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT11_F","Transect","Andrena thoracica","species","other_wild_bees",5,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT11_B","Transect","Anthidium manicatum","species","other_wild_bees",7,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT11_C","Transect","Anthidium manicatum","species","other_wild_bees",7,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT11_D","Transect","Anthidium manicatum","species","other_wild_bees",7,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT11_E","Transect","Anthidium manicatum","species","other_wild_bees",7,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT11_F","Transect","Anthidium manicatum","species","other_wild_bees",7,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT11_B","Transect","Apis mellifera","species","honeybees",66,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT11_C","Transect","Apis mellifera","species","honeybees",66,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT11_D","Transect","Apis mellifera","species","honeybees",66,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT11_E","Transect","Apis mellifera","species","honeybees",66,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT11_F","Transect","Apis mellifera","species","honeybees",66,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT11_B","Transect","Bombus lapidarius","species","bumblebees",359,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT11_C","Transect","Bombus lapidarius","species","bumblebees",359,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT11_D","Transect","Bombus lapidarius","species","bumblebees",359,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT11_E","Transect","Bombus lapidarius","species","bumblebees",359,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT11_F","Transect","Bombus lapidarius","species","bumblebees",359,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT11_B","Transect","Bombus pascuorum","species","bumblebees",42,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT11_C","Transect","Bombus pascuorum","species","bumblebees",42,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT11_D","Transect","Bombus pascuorum","species","bumblebees",42,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT11_E","Transect","Bombus pascuorum","species","bumblebees",42,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT11_F","Transect","Bombus pascuorum","species","bumblebees",42,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT11_B","Transect","Bombus terrestris","species","bumblebees",240,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT11_C","Transect","Bombus terrestris","species","bumblebees",240,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT11_D","Transect","Bombus terrestris","species","bumblebees",240,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT11_E","Transect","Bombus terrestris","species","bumblebees",240,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT11_F","Transect","Bombus terrestris","species","bumblebees",240,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT11_B","Transect","Eristalinus aeneus","species","syrphids",10,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT11_C","Transect","Eristalinus aeneus","species","syrphids",10,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT11_D","Transect","Eristalinus aeneus","species","syrphids",10,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT11_E","Transect","Eristalinus aeneus","species","syrphids",10,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT11_F","Transect","Eristalinus aeneus","species","syrphids",10,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT11_B","Transect","Eristalis arbustorum","species","syrphids",6,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT11_C","Transect","Eristalis arbustorum","species","syrphids",6,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT11_D","Transect","Eristalis arbustorum","species","syrphids",6,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT11_E","Transect","Eristalis arbustorum","species","syrphids",6,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT11_F","Transect","Eristalis arbustorum","species","syrphids",6,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT11_B","Transect","Eristalis tenax","species","syrphids",11,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT11_C","Transect","Eristalis tenax","species","syrphids",11,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT11_D","Transect","Eristalis tenax","species","syrphids",11,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT11_E","Transect","Eristalis tenax","species","syrphids",11,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT11_F","Transect","Eristalis tenax","species","syrphids",11,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT11_B","Transect","Eupeodes latifasciatus","species","syrphids",3,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT11_C","Transect","Eupeodes latifasciatus","species","syrphids",3,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT11_D","Transect","Eupeodes latifasciatus","species","syrphids",3,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT11_E","Transect","Eupeodes latifasciatus","species","syrphids",3,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT11_F","Transect","Eupeodes latifasciatus","species","syrphids",3,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT11_B","Transect","Halictus scabiosae","species","other_wild_bees",42,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT11_C","Transect","Halictus scabiosae","species","other_wild_bees",42,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT11_D","Transect","Halictus scabiosae","species","other_wild_bees",42,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT11_E","Transect","Halictus scabiosae","species","other_wild_bees",42,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT11_F","Transect","Halictus scabiosae","species","other_wild_bees",42,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT11_B","Transect","Lasioglossum malachurum","species","other_wild_bees",9,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT11_C","Transect","Lasioglossum malachurum","species","other_wild_bees",9,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT11_D","Transect","Lasioglossum malachurum","species","other_wild_bees",9,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT11_E","Transect","Lasioglossum malachurum","species","other_wild_bees",9,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT11_F","Transect","Lasioglossum malachurum","species","other_wild_bees",9,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT11_B","Transect","Megascolia maculata","species","non_bee_hymenoptera",2,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT11_C","Transect","Megascolia maculata","species","non_bee_hymenoptera",2,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT11_D","Transect","Megascolia maculata","species","non_bee_hymenoptera",2,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT11_E","Transect","Megascolia maculata","species","non_bee_hymenoptera",2,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT11_F","Transect","Megascolia maculata","species","non_bee_hymenoptera",2,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT11_B","Transect","Myathropa florea","species","syrphids",1,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT11_C","Transect","Myathropa florea","species","syrphids",1,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT11_D","Transect","Myathropa florea","species","syrphids",1,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT11_E","Transect","Myathropa florea","species","syrphids",1,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT11_F","Transect","Myathropa florea","species","syrphids",1,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT11_B","Transect","Polistes dominula","species","non_bee_hymenoptera",31,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT11_C","Transect","Polistes dominula","species","non_bee_hymenoptera",31,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT11_D","Transect","Polistes dominula","species","non_bee_hymenoptera",31,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT11_E","Transect","Polistes dominula","species","non_bee_hymenoptera",31,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT11_F","Transect","Polistes dominula","species","non_bee_hymenoptera",31,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT11_B","Transect","Sphaerophoria rueppelli","species","syrphids",19,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT11_C","Transect","Sphaerophoria rueppelli","species","syrphids",19,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT11_D","Transect","Sphaerophoria rueppelli","species","syrphids",19,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT11_E","Transect","Sphaerophoria rueppelli","species","syrphids",19,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT11_F","Transect","Sphaerophoria rueppelli","species","syrphids",19,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT11_B","Transect","Sphaerophoria scripta","species","syrphids",13,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT11_C","Transect","Sphaerophoria scripta","species","syrphids",13,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT11_D","Transect","Sphaerophoria scripta","species","syrphids",13,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT11_E","Transect","Sphaerophoria scripta","species","syrphids",13,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT11_F","Transect","Sphaerophoria scripta","species","syrphids",13,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT11_B","Transect","Syritta pipiens","species","syrphids",59,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT11_C","Transect","Syritta pipiens","species","syrphids",59,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT11_D","Transect","Syritta pipiens","species","syrphids",59,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT11_E","Transect","Syritta pipiens","species","syrphids",59,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT11_F","Transect","Syritta pipiens","species","syrphids",59,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT11_B","Transect","Syrphid sp.","morphospecies","syrphids",1,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT11_C","Transect","Syrphid sp.","morphospecies","syrphids",1,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT11_D","Transect","Syrphid sp.","morphospecies","syrphids",1,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT11_E","Transect","Syrphid sp.","morphospecies","syrphids",1,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT11_F","Transect","Syrphid sp.","morphospecies","syrphids",1,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT11_B","Transect","Xylocopa violacea","species","other_wild_bees",6,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT11_C","Transect","Xylocopa violacea","species","other_wild_bees",6,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT11_D","Transect","Xylocopa violacea","species","other_wild_bees",6,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT11_E","Transect","Xylocopa violacea","species","other_wild_bees",6,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT11_F","Transect","Xylocopa violacea","species","other_wild_bees",6,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT11_B","Transect","Chrysididae sp. 1","morphospecies","non_bee_hymenoptera",1,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT11_C","Transect","Chrysididae sp. 1","morphospecies","non_bee_hymenoptera",1,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT11_D","Transect","Chrysididae sp. 1","morphospecies","non_bee_hymenoptera",1,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT11_E","Transect","Chrysididae sp. 1","morphospecies","non_bee_hymenoptera",1,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT11_F","Transect","Chrysididae sp. 1","morphospecies","non_bee_hymenoptera",1,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT11_B","Transect","Chrysotoxum cautum","species","syrphids",1,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT11_C","Transect","Chrysotoxum cautum","species","syrphids",1,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT11_D","Transect","Chrysotoxum cautum","species","syrphids",1,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT11_E","Transect","Chrysotoxum cautum","species","syrphids",1,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT11_F","Transect","Chrysotoxum cautum","species","syrphids",1,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT11_B","Transect","Eristalinus taeniops","species","syrphids",4,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT11_C","Transect","Eristalinus taeniops","species","syrphids",4,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT11_D","Transect","Eristalinus taeniops","species","syrphids",4,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT11_E","Transect","Eristalinus taeniops","species","syrphids",4,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT11_F","Transect","Eristalinus taeniops","species","syrphids",4,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT11_B","Transect","Eristalis abusiva","species","syrphids",4,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT11_C","Transect","Eristalis abusiva","species","syrphids",4,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT11_D","Transect","Eristalis abusiva","species","syrphids",4,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT11_E","Transect","Eristalis abusiva","species","syrphids",4,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT11_F","Transect","Eristalis abusiva","species","syrphids",4,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT11_B","Transect","Milesia crabroniformis","species","syrphids",1,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT11_C","Transect","Milesia crabroniformis","species","syrphids",1,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT11_D","Transect","Milesia crabroniformis","species","syrphids",1,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT11_E","Transect","Milesia crabroniformis","species","syrphids",1,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT11_F","Transect","Milesia crabroniformis","species","syrphids",1,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT11_B","Transect","Nomada fucata","species","other_wild_bees",1,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT11_C","Transect","Nomada fucata","species","other_wild_bees",1,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT11_D","Transect","Nomada fucata","species","other_wild_bees",1,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT11_E","Transect","Nomada fucata","species","other_wild_bees",1,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT11_F","Transect","Nomada fucata","species","other_wild_bees",1,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT11_B","Transect","Unknown syrphid sp. 2","morphospecies","syrphids",1,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT11_C","Transect","Unknown syrphid sp. 2","morphospecies","syrphids",1,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT11_D","Transect","Unknown syrphid sp. 2","morphospecies","syrphids",1,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT11_E","Transect","Unknown syrphid sp. 2","morphospecies","syrphids",1,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT11_F","Transect","Unknown syrphid sp. 2","morphospecies","syrphids",1,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT11_B","Transect","Unknown wasp sp. 15","morphospecies","non_bee_hymenoptera",1,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT11_C","Transect","Unknown wasp sp. 15","morphospecies","non_bee_hymenoptera",1,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT11_D","Transect","Unknown wasp sp. 15","morphospecies","non_bee_hymenoptera",1,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT11_E","Transect","Unknown wasp sp. 15","morphospecies","non_bee_hymenoptera",1,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT11_F","Transect","Unknown wasp sp. 15","morphospecies","non_bee_hymenoptera",1,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT11_B","Transect","Unknown wasp sp. 2","morphospecies","non_bee_hymenoptera",1,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT11_C","Transect","Unknown wasp sp. 2","morphospecies","non_bee_hymenoptera",1,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT11_D","Transect","Unknown wasp sp. 2","morphospecies","non_bee_hymenoptera",1,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT11_E","Transect","Unknown wasp sp. 2","morphospecies","non_bee_hymenoptera",1,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT11_F","Transect","Unknown wasp sp. 2","morphospecies","non_bee_hymenoptera",1,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT11_B","Transect","Unknown wasp sp. 21","morphospecies","non_bee_hymenoptera",2,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT11_C","Transect","Unknown wasp sp. 21","morphospecies","non_bee_hymenoptera",2,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT11_D","Transect","Unknown wasp sp. 21","morphospecies","non_bee_hymenoptera",2,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT11_E","Transect","Unknown wasp sp. 21","morphospecies","non_bee_hymenoptera",2,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT11_F","Transect","Unknown wasp sp. 21","morphospecies","non_bee_hymenoptera",2,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT11_B","Transect","Unknown wasp sp. 7","morphospecies","non_bee_hymenoptera",1,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT11_C","Transect","Unknown wasp sp. 7","morphospecies","non_bee_hymenoptera",1,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT11_D","Transect","Unknown wasp sp. 7","morphospecies","non_bee_hymenoptera",1,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT11_E","Transect","Unknown wasp sp. 7","morphospecies","non_bee_hymenoptera",1,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT11_F","Transect","Unknown wasp sp. 7","morphospecies","non_bee_hymenoptera",1,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT11_B","Transect","Andrena decipiens","species","other_wild_bees",1,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT11_C","Transect","Andrena decipiens","species","other_wild_bees",1,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT11_D","Transect","Andrena decipiens","species","other_wild_bees",1,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT11_E","Transect","Andrena decipiens","species","other_wild_bees",1,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT11_F","Transect","Andrena decipiens","species","other_wild_bees",1,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT11_B","Transect","Andrena lepida","species","other_wild_bees",43,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT11_C","Transect","Andrena lepida","species","other_wild_bees",43,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT11_D","Transect","Andrena lepida","species","other_wild_bees",43,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT11_E","Transect","Andrena lepida","species","other_wild_bees",43,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT11_F","Transect","Andrena lepida","species","other_wild_bees",43,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT11_B","Transect","Andrena mucida","species","other_wild_bees",1,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT11_C","Transect","Andrena mucida","species","other_wild_bees",1,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT11_D","Transect","Andrena mucida","species","other_wild_bees",1,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT11_E","Transect","Andrena mucida","species","other_wild_bees",1,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT11_F","Transect","Andrena mucida","species","other_wild_bees",1,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT11_B","Transect","Andrena rosae","species","other_wild_bees",1,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT11_C","Transect","Andrena rosae","species","other_wild_bees",1,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT11_D","Transect","Andrena rosae","species","other_wild_bees",1,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT11_E","Transect","Andrena rosae","species","other_wild_bees",1,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT11_F","Transect","Andrena rosae","species","other_wild_bees",1,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT11_B","Transect","Andrena variabilis","species","other_wild_bees",1,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT11_C","Transect","Andrena variabilis","species","other_wild_bees",1,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT11_D","Transect","Andrena variabilis","species","other_wild_bees",1,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT11_E","Transect","Andrena variabilis","species","other_wild_bees",1,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT11_F","Transect","Andrena variabilis","species","other_wild_bees",1,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT11_B","Transect","Halictus sajoi","species","other_wild_bees",1,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT11_C","Transect","Halictus sajoi","species","other_wild_bees",1,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT11_D","Transect","Halictus sajoi","species","other_wild_bees",1,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT11_E","Transect","Halictus sajoi","species","other_wild_bees",1,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT11_F","Transect","Halictus sajoi","species","other_wild_bees",1,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT11_B","Transect","Lasioglossum discum","species","other_wild_bees",1,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT11_C","Transect","Lasioglossum discum","species","other_wild_bees",1,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT11_D","Transect","Lasioglossum discum","species","other_wild_bees",1,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT11_E","Transect","Lasioglossum discum","species","other_wild_bees",1,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT11_F","Transect","Lasioglossum discum","species","other_wild_bees",1,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT11_B","Transect","Lasioglossum laevigatum","species","other_wild_bees",1,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT11_C","Transect","Lasioglossum laevigatum","species","other_wild_bees",1,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT11_D","Transect","Lasioglossum laevigatum","species","other_wild_bees",1,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT11_E","Transect","Lasioglossum laevigatum","species","other_wild_bees",1,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT11_F","Transect","Lasioglossum laevigatum","species","other_wild_bees",1,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT12_B","Transect","Andrena albopunctata","species","other_wild_bees",1,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT12_C","Transect","Andrena albopunctata","species","other_wild_bees",1,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT12_D","Transect","Andrena albopunctata","species","other_wild_bees",1,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT12_E","Transect","Andrena albopunctata","species","other_wild_bees",1,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT12_F","Transect","Andrena albopunctata","species","other_wild_bees",1,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT12_B","Transect","Andrena flavipes","species","other_wild_bees",26,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT12_C","Transect","Andrena flavipes","species","other_wild_bees",26,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT12_D","Transect","Andrena flavipes","species","other_wild_bees",26,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT12_E","Transect","Andrena flavipes","species","other_wild_bees",26,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT12_F","Transect","Andrena flavipes","species","other_wild_bees",26,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT12_B","Transect","Andrena pilipes","species","other_wild_bees",17,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT12_C","Transect","Andrena pilipes","species","other_wild_bees",17,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT12_D","Transect","Andrena pilipes","species","other_wild_bees",17,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT12_E","Transect","Andrena pilipes","species","other_wild_bees",17,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT12_F","Transect","Andrena pilipes","species","other_wild_bees",17,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT12_B","Transect","Andrena thoracica","species","other_wild_bees",1,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT12_C","Transect","Andrena thoracica","species","other_wild_bees",1,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT12_D","Transect","Andrena thoracica","species","other_wild_bees",1,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT12_E","Transect","Andrena thoracica","species","other_wild_bees",1,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT12_F","Transect","Andrena thoracica","species","other_wild_bees",1,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT12_B","Transect","Anthidium manicatum","species","other_wild_bees",4,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT12_C","Transect","Anthidium manicatum","species","other_wild_bees",4,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT12_D","Transect","Anthidium manicatum","species","other_wild_bees",4,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT12_E","Transect","Anthidium manicatum","species","other_wild_bees",4,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT12_F","Transect","Anthidium manicatum","species","other_wild_bees",4,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT12_B","Transect","Apis mellifera","species","honeybees",31,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT12_C","Transect","Apis mellifera","species","honeybees",31,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT12_D","Transect","Apis mellifera","species","honeybees",31,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT12_E","Transect","Apis mellifera","species","honeybees",31,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT12_F","Transect","Apis mellifera","species","honeybees",31,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT12_B","Transect","Bee sp.","morphospecies","other_wild_bees",1,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT12_C","Transect","Bee sp.","morphospecies","other_wild_bees",1,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT12_D","Transect","Bee sp.","morphospecies","other_wild_bees",1,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT12_E","Transect","Bee sp.","morphospecies","other_wild_bees",1,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT12_F","Transect","Bee sp.","morphospecies","other_wild_bees",1,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT12_B","Transect","Bombus lapidarius","species","bumblebees",57,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT12_C","Transect","Bombus lapidarius","species","bumblebees",57,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT12_D","Transect","Bombus lapidarius","species","bumblebees",57,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT12_E","Transect","Bombus lapidarius","species","bumblebees",57,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT12_F","Transect","Bombus lapidarius","species","bumblebees",57,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT12_B","Transect","Bombus terrestris","species","bumblebees",70,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT12_C","Transect","Bombus terrestris","species","bumblebees",70,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT12_D","Transect","Bombus terrestris","species","bumblebees",70,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT12_E","Transect","Bombus terrestris","species","bumblebees",70,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT12_F","Transect","Bombus terrestris","species","bumblebees",70,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT12_B","Transect","Episyrphus balteatus","species","syrphids",3,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT12_C","Transect","Episyrphus balteatus","species","syrphids",3,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT12_D","Transect","Episyrphus balteatus","species","syrphids",3,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT12_E","Transect","Episyrphus balteatus","species","syrphids",3,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT12_F","Transect","Episyrphus balteatus","species","syrphids",3,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT12_B","Transect","Eristalinus aeneus","species","syrphids",1,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT12_C","Transect","Eristalinus aeneus","species","syrphids",1,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT12_D","Transect","Eristalinus aeneus","species","syrphids",1,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT12_E","Transect","Eristalinus aeneus","species","syrphids",1,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT12_F","Transect","Eristalinus aeneus","species","syrphids",1,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT12_B","Transect","Eristalis arbustorum","species","syrphids",1,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT12_C","Transect","Eristalis arbustorum","species","syrphids",1,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT12_D","Transect","Eristalis arbustorum","species","syrphids",1,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT12_E","Transect","Eristalis arbustorum","species","syrphids",1,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT12_F","Transect","Eristalis arbustorum","species","syrphids",1,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT12_B","Transect","Eristalis tenax","species","syrphids",3,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT12_C","Transect","Eristalis tenax","species","syrphids",3,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT12_D","Transect","Eristalis tenax","species","syrphids",3,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT12_E","Transect","Eristalis tenax","species","syrphids",3,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT12_F","Transect","Eristalis tenax","species","syrphids",3,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT12_B","Transect","Eupeodes lapponicus","species","syrphids",2,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT12_C","Transect","Eupeodes lapponicus","species","syrphids",2,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT12_D","Transect","Eupeodes lapponicus","species","syrphids",2,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT12_E","Transect","Eupeodes lapponicus","species","syrphids",2,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT12_F","Transect","Eupeodes lapponicus","species","syrphids",2,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT12_B","Transect","Eupeodes latifasciatus","species","syrphids",2,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT12_C","Transect","Eupeodes latifasciatus","species","syrphids",2,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT12_D","Transect","Eupeodes latifasciatus","species","syrphids",2,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT12_E","Transect","Eupeodes latifasciatus","species","syrphids",2,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT12_F","Transect","Eupeodes latifasciatus","species","syrphids",2,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT12_B","Transect","Halictus scabiosae","species","other_wild_bees",4,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT12_C","Transect","Halictus scabiosae","species","other_wild_bees",4,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT12_D","Transect","Halictus scabiosae","species","other_wild_bees",4,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT12_E","Transect","Halictus scabiosae","species","other_wild_bees",4,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT12_F","Transect","Halictus scabiosae","species","other_wild_bees",4,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT12_B","Transect","Halictus sp.","morphospecies","other_wild_bees",1,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT12_C","Transect","Halictus sp.","morphospecies","other_wild_bees",1,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT12_D","Transect","Halictus sp.","morphospecies","other_wild_bees",1,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT12_E","Transect","Halictus sp.","morphospecies","other_wild_bees",1,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT12_F","Transect","Halictus sp.","morphospecies","other_wild_bees",1,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT12_B","Transect","Lasioglossum malachurum","species","other_wild_bees",6,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT12_C","Transect","Lasioglossum malachurum","species","other_wild_bees",6,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT12_D","Transect","Lasioglossum malachurum","species","other_wild_bees",6,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT12_E","Transect","Lasioglossum malachurum","species","other_wild_bees",6,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT12_F","Transect","Lasioglossum malachurum","species","other_wild_bees",6,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT12_B","Transect","Megascolia maculata","species","non_bee_hymenoptera",4,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT12_C","Transect","Megascolia maculata","species","non_bee_hymenoptera",4,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT12_D","Transect","Megascolia maculata","species","non_bee_hymenoptera",4,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT12_E","Transect","Megascolia maculata","species","non_bee_hymenoptera",4,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT12_F","Transect","Megascolia maculata","species","non_bee_hymenoptera",4,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT12_B","Transect","Polistes dominula","species","non_bee_hymenoptera",72,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT12_C","Transect","Polistes dominula","species","non_bee_hymenoptera",72,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT12_D","Transect","Polistes dominula","species","non_bee_hymenoptera",72,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT12_E","Transect","Polistes dominula","species","non_bee_hymenoptera",72,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT12_F","Transect","Polistes dominula","species","non_bee_hymenoptera",72,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT12_B","Transect","Sphaerophoria rueppelli","species","syrphids",4,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT12_C","Transect","Sphaerophoria rueppelli","species","syrphids",4,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT12_D","Transect","Sphaerophoria rueppelli","species","syrphids",4,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT12_E","Transect","Sphaerophoria rueppelli","species","syrphids",4,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT12_F","Transect","Sphaerophoria rueppelli","species","syrphids",4,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT12_B","Transect","Sphaerophoria scripta","species","syrphids",2,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT12_C","Transect","Sphaerophoria scripta","species","syrphids",2,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT12_D","Transect","Sphaerophoria scripta","species","syrphids",2,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT12_E","Transect","Sphaerophoria scripta","species","syrphids",2,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT12_F","Transect","Sphaerophoria scripta","species","syrphids",2,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT12_B","Transect","Syritta pipiens","species","syrphids",26,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT12_C","Transect","Syritta pipiens","species","syrphids",26,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT12_D","Transect","Syritta pipiens","species","syrphids",26,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT12_E","Transect","Syritta pipiens","species","syrphids",26,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT12_F","Transect","Syritta pipiens","species","syrphids",26,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT12_B","Transect","Syrphid sp.","morphospecies","syrphids",1,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT12_C","Transect","Syrphid sp.","morphospecies","syrphids",1,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT12_D","Transect","Syrphid sp.","morphospecies","syrphids",1,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT12_E","Transect","Syrphid sp.","morphospecies","syrphids",1,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT12_F","Transect","Syrphid sp.","morphospecies","syrphids",1,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT12_B","Transect","Xylocopa violacea","species","other_wild_bees",4,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT12_C","Transect","Xylocopa violacea","species","other_wild_bees",4,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT12_D","Transect","Xylocopa violacea","species","other_wild_bees",4,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT12_E","Transect","Xylocopa violacea","species","other_wild_bees",4,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT12_F","Transect","Xylocopa violacea","species","other_wild_bees",4,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT12_B","Transect","Lasioglossum pauperatum","species","other_wild_bees",1,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT12_C","Transect","Lasioglossum pauperatum","species","other_wild_bees",1,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT12_D","Transect","Lasioglossum pauperatum","species","other_wild_bees",1,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT12_E","Transect","Lasioglossum pauperatum","species","other_wild_bees",1,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT12_F","Transect","Lasioglossum pauperatum","species","other_wild_bees",1,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT12_B","Transect","Unknown wasp sp. 9","morphospecies","non_bee_hymenoptera",3,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT12_C","Transect","Unknown wasp sp. 9","morphospecies","non_bee_hymenoptera",3,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT12_D","Transect","Unknown wasp sp. 9","morphospecies","non_bee_hymenoptera",3,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT12_E","Transect","Unknown wasp sp. 9","morphospecies","non_bee_hymenoptera",3,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT12_F","Transect","Unknown wasp sp. 9","morphospecies","non_bee_hymenoptera",3,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT12_B","Transect","Vespula sp. 1","morphospecies","non_bee_hymenoptera",4,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT12_C","Transect","Vespula sp. 1","morphospecies","non_bee_hymenoptera",4,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT12_D","Transect","Vespula sp. 1","morphospecies","non_bee_hymenoptera",4,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT12_E","Transect","Vespula sp. 1","morphospecies","non_bee_hymenoptera",4,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT12_F","Transect","Vespula sp. 1","morphospecies","non_bee_hymenoptera",4,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT12_B","Transect","Andrena cf. limata","species","other_wild_bees",1,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT12_C","Transect","Andrena cf. limata","species","other_wild_bees",1,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT12_D","Transect","Andrena cf. limata","species","other_wild_bees",1,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT12_E","Transect","Andrena cf. limata","species","other_wild_bees",1,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT12_F","Transect","Andrena cf. limata","species","other_wild_bees",1,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT12_B","Transect","Andrena lepida","species","other_wild_bees",4,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT12_C","Transect","Andrena lepida","species","other_wild_bees",4,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT12_D","Transect","Andrena lepida","species","other_wild_bees",4,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT12_E","Transect","Andrena lepida","species","other_wild_bees",4,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT12_F","Transect","Andrena lepida","species","other_wild_bees",4,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT12_B","Transect","Andrena variabilis","species","other_wild_bees",9,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT12_C","Transect","Andrena variabilis","species","other_wild_bees",9,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT12_D","Transect","Andrena variabilis","species","other_wild_bees",9,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT12_E","Transect","Andrena variabilis","species","other_wild_bees",9,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT12_F","Transect","Andrena variabilis","species","other_wild_bees",9,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT13_C","Transect","Andrena flavipes","species","other_wild_bees",16,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT13_D","Transect","Andrena flavipes","species","other_wild_bees",16,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT13_E","Transect","Andrena flavipes","species","other_wild_bees",16,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT13_F","Transect","Andrena flavipes","species","other_wild_bees",16,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT13_C","Transect","Andrena pilipes","species","other_wild_bees",7,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT13_D","Transect","Andrena pilipes","species","other_wild_bees",7,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT13_E","Transect","Andrena pilipes","species","other_wild_bees",7,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT13_F","Transect","Andrena pilipes","species","other_wild_bees",7,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT13_C","Transect","Anthidium manicatum","species","other_wild_bees",2,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT13_D","Transect","Anthidium manicatum","species","other_wild_bees",2,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT13_E","Transect","Anthidium manicatum","species","other_wild_bees",2,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT13_F","Transect","Anthidium manicatum","species","other_wild_bees",2,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT13_C","Transect","Apis mellifera","species","honeybees",152,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT13_D","Transect","Apis mellifera","species","honeybees",152,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT13_E","Transect","Apis mellifera","species","honeybees",152,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT13_F","Transect","Apis mellifera","species","honeybees",152,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT13_C","Transect","Bombus terrestris","species","bumblebees",7,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT13_D","Transect","Bombus terrestris","species","bumblebees",7,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT13_E","Transect","Bombus terrestris","species","bumblebees",7,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT13_F","Transect","Bombus terrestris","species","bumblebees",7,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT13_C","Transect","Eristalinus aeneus","species","syrphids",1,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT13_D","Transect","Eristalinus aeneus","species","syrphids",1,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT13_E","Transect","Eristalinus aeneus","species","syrphids",1,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT13_F","Transect","Eristalinus aeneus","species","syrphids",1,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT13_C","Transect","Halictus scabiosae","species","other_wild_bees",5,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT13_D","Transect","Halictus scabiosae","species","other_wild_bees",5,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT13_E","Transect","Halictus scabiosae","species","other_wild_bees",5,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT13_F","Transect","Halictus scabiosae","species","other_wild_bees",5,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT13_C","Transect","Lasioglossum malachurum","species","other_wild_bees",10,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT13_D","Transect","Lasioglossum malachurum","species","other_wild_bees",10,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT13_E","Transect","Lasioglossum malachurum","species","other_wild_bees",10,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT13_F","Transect","Lasioglossum malachurum","species","other_wild_bees",10,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT13_C","Transect","Myathropa florea","species","syrphids",1,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT13_D","Transect","Myathropa florea","species","syrphids",1,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT13_E","Transect","Myathropa florea","species","syrphids",1,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT13_F","Transect","Myathropa florea","species","syrphids",1,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT13_C","Transect","Polistes dominula","species","non_bee_hymenoptera",53,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT13_D","Transect","Polistes dominula","species","non_bee_hymenoptera",53,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT13_E","Transect","Polistes dominula","species","non_bee_hymenoptera",53,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT13_F","Transect","Polistes dominula","species","non_bee_hymenoptera",53,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT13_C","Transect","Sphaerophoria rueppelli","species","syrphids",1,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT13_D","Transect","Sphaerophoria rueppelli","species","syrphids",1,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT13_E","Transect","Sphaerophoria rueppelli","species","syrphids",1,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT13_F","Transect","Sphaerophoria rueppelli","species","syrphids",1,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT13_C","Transect","Sphaerophoria scripta","species","syrphids",1,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT13_D","Transect","Sphaerophoria scripta","species","syrphids",1,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT13_E","Transect","Sphaerophoria scripta","species","syrphids",1,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT13_F","Transect","Sphaerophoria scripta","species","syrphids",1,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT13_C","Transect","Syritta pipiens","species","syrphids",1,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT13_D","Transect","Syritta pipiens","species","syrphids",1,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT13_E","Transect","Syritta pipiens","species","syrphids",1,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT13_F","Transect","Syritta pipiens","species","syrphids",1,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT13_C","Transect","Chrysididae sp. 1","morphospecies","non_bee_hymenoptera",1,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT13_D","Transect","Chrysididae sp. 1","morphospecies","non_bee_hymenoptera",1,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT13_E","Transect","Chrysididae sp. 1","morphospecies","non_bee_hymenoptera",1,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT13_F","Transect","Chrysididae sp. 1","morphospecies","non_bee_hymenoptera",1,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT13_C","Transect","Nomada fucata","species","other_wild_bees",1,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT13_D","Transect","Nomada fucata","species","other_wild_bees",1,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT13_E","Transect","Nomada fucata","species","other_wild_bees",1,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT13_F","Transect","Nomada fucata","species","other_wild_bees",1,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT13_C","Transect","Unknown wasp sp. 30","morphospecies","non_bee_hymenoptera",1,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT13_D","Transect","Unknown wasp sp. 30","morphospecies","non_bee_hymenoptera",1,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT13_E","Transect","Unknown wasp sp. 30","morphospecies","non_bee_hymenoptera",1,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT13_F","Transect","Unknown wasp sp. 30","morphospecies","non_bee_hymenoptera",1,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT13_C","Transect","Andrena cf. limata","species","other_wild_bees",1,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT13_D","Transect","Andrena cf. limata","species","other_wild_bees",1,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT13_E","Transect","Andrena cf. limata","species","other_wild_bees",1,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT13_F","Transect","Andrena cf. limata","species","other_wild_bees",1,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT13_C","Transect","Andrena decipiens","species","other_wild_bees",1,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT13_D","Transect","Andrena decipiens","species","other_wild_bees",1,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT13_E","Transect","Andrena decipiens","species","other_wild_bees",1,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT13_F","Transect","Andrena decipiens","species","other_wild_bees",1,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT13_C","Transect","Andrena lepida","species","other_wild_bees",6,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT13_D","Transect","Andrena lepida","species","other_wild_bees",6,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT13_E","Transect","Andrena lepida","species","other_wild_bees",6,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT13_F","Transect","Andrena lepida","species","other_wild_bees",6,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT13_C","Transect","Andrena variabilis","species","other_wild_bees",2,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT13_D","Transect","Andrena variabilis","species","other_wild_bees",2,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT13_E","Transect","Andrena variabilis","species","other_wild_bees",2,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT13_F","Transect","Andrena variabilis","species","other_wild_bees",2,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT13_C","Transect","Halictus sajoi","species","other_wild_bees",5,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT13_D","Transect","Halictus sajoi","species","other_wild_bees",5,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT13_E","Transect","Halictus sajoi","species","other_wild_bees",5,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT13_F","Transect","Halictus sajoi","species","other_wild_bees",5,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT13_C","Transect","Halictus vestitus","species","other_wild_bees",1,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT13_D","Transect","Halictus vestitus","species","other_wild_bees",1,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT13_E","Transect","Halictus vestitus","species","other_wild_bees",1,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT13_F","Transect","Halictus vestitus","species","other_wild_bees",1,600,60,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT14_B","Transect","Andrena albopunctata","species","other_wild_bees",1,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT14_C","Transect","Andrena albopunctata","species","other_wild_bees",1,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT14_D","Transect","Andrena albopunctata","species","other_wild_bees",1,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT14_E","Transect","Andrena albopunctata","species","other_wild_bees",1,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT14_F","Transect","Andrena albopunctata","species","other_wild_bees",1,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT14_B","Transect","Andrena flavipes","species","other_wild_bees",29,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT14_C","Transect","Andrena flavipes","species","other_wild_bees",29,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT14_D","Transect","Andrena flavipes","species","other_wild_bees",29,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT14_E","Transect","Andrena flavipes","species","other_wild_bees",29,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT14_F","Transect","Andrena flavipes","species","other_wild_bees",29,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT14_B","Transect","Andrena nigroaenea","species","other_wild_bees",1,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT14_C","Transect","Andrena nigroaenea","species","other_wild_bees",1,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT14_D","Transect","Andrena nigroaenea","species","other_wild_bees",1,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT14_E","Transect","Andrena nigroaenea","species","other_wild_bees",1,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT14_F","Transect","Andrena nigroaenea","species","other_wild_bees",1,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT14_B","Transect","Andrena pilipes","species","other_wild_bees",16,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT14_C","Transect","Andrena pilipes","species","other_wild_bees",16,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT14_D","Transect","Andrena pilipes","species","other_wild_bees",16,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT14_E","Transect","Andrena pilipes","species","other_wild_bees",16,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT14_F","Transect","Andrena pilipes","species","other_wild_bees",16,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT14_B","Transect","Andrena thoracica","species","other_wild_bees",1,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT14_C","Transect","Andrena thoracica","species","other_wild_bees",1,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT14_D","Transect","Andrena thoracica","species","other_wild_bees",1,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT14_E","Transect","Andrena thoracica","species","other_wild_bees",1,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT14_F","Transect","Andrena thoracica","species","other_wild_bees",1,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT14_B","Transect","Apis mellifera","species","honeybees",280,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT14_C","Transect","Apis mellifera","species","honeybees",280,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT14_D","Transect","Apis mellifera","species","honeybees",280,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT14_E","Transect","Apis mellifera","species","honeybees",280,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT14_F","Transect","Apis mellifera","species","honeybees",280,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT14_B","Transect","Bombus hortorum","species","bumblebees",2,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT14_C","Transect","Bombus hortorum","species","bumblebees",2,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT14_D","Transect","Bombus hortorum","species","bumblebees",2,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT14_E","Transect","Bombus hortorum","species","bumblebees",2,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT14_F","Transect","Bombus hortorum","species","bumblebees",2,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT14_B","Transect","Bombus pascuorum","species","bumblebees",4,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT14_C","Transect","Bombus pascuorum","species","bumblebees",4,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT14_D","Transect","Bombus pascuorum","species","bumblebees",4,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT14_E","Transect","Bombus pascuorum","species","bumblebees",4,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT14_F","Transect","Bombus pascuorum","species","bumblebees",4,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT14_B","Transect","Bombus terrestris","species","bumblebees",33,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT14_C","Transect","Bombus terrestris","species","bumblebees",33,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT14_D","Transect","Bombus terrestris","species","bumblebees",33,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT14_E","Transect","Bombus terrestris","species","bumblebees",33,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT14_F","Transect","Bombus terrestris","species","bumblebees",33,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT14_B","Transect","Eupeodes lapponicus","species","syrphids",2,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT14_C","Transect","Eupeodes lapponicus","species","syrphids",2,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT14_D","Transect","Eupeodes lapponicus","species","syrphids",2,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT14_E","Transect","Eupeodes lapponicus","species","syrphids",2,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT14_F","Transect","Eupeodes lapponicus","species","syrphids",2,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT14_B","Transect","Halictus scabiosae","species","other_wild_bees",33,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT14_C","Transect","Halictus scabiosae","species","other_wild_bees",33,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT14_D","Transect","Halictus scabiosae","species","other_wild_bees",33,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT14_E","Transect","Halictus scabiosae","species","other_wild_bees",33,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT14_F","Transect","Halictus scabiosae","species","other_wild_bees",33,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT14_B","Transect","Lasioglossum malachurum","species","other_wild_bees",35,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT14_C","Transect","Lasioglossum malachurum","species","other_wild_bees",35,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT14_D","Transect","Lasioglossum malachurum","species","other_wild_bees",35,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT14_E","Transect","Lasioglossum malachurum","species","other_wild_bees",35,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT14_F","Transect","Lasioglossum malachurum","species","other_wild_bees",35,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT14_B","Transect","Megascolia maculata","species","non_bee_hymenoptera",1,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT14_C","Transect","Megascolia maculata","species","non_bee_hymenoptera",1,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT14_D","Transect","Megascolia maculata","species","non_bee_hymenoptera",1,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT14_E","Transect","Megascolia maculata","species","non_bee_hymenoptera",1,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT14_F","Transect","Megascolia maculata","species","non_bee_hymenoptera",1,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT14_B","Transect","Myathropa florea","species","syrphids",1,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT14_C","Transect","Myathropa florea","species","syrphids",1,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT14_D","Transect","Myathropa florea","species","syrphids",1,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT14_E","Transect","Myathropa florea","species","syrphids",1,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT14_F","Transect","Myathropa florea","species","syrphids",1,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT14_B","Transect","Polistes dominula","species","non_bee_hymenoptera",47,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT14_C","Transect","Polistes dominula","species","non_bee_hymenoptera",47,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT14_D","Transect","Polistes dominula","species","non_bee_hymenoptera",47,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT14_E","Transect","Polistes dominula","species","non_bee_hymenoptera",47,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT14_F","Transect","Polistes dominula","species","non_bee_hymenoptera",47,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT14_B","Transect","Sphaerophoria rueppelli","species","syrphids",2,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT14_C","Transect","Sphaerophoria rueppelli","species","syrphids",2,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT14_D","Transect","Sphaerophoria rueppelli","species","syrphids",2,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT14_E","Transect","Sphaerophoria rueppelli","species","syrphids",2,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT14_F","Transect","Sphaerophoria rueppelli","species","syrphids",2,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT14_B","Transect","Sphaerophoria scripta","species","syrphids",10,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT14_C","Transect","Sphaerophoria scripta","species","syrphids",10,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT14_D","Transect","Sphaerophoria scripta","species","syrphids",10,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT14_E","Transect","Sphaerophoria scripta","species","syrphids",10,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT14_F","Transect","Sphaerophoria scripta","species","syrphids",10,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT14_B","Transect","Syritta pipiens","species","syrphids",39,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT14_C","Transect","Syritta pipiens","species","syrphids",39,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT14_D","Transect","Syritta pipiens","species","syrphids",39,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT14_E","Transect","Syritta pipiens","species","syrphids",39,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT14_F","Transect","Syritta pipiens","species","syrphids",39,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT14_B","Transect","Xylocopa violacea","species","other_wild_bees",1,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT14_C","Transect","Xylocopa violacea","species","other_wild_bees",1,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT14_D","Transect","Xylocopa violacea","species","other_wild_bees",1,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT14_E","Transect","Xylocopa violacea","species","other_wild_bees",1,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT14_F","Transect","Xylocopa violacea","species","other_wild_bees",1,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT14_B","Transect","Lasioglossum leucozonium","species","other_wild_bees",1,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT14_C","Transect","Lasioglossum leucozonium","species","other_wild_bees",1,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT14_D","Transect","Lasioglossum leucozonium","species","other_wild_bees",1,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT14_E","Transect","Lasioglossum leucozonium","species","other_wild_bees",1,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT14_F","Transect","Lasioglossum leucozonium","species","other_wild_bees",1,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT14_B","Transect","Nomada fucata","species","other_wild_bees",1,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT14_C","Transect","Nomada fucata","species","other_wild_bees",1,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT14_D","Transect","Nomada fucata","species","other_wild_bees",1,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT14_E","Transect","Nomada fucata","species","other_wild_bees",1,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT14_F","Transect","Nomada fucata","species","other_wild_bees",1,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT14_B","Transect","Unknown wasp sp. 14","morphospecies","non_bee_hymenoptera",4,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT14_C","Transect","Unknown wasp sp. 14","morphospecies","non_bee_hymenoptera",4,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT14_D","Transect","Unknown wasp sp. 14","morphospecies","non_bee_hymenoptera",4,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT14_E","Transect","Unknown wasp sp. 14","morphospecies","non_bee_hymenoptera",4,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT14_F","Transect","Unknown wasp sp. 14","morphospecies","non_bee_hymenoptera",4,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT14_B","Transect","Unknown wasp sp. 18","morphospecies","non_bee_hymenoptera",1,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT14_C","Transect","Unknown wasp sp. 18","morphospecies","non_bee_hymenoptera",1,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT14_D","Transect","Unknown wasp sp. 18","morphospecies","non_bee_hymenoptera",1,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT14_E","Transect","Unknown wasp sp. 18","morphospecies","non_bee_hymenoptera",1,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT14_F","Transect","Unknown wasp sp. 18","morphospecies","non_bee_hymenoptera",1,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT14_B","Transect","Andrena lepida","species","other_wild_bees",13,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT14_C","Transect","Andrena lepida","species","other_wild_bees",13,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT14_D","Transect","Andrena lepida","species","other_wild_bees",13,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT14_E","Transect","Andrena lepida","species","other_wild_bees",13,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT14_F","Transect","Andrena lepida","species","other_wild_bees",13,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT14_B","Transect","Andrena variabilis","species","other_wild_bees",1,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT14_C","Transect","Andrena variabilis","species","other_wild_bees",1,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT14_D","Transect","Andrena variabilis","species","other_wild_bees",1,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT14_E","Transect","Andrena variabilis","species","other_wild_bees",1,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT14_F","Transect","Andrena variabilis","species","other_wild_bees",1,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT14_B","Transect","Eucera clypeata","species","other_wild_bees",3,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT14_C","Transect","Eucera clypeata","species","other_wild_bees",3,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT14_D","Transect","Eucera clypeata","species","other_wild_bees",3,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT14_E","Transect","Eucera clypeata","species","other_wild_bees",3,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT14_F","Transect","Eucera clypeata","species","other_wild_bees",3,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT14_B","Transect","Halictus sajoi","species","other_wild_bees",2,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT14_C","Transect","Halictus sajoi","species","other_wild_bees",2,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT14_D","Transect","Halictus sajoi","species","other_wild_bees",2,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT14_E","Transect","Halictus sajoi","species","other_wild_bees",2,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT14_F","Transect","Halictus sajoi","species","other_wild_bees",2,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT14_B","Transect","Lasioglossum bimaculatum","species","other_wild_bees",2,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT14_C","Transect","Lasioglossum bimaculatum","species","other_wild_bees",2,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT14_D","Transect","Lasioglossum bimaculatum","species","other_wild_bees",2,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT14_E","Transect","Lasioglossum bimaculatum","species","other_wild_bees",2,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT14_F","Transect","Lasioglossum bimaculatum","species","other_wild_bees",2,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT15_B","Transect","Andrena flavipes","species","other_wild_bees",15,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT15_C","Transect","Andrena flavipes","species","other_wild_bees",15,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT15_D","Transect","Andrena flavipes","species","other_wild_bees",15,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT15_E","Transect","Andrena flavipes","species","other_wild_bees",15,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT15_F","Transect","Andrena flavipes","species","other_wild_bees",15,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT15_B","Transect","Andrena pilipes","species","other_wild_bees",3,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT15_C","Transect","Andrena pilipes","species","other_wild_bees",3,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT15_D","Transect","Andrena pilipes","species","other_wild_bees",3,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT15_E","Transect","Andrena pilipes","species","other_wild_bees",3,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT15_F","Transect","Andrena pilipes","species","other_wild_bees",3,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT15_B","Transect","Andrena sp.","morphospecies","other_wild_bees",1,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT15_C","Transect","Andrena sp.","morphospecies","other_wild_bees",1,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT15_D","Transect","Andrena sp.","morphospecies","other_wild_bees",1,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT15_E","Transect","Andrena sp.","morphospecies","other_wild_bees",1,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT15_F","Transect","Andrena sp.","morphospecies","other_wild_bees",1,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT15_B","Transect","Apis mellifera","species","honeybees",595,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT15_C","Transect","Apis mellifera","species","honeybees",595,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT15_D","Transect","Apis mellifera","species","honeybees",595,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT15_E","Transect","Apis mellifera","species","honeybees",595,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT15_F","Transect","Apis mellifera","species","honeybees",595,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT15_B","Transect","Bombus hortorum","species","bumblebees",2,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT15_C","Transect","Bombus hortorum","species","bumblebees",2,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT15_D","Transect","Bombus hortorum","species","bumblebees",2,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT15_E","Transect","Bombus hortorum","species","bumblebees",2,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT15_F","Transect","Bombus hortorum","species","bumblebees",2,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT15_B","Transect","Bombus terrestris","species","bumblebees",8,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT15_C","Transect","Bombus terrestris","species","bumblebees",8,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT15_D","Transect","Bombus terrestris","species","bumblebees",8,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT15_E","Transect","Bombus terrestris","species","bumblebees",8,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT15_F","Transect","Bombus terrestris","species","bumblebees",8,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT15_B","Transect","Eristalis arbustorum","species","syrphids",1,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT15_C","Transect","Eristalis arbustorum","species","syrphids",1,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT15_D","Transect","Eristalis arbustorum","species","syrphids",1,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT15_E","Transect","Eristalis arbustorum","species","syrphids",1,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT15_F","Transect","Eristalis arbustorum","species","syrphids",1,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT15_B","Transect","Eristalis tenax","species","syrphids",2,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT15_C","Transect","Eristalis tenax","species","syrphids",2,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT15_D","Transect","Eristalis tenax","species","syrphids",2,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT15_E","Transect","Eristalis tenax","species","syrphids",2,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT15_F","Transect","Eristalis tenax","species","syrphids",2,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT15_B","Transect","Eupeodes lapponicus","species","syrphids",3,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT15_C","Transect","Eupeodes lapponicus","species","syrphids",3,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT15_D","Transect","Eupeodes lapponicus","species","syrphids",3,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT15_E","Transect","Eupeodes lapponicus","species","syrphids",3,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT15_F","Transect","Eupeodes lapponicus","species","syrphids",3,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT15_B","Transect","Megascolia maculata","species","non_bee_hymenoptera",5,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT15_C","Transect","Megascolia maculata","species","non_bee_hymenoptera",5,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT15_D","Transect","Megascolia maculata","species","non_bee_hymenoptera",5,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT15_E","Transect","Megascolia maculata","species","non_bee_hymenoptera",5,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT15_F","Transect","Megascolia maculata","species","non_bee_hymenoptera",5,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT15_B","Transect","Myathropa florea","species","syrphids",1,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT15_C","Transect","Myathropa florea","species","syrphids",1,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT15_D","Transect","Myathropa florea","species","syrphids",1,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT15_E","Transect","Myathropa florea","species","syrphids",1,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT15_F","Transect","Myathropa florea","species","syrphids",1,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT15_B","Transect","Polistes dominula","species","non_bee_hymenoptera",29,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT15_C","Transect","Polistes dominula","species","non_bee_hymenoptera",29,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT15_D","Transect","Polistes dominula","species","non_bee_hymenoptera",29,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT15_E","Transect","Polistes dominula","species","non_bee_hymenoptera",29,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT15_F","Transect","Polistes dominula","species","non_bee_hymenoptera",29,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT15_B","Transect","Sphaerophoria rueppelli","species","syrphids",6,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT15_C","Transect","Sphaerophoria rueppelli","species","syrphids",6,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT15_D","Transect","Sphaerophoria rueppelli","species","syrphids",6,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT15_E","Transect","Sphaerophoria rueppelli","species","syrphids",6,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT15_F","Transect","Sphaerophoria rueppelli","species","syrphids",6,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT15_B","Transect","Sphaerophoria scripta","species","syrphids",11,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT15_C","Transect","Sphaerophoria scripta","species","syrphids",11,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT15_D","Transect","Sphaerophoria scripta","species","syrphids",11,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT15_E","Transect","Sphaerophoria scripta","species","syrphids",11,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT15_F","Transect","Sphaerophoria scripta","species","syrphids",11,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT15_B","Transect","Syritta pipiens","species","syrphids",46,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT15_C","Transect","Syritta pipiens","species","syrphids",46,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT15_D","Transect","Syritta pipiens","species","syrphids",46,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT15_E","Transect","Syritta pipiens","species","syrphids",46,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT15_F","Transect","Syritta pipiens","species","syrphids",46,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT15_B","Transect","Xylocopa violacea","species","other_wild_bees",2,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT15_C","Transect","Xylocopa violacea","species","other_wild_bees",2,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT15_D","Transect","Xylocopa violacea","species","other_wild_bees",2,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT15_E","Transect","Xylocopa violacea","species","other_wild_bees",2,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT15_F","Transect","Xylocopa violacea","species","other_wild_bees",2,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT15_B","Transect","Eristalinus taeniops","species","syrphids",1,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT15_C","Transect","Eristalinus taeniops","species","syrphids",1,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT15_D","Transect","Eristalinus taeniops","species","syrphids",1,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT15_E","Transect","Eristalinus taeniops","species","syrphids",1,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT15_F","Transect","Eristalinus taeniops","species","syrphids",1,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT15_B","Transect","Sphaerophoria sp. 2","morphospecies","syrphids",1,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT15_C","Transect","Sphaerophoria sp. 2","morphospecies","syrphids",1,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT15_D","Transect","Sphaerophoria sp. 2","morphospecies","syrphids",1,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT15_E","Transect","Sphaerophoria sp. 2","morphospecies","syrphids",1,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT15_F","Transect","Sphaerophoria sp. 2","morphospecies","syrphids",1,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT15_B","Transect","Andrena lepida","species","other_wild_bees",17,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT15_C","Transect","Andrena lepida","species","other_wild_bees",17,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT15_D","Transect","Andrena lepida","species","other_wild_bees",17,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT15_E","Transect","Andrena lepida","species","other_wild_bees",17,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT15_F","Transect","Andrena lepida","species","other_wild_bees",17,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT15_B","Transect","Andrena variabilis","species","other_wild_bees",1,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT15_C","Transect","Andrena variabilis","species","other_wild_bees",1,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT15_D","Transect","Andrena variabilis","species","other_wild_bees",1,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT15_E","Transect","Andrena variabilis","species","other_wild_bees",1,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT15_F","Transect","Andrena variabilis","species","other_wild_bees",1,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT15_B","Transect","Eucera clypeata","species","other_wild_bees",1,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT15_C","Transect","Eucera clypeata","species","other_wild_bees",1,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT15_D","Transect","Eucera clypeata","species","other_wild_bees",1,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT15_E","Transect","Eucera clypeata","species","other_wild_bees",1,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT15_F","Transect","Eucera clypeata","species","other_wild_bees",1,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT16_B","Transect","Andrena albopunctata","species","other_wild_bees",5,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT16_C","Transect","Andrena albopunctata","species","other_wild_bees",5,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT16_D","Transect","Andrena albopunctata","species","other_wild_bees",5,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT16_E","Transect","Andrena albopunctata","species","other_wild_bees",5,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT16_F","Transect","Andrena albopunctata","species","other_wild_bees",5,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT16_B","Transect","Andrena flavipes","species","other_wild_bees",265,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT16_C","Transect","Andrena flavipes","species","other_wild_bees",265,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT16_D","Transect","Andrena flavipes","species","other_wild_bees",265,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT16_E","Transect","Andrena flavipes","species","other_wild_bees",265,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT16_F","Transect","Andrena flavipes","species","other_wild_bees",265,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT16_B","Transect","Andrena pilipes","species","other_wild_bees",175,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT16_C","Transect","Andrena pilipes","species","other_wild_bees",175,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT16_D","Transect","Andrena pilipes","species","other_wild_bees",175,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT16_E","Transect","Andrena pilipes","species","other_wild_bees",175,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT16_F","Transect","Andrena pilipes","species","other_wild_bees",175,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT16_B","Transect","Andrena thoracica","species","other_wild_bees",7,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT16_C","Transect","Andrena thoracica","species","other_wild_bees",7,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT16_D","Transect","Andrena thoracica","species","other_wild_bees",7,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT16_E","Transect","Andrena thoracica","species","other_wild_bees",7,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT16_F","Transect","Andrena thoracica","species","other_wild_bees",7,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT16_B","Transect","Apis mellifera","species","honeybees",1236,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT16_C","Transect","Apis mellifera","species","honeybees",1236,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT16_D","Transect","Apis mellifera","species","honeybees",1236,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT16_E","Transect","Apis mellifera","species","honeybees",1236,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT16_F","Transect","Apis mellifera","species","honeybees",1236,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT16_B","Transect","Bombus terrestris","species","bumblebees",1,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT16_C","Transect","Bombus terrestris","species","bumblebees",1,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT16_D","Transect","Bombus terrestris","species","bumblebees",1,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT16_E","Transect","Bombus terrestris","species","bumblebees",1,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT16_F","Transect","Bombus terrestris","species","bumblebees",1,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT16_B","Transect","Eristalinus aeneus","species","syrphids",12,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT16_C","Transect","Eristalinus aeneus","species","syrphids",12,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT16_D","Transect","Eristalinus aeneus","species","syrphids",12,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT16_E","Transect","Eristalinus aeneus","species","syrphids",12,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT16_F","Transect","Eristalinus aeneus","species","syrphids",12,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT16_B","Transect","Eristalis arbustorum","species","syrphids",16,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT16_C","Transect","Eristalis arbustorum","species","syrphids",16,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT16_D","Transect","Eristalis arbustorum","species","syrphids",16,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT16_E","Transect","Eristalis arbustorum","species","syrphids",16,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT16_F","Transect","Eristalis arbustorum","species","syrphids",16,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT16_B","Transect","Eristalis tenax","species","syrphids",4,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT16_C","Transect","Eristalis tenax","species","syrphids",4,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT16_D","Transect","Eristalis tenax","species","syrphids",4,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT16_E","Transect","Eristalis tenax","species","syrphids",4,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT16_F","Transect","Eristalis tenax","species","syrphids",4,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT16_B","Transect","Halictus scabiosae","species","other_wild_bees",18,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT16_C","Transect","Halictus scabiosae","species","other_wild_bees",18,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT16_D","Transect","Halictus scabiosae","species","other_wild_bees",18,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT16_E","Transect","Halictus scabiosae","species","other_wild_bees",18,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT16_F","Transect","Halictus scabiosae","species","other_wild_bees",18,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT16_B","Transect","Lasioglossum malachurum","species","other_wild_bees",167,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT16_C","Transect","Lasioglossum malachurum","species","other_wild_bees",167,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT16_D","Transect","Lasioglossum malachurum","species","other_wild_bees",167,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT16_E","Transect","Lasioglossum malachurum","species","other_wild_bees",167,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT16_F","Transect","Lasioglossum malachurum","species","other_wild_bees",167,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT16_B","Transect","Lasioglossum sp.","morphospecies","other_wild_bees",5,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT16_C","Transect","Lasioglossum sp.","morphospecies","other_wild_bees",5,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT16_D","Transect","Lasioglossum sp.","morphospecies","other_wild_bees",5,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT16_E","Transect","Lasioglossum sp.","morphospecies","other_wild_bees",5,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT16_F","Transect","Lasioglossum sp.","morphospecies","other_wild_bees",5,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT16_B","Transect","Megascolia maculata","species","non_bee_hymenoptera",4,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT16_C","Transect","Megascolia maculata","species","non_bee_hymenoptera",4,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT16_D","Transect","Megascolia maculata","species","non_bee_hymenoptera",4,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT16_E","Transect","Megascolia maculata","species","non_bee_hymenoptera",4,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT16_F","Transect","Megascolia maculata","species","non_bee_hymenoptera",4,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT16_B","Transect","Nomada sp.","morphospecies","other_wild_bees",2,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT16_C","Transect","Nomada sp.","morphospecies","other_wild_bees",2,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT16_D","Transect","Nomada sp.","morphospecies","other_wild_bees",2,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT16_E","Transect","Nomada sp.","morphospecies","other_wild_bees",2,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT16_F","Transect","Nomada sp.","morphospecies","other_wild_bees",2,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT16_B","Transect","Polistes dominula","species","non_bee_hymenoptera",58,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT16_C","Transect","Polistes dominula","species","non_bee_hymenoptera",58,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT16_D","Transect","Polistes dominula","species","non_bee_hymenoptera",58,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT16_E","Transect","Polistes dominula","species","non_bee_hymenoptera",58,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT16_F","Transect","Polistes dominula","species","non_bee_hymenoptera",58,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT16_B","Transect","Sphaerophoria rueppelli","species","syrphids",18,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT16_C","Transect","Sphaerophoria rueppelli","species","syrphids",18,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT16_D","Transect","Sphaerophoria rueppelli","species","syrphids",18,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT16_E","Transect","Sphaerophoria rueppelli","species","syrphids",18,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT16_F","Transect","Sphaerophoria rueppelli","species","syrphids",18,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT16_B","Transect","Sphaerophoria scripta","species","syrphids",87,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT16_C","Transect","Sphaerophoria scripta","species","syrphids",87,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT16_D","Transect","Sphaerophoria scripta","species","syrphids",87,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT16_E","Transect","Sphaerophoria scripta","species","syrphids",87,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT16_F","Transect","Sphaerophoria scripta","species","syrphids",87,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT16_B","Transect","Syritta pipiens","species","syrphids",74,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT16_C","Transect","Syritta pipiens","species","syrphids",74,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT16_D","Transect","Syritta pipiens","species","syrphids",74,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT16_E","Transect","Syritta pipiens","species","syrphids",74,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT16_F","Transect","Syritta pipiens","species","syrphids",74,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT16_B","Transect","Cheilosia sp. 1","morphospecies","syrphids",1,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT16_C","Transect","Cheilosia sp. 1","morphospecies","syrphids",1,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT16_D","Transect","Cheilosia sp. 1","morphospecies","syrphids",1,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT16_E","Transect","Cheilosia sp. 1","morphospecies","syrphids",1,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT16_F","Transect","Cheilosia sp. 1","morphospecies","syrphids",1,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT16_B","Transect","Eristalis similis","species","syrphids",1,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT16_C","Transect","Eristalis similis","species","syrphids",1,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT16_D","Transect","Eristalis similis","species","syrphids",1,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT16_E","Transect","Eristalis similis","species","syrphids",1,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT16_F","Transect","Eristalis similis","species","syrphids",1,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT16_B","Transect","Helophilus trivittatus","species","syrphids",1,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT16_C","Transect","Helophilus trivittatus","species","syrphids",1,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT16_D","Transect","Helophilus trivittatus","species","syrphids",1,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT16_E","Transect","Helophilus trivittatus","species","syrphids",1,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT16_F","Transect","Helophilus trivittatus","species","syrphids",1,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT16_B","Transect","Nomada fucata","species","other_wild_bees",2,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT16_C","Transect","Nomada fucata","species","other_wild_bees",2,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT16_D","Transect","Nomada fucata","species","other_wild_bees",2,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT16_E","Transect","Nomada fucata","species","other_wild_bees",2,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT16_F","Transect","Nomada fucata","species","other_wild_bees",2,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT16_B","Transect","Sphaerophoria sp. 2","morphospecies","syrphids",1,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT16_C","Transect","Sphaerophoria sp. 2","morphospecies","syrphids",1,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT16_D","Transect","Sphaerophoria sp. 2","morphospecies","syrphids",1,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT16_E","Transect","Sphaerophoria sp. 2","morphospecies","syrphids",1,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT16_F","Transect","Sphaerophoria sp. 2","morphospecies","syrphids",1,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT16_B","Transect","Sphecodes monilicornis","species","other_wild_bees",3,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT16_C","Transect","Sphecodes monilicornis","species","other_wild_bees",3,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT16_D","Transect","Sphecodes monilicornis","species","other_wild_bees",3,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT16_E","Transect","Sphecodes monilicornis","species","other_wild_bees",3,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT16_F","Transect","Sphecodes monilicornis","species","other_wild_bees",3,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT16_B","Transect","Unknown wasp sp. 13","morphospecies","non_bee_hymenoptera",1,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT16_C","Transect","Unknown wasp sp. 13","morphospecies","non_bee_hymenoptera",1,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT16_D","Transect","Unknown wasp sp. 13","morphospecies","non_bee_hymenoptera",1,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT16_E","Transect","Unknown wasp sp. 13","morphospecies","non_bee_hymenoptera",1,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT16_F","Transect","Unknown wasp sp. 13","morphospecies","non_bee_hymenoptera",1,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT16_B","Transect","Unknown wasp sp. 16","morphospecies","non_bee_hymenoptera",1,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT16_C","Transect","Unknown wasp sp. 16","morphospecies","non_bee_hymenoptera",1,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT16_D","Transect","Unknown wasp sp. 16","morphospecies","non_bee_hymenoptera",1,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT16_E","Transect","Unknown wasp sp. 16","morphospecies","non_bee_hymenoptera",1,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT16_F","Transect","Unknown wasp sp. 16","morphospecies","non_bee_hymenoptera",1,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT16_B","Transect","Unknown wasp sp. 21","morphospecies","non_bee_hymenoptera",3,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT16_C","Transect","Unknown wasp sp. 21","morphospecies","non_bee_hymenoptera",3,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT16_D","Transect","Unknown wasp sp. 21","morphospecies","non_bee_hymenoptera",3,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT16_E","Transect","Unknown wasp sp. 21","morphospecies","non_bee_hymenoptera",3,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT16_F","Transect","Unknown wasp sp. 21","morphospecies","non_bee_hymenoptera",3,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT16_B","Transect","Unknown wasp sp. 5","morphospecies","non_bee_hymenoptera",1,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT16_C","Transect","Unknown wasp sp. 5","morphospecies","non_bee_hymenoptera",1,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT16_D","Transect","Unknown wasp sp. 5","morphospecies","non_bee_hymenoptera",1,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT16_E","Transect","Unknown wasp sp. 5","morphospecies","non_bee_hymenoptera",1,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT16_F","Transect","Unknown wasp sp. 5","morphospecies","non_bee_hymenoptera",1,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT16_B","Transect","Andrena decipiens","species","other_wild_bees",2,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT16_C","Transect","Andrena decipiens","species","other_wild_bees",2,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT16_D","Transect","Andrena decipiens","species","other_wild_bees",2,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT16_E","Transect","Andrena decipiens","species","other_wild_bees",2,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT16_F","Transect","Andrena decipiens","species","other_wild_bees",2,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT16_B","Transect","Andrena lepida","species","other_wild_bees",141,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT16_C","Transect","Andrena lepida","species","other_wild_bees",141,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT16_D","Transect","Andrena lepida","species","other_wild_bees",141,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT16_E","Transect","Andrena lepida","species","other_wild_bees",141,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT16_F","Transect","Andrena lepida","species","other_wild_bees",141,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT16_B","Transect","Ceratina nigrolabiata","species","other_wild_bees",5,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT16_C","Transect","Ceratina nigrolabiata","species","other_wild_bees",5,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT16_D","Transect","Ceratina nigrolabiata","species","other_wild_bees",5,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT16_E","Transect","Ceratina nigrolabiata","species","other_wild_bees",5,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT16_F","Transect","Ceratina nigrolabiata","species","other_wild_bees",5,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT16_B","Transect","Halictus brunnescens","species","other_wild_bees",1,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT16_C","Transect","Halictus brunnescens","species","other_wild_bees",1,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT16_D","Transect","Halictus brunnescens","species","other_wild_bees",1,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT16_E","Transect","Halictus brunnescens","species","other_wild_bees",1,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT16_F","Transect","Halictus brunnescens","species","other_wild_bees",1,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT16_B","Transect","Halictus vestitus","species","other_wild_bees",3,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT16_C","Transect","Halictus vestitus","species","other_wild_bees",3,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT16_D","Transect","Halictus vestitus","species","other_wild_bees",3,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT16_E","Transect","Halictus vestitus","species","other_wild_bees",3,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT16_F","Transect","Halictus vestitus","species","other_wild_bees",3,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT16_B","Transect","Lasioglossum discum","species","other_wild_bees",11,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT16_C","Transect","Lasioglossum discum","species","other_wild_bees",11,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT16_D","Transect","Lasioglossum discum","species","other_wild_bees",11,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT16_E","Transect","Lasioglossum discum","species","other_wild_bees",11,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT16_F","Transect","Lasioglossum discum","species","other_wild_bees",11,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT16_B","Transect","Nomada goodeniana","species","other_wild_bees",6,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT16_C","Transect","Nomada goodeniana","species","other_wild_bees",6,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT16_D","Transect","Nomada goodeniana","species","other_wild_bees",6,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT16_E","Transect","Nomada goodeniana","species","other_wild_bees",6,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT16_F","Transect","Nomada goodeniana","species","other_wild_bees",6,750,75,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT17_B","Transect","Andrena albopunctata","species","other_wild_bees",1,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT17_C","Transect","Andrena albopunctata","species","other_wild_bees",1,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT17_D","Transect","Andrena albopunctata","species","other_wild_bees",1,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT17_E","Transect","Andrena albopunctata","species","other_wild_bees",1,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT17_F","Transect","Andrena albopunctata","species","other_wild_bees",1,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT17_B","Transect","Andrena flavipes","species","other_wild_bees",132,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT17_C","Transect","Andrena flavipes","species","other_wild_bees",132,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT17_D","Transect","Andrena flavipes","species","other_wild_bees",132,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT17_E","Transect","Andrena flavipes","species","other_wild_bees",132,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT17_F","Transect","Andrena flavipes","species","other_wild_bees",132,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT17_B","Transect","Andrena pilipes","species","other_wild_bees",35,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT17_C","Transect","Andrena pilipes","species","other_wild_bees",35,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT17_D","Transect","Andrena pilipes","species","other_wild_bees",35,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT17_E","Transect","Andrena pilipes","species","other_wild_bees",35,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT17_F","Transect","Andrena pilipes","species","other_wild_bees",35,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT17_B","Transect","Andrena thoracica","species","other_wild_bees",3,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT17_C","Transect","Andrena thoracica","species","other_wild_bees",3,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT17_D","Transect","Andrena thoracica","species","other_wild_bees",3,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT17_E","Transect","Andrena thoracica","species","other_wild_bees",3,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT17_F","Transect","Andrena thoracica","species","other_wild_bees",3,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT17_B","Transect","Apis mellifera","species","honeybees",250,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT17_C","Transect","Apis mellifera","species","honeybees",250,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT17_D","Transect","Apis mellifera","species","honeybees",250,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT17_E","Transect","Apis mellifera","species","honeybees",250,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT17_F","Transect","Apis mellifera","species","honeybees",250,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT17_B","Transect","Bombus terrestris","species","bumblebees",3,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT17_C","Transect","Bombus terrestris","species","bumblebees",3,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT17_D","Transect","Bombus terrestris","species","bumblebees",3,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT17_E","Transect","Bombus terrestris","species","bumblebees",3,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT17_F","Transect","Bombus terrestris","species","bumblebees",3,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT17_B","Transect","Halictus scabiosae","species","other_wild_bees",13,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT17_C","Transect","Halictus scabiosae","species","other_wild_bees",13,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT17_D","Transect","Halictus scabiosae","species","other_wild_bees",13,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT17_E","Transect","Halictus scabiosae","species","other_wild_bees",13,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT17_F","Transect","Halictus scabiosae","species","other_wild_bees",13,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT17_B","Transect","Lasioglossum malachurum","species","other_wild_bees",78,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT17_C","Transect","Lasioglossum malachurum","species","other_wild_bees",78,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT17_D","Transect","Lasioglossum malachurum","species","other_wild_bees",78,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT17_E","Transect","Lasioglossum malachurum","species","other_wild_bees",78,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT17_F","Transect","Lasioglossum malachurum","species","other_wild_bees",78,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT17_B","Transect","Polistes dominula","species","non_bee_hymenoptera",38,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT17_C","Transect","Polistes dominula","species","non_bee_hymenoptera",38,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT17_D","Transect","Polistes dominula","species","non_bee_hymenoptera",38,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT17_E","Transect","Polistes dominula","species","non_bee_hymenoptera",38,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT17_F","Transect","Polistes dominula","species","non_bee_hymenoptera",38,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT17_B","Transect","Sphaerophoria scripta","species","syrphids",3,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT17_C","Transect","Sphaerophoria scripta","species","syrphids",3,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT17_D","Transect","Sphaerophoria scripta","species","syrphids",3,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT17_E","Transect","Sphaerophoria scripta","species","syrphids",3,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT17_F","Transect","Sphaerophoria scripta","species","syrphids",3,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT17_B","Transect","Syritta pipiens","species","syrphids",2,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT17_C","Transect","Syritta pipiens","species","syrphids",2,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT17_D","Transect","Syritta pipiens","species","syrphids",2,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT17_E","Transect","Syritta pipiens","species","syrphids",2,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT17_F","Transect","Syritta pipiens","species","syrphids",2,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT17_B","Transect","Unknown wasp sp. 21","morphospecies","non_bee_hymenoptera",1,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT17_C","Transect","Unknown wasp sp. 21","morphospecies","non_bee_hymenoptera",1,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT17_D","Transect","Unknown wasp sp. 21","morphospecies","non_bee_hymenoptera",1,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT17_E","Transect","Unknown wasp sp. 21","morphospecies","non_bee_hymenoptera",1,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT17_F","Transect","Unknown wasp sp. 21","morphospecies","non_bee_hymenoptera",1,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT17_B","Transect","Andrena dorsata","species","other_wild_bees",2,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT17_C","Transect","Andrena dorsata","species","other_wild_bees",2,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT17_D","Transect","Andrena dorsata","species","other_wild_bees",2,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT17_E","Transect","Andrena dorsata","species","other_wild_bees",2,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT17_F","Transect","Andrena dorsata","species","other_wild_bees",2,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT17_B","Transect","Andrena lepida","species","other_wild_bees",24,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT17_C","Transect","Andrena lepida","species","other_wild_bees",24,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT17_D","Transect","Andrena lepida","species","other_wild_bees",24,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT17_E","Transect","Andrena lepida","species","other_wild_bees",24,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT17_F","Transect","Andrena lepida","species","other_wild_bees",24,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT17_B","Transect","Andrena variabilis","species","other_wild_bees",6,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT17_C","Transect","Andrena variabilis","species","other_wild_bees",6,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT17_D","Transect","Andrena variabilis","species","other_wild_bees",6,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT17_E","Transect","Andrena variabilis","species","other_wild_bees",6,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT17_F","Transect","Andrena variabilis","species","other_wild_bees",6,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT18_B","Transect","Andrena albopunctata","species","other_wild_bees",4,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT18_D","Transect","Andrena albopunctata","species","other_wild_bees",4,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT18_E","Transect","Andrena albopunctata","species","other_wild_bees",4,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT18_F","Transect","Andrena albopunctata","species","other_wild_bees",4,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT18_B","Transect","Andrena flavipes","species","other_wild_bees",57,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT18_D","Transect","Andrena flavipes","species","other_wild_bees",57,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT18_E","Transect","Andrena flavipes","species","other_wild_bees",57,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT18_F","Transect","Andrena flavipes","species","other_wild_bees",57,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT18_B","Transect","Andrena pilipes","species","other_wild_bees",57,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT18_D","Transect","Andrena pilipes","species","other_wild_bees",57,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT18_E","Transect","Andrena pilipes","species","other_wild_bees",57,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT18_F","Transect","Andrena pilipes","species","other_wild_bees",57,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT18_B","Transect","Andrena thoracica","species","other_wild_bees",8,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT18_D","Transect","Andrena thoracica","species","other_wild_bees",8,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT18_E","Transect","Andrena thoracica","species","other_wild_bees",8,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT18_F","Transect","Andrena thoracica","species","other_wild_bees",8,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT18_B","Transect","Anthidium manicatum","species","other_wild_bees",2,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT18_D","Transect","Anthidium manicatum","species","other_wild_bees",2,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT18_E","Transect","Anthidium manicatum","species","other_wild_bees",2,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT18_F","Transect","Anthidium manicatum","species","other_wild_bees",2,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT18_B","Transect","Apis mellifera","species","honeybees",150,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT18_D","Transect","Apis mellifera","species","honeybees",150,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT18_E","Transect","Apis mellifera","species","honeybees",150,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT18_F","Transect","Apis mellifera","species","honeybees",150,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT18_B","Transect","Bombus hortorum","species","bumblebees",1,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT18_D","Transect","Bombus hortorum","species","bumblebees",1,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT18_E","Transect","Bombus hortorum","species","bumblebees",1,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT18_F","Transect","Bombus hortorum","species","bumblebees",1,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT18_B","Transect","Bombus pascuorum","species","bumblebees",2,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT18_D","Transect","Bombus pascuorum","species","bumblebees",2,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT18_E","Transect","Bombus pascuorum","species","bumblebees",2,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT18_F","Transect","Bombus pascuorum","species","bumblebees",2,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT18_B","Transect","Bombus terrestris","species","bumblebees",6,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT18_D","Transect","Bombus terrestris","species","bumblebees",6,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT18_E","Transect","Bombus terrestris","species","bumblebees",6,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT18_F","Transect","Bombus terrestris","species","bumblebees",6,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT18_B","Transect","Eristalinus aeneus","species","syrphids",3,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT18_D","Transect","Eristalinus aeneus","species","syrphids",3,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT18_E","Transect","Eristalinus aeneus","species","syrphids",3,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT18_F","Transect","Eristalinus aeneus","species","syrphids",3,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT18_B","Transect","Eristalis arbustorum","species","syrphids",1,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT18_D","Transect","Eristalis arbustorum","species","syrphids",1,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT18_E","Transect","Eristalis arbustorum","species","syrphids",1,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT18_F","Transect","Eristalis arbustorum","species","syrphids",1,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT18_B","Transect","Eristalis tenax","species","syrphids",3,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT18_D","Transect","Eristalis tenax","species","syrphids",3,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT18_E","Transect","Eristalis tenax","species","syrphids",3,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT18_F","Transect","Eristalis tenax","species","syrphids",3,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT18_B","Transect","Eupeodes lapponicus","species","syrphids",1,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT18_D","Transect","Eupeodes lapponicus","species","syrphids",1,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT18_E","Transect","Eupeodes lapponicus","species","syrphids",1,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT18_F","Transect","Eupeodes lapponicus","species","syrphids",1,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT18_B","Transect","Eupeodes latifasciatus","species","syrphids",5,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT18_D","Transect","Eupeodes latifasciatus","species","syrphids",5,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT18_E","Transect","Eupeodes latifasciatus","species","syrphids",5,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT18_F","Transect","Eupeodes latifasciatus","species","syrphids",5,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT18_B","Transect","Halictus scabiosae","species","other_wild_bees",13,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT18_D","Transect","Halictus scabiosae","species","other_wild_bees",13,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT18_E","Transect","Halictus scabiosae","species","other_wild_bees",13,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT18_F","Transect","Halictus scabiosae","species","other_wild_bees",13,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT18_B","Transect","Lasioglossum malachurum","species","other_wild_bees",10,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT18_D","Transect","Lasioglossum malachurum","species","other_wild_bees",10,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT18_E","Transect","Lasioglossum malachurum","species","other_wild_bees",10,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT18_F","Transect","Lasioglossum malachurum","species","other_wild_bees",10,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT18_B","Transect","Polistes dominula","species","non_bee_hymenoptera",49,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT18_D","Transect","Polistes dominula","species","non_bee_hymenoptera",49,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT18_E","Transect","Polistes dominula","species","non_bee_hymenoptera",49,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT18_F","Transect","Polistes dominula","species","non_bee_hymenoptera",49,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT18_B","Transect","Sphaerophoria rueppelli","species","syrphids",6,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT18_D","Transect","Sphaerophoria rueppelli","species","syrphids",6,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT18_E","Transect","Sphaerophoria rueppelli","species","syrphids",6,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT18_F","Transect","Sphaerophoria rueppelli","species","syrphids",6,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT18_B","Transect","Sphaerophoria scripta","species","syrphids",6,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT18_D","Transect","Sphaerophoria scripta","species","syrphids",6,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT18_E","Transect","Sphaerophoria scripta","species","syrphids",6,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT18_F","Transect","Sphaerophoria scripta","species","syrphids",6,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT18_B","Transect","Syritta pipiens","species","syrphids",25,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT18_D","Transect","Syritta pipiens","species","syrphids",25,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT18_E","Transect","Syritta pipiens","species","syrphids",25,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT18_F","Transect","Syritta pipiens","species","syrphids",25,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT18_B","Transect","Sphaerophoria sp. 2","morphospecies","syrphids",2,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT18_D","Transect","Sphaerophoria sp. 2","morphospecies","syrphids",2,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT18_E","Transect","Sphaerophoria sp. 2","morphospecies","syrphids",2,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT18_F","Transect","Sphaerophoria sp. 2","morphospecies","syrphids",2,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT18_B","Transect","Unknown wasp sp. 13","morphospecies","non_bee_hymenoptera",1,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT18_D","Transect","Unknown wasp sp. 13","morphospecies","non_bee_hymenoptera",1,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT18_E","Transect","Unknown wasp sp. 13","morphospecies","non_bee_hymenoptera",1,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT18_F","Transect","Unknown wasp sp. 13","morphospecies","non_bee_hymenoptera",1,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT18_B","Transect","Unknown wasp sp. 20","morphospecies","non_bee_hymenoptera",7,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT18_D","Transect","Unknown wasp sp. 20","morphospecies","non_bee_hymenoptera",7,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT18_E","Transect","Unknown wasp sp. 20","morphospecies","non_bee_hymenoptera",7,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT18_F","Transect","Unknown wasp sp. 20","morphospecies","non_bee_hymenoptera",7,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT18_B","Transect","Unknown wasp sp. 21","morphospecies","non_bee_hymenoptera",1,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT18_D","Transect","Unknown wasp sp. 21","morphospecies","non_bee_hymenoptera",1,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT18_E","Transect","Unknown wasp sp. 21","morphospecies","non_bee_hymenoptera",1,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT18_F","Transect","Unknown wasp sp. 21","morphospecies","non_bee_hymenoptera",1,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT18_B","Transect","Andrena decipiens","species","other_wild_bees",1,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT18_D","Transect","Andrena decipiens","species","other_wild_bees",1,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT18_E","Transect","Andrena decipiens","species","other_wild_bees",1,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT18_F","Transect","Andrena decipiens","species","other_wild_bees",1,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT18_B","Transect","Andrena lepida","species","other_wild_bees",104,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT18_D","Transect","Andrena lepida","species","other_wild_bees",104,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT18_E","Transect","Andrena lepida","species","other_wild_bees",104,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT18_F","Transect","Andrena lepida","species","other_wild_bees",104,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT18_B","Transect","Andrena variabilis","species","other_wild_bees",1,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT18_D","Transect","Andrena variabilis","species","other_wild_bees",1,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT18_E","Transect","Andrena variabilis","species","other_wild_bees",1,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT18_F","Transect","Andrena variabilis","species","other_wild_bees",1,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT18_B","Transect","Nomiapis diversipes","species","other_wild_bees",1,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT18_D","Transect","Nomiapis diversipes","species","other_wild_bees",1,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT18_E","Transect","Nomiapis diversipes","species","other_wild_bees",1,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Thijs_Fijen_Allium_porrum_Italy_2016","IT18_F","Transect","Nomiapis diversipes","species","other_wild_bees",1,450,45,NA,"All female lines observed simultaneously. 3-5 transects (total abundance + species richness, 150m2 in three subtransects, each 5 minutes pure observation time) and plant observations (visitation rate; 40 minutes per female line per field) during flowering period of primary flower heads (approximately 3 weeks). Minimum of 4 days between observations (mean 5 days). Average number of flowers for an Allium Porrum plant: 2000",NA
"Virginie_Boreux_Coffea_canephora_India_2008","13","observations (15min/observation, simulatenous)","Apis_cerana","species","honeybees",4,NA,75,NA,"for insect observation: 3 to 8x15min observations, encompassing 5 branches of 6 clusters each.",NA
"Virginie_Boreux_Coffea_canephora_India_2008","13","observations (15min/observation, simulatenous)","Apis_dorsata","species","honeybees",116,NA,75,NA,"for insect observation: 3 to 8x15min observations, encompassing 5 branches of 6 clusters each.",NA
"Virginie_Boreux_Coffea_canephora_India_2008","13","observations (15min/observation, simulatenous)","Ceratina_sp1","genera","other_wild_bees",1,NA,75,NA,"for insect observation: 3 to 8x15min observations, encompassing 5 branches of 6 clusters each.",NA
"Virginie_Boreux_Coffea_canephora_India_2008","13","observations (15min/observation, simulatenous)","Tetragonula_iridipennis","species","other_wild_bees",50,NA,75,NA,"for insect observation: 3 to 8x15min observations, encompassing 5 branches of 6 clusters each.",NA
"Virginie_Boreux_Coffea_canephora_India_2008","16","observations (15min/observation, simulatenous)","Apis_cerana","species","honeybees",14,NA,60,NA,"for insect observation: 3 to 8x15min observations, encompassing 5 branches of 6 clusters each.",NA
"Virginie_Boreux_Coffea_canephora_India_2008","16","observations (15min/observation, simulatenous)","Apis_dorsata","species","honeybees",117,NA,60,NA,"for insect observation: 3 to 8x15min observations, encompassing 5 branches of 6 clusters each.",NA
"Virginie_Boreux_Coffea_canephora_India_2008","16","observations (15min/observation, simulatenous)","Ceratina_sp1","genera","other_wild_bees",1,NA,60,NA,"for insect observation: 3 to 8x15min observations, encompassing 5 branches of 6 clusters each.",NA
"Virginie_Boreux_Coffea_canephora_India_2008","16","observations (15min/observation, simulatenous)","Tetragonula_iridipennis","species","other_wild_bees",5,NA,60,NA,"for insect observation: 3 to 8x15min observations, encompassing 5 branches of 6 clusters each.",NA
"Virginie_Boreux_Coffea_canephora_India_2008","18","observations (15min/observation, simulatenous)","Tetragonula_iridipennis","species","other_wild_bees",2,NA,60,NA,"for insect observation: 3 to 8x15min observations, encompassing 5 branches of 6 clusters each.",NA
"Virginie_Boreux_Coffea_canephora_India_2008","20","observations (15min/observation, simulatenous)","Apis_cerana","species","honeybees",60,NA,75,NA,"for insect observation: 3 to 8x15min observations, encompassing 5 branches of 6 clusters each.",NA
"Virginie_Boreux_Coffea_canephora_India_2008","20","observations (15min/observation, simulatenous)","Apis_dorsata","species","honeybees",161,NA,75,NA,"for insect observation: 3 to 8x15min observations, encompassing 5 branches of 6 clusters each.",NA
"Virginie_Boreux_Coffea_canephora_India_2008","20","observations (15min/observation, simulatenous)","Tetragonula_iridipennis","species","other_wild_bees",23,NA,75,NA,"for insect observation: 3 to 8x15min observations, encompassing 5 branches of 6 clusters each.",NA
"Virginie_Boreux_Coffea_canephora_India_2008","21","observations (15min/observation, simulatenous)","Ceratina_sp1","genera","other_wild_bees",1,NA,60,NA,"for insect observation: 3 to 8x15min observations, encompassing 5 branches of 6 clusters each.",NA
"Virginie_Boreux_Coffea_canephora_India_2008","21","observations (15min/observation, simulatenous)","Ceratina_sp2","genera","other_wild_bees",1,NA,60,NA,"for insect observation: 3 to 8x15min observations, encompassing 5 branches of 6 clusters each.",NA
"Virginie_Boreux_Coffea_canephora_India_2008","27","observations (15min/observation, simulatenous)","Apis_cerana","species","honeybees",15,NA,60,NA,"for insect observation: 3 to 8x15min observations, encompassing 5 branches of 6 clusters each.",NA
"Virginie_Boreux_Coffea_canephora_India_2008","27","observations (15min/observation, simulatenous)","Apis_dorsata","species","honeybees",79,NA,60,NA,"for insect observation: 3 to 8x15min observations, encompassing 5 branches of 6 clusters each.",NA
"Virginie_Boreux_Coffea_canephora_India_2008","27","observations (15min/observation, simulatenous)","Tetragonula_iridipennis","species","other_wild_bees",15,NA,60,NA,"for insect observation: 3 to 8x15min observations, encompassing 5 branches of 6 clusters each.",NA
"Virginie_Boreux_Coffea_canephora_India_2008","28","observations (15min/observation, simulatenous)","Apis_dorsata","species","honeybees",1,NA,45,NA,"for insect observation: 3 to 8x15min observations, encompassing 5 branches of 6 clusters each.",NA
"Virginie_Boreux_Coffea_canephora_India_2008","28","observations (15min/observation, simulatenous)","Tetragonula_iridipennis","species","other_wild_bees",8,NA,45,NA,"for insect observation: 3 to 8x15min observations, encompassing 5 branches of 6 clusters each.",NA
"Virginie_Boreux_Coffea_canephora_India_2008","46","observations (15min/observation, simulatenous)","Tetragonula_iridipennis","species","other_wild_bees",2,NA,45,NA,"for insect observation: 3 to 8x15min observations, encompassing 5 branches of 6 clusters each.",NA
"Virginie_Boreux_Coffea_canephora_India_2008","53","observations (15min/observation, simulatenous)","Tetragonula_iridipennis","species","other_wild_bees",3,NA,60,NA,"for insect observation: 3 to 8x15min observations, encompassing 5 branches of 6 clusters each.",NA
"Virginie_Boreux_Coffea_canephora_India_2008","54","observations (15min/observation, simulatenous)","Tetragonula_iridipennis","species","other_wild_bees",1,NA,60,NA,"for insect observation: 3 to 8x15min observations, encompassing 5 branches of 6 clusters each.",NA
"Virginie_Boreux_Coffea_canephora_India_2008","55","observations (15min/observation, simulatenous)","Tetragonula_iridipennis","species","other_wild_bees",3,NA,60,NA,"for insect observation: 3 to 8x15min observations, encompassing 5 branches of 6 clusters each.",NA
"Virginie_Boreux_Coffea_canephora_India_2008","58","observations (15min/observation, simulatenous)","Apis_dorsata","species","honeybees",34,NA,60,NA,"for insect observation: 3 to 8x15min observations, encompassing 5 branches of 6 clusters each.",NA
"Virginie_Boreux_Coffea_canephora_India_2008","58","observations (15min/observation, simulatenous)","Tetragonula_iridipennis","species","other_wild_bees",3,NA,60,NA,"for insect observation: 3 to 8x15min observations, encompassing 5 branches of 6 clusters each.",NA
"Virginie_Boreux_Coffea_canephora_India_2008","66","observations (15min/observation, simulatenous)","Apis_dorsata","species","honeybees",1,NA,45,NA,"for insect observation: 3 to 8x15min observations, encompassing 5 branches of 6 clusters each.",NA
"Virginie_Boreux_Coffea_canephora_India_2008","87","observations (15min/observation, simulatenous)","Apis_cerana","species","honeybees",4,NA,45,NA,"for insect observation: 3 to 8x15min observations, encompassing 5 branches of 6 clusters each.",NA
"Virginie_Boreux_Coffea_canephora_India_2008","87","observations (15min/observation, simulatenous)","Apis_dorsata","species","honeybees",1,NA,45,NA,"for insect observation: 3 to 8x15min observations, encompassing 5 branches of 6 clusters each.",NA
"Virginie_Boreux_Coffea_canephora_India_2008","89","observations (15min/observation, simulatenous)","Apis_cerana","species","honeybees",1,NA,45,NA,"for insect observation: 3 to 8x15min observations, encompassing 5 branches of 6 clusters each.",NA
"Virginie_Boreux_Coffea_canephora_India_2008","89","observations (15min/observation, simulatenous)","Apis_dorsata","species","honeybees",1,NA,45,NA,"for insect observation: 3 to 8x15min observations, encompassing 5 branches of 6 clusters each.",NA
"Virginie_Boreux_Coffea_canephora_India_2008","102","observations (15min/observation, simulatenous)","Apis_cerana","species","honeybees",2,NA,45,NA,"for insect observation: 3 to 8x15min observations, encompassing 5 branches of 6 clusters each.",NA
"Virginie_Boreux_Coffea_canephora_India_2008","102","observations (15min/observation, simulatenous)","Tetragonula_iridipennis","species","other_wild_bees",1,NA,45,NA,"for insect observation: 3 to 8x15min observations, encompassing 5 branches of 6 clusters each.",NA
"Virginie_Boreux_Coffea_canephora_India_2008","124","observations (15min/observation, simulatenous)","Apis_cerana","species","honeybees",1,NA,60,NA,"for insect observation: 3 to 8x15min observations, encompassing 5 branches of 6 clusters each.",NA
"Virginie_Boreux_Coffea_canephora_India_2008","124","observations (15min/observation, simulatenous)","Tetragonula_iridipennis","species","other_wild_bees",1,NA,60,NA,"for insect observation: 3 to 8x15min observations, encompassing 5 branches of 6 clusters each.",NA
"Virginie_Boreux_Coffea_canephora_India_2008","140","observations (15min/observation, simulatenous)","Apis_cerana","species","honeybees",6,NA,75,NA,"for insect observation: 3 to 8x15min observations, encompassing 5 branches of 6 clusters each.",NA
"Virginie_Boreux_Coffea_canephora_India_2008","140","observations (15min/observation, simulatenous)","Apis_dorsata","species","honeybees",24,NA,75,NA,"for insect observation: 3 to 8x15min observations, encompassing 5 branches of 6 clusters each.",NA
"Virginie_Boreux_Coffea_canephora_India_2008","140","observations (15min/observation, simulatenous)","Tetragonula_iridipennis","species","other_wild_bees",2,NA,75,NA,"for insect observation: 3 to 8x15min observations, encompassing 5 branches of 6 clusters each.",NA
"Virginie_Boreux_Coffea_canephora_India_2008","162","observations (15min/observation, simulatenous)","Apis_dorsata","species","honeybees",7,NA,45,NA,"for insect observation: 3 to 8x15min observations, encompassing 5 branches of 6 clusters each.",NA
"Virginie_Boreux_Coffea_canephora_India_2008","162","observations (15min/observation, simulatenous)","Tetragonula_iridipennis","species","other_wild_bees",2,NA,45,NA,"for insect observation: 3 to 8x15min observations, encompassing 5 branches of 6 clusters each.",NA
"Virginie_Boreux_Coffea_canephora_India_2008","176","observations (15min/observation, simulatenous)","Apis_cerana","species","honeybees",7,NA,75,NA,"for insect observation: 3 to 8x15min observations, encompassing 5 branches of 6 clusters each.",NA
"Virginie_Boreux_Coffea_canephora_India_2008","176","observations (15min/observation, simulatenous)","Apis_dorsata","species","honeybees",15,NA,75,NA,"for insect observation: 3 to 8x15min observations, encompassing 5 branches of 6 clusters each.",NA
"Virginie_Boreux_Coffea_canephora_India_2008","176","observations (15min/observation, simulatenous)","Tetragonula_iridipennis","species","other_wild_bees",6,NA,75,NA,"for insect observation: 3 to 8x15min observations, encompassing 5 branches of 6 clusters each.",NA
"Virginie_Boreux_Coffea_canephora_India_2008","185","observations (15min/observation, simulatenous)","Tetragonula_iridipennis","species","other_wild_bees",1,NA,60,NA,"for insect observation: 3 to 8x15min observations, encompassing 5 branches of 6 clusters each.",NA
"Virginie_Boreux_Coffea_canephora_India_2008","216","observations (15min/observation, simulatenous)","Apis_cerana","species","honeybees",21,NA,45,NA,"for insect observation: 3 to 8x15min observations, encompassing 5 branches of 6 clusters each.",NA
"Virginie_Boreux_Coffea_canephora_India_2008","216","observations (15min/observation, simulatenous)","Apis_dorsata","species","honeybees",35,NA,45,NA,"for insect observation: 3 to 8x15min observations, encompassing 5 branches of 6 clusters each.",NA
"Virginie_Boreux_Coffea_canephora_India_2008","216","observations (15min/observation, simulatenous)","Tetragonula_iridipennis","species","other_wild_bees",2,NA,45,NA,"for insect observation: 3 to 8x15min observations, encompassing 5 branches of 6 clusters each.",NA
"Virginie_Boreux_Coffea_canephora_India_2008","220","observations (15min/observation, simulatenous)","Apis_cerana","species","honeybees",14,NA,45,NA,"for insect observation: 3 to 8x15min observations, encompassing 5 branches of 6 clusters each.",NA
"Virginie_Boreux_Coffea_canephora_India_2008","220","observations (15min/observation, simulatenous)","Apis_dorsata","species","honeybees",2,NA,45,NA,"for insect observation: 3 to 8x15min observations, encompassing 5 branches of 6 clusters each.",NA
"Virginie_Boreux_Coffea_canephora_India_2008","220","observations (15min/observation, simulatenous)","Tetragonula_iridipennis","species","other_wild_bees",1,NA,45,NA,"for insect observation: 3 to 8x15min observations, encompassing 5 branches of 6 clusters each.",NA
"Virginie_Boreux_Coffea_canephora_India_2008","222","observations (15min/observation, simulatenous)","Apis_cerana","species","honeybees",1,NA,60,NA,"for insect observation: 3 to 8x15min observations, encompassing 5 branches of 6 clusters each.",NA
"Virginie_Boreux_Coffea_canephora_India_2008","222","observations (15min/observation, simulatenous)","Apis_dorsata","species","honeybees",1,NA,60,NA,"for insect observation: 3 to 8x15min observations, encompassing 5 branches of 6 clusters each.",NA
"Virginie_Boreux_Coffea_canephora_India_2008","222","observations (15min/observation, simulatenous)","Tetragonula_iridipennis","species","other_wild_bees",4,NA,60,NA,"for insect observation: 3 to 8x15min observations, encompassing 5 branches of 6 clusters each.",NA
"Virginie_Boreux_Coffea_canephora_India_2008","245","observations (15min/observation, simulatenous)","Apis_cerana","species","honeybees",13,NA,45,NA,"for insect observation: 3 to 8x15min observations, encompassing 5 branches of 6 clusters each.",NA
"Virginie_Boreux_Coffea_canephora_India_2008","245","observations (15min/observation, simulatenous)","Apis_dorsata","species","honeybees",40,NA,45,NA,"for insect observation: 3 to 8x15min observations, encompassing 5 branches of 6 clusters each.",NA
"Virginie_Boreux_Coffea_canephora_India_2008","245","observations (15min/observation, simulatenous)","Tetragonula_iridipennis","species","other_wild_bees",3,NA,45,NA,"for insect observation: 3 to 8x15min observations, encompassing 5 branches of 6 clusters each.",NA
"Virginie_Boreux_Coffea_canephora_India_2008","247","observations (15min/observation, simulatenous)","Apis_dorsata","species","honeybees",5,NA,60,NA,"for insect observation: 3 to 8x15min observations, encompassing 5 branches of 6 clusters each.",NA
"Virginie_Boreux_Coffea_canephora_India_2008","251","observations (15min/observation, simulatenous)","Tetragonula_iridipennis","species","other_wild_bees",3,NA,45,NA,"for insect observation: 3 to 8x15min observations, encompassing 5 branches of 6 clusters each.",NA
"Virginie_Boreux_Coffea_canephora_India_2008","252","observations (15min/observation, simulatenous)","Xylocopa_sp1","genera","other_wild_bees",1,NA,45,NA,"for insect observation: 3 to 8x15min observations, encompassing 5 branches of 6 clusters each.",NA
"Virginie_Boreux_Coffea_canephora_India_2008","255","observations (15min/observation, simulatenous)","Apis_cerana","species","honeybees",9,NA,45,NA,"for insect observation: 3 to 8x15min observations, encompassing 5 branches of 6 clusters each.",NA
"Virginie_Boreux_Coffea_canephora_India_2008","255","observations (15min/observation, simulatenous)","Apis_dorsata","species","honeybees",19,NA,45,NA,"for insect observation: 3 to 8x15min observations, encompassing 5 branches of 6 clusters each.",NA
"Virginie_Boreux_Coffea_canephora_India_2008","255","observations (15min/observation, simulatenous)","Tetragonula_iridipennis","species","other_wild_bees",20,NA,45,NA,"for insect observation: 3 to 8x15min observations, encompassing 5 branches of 6 clusters each.",NA
"Virginie_Boreux_Coffea_canephora_India_2008","257","observations (15min/observation, simulatenous)","Apis_cerana","species","honeybees",21,NA,60,NA,"for insect observation: 3 to 8x15min observations, encompassing 5 branches of 6 clusters each.",NA
"Virginie_Boreux_Coffea_canephora_India_2008","257","observations (15min/observation, simulatenous)","Apis_dorsata","species","honeybees",13,NA,60,NA,"for insect observation: 3 to 8x15min observations, encompassing 5 branches of 6 clusters each.",NA
"Virginie_Boreux_Coffea_canephora_India_2008","257","observations (15min/observation, simulatenous)","Tetragonula_iridipennis","species","other_wild_bees",4,NA,60,NA,"for insect observation: 3 to 8x15min observations, encompassing 5 branches of 6 clusters each.",NA
"Virginie_Boreux_Coffea_canephora_India_2008","257","observations (15min/observation, simulatenous)","Xylocopa_sp1","genera","other_wild_bees",1,NA,60,NA,"for insect observation: 3 to 8x15min observations, encompassing 5 branches of 6 clusters each.",NA
"Virginie_Boreux_Coffea_canephora_India_2008","262","observations (15min/observation, simulatenous)","Tetragonula_iridipennis","species","other_wild_bees",7,NA,60,NA,"for insect observation: 3 to 8x15min observations, encompassing 5 branches of 6 clusters each.",NA
"Virginie_Boreux_Coffea_canephora_India_2008","263","observations (15min/observation, simulatenous)","Tetragonula_iridipennis","species","other_wild_bees",2,NA,60,NA,"for insect observation: 3 to 8x15min observations, encompassing 5 branches of 6 clusters each.",NA
"Virginie_Boreux_Coffea_canephora_India_2008","264","observations (15min/observation, simulatenous)","Tetragonula_iridipennis","species","other_wild_bees",3,NA,60,NA,"for insect observation: 3 to 8x15min observations, encompassing 5 branches of 6 clusters each.",NA
"Virginie_Boreux_Coffea_canephora_India_2008","265","observations (15min/observation, simulatenous)","Tetragonula_iridipennis","species","other_wild_bees",12,NA,60,NA,"for insect observation: 3 to 8x15min observations, encompassing 5 branches of 6 clusters each.",NA
"Virginie_Boreux_Coffea_canephora_India_2008","268","observations (15min/observation, simulatenous)","Apis_cerana","species","honeybees",2,NA,90,NA,"for insect observation: 3 to 8x15min observations, encompassing 5 branches of 6 clusters each.",NA
"Virginie_Boreux_Coffea_canephora_India_2008","268","observations (15min/observation, simulatenous)","Ceratina_sp2","genera","other_wild_bees",1,NA,90,NA,"for insect observation: 3 to 8x15min observations, encompassing 5 branches of 6 clusters each.",NA
"Virginie_Boreux_Coffea_canephora_India_2008","268","observations (15min/observation, simulatenous)","Tetragonula_iridipennis","species","other_wild_bees",11,NA,90,NA,"for insect observation: 3 to 8x15min observations, encompassing 5 branches of 6 clusters each.",NA
"Virginie_Boreux_Coffea_canephora_India_2008","269","observations (15min/observation, simulatenous)","Apis_dorsata","species","honeybees",1,NA,75,NA,"for insect observation: 3 to 8x15min observations, encompassing 5 branches of 6 clusters each.",NA
"Virginie_Boreux_Coffea_canephora_India_2008","274","observations (15min/observation, simulatenous)","Apis_cerana","species","honeybees",18,NA,90,NA,"for insect observation: 3 to 8x15min observations, encompassing 5 branches of 6 clusters each.",NA
"Virginie_Boreux_Coffea_canephora_India_2008","274","observations (15min/observation, simulatenous)","Apis_dorsata","species","honeybees",76,NA,90,NA,"for insect observation: 3 to 8x15min observations, encompassing 5 branches of 6 clusters each.",NA
"Virginie_Boreux_Coffea_canephora_India_2008","274","observations (15min/observation, simulatenous)","Tetragonula_iridipennis","species","other_wild_bees",80,NA,90,NA,"for insect observation: 3 to 8x15min observations, encompassing 5 branches of 6 clusters each.",NA
"Virginie_Boreux_Coffea_canephora_India_2008","276","observations (15min/observation, simulatenous)","Apis_cerana","species","honeybees",6,NA,45,NA,"for insect observation: 3 to 8x15min observations, encompassing 5 branches of 6 clusters each.",NA
"Virginie_Boreux_Coffea_canephora_India_2008","276","observations (15min/observation, simulatenous)","Apis_dorsata","species","honeybees",32,NA,45,NA,"for insect observation: 3 to 8x15min observations, encompassing 5 branches of 6 clusters each.",NA
"Virginie_Boreux_Coffea_canephora_India_2008","276","observations (15min/observation, simulatenous)","Tetragonula_iridipennis","species","other_wild_bees",7,NA,45,NA,"for insect observation: 3 to 8x15min observations, encompassing 5 branches of 6 clusters each.",NA
"Virginie_Boreux_Coffea_canephora_India_2008","279","observations (15min/observation, simulatenous)","Apis_cerana","species","honeybees",13,NA,45,NA,"for insect observation: 3 to 8x15min observations, encompassing 5 branches of 6 clusters each.",NA
"Virginie_Boreux_Coffea_canephora_India_2008","279","observations (15min/observation, simulatenous)","Apis_dorsata","species","honeybees",23,NA,45,NA,"for insect observation: 3 to 8x15min observations, encompassing 5 branches of 6 clusters each.",NA
"Virginie_Boreux_Coffea_canephora_India_2008","279","observations (15min/observation, simulatenous)","Tetragonula_iridipennis","species","other_wild_bees",14,NA,45,NA,"for insect observation: 3 to 8x15min observations, encompassing 5 branches of 6 clusters each.",NA
"Virginie_Boreux_Coffea_canephora_India_2008","280","observations (15min/observation, simulatenous)","Apis_cerana","species","honeybees",24,NA,45,NA,"for insect observation: 3 to 8x15min observations, encompassing 5 branches of 6 clusters each.",NA
"Virginie_Boreux_Coffea_canephora_India_2008","280","observations (15min/observation, simulatenous)","Apis_dorsata","species","honeybees",34,NA,45,NA,"for insect observation: 3 to 8x15min observations, encompassing 5 branches of 6 clusters each.",NA
"Virginie_Boreux_Coffea_canephora_India_2008","280","observations (15min/observation, simulatenous)","Tetragonula_iridipennis","species","other_wild_bees",17,NA,45,NA,"for insect observation: 3 to 8x15min observations, encompassing 5 branches of 6 clusters each.",NA
"Virginie_Boreux_Coffea_canephora_India_2008","284","observations (15min/observation, simulatenous)","Apis_cerana","species","honeybees",36,NA,45,NA,"for insect observation: 3 to 8x15min observations, encompassing 5 branches of 6 clusters each.",NA
"Virginie_Boreux_Coffea_canephora_India_2008","284","observations (15min/observation, simulatenous)","Apis_dorsata","species","honeybees",10,NA,45,NA,"for insect observation: 3 to 8x15min observations, encompassing 5 branches of 6 clusters each.",NA
"Virginie_Boreux_Coffea_canephora_India_2008","284","observations (15min/observation, simulatenous)","Ceratina_sp1","genera","other_wild_bees",2,NA,45,NA,"for insect observation: 3 to 8x15min observations, encompassing 5 branches of 6 clusters each.",NA
"Virginie_Boreux_Coffea_canephora_India_2008","284","observations (15min/observation, simulatenous)","Tetragonula_iridipennis","species","other_wild_bees",28,NA,45,NA,"for insect observation: 3 to 8x15min observations, encompassing 5 branches of 6 clusters each.",NA
"Virginie_Boreux_Coffea_canephora_India_2008","285","observations (15min/observation, simulatenous)","Apis_cerana","species","honeybees",26,NA,45,NA,"for insect observation: 3 to 8x15min observations, encompassing 5 branches of 6 clusters each.",NA
"Virginie_Boreux_Coffea_canephora_India_2008","285","observations (15min/observation, simulatenous)","Apis_dorsata","species","honeybees",34,NA,45,NA,"for insect observation: 3 to 8x15min observations, encompassing 5 branches of 6 clusters each.",NA
"Virginie_Boreux_Coffea_canephora_India_2008","285","observations (15min/observation, simulatenous)","Tetragonula_iridipennis","species","other_wild_bees",19,NA,45,NA,"for insect observation: 3 to 8x15min observations, encompassing 5 branches of 6 clusters each.",NA
"Virginie_Boreux_Coffea_canephora_India_2008","286","observations (15min/observation, simulatenous)","Apis_cerana","species","honeybees",40,NA,45,NA,"for insect observation: 3 to 8x15min observations, encompassing 5 branches of 6 clusters each.",NA
"Virginie_Boreux_Coffea_canephora_India_2008","286","observations (15min/observation, simulatenous)","Apis_dorsata","species","honeybees",56,NA,45,NA,"for insect observation: 3 to 8x15min observations, encompassing 5 branches of 6 clusters each.",NA
"Virginie_Boreux_Coffea_canephora_India_2008","286","observations (15min/observation, simulatenous)","Ceratina_sp2","genera","other_wild_bees",1,NA,45,NA,"for insect observation: 3 to 8x15min observations, encompassing 5 branches of 6 clusters each.",NA
"Virginie_Boreux_Coffea_canephora_India_2008","286","observations (15min/observation, simulatenous)","Tetragonula_iridipennis","species","other_wild_bees",24,NA,45,NA,"for insect observation: 3 to 8x15min observations, encompassing 5 branches of 6 clusters each.",NA
"Virginie_Boreux_Coffea_canephora_India_2008","287","observations (15min/observation, simulatenous)","Apis_cerana","species","honeybees",9,NA,45,NA,"for insect observation: 3 to 8x15min observations, encompassing 5 branches of 6 clusters each.",NA
"Virginie_Boreux_Coffea_canephora_India_2008","287","observations (15min/observation, simulatenous)","Apis_dorsata","species","honeybees",17,NA,45,NA,"for insect observation: 3 to 8x15min observations, encompassing 5 branches of 6 clusters each.",NA
"Virginie_Boreux_Coffea_canephora_India_2008","287","observations (15min/observation, simulatenous)","Tetragonula_iridipennis","species","other_wild_bees",8,NA,45,NA,"for insect observation: 3 to 8x15min observations, encompassing 5 branches of 6 clusters each.",NA
"Virginie_Boreux_Coffea_canephora_India_2008","293","observations (15min/observation, simulatenous)","Apis_cerana","species","honeybees",8,NA,150,NA,"for insect observation: 3 to 8x15min observations, encompassing 5 branches of 6 clusters each.",NA
"Virginie_Boreux_Coffea_canephora_India_2008","293","observations (15min/observation, simulatenous)","Apis_dorsata","species","honeybees",2,NA,150,NA,"for insect observation: 3 to 8x15min observations, encompassing 5 branches of 6 clusters each.",NA
"Virginie_Boreux_Coffea_canephora_India_2008","293","observations (15min/observation, simulatenous)","Tetragonula_iridipennis","species","other_wild_bees",40,NA,150,NA,"for insect observation: 3 to 8x15min observations, encompassing 5 branches of 6 clusters each.",NA
"Virginie_Boreux_Coffea_canephora_India_2008","293","observations (15min/observation, simulatenous)","Xylocopa_sp1","genera","other_wild_bees",2,NA,150,NA,"for insect observation: 3 to 8x15min observations, encompassing 5 branches of 6 clusters each.",NA
"Virginie_Boreux_Coffea_canephora_India_2008","296","observations (15min/observation, simulatenous)","Tetragonula_iridipennis","species","other_wild_bees",6,NA,75,NA,"for insect observation: 3 to 8x15min observations, encompassing 5 branches of 6 clusters each.",NA
"Virginie_Boreux_Coffea_canephora_India_2008","298","observations (15min/observation, simulatenous)","Apis_cerana","species","honeybees",44,NA,90,NA,"for insect observation: 3 to 8x15min observations, encompassing 5 branches of 6 clusters each.",NA
"Virginie_Boreux_Coffea_canephora_India_2008","298","observations (15min/observation, simulatenous)","Apis_dorsata","species","honeybees",73,NA,90,NA,"for insect observation: 3 to 8x15min observations, encompassing 5 branches of 6 clusters each.",NA
"Virginie_Boreux_Coffea_canephora_India_2008","298","observations (15min/observation, simulatenous)","Ceratina_sp1","genera","other_wild_bees",1,NA,90,NA,"for insect observation: 3 to 8x15min observations, encompassing 5 branches of 6 clusters each.",NA
"Virginie_Boreux_Coffea_canephora_India_2008","298","observations (15min/observation, simulatenous)","Tetragonula_iridipennis","species","other_wild_bees",51,NA,90,NA,"for insect observation: 3 to 8x15min observations, encompassing 5 branches of 6 clusters each.",NA
"Virginie_Boreux_Coffea_canephora_India_2008","300","observations (15min/observation, simulatenous)","Apis_cerana","species","honeybees",7,NA,105,NA,"for insect observation: 3 to 8x15min observations, encompassing 5 branches of 6 clusters each.",NA
"Virginie_Boreux_Coffea_canephora_India_2008","300","observations (15min/observation, simulatenous)","Apis_dorsata","species","honeybees",2,NA,105,NA,"for insect observation: 3 to 8x15min observations, encompassing 5 branches of 6 clusters each.",NA
"Virginie_Boreux_Coffea_canephora_India_2008","300","observations (15min/observation, simulatenous)","Tetragonula_iridipennis","species","other_wild_bees",35,NA,105,NA,"for insect observation: 3 to 8x15min observations, encompassing 5 branches of 6 clusters each.",NA
"Virginie_Boreux_Coffea_canephora_India_2008","301","observations (15min/observation, simulatenous)","Apis_dorsata","species","honeybees",1,NA,75,NA,"for insect observation: 3 to 8x15min observations, encompassing 5 branches of 6 clusters each.",NA
"Virginie_Boreux_Coffea_canephora_India_2008","302","observations (15min/observation, simulatenous)","Apis_cerana","species","honeybees",20,NA,60,NA,"for insect observation: 3 to 8x15min observations, encompassing 5 branches of 6 clusters each.",NA
"Virginie_Boreux_Coffea_canephora_India_2008","302","observations (15min/observation, simulatenous)","Apis_dorsata","species","honeybees",13,NA,60,NA,"for insect observation: 3 to 8x15min observations, encompassing 5 branches of 6 clusters each.",NA
"Virginie_Boreux_Coffea_canephora_India_2008","302","observations (15min/observation, simulatenous)","Ceratina_sp2","genera","other_wild_bees",4,NA,60,NA,"for insect observation: 3 to 8x15min observations, encompassing 5 branches of 6 clusters each.",NA
"Virginie_Boreux_Coffea_canephora_India_2008","302","observations (15min/observation, simulatenous)","Tetragonula_iridipennis","species","other_wild_bees",21,NA,60,NA,"for insect observation: 3 to 8x15min observations, encompassing 5 branches of 6 clusters each.",NA
"Virginie_Boreux_Coffea_canephora_India_2008","304","observations (15min/observation, simulatenous)","Apis_dorsata","species","honeybees",1,NA,90,NA,"for insect observation: 3 to 8x15min observations, encompassing 5 branches of 6 clusters each.",NA
"Virginie_Boreux_Coffea_canephora_India_2008","304","observations (15min/observation, simulatenous)","Tetragonula_iridipennis","species","other_wild_bees",2,NA,90,NA,"for insect observation: 3 to 8x15min observations, encompassing 5 branches of 6 clusters each.",NA
"Virginie_Boreux_Coffea_canephora_India_2008","310","observations (15min/observation, simulatenous)","Apis_dorsata","species","honeybees",3,NA,45,NA,"for insect observation: 3 to 8x15min observations, encompassing 5 branches of 6 clusters each.",NA
"Virginie_Boreux_Coffea_canephora_India_2008","315","observations (15min/observation, simulatenous)","Apis_cerana","species","honeybees",30,NA,75,NA,"for insect observation: 3 to 8x15min observations, encompassing 5 branches of 6 clusters each.",NA
"Virginie_Boreux_Coffea_canephora_India_2008","315","observations (15min/observation, simulatenous)","Apis_dorsata","species","honeybees",1,NA,75,NA,"for insect observation: 3 to 8x15min observations, encompassing 5 branches of 6 clusters each.",NA
"Virginie_Boreux_Coffea_canephora_India_2008","315","observations (15min/observation, simulatenous)","Ceratina_sp2","genera","other_wild_bees",1,NA,75,NA,"for insect observation: 3 to 8x15min observations, encompassing 5 branches of 6 clusters each.",NA
"Virginie_Boreux_Coffea_canephora_India_2008","315","observations (15min/observation, simulatenous)","Tetragonula_iridipennis","species","other_wild_bees",60,NA,75,NA,"for insect observation: 3 to 8x15min observations, encompassing 5 branches of 6 clusters each.",NA
"Virginie_Boreux_Coffea_canephora_India_2008","323","observations (15min/observation, simulatenous)","Apis_cerana","species","honeybees",1,NA,45,NA,"for insect observation: 3 to 8x15min observations, encompassing 5 branches of 6 clusters each.",NA
"Virginie_Boreux_Coffea_canephora_India_2008","324","observations (15min/observation, simulatenous)","Apis_cerana","species","honeybees",1,NA,45,NA,"for insect observation: 3 to 8x15min observations, encompassing 5 branches of 6 clusters each.",NA
"Virginie_Boreux_Coffea_canephora_India_2008","325","observations (15min/observation, simulatenous)","Apis_cerana","species","honeybees",3,NA,45,NA,"for insect observation: 3 to 8x15min observations, encompassing 5 branches of 6 clusters each.",NA
"Virginie_Boreux_Coffea_canephora_India_2008","325","observations (15min/observation, simulatenous)","Ceratina_sp1","genera","other_wild_bees",1,NA,45,NA,"for insect observation: 3 to 8x15min observations, encompassing 5 branches of 6 clusters each.",NA
"Virginie_Boreux_Coffea_canephora_India_2008","325","observations (15min/observation, simulatenous)","Tetragonula_iridipennis","species","other_wild_bees",5,NA,45,NA,"for insect observation: 3 to 8x15min observations, encompassing 5 branches of 6 clusters each.",NA
"Virginie_Boreux_Coffea_canephora_India_2008","326","observations (15min/observation, simulatenous)","Apis_cerana","species","honeybees",1,NA,45,NA,"for insect observation: 3 to 8x15min observations, encompassing 5 branches of 6 clusters each.",NA
"Virginie_Boreux_Malus_domestica_Germany_2015","bio1","30min Observation/site (3x2 transects). a 5min transect (20m) was walked between 2 apple tree rows","Apis mellifera","species","honeybees",40,120,30,NA,"30min Observation/site (3x2 transects). a 5min transect (20m) was walked between 2 apple tree rows",NA
"Virginie_Boreux_Malus_domestica_Germany_2015","bio1","30min Observation/site (3x2 transects). a 5min transect (20m) was walked between 2 apple tree rows","Andrena cineraria","species","other_wild_bees",1,120,30,NA,"30min Observation/site (3x2 transects). a 5min transect (20m) was walked between 2 apple tree rows",NA
"Virginie_Boreux_Malus_domestica_Germany_2015","bio1","30min Observation/site (3x2 transects). a 5min transect (20m) was walked between 2 apple tree rows","Andrena sp.","genus","other_wild_bees",2,120,30,NA,"30min Observation/site (3x2 transects). a 5min transect (20m) was walked between 2 apple tree rows",NA
"Virginie_Boreux_Malus_domestica_Germany_2015","bio1","30min Observation/site (3x2 transects). a 5min transect (20m) was walked between 2 apple tree rows","Fly","guild","other_flies",18,120,30,NA,"30min Observation/site (3x2 transects). a 5min transect (20m) was walked between 2 apple tree rows",NA
"Virginie_Boreux_Malus_domestica_Germany_2015","bio1","30min Observation/site (3x2 transects). a 5min transect (20m) was walked between 2 apple tree rows","Beetle","guild","beetles",2,120,30,NA,"30min Observation/site (3x2 transects). a 5min transect (20m) was walked between 2 apple tree rows",NA
"Virginie_Boreux_Malus_domestica_Germany_2015","bio1","30min Observation/site (3x2 transects). a 5min transect (20m) was walked between 2 apple tree rows","Spider","guild","other",2,120,30,NA,"30min Observation/site (3x2 transects). a 5min transect (20m) was walked between 2 apple tree rows",NA
"Virginie_Boreux_Malus_domestica_Germany_2015","bio1","30min Observation/site (3x2 transects). a 5min transect (20m) was walked between 2 apple tree rows","Butterfly","guild","lepidoptera",1,120,30,NA,"30min Observation/site (3x2 transects). a 5min transect (20m) was walked between 2 apple tree rows",NA
"Virginie_Boreux_Malus_domestica_Germany_2015","bio2","30min Observation/site (3x2 transects). a 5min transect (20m) was walked between 2 apple tree rows","Apis mellifera","species","honeybees",11,120,30,NA,"30min Observation/site (3x2 transects). a 5min transect (20m) was walked between 2 apple tree rows",NA
"Virginie_Boreux_Malus_domestica_Germany_2015","bio2","30min Observation/site (3x2 transects). a 5min transect (20m) was walked between 2 apple tree rows","Osmia cornuta","species","other_wild_bees",2,120,30,NA,"30min Observation/site (3x2 transects). a 5min transect (20m) was walked between 2 apple tree rows",NA
"Virginie_Boreux_Malus_domestica_Germany_2015","bio2","30min Observation/site (3x2 transects). a 5min transect (20m) was walked between 2 apple tree rows","Andrena sp.","genus","other_wild_bees",1,120,30,NA,"30min Observation/site (3x2 transects). a 5min transect (20m) was walked between 2 apple tree rows",NA
"Virginie_Boreux_Malus_domestica_Germany_2015","bio2","30min Observation/site (3x2 transects). a 5min transect (20m) was walked between 2 apple tree rows","Bombus pratorum","species","bumblebees",1,120,30,NA,"30min Observation/site (3x2 transects). a 5min transect (20m) was walked between 2 apple tree rows",NA
"Virginie_Boreux_Malus_domestica_Germany_2015","bio2","30min Observation/site (3x2 transects). a 5min transect (20m) was walked between 2 apple tree rows","Fly","guild","other_flies",2,120,30,NA,"30min Observation/site (3x2 transects). a 5min transect (20m) was walked between 2 apple tree rows",NA
"Virginie_Boreux_Malus_domestica_Germany_2015","bio3","30min Observation/site (3x2 transects). a 5min transect (20m) was walked between 2 apple tree rows","Apis mellifera","species","honeybees",16,120,30,NA,"30min Observation/site (3x2 transects). a 5min transect (20m) was walked between 2 apple tree rows",NA
"Virginie_Boreux_Malus_domestica_Germany_2015","bio3","30min Observation/site (3x2 transects). a 5min transect (20m) was walked between 2 apple tree rows","Wasp","guild","non_bee_hymenoptera",1,120,30,NA,"30min Observation/site (3x2 transects). a 5min transect (20m) was walked between 2 apple tree rows",NA
"Virginie_Boreux_Malus_domestica_Germany_2015","bio3","30min Observation/site (3x2 transects). a 5min transect (20m) was walked between 2 apple tree rows","Fly","guild","other_flies",6,120,30,NA,"30min Observation/site (3x2 transects). a 5min transect (20m) was walked between 2 apple tree rows",NA
"Virginie_Boreux_Malus_domestica_Germany_2015","bio3","30min Observation/site (3x2 transects). a 5min transect (20m) was walked between 2 apple tree rows","Hoverfly","guild","syrphids",2,120,30,NA,"30min Observation/site (3x2 transects). a 5min transect (20m) was walked between 2 apple tree rows",NA
"Virginie_Boreux_Malus_domestica_Germany_2015","bio4","30min Observation/site (3x2 transects). a 5min transect (20m) was walked between 2 apple tree rows","Apis mellifera","species","honeybees",71,120,30,NA,"30min Observation/site (3x2 transects). a 5min transect (20m) was walked between 2 apple tree rows",NA
"Virginie_Boreux_Malus_domestica_Germany_2015","bio4","30min Observation/site (3x2 transects). a 5min transect (20m) was walked between 2 apple tree rows","Andrena sp.","genus","other_wild_bees",4,120,30,NA,"30min Observation/site (3x2 transects). a 5min transect (20m) was walked between 2 apple tree rows",NA
"Virginie_Boreux_Malus_domestica_Germany_2015","bio4","30min Observation/site (3x2 transects). a 5min transect (20m) was walked between 2 apple tree rows","Bombus terrestris","species","bumblebees",4,120,30,NA,"30min Observation/site (3x2 transects). a 5min transect (20m) was walked between 2 apple tree rows",NA
"Virginie_Boreux_Malus_domestica_Germany_2015","bio4","30min Observation/site (3x2 transects). a 5min transect (20m) was walked between 2 apple tree rows","Andrena fulva","species","other_wild_bees",1,120,30,NA,"30min Observation/site (3x2 transects). a 5min transect (20m) was walked between 2 apple tree rows",NA
"Virginie_Boreux_Malus_domestica_Germany_2015","bio4","30min Observation/site (3x2 transects). a 5min transect (20m) was walked between 2 apple tree rows","Fly","guild","other_flies",4,120,30,NA,"30min Observation/site (3x2 transects). a 5min transect (20m) was walked between 2 apple tree rows",NA
"Virginie_Boreux_Malus_domestica_Germany_2015","bio5","30min Observation/site (3x2 transects). a 5min transect (20m) was walked between 2 apple tree rows","Apis mellifera","species","honeybees",134,120,30,NA,"30min Observation/site (3x2 transects). a 5min transect (20m) was walked between 2 apple tree rows",NA
"Virginie_Boreux_Malus_domestica_Germany_2015","bio5","30min Observation/site (3x2 transects). a 5min transect (20m) was walked between 2 apple tree rows","Andrena sp.","genus","other_wild_bees",7,120,30,NA,"30min Observation/site (3x2 transects). a 5min transect (20m) was walked between 2 apple tree rows",NA
"Virginie_Boreux_Malus_domestica_Germany_2015","bio5","30min Observation/site (3x2 transects). a 5min transect (20m) was walked between 2 apple tree rows","Bombus terrestris","species","bumblebees",5,120,30,NA,"30min Observation/site (3x2 transects). a 5min transect (20m) was walked between 2 apple tree rows",NA
"Virginie_Boreux_Malus_domestica_Germany_2015","bio5","30min Observation/site (3x2 transects). a 5min transect (20m) was walked between 2 apple tree rows","Bombus sp.","genus","bumblebees",1,120,30,NA,"30min Observation/site (3x2 transects). a 5min transect (20m) was walked between 2 apple tree rows",NA
"Virginie_Boreux_Malus_domestica_Germany_2015","bio5","30min Observation/site (3x2 transects). a 5min transect (20m) was walked between 2 apple tree rows","Lasioglossum sp.","genus","other_wild_bees",1,120,30,NA,"30min Observation/site (3x2 transects). a 5min transect (20m) was walked between 2 apple tree rows",NA
"Virginie_Boreux_Malus_domestica_Germany_2015","bio5","30min Observation/site (3x2 transects). a 5min transect (20m) was walked between 2 apple tree rows","Fly","guild","other_flies",13,120,30,NA,"30min Observation/site (3x2 transects). a 5min transect (20m) was walked between 2 apple tree rows",NA
"Virginie_Boreux_Malus_domestica_Germany_2015","bio5","30min Observation/site (3x2 transects). a 5min transect (20m) was walked between 2 apple tree rows","Ladybug","guild","beetles",2,120,30,NA,"30min Observation/site (3x2 transects). a 5min transect (20m) was walked between 2 apple tree rows",NA
"Virginie_Boreux_Malus_domestica_Germany_2015","bio5","30min Observation/site (3x2 transects). a 5min transect (20m) was walked between 2 apple tree rows","Butterfly","guild","lepidoptera",1,120,30,NA,"30min Observation/site (3x2 transects). a 5min transect (20m) was walked between 2 apple tree rows",NA
"Virginie_Boreux_Malus_domestica_Germany_2015","bio6","30min Observation/site (3x2 transects). a 5min transect (20m) was walked between 2 apple tree rows","Apis mellifera","species","honeybees",53,120,30,NA,"30min Observation/site (3x2 transects). a 5min transect (20m) was walked between 2 apple tree rows",NA
"Virginie_Boreux_Malus_domestica_Germany_2015","bio6","30min Observation/site (3x2 transects). a 5min transect (20m) was walked between 2 apple tree rows","Bombus terrestris","species","bumblebees",2,120,30,NA,"30min Observation/site (3x2 transects). a 5min transect (20m) was walked between 2 apple tree rows",NA
"Virginie_Boreux_Malus_domestica_Germany_2015","bio6","30min Observation/site (3x2 transects). a 5min transect (20m) was walked between 2 apple tree rows","Fly","guild","other_flies",4,120,30,NA,"30min Observation/site (3x2 transects). a 5min transect (20m) was walked between 2 apple tree rows",NA
"Virginie_Boreux_Malus_domestica_Germany_2015","bio6","30min Observation/site (3x2 transects). a 5min transect (20m) was walked between 2 apple tree rows","Hoverfly","guild","syrphids",1,120,30,NA,"30min Observation/site (3x2 transects). a 5min transect (20m) was walked between 2 apple tree rows",NA
"Virginie_Boreux_Malus_domestica_Germany_2015","bio7","30min Observation/site (3x2 transects). a 5min transect (20m) was walked between 2 apple tree rows","Apis mellifera","species","honeybees",137,120,30,NA,"30min Observation/site (3x2 transects). a 5min transect (20m) was walked between 2 apple tree rows",NA
"Virginie_Boreux_Malus_domestica_Germany_2015","bio7","30min Observation/site (3x2 transects). a 5min transect (20m) was walked between 2 apple tree rows","Wild bee","guild","other_wild_bees",15,120,30,NA,"30min Observation/site (3x2 transects). a 5min transect (20m) was walked between 2 apple tree rows",NA
"Virginie_Boreux_Malus_domestica_Germany_2015","bio7","30min Observation/site (3x2 transects). a 5min transect (20m) was walked between 2 apple tree rows","Andrena cineraria","species","other_wild_bees",5,120,30,NA,"30min Observation/site (3x2 transects). a 5min transect (20m) was walked between 2 apple tree rows",NA
"Virginie_Boreux_Malus_domestica_Germany_2015","bio7","30min Observation/site (3x2 transects). a 5min transect (20m) was walked between 2 apple tree rows","Bombus pascuorum","species","bumblebees",5,120,30,NA,"30min Observation/site (3x2 transects). a 5min transect (20m) was walked between 2 apple tree rows",NA
"Virginie_Boreux_Malus_domestica_Germany_2015","bio7","30min Observation/site (3x2 transects). a 5min transect (20m) was walked between 2 apple tree rows","Bombus terrestris","species","bumblebees",5,120,30,NA,"30min Observation/site (3x2 transects). a 5min transect (20m) was walked between 2 apple tree rows",NA
"Virginie_Boreux_Malus_domestica_Germany_2015","bio7","30min Observation/site (3x2 transects). a 5min transect (20m) was walked between 2 apple tree rows","Andrena sp.","genus","other_wild_bees",3,120,30,NA,"30min Observation/site (3x2 transects). a 5min transect (20m) was walked between 2 apple tree rows",NA
"Virginie_Boreux_Malus_domestica_Germany_2015","bio7","30min Observation/site (3x2 transects). a 5min transect (20m) was walked between 2 apple tree rows","Andrena flavipes","species","other_wild_bees",1,120,30,NA,"30min Observation/site (3x2 transects). a 5min transect (20m) was walked between 2 apple tree rows",NA
"Virginie_Boreux_Malus_domestica_Germany_2015","bio7","30min Observation/site (3x2 transects). a 5min transect (20m) was walked between 2 apple tree rows","Bombus lapidarius","species","bumblebees",1,120,30,NA,"30min Observation/site (3x2 transects). a 5min transect (20m) was walked between 2 apple tree rows",NA
"Virginie_Boreux_Malus_domestica_Germany_2015","bio7","30min Observation/site (3x2 transects). a 5min transect (20m) was walked between 2 apple tree rows","Fly","guild","other_flies",5,120,30,NA,"30min Observation/site (3x2 transects). a 5min transect (20m) was walked between 2 apple tree rows",NA
"Virginie_Boreux_Malus_domestica_Germany_2015","bio7","30min Observation/site (3x2 transects). a 5min transect (20m) was walked between 2 apple tree rows","Hoverfly","guild","syrphids",28,120,30,NA,"30min Observation/site (3x2 transects). a 5min transect (20m) was walked between 2 apple tree rows",NA
"Virginie_Boreux_Malus_domestica_Germany_2015","bio8","30min Observation/site (3x2 transects). a 5min transect (20m) was walked between 2 apple tree rows","Apis mellifera","species","honeybees",32,120,30,NA,"30min Observation/site (3x2 transects). a 5min transect (20m) was walked between 2 apple tree rows",NA
"Virginie_Boreux_Malus_domestica_Germany_2015","bio8","30min Observation/site (3x2 transects). a 5min transect (20m) was walked between 2 apple tree rows","Bombus terrestris","species","bumblebees",2,120,30,NA,"30min Observation/site (3x2 transects). a 5min transect (20m) was walked between 2 apple tree rows",NA
"Virginie_Boreux_Malus_domestica_Germany_2015","bio8","30min Observation/site (3x2 transects). a 5min transect (20m) was walked between 2 apple tree rows","Andrena haemorrhoa","species","other_wild_bees",1,120,30,NA,"30min Observation/site (3x2 transects). a 5min transect (20m) was walked between 2 apple tree rows",NA
"Virginie_Boreux_Malus_domestica_Germany_2015","bio8","30min Observation/site (3x2 transects). a 5min transect (20m) was walked between 2 apple tree rows","Andrena sp.","genus","other_wild_bees",1,120,30,NA,"30min Observation/site (3x2 transects). a 5min transect (20m) was walked between 2 apple tree rows",NA
"Virginie_Boreux_Malus_domestica_Germany_2015","bio8","30min Observation/site (3x2 transects). a 5min transect (20m) was walked between 2 apple tree rows","Bombus lapidarius","species","bumblebees",1,120,30,NA,"30min Observation/site (3x2 transects). a 5min transect (20m) was walked between 2 apple tree rows",NA
"Virginie_Boreux_Malus_domestica_Germany_2015","bio8","30min Observation/site (3x2 transects). a 5min transect (20m) was walked between 2 apple tree rows","Hoverfly","guild","syrphids",1,120,30,NA,"30min Observation/site (3x2 transects). a 5min transect (20m) was walked between 2 apple tree rows",NA
"Virginie_Boreux_Malus_domestica_Germany_2015","bio10","30min Observation/site (3x2 transects). a 5min transect (20m) was walked between 2 apple tree rows","Apis mellifera","species","honeybees",16,120,30,NA,"30min Observation/site (3x2 transects). a 5min transect (20m) was walked between 2 apple tree rows",NA
"Virginie_Boreux_Malus_domestica_Germany_2015","bio10","30min Observation/site (3x2 transects). a 5min transect (20m) was walked between 2 apple tree rows","Andrena jacobi","species","other_wild_bees",1,120,30,NA,"30min Observation/site (3x2 transects). a 5min transect (20m) was walked between 2 apple tree rows",NA
"Virginie_Boreux_Malus_domestica_Germany_2015","bio10","30min Observation/site (3x2 transects). a 5min transect (20m) was walked between 2 apple tree rows","Hoverfly","guild","syrphids",1,120,30,NA,"30min Observation/site (3x2 transects). a 5min transect (20m) was walked between 2 apple tree rows",NA
"Virginie_Boreux_Malus_domestica_Germany_2015","bio11","30min Observation/site (3x2 transects). a 5min transect (20m) was walked between 2 apple tree rows","Apis mellifera","species","honeybees",47,120,30,NA,"30min Observation/site (3x2 transects). a 5min transect (20m) was walked between 2 apple tree rows",NA
"Virginie_Boreux_Malus_domestica_Germany_2015","bio11","30min Observation/site (3x2 transects). a 5min transect (20m) was walked between 2 apple tree rows","Bombus terrestris","species","bumblebees",2,120,30,NA,"30min Observation/site (3x2 transects). a 5min transect (20m) was walked between 2 apple tree rows",NA
"Virginie_Boreux_Malus_domestica_Germany_2015","bio11","30min Observation/site (3x2 transects). a 5min transect (20m) was walked between 2 apple tree rows","Andrena jacobi","species","other_wild_bees",1,120,30,NA,"30min Observation/site (3x2 transects). a 5min transect (20m) was walked between 2 apple tree rows",NA
"Virginie_Boreux_Malus_domestica_Germany_2015","bio11","30min Observation/site (3x2 transects). a 5min transect (20m) was walked between 2 apple tree rows","Andrena nitida","species","other_wild_bees",1,120,30,NA,"30min Observation/site (3x2 transects). a 5min transect (20m) was walked between 2 apple tree rows",NA
"Virginie_Boreux_Malus_domestica_Germany_2015","bio12","30min Observation/site (3x2 transects). a 5min transect (20m) was walked between 2 apple tree rows","Apis mellifera","species","honeybees",21,120,30,NA,"30min Observation/site (3x2 transects). a 5min transect (20m) was walked between 2 apple tree rows",NA
"Virginie_Boreux_Malus_domestica_Germany_2015","bio12","30min Observation/site (3x2 transects). a 5min transect (20m) was walked between 2 apple tree rows","Andrena sp.","genus","other_wild_bees",2,120,30,NA,"30min Observation/site (3x2 transects). a 5min transect (20m) was walked between 2 apple tree rows",NA
"Virginie_Boreux_Malus_domestica_Germany_2015","bio12","30min Observation/site (3x2 transects). a 5min transect (20m) was walked between 2 apple tree rows","Bombus terrestris","species","bumblebees",1,120,30,NA,"30min Observation/site (3x2 transects). a 5min transect (20m) was walked between 2 apple tree rows",NA
"Virginie_Boreux_Malus_domestica_Germany_2015","bio12","30min Observation/site (3x2 transects). a 5min transect (20m) was walked between 2 apple tree rows","Fly","guild","other_flies",5,120,30,NA,"30min Observation/site (3x2 transects). a 5min transect (20m) was walked between 2 apple tree rows",NA
"Virginie_Boreux_Malus_domestica_Germany_2015","bio12","30min Observation/site (3x2 transects). a 5min transect (20m) was walked between 2 apple tree rows","Hoverfly","guild","syrphids",1,120,30,NA,"30min Observation/site (3x2 transects). a 5min transect (20m) was walked between 2 apple tree rows",NA
"Virginie_Boreux_Malus_domestica_Germany_2015","bio13","30min Observation/site (3x2 transects). a 5min transect (20m) was walked between 2 apple tree rows","Apis mellifera","species","honeybees",68,120,30,NA,"30min Observation/site (3x2 transects). a 5min transect (20m) was walked between 2 apple tree rows",NA
"Virginie_Boreux_Malus_domestica_Germany_2015","bio13","30min Observation/site (3x2 transects). a 5min transect (20m) was walked between 2 apple tree rows","Andrena cineraria","species","other_wild_bees",1,120,30,NA,"30min Observation/site (3x2 transects). a 5min transect (20m) was walked between 2 apple tree rows",NA
"Virginie_Boreux_Malus_domestica_Germany_2015","bio13","30min Observation/site (3x2 transects). a 5min transect (20m) was walked between 2 apple tree rows","Andrena jacobi","species","other_wild_bees",1,120,30,NA,"30min Observation/site (3x2 transects). a 5min transect (20m) was walked between 2 apple tree rows",NA
"Virginie_Boreux_Malus_domestica_Germany_2015","bio13","30min Observation/site (3x2 transects). a 5min transect (20m) was walked between 2 apple tree rows","Andrena sp.","genus","other_wild_bees",1,120,30,NA,"30min Observation/site (3x2 transects). a 5min transect (20m) was walked between 2 apple tree rows",NA
"Virginie_Boreux_Malus_domestica_Germany_2015","bio13","30min Observation/site (3x2 transects). a 5min transect (20m) was walked between 2 apple tree rows","Bombus hortorum","species","bumblebees",1,120,30,NA,"30min Observation/site (3x2 transects). a 5min transect (20m) was walked between 2 apple tree rows",NA
"Virginie_Boreux_Malus_domestica_Germany_2015","bio13","30min Observation/site (3x2 transects). a 5min transect (20m) was walked between 2 apple tree rows","Osmia aurulenta","species","other_wild_bees",1,120,30,NA,"30min Observation/site (3x2 transects). a 5min transect (20m) was walked between 2 apple tree rows",NA
"Virginie_Boreux_Malus_domestica_Germany_2015","bio13","30min Observation/site (3x2 transects). a 5min transect (20m) was walked between 2 apple tree rows","Fly","guild","other_flies",1,120,30,NA,"30min Observation/site (3x2 transects). a 5min transect (20m) was walked between 2 apple tree rows",NA
"Virginie_Boreux_Malus_domestica_Germany_2015","bio14","30min Observation/site (3x2 transects). a 5min transect (20m) was walked between 2 apple tree rows","Apis mellifera","species","honeybees",33,120,30,NA,"30min Observation/site (3x2 transects). a 5min transect (20m) was walked between 2 apple tree rows",NA
"Virginie_Boreux_Malus_domestica_Germany_2015","bio14","30min Observation/site (3x2 transects). a 5min transect (20m) was walked between 2 apple tree rows","Andrena nitida","species","other_wild_bees",2,120,30,NA,"30min Observation/site (3x2 transects). a 5min transect (20m) was walked between 2 apple tree rows",NA
"Virginie_Boreux_Malus_domestica_Germany_2015","bio14","30min Observation/site (3x2 transects). a 5min transect (20m) was walked between 2 apple tree rows","Andrena cineraria","species","other_wild_bees",1,120,30,NA,"30min Observation/site (3x2 transects). a 5min transect (20m) was walked between 2 apple tree rows",NA
"Virginie_Boreux_Malus_domestica_Germany_2015","bio14","30min Observation/site (3x2 transects). a 5min transect (20m) was walked between 2 apple tree rows","Andrena fulva","species","other_wild_bees",1,120,30,NA,"30min Observation/site (3x2 transects). a 5min transect (20m) was walked between 2 apple tree rows",NA
"Virginie_Boreux_Malus_domestica_Germany_2015","bio14","30min Observation/site (3x2 transects). a 5min transect (20m) was walked between 2 apple tree rows","Andrena sp.","genus","other_wild_bees",1,120,30,NA,"30min Observation/site (3x2 transects). a 5min transect (20m) was walked between 2 apple tree rows",NA
"Virginie_Boreux_Malus_domestica_Germany_2015","bio14","30min Observation/site (3x2 transects). a 5min transect (20m) was walked between 2 apple tree rows","Bombus pascuorum","species","bumblebees",1,120,30,NA,"30min Observation/site (3x2 transects). a 5min transect (20m) was walked between 2 apple tree rows",NA
"Virginie_Boreux_Malus_domestica_Germany_2015","bio14","30min Observation/site (3x2 transects). a 5min transect (20m) was walked between 2 apple tree rows","Bombus terrestris","species","bumblebees",1,120,30,NA,"30min Observation/site (3x2 transects). a 5min transect (20m) was walked between 2 apple tree rows",NA
"Virginie_Boreux_Malus_domestica_Germany_2015","bio14","30min Observation/site (3x2 transects). a 5min transect (20m) was walked between 2 apple tree rows","Fly","guild","other_flies",8,120,30,NA,"30min Observation/site (3x2 transects). a 5min transect (20m) was walked between 2 apple tree rows",NA
"Virginie_Boreux_Malus_domestica_Germany_2015","bio14","30min Observation/site (3x2 transects). a 5min transect (20m) was walked between 2 apple tree rows","Hoverfly","guild","syrphids",3,120,30,NA,"30min Observation/site (3x2 transects). a 5min transect (20m) was walked between 2 apple tree rows",NA
"Virginie_Boreux_Malus_domestica_Germany_2015","bio15","30min Observation/site (3x2 transects). a 5min transect (20m) was walked between 2 apple tree rows","Apis mellifera","species","honeybees",51,120,30,NA,"30min Observation/site (3x2 transects). a 5min transect (20m) was walked between 2 apple tree rows",NA
"Virginie_Boreux_Malus_domestica_Germany_2015","bio15","30min Observation/site (3x2 transects). a 5min transect (20m) was walked between 2 apple tree rows","Bombus sp.","genus","bumblebees",3,120,30,NA,"30min Observation/site (3x2 transects). a 5min transect (20m) was walked between 2 apple tree rows",NA
"Virginie_Boreux_Malus_domestica_Germany_2015","bio15","30min Observation/site (3x2 transects). a 5min transect (20m) was walked between 2 apple tree rows","Bombus terrestris","species","bumblebees",3,120,30,NA,"30min Observation/site (3x2 transects). a 5min transect (20m) was walked between 2 apple tree rows",NA
"Virginie_Boreux_Malus_domestica_Germany_2015","bio15","30min Observation/site (3x2 transects). a 5min transect (20m) was walked between 2 apple tree rows","Andrena cineraria","species","other_wild_bees",2,120,30,NA,"30min Observation/site (3x2 transects). a 5min transect (20m) was walked between 2 apple tree rows",NA
"Virginie_Boreux_Malus_domestica_Germany_2015","bio15","30min Observation/site (3x2 transects). a 5min transect (20m) was walked between 2 apple tree rows","Andrena haemorrhoa","species","other_wild_bees",2,120,30,NA,"30min Observation/site (3x2 transects). a 5min transect (20m) was walked between 2 apple tree rows",NA
"Virginie_Boreux_Malus_domestica_Germany_2015","bio15","30min Observation/site (3x2 transects). a 5min transect (20m) was walked between 2 apple tree rows","Wild bee","guild","other_wild_bees",2,120,30,NA,"30min Observation/site (3x2 transects). a 5min transect (20m) was walked between 2 apple tree rows",NA
"Virginie_Boreux_Malus_domestica_Germany_2015","bio15","30min Observation/site (3x2 transects). a 5min transect (20m) was walked between 2 apple tree rows","Andrena sp.","genus","other_wild_bees",1,120,30,NA,"30min Observation/site (3x2 transects). a 5min transect (20m) was walked between 2 apple tree rows",NA
"Virginie_Boreux_Malus_domestica_Germany_2015","bio15","30min Observation/site (3x2 transects). a 5min transect (20m) was walked between 2 apple tree rows","Bombus pascuorum","species","bumblebees",1,120,30,NA,"30min Observation/site (3x2 transects). a 5min transect (20m) was walked between 2 apple tree rows",NA
"Virginie_Boreux_Malus_domestica_Germany_2015","bio15","30min Observation/site (3x2 transects). a 5min transect (20m) was walked between 2 apple tree rows","Fly","guild","other_flies",4,120,30,NA,"30min Observation/site (3x2 transects). a 5min transect (20m) was walked between 2 apple tree rows",NA
"Virginie_Boreux_Malus_domestica_Germany_2015","bio15","30min Observation/site (3x2 transects). a 5min transect (20m) was walked between 2 apple tree rows","Hoverfly","guild","syrphids",1,120,30,NA,"30min Observation/site (3x2 transects). a 5min transect (20m) was walked between 2 apple tree rows",NA
"Virginie_Boreux_Malus_domestica_Germany_2015","ip1","30min Observation/site (3x2 transects). a 5min transect (20m) was walked between 2 apple tree rows","Apis mellifera","species","honeybees",85,120,30,NA,"30min Observation/site (3x2 transects). a 5min transect (20m) was walked between 2 apple tree rows",NA
"Virginie_Boreux_Malus_domestica_Germany_2015","ip1","30min Observation/site (3x2 transects). a 5min transect (20m) was walked between 2 apple tree rows","Bombus terrestris","species","bumblebees",2,120,30,NA,"30min Observation/site (3x2 transects). a 5min transect (20m) was walked between 2 apple tree rows",NA
"Virginie_Boreux_Malus_domestica_Germany_2015","ip1","30min Observation/site (3x2 transects). a 5min transect (20m) was walked between 2 apple tree rows","Andrena cineraria","species","other_wild_bees",1,120,30,NA,"30min Observation/site (3x2 transects). a 5min transect (20m) was walked between 2 apple tree rows",NA
"Virginie_Boreux_Malus_domestica_Germany_2015","ip1","30min Observation/site (3x2 transects). a 5min transect (20m) was walked between 2 apple tree rows","Andrena sp.","genus","other_wild_bees",1,120,30,NA,"30min Observation/site (3x2 transects). a 5min transect (20m) was walked between 2 apple tree rows",NA
"Virginie_Boreux_Malus_domestica_Germany_2015","ip1","30min Observation/site (3x2 transects). a 5min transect (20m) was walked between 2 apple tree rows","Lasioglossum sp.","genus","other_wild_bees",1,120,30,NA,"30min Observation/site (3x2 transects). a 5min transect (20m) was walked between 2 apple tree rows",NA
"Virginie_Boreux_Malus_domestica_Germany_2015","ip1","30min Observation/site (3x2 transects). a 5min transect (20m) was walked between 2 apple tree rows","Fly","guild","other_flies",17,120,30,NA,"30min Observation/site (3x2 transects). a 5min transect (20m) was walked between 2 apple tree rows",NA
"Virginie_Boreux_Malus_domestica_Germany_2015","ip3","30min Observation/site (3x2 transects). a 5min transect (20m) was walked between 2 apple tree rows","Apis mellifera","species","honeybees",26,120,30,NA,"30min Observation/site (3x2 transects). a 5min transect (20m) was walked between 2 apple tree rows",NA
"Virginie_Boreux_Malus_domestica_Germany_2015","ip3","30min Observation/site (3x2 transects). a 5min transect (20m) was walked between 2 apple tree rows","Andrena sp.","genus","other_wild_bees",1,120,30,NA,"30min Observation/site (3x2 transects). a 5min transect (20m) was walked between 2 apple tree rows",NA
"Virginie_Boreux_Malus_domestica_Germany_2015","ip3","30min Observation/site (3x2 transects). a 5min transect (20m) was walked between 2 apple tree rows","Bombus lapidarius","species","bumblebees",1,120,30,NA,"30min Observation/site (3x2 transects). a 5min transect (20m) was walked between 2 apple tree rows",NA
"Virginie_Boreux_Malus_domestica_Germany_2015","ip3","30min Observation/site (3x2 transects). a 5min transect (20m) was walked between 2 apple tree rows","Fly","guild","other_flies",19,120,30,NA,"30min Observation/site (3x2 transects). a 5min transect (20m) was walked between 2 apple tree rows",NA
"Virginie_Boreux_Malus_domestica_Germany_2015","ip3","30min Observation/site (3x2 transects). a 5min transect (20m) was walked between 2 apple tree rows","Beetle","guild","beetles",1,120,30,NA,"30min Observation/site (3x2 transects). a 5min transect (20m) was walked between 2 apple tree rows",NA
"Virginie_Boreux_Malus_domestica_Germany_2015","ip4","30min Observation/site (3x2 transects). a 5min transect (20m) was walked between 2 apple tree rows","Apis mellifera","species","honeybees",102,120,30,NA,"30min Observation/site (3x2 transects). a 5min transect (20m) was walked between 2 apple tree rows",NA
"Virginie_Boreux_Malus_domestica_Germany_2015","ip4","30min Observation/site (3x2 transects). a 5min transect (20m) was walked between 2 apple tree rows","Bombus terrestris","species","bumblebees",18,120,30,NA,"30min Observation/site (3x2 transects). a 5min transect (20m) was walked between 2 apple tree rows",NA
"Virginie_Boreux_Malus_domestica_Germany_2015","ip4","30min Observation/site (3x2 transects). a 5min transect (20m) was walked between 2 apple tree rows","Bombus lapidarius","species","bumblebees",10,120,30,NA,"30min Observation/site (3x2 transects). a 5min transect (20m) was walked between 2 apple tree rows",NA
"Virginie_Boreux_Malus_domestica_Germany_2015","ip4","30min Observation/site (3x2 transects). a 5min transect (20m) was walked between 2 apple tree rows","Bombus pratorum","species","bumblebees",4,120,30,NA,"30min Observation/site (3x2 transects). a 5min transect (20m) was walked between 2 apple tree rows",NA
"Virginie_Boreux_Malus_domestica_Germany_2015","ip4","30min Observation/site (3x2 transects). a 5min transect (20m) was walked between 2 apple tree rows","Andrena sp.","genus","other_wild_bees",3,120,30,NA,"30min Observation/site (3x2 transects). a 5min transect (20m) was walked between 2 apple tree rows",NA
"Virginie_Boreux_Malus_domestica_Germany_2015","ip4","30min Observation/site (3x2 transects). a 5min transect (20m) was walked between 2 apple tree rows","Bombus pascuorum","species","bumblebees",2,120,30,NA,"30min Observation/site (3x2 transects). a 5min transect (20m) was walked between 2 apple tree rows",NA
"Virginie_Boreux_Malus_domestica_Germany_2015","ip4","30min Observation/site (3x2 transects). a 5min transect (20m) was walked between 2 apple tree rows","Lasioglossum sp.","genus","other_wild_bees",2,120,30,NA,"30min Observation/site (3x2 transects). a 5min transect (20m) was walked between 2 apple tree rows",NA
"Virginie_Boreux_Malus_domestica_Germany_2015","ip4","30min Observation/site (3x2 transects). a 5min transect (20m) was walked between 2 apple tree rows","Fly","guild","other_flies",3,120,30,NA,"30min Observation/site (3x2 transects). a 5min transect (20m) was walked between 2 apple tree rows",NA
"Virginie_Boreux_Malus_domestica_Germany_2015","ip4","30min Observation/site (3x2 transects). a 5min transect (20m) was walked between 2 apple tree rows","Hoverfly","guild","syrphids",3,120,30,NA,"30min Observation/site (3x2 transects). a 5min transect (20m) was walked between 2 apple tree rows",NA
"Virginie_Boreux_Malus_domestica_Germany_2015","ip5","30min Observation/site (3x2 transects). a 5min transect (20m) was walked between 2 apple tree rows","Apis mellifera","species","honeybees",11,120,30,NA,"30min Observation/site (3x2 transects). a 5min transect (20m) was walked between 2 apple tree rows",NA
"Virginie_Boreux_Malus_domestica_Germany_2015","ip5","30min Observation/site (3x2 transects). a 5min transect (20m) was walked between 2 apple tree rows","Fly","guild","other_flies",22,120,30,NA,"30min Observation/site (3x2 transects). a 5min transect (20m) was walked between 2 apple tree rows",NA
"Virginie_Boreux_Malus_domestica_Germany_2015","ip6","30min Observation/site (3x2 transects). a 5min transect (20m) was walked between 2 apple tree rows","Apis mellifera","species","honeybees",26,120,30,NA,"30min Observation/site (3x2 transects). a 5min transect (20m) was walked between 2 apple tree rows",NA
"Virginie_Boreux_Malus_domestica_Germany_2015","ip6","30min Observation/site (3x2 transects). a 5min transect (20m) was walked between 2 apple tree rows","Andrena fulva","species","other_wild_bees",2,120,30,NA,"30min Observation/site (3x2 transects). a 5min transect (20m) was walked between 2 apple tree rows",NA
"Virginie_Boreux_Malus_domestica_Germany_2015","ip6","30min Observation/site (3x2 transects). a 5min transect (20m) was walked between 2 apple tree rows","Andrena cineraria","species","other_wild_bees",1,120,30,NA,"30min Observation/site (3x2 transects). a 5min transect (20m) was walked between 2 apple tree rows",NA
"Virginie_Boreux_Malus_domestica_Germany_2015","ip6","30min Observation/site (3x2 transects). a 5min transect (20m) was walked between 2 apple tree rows","Wild bee","guild","other_wild_bees",1,120,30,NA,"30min Observation/site (3x2 transects). a 5min transect (20m) was walked between 2 apple tree rows",NA
"Virginie_Boreux_Malus_domestica_Germany_2015","ip6","30min Observation/site (3x2 transects). a 5min transect (20m) was walked between 2 apple tree rows","Fly","guild","other_flies",2,120,30,NA,"30min Observation/site (3x2 transects). a 5min transect (20m) was walked between 2 apple tree rows",NA
"Virginie_Boreux_Malus_domestica_Germany_2015","ip7","30min Observation/site (3x2 transects). a 5min transect (20m) was walked between 2 apple tree rows","Apis mellifera","species","honeybees",22,120,30,NA,"30min Observation/site (3x2 transects). a 5min transect (20m) was walked between 2 apple tree rows",NA
"Virginie_Boreux_Malus_domestica_Germany_2015","ip7","30min Observation/site (3x2 transects). a 5min transect (20m) was walked between 2 apple tree rows","Bombus sp.","genus","bumblebees",1,120,30,NA,"30min Observation/site (3x2 transects). a 5min transect (20m) was walked between 2 apple tree rows",NA
"Virginie_Boreux_Malus_domestica_Germany_2015","ip7","30min Observation/site (3x2 transects). a 5min transect (20m) was walked between 2 apple tree rows","Fly","guild","other_flies",2,120,30,NA,"30min Observation/site (3x2 transects). a 5min transect (20m) was walked between 2 apple tree rows",NA
"Virginie_Boreux_Malus_domestica_Germany_2015","ip8","30min Observation/site (3x2 transects). a 5min transect (20m) was walked between 2 apple tree rows","Apis mellifera","species","honeybees",42,120,30,NA,"30min Observation/site (3x2 transects). a 5min transect (20m) was walked between 2 apple tree rows",NA
"Virginie_Boreux_Malus_domestica_Germany_2015","ip8","30min Observation/site (3x2 transects). a 5min transect (20m) was walked between 2 apple tree rows","Fly","guild","other_flies",3,120,30,NA,"30min Observation/site (3x2 transects). a 5min transect (20m) was walked between 2 apple tree rows",NA
"Virginie_Boreux_Malus_domestica_Germany_2015","ip10","30min Observation/site (3x2 transects). a 5min transect (20m) was walked between 2 apple tree rows","Apis mellifera","species","honeybees",39,120,30,NA,"30min Observation/site (3x2 transects). a 5min transect (20m) was walked between 2 apple tree rows",NA
"Virginie_Boreux_Malus_domestica_Germany_2015","ip10","30min Observation/site (3x2 transects). a 5min transect (20m) was walked between 2 apple tree rows","Bombus terrestris","species","bumblebees",2,120,30,NA,"30min Observation/site (3x2 transects). a 5min transect (20m) was walked between 2 apple tree rows",NA
"Virginie_Boreux_Malus_domestica_Germany_2015","ip10","30min Observation/site (3x2 transects). a 5min transect (20m) was walked between 2 apple tree rows","Osmia sp.","genus","other_wild_bees",1,120,30,NA,"30min Observation/site (3x2 transects). a 5min transect (20m) was walked between 2 apple tree rows",NA
"Virginie_Boreux_Malus_domestica_Germany_2015","ip10","30min Observation/site (3x2 transects). a 5min transect (20m) was walked between 2 apple tree rows","Fly","guild","other_flies",1,120,30,NA,"30min Observation/site (3x2 transects). a 5min transect (20m) was walked between 2 apple tree rows",NA
"Virginie_Boreux_Malus_domestica_Germany_2015","ip10","30min Observation/site (3x2 transects). a 5min transect (20m) was walked between 2 apple tree rows","Hoverfly","guild","syrphids",2,120,30,NA,"30min Observation/site (3x2 transects). a 5min transect (20m) was walked between 2 apple tree rows",NA
"Virginie_Boreux_Malus_domestica_Germany_2015","ip11","30min Observation/site (3x2 transects). a 5min transect (20m) was walked between 2 apple tree rows","Apis mellifera","species","honeybees",34,120,30,NA,"30min Observation/site (3x2 transects). a 5min transect (20m) was walked between 2 apple tree rows",NA
"Virginie_Boreux_Malus_domestica_Germany_2015","ip11","30min Observation/site (3x2 transects). a 5min transect (20m) was walked between 2 apple tree rows","Osmia rufa","species","other_wild_bees",1,120,30,NA,"30min Observation/site (3x2 transects). a 5min transect (20m) was walked between 2 apple tree rows",NA
"Virginie_Boreux_Malus_domestica_Germany_2015","ip12","30min Observation/site (3x2 transects). a 5min transect (20m) was walked between 2 apple tree rows","Apis mellifera","species","honeybees",63,120,30,NA,"30min Observation/site (3x2 transects). a 5min transect (20m) was walked between 2 apple tree rows",NA
"Virginie_Boreux_Malus_domestica_Germany_2015","ip12","30min Observation/site (3x2 transects). a 5min transect (20m) was walked between 2 apple tree rows","Bombus terrestris","species","bumblebees",7,120,30,NA,"30min Observation/site (3x2 transects). a 5min transect (20m) was walked between 2 apple tree rows",NA
"Virginie_Boreux_Malus_domestica_Germany_2015","ip12","30min Observation/site (3x2 transects). a 5min transect (20m) was walked between 2 apple tree rows","Bombus pascuorum","species","bumblebees",6,120,30,NA,"30min Observation/site (3x2 transects). a 5min transect (20m) was walked between 2 apple tree rows",NA
"Virginie_Boreux_Malus_domestica_Germany_2015","ip12","30min Observation/site (3x2 transects). a 5min transect (20m) was walked between 2 apple tree rows","Andrena sp.","genus","other_wild_bees",2,120,30,NA,"30min Observation/site (3x2 transects). a 5min transect (20m) was walked between 2 apple tree rows",NA
"Virginie_Boreux_Malus_domestica_Germany_2015","ip12","30min Observation/site (3x2 transects). a 5min transect (20m) was walked between 2 apple tree rows","Andrena cineraria","species","other_wild_bees",1,120,30,NA,"30min Observation/site (3x2 transects). a 5min transect (20m) was walked between 2 apple tree rows",NA
"Virginie_Boreux_Malus_domestica_Germany_2015","ip12","30min Observation/site (3x2 transects). a 5min transect (20m) was walked between 2 apple tree rows","Bombus lapidarius","species","bumblebees",1,120,30,NA,"30min Observation/site (3x2 transects). a 5min transect (20m) was walked between 2 apple tree rows",NA
"Virginie_Boreux_Malus_domestica_Germany_2015","ip12","30min Observation/site (3x2 transects). a 5min transect (20m) was walked between 2 apple tree rows","Bombus pratorum","species","bumblebees",1,120,30,NA,"30min Observation/site (3x2 transects). a 5min transect (20m) was walked between 2 apple tree rows",NA
"Virginie_Boreux_Malus_domestica_Germany_2015","ip12","30min Observation/site (3x2 transects). a 5min transect (20m) was walked between 2 apple tree rows","Bombus sp.","genus","bumblebees",1,120,30,NA,"30min Observation/site (3x2 transects). a 5min transect (20m) was walked between 2 apple tree rows",NA
"Virginie_Boreux_Malus_domestica_Germany_2015","ip12","30min Observation/site (3x2 transects). a 5min transect (20m) was walked between 2 apple tree rows","Fly","guild","other_flies",8,120,30,NA,"30min Observation/site (3x2 transects). a 5min transect (20m) was walked between 2 apple tree rows",NA
"Virginie_Boreux_Malus_domestica_Germany_2015","ip12","30min Observation/site (3x2 transects). a 5min transect (20m) was walked between 2 apple tree rows","Hoverfly","guild","syrphids",7,120,30,NA,"30min Observation/site (3x2 transects). a 5min transect (20m) was walked between 2 apple tree rows",NA
"Virginie_Boreux_Malus_domestica_Germany_2015","ip12","30min Observation/site (3x2 transects). a 5min transect (20m) was walked between 2 apple tree rows","Wasp","guild","non_bee_hymenoptera",1,120,30,NA,"30min Observation/site (3x2 transects). a 5min transect (20m) was walked between 2 apple tree rows",NA
"Virginie_Boreux_Malus_domestica_Germany_2015","ip13","30min Observation/site (3x2 transects). a 5min transect (20m) was walked between 2 apple tree rows","Apis mellifera","species","honeybees",100,120,30,NA,"30min Observation/site (3x2 transects). a 5min transect (20m) was walked between 2 apple tree rows",NA
"Virginie_Boreux_Malus_domestica_Germany_2015","ip13","30min Observation/site (3x2 transects). a 5min transect (20m) was walked between 2 apple tree rows","Bombus pascuorum","species","bumblebees",4,120,30,NA,"30min Observation/site (3x2 transects). a 5min transect (20m) was walked between 2 apple tree rows",NA
"Virginie_Boreux_Malus_domestica_Germany_2015","ip13","30min Observation/site (3x2 transects). a 5min transect (20m) was walked between 2 apple tree rows","Andrena cineraria","species","other_wild_bees",1,120,30,NA,"30min Observation/site (3x2 transects). a 5min transect (20m) was walked between 2 apple tree rows",NA
"Virginie_Boreux_Malus_domestica_Germany_2015","ip13","30min Observation/site (3x2 transects). a 5min transect (20m) was walked between 2 apple tree rows","Bombus sp.","genus","bumblebees",1,120,30,NA,"30min Observation/site (3x2 transects). a 5min transect (20m) was walked between 2 apple tree rows",NA
"Virginie_Boreux_Malus_domestica_Germany_2015","ip13","30min Observation/site (3x2 transects). a 5min transect (20m) was walked between 2 apple tree rows","Bombus terrestris","species","bumblebees",1,120,30,NA,"30min Observation/site (3x2 transects). a 5min transect (20m) was walked between 2 apple tree rows",NA
"Virginie_Boreux_Malus_domestica_Germany_2015","ip13","30min Observation/site (3x2 transects). a 5min transect (20m) was walked between 2 apple tree rows","Fly","guild","other_flies",13,120,30,NA,"30min Observation/site (3x2 transects). a 5min transect (20m) was walked between 2 apple tree rows",NA
"Virginie_Boreux_Malus_domestica_Germany_2015","ip13","30min Observation/site (3x2 transects). a 5min transect (20m) was walked between 2 apple tree rows","Hoverfly","guild","syrphids",30,120,30,NA,"30min Observation/site (3x2 transects). a 5min transect (20m) was walked between 2 apple tree rows",NA
"Virginie_Boreux_Malus_domestica_Germany_2015","ip14","30min Observation/site (3x2 transects). a 5min transect (20m) was walked between 2 apple tree rows","Apis mellifera","species","honeybees",15,120,30,NA,"30min Observation/site (3x2 transects). a 5min transect (20m) was walked between 2 apple tree rows",NA
"Virginie_Boreux_Malus_domestica_Germany_2015","ip14","30min Observation/site (3x2 transects). a 5min transect (20m) was walked between 2 apple tree rows","Andrena sp.","genus","other_wild_bees",1,120,30,NA,"30min Observation/site (3x2 transects). a 5min transect (20m) was walked between 2 apple tree rows",NA
"Virginie_Boreux_Malus_domestica_Germany_2015","ip14","30min Observation/site (3x2 transects). a 5min transect (20m) was walked between 2 apple tree rows","Fly","guild","other_flies",11,120,30,NA,"30min Observation/site (3x2 transects). a 5min transect (20m) was walked between 2 apple tree rows",NA
"Virginie_Boreux_Malus_domestica_Germany_2015","ip15","30min Observation/site (3x2 transects). a 5min transect (20m) was walked between 2 apple tree rows","Apis mellifera","species","honeybees",49,120,30,NA,"30min Observation/site (3x2 transects). a 5min transect (20m) was walked between 2 apple tree rows",NA
"Virginie_Boreux_Malus_domestica_Germany_2015","ip15","30min Observation/site (3x2 transects). a 5min transect (20m) was walked between 2 apple tree rows","Bombus terrestris","species","bumblebees",1,120,30,NA,"30min Observation/site (3x2 transects). a 5min transect (20m) was walked between 2 apple tree rows",NA
"Virginie_Boreux_Malus_domestica_Germany_2015","ip15","30min Observation/site (3x2 transects). a 5min transect (20m) was walked between 2 apple tree rows","Fly","guild","other_flies",5,120,30,NA,"30min Observation/site (3x2 transects). a 5min transect (20m) was walked between 2 apple tree rows",NA
"Yael_Mandelik_Citrullus_lanatus_Israel_2009","11","netting","Halictini sp.","tribe","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Citrullus_lanatus_Israel_2009","17","netting","Halictini sp.","tribe","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Citrullus_lanatus_Israel_2009","7","netting","Hylaeus sp.","genus","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Citrullus_lanatus_Israel_2009","6","netting","Lasioglossum (Evylaeus) sp.","genus","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Citrullus_lanatus_Israel_2009","6","netting","Lasioglossum (Evylaeus) sp.","genus","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Citrullus_lanatus_Israel_2009","1","netting","Ceratina bispinosa","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Citrullus_lanatus_Israel_2009","7","netting","Ceratina bispinosa","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Citrullus_lanatus_Israel_2009","7","netting","Ceratina bispinosa","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Citrullus_lanatus_Israel_2009","6","netting","Ceratina bispinosa","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Citrullus_lanatus_Israel_2009","6","netting","Ceratina bispinosa","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Citrullus_lanatus_Israel_2009","15","netting","Ceratina bispinosa","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Citrullus_lanatus_Israel_2009","15","netting","Ceratina bispinosa","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Citrullus_lanatus_Israel_2009","17","netting","Ceratina bispinosa","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Citrullus_lanatus_Israel_2009","17","netting","Ceratina mandibularis","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Citrullus_lanatus_Israel_2009","17","netting","Ceratina mandibularis","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Citrullus_lanatus_Israel_2009","12","netting","Ceratina mandibularis","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Citrullus_lanatus_Israel_2009","12","netting","Ceratina mandibularis","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Citrullus_lanatus_Israel_2009","7","netting","Ceratina moricei","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Citrullus_lanatus_Israel_2009","7","netting","Ceratina moricei","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Citrullus_lanatus_Israel_2009","9","netting","Ceratina schwarzi","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Citrullus_lanatus_Israel_2009","4","netting","Ceratina zandeni","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Citrullus_lanatus_Israel_2009","6","netting","Halictus cephalicus","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Citrullus_lanatus_Israel_2009","6","netting","Halictus cephalicus","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Citrullus_lanatus_Israel_2009","17","netting","Halictus cephalicus","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Citrullus_lanatus_Israel_2009","16","netting","Halictus cephalicus","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Citrullus_lanatus_Israel_2009","16","netting","Halictus cephalicus","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Citrullus_lanatus_Israel_2009","8","netting","Halictus pollinosus","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Citrullus_lanatus_Israel_2009","17","netting","Halictus resurgens","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Citrullus_lanatus_Israel_2009","6","netting","Halictus smaragdulus","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Citrullus_lanatus_Israel_2009","13","netting","Halictus subauratus","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Citrullus_lanatus_Israel_2009","1","netting","Halictus tetrazonianellus","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Citrullus_lanatus_Israel_2009","1","netting","Halictus tetrazonianellus","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Citrullus_lanatus_Israel_2009","1","netting","Halictus tetrazonianellus","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Citrullus_lanatus_Israel_2009","7","netting","Halictus tetrazonianellus","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Citrullus_lanatus_Israel_2009","6","netting","Halictus tetrazonianellus","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Citrullus_lanatus_Israel_2009","6","netting","Hylaeus intermedius","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Citrullus_lanatus_Israel_2009","6","netting","Hylaeus intermedius","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Citrullus_lanatus_Israel_2009","17","netting","Hylaeus intermedius","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Citrullus_lanatus_Israel_2009","6","netting","Hylaeus kahri","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Citrullus_lanatus_Israel_2009","6","netting","Hylaeus kahri","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Citrullus_lanatus_Israel_2009","6","netting","Hylaeus soror","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Citrullus_lanatus_Israel_2009","7","netting","Hylaeus syriacus","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Citrullus_lanatus_Israel_2009","6","netting","Hylaeus syriacus","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Citrullus_lanatus_Israel_2009","7","netting","Hylaeus taeniolatus","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Citrullus_lanatus_Israel_2009","7","netting","Hylaeus taeniolatus","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Citrullus_lanatus_Israel_2009","6","netting","Hylaeus taeniolatus","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Citrullus_lanatus_Israel_2009","6","netting","Hylaeus taeniolatus","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Citrullus_lanatus_Israel_2009","6","netting","Hylaeus taeniolatus","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Citrullus_lanatus_Israel_2009","6","netting","Hylaeus taeniolatus","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Citrullus_lanatus_Israel_2009","3","netting","Lasioglossum aegyptiellum","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Citrullus_lanatus_Israel_2009","4","netting","Lasioglossum aegyptiellum","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Citrullus_lanatus_Israel_2009","9","netting","Lasioglossum aegyptiellum","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Citrullus_lanatus_Israel_2009","8","netting","Lasioglossum aegyptiellum","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Citrullus_lanatus_Israel_2009","8","netting","Lasioglossum aegyptiellum","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Citrullus_lanatus_Israel_2009","8","netting","Lasioglossum aegyptiellum","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Citrullus_lanatus_Israel_2009","8","netting","Lasioglossum aegyptiellum","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Citrullus_lanatus_Israel_2009","7","netting","Lasioglossum aegyptiellum","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Citrullus_lanatus_Israel_2009","2","netting","Lasioglossum anellum","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Citrullus_lanatus_Israel_2009","10","netting","Lasioglossum callizionum","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Citrullus_lanatus_Israel_2009","17","netting","Lasioglossum callizionum","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Citrullus_lanatus_Israel_2009","16","netting","Lasioglossum callizionum","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Citrullus_lanatus_Israel_2009","7","netting","Lasioglossum clypeiferellum","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Citrullus_lanatus_Israel_2009","16","netting","Lasioglossum clypeiferellum","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Citrullus_lanatus_Israel_2009","5","netting","Lasioglossum discum","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Citrullus_lanatus_Israel_2009","4","netting","Lasioglossum discum","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Citrullus_lanatus_Israel_2009","9","netting","Lasioglossum discum","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Citrullus_lanatus_Israel_2009","9","netting","Lasioglossum discum","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Citrullus_lanatus_Israel_2009","14","netting","Lasioglossum discum","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Citrullus_lanatus_Israel_2009","14","netting","Lasioglossum discum","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Citrullus_lanatus_Israel_2009","14","netting","Lasioglossum discum","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Citrullus_lanatus_Israel_2009","17","netting","Lasioglossum discum","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Citrullus_lanatus_Israel_2009","6","netting","Lasioglossum glabriusculum","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Citrullus_lanatus_Israel_2009","6","netting","Lasioglossum glabriusculum","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Citrullus_lanatus_Israel_2009","11","netting","Lasioglossum glabriusculum","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Citrullus_lanatus_Israel_2009","13","netting","Lasioglossum glabriusculum","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Citrullus_lanatus_Israel_2009","17","netting","Lasioglossum glabriusculum","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Citrullus_lanatus_Israel_2009","14","netting","Lasioglossum malachurum","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Citrullus_lanatus_Israel_2009","14","netting","Lasioglossum malachurum","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Citrullus_lanatus_Israel_2009","14","netting","Lasioglossum malachurum","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Citrullus_lanatus_Israel_2009","14","netting","Lasioglossum malachurum","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Citrullus_lanatus_Israel_2009","6","netting","Lasioglossum malachurum","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Citrullus_lanatus_Israel_2009","6","netting","Lasioglossum malachurum","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Citrullus_lanatus_Israel_2009","6","netting","Lasioglossum malachurum","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Citrullus_lanatus_Israel_2009","6","netting","Lasioglossum malachurum","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Citrullus_lanatus_Israel_2009","6","netting","Lasioglossum malachurum","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Citrullus_lanatus_Israel_2009","6","netting","Lasioglossum malachurum","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Citrullus_lanatus_Israel_2009","11","netting","Lasioglossum malachurum","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Citrullus_lanatus_Israel_2009","11","netting","Lasioglossum malachurum","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Citrullus_lanatus_Israel_2009","10","netting","Lasioglossum malachurum","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Citrullus_lanatus_Israel_2009","10","netting","Lasioglossum malachurum","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Citrullus_lanatus_Israel_2009","10","netting","Lasioglossum malachurum","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Citrullus_lanatus_Israel_2009","10","netting","Lasioglossum malachurum","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Citrullus_lanatus_Israel_2009","10","netting","Lasioglossum malachurum","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Citrullus_lanatus_Israel_2009","10","netting","Lasioglossum malachurum","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Citrullus_lanatus_Israel_2009","10","netting","Lasioglossum malachurum","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Citrullus_lanatus_Israel_2009","15","netting","Lasioglossum malachurum","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Citrullus_lanatus_Israel_2009","15","netting","Lasioglossum malachurum","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Citrullus_lanatus_Israel_2009","17","netting","Lasioglossum malachurum","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Citrullus_lanatus_Israel_2009","17","netting","Lasioglossum malachurum","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Citrullus_lanatus_Israel_2009","17","netting","Lasioglossum malachurum","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Citrullus_lanatus_Israel_2009","17","netting","Lasioglossum malachurum","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Citrullus_lanatus_Israel_2009","17","netting","Lasioglossum malachurum","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Citrullus_lanatus_Israel_2009","17","netting","Lasioglossum malachurum","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Citrullus_lanatus_Israel_2009","17","netting","Lasioglossum malachurum","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Citrullus_lanatus_Israel_2009","12","netting","Lasioglossum malachurum","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Citrullus_lanatus_Israel_2009","12","netting","Lasioglossum malachurum","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Citrullus_lanatus_Israel_2009","16","netting","Lasioglossum malachurum","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Citrullus_lanatus_Israel_2009","14","netting","Lasioglossum politum atomarium","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Citrullus_lanatus_Israel_2009","6","netting","Lasioglossum politum atomarium","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Citrullus_lanatus_Israel_2009","6","netting","Lasioglossum politum atomarium","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Citrullus_lanatus_Israel_2009","6","netting","Lasioglossum politum atomarium","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Citrullus_lanatus_Israel_2009","15","netting","Lasioglossum politum atomarium","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Citrullus_lanatus_Israel_2009","17","netting","Lasioglossum politum atomarium","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Citrullus_lanatus_Israel_2009","17","netting","Lasioglossum politum atomarium","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Citrullus_lanatus_Israel_2009","17","netting","Lasioglossum politum atomarium","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Citrullus_lanatus_Israel_2009","17","netting","Lasioglossum politum atomarium","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Citrullus_lanatus_Israel_2009","17","netting","Lasioglossum politum atomarium","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Citrullus_lanatus_Israel_2009","7","netting","Lasioglossum pseudosphecodimorphum","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Citrullus_lanatus_Israel_2009","6","netting","Lasioglossum pseudosphecodimorphum","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Citrullus_lanatus_Israel_2009","2","netting","Lasioglossum truncaticolle","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Citrullus_lanatus_Israel_2009","2","netting","Lasioglossum truncaticolle","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Citrullus_lanatus_Israel_2009","4","netting","Lasioglossum villosulum","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Citrullus_lanatus_Israel_2009","14","netting","Lasioglossum villosulum","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Citrullus_lanatus_Israel_2009","7","netting","Lithurgus tibialis","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Citrullus_lanatus_Israel_2009","14","netting","Nomada kohli","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Citrullus_lanatus_Israel_2009","6","netting","Nomada kohli","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Citrullus_lanatus_Israel_2009","6","netting","Nomada kohli","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Citrullus_lanatus_Israel_2009","17","netting","Nomada kohli","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Citrullus_lanatus_Israel_2009","17","netting","Nomada kohli","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Citrullus_lanatus_Israel_2009","16","netting","Nomada kohli","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Citrullus_lanatus_Israel_2009","15","netting","Nomiapis bispinosa","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Citrullus_lanatus_Israel_2009","1","netting","Nomiapis diversipes","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Citrullus_lanatus_Israel_2010","8","netting","Halictus sp.","genus","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Citrullus_lanatus_Israel_2010","2","netting","Nomioides sp. 1","morphospecies","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Citrullus_lanatus_Israel_2010","2","netting","Nomioidinae sp.","subfamily","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Citrullus_lanatus_Israel_2010","5","netting","Tarsalia sp. 1","morphospecies","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Citrullus_lanatus_Israel_2010","1","netting","Hylaeus aff. dinkleri","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Citrullus_lanatus_Israel_2010","4","netting","Lasioglossum aff. morio","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Citrullus_lanatus_Israel_2010","2","netting","Megachile cf. fertoni","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Citrullus_lanatus_Israel_2010","10","netting","Andrena flavipes","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Citrullus_lanatus_Israel_2010","8","netting","Ceratina bispinosa","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Citrullus_lanatus_Israel_2010","3","netting","Ceratina bispinosa","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Citrullus_lanatus_Israel_2010","12","netting","Ceratina bispinosa","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Citrullus_lanatus_Israel_2010","4","netting","Ceratina cucurbitina","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Citrullus_lanatus_Israel_2010","5","netting","Ceratina dentiventris","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Citrullus_lanatus_Israel_2010","4","netting","Ceratina dentiventris","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Citrullus_lanatus_Israel_2010","8","netting","Ceratina mandibularis","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Citrullus_lanatus_Israel_2010","8","netting","Ceratina mandibularis","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Citrullus_lanatus_Israel_2010","8","netting","Ceratina mandibularis","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Citrullus_lanatus_Israel_2010","8","netting","Ceratina mandibularis","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Citrullus_lanatus_Israel_2010","8","netting","Ceratina mandibularis","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Citrullus_lanatus_Israel_2010","8","netting","Ceratina mandibularis","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Citrullus_lanatus_Israel_2010","8","netting","Ceratina mandibularis","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Citrullus_lanatus_Israel_2010","8","netting","Ceratina mandibularis","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Citrullus_lanatus_Israel_2010","3","netting","Ceratina mandibularis","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Citrullus_lanatus_Israel_2010","10","netting","Ceratina mandibularis","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Citrullus_lanatus_Israel_2010","10","netting","Ceratina mandibularis","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Citrullus_lanatus_Israel_2010","10","netting","Ceratina mandibularis","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Citrullus_lanatus_Israel_2010","10","netting","Ceratina mandibularis","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Citrullus_lanatus_Israel_2010","10","netting","Ceratina mandibularis","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Citrullus_lanatus_Israel_2010","8","netting","Ceratina moricei","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Citrullus_lanatus_Israel_2010","9","netting","Ceratina moricei","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Citrullus_lanatus_Israel_2010","10","netting","Ceratina schwarzi","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Citrullus_lanatus_Israel_2010","12","netting","Ceratina schwarzi","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Citrullus_lanatus_Israel_2010","6","netting","Halictus pollinosus","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Citrullus_lanatus_Israel_2010","3","netting","Halictus pollinosus","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Citrullus_lanatus_Israel_2010","7","netting","Halictus pollinosus","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Citrullus_lanatus_Israel_2010","5","netting","Halictus pollinosus","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Citrullus_lanatus_Israel_2010","8","netting","Halictus resurgens","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Citrullus_lanatus_Israel_2010","8","netting","Halictus resurgens","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Citrullus_lanatus_Israel_2010","6","netting","Halictus resurgens","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Citrullus_lanatus_Israel_2010","3","netting","Halictus resurgens","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Citrullus_lanatus_Israel_2010","11","netting","Halictus resurgens","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Citrullus_lanatus_Israel_2010","11","netting","Halictus resurgens","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Citrullus_lanatus_Israel_2010","2","netting","Halictus resurgens","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Citrullus_lanatus_Israel_2010","1","netting","Halictus resurgens","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Citrullus_lanatus_Israel_2010","5","netting","Halictus resurgens","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Citrullus_lanatus_Israel_2010","5","netting","Halictus resurgens","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Citrullus_lanatus_Israel_2010","5","netting","Halictus resurgens","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Citrullus_lanatus_Israel_2010","5","netting","Halictus resurgens","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Citrullus_lanatus_Israel_2010","4","netting","Halictus resurgens","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Citrullus_lanatus_Israel_2010","4","netting","Halictus resurgens","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Citrullus_lanatus_Israel_2010","4","netting","Halictus resurgens","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Citrullus_lanatus_Israel_2010","6","netting","Halictus smaragdulus","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Citrullus_lanatus_Israel_2010","6","netting","Halictus smaragdulus","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Citrullus_lanatus_Israel_2010","10","netting","Halictus smaragdulus","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Citrullus_lanatus_Israel_2010","4","netting","Halictus smaragdulus","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Citrullus_lanatus_Israel_2010","12","netting","Halictus smaragdulus","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Citrullus_lanatus_Israel_2010","12","netting","Halictus smaragdulus","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Citrullus_lanatus_Israel_2010","7","netting","Halictus tetrazonianellus","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Citrullus_lanatus_Israel_2010","1","netting","Halictus tetrazonianellus","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Citrullus_lanatus_Israel_2010","5","netting","Halictus tetrazonianellus","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Citrullus_lanatus_Israel_2010","5","netting","Halictus tetrazonianellus","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Citrullus_lanatus_Israel_2010","5","netting","Halictus tetrazonianellus","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Citrullus_lanatus_Israel_2010","5","netting","Halictus tetrazonianellus","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Citrullus_lanatus_Israel_2010","5","netting","Halictus tetrazonianellus","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Citrullus_lanatus_Israel_2010","5","netting","Halictus tetrazonianellus","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Citrullus_lanatus_Israel_2010","4","netting","Halictus tetrazonianellus","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Citrullus_lanatus_Israel_2010","4","netting","Halictus tetrazonianellus","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Citrullus_lanatus_Israel_2010","2","netting","Hylaeus albonotatus","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Citrullus_lanatus_Israel_2010","4","netting","Hylaeus imparilis","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Citrullus_lanatus_Israel_2010","4","netting","Hylaeus imparilis","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Citrullus_lanatus_Israel_2010","4","netting","Hylaeus kahri","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Citrullus_lanatus_Israel_2010","5","netting","Hylaeus longimaculus","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Citrullus_lanatus_Israel_2010","4","netting","Hylaeus longimaculus","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Citrullus_lanatus_Israel_2010","7","netting","Hylaeus syriacus","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Citrullus_lanatus_Israel_2010","7","netting","Hylaeus syriacus","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Citrullus_lanatus_Israel_2010","5","netting","Hylaeus syriacus","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Citrullus_lanatus_Israel_2010","2","netting","Hylaeus taeniolatus","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Citrullus_lanatus_Israel_2010","2","netting","Hylaeus taeniolatus","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Citrullus_lanatus_Israel_2010","2","netting","Hylaeus taeniolatus","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Citrullus_lanatus_Israel_2010","2","netting","Hylaeus taeniolatus","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Citrullus_lanatus_Israel_2010","2","netting","Hylaeus taeniolatus","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Citrullus_lanatus_Israel_2010","1","netting","Hylaeus taeniolatus","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Citrullus_lanatus_Israel_2010","1","netting","Hylaeus taeniolatus","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Citrullus_lanatus_Israel_2010","1","netting","Hylaeus taeniolatus","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Citrullus_lanatus_Israel_2010","1","netting","Hylaeus taeniolatus","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Citrullus_lanatus_Israel_2010","1","netting","Hylaeus taeniolatus","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Citrullus_lanatus_Israel_2010","1","netting","Hylaeus taeniolatus","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Citrullus_lanatus_Israel_2010","1","netting","Hylaeus taeniolatus","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Citrullus_lanatus_Israel_2010","1","netting","Hylaeus taeniolatus","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Citrullus_lanatus_Israel_2010","1","netting","Hylaeus taeniolatus","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Citrullus_lanatus_Israel_2010","1","netting","Hylaeus taeniolatus","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Citrullus_lanatus_Israel_2010","1","netting","Hylaeus taeniolatus","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Citrullus_lanatus_Israel_2010","1","netting","Hylaeus taeniolatus","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Citrullus_lanatus_Israel_2010","1","netting","Hylaeus taeniolatus","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Citrullus_lanatus_Israel_2010","1","netting","Hylaeus taeniolatus","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Citrullus_lanatus_Israel_2010","1","netting","Hylaeus taeniolatus","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Citrullus_lanatus_Israel_2010","5","netting","Hylaeus taeniolatus","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Citrullus_lanatus_Israel_2010","5","netting","Hylaeus taeniolatus","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Citrullus_lanatus_Israel_2010","5","netting","Hylaeus taeniolatus","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Citrullus_lanatus_Israel_2010","4","netting","Hylaeus taeniolatus","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Citrullus_lanatus_Israel_2010","4","netting","Hylaeus taeniolatus","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Citrullus_lanatus_Israel_2010","4","netting","Hylaeus taeniolatus","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Citrullus_lanatus_Israel_2010","4","netting","Hylaeus taeniolatus","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Citrullus_lanatus_Israel_2010","4","netting","Hylaeus taeniolatus","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Citrullus_lanatus_Israel_2010","4","netting","Hylaeus taeniolatus","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Citrullus_lanatus_Israel_2010","4","netting","Hylaeus taeniolatus","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Citrullus_lanatus_Israel_2010","4","netting","Hylaeus taeniolatus","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Citrullus_lanatus_Israel_2010","4","netting","Hylaeus taeniolatus","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Citrullus_lanatus_Israel_2010","4","netting","Hylaeus taeniolatus","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Citrullus_lanatus_Israel_2010","4","netting","Hylaeus taeniolatus","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Citrullus_lanatus_Israel_2010","4","netting","Hylaeus taeniolatus","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Citrullus_lanatus_Israel_2010","4","netting","Hylaeus taeniolatus","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Citrullus_lanatus_Israel_2010","4","netting","Hylaeus taeniolatus","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Citrullus_lanatus_Israel_2010","4","netting","Hylaeus taeniolatus","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Citrullus_lanatus_Israel_2010","4","netting","Hylaeus taeniolatus","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Citrullus_lanatus_Israel_2010","4","netting","Hylaeus taeniolatus","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Citrullus_lanatus_Israel_2010","4","netting","Hylaeus taeniolatus","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Citrullus_lanatus_Israel_2010","4","netting","Hylaeus taeniolatus","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Citrullus_lanatus_Israel_2010","4","netting","Hylaeus taeniolatus","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Citrullus_lanatus_Israel_2010","4","netting","Hylaeus taeniolatus","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Citrullus_lanatus_Israel_2010","4","netting","Hylaeus taeniolatus","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Citrullus_lanatus_Israel_2010","4","netting","Hylaeus taeniolatus","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Citrullus_lanatus_Israel_2010","4","netting","Hylaeus taeniolatus","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Citrullus_lanatus_Israel_2010","4","netting","Hylaeus taeniolatus","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Citrullus_lanatus_Israel_2010","4","netting","Hylaeus taeniolatus","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Citrullus_lanatus_Israel_2010","4","netting","Hylaeus taeniolatus","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Citrullus_lanatus_Israel_2010","4","netting","Hylaeus taeniolatus","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Citrullus_lanatus_Israel_2010","4","netting","Hylaeus taeniolatus","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Citrullus_lanatus_Israel_2010","13","netting","Lasioglossum aegyptiellum","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Citrullus_lanatus_Israel_2010","8","netting","Lasioglossum anellum","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Citrullus_lanatus_Israel_2010","9","netting","Lasioglossum anellum","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Citrullus_lanatus_Israel_2010","9","netting","Lasioglossum anellum","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Citrullus_lanatus_Israel_2010","10","netting","Lasioglossum anellum","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Citrullus_lanatus_Israel_2010","2","netting","Lasioglossum anellum","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Citrullus_lanatus_Israel_2010","4","netting","Lasioglossum anellum","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Citrullus_lanatus_Israel_2010","3","netting","Lasioglossum clypeiferellum","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Citrullus_lanatus_Israel_2010","4","netting","Lasioglossum clypeiferellum","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Citrullus_lanatus_Israel_2010","13","netting","Lasioglossum clypeiferellum","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Citrullus_lanatus_Israel_2010","12","netting","Lasioglossum clypeiferellum","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Citrullus_lanatus_Israel_2010","8","netting","Lasioglossum discum","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Citrullus_lanatus_Israel_2010","9","netting","Lasioglossum discum","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Citrullus_lanatus_Israel_2010","11","netting","Lasioglossum discum","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Citrullus_lanatus_Israel_2010","4","netting","Lasioglossum epipygiale","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Citrullus_lanatus_Israel_2010","4","netting","Lasioglossum glabriusculum","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Citrullus_lanatus_Israel_2010","4","netting","Lasioglossum glabriusculum","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Citrullus_lanatus_Israel_2010","12","netting","Lasioglossum glabriusculum","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Citrullus_lanatus_Israel_2010","8","netting","Lasioglossum malachurum","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Citrullus_lanatus_Israel_2010","8","netting","Lasioglossum malachurum","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Citrullus_lanatus_Israel_2010","8","netting","Lasioglossum malachurum","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Citrullus_lanatus_Israel_2010","8","netting","Lasioglossum malachurum","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Citrullus_lanatus_Israel_2010","8","netting","Lasioglossum malachurum","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Citrullus_lanatus_Israel_2010","8","netting","Lasioglossum malachurum","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Citrullus_lanatus_Israel_2010","8","netting","Lasioglossum malachurum","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Citrullus_lanatus_Israel_2010","9","netting","Lasioglossum malachurum","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Citrullus_lanatus_Israel_2010","9","netting","Lasioglossum malachurum","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Citrullus_lanatus_Israel_2010","6","netting","Lasioglossum malachurum","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Citrullus_lanatus_Israel_2010","6","netting","Lasioglossum malachurum","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Citrullus_lanatus_Israel_2010","6","netting","Lasioglossum malachurum","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Citrullus_lanatus_Israel_2010","6","netting","Lasioglossum malachurum","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Citrullus_lanatus_Israel_2010","6","netting","Lasioglossum malachurum","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Citrullus_lanatus_Israel_2010","3","netting","Lasioglossum malachurum","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Citrullus_lanatus_Israel_2010","11","netting","Lasioglossum malachurum","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Citrullus_lanatus_Israel_2010","11","netting","Lasioglossum malachurum","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Citrullus_lanatus_Israel_2010","11","netting","Lasioglossum malachurum","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Citrullus_lanatus_Israel_2010","11","netting","Lasioglossum malachurum","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Citrullus_lanatus_Israel_2010","11","netting","Lasioglossum malachurum","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Citrullus_lanatus_Israel_2010","11","netting","Lasioglossum malachurum","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Citrullus_lanatus_Israel_2010","11","netting","Lasioglossum malachurum","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Citrullus_lanatus_Israel_2010","11","netting","Lasioglossum malachurum","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Citrullus_lanatus_Israel_2010","11","netting","Lasioglossum malachurum","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Citrullus_lanatus_Israel_2010","11","netting","Lasioglossum malachurum","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Citrullus_lanatus_Israel_2010","10","netting","Lasioglossum malachurum","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Citrullus_lanatus_Israel_2010","10","netting","Lasioglossum malachurum","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Citrullus_lanatus_Israel_2010","10","netting","Lasioglossum malachurum","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Citrullus_lanatus_Israel_2010","10","netting","Lasioglossum malachurum","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Citrullus_lanatus_Israel_2010","10","netting","Lasioglossum malachurum","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Citrullus_lanatus_Israel_2010","10","netting","Lasioglossum malachurum","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Citrullus_lanatus_Israel_2010","10","netting","Lasioglossum malachurum","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Citrullus_lanatus_Israel_2010","10","netting","Lasioglossum malachurum","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Citrullus_lanatus_Israel_2010","10","netting","Lasioglossum malachurum","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Citrullus_lanatus_Israel_2010","10","netting","Lasioglossum malachurum","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Citrullus_lanatus_Israel_2010","10","netting","Lasioglossum malachurum","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Citrullus_lanatus_Israel_2010","10","netting","Lasioglossum malachurum","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Citrullus_lanatus_Israel_2010","10","netting","Lasioglossum malachurum","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Citrullus_lanatus_Israel_2010","10","netting","Lasioglossum malachurum","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Citrullus_lanatus_Israel_2010","10","netting","Lasioglossum malachurum","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Citrullus_lanatus_Israel_2010","2","netting","Lasioglossum malachurum","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Citrullus_lanatus_Israel_2010","1","netting","Lasioglossum malachurum","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Citrullus_lanatus_Israel_2010","1","netting","Lasioglossum malachurum","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Citrullus_lanatus_Israel_2010","1","netting","Lasioglossum malachurum","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Citrullus_lanatus_Israel_2010","1","netting","Lasioglossum malachurum","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Citrullus_lanatus_Israel_2010","1","netting","Lasioglossum malachurum","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Citrullus_lanatus_Israel_2010","1","netting","Lasioglossum malachurum","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Citrullus_lanatus_Israel_2010","1","netting","Lasioglossum malachurum","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Citrullus_lanatus_Israel_2010","1","netting","Lasioglossum malachurum","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Citrullus_lanatus_Israel_2010","1","netting","Lasioglossum malachurum","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Citrullus_lanatus_Israel_2010","1","netting","Lasioglossum malachurum","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Citrullus_lanatus_Israel_2010","5","netting","Lasioglossum malachurum","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Citrullus_lanatus_Israel_2010","5","netting","Lasioglossum malachurum","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Citrullus_lanatus_Israel_2010","5","netting","Lasioglossum malachurum","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Citrullus_lanatus_Israel_2010","5","netting","Lasioglossum malachurum","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Citrullus_lanatus_Israel_2010","5","netting","Lasioglossum malachurum","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Citrullus_lanatus_Israel_2010","5","netting","Lasioglossum malachurum","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Citrullus_lanatus_Israel_2010","5","netting","Lasioglossum malachurum","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Citrullus_lanatus_Israel_2010","5","netting","Lasioglossum malachurum","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Citrullus_lanatus_Israel_2010","5","netting","Lasioglossum malachurum","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Citrullus_lanatus_Israel_2010","5","netting","Lasioglossum malachurum","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Citrullus_lanatus_Israel_2010","4","netting","Lasioglossum malachurum","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Citrullus_lanatus_Israel_2010","4","netting","Lasioglossum malachurum","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Citrullus_lanatus_Israel_2010","13","netting","Lasioglossum malachurum","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Citrullus_lanatus_Israel_2010","13","netting","Lasioglossum malachurum","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Citrullus_lanatus_Israel_2010","13","netting","Lasioglossum malachurum","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Citrullus_lanatus_Israel_2010","12","netting","Lasioglossum malachurum","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Citrullus_lanatus_Israel_2010","12","netting","Lasioglossum malachurum","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Citrullus_lanatus_Israel_2010","12","netting","Lasioglossum malachurum","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Citrullus_lanatus_Israel_2010","12","netting","Lasioglossum malachurum","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Citrullus_lanatus_Israel_2010","12","netting","Lasioglossum malachurum","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Citrullus_lanatus_Israel_2010","9","netting","Lasioglossum minutissimum","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Citrullus_lanatus_Israel_2010","10","netting","Lasioglossum minutissimum","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Citrullus_lanatus_Israel_2010","2","netting","Lasioglossum obscuratum","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Citrullus_lanatus_Israel_2010","2","netting","Lasioglossum obscuratum","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Citrullus_lanatus_Israel_2010","9","netting","Lasioglossum politum atomarium","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Citrullus_lanatus_Israel_2010","9","netting","Lasioglossum politum atomarium","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Citrullus_lanatus_Israel_2010","9","netting","Lasioglossum politum atomarium","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Citrullus_lanatus_Israel_2010","9","netting","Lasioglossum politum atomarium","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Citrullus_lanatus_Israel_2010","9","netting","Lasioglossum politum atomarium","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Citrullus_lanatus_Israel_2010","2","netting","Lasioglossum politum atomarium","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Citrullus_lanatus_Israel_2010","2","netting","Lasioglossum politum atomarium","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Citrullus_lanatus_Israel_2010","2","netting","Lasioglossum politum atomarium","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Citrullus_lanatus_Israel_2010","2","netting","Lasioglossum politum atomarium","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Citrullus_lanatus_Israel_2010","1","netting","Lasioglossum politum atomarium","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Citrullus_lanatus_Israel_2010","1","netting","Lasioglossum politum atomarium","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Citrullus_lanatus_Israel_2010","1","netting","Lasioglossum politum atomarium","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Citrullus_lanatus_Israel_2010","1","netting","Lasioglossum politum atomarium","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Citrullus_lanatus_Israel_2010","5","netting","Lasioglossum politum atomarium","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Citrullus_lanatus_Israel_2010","4","netting","Lasioglossum politum atomarium","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Citrullus_lanatus_Israel_2010","4","netting","Lasioglossum politum atomarium","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Citrullus_lanatus_Israel_2010","4","netting","Lasioglossum politum atomarium","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Citrullus_lanatus_Israel_2010","4","netting","Lasioglossum politum atomarium","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Citrullus_lanatus_Israel_2010","4","netting","Lasioglossum politum atomarium","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Citrullus_lanatus_Israel_2010","13","netting","Lasioglossum politum atomarium","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Citrullus_lanatus_Israel_2010","13","netting","Lasioglossum politum atomarium","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Citrullus_lanatus_Israel_2010","13","netting","Lasioglossum politum atomarium","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Citrullus_lanatus_Israel_2010","13","netting","Lasioglossum politum atomarium","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Citrullus_lanatus_Israel_2010","13","netting","Lasioglossum politum atomarium","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Citrullus_lanatus_Israel_2010","13","netting","Lasioglossum politum atomarium","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Citrullus_lanatus_Israel_2010","13","netting","Lasioglossum politum atomarium","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Citrullus_lanatus_Israel_2010","13","netting","Lasioglossum politum atomarium","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Citrullus_lanatus_Israel_2010","13","netting","Lasioglossum politum atomarium","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Citrullus_lanatus_Israel_2010","13","netting","Lasioglossum politum atomarium","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Citrullus_lanatus_Israel_2010","13","netting","Lasioglossum politum atomarium","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Citrullus_lanatus_Israel_2010","13","netting","Lasioglossum politum atomarium","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Citrullus_lanatus_Israel_2010","12","netting","Lasioglossum politum atomarium","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Citrullus_lanatus_Israel_2010","12","netting","Lasioglossum politum atomarium","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Citrullus_lanatus_Israel_2010","12","netting","Lasioglossum politum atomarium","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Citrullus_lanatus_Israel_2010","12","netting","Lasioglossum politum atomarium","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Citrullus_lanatus_Israel_2010","12","netting","Lasioglossum politum atomarium","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Citrullus_lanatus_Israel_2010","12","netting","Lasioglossum politum atomarium","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Citrullus_lanatus_Israel_2010","12","netting","Lasioglossum politum atomarium","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Citrullus_lanatus_Israel_2010","12","netting","Lasioglossum politum atomarium","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Citrullus_lanatus_Israel_2010","12","netting","Lasioglossum politum atomarium","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Citrullus_lanatus_Israel_2010","12","netting","Lasioglossum politum atomarium","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Citrullus_lanatus_Israel_2010","12","netting","Lasioglossum politum atomarium","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Citrullus_lanatus_Israel_2010","12","netting","Lasioglossum politum atomarium","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Citrullus_lanatus_Israel_2010","12","netting","Lasioglossum politum atomarium","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Citrullus_lanatus_Israel_2010","12","netting","Lasioglossum politum atomarium","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Citrullus_lanatus_Israel_2010","12","netting","Lasioglossum politum atomarium","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Citrullus_lanatus_Israel_2010","12","netting","Lasioglossum politum atomarium","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Citrullus_lanatus_Israel_2010","7","netting","Lasioglossum pseudosphecodimorphum","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Citrullus_lanatus_Israel_2010","4","netting","Lasioglossum pseudosphecodimorphum","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Citrullus_lanatus_Israel_2010","4","netting","Lasioglossum pseudosphecodimorphum","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Citrullus_lanatus_Israel_2010","4","netting","Lasioglossum pseudosphecodimorphum","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Citrullus_lanatus_Israel_2010","4","netting","Lasioglossum pseudosphecodimorphum","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Citrullus_lanatus_Israel_2010","4","netting","Lasioglossum pseudosphecodimorphum","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Citrullus_lanatus_Israel_2010","4","netting","Lasioglossum pseudosphecodimorphum","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Citrullus_lanatus_Israel_2010","1","netting","Lasioglossum pygmaeum","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Citrullus_lanatus_Israel_2010","1","netting","Lasioglossum pygmaeum","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Citrullus_lanatus_Israel_2010","8","netting","Lasioglossum tadschicum","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Citrullus_lanatus_Israel_2010","11","netting","Lasioglossum tadschicum","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Citrullus_lanatus_Israel_2010","10","netting","Lasioglossum tadschicum","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Citrullus_lanatus_Israel_2010","8","netting","Lasioglossum vagans","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Citrullus_lanatus_Israel_2010","8","netting","Lasioglossum vagans","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Citrullus_lanatus_Israel_2010","9","netting","Lasioglossum vagans","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Citrullus_lanatus_Israel_2010","11","netting","Lasioglossum vagans","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Citrullus_lanatus_Israel_2010","10","netting","Lasioglossum vagans","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Citrullus_lanatus_Israel_2010","10","netting","Lasioglossum vagans","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Citrullus_lanatus_Israel_2010","3","netting","Lasioglossum villosulum","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Citrullus_lanatus_Israel_2010","2","netting","Lasioglossum villosulum","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Citrullus_lanatus_Israel_2010","12","netting","Lasioglossum villosulum","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Citrullus_lanatus_Israel_2010","9","netting","Megachile dorsalis","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Citrullus_lanatus_Israel_2010","12","netting","Nomada kohli","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Citrullus_lanatus_Israel_2010","4","netting","Ochreriades fasciatus","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Citrullus_lanatus_Israel_2010","1","netting","Osmia signata","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Citrullus_lanatus_Israel_2010","4","netting","Osmia signata","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Helianthus_annuus_Israel_2010","9","netting","Lasioglossum (Evylaeus) sp.","genus","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Helianthus_annuus_Israel_2010","9","netting","Lasioglossum (Evylaeus) sp.","genus","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Helianthus_annuus_Israel_2010","5","netting","Lasioglossum (Evylaeus) sp.","genus","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Helianthus_annuus_Israel_2010","5","netting","Lasioglossum (Evylaeus) sp.","genus","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Helianthus_annuus_Israel_2010","3","netting","Lasioglossum (Evylaeus) sp.","genus","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Helianthus_annuus_Israel_2010","3","netting","Lasioglossum (Evylaeus) sp.","genus","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Helianthus_annuus_Israel_2010","1","netting","Tarsalia sp. 1","morphospecies","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Helianthus_annuus_Israel_2010","8","netting","Andrena flavipes","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Helianthus_annuus_Israel_2010","12","netting","Andrena flavipes","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Helianthus_annuus_Israel_2010","13","netting","Andrena flavipes","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Helianthus_annuus_Israel_2010","15","netting","Andrena flavipes","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Helianthus_annuus_Israel_2010","11","netting","Andrena flavipes","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Helianthus_annuus_Israel_2010","11","netting","Andrena flavipes","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Helianthus_annuus_Israel_2010","14","netting","Andrena transitoria","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Helianthus_annuus_Israel_2010","12","netting","Bombus terrestris","species","bumblebees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Helianthus_annuus_Israel_2010","2","netting","Ceratina bifida","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Helianthus_annuus_Israel_2010","1","netting","Ceratina bifida","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Helianthus_annuus_Israel_2010","11","netting","Colletes similis","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Helianthus_annuus_Israel_2010","1","netting","Eucera aeolopus","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Helianthus_annuus_Israel_2010","2","netting","Eucera clypeata","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Helianthus_annuus_Israel_2010","2","netting","Eucera clypeata","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Helianthus_annuus_Israel_2010","2","netting","Eucera clypeata","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Helianthus_annuus_Israel_2010","9","netting","Eucera clypeata","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Helianthus_annuus_Israel_2010","6","netting","Eucera curvitarsis","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Helianthus_annuus_Israel_2010","12","netting","Eucera curvitarsis","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Helianthus_annuus_Israel_2010","10","netting","Eucera paraclypeata","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Helianthus_annuus_Israel_2010","14","netting","Eucera paraclypeata","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Helianthus_annuus_Israel_2010","1","netting","Eucera syriaca","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Helianthus_annuus_Israel_2010","1","netting","Halictus resurgens","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Helianthus_annuus_Israel_2010","1","netting","Halictus resurgens","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Helianthus_annuus_Israel_2010","1","netting","Halictus resurgens","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Helianthus_annuus_Israel_2010","1","netting","Halictus resurgens","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Helianthus_annuus_Israel_2010","1","netting","Halictus resurgens","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Helianthus_annuus_Israel_2010","1","netting","Halictus resurgens","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Helianthus_annuus_Israel_2010","3","netting","Halictus resurgens","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Helianthus_annuus_Israel_2010","1","netting","Halictus tetrazonianellus","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Helianthus_annuus_Israel_2010","1","netting","Halictus tetrazonianellus","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Helianthus_annuus_Israel_2010","3","netting","Halictus tetrazonianellus","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Helianthus_annuus_Israel_2010","4","netting","Lasioglossum malachurum","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Helianthus_annuus_Israel_2010","4","netting","Lasioglossum malachurum","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Helianthus_annuus_Israel_2010","4","netting","Lasioglossum malachurum","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Helianthus_annuus_Israel_2010","4","netting","Lasioglossum malachurum","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Helianthus_annuus_Israel_2010","4","netting","Lasioglossum malachurum","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Helianthus_annuus_Israel_2010","4","netting","Lasioglossum malachurum","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Helianthus_annuus_Israel_2010","4","netting","Lasioglossum malachurum","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Helianthus_annuus_Israel_2010","2","netting","Lasioglossum malachurum","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Helianthus_annuus_Israel_2010","2","netting","Lasioglossum malachurum","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Helianthus_annuus_Israel_2010","2","netting","Lasioglossum malachurum","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Helianthus_annuus_Israel_2010","2","netting","Lasioglossum malachurum","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Helianthus_annuus_Israel_2010","2","netting","Lasioglossum malachurum","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Helianthus_annuus_Israel_2010","2","netting","Lasioglossum malachurum","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Helianthus_annuus_Israel_2010","8","netting","Lasioglossum malachurum","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Helianthus_annuus_Israel_2010","8","netting","Lasioglossum malachurum","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Helianthus_annuus_Israel_2010","8","netting","Lasioglossum malachurum","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Helianthus_annuus_Israel_2010","10","netting","Lasioglossum malachurum","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Helianthus_annuus_Israel_2010","10","netting","Lasioglossum malachurum","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Helianthus_annuus_Israel_2010","10","netting","Lasioglossum malachurum","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Helianthus_annuus_Israel_2010","10","netting","Lasioglossum malachurum","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Helianthus_annuus_Israel_2010","9","netting","Lasioglossum malachurum","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Helianthus_annuus_Israel_2010","9","netting","Lasioglossum malachurum","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Helianthus_annuus_Israel_2010","9","netting","Lasioglossum malachurum","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Helianthus_annuus_Israel_2010","9","netting","Lasioglossum malachurum","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Helianthus_annuus_Israel_2010","9","netting","Lasioglossum malachurum","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Helianthus_annuus_Israel_2010","9","netting","Lasioglossum malachurum","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Helianthus_annuus_Israel_2010","9","netting","Lasioglossum malachurum","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Helianthus_annuus_Israel_2010","9","netting","Lasioglossum malachurum","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Helianthus_annuus_Israel_2010","9","netting","Lasioglossum malachurum","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Helianthus_annuus_Israel_2010","9","netting","Lasioglossum malachurum","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Helianthus_annuus_Israel_2010","9","netting","Lasioglossum malachurum","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Helianthus_annuus_Israel_2010","9","netting","Lasioglossum malachurum","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Helianthus_annuus_Israel_2010","9","netting","Lasioglossum malachurum","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Helianthus_annuus_Israel_2010","9","netting","Lasioglossum malachurum","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Helianthus_annuus_Israel_2010","9","netting","Lasioglossum malachurum","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Helianthus_annuus_Israel_2010","9","netting","Lasioglossum malachurum","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Helianthus_annuus_Israel_2010","9","netting","Lasioglossum malachurum","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Helianthus_annuus_Israel_2010","9","netting","Lasioglossum malachurum","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Helianthus_annuus_Israel_2010","9","netting","Lasioglossum malachurum","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Helianthus_annuus_Israel_2010","9","netting","Lasioglossum malachurum","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Helianthus_annuus_Israel_2010","9","netting","Lasioglossum malachurum","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Helianthus_annuus_Israel_2010","9","netting","Lasioglossum malachurum","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Helianthus_annuus_Israel_2010","9","netting","Lasioglossum malachurum","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Helianthus_annuus_Israel_2010","9","netting","Lasioglossum malachurum","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Helianthus_annuus_Israel_2010","9","netting","Lasioglossum malachurum","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Helianthus_annuus_Israel_2010","9","netting","Lasioglossum malachurum","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Helianthus_annuus_Israel_2010","7","netting","Lasioglossum malachurum","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Helianthus_annuus_Israel_2010","7","netting","Lasioglossum malachurum","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Helianthus_annuus_Israel_2010","7","netting","Lasioglossum malachurum","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Helianthus_annuus_Israel_2010","7","netting","Lasioglossum malachurum","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Helianthus_annuus_Israel_2010","7","netting","Lasioglossum malachurum","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Helianthus_annuus_Israel_2010","7","netting","Lasioglossum malachurum","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Helianthus_annuus_Israel_2010","7","netting","Lasioglossum malachurum","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Helianthus_annuus_Israel_2010","7","netting","Lasioglossum malachurum","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Helianthus_annuus_Israel_2010","7","netting","Lasioglossum malachurum","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Helianthus_annuus_Israel_2010","7","netting","Lasioglossum malachurum","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Helianthus_annuus_Israel_2010","7","netting","Lasioglossum malachurum","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Helianthus_annuus_Israel_2010","7","netting","Lasioglossum malachurum","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Helianthus_annuus_Israel_2010","7","netting","Lasioglossum malachurum","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Helianthus_annuus_Israel_2010","7","netting","Lasioglossum malachurum","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Helianthus_annuus_Israel_2010","7","netting","Lasioglossum malachurum","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Helianthus_annuus_Israel_2010","5","netting","Lasioglossum malachurum","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Helianthus_annuus_Israel_2010","5","netting","Lasioglossum malachurum","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Helianthus_annuus_Israel_2010","1","netting","Lasioglossum malachurum","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Helianthus_annuus_Israel_2010","1","netting","Lasioglossum malachurum","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Helianthus_annuus_Israel_2010","6","netting","Lasioglossum malachurum","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Helianthus_annuus_Israel_2010","6","netting","Lasioglossum malachurum","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Helianthus_annuus_Israel_2010","6","netting","Lasioglossum malachurum","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Helianthus_annuus_Israel_2010","6","netting","Lasioglossum malachurum","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Helianthus_annuus_Israel_2010","6","netting","Lasioglossum malachurum","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Helianthus_annuus_Israel_2010","6","netting","Lasioglossum malachurum","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Helianthus_annuus_Israel_2010","12","netting","Lasioglossum malachurum","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Helianthus_annuus_Israel_2010","15","netting","Lasioglossum malachurum","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Helianthus_annuus_Israel_2010","15","netting","Lasioglossum malachurum","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Helianthus_annuus_Israel_2010","15","netting","Lasioglossum malachurum","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Helianthus_annuus_Israel_2010","15","netting","Lasioglossum malachurum","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Helianthus_annuus_Israel_2010","15","netting","Lasioglossum malachurum","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Helianthus_annuus_Israel_2010","15","netting","Lasioglossum malachurum","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Helianthus_annuus_Israel_2010","15","netting","Lasioglossum malachurum","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Helianthus_annuus_Israel_2010","15","netting","Lasioglossum malachurum","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Helianthus_annuus_Israel_2010","11","netting","Lasioglossum malachurum","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Helianthus_annuus_Israel_2010","11","netting","Lasioglossum malachurum","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Helianthus_annuus_Israel_2010","11","netting","Lasioglossum malachurum","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Helianthus_annuus_Israel_2010","11","netting","Lasioglossum malachurum","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Helianthus_annuus_Israel_2010","11","netting","Lasioglossum malachurum","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Helianthus_annuus_Israel_2010","11","netting","Lasioglossum malachurum","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Helianthus_annuus_Israel_2010","14","netting","Lasioglossum malachurum","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Helianthus_annuus_Israel_2010","14","netting","Lasioglossum malachurum","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Helianthus_annuus_Israel_2010","3","netting","Lasioglossum malachurum","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Helianthus_annuus_Israel_2010","3","netting","Lasioglossum malachurum","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Helianthus_annuus_Israel_2010","3","netting","Lasioglossum malachurum","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Helianthus_annuus_Israel_2010","3","netting","Lasioglossum obscuratum","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Helianthus_annuus_Israel_2010","9","netting","Lasioglossum politum atomarium","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Helianthus_annuus_Israel_2010","5","netting","Lasioglossum politum atomarium","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Helianthus_annuus_Israel_2010","5","netting","Lasioglossum politum atomarium","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Helianthus_annuus_Israel_2010","5","netting","Lasioglossum politum atomarium","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Helianthus_annuus_Israel_2010","5","netting","Lasioglossum politum atomarium","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Helianthus_annuus_Israel_2010","5","netting","Lasioglossum politum atomarium","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Helianthus_annuus_Israel_2010","5","netting","Lasioglossum politum atomarium","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Helianthus_annuus_Israel_2010","5","netting","Lasioglossum politum atomarium","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Helianthus_annuus_Israel_2010","5","netting","Lasioglossum politum atomarium","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Helianthus_annuus_Israel_2010","5","netting","Lasioglossum politum atomarium","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Helianthus_annuus_Israel_2010","5","netting","Lasioglossum politum atomarium","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Helianthus_annuus_Israel_2010","5","netting","Lasioglossum politum atomarium","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Helianthus_annuus_Israel_2010","5","netting","Lasioglossum politum atomarium","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Helianthus_annuus_Israel_2010","5","netting","Lasioglossum politum atomarium","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Helianthus_annuus_Israel_2010","5","netting","Lasioglossum politum atomarium","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Helianthus_annuus_Israel_2010","5","netting","Lasioglossum politum atomarium","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Helianthus_annuus_Israel_2010","5","netting","Lasioglossum politum atomarium","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Helianthus_annuus_Israel_2010","5","netting","Lasioglossum politum atomarium","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Helianthus_annuus_Israel_2010","5","netting","Lasioglossum politum atomarium","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Helianthus_annuus_Israel_2010","5","netting","Lasioglossum politum atomarium","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Helianthus_annuus_Israel_2010","5","netting","Lasioglossum politum atomarium","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Helianthus_annuus_Israel_2010","5","netting","Lasioglossum politum atomarium","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Helianthus_annuus_Israel_2010","5","netting","Lasioglossum politum atomarium","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Helianthus_annuus_Israel_2010","5","netting","Lasioglossum politum atomarium","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Helianthus_annuus_Israel_2010","5","netting","Lasioglossum politum atomarium","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Helianthus_annuus_Israel_2010","5","netting","Lasioglossum politum atomarium","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Helianthus_annuus_Israel_2010","5","netting","Lasioglossum politum atomarium","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Helianthus_annuus_Israel_2010","5","netting","Lasioglossum politum atomarium","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Helianthus_annuus_Israel_2010","5","netting","Lasioglossum politum atomarium","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Helianthus_annuus_Israel_2010","5","netting","Lasioglossum politum atomarium","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Helianthus_annuus_Israel_2010","5","netting","Lasioglossum politum atomarium","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Helianthus_annuus_Israel_2010","5","netting","Lasioglossum politum atomarium","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Helianthus_annuus_Israel_2010","5","netting","Lasioglossum politum atomarium","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Helianthus_annuus_Israel_2010","5","netting","Lasioglossum politum atomarium","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Helianthus_annuus_Israel_2010","5","netting","Lasioglossum politum atomarium","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Helianthus_annuus_Israel_2010","5","netting","Lasioglossum politum atomarium","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Helianthus_annuus_Israel_2010","5","netting","Lasioglossum politum atomarium","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Helianthus_annuus_Israel_2010","5","netting","Lasioglossum politum atomarium","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Helianthus_annuus_Israel_2010","5","netting","Lasioglossum politum atomarium","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Helianthus_annuus_Israel_2010","5","netting","Lasioglossum politum atomarium","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Helianthus_annuus_Israel_2010","5","netting","Lasioglossum politum atomarium","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Helianthus_annuus_Israel_2010","5","netting","Lasioglossum politum atomarium","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Helianthus_annuus_Israel_2010","5","netting","Lasioglossum politum atomarium","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Helianthus_annuus_Israel_2010","5","netting","Lasioglossum politum atomarium","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Helianthus_annuus_Israel_2010","5","netting","Lasioglossum politum atomarium","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Helianthus_annuus_Israel_2010","5","netting","Lasioglossum politum atomarium","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Helianthus_annuus_Israel_2010","5","netting","Lasioglossum politum atomarium","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Helianthus_annuus_Israel_2010","5","netting","Lasioglossum politum atomarium","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Helianthus_annuus_Israel_2010","5","netting","Lasioglossum politum atomarium","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Helianthus_annuus_Israel_2010","5","netting","Lasioglossum politum atomarium","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Helianthus_annuus_Israel_2010","5","netting","Lasioglossum politum atomarium","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Helianthus_annuus_Israel_2010","5","netting","Lasioglossum politum atomarium","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Helianthus_annuus_Israel_2010","5","netting","Lasioglossum politum atomarium","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Helianthus_annuus_Israel_2010","5","netting","Lasioglossum politum atomarium","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Helianthus_annuus_Israel_2010","5","netting","Lasioglossum politum atomarium","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Helianthus_annuus_Israel_2010","5","netting","Lasioglossum politum atomarium","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Helianthus_annuus_Israel_2010","5","netting","Lasioglossum politum atomarium","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Helianthus_annuus_Israel_2010","5","netting","Lasioglossum politum atomarium","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Helianthus_annuus_Israel_2010","5","netting","Lasioglossum politum atomarium","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Helianthus_annuus_Israel_2010","5","netting","Lasioglossum politum atomarium","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Helianthus_annuus_Israel_2010","5","netting","Lasioglossum politum atomarium","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Helianthus_annuus_Israel_2010","5","netting","Lasioglossum politum atomarium","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Helianthus_annuus_Israel_2010","5","netting","Lasioglossum politum atomarium","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Helianthus_annuus_Israel_2010","5","netting","Lasioglossum politum atomarium","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Helianthus_annuus_Israel_2010","5","netting","Lasioglossum politum atomarium","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Helianthus_annuus_Israel_2010","5","netting","Lasioglossum politum atomarium","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Helianthus_annuus_Israel_2010","5","netting","Lasioglossum politum atomarium","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Helianthus_annuus_Israel_2010","5","netting","Lasioglossum politum atomarium","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Helianthus_annuus_Israel_2010","5","netting","Lasioglossum politum atomarium","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Helianthus_annuus_Israel_2010","5","netting","Lasioglossum politum atomarium","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Helianthus_annuus_Israel_2010","5","netting","Lasioglossum politum atomarium","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Helianthus_annuus_Israel_2010","5","netting","Lasioglossum politum atomarium","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Helianthus_annuus_Israel_2010","5","netting","Lasioglossum politum atomarium","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Helianthus_annuus_Israel_2010","5","netting","Lasioglossum politum atomarium","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Helianthus_annuus_Israel_2010","5","netting","Lasioglossum politum atomarium","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Helianthus_annuus_Israel_2010","5","netting","Lasioglossum politum atomarium","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Helianthus_annuus_Israel_2010","5","netting","Lasioglossum politum atomarium","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Helianthus_annuus_Israel_2010","5","netting","Lasioglossum politum atomarium","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Helianthus_annuus_Israel_2010","5","netting","Lasioglossum politum atomarium","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Helianthus_annuus_Israel_2010","5","netting","Lasioglossum politum atomarium","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Helianthus_annuus_Israel_2010","5","netting","Lasioglossum politum atomarium","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Helianthus_annuus_Israel_2010","5","netting","Lasioglossum politum atomarium","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Helianthus_annuus_Israel_2010","5","netting","Lasioglossum politum atomarium","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Helianthus_annuus_Israel_2010","5","netting","Lasioglossum politum atomarium","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Helianthus_annuus_Israel_2010","1","netting","Lasioglossum politum atomarium","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Helianthus_annuus_Israel_2010","1","netting","Lasioglossum politum atomarium","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Helianthus_annuus_Israel_2010","3","netting","Lasioglossum pygmaeum","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Helianthus_annuus_Israel_2010","1","netting","Megachile albisecta","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Helianthus_annuus_Israel_2010","1","netting","Megachile albisecta","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Helianthus_annuus_Israel_2010","1","netting","Megachile albisecta","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Helianthus_annuus_Israel_2010","1","netting","Megachile albisecta","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Helianthus_annuus_Israel_2010","1","netting","Megachile albisecta","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Helianthus_annuus_Israel_2010","4","netting","Osmia dives","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Helianthus_annuus_Israel_2010","4","netting","Osmia signata","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Helianthus_annuus_Israel_2010","2","netting","Osmia signata","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Helianthus_annuus_Israel_2010","2","netting","Osmia signata","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Helianthus_annuus_Israel_2010","2","netting","Osmia signata","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Helianthus_annuus_Israel_2010","2","netting","Osmia signata","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Helianthus_annuus_Israel_2010","12","netting","Osmia signata","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yael_Mandelik_Helianthus_annuus_Israel_2010","11","netting","Osmia signata","species","other_wild_bees",1,NA,NA,NA,"Fields have one or two study plots (25 x 25 m). Each plot was sampled between one and three times (mostly twice), each time on a separate day. In each sampling day, two sampling sessions were carried out. Each session included 15 min of bee netting.",NA
"Yi_Zou_Brassica_napus_China_2015","1","Pan traps","Andrena hikosana","Species","other_wild_bees",1,NA,NA,NA,"Measures per site: 5 sampling rounds in one season",NA
"Yi_Zou_Brassica_napus_China_2015","12","Pan traps","Andrena hikosana","Species","other_wild_bees",2,NA,NA,NA,"Measures per site: 5 sampling rounds in one season",NA
"Yi_Zou_Brassica_napus_China_2015","13","Pan traps","Andrena hikosana","Species","other_wild_bees",2,NA,NA,NA,"Measures per site: 5 sampling rounds in one season",NA
"Yi_Zou_Brassica_napus_China_2015","15","Pan traps","Andrena hikosana","Species","other_wild_bees",1,NA,NA,NA,"Measures per site: 5 sampling rounds in one season",NA
"Yi_Zou_Brassica_napus_China_2015","16","Pan traps","Andrena kaguya","Species","other_wild_bees",1,NA,NA,NA,"Measures per site: 5 sampling rounds in one season",NA
"Yi_Zou_Brassica_napus_China_2015","2","Pan traps","Andrena luridiloma","Species","other_wild_bees",2,NA,NA,NA,"Measures per site: 5 sampling rounds in one season",NA
"Yi_Zou_Brassica_napus_China_2015","5","Pan traps","Andrena luridiloma","Species","other_wild_bees",1,NA,NA,NA,"Measures per site: 5 sampling rounds in one season",NA
"Yi_Zou_Brassica_napus_China_2015","11","Pan traps","Andrena luridiloma","Species","other_wild_bees",2,NA,NA,NA,"Measures per site: 5 sampling rounds in one season",NA
"Yi_Zou_Brassica_napus_China_2015","13","Pan traps","Andrena luridiloma","Species","other_wild_bees",1,NA,NA,NA,"Measures per site: 5 sampling rounds in one season",NA
"Yi_Zou_Brassica_napus_China_2015","14","Pan traps","Andrena luridiloma","Species","other_wild_bees",23,NA,NA,NA,"Measures per site: 5 sampling rounds in one season",NA
"Yi_Zou_Brassica_napus_China_2015","15","Pan traps","Andrena luridiloma","Species","other_wild_bees",4,NA,NA,NA,"Measures per site: 5 sampling rounds in one season",NA
"Yi_Zou_Brassica_napus_China_2015","17","Pan traps","Andrena luridiloma","Species","other_wild_bees",1,NA,NA,NA,"Measures per site: 5 sampling rounds in one season",NA
"Yi_Zou_Brassica_napus_China_2015","2","Pan traps","Andrena sp1","Genus","other_wild_bees",1,NA,NA,NA,"Measures per site: 5 sampling rounds in one season",NA
"Yi_Zou_Brassica_napus_China_2015","5","Pan traps","Andrena sp1","Genus","other_wild_bees",1,NA,NA,NA,"Measures per site: 5 sampling rounds in one season",NA
"Yi_Zou_Brassica_napus_China_2015","12","Pan traps","Andrena taraxaci","Species","other_wild_bees",1,NA,NA,NA,"Measures per site: 5 sampling rounds in one season",NA
"Yi_Zou_Brassica_napus_China_2015","4","Pan traps","Andrena thoracica","Species","other_wild_bees",1,NA,NA,NA,"Measures per site: 5 sampling rounds in one season",NA
"Yi_Zou_Brassica_napus_China_2015","16","Pan traps","Andrena thoracica","Species","other_wild_bees",1,NA,NA,NA,"Measures per site: 5 sampling rounds in one season",NA
"Yi_Zou_Brassica_napus_China_2015","8","Pan traps","Andrena vitiosa","Species","other_wild_bees",1,NA,NA,NA,"Measures per site: 5 sampling rounds in one season",NA
"Yi_Zou_Brassica_napus_China_2015","9","Pan traps","Andrena vitiosa","Species","other_wild_bees",1,NA,NA,NA,"Measures per site: 5 sampling rounds in one season",NA
"Yi_Zou_Brassica_napus_China_2015","14","Pan traps","Andrena vitiosa","Species","other_wild_bees",1,NA,NA,NA,"Measures per site: 5 sampling rounds in one season",NA
"Yi_Zou_Brassica_napus_China_2015","16","Pan traps","Andrena vitiosa","Species","other_wild_bees",2,NA,NA,NA,"Measures per site: 5 sampling rounds in one season",NA
"Yi_Zou_Brassica_napus_China_2015","1","Pan traps","Anthophora plumipes","Species","other_wild_bees",9,NA,NA,NA,"Measures per site: 5 sampling rounds in one season",NA
"Yi_Zou_Brassica_napus_China_2015","2","Pan traps","Anthophora plumipes","Species","other_wild_bees",7,NA,NA,NA,"Measures per site: 5 sampling rounds in one season",NA
"Yi_Zou_Brassica_napus_China_2015","4","Pan traps","Anthophora plumipes","Species","other_wild_bees",1,NA,NA,NA,"Measures per site: 5 sampling rounds in one season",NA
"Yi_Zou_Brassica_napus_China_2015","5","Pan traps","Anthophora plumipes","Species","other_wild_bees",4,NA,NA,NA,"Measures per site: 5 sampling rounds in one season",NA
"Yi_Zou_Brassica_napus_China_2015","6","Pan traps","Anthophora plumipes","Species","other_wild_bees",3,NA,NA,NA,"Measures per site: 5 sampling rounds in one season",NA
"Yi_Zou_Brassica_napus_China_2015","8","Pan traps","Anthophora plumipes","Species","other_wild_bees",2,NA,NA,NA,"Measures per site: 5 sampling rounds in one season",NA
"Yi_Zou_Brassica_napus_China_2015","9","Pan traps","Anthophora plumipes","Species","other_wild_bees",7,NA,NA,NA,"Measures per site: 5 sampling rounds in one season",NA
"Yi_Zou_Brassica_napus_China_2015","11","Pan traps","Anthophora plumipes","Species","other_wild_bees",2,NA,NA,NA,"Measures per site: 5 sampling rounds in one season",NA
"Yi_Zou_Brassica_napus_China_2015","13","Pan traps","Anthophora plumipes","Species","other_wild_bees",1,NA,NA,NA,"Measures per site: 5 sampling rounds in one season",NA
"Yi_Zou_Brassica_napus_China_2015","14","Pan traps","Anthophora plumipes","Species","other_wild_bees",2,NA,NA,NA,"Measures per site: 5 sampling rounds in one season",NA
"Yi_Zou_Brassica_napus_China_2015","15","Pan traps","Anthophora plumipes","Species","other_wild_bees",2,NA,NA,NA,"Measures per site: 5 sampling rounds in one season",NA
"Yi_Zou_Brassica_napus_China_2015","17","Pan traps","Anthophora plumipes","Species","other_wild_bees",1,NA,NA,NA,"Measures per site: 5 sampling rounds in one season",NA
"Yi_Zou_Brassica_napus_China_2015","18","Pan traps","Anthophora plumipes","Species","other_wild_bees",3,NA,NA,NA,"Measures per site: 5 sampling rounds in one season",NA
"Yi_Zou_Brassica_napus_China_2015","1","Pan traps","Apis cerana","Species","honeybees",3,NA,NA,NA,"Measures per site: 5 sampling rounds in one season",NA
"Yi_Zou_Brassica_napus_China_2015","2","Pan traps","Apis cerana","Species","honeybees",15,NA,NA,NA,"Measures per site: 5 sampling rounds in one season",NA
"Yi_Zou_Brassica_napus_China_2015","3","Pan traps","Apis cerana","Species","honeybees",47,NA,NA,NA,"Measures per site: 5 sampling rounds in one season",NA
"Yi_Zou_Brassica_napus_China_2015","4","Pan traps","Apis cerana","Species","honeybees",161,NA,NA,NA,"Measures per site: 5 sampling rounds in one season",NA
"Yi_Zou_Brassica_napus_China_2015","5","Pan traps","Apis cerana","Species","honeybees",11,NA,NA,NA,"Measures per site: 5 sampling rounds in one season",NA
"Yi_Zou_Brassica_napus_China_2015","6","Pan traps","Apis cerana","Species","honeybees",22,NA,NA,NA,"Measures per site: 5 sampling rounds in one season",NA
"Yi_Zou_Brassica_napus_China_2015","7","Pan traps","Apis cerana","Species","honeybees",1,NA,NA,NA,"Measures per site: 5 sampling rounds in one season",NA
"Yi_Zou_Brassica_napus_China_2015","8","Pan traps","Apis cerana","Species","honeybees",5,NA,NA,NA,"Measures per site: 5 sampling rounds in one season",NA
"Yi_Zou_Brassica_napus_China_2015","9","Pan traps","Apis cerana","Species","honeybees",5,NA,NA,NA,"Measures per site: 5 sampling rounds in one season",NA
"Yi_Zou_Brassica_napus_China_2015","10","Pan traps","Apis cerana","Species","honeybees",6,NA,NA,NA,"Measures per site: 5 sampling rounds in one season",NA
"Yi_Zou_Brassica_napus_China_2015","11","Pan traps","Apis cerana","Species","honeybees",59,NA,NA,NA,"Measures per site: 5 sampling rounds in one season",NA
"Yi_Zou_Brassica_napus_China_2015","12","Pan traps","Apis cerana","Species","honeybees",21,NA,NA,NA,"Measures per site: 5 sampling rounds in one season",NA
"Yi_Zou_Brassica_napus_China_2015","14","Pan traps","Apis cerana","Species","honeybees",16,NA,NA,NA,"Measures per site: 5 sampling rounds in one season",NA
"Yi_Zou_Brassica_napus_China_2015","15","Pan traps","Apis cerana","Species","honeybees",3,NA,NA,NA,"Measures per site: 5 sampling rounds in one season",NA
"Yi_Zou_Brassica_napus_China_2015","16","Pan traps","Apis cerana","Species","honeybees",14,NA,NA,NA,"Measures per site: 5 sampling rounds in one season",NA
"Yi_Zou_Brassica_napus_China_2015","17","Pan traps","Apis cerana","Species","honeybees",18,NA,NA,NA,"Measures per site: 5 sampling rounds in one season",NA
"Yi_Zou_Brassica_napus_China_2015","18","Pan traps","Apis cerana","Species","honeybees",11,NA,NA,NA,"Measures per site: 5 sampling rounds in one season",NA
"Yi_Zou_Brassica_napus_China_2015","1","Pan traps","Apis mellifera","Species","honeybees",4,NA,NA,NA,"Measures per site: 5 sampling rounds in one season",NA
"Yi_Zou_Brassica_napus_China_2015","2","Pan traps","Apis mellifera","Species","honeybees",2,NA,NA,NA,"Measures per site: 5 sampling rounds in one season",NA
"Yi_Zou_Brassica_napus_China_2015","3","Pan traps","Apis mellifera","Species","honeybees",49,NA,NA,NA,"Measures per site: 5 sampling rounds in one season",NA
"Yi_Zou_Brassica_napus_China_2015","4","Pan traps","Apis mellifera","Species","honeybees",34,NA,NA,NA,"Measures per site: 5 sampling rounds in one season",NA
"Yi_Zou_Brassica_napus_China_2015","5","Pan traps","Apis mellifera","Species","honeybees",53,NA,NA,NA,"Measures per site: 5 sampling rounds in one season",NA
"Yi_Zou_Brassica_napus_China_2015","6","Pan traps","Apis mellifera","Species","honeybees",12,NA,NA,NA,"Measures per site: 5 sampling rounds in one season",NA
"Yi_Zou_Brassica_napus_China_2015","8","Pan traps","Apis mellifera","Species","honeybees",20,NA,NA,NA,"Measures per site: 5 sampling rounds in one season",NA
"Yi_Zou_Brassica_napus_China_2015","9","Pan traps","Apis mellifera","Species","honeybees",19,NA,NA,NA,"Measures per site: 5 sampling rounds in one season",NA
"Yi_Zou_Brassica_napus_China_2015","10","Pan traps","Apis mellifera","Species","honeybees",9,NA,NA,NA,"Measures per site: 5 sampling rounds in one season",NA
"Yi_Zou_Brassica_napus_China_2015","11","Pan traps","Apis mellifera","Species","honeybees",63,NA,NA,NA,"Measures per site: 5 sampling rounds in one season",NA
"Yi_Zou_Brassica_napus_China_2015","12","Pan traps","Apis mellifera","Species","honeybees",62,NA,NA,NA,"Measures per site: 5 sampling rounds in one season",NA
"Yi_Zou_Brassica_napus_China_2015","13","Pan traps","Apis mellifera","Species","honeybees",1,NA,NA,NA,"Measures per site: 5 sampling rounds in one season",NA
"Yi_Zou_Brassica_napus_China_2015","14","Pan traps","Apis mellifera","Species","honeybees",35,NA,NA,NA,"Measures per site: 5 sampling rounds in one season",NA
"Yi_Zou_Brassica_napus_China_2015","15","Pan traps","Apis mellifera","Species","honeybees",1,NA,NA,NA,"Measures per site: 5 sampling rounds in one season",NA
"Yi_Zou_Brassica_napus_China_2015","16","Pan traps","Apis mellifera","Species","honeybees",30,NA,NA,NA,"Measures per site: 5 sampling rounds in one season",NA
"Yi_Zou_Brassica_napus_China_2015","17","Pan traps","Apis mellifera","Species","honeybees",9,NA,NA,NA,"Measures per site: 5 sampling rounds in one season",NA
"Yi_Zou_Brassica_napus_China_2015","18","Pan traps","Apis mellifera","Species","honeybees",66,NA,NA,NA,"Measures per site: 5 sampling rounds in one season",NA
"Yi_Zou_Brassica_napus_China_2015","11","Pan traps","Ceratina japonica","Species","other_wild_bees",17,NA,NA,NA,"Measures per site: 5 sampling rounds in one season",NA
"Yi_Zou_Brassica_napus_China_2015","15","Pan traps","Ceratina japonica","Species","other_wild_bees",3,NA,NA,NA,"Measures per site: 5 sampling rounds in one season",NA
"Yi_Zou_Brassica_napus_China_2015","17","Pan traps","Ceratina japonica","Species","other_wild_bees",4,NA,NA,NA,"Measures per site: 5 sampling rounds in one season",NA
"Yi_Zou_Brassica_napus_China_2015","2","Pan traps","Ceratina okinawana","Species","other_wild_bees",6,NA,NA,NA,"Measures per site: 5 sampling rounds in one season",NA
"Yi_Zou_Brassica_napus_China_2015","3","Pan traps","Ceratina okinawana","Species","other_wild_bees",29,NA,NA,NA,"Measures per site: 5 sampling rounds in one season",NA
"Yi_Zou_Brassica_napus_China_2015","4","Pan traps","Ceratina okinawana","Species","other_wild_bees",2,NA,NA,NA,"Measures per site: 5 sampling rounds in one season",NA
"Yi_Zou_Brassica_napus_China_2015","5","Pan traps","Ceratina okinawana","Species","other_wild_bees",1,NA,NA,NA,"Measures per site: 5 sampling rounds in one season",NA
"Yi_Zou_Brassica_napus_China_2015","6","Pan traps","Ceratina okinawana","Species","other_wild_bees",1,NA,NA,NA,"Measures per site: 5 sampling rounds in one season",NA
"Yi_Zou_Brassica_napus_China_2015","8","Pan traps","Ceratina okinawana","Species","other_wild_bees",6,NA,NA,NA,"Measures per site: 5 sampling rounds in one season",NA
"Yi_Zou_Brassica_napus_China_2015","9","Pan traps","Ceratina okinawana","Species","other_wild_bees",6,NA,NA,NA,"Measures per site: 5 sampling rounds in one season",NA
"Yi_Zou_Brassica_napus_China_2015","10","Pan traps","Ceratina okinawana","Species","other_wild_bees",3,NA,NA,NA,"Measures per site: 5 sampling rounds in one season",NA
"Yi_Zou_Brassica_napus_China_2015","11","Pan traps","Ceratina okinawana","Species","other_wild_bees",3,NA,NA,NA,"Measures per site: 5 sampling rounds in one season",NA
"Yi_Zou_Brassica_napus_China_2015","12","Pan traps","Ceratina okinawana","Species","other_wild_bees",3,NA,NA,NA,"Measures per site: 5 sampling rounds in one season",NA
"Yi_Zou_Brassica_napus_China_2015","14","Pan traps","Ceratina okinawana","Species","other_wild_bees",8,NA,NA,NA,"Measures per site: 5 sampling rounds in one season",NA
"Yi_Zou_Brassica_napus_China_2015","15","Pan traps","Ceratina okinawana","Species","other_wild_bees",4,NA,NA,NA,"Measures per site: 5 sampling rounds in one season",NA
"Yi_Zou_Brassica_napus_China_2015","16","Pan traps","Ceratina okinawana","Species","other_wild_bees",8,NA,NA,NA,"Measures per site: 5 sampling rounds in one season",NA
"Yi_Zou_Brassica_napus_China_2015","17","Pan traps","Ceratina okinawana","Species","other_wild_bees",1,NA,NA,NA,"Measures per site: 5 sampling rounds in one season",NA
"Yi_Zou_Brassica_napus_China_2015","18","Pan traps","Ceratina okinawana","Species","other_wild_bees",3,NA,NA,NA,"Measures per site: 5 sampling rounds in one season",NA
"Yi_Zou_Brassica_napus_China_2015","10","Pan traps","Ceratina smaragdula","Species","other_wild_bees",1,NA,NA,NA,"Measures per site: 5 sampling rounds in one season",NA
"Yi_Zou_Brassica_napus_China_2015","17","Pan traps","Ceratina smaragdula","Species","other_wild_bees",1,NA,NA,NA,"Measures per site: 5 sampling rounds in one season",NA
"Yi_Zou_Brassica_napus_China_2015","13","Pan traps","Eucera sp1","Genus","other_wild_bees",14,NA,NA,NA,"Measures per site: 5 sampling rounds in one season",NA
"Yi_Zou_Brassica_napus_China_2015","2","Pan traps","Halictus aerarius","Species","other_wild_bees",1,NA,NA,NA,"Measures per site: 5 sampling rounds in one season",NA
"Yi_Zou_Brassica_napus_China_2015","4","Pan traps","Halictus aerarius","Species","other_wild_bees",6,NA,NA,NA,"Measures per site: 5 sampling rounds in one season",NA
"Yi_Zou_Brassica_napus_China_2015","5","Pan traps","Halictus aerarius","Species","other_wild_bees",3,NA,NA,NA,"Measures per site: 5 sampling rounds in one season",NA
"Yi_Zou_Brassica_napus_China_2015","12","Pan traps","Halictus aerarius","Species","other_wild_bees",3,NA,NA,NA,"Measures per site: 5 sampling rounds in one season",NA
"Yi_Zou_Brassica_napus_China_2015","14","Pan traps","Halictus aerarius","Species","other_wild_bees",1,NA,NA,NA,"Measures per site: 5 sampling rounds in one season",NA
"Yi_Zou_Brassica_napus_China_2015","16","Pan traps","Halictus aerarius","Species","other_wild_bees",1,NA,NA,NA,"Measures per site: 5 sampling rounds in one season",NA
"Yi_Zou_Brassica_napus_China_2015","2","Pan traps","Halictus calceatus","Species","other_wild_bees",1,NA,NA,NA,"Measures per site: 5 sampling rounds in one season",NA
"Yi_Zou_Brassica_napus_China_2015","11","Pan traps","Halictus calceatus","Species","other_wild_bees",10,NA,NA,NA,"Measures per site: 5 sampling rounds in one season",NA
"Yi_Zou_Brassica_napus_China_2015","16","Pan traps","Halictus quadricinctus","Species","other_wild_bees",1,NA,NA,NA,"Measures per site: 5 sampling rounds in one season",NA
"Yi_Zou_Brassica_napus_China_2015","5","Pan traps","Halictus sp1","Genus","other_wild_bees",1,NA,NA,NA,"Measures per site: 5 sampling rounds in one season",NA
"Yi_Zou_Brassica_napus_China_2015","13","Pan traps","Halictus sp2","Genus","other_wild_bees",1,NA,NA,NA,"Measures per site: 5 sampling rounds in one season",NA
"Yi_Zou_Brassica_napus_China_2015","5","Pan traps","Halictus tsingtouensis","Species","other_wild_bees",19,NA,NA,NA,"Measures per site: 5 sampling rounds in one season",NA
"Yi_Zou_Brassica_napus_China_2015","6","Pan traps","Halictus tsingtouensis","Species","other_wild_bees",38,NA,NA,NA,"Measures per site: 5 sampling rounds in one season",NA
"Yi_Zou_Brassica_napus_China_2015","13","Pan traps","Halictus tsingtouensis","Species","other_wild_bees",2,NA,NA,NA,"Measures per site: 5 sampling rounds in one season",NA
"Yi_Zou_Brassica_napus_China_2015","17","Pan traps","Hylaeus floralis","Species","other_wild_bees",1,NA,NA,NA,"Measures per site: 5 sampling rounds in one season",NA
"Yi_Zou_Brassica_napus_China_2015","2","Pan traps","Lasioglossum albipes","Species","other_wild_bees",18,NA,NA,NA,"Measures per site: 5 sampling rounds in one season",NA
"Yi_Zou_Brassica_napus_China_2015","8","Pan traps","Lasioglossum albipes","Species","other_wild_bees",2,NA,NA,NA,"Measures per site: 5 sampling rounds in one season",NA
"Yi_Zou_Brassica_napus_China_2015","9","Pan traps","Lasioglossum albipes","Species","other_wild_bees",16,NA,NA,NA,"Measures per site: 5 sampling rounds in one season",NA
"Yi_Zou_Brassica_napus_China_2015","14","Pan traps","Lasioglossum albipes","Species","other_wild_bees",22,NA,NA,NA,"Measures per site: 5 sampling rounds in one season",NA
"Yi_Zou_Brassica_napus_China_2015","5","Pan traps","Lasioglossum kumejimense","Species","other_wild_bees",1,NA,NA,NA,"Measures per site: 5 sampling rounds in one season",NA
"Yi_Zou_Brassica_napus_China_2015","6","Pan traps","Lasioglossum kumejimense","Species","other_wild_bees",1,NA,NA,NA,"Measures per site: 5 sampling rounds in one season",NA
"Yi_Zou_Brassica_napus_China_2015","7","Pan traps","Lasioglossum kumejimense","Species","other_wild_bees",2,NA,NA,NA,"Measures per site: 5 sampling rounds in one season",NA
"Yi_Zou_Brassica_napus_China_2015","9","Pan traps","Lasioglossum kumejimense","Species","other_wild_bees",1,NA,NA,NA,"Measures per site: 5 sampling rounds in one season",NA
"Yi_Zou_Brassica_napus_China_2015","15","Pan traps","Lasioglossum kumejimense","Species","other_wild_bees",1,NA,NA,NA,"Measures per site: 5 sampling rounds in one season",NA
"Yi_Zou_Brassica_napus_China_2015","18","Pan traps","Lasioglossum kumejimense","Species","other_wild_bees",1,NA,NA,NA,"Measures per site: 5 sampling rounds in one season",NA
"Yi_Zou_Brassica_napus_China_2015","1","Pan traps","Lasioglossum occidens","Species","other_wild_bees",2,NA,NA,NA,"Measures per site: 5 sampling rounds in one season",NA
"Yi_Zou_Brassica_napus_China_2015","4","Pan traps","Lasioglossum occidens","Species","other_wild_bees",29,NA,NA,NA,"Measures per site: 5 sampling rounds in one season",NA
"Yi_Zou_Brassica_napus_China_2015","11","Pan traps","Lasioglossum occidens","Species","other_wild_bees",1,NA,NA,NA,"Measures per site: 5 sampling rounds in one season",NA
"Yi_Zou_Brassica_napus_China_2015","12","Pan traps","Lasioglossum occidens","Species","other_wild_bees",6,NA,NA,NA,"Measures per site: 5 sampling rounds in one season",NA
"Yi_Zou_Brassica_napus_China_2015","15","Pan traps","Lasioglossum occidens","Species","other_wild_bees",1,NA,NA,NA,"Measures per site: 5 sampling rounds in one season",NA
"Yi_Zou_Brassica_napus_China_2015","16","Pan traps","Lasioglossum occidens","Species","other_wild_bees",8,NA,NA,NA,"Measures per site: 5 sampling rounds in one season",NA
"Yi_Zou_Brassica_napus_China_2015","11","Pan traps","Lasioglossum politum","Species","other_wild_bees",10,NA,NA,NA,"Measures per site: 5 sampling rounds in one season",NA
"Yi_Zou_Brassica_napus_China_2015","17","Pan traps","Lasioglossum politum","Species","other_wild_bees",1,NA,NA,NA,"Measures per site: 5 sampling rounds in one season",NA
"Yi_Zou_Brassica_napus_China_2015","1","Pan traps","Lasioglossum proximatum","Species","other_wild_bees",196,NA,NA,NA,"Measures per site: 5 sampling rounds in one season",NA
"Yi_Zou_Brassica_napus_China_2015","2","Pan traps","Lasioglossum proximatum","Species","other_wild_bees",8,NA,NA,NA,"Measures per site: 5 sampling rounds in one season",NA
"Yi_Zou_Brassica_napus_China_2015","3","Pan traps","Lasioglossum proximatum","Species","other_wild_bees",139,NA,NA,NA,"Measures per site: 5 sampling rounds in one season",NA
"Yi_Zou_Brassica_napus_China_2015","5","Pan traps","Lasioglossum proximatum","Species","other_wild_bees",63,NA,NA,NA,"Measures per site: 5 sampling rounds in one season",NA
"Yi_Zou_Brassica_napus_China_2015","6","Pan traps","Lasioglossum proximatum","Species","other_wild_bees",94,NA,NA,NA,"Measures per site: 5 sampling rounds in one season",NA
"Yi_Zou_Brassica_napus_China_2015","7","Pan traps","Lasioglossum proximatum","Species","other_wild_bees",13,NA,NA,NA,"Measures per site: 5 sampling rounds in one season",NA
"Yi_Zou_Brassica_napus_China_2015","8","Pan traps","Lasioglossum proximatum","Species","other_wild_bees",10,NA,NA,NA,"Measures per site: 5 sampling rounds in one season",NA
"Yi_Zou_Brassica_napus_China_2015","9","Pan traps","Lasioglossum proximatum","Species","other_wild_bees",11,NA,NA,NA,"Measures per site: 5 sampling rounds in one season",NA
"Yi_Zou_Brassica_napus_China_2015","10","Pan traps","Lasioglossum proximatum","Species","other_wild_bees",249,NA,NA,NA,"Measures per site: 5 sampling rounds in one season",NA
"Yi_Zou_Brassica_napus_China_2015","11","Pan traps","Lasioglossum proximatum","Species","other_wild_bees",9,NA,NA,NA,"Measures per site: 5 sampling rounds in one season",NA
"Yi_Zou_Brassica_napus_China_2015","12","Pan traps","Lasioglossum proximatum","Species","other_wild_bees",6,NA,NA,NA,"Measures per site: 5 sampling rounds in one season",NA
"Yi_Zou_Brassica_napus_China_2015","13","Pan traps","Lasioglossum proximatum","Species","other_wild_bees",7,NA,NA,NA,"Measures per site: 5 sampling rounds in one season",NA
"Yi_Zou_Brassica_napus_China_2015","14","Pan traps","Lasioglossum proximatum","Species","other_wild_bees",5,NA,NA,NA,"Measures per site: 5 sampling rounds in one season",NA
"Yi_Zou_Brassica_napus_China_2015","15","Pan traps","Lasioglossum proximatum","Species","other_wild_bees",7,NA,NA,NA,"Measures per site: 5 sampling rounds in one season",NA
"Yi_Zou_Brassica_napus_China_2015","16","Pan traps","Lasioglossum proximatum","Species","other_wild_bees",1,NA,NA,NA,"Measures per site: 5 sampling rounds in one season",NA
"Yi_Zou_Brassica_napus_China_2015","17","Pan traps","Lasioglossum proximatum","Species","other_wild_bees",11,NA,NA,NA,"Measures per site: 5 sampling rounds in one season",NA
"Yi_Zou_Brassica_napus_China_2015","18","Pan traps","Lasioglossum proximatum","Species","other_wild_bees",19,NA,NA,NA,"Measures per site: 5 sampling rounds in one season",NA
"Yi_Zou_Brassica_napus_China_2015","1","Pan traps","Lasioglossum scitulum","Species","other_wild_bees",3,NA,NA,NA,"Measures per site: 5 sampling rounds in one season",NA
"Yi_Zou_Brassica_napus_China_2015","2","Pan traps","Lasioglossum scitulum","Species","other_wild_bees",24,NA,NA,NA,"Measures per site: 5 sampling rounds in one season",NA
"Yi_Zou_Brassica_napus_China_2015","4","Pan traps","Lasioglossum scitulum","Species","other_wild_bees",52,NA,NA,NA,"Measures per site: 5 sampling rounds in one season",NA
"Yi_Zou_Brassica_napus_China_2015","5","Pan traps","Lasioglossum scitulum","Species","other_wild_bees",75,NA,NA,NA,"Measures per site: 5 sampling rounds in one season",NA
"Yi_Zou_Brassica_napus_China_2015","6","Pan traps","Lasioglossum scitulum","Species","other_wild_bees",23,NA,NA,NA,"Measures per site: 5 sampling rounds in one season",NA
"Yi_Zou_Brassica_napus_China_2015","7","Pan traps","Lasioglossum scitulum","Species","other_wild_bees",24,NA,NA,NA,"Measures per site: 5 sampling rounds in one season",NA
"Yi_Zou_Brassica_napus_China_2015","8","Pan traps","Lasioglossum scitulum","Species","other_wild_bees",3,NA,NA,NA,"Measures per site: 5 sampling rounds in one season",NA
"Yi_Zou_Brassica_napus_China_2015","9","Pan traps","Lasioglossum scitulum","Species","other_wild_bees",20,NA,NA,NA,"Measures per site: 5 sampling rounds in one season",NA
"Yi_Zou_Brassica_napus_China_2015","10","Pan traps","Lasioglossum scitulum","Species","other_wild_bees",40,NA,NA,NA,"Measures per site: 5 sampling rounds in one season",NA
"Yi_Zou_Brassica_napus_China_2015","11","Pan traps","Lasioglossum scitulum","Species","other_wild_bees",2,NA,NA,NA,"Measures per site: 5 sampling rounds in one season",NA
"Yi_Zou_Brassica_napus_China_2015","12","Pan traps","Lasioglossum scitulum","Species","other_wild_bees",2,NA,NA,NA,"Measures per site: 5 sampling rounds in one season",NA
"Yi_Zou_Brassica_napus_China_2015","13","Pan traps","Lasioglossum scitulum","Species","other_wild_bees",3,NA,NA,NA,"Measures per site: 5 sampling rounds in one season",NA
"Yi_Zou_Brassica_napus_China_2015","15","Pan traps","Lasioglossum scitulum","Species","other_wild_bees",6,NA,NA,NA,"Measures per site: 5 sampling rounds in one season",NA
"Yi_Zou_Brassica_napus_China_2015","16","Pan traps","Lasioglossum scitulum","Species","other_wild_bees",17,NA,NA,NA,"Measures per site: 5 sampling rounds in one season",NA
"Yi_Zou_Brassica_napus_China_2015","17","Pan traps","Lasioglossum scitulum","Species","other_wild_bees",52,NA,NA,NA,"Measures per site: 5 sampling rounds in one season",NA
"Yi_Zou_Brassica_napus_China_2015","18","Pan traps","Lasioglossum scitulum","Species","other_wild_bees",23,NA,NA,NA,"Measures per site: 5 sampling rounds in one season",NA
"Yi_Zou_Brassica_napus_China_2015","2","Pan traps","Lasioglossum subopatum","Species","other_wild_bees",70,NA,NA,NA,"Measures per site: 5 sampling rounds in one season",NA
"Yi_Zou_Brassica_napus_China_2015","3","Pan traps","Lasioglossum subopatum","Species","other_wild_bees",2,NA,NA,NA,"Measures per site: 5 sampling rounds in one season",NA
"Yi_Zou_Brassica_napus_China_2015","4","Pan traps","Lasioglossum subopatum","Species","other_wild_bees",1,NA,NA,NA,"Measures per site: 5 sampling rounds in one season",NA
"Yi_Zou_Brassica_napus_China_2015","5","Pan traps","Lasioglossum subopatum","Species","other_wild_bees",59,NA,NA,NA,"Measures per site: 5 sampling rounds in one season",NA
"Yi_Zou_Brassica_napus_China_2015","7","Pan traps","Lasioglossum subopatum","Species","other_wild_bees",12,NA,NA,NA,"Measures per site: 5 sampling rounds in one season",NA
"Yi_Zou_Brassica_napus_China_2015","8","Pan traps","Lasioglossum subopatum","Species","other_wild_bees",25,NA,NA,NA,"Measures per site: 5 sampling rounds in one season",NA
"Yi_Zou_Brassica_napus_China_2015","11","Pan traps","Lasioglossum subopatum","Species","other_wild_bees",18,NA,NA,NA,"Measures per site: 5 sampling rounds in one season",NA
"Yi_Zou_Brassica_napus_China_2015","12","Pan traps","Lasioglossum subopatum","Species","other_wild_bees",10,NA,NA,NA,"Measures per site: 5 sampling rounds in one season",NA
"Yi_Zou_Brassica_napus_China_2015","15","Pan traps","Lasioglossum subopatum","Species","other_wild_bees",1,NA,NA,NA,"Measures per site: 5 sampling rounds in one season",NA
"Yi_Zou_Brassica_napus_China_2015","17","Pan traps","Lasioglossum subopatum","Species","other_wild_bees",7,NA,NA,NA,"Measures per site: 5 sampling rounds in one season",NA
"Yi_Zou_Brassica_napus_China_2015","18","Pan traps","Lasioglossum subopatum","Species","other_wild_bees",9,NA,NA,NA,"Measures per site: 5 sampling rounds in one season",NA
"Yi_Zou_Brassica_napus_China_2015","2","Pan traps","Nomada sp1","Genus","other_wild_bees",2,NA,NA,NA,"Measures per site: 5 sampling rounds in one season",NA
"Yi_Zou_Brassica_napus_China_2015","2","Pan traps","Nomada sp2","Genus","other_wild_bees",1,NA,NA,NA,"Measures per site: 5 sampling rounds in one season",NA
"Yi_Zou_Brassica_napus_China_2015","11","Pan traps","Nomada sp2","Genus","other_wild_bees",1,NA,NA,NA,"Measures per site: 5 sampling rounds in one season",NA
"Yi_Zou_Brassica_napus_China_2015","2","Pan traps","Nomada versicolor","Species","other_wild_bees",1,NA,NA,NA,"Measures per site: 5 sampling rounds in one season",NA
"Yi_Zou_Brassica_napus_China_2015","3","Pan traps","Nomada versicolor","Species","other_wild_bees",3,NA,NA,NA,"Measures per site: 5 sampling rounds in one season",NA
"Yi_Zou_Brassica_napus_China_2015","4","Pan traps","Nomada versicolor","Species","other_wild_bees",1,NA,NA,NA,"Measures per site: 5 sampling rounds in one season",NA
"Yi_Zou_Brassica_napus_China_2015","5","Pan traps","Nomada versicolor","Species","other_wild_bees",4,NA,NA,NA,"Measures per site: 5 sampling rounds in one season",NA
"Yi_Zou_Brassica_napus_China_2015","5","Pan traps","Osmia sp1","Genus","other_wild_bees",1,NA,NA,NA,"Measures per site: 5 sampling rounds in one season",NA
"Yi_Zou_Brassica_napus_China_2015","6","Pan traps","Osmia sp1","Genus","other_wild_bees",2,NA,NA,NA,"Measures per site: 5 sampling rounds in one season",NA
"Yi_Zou_Brassica_napus_China_2015","7","Pan traps","Osmia sp1","Genus","other_wild_bees",2,NA,NA,NA,"Measures per site: 5 sampling rounds in one season",NA
"Yi_Zou_Brassica_napus_China_2015","8","Pan traps","Osmia sp1","Genus","other_wild_bees",2,NA,NA,NA,"Measures per site: 5 sampling rounds in one season",NA
"Yi_Zou_Brassica_napus_China_2015","9","Pan traps","Osmia sp1","Genus","other_wild_bees",1,NA,NA,NA,"Measures per site: 5 sampling rounds in one season",NA
"Yi_Zou_Brassica_napus_China_2015","10","Pan traps","Osmia sp1","Genus","other_wild_bees",1,NA,NA,NA,"Measures per site: 5 sampling rounds in one season",NA
"Yi_Zou_Brassica_napus_China_2015","12","Pan traps","Osmia sp1","Genus","other_wild_bees",1,NA,NA,NA,"Measures per site: 5 sampling rounds in one season",NA
"Yi_Zou_Brassica_napus_China_2015","14","Pan traps","Osmia sp1","Genus","other_wild_bees",1,NA,NA,NA,"Measures per site: 5 sampling rounds in one season",NA
"Yi_Zou_Brassica_napus_China_2015","15","Pan traps","Osmia sp1","Genus","other_wild_bees",4,NA,NA,NA,"Measures per site: 5 sampling rounds in one season",NA
"Yi_Zou_Brassica_napus_China_2015","17","Pan traps","Osmia sp1","Genus","other_wild_bees",1,NA,NA,NA,"Measures per site: 5 sampling rounds in one season",NA
"Yi_Zou_Brassica_napus_China_2015","18","Pan traps","Osmia sp1","Genus","other_wild_bees",1,NA,NA,NA,"Measures per site: 5 sampling rounds in one season",NA
"Yi_Zou_Brassica_napus_China_2015","15","Pan traps","Osmia taurus","Species","other_wild_bees",1,NA,NA,NA,"Measures per site: 5 sampling rounds in one season",NA
"Yi_Zou_Brassica_napus_China_2015","11","Pan traps","Polistes hebraeus","Species","non_bee_hymenoptera",2,NA,NA,NA,"Measures per site: 5 sampling rounds in one season",NA
"Yi_Zou_Brassica_napus_China_2015","5","Pan traps","Polistes rothneyi","Species","non_bee_hymenoptera",1,NA,NA,NA,"Measures per site: 5 sampling rounds in one season",NA
"Yi_Zou_Brassica_napus_China_2015","12","Pan traps","Polistes rothneyi","Species","non_bee_hymenoptera",2,NA,NA,NA,"Measures per site: 5 sampling rounds in one season",NA
"Yi_Zou_Brassica_napus_China_2015","1","Pan traps","Polistes snelleni","Species","non_bee_hymenoptera",1,NA,NA,NA,"Measures per site: 5 sampling rounds in one season",NA
"Yi_Zou_Brassica_napus_China_2015","5","Pan traps","Polistes snelleni","Species","non_bee_hymenoptera",1,NA,NA,NA,"Measures per site: 5 sampling rounds in one season",NA
"Yi_Zou_Brassica_napus_China_2015","6","Pan traps","Polistes snelleni","Species","non_bee_hymenoptera",2,NA,NA,NA,"Measures per site: 5 sampling rounds in one season",NA
"Yi_Zou_Brassica_napus_China_2015","7","Pan traps","Polistes snelleni","Species","non_bee_hymenoptera",1,NA,NA,NA,"Measures per site: 5 sampling rounds in one season",NA
"Yi_Zou_Brassica_napus_China_2015","8","Pan traps","Polistes snelleni","Species","non_bee_hymenoptera",1,NA,NA,NA,"Measures per site: 5 sampling rounds in one season",NA
"Yi_Zou_Brassica_napus_China_2015","9","Pan traps","Polistes snelleni","Species","non_bee_hymenoptera",1,NA,NA,NA,"Measures per site: 5 sampling rounds in one season",NA
"Yi_Zou_Brassica_napus_China_2015","10","Pan traps","Polistes snelleni","Species","non_bee_hymenoptera",1,NA,NA,NA,"Measures per site: 5 sampling rounds in one season",NA
"Yi_Zou_Brassica_napus_China_2015","11","Pan traps","Polistes snelleni","Species","non_bee_hymenoptera",3,NA,NA,NA,"Measures per site: 5 sampling rounds in one season",NA
"Yi_Zou_Brassica_napus_China_2015","12","Pan traps","Polistes snelleni","Species","non_bee_hymenoptera",3,NA,NA,NA,"Measures per site: 5 sampling rounds in one season",NA
"Yi_Zou_Brassica_napus_China_2015","13","Pan traps","Polistes snelleni","Species","non_bee_hymenoptera",1,NA,NA,NA,"Measures per site: 5 sampling rounds in one season",NA
"Yi_Zou_Brassica_napus_China_2015","14","Pan traps","Polistes snelleni","Species","non_bee_hymenoptera",1,NA,NA,NA,"Measures per site: 5 sampling rounds in one season",NA
"Yi_Zou_Brassica_napus_China_2015","15","Pan traps","Polistes snelleni","Species","non_bee_hymenoptera",1,NA,NA,NA,"Measures per site: 5 sampling rounds in one season",NA
"Yi_Zou_Brassica_napus_China_2015","18","Pan traps","Polistes snelleni","Species","non_bee_hymenoptera",2,NA,NA,NA,"Measures per site: 5 sampling rounds in one season",NA
"Yi_Zou_Brassica_napus_China_2015","17","Pan traps","Scoliidae sp1","Family","non_bee_hymenoptera",1,NA,NA,NA,"Measures per site: 5 sampling rounds in one season",NA
"Yi_Zou_Brassica_napus_China_2015","2","Pan traps","Scoliidae sp2","Family","non_bee_hymenoptera",1,NA,NA,NA,"Measures per site: 5 sampling rounds in one season",NA
"Yi_Zou_Brassica_napus_China_2015","6","Pan traps","Scoliidae sp2","Family","non_bee_hymenoptera",2,NA,NA,NA,"Measures per site: 5 sampling rounds in one season",NA
"Yi_Zou_Brassica_napus_China_2015","1","Pan traps","Eucera chinensis","Species","other_wild_bees",10,NA,NA,NA,"Measures per site: 5 sampling rounds in one season",NA
"Yi_Zou_Brassica_napus_China_2015","2","Pan traps","Eucera chinensis","Species","other_wild_bees",175,NA,NA,NA,"Measures per site: 5 sampling rounds in one season",NA
"Yi_Zou_Brassica_napus_China_2015","3","Pan traps","Eucera chinensis","Species","other_wild_bees",94,NA,NA,NA,"Measures per site: 5 sampling rounds in one season",NA
"Yi_Zou_Brassica_napus_China_2015","4","Pan traps","Eucera chinensis","Species","other_wild_bees",203,NA,NA,NA,"Measures per site: 5 sampling rounds in one season",NA
"Yi_Zou_Brassica_napus_China_2015","5","Pan traps","Eucera chinensis","Species","other_wild_bees",126,NA,NA,NA,"Measures per site: 5 sampling rounds in one season",NA
"Yi_Zou_Brassica_napus_China_2015","6","Pan traps","Eucera chinensis","Species","other_wild_bees",100,NA,NA,NA,"Measures per site: 5 sampling rounds in one season",NA
"Yi_Zou_Brassica_napus_China_2015","7","Pan traps","Eucera chinensis","Species","other_wild_bees",4,NA,NA,NA,"Measures per site: 5 sampling rounds in one season",NA
"Yi_Zou_Brassica_napus_China_2015","8","Pan traps","Eucera chinensis","Species","other_wild_bees",43,NA,NA,NA,"Measures per site: 5 sampling rounds in one season",NA
"Yi_Zou_Brassica_napus_China_2015","9","Pan traps","Eucera chinensis","Species","other_wild_bees",18,NA,NA,NA,"Measures per site: 5 sampling rounds in one season",NA
"Yi_Zou_Brassica_napus_China_2015","10","Pan traps","Eucera chinensis","Species","other_wild_bees",56,NA,NA,NA,"Measures per site: 5 sampling rounds in one season",NA
"Yi_Zou_Brassica_napus_China_2015","11","Pan traps","Eucera chinensis","Species","other_wild_bees",32,NA,NA,NA,"Measures per site: 5 sampling rounds in one season",NA
"Yi_Zou_Brassica_napus_China_2015","12","Pan traps","Eucera chinensis","Species","other_wild_bees",32,NA,NA,NA,"Measures per site: 5 sampling rounds in one season",NA
"Yi_Zou_Brassica_napus_China_2015","13","Pan traps","Eucera chinensis","Species","other_wild_bees",3,NA,NA,NA,"Measures per site: 5 sampling rounds in one season",NA
"Yi_Zou_Brassica_napus_China_2015","14","Pan traps","Eucera chinensis","Species","other_wild_bees",36,NA,NA,NA,"Measures per site: 5 sampling rounds in one season",NA
"Yi_Zou_Brassica_napus_China_2015","15","Pan traps","Eucera chinensis","Species","other_wild_bees",4,NA,NA,NA,"Measures per site: 5 sampling rounds in one season",NA
"Yi_Zou_Brassica_napus_China_2015","16","Pan traps","Eucera chinensis","Species","other_wild_bees",16,NA,NA,NA,"Measures per site: 5 sampling rounds in one season",NA
"Yi_Zou_Brassica_napus_China_2015","17","Pan traps","Eucera chinensis","Species","other_wild_bees",5,NA,NA,NA,"Measures per site: 5 sampling rounds in one season",NA
"Yi_Zou_Brassica_napus_China_2015","18","Pan traps","Eucera chinensis","Species","other_wild_bees",116,NA,NA,NA,"Measures per site: 5 sampling rounds in one season",NA
"Yi_Zou_Brassica_napus_China_2015","6","Pan traps","Tetralonia mitsukurii","Species","other_wild_bees",1,NA,NA,NA,"Measures per site: 5 sampling rounds in one season",NA
"Yi_Zou_Brassica_napus_China_2015","8","Pan traps","Tetralonia mitsukurii","Species","other_wild_bees",5,NA,NA,NA,"Measures per site: 5 sampling rounds in one season",NA
"Yi_Zou_Brassica_napus_China_2015","9","Pan traps","Tetralonia mitsukurii","Species","other_wild_bees",3,NA,NA,NA,"Measures per site: 5 sampling rounds in one season",NA
"Yi_Zou_Brassica_napus_China_2015","10","Pan traps","Tetralonia mitsukurii","Species","other_wild_bees",1,NA,NA,NA,"Measures per site: 5 sampling rounds in one season",NA
"Yi_Zou_Brassica_napus_China_2015","13","Pan traps","Tetralonia mitsukurii","Species","other_wild_bees",15,NA,NA,NA,"Measures per site: 5 sampling rounds in one season",NA
"Yi_Zou_Brassica_napus_China_2015","14","Pan traps","Tetralonia mitsukurii","Species","other_wild_bees",1,NA,NA,NA,"Measures per site: 5 sampling rounds in one season",NA
"Yi_Zou_Brassica_napus_China_2015","16","Pan traps","Tetralonia mitsukurii","Species","other_wild_bees",7,NA,NA,NA,"Measures per site: 5 sampling rounds in one season",NA
"Yi_Zou_Brassica_napus_China_2015","17","Pan traps","Tetralonia mitsukurii","Species","other_wild_bees",5,NA,NA,NA,"Measures per site: 5 sampling rounds in one season",NA
"Yi_Zou_Brassica_napus_China_2015","6","Pan traps","Vespa velutina","Species","non_bee_hymenoptera",1,NA,NA,NA,"Measures per site: 5 sampling rounds in one season",NA
"Yi_Zou_Brassica_napus_China_2015","12","Pan traps","Vespa velutina","Species","non_bee_hymenoptera",1,NA,NA,NA,"Measures per site: 5 sampling rounds in one season",NA
"Yi_Zou_Brassica_napus_China_2015","3","Pan traps","Vespula koreensis","Species","non_bee_hymenoptera",1,NA,NA,NA,"Measures per site: 5 sampling rounds in one season",NA
"Yi_Zou_Brassica_napus_China_2015","13","Pan traps","Xylocopa rufipes","Species","other_wild_bees",4,NA,NA,NA,"Measures per site: 5 sampling rounds in one season",NA
"Yi_Zou_Brassica_napus_China_2015","8","Pan traps","Xylocopa tranquabarorum","Species","other_wild_bees",1,NA,NA,NA,"Measures per site: 5 sampling rounds in one season",NA
"Yi_Zou_Brassica_napus_China_2015","10","Pan traps","Xylocopa tranquabarorum","Species","other_wild_bees",1,NA,NA,NA,"Measures per site: 5 sampling rounds in one season",NA
"Yi_Zou_Brassica_napus_China_2015","14","Pan traps","Xylocopa tranquabarorum","Species","other_wild_bees",2,NA,NA,NA,"Measures per site: 5 sampling rounds in one season",NA
"Yi_Zou_Brassica_napus_China_2015","16","Pan traps","Xylocopa tranquabarorum","Species","other_wild_bees",1,NA,NA,NA,"Measures per site: 5 sampling rounds in one season",NA
"Yi_Zou_Brassica_napus_China_2015","2","Pan traps","Episyrphus cretensis","Species","syrphids",3,NA,NA,NA,"Measures per site: 5 sampling rounds in one season",NA
"Yi_Zou_Brassica_napus_China_2015","4","Pan traps","Episyrphus cretensis","Species","syrphids",2,NA,NA,NA,"Measures per site: 5 sampling rounds in one season",NA
"Yi_Zou_Brassica_napus_China_2015","5","Pan traps","Episyrphus cretensis","Species","syrphids",2,NA,NA,NA,"Measures per site: 5 sampling rounds in one season",NA
"Yi_Zou_Brassica_napus_China_2015","6","Pan traps","Episyrphus cretensis","Species","syrphids",1,NA,NA,NA,"Measures per site: 5 sampling rounds in one season",NA
"Yi_Zou_Brassica_napus_China_2015","11","Pan traps","Episyrphus cretensis","Species","syrphids",2,NA,NA,NA,"Measures per site: 5 sampling rounds in one season",NA
"Yi_Zou_Brassica_napus_China_2015","12","Pan traps","Episyrphus cretensis","Species","syrphids",2,NA,NA,NA,"Measures per site: 5 sampling rounds in one season",NA
"Yi_Zou_Brassica_napus_China_2015","15","Pan traps","Episyrphus cretensis","Species","syrphids",1,NA,NA,NA,"Measures per site: 5 sampling rounds in one season",NA
"Yi_Zou_Brassica_napus_China_2015","18","Pan traps","Episyrphus cretensis","Species","syrphids",1,NA,NA,NA,"Measures per site: 5 sampling rounds in one season",NA
"Yi_Zou_Brassica_napus_China_2015","1","Pan traps","Eristalis cerealis","Species","syrphids",1,NA,NA,NA,"Measures per site: 5 sampling rounds in one season",NA
"Yi_Zou_Brassica_napus_China_2015","5","Pan traps","Eristalis cerealis","Species","syrphids",1,NA,NA,NA,"Measures per site: 5 sampling rounds in one season",NA
"Yi_Zou_Brassica_napus_China_2015","8","Pan traps","Eristalis cerealis","Species","syrphids",4,NA,NA,NA,"Measures per site: 5 sampling rounds in one season",NA
"Yi_Zou_Brassica_napus_China_2015","6","Pan traps","Phytomia zonata","Species","syrphids",1,NA,NA,NA,"Measures per site: 5 sampling rounds in one season",NA
"Yi_Zou_Brassica_napus_China_2015","14","Pan traps","Phytomia zonata","Species","syrphids",1,NA,NA,NA,"Measures per site: 5 sampling rounds in one season",NA
"Yi_Zou_Brassica_napus_China_2015","2","Pan traps","Syrphidae sp1","Genus","syrphids",2,NA,NA,NA,"Measures per site: 5 sampling rounds in one season",NA
"Yi_Zou_Brassica_napus_China_2015","7","Pan traps","Syrphidae sp1","Genus","syrphids",1,NA,NA,NA,"Measures per site: 5 sampling rounds in one season",NA
"Yi_Zou_Brassica_napus_China_2015","14","Pan traps","Syrphidae sp1","Genus","syrphids",2,NA,NA,NA,"Measures per site: 5 sampling rounds in one season",NA
"Yi_Zou_Brassica_napus_China_2015","2","Pan traps","Syrphidae sp2","Family","syrphids",1,NA,NA,NA,"Measures per site: 5 sampling rounds in one season",NA
"Yi_Zou_Brassica_napus_China_2015","6","Pan traps","Syrphidae sp2","Family","syrphids",1,NA,NA,NA,"Measures per site: 5 sampling rounds in one season",NA
"Yi_Zou_Brassica_napus_China_2015","12","Pan traps","Syrphidae sp2","Family","syrphids",1,NA,NA,NA,"Measures per site: 5 sampling rounds in one season",NA
"Yi_Zou_Brassica_napus_China_2015","2","Pan traps","Syrphidae sp3","Genus","syrphids",1,NA,NA,NA,"Measures per site: 5 sampling rounds in one season",NA
"Yi_Zou_Brassica_napus_China_2015","4","Pan traps","Syrphidae sp3","Genus","syrphids",4,NA,NA,NA,"Measures per site: 5 sampling rounds in one season",NA
"Yi_Zou_Brassica_napus_China_2015","11","Pan traps","Syrphidae sp3","Genus","syrphids",2,NA,NA,NA,"Measures per site: 5 sampling rounds in one season",NA
"Yi_Zou_Brassica_napus_China_2015","12","Pan traps","Syrphidae sp3","Genus","syrphids",3,NA,NA,NA,"Measures per site: 5 sampling rounds in one season",NA
"Yi_Zou_Brassica_napus_China_2015","13","Pan traps","Syrphidae sp3","Genus","syrphids",1,NA,NA,NA,"Measures per site: 5 sampling rounds in one season",NA
"Yi_Zou_Brassica_napus_China_2015","15","Pan traps","Syrphidae sp3","Genus","syrphids",1,NA,NA,NA,"Measures per site: 5 sampling rounds in one season",NA
"Yi_Zou_Brassica_napus_China_2015","16","Pan traps","Syrphidae sp3","Genus","syrphids",3,NA,NA,NA,"Measures per site: 5 sampling rounds in one season",NA
"Yi_Zou_Brassica_napus_China_2015","2","Pan traps","Syrphus ribesii","Species","syrphids",1,NA,NA,NA,"Measures per site: 5 sampling rounds in one season",NA
"Yi_Zou_Brassica_napus_China_2015","5","Pan traps","Syrphus ribesii","Species","syrphids",2,NA,NA,NA,"Measures per site: 5 sampling rounds in one season",NA
"Yi_Zou_Brassica_napus_China_2015","9","Pan traps","Syrphus ribesii","Species","syrphids",1,NA,NA,NA,"Measures per site: 5 sampling rounds in one season",NA
"Yi_Zou_Brassica_napus_China_2015","11","Pan traps","Syrphus ribesii","Species","syrphids",1,NA,NA,NA,"Measures per site: 5 sampling rounds in one season",NA
"Yi_Zou_Brassica_napus_China_2015","16","Pan traps","Syrphus ribesii","Species","syrphids",2,NA,NA,NA,"Measures per site: 5 sampling rounds in one season",NA
"Yi_Zou_Brassica_napus_China_2015","11","Pan traps","Arctiidae","family","lepidoptera",1,NA,NA,NA,"Measures per site: 5 sampling rounds in one season",NA
"Yi_Zou_Brassica_napus_China_2015","16","Pan traps","Arctiidae","family","lepidoptera",1,NA,NA,NA,"Measures per site: 5 sampling rounds in one season",NA
"Yi_Zou_Brassica_napus_China_2015","1","Pan traps","Hesperidae","family","lepidoptera",1,NA,NA,NA,"Measures per site: 5 sampling rounds in one season",NA
"Yi_Zou_Brassica_napus_China_2015","3","Pan traps","Hesperidae","family","lepidoptera",1,NA,NA,NA,"Measures per site: 5 sampling rounds in one season",NA
"Yi_Zou_Brassica_napus_China_2015","9","Pan traps","Hesperidae","family","lepidoptera",1,NA,NA,NA,"Measures per site: 5 sampling rounds in one season",NA
"Yi_Zou_Brassica_napus_China_2015","11","Pan traps","Hesperidae","family","lepidoptera",2,NA,NA,NA,"Measures per site: 5 sampling rounds in one season",NA
"Yi_Zou_Brassica_napus_China_2015","12","Pan traps","Hesperidae","family","lepidoptera",4,NA,NA,NA,"Measures per site: 5 sampling rounds in one season",NA
"Yi_Zou_Brassica_napus_China_2015","16","Pan traps","Hesperidae","family","lepidoptera",1,NA,NA,NA,"Measures per site: 5 sampling rounds in one season",NA
"Yi_Zou_Brassica_napus_China_2015","18","Pan traps","Hesperidae","family","lepidoptera",1,NA,NA,NA,"Measures per site: 5 sampling rounds in one season",NA
"Yi_Zou_Brassica_napus_China_2015","2","Pan traps","Noctuidae","family","lepidoptera",1,NA,NA,NA,"Measures per site: 5 sampling rounds in one season",NA
"Yi_Zou_Brassica_napus_China_2015","3","Pan traps","Noctuidae","family","lepidoptera",2,NA,NA,NA,"Measures per site: 5 sampling rounds in one season",NA
"Yi_Zou_Brassica_napus_China_2015","4","Pan traps","Noctuidae","family","lepidoptera",1,NA,NA,NA,"Measures per site: 5 sampling rounds in one season",NA
"Yi_Zou_Brassica_napus_China_2015","6","Pan traps","Noctuidae","family","lepidoptera",1,NA,NA,NA,"Measures per site: 5 sampling rounds in one season",NA
"Yi_Zou_Brassica_napus_China_2015","10","Pan traps","Noctuidae","family","lepidoptera",1,NA,NA,NA,"Measures per site: 5 sampling rounds in one season",NA
"Yi_Zou_Brassica_napus_China_2015","12","Pan traps","Noctuidae","family","lepidoptera",1,NA,NA,NA,"Measures per site: 5 sampling rounds in one season",NA
"Yi_Zou_Brassica_napus_China_2015","15","Pan traps","Noctuidae","family","lepidoptera",1,NA,NA,NA,"Measures per site: 5 sampling rounds in one season",NA
"Yi_Zou_Brassica_napus_China_2015","16","Pan traps","Noctuidae","family","lepidoptera",1,NA,NA,NA,"Measures per site: 5 sampling rounds in one season",NA
"Yi_Zou_Brassica_napus_China_2015","11","Pan traps","Nymphalidae","family","lepidoptera",1,NA,NA,NA,"Measures per site: 5 sampling rounds in one season",NA
"Yi_Zou_Brassica_napus_China_2015","12","Pan traps","Nymphalidae","family","lepidoptera",2,NA,NA,NA,"Measures per site: 5 sampling rounds in one season",NA
"Yi_Zou_Brassica_napus_China_2015","2","Pan traps","Papilionidae","family","lepidoptera",1,NA,NA,NA,"Measures per site: 5 sampling rounds in one season",NA
"Yi_Zou_Brassica_napus_China_2015","12","Pan traps","Papilionidae","family","lepidoptera",1,NA,NA,NA,"Measures per site: 5 sampling rounds in one season",NA
"Yi_Zou_Brassica_napus_China_2015","13","Pan traps","Papilionidae","family","lepidoptera",5,NA,NA,NA,"Measures per site: 5 sampling rounds in one season",NA
"Yi_Zou_Brassica_napus_China_2015","14","Pan traps","Papilionidae","family","lepidoptera",2,NA,NA,NA,"Measures per site: 5 sampling rounds in one season",NA
"Yi_Zou_Brassica_napus_China_2015","16","Pan traps","Papilionidae","family","lepidoptera",1,NA,NA,NA,"Measures per site: 5 sampling rounds in one season",NA
"Yi_Zou_Brassica_napus_China_2015","18","Pan traps","Papilionidae","family","lepidoptera",2,NA,NA,NA,"Measures per site: 5 sampling rounds in one season",NA
"Yi_Zou_Brassica_napus_China_2015","1","Pan traps","Pieris rapae","Species","lepidoptera",21,NA,NA,NA,"Measures per site: 5 sampling rounds in one season",NA
"Yi_Zou_Brassica_napus_China_2015","2","Pan traps","Pieris rapae","Species","lepidoptera",31,NA,NA,NA,"Measures per site: 5 sampling rounds in one season",NA
"Yi_Zou_Brassica_napus_China_2015","3","Pan traps","Pieris rapae","Species","lepidoptera",449,NA,NA,NA,"Measures per site: 5 sampling rounds in one season",NA
"Yi_Zou_Brassica_napus_China_2015","4","Pan traps","Pieris rapae","Species","lepidoptera",115,NA,NA,NA,"Measures per site: 5 sampling rounds in one season",NA
"Yi_Zou_Brassica_napus_China_2015","5","Pan traps","Pieris rapae","Species","lepidoptera",28,NA,NA,NA,"Measures per site: 5 sampling rounds in one season",NA
"Yi_Zou_Brassica_napus_China_2015","6","Pan traps","Pieris rapae","Species","lepidoptera",61,NA,NA,NA,"Measures per site: 5 sampling rounds in one season",NA
"Yi_Zou_Brassica_napus_China_2015","7","Pan traps","Pieris rapae","Species","lepidoptera",4,NA,NA,NA,"Measures per site: 5 sampling rounds in one season",NA
"Yi_Zou_Brassica_napus_China_2015","8","Pan traps","Pieris rapae","Species","lepidoptera",46,NA,NA,NA,"Measures per site: 5 sampling rounds in one season",NA
"Yi_Zou_Brassica_napus_China_2015","9","Pan traps","Pieris rapae","Species","lepidoptera",9,NA,NA,NA,"Measures per site: 5 sampling rounds in one season",NA
"Yi_Zou_Brassica_napus_China_2015","10","Pan traps","Pieris rapae","Species","lepidoptera",3,NA,NA,NA,"Measures per site: 5 sampling rounds in one season",NA
"Yi_Zou_Brassica_napus_China_2015","11","Pan traps","Pieris rapae","Species","lepidoptera",53,NA,NA,NA,"Measures per site: 5 sampling rounds in one season",NA
"Yi_Zou_Brassica_napus_China_2015","12","Pan traps","Pieris rapae","Species","lepidoptera",83,NA,NA,NA,"Measures per site: 5 sampling rounds in one season",NA
"Yi_Zou_Brassica_napus_China_2015","13","Pan traps","Pieris rapae","Species","lepidoptera",77,NA,NA,NA,"Measures per site: 5 sampling rounds in one season",NA
"Yi_Zou_Brassica_napus_China_2015","14","Pan traps","Pieris rapae","Species","lepidoptera",69,NA,NA,NA,"Measures per site: 5 sampling rounds in one season",NA
"Yi_Zou_Brassica_napus_China_2015","15","Pan traps","Pieris rapae","Species","lepidoptera",11,NA,NA,NA,"Measures per site: 5 sampling rounds in one season",NA
"Yi_Zou_Brassica_napus_China_2015","16","Pan traps","Pieris rapae","Species","lepidoptera",19,NA,NA,NA,"Measures per site: 5 sampling rounds in one season",NA
"Yi_Zou_Brassica_napus_China_2015","17","Pan traps","Pieris rapae","Species","lepidoptera",11,NA,NA,NA,"Measures per site: 5 sampling rounds in one season",NA
"Yi_Zou_Brassica_napus_China_2015","18","Pan traps","Pieris rapae","Species","lepidoptera",24,NA,NA,NA,"Measures per site: 5 sampling rounds in one season",NA
"Yi_Zou_Brassica_napus_China_2015","5","Pan traps","Plutella xylostella","Species","lepidoptera",1,NA,NA,NA,"Measures per site: 5 sampling rounds in one season",NA
"Yi_Zou_Brassica_napus_China_2015","16","Pan traps","Plutella xylostella","Species","lepidoptera",10,NA,NA,NA,"Measures per site: 5 sampling rounds in one season",NA
"Yi_Zou_Brassica_napus_China_2015","9","Pan traps","Pyralidae","family","lepidoptera",1,NA,NA,NA,"Measures per site: 5 sampling rounds in one season",NA
"Yi_Zou_Brassica_napus_China_2015","18","Pan traps","Pyralidae","family","lepidoptera",1,NA,NA,NA,"Measures per site: 5 sampling rounds in one season",NA
"Yi_Zou_Brassica_napus_China_2015","16","Pan traps","Sphingidae","family","lepidoptera",1,NA,NA,NA,"Measures per site: 5 sampling rounds in one season",NA
"Silvia_Castro_Actinidia_deliciosa_Portugal_2018","A1","census","Andrena sp.1","morphospecies","other_wild_bees",1,137.25,61,4689,"census of 1 min, each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Actinidia_deliciosa_Portugal_2018","A1","census","Apis mellifera","species","honeybees",69,137.25,61,4689,"census of 1 min, each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Actinidia_deliciosa_Portugal_2018","A1","census","Diptera (sp.1)","morphospecies","other_flies",1,137.25,61,4689,"census of 1 min, each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Actinidia_deliciosa_Portugal_2018","A1","census","Syrphus sp.1","morphospecies","syrphids",8,137.25,61,4689,"census of 1 min, each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Actinidia_deliciosa_Portugal_2018","A1","census","Syrphus sp. 2 (ribessi or vitripennis)","morphospecies","syrphids",2,137.25,61,4689,"census of 1 min, each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Actinidia_deliciosa_Portugal_2018","C2","census","Apis mellifera","species","honeybees",109,47.25,21,2406,"census of 1 min, each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Actinidia_deliciosa_Portugal_2018","C2","census","Bombus terrestris","species","bumblebees",3,47.25,21,2406,"census of 1 min, each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Actinidia_deliciosa_Portugal_2018","C2","census","Diptera","order","other_flies",4,47.25,21,2406,"census of 1 min, each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Actinidia_deliciosa_Portugal_2018","C2","census","Syrphus sp.1","morphospecies","syrphids",13,47.25,21,2406,"census of 1 min, each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Actinidia_deliciosa_Portugal_2018","C2","census","Syrphus sp. 2 (ribessi or vitripennis)","morphospecies","syrphids",2,47.25,21,2406,"census of 1 min, each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Actinidia_deliciosa_Portugal_2018","H","census","Apis mellifera","species","honeybees",184,227.25,101,6573,"census of 1 min, each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Actinidia_deliciosa_Portugal_2018","H","census","Bombus pascuorum","species","bumblebees",1,227.25,101,6573,"census of 1 min, each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Actinidia_deliciosa_Portugal_2018","H","census","Diptera","order","other_flies",4,227.25,101,6573,"census of 1 min, each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Actinidia_deliciosa_Portugal_2018","H","census","Apidea","superfamily","other_wild_bees",4,227.25,101,6573,"census of 1 min, each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Actinidia_deliciosa_Portugal_2018","K","census","Apis mellifera","species","honeybees",202,200.25,89,5528,"census of 1 min, each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Actinidia_deliciosa_Portugal_2018","K","census","Syrphus sp.1","morphospecies","syrphids",1,200.25,89,5528,"census of 1 min, each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Actinidia_deliciosa_Portugal_2018","K","census","Syrphus sp. 2 (ribessi or vitripennis)","morphospecies","syrphids",1,200.25,89,5528,"census of 1 min, each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Actinidia_deliciosa_Portugal_2018","K","census","Xylocopa violacea","species","other_wild_bees",1,200.25,89,5528,"census of 1 min, each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Actinidia_deliciosa_Portugal_2019","A1","census","Apis mellifera","species","honeybees",139,263.25,234,10210,"census of 2 min, each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Actinidia_deliciosa_Portugal_2019","A1","census","Bombus terrestris","species","bumblebees",47,263.25,234,10210,"census of 2 min, each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Actinidia_deliciosa_Portugal_2019","A1","census","Melanostoma sp.","genus","syrphids",1,263.25,234,10210,"census of 2 min, each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Actinidia_deliciosa_Portugal_2019","B","census","Andrena flavipes","species","other_wild_bees",1,249.75,222,14505,"census of 2 min, each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Actinidia_deliciosa_Portugal_2019","B","census","Andrena sp.","genus","other_wild_bees",1,249.75,222,14505,"census of 2 min, each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Actinidia_deliciosa_Portugal_2019","B","census","Apis mellifera","species","honeybees",278,249.75,222,14505,"census of 2 min, each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Actinidia_deliciosa_Portugal_2019","B","census","Bombus hortorum","species","bumblebees",1,249.75,222,14505,"census of 2 min, each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Actinidia_deliciosa_Portugal_2019","B","census","Bombus pascuorum","species","bumblebees",1,249.75,222,14505,"census of 2 min, each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Actinidia_deliciosa_Portugal_2019","B","census","Bombus terrestris","species","bumblebees",27,249.75,222,14505,"census of 2 min, each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Actinidia_deliciosa_Portugal_2019","B","census","Eristalis tenax","species","syrphids",15,249.75,222,14505,"census of 2 min, each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Actinidia_deliciosa_Portugal_2019","B","census","Eupeodes sp.","genus","syrphids",2,249.75,222,14505,"census of 2 min, each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Actinidia_deliciosa_Portugal_2019","B","census","Halictus scabiosae","species","other_wild_bees",1,249.75,222,14505,"census of 2 min, each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Actinidia_deliciosa_Portugal_2019","B","census","Halictus sp.","genus","other_wild_bees",4,249.75,222,14505,"census of 2 min, each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Actinidia_deliciosa_Portugal_2019","B","census","Melanostoma sp.","genus","syrphids",1,249.75,222,14505,"census of 2 min, each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Actinidia_deliciosa_Portugal_2019","B","census","Sphaerophoria scripta","species","syrphids",4,249.75,222,14505,"census of 2 min, each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Actinidia_deliciosa_Portugal_2019","B","census","Stomorhina lunata","species","other_flies",10,249.75,222,14505,"census of 2 min, each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Actinidia_deliciosa_Portugal_2019","B","census","Syrphus sp.","genus","syrphids",1,249.75,222,14505,"census of 2 min, each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Actinidia_deliciosa_Portugal_2019","B","census","Syrrita pipiens","species","syrphids",2,249.75,222,14505,"census of 2 min, each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Actinidia_deliciosa_Portugal_2019","C1","census","Andrena thoracica","species","other_wild_bees",2,288,256,5025,"census of 2 min, each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Actinidia_deliciosa_Portugal_2019","C1","census","Apis mellifera","species","honeybees",115,288,256,5025,"census of 2 min, each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Actinidia_deliciosa_Portugal_2019","C1","census","Bombus hortorum","species","bumblebees",2,288,256,5025,"census of 2 min, each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Actinidia_deliciosa_Portugal_2019","C1","census","Bombus terrestris","species","bumblebees",92,288,256,5025,"census of 2 min, each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Actinidia_deliciosa_Portugal_2019","C1","census","Eristalinus taeniops","species","syrphids",1,288,256,5025,"census of 2 min, each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Actinidia_deliciosa_Portugal_2019","C1","census","Eristalis tenax","species","syrphids",9,288,256,5025,"census of 2 min, each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Actinidia_deliciosa_Portugal_2019","C1","census","Eupeodes sp.","genus","syrphids",2,288,256,5025,"census of 2 min, each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Actinidia_deliciosa_Portugal_2019","C1","census","Formicidae","family","non_bee_hymenoptera",2,288,256,5025,"census of 2 min, each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Actinidia_deliciosa_Portugal_2019","C1","census","Halictus sp.","genus","other_wild_bees",1,288,256,5025,"census of 2 min, each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Actinidia_deliciosa_Portugal_2019","C1","census","Melanostoma sp.","genus","syrphids",7,288,256,5025,"census of 2 min, each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Actinidia_deliciosa_Portugal_2019","C1","census","Meliscaeva sp.","genus","syrphids",2,288,256,5025,"census of 2 min, each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Actinidia_deliciosa_Portugal_2019","C1","census","Oedemera nobilis","species","beetles",1,288,256,5025,"census of 2 min, each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Actinidia_deliciosa_Portugal_2019","C1","census","Sphaerophoria scripta","species","syrphids",3,288,256,5025,"census of 2 min, each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Actinidia_deliciosa_Portugal_2019","C1","census","Stomorhina lunata","species","other_flies",5,288,256,5025,"census of 2 min, each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Actinidia_deliciosa_Portugal_2019","C1","census","Syrrita pipiens","species","syrphids",2,288,256,5025,"census of 2 min, each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Actinidia_deliciosa_Portugal_2019","C1","census","Villa sp.","genus","humbleflies",2,288,256,5025,"census of 2 min, each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Actinidia_deliciosa_Portugal_2019","C2","census","Apis mellifera","species","honeybees",236,371.25,330,13810,"census of 2 min, each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Actinidia_deliciosa_Portugal_2019","C2","census","Bombus hortorum","species","bumblebees",4,371.25,330,13810,"census of 2 min, each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Actinidia_deliciosa_Portugal_2019","C2","census","Bombus pascuorum","species","bumblebees",14,371.25,330,13810,"census of 2 min, each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Actinidia_deliciosa_Portugal_2019","C2","census","Bombus sp.","genus","bumblebees",1,371.25,330,13810,"census of 2 min, each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Actinidia_deliciosa_Portugal_2019","C2","census","Bombus terrestris","species","bumblebees",158,371.25,330,13810,"census of 2 min, each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Actinidia_deliciosa_Portugal_2019","C2","census","Cetonia aurata","species","beetles",2,371.25,330,13810,"census of 2 min, each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Actinidia_deliciosa_Portugal_2019","C2","census","Cheilosia sp.","genus","syrphids",1,371.25,330,13810,"census of 2 min, each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Actinidia_deliciosa_Portugal_2019","C2","census","Eristalis tenax","species","syrphids",2,371.25,330,13810,"census of 2 min, each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Actinidia_deliciosa_Portugal_2019","C2","census","Eupeodes sp.","genus","syrphids",1,371.25,330,13810,"census of 2 min, each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Actinidia_deliciosa_Portugal_2019","C2","census","Isopoda","order","other",1,371.25,330,13810,"census of 2 min, each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Actinidia_deliciosa_Portugal_2019","C2","census","Lasioglossum sp.","genus","other_wild_bees",2,371.25,330,13810,"census of 2 min, each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Actinidia_deliciosa_Portugal_2019","C2","census","Melanostoma sp.","genus","syrphids",7,371.25,330,13810,"census of 2 min, each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Actinidia_deliciosa_Portugal_2019","C2","census","Nitidulidae","family","beetles",56,371.25,330,13810,"census of 2 min, each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Actinidia_deliciosa_Portugal_2019","C2","census","Sphaerophoria scripta","species","syrphids",11,371.25,330,13810,"census of 2 min, each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Actinidia_deliciosa_Portugal_2019","C2","census","Stomorhina lunata","species","other_flies",134,371.25,330,13810,"census of 2 min, each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Actinidia_deliciosa_Portugal_2019","C2","census","Syrphus sp.","genus","syrphids",62,371.25,330,13810,"census of 2 min, each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Actinidia_deliciosa_Portugal_2019","C2","census","Volucella zonaria","species","syrphids",1,371.25,330,13810,"census of 2 min, each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Actinidia_deliciosa_Portugal_2019","E","census","Andrena flavipes","species","other_wild_bees",3,355.5,316,12075,"census of 2 min, each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Actinidia_deliciosa_Portugal_2019","E","census","Andrena sp.","genus","other_wild_bees",2,355.5,316,12075,"census of 2 min, each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Actinidia_deliciosa_Portugal_2019","E","census","Andrena thoracica","species","other_wild_bees",5,355.5,316,12075,"census of 2 min, each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Actinidia_deliciosa_Portugal_2019","E","census","Anthomyiidae","family","other_flies",2,355.5,316,12075,"census of 2 min, each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Actinidia_deliciosa_Portugal_2019","E","census","Apis mellifera","species","honeybees",300,355.5,316,12075,"census of 2 min, each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Actinidia_deliciosa_Portugal_2019","E","census","Bombus pascuorum","species","bumblebees",1,355.5,316,12075,"census of 2 min, each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Actinidia_deliciosa_Portugal_2019","E","census","Bombus terrestris","species","bumblebees",97,355.5,316,12075,"census of 2 min, each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Actinidia_deliciosa_Portugal_2019","E","census","Eristalis tenax","species","syrphids",2,355.5,316,12075,"census of 2 min, each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Actinidia_deliciosa_Portugal_2019","E","census","Eupeodes sp.","genus","syrphids",3,355.5,316,12075,"census of 2 min, each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Actinidia_deliciosa_Portugal_2019","E","census","Lasioglossum sp.","genus","other_wild_bees",3,355.5,316,12075,"census of 2 min, each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Actinidia_deliciosa_Portugal_2019","E","census","Melanostoma sp.","genus","syrphids",5,355.5,316,12075,"census of 2 min, each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Actinidia_deliciosa_Portugal_2019","E","census","Meliscaeva sp.","genus","syrphids",3,355.5,316,12075,"census of 2 min, each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Actinidia_deliciosa_Portugal_2019","E","census","Nitidulidae","family","beetles",1,355.5,316,12075,"census of 2 min, each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Actinidia_deliciosa_Portugal_2019","E","census","Sphaerophoria scripta","species","syrphids",12,355.5,316,12075,"census of 2 min, each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Actinidia_deliciosa_Portugal_2019","E","census","Stomorhina lunata","species","other_flies",21,355.5,316,12075,"census of 2 min, each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Actinidia_deliciosa_Portugal_2019","E","census","Syrphus sp.","genus","syrphids",15,355.5,316,12075,"census of 2 min, each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Actinidia_deliciosa_Portugal_2019","F","census","Anthomyiidae","family","other_flies",1,200.25,178,4045,"census of 2 min, each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Actinidia_deliciosa_Portugal_2019","F","census","Apis mellifera","species","honeybees",137,200.25,178,4045,"census of 2 min, each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Actinidia_deliciosa_Portugal_2019","F","census","Bombus terrestris","species","bumblebees",15,200.25,178,4045,"census of 2 min, each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Actinidia_deliciosa_Portugal_2019","F","census","Choromyia sp.","genus","other_flies",2,200.25,178,4045,"census of 2 min, each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Actinidia_deliciosa_Portugal_2019","F","census","Eristalis tenax","species","syrphids",1,200.25,178,4045,"census of 2 min, each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Actinidia_deliciosa_Portugal_2019","F","census","Halictus sp.","genus","other_wild_bees",2,200.25,178,4045,"census of 2 min, each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Actinidia_deliciosa_Portugal_2019","F","census","Stomorhina lunata","species","other_flies",1,200.25,178,4045,"census of 2 min, each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Actinidia_deliciosa_Portugal_2019","G","census","Apis mellifera","species","honeybees",1,270,240,2121,"census of 2 min, each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Actinidia_deliciosa_Portugal_2019","G","census","Araneus angulatus","species","other",1,270,240,2121,"census of 2 min, each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Actinidia_deliciosa_Portugal_2019","G","census","Bombus pascuorum","species","bumblebees",21,270,240,2121,"census of 2 min, each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Actinidia_deliciosa_Portugal_2019","G","census","Bombus terrestris","species","bumblebees",23,270,240,2121,"census of 2 min, each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Actinidia_deliciosa_Portugal_2019","G","census","Chrysanthia sp.","genus","beetles",57,270,240,2121,"census of 2 min, each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Actinidia_deliciosa_Portugal_2019","G","census","Halictus sp.","genus","other_wild_bees",1,270,240,2121,"census of 2 min, each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Actinidia_deliciosa_Portugal_2019","G","census","Melanostoma sp.","genus","syrphids",1,270,240,2121,"census of 2 min, each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Actinidia_deliciosa_Portugal_2019","G","census","Mycterus sp.","genus","beetles",1,270,240,2121,"census of 2 min, each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Actinidia_deliciosa_Portugal_2019","G","census","Oxythyrea funesta","species","beetles",1,270,240,2121,"census of 2 min, each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Actinidia_deliciosa_Portugal_2019","G","census","Sphaerophoria scripta","species","syrphids",5,270,240,2121,"census of 2 min, each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Actinidia_deliciosa_Portugal_2019","G","census","Stomorhina lunata","species","other_flies",32,270,240,2121,"census of 2 min, each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Actinidia_deliciosa_Portugal_2019","G","census","Syrphus sp.","genus","syrphids",1,270,240,2121,"census of 2 min, each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Actinidia_deliciosa_Portugal_2019","G","census","Syrrita pipiens","species","syrphids",1,270,240,2121,"census of 2 min, each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Actinidia_deliciosa_Portugal_2019","H","census","Apis mellifera","species","honeybees",128,168.75,150,3170,"census of 2 min, each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Actinidia_deliciosa_Portugal_2019","H","census","Bombus terrestris","species","bumblebees",7,168.75,150,3170,"census of 2 min, each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Actinidia_deliciosa_Portugal_2019","H","census","Eristalis tenax","species","syrphids",8,168.75,150,3170,"census of 2 min, each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Actinidia_deliciosa_Portugal_2019","H","census","Melanostoma sp.","genus","syrphids",3,168.75,150,3170,"census of 2 min, each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Actinidia_deliciosa_Portugal_2019","H","census","Sphaerophoria scripta","species","syrphids",1,168.75,150,3170,"census of 2 min, each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Actinidia_deliciosa_Portugal_2019","I","census","Apis mellifera","species","honeybees",244,339.75,302,19815,"census of 2 min, each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Actinidia_deliciosa_Portugal_2019","I","census","Bombus terrestris","species","bumblebees",8,339.75,302,19815,"census of 2 min, each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Actinidia_deliciosa_Portugal_2019","I","census","Eristalis tenax","species","syrphids",3,339.75,302,19815,"census of 2 min, each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Actinidia_deliciosa_Portugal_2019","I","census","Eupeodes sp.","genus","syrphids",2,339.75,302,19815,"census of 2 min, each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Actinidia_deliciosa_Portugal_2019","I","census","Halictus sp.","genus","other_wild_bees",6,339.75,302,19815,"census of 2 min, each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Actinidia_deliciosa_Portugal_2019","I","census","Melanostoma sp.","genus","syrphids",14,339.75,302,19815,"census of 2 min, each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Actinidia_deliciosa_Portugal_2019","I","census","Sphaerophoria scripta","species","syrphids",21,339.75,302,19815,"census of 2 min, each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Actinidia_deliciosa_Portugal_2019","I","census","Stomorhina lunata","species","other_flies",24,339.75,302,19815,"census of 2 min, each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Actinidia_deliciosa_Portugal_2019","I","census","Syrphus sp.","genus","syrphids",1,339.75,302,19815,"census of 2 min, each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Actinidia_deliciosa_Portugal_2019","J","census","Apis mellifera","species","honeybees",5,150.75,134,1214,"census of 2 min, each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Actinidia_deliciosa_Portugal_2019","J","census","Bombus pascuorum","species","bumblebees",2,150.75,134,1214,"census of 2 min, each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Actinidia_deliciosa_Portugal_2019","J","census","Bombus terrestris","species","bumblebees",46,150.75,134,1214,"census of 2 min, each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Actinidia_deliciosa_Portugal_2019","J","census","Chrysotoxum festivum","species","syrphids",2,150.75,134,1214,"census of 2 min, each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Actinidia_deliciosa_Portugal_2019","J","census","Eristalis tenax","species","syrphids",3,150.75,134,1214,"census of 2 min, each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Actinidia_deliciosa_Portugal_2019","J","census","Melanostoma sp.","genus","syrphids",1,150.75,134,1214,"census of 2 min, each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Actinidia_deliciosa_Portugal_2019","J","census","Meliscaeva sp.","genus","syrphids",2,150.75,134,1214,"census of 2 min, each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Actinidia_deliciosa_Portugal_2019","J","census","Stomorhina lunata","species","other_flies",22,150.75,134,1214,"census of 2 min, each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Actinidia_deliciosa_Portugal_2019","K","census","Anthomyiidae","family","other_flies",1,157.5,140,7470,"census of 2 min, each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Actinidia_deliciosa_Portugal_2019","K","census","Apis mellifera","species","honeybees",37,157.5,140,7470,"census of 2 min, each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Actinidia_deliciosa_Portugal_2019","K","census","Bombus terrestris","species","bumblebees",7,157.5,140,7470,"census of 2 min, each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Actinidia_deliciosa_Portugal_2019","K","census","Eupeodes sp.","genus","syrphids",1,157.5,140,7470,"census of 2 min, each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Actinidia_deliciosa_Portugal_2019","K","census","Melanostoma sp.","genus","syrphids",3,157.5,140,7470,"census of 2 min, each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Actinidia_deliciosa_Portugal_2019","L","census","Apis mellifera","species","honeybees",53,236.25,210,4770,"census of 2 min, each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Actinidia_deliciosa_Portugal_2019","L","census","Bombus pascuorum","species","bumblebees",4,236.25,210,4770,"census of 2 min, each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Actinidia_deliciosa_Portugal_2019","L","census","Bombus terrestris","species","bumblebees",3,236.25,210,4770,"census of 2 min, each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Actinidia_deliciosa_Portugal_2019","L","census","Eristalis tenax","species","syrphids",7,236.25,210,4770,"census of 2 min, each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Actinidia_deliciosa_Portugal_2019","L","census","Halictus sp.","genus","other_wild_bees",2,236.25,210,4770,"census of 2 min, each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Actinidia_deliciosa_Portugal_2019","L","census","Melanostoma sp.","genus","syrphids",1,236.25,210,4770,"census of 2 min, each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Actinidia_deliciosa_Portugal_2019","L","census","Nitidulidae","family","beetles",1,236.25,210,4770,"census of 2 min, each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Actinidia_deliciosa_Portugal_2019","L","census","Stomorhina lunata","species","other_flies",21,236.25,210,4770,"census of 2 min, each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Actinidia_deliciosa_Portugal_2019","L","census","Syrrita pipiens","species","syrphids",1,236.25,210,4770,"census of 2 min, each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Actinidia_deliciosa_Portugal_2019","N","census","Apis mellifera","species","honeybees",18,117,104,1607,"census of 2 min, each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Actinidia_deliciosa_Portugal_2019","N","census","Bombus terrestris","species","bumblebees",4,117,104,1607,"census of 2 min, each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Actinidia_deliciosa_Portugal_2019","N","census","Formicidae","family","non_bee_hymenoptera",1,117,104,1607,"census of 2 min, each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Actinidia_deliciosa_Portugal_2019","N","census","Halictus sp.","genus","other_wild_bees",4,117,104,1607,"census of 2 min, each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Actinidia_deliciosa_Portugal_2019","N","census","Melanostoma sp.","genus","syrphids",2,117,104,1607,"census of 2 min, each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Actinidia_deliciosa_Portugal_2019","N","census","Sarcophagidae","family","other_flies",1,117,104,1607,"census of 2 min, each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Actinidia_deliciosa_Portugal_2019","N","census","Sphaerophoria scripta","species","syrphids",1,117,104,1607,"census of 2 min, each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Actinidia_deliciosa_Portugal_2019","N","census","Stomorhina lunata","species","other_flies",3,117,104,1607,"census of 2 min, each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Actinidia_deliciosa_Portugal_2019","O","census","Andrena thoracica","species","other_wild_bees",2,207,184,9155,"census of 2 min, each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Actinidia_deliciosa_Portugal_2019","O","census","Apis mellifera","species","honeybees",107,207,184,9155,"census of 2 min, each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Actinidia_deliciosa_Portugal_2019","O","census","Bombus terrestris","species","bumblebees",16,207,184,9155,"census of 2 min, each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Actinidia_deliciosa_Portugal_2019","O","census","Cerceris sp.","genus","non_bee_hymenoptera",1,207,184,9155,"census of 2 min, each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Actinidia_deliciosa_Portugal_2019","O","census","Forficulidae","family","other",1,207,184,9155,"census of 2 min, each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Actinidia_deliciosa_Portugal_2019","O","census","Halictus sp.","genus","other_wild_bees",1,207,184,9155,"census of 2 min, each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Actinidia_deliciosa_Portugal_2019","O","census","Hylaeus sp.","genus","other_wild_bees",1,207,184,9155,"census of 2 min, each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Actinidia_deliciosa_Portugal_2019","O","census","Melyridae","family","beetles",1,207,184,9155,"census of 2 min, each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Actinidia_deliciosa_Portugal_2019","O","census","Stomorhina lunata","species","other_flies",1,207,184,9155,"census of 2 min, each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Actinidia_deliciosa_Portugal_2019","O","census","Syrrita pipiens","species","syrphids",1,207,184,9155,"census of 2 min, each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Actinidia_deliciosa_Portugal_2019","P","census","Apis mellifera","species","honeybees",78,231.75,206,8800,"census of 2 min, each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Actinidia_deliciosa_Portugal_2019","P","census","Bombus pascuorum","species","bumblebees",2,231.75,206,8800,"census of 2 min, each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Actinidia_deliciosa_Portugal_2019","P","census","Bombus terrestris","species","bumblebees",7,231.75,206,8800,"census of 2 min, each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Actinidia_deliciosa_Portugal_2019","P","census","Episyrphus balteatus","species","syrphids",1,231.75,206,8800,"census of 2 min, each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Actinidia_deliciosa_Portugal_2019","P","census","Eristalis tenax","species","syrphids",1,231.75,206,8800,"census of 2 min, each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Actinidia_deliciosa_Portugal_2019","P","census","Halictus sp.","genus","other_wild_bees",3,231.75,206,8800,"census of 2 min, each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Actinidia_deliciosa_Portugal_2019","P","census","Lasioglossum sp.","genus","other_wild_bees",1,231.75,206,8800,"census of 2 min, each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Actinidia_deliciosa_Portugal_2019","P","census","Melyridae","family","beetles",2,231.75,206,8800,"census of 2 min, each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Actinidia_deliciosa_Portugal_2019","P","census","Sphaerophoria scripta","species","syrphids",4,231.75,206,8800,"census of 2 min, each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Actinidia_deliciosa_Portugal_2019","P","census","Stomorhina lunata","species","other_flies",1,231.75,206,8800,"census of 2 min, each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Actinidia_deliciosa_Portugal_2019","Q","census","Apis mellifera","species","honeybees",198,290.25,258,9140,"census of 2 min, each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Actinidia_deliciosa_Portugal_2019","Q","census","Bombus terrestris","species","bumblebees",12,290.25,258,9140,"census of 2 min, each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Actinidia_deliciosa_Portugal_2019","Q","census","Episyrphus balteatus","species","syrphids",2,290.25,258,9140,"census of 2 min, each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Actinidia_deliciosa_Portugal_2019","Q","census","Eristalis tenax","species","syrphids",2,290.25,258,9140,"census of 2 min, each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Actinidia_deliciosa_Portugal_2019","Q","census","Halictus sp.","genus","other_wild_bees",1,290.25,258,9140,"census of 2 min, each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Actinidia_deliciosa_Portugal_2019","Q","census","Lasioglossum sp.","genus","other_wild_bees",1,290.25,258,9140,"census of 2 min, each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Actinidia_deliciosa_Portugal_2019","Q","census","Melanostoma sp.","genus","syrphids",2,290.25,258,9140,"census of 2 min, each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Actinidia_deliciosa_Portugal_2019","Q","census","Scaeva sp.","genus","syrphids",1,290.25,258,9140,"census of 2 min, each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Actinidia_deliciosa_Portugal_2019","Q","census","Syrphus sp.","genus","syrphids",1,290.25,258,9140,"census of 2 min, each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Actinidia_deliciosa_Portugal_2019","R","census","Andrena flavipes","species","other_wild_bees",2,425.25,378,13875,"census of 2 min, each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Actinidia_deliciosa_Portugal_2019","R","census","Andrena sp.","genus","other_wild_bees",6,425.25,378,13875,"census of 2 min, each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Actinidia_deliciosa_Portugal_2019","R","census","Andrena thoracica","species","other_wild_bees",12,425.25,378,13875,"census of 2 min, each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Actinidia_deliciosa_Portugal_2019","R","census","Apis mellifera","species","honeybees",185,425.25,378,13875,"census of 2 min, each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Actinidia_deliciosa_Portugal_2019","R","census","Bombus terrestris","species","bumblebees",126,425.25,378,13875,"census of 2 min, each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Actinidia_deliciosa_Portugal_2019","R","census","Eristalis tenax","species","syrphids",6,425.25,378,13875,"census of 2 min, each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Actinidia_deliciosa_Portugal_2019","R","census","Eupeodes sp.","genus","syrphids",1,425.25,378,13875,"census of 2 min, each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Actinidia_deliciosa_Portugal_2019","R","census","Lasioglossum sp.","genus","other_wild_bees",3,425.25,378,13875,"census of 2 min, each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Actinidia_deliciosa_Portugal_2019","R","census","Melanostoma sp.","genus","syrphids",4,425.25,378,13875,"census of 2 min, each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Actinidia_deliciosa_Portugal_2019","R","census","Stomorhina lunata","species","other_flies",2,425.25,378,13875,"census of 2 min, each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Actinidia_deliciosa_Portugal_2019","R","census","Syrphus sp.","genus","syrphids",4,425.25,378,13875,"census of 2 min, each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Actinidia_deliciosa_Portugal_2019","S","census","Apis mellifera","species","honeybees",182,290.25,258,11347,"census of 2 min, each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Actinidia_deliciosa_Portugal_2019","S","census","Bombus terrestris","species","bumblebees",4,290.25,258,11347,"census of 2 min, each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Actinidia_deliciosa_Portugal_2019","S","census","Eristalis tenax","species","syrphids",2,290.25,258,11347,"census of 2 min, each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Actinidia_deliciosa_Portugal_2019","S","census","Melanostoma sp.","genus","syrphids",3,290.25,258,11347,"census of 2 min, each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Actinidia_deliciosa_Portugal_2019","S","census","Meliscaeva sp.","genus","syrphids",1,290.25,258,11347,"census of 2 min, each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Actinidia_deliciosa_Portugal_2019","S","census","Sphaerophoria scripta","species","syrphids",2,290.25,258,11347,"census of 2 min, each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Actinidia_deliciosa_Portugal_2019","S","census","Stomorhina lunata","species","other_flies",11,290.25,258,11347,"census of 2 min, each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Actinidia_deliciosa_Portugal_2019","S","census","Syrphus sp.","genus","syrphids",2,290.25,258,11347,"census of 2 min, each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Actinidia_deliciosa_Portugal_2019","T","census","Apis mellifera","species","honeybees",234,326.25,290,17935,"census of 2 min, each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Actinidia_deliciosa_Portugal_2019","T","census","Bombus hortorum","species","bumblebees",1,326.25,290,17935,"census of 2 min, each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Actinidia_deliciosa_Portugal_2019","T","census","Bombus terrestris","species","bumblebees",13,326.25,290,17935,"census of 2 min, each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Actinidia_deliciosa_Portugal_2019","T","census","Cetonia aurata","species","beetles",2,326.25,290,17935,"census of 2 min, each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Actinidia_deliciosa_Portugal_2019","T","census","Chloromyia sp.","genus","other_flies",1,326.25,290,17935,"census of 2 min, each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Actinidia_deliciosa_Portugal_2019","T","census","Eristalinus taeniops","species","syrphids",1,326.25,290,17935,"census of 2 min, each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Actinidia_deliciosa_Portugal_2019","T","census","Eristalis tenax","species","syrphids",10,326.25,290,17935,"census of 2 min, each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Actinidia_deliciosa_Portugal_2019","T","census","Halictus sp.","genus","other_wild_bees",1,326.25,290,17935,"census of 2 min, each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Actinidia_deliciosa_Portugal_2019","T","census","Lasioglossum sp.","genus","other_wild_bees",2,326.25,290,17935,"census of 2 min, each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Actinidia_deliciosa_Portugal_2019","T","census","Melanostoma sp.","genus","syrphids",7,326.25,290,17935,"census of 2 min, each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Actinidia_deliciosa_Portugal_2019","T","census","Sphaerophoria scripta","species","syrphids",5,326.25,290,17935,"census of 2 min, each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Actinidia_deliciosa_Portugal_2019","T","census","Stomorhina lunata","species","other_flies",26,326.25,290,17935,"census of 2 min, each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Actinidia_deliciosa_Portugal_2019","T","census","Syrphus sp.","genus","syrphids",5,326.25,290,17935,"census of 2 min, each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Actinidia_deliciosa_Portugal_2019","T","census","Vespidae","family","non_bee_hymenoptera",1,326.25,290,17935,"census of 2 min, each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Actinidia_deliciosa_Portugal_2019","U","census","Apis mellifera","species","honeybees",318,362.25,322,11862,"census of 2 min, each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Actinidia_deliciosa_Portugal_2019","U","census","Bombus terrestris","species","bumblebees",9,362.25,322,11862,"census of 2 min, each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Actinidia_deliciosa_Portugal_2019","U","census","Eristalis tenax","species","syrphids",6,362.25,322,11862,"census of 2 min, each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Actinidia_deliciosa_Portugal_2019","U","census","Halictus sp.","genus","other_wild_bees",1,362.25,322,11862,"census of 2 min, each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Actinidia_deliciosa_Portugal_2019","U","census","Lasioglossum sp.","genus","other_wild_bees",4,362.25,322,11862,"census of 2 min, each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Actinidia_deliciosa_Portugal_2019","U","census","Melanostoma sp.","genus","syrphids",2,362.25,322,11862,"census of 2 min, each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Actinidia_deliciosa_Portugal_2019","U","census","Sphaerophoria scripta","species","syrphids",1,362.25,322,11862,"census of 2 min, each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Actinidia_deliciosa_Portugal_2019","U","census","Stomorhina lunata","species","other_flies",2,362.25,322,11862,"census of 2 min, each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Actinidia_deliciosa_Portugal_2019","V","census","Apis mellifera","species","honeybees",9,198,176,3325,"census of 2 min, each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Actinidia_deliciosa_Portugal_2019","V","census","Bombus terrestris","species","bumblebees",6,198,176,3325,"census of 2 min, each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Actinidia_deliciosa_Portugal_2019","V","census","Eristalis tenax","species","syrphids",3,198,176,3325,"census of 2 min, each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Actinidia_deliciosa_Portugal_2019","V","census","Eupeodes sp.","genus","syrphids",2,198,176,3325,"census of 2 min, each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Actinidia_deliciosa_Portugal_2019","V","census","Lasioglossum sp.","genus","other_wild_bees",1,198,176,3325,"census of 2 min, each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Actinidia_deliciosa_Portugal_2019","V","census","Oxythyrea funesta","species","beetles",1,198,176,3325,"census of 2 min, each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Actinidia_deliciosa_Portugal_2019","V","census","Sphaerophoria scripta","species","syrphids",12,198,176,3325,"census of 2 min, each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Actinidia_deliciosa_Portugal_2019","A1","pan-traps","Lasioglossum minutissimum","species","other_wild_bees",3,NA,4320,NA,"3 sets of 3 colour plates each (within set, plates displayed in triangle 3m appart), sets displayed in transect in the middle of the orchard at 5, 35 and 65m from the field margin. Only pollinator groups were considered for the pan-traps.",NA
"Silvia_Castro_Actinidia_deliciosa_Portugal_2019","A1","pan-traps","Bombus terrestris","species","bumblebees",1,NA,4320,NA,"3 sets of 3 colour plates each (within set, plates displayed in triangle 3m appart), sets displayed in transect in the middle of the orchard at 5, 35 and 65m from the field margin. Only pollinator groups were considered for the pan-traps.",NA
"Silvia_Castro_Actinidia_deliciosa_Portugal_2019","A1","pan-traps","Lasioglossum malachurum","species","other_wild_bees",1,NA,4320,NA,"3 sets of 3 colour plates each (within set, plates displayed in triangle 3m appart), sets displayed in transect in the middle of the orchard at 5, 35 and 65m from the field margin. Only pollinator groups were considered for the pan-traps.",NA
"Silvia_Castro_Actinidia_deliciosa_Portugal_2019","A1","pan-traps","Maniola jurtina","species","lepidoptera",1,NA,4320,NA,"3 sets of 3 colour plates each (within set, plates displayed in triangle 3m appart), sets displayed in transect in the middle of the orchard at 5, 35 and 65m from the field margin. Only pollinator groups were considered for the pan-traps.",NA
"Silvia_Castro_Actinidia_deliciosa_Portugal_2019","A1","pan-traps","Lasioglossum sp. 738","morphospecies","other_wild_bees",1,NA,4320,NA,"3 sets of 3 colour plates each (within set, plates displayed in triangle 3m appart), sets displayed in transect in the middle of the orchard at 5, 35 and 65m from the field margin. Only pollinator groups were considered for the pan-traps.",NA
"Silvia_Castro_Actinidia_deliciosa_Portugal_2019","C1","pan-traps","Andrena angustior","species","other_wild_bees",5,NA,4320,NA,"3 sets of 3 colour plates each (within set, plates displayed in triangle 3m appart), sets displayed in transect in the middle of the orchard at 5, 35 and 65m from the field margin. Only pollinator groups were considered for the pan-traps.",NA
"Silvia_Castro_Actinidia_deliciosa_Portugal_2019","C1","pan-traps","Lasioglossum minutissimum","species","other_wild_bees",38,NA,4320,NA,"3 sets of 3 colour plates each (within set, plates displayed in triangle 3m appart), sets displayed in transect in the middle of the orchard at 5, 35 and 65m from the field margin. Only pollinator groups were considered for the pan-traps.",NA
"Silvia_Castro_Actinidia_deliciosa_Portugal_2019","C1","pan-traps","Lasioglossum sp. 78","morphospecies","other_wild_bees",1,NA,4320,NA,"3 sets of 3 colour plates each (within set, plates displayed in triangle 3m appart), sets displayed in transect in the middle of the orchard at 5, 35 and 65m from the field margin. Only pollinator groups were considered for the pan-traps.",NA
"Silvia_Castro_Actinidia_deliciosa_Portugal_2019","C1","pan-traps","Andrena spreta","species","other_wild_bees",1,NA,4320,NA,"3 sets of 3 colour plates each (within set, plates displayed in triangle 3m appart), sets displayed in transect in the middle of the orchard at 5, 35 and 65m from the field margin. Only pollinator groups were considered for the pan-traps.",NA
"Silvia_Castro_Actinidia_deliciosa_Portugal_2019","C1","pan-traps","Stomorhina lunata","species","other_flies",4,NA,4320,NA,"3 sets of 3 colour plates each (within set, plates displayed in triangle 3m appart), sets displayed in transect in the middle of the orchard at 5, 35 and 65m from the field margin. Only pollinator groups were considered for the pan-traps.",NA
"Silvia_Castro_Actinidia_deliciosa_Portugal_2019","C1","pan-traps","Sphaerophoria scripta","species","syrphids",2,NA,4320,NA,"3 sets of 3 colour plates each (within set, plates displayed in triangle 3m appart), sets displayed in transect in the middle of the orchard at 5, 35 and 65m from the field margin. Only pollinator groups were considered for the pan-traps.",NA
"Silvia_Castro_Actinidia_deliciosa_Portugal_2019","C1","pan-traps","Pyropteron chrysidiforme","species","lepidoptera",1,NA,4320,NA,"3 sets of 3 colour plates each (within set, plates displayed in triangle 3m appart), sets displayed in transect in the middle of the orchard at 5, 35 and 65m from the field margin. Only pollinator groups were considered for the pan-traps.",NA
"Silvia_Castro_Actinidia_deliciosa_Portugal_2019","C1","pan-traps","Lasioglossum malachurum","species","other_wild_bees",4,NA,4320,NA,"3 sets of 3 colour plates each (within set, plates displayed in triangle 3m appart), sets displayed in transect in the middle of the orchard at 5, 35 and 65m from the field margin. Only pollinator groups were considered for the pan-traps.",NA
"Silvia_Castro_Actinidia_deliciosa_Portugal_2019","C1","pan-traps","Lycaena phlaeas","species","lepidoptera",1,NA,4320,NA,"3 sets of 3 colour plates each (within set, plates displayed in triangle 3m appart), sets displayed in transect in the middle of the orchard at 5, 35 and 65m from the field margin. Only pollinator groups were considered for the pan-traps.",NA
"Silvia_Castro_Actinidia_deliciosa_Portugal_2019","C1","pan-traps","Hylaeus confusus","species","other_wild_bees",1,NA,4320,NA,"3 sets of 3 colour plates each (within set, plates displayed in triangle 3m appart), sets displayed in transect in the middle of the orchard at 5, 35 and 65m from the field margin. Only pollinator groups were considered for the pan-traps.",NA
"Silvia_Castro_Actinidia_deliciosa_Portugal_2019","C1","pan-traps","Sphecodes longulus","species","other_wild_bees",1,NA,4320,NA,"3 sets of 3 colour plates each (within set, plates displayed in triangle 3m appart), sets displayed in transect in the middle of the orchard at 5, 35 and 65m from the field margin. Only pollinator groups were considered for the pan-traps.",NA
"Silvia_Castro_Actinidia_deliciosa_Portugal_2019","C2","pan-traps","Lasioglossum minutissimum","species","other_wild_bees",3,NA,4320,NA,"3 sets of 3 colour plates each (within set, plates displayed in triangle 3m appart), sets displayed in transect in the middle of the orchard at 5, 35 and 65m from the field margin. Only pollinator groups were considered for the pan-traps.",NA
"Silvia_Castro_Actinidia_deliciosa_Portugal_2019","C2","pan-traps","Lasioglossum transitorium","species","other_wild_bees",8,NA,4320,NA,"3 sets of 3 colour plates each (within set, plates displayed in triangle 3m appart), sets displayed in transect in the middle of the orchard at 5, 35 and 65m from the field margin. Only pollinator groups were considered for the pan-traps.",NA
"Silvia_Castro_Actinidia_deliciosa_Portugal_2019","C2","pan-traps","Lasioglossum interruptum","species","other_wild_bees",1,NA,4320,NA,"3 sets of 3 colour plates each (within set, plates displayed in triangle 3m appart), sets displayed in transect in the middle of the orchard at 5, 35 and 65m from the field margin. Only pollinator groups were considered for the pan-traps.",NA
"Silvia_Castro_Actinidia_deliciosa_Portugal_2019","C2","pan-traps","Andrena flavipes","species","other_wild_bees",1,NA,4320,NA,"3 sets of 3 colour plates each (within set, plates displayed in triangle 3m appart), sets displayed in transect in the middle of the orchard at 5, 35 and 65m from the field margin. Only pollinator groups were considered for the pan-traps.",NA
"Silvia_Castro_Actinidia_deliciosa_Portugal_2019","C2","pan-traps","Bombus pascuorum","species","bumblebees",1,NA,4320,NA,"3 sets of 3 colour plates each (within set, plates displayed in triangle 3m appart), sets displayed in transect in the middle of the orchard at 5, 35 and 65m from the field margin. Only pollinator groups were considered for the pan-traps.",NA
"Silvia_Castro_Actinidia_deliciosa_Portugal_2019","C2","pan-traps","Apis mellifera","species","honeybees",1,NA,4320,NA,"3 sets of 3 colour plates each (within set, plates displayed in triangle 3m appart), sets displayed in transect in the middle of the orchard at 5, 35 and 65m from the field margin. Only pollinator groups were considered for the pan-traps.",NA
"Silvia_Castro_Actinidia_deliciosa_Portugal_2019","C2","pan-traps","Bombus terrestris","species","bumblebees",1,NA,4320,NA,"3 sets of 3 colour plates each (within set, plates displayed in triangle 3m appart), sets displayed in transect in the middle of the orchard at 5, 35 and 65m from the field margin. Only pollinator groups were considered for the pan-traps.",NA
"Silvia_Castro_Actinidia_deliciosa_Portugal_2019","C2","pan-traps","Andrena thoracica","species","other_wild_bees",1,NA,4320,NA,"3 sets of 3 colour plates each (within set, plates displayed in triangle 3m appart), sets displayed in transect in the middle of the orchard at 5, 35 and 65m from the field margin. Only pollinator groups were considered for the pan-traps.",NA
"Silvia_Castro_Actinidia_deliciosa_Portugal_2019","C2","pan-traps","Stomorhina lunata","species","other_flies",26,NA,4320,NA,"3 sets of 3 colour plates each (within set, plates displayed in triangle 3m appart), sets displayed in transect in the middle of the orchard at 5, 35 and 65m from the field margin. Only pollinator groups were considered for the pan-traps.",NA
"Silvia_Castro_Actinidia_deliciosa_Portugal_2019","C2","pan-traps","Sphaerophoria scripta","species","syrphids",1,NA,4320,NA,"3 sets of 3 colour plates each (within set, plates displayed in triangle 3m appart), sets displayed in transect in the middle of the orchard at 5, 35 and 65m from the field margin. Only pollinator groups were considered for the pan-traps.",NA
"Silvia_Castro_Actinidia_deliciosa_Portugal_2019","C2","pan-traps","Bombus hortorum","species","bumblebees",3,NA,4320,NA,"3 sets of 3 colour plates each (within set, plates displayed in triangle 3m appart), sets displayed in transect in the middle of the orchard at 5, 35 and 65m from the field margin. Only pollinator groups were considered for the pan-traps.",NA
"Silvia_Castro_Actinidia_deliciosa_Portugal_2019","C2","pan-traps","Lasioglossum leucozonium","species","other_wild_bees",1,NA,4320,NA,"3 sets of 3 colour plates each (within set, plates displayed in triangle 3m appart), sets displayed in transect in the middle of the orchard at 5, 35 and 65m from the field margin. Only pollinator groups were considered for the pan-traps.",NA
"Silvia_Castro_Actinidia_deliciosa_Portugal_2019","C2","pan-traps","Lasioglossum malachurum","species","other_wild_bees",15,NA,4320,NA,"3 sets of 3 colour plates each (within set, plates displayed in triangle 3m appart), sets displayed in transect in the middle of the orchard at 5, 35 and 65m from the field margin. Only pollinator groups were considered for the pan-traps.",NA
"Silvia_Castro_Actinidia_deliciosa_Portugal_2019","C2","pan-traps","Nomada sp. 685","morphospecies","other_wild_bees",1,NA,4320,NA,"3 sets of 3 colour plates each (within set, plates displayed in triangle 3m appart), sets displayed in transect in the middle of the orchard at 5, 35 and 65m from the field margin. Only pollinator groups were considered for the pan-traps.",NA
"Silvia_Castro_Actinidia_deliciosa_Portugal_2019","C2","pan-traps","Andrena sp. 688","morphospecies","other_wild_bees",1,NA,4320,NA,"3 sets of 3 colour plates each (within set, plates displayed in triangle 3m appart), sets displayed in transect in the middle of the orchard at 5, 35 and 65m from the field margin. Only pollinator groups were considered for the pan-traps.",NA
"Silvia_Castro_Actinidia_deliciosa_Portugal_2019","D","pan-traps","Andrena angustior","species","other_wild_bees",3,NA,4320,NA,"3 sets of 3 colour plates each (within set, plates displayed in triangle 3m appart), sets displayed in transect in the middle of the orchard at 5, 35 and 65m from the field margin. Only pollinator groups were considered for the pan-traps.",NA
"Silvia_Castro_Actinidia_deliciosa_Portugal_2019","D","pan-traps","Lasioglossum minutissimum","species","other_wild_bees",21,NA,4320,NA,"3 sets of 3 colour plates each (within set, plates displayed in triangle 3m appart), sets displayed in transect in the middle of the orchard at 5, 35 and 65m from the field margin. Only pollinator groups were considered for the pan-traps.",NA
"Silvia_Castro_Actinidia_deliciosa_Portugal_2019","D","pan-traps","Lasioglossum transitorium","species","other_wild_bees",2,NA,4320,NA,"3 sets of 3 colour plates each (within set, plates displayed in triangle 3m appart), sets displayed in transect in the middle of the orchard at 5, 35 and 65m from the field margin. Only pollinator groups were considered for the pan-traps.",NA
"Silvia_Castro_Actinidia_deliciosa_Portugal_2019","D","pan-traps","Stomorhina lunata","species","other_flies",2,NA,4320,NA,"3 sets of 3 colour plates each (within set, plates displayed in triangle 3m appart), sets displayed in transect in the middle of the orchard at 5, 35 and 65m from the field margin. Only pollinator groups were considered for the pan-traps.",NA
"Silvia_Castro_Actinidia_deliciosa_Portugal_2019","D","pan-traps","Sphaerophoria scripta","species","syrphids",1,NA,4320,NA,"3 sets of 3 colour plates each (within set, plates displayed in triangle 3m appart), sets displayed in transect in the middle of the orchard at 5, 35 and 65m from the field margin. Only pollinator groups were considered for the pan-traps.",NA
"Silvia_Castro_Actinidia_deliciosa_Portugal_2019","D","pan-traps","Lasioglossum griseolum","species","other_wild_bees",1,NA,4320,NA,"3 sets of 3 colour plates each (within set, plates displayed in triangle 3m appart), sets displayed in transect in the middle of the orchard at 5, 35 and 65m from the field margin. Only pollinator groups were considered for the pan-traps.",NA
"Silvia_Castro_Actinidia_deliciosa_Portugal_2019","D","pan-traps","Halictus sp. 313","morphospecies","other_wild_bees",1,NA,4320,NA,"3 sets of 3 colour plates each (within set, plates displayed in triangle 3m appart), sets displayed in transect in the middle of the orchard at 5, 35 and 65m from the field margin. Only pollinator groups were considered for the pan-traps.",NA
"Silvia_Castro_Actinidia_deliciosa_Portugal_2019","D","pan-traps","Ceratina albosticta","species","other_wild_bees",1,NA,4320,NA,"3 sets of 3 colour plates each (within set, plates displayed in triangle 3m appart), sets displayed in transect in the middle of the orchard at 5, 35 and 65m from the field margin. Only pollinator groups were considered for the pan-traps.",NA
"Silvia_Castro_Actinidia_deliciosa_Portugal_2019","D","pan-traps","Nomada distinguenda","species","other_wild_bees",1,NA,4320,NA,"3 sets of 3 colour plates each (within set, plates displayed in triangle 3m appart), sets displayed in transect in the middle of the orchard at 5, 35 and 65m from the field margin. Only pollinator groups were considered for the pan-traps.",NA
"Silvia_Castro_Actinidia_deliciosa_Portugal_2019","D","pan-traps","Lasioglossum malachurum","species","other_wild_bees",3,NA,4320,NA,"3 sets of 3 colour plates each (within set, plates displayed in triangle 3m appart), sets displayed in transect in the middle of the orchard at 5, 35 and 65m from the field margin. Only pollinator groups were considered for the pan-traps.",NA
"Silvia_Castro_Actinidia_deliciosa_Portugal_2019","D","pan-traps","Halictus gemmeus","species","other_wild_bees",1,NA,4320,NA,"3 sets of 3 colour plates each (within set, plates displayed in triangle 3m appart), sets displayed in transect in the middle of the orchard at 5, 35 and 65m from the field margin. Only pollinator groups were considered for the pan-traps.",NA
"Silvia_Castro_Actinidia_deliciosa_Portugal_2019","D","pan-traps","Sphecodes longulus","species","other_wild_bees",2,NA,4320,NA,"3 sets of 3 colour plates each (within set, plates displayed in triangle 3m appart), sets displayed in transect in the middle of the orchard at 5, 35 and 65m from the field margin. Only pollinator groups were considered for the pan-traps.",NA
"Silvia_Castro_Actinidia_deliciosa_Portugal_2019","E","pan-traps","Lasioglossum minutissimum","species","other_wild_bees",7,NA,4320,NA,"3 sets of 3 colour plates each (within set, plates displayed in triangle 3m appart), sets displayed in transect in the middle of the orchard at 5, 35 and 65m from the field margin. Only pollinator groups were considered for the pan-traps.",NA
"Silvia_Castro_Actinidia_deliciosa_Portugal_2019","E","pan-traps","Lasioglossum transitorium","species","other_wild_bees",1,NA,4320,NA,"3 sets of 3 colour plates each (within set, plates displayed in triangle 3m appart), sets displayed in transect in the middle of the orchard at 5, 35 and 65m from the field margin. Only pollinator groups were considered for the pan-traps.",NA
"Silvia_Castro_Actinidia_deliciosa_Portugal_2019","E","pan-traps","Andrena rhenana","species","other_wild_bees",1,NA,4320,NA,"3 sets of 3 colour plates each (within set, plates displayed in triangle 3m appart), sets displayed in transect in the middle of the orchard at 5, 35 and 65m from the field margin. Only pollinator groups were considered for the pan-traps.",NA
"Silvia_Castro_Actinidia_deliciosa_Portugal_2019","E","pan-traps","Andrena flavipes","species","other_wild_bees",1,NA,4320,NA,"3 sets of 3 colour plates each (within set, plates displayed in triangle 3m appart), sets displayed in transect in the middle of the orchard at 5, 35 and 65m from the field margin. Only pollinator groups were considered for the pan-traps.",NA
"Silvia_Castro_Actinidia_deliciosa_Portugal_2019","E","pan-traps","Apis mellifera","species","honeybees",1,NA,4320,NA,"3 sets of 3 colour plates each (within set, plates displayed in triangle 3m appart), sets displayed in transect in the middle of the orchard at 5, 35 and 65m from the field margin. Only pollinator groups were considered for the pan-traps.",NA
"Silvia_Castro_Actinidia_deliciosa_Portugal_2019","E","pan-traps","Andrena spreta","species","other_wild_bees",3,NA,4320,NA,"3 sets of 3 colour plates each (within set, plates displayed in triangle 3m appart), sets displayed in transect in the middle of the orchard at 5, 35 and 65m from the field margin. Only pollinator groups were considered for the pan-traps.",NA
"Silvia_Castro_Actinidia_deliciosa_Portugal_2019","E","pan-traps","Bombus terrestris","species","bumblebees",2,NA,4320,NA,"3 sets of 3 colour plates each (within set, plates displayed in triangle 3m appart), sets displayed in transect in the middle of the orchard at 5, 35 and 65m from the field margin. Only pollinator groups were considered for the pan-traps.",NA
"Silvia_Castro_Actinidia_deliciosa_Portugal_2019","E","pan-traps","Parasyrphus punctulatus","species","syrphids",1,NA,4320,NA,"3 sets of 3 colour plates each (within set, plates displayed in triangle 3m appart), sets displayed in transect in the middle of the orchard at 5, 35 and 65m from the field margin. Only pollinator groups were considered for the pan-traps.",NA
"Silvia_Castro_Actinidia_deliciosa_Portugal_2019","E","pan-traps","Andrena thoracica","species","other_wild_bees",1,NA,4320,NA,"3 sets of 3 colour plates each (within set, plates displayed in triangle 3m appart), sets displayed in transect in the middle of the orchard at 5, 35 and 65m from the field margin. Only pollinator groups were considered for the pan-traps.",NA
"Silvia_Castro_Actinidia_deliciosa_Portugal_2019","E","pan-traps","Stomorhina lunata","species","other_flies",2,NA,4320,NA,"3 sets of 3 colour plates each (within set, plates displayed in triangle 3m appart), sets displayed in transect in the middle of the orchard at 5, 35 and 65m from the field margin. Only pollinator groups were considered for the pan-traps.",NA
"Silvia_Castro_Actinidia_deliciosa_Portugal_2019","E","pan-traps","Sphecodes ruficrus","species","other_wild_bees",1,NA,4320,NA,"3 sets of 3 colour plates each (within set, plates displayed in triangle 3m appart), sets displayed in transect in the middle of the orchard at 5, 35 and 65m from the field margin. Only pollinator groups were considered for the pan-traps.",NA
"Silvia_Castro_Actinidia_deliciosa_Portugal_2019","E","pan-traps","Sphaerophoria scripta","species","syrphids",1,NA,4320,NA,"3 sets of 3 colour plates each (within set, plates displayed in triangle 3m appart), sets displayed in transect in the middle of the orchard at 5, 35 and 65m from the field margin. Only pollinator groups were considered for the pan-traps.",NA
"Silvia_Castro_Actinidia_deliciosa_Portugal_2019","E","pan-traps","Halictus smaragdulus","species","other_wild_bees",1,NA,4320,NA,"3 sets of 3 colour plates each (within set, plates displayed in triangle 3m appart), sets displayed in transect in the middle of the orchard at 5, 35 and 65m from the field margin. Only pollinator groups were considered for the pan-traps.",NA
"Silvia_Castro_Actinidia_deliciosa_Portugal_2019","E","pan-traps","Andrena sp. 203","morphospecies","other_wild_bees",1,NA,4320,NA,"3 sets of 3 colour plates each (within set, plates displayed in triangle 3m appart), sets displayed in transect in the middle of the orchard at 5, 35 and 65m from the field margin. Only pollinator groups were considered for the pan-traps.",NA
"Silvia_Castro_Actinidia_deliciosa_Portugal_2019","E","pan-traps","Lasioglossum strictifrons","species","other_wild_bees",1,NA,4320,NA,"3 sets of 3 colour plates each (within set, plates displayed in triangle 3m appart), sets displayed in transect in the middle of the orchard at 5, 35 and 65m from the field margin. Only pollinator groups were considered for the pan-traps.",NA
"Silvia_Castro_Actinidia_deliciosa_Portugal_2019","E","pan-traps","Eupeodes corollae","species","syrphids",1,NA,4320,NA,"3 sets of 3 colour plates each (within set, plates displayed in triangle 3m appart), sets displayed in transect in the middle of the orchard at 5, 35 and 65m from the field margin. Only pollinator groups were considered for the pan-traps.",NA
"Silvia_Castro_Actinidia_deliciosa_Portugal_2019","E","pan-traps","Lasioglossum malachurum","species","other_wild_bees",4,NA,4320,NA,"3 sets of 3 colour plates each (within set, plates displayed in triangle 3m appart), sets displayed in transect in the middle of the orchard at 5, 35 and 65m from the field margin. Only pollinator groups were considered for the pan-traps.",NA
"Silvia_Castro_Actinidia_deliciosa_Portugal_2019","E","pan-traps","Lasioglossum albocinctum","species","other_wild_bees",1,NA,4320,NA,"3 sets of 3 colour plates each (within set, plates displayed in triangle 3m appart), sets displayed in transect in the middle of the orchard at 5, 35 and 65m from the field margin. Only pollinator groups were considered for the pan-traps.",NA
"Silvia_Castro_Actinidia_deliciosa_Portugal_2019","E","pan-traps","Osmia caerulescens","species","other_wild_bees",1,NA,4320,NA,"3 sets of 3 colour plates each (within set, plates displayed in triangle 3m appart), sets displayed in transect in the middle of the orchard at 5, 35 and 65m from the field margin. Only pollinator groups were considered for the pan-traps.",NA
"Silvia_Castro_Actinidia_deliciosa_Portugal_2019","E","pan-traps","Andrena nigroaenea","species","other_wild_bees",1,NA,4320,NA,"3 sets of 3 colour plates each (within set, plates displayed in triangle 3m appart), sets displayed in transect in the middle of the orchard at 5, 35 and 65m from the field margin. Only pollinator groups were considered for the pan-traps.",NA
"Silvia_Castro_Actinidia_deliciosa_Portugal_2019","E","pan-traps","Osmia ligurica","species","other_wild_bees",1,NA,4320,NA,"3 sets of 3 colour plates each (within set, plates displayed in triangle 3m appart), sets displayed in transect in the middle of the orchard at 5, 35 and 65m from the field margin. Only pollinator groups were considered for the pan-traps.",NA
"Silvia_Castro_Actinidia_deliciosa_Portugal_2019","F","pan-traps","Lasioglossum minutissimum","species","other_wild_bees",8,NA,4320,NA,"3 sets of 3 colour plates each (within set, plates displayed in triangle 3m appart), sets displayed in transect in the middle of the orchard at 5, 35 and 65m from the field margin. Only pollinator groups were considered for the pan-traps.",NA
"Silvia_Castro_Actinidia_deliciosa_Portugal_2019","F","pan-traps","Lasioglossum transitorium","species","other_wild_bees",1,NA,4320,NA,"3 sets of 3 colour plates each (within set, plates displayed in triangle 3m appart), sets displayed in transect in the middle of the orchard at 5, 35 and 65m from the field margin. Only pollinator groups were considered for the pan-traps.",NA
"Silvia_Castro_Actinidia_deliciosa_Portugal_2019","F","pan-traps","Stomorhina lunata","species","other_flies",1,NA,4320,NA,"3 sets of 3 colour plates each (within set, plates displayed in triangle 3m appart), sets displayed in transect in the middle of the orchard at 5, 35 and 65m from the field margin. Only pollinator groups were considered for the pan-traps.",NA
"Silvia_Castro_Actinidia_deliciosa_Portugal_2019","F","pan-traps","Lasioglossum strictifrons","species","other_wild_bees",1,NA,4320,NA,"3 sets of 3 colour plates each (within set, plates displayed in triangle 3m appart), sets displayed in transect in the middle of the orchard at 5, 35 and 65m from the field margin. Only pollinator groups were considered for the pan-traps.",NA
"Silvia_Castro_Actinidia_deliciosa_Portugal_2019","F","pan-traps","Lasioglossum malachurum","species","other_wild_bees",2,NA,4320,NA,"3 sets of 3 colour plates each (within set, plates displayed in triangle 3m appart), sets displayed in transect in the middle of the orchard at 5, 35 and 65m from the field margin. Only pollinator groups were considered for the pan-traps.",NA
"Silvia_Castro_Actinidia_deliciosa_Portugal_2019","F","pan-traps","Euphydryas aurinia","species","lepidoptera",2,NA,4320,NA,"3 sets of 3 colour plates each (within set, plates displayed in triangle 3m appart), sets displayed in transect in the middle of the orchard at 5, 35 and 65m from the field margin. Only pollinator groups were considered for the pan-traps.",NA
"Silvia_Castro_Actinidia_deliciosa_Portugal_2019","G","pan-traps","Lasioglossum minutissimum","species","other_wild_bees",4,NA,4320,NA,"3 sets of 3 colour plates each (within set, plates displayed in triangle 3m appart), sets displayed in transect in the middle of the orchard at 5, 35 and 65m from the field margin. Only pollinator groups were considered for the pan-traps.",NA
"Silvia_Castro_Actinidia_deliciosa_Portugal_2019","G","pan-traps","Lasioglossum transitorium","species","other_wild_bees",3,NA,4320,NA,"3 sets of 3 colour plates each (within set, plates displayed in triangle 3m appart), sets displayed in transect in the middle of the orchard at 5, 35 and 65m from the field margin. Only pollinator groups were considered for the pan-traps.",NA
"Silvia_Castro_Actinidia_deliciosa_Portugal_2019","G","pan-traps","Stomorhina lunata","species","other_flies",1,NA,4320,NA,"3 sets of 3 colour plates each (within set, plates displayed in triangle 3m appart), sets displayed in transect in the middle of the orchard at 5, 35 and 65m from the field margin. Only pollinator groups were considered for the pan-traps.",NA
"Silvia_Castro_Actinidia_deliciosa_Portugal_2019","G","pan-traps","Lasioglossum strictifrons","species","other_wild_bees",1,NA,4320,NA,"3 sets of 3 colour plates each (within set, plates displayed in triangle 3m appart), sets displayed in transect in the middle of the orchard at 5, 35 and 65m from the field margin. Only pollinator groups were considered for the pan-traps.",NA
"Silvia_Castro_Actinidia_deliciosa_Portugal_2019","G","pan-traps","Leptotes pirithous","species","lepidoptera",1,NA,4320,NA,"3 sets of 3 colour plates each (within set, plates displayed in triangle 3m appart), sets displayed in transect in the middle of the orchard at 5, 35 and 65m from the field margin. Only pollinator groups were considered for the pan-traps.",NA
"Silvia_Castro_Actinidia_deliciosa_Portugal_2019","G","pan-traps","Lasioglossum griseolum","species","other_wild_bees",1,NA,4320,NA,"3 sets of 3 colour plates each (within set, plates displayed in triangle 3m appart), sets displayed in transect in the middle of the orchard at 5, 35 and 65m from the field margin. Only pollinator groups were considered for the pan-traps.",NA
"Silvia_Castro_Actinidia_deliciosa_Portugal_2019","G","pan-traps","Lasioglossum malachurum","species","other_wild_bees",1,NA,4320,NA,"3 sets of 3 colour plates each (within set, plates displayed in triangle 3m appart), sets displayed in transect in the middle of the orchard at 5, 35 and 65m from the field margin. Only pollinator groups were considered for the pan-traps.",NA
"Silvia_Castro_Actinidia_deliciosa_Portugal_2019","G","pan-traps","Lasioglossum albocinctum","species","other_wild_bees",2,NA,4320,NA,"3 sets of 3 colour plates each (within set, plates displayed in triangle 3m appart), sets displayed in transect in the middle of the orchard at 5, 35 and 65m from the field margin. Only pollinator groups were considered for the pan-traps.",NA
"Silvia_Castro_Actinidia_deliciosa_Portugal_2019","H","pan-traps","Lasioglossum minutissimum","species","other_wild_bees",21,NA,4320,NA,"3 sets of 3 colour plates each (within set, plates displayed in triangle 3m appart), sets displayed in transect in the middle of the orchard at 5, 35 and 65m from the field margin. Only pollinator groups were considered for the pan-traps.",NA
"Silvia_Castro_Actinidia_deliciosa_Portugal_2019","H","pan-traps","Lasioglossum transitorium","species","other_wild_bees",9,NA,4320,NA,"3 sets of 3 colour plates each (within set, plates displayed in triangle 3m appart), sets displayed in transect in the middle of the orchard at 5, 35 and 65m from the field margin. Only pollinator groups were considered for the pan-traps.",NA
"Silvia_Castro_Actinidia_deliciosa_Portugal_2019","H","pan-traps","Lasioglossum interruptum","species","other_wild_bees",1,NA,4320,NA,"3 sets of 3 colour plates each (within set, plates displayed in triangle 3m appart), sets displayed in transect in the middle of the orchard at 5, 35 and 65m from the field margin. Only pollinator groups were considered for the pan-traps.",NA
"Silvia_Castro_Actinidia_deliciosa_Portugal_2019","H","pan-traps","Andrena flavipes","species","other_wild_bees",3,NA,4320,NA,"3 sets of 3 colour plates each (within set, plates displayed in triangle 3m appart), sets displayed in transect in the middle of the orchard at 5, 35 and 65m from the field margin. Only pollinator groups were considered for the pan-traps.",NA
"Silvia_Castro_Actinidia_deliciosa_Portugal_2019","H","pan-traps","Apis mellifera","species","honeybees",10,NA,4320,NA,"3 sets of 3 colour plates each (within set, plates displayed in triangle 3m appart), sets displayed in transect in the middle of the orchard at 5, 35 and 65m from the field margin. Only pollinator groups were considered for the pan-traps.",NA
"Silvia_Castro_Actinidia_deliciosa_Portugal_2019","H","pan-traps","Bombus terrestris","species","bumblebees",1,NA,4320,NA,"3 sets of 3 colour plates each (within set, plates displayed in triangle 3m appart), sets displayed in transect in the middle of the orchard at 5, 35 and 65m from the field margin. Only pollinator groups were considered for the pan-traps.",NA
"Silvia_Castro_Actinidia_deliciosa_Portugal_2019","H","pan-traps","Melanostoma scalare","species","syrphids",1,NA,4320,NA,"3 sets of 3 colour plates each (within set, plates displayed in triangle 3m appart), sets displayed in transect in the middle of the orchard at 5, 35 and 65m from the field margin. Only pollinator groups were considered for the pan-traps.",NA
"Silvia_Castro_Actinidia_deliciosa_Portugal_2019","H","pan-traps","Eristalis tenax","species","syrphids",1,NA,4320,NA,"3 sets of 3 colour plates each (within set, plates displayed in triangle 3m appart), sets displayed in transect in the middle of the orchard at 5, 35 and 65m from the field margin. Only pollinator groups were considered for the pan-traps.",NA
"Silvia_Castro_Actinidia_deliciosa_Portugal_2019","H","pan-traps","Andrena sp. 203","morphospecies","other_wild_bees",1,NA,4320,NA,"3 sets of 3 colour plates each (within set, plates displayed in triangle 3m appart), sets displayed in transect in the middle of the orchard at 5, 35 and 65m from the field margin. Only pollinator groups were considered for the pan-traps.",NA
"Silvia_Castro_Actinidia_deliciosa_Portugal_2019","H","pan-traps","Epistrophe grossulariae","species","syrphids",4,NA,4320,NA,"3 sets of 3 colour plates each (within set, plates displayed in triangle 3m appart), sets displayed in transect in the middle of the orchard at 5, 35 and 65m from the field margin. Only pollinator groups were considered for the pan-traps.",NA
"Silvia_Castro_Actinidia_deliciosa_Portugal_2019","H","pan-traps","Eupeodes corollae","species","syrphids",1,NA,4320,NA,"3 sets of 3 colour plates each (within set, plates displayed in triangle 3m appart), sets displayed in transect in the middle of the orchard at 5, 35 and 65m from the field margin. Only pollinator groups were considered for the pan-traps.",NA
"Silvia_Castro_Actinidia_deliciosa_Portugal_2019","H","pan-traps","Lasioglossum aeratum","species","other_wild_bees",2,NA,4320,NA,"3 sets of 3 colour plates each (within set, plates displayed in triangle 3m appart), sets displayed in transect in the middle of the orchard at 5, 35 and 65m from the field margin. Only pollinator groups were considered for the pan-traps.",NA
"Silvia_Castro_Actinidia_deliciosa_Portugal_2019","H","pan-traps","Heriades truncorum","species","other_wild_bees",1,NA,4320,NA,"3 sets of 3 colour plates each (within set, plates displayed in triangle 3m appart), sets displayed in transect in the middle of the orchard at 5, 35 and 65m from the field margin. Only pollinator groups were considered for the pan-traps.",NA
"Silvia_Castro_Actinidia_deliciosa_Portugal_2019","H","pan-traps","Lasioglossum malachurum","species","other_wild_bees",3,NA,4320,NA,"3 sets of 3 colour plates each (within set, plates displayed in triangle 3m appart), sets displayed in transect in the middle of the orchard at 5, 35 and 65m from the field margin. Only pollinator groups were considered for the pan-traps.",NA
"Silvia_Castro_Actinidia_deliciosa_Portugal_2019","H","pan-traps","Usia sp. 638","morphospecies","humbleflies",1,NA,4320,NA,"3 sets of 3 colour plates each (within set, plates displayed in triangle 3m appart), sets displayed in transect in the middle of the orchard at 5, 35 and 65m from the field margin. Only pollinator groups were considered for the pan-traps.",NA
"Silvia_Castro_Actinidia_deliciosa_Portugal_2019","H","pan-traps","Aglais io","species","lepidoptera",1,NA,4320,NA,"3 sets of 3 colour plates each (within set, plates displayed in triangle 3m appart), sets displayed in transect in the middle of the orchard at 5, 35 and 65m from the field margin. Only pollinator groups were considered for the pan-traps.",NA
"Silvia_Castro_Actinidia_deliciosa_Portugal_2019","I","pan-traps","Lasioglossum minutissimum","species","other_wild_bees",21,NA,4320,NA,"3 sets of 3 colour plates each (within set, plates displayed in triangle 3m appart), sets displayed in transect in the middle of the orchard at 5, 35 and 65m from the field margin. Only pollinator groups were considered for the pan-traps.",NA
"Silvia_Castro_Actinidia_deliciosa_Portugal_2019","I","pan-traps","Lasioglossum transitorium","species","other_wild_bees",3,NA,4320,NA,"3 sets of 3 colour plates each (within set, plates displayed in triangle 3m appart), sets displayed in transect in the middle of the orchard at 5, 35 and 65m from the field margin. Only pollinator groups were considered for the pan-traps.",NA
"Silvia_Castro_Actinidia_deliciosa_Portugal_2019","I","pan-traps","Lasioglossum sp. 78","morphospecies","other_wild_bees",3,NA,4320,NA,"3 sets of 3 colour plates each (within set, plates displayed in triangle 3m appart), sets displayed in transect in the middle of the orchard at 5, 35 and 65m from the field margin. Only pollinator groups were considered for the pan-traps.",NA
"Silvia_Castro_Actinidia_deliciosa_Portugal_2019","I","pan-traps","Eristalis tenax","species","syrphids",2,NA,4320,NA,"3 sets of 3 colour plates each (within set, plates displayed in triangle 3m appart), sets displayed in transect in the middle of the orchard at 5, 35 and 65m from the field margin. Only pollinator groups were considered for the pan-traps.",NA
"Silvia_Castro_Actinidia_deliciosa_Portugal_2019","I","pan-traps","Stomorhina lunata","species","other_flies",18,NA,4320,NA,"3 sets of 3 colour plates each (within set, plates displayed in triangle 3m appart), sets displayed in transect in the middle of the orchard at 5, 35 and 65m from the field margin. Only pollinator groups were considered for the pan-traps.",NA
"Silvia_Castro_Actinidia_deliciosa_Portugal_2019","I","pan-traps","Sphaerophoria scripta","species","syrphids",2,NA,4320,NA,"3 sets of 3 colour plates each (within set, plates displayed in triangle 3m appart), sets displayed in transect in the middle of the orchard at 5, 35 and 65m from the field margin. Only pollinator groups were considered for the pan-traps.",NA
"Silvia_Castro_Actinidia_deliciosa_Portugal_2019","I","pan-traps","Andrena sp. 203","morphospecies","other_wild_bees",1,NA,4320,NA,"3 sets of 3 colour plates each (within set, plates displayed in triangle 3m appart), sets displayed in transect in the middle of the orchard at 5, 35 and 65m from the field margin. Only pollinator groups were considered for the pan-traps.",NA
"Silvia_Castro_Actinidia_deliciosa_Portugal_2019","I","pan-traps","Lasioglossum malachurum","species","other_wild_bees",1,NA,4320,NA,"3 sets of 3 colour plates each (within set, plates displayed in triangle 3m appart), sets displayed in transect in the middle of the orchard at 5, 35 and 65m from the field margin. Only pollinator groups were considered for the pan-traps.",NA
"Silvia_Castro_Actinidia_deliciosa_Portugal_2019","I","pan-traps","Nomada sp. 634","morphospecies","other_wild_bees",1,NA,4320,NA,"3 sets of 3 colour plates each (within set, plates displayed in triangle 3m appart), sets displayed in transect in the middle of the orchard at 5, 35 and 65m from the field margin. Only pollinator groups were considered for the pan-traps.",NA
"Silvia_Castro_Actinidia_deliciosa_Portugal_2019","K","pan-traps","Andrena angustior","species","other_wild_bees",3,NA,4320,NA,"3 sets of 3 colour plates each (within set, plates displayed in triangle 3m appart), sets displayed in transect in the middle of the orchard at 5, 35 and 65m from the field margin. Only pollinator groups were considered for the pan-traps.",NA
"Silvia_Castro_Actinidia_deliciosa_Portugal_2019","K","pan-traps","Lasioglossum minutissimum","species","other_wild_bees",17,NA,4320,NA,"3 sets of 3 colour plates each (within set, plates displayed in triangle 3m appart), sets displayed in transect in the middle of the orchard at 5, 35 and 65m from the field margin. Only pollinator groups were considered for the pan-traps.",NA
"Silvia_Castro_Actinidia_deliciosa_Portugal_2019","K","pan-traps","Lasioglossum transitorium","species","other_wild_bees",8,NA,4320,NA,"3 sets of 3 colour plates each (within set, plates displayed in triangle 3m appart), sets displayed in transect in the middle of the orchard at 5, 35 and 65m from the field margin. Only pollinator groups were considered for the pan-traps.",NA
"Silvia_Castro_Actinidia_deliciosa_Portugal_2019","K","pan-traps","Andrena flavipes","species","other_wild_bees",2,NA,4320,NA,"3 sets of 3 colour plates each (within set, plates displayed in triangle 3m appart), sets displayed in transect in the middle of the orchard at 5, 35 and 65m from the field margin. Only pollinator groups were considered for the pan-traps.",NA
"Silvia_Castro_Actinidia_deliciosa_Portugal_2019","K","pan-traps","Hoplitis sp. 125","morphospecies","other_wild_bees",1,NA,4320,NA,"3 sets of 3 colour plates each (within set, plates displayed in triangle 3m appart), sets displayed in transect in the middle of the orchard at 5, 35 and 65m from the field margin. Only pollinator groups were considered for the pan-traps.",NA
"Silvia_Castro_Actinidia_deliciosa_Portugal_2019","K","pan-traps","Cheilosia sp.","genus","syrphids",1,NA,4320,NA,"3 sets of 3 colour plates each (within set, plates displayed in triangle 3m appart), sets displayed in transect in the middle of the orchard at 5, 35 and 65m from the field margin. Only pollinator groups were considered for the pan-traps.",NA
"Silvia_Castro_Actinidia_deliciosa_Portugal_2019","K","pan-traps","Stomorhina lunata","species","other_flies",2,NA,4320,NA,"3 sets of 3 colour plates each (within set, plates displayed in triangle 3m appart), sets displayed in transect in the middle of the orchard at 5, 35 and 65m from the field margin. Only pollinator groups were considered for the pan-traps.",NA
"Silvia_Castro_Actinidia_deliciosa_Portugal_2019","K","pan-traps","Halictus scabiosae","species","other_wild_bees",1,NA,4320,NA,"3 sets of 3 colour plates each (within set, plates displayed in triangle 3m appart), sets displayed in transect in the middle of the orchard at 5, 35 and 65m from the field margin. Only pollinator groups were considered for the pan-traps.",NA
"Silvia_Castro_Actinidia_deliciosa_Portugal_2019","K","pan-traps","Usia sp. 638","morphospecies","humbleflies",3,NA,4320,NA,"3 sets of 3 colour plates each (within set, plates displayed in triangle 3m appart), sets displayed in transect in the middle of the orchard at 5, 35 and 65m from the field margin. Only pollinator groups were considered for the pan-traps.",NA
"Silvia_Castro_Actinidia_deliciosa_Portugal_2019","L","pan-traps","Lasioglossum minutissimum","species","other_wild_bees",7,NA,4320,NA,"3 sets of 3 colour plates each (within set, plates displayed in triangle 3m appart), sets displayed in transect in the middle of the orchard at 5, 35 and 65m from the field margin. Only pollinator groups were considered for the pan-traps.",NA
"Silvia_Castro_Actinidia_deliciosa_Portugal_2019","L","pan-traps","Lasioglossum transitorium","species","other_wild_bees",6,NA,4320,NA,"3 sets of 3 colour plates each (within set, plates displayed in triangle 3m appart), sets displayed in transect in the middle of the orchard at 5, 35 and 65m from the field margin. Only pollinator groups were considered for the pan-traps.",NA
"Silvia_Castro_Actinidia_deliciosa_Portugal_2019","L","pan-traps","Lasioglossum sp. 24","morphospecies","other_wild_bees",2,NA,4320,NA,"3 sets of 3 colour plates each (within set, plates displayed in triangle 3m appart), sets displayed in transect in the middle of the orchard at 5, 35 and 65m from the field margin. Only pollinator groups were considered for the pan-traps.",NA
"Silvia_Castro_Actinidia_deliciosa_Portugal_2019","L","pan-traps","Andrena flavipes","species","other_wild_bees",1,NA,4320,NA,"3 sets of 3 colour plates each (within set, plates displayed in triangle 3m appart), sets displayed in transect in the middle of the orchard at 5, 35 and 65m from the field margin. Only pollinator groups were considered for the pan-traps.",NA
"Silvia_Castro_Actinidia_deliciosa_Portugal_2019","L","pan-traps","Halictus sp. 278","morphospecies","other_wild_bees",5,NA,4320,NA,"3 sets of 3 colour plates each (within set, plates displayed in triangle 3m appart), sets displayed in transect in the middle of the orchard at 5, 35 and 65m from the field margin. Only pollinator groups were considered for the pan-traps.",NA
"Silvia_Castro_Actinidia_deliciosa_Portugal_2019","L","pan-traps","Lasioglossum leucozonium","species","other_wild_bees",3,NA,4320,NA,"3 sets of 3 colour plates each (within set, plates displayed in triangle 3m appart), sets displayed in transect in the middle of the orchard at 5, 35 and 65m from the field margin. Only pollinator groups were considered for the pan-traps.",NA
"Silvia_Castro_Actinidia_deliciosa_Portugal_2019","L","pan-traps","Lasioglossum malachurum","species","other_wild_bees",8,NA,4320,NA,"3 sets of 3 colour plates each (within set, plates displayed in triangle 3m appart), sets displayed in transect in the middle of the orchard at 5, 35 and 65m from the field margin. Only pollinator groups were considered for the pan-traps.",NA
"Silvia_Castro_Actinidia_deliciosa_Portugal_2019","L","pan-traps","Lasioglossum zonulum","species","other_wild_bees",1,NA,4320,NA,"3 sets of 3 colour plates each (within set, plates displayed in triangle 3m appart), sets displayed in transect in the middle of the orchard at 5, 35 and 65m from the field margin. Only pollinator groups were considered for the pan-traps.",NA
"Silvia_Castro_Actinidia_deliciosa_Portugal_2019","L","pan-traps","Andrena sp. 778","morphospecies","other_wild_bees",1,NA,4320,NA,"3 sets of 3 colour plates each (within set, plates displayed in triangle 3m appart), sets displayed in transect in the middle of the orchard at 5, 35 and 65m from the field margin. Only pollinator groups were considered for the pan-traps.",NA
"Silvia_Castro_Actinidia_deliciosa_Portugal_2019","N","pan-traps","Andrena angustior","species","other_wild_bees",1,NA,4320,NA,"3 sets of 3 colour plates each (within set, plates displayed in triangle 3m appart), sets displayed in transect in the middle of the orchard at 5, 35 and 65m from the field margin. Only pollinator groups were considered for the pan-traps.",NA
"Silvia_Castro_Actinidia_deliciosa_Portugal_2019","N","pan-traps","Lasioglossum minutissimum","species","other_wild_bees",29,NA,4320,NA,"3 sets of 3 colour plates each (within set, plates displayed in triangle 3m appart), sets displayed in transect in the middle of the orchard at 5, 35 and 65m from the field margin. Only pollinator groups were considered for the pan-traps.",NA
"Silvia_Castro_Actinidia_deliciosa_Portugal_2019","N","pan-traps","Lasioglossum villosulum","species","other_wild_bees",1,NA,4320,NA,"3 sets of 3 colour plates each (within set, plates displayed in triangle 3m appart), sets displayed in transect in the middle of the orchard at 5, 35 and 65m from the field margin. Only pollinator groups were considered for the pan-traps.",NA
"Silvia_Castro_Actinidia_deliciosa_Portugal_2019","N","pan-traps","Stomorhina lunata","species","other_flies",3,NA,4320,NA,"3 sets of 3 colour plates each (within set, plates displayed in triangle 3m appart), sets displayed in transect in the middle of the orchard at 5, 35 and 65m from the field margin. Only pollinator groups were considered for the pan-traps.",NA
"Silvia_Castro_Actinidia_deliciosa_Portugal_2019","O","pan-traps","Lasioglossum minutissimum","species","other_wild_bees",9,NA,4320,NA,"3 sets of 3 colour plates each (within set, plates displayed in triangle 3m appart), sets displayed in transect in the middle of the orchard at 5, 35 and 65m from the field margin. Only pollinator groups were considered for the pan-traps.",NA
"Silvia_Castro_Actinidia_deliciosa_Portugal_2019","O","pan-traps","Lasioglossum interruptum","species","other_wild_bees",1,NA,4320,NA,"3 sets of 3 colour plates each (within set, plates displayed in triangle 3m appart), sets displayed in transect in the middle of the orchard at 5, 35 and 65m from the field margin. Only pollinator groups were considered for the pan-traps.",NA
"Silvia_Castro_Actinidia_deliciosa_Portugal_2019","O","pan-traps","Lasioglossum villosulum","species","other_wild_bees",1,NA,4320,NA,"3 sets of 3 colour plates each (within set, plates displayed in triangle 3m appart), sets displayed in transect in the middle of the orchard at 5, 35 and 65m from the field margin. Only pollinator groups were considered for the pan-traps.",NA
"Silvia_Castro_Actinidia_deliciosa_Portugal_2019","O","pan-traps","Bombus terrestris","species","bumblebees",1,NA,4320,NA,"3 sets of 3 colour plates each (within set, plates displayed in triangle 3m appart), sets displayed in transect in the middle of the orchard at 5, 35 and 65m from the field margin. Only pollinator groups were considered for the pan-traps.",NA
"Silvia_Castro_Actinidia_deliciosa_Portugal_2019","O","pan-traps","Andrena sp. 109","morphospecies","other_wild_bees",1,NA,4320,NA,"3 sets of 3 colour plates each (within set, plates displayed in triangle 3m appart), sets displayed in transect in the middle of the orchard at 5, 35 and 65m from the field margin. Only pollinator groups were considered for the pan-traps.",NA
"Silvia_Castro_Actinidia_deliciosa_Portugal_2019","O","pan-traps","Hoplitis sp. 125","morphospecies","other_wild_bees",1,NA,4320,NA,"3 sets of 3 colour plates each (within set, plates displayed in triangle 3m appart), sets displayed in transect in the middle of the orchard at 5, 35 and 65m from the field margin. Only pollinator groups were considered for the pan-traps.",NA
"Silvia_Castro_Actinidia_deliciosa_Portugal_2019","O","pan-traps","Stomorhina lunata","species","other_flies",5,NA,4320,NA,"3 sets of 3 colour plates each (within set, plates displayed in triangle 3m appart), sets displayed in transect in the middle of the orchard at 5, 35 and 65m from the field margin. Only pollinator groups were considered for the pan-traps.",NA
"Silvia_Castro_Actinidia_deliciosa_Portugal_2019","O","pan-traps","Lasioglossum sp. 444","morphospecies","other_wild_bees",2,NA,4320,NA,"3 sets of 3 colour plates each (within set, plates displayed in triangle 3m appart), sets displayed in transect in the middle of the orchard at 5, 35 and 65m from the field margin. Only pollinator groups were considered for the pan-traps.",NA
"Silvia_Castro_Actinidia_deliciosa_Portugal_2019","P","pan-traps","Lasioglossum minutissimum","species","other_wild_bees",6,NA,4320,NA,"3 sets of 3 colour plates each (within set, plates displayed in triangle 3m appart), sets displayed in transect in the middle of the orchard at 5, 35 and 65m from the field margin. Only pollinator groups were considered for the pan-traps.",NA
"Silvia_Castro_Actinidia_deliciosa_Portugal_2019","P","pan-traps","Lasioglossum transitorium","species","other_wild_bees",6,NA,4320,NA,"3 sets of 3 colour plates each (within set, plates displayed in triangle 3m appart), sets displayed in transect in the middle of the orchard at 5, 35 and 65m from the field margin. Only pollinator groups were considered for the pan-traps.",NA
"Silvia_Castro_Actinidia_deliciosa_Portugal_2019","P","pan-traps","Andrena flavipes","species","other_wild_bees",1,NA,4320,NA,"3 sets of 3 colour plates each (within set, plates displayed in triangle 3m appart), sets displayed in transect in the middle of the orchard at 5, 35 and 65m from the field margin. Only pollinator groups were considered for the pan-traps.",NA
"Silvia_Castro_Actinidia_deliciosa_Portugal_2019","P","pan-traps","Stomorhina lunata","species","other_flies",2,NA,4320,NA,"3 sets of 3 colour plates each (within set, plates displayed in triangle 3m appart), sets displayed in transect in the middle of the orchard at 5, 35 and 65m from the field margin. Only pollinator groups were considered for the pan-traps.",NA
"Silvia_Castro_Actinidia_deliciosa_Portugal_2019","P","pan-traps","Lasioglossum malachurum","species","other_wild_bees",1,NA,4320,NA,"3 sets of 3 colour plates each (within set, plates displayed in triangle 3m appart), sets displayed in transect in the middle of the orchard at 5, 35 and 65m from the field margin. Only pollinator groups were considered for the pan-traps.",NA
"Silvia_Castro_Actinidia_deliciosa_Portugal_2019","P","pan-traps","Usia sp. 638","morphospecies","humbleflies",6,NA,4320,NA,"3 sets of 3 colour plates each (within set, plates displayed in triangle 3m appart), sets displayed in transect in the middle of the orchard at 5, 35 and 65m from the field margin. Only pollinator groups were considered for the pan-traps.",NA
"Silvia_Castro_Actinidia_deliciosa_Portugal_2019","P","pan-traps","Polyommatus icarus","species","lepidoptera",1,NA,4320,NA,"3 sets of 3 colour plates each (within set, plates displayed in triangle 3m appart), sets displayed in transect in the middle of the orchard at 5, 35 and 65m from the field margin. Only pollinator groups were considered for the pan-traps.",NA
"Silvia_Castro_Actinidia_deliciosa_Portugal_2019","Q","pan-traps","Andrena angustior","species","other_wild_bees",1,NA,4320,NA,"3 sets of 3 colour plates each (within set, plates displayed in triangle 3m appart), sets displayed in transect in the middle of the orchard at 5, 35 and 65m from the field margin. Only pollinator groups were considered for the pan-traps.",NA
"Silvia_Castro_Actinidia_deliciosa_Portugal_2019","Q","pan-traps","Lasioglossum minutissimum","species","other_wild_bees",4,NA,4320,NA,"3 sets of 3 colour plates each (within set, plates displayed in triangle 3m appart), sets displayed in transect in the middle of the orchard at 5, 35 and 65m from the field margin. Only pollinator groups were considered for the pan-traps.",NA
"Silvia_Castro_Actinidia_deliciosa_Portugal_2019","Q","pan-traps","Lasioglossum transitorium","species","other_wild_bees",3,NA,4320,NA,"3 sets of 3 colour plates each (within set, plates displayed in triangle 3m appart), sets displayed in transect in the middle of the orchard at 5, 35 and 65m from the field margin. Only pollinator groups were considered for the pan-traps.",NA
"Silvia_Castro_Actinidia_deliciosa_Portugal_2019","Q","pan-traps","Stomorhina lunata","species","other_flies",1,NA,4320,NA,"3 sets of 3 colour plates each (within set, plates displayed in triangle 3m appart), sets displayed in transect in the middle of the orchard at 5, 35 and 65m from the field margin. Only pollinator groups were considered for the pan-traps.",NA
"Silvia_Castro_Actinidia_deliciosa_Portugal_2019","Q","pan-traps","Sphaerophoria scripta","species","syrphids",3,NA,4320,NA,"3 sets of 3 colour plates each (within set, plates displayed in triangle 3m appart), sets displayed in transect in the middle of the orchard at 5, 35 and 65m from the field margin. Only pollinator groups were considered for the pan-traps.",NA
"Silvia_Castro_Actinidia_deliciosa_Portugal_2019","Q","pan-traps","Lasioglossum malachurum","species","other_wild_bees",1,NA,4320,NA,"3 sets of 3 colour plates each (within set, plates displayed in triangle 3m appart), sets displayed in transect in the middle of the orchard at 5, 35 and 65m from the field margin. Only pollinator groups were considered for the pan-traps.",NA
"Silvia_Castro_Actinidia_deliciosa_Portugal_2019","Q","pan-traps","Lasioglossum sp. 680","morphospecies","other_wild_bees",2,NA,4320,NA,"3 sets of 3 colour plates each (within set, plates displayed in triangle 3m appart), sets displayed in transect in the middle of the orchard at 5, 35 and 65m from the field margin. Only pollinator groups were considered for the pan-traps.",NA
"Silvia_Castro_Actinidia_deliciosa_Portugal_2019","R","pan-traps","Lasioglossum minutissimum","species","other_wild_bees",11,NA,4320,NA,"3 sets of 3 colour plates each (within set, plates displayed in triangle 3m appart), sets displayed in transect in the middle of the orchard at 5, 35 and 65m from the field margin. Only pollinator groups were considered for the pan-traps.",NA
"Silvia_Castro_Actinidia_deliciosa_Portugal_2019","R","pan-traps","Lasioglossum transitorium","species","other_wild_bees",13,NA,4320,NA,"3 sets of 3 colour plates each (within set, plates displayed in triangle 3m appart), sets displayed in transect in the middle of the orchard at 5, 35 and 65m from the field margin. Only pollinator groups were considered for the pan-traps.",NA
"Silvia_Castro_Actinidia_deliciosa_Portugal_2019","R","pan-traps","Andrena rhenana","species","other_wild_bees",1,NA,4320,NA,"3 sets of 3 colour plates each (within set, plates displayed in triangle 3m appart), sets displayed in transect in the middle of the orchard at 5, 35 and 65m from the field margin. Only pollinator groups were considered for the pan-traps.",NA
"Silvia_Castro_Actinidia_deliciosa_Portugal_2019","R","pan-traps","Melanostoma scalare","species","syrphids",1,NA,4320,NA,"3 sets of 3 colour plates each (within set, plates displayed in triangle 3m appart), sets displayed in transect in the middle of the orchard at 5, 35 and 65m from the field margin. Only pollinator groups were considered for the pan-traps.",NA
"Silvia_Castro_Actinidia_deliciosa_Portugal_2019","R","pan-traps","Issoria lathonia","species","lepidoptera",1,NA,4320,NA,"3 sets of 3 colour plates each (within set, plates displayed in triangle 3m appart), sets displayed in transect in the middle of the orchard at 5, 35 and 65m from the field margin. Only pollinator groups were considered for the pan-traps.",NA
"Silvia_Castro_Actinidia_deliciosa_Portugal_2019","R","pan-traps","Stomorhina lunata","species","other_flies",1,NA,4320,NA,"3 sets of 3 colour plates each (within set, plates displayed in triangle 3m appart), sets displayed in transect in the middle of the orchard at 5, 35 and 65m from the field margin. Only pollinator groups were considered for the pan-traps.",NA
"Silvia_Castro_Actinidia_deliciosa_Portugal_2019","R","pan-traps","Andrena sp. 203","morphospecies","other_wild_bees",3,NA,4320,NA,"3 sets of 3 colour plates each (within set, plates displayed in triangle 3m appart), sets displayed in transect in the middle of the orchard at 5, 35 and 65m from the field margin. Only pollinator groups were considered for the pan-traps.",NA
"Silvia_Castro_Actinidia_deliciosa_Portugal_2019","R","pan-traps","Eupeodes corollae","species","syrphids",2,NA,4320,NA,"3 sets of 3 colour plates each (within set, plates displayed in triangle 3m appart), sets displayed in transect in the middle of the orchard at 5, 35 and 65m from the field margin. Only pollinator groups were considered for the pan-traps.",NA
"Silvia_Castro_Actinidia_deliciosa_Portugal_2019","R","pan-traps","Hoplitis cadiza","species","other_wild_bees",3,NA,4320,NA,"3 sets of 3 colour plates each (within set, plates displayed in triangle 3m appart), sets displayed in transect in the middle of the orchard at 5, 35 and 65m from the field margin. Only pollinator groups were considered for the pan-traps.",NA
"Silvia_Castro_Actinidia_deliciosa_Portugal_2019","R","pan-traps","Hoplitis sp. 558","morphospecies","other_wild_bees",1,NA,4320,NA,"3 sets of 3 colour plates each (within set, plates displayed in triangle 3m appart), sets displayed in transect in the middle of the orchard at 5, 35 and 65m from the field margin. Only pollinator groups were considered for the pan-traps.",NA
"Silvia_Castro_Actinidia_deliciosa_Portugal_2019","R","pan-traps","Lasioglossum malachurum","species","other_wild_bees",3,NA,4320,NA,"3 sets of 3 colour plates each (within set, plates displayed in triangle 3m appart), sets displayed in transect in the middle of the orchard at 5, 35 and 65m from the field margin. Only pollinator groups were considered for the pan-traps.",NA
"Silvia_Castro_Actinidia_deliciosa_Portugal_2019","S","pan-traps","Lasioglossum minutissimum","species","other_wild_bees",2,NA,4320,NA,"3 sets of 3 colour plates each (within set, plates displayed in triangle 3m appart), sets displayed in transect in the middle of the orchard at 5, 35 and 65m from the field margin. Only pollinator groups were considered for the pan-traps.",NA
"Silvia_Castro_Actinidia_deliciosa_Portugal_2019","S","pan-traps","Lasioglossum transitorium","species","other_wild_bees",5,NA,4320,NA,"3 sets of 3 colour plates each (within set, plates displayed in triangle 3m appart), sets displayed in transect in the middle of the orchard at 5, 35 and 65m from the field margin. Only pollinator groups were considered for the pan-traps.",NA
"Silvia_Castro_Actinidia_deliciosa_Portugal_2019","S","pan-traps","Lasioglossum sp. 78","morphospecies","other_wild_bees",2,NA,4320,NA,"3 sets of 3 colour plates each (within set, plates displayed in triangle 3m appart), sets displayed in transect in the middle of the orchard at 5, 35 and 65m from the field margin. Only pollinator groups were considered for the pan-traps.",NA
"Silvia_Castro_Actinidia_deliciosa_Portugal_2019","S","pan-traps","Apis mellifera","species","honeybees",3,NA,4320,NA,"3 sets of 3 colour plates each (within set, plates displayed in triangle 3m appart), sets displayed in transect in the middle of the orchard at 5, 35 and 65m from the field margin. Only pollinator groups were considered for the pan-traps.",NA
"Silvia_Castro_Actinidia_deliciosa_Portugal_2019","S","pan-traps","Melanostoma scalare","species","syrphids",4,NA,4320,NA,"3 sets of 3 colour plates each (within set, plates displayed in triangle 3m appart), sets displayed in transect in the middle of the orchard at 5, 35 and 65m from the field margin. Only pollinator groups were considered for the pan-traps.",NA
"Silvia_Castro_Actinidia_deliciosa_Portugal_2019","S","pan-traps","Stomorhina lunata","species","other_flies",24,NA,4320,NA,"3 sets of 3 colour plates each (within set, plates displayed in triangle 3m appart), sets displayed in transect in the middle of the orchard at 5, 35 and 65m from the field margin. Only pollinator groups were considered for the pan-traps.",NA
"Silvia_Castro_Actinidia_deliciosa_Portugal_2019","S","pan-traps","Sphaerophoria scripta","species","syrphids",4,NA,4320,NA,"3 sets of 3 colour plates each (within set, plates displayed in triangle 3m appart), sets displayed in transect in the middle of the orchard at 5, 35 and 65m from the field margin. Only pollinator groups were considered for the pan-traps.",NA
"Silvia_Castro_Actinidia_deliciosa_Portugal_2019","S","pan-traps","Halictus smaragdulus","species","other_wild_bees",1,NA,4320,NA,"3 sets of 3 colour plates each (within set, plates displayed in triangle 3m appart), sets displayed in transect in the middle of the orchard at 5, 35 and 65m from the field margin. Only pollinator groups were considered for the pan-traps.",NA
"Silvia_Castro_Actinidia_deliciosa_Portugal_2019","S","pan-traps","Andrena sp. 203","morphospecies","other_wild_bees",1,NA,4320,NA,"3 sets of 3 colour plates each (within set, plates displayed in triangle 3m appart), sets displayed in transect in the middle of the orchard at 5, 35 and 65m from the field margin. Only pollinator groups were considered for the pan-traps.",NA
"Silvia_Castro_Actinidia_deliciosa_Portugal_2019","S","pan-traps","Lasioglossum leucozonium","species","other_wild_bees",4,NA,4320,NA,"3 sets of 3 colour plates each (within set, plates displayed in triangle 3m appart), sets displayed in transect in the middle of the orchard at 5, 35 and 65m from the field margin. Only pollinator groups were considered for the pan-traps.",NA
"Silvia_Castro_Actinidia_deliciosa_Portugal_2019","S","pan-traps","Lasioglossum malachurum","species","other_wild_bees",6,NA,4320,NA,"3 sets of 3 colour plates each (within set, plates displayed in triangle 3m appart), sets displayed in transect in the middle of the orchard at 5, 35 and 65m from the field margin. Only pollinator groups were considered for the pan-traps.",NA
"Silvia_Castro_Actinidia_deliciosa_Portugal_2019","S","pan-traps","Lasioglossum zonulum","species","other_wild_bees",2,NA,4320,NA,"3 sets of 3 colour plates each (within set, plates displayed in triangle 3m appart), sets displayed in transect in the middle of the orchard at 5, 35 and 65m from the field margin. Only pollinator groups were considered for the pan-traps.",NA
"Silvia_Castro_Actinidia_deliciosa_Portugal_2019","S","pan-traps","Sphecodes longulus","species","other_wild_bees",1,NA,4320,NA,"3 sets of 3 colour plates each (within set, plates displayed in triangle 3m appart), sets displayed in transect in the middle of the orchard at 5, 35 and 65m from the field margin. Only pollinator groups were considered for the pan-traps.",NA
"Silvia_Castro_Actinidia_deliciosa_Portugal_2019","U","pan-traps","Andrena angustior","species","other_wild_bees",3,NA,4320,NA,"3 sets of 3 colour plates each (within set, plates displayed in triangle 3m appart), sets displayed in transect in the middle of the orchard at 5, 35 and 65m from the field margin. Only pollinator groups were considered for the pan-traps.",NA
"Silvia_Castro_Actinidia_deliciosa_Portugal_2019","U","pan-traps","Lasioglossum minutissimum","species","other_wild_bees",8,NA,4320,NA,"3 sets of 3 colour plates each (within set, plates displayed in triangle 3m appart), sets displayed in transect in the middle of the orchard at 5, 35 and 65m from the field margin. Only pollinator groups were considered for the pan-traps.",NA
"Silvia_Castro_Actinidia_deliciosa_Portugal_2019","U","pan-traps","Lasioglossum transitorium","species","other_wild_bees",7,NA,4320,NA,"3 sets of 3 colour plates each (within set, plates displayed in triangle 3m appart), sets displayed in transect in the middle of the orchard at 5, 35 and 65m from the field margin. Only pollinator groups were considered for the pan-traps.",NA
"Silvia_Castro_Actinidia_deliciosa_Portugal_2019","U","pan-traps","Lasioglossum interruptum","species","other_wild_bees",1,NA,4320,NA,"3 sets of 3 colour plates each (within set, plates displayed in triangle 3m appart), sets displayed in transect in the middle of the orchard at 5, 35 and 65m from the field margin. Only pollinator groups were considered for the pan-traps.",NA
"Silvia_Castro_Actinidia_deliciosa_Portugal_2019","U","pan-traps","Bombus pascuorum","species","bumblebees",1,NA,4320,NA,"3 sets of 3 colour plates each (within set, plates displayed in triangle 3m appart), sets displayed in transect in the middle of the orchard at 5, 35 and 65m from the field margin. Only pollinator groups were considered for the pan-traps.",NA
"Silvia_Castro_Actinidia_deliciosa_Portugal_2019","U","pan-traps","Apis mellifera","species","honeybees",1,NA,4320,NA,"3 sets of 3 colour plates each (within set, plates displayed in triangle 3m appart), sets displayed in transect in the middle of the orchard at 5, 35 and 65m from the field margin. Only pollinator groups were considered for the pan-traps.",NA
"Silvia_Castro_Actinidia_deliciosa_Portugal_2019","U","pan-traps","Stomorhina lunata","species","other_flies",4,NA,4320,NA,"3 sets of 3 colour plates each (within set, plates displayed in triangle 3m appart), sets displayed in transect in the middle of the orchard at 5, 35 and 65m from the field margin. Only pollinator groups were considered for the pan-traps.",NA
"Silvia_Castro_Actinidia_deliciosa_Portugal_2019","U","pan-traps","Halictus subauratus","species","other_wild_bees",1,NA,4320,NA,"3 sets of 3 colour plates each (within set, plates displayed in triangle 3m appart), sets displayed in transect in the middle of the orchard at 5, 35 and 65m from the field margin. Only pollinator groups were considered for the pan-traps.",NA
"Silvia_Castro_Actinidia_deliciosa_Portugal_2019","U","pan-traps","Lasioglossum leucozonium","species","other_wild_bees",1,NA,4320,NA,"3 sets of 3 colour plates each (within set, plates displayed in triangle 3m appart), sets displayed in transect in the middle of the orchard at 5, 35 and 65m from the field margin. Only pollinator groups were considered for the pan-traps.",NA
"Silvia_Castro_Actinidia_deliciosa_Portugal_2019","U","pan-traps","Lasioglossum angusticeps","species","other_wild_bees",2,NA,4320,NA,"3 sets of 3 colour plates each (within set, plates displayed in triangle 3m appart), sets displayed in transect in the middle of the orchard at 5, 35 and 65m from the field margin. Only pollinator groups were considered for the pan-traps.",NA
"Silvia_Castro_Actinidia_deliciosa_Portugal_2019","V","pan-traps","Andrena angustior","species","other_wild_bees",9,NA,4320,NA,"3 sets of 3 colour plates each (within set, plates displayed in triangle 3m appart), sets displayed in transect in the middle of the orchard at 5, 35 and 65m from the field margin. Only pollinator groups were considered for the pan-traps.",NA
"Silvia_Castro_Actinidia_deliciosa_Portugal_2019","V","pan-traps","Lasioglossum minutissimum","species","other_wild_bees",3,NA,4320,NA,"3 sets of 3 colour plates each (within set, plates displayed in triangle 3m appart), sets displayed in transect in the middle of the orchard at 5, 35 and 65m from the field margin. Only pollinator groups were considered for the pan-traps.",NA
"Silvia_Castro_Actinidia_deliciosa_Portugal_2019","V","pan-traps","Lasioglossum transitorium","species","other_wild_bees",2,NA,4320,NA,"3 sets of 3 colour plates each (within set, plates displayed in triangle 3m appart), sets displayed in transect in the middle of the orchard at 5, 35 and 65m from the field margin. Only pollinator groups were considered for the pan-traps.",NA
"Silvia_Castro_Actinidia_deliciosa_Portugal_2019","V","pan-traps","Sphecodes sp. 94","morphospecies","other_wild_bees",1,NA,4320,NA,"3 sets of 3 colour plates each (within set, plates displayed in triangle 3m appart), sets displayed in transect in the middle of the orchard at 5, 35 and 65m from the field margin. Only pollinator groups were considered for the pan-traps.",NA
"Silvia_Castro_Actinidia_deliciosa_Portugal_2019","V","pan-traps","Stomorhina lunata","species","other_flies",2,NA,4320,NA,"3 sets of 3 colour plates each (within set, plates displayed in triangle 3m appart), sets displayed in transect in the middle of the orchard at 5, 35 and 65m from the field margin. Only pollinator groups were considered for the pan-traps.",NA
"Silvia_Castro_Actinidia_deliciosa_Portugal_2019","V","pan-traps","Lasioglossum malachurum","species","other_wild_bees",15,NA,4320,NA,"3 sets of 3 colour plates each (within set, plates displayed in triangle 3m appart), sets displayed in transect in the middle of the orchard at 5, 35 and 65m from the field margin. Only pollinator groups were considered for the pan-traps.",NA
"Silvia_Castro_Actinidia_deliciosa_Portugal_2019","V","pan-traps","Usia sp. 638","morphospecies","humbleflies",2,NA,4320,NA,"3 sets of 3 colour plates each (within set, plates displayed in triangle 3m appart), sets displayed in transect in the middle of the orchard at 5, 35 and 65m from the field margin. Only pollinator groups were considered for the pan-traps.",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","AUS-EGI1_2017","census","Mantodea","order","other",1,769.5,342,2114,"census of 1 min, within the field each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","AUS-EGI1_2017","census","Apis mellifera","species","honeybees",1080,769.5,342,2114,"census of 1 min, within the field each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","AUS-EGI1_2017","census","Halictus sp.","genus","other_wild_bees",1,769.5,342,2114,"census of 1 min, within the field each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","AUS-EGI1_2017","census","Dasypoda sp.","genus","other_wild_bees",5,769.5,342,2114,"census of 1 min, within the field each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","AUS-EGI1_2017","census","Coccinella septempunctata","species","beetles",1,769.5,342,2114,"census of 1 min, within the field each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","AUS-EGI1_2017","census","Closterotomus norwegicus","species","other",4,769.5,342,2114,"census of 1 min, within the field each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","AUS-EGI2_2017","census","Apoidea","superfamily","other_wild_bees",1,706.5,314,1861,"census of 1 min, within the field each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","AUS-EGI2_2017","census","Apoidea","superfamily","other_wild_bees",1,706.5,314,1861,"census of 1 min, within the field each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","AUS-EGI2_2017","census","Apoidea","superfamily","other_wild_bees",1,706.5,314,1861,"census of 1 min, within the field each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","AUS-EGI2_2017","census","Apoidea","superfamily","other_wild_bees",1,706.5,314,1861,"census of 1 min, within the field each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","AUS-EGI2_2017","census","Apoidea","superfamily","other_wild_bees",1,706.5,314,1861,"census of 1 min, within the field each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","AUS-EGI2_2017","census","Apoidea","superfamily","other_wild_bees",1,706.5,314,1861,"census of 1 min, within the field each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","AUS-EGI2_2017","census","Arachnidae","class","other",1,706.5,314,1861,"census of 1 min, within the field each in areas of aprox. 1.5x1.5m","Arachnida"
"Silvia_Castro_Helianthus_annuus_Spain_2017","AUS-EGI2_2017","census","Diptera","order","other_flies",1,706.5,314,1861,"census of 1 min, within the field each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","AUS-EGI2_2017","census","Scarabaeidae","family","beetles",2,706.5,314,1861,"census of 1 min, within the field each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","AUS-EGI2_2017","census","Scarabaeidae","family","beetles",2,706.5,314,1861,"census of 1 min, within the field each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","AUS-EGI2_2017","census","Vespidae","family","non_bee_hymenoptera",1,706.5,314,1861,"census of 1 min, within the field each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","AUS-EGI2_2017","census","Apis mellifera","species","honeybees",1577,706.5,314,1861,"census of 1 min, within the field each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","AUS-EGI2_2017","census","Andrena sp.","genus","other_wild_bees",1,706.5,314,1861,"census of 1 min, within the field each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","AUS-EGI2_2017","census","Halictus sp.","genus","other_wild_bees",2,706.5,314,1861,"census of 1 min, within the field each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","AUS-EGI2_2017","census","Closterotomus norwegicus","species","other",7,706.5,314,1861,"census of 1 min, within the field each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","AUS-EGI2_2017","census","Chrysoperla cf. carnea","species","other",2,706.5,314,1861,"census of 1 min, within the field each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","AUS-EGI2_2017","census","Coccinella septempunctata","species","beetles",2,706.5,314,1861,"census of 1 min, within the field each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","AUS-EGI2_2017","census","Macroglossum sp.","genus","lepidoptera",1,706.5,314,1861,"census of 1 min, within the field each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","AUS-NGI1_2017","census","Lepidoptera","order","lepidoptera",1,693,308,2014,"census of 1 min, within the field each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","AUS-NGI1_2017","census","Chrysoperla cf. carnea","species","other",1,693,308,2014,"census of 1 min, within the field each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","AUS-NGI1_2017","census","Closterotomus norwegicus","species","other",9,693,308,2014,"census of 1 min, within the field each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","AUS-NGI1_2017","census","Apis mellifera","species","honeybees",1175,693,308,2014,"census of 1 min, within the field each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","AUS-NON1_2017","census","Apoidea","superfamily","other_wild_bees",1,567,252,980,"census of 1 min, within the field each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","AUS-NON1_2017","census","Diptera","order","other_flies",1,567,252,980,"census of 1 min, within the field each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","AUS-NON1_2017","census","Vespidae","family","non_bee_hymenoptera",1,567,252,980,"census of 1 min, within the field each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","AUS-NON1_2017","census","Apis mellifera","species","honeybees",501,567,252,980,"census of 1 min, within the field each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","AUS-NON1_2017","census","Coccinella septempunctata","species","beetles",1,567,252,980,"census of 1 min, within the field each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","AUS-NON1_2017","census","Closterotomus norwegicus","species","other",3,567,252,980,"census of 1 min, within the field each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","AUS-NON1_2017","census","Chrysoperla cf. carnea","species","other",4,567,252,980,"census of 1 min, within the field each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","MEL-EGI1_2017","census","Apoidea","superfamily","other_wild_bees",1,848.25,377,2588,"census of 1 min, within the field each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","MEL-EGI1_2017","census","Apoidea","superfamily","other_wild_bees",1,848.25,377,2588,"census of 1 min, within the field each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","MEL-EGI1_2017","census","Apoidea","superfamily","other_wild_bees",1,848.25,377,2588,"census of 1 min, within the field each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","MEL-EGI1_2017","census","Apoidea","superfamily","other_wild_bees",1,848.25,377,2588,"census of 1 min, within the field each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","MEL-EGI1_2017","census","Apoidea","superfamily","other_wild_bees",1,848.25,377,2588,"census of 1 min, within the field each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","MEL-EGI1_2017","census","Diptera sp1","morphospecies","other_flies",1,848.25,377,2588,"census of 1 min, within the field each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","MEL-EGI1_2017","census","Diptera sp2","morphospecies","other_flies",1,848.25,377,2588,"census of 1 min, within the field each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","MEL-EGI1_2017","census","Diptera sp3","morphospecies","other_flies",1,848.25,377,2588,"census of 1 min, within the field each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","MEL-EGI1_2017","census","Diptera sp4","morphospecies","other_flies",2,848.25,377,2588,"census of 1 min, within the field each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","MEL-EGI1_2017","census","Formicidae","family","non_bee_hymenoptera",6,848.25,377,2588,"census of 1 min, within the field each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","MEL-EGI1_2017","census","Scarabaeidae","family","beetles",1,848.25,377,2588,"census of 1 min, within the field each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","MEL-EGI1_2017","census","Apis mellifera","species","honeybees",432,848.25,377,2588,"census of 1 min, within the field each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","MEL-EGI1_2017","census","Halictus sp.","genus","other_wild_bees",1,848.25,377,2588,"census of 1 min, within the field each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","MEL-EGI1_2017","census","Megachile sp. 1","morphospecies","other_wild_bees",1,848.25,377,2588,"census of 1 min, within the field each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","MEL-EGI1_2017","census","Megachile sp. 2","morphospecies","other_wild_bees",2,848.25,377,2588,"census of 1 min, within the field each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","MEL-EGI1_2017","census","Megachile sp. 3","morphospecies","other_wild_bees",1,848.25,377,2588,"census of 1 min, within the field each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","MEL-EGI1_2017","census","Bombus terrestris","species","bumblebees",4,848.25,377,2588,"census of 1 min, within the field each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","MEL-EGI1_2017","census","Closterotomus norwegicus","species","other",2,848.25,377,2588,"census of 1 min, within the field each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","MEL-EGI1_2017","census","Chrysoperla cf. carnea","species","other",1,848.25,377,2588,"census of 1 min, within the field each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","MEL-EGI1_2017","census","Coccinella septempunctata","species","beetles",4,848.25,377,2588,"census of 1 min, within the field each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","MEL-NGI1_2017","census","Apoidea","superfamily","other_wild_bees",1,861.75,383,2101,"census of 1 min, within the field each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","MEL-NGI1_2017","census","Apoidea","superfamily","other_wild_bees",1,861.75,383,2101,"census of 1 min, within the field each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","MEL-NGI1_2017","census","Apoidea","superfamily","other_wild_bees",1,861.75,383,2101,"census of 1 min, within the field each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","MEL-NGI1_2017","census","Apoidea","superfamily","other_wild_bees",1,861.75,383,2101,"census of 1 min, within the field each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","MEL-NGI1_2017","census","Apoidea","superfamily","other_wild_bees",1,861.75,383,2101,"census of 1 min, within the field each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","MEL-NGI1_2017","census","Diptera","order","other_flies",2,861.75,383,2101,"census of 1 min, within the field each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","MEL-NGI1_2017","census","Diptera","order","other_flies",1,861.75,383,2101,"census of 1 min, within the field each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","MEL-NGI1_2017","census","Diptera","order","other_flies",1,861.75,383,2101,"census of 1 min, within the field each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","MEL-NGI1_2017","census","Diptera","order","other_flies",1,861.75,383,2101,"census of 1 min, within the field each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","MEL-NGI1_2017","census","Diptera","order","other_flies",1,861.75,383,2101,"census of 1 min, within the field each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","MEL-NGI1_2017","census","Diptera","order","other_flies",1,861.75,383,2101,"census of 1 min, within the field each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","MEL-NGI1_2017","census","Diptera","order","other_flies",1,861.75,383,2101,"census of 1 min, within the field each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","MEL-NGI1_2017","census","Diptera","order","other_flies",1,861.75,383,2101,"census of 1 min, within the field each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","MEL-NGI1_2017","census","Diptera","order","other_flies",1,861.75,383,2101,"census of 1 min, within the field each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","MEL-NGI1_2017","census","Diptera","order","other_flies",1,861.75,383,2101,"census of 1 min, within the field each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","MEL-NGI1_2017","census","Diptera","order","other_flies",1,861.75,383,2101,"census of 1 min, within the field each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","MEL-NGI1_2017","census","Vespidae","family","non_bee_hymenoptera",4,861.75,383,2101,"census of 1 min, within the field each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","MEL-NGI1_2017","census","Vespidae","family","non_bee_hymenoptera",1,861.75,383,2101,"census of 1 min, within the field each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","MEL-NGI1_2017","census","Apis mellifera","species","honeybees",721,861.75,383,2101,"census of 1 min, within the field each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","MEL-NGI1_2017","census","Xylocopa sp.","genus","other_wild_bees",1,861.75,383,2101,"census of 1 min, within the field each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","MEL-NGI1_2017","census","Halictus sp.","genus","other_wild_bees",1,861.75,383,2101,"census of 1 min, within the field each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","MEL-NGI1_2017","census","Bombus terrestris","species","bumblebees",4,861.75,383,2101,"census of 1 min, within the field each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","MEL-NGI1_2017","census","Chrysoperla cf. carnea","species","other",5,861.75,383,2101,"census of 1 min, within the field each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","MEL-NGI1_2017","census","Closterotomus norwegicus","species","other",1,861.75,383,2101,"census of 1 min, within the field each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","MEL-NGI1_2017","census","Coccinella septempunctata","species","beetles",6,861.75,383,2101,"census of 1 min, within the field each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","MEL-NGI1_2017","census","Lucilia sericata","species","other_flies",1,861.75,383,2101,"census of 1 min, within the field each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","MEL-NON1_2017","census","Arachnidae","class","other",1,720,320,2821,"census of 1 min, within the field each in areas of aprox. 1.5x1.5m","Arachnida"
"Silvia_Castro_Helianthus_annuus_Spain_2017","MEL-NON1_2017","census","Diptera","order","other_flies",1,720,320,2821,"census of 1 min, within the field each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","MEL-NON1_2017","census","Diptera","order","other_flies",1,720,320,2821,"census of 1 min, within the field each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","MEL-NON1_2017","census","Apis mellifera","species","honeybees",1080,720,320,2821,"census of 1 min, within the field each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","MEL-NON1_2017","census","Closterotomus norwegicus","species","other",1,720,320,2821,"census of 1 min, within the field each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","MEL-NON1_2017","census","Chrysoperla cf. carnea","species","other",1,720,320,2821,"census of 1 min, within the field each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","MEL-NON1_2017","census","Bombus terrestris","species","bumblebees",3,720,320,2821,"census of 1 min, within the field each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","MEL-NON1_2017","census","Coccinella septempunctata","species","beetles",1,720,320,2821,"census of 1 min, within the field each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","MEL-NON1_2017","census","Eristalis tenax","species","syrphids",1,720,320,2821,"census of 1 min, within the field each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","MEL-NON1_2017","census","Eristalis sp.","genus","syrphids",2,720,320,2821,"census of 1 min, within the field each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","MEL-NON1_2017","census","Syrphid","genus","syrphids",2,720,320,2821,"census of 1 min, within the field each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","MEL-NON1_2017","census","Halictus sp.","genus","other_wild_bees",1,720,320,2821,"census of 1 min, within the field each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","MEL-NON1_2017","census","Pollenia sp.","genus","other_flies",1,720,320,2821,"census of 1 min, within the field each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","MEL-NON1_2017","census","Stomorhina lunata","species","other_flies",1,720,320,2821,"census of 1 min, within the field each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","MEL-NON1_2017","census","Scaeva sp.","genus","other_flies",1,720,320,2821,"census of 1 min, within the field each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","MEL-NON1_2017","census","Stevenia sp.","genus","other_flies",1,720,320,2821,"census of 1 min, within the field each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","PRE-EGI1_2017","census","Apoidea","superfamily","other_wild_bees",1,675,300,1581,"census of 1 min, within the field each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","PRE-EGI1_2017","census","Diptera","order","other_flies",1,675,300,1581,"census of 1 min, within the field each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","PRE-EGI1_2017","census","unidentified","other","other",1,675,300,1581,"census of 1 min, within the field each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","PRE-EGI1_2017","census","Apis mellifera","species","honeybees",19,675,300,1581,"census of 1 min, within the field each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","PRE-EGI1_2017","census","Anthophora sp.","genus","other_wild_bees",1,675,300,1581,"census of 1 min, within the field each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","PRE-EGI1_2017","census","Chrysoperla cf. carnea","species","other",1,675,300,1581,"census of 1 min, within the field each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","PRE-EGI2_2017","census","Apoidea","superfamily","other_wild_bees",3,751.5,334,2226,"census of 1 min, within the field each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","PRE-EGI2_2017","census","Apis mellifera","species","honeybees",168,751.5,334,2226,"census of 1 min, within the field each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","PRE-EGI2_2017","census","Closterotomus norwegicus","species","other",14,751.5,334,2226,"census of 1 min, within the field each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","PRE-EGI2_2017","census","Chrysoperla cf. carnea","species","other",3,751.5,334,2226,"census of 1 min, within the field each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","PRE-EGI2_2017","census","Coccinella septempunctata","species","beetles",2,751.5,334,2226,"census of 1 min, within the field each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","PRE-EGI2_2017","census","Dasypoda sp.","genus","other_wild_bees",1,751.5,334,2226,"census of 1 min, within the field each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","PRE-EGI2_2017","census","Megachile sp.","genus","other_wild_bees",4,751.5,334,2226,"census of 1 min, within the field each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","PRE-EGI2_2017","census","Osmia sp.","genus","other_wild_bees",1,751.5,334,2226,"census of 1 min, within the field each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","PRE-EGI2_2017","census","Sphex sp.","genus","non_bee_hymenoptera",1,751.5,334,2226,"census of 1 min, within the field each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","PRE-EGI2_2017","census","Eristalis sp.","genus","syrphids",1,751.5,334,2226,"census of 1 min, within the field each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","PRE-NON1_2017","census","Diptera","order","other_flies",1,650.25,289,1615,"census of 1 min, within the field each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","PRE-NON1_2017","census","Diptera","order","other_flies",1,650.25,289,1615,"census of 1 min, within the field each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","PRE-NON1_2017","census","Apis mellifera","species","honeybees",25,650.25,289,1615,"census of 1 min, within the field each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","PRE-NON1_2017","census","Amegilla sp.","genus","other_wild_bees",1,650.25,289,1615,"census of 1 min, within the field each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","PRE-NON1_2017","census","Bombus terrestris","species","bumblebees",1,650.25,289,1615,"census of 1 min, within the field each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","PRE-NON1_2017","census","Closterotomus norwegicus","species","other",5,650.25,289,1615,"census of 1 min, within the field each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","PRE-NON1_2017","census","Chrysoperla cf. carnea","species","other",1,650.25,289,1615,"census of 1 min, within the field each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","PRE-NON1_2017","census","Coccinella septempunctata","species","beetles",3,650.25,289,1615,"census of 1 min, within the field each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","PRE-NON1_2017","census","Eristalis sp.","genus","syrphids",1,650.25,289,1615,"census of 1 min, within the field each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","RED-EGI1_2017","census","Apoidea","superfamily","other_wild_bees",2,652.5,290,1348,"census of 1 min, within the field each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","RED-EGI1_2017","census","Arachnidae","class","other",1,652.5,290,1348,"census of 1 min, within the field each in areas of aprox. 1.5x1.5m","Arachnida"
"Silvia_Castro_Helianthus_annuus_Spain_2017","RED-EGI1_2017","census","Coleoptera","order","beetles",1,652.5,290,1348,"census of 1 min, within the field each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","RED-EGI1_2017","census","Diptera","order","other_flies",2,652.5,290,1348,"census of 1 min, within the field each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","RED-EGI1_2017","census","Diptera","order","other_flies",1,652.5,290,1348,"census of 1 min, within the field each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","RED-EGI1_2017","census","Diptera","order","other_flies",1,652.5,290,1348,"census of 1 min, within the field each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","RED-EGI1_2017","census","Scarabaeidae","family","beetles",1,652.5,290,1348,"census of 1 min, within the field each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","RED-EGI1_2017","census","Apis mellifera","species","honeybees",397,652.5,290,1348,"census of 1 min, within the field each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","RED-EGI1_2017","census","Andrena sp.","genus","other_wild_bees",1,652.5,290,1348,"census of 1 min, within the field each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","RED-EGI1_2017","census","Bombus sp.","genus","bumblebees",4,652.5,290,1348,"census of 1 min, within the field each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","RED-EGI1_2017","census","Bombus terrestris","species","bumblebees",1,652.5,290,1348,"census of 1 min, within the field each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","RED-EGI1_2017","census","Closterotomus norwegicus","species","other",18,652.5,290,1348,"census of 1 min, within the field each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","RED-EGI1_2017","census","Coccinella septempunctata","species","beetles",12,652.5,290,1348,"census of 1 min, within the field each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","RED-EGI2_2017","census","Apoidea","superfamily","other_wild_bees",1,621,276,1884,"census of 1 min, within the field each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","RED-EGI2_2017","census","Apoidea","superfamily","other_wild_bees",1,621,276,1884,"census of 1 min, within the field each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","RED-EGI2_2017","census","Apoidea","superfamily","other_wild_bees",1,621,276,1884,"census of 1 min, within the field each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","RED-EGI2_2017","census","Apoidea","superfamily","other_wild_bees",1,621,276,1884,"census of 1 min, within the field each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","RED-EGI2_2017","census","Arachnidae","class","other",1,621,276,1884,"census of 1 min, within the field each in areas of aprox. 1.5x1.5m","Arachnida"
"Silvia_Castro_Helianthus_annuus_Spain_2017","RED-EGI2_2017","census","Coccinellidae","family","beetles",1,621,276,1884,"census of 1 min, within the field each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","RED-EGI2_2017","census","Coccinellidae","family","beetles",1,621,276,1884,"census of 1 min, within the field each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","RED-EGI2_2017","census","Diptera","order","other_flies",5,621,276,1884,"census of 1 min, within the field each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","RED-EGI2_2017","census","Diptera","order","other_flies",1,621,276,1884,"census of 1 min, within the field each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","RED-EGI2_2017","census","Diptera","order","other_flies",1,621,276,1884,"census of 1 min, within the field each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","RED-EGI2_2017","census","Diptera","order","other_flies",1,621,276,1884,"census of 1 min, within the field each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","RED-EGI2_2017","census","Diptera","order","other_flies",1,621,276,1884,"census of 1 min, within the field each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","RED-EGI2_2017","census","Diptera","order","other_flies",1,621,276,1884,"census of 1 min, within the field each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","RED-EGI2_2017","census","Diptera","order","other_flies",1,621,276,1884,"census of 1 min, within the field each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","RED-EGI2_2017","census","Diptera","order","other_flies",1,621,276,1884,"census of 1 min, within the field each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","RED-EGI2_2017","census","Diptera","order","other_flies",1,621,276,1884,"census of 1 min, within the field each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","RED-EGI2_2017","census","Diptera","order","other_flies",1,621,276,1884,"census of 1 min, within the field each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","RED-EGI2_2017","census","Diptera","order","other_flies",1,621,276,1884,"census of 1 min, within the field each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","RED-EGI2_2017","census","Diptera","order","other_flies",1,621,276,1884,"census of 1 min, within the field each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","RED-EGI2_2017","census","Bombus terrestris","species","bumblebees",4,621,276,1884,"census of 1 min, within the field each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","RED-EGI2_2017","census","Chrysoperla cf. carnea","species","other",4,621,276,1884,"census of 1 min, within the field each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","RED-EGI2_2017","census","Closterotomus norwegicus","species","other",12,621,276,1884,"census of 1 min, within the field each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","RED-EGI2_2017","census","Coccinella septempunctata","species","beetles",5,621,276,1884,"census of 1 min, within the field each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","RED-EGI2_2017","census","Halictus sp.","genus","other_wild_bees",6,621,276,1884,"census of 1 min, within the field each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","RED-EGI2_2017","census","Halictus fulvipes","species","other_wild_bees",1,621,276,1884,"census of 1 min, within the field each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","RED-EGI2_2017","census","Megachile sp.","genus","other_wild_bees",1,621,276,1884,"census of 1 min, within the field each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","RED-EGI2_2017","census","Macroglossum sp.","genus","lepidoptera",1,621,276,1884,"census of 1 min, within the field each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","RED-EGI2_2017","census","Lucilia sericata","species","other_flies",4,621,276,1884,"census of 1 min, within the field each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","RED-EGI2_2017","census","Neomyia cornicina","species","other_flies",1,621,276,1884,"census of 1 min, within the field each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","RED-EGI2_2017","census","Apis mellifera","species","honeybees",788,621,276,1884,"census of 1 min, within the field each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","RED-NGI1_2017","census","Apoidea","superfamily","other_wild_bees",1,920.25,409,3542,"census of 1 min, within the field each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","RED-NGI1_2017","census","Coleoptera","order","beetles",1,920.25,409,3542,"census of 1 min, within the field each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","RED-NGI1_2017","census","Diptera","order","other_flies",1,920.25,409,3542,"census of 1 min, within the field each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","RED-NGI1_2017","census","Diptera","order","other_flies",2,920.25,409,3542,"census of 1 min, within the field each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","RED-NGI1_2017","census","Diptera","order","other_flies",1,920.25,409,3542,"census of 1 min, within the field each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","RED-NGI1_2017","census","Hemiptera","order","other",3,920.25,409,3542,"census of 1 min, within the field each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","RED-NGI1_2017","census","Heteroptera","suborder","other",1,920.25,409,3542,"census of 1 min, within the field each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","RED-NGI1_2017","census","Apis mellifera","species","honeybees",1399,920.25,409,3542,"census of 1 min, within the field each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","RED-NGI1_2017","census","Bombus terrestris","species","bumblebees",1,920.25,409,3542,"census of 1 min, within the field each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","RED-NGI1_2017","census","Coccinella septempunctata","species","beetles",6,920.25,409,3542,"census of 1 min, within the field each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","RED-NGI1_2017","census","Halictus sp.","genus","other_wild_bees",1,920.25,409,3542,"census of 1 min, within the field each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","RED-NGI1_2017","census","Lucilia sericata","species","other_flies",3,920.25,409,3542,"census of 1 min, within the field each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","RED-NGI1_2017","census","Pyronia sp.","genus","lepidoptera",1,920.25,409,3542,"census of 1 min, within the field each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","RED-NGI1_2017","census","Stevenia sp.","genus","other_flies",2,920.25,409,3542,"census of 1 min, within the field each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","RED-NGI1_2017","census","Formicidae","family","non_bee_hymenoptera",1,920.25,409,3542,"census of 1 min, within the field each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","RED-NON1_2017","census","Apoidea","superfamily","other_wild_bees",1,722.25,321,1876,"census of 1 min, within the field each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","RED-NON1_2017","census","Apoidea","superfamily","other_wild_bees",1,722.25,321,1876,"census of 1 min, within the field each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","RED-NON1_2017","census","Apoidea","superfamily","other_wild_bees",2,722.25,321,1876,"census of 1 min, within the field each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","RED-NON1_2017","census","Apoidea","superfamily","other_wild_bees",1,722.25,321,1876,"census of 1 min, within the field each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","RED-NON1_2017","census","Apoidea","superfamily","other_wild_bees",2,722.25,321,1876,"census of 1 min, within the field each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","RED-NON1_2017","census","Apoidea","superfamily","other_wild_bees",1,722.25,321,1876,"census of 1 min, within the field each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","RED-NON1_2017","census","Diptera","order","other_flies",1,722.25,321,1876,"census of 1 min, within the field each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","RED-NON1_2017","census","Diptera","order","other_flies",1,722.25,321,1876,"census of 1 min, within the field each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","RED-NON1_2017","census","Diptera","order","other_flies",1,722.25,321,1876,"census of 1 min, within the field each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","RED-NON1_2017","census","Lepidoptera","order","lepidoptera",1,722.25,321,1876,"census of 1 min, within the field each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","RED-NON1_2017","census","Apis mellifera","species","honeybees",636,722.25,321,1876,"census of 1 min, within the field each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","RED-NON1_2017","census","Bombus terrestris","species","bumblebees",3,722.25,321,1876,"census of 1 min, within the field each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","RED-NON1_2017","census","Calocoris roseomaculatus","species","other",3,722.25,321,1876,"census of 1 min, within the field each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","RED-NON1_2017","census","Coccinella septempunctata","species","beetles",7,722.25,321,1876,"census of 1 min, within the field each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","RED-NON1_2017","census","Eristalinus taniops","species","syrphids",1,722.25,321,1876,"census of 1 min, within the field each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","RED-NON1_2017","census","Halictus scabiosae","species","other_wild_bees",3,722.25,321,1876,"census of 1 min, within the field each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","RED-NON1_2017","census","Lasioglossum sp.","genus","other_wild_bees",1,722.25,321,1876,"census of 1 min, within the field each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","RED-NON1_2017","census","Lucilia sericata","species","other_flies",2,722.25,321,1876,"census of 1 min, within the field each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","VIL-EGI1_2017","census","Apoidea","superfamily","other_wild_bees",1,864,384,1538,"census of 1 min, within the field each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","VIL-EGI1_2017","census","Apoidea","superfamily","other_wild_bees",1,864,384,1538,"census of 1 min, within the field each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","VIL-EGI1_2017","census","Apoidea","superfamily","other_wild_bees",1,864,384,1538,"census of 1 min, within the field each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","VIL-EGI1_2017","census","Apoidea","superfamily","other_wild_bees",2,864,384,1538,"census of 1 min, within the field each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","VIL-EGI1_2017","census","Arachnidae","class","other",3,864,384,1538,"census of 1 min, within the field each in areas of aprox. 1.5x1.5m","Arachnida"
"Silvia_Castro_Helianthus_annuus_Spain_2017","VIL-EGI1_2017","census","Arachnidae","class","other",1,864,384,1538,"census of 1 min, within the field each in areas of aprox. 1.5x1.5m","Arachnida"
"Silvia_Castro_Helianthus_annuus_Spain_2017","VIL-EGI1_2017","census","Coleoptera","order","beetles",1,864,384,1538,"census of 1 min, within the field each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","VIL-EGI1_2017","census","Muscidae","family","other_flies",1,864,384,1538,"census of 1 min, within the field each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","VIL-EGI1_2017","census","unidentified","other","other",1,864,384,1538,"census of 1 min, within the field each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","VIL-EGI1_2017","census","Apis mellifera","species","honeybees",133,864,384,1538,"census of 1 min, within the field each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","VIL-EGI1_2017","census","Bombus terrestris","species","bumblebees",1,864,384,1538,"census of 1 min, within the field each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","VIL-EGI1_2017","census","Chrysoperla cf. carnea","species","other",1,864,384,1538,"census of 1 min, within the field each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","VIL-EGI1_2017","census","Closterotomus norwegicus","species","other",22,864,384,1538,"census of 1 min, within the field each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","VIL-EGI1_2017","census","Coccinella septempunctata","species","beetles",9,864,384,1538,"census of 1 min, within the field each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","VIL-EGI1_2017","census","formicidae","family","non_bee_hymenoptera",2,864,384,1538,"census of 1 min, within the field each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","VIL-EGI1_2017","census","Spilosthethus pandurus","species","other",1,864,384,1538,"census of 1 min, within the field each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","VIL-EGI1_2017","census","Syrphidae","family","syrphids",1,864,384,1538,"census of 1 min, within the field each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","VIL-EGI2_2017","census","Apoidea","superfamily","other_wild_bees",1,843.75,375,3622,"census of 1 min, within the field each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","VIL-EGI2_2017","census","Apoidea","superfamily","other_wild_bees",1,843.75,375,3622,"census of 1 min, within the field each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","VIL-EGI2_2017","census","Arachnidae","class","other",1,843.75,375,3622,"census of 1 min, within the field each in areas of aprox. 1.5x1.5m","Arachnida"
"Silvia_Castro_Helianthus_annuus_Spain_2017","VIL-EGI2_2017","census","Arachnidae","class","other",2,843.75,375,3622,"census of 1 min, within the field each in areas of aprox. 1.5x1.5m","Arachnida"
"Silvia_Castro_Helianthus_annuus_Spain_2017","VIL-EGI2_2017","census","Coleoptera","order","beetles",1,843.75,375,3622,"census of 1 min, within the field each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","VIL-EGI2_2017","census","Diptera","order","other_flies",1,843.75,375,3622,"census of 1 min, within the field each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","VIL-EGI2_2017","census","Diptera","order","other_flies",1,843.75,375,3622,"census of 1 min, within the field each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","VIL-EGI2_2017","census","Orthoptera","order","other",1,843.75,375,3622,"census of 1 min, within the field each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","VIL-EGI2_2017","census","Apis mellifera","species","honeybees",137,843.75,375,3622,"census of 1 min, within the field each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","VIL-EGI2_2017","census","Andrena albopunctata","species","other_wild_bees",2,843.75,375,3622,"census of 1 min, within the field each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","VIL-EGI2_2017","census","Ceratina sp.","genus","other_wild_bees",1,843.75,375,3622,"census of 1 min, within the field each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","VIL-EGI2_2017","census","Chrysoperla cf. carnea","species","other",5,843.75,375,3622,"census of 1 min, within the field each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","VIL-EGI2_2017","census","Closterotomus norwegicus","species","other",87,843.75,375,3622,"census of 1 min, within the field each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","VIL-EGI2_2017","census","Coccinella septempunctata","species","beetles",8,843.75,375,3622,"census of 1 min, within the field each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","VIL-EGI2_2017","census","Lucilia sericata","species","other_flies",3,843.75,375,3622,"census of 1 min, within the field each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","VIL-EGI2_2017","census","Macroglossum stellatarum","species","lepidoptera",1,843.75,375,3622,"census of 1 min, within the field each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","VIL-EGI2_2017","census","Protaetia sp.","genus","beetles",1,843.75,375,3622,"census of 1 min, within the field each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","VIL-NGI1_2017","census","Apoidea","superfamily","other_wild_bees",1,711,316,2289,"census of 1 min, within the field each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","VIL-NGI1_2017","census","Apoidea","superfamily","other_wild_bees",1,711,316,2289,"census of 1 min, within the field each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","VIL-NGI1_2017","census","Apoidea","superfamily","other_wild_bees",1,711,316,2289,"census of 1 min, within the field each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","VIL-NGI1_2017","census","Arachnidae","class","other",1,711,316,2289,"census of 1 min, within the field each in areas of aprox. 1.5x1.5m","Arachnida"
"Silvia_Castro_Helianthus_annuus_Spain_2017","VIL-NGI1_2017","census","Coleoptera","order","beetles",2,711,316,2289,"census of 1 min, within the field each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","VIL-NGI1_2017","census","Coleoptera","order","beetles",1,711,316,2289,"census of 1 min, within the field each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","VIL-NGI1_2017","census","Diptera","order","other_flies",2,711,316,2289,"census of 1 min, within the field each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","VIL-NGI1_2017","census","Diptera","order","other_flies",2,711,316,2289,"census of 1 min, within the field each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","VIL-NGI1_2017","census","unidentified","other","other",1,711,316,2289,"census of 1 min, within the field each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","VIL-NGI1_2017","census","Apis mellifera","species","honeybees",123,711,316,2289,"census of 1 min, within the field each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","VIL-NGI1_2017","census","Closterotomus norwegicus","species","other",9,711,316,2289,"census of 1 min, within the field each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","VIL-NGI1_2017","census","Coccinella septempunctata","species","beetles",2,711,316,2289,"census of 1 min, within the field each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","VIL-NGI1_2017","census","Eilema sp.","genus","lepidoptera",1,711,316,2289,"census of 1 min, within the field each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","VIL-NGI1_2017","census","Halictus sp.","genus","other_wild_bees",1,711,316,2289,"census of 1 min, within the field each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","VIL-NON1_2017","census","Apoidea","superfamily","other_wild_bees",1,866.25,385,1856,"census of 1 min, within the field each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","VIL-NON1_2017","census","Apoidea","superfamily","other_wild_bees",1,866.25,385,1856,"census of 1 min, within the field each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","VIL-NON1_2017","census","Arachnidae","class","other",1,866.25,385,1856,"census of 1 min, within the field each in areas of aprox. 1.5x1.5m","Arachnida"
"Silvia_Castro_Helianthus_annuus_Spain_2017","VIL-NON1_2017","census","Formicidae","family","non_bee_hymenoptera",1,866.25,385,1856,"census of 1 min, within the field each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","VIL-NON1_2017","census","Heteroptera","suborder","other",1,866.25,385,1856,"census of 1 min, within the field each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","VIL-NON1_2017","census","Lepidoptera","order","lepidoptera",1,866.25,385,1856,"census of 1 min, within the field each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","VIL-NON1_2017","census","Apis mellifera","species","honeybees",70,866.25,385,1856,"census of 1 min, within the field each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","VIL-NON1_2017","census","Andrena albopunctata","species","other_wild_bees",1,866.25,385,1856,"census of 1 min, within the field each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","VIL-NON1_2017","census","Chrysoperla cf. carnea","species","other",1,866.25,385,1856,"census of 1 min, within the field each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","VIL-NON1_2017","census","Closterotomus norwegicus","species","other",8,866.25,385,1856,"census of 1 min, within the field each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","VIL-NON1_2017","census","Coccinella septempunctata","species","beetles",1,866.25,385,1856,"census of 1 min, within the field each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","VIL-NON1_2017","census","Forficula auricularia","species","other",2,866.25,385,1856,"census of 1 min, within the field each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","VIL-NON1_2017","census","Seladonia smaragdula","species","other_wild_bees",1,866.25,385,1856,"census of 1 min, within the field each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","VIL-NON1_2017","census","Xysticus sp.","genus","other",1,866.25,385,1856,"census of 1 min, within the field each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","VIL-NON1_2017","census","Arachnidae","class","other",3,866.25,385,1856,"census of 1 min, within the field each in areas of aprox. 1.5x1.5m","Arachnida"
"Silvia_Castro_Helianthus_annuus_Spain_2017","AUS-EGI1_2017","pan-traps","Mylabris_quadripunctata_","morphospecies","beetles",4,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","AUS-EGI1_2017","pan-traps","Eupeodes_corollae_","morphospecies","syrphids",1,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","AUS-EGI1_2017","pan-traps","Scaeva_pyrastri_","morphospecies","syrphids",1,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","AUS-EGI1_2017","pan-traps","Tachina_magnicornis_","morphospecies","other_flies",1,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","AUS-EGI1_2017","pan-traps","Usia_sp 1_","morphospecies","humbleflies",90,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","AUS-EGI1_2017","pan-traps","Andrena_flavipes_","species","other_wild_bees",1,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","AUS-EGI1_2017","pan-traps","Apis_mellifera_","species","honeybees",93,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","AUS-EGI1_2017","pan-traps","Athalia _sp._","genus","non_bee_hymenoptera",1,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","AUS-EGI1_2017","pan-traps","Halictus_compressus","species","other_wild_bees",1,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","AUS-EGI1_2017","pan-traps","Halictus_quadricinctus_","species","other_wild_bees",1,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","AUS-EGI1_2017","pan-traps","Halictus_scabiosae_","species","other_wild_bees",2,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","AUS-EGI1_2017","pan-traps","Halictus_sp._","genus","other_wild_bees",3,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","AUS-EGI1_2017","pan-traps","Lasioglossum_bimaculatum_","species","other_wild_bees",2,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","AUS-EGI1_2017","pan-traps","Lasioglossum_discum_","species","other_wild_bees",3,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","AUS-EGI1_2017","pan-traps","Lasioglossum_glabriusculum_","species","other_wild_bees",24,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","AUS-EGI1_2017","pan-traps","Lasioglossum_interruptum_","species","other_wild_bees",1,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","AUS-EGI1_2017","pan-traps","Lasioglossum_leucozonium_","species","other_wild_bees",2,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","AUS-EGI1_2017","pan-traps","Lasioglossum_malachurum_","species","other_wild_bees",15,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","AUS-EGI1_2017","pan-traps","Lasioglossum_sp._","genus","other_wild_bees",4,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","AUS-EGI1_2017","pan-traps","Microdiprion _pallipes_","species","non_bee_hymenoptera",1,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","AUS-EGI1_2017","pan-traps","Podalonia_cf. hirsuta_","species","non_bee_hymenoptera",12,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","AUS-EGI1_2017","pan-traps","Polistes_dominula_","species","non_bee_hymenoptera",1,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","AUS-EGI1_2017","pan-traps","Trypoxylon_sp._","genus","non_bee_hymenoptera",3,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","AUS-EGI2_2017","pan-traps","Adonia_variegata_","species","beetles",2,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","AUS-EGI2_2017","pan-traps","Coccinella_septempunctata_","species","beetles",2,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","AUS-EGI2_2017","pan-traps","Usia_sp 1_","morphospecies","humbleflies",8,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","AUS-EGI2_2017","pan-traps","Andrena_flavipes_","species","other_wild_bees",3,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","AUS-EGI2_2017","pan-traps","Apis_mellifera_","species","honeybees",39,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","AUS-EGI2_2017","pan-traps","Halictus_compressus","species","other_wild_bees",1,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","AUS-EGI2_2017","pan-traps","Halictus_patellatus_","species","other_wild_bees",2,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","AUS-EGI2_2017","pan-traps","Halictus_quadricinctus_","species","other_wild_bees",4,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","AUS-EGI2_2017","pan-traps","Halictus_scabiosae_","species","other_wild_bees",2,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","AUS-EGI2_2017","pan-traps","Lasioglossum_albocinctum_","species","other_wild_bees",5,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","AUS-EGI2_2017","pan-traps","Lasioglossum_corvinum_","species","other_wild_bees",2,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","AUS-EGI2_2017","pan-traps","Lasioglossum_discum_","species","other_wild_bees",14,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","AUS-EGI2_2017","pan-traps","Lasioglossum_glabriusculum_","species","other_wild_bees",23,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","AUS-EGI2_2017","pan-traps","Lasioglossum_interruptum_","species","other_wild_bees",1,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","AUS-EGI2_2017","pan-traps","Lasioglossum_leucozonium_","species","other_wild_bees",1,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","AUS-EGI2_2017","pan-traps","Lasioglossum_malachurum_","species","other_wild_bees",21,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","AUS-EGI2_2017","pan-traps","Lasioglossum_perclavipes_","species","other_wild_bees",5,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","AUS-EGI2_2017","pan-traps","Lasioglossum_sp._","genus","other_wild_bees",1,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","AUS-EGI2_2017","pan-traps","Podalonia_cf. hirsuta_","species","non_bee_hymenoptera",3,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","AUS-EGI2_2017","pan-traps","Polistes_dominula_","species","non_bee_hymenoptera",2,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","AUS-EGI2_2017","pan-traps","Xylocopa_violacea_","species","other_wild_bees",1,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","AUS-EGI2_2017","pan-traps","Lepidoptera","order","lepidoptera",5,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","AUS-NGI1_2017","pan-traps","Adonia_variegata_","species","beetles",4,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","AUS-NGI1_2017","pan-traps","Coccinella_septempunctata_","species","beetles",1,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","AUS-NGI1_2017","pan-traps","Lagria_sp._","genus","beetles",1,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","AUS-NGI1_2017","pan-traps","Diptera_sp 1","morphospecies","other_flies",1,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","AUS-NGI1_2017","pan-traps","Diptera_sp 2","morphospecies","other_flies",1,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","AUS-NGI1_2017","pan-traps","Eumerus_sp._","genus","syrphids",1,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","AUS-NGI1_2017","pan-traps","Merodon _sp1_","morphospecies","syrphids",1,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","AUS-NGI1_2017","pan-traps","Usia_sp 1_","morphospecies","humbleflies",22,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","AUS-NGI1_2017","pan-traps","Lasioglossum_malachurum_","morphospecies","other_wild_bees",4,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m","According to the corresponding author, if there are several pan-trap records for a given species at a given site, it means that such record was identified to a morphospecies."
"Silvia_Castro_Helianthus_annuus_Spain_2017","AUS-NGI1_2017","pan-traps","Ammophila_sabulosa_","species","non_bee_hymenoptera",1,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","AUS-NGI1_2017","pan-traps","Apis_mellifera_","species","honeybees",72,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","AUS-NGI1_2017","pan-traps","Eucera_cineraria_","species","other_wild_bees",1,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","AUS-NGI1_2017","pan-traps","Halictus_sp._","genus","other_wild_bees",6,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","AUS-NGI1_2017","pan-traps","Hylaeus_sp._","genus","other_wild_bees",1,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","AUS-NGI1_2017","pan-traps","Hylaeus_variegatus_","species","other_wild_bees",1,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","AUS-NGI1_2017","pan-traps","Hymenoptera_sp 2","morphospecies","non_bee_hymenoptera",1,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","AUS-NGI1_2017","pan-traps","Hymenoptera_sp 4","morphospecies","non_bee_hymenoptera",3,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","AUS-NGI1_2017","pan-traps","Hymenoptera_sp 5","morphospecies","non_bee_hymenoptera",1,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","AUS-NGI1_2017","pan-traps","Hymenoptera_sp 6","morphospecies","non_bee_hymenoptera",1,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","AUS-NGI1_2017","pan-traps","Icneumon_sp.1_","morphospecies","non_bee_hymenoptera",1,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","AUS-NGI1_2017","pan-traps","Lasioglossum_glabriusculum_","species","other_wild_bees",1,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","AUS-NGI1_2017","pan-traps","Lasioglossum_malachurum_","morphospecies","other_wild_bees",10,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m","According to the corresponding author, if there are several pan-trap records for a given species at a given site, it means that such record was identified to a morphospecies."
"Silvia_Castro_Helianthus_annuus_Spain_2017","AUS-NGI1_2017","pan-traps","Lasioglossum_sp._","genus","other_wild_bees",35,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","AUS-NGI1_2017","pan-traps","Panurgus_cephalotes_","species","other_wild_bees",1,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","AUS-NGI1_2017","pan-traps","Vespula_sp._","genus","non_bee_hymenoptera",3,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","AUS-NGI1_2017","pan-traps","Hesperia_comma_","species","lepidoptera",1,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","AUS-NGI1_2017","pan-traps","Lepidoptera","order","lepidoptera",2,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","AUS-NON1_2017","pan-traps","Coccinella_septempunctata_","species","beetles",1,NA,2880,NA,"8 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (4 sets per transect) at 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","AUS-NON1_2017","pan-traps","Eupeodes_corollae_","morphospecies","syrphids",2,NA,2880,NA,"8 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (4 sets per transect) at 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","AUS-NON1_2017","pan-traps","Hyperaea_femoralis_","species","other_flies",1,NA,2880,NA,"8 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (4 sets per transect) at 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","AUS-NON1_2017","pan-traps","Melanostoma_mellinum_","species","syrphids",1,NA,2880,NA,"8 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (4 sets per transect) at 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","AUS-NON1_2017","pan-traps","Sphaerophoria_scripta_","species","syrphids",1,NA,2880,NA,"8 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (4 sets per transect) at 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","AUS-NON1_2017","pan-traps","Stomorhina_lunata_","species","other_flies",1,NA,2880,NA,"8 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (4 sets per transect) at 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","AUS-NON1_2017","pan-traps","Usia_sp 1_","morphospecies","humbleflies",34,NA,2880,NA,"8 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (4 sets per transect) at 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","AUS-NON1_2017","pan-traps","Lasioglossum_malachurum_","morphospecies","other_wild_bees",7,NA,2880,NA,"8 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (4 sets per transect) at 0, 15, 30 and 60m","According to the corresponding author, if there are several pan-trap records for a given species at a given site, it means that such record was identified to a morphospecies."
"Silvia_Castro_Helianthus_annuus_Spain_2017","AUS-NON1_2017","pan-traps","Andrena_albopunctata_melona","species","other_wild_bees",2,NA,2880,NA,"8 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (4 sets per transect) at 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","AUS-NON1_2017","pan-traps","Apis_mellifera_","species","honeybees",37,NA,2880,NA,"8 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (4 sets per transect) at 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","AUS-NON1_2017","pan-traps","Halictus_patellatus_","species","other_wild_bees",2,NA,2880,NA,"8 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (4 sets per transect) at 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","AUS-NON1_2017","pan-traps","Halictus_quadricinctus_","species","other_wild_bees",5,NA,2880,NA,"8 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (4 sets per transect) at 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","AUS-NON1_2017","pan-traps","Halictus_scabiosae_","species","other_wild_bees",10,NA,2880,NA,"8 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (4 sets per transect) at 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","AUS-NON1_2017","pan-traps","Halictus_smaragdulus_","species","other_wild_bees",5,NA,2880,NA,"8 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (4 sets per transect) at 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","AUS-NON1_2017","pan-traps","Halictus_sp._","genus","other_wild_bees",4,NA,2880,NA,"8 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (4 sets per transect) at 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","AUS-NON1_2017","pan-traps","Lasioglossum_albocinctum_","species","other_wild_bees",8,NA,2880,NA,"8 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (4 sets per transect) at 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","AUS-NON1_2017","pan-traps","Lasioglossum_glabriusculum_","species","other_wild_bees",12,NA,2880,NA,"8 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (4 sets per transect) at 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","AUS-NON1_2017","pan-traps","Lasioglossum_interruptum_","species","other_wild_bees",1,NA,2880,NA,"8 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (4 sets per transect) at 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","AUS-NON1_2017","pan-traps","Lasioglossum_leucozonium_","species","other_wild_bees",2,NA,2880,NA,"8 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (4 sets per transect) at 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","AUS-NON1_2017","pan-traps","Lasioglossum_malachurum_","morphospecies","other_wild_bees",29,NA,2880,NA,"8 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (4 sets per transect) at 0, 15, 30 and 60m","According to the corresponding author, if there are several pan-trap records for a given species at a given site, it means that such record was identified to a morphospecies."
"Silvia_Castro_Helianthus_annuus_Spain_2017","AUS-NON1_2017","pan-traps","Lasioglossum_MORFO D_","morphospecies","other_wild_bees",1,NA,2880,NA,"8 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (4 sets per transect) at 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","AUS-NON1_2017","pan-traps","Lasioglossum_pauxillum_","species","other_wild_bees",1,NA,2880,NA,"8 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (4 sets per transect) at 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","AUS-NON1_2017","pan-traps","Lasioglossum_perclavipes_","species","other_wild_bees",1,NA,2880,NA,"8 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (4 sets per transect) at 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","AUS-NON1_2017","pan-traps","Lasioglossum_sp._","genus","other_wild_bees",1,NA,2880,NA,"8 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (4 sets per transect) at 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","AUS-NON1_2017","pan-traps","Megachile_pilidens_","species","other_wild_bees",1,NA,2880,NA,"8 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (4 sets per transect) at 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","AUS-NON1_2017","pan-traps","Pimpla_sp._","genus","non_bee_hymenoptera",1,NA,2880,NA,"8 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (4 sets per transect) at 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","AUS-NON1_2017","pan-traps","Podalonia_cf. hirsuta_","species","non_bee_hymenoptera",6,NA,2880,NA,"8 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (4 sets per transect) at 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","AUS-NON1_2017","pan-traps","Polistes_dominula_","species","non_bee_hymenoptera",1,NA,2880,NA,"8 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (4 sets per transect) at 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","AUS-NON1_2017","pan-traps","Trypoxylon_sp._","genus","non_bee_hymenoptera",1,NA,2880,NA,"8 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (4 sets per transect) at 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","MEL-EGI1_2017","pan-traps","Adonia_variegata_","species","beetles",4,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","MEL-EGI1_2017","pan-traps","Usia_sp 1_","morphospecies","humbleflies",2,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","MEL-EGI1_2017","pan-traps","Diptera","order","other_flies",1,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","MEL-EGI1_2017","pan-traps","Andrena_hispania_","species","other_wild_bees",1,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","MEL-EGI1_2017","pan-traps","Andrena_morio_","species","other_wild_bees",1,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","MEL-EGI1_2017","pan-traps","Andrena_sp._","genus","other_wild_bees",2,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","MEL-EGI1_2017","pan-traps","Apis_mellifera_","species","honeybees",25,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","MEL-EGI1_2017","pan-traps","Chrysis_sp._","genus","non_bee_hymenoptera",1,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","MEL-EGI1_2017","pan-traps","Colpa_quinquecincta_occidentalis","species","non_bee_hymenoptera",1,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","MEL-EGI1_2017","pan-traps","Halictus_sp._","genus","other_wild_bees",10,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","MEL-EGI1_2017","pan-traps","Hymenoptera_sp 11","morphospecies","non_bee_hymenoptera",4,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","MEL-EGI1_2017","pan-traps","Lasioglossum_sp._","genus","other_wild_bees",28,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","MEL-EGI1_2017","pan-traps","Megachile_pilidens_","species","other_wild_bees",2,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","MEL-EGI1_2017","pan-traps","Oxybelus_sp._","genus","non_bee_hymenoptera",1,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","MEL-EGI1_2017","pan-traps","Panurgus_cephalotes_","species","other_wild_bees",1,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","MEL-EGI1_2017","pan-traps","Vespula_sp._","genus","non_bee_hymenoptera",1,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","MEL-EGI1_2017","pan-traps","Hymenoptera","order","non_bee_hymenoptera",7,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","MEL-EGI1_2017","pan-traps","Lepidoptera","order","lepidoptera",4,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","MEL-NGI1_2017","pan-traps","Oxythyrea_funesta_","species","beetles",3,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","MEL-NGI1_2017","pan-traps","Stenopterus_sp._","genus","beetles",1,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","MEL-NGI1_2017","pan-traps","Diptera_sp3","morphospecies","other_flies",1,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","MEL-NGI1_2017","pan-traps","Eupeodes_sp._","genus","syrphids",1,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","MEL-NGI1_2017","pan-traps","Syritta _pipiens_","species","syrphids",1,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","MEL-NGI1_2017","pan-traps","Usia_sp 1_","morphospecies","humbleflies",1,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","MEL-NGI1_2017","pan-traps","Diptera","order","other_flies",8,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","MEL-NGI1_2017","pan-traps","Andrena_flavipes_","species","other_wild_bees",1,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","MEL-NGI1_2017","pan-traps","Andrena_hispania_","species","other_wild_bees",1,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","MEL-NGI1_2017","pan-traps","Andrena_sp._","genus","other_wild_bees",2,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","MEL-NGI1_2017","pan-traps","Apis_mellifera_","species","honeybees",23,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","MEL-NGI1_2017","pan-traps","Halictus_sp._","genus","other_wild_bees",31,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","MEL-NGI1_2017","pan-traps","Hymenoptera_sp 7","morphospecies","non_bee_hymenoptera",1,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","MEL-NGI1_2017","pan-traps","Hymenoptera_sp 8","morphospecies","non_bee_hymenoptera",1,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","MEL-NGI1_2017","pan-traps","Lasioglossum_sp._","genus","other_wild_bees",36,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","MEL-NGI1_2017","pan-traps","Melllina_arvensis_","species","non_bee_hymenoptera",1,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","MEL-NGI1_2017","pan-traps","Mutilla_sp._","genus","non_bee_hymenoptera",1,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","MEL-NGI1_2017","pan-traps","Oxybelus_sp._","genus","non_bee_hymenoptera",1,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","MEL-NGI1_2017","pan-traps","Pseudapis_sp._","genus","other_wild_bees",1,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","MEL-NGI1_2017","pan-traps","Trypoxylon_sp._","genus","non_bee_hymenoptera",2,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","MEL-NGI1_2017","pan-traps","Vespula_sp._","genus","non_bee_hymenoptera",7,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","MEL-NGI1_2017","pan-traps","Lepidoptera","order","lepidoptera",2,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","MEL-NON1_2017","pan-traps","Adonia_variegata_","species","beetles",4,NA,2880,NA,"8 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (4 sets per transect) at 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","MEL-NON1_2017","pan-traps","Oxythyrea_funesta_","species","beetles",2,NA,2880,NA,"8 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (4 sets per transect) at 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","MEL-NON1_2017","pan-traps","Tytthaspis _sedecinguttata_","species","beetles",1,NA,2880,NA,"8 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (4 sets per transect) at 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","MEL-NON1_2017","pan-traps","Diptera_sp.1","morphospecies","other_flies",1,NA,2880,NA,"8 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (4 sets per transect) at 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","MEL-NON1_2017","pan-traps","Diptera_sp.2","morphospecies","other_flies",6,NA,2880,NA,"8 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (4 sets per transect) at 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","MEL-NON1_2017","pan-traps","Eupeodes_sp._","genus","syrphids",1,NA,2880,NA,"8 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (4 sets per transect) at 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","MEL-NON1_2017","pan-traps","Lucilia_sp._","genus","other_flies",2,NA,2880,NA,"8 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (4 sets per transect) at 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","MEL-NON1_2017","pan-traps","Musca_domestica_","species","other_flies",1,NA,2880,NA,"8 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (4 sets per transect) at 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","MEL-NON1_2017","pan-traps","Apis_mellifera_","species","honeybees",38,NA,2880,NA,"8 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (4 sets per transect) at 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","MEL-NON1_2017","pan-traps","Halictus_sp._","genus","other_wild_bees",5,NA,2880,NA,"8 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (4 sets per transect) at 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","MEL-NON1_2017","pan-traps","Lasioglossum_sp._","genus","other_wild_bees",23,NA,2880,NA,"8 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (4 sets per transect) at 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","MEL-NON1_2017","pan-traps","Megachile_pilidens_","species","other_wild_bees",1,NA,2880,NA,"8 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (4 sets per transect) at 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","MEL-NON1_2017","pan-traps","Vespula_sp._","genus","non_bee_hymenoptera",2,NA,2880,NA,"8 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (4 sets per transect) at 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","MEL-NON1_2017","pan-traps","Lepidoptera","order","lepidoptera",7,NA,2880,NA,"8 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (4 sets per transect) at 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","PRE-EGI1_2017","pan-traps","Adonia_variegata_","species","beetles",4,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","PRE-EGI1_2017","pan-traps","Coccinella_septempunctata_","species","beetles",2,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","PRE-EGI1_2017","pan-traps","Amegilla_bimaculata_","species","other_wild_bees",1,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","PRE-EGI1_2017","pan-traps","Andrena_albopunctata_melona","species","other_wild_bees",1,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","PRE-EGI1_2017","pan-traps","Andrena_flavipes_","species","other_wild_bees",1,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","PRE-EGI1_2017","pan-traps","Apis_mellifera_","species","honeybees",99,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","PRE-EGI1_2017","pan-traps","Colpa_sexmaculata_","species","non_bee_hymenoptera",1,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","PRE-EGI1_2017","pan-traps","Halictus_patellatus_","species","other_wild_bees",4,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","PRE-EGI1_2017","pan-traps","Halictus_quadricinctus_","species","other_wild_bees",1,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","PRE-EGI1_2017","pan-traps","Halictus_scabiosae_","species","other_wild_bees",1,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","PRE-EGI1_2017","pan-traps","Hylaeus_sp._","genus","other_wild_bees",1,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","PRE-EGI1_2017","pan-traps","Lasioglossum_albocinctum_","species","other_wild_bees",16,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","PRE-EGI1_2017","pan-traps","Lasioglossum_corvinum_","species","other_wild_bees",1,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","PRE-EGI1_2017","pan-traps","Lasioglossum_discum_","species","other_wild_bees",8,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","PRE-EGI1_2017","pan-traps","Lasioglossum_interruptum_","species","other_wild_bees",5,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","PRE-EGI1_2017","pan-traps","Lasioglossum_malachurum_","species","other_wild_bees",30,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","PRE-EGI1_2017","pan-traps","Lasioglossum_sp._","genus","other_wild_bees",5,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","PRE-EGI1_2017","pan-traps","Megachile_pilidens_","species","other_wild_bees",1,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","PRE-EGI1_2017","pan-traps","Podalonia_cf. hirsuta_","species","non_bee_hymenoptera",11,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","PRE-EGI2_2017","pan-traps","Adonia_variegata_","species","beetles",4,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","PRE-EGI2_2017","pan-traps","Coccinella_septempunctata_","species","beetles",1,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","PRE-EGI2_2017","pan-traps","Rhagonycha _fulva_","species","beetles",2,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","PRE-EGI2_2017","pan-traps","Usia_sp 1_","morphospecies","humbleflies",9,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","PRE-EGI2_2017","pan-traps","Ammophila_sp._","genus","non_bee_hymenoptera",2,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","PRE-EGI2_2017","pan-traps","Andrena_ pilipes_","species","other_wild_bees",1,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","PRE-EGI2_2017","pan-traps","Andrena_albopunctata_melona","species","other_wild_bees",1,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","PRE-EGI2_2017","pan-traps","Anthidium _manicatum_","species","other_wild_bees",1,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","PRE-EGI2_2017","pan-traps","Anthophora_bimaculata_","species","other_wild_bees",1,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","PRE-EGI2_2017","pan-traps","Apis_mellifera_","species","honeybees",127,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","PRE-EGI2_2017","pan-traps","Bombus_laessus_","species","bumblebees",1,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","PRE-EGI2_2017","pan-traps","Colpa_sexmaculata_","species","non_bee_hymenoptera",1,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","PRE-EGI2_2017","pan-traps","Eumenes_sp._","genus","non_bee_hymenoptera",2,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","PRE-EGI2_2017","pan-traps","Halictus_patellatus_","species","other_wild_bees",2,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","PRE-EGI2_2017","pan-traps","Halictus_quadricinctus_","species","other_wild_bees",6,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","PRE-EGI2_2017","pan-traps","Halictus_scabiosae_","species","other_wild_bees",3,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","PRE-EGI2_2017","pan-traps","Lasioglossum_albocinctum_","species","other_wild_bees",4,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","PRE-EGI2_2017","pan-traps","Lasioglossum_discum_","species","other_wild_bees",6,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","PRE-EGI2_2017","pan-traps","Lasioglossum_glabriusculum_","species","other_wild_bees",6,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","PRE-EGI2_2017","pan-traps","Lasioglossum_interruptum_","species","other_wild_bees",2,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","PRE-EGI2_2017","pan-traps","Lasioglossum_malachurum_","species","other_wild_bees",14,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","PRE-EGI2_2017","pan-traps","Lasioglossum_perclavipes_","species","other_wild_bees",1,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","PRE-EGI2_2017","pan-traps","Lithurgus_cornuta_","species","other_wild_bees",1,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","PRE-EGI2_2017","pan-traps","Megachile_melanopyga_","species","other_wild_bees",2,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","PRE-EGI2_2017","pan-traps","Megachile_pilidens_","species","other_wild_bees",1,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","PRE-EGI2_2017","pan-traps","Ophion_sp._","genus","non_bee_hymenoptera",1,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","PRE-EGI2_2017","pan-traps","Podalonia_cf. hirsuta_","species","non_bee_hymenoptera",2,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","PRE-EGI2_2017","pan-traps","Polistes_sp._","genus","non_bee_hymenoptera",1,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","PRE-EGI2_2017","pan-traps","Colias_alfacariensis_","species","lepidoptera",1,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","PRE-EGI2_2017","pan-traps","Hyles_euphorbiae_","species","lepidoptera",1,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","PRE-EGI2_2017","pan-traps","Species no.1","morphospecies","lepidoptera",8,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","PRE-NON1_2017","pan-traps","Adonia_variegata_","species","beetles",1,NA,2880,NA,"8 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (4 sets per transect) at 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","PRE-NON1_2017","pan-traps","Coccinella_septempunctata_","species","beetles",2,NA,2880,NA,"8 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (4 sets per transect) at 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","PRE-NON1_2017","pan-traps","Usia_sp 1_","morphospecies","humbleflies",1,NA,2880,NA,"8 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (4 sets per transect) at 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","PRE-NON1_2017","pan-traps","Andrena_ pilipes_","species","other_wild_bees",1,NA,2880,NA,"8 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (4 sets per transect) at 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","PRE-NON1_2017","pan-traps","Apis_mellifera_","species","honeybees",80,NA,2880,NA,"8 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (4 sets per transect) at 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","PRE-NON1_2017","pan-traps","Dasypoda_altercator_","species","other_wild_bees",1,NA,2880,NA,"8 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (4 sets per transect) at 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","PRE-NON1_2017","pan-traps","Halictus_patellatus_","species","other_wild_bees",1,NA,2880,NA,"8 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (4 sets per transect) at 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","PRE-NON1_2017","pan-traps","Halictus_quadricinctus_","species","other_wild_bees",6,NA,2880,NA,"8 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (4 sets per transect) at 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","PRE-NON1_2017","pan-traps","Halictus_scabiosae_","species","other_wild_bees",5,NA,2880,NA,"8 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (4 sets per transect) at 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","PRE-NON1_2017","pan-traps","Lasioglossum_albocinctum_","species","other_wild_bees",1,NA,2880,NA,"8 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (4 sets per transect) at 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","PRE-NON1_2017","pan-traps","Lasioglossum_corvinum_","species","other_wild_bees",2,NA,2880,NA,"8 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (4 sets per transect) at 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","PRE-NON1_2017","pan-traps","Lasioglossum_discum_","species","other_wild_bees",9,NA,2880,NA,"8 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (4 sets per transect) at 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","PRE-NON1_2017","pan-traps","Lasioglossum_glabriusculum_","species","other_wild_bees",3,NA,2880,NA,"8 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (4 sets per transect) at 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","PRE-NON1_2017","pan-traps","Lasioglossum_malachurum_","species","other_wild_bees",31,NA,2880,NA,"8 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (4 sets per transect) at 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","PRE-NON1_2017","pan-traps","Lasioglossum_pauxillum_","species","other_wild_bees",1,NA,2880,NA,"8 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (4 sets per transect) at 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","PRE-NON1_2017","pan-traps","Lasioglossum_politum_","species","other_wild_bees",1,NA,2880,NA,"8 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (4 sets per transect) at 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","PRE-NON1_2017","pan-traps","Lasioglossum_sp._","genus","other_wild_bees",3,NA,2880,NA,"8 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (4 sets per transect) at 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","RED-EGI1_2017","pan-traps","Coccinella_septempunctata_","species","beetles",7,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","RED-EGI1_2017","pan-traps","Oxythyrea_funesta_","species","beetles",2,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","RED-EGI1_2017","pan-traps","Diptera","order","other_flies",9,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","RED-EGI1_2017","pan-traps","Amegilla_bimaculata_","species","other_wild_bees",2,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","RED-EGI1_2017","pan-traps","Andrena_albopunctata_melona","species","other_wild_bees",3,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","RED-EGI1_2017","pan-traps","Andrena_flavipes_","species","other_wild_bees",1,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","RED-EGI1_2017","pan-traps","Apis_mellifera_","species","honeybees",12,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","RED-EGI1_2017","pan-traps","Ceratina_chalcites_","species","other_wild_bees",1,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","RED-EGI1_2017","pan-traps","Hylaeus_variegatus_","species","other_wild_bees",1,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","RED-EGI1_2017","pan-traps","Lasioglossum_malachurum_","species","other_wild_bees",8,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","RED-EGI1_2017","pan-traps","Podalonia_cf. hirsuta_","species","non_bee_hymenoptera",3,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","RED-EGI1_2017","pan-traps","Xylocopa_sp._","genus","other_wild_bees",1,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","RED-EGI1_2017","pan-traps","Xylocopa_violacea_","species","other_wild_bees",2,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","RED-EGI1_2017","pan-traps","Melitaea_phoebe_","species","lepidoptera",1,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","RED-EGI1_2017","pan-traps","Sp. 2","morphospecies","lepidoptera",2,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","RED-EGI2_2017","pan-traps","Clanoptilus_cf. elegans_","species","beetles",8,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","RED-EGI2_2017","pan-traps","Coccinella_septempunctata_","species","beetles",1,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","RED-EGI2_2017","pan-traps","Usia_sp 1_","morphospecies","humbleflies",5,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","RED-EGI2_2017","pan-traps","Lasioglossum_malachurum_","morphospecies","other_wild_bees",4,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m","According to the corresponding author, if there are several pan-trap records for a given species at a given site, it means that such record was identified to a morphospecies."
"Silvia_Castro_Helianthus_annuus_Spain_2017","RED-EGI2_2017","pan-traps","Andrena_albopunctata_melona","species","other_wild_bees",1,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","RED-EGI2_2017","pan-traps","Apis_mellifera_","species","honeybees",17,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","RED-EGI2_2017","pan-traps","Bombus_terrestris_","species","bumblebees",1,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","RED-EGI2_2017","pan-traps","Halictus_quadricinctus_","species","other_wild_bees",2,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","RED-EGI2_2017","pan-traps","Halictus_scabiosae_","species","other_wild_bees",6,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","RED-EGI2_2017","pan-traps","Halictus_sexcinctus_","species","other_wild_bees",1,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","RED-EGI2_2017","pan-traps","Halictus_smaragdulus_","species","other_wild_bees",1,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","RED-EGI2_2017","pan-traps","Lasioglossum_albocinctum_","species","other_wild_bees",9,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","RED-EGI2_2017","pan-traps","Lasioglossum_glabriusculum_","species","other_wild_bees",11,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","RED-EGI2_2017","pan-traps","Lasioglossum_interruptum_","species","other_wild_bees",2,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","RED-EGI2_2017","pan-traps","Lasioglossum_malachurum_","morphospecies","other_wild_bees",17,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m","According to the corresponding author, if there are several pan-trap records for a given species at a given site, it means that such record was identified to a morphospecies."
"Silvia_Castro_Helianthus_annuus_Spain_2017","RED-EGI2_2017","pan-traps","Lasioglossum_pauxillum_","species","other_wild_bees",1,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","RED-EGI2_2017","pan-traps","Polistes_sp._","genus","non_bee_hymenoptera",1,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","RED-NGI1_2017","pan-traps","Chlorophorus_trifasciatus_","species","beetles",5,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","RED-NGI1_2017","pan-traps","Clanoptilus_cf. elegans_","species","beetles",1,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","RED-NGI1_2017","pan-traps","Coccinella_septempunctata_","species","beetles",1,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","RED-NGI1_2017","pan-traps","Mylabris_quadripunctata_","morphospecies","beetles",1,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","RED-NGI1_2017","pan-traps","Potosia_oblonga_","species","beetles",1,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","RED-NGI1_2017","pan-traps","Andrena_albopunctata_melona","species","other_wild_bees",1,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","RED-NGI1_2017","pan-traps","Apis_mellifera_","species","honeybees",1,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","RED-NGI1_2017","pan-traps","Arge _sp._","genus","non_bee_hymenoptera",1,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","RED-NGI1_2017","pan-traps","Halictus_patellatus_","species","other_wild_bees",2,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","RED-NGI1_2017","pan-traps","Halictus_scabiosae_","species","other_wild_bees",1,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","RED-NGI1_2017","pan-traps","Halictus_smaragdulus_","species","other_wild_bees",4,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","RED-NGI1_2017","pan-traps","Halictus_sp._","genus","other_wild_bees",3,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","RED-NGI1_2017","pan-traps","Lasioglossum_albocinctum_","species","other_wild_bees",2,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","RED-NGI1_2017","pan-traps","Lasioglossum_corvinum_","species","other_wild_bees",10,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","RED-NGI1_2017","pan-traps","Lasioglossum_discum_","species","other_wild_bees",4,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","RED-NGI1_2017","pan-traps","Lasioglossum_glabriusculum_","species","other_wild_bees",97,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","RED-NGI1_2017","pan-traps","Lasioglossum_interruptum_","species","other_wild_bees",2,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","RED-NGI1_2017","pan-traps","Lasioglossum_malachurum_","species","other_wild_bees",3,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","RED-NGI1_2017","pan-traps","Lasioglossum_MORFO A_","morphospecies","other_wild_bees",1,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","RED-NGI1_2017","pan-traps","Lasioglossum_perclavipes_","species","other_wild_bees",9,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","RED-NGI1_2017","pan-traps","Lasioglossum_sp._","genus","other_wild_bees",5,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","RED-NGI1_2017","pan-traps","Panurgus_cephalotes_","species","other_wild_bees",1,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","RED-NGI1_2017","pan-traps","Polistes_dominula_","species","non_bee_hymenoptera",8,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","RED-NGI1_2017","pan-traps","Polistes_nympha_","species","non_bee_hymenoptera",1,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","RED-NON1_2017","pan-traps","Coccinella_septempunctata_","species","beetles",1,NA,2880,NA,"8 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (4 sets per transect) at 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","RED-NON1_2017","pan-traps","Tytthaspis _sedecinguttata_","species","beetles",1,NA,2880,NA,"8 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (4 sets per transect) at 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","RED-NON1_2017","pan-traps","Diptera","order","other_flies",9,NA,2880,NA,"8 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (4 sets per transect) at 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","RED-NON1_2017","pan-traps","Lasioglossum_malachurum_","species","other_wild_bees",6,NA,2880,NA,"8 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (4 sets per transect) at 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","RED-NON1_2017","pan-traps","Andrena_flavipes_","species","other_wild_bees",1,NA,2880,NA,"8 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (4 sets per transect) at 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","RED-NON1_2017","pan-traps","Apis_mellifera_","species","honeybees",3,NA,2880,NA,"8 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (4 sets per transect) at 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","RED-NON1_2017","pan-traps","Athalia _sp._","genus","non_bee_hymenoptera",1,NA,2880,NA,"8 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (4 sets per transect) at 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","RED-NON1_2017","pan-traps","Bombus_terrestris_","species","bumblebees",1,NA,2880,NA,"8 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (4 sets per transect) at 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","RED-NON1_2017","pan-traps","Halictus_patellatus_","species","other_wild_bees",7,NA,2880,NA,"8 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (4 sets per transect) at 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","RED-NON1_2017","pan-traps","Halictus_quadricinctus_","species","other_wild_bees",8,NA,2880,NA,"8 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (4 sets per transect) at 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","RED-NON1_2017","pan-traps","Halictus_scabiosae_","species","other_wild_bees",16,NA,2880,NA,"8 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (4 sets per transect) at 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","RED-NON1_2017","pan-traps","Halictus_sexcinctus_","species","other_wild_bees",1,NA,2880,NA,"8 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (4 sets per transect) at 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","RED-NON1_2017","pan-traps","Halictus_smaragdulus_","species","other_wild_bees",1,NA,2880,NA,"8 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (4 sets per transect) at 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","RED-NON1_2017","pan-traps","Lasioglossum_albocinctum_","species","other_wild_bees",4,NA,2880,NA,"8 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (4 sets per transect) at 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","RED-NON1_2017","pan-traps","Lasioglossum_corvinum_","species","other_wild_bees",2,NA,2880,NA,"8 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (4 sets per transect) at 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","RED-NON1_2017","pan-traps","Lasioglossum_discum_","species","other_wild_bees",5,NA,2880,NA,"8 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (4 sets per transect) at 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","RED-NON1_2017","pan-traps","Lasioglossum_perclavipes_","species","other_wild_bees",5,NA,2880,NA,"8 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (4 sets per transect) at 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","RED-NON1_2017","pan-traps","Lasioglossum_sp._","genus","other_wild_bees",2,NA,2880,NA,"8 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (4 sets per transect) at 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","RED-NON1_2017","pan-traps","Megachile_rotundata_","species","other_wild_bees",1,NA,2880,NA,"8 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (4 sets per transect) at 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","RED-NON1_2017","pan-traps","Podalonia_cf. hirsuta_","species","non_bee_hymenoptera",6,NA,2880,NA,"8 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (4 sets per transect) at 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","RED-NON1_2017","pan-traps","Polistes_sp._","genus","non_bee_hymenoptera",3,NA,2880,NA,"8 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (4 sets per transect) at 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","RED-NON1_2017","pan-traps","Melitaea_phoebe_","species","lepidoptera",1,NA,2880,NA,"8 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (4 sets per transect) at 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","RED-NON1_2017","pan-traps","Lepidoptera","order","lepidoptera",2,NA,2880,NA,"8 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (4 sets per transect) at 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","VIL-EGI1_2017","pan-traps","Usia_sp 1_","morphospecies","humbleflies",5,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","VIL-EGI1_2017","pan-traps","Amegilla_quadripunctata_","species","other_wild_bees",1,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","VIL-EGI1_2017","pan-traps","Andrena_albopunctata_melona","species","other_wild_bees",4,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","VIL-EGI1_2017","pan-traps","Apis_mellifera_","species","honeybees",21,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","VIL-EGI1_2017","pan-traps","Bombus_terrestris_","species","bumblebees",1,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","VIL-EGI1_2017","pan-traps","Dasypoda_altercator_","species","other_wild_bees",1,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","VIL-EGI1_2017","pan-traps","Halictus_quadricinctus_","species","other_wild_bees",4,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","VIL-EGI1_2017","pan-traps","Halictus_scabiosae_","species","other_wild_bees",7,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","VIL-EGI1_2017","pan-traps","Halictus_sexcinctus_","species","other_wild_bees",1,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","VIL-EGI1_2017","pan-traps","Lasioglossum_malachurum_","species","other_wild_bees",17,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","VIL-EGI1_2017","pan-traps","Lasioglossum_pauxillum_","species","other_wild_bees",2,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","VIL-EGI1_2017","pan-traps","Megachile_pilidens_","species","other_wild_bees",1,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","VIL-EGI1_2017","pan-traps","Panurgus_cephalotes_","species","other_wild_bees",1,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","VIL-EGI1_2017","pan-traps","Xylocopa_violacea_","species","other_wild_bees",1,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","VIL-EGI1_2017","pan-traps","Lepidoptera","order","lepidoptera",2,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","VIL-EGI2_2017","pan-traps","Coccinella_septempunctata_","species","beetles",2,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","VIL-EGI2_2017","pan-traps","Eristalis_sp._","genus","syrphids",4,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","VIL-EGI2_2017","pan-traps","Diptera","order","other_flies",6,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","VIL-EGI2_2017","pan-traps","Amegilla_bimaculata_","species","other_wild_bees",1,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","VIL-EGI2_2017","pan-traps","Andrena_albopunctata_melona","species","other_wild_bees",7,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","VIL-EGI2_2017","pan-traps","Andrena_flavipes_","species","other_wild_bees",4,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","VIL-EGI2_2017","pan-traps","Andrena_sp._","genus","other_wild_bees",1,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","VIL-EGI2_2017","pan-traps","Apis_mellifera_","species","honeybees",12,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","VIL-EGI2_2017","pan-traps","Bombus_cullumanus_","species","bumblebees",1,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","VIL-EGI2_2017","pan-traps","Bombus_terrestris_","species","bumblebees",1,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","VIL-EGI2_2017","pan-traps","Halictus_patellatus_","species","other_wild_bees",2,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","VIL-EGI2_2017","pan-traps","Halictus_quadricinctus_","species","other_wild_bees",15,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","VIL-EGI2_2017","pan-traps","Halictus_scabiosae_","species","other_wild_bees",27,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","VIL-EGI2_2017","pan-traps","Halictus_smaragdulus_","species","other_wild_bees",8,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","VIL-EGI2_2017","pan-traps","Lasioglossum_albocinctum_","species","other_wild_bees",5,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","VIL-EGI2_2017","pan-traps","Lasioglossum_corvinum_","species","other_wild_bees",3,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","VIL-EGI2_2017","pan-traps","Lasioglossum_discum_","species","other_wild_bees",4,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","VIL-EGI2_2017","pan-traps","Lasioglossum_glabriusculum_","species","other_wild_bees",20,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","VIL-EGI2_2017","pan-traps","Lasioglossum_interruptum_","species","other_wild_bees",1,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","VIL-EGI2_2017","pan-traps","Lasioglossum_malachurum_","species","other_wild_bees",97,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","VIL-EGI2_2017","pan-traps","Lasioglossum_perclavipes_","species","other_wild_bees",3,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","VIL-EGI2_2017","pan-traps","Lasioglossum_sp._","genus","other_wild_bees",18,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","VIL-EGI2_2017","pan-traps","Ophion_sp._","genus","non_bee_hymenoptera",2,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","VIL-EGI2_2017","pan-traps","Podalonia_cf. hirsuta_","species","non_bee_hymenoptera",1,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","VIL-EGI2_2017","pan-traps","Xylocopa_iris_","species","other_wild_bees",2,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","VIL-EGI2_2017","pan-traps","Hymenoptera","order","non_bee_hymenoptera",1,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","VIL-EGI2_2017","pan-traps","Hyles_euphorbiae_","species","lepidoptera",1,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","VIL-EGI2_2017","pan-traps","sp. 3","morphospecies","lepidoptera",9,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","VIL-NGI1_2017","pan-traps","Andrena_albopunctata_melona","species","other_wild_bees",2,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","VIL-NGI1_2017","pan-traps","Andrena_flavipes_","species","other_wild_bees",2,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","VIL-NGI1_2017","pan-traps","Apis_mellifera_","species","honeybees",31,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","VIL-NGI1_2017","pan-traps","Ceratina_cyanea_","species","other_wild_bees",1,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","VIL-NGI1_2017","pan-traps","Eucera_cineraria_","species","other_wild_bees",2,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","VIL-NGI1_2017","pan-traps","Eucera_sp._","genus","other_wild_bees",1,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","VIL-NGI1_2017","pan-traps","Lasioglossum_corvinum_","species","other_wild_bees",12,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","VIL-NGI1_2017","pan-traps","Lasioglossum_glabriusculum_","species","other_wild_bees",111,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","VIL-NGI1_2017","pan-traps","Lasioglossum_interruptum_","species","other_wild_bees",2,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","VIL-NGI1_2017","pan-traps","Lasioglossum_malachurum_","species","other_wild_bees",3,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","VIL-NGI1_2017","pan-traps","Lasioglossum_MORFO A_","morphospecies","other_wild_bees",8,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","VIL-NGI1_2017","pan-traps","Lasioglossum_sp._","genus","other_wild_bees",3,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","VIL-NGI1_2017","pan-traps","Megachile_pilidens_","species","other_wild_bees",1,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","VIL-NGI1_2017","pan-traps","Nomada_sp._","genus","other_wild_bees",1,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","VIL-NGI1_2017","pan-traps","Panurgus_cephalotes_","species","other_wild_bees",1,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","VIL-NON1_2017","pan-traps","Amegilla_bimaculata_","species","other_wild_bees",1,NA,2880,NA,"8 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (4 sets per transect) at 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","VIL-NON1_2017","pan-traps","Andrena_albopunctata_melona","species","other_wild_bees",1,NA,2880,NA,"8 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (4 sets per transect) at 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","VIL-NON1_2017","pan-traps","Andrena_flavipes_","species","other_wild_bees",1,NA,2880,NA,"8 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (4 sets per transect) at 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","VIL-NON1_2017","pan-traps","Andrena_sp._","genus","other_wild_bees",1,NA,2880,NA,"8 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (4 sets per transect) at 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","VIL-NON1_2017","pan-traps","Apis_mellifera_","species","honeybees",15,NA,2880,NA,"8 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (4 sets per transect) at 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","VIL-NON1_2017","pan-traps","Lasioglossum_corvinum_","species","other_wild_bees",1,NA,2880,NA,"8 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (4 sets per transect) at 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","VIL-NON1_2017","pan-traps","Lasioglossum_glabriusculum_","species","other_wild_bees",38,NA,2880,NA,"8 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (4 sets per transect) at 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","VIL-NON1_2017","pan-traps","Lasioglossum_interruptum_","species","other_wild_bees",1,NA,2880,NA,"8 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (4 sets per transect) at 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","VIL-NON1_2017","pan-traps","Lasioglossum_MORFO D_","morphospecies","other_wild_bees",1,NA,2880,NA,"8 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (4 sets per transect) at 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","VIL-NON1_2017","pan-traps","Lasioglossum_sp._","genus","other_wild_bees",4,NA,2880,NA,"8 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (4 sets per transect) at 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","VIL-NON1_2017","pan-traps","Megachile_pilidens_","species","other_wild_bees",3,NA,2880,NA,"8 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (4 sets per transect) at 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","PRE-NGI2_2017","pan-traps","Eupeodes_corollae_","morphospecies","syrphids",1,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","PRE-NGI2_2017","pan-traps","Diptera","order","other_flies",33,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","PRE-NGI2_2017","pan-traps","Andrena_ pilipes_","species","other_wild_bees",1,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","PRE-NGI2_2017","pan-traps","Apis_mellifera_","species","honeybees",23,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","PRE-NGI2_2017","pan-traps","Bombus_terrestris_","species","bumblebees",1,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","PRE-NGI2_2017","pan-traps","Cerceris _sp._","genus","non_bee_hymenoptera",1,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","PRE-NGI2_2017","pan-traps","Halictus_patellatus_","species","other_wild_bees",1,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","PRE-NGI2_2017","pan-traps","Halictus_quadricinctus_","species","other_wild_bees",1,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","PRE-NGI2_2017","pan-traps","Halictus_scabiosae_","species","other_wild_bees",2,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","PRE-NGI2_2017","pan-traps","Halictus_sexcinctus_","species","other_wild_bees",1,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","PRE-NGI2_2017","pan-traps","Halictus_subauratus_","species","other_wild_bees",2,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","PRE-NGI2_2017","pan-traps","Hylaeus_variegatus_","species","other_wild_bees",1,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","PRE-NGI2_2017","pan-traps","Lasioglossum_albocinctum_","species","other_wild_bees",16,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","PRE-NGI2_2017","pan-traps","Lasioglossum_discum_","species","other_wild_bees",7,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","PRE-NGI2_2017","pan-traps","Lasioglossum_glabriusculum_","species","other_wild_bees",14,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","PRE-NGI2_2017","pan-traps","Lasioglossum_malachurum_","species","other_wild_bees",21,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","PRE-NGI2_2017","pan-traps","Lasioglossum_perclavipes_","species","other_wild_bees",1,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","PRE-NGI2_2017","pan-traps","Lasioglossum_sp._","genus","other_wild_bees",3,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","PRE-NGI2_2017","pan-traps","Megachile_melanopyga_","species","other_wild_bees",1,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","PRE-NGI2_2017","pan-traps","Megachile_pilidens_","species","other_wild_bees",1,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","PRE-NGI2_2017","pan-traps","Podalonia_cf. hirsuta_","species","non_bee_hymenoptera",1,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","PRE-NGI2_2017","pan-traps","Lepidoptera","order","lepidoptera",4,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2017","PRE-NGI2_2017","census","Apis mellifera","species","honeybees",4,711,316,2526,"census of 1 min, within the field each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","AUS-EGI1_2018","census","Apoidea","superfamily","other_wild_bees",1,524.25,233,1791,"census of 1 min, within the field each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","AUS-EGI1_2018","census","Apoidea","superfamily","other_wild_bees",1,524.25,233,1791,"census of 1 min, within the field each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","AUS-EGI1_2018","census","Diptera","order","other_flies",1,524.25,233,1791,"census of 1 min, within the field each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","AUS-EGI1_2018","census","Apis mellifera","species","honeybees",850,524.25,233,1791,"census of 1 min, within the field each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","AUS-EGI1_2018","census","Andrena bimaculata","species","other_wild_bees",1,524.25,233,1791,"census of 1 min, within the field each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","AUS-EGI1_2018","census","Andrena flavipes","species","other_wild_bees",3,524.25,233,1791,"census of 1 min, within the field each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","AUS-EGI1_2018","census","Chrysoperla cf. carnea","species","other",1,524.25,233,1791,"census of 1 min, within the field each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","AUS-EGI1_2018","census","Closterotomus norwegicus","species","other",4,524.25,233,1791,"census of 1 min, within the field each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","AUS-EGI1_2018","census","Halictus scabiosae","species","other_wild_bees",1,524.25,233,1791,"census of 1 min, within the field each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","AUS-EGI1_2018","census","Oedemera simplex","species","beetles",1,524.25,233,1791,"census of 1 min, within the field each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","AUS-EGI1_2018","census","Panurgus siculus","species","other_wild_bees",2,524.25,233,1791,"census of 1 min, within the field each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","AUS-EGI1_2018","census","Halictus quadricinctus","species","other_wild_bees",1,524.25,233,1791,"census of 1 min, within the field each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","AUS-EGI1_2018","census","Piezodorus lituratus","species","other",1,524.25,233,1791,"census of 1 min, within the field each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","AUS-EGI2_2018","census","Apoidea","superfamily","other_wild_bees",1,641.25,285,1599,"census of 1 min, within the field each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","AUS-EGI2_2018","census","unidentified","other","other",1,641.25,285,1599,"census of 1 min, within the field each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","AUS-EGI2_2018","census","Apis mellifera","species","honeybees",871,641.25,285,1599,"census of 1 min, within the field each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","AUS-EGI2_2018","census","Bombus sylvarum","species","bumblebees",1,641.25,285,1599,"census of 1 min, within the field each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","AUS-EGI2_2018","census","Bombus terrestris","species","bumblebees",2,641.25,285,1599,"census of 1 min, within the field each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","AUS-EGI2_2018","census","Chrysoperla cf. carnea","species","other",1,641.25,285,1599,"census of 1 min, within the field each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","AUS-EGI2_2018","census","Closterotomus norwegicus","species","other",16,641.25,285,1599,"census of 1 min, within the field each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","AUS-NGI1_2018","census","Coccinellidae","family","beetles",1,870.75,387,2899,"census of 1 min, within the field each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","AUS-NGI1_2018","census","Hemiptera","order","other",125,870.75,387,2899,"census of 1 min, within the field each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","AUS-NGI1_2018","census","Apis mellifera","species","honeybees",1750,870.75,387,2899,"census of 1 min, within the field each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","AUS-NGI1_2018","census","Bombus sylvarum","species","bumblebees",1,870.75,387,2899,"census of 1 min, within the field each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","AUS-NGI1_2018","census","Closterotomus norwegicus","species","other",55,870.75,387,2899,"census of 1 min, within the field each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","AUS-NGI1_2018","census","Coccinella septempunctata","species","beetles",2,870.75,387,2899,"census of 1 min, within the field each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","AUS-NGI1_2018","census","Eristalis sp.","genus","syrphids",1,870.75,387,2899,"census of 1 min, within the field each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","AUS-NGI1_2018","census","Eristalis tenax","species","syrphids",1,870.75,387,2899,"census of 1 min, within the field each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","AUS-NGI1_2018","census","Lucilia sp.","genus","other_flies",1,870.75,387,2899,"census of 1 min, within the field each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","AUS-NGI1_2018","census","Stelis breviuscula","species","other_wild_bees",1,870.75,387,2899,"census of 1 min, within the field each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","AUS-NGI1_2018","census","Chrysoperla cf. carnea","species","other",1,870.75,387,2899,"census of 1 min, within the field each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","AUS-NON1_2018","census","Diptera","order","other_flies",2,720,320,1938,"census of 1 min, within the field each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","AUS-NON1_2018","census","Apis mellifera","species","honeybees",748,720,320,1938,"census of 1 min, within the field each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","AUS-NON1_2018","census","Closterotomus norwegicus","species","other",35,720,320,1938,"census of 1 min, within the field each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","AUS-NON1_2018","census","Dasypoda sp.","genus","other_wild_bees",1,720,320,1938,"census of 1 min, within the field each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","AUS-NON1_2018","census","Dolycoris baccarum","species","other",1,720,320,1938,"census of 1 min, within the field each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","AUS-NON1_2018","census","Eupeodes sp.","genus","other_flies",1,720,320,1938,"census of 1 min, within the field each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","AUS-NON1_2018","census","Lasioglossum sp.","genus","other_wild_bees",2,720,320,1938,"census of 1 min, within the field each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","MEL-NGI1_2018","census","Arachnidae","class","other",1,762.75,339,2013,"census of 1 min, within the field each in areas of aprox. 1.5x1.5m","Arachnida"
"Silvia_Castro_Helianthus_annuus_Spain_2018","MEL-NGI1_2018","census","Diptera sp5","morphospecies","other_flies",1,762.75,339,2013,"census of 1 min, within the field each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","MEL-NGI1_2018","census","Diptera sp6","morphospecies","other_flies",1,762.75,339,2013,"census of 1 min, within the field each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","MEL-NGI1_2018","census","Diptera sp7","morphospecies","other_flies",1,762.75,339,2013,"census of 1 min, within the field each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","MEL-NGI1_2018","census","Apis mellifera","species","honeybees",221,762.75,339,2013,"census of 1 min, within the field each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","MEL-NGI1_2018","census","Bombus terrestris","species","bumblebees",4,762.75,339,2013,"census of 1 min, within the field each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","MEL-NGI1_2018","census","Brachymeria sp.","genus","non_bee_hymenoptera",2,762.75,339,2013,"census of 1 min, within the field each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","MEL-NGI1_2018","census","Chrysis ignita","species","non_bee_hymenoptera",1,762.75,339,2013,"census of 1 min, within the field each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","MEL-NGI1_2018","census","Chrysoperla cf. carnea","species","other",18,762.75,339,2013,"census of 1 min, within the field each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","MEL-NGI1_2018","census","Closterotomus norwegicus","species","other",7,762.75,339,2013,"census of 1 min, within the field each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","MEL-NGI1_2018","census","Coccinella septempunctata","species","beetles",2,762.75,339,2013,"census of 1 min, within the field each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","MEL-NGI1_2018","census","Dasypoda sp.","genus","other_wild_bees",1,762.75,339,2013,"census of 1 min, within the field each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","MEL-NGI1_2018","census","Helophilus trivittatus","species","other_flies",1,762.75,339,2013,"census of 1 min, within the field each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","MEL-NGI1_2018","census","Lasioglossum sp.","genus","other_wild_bees",2,762.75,339,2013,"census of 1 min, within the field each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","MEL-NGI1_2018","census","Macroglossum stellatarum","species","lepidoptera",1,762.75,339,2013,"census of 1 min, within the field each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","MEL-NGI1_2018","census","Oxythyrea funesta","species","beetles",1,762.75,339,2013,"census of 1 min, within the field each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","MEL-NGI1_2018","census","Sphaerophoria cf. scripta","species","syrphids",5,762.75,339,2013,"census of 1 min, within the field each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","MEL-NGI1_2018","census","Sphaerophoria scripta","species","syrphids",4,762.75,339,2013,"census of 1 min, within the field each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","MEL-NGI1_2018","census","Stomorhina lunata","species","other_flies",3,762.75,339,2013,"census of 1 min, within the field each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","MEL-EGI1_2018","census","Apoidea","superfamily","other_wild_bees",1,639,284,1175,"census of 1 min, within the field each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","MEL-EGI1_2018","census","Apis mellifera","species","honeybees",11,639,284,1175,"census of 1 min, within the field each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","MEL-EGI1_2018","census","Bombus sp.","genus","bumblebees",1,639,284,1175,"census of 1 min, within the field each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","MEL-EGI1_2018","census","Chrysoperla cf. carnea","species","other",1,639,284,1175,"census of 1 min, within the field each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","MEL-EGI1_2018","census","Closterotomus norwegicus","species","other",229,639,284,1175,"census of 1 min, within the field each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","MEL-EGI1_2018","census","Halictus sp.","genus","other_wild_bees",1,639,284,1175,"census of 1 min, within the field each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","MEL-NON1_2018","census","Diptera","order","other_flies",1,803.25,357,4514,"census of 1 min, within the field each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","MEL-NON1_2018","census","Orthoptera","order","other",5,803.25,357,4514,"census of 1 min, within the field each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","MEL-NON1_2018","census","Apis mellifera","species","honeybees",43,803.25,357,4514,"census of 1 min, within the field each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","MEL-NON1_2018","census","Bombus terrestris","species","bumblebees",1,803.25,357,4514,"census of 1 min, within the field each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","MEL-NON1_2018","census","Calocoris sp.","genus","other",4,803.25,357,4514,"census of 1 min, within the field each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","MEL-NON1_2018","census","Chrysoperla cf. carnea","species","other",1,803.25,357,4514,"census of 1 min, within the field each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","MEL-NON1_2018","census","Closterotomus norwegicus","species","other",10,803.25,357,4514,"census of 1 min, within the field each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","MEL-NON1_2018","census","Eristalis tenax","species","syrphids",2,803.25,357,4514,"census of 1 min, within the field each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","MEL-NON1_2018","census","Eucera sp.","genus","other_wild_bees",2,803.25,357,4514,"census of 1 min, within the field each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","MEL-NON1_2018","census","Eupeodes sp.","genus","other_flies",1,803.25,357,4514,"census of 1 min, within the field each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","MEL-NON1_2018","census","Neoscona adianta","species","other",3,803.25,357,4514,"census of 1 min, within the field each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","MEL-NON1_2018","census","Sphaerophoria cf. scripta","species","syrphids",2,803.25,357,4514,"census of 1 min, within the field each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","PRE-EGI1_2018","census","Closterotomus norwegicus","species","other",107,360,160,1267,"census of 1 min, within the field each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","PRE-EGI1_2018","census","Lygus sp.","genus","other",1,360,160,1267,"census of 1 min, within the field each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","PRE-EGI1_2018","census","Coccinella septempunctata","species","beetles",1,360,160,1267,"census of 1 min, within the field each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","PRE-EGI2_2018","census","Diptera","order","other_flies",1,450,200,1613,"census of 1 min, within the field each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","PRE-EGI2_2018","census","Lepidoptera","order","lepidoptera",1,450,200,1613,"census of 1 min, within the field each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","PRE-EGI2_2018","census","Andrena albopunctata","species","other_wild_bees",1,450,200,1613,"census of 1 min, within the field each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","PRE-EGI2_2018","census","Closterotomus norwegicus","species","other",263,450,200,1613,"census of 1 min, within the field each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","PRE-EGI2_2018","census","Sphaerophoria cf. scripta","species","syrphids",2,450,200,1613,"census of 1 min, within the field each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","PRE-EGI2_2018","census","Apis mellifera","species","honeybees",1,450,200,1613,"census of 1 min, within the field each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","PRE-NGI1_2018","census","Diptera","order","other_flies",2,722.25,321,2896,"census of 1 min, within the field each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","PRE-NGI1_2018","census","Diptera","order","other_flies",1,722.25,321,2896,"census of 1 min, within the field each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","PRE-NGI1_2018","census","unidentified","other","other",1,722.25,321,2896,"census of 1 min, within the field each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","PRE-NGI1_2018","census","Apis mellifera","species","honeybees",26,722.25,321,2896,"census of 1 min, within the field each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","PRE-NGI1_2018","census","Andrena sp.","genus","other_wild_bees",2,722.25,321,2896,"census of 1 min, within the field each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","PRE-NGI1_2018","census","Bombus campestris","species","bumblebees",1,722.25,321,2896,"census of 1 min, within the field each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","PRE-NGI1_2018","census","Closterotomus norwegicus","species","other",59,722.25,321,2896,"census of 1 min, within the field each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","PRE-NGI1_2018","census","Chrysoperla cf. carnea","species","other",3,722.25,321,2896,"census of 1 min, within the field each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","PRE-NGI1_2018","census","Halictus rubicundus","species","other_wild_bees",1,722.25,321,2896,"census of 1 min, within the field each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","PRE-NGI1_2018","census","Stomorhina lunata","species","other_flies",2,722.25,321,2896,"census of 1 min, within the field each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","PRE-NGI1_2018","census","Eupeodes sp.","genus","syrphids",1,722.25,321,2896,"census of 1 min, within the field each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","PRE-NON1_2018","census","Closterotomus norwegicus","species","other",258,722.25,321,2531,"census of 1 min, within the field each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","PRE-NON1_2018","census","Lasioglossum fratellum","species","other_wild_bees",1,722.25,321,2531,"census of 1 min, within the field each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","RED-EGI1_2018","census","Apis mellifera","species","honeybees",486,438.75,195,1142,"census of 1 min, within the field each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","RED-EGI1_2018","census","Andrena sp.","genus","other_wild_bees",1,438.75,195,1142,"census of 1 min, within the field each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","RED-EGI1_2018","census","Bombus hortorum","species","bumblebees",8,438.75,195,1142,"census of 1 min, within the field each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","RED-EGI1_2018","census","Bombus terrestris","species","bumblebees",11,438.75,195,1142,"census of 1 min, within the field each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","RED-EGI1_2018","census","Closterotomus norwegicus","species","other",1,438.75,195,1142,"census of 1 min, within the field each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","RED-EGI1_2018","census","Eristalis sp.","genus","syrphids",1,438.75,195,1142,"census of 1 min, within the field each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","RED-EGI1_2018","census","Halictus sexcinctus","species","other_wild_bees",3,438.75,195,1142,"census of 1 min, within the field each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","RED-EGI1_2018","census","Macroglossum stellatarum","species","lepidoptera",1,438.75,195,1142,"census of 1 min, within the field each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","RED-EGI1_2018","census","Megachile sp.","genus","other_wild_bees",1,438.75,195,1142,"census of 1 min, within the field each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","RED-EGI2_2018","census","Apoidea","superfamily","other_wild_bees",1,630,280,1982,"census of 1 min, within the field each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","RED-EGI2_2018","census","Apoidea","superfamily","other_wild_bees",1,630,280,1982,"census of 1 min, within the field each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","RED-EGI2_2018","census","Apoidea","superfamily","other_wild_bees",1,630,280,1982,"census of 1 min, within the field each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","RED-EGI2_2018","census","Coleoptera","order","beetles",2,630,280,1982,"census of 1 min, within the field each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","RED-EGI2_2018","census","Diptera","order","other_flies",1,630,280,1982,"census of 1 min, within the field each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","RED-EGI2_2018","census","Diptera","order","other_flies",2,630,280,1982,"census of 1 min, within the field each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","RED-EGI2_2018","census","Diptera","order","other_flies",1,630,280,1982,"census of 1 min, within the field each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","RED-EGI2_2018","census","Diptera","order","other_flies",1,630,280,1982,"census of 1 min, within the field each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","RED-EGI2_2018","census","Lepidoptera","order","lepidoptera",1,630,280,1982,"census of 1 min, within the field each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","RED-EGI2_2018","census","Apis mellifera","species","honeybees",469,630,280,1982,"census of 1 min, within the field each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","RED-EGI2_2018","census","Bombus hortorum","species","bumblebees",7,630,280,1982,"census of 1 min, within the field each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","RED-EGI2_2018","census","Eristalis sp.","genus","syrphids",27,630,280,1982,"census of 1 min, within the field each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","RED-EGI2_2018","census","Bombus lapidarius","species","bumblebees",2,630,280,1982,"census of 1 min, within the field each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","RED-EGI2_2018","census","Bombus terrestris","species","bumblebees",87,630,280,1982,"census of 1 min, within the field each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","RED-EGI2_2018","census","Syrphus ribesii","species","syrphids",4,630,280,1982,"census of 1 min, within the field each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","RED-EGI2_2018","census","Closterotomus norwegicus","species","other",11,630,280,1982,"census of 1 min, within the field each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","RED-EGI2_2018","census","Coccinella septempunctata","species","beetles",2,630,280,1982,"census of 1 min, within the field each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","RED-EGI2_2018","census","Oedemera simplex","species","beetles",2,630,280,1982,"census of 1 min, within the field each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","RED-EGI2_2018","census","Chrysoperla cf. carnea","species","other",4,630,280,1982,"census of 1 min, within the field each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","RED-EGI2_2018","census","Halictus sp.","genus","other_wild_bees",1,630,280,1982,"census of 1 min, within the field each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","RED-EGI2_2018","census","Heriades sp.","genus","other_wild_bees",1,630,280,1982,"census of 1 min, within the field each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","RED-EGI2_2018","census","Pollenia sp.","genus","other_flies",1,630,280,1982,"census of 1 min, within the field each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","RED-EGI2_2018","census","Sphaerophoria cf. scripta","species","syrphids",1,630,280,1982,"census of 1 min, within the field each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","RED-EGI2_2018","census","Stomorhina lunata","species","other_flies",2,630,280,1982,"census of 1 min, within the field each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","RED-EGI2_2018","census","Vanessa atalanta","species","lepidoptera",1,630,280,1982,"census of 1 min, within the field each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","RED-EGI2_2018","census","Vanessa cardui","species","lepidoptera",1,630,280,1982,"census of 1 min, within the field each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","RED-NGI1_2018","census","Diptera","order","other_flies",2,830.25,369,3236,"census of 1 min, within the field each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","RED-NGI1_2018","census","Diptera","order","other_flies",9,830.25,369,3236,"census of 1 min, within the field each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","RED-NGI1_2018","census","Diptera","order","other_flies",1,830.25,369,3236,"census of 1 min, within the field each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","RED-NGI1_2018","census","Apis mellifera","species","honeybees",1353,830.25,369,3236,"census of 1 min, within the field each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","RED-NGI1_2018","census","Bombus sp.","genus","bumblebees",3,830.25,369,3236,"census of 1 min, within the field each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","RED-NGI1_2018","census","Bombus terrestris","species","bumblebees",72,830.25,369,3236,"census of 1 min, within the field each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","RED-NGI1_2018","census","Eristalis sp.","genus","syrphids",6,830.25,369,3236,"census of 1 min, within the field each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","RED-NGI1_2018","census","Closterotomus norwegicus","species","other",11,830.25,369,3236,"census of 1 min, within the field each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","RED-NGI1_2018","census","syrphidae","family","syrphids",1,830.25,369,3236,"census of 1 min, within the field each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","RED-NGI1_2018","census","Coccinella septempunctata","species","beetles",1,830.25,369,3236,"census of 1 min, within the field each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","RED-NGI1_2018","census","Halictus scabiosae","species","other_wild_bees",1,830.25,369,3236,"census of 1 min, within the field each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","RED-NGI1_2018","census","Lasioglossum leucopus","species","other_wild_bees",1,830.25,369,3236,"census of 1 min, within the field each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","RED-NGI1_2018","census","Eupeodes sp.","genus","syrphids",1,830.25,369,3236,"census of 1 min, within the field each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","RED-NGI1_2018","census","Lasioglossum sp.","genus","other_wild_bees",1,830.25,369,3236,"census of 1 min, within the field each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","RED-NGI1_2018","census","Lucilia sp.","genus","other_flies",2,830.25,369,3236,"census of 1 min, within the field each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","RED-NGI1_2018","census","Panurgus siculus","species","other_wild_bees",1,830.25,369,3236,"census of 1 min, within the field each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","RED-NGI1_2018","census","Stelis breviuscula","species","other_wild_bees",1,830.25,369,3236,"census of 1 min, within the field each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","RED-NGI1_2018","census","Vanessa cardui","species","lepidoptera",1,830.25,369,3236,"census of 1 min, within the field each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","RED-NON1_2018","census","Apis mellifera","species","honeybees",756,720,320,1267,"census of 1 min, within the field each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","RED-NON1_2018","census","Bombus lapidarius","species","bumblebees",6,720,320,1267,"census of 1 min, within the field each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","RED-NON1_2018","census","Bombus magnus","species","bumblebees",4,720,320,1267,"census of 1 min, within the field each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","RED-NON1_2018","census","Bombus pascuorum","species","bumblebees",1,720,320,1267,"census of 1 min, within the field each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","RED-NON1_2018","census","Bombus sp.","genus","bumblebees",2,720,320,1267,"census of 1 min, within the field each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","RED-NON1_2018","census","Eristalis sp.","genus","syrphids",11,720,320,1267,"census of 1 min, within the field each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","RED-NON1_2018","census","Bombus terrestris","species","bumblebees",92,720,320,1267,"census of 1 min, within the field each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","RED-NON1_2018","census","Closterotomus norwegicus","species","other",15,720,320,1267,"census of 1 min, within the field each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","RED-NON1_2018","census","Chrysoperla cf. carnea","species","other",1,720,320,1267,"census of 1 min, within the field each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","RED-NON1_2018","census","Eristalis tenax","species","syrphids",17,720,320,1267,"census of 1 min, within the field each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","VIL-EGI1_2018","census","Apoidea","superfamily","other_wild_bees",2,632.25,281,3597,"census of 1 min, within the field each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","VIL-EGI1_2018","census","Arachnidae","class","other",1,632.25,281,3597,"census of 1 min, within the field each in areas of aprox. 1.5x1.5m","Arachnida"
"Silvia_Castro_Helianthus_annuus_Spain_2018","VIL-EGI1_2018","census","Coleoptera","order","beetles",2,632.25,281,3597,"census of 1 min, within the field each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","VIL-EGI1_2018","census","Orthoptera","order","other",1,632.25,281,3597,"census of 1 min, within the field each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","VIL-EGI1_2018","census","Apis mellifera","species","honeybees",109,632.25,281,3597,"census of 1 min, within the field each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","VIL-EGI1_2018","census","Bombus terrestris","species","bumblebees",1,632.25,281,3597,"census of 1 min, within the field each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","VIL-EGI1_2018","census","Closterotomus norwegicus","species","other",86,632.25,281,3597,"census of 1 min, within the field each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","VIL-EGI1_2018","census","Chrysoperla cf. carnea","species","other",6,632.25,281,3597,"census of 1 min, within the field each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","VIL-EGI1_2018","census","syrphidae","family","syrphids",2,632.25,281,3597,"census of 1 min, within the field each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","VIL-EGI1_2018","census","Coccinella septempunctata","species","beetles",1,632.25,281,3597,"census of 1 min, within the field each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","VIL-EGI1_2018","census","Forficula auricularia","species","other",1,632.25,281,3597,"census of 1 min, within the field each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","VIL-EGI1_2018","census","Lasioglossum punctatissimum","species","other_wild_bees",1,632.25,281,3597,"census of 1 min, within the field each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","VIL-EGI1_2018","census","Macroglossum stellatarum","species","lepidoptera",1,632.25,281,3597,"census of 1 min, within the field each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","VIL-EGI2_2018","census","Apis mellifera","species","honeybees",20,472.5,210,1614,"census of 1 min, within the field each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","VIL-EGI2_2018","census","Bombus ruderatus","species","bumblebees",2,472.5,210,1614,"census of 1 min, within the field each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","VIL-EGI2_2018","census","Bombus terrestris","species","bumblebees",2,472.5,210,1614,"census of 1 min, within the field each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","VIL-EGI2_2018","census","Ceratina sp.","genus","other_wild_bees",1,472.5,210,1614,"census of 1 min, within the field each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","VIL-EGI2_2018","census","Chrysoperla cf. carnea","species","other",5,472.5,210,1614,"census of 1 min, within the field each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","VIL-EGI2_2018","census","Closterotomus norwegicus","species","other",15,472.5,210,1614,"census of 1 min, within the field each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","VIL-EGI2_2018","census","Dasypoda sp.","genus","other_wild_bees",1,472.5,210,1614,"census of 1 min, within the field each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","VIL-EGI2_2018","census","Eristalis sp.","genus","syrphids",1,472.5,210,1614,"census of 1 min, within the field each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","VIL-EGI2_2018","census","Eupeodes sp.","genus","syrphids",1,472.5,210,1614,"census of 1 min, within the field each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","VIL-EGI2_2018","census","Lygaeus equestris","species","other",1,472.5,210,1614,"census of 1 min, within the field each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","VIL-EGI2_2018","census","Macroglossum stellatarum","species","lepidoptera",2,472.5,210,1614,"census of 1 min, within the field each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","VIL-EGI2_2018","census","Megachile sp.","genus","other_wild_bees",1,472.5,210,1614,"census of 1 min, within the field each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","VIL-EGI2_2018","census","Pollenia sp.","genus","other_flies",1,472.5,210,1614,"census of 1 min, within the field each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","VIL-EGI2_2018","census","Sphaerophoria cf. scripta","species","syrphids",2,472.5,210,1614,"census of 1 min, within the field each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","VIL-NGI1_2018","census","Apis mellifera","species","honeybees",7,708.75,315,2190,"census of 1 min, within the field each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","VIL-NGI1_2018","census","Bombus terrestris","species","bumblebees",2,708.75,315,2190,"census of 1 min, within the field each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","VIL-NGI1_2018","census","Chrysoperla cf. carnea","species","other",9,708.75,315,2190,"census of 1 min, within the field each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","VIL-NGI1_2018","census","Closterotomus norwegicus","species","other",12,708.75,315,2190,"census of 1 min, within the field each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","VIL-NGI1_2018","census","Coccinella septempunctata","species","beetles",6,708.75,315,2190,"census of 1 min, within the field each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","VIL-NGI1_2018","census","Eristalis tenax","species","syrphids",2,708.75,315,2190,"census of 1 min, within the field each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","VIL-NGI1_2018","census","Eupeodes sp.","genus","syrphids",2,708.75,315,2190,"census of 1 min, within the field each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","VIL-NGI1_2018","census","Halictus confusus","species","other_wild_bees",1,708.75,315,2190,"census of 1 min, within the field each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","VIL-NGI1_2018","census","Lasioglossum sp.","genus","other_wild_bees",2,708.75,315,2190,"census of 1 min, within the field each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","VIL-NGI1_2018","census","Pollenia sp.","genus","other_flies",3,708.75,315,2190,"census of 1 min, within the field each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","VIL-NGI1_2018","census","Sphaerophoria cf. scripta","species","syrphids",6,708.75,315,2190,"census of 1 min, within the field each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","VIL-NON1_2018","census","Apoidea","superfamily","other_wild_bees",1,733.5,326,4020,"census of 1 min, within the field each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","VIL-NON1_2018","census","Apoidea","superfamily","other_wild_bees",1,733.5,326,4020,"census of 1 min, within the field each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","VIL-NON1_2018","census","Arachnidae","class","other",3,733.5,326,4020,"census of 1 min, within the field each in areas of aprox. 1.5x1.5m","Arachnida"
"Silvia_Castro_Helianthus_annuus_Spain_2018","VIL-NON1_2018","census","Diptera","order","other_flies",4,733.5,326,4020,"census of 1 min, within the field each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","VIL-NON1_2018","census","Diptera","order","other_flies",2,733.5,326,4020,"census of 1 min, within the field each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","VIL-NON1_2018","census","Lepidoptera","order","lepidoptera",1,733.5,326,4020,"census of 1 min, within the field each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","VIL-NON1_2018","census","Orthoptera","order","other",2,733.5,326,4020,"census of 1 min, within the field each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","VIL-NON1_2018","census","Apis mellifera","species","honeybees",3,733.5,326,4020,"census of 1 min, within the field each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","VIL-NON1_2018","census","Bombus terrestris","species","bumblebees",3,733.5,326,4020,"census of 1 min, within the field each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","VIL-NON1_2018","census","Chrysoperla cf. carnea","species","other",9,733.5,326,4020,"census of 1 min, within the field each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","VIL-NON1_2018","census","syrphidae","family","syrphids",2,733.5,326,4020,"census of 1 min, within the field each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","VIL-NON1_2018","census","Closterotomus norwegicus","species","other",99,733.5,326,4020,"census of 1 min, within the field each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","VIL-NON1_2018","census","Coccinella septempunctata","species","beetles",4,733.5,326,4020,"census of 1 min, within the field each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","VIL-NON1_2018","census","Lasioglossum leucopus","species","other_wild_bees",1,733.5,326,4020,"census of 1 min, within the field each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","VIL-NON1_2018","census","Macroglossum stellatarum","species","lepidoptera",2,733.5,326,4020,"census of 1 min, within the field each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","VIL-NON1_2018","census","Oedemera simplex","species","beetles",2,733.5,326,4020,"census of 1 min, within the field each in areas of aprox. 1.5x1.5m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","AUS-EGI1_2018","pan-traps","Adonia_variegata_","species","beetles",1,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","AUS-EGI1_2018","pan-traps","Coccinella_septempunctata_","species","beetles",1,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","AUS-EGI1_2018","pan-traps","Lagrtia_hirta_","species","beetles",1,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","AUS-EGI1_2018","pan-traps","Sitaris_muralis_","species","beetles",1,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","AUS-EGI1_2018","pan-traps","Tytthaspis _sedecinguttata_","species","beetles",1,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","AUS-EGI1_2018","pan-traps","Episyrphus_balteatus_","species","syrphids",3,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","AUS-EGI1_2018","pan-traps","Eupeodes_corollae_","species","syrphids",1,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","AUS-EGI1_2018","pan-traps","Musca_domestica_","species","other_flies",7,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","AUS-EGI1_2018","pan-traps","Phthiria_vagans_","species","humbleflies",1,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","AUS-EGI1_2018","pan-traps","Sphaerophoria_scripta_","species","syrphids",1,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","AUS-EGI1_2018","pan-traps","Stomorhina_lunata_","species","other_flies",7,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","AUS-EGI1_2018","pan-traps","Andrena_albopunctata_melona","species","other_wild_bees",1,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","AUS-EGI1_2018","pan-traps","Andrena_flavipes_","species","other_wild_bees",8,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","AUS-EGI1_2018","pan-traps","Apis_mellifera_","species","honeybees",12,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","AUS-EGI1_2018","pan-traps","Arge _rosae_","species","non_bee_hymenoptera",1,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","AUS-EGI1_2018","pan-traps","Lasioglossum_corvinum_","species","other_wild_bees",3,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","AUS-EGI1_2018","pan-traps","Lasioglossum_costulatum_","species","other_wild_bees",1,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","AUS-EGI1_2018","pan-traps","Lasioglossum_glabriusculum_","species","other_wild_bees",1,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","AUS-EGI1_2018","pan-traps","Lasioglossum_interruptum_","species","other_wild_bees",1,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","AUS-EGI1_2018","pan-traps","Lasioglossum_malachurum_","species","other_wild_bees",2,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","AUS-EGI1_2018","pan-traps","Lasioglossum_pauxillum_","species","other_wild_bees",1,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","AUS-EGI1_2018","pan-traps","Lasioglossum_perclavipes_","species","other_wild_bees",2,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","AUS-EGI1_2018","pan-traps","Lasioglossum_puncticolle_","species","other_wild_bees",1,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","AUS-EGI1_2018","pan-traps","Panurgus_calcaratus_","species","other_wild_bees",1,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","AUS-EGI1_2018","pan-traps","Polistes_dominula_","species","non_bee_hymenoptera",1,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","AUS-EGI1_2018","pan-traps","Vespula_germanica_","species","non_bee_hymenoptera",1,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","AUS-EGI1_2018","pan-traps","Colias_alfacariensis_","species","lepidoptera",1,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","AUS-EGI1_2018","pan-traps","Thymelicus_lineola_","species","lepidoptera",1,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","AUS-EGI2_2018","pan-traps","Coccinella_septempunctata_","species","beetles",2,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","AUS-EGI2_2018","pan-traps","Mylabris_quadripunctata_","species","beetles",1,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","AUS-EGI2_2018","pan-traps","Tytthaspis _sedecinguttata_","species","beetles",2,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","AUS-EGI2_2018","pan-traps","Musca_domestica_","species","other_flies",1,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","AUS-EGI2_2018","pan-traps","Neomyia_cornicina_","species","other_flies",1,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","AUS-EGI2_2018","pan-traps","Stomorhina_lunata_","species","other_flies",4,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","AUS-EGI2_2018","pan-traps","Trupanea_amoena_","species","other_flies",1,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","AUS-EGI2_2018","pan-traps","Andrena_albopunctata_melona","species","other_wild_bees",1,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","AUS-EGI2_2018","pan-traps","Anthophora_bimaculata_","species","other_wild_bees",1,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","AUS-EGI2_2018","pan-traps","Anthophora_dispar_","species","other_wild_bees",1,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","AUS-EGI2_2018","pan-traps","Apis_mellifera_","species","honeybees",15,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","AUS-EGI2_2018","pan-traps","Bombus_cullumanus_","species","bumblebees",1,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","AUS-EGI2_2018","pan-traps","Halictus_quadricinctus_","species","other_wild_bees",1,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","AUS-EGI2_2018","pan-traps","Lasioglossum_glabriusculum_","species","other_wild_bees",4,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","AUS-EGI2_2018","pan-traps","Lasioglossum_pauperatum_","species","other_wild_bees",1,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","AUS-EGI2_2018","pan-traps","Lasioglossum_villosulum_","species","other_wild_bees",5,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","AUS-NGI1_2018","pan-traps","Adonia_variegata_","species","beetles",2,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","AUS-NGI1_2018","pan-traps","Coccinella_septempunctata_","species","beetles",1,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","AUS-NGI1_2018","pan-traps","Aplomya_confinis_","species","other_flies",1,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","AUS-NGI1_2018","pan-traps","Cylindromyia_bicolor_","species","other_flies",1,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","AUS-NGI1_2018","pan-traps","Eupeodes_corollae_","species","syrphids",2,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","AUS-NGI1_2018","pan-traps","Andrena_albopunctata_melona","species","other_wild_bees",2,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","AUS-NGI1_2018","pan-traps","Andrena_ovatula_","species","other_wild_bees",1,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","AUS-NGI1_2018","pan-traps","Apis_mellifera_","species","honeybees",6,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","AUS-NGI1_2018","pan-traps","Lasioglossum_albocinctum_","species","other_wild_bees",1,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","AUS-NGI1_2018","pan-traps","Lasioglossum_brevicorne_","species","other_wild_bees",1,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","AUS-NGI1_2018","pan-traps","Lasioglossum_corvinum_","species","other_wild_bees",1,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","AUS-NGI1_2018","pan-traps","Lasioglossum_crassepunctatum_","species","other_wild_bees",1,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","AUS-NGI1_2018","pan-traps","Lasioglossum_glabriusculum_","species","other_wild_bees",31,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","AUS-NGI1_2018","pan-traps","Lasioglossum_griseolum_","species","other_wild_bees",1,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","AUS-NGI1_2018","pan-traps","Lasioglossum_interruptum_","species","other_wild_bees",1,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","AUS-NGI1_2018","pan-traps","Lasioglossum_malachurum_","species","other_wild_bees",1,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","AUS-NGI1_2018","pan-traps","Lasioglossum_pauperatum_","species","other_wild_bees",2,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","AUS-NGI1_2018","pan-traps","Lasioglossum_pauxillum_","species","other_wild_bees",1,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","AUS-NGI1_2018","pan-traps","Lasioglossum_villosulum_","species","other_wild_bees",1,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","AUS-NGI1_2018","pan-traps","Podalonia_cf. hirsuta_","species","non_bee_hymenoptera",1,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","AUS-NGI1_2018","pan-traps","Taxonus _agrorum_","species","non_bee_hymenoptera",1,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","AUS-NGI1_2018","pan-traps","Vespula_vulgaris_","species","non_bee_hymenoptera",1,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","AUS-NGI1_2018","pan-traps","Thymelicus_lineola_","species","lepidoptera",1,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","AUS-NON1_2018","pan-traps","Adonia_variegata_","species","beetles",1,NA,2880,NA,"8 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (4 sets per transect) at 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","AUS-NON1_2018","pan-traps","Coccinella_septempunctata_","species","beetles",1,NA,2880,NA,"8 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (4 sets per transect) at 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","AUS-NON1_2018","pan-traps","Episyrphus_balteatus_","species","syrphids",1,NA,2880,NA,"8 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (4 sets per transect) at 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","AUS-NON1_2018","pan-traps","Andrena_flavipes_","species","other_wild_bees",1,NA,2880,NA,"8 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (4 sets per transect) at 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","AUS-NON1_2018","pan-traps","Andrena_ovatula_","species","other_wild_bees",1,NA,2880,NA,"8 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (4 sets per transect) at 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","AUS-NON1_2018","pan-traps","Apis_mellifera_","species","honeybees",11,NA,2880,NA,"8 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (4 sets per transect) at 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","AUS-NON1_2018","pan-traps","Lasioglossum_brevicorne_","species","other_wild_bees",3,NA,2880,NA,"8 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (4 sets per transect) at 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","AUS-NON1_2018","pan-traps","Lasioglossum_corvinum_","species","other_wild_bees",2,NA,2880,NA,"8 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (4 sets per transect) at 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","AUS-NON1_2018","pan-traps","Lasioglossum_glabriusculum_","species","other_wild_bees",1,NA,2880,NA,"8 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (4 sets per transect) at 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","AUS-NON1_2018","pan-traps","Lasioglossum_griseolum_","species","other_wild_bees",1,NA,2880,NA,"8 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (4 sets per transect) at 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","AUS-NON1_2018","pan-traps","Lasioglossum_malachurum_","species","other_wild_bees",2,NA,2880,NA,"8 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (4 sets per transect) at 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","AUS-NON1_2018","pan-traps","Lasioglossum_pauperatum_","species","other_wild_bees",8,NA,2880,NA,"8 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (4 sets per transect) at 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","AUS-NON1_2018","pan-traps","Lasioglossum_puncticolle_","species","other_wild_bees",1,NA,2880,NA,"8 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (4 sets per transect) at 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","AUS-NON1_2018","pan-traps","Megachile_albisecta_","species","other_wild_bees",1,NA,2880,NA,"8 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (4 sets per transect) at 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","AUS-NON1_2018","pan-traps","Scolia _hirta_","species","non_bee_hymenoptera",1,NA,2880,NA,"8 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (4 sets per transect) at 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","MEL-EGI1_2018","pan-traps","Mylabris_quadripunctata_","species","beetles",2,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","MEL-EGI1_2018","pan-traps","Tropinota_squalida_","species","beetles",2,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","MEL-EGI1_2018","pan-traps","Elomya_lateralis_","species","other_flies",1,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","MEL-EGI1_2018","pan-traps","Pangonius_micans_","species","other_flies",1,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","MEL-EGI1_2018","pan-traps","Stomorhina_lunata_","species","other_flies",3,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","MEL-EGI1_2018","pan-traps","Andrena_flavipes_","species","other_wild_bees",1,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","MEL-EGI1_2018","pan-traps","Andrena_hispania_","species","other_wild_bees",4,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","MEL-EGI1_2018","pan-traps","Andrena_morio_","species","other_wild_bees",1,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","MEL-EGI1_2018","pan-traps","Andrena_pilipes_","species","other_wild_bees",1,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","MEL-EGI1_2018","pan-traps","Apis_mellifera_","species","honeybees",1,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","MEL-EGI1_2018","pan-traps","Halictus_quadricinctus_","species","other_wild_bees",3,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","MEL-EGI1_2018","pan-traps","Halictus_smaragdulus_","species","other_wild_bees",1,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","MEL-EGI1_2018","pan-traps","Lasioglossum_albocinctum_","species","other_wild_bees",4,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","MEL-EGI1_2018","pan-traps","Lasioglossum_brevicorne_","species","other_wild_bees",3,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","MEL-EGI1_2018","pan-traps","Lasioglossum_discum_","species","other_wild_bees",1,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","MEL-EGI1_2018","pan-traps","Lasioglossum_pauperatum_","species","other_wild_bees",1,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","MEL-EGI1_2018","pan-traps","Lasioglossum_perclavipes_","species","other_wild_bees",1,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","MEL-EGI1_2018","pan-traps","Lasioglossum_villosulum_","species","other_wild_bees",1,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","MEL-EGI1_2018","pan-traps","Panurginus_albopilosus_","species","other_wild_bees",9,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","MEL-EGI1_2018","pan-traps","Panurgus_calcaratus_","species","other_wild_bees",35,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","MEL-EGI1_2018","pan-traps","Panurgus_cephalotes_","species","other_wild_bees",1,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","MEL-NGI1_2018","pan-traps","Lampiris _noctiluca_","species","beetles",1,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","MEL-NGI1_2018","pan-traps","Tropinota_squalida_","species","beetles",1,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","MEL-NGI1_2018","pan-traps","Aplomya_confinis_","species","other_flies",1,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","MEL-NGI1_2018","pan-traps","Episyrphus_balteatus_","species","syrphids",5,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","MEL-NGI1_2018","pan-traps","Eristalis_arbustorum_","species","syrphids",2,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","MEL-NGI1_2018","pan-traps","Eupeodes_corollae_","species","syrphids",2,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","MEL-NGI1_2018","pan-traps","Hemipenthes_morio_","species","humbleflies",1,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","MEL-NGI1_2018","pan-traps","Melanostoma_mellinum_","species","syrphids",4,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","MEL-NGI1_2018","pan-traps","Musca_domestica_","species","other_flies",5,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","MEL-NGI1_2018","pan-traps","Protocalliphora_azurea_","species","other_flies",1,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","MEL-NGI1_2018","pan-traps","Stomorhina_lunata_","species","other_flies",18,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","MEL-NGI1_2018","pan-traps","Syritta _pipiens_","species","syrphids",2,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","MEL-NGI1_2018","pan-traps","Xylota_segnis_","species","syrphids",7,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","MEL-NGI1_2018","pan-traps","Andrena_flavipes_","species","other_wild_bees",6,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","MEL-NGI1_2018","pan-traps","Andrena_ovatula_","species","other_wild_bees",2,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","MEL-NGI1_2018","pan-traps","Apis_mellifera_","species","honeybees",3,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","MEL-NGI1_2018","pan-traps","Arge _rosae_","species","non_bee_hymenoptera",1,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","MEL-NGI1_2018","pan-traps","Lasioglossum_glabriusculum_","species","other_wild_bees",1,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","MEL-NGI1_2018","pan-traps","Lasioglossum_malachurum_","species","other_wild_bees",3,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","MEL-NGI1_2018","pan-traps","Lasioglossum_pauxillum_","species","other_wild_bees",3,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","MEL-NGI1_2018","pan-traps","Lasioglossum_politum_","species","other_wild_bees",34,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","MEL-NGI1_2018","pan-traps","Panurgus_calcaratus_","species","other_wild_bees",2,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","MEL-NGI1_2018","pan-traps","Lycaena _phlaeas_","species","lepidoptera",1,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","MEL-NGI1_2018","pan-traps","Pieris _napi_","species","lepidoptera",2,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","MEL-NGI1_2018","pan-traps","Pyronia_bathseba_","species","lepidoptera",1,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","MEL-NGI1_2018","pan-traps","Thymelicus_lineola_","species","lepidoptera",2,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","MEL-NON1_2018","pan-traps","Mylabris_quadripunctata_","species","beetles",3,NA,2880,NA,"8 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (4 sets per transect) at 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","MEL-NON1_2018","pan-traps","Oxythyrea_funesta_","species","beetles",1,NA,2880,NA,"8 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (4 sets per transect) at 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","MEL-NON1_2018","pan-traps","Trichodes_leucopsideus_","species","beetles",2,NA,2880,NA,"8 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (4 sets per transect) at 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","MEL-NON1_2018","pan-traps","Tropinota_squalida_","species","beetles",1,NA,2880,NA,"8 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (4 sets per transect) at 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","MEL-NON1_2018","pan-traps","Eristalinus_aeneus_","species","syrphids",3,NA,2880,NA,"8 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (4 sets per transect) at 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","MEL-NON1_2018","pan-traps","Eristalis_arbustorum_","species","syrphids",10,NA,2880,NA,"8 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (4 sets per transect) at 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","MEL-NON1_2018","pan-traps","Melanostoma_mellinum_","species","syrphids",1,NA,2880,NA,"8 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (4 sets per transect) at 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","MEL-NON1_2018","pan-traps","Musca_autumnalis_","species","other_flies",2,NA,2880,NA,"8 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (4 sets per transect) at 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","MEL-NON1_2018","pan-traps","Musca_domestica_","species","other_flies",5,NA,2880,NA,"8 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (4 sets per transect) at 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","MEL-NON1_2018","pan-traps","Phthiria_vagans_","species","humbleflies",2,NA,2880,NA,"8 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (4 sets per transect) at 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","MEL-NON1_2018","pan-traps","Stomorhina_lunata_","species","other_flies",35,NA,2880,NA,"8 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (4 sets per transect) at 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","MEL-NON1_2018","pan-traps","Amegilla_bimaculata_","species","other_wild_bees",1,NA,2880,NA,"8 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (4 sets per transect) at 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","MEL-NON1_2018","pan-traps","Ammophila_sabulosa_","species","non_bee_hymenoptera",1,NA,2880,NA,"8 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (4 sets per transect) at 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","MEL-NON1_2018","pan-traps","Andrena_ovatula_","species","other_wild_bees",2,NA,2880,NA,"8 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (4 sets per transect) at 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","MEL-NON1_2018","pan-traps","Apis_mellifera_","species","honeybees",3,NA,2880,NA,"8 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (4 sets per transect) at 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","MEL-NON1_2018","pan-traps","Bombus_cullumanus_","species","bumblebees",1,NA,2880,NA,"8 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (4 sets per transect) at 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","MEL-NON1_2018","pan-traps","Bombus_laessus_","species","bumblebees",1,NA,2880,NA,"8 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (4 sets per transect) at 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","MEL-NON1_2018","pan-traps","Colpa_sexmaculata_","species","non_bee_hymenoptera",1,NA,2880,NA,"8 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (4 sets per transect) at 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","MEL-NON1_2018","pan-traps","Halictus_smaragdulus_","species","other_wild_bees",1,NA,2880,NA,"8 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (4 sets per transect) at 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","MEL-NON1_2018","pan-traps","Lasioglossum_brevicorne_","species","other_wild_bees",1,NA,2880,NA,"8 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (4 sets per transect) at 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","MEL-NON1_2018","pan-traps","Lasioglossum_interruptum_","species","other_wild_bees",1,NA,2880,NA,"8 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (4 sets per transect) at 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","MEL-NON1_2018","pan-traps","Lasioglossum_pauperatum_","species","other_wild_bees",7,NA,2880,NA,"8 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (4 sets per transect) at 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","MEL-NON1_2018","pan-traps","Megachile_pilidens_","species","other_wild_bees",1,NA,2880,NA,"8 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (4 sets per transect) at 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","MEL-NON1_2018","pan-traps","Panurginus_albopilosus_","species","other_wild_bees",1,NA,2880,NA,"8 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (4 sets per transect) at 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","MEL-NON1_2018","pan-traps","Panurgus_calcaratus_","species","other_wild_bees",4,NA,2880,NA,"8 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (4 sets per transect) at 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","MEL-NON1_2018","pan-traps","Panurgus_cephalotes_","species","other_wild_bees",1,NA,2880,NA,"8 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (4 sets per transect) at 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","PRE-EGI1_2018","pan-traps","Adonia_variegata_","species","beetles",1,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","PRE-EGI1_2018","pan-traps","Episyrphus_balteatus_","species","syrphids",1,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","PRE-EGI1_2018","pan-traps","Stomorhina_lunata_","species","other_flies",6,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","PRE-EGI1_2018","pan-traps","Andrena_flavipes_","species","other_wild_bees",1,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","PRE-EGI1_2018","pan-traps","Andrena_ovatula_","species","other_wild_bees",1,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","PRE-EGI1_2018","pan-traps","Bombus_cullumanus_","species","bumblebees",1,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","PRE-EGI1_2018","pan-traps","Lasioglossum_corvinum_","species","other_wild_bees",5,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","PRE-EGI1_2018","pan-traps","Lasioglossum_malachurum_","species","other_wild_bees",2,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","PRE-EGI1_2018","pan-traps","Trachusa_laeviventris_","species","other_wild_bees",1,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","PRE-EGI1_2018","pan-traps","Glaucopsyche_melanops_","species","lepidoptera",1,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","PRE-EGI1_2018","pan-traps","Pieris _rapae_","species","lepidoptera",1,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","PRE-EGI2_2018","pan-traps","Adonia_variegata_","species","beetles",1,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","PRE-EGI2_2018","pan-traps","Mylabris_quadripunctata_","species","beetles",1,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","PRE-EGI2_2018","pan-traps","Oedemera_nobilis_","species","beetles",1,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","PRE-EGI2_2018","pan-traps","Potosia_oblonga_","species","beetles",1,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","PRE-EGI2_2018","pan-traps","Eupeodes_corollae_","species","syrphids",3,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","PRE-EGI2_2018","pan-traps","Melanostoma_mellinum_","species","syrphids",1,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","PRE-EGI2_2018","pan-traps","Musca_domestica_","species","other_flies",2,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","PRE-EGI2_2018","pan-traps","Phthiria_vagans_","species","humbleflies",1,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","PRE-EGI2_2018","pan-traps","Stomorhina_lunata_","species","other_flies",3,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","PRE-EGI2_2018","pan-traps","Andrena_flavipes_","species","other_wild_bees",1,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","PRE-EGI2_2018","pan-traps","Anthophora_dispar_","species","other_wild_bees",1,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","PRE-EGI2_2018","pan-traps","Apis_mellifera_","species","honeybees",15,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","PRE-EGI2_2018","pan-traps","Bombus_laessus_","species","bumblebees",2,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","PRE-EGI2_2018","pan-traps","Halictus_quadricinctus_","species","other_wild_bees",1,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","PRE-EGI2_2018","pan-traps","Lasioglossum_albocinctum_","species","other_wild_bees",1,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","PRE-EGI2_2018","pan-traps","Lasioglossum_crassepunctatum_","species","other_wild_bees",1,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","PRE-EGI2_2018","pan-traps","Lasioglossum_griseolum_","species","other_wild_bees",1,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","PRE-EGI2_2018","pan-traps","Lasioglossum_malachurum_","species","other_wild_bees",2,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","PRE-NON1_2018","pan-traps","Stomorhina_lunata_","species","other_flies",19,NA,2880,NA,"8 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (4 sets per transect) at 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","PRE-NON1_2018","pan-traps","Andrena_albopunctata_melona","species","other_wild_bees",3,NA,2880,NA,"8 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (4 sets per transect) at 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","PRE-NON1_2018","pan-traps","Apis_mellifera_","species","honeybees",1,NA,2880,NA,"8 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (4 sets per transect) at 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","PRE-NON1_2018","pan-traps","Chelostoma_florisomme_","species","other_wild_bees",1,NA,2880,NA,"8 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (4 sets per transect) at 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","PRE-NON1_2018","pan-traps","Lasioglossum_corvinum_","species","other_wild_bees",1,NA,2880,NA,"8 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (4 sets per transect) at 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","PRE-NON1_2018","pan-traps","Lasioglossum_discum_","species","other_wild_bees",1,NA,2880,NA,"8 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (4 sets per transect) at 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","PRE-NON1_2018","pan-traps","Lasioglossum_glabriusculum_","species","other_wild_bees",1,NA,2880,NA,"8 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (4 sets per transect) at 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","PRE-NON1_2018","pan-traps","Panurgus_calcaratus_","species","other_wild_bees",1,NA,2880,NA,"8 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (4 sets per transect) at 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","PRE-NON1_2018","pan-traps","Autographa_gamma_","species","lepidoptera",1,NA,2880,NA,"8 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (4 sets per transect) at 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","PRE-NON1_2018","pan-traps","Macroglossum_stellatarum_","species","lepidoptera",1,NA,2880,NA,"8 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (4 sets per transect) at 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","RED-EGI1_2018","pan-traps","Adonia_variegata_","species","beetles",1,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","RED-EGI1_2018","pan-traps","Mylabris_quadripunctata_","species","beetles",1,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","RED-EGI1_2018","pan-traps","Oxythyrea_funesta_","species","beetles",1,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","RED-EGI1_2018","pan-traps","Episyrphus_balteatus_","species","syrphids",11,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","RED-EGI1_2018","pan-traps","Andrena_flavipes_","species","other_wild_bees",3,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","RED-EGI1_2018","pan-traps","Apis_mellifera_","species","honeybees",9,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","RED-EGI1_2018","pan-traps","Halictus_quadricinctus_","species","other_wild_bees",1,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","RED-EGI1_2018","pan-traps","Halictus_sexcinctus_","species","other_wild_bees",1,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","RED-EGI1_2018","pan-traps","Halictus_simplex_","species","other_wild_bees",3,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","RED-EGI1_2018","pan-traps","Lasioglossum_glabriusculum_","species","other_wild_bees",12,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","RED-EGI1_2018","pan-traps","Lasioglossum_interruptum_","species","other_wild_bees",1,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","RED-EGI1_2018","pan-traps","Lasioglossum_malachurum_","species","other_wild_bees",7,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","RED-EGI1_2018","pan-traps","Lasioglossum_pauxillum_","species","other_wild_bees",1,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","RED-EGI1_2018","pan-traps","Lasioglossum_perclavipes_","species","other_wild_bees",1,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","RED-EGI1_2018","pan-traps","Lasioglossum_puncticolle_","species","other_wild_bees",1,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","RED-EGI1_2018","pan-traps","Lasioglossum_villosulum_","species","other_wild_bees",1,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","RED-EGI1_2018","pan-traps","Megachile_pilidens_","species","other_wild_bees",1,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","RED-EGI1_2018","pan-traps","Pieris _rapae_","species","lepidoptera",1,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","RED-EGI1_2018","pan-traps","Polyonmatus_icarus_","species","lepidoptera",1,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","RED-EGI2_2018","pan-traps","Lema_melanopus_","species","beetles",1,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","RED-EGI2_2018","pan-traps","Oedemera_nobilis_","species","beetles",3,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","RED-EGI2_2018","pan-traps","Stenopterus_rufus_","species","beetles",1,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","RED-EGI2_2018","pan-traps","Tytthaspis _sedecinguttata_","species","beetles",3,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","RED-EGI2_2018","pan-traps","Episyrphus_balteatus_","species","syrphids",7,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","RED-EGI2_2018","pan-traps","Eupeodes_corollae_","species","syrphids",11,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","RED-EGI2_2018","pan-traps","Musca_domestica_","species","other_flies",2,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","RED-EGI2_2018","pan-traps","Stomorhina_lunata_","species","other_flies",2,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","RED-EGI2_2018","pan-traps","Amegilla_quadripunctata_","species","other_wild_bees",4,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","RED-EGI2_2018","pan-traps","Andrena_albopunctata_melona","species","other_wild_bees",2,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","RED-EGI2_2018","pan-traps","Andrena_flavipes_","species","other_wild_bees",8,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","RED-EGI2_2018","pan-traps","Andrena_ovatula_","species","other_wild_bees",1,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","RED-EGI2_2018","pan-traps","Andrena_variabiis_","species","other_wild_bees",1,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","RED-EGI2_2018","pan-traps","Anthidium _manicatum_","species","other_wild_bees",2,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","RED-EGI2_2018","pan-traps","Anthophora_dispar_","species","other_wild_bees",1,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","RED-EGI2_2018","pan-traps","Apis_mellifera_","species","honeybees",6,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","RED-EGI2_2018","pan-traps","Bombus_cullumanus_","species","bumblebees",1,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","RED-EGI2_2018","pan-traps","Eucera_cineraria_","species","other_wild_bees",6,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","RED-EGI2_2018","pan-traps","Halictus_quadricinctus_","species","other_wild_bees",1,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","RED-EGI2_2018","pan-traps","Hylaeus_variegatus_","species","other_wild_bees",1,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","RED-EGI2_2018","pan-traps","Lasioglossum_brevicorne_","species","other_wild_bees",1,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","RED-EGI2_2018","pan-traps","Lasioglossum_glabriusculum_","species","other_wild_bees",4,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","RED-EGI2_2018","pan-traps","Lasioglossum_griseolum_","species","other_wild_bees",1,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","RED-EGI2_2018","pan-traps","Lasioglossum_interruptum_","species","other_wild_bees",1,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","RED-EGI2_2018","pan-traps","Lasioglossum_malachurum_","species","other_wild_bees",2,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","RED-EGI2_2018","pan-traps","Lasioglossum_morio_","species","other_wild_bees",1,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","RED-EGI2_2018","pan-traps","Lasioglossum_pauxillum_","species","other_wild_bees",1,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","RED-EGI2_2018","pan-traps","Panurgus_banksianus_","species","other_wild_bees",1,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","RED-EGI2_2018","pan-traps","Panurgus_cephalotes_","species","other_wild_bees",1,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","RED-EGI2_2018","pan-traps","Polistes_dominula_","species","non_bee_hymenoptera",1,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","RED-EGI2_2018","pan-traps","Polistes_nympha_","species","non_bee_hymenoptera",2,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","RED-EGI2_2018","pan-traps","Vespula_vulgaris_","species","non_bee_hymenoptera",1,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","RED-EGI2_2018","pan-traps","Aricia_cramera_","species","lepidoptera",1,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","RED-EGI2_2018","pan-traps","Autographa_gamma_","species","lepidoptera",1,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","RED-EGI2_2018","pan-traps","Brintesia_circe_","species","lepidoptera",2,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","RED-EGI2_2018","pan-traps","Colias_alfacariensis_","species","lepidoptera",1,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","RED-EGI2_2018","pan-traps","Melanargia_galathea_","species","lepidoptera",1,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","RED-EGI2_2018","pan-traps","Pararge_aegeria_","species","lepidoptera",2,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","RED-NGI1_2018","pan-traps","Adonia_variegata_","species","beetles",1,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","RED-NGI1_2018","pan-traps","Tytthaspis _sedecinguttata_","species","beetles",1,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","RED-NGI1_2018","pan-traps","Eristalinus_aeneus_","species","syrphids",1,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","RED-NGI1_2018","pan-traps","Eristalis_arbustorum_","species","syrphids",1,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","RED-NGI1_2018","pan-traps","Nowickia _ferox_","species","other_flies",1,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","RED-NGI1_2018","pan-traps","Peleteria_rubescens_","species","other_flies",1,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","RED-NGI1_2018","pan-traps","Stomorhina_lunata_","species","other_flies",3,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","RED-NGI1_2018","pan-traps","Thereva_spiloptera_","species","other_flies",1,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","RED-NGI1_2018","pan-traps","Andrena_flavipes_","species","other_wild_bees",1,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","RED-NGI1_2018","pan-traps","Andrena_hispania_","species","other_wild_bees",2,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","RED-NGI1_2018","pan-traps","Andrena_ovatula_","species","other_wild_bees",1,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","RED-NGI1_2018","pan-traps","Apis_mellifera_","species","honeybees",22,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","RED-NGI1_2018","pan-traps","Lasioglossum_brevicorne_","species","other_wild_bees",1,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","RED-NGI1_2018","pan-traps","Lasioglossum_glabriusculum_","species","other_wild_bees",2,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","RED-NGI1_2018","pan-traps","Lasioglossum_laevigatum_","species","other_wild_bees",1,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","RED-NGI1_2018","pan-traps","Lasioglossum_malachurum_","species","other_wild_bees",2,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","RED-NGI1_2018","pan-traps","Lasioglossum_politum_","species","other_wild_bees",3,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","RED-NGI1_2018","pan-traps","Lasioglossum_subhirtum_","species","other_wild_bees",2,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","RED-NGI1_2018","pan-traps","Lasioglossum_villosulum_","species","other_wild_bees",1,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","RED-NGI1_2018","pan-traps","Megachile_centuncularis_","species","other_wild_bees",1,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","RED-NGI1_2018","pan-traps","Megachile_pilidens_","species","other_wild_bees",2,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","RED-NGI1_2018","pan-traps","Panurgus_cephalotes_","species","other_wild_bees",1,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","RED-NGI1_2018","pan-traps","Pieris _rapae_","species","lepidoptera",1,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","RED-NON1_2018","pan-traps","Oxythyrea_funesta_","species","beetles",1,NA,2880,NA,"8 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (4 sets per transect) at 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","RED-NON1_2018","pan-traps","Episyrphus_balteatus_","species","syrphids",2,NA,2880,NA,"8 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (4 sets per transect) at 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","RED-NON1_2018","pan-traps","Eupeodes_corollae_","species","syrphids",5,NA,2880,NA,"8 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (4 sets per transect) at 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","RED-NON1_2018","pan-traps","Stomorhina_lunata_","species","other_flies",1,NA,2880,NA,"8 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (4 sets per transect) at 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","RED-NON1_2018","pan-traps","Andrena_flavipes_","species","other_wild_bees",5,NA,2880,NA,"8 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (4 sets per transect) at 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","RED-NON1_2018","pan-traps","Andrena_hispania_","species","other_wild_bees",4,NA,2880,NA,"8 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (4 sets per transect) at 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","RED-NON1_2018","pan-traps","Andrena_ovatula_","species","other_wild_bees",3,NA,2880,NA,"8 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (4 sets per transect) at 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","RED-NON1_2018","pan-traps","Apis_mellifera_","species","honeybees",16,NA,2880,NA,"8 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (4 sets per transect) at 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","RED-NON1_2018","pan-traps","Bombus_laessus_","species","bumblebees",3,NA,2880,NA,"8 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (4 sets per transect) at 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","RED-NON1_2018","pan-traps","Lasioglossum_brevicorne_","species","other_wild_bees",1,NA,2880,NA,"8 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (4 sets per transect) at 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","RED-NON1_2018","pan-traps","Lasioglossum_subhirtum_","species","other_wild_bees",1,NA,2880,NA,"8 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (4 sets per transect) at 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","VIL-EGI1_2018","pan-traps","Adonia_variegata_","species","beetles",1,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","VIL-EGI1_2018","pan-traps","Mylabris_quadripunctata_","species","beetles",5,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","VIL-EGI1_2018","pan-traps","Stenurella_melanura_","species","beetles",1,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","VIL-EGI1_2018","pan-traps","Episyrphus_balteatus_","species","syrphids",1,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","VIL-EGI1_2018","pan-traps","Eupeodes_corollae_","species","syrphids",6,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","VIL-EGI1_2018","pan-traps","Kurzenkoiellus_dasypygus_","species","other_flies",1,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","VIL-EGI1_2018","pan-traps","Lomatia_tysiphone_","species","humbleflies",1,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","VIL-EGI1_2018","pan-traps","Peleteria_rubescens_","species","other_flies",1,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","VIL-EGI1_2018","pan-traps","Stomorhina_lunata_","species","other_flies",3,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","VIL-EGI1_2018","pan-traps","Andrena_albopunctata_melona","species","other_wild_bees",1,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","VIL-EGI1_2018","pan-traps","Andrena_ovatula_","species","other_wild_bees",2,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","VIL-EGI1_2018","pan-traps","Apis_mellifera_","species","honeybees",3,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","VIL-EGI1_2018","pan-traps","Colpa_sexmaculata_","species","non_bee_hymenoptera",1,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","VIL-EGI1_2018","pan-traps","Halictus_quadricinctus_","species","other_wild_bees",1,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","VIL-EGI1_2018","pan-traps","Halictus_vestitus_","species","other_wild_bees",1,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","VIL-EGI1_2018","pan-traps","Lasioglossum_albocinctum_","species","other_wild_bees",1,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","VIL-EGI1_2018","pan-traps","Lasioglossum_brevicorne_","species","other_wild_bees",21,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","VIL-EGI1_2018","pan-traps","Lasioglossum_corvinum_","species","other_wild_bees",1,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","VIL-EGI1_2018","pan-traps","Lasioglossum_griseolum_","species","other_wild_bees",4,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","VIL-EGI1_2018","pan-traps","Lasioglossum_interruptum_","species","other_wild_bees",1,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","VIL-EGI1_2018","pan-traps","Lasioglossum_malachurum_","species","other_wild_bees",1,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","VIL-EGI1_2018","pan-traps","Lasioglossum_pauperatum_","species","other_wild_bees",4,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","VIL-EGI1_2018","pan-traps","Podalonia_cf. hirsuta_","species","non_bee_hymenoptera",1,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","VIL-EGI2_2018","pan-traps","Adonia_variegata_","species","beetles",1,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","VIL-EGI2_2018","pan-traps","Coccinella_septempunctata_","species","beetles",4,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","VIL-EGI2_2018","pan-traps","Mylabris_quadripunctata_","species","beetles",2,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","VIL-EGI2_2018","pan-traps","Tytthaspis _sedecinguttata_","species","beetles",1,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","VIL-EGI2_2018","pan-traps","Episyrphus_balteatus_","species","syrphids",2,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","VIL-EGI2_2018","pan-traps","Eupeodes_corollae_","species","syrphids",8,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","VIL-EGI2_2018","pan-traps","Musca_domestica_","species","other_flies",3,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","VIL-EGI2_2018","pan-traps","Phthiria_vagans_","species","humbleflies",1,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","VIL-EGI2_2018","pan-traps","Thereva_spiloptera_","species","other_flies",1,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","VIL-EGI2_2018","pan-traps","Andrena_albopunctata_melona","species","other_wild_bees",1,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","VIL-EGI2_2018","pan-traps","Andrena_flavipes_","species","other_wild_bees",2,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","VIL-EGI2_2018","pan-traps","Apis_mellifera_","species","honeybees",3,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","VIL-EGI2_2018","pan-traps","Bombus_laessus_","species","bumblebees",2,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","VIL-EGI2_2018","pan-traps","Halictus_scabiosae_","species","other_wild_bees",1,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","VIL-EGI2_2018","pan-traps","Halictus_seladonius_","species","other_wild_bees",2,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","VIL-EGI2_2018","pan-traps","Lasioglossum_albocinctum_","species","other_wild_bees",1,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","VIL-EGI2_2018","pan-traps","Lasioglossum_brevicorne_","species","other_wild_bees",13,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","VIL-EGI2_2018","pan-traps","Lasioglossum_discum_","species","other_wild_bees",1,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","VIL-EGI2_2018","pan-traps","Lasioglossum_glabriusculum_","species","other_wild_bees",1,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","VIL-EGI2_2018","pan-traps","Lasioglossum_griseolum_","species","other_wild_bees",2,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","VIL-EGI2_2018","pan-traps","Lasioglossum_interruptum_","species","other_wild_bees",2,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","VIL-EGI2_2018","pan-traps","Lasioglossum_malachurum_","species","other_wild_bees",2,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","VIL-EGI2_2018","pan-traps","Lasioglossum_pauperatum_","species","other_wild_bees",4,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","VIL-EGI2_2018","pan-traps","Lasioglossum_villosulum_","species","other_wild_bees",1,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","VIL-EGI2_2018","pan-traps","Megachile_pilidens_","species","other_wild_bees",1,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","VIL-EGI2_2018","pan-traps","Panurginus_albopilosus_","species","other_wild_bees",1,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","VIL-EGI2_2018","pan-traps","Aricia_cramera_","species","lepidoptera",1,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","VIL-NGI1_2018","pan-traps","Heliotaurus_ruficollis_","species","beetles",1,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","VIL-NGI1_2018","pan-traps","Potosia_oblonga_","species","beetles",1,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","VIL-NGI1_2018","pan-traps","Eupeodes_corollae_","species","syrphids",2,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","VIL-NGI1_2018","pan-traps","Musca_domestica_","species","other_flies",1,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","VIL-NGI1_2018","pan-traps","Peleteria_rubescens_","species","other_flies",1,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","VIL-NGI1_2018","pan-traps","Stomorhina_lunata_","species","other_flies",20,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","VIL-NGI1_2018","pan-traps","Andrena_flavipes_","species","other_wild_bees",2,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","VIL-NGI1_2018","pan-traps","Apis_mellifera_","species","honeybees",2,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","VIL-NGI1_2018","pan-traps","Bombus_cullumanus_","species","bumblebees",1,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","VIL-NGI1_2018","pan-traps","Bombus_laessus_","species","bumblebees",1,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","VIL-NGI1_2018","pan-traps","Halictus_quadricinctus_","species","other_wild_bees",1,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","VIL-NGI1_2018","pan-traps","Halictus_smaragdulus_","species","other_wild_bees",3,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","VIL-NGI1_2018","pan-traps","Lasioglossum_albocinctum_","species","other_wild_bees",2,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","VIL-NGI1_2018","pan-traps","Lasioglossum_brevicorne_","species","other_wild_bees",39,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","VIL-NGI1_2018","pan-traps","Lasioglossum_griseolum_","species","other_wild_bees",2,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","VIL-NGI1_2018","pan-traps","Lasioglossum_interruptum_","species","other_wild_bees",2,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","VIL-NGI1_2018","pan-traps","Lasioglossum_malachurum_","species","other_wild_bees",1,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","VIL-NGI1_2018","pan-traps","Lasioglossum_pauperatum_","species","other_wild_bees",60,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","VIL-NGI1_2018","pan-traps","Lasioglossum_pauxillum_","species","other_wild_bees",1,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","VIL-NGI1_2018","pan-traps","Lasioglossum_subhirtum_","species","other_wild_bees",1,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","VIL-NGI1_2018","pan-traps","Lasioglossum_villosulum_","species","other_wild_bees",1,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","VIL-NGI1_2018","pan-traps","Megachile_pilidens_","species","other_wild_bees",1,NA,2880,NA,"10 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (5 sets per transect) at -15, 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","VIL-NON1_2018","pan-traps","Adonia_variegata_","species","beetles",1,NA,2880,NA,"8 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (4 sets per transect) at 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","VIL-NON1_2018","pan-traps","Potosia_oblonga_","species","beetles",1,NA,2880,NA,"8 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (4 sets per transect) at 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","VIL-NON1_2018","pan-traps","Tytthaspis _sedecinguttata_","species","beetles",1,NA,2880,NA,"8 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (4 sets per transect) at 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","VIL-NON1_2018","pan-traps","Anthrax_trifasciatus_","species","humbleflies",1,NA,2880,NA,"8 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (4 sets per transect) at 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","VIL-NON1_2018","pan-traps","Eupeodes_corollae_","species","syrphids",3,NA,2880,NA,"8 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (4 sets per transect) at 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","VIL-NON1_2018","pan-traps","Lucilia_caesar_","species","other_flies",1,NA,2880,NA,"8 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (4 sets per transect) at 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","VIL-NON1_2018","pan-traps","Melanostoma_mellinum_","species","syrphids",1,NA,2880,NA,"8 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (4 sets per transect) at 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","VIL-NON1_2018","pan-traps","Musca_domestica_","species","other_flies",3,NA,2880,NA,"8 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (4 sets per transect) at 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","VIL-NON1_2018","pan-traps","Stomorhina_lunata_","species","other_flies",79,NA,2880,NA,"8 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (4 sets per transect) at 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","VIL-NON1_2018","pan-traps","Bombus_cullumanus_","species","bumblebees",1,NA,2880,NA,"8 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (4 sets per transect) at 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","VIL-NON1_2018","pan-traps","Halictus_crenicornis_","species","other_wild_bees",5,NA,2880,NA,"8 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (4 sets per transect) at 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","VIL-NON1_2018","pan-traps","Lasioglossum_albocinctum_","species","other_wild_bees",2,NA,2880,NA,"8 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (4 sets per transect) at 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","VIL-NON1_2018","pan-traps","Lasioglossum_brevicorne_","species","other_wild_bees",24,NA,2880,NA,"8 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (4 sets per transect) at 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","VIL-NON1_2018","pan-traps","Lasioglossum_crassepunctatum_","species","other_wild_bees",1,NA,2880,NA,"8 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (4 sets per transect) at 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","VIL-NON1_2018","pan-traps","Lasioglossum_interruptum_","species","other_wild_bees",1,NA,2880,NA,"8 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (4 sets per transect) at 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","VIL-NON1_2018","pan-traps","Lasioglossum_malachurum_","species","other_wild_bees",2,NA,2880,NA,"8 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (4 sets per transect) at 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","VIL-NON1_2018","pan-traps","Lasioglossum_pauperatum_","species","other_wild_bees",32,NA,2880,NA,"8 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (4 sets per transect) at 0, 15, 30 and 60m",NA
"Silvia_Castro_Helianthus_annuus_Spain_2018","VIL-NON1_2018","pan-traps","Pieris _rapae_","species","lepidoptera",1,NA,2880,NA,"8 sets of 3 colour plates each (within set, plates displayed in a metal pole at flowers height), sets displayed in two transects (4 sets per transect) at 0, 15, 30 and 60m",NA
"Ariza_etal_sweetcherry_Belgium_2019","Ariza_etal_2019_1","Insect net,  walking transects between tree rows","Andrena.carantonica","species","other_wild_bees",1,10625,120,NA,"2 people, each 1 time 60 minutes per transect during full bloom of sweet cherry trees",NA
"Ariza_etal_sweetcherry_Belgium_2019","Ariza_etal_2019_1","Insect net,  walking transects between tree rows","Andrena.vaga","species","other_wild_bees",1,10625,120,NA,"2 people, each 1 time 60 minutes per transect during full bloom of sweet cherry trees",NA
"Ariza_etal_sweetcherry_Belgium_2019","Ariza_etal_2019_1","Insect net,  walking transects between tree rows","Apis.mellifera","species","honeybees",42,10625,120,NA,"2 people, each 1 time 60 minutes per transect during full bloom of sweet cherry trees",NA
"Ariza_etal_sweetcherry_Belgium_2019","Ariza_etal_2019_1","Insect net,  walking transects between tree rows","Bombus.pratorum","species","bumblebees",2,10625,120,NA,"2 people, each 1 time 60 minutes per transect during full bloom of sweet cherry trees",NA
"Ariza_etal_sweetcherry_Belgium_2019","Ariza_etal_2019_1","Insect net,  walking transects between tree rows","Bombus","genus","bumblebees",1,10625,120,NA,"2 people, each 1 time 60 minutes per transect during full bloom of sweet cherry trees",NA
"Ariza_etal_sweetcherry_Belgium_2019","Ariza_etal_2019_1","Insect net,  walking transects between tree rows","Bombus.terrestris","species","bumblebees",4,10625,120,NA,"2 people, each 1 time 60 minutes per transect during full bloom of sweet cherry trees",NA
"Ariza_etal_sweetcherry_Belgium_2019","Ariza_etal_2019_1","Insect net,  walking transects between tree rows","Osmia.bicornis","species","other_wild_bees",1,10625,120,NA,"2 people, each 1 time 60 minutes per transect during full bloom of sweet cherry trees",NA
"Ariza_etal_sweetcherry_Belgium_2019","Ariza_etal_2019_1","Insect net,  walking transects between tree rows","Osmia.cornuta","species","other_wild_bees",5,10625,120,NA,"2 people, each 1 time 60 minutes per transect during full bloom of sweet cherry trees",NA
"Ariza_etal_sweetcherry_Belgium_2019","Ariza_etal_2019_1","Insect net,  walking transects between tree rows","Syrphidae","family","syrphids",5,10625,120,NA,"2 people, each 1 time 60 minutes per transect during full bloom of sweet cherry trees",NA
"Ariza_etal_sweetcherry_Belgium_2019","Ariza_etal_2019_2","Insect net,  walking transects between tree rows","Syrphidae","family","syrphids",6,6775,120,NA,"2 people, each 1 time 60 minutes per transect during full bloom of sweet cherry trees",NA
"Ariza_etal_sweetcherry_Belgium_2019","Ariza_etal_2019_2","Insect net,  walking transects between tree rows","Andrena.carantonica","species","other_wild_bees",1,6775,120,NA,"2 people, each 1 time 60 minutes per transect during full bloom of sweet cherry trees",NA
"Ariza_etal_sweetcherry_Belgium_2019","Ariza_etal_2019_2","Insect net,  walking transects between tree rows","Andrena.cineraria","species","other_wild_bees",1,6775,120,NA,"2 people, each 1 time 60 minutes per transect during full bloom of sweet cherry trees",NA
"Ariza_etal_sweetcherry_Belgium_2019","Ariza_etal_2019_2","Insect net,  walking transects between tree rows","Andrena.dorsata","species","other_wild_bees",1,6775,120,NA,"2 people, each 1 time 60 minutes per transect during full bloom of sweet cherry trees",NA
"Ariza_etal_sweetcherry_Belgium_2019","Ariza_etal_2019_2","Insect net,  walking transects between tree rows","Andrena.flavipes","species","other_wild_bees",1,6775,120,NA,"2 people, each 1 time 60 minutes per transect during full bloom of sweet cherry trees",NA
"Ariza_etal_sweetcherry_Belgium_2019","Ariza_etal_2019_2","Insect net,  walking transects between tree rows","Andrena.gravida","species","other_wild_bees",1,6775,120,NA,"2 people, each 1 time 60 minutes per transect during full bloom of sweet cherry trees",NA
"Ariza_etal_sweetcherry_Belgium_2019","Ariza_etal_2019_2","Insect net,  walking transects between tree rows","Andrena.haemorrhoa","species","other_wild_bees",1,6775,120,NA,"2 people, each 1 time 60 minutes per transect during full bloom of sweet cherry trees",NA
"Ariza_etal_sweetcherry_Belgium_2019","Ariza_etal_2019_2","Insect net,  walking transects between tree rows","Andrena.humilis","species","other_wild_bees",1,6775,120,NA,"2 people, each 1 time 60 minutes per transect during full bloom of sweet cherry trees",NA
"Ariza_etal_sweetcherry_Belgium_2019","Ariza_etal_2019_2","Insect net,  walking transects between tree rows","Apis.mellifera","species","honeybees",82,6775,120,NA,"2 people, each 1 time 60 minutes per transect during full bloom of sweet cherry trees",NA
"Ariza_etal_sweetcherry_Belgium_2019","Ariza_etal_2019_2","Insect net,  walking transects between tree rows","Bombus","genus","bumblebees",1,6775,120,NA,"2 people, each 1 time 60 minutes per transect during full bloom of sweet cherry trees",NA
"Ariza_etal_sweetcherry_Belgium_2019","Ariza_etal_2019_2","Insect net,  walking transects between tree rows","Bombus.terrestris","species","bumblebees",4,6775,120,NA,"2 people, each 1 time 60 minutes per transect during full bloom of sweet cherry trees",NA
"Ariza_etal_sweetcherry_Belgium_2019","Ariza_etal_2019_3","Insect net,  walking transects between tree rows","Syrphidae","family","syrphids",3,3725,120,NA,"2 people, each 1 time 60 minutes per transect during full bloom of sweet cherry trees",NA
"Ariza_etal_sweetcherry_Belgium_2019","Ariza_etal_2019_3","Insect net,  walking transects between tree rows","Andrena.carantonica","species","other_wild_bees",4,3725,120,NA,"2 people, each 1 time 60 minutes per transect during full bloom of sweet cherry trees",NA
"Ariza_etal_sweetcherry_Belgium_2019","Ariza_etal_2019_3","Insect net,  walking transects between tree rows","Andrena.dorsata","species","other_wild_bees",7,3725,120,NA,"2 people, each 1 time 60 minutes per transect during full bloom of sweet cherry trees",NA
"Ariza_etal_sweetcherry_Belgium_2019","Ariza_etal_2019_3","Insect net,  walking transects between tree rows","Andrena.flavipes","species","other_wild_bees",1,3725,120,NA,"2 people, each 1 time 60 minutes per transect during full bloom of sweet cherry trees",NA
"Ariza_etal_sweetcherry_Belgium_2019","Ariza_etal_2019_3","Insect net,  walking transects between tree rows","Andrena.fulva","species","other_wild_bees",2,3725,120,NA,"2 people, each 1 time 60 minutes per transect during full bloom of sweet cherry trees",NA
"Ariza_etal_sweetcherry_Belgium_2019","Ariza_etal_2019_3","Insect net,  walking transects between tree rows","Andrena.haemorrhoa","species","other_wild_bees",11,3725,120,NA,"2 people, each 1 time 60 minutes per transect during full bloom of sweet cherry trees",NA
"Ariza_etal_sweetcherry_Belgium_2019","Ariza_etal_2019_3","Insect net,  walking transects between tree rows","Apis.mellifera","species","honeybees",32,3725,120,NA,"2 people, each 1 time 60 minutes per transect during full bloom of sweet cherry trees",NA
"Ariza_etal_sweetcherry_Belgium_2019","Ariza_etal_2019_3","Insect net,  walking transects between tree rows","Bombus.hypnorum","species","bumblebees",2,3725,120,NA,"2 people, each 1 time 60 minutes per transect during full bloom of sweet cherry trees",NA
"Ariza_etal_sweetcherry_Belgium_2019","Ariza_etal_2019_3","Insect net,  walking transects between tree rows","Bombus.lapidarius","species","bumblebees",1,3725,120,NA,"2 people, each 1 time 60 minutes per transect during full bloom of sweet cherry trees",NA
"Ariza_etal_sweetcherry_Belgium_2019","Ariza_etal_2019_3","Insect net,  walking transects between tree rows","Bombus.pascuorum","species","bumblebees",1,3725,120,NA,"2 people, each 1 time 60 minutes per transect during full bloom of sweet cherry trees",NA
"Ariza_etal_sweetcherry_Belgium_2019","Ariza_etal_2019_3","Insect net,  walking transects between tree rows","Bombus.pratorum","species","bumblebees",1,3725,120,NA,"2 people, each 1 time 60 minutes per transect during full bloom of sweet cherry trees",NA
"Ariza_etal_sweetcherry_Belgium_2019","Ariza_etal_2019_3","Insect net,  walking transects between tree rows","Bombus.terrestris","species","bumblebees",6,3725,120,NA,"2 people, each 1 time 60 minutes per transect during full bloom of sweet cherry trees",NA
"Ariza_etal_sweetcherry_Belgium_2019","Ariza_etal_2019_3","Insect net,  walking transects between tree rows","Omia.cornuta","species","other_wild_bees",3,3725,120,NA,"2 people, each 1 time 60 minutes per transect during full bloom of sweet cherry trees",NA
"Ariza_etal_sweetcherry_Belgium_2019","Ariza_etal_2019_4","Insect net,  walking transects between tree rows","Syrphidae","family","syrphids",2,4300,120,NA,"2 people, each 1 time 60 minutes per transect during full bloom of sweet cherry trees",NA
"Ariza_etal_sweetcherry_Belgium_2019","Ariza_etal_2019_4","Insect net,  walking transects between tree rows","Andrena.chrysosceles","species","other_wild_bees",1,4300,120,NA,"2 people, each 1 time 60 minutes per transect during full bloom of sweet cherry trees",NA
"Ariza_etal_sweetcherry_Belgium_2019","Ariza_etal_2019_4","Insect net,  walking transects between tree rows","Andrena.cineraria","species","other_wild_bees",1,4300,120,NA,"2 people, each 1 time 60 minutes per transect during full bloom of sweet cherry trees",NA
"Ariza_etal_sweetcherry_Belgium_2019","Ariza_etal_2019_4","Insect net,  walking transects between tree rows","Andrena.flavipes","species","other_wild_bees",2,4300,120,NA,"2 people, each 1 time 60 minutes per transect during full bloom of sweet cherry trees",NA
"Ariza_etal_sweetcherry_Belgium_2019","Ariza_etal_2019_4","Insect net,  walking transects between tree rows","Andrena.fulva","species","other_wild_bees",1,4300,120,NA,"2 people, each 1 time 60 minutes per transect during full bloom of sweet cherry trees",NA
"Ariza_etal_sweetcherry_Belgium_2019","Ariza_etal_2019_4","Insect net,  walking transects between tree rows","Andrena.haemorrhoa","species","other_wild_bees",3,4300,120,NA,"2 people, each 1 time 60 minutes per transect during full bloom of sweet cherry trees",NA
"Ariza_etal_sweetcherry_Belgium_2019","Ariza_etal_2019_4","Insect net,  walking transects between tree rows","Apis.mellifera","species","honeybees",64,4300,120,NA,"2 people, each 1 time 60 minutes per transect during full bloom of sweet cherry trees",NA
"Ariza_etal_sweetcherry_Belgium_2019","Ariza_etal_2019_4","Insect net,  walking transects between tree rows","Bombus.pascuorum","species","bumblebees",1,4300,120,NA,"2 people, each 1 time 60 minutes per transect during full bloom of sweet cherry trees",NA
"Ariza_etal_sweetcherry_Belgium_2019","Ariza_etal_2019_4","Insect net,  walking transects between tree rows","Bombus.terrestris","species","bumblebees",19,4300,120,NA,"2 people, each 1 time 60 minutes per transect during full bloom of sweet cherry trees",NA
"Ariza_etal_sweetcherry_Belgium_2019","Ariza_etal_2019_4","Insect net,  walking transects between tree rows","Sphecodes.monilicornis","species","other_wild_bees",1,4300,120,NA,"2 people, each 1 time 60 minutes per transect during full bloom of sweet cherry trees",NA
"Ariza_etal_sweetcherry_Belgium_2019","Ariza_etal_2019_5","Insect net,  walking transects between tree rows","Syrphidae","family","syrphids",5,7300,120,NA,"2 people, each 1 time 60 minutes per transect during full bloom of sweet cherry trees",NA
"Ariza_etal_sweetcherry_Belgium_2019","Ariza_etal_2019_5","Insect net,  walking transects between tree rows","Andrena.carantonica","species","other_wild_bees",1,7300,120,NA,"2 people, each 1 time 60 minutes per transect during full bloom of sweet cherry trees",NA
"Ariza_etal_sweetcherry_Belgium_2019","Ariza_etal_2019_5","Insect net,  walking transects between tree rows","Andrena.dorsata","species","other_wild_bees",1,7300,120,NA,"2 people, each 1 time 60 minutes per transect during full bloom of sweet cherry trees",NA
"Ariza_etal_sweetcherry_Belgium_2019","Ariza_etal_2019_5","Insect net,  walking transects between tree rows","Andrena.flavipes","species","other_wild_bees",2,7300,120,NA,"2 people, each 1 time 60 minutes per transect during full bloom of sweet cherry trees",NA
"Ariza_etal_sweetcherry_Belgium_2019","Ariza_etal_2019_5","Insect net,  walking transects between tree rows","Andrena.haemorrhoa","species","other_wild_bees",2,7300,120,NA,"2 people, each 1 time 60 minutes per transect during full bloom of sweet cherry trees",NA
"Ariza_etal_sweetcherry_Belgium_2019","Ariza_etal_2019_5","Insect net,  walking transects between tree rows","Andrena.minutula","species","other_wild_bees",1,7300,120,NA,"2 people, each 1 time 60 minutes per transect during full bloom of sweet cherry trees",NA
"Ariza_etal_sweetcherry_Belgium_2019","Ariza_etal_2019_5","Insect net,  walking transects between tree rows","Andrena.nigroaenea","species","other_wild_bees",1,7300,120,NA,"2 people, each 1 time 60 minutes per transect during full bloom of sweet cherry trees",NA
"Ariza_etal_sweetcherry_Belgium_2019","Ariza_etal_2019_5","Insect net,  walking transects between tree rows","Andrena.nitida","species","other_wild_bees",1,7300,120,NA,"2 people, each 1 time 60 minutes per transect during full bloom of sweet cherry trees",NA
"Ariza_etal_sweetcherry_Belgium_2019","Ariza_etal_2019_5","Insect net,  walking transects between tree rows","Apis.mellifera","species","honeybees",70,7300,120,NA,"2 people, each 1 time 60 minutes per transect during full bloom of sweet cherry trees",NA
"Ariza_etal_sweetcherry_Belgium_2019","Ariza_etal_2019_5","Insect net,  walking transects between tree rows","Bombus.platorum","species","bumblebees",1,7300,120,NA,"2 people, each 1 time 60 minutes per transect during full bloom of sweet cherry trees",NA
"Ariza_etal_sweetcherry_Belgium_2019","Ariza_etal_2019_5","Insect net,  walking transects between tree rows","Bombus.terrestris","species","bumblebees",2,7300,120,NA,"2 people, each 1 time 60 minutes per transect during full bloom of sweet cherry trees",NA
"Ariza_etal_sweetcherry_Belgium_2019","Ariza_etal_2019_5","Insect net,  walking transects between tree rows","Lasioglossum.calceatum","species","other_wild_bees",1,7300,120,NA,"2 people, each 1 time 60 minutes per transect during full bloom of sweet cherry trees",NA
"Ariza_etal_sweetcherry_Belgium_2019","Ariza_etal_2019_5","Insect net,  walking transects between tree rows","Osmia.cornuta","species","other_wild_bees",1,7300,120,NA,"2 people, each 1 time 60 minutes per transect during full bloom of sweet cherry trees",NA
"Ariza_etal_sweetcherry_Belgium_2019","Ariza_etal_2019_6","Insect net,  walking transects between tree rows","Andrena.barbilabris","species","other_wild_bees",1,22625,120,NA,"2 people, each 1 time 60 minutes per transect during full bloom of sweet cherry trees",NA
"Ariza_etal_sweetcherry_Belgium_2019","Ariza_etal_2019_6","Insect net,  walking transects between tree rows","Andrena.fulva","species","other_wild_bees",1,22625,120,NA,"2 people, each 1 time 60 minutes per transect during full bloom of sweet cherry trees",NA
"Ariza_etal_sweetcherry_Belgium_2019","Ariza_etal_2019_6","Insect net,  walking transects between tree rows","Andrena.haemorrhoa","species","other_wild_bees",1,22625,120,NA,"2 people, each 1 time 60 minutes per transect during full bloom of sweet cherry trees",NA
"Ariza_etal_sweetcherry_Belgium_2019","Ariza_etal_2019_6","Insect net,  walking transects between tree rows","Apis.mellifera","species","other_wild_bees",76,22625,120,NA,"2 people, each 1 time 60 minutes per transect during full bloom of sweet cherry trees",NA
"Ariza_etal_sweetcherry_Belgium_2019","Ariza_etal_2019_6","Insect net,  walking transects between tree rows","Bombus.terrestris","species","bumblebees",1,22625,120,NA,"2 people, each 1 time 60 minutes per transect during full bloom of sweet cherry trees",NA
"Ariza_etal_sweetcherry_Belgium_2019","Ariza_etal_2019_6","Insect net,  walking transects between tree rows","Osmia.bicornis","species","other_wild_bees",1,22625,120,NA,"2 people, each 1 time 60 minutes per transect during full bloom of sweet cherry trees",NA
"Ariza_etal_sweetcherry_Belgium_2019","Ariza_etal_2019_7","Insect net,  walking transects between tree rows","Syrphidae","family","syrphids",1,6600,120,NA,"2 people, each 1 time 60 minutes per transect during full bloom of sweet cherry trees",NA
"Ariza_etal_sweetcherry_Belgium_2019","Ariza_etal_2019_7","Insect net,  walking transects between tree rows","Andrena.dorsata","species","other_wild_bees",1,6600,120,NA,"2 people, each 1 time 60 minutes per transect during full bloom of sweet cherry trees",NA
"Ariza_etal_sweetcherry_Belgium_2019","Ariza_etal_2019_7","Insect net,  walking transects between tree rows","Andrena.fulva","species","other_wild_bees",1,6600,120,NA,"2 people, each 1 time 60 minutes per transect during full bloom of sweet cherry trees",NA
"Ariza_etal_sweetcherry_Belgium_2019","Ariza_etal_2019_7","Insect net,  walking transects between tree rows","Andrena.gravida","species","other_wild_bees",1,6600,120,NA,"2 people, each 1 time 60 minutes per transect during full bloom of sweet cherry trees",NA
"Ariza_etal_sweetcherry_Belgium_2019","Ariza_etal_2019_7","Insect net,  walking transects between tree rows","Apis.mellifera","species","honeybees",138,6600,120,NA,"2 people, each 1 time 60 minutes per transect during full bloom of sweet cherry trees",NA
"Ariza_etal_sweetcherry_Belgium_2019","Ariza_etal_2019_7","Insect net,  walking transects between tree rows","Bombus.terrestris","species","bumblebees",1,6600,120,NA,"2 people, each 1 time 60 minutes per transect during full bloom of sweet cherry trees",NA
"Ariza_etal_sweetcherry_Belgium_2019","Ariza_etal_2019_7","Insect net,  walking transects between tree rows","Nomada.lathburiana","species","other_wild_bees",1,6600,120,NA,"2 people, each 1 time 60 minutes per transect during full bloom of sweet cherry trees",NA
"Ariza_etal_sweetcherry_Belgium_2019","Ariza_etal_2019_8","Insect net,  walking transects between tree rows","Syrphidae","family","syrphids",2,12500,120,NA,"2 people, each 1 time 60 minutes per transect during full bloom of sweet cherry trees",NA
"Ariza_etal_sweetcherry_Belgium_2019","Ariza_etal_2019_8","Insect net,  walking transects between tree rows","Andrena.carantonica","species","other_wild_bees",1,12500,120,NA,"2 people, each 1 time 60 minutes per transect during full bloom of sweet cherry trees",NA
"Ariza_etal_sweetcherry_Belgium_2019","Ariza_etal_2019_8","Insect net,  walking transects between tree rows","Andrena.cineraria","species","other_wild_bees",1,12500,120,NA,"2 people, each 1 time 60 minutes per transect during full bloom of sweet cherry trees",NA
"Ariza_etal_sweetcherry_Belgium_2019","Ariza_etal_2019_8","Insect net,  walking transects between tree rows","Andrena.dorsata","species","other_wild_bees",1,12500,120,NA,"2 people, each 1 time 60 minutes per transect during full bloom of sweet cherry trees",NA
"Ariza_etal_sweetcherry_Belgium_2019","Ariza_etal_2019_8","Insect net,  walking transects between tree rows","Andrena.nigroaenea","species","other_wild_bees",1,12500,120,NA,"2 people, each 1 time 60 minutes per transect during full bloom of sweet cherry trees",NA
"Ariza_etal_sweetcherry_Belgium_2019","Ariza_etal_2019_8","Insect net,  walking transects between tree rows","Apis.mellifera","species","honeybees",78,12500,120,NA,"2 people, each 1 time 60 minutes per transect during full bloom of sweet cherry trees",NA
"Ariza_etal_sweetcherry_Belgium_2019","Ariza_etal_2019_8","Insect net,  walking transects between tree rows","Bombus.terrestris","species","bumblebees",2,12500,120,NA,"2 people, each 1 time 60 minutes per transect during full bloom of sweet cherry trees",NA
"Ariza_etal_sweetcherry_Belgium_2019","Ariza_etal_2019_8","Insect net,  walking transects between tree rows","Osmia.cornuta","species","other_wild_bees",1,12500,120,NA,"2 people, each 1 time 60 minutes per transect during full bloom of sweet cherry trees",NA
"Ariza_etal_sweetcherry_Belgium_2019","Ariza_etal_2019_9","Insect net,  walking transects between tree rows","Syrphidae","family","syrphids",4,9725,120,NA,"2 people, each 1 time 60 minutes per transect during full bloom of sweet cherry trees",NA
"Ariza_etal_sweetcherry_Belgium_2019","Ariza_etal_2019_9","Insect net,  walking transects between tree rows","Andrena.fulva","species","other_wild_bees",1,9725,120,NA,"2 people, each 1 time 60 minutes per transect during full bloom of sweet cherry trees",NA
"Ariza_etal_sweetcherry_Belgium_2019","Ariza_etal_2019_9","Insect net,  walking transects between tree rows","Andrena.nigroaenea","species","other_wild_bees",1,9725,120,NA,"2 people, each 1 time 60 minutes per transect during full bloom of sweet cherry trees",NA
"Ariza_etal_sweetcherry_Belgium_2019","Ariza_etal_2019_9","Insect net,  walking transects between tree rows","Apis.mellifera","species","honeybees",34,9725,120,NA,"2 people, each 1 time 60 minutes per transect during full bloom of sweet cherry trees",NA
"Ariza_etal_sweetcherry_Belgium_2019","Ariza_etal_2019_9","Insect net,  walking transects between tree rows","Bombus.terrestris","species","bumblebees",4,9725,120,NA,"2 people, each 1 time 60 minutes per transect during full bloom of sweet cherry trees",NA
"Ariza_etal_sweetcherry_Belgium_2019","Ariza_etal_2019_10","Insect net,  walking transects between tree rows","Syrphidae","family","syrphids",4,5875,120,NA,"2 people, each 1 time 60 minutes per transect during full bloom of sweet cherry trees",NA
"Ariza_etal_sweetcherry_Belgium_2019","Ariza_etal_2019_10","Insect net,  walking transects between tree rows","Andrena.carantonica","species","other_wild_bees",1,5875,120,NA,"2 people, each 1 time 60 minutes per transect during full bloom of sweet cherry trees",NA
"Ariza_etal_sweetcherry_Belgium_2019","Ariza_etal_2019_10","Insect net,  walking transects between tree rows","Andrena.dorsata","species","other_wild_bees",2,5875,120,NA,"2 people, each 1 time 60 minutes per transect during full bloom of sweet cherry trees",NA
"Ariza_etal_sweetcherry_Belgium_2019","Ariza_etal_2019_10","Insect net,  walking transects between tree rows","Andrena.haemorrhoa","species","other_wild_bees",2,5875,120,NA,"2 people, each 1 time 60 minutes per transect during full bloom of sweet cherry trees",NA
"Ariza_etal_sweetcherry_Belgium_2019","Ariza_etal_2019_10","Insect net,  walking transects between tree rows","Andrena.nigroaenea","species","other_wild_bees",1,5875,120,NA,"2 people, each 1 time 60 minutes per transect during full bloom of sweet cherry trees",NA
"Ariza_etal_sweetcherry_Belgium_2019","Ariza_etal_2019_10","Insect net,  walking transects between tree rows","Apis.mellifera","species","honeybees",44,5875,120,NA,"2 people, each 1 time 60 minutes per transect during full bloom of sweet cherry trees",NA
"Ariza_etal_sweetcherry_Belgium_2019","Ariza_etal_2019_10","Insect net,  walking transects between tree rows","Bombus.pratorum","species","bumblebees",1,5875,120,NA,"2 people, each 1 time 60 minutes per transect during full bloom of sweet cherry trees",NA
"Ariza_etal_sweetcherry_Belgium_2019","Ariza_etal_2019_10","Insect net,  walking transects between tree rows","Bombus.terrestris","species","bumblebees",2,5875,120,NA,"2 people, each 1 time 60 minutes per transect during full bloom of sweet cherry trees",NA
"Ariza_etal_sweetcherry_Belgium_2019","Ariza_etal_2019_10","Insect net,  walking transects between tree rows","Osmia.cornuta","species","other_wild_bees",5,5875,120,NA,"2 people, each 1 time 60 minutes per transect during full bloom of sweet cherry trees",NA
"Ariza_etal_sweetcherry_Belgium_2019","Ariza_etal_2019_11","Insect net,  walking transects between tree rows","Syrphidae","family","syrphids",2,14475,120,NA,"2 people, each 1 time 60 minutes per transect during full bloom of sweet cherry trees",NA
"Ariza_etal_sweetcherry_Belgium_2019","Ariza_etal_2019_11","Insect net,  walking transects between tree rows","Andrena.carantonica","species","other_wild_bees",6,14475,120,NA,"2 people, each 1 time 60 minutes per transect during full bloom of sweet cherry trees",NA
"Ariza_etal_sweetcherry_Belgium_2019","Ariza_etal_2019_11","Insect net,  walking transects between tree rows","Andrena.dorsata","species","other_wild_bees",1,14475,120,NA,"2 people, each 1 time 60 minutes per transect during full bloom of sweet cherry trees",NA
"Ariza_etal_sweetcherry_Belgium_2019","Ariza_etal_2019_11","Insect net,  walking transects between tree rows","Andrena.fulva","species","other_wild_bees",1,14475,120,NA,"2 people, each 1 time 60 minutes per transect during full bloom of sweet cherry trees",NA
"Ariza_etal_sweetcherry_Belgium_2019","Ariza_etal_2019_11","Insect net,  walking transects between tree rows","Andrena.haemorrhoa","species","other_wild_bees",2,14475,120,NA,"2 people, each 1 time 60 minutes per transect during full bloom of sweet cherry trees",NA
"Ariza_etal_sweetcherry_Belgium_2019","Ariza_etal_2019_11","Insect net,  walking transects between tree rows","Andrena.helvola","species","other_wild_bees",1,14475,120,NA,"2 people, each 1 time 60 minutes per transect during full bloom of sweet cherry trees",NA
"Ariza_etal_sweetcherry_Belgium_2019","Ariza_etal_2019_11","Insect net,  walking transects between tree rows","Apis.mellifera","species","honeybees",50,14475,120,NA,"2 people, each 1 time 60 minutes per transect during full bloom of sweet cherry trees",NA
"Ariza_etal_sweetcherry_Belgium_2019","Ariza_etal_2019_11","Insect net,  walking transects between tree rows","Bombus.terrestris","species","bumblebees",1,14475,120,NA,"2 people, each 1 time 60 minutes per transect during full bloom of sweet cherry trees",NA
"Ariza_etal_sweetcherry_Belgium_2019","Ariza_etal_2019_11","Insect net,  walking transects between tree rows","Nomada.fabriciana","species","other_wild_bees",1,14475,120,NA,"2 people, each 1 time 60 minutes per transect during full bloom of sweet cherry trees",NA
"Ariza_etal_sweetcherry_Belgium_2019","Ariza_etal_2019_12","Insect net,  walking transects between tree rows","Syrphidae","family","syrphids",3,14900,120,NA,"2 people, each 1 time 60 minutes per transect during full bloom of sweet cherry trees",NA
"Ariza_etal_sweetcherry_Belgium_2019","Ariza_etal_2019_12","Insect net,  walking transects between tree rows","Andrena.dorsata","species","other_wild_bees",8,14900,120,NA,"2 people, each 1 time 60 minutes per transect during full bloom of sweet cherry trees",NA
"Ariza_etal_sweetcherry_Belgium_2019","Ariza_etal_2019_12","Insect net,  walking transects between tree rows","Andrena.haemorrhoa","species","other_wild_bees",2,14900,120,NA,"2 people, each 1 time 60 minutes per transect during full bloom of sweet cherry trees",NA
"Ariza_etal_sweetcherry_Belgium_2019","Ariza_etal_2019_12","Insect net,  walking transects between tree rows","Andrena.nitida","species","other_wild_bees",1,14900,120,NA,"2 people, each 1 time 60 minutes per transect during full bloom of sweet cherry trees",NA
"Ariza_etal_sweetcherry_Belgium_2019","Ariza_etal_2019_12","Insect net,  walking transects between tree rows","Apis.mellifera","species","other_wild_bees",34,14900,120,NA,"2 people, each 1 time 60 minutes per transect during full bloom of sweet cherry trees",NA
"Ariza_etal_sweetcherry_Belgium_2019","Ariza_etal_2019_12","Insect net,  walking transects between tree rows","Lasioglossum.calceatum","species","other_wild_bees",1,14900,120,NA,"2 people, each 1 time 60 minutes per transect during full bloom of sweet cherry trees",NA
"Ariza_etal_sweetcherry_Belgium_2019","Ariza_etal_2019_12","Insect net,  walking transects between tree rows","Nomada.ruficornis","species","other_wild_bees",1,14900,120,NA,"2 people, each 1 time 60 minutes per transect during full bloom of sweet cherry trees",NA
"Ariza_etal_sweetcherry_Belgium_2019","Ariza_etal_2019_12","Insect net,  walking transects between tree rows","Osmia.cornuta","species","other_wild_bees",2,14900,120,NA,"2 people, each 1 time 60 minutes per transect during full bloom of sweet cherry trees",NA
"Ariza_etal_sweetcherry_Belgium_2019","Ariza_etal_2019_13","Insect net,  walking transects between tree rows","Syrphidae","family","syrphids",4,8000,120,NA,"2 people, each 1 time 60 minutes per transect during full bloom of sweet cherry trees",NA
"Ariza_etal_sweetcherry_Belgium_2019","Ariza_etal_2019_13","Insect net,  walking transects between tree rows","Andrena.carantonica","species","other_wild_bees",7,8000,120,NA,"2 people, each 1 time 60 minutes per transect during full bloom of sweet cherry trees",NA
"Ariza_etal_sweetcherry_Belgium_2019","Ariza_etal_2019_13","Insect net,  walking transects between tree rows","Andrena.chrysosceles","species","other_wild_bees",3,8000,120,NA,"2 people, each 1 time 60 minutes per transect during full bloom of sweet cherry trees",NA
"Ariza_etal_sweetcherry_Belgium_2019","Ariza_etal_2019_13","Insect net,  walking transects between tree rows","Andrena.dorsata","species","other_wild_bees",3,8000,120,NA,"2 people, each 1 time 60 minutes per transect during full bloom of sweet cherry trees",NA
"Ariza_etal_sweetcherry_Belgium_2019","Ariza_etal_2019_13","Insect net,  walking transects between tree rows","Andrena.flavipes","species","other_wild_bees",2,8000,120,NA,"2 people, each 1 time 60 minutes per transect during full bloom of sweet cherry trees",NA
"Ariza_etal_sweetcherry_Belgium_2019","Ariza_etal_2019_13","Insect net,  walking transects between tree rows","Andrena.fulva","species","other_wild_bees",1,8000,120,NA,"2 people, each 1 time 60 minutes per transect during full bloom of sweet cherry trees",NA
"Ariza_etal_sweetcherry_Belgium_2019","Ariza_etal_2019_13","Insect net,  walking transects between tree rows","Andrena.haemorrhoa","species","other_wild_bees",25,8000,120,NA,"2 people, each 1 time 60 minutes per transect during full bloom of sweet cherry trees",NA
"Ariza_etal_sweetcherry_Belgium_2019","Ariza_etal_2019_13","Insect net,  walking transects between tree rows","Apis.mellifera","species","honeybees",34,8000,120,NA,"2 people, each 1 time 60 minutes per transect during full bloom of sweet cherry trees",NA
"Ariza_etal_sweetcherry_Belgium_2019","Ariza_etal_2019_13","Insect net,  walking transects between tree rows","Bombus.hypnorum","species","bumblebees",1,8000,120,NA,"2 people, each 1 time 60 minutes per transect during full bloom of sweet cherry trees",NA
"Ariza_etal_sweetcherry_Belgium_2019","Ariza_etal_2019_13","Insect net,  walking transects between tree rows","Bombus.lapidarius","species","bumblebees",1,8000,120,NA,"2 people, each 1 time 60 minutes per transect during full bloom of sweet cherry trees",NA
"Ariza_etal_sweetcherry_Belgium_2019","Ariza_etal_2019_13","Insect net,  walking transects between tree rows","Bombus.pascuorum","species","bumblebees",1,8000,120,NA,"2 people, each 1 time 60 minutes per transect during full bloom of sweet cherry trees",NA
"Ariza_etal_sweetcherry_Belgium_2019","Ariza_etal_2019_13","Insect net,  walking transects between tree rows","Bombus.pratorum","species","bumblebees",2,8000,120,NA,"2 people, each 1 time 60 minutes per transect during full bloom of sweet cherry trees",NA
"Ariza_etal_sweetcherry_Belgium_2019","Ariza_etal_2019_13","Insect net,  walking transects between tree rows","Bombus.terrestris","species","bumblebees",9,8000,120,NA,"2 people, each 1 time 60 minutes per transect during full bloom of sweet cherry trees",NA
"Ariza_etal_sweetcherry_Belgium_2019","Ariza_etal_2019_13","Insect net,  walking transects between tree rows","Nomada.fabriciana","species","other_wild_bees",1,8000,120,NA,"2 people, each 1 time 60 minutes per transect during full bloom of sweet cherry trees",NA
"Ariza_etal_sweetcherry_Belgium_2019","Ariza_etal_2019_13","Insect net,  walking transects between tree rows","Nomada.flava","species","other_wild_bees",2,8000,120,NA,"2 people, each 1 time 60 minutes per transect during full bloom of sweet cherry trees",NA
"Ariza_etal_sweetcherry_Belgium_2019","Ariza_etal_2019_13","Insect net,  walking transects between tree rows","Nomada.fucata","species","other_wild_bees",2,8000,120,NA,"2 people, each 1 time 60 minutes per transect during full bloom of sweet cherry trees",NA
"Ariza_etal_sweetcherry_Belgium_2019","Ariza_etal_2019_13","Insect net,  walking transects between tree rows","Nomada.lathburiana","species","other_wild_bees",1,8000,120,NA,"2 people, each 1 time 60 minutes per transect during full bloom of sweet cherry trees",NA
"Ariza_etal_sweetcherry_Belgium_2019","Ariza_etal_2019_13","Insect net,  walking transects between tree rows","Nomada.ruficornis","species","other_wild_bees",1,8000,120,NA,"2 people, each 1 time 60 minutes per transect during full bloom of sweet cherry trees",NA
"Ariza_etal_sweetcherry_Belgium_2019","Ariza_etal_2019_13","Insect net,  walking transects between tree rows","Nomada.zonata","species","other_wild_bees",1,8000,120,NA,"2 people, each 1 time 60 minutes per transect during full bloom of sweet cherry trees",NA
"Ariza_etal_sweetcherry_Belgium_2019","Ariza_etal_2019_13","Insect net,  walking transects between tree rows","Osmia.cornuta","species","other_wild_bees",1,8000,120,NA,"2 people, each 1 time 60 minutes per transect during full bloom of sweet cherry trees",NA
"Ariza_etal_sweetcherry_Belgium_2019","Ariza_etal_2019_14","Insect net,  walking transects between tree rows","Syrphidae","family","syrphids",1,27750,120,NA,"2 people, each 1 time 60 minutes per transect during full bloom of sweet cherry trees",NA
"Ariza_etal_sweetcherry_Belgium_2019","Ariza_etal_2019_14","Insect net,  walking transects between tree rows","Andrena.barbilabris","species","other_wild_bees",1,27750,120,NA,"2 people, each 1 time 60 minutes per transect during full bloom of sweet cherry trees",NA
"Ariza_etal_sweetcherry_Belgium_2019","Ariza_etal_2019_14","Insect net,  walking transects between tree rows","Andrena.carantonica","species","other_wild_bees",2,27750,120,NA,"2 people, each 1 time 60 minutes per transect during full bloom of sweet cherry trees",NA
"Ariza_etal_sweetcherry_Belgium_2019","Ariza_etal_2019_14","Insect net,  walking transects between tree rows","Andrena.dorsata","species","other_wild_bees",2,27750,120,NA,"2 people, each 1 time 60 minutes per transect during full bloom of sweet cherry trees",NA
"Ariza_etal_sweetcherry_Belgium_2019","Ariza_etal_2019_14","Insect net,  walking transects between tree rows","Andrena.flavipes","species","other_wild_bees",1,27750,120,NA,"2 people, each 1 time 60 minutes per transect during full bloom of sweet cherry trees",NA
"Ariza_etal_sweetcherry_Belgium_2019","Ariza_etal_2019_14","Insect net,  walking transects between tree rows","Andrena.haemorrhoa","species","other_wild_bees",3,27750,120,NA,"2 people, each 1 time 60 minutes per transect during full bloom of sweet cherry trees",NA
"Ariza_etal_sweetcherry_Belgium_2019","Ariza_etal_2019_14","Insect net,  walking transects between tree rows","Apis.mellifera","species","honeybees",59,27750,120,NA,"2 people, each 1 time 60 minutes per transect during full bloom of sweet cherry trees",NA
"Ariza_etal_sweetcherry_Belgium_2019","Ariza_etal_2019_14","Insect net,  walking transects between tree rows","Bombus.pascuorum","species","other_wild_bees",1,27750,120,NA,"2 people, each 1 time 60 minutes per transect during full bloom of sweet cherry trees",NA
"Ariza_etal_sweetcherry_Belgium_2019","Ariza_etal_2019_14","Insect net,  walking transects between tree rows","Bombus.terrestris","species","bumblebees",1,27750,120,NA,"2 people, each 1 time 60 minutes per transect during full bloom of sweet cherry trees",NA
"Ariza_etal_sweetcherry_Belgium_2019","Ariza_etal_2019_14","Insect net,  walking transects between tree rows","Nomada.fucata","species","other_wild_bees",1,27750,120,NA,"2 people, each 1 time 60 minutes per transect during full bloom of sweet cherry trees",NA
"Ariza_etal_sweetcherry_Belgium_2019","Ariza_etal_2019_14","Insect net,  walking transects between tree rows","Nomada.goodeniana","species","other_wild_bees",1,27750,120,NA,"2 people, each 1 time 60 minutes per transect during full bloom of sweet cherry trees",NA
"Ariza_etal_sweetcherry_Belgium_2019","Ariza_etal_2019_15","Insect net,  walking transects between tree rows","Syrphidae","family","syrphids",1,20125,120,NA,"2 people, each 1 time 60 minutes per transect during full bloom of sweet cherry trees",NA
"Ariza_etal_sweetcherry_Belgium_2019","Ariza_etal_2019_15","Insect net,  walking transects between tree rows","Andrena.fulva","species","other_wild_bees",1,20125,120,NA,"2 people, each 1 time 60 minutes per transect during full bloom of sweet cherry trees",NA
"Ariza_etal_sweetcherry_Belgium_2019","Ariza_etal_2019_15","Insect net,  walking transects between tree rows","Apis.mellifera","species","honeybees",26,20125,120,NA,"2 people, each 1 time 60 minutes per transect during full bloom of sweet cherry trees",NA
"Ariza_etal_sweetcherry_Belgium_2019","Ariza_etal_2019_15","Insect net,  walking transects between tree rows","Bombus.lapidarius","species","bumblebees",1,20125,120,NA,"2 people, each 1 time 60 minutes per transect during full bloom of sweet cherry trees",NA
"Ariza_etal_sweetcherry_Belgium_2019","Ariza_etal_2019_15","Insect net,  walking transects between tree rows","Bombus.terrestris","species","bumblebees",2,20125,120,NA,"2 people, each 1 time 60 minutes per transect during full bloom of sweet cherry trees",NA
"Ariza_etal_sweetcherry_Belgium_2019","Ariza_etal_2019_15","Insect net,  walking transects between tree rows","Osmia.cornuta","species","other_wild_bees",1,20125,120,NA,"2 people, each 1 time 60 minutes per transect during full bloom of sweet cherry trees",NA
"Ariza_etal_sweetcherry_Belgium_2019","Ariza_etal_2019_16","Insect net,  walking transects between tree rows","Syrphidae","family","syrphids",6,12050,120,NA,"2 people, each 1 time 60 minutes per transect during full bloom of sweet cherry trees",NA
"Ariza_etal_sweetcherry_Belgium_2019","Ariza_etal_2019_16","Insect net,  walking transects between tree rows","Andrena.flavipes","species","other_wild_bees",1,12050,120,NA,"2 people, each 1 time 60 minutes per transect during full bloom of sweet cherry trees",NA
"Ariza_etal_sweetcherry_Belgium_2019","Ariza_etal_2019_16","Insect net,  walking transects between tree rows","Andrena.haemorrhoa","species","other_wild_bees",10,12050,120,NA,"2 people, each 1 time 60 minutes per transect during full bloom of sweet cherry trees",NA
"Ariza_etal_sweetcherry_Belgium_2019","Ariza_etal_2019_16","Insect net,  walking transects between tree rows","Andrena.helvola","species","other_wild_bees",1,12050,120,NA,"2 people, each 1 time 60 minutes per transect during full bloom of sweet cherry trees",NA
"Ariza_etal_sweetcherry_Belgium_2019","Ariza_etal_2019_16","Insect net,  walking transects between tree rows","Andrena.nitida","species","other_wild_bees",1,12050,120,NA,"2 people, each 1 time 60 minutes per transect during full bloom of sweet cherry trees",NA
"Ariza_etal_sweetcherry_Belgium_2019","Ariza_etal_2019_16","Insect net,  walking transects between tree rows","Apis.mellifera","species","honeybees",81,12050,120,NA,"2 people, each 1 time 60 minutes per transect during full bloom of sweet cherry trees",NA
"Ariza_etal_sweetcherry_Belgium_2019","Ariza_etal_2019_16","Insect net,  walking transects between tree rows","Bombus.pascuorum","species","bumblebees",1,12050,120,NA,"2 people, each 1 time 60 minutes per transect during full bloom of sweet cherry trees",NA
"Ariza_etal_sweetcherry_Belgium_2019","Ariza_etal_2019_16","Insect net,  walking transects between tree rows","Bombus.terrestris","species","bumblebees",5,12050,120,NA,"2 people, each 1 time 60 minutes per transect during full bloom of sweet cherry trees",NA
"Ariza_etal_sweetcherry_Belgium_2019","Ariza_etal_2019_16","Insect net,  walking transects between tree rows","Halictus.rubicundus","species","other_wild_bees",1,12050,120,NA,"2 people, each 1 time 60 minutes per transect during full bloom of sweet cherry trees",NA
"Ariza_etal_apple_Belgium_2019","Ariza_etal_2019_1","Insect net,  walking transects between tree rows","Syrphidae","family","syrphids",1,8700,120,NA,"2 people, each 1 time 60 minutes per transect during full bloom of apple trees",NA
"Ariza_etal_apple_Belgium_2019","Ariza_etal_2019_1","Insect net,  walking transects between tree rows","Andrena.carantonica","species","other_wild_bees",1,8700,120,NA,"2 people, each 1 time 60 minutes per transect during full bloom of apple trees",NA
"Ariza_etal_apple_Belgium_2019","Ariza_etal_2019_1","Insect net,  walking transects between tree rows","Andrena.dorsata","species","other_wild_bees",1,8700,120,NA,"2 people, each 1 time 60 minutes per transect during full bloom of apple trees",NA
"Ariza_etal_apple_Belgium_2019","Ariza_etal_2019_1","Insect net,  walking transects between tree rows","Andrena.haemorrhoa","species","other_wild_bees",4,8700,120,NA,"2 people, each 1 time 60 minutes per transect during full bloom of apple trees",NA
"Ariza_etal_apple_Belgium_2019","Ariza_etal_2019_1","Insect net,  walking transects between tree rows","Bombus.pascuorum","species","bumblebees",1,8700,120,NA,"2 people, each 1 time 60 minutes per transect during full bloom of apple trees",NA
"Ariza_etal_apple_Belgium_2019","Ariza_etal_2019_1","Insect net,  walking transects between tree rows","Bombus.pratorum","species","other_wild_bees",2,8700,120,NA,"2 people, each 1 time 60 minutes per transect during full bloom of apple trees",NA
"Ariza_etal_apple_Belgium_2019","Ariza_etal_2019_1","Insect net,  walking transects between tree rows","Apis.mellifera","species","honeybees",15,8700,120,NA,"2 people, each 1 time 60 minutes per transect during full bloom of apple trees",NA
"Ariza_etal_apple_Belgium_2019","Ariza_etal_2019_1","Insect net,  walking transects between tree rows","Bombus.terrestris","species","bumblebees",2,8700,120,NA,"2 people, each 1 time 60 minutes per transect during full bloom of apple trees",NA
"Ariza_etal_apple_Belgium_2019","Ariza_etal_2019_2","Insect net,  walking transects between tree rows","Syrphidae","family","syrphids",1,5900,120,NA,"2 people, each 1 time 60 minutes per transect during full bloom of apple trees",NA
"Ariza_etal_apple_Belgium_2019","Ariza_etal_2019_2","Insect net,  walking transects between tree rows","Osmia.bicornis","species","other_wild_bees",1,5900,120,NA,"2 people, each 1 time 60 minutes per transect during full bloom of apple trees",NA
"Ariza_etal_apple_Belgium_2019","Ariza_etal_2019_2","Insect net,  walking transects between tree rows","Andrena.dorsata","species","other_wild_bees",1,5900,120,NA,"2 people, each 1 time 60 minutes per transect during full bloom of apple trees",NA
"Ariza_etal_apple_Belgium_2019","Ariza_etal_2019_2","Insect net,  walking transects between tree rows","Bombus.pascuorum","species","bumblebees",5,5900,120,NA,"2 people, each 1 time 60 minutes per transect during full bloom of apple trees",NA
"Ariza_etal_apple_Belgium_2019","Ariza_etal_2019_2","Insect net,  walking transects between tree rows","Bombus.pratorum","species","bumblebees",2,5900,120,NA,"2 people, each 1 time 60 minutes per transect during full bloom of apple trees",NA
"Ariza_etal_apple_Belgium_2019","Ariza_etal_2019_2","Insect net,  walking transects between tree rows","Apis.mellifera","species","honeybees",43,5900,120,NA,"2 people, each 1 time 60 minutes per transect during full bloom of apple trees",NA
"Ariza_etal_apple_Belgium_2019","Ariza_etal_2019_2","Insect net,  walking transects between tree rows","Bombus.terrestris","species","bumblebees",6,5900,120,NA,"2 people, each 1 time 60 minutes per transect during full bloom of apple trees",NA
"Ariza_etal_apple_Belgium_2019","Ariza_etal_2019_3","Insect net,  walking transects between tree rows","Osmia.cornuta","species","other_wild_bees",4,14200,120,NA,"2 people, each 1 time 60 minutes per transect during full bloom of apple trees",NA
"Ariza_etal_apple_Belgium_2019","Ariza_etal_2019_3","Insect net,  walking transects between tree rows","Andrena.flavipes","species","other_wild_bees",2,14200,120,NA,"2 people, each 1 time 60 minutes per transect during full bloom of apple trees",NA
"Ariza_etal_apple_Belgium_2019","Ariza_etal_2019_3","Insect net,  walking transects between tree rows","Bombus.hypnorum","species","bumblebees",2,14200,120,NA,"2 people, each 1 time 60 minutes per transect during full bloom of apple trees",NA
"Ariza_etal_apple_Belgium_2019","Ariza_etal_2019_3","Insect net,  walking transects between tree rows","Andrena.nigroaenea","species","other_wild_bees",1,14200,120,NA,"2 people, each 1 time 60 minutes per transect during full bloom of apple trees",NA
"Ariza_etal_apple_Belgium_2019","Ariza_etal_2019_3","Insect net,  walking transects between tree rows","Bombus.pascuorum","species","bumblebees",5,14200,120,NA,"2 people, each 1 time 60 minutes per transect during full bloom of apple trees",NA
"Ariza_etal_apple_Belgium_2019","Ariza_etal_2019_3","Insect net,  walking transects between tree rows","Bombus.pratorum","species","bumblebees",3,14200,120,NA,"2 people, each 1 time 60 minutes per transect during full bloom of apple trees",NA
"Ariza_etal_apple_Belgium_2019","Ariza_etal_2019_3","Insect net,  walking transects between tree rows","Apis.mellifera","species","honeybees",45,14200,120,NA,"2 people, each 1 time 60 minutes per transect during full bloom of apple trees",NA
"Ariza_etal_apple_Belgium_2019","Ariza_etal_2019_3","Insect net,  walking transects between tree rows","Bombus.terrestris","species","bumblebees",7,14200,120,NA,"2 people, each 1 time 60 minutes per transect during full bloom of apple trees",NA
"Ariza_etal_apple_Belgium_2019","Ariza_etal_2019_4","Insect net,  walking transects between tree rows","Syrphidae","family","syrphids",2,9500,120,NA,"2 people, each 1 time 60 minutes per transect during full bloom of apple trees",NA
"Ariza_etal_apple_Belgium_2019","Ariza_etal_2019_4","Insect net,  walking transects between tree rows","Andrena.cineraria","species","other_wild_bees",1,9500,120,NA,"2 people, each 1 time 60 minutes per transect during full bloom of apple trees",NA
"Ariza_etal_apple_Belgium_2019","Ariza_etal_2019_4","Insect net,  walking transects between tree rows","Andrena.dorsata","species","other_wild_bees",2,9500,120,NA,"2 people, each 1 time 60 minutes per transect during full bloom of apple trees",NA
"Ariza_etal_apple_Belgium_2019","Ariza_etal_2019_4","Insect net,  walking transects between tree rows","Andrena.gravida","species","other_wild_bees",1,9500,120,NA,"2 people, each 1 time 60 minutes per transect during full bloom of apple trees",NA
"Ariza_etal_apple_Belgium_2019","Ariza_etal_2019_4","Insect net,  walking transects between tree rows","Andrena.haemorrhoa","species","other_wild_bees",3,9500,120,NA,"2 people, each 1 time 60 minutes per transect during full bloom of apple trees",NA
"Ariza_etal_apple_Belgium_2019","Ariza_etal_2019_4","Insect net,  walking transects between tree rows","Bombus.lapidarius","species","bumblebees",1,9500,120,NA,"2 people, each 1 time 60 minutes per transect during full bloom of apple trees",NA
"Ariza_etal_apple_Belgium_2019","Ariza_etal_2019_4","Insect net,  walking transects between tree rows","Bombus.pratorum","species","bumblebees",1,9500,120,NA,"2 people, each 1 time 60 minutes per transect during full bloom of apple trees",NA
"Ariza_etal_apple_Belgium_2019","Ariza_etal_2019_4","Insect net,  walking transects between tree rows","Apis.mellifera","species","honeybees",17,9500,120,NA,"2 people, each 1 time 60 minutes per transect during full bloom of apple trees",NA
"Ariza_etal_apple_Belgium_2019","Ariza_etal_2019_4","Insect net,  walking transects between tree rows","Bombus.terrestris","species","bumblebees",6,9500,120,NA,"2 people, each 1 time 60 minutes per transect during full bloom of apple trees",NA
"Ariza_etal_apple_Belgium_2019","Ariza_etal_2019_5","Insect net,  walking transects between tree rows","Osmia.cornuta","species","other_wild_bees",2,13900,120,NA,"2 people, each 1 time 60 minutes per transect during full bloom of apple trees",NA
"Ariza_etal_apple_Belgium_2019","Ariza_etal_2019_5","Insect net,  walking transects between tree rows","Andrena.haemorrhoa","species","other_wild_bees",2,13900,120,NA,"2 people, each 1 time 60 minutes per transect during full bloom of apple trees",NA
"Ariza_etal_apple_Belgium_2019","Ariza_etal_2019_5","Insect net,  walking transects between tree rows","Bombus.hypnorum","species","bumblebees",2,13900,120,NA,"2 people, each 1 time 60 minutes per transect during full bloom of apple trees",NA
"Ariza_etal_apple_Belgium_2019","Ariza_etal_2019_5","Insect net,  walking transects between tree rows","Andrena.nitida","species","other_wild_bees",1,13900,120,NA,"2 people, each 1 time 60 minutes per transect during full bloom of apple trees",NA
"Ariza_etal_apple_Belgium_2019","Ariza_etal_2019_5","Insect net,  walking transects between tree rows","Apis.mellifera","species","honeybees",40,13900,120,NA,"2 people, each 1 time 60 minutes per transect during full bloom of apple trees",NA
"Ariza_etal_apple_Belgium_2019","Ariza_etal_2019_5","Insect net,  walking transects between tree rows","Bombus.terrestris","species","bumblebees",3,13900,120,NA,"2 people, each 1 time 60 minutes per transect during full bloom of apple trees",NA
"Ariza_etal_apple_Belgium_2019","Ariza_etal_2019_6","Insect net,  walking transects between tree rows","Osmia.bicornis","species","other_wild_bees",1,1400,120,NA,"2 people, each 1 time 60 minutes per transect during full bloom of apple trees",NA
"Ariza_etal_apple_Belgium_2019","Ariza_etal_2019_6","Insect net,  walking transects between tree rows","Andrena.haemorrhoa","species","other_wild_bees",1,1400,120,NA,"2 people, each 1 time 60 minutes per transect during full bloom of apple trees",NA
"Ariza_etal_apple_Belgium_2019","Ariza_etal_2019_6","Insect net,  walking transects between tree rows","Bombus.hypnorum","species","bumblebees",1,1400,120,NA,"2 people, each 1 time 60 minutes per transect during full bloom of apple trees",NA
"Ariza_etal_apple_Belgium_2019","Ariza_etal_2019_6","Insect net,  walking transects between tree rows","Bombus.lapidarius","species","bumblebees",4,1400,120,NA,"2 people, each 1 time 60 minutes per transect during full bloom of apple trees",NA
"Ariza_etal_apple_Belgium_2019","Ariza_etal_2019_6","Insect net,  walking transects between tree rows","Bombus.pascuorum","species","bumblebees",4,1400,120,NA,"2 people, each 1 time 60 minutes per transect during full bloom of apple trees",NA
"Ariza_etal_apple_Belgium_2019","Ariza_etal_2019_6","Insect net,  walking transects between tree rows","Bombus.pratorum","species","bumblebees",1,1400,120,NA,"2 people, each 1 time 60 minutes per transect during full bloom of apple trees",NA
"Ariza_etal_apple_Belgium_2019","Ariza_etal_2019_6","Insect net,  walking transects between tree rows","Apis.mellifera","species","honeybees",34,1400,120,NA,"2 people, each 1 time 60 minutes per transect during full bloom of apple trees",NA
"Ariza_etal_apple_Belgium_2019","Ariza_etal_2019_6","Insect net,  walking transects between tree rows","Bombus.terrestris","species","bumblebees",1,1400,120,NA,"2 people, each 1 time 60 minutes per transect during full bloom of apple trees",NA
"Ariza_etal_apple_Belgium_2019","Ariza_etal_2019_7","Insect net,  walking transects between tree rows","Osmia.bicornis","species","other_wild_bees",1,19600,120,NA,"2 people, each 1 time 60 minutes per transect during full bloom of apple trees",NA
"Ariza_etal_apple_Belgium_2019","Ariza_etal_2019_7","Insect net,  walking transects between tree rows","Osmia.cornuta","species","other_wild_bees",1,19600,120,NA,"2 people, each 1 time 60 minutes per transect during full bloom of apple trees",NA
"Ariza_etal_apple_Belgium_2019","Ariza_etal_2019_7","Insect net,  walking transects between tree rows","Apis.mellifera","species","honeybees",28,19600,120,NA,"2 people, each 1 time 60 minutes per transect during full bloom of apple trees",NA
"Ariza_etal_apple_Belgium_2019","Ariza_etal_2019_7","Insect net,  walking transects between tree rows","Bombus.terrestris","species","bumblebees",4,19600,120,NA,"2 people, each 1 time 60 minutes per transect during full bloom of apple trees",NA
"Ariza_etal_apple_Belgium_2019","Ariza_etal_2019_8","Insect net,  walking transects between tree rows","Syrphidae","family","syrphids",3,8500,120,NA,"2 people, each 1 time 60 minutes per transect during full bloom of apple trees",NA
"Ariza_etal_apple_Belgium_2019","Ariza_etal_2019_8","Insect net,  walking transects between tree rows","Andrena.carantonica","species","other_wild_bees",2,8500,120,NA,"2 people, each 1 time 60 minutes per transect during full bloom of apple trees",NA
"Ariza_etal_apple_Belgium_2019","Ariza_etal_2019_8","Insect net,  walking transects between tree rows","Andrena.dorsata","species","other_wild_bees",1,8500,120,NA,"2 people, each 1 time 60 minutes per transect during full bloom of apple trees",NA
"Ariza_etal_apple_Belgium_2019","Ariza_etal_2019_8","Insect net,  walking transects between tree rows","Andrena.haemorrhoa","species","other_wild_bees",2,8500,120,NA,"2 people, each 1 time 60 minutes per transect during full bloom of apple trees",NA
"Ariza_etal_apple_Belgium_2019","Ariza_etal_2019_8","Insect net,  walking transects between tree rows","Bombus.hypnorum","species","bumblebees",1,8500,120,NA,"2 people, each 1 time 60 minutes per transect during full bloom of apple trees",NA
"Ariza_etal_apple_Belgium_2019","Ariza_etal_2019_8","Insect net,  walking transects between tree rows","Andrena.nitida","species","other_wild_bees",1,8500,120,NA,"2 people, each 1 time 60 minutes per transect during full bloom of apple trees",NA
"Ariza_etal_apple_Belgium_2019","Ariza_etal_2019_8","Insect net,  walking transects between tree rows","Bombus.pratorum","species","bumblebees",1,8500,120,NA,"2 people, each 1 time 60 minutes per transect during full bloom of apple trees",NA
"Ariza_etal_apple_Belgium_2019","Ariza_etal_2019_8","Insect net,  walking transects between tree rows","Apis.mellifera","species","honeybees",49,8500,120,NA,"2 people, each 1 time 60 minutes per transect during full bloom of apple trees",NA
"Ariza_etal_apple_Belgium_2019","Ariza_etal_2019_8","Insect net,  walking transects between tree rows","Bombus.terrestris","species","bumblebees",8,8500,120,NA,"2 people, each 1 time 60 minutes per transect during full bloom of apple trees",NA
"Ariza_etal_apple_Belgium_2019","Ariza_etal_2019_9","Insect net,  walking transects between tree rows","Andrena.carantonica","species","other_wild_bees",2,23500,120,NA,"2 people, each 1 time 60 minutes per transect during full bloom of apple trees",NA
"Ariza_etal_apple_Belgium_2019","Ariza_etal_2019_9","Insect net,  walking transects between tree rows","Osmia.cornuta","species","other_wild_bees",2,23500,120,NA,"2 people, each 1 time 60 minutes per transect during full bloom of apple trees",NA
"Ariza_etal_apple_Belgium_2019","Ariza_etal_2019_9","Insect net,  walking transects between tree rows","Andrena.dorsata","species","other_wild_bees",2,23500,120,NA,"2 people, each 1 time 60 minutes per transect during full bloom of apple trees",NA
"Ariza_etal_apple_Belgium_2019","Ariza_etal_2019_9","Insect net,  walking transects between tree rows","Andrena.haemorrhoa","species","other_wild_bees",3,23500,120,NA,"2 people, each 1 time 60 minutes per transect during full bloom of apple trees",NA
"Ariza_etal_apple_Belgium_2019","Ariza_etal_2019_9","Insect net,  walking transects between tree rows","Apis.mellifera","species","honeybees",51,23500,120,NA,"2 people, each 1 time 60 minutes per transect during full bloom of apple trees",NA
"Ariza_etal_apple_Belgium_2019","Ariza_etal_2019_9","Insect net,  walking transects between tree rows","Bombus.terrestris","species","bumblebees",2,23500,120,NA,"2 people, each 1 time 60 minutes per transect during full bloom of apple trees",NA
"Ariza_etal_apple_Belgium_2019","Ariza_etal_2019_10","Insect net,  walking transects between tree rows","Syrphidae","species","syrphids",1,20500,120,NA,"2 people, each 1 time 60 minutes per transect during full bloom of apple trees",NA
"Ariza_etal_apple_Belgium_2019","Ariza_etal_2019_10","Insect net,  walking transects between tree rows","Osmia.cornuta","species","other_wild_bees",2,20500,120,NA,"2 people, each 1 time 60 minutes per transect during full bloom of apple trees",NA
"Ariza_etal_apple_Belgium_2019","Ariza_etal_2019_10","Insect net,  walking transects between tree rows","Apis.mellifera","species","honeybees",36,20500,120,NA,"2 people, each 1 time 60 minutes per transect during full bloom of apple trees",NA
"Ariza_etal_apple_Belgium_2019","Ariza_etal_2019_11","Insect net,  walking transects between tree rows","Syrphidae","species","syrphids",3,1900,120,NA,"2 people, each 1 time 60 minutes per transect during full bloom of apple trees",NA
"Ariza_etal_apple_Belgium_2019","Ariza_etal_2019_11","Insect net,  walking transects between tree rows","Osmia.bicornis","species","other_wild_bees",1,1900,120,NA,"2 people, each 1 time 60 minutes per transect during full bloom of apple trees",NA
"Ariza_etal_apple_Belgium_2019","Ariza_etal_2019_11","Insect net,  walking transects between tree rows","Andrena.carantonica","species","other_wild_bees",1,1900,120,NA,"2 people, each 1 time 60 minutes per transect during full bloom of apple trees",NA
"Ariza_etal_apple_Belgium_2019","Ariza_etal_2019_11","Insect net,  walking transects between tree rows","Nomada.flava","species","other_wild_bees",1,1900,120,NA,"2 people, each 1 time 60 minutes per transect during full bloom of apple trees",NA
"Ariza_etal_apple_Belgium_2019","Ariza_etal_2019_11","Insect net,  walking transects between tree rows","Andrena.gravida","species","other_wild_bees",1,1900,120,NA,"2 people, each 1 time 60 minutes per transect during full bloom of apple trees",NA
"Ariza_etal_apple_Belgium_2019","Ariza_etal_2019_11","Insect net,  walking transects between tree rows","Andrena.haemorrhoa","species","other_wild_bees",17,1900,120,NA,"2 people, each 1 time 60 minutes per transect during full bloom of apple trees",NA
"Ariza_etal_apple_Belgium_2019","Ariza_etal_2019_11","Insect net,  walking transects between tree rows","Bombus.hortorum","species","bumblebees",1,1900,120,NA,"2 people, each 1 time 60 minutes per transect during full bloom of apple trees",NA
"Ariza_etal_apple_Belgium_2019","Ariza_etal_2019_11","Insect net,  walking transects between tree rows","Bombus.lapidarius","species","bumblebees",6,1900,120,NA,"2 people, each 1 time 60 minutes per transect during full bloom of apple trees",NA
"Ariza_etal_apple_Belgium_2019","Ariza_etal_2019_11","Insect net,  walking transects between tree rows","Andrena.nigroaenea","species","other_wild_bees",1,1900,120,NA,"2 people, each 1 time 60 minutes per transect during full bloom of apple trees",NA
"Ariza_etal_apple_Belgium_2019","Ariza_etal_2019_11","Insect net,  walking transects between tree rows","Bombus.pascuorum","species","bumblebees",4,1900,120,NA,"2 people, each 1 time 60 minutes per transect during full bloom of apple trees",NA
"Ariza_etal_apple_Belgium_2019","Ariza_etal_2019_11","Insect net,  walking transects between tree rows","Apis.mellifera","species","honeybees",33,1900,120,NA,"2 people, each 1 time 60 minutes per transect during full bloom of apple trees",NA
"Ariza_etal_apple_Belgium_2019","Ariza_etal_2019_11","Insect net,  walking transects between tree rows","Andrena.subopaca","species","other_wild_bees",1,1900,120,NA,"2 people, each 1 time 60 minutes per transect during full bloom of apple trees",NA
"Ariza_etal_apple_Belgium_2019","Ariza_etal_2019_11","Insect net,  walking transects between tree rows","Bombus.terrestris","species","bumblebees",3,1900,120,NA,"2 people, each 1 time 60 minutes per transect during full bloom of apple trees",NA
"Ariza_etal_apple_Belgium_2019","Ariza_etal_2019_12","Insect net,  walking transects between tree rows","Syrphidae","family","syrphids",1,36900,120,NA,"2 people, each 1 time 60 minutes per transect during full bloom of apple trees",NA
"Ariza_etal_apple_Belgium_2019","Ariza_etal_2019_12","Insect net,  walking transects between tree rows","Andrena.carantonica","species","other_wild_bees",2,36900,120,NA,"2 people, each 1 time 60 minutes per transect during full bloom of apple trees",NA
"Ariza_etal_apple_Belgium_2019","Ariza_etal_2019_12","Insect net,  walking transects between tree rows","Osmia.cornuta","species","other_wild_bees",1,36900,120,NA,"2 people, each 1 time 60 minutes per transect during full bloom of apple trees",NA
"Ariza_etal_apple_Belgium_2019","Ariza_etal_2019_12","Insect net,  walking transects between tree rows","Andrena.haemorrhoa","species","other_wild_bees",1,36900,120,NA,"2 people, each 1 time 60 minutes per transect during full bloom of apple trees",NA
"Ariza_etal_apple_Belgium_2019","Ariza_etal_2019_12","Insect net,  walking transects between tree rows","Andrena.nigroaenea","species","other_wild_bees",1,36900,120,NA,"2 people, each 1 time 60 minutes per transect during full bloom of apple trees",NA
"Ariza_etal_apple_Belgium_2019","Ariza_etal_2019_12","Insect net,  walking transects between tree rows","Andrena.nitida","species","other_wild_bees",1,36900,120,NA,"2 people, each 1 time 60 minutes per transect during full bloom of apple trees",NA
"Ariza_etal_apple_Belgium_2019","Ariza_etal_2019_12","Insect net,  walking transects between tree rows","Nomada.panzeri","species","other_wild_bees",1,36900,120,NA,"2 people, each 1 time 60 minutes per transect during full bloom of apple trees",NA
"Ariza_etal_apple_Belgium_2019","Ariza_etal_2019_12","Insect net,  walking transects between tree rows","Bombus.pratorum","species","bumblebees",1,36900,120,NA,"2 people, each 1 time 60 minutes per transect during full bloom of apple trees",NA
"Ariza_etal_apple_Belgium_2019","Ariza_etal_2019_12","Insect net,  walking transects between tree rows","Apis.mellifera","species","honeybees",95,36900,120,NA,"2 people, each 1 time 60 minutes per transect during full bloom of apple trees",NA
"Ariza_etal_apple_Belgium_2019","Ariza_etal_2019_12","Insect net,  walking transects between tree rows","Bombus.terrestris","species","bumblebees",5,36900,120,NA,"2 people, each 1 time 60 minutes per transect during full bloom of apple trees",NA
"Ariza_etal_apple_Belgium_2019","Ariza_etal_2019_13","Insect net,  walking transects between tree rows","Osmia.bicornis","species","other_wild_bees",1,34600,120,NA,"2 people, each 1 time 60 minutes per transect during full bloom of apple trees",NA
"Ariza_etal_apple_Belgium_2019","Ariza_etal_2019_13","Insect net,  walking transects between tree rows","Andrena.cineraria","species","other_wild_bees",1,34600,120,NA,"2 people, each 1 time 60 minutes per transect during full bloom of apple trees",NA
"Ariza_etal_apple_Belgium_2019","Ariza_etal_2019_13","Insect net,  walking transects between tree rows","Andrena.dorsata","species","other_wild_bees",2,34600,120,NA,"2 people, each 1 time 60 minutes per transect during full bloom of apple trees",NA
"Ariza_etal_apple_Belgium_2019","Ariza_etal_2019_13","Insect net,  walking transects between tree rows","Andrena.flavipes","species","other_wild_bees",1,34600,120,NA,"2 people, each 1 time 60 minutes per transect during full bloom of apple trees",NA
"Ariza_etal_apple_Belgium_2019","Ariza_etal_2019_13","Insect net,  walking transects between tree rows","Andrena.haemorrhoa","species","other_wild_bees",4,34600,120,NA,"2 people, each 1 time 60 minutes per transect during full bloom of apple trees",NA
"Ariza_etal_apple_Belgium_2019","Ariza_etal_2019_13","Insect net,  walking transects between tree rows","Bombus.lapidarius","species","bumblebees",1,34600,120,NA,"2 people, each 1 time 60 minutes per transect during full bloom of apple trees",NA
"Ariza_etal_apple_Belgium_2019","Ariza_etal_2019_13","Insect net,  walking transects between tree rows","Andrena.nigroaenea","species","other_wild_bees",2,34600,120,NA,"2 people, each 1 time 60 minutes per transect during full bloom of apple trees",NA
"Ariza_etal_apple_Belgium_2019","Ariza_etal_2019_13","Insect net,  walking transects between tree rows","Andrena.nitida","species","other_wild_bees",1,34600,120,NA,"2 people, each 1 time 60 minutes per transect during full bloom of apple trees",NA
"Ariza_etal_apple_Belgium_2019","Ariza_etal_2019_13","Insect net,  walking transects between tree rows","Apis.mellifera","species","honeybees",61,34600,120,NA,"2 people, each 1 time 60 minutes per transect during full bloom of apple trees",NA
"Ariza_etal_apple_Belgium_2019","Ariza_etal_2019_13","Insect net,  walking transects between tree rows","Bombus.terrestris","species","bumblebees",5,34600,120,NA,"2 people, each 1 time 60 minutes per transect during full bloom of apple trees",NA
"Ariza_etal_apple_Belgium_2019","Ariza_etal_2019_14","Insect net,  walking transects between tree rows","Syrphidae","family","syrphids",1,40700,120,NA,"2 people, each 1 time 60 minutes per transect during full bloom of apple trees",NA
"Ariza_etal_apple_Belgium_2019","Ariza_etal_2019_14","Insect net,  walking transects between tree rows","Andrena.haemorrhoa","species","other_wild_bees",2,40700,120,NA,"2 people, each 1 time 60 minutes per transect during full bloom of apple trees",NA
"Ariza_etal_apple_Belgium_2019","Ariza_etal_2019_14","Insect net,  walking transects between tree rows","Apis.mellifera","species","honeybees",64,40700,120,NA,"2 people, each 1 time 60 minutes per transect during full bloom of apple trees",NA
"Ariza_etal_apple_Belgium_2019","Ariza_etal_2019_14","Insect net,  walking transects between tree rows","Bombus.terrestris","species","bumblebees",3,40700,120,NA,"2 people, each 1 time 60 minutes per transect during full bloom of apple trees",NA
"Carlos_Zaragoza_Trello_Vicia_faba_Ecuador_2017","BQ1","transects","bombus","genus","bumblebees",2,900,90,NA,"To explore pollinator biodiversity we selected 15 Faba bean fields that were at the same phenological stage and adjacent to a managed grassland (or a natural grassland area when it was not feasible). We conducted pollinator surveys along 25 days (from early July to middle August) by walking during 15 minutes along each of two 150 x 1 m standardized transects per site. One transect was located at the field edge while the central transect was located at 25 m inside the field from the edge. In 5 fields these transects were adapted to the middle of the field as the field did not reach 50 meters. Transect walks were conducted between 8:00 and 16:30, low wind speeds and temperatures above 15 degrees C. Due Andean high altitude weather characteristics, during shorts periods of rain (minutes) or low clouds we stopped the survey and resumed it when weather allowed. Sites were surveyed thrice in random order. We surveyed all honeybees, bumblebees, solitary bees, hoverflies and other Diptera (e.g: Calliphoridae, Tachinidae, Sarcophagidae) that visited flowers inside Faba beans field and at the margin of the crop capturing the pollinators with a net. Handling time invested in capturing pollinators was discounted. In total, the sampling effort was 90 minutes. Pollinators that were easily identifiable (e.g. honeybees and Bombus funebris, medium and big hoverflies) were recorded without capturing when possible.","Round number: 1. Height above sea level:2818 m."
"Carlos_Zaragoza_Trello_Vicia_faba_Ecuador_2017","CUSU1","transects","bombus","genus","bumblebees",1,900,90,NA,"To explore pollinator biodiversity we selected 15 Faba bean fields that were at the same phenological stage and adjacent to a managed grassland (or a natural grassland area when it was not feasible). We conducted pollinator surveys along 25 days (from early July to middle August) by walking during 15 minutes along each of two 150 x 1 m standardized transects per site. One transect was located at the field edge while the central transect was located at 25 m inside the field from the edge. In 5 fields these transects were adapted to the middle of the field as the field did not reach 50 meters. Transect walks were conducted between 8:00 and 16:30, low wind speeds and temperatures above 15 degrees C. Due Andean high altitude weather characteristics, during shorts periods of rain (minutes) or low clouds we stopped the survey and resumed it when weather allowed. Sites were surveyed thrice in random order. We surveyed all honeybees, bumblebees, solitary bees, hoverflies and other Diptera (e.g: Calliphoridae, Tachinidae, Sarcophagidae) that visited flowers inside Faba beans field and at the margin of the crop capturing the pollinators with a net. Handling time invested in capturing pollinators was discounted. In total, the sampling effort was 90 minutes. Pollinators that were easily identifiable (e.g. honeybees and Bombus funebris, medium and big hoverflies) were recorded without capturing when possible.","Round number: 3. Height above sea level:3086 m."
"Carlos_Zaragoza_Trello_Vicia_faba_Ecuador_2017","CUSU2","transects","bombus","genus","bumblebees",1,900,90,NA,"To explore pollinator biodiversity we selected 15 Faba bean fields that were at the same phenological stage and adjacent to a managed grassland (or a natural grassland area when it was not feasible). We conducted pollinator surveys along 25 days (from early July to middle August) by walking during 15 minutes along each of two 150 x 1 m standardized transects per site. One transect was located at the field edge while the central transect was located at 25 m inside the field from the edge. In 5 fields these transects were adapted to the middle of the field as the field did not reach 50 meters. Transect walks were conducted between 8:00 and 16:30, low wind speeds and temperatures above 15 degrees C. Due Andean high altitude weather characteristics, during shorts periods of rain (minutes) or low clouds we stopped the survey and resumed it when weather allowed. Sites were surveyed thrice in random order. We surveyed all honeybees, bumblebees, solitary bees, hoverflies and other Diptera (e.g: Calliphoridae, Tachinidae, Sarcophagidae) that visited flowers inside Faba beans field and at the margin of the crop capturing the pollinators with a net. Handling time invested in capturing pollinators was discounted. In total, the sampling effort was 90 minutes. Pollinators that were easily identifiable (e.g. honeybees and Bombus funebris, medium and big hoverflies) were recorded without capturing when possible.","Round number: 1. Height above sea level:3500 m."
"Carlos_Zaragoza_Trello_Vicia_faba_Ecuador_2017","CUSU2","transects","bombus","genus","bumblebees",1,900,90,NA,"To explore pollinator biodiversity we selected 15 Faba bean fields that were at the same phenological stage and adjacent to a managed grassland (or a natural grassland area when it was not feasible). We conducted pollinator surveys along 25 days (from early July to middle August) by walking during 15 minutes along each of two 150 x 1 m standardized transects per site. One transect was located at the field edge while the central transect was located at 25 m inside the field from the edge. In 5 fields these transects were adapted to the middle of the field as the field did not reach 50 meters. Transect walks were conducted between 8:00 and 16:30, low wind speeds and temperatures above 15 degrees C. Due Andean high altitude weather characteristics, during shorts periods of rain (minutes) or low clouds we stopped the survey and resumed it when weather allowed. Sites were surveyed thrice in random order. We surveyed all honeybees, bumblebees, solitary bees, hoverflies and other Diptera (e.g: Calliphoridae, Tachinidae, Sarcophagidae) that visited flowers inside Faba beans field and at the margin of the crop capturing the pollinators with a net. Handling time invested in capturing pollinators was discounted. In total, the sampling effort was 90 minutes. Pollinators that were easily identifiable (e.g. honeybees and Bombus funebris, medium and big hoverflies) were recorded without capturing when possible.","Round number: 3. Height above sea level:3500 m."
"Carlos_Zaragoza_Trello_Vicia_faba_Ecuador_2017","Q1","transects","bombus","genus","bumblebees",4,900,90,NA,"To explore pollinator biodiversity we selected 15 Faba bean fields that were at the same phenological stage and adjacent to a managed grassland (or a natural grassland area when it was not feasible). We conducted pollinator surveys along 25 days (from early July to middle August) by walking during 15 minutes along each of two 150 x 1 m standardized transects per site. One transect was located at the field edge while the central transect was located at 25 m inside the field from the edge. In 5 fields these transects were adapted to the middle of the field as the field did not reach 50 meters. Transect walks were conducted between 8:00 and 16:30, low wind speeds and temperatures above 15 degrees C. Due Andean high altitude weather characteristics, during shorts periods of rain (minutes) or low clouds we stopped the survey and resumed it when weather allowed. Sites were surveyed thrice in random order. We surveyed all honeybees, bumblebees, solitary bees, hoverflies and other Diptera (e.g: Calliphoridae, Tachinidae, Sarcophagidae) that visited flowers inside Faba beans field and at the margin of the crop capturing the pollinators with a net. Handling time invested in capturing pollinators was discounted. In total, the sampling effort was 90 minutes. Pollinators that were easily identifiable (e.g. honeybees and Bombus funebris, medium and big hoverflies) were recorded without capturing when possible.","Round number: 3. Height above sea level:3777 m."
"Carlos_Zaragoza_Trello_Vicia_faba_Ecuador_2017","Q4","transects","bombus","genus","bumblebees",1,900,90,NA,"To explore pollinator biodiversity we selected 15 Faba bean fields that were at the same phenological stage and adjacent to a managed grassland (or a natural grassland area when it was not feasible). We conducted pollinator surveys along 25 days (from early July to middle August) by walking during 15 minutes along each of two 150 x 1 m standardized transects per site. One transect was located at the field edge while the central transect was located at 25 m inside the field from the edge. In 5 fields these transects were adapted to the middle of the field as the field did not reach 50 meters. Transect walks were conducted between 8:00 and 16:30, low wind speeds and temperatures above 15 degrees C. Due Andean high altitude weather characteristics, during shorts periods of rain (minutes) or low clouds we stopped the survey and resumed it when weather allowed. Sites were surveyed thrice in random order. We surveyed all honeybees, bumblebees, solitary bees, hoverflies and other Diptera (e.g: Calliphoridae, Tachinidae, Sarcophagidae) that visited flowers inside Faba beans field and at the margin of the crop capturing the pollinators with a net. Handling time invested in capturing pollinators was discounted. In total, the sampling effort was 90 minutes. Pollinators that were easily identifiable (e.g. honeybees and Bombus funebris, medium and big hoverflies) were recorded without capturing when possible.","Round number: 2. Height above sea level:3838 m."
"Carlos_Zaragoza_Trello_Vicia_faba_Ecuador_2017","Q5","transects","bombus","genus","bumblebees",1,900,90,NA,"To explore pollinator biodiversity we selected 15 Faba bean fields that were at the same phenological stage and adjacent to a managed grassland (or a natural grassland area when it was not feasible). We conducted pollinator surveys along 25 days (from early July to middle August) by walking during 15 minutes along each of two 150 x 1 m standardized transects per site. One transect was located at the field edge while the central transect was located at 25 m inside the field from the edge. In 5 fields these transects were adapted to the middle of the field as the field did not reach 50 meters. Transect walks were conducted between 8:00 and 16:30, low wind speeds and temperatures above 15 degrees C. Due Andean high altitude weather characteristics, during shorts periods of rain (minutes) or low clouds we stopped the survey and resumed it when weather allowed. Sites were surveyed thrice in random order. We surveyed all honeybees, bumblebees, solitary bees, hoverflies and other Diptera (e.g: Calliphoridae, Tachinidae, Sarcophagidae) that visited flowers inside Faba beans field and at the margin of the crop capturing the pollinators with a net. Handling time invested in capturing pollinators was discounted. In total, the sampling effort was 90 minutes. Pollinators that were easily identifiable (e.g. honeybees and Bombus funebris, medium and big hoverflies) were recorded without capturing when possible.","Round number: 1. Height above sea level:3779 m."
"Carlos_Zaragoza_Trello_Vicia_faba_Ecuador_2017","BQ1","transects","diptera","order","other_flies",1,900,90,NA,"To explore pollinator biodiversity we selected 15 Faba bean fields that were at the same phenological stage and adjacent to a managed grassland (or a natural grassland area when it was not feasible). We conducted pollinator surveys along 25 days (from early July to middle August) by walking during 15 minutes along each of two 150 x 1 m standardized transects per site. One transect was located at the field edge while the central transect was located at 25 m inside the field from the edge. In 5 fields these transects were adapted to the middle of the field as the field did not reach 50 meters. Transect walks were conducted between 8:00 and 16:30, low wind speeds and temperatures above 15 degrees C. Due Andean high altitude weather characteristics, during shorts periods of rain (minutes) or low clouds we stopped the survey and resumed it when weather allowed. Sites were surveyed thrice in random order. We surveyed all honeybees, bumblebees, solitary bees, hoverflies and other Diptera (e.g: Calliphoridae, Tachinidae, Sarcophagidae) that visited flowers inside Faba beans field and at the margin of the crop capturing the pollinators with a net. Handling time invested in capturing pollinators was discounted. In total, the sampling effort was 90 minutes. Pollinators that were easily identifiable (e.g. honeybees and Bombus funebris, medium and big hoverflies) were recorded without capturing when possible.","Round number: 1. Height above sea level:2818 m."
"Carlos_Zaragoza_Trello_Vicia_faba_Ecuador_2017","BQ1","transects","diptera","order","other_flies",1,900,90,NA,"To explore pollinator biodiversity we selected 15 Faba bean fields that were at the same phenological stage and adjacent to a managed grassland (or a natural grassland area when it was not feasible). We conducted pollinator surveys along 25 days (from early July to middle August) by walking during 15 minutes along each of two 150 x 1 m standardized transects per site. One transect was located at the field edge while the central transect was located at 25 m inside the field from the edge. In 5 fields these transects were adapted to the middle of the field as the field did not reach 50 meters. Transect walks were conducted between 8:00 and 16:30, low wind speeds and temperatures above 15 degrees C. Due Andean high altitude weather characteristics, during shorts periods of rain (minutes) or low clouds we stopped the survey and resumed it when weather allowed. Sites were surveyed thrice in random order. We surveyed all honeybees, bumblebees, solitary bees, hoverflies and other Diptera (e.g: Calliphoridae, Tachinidae, Sarcophagidae) that visited flowers inside Faba beans field and at the margin of the crop capturing the pollinators with a net. Handling time invested in capturing pollinators was discounted. In total, the sampling effort was 90 minutes. Pollinators that were easily identifiable (e.g. honeybees and Bombus funebris, medium and big hoverflies) were recorded without capturing when possible.","Round number: 1. Height above sea level:2818 m."
"Carlos_Zaragoza_Trello_Vicia_faba_Ecuador_2017","BQ1","transects","diptera","order","other_flies",1,900,90,NA,"To explore pollinator biodiversity we selected 15 Faba bean fields that were at the same phenological stage and adjacent to a managed grassland (or a natural grassland area when it was not feasible). We conducted pollinator surveys along 25 days (from early July to middle August) by walking during 15 minutes along each of two 150 x 1 m standardized transects per site. One transect was located at the field edge while the central transect was located at 25 m inside the field from the edge. In 5 fields these transects were adapted to the middle of the field as the field did not reach 50 meters. Transect walks were conducted between 8:00 and 16:30, low wind speeds and temperatures above 15 degrees C. Due Andean high altitude weather characteristics, during shorts periods of rain (minutes) or low clouds we stopped the survey and resumed it when weather allowed. Sites were surveyed thrice in random order. We surveyed all honeybees, bumblebees, solitary bees, hoverflies and other Diptera (e.g: Calliphoridae, Tachinidae, Sarcophagidae) that visited flowers inside Faba beans field and at the margin of the crop capturing the pollinators with a net. Handling time invested in capturing pollinators was discounted. In total, the sampling effort was 90 minutes. Pollinators that were easily identifiable (e.g. honeybees and Bombus funebris, medium and big hoverflies) were recorded without capturing when possible.","Round number: 2. Height above sea level:2818 m."
"Carlos_Zaragoza_Trello_Vicia_faba_Ecuador_2017","BQ2","transects","diptera","order","other_flies",1,900,90,NA,"To explore pollinator biodiversity we selected 15 Faba bean fields that were at the same phenological stage and adjacent to a managed grassland (or a natural grassland area when it was not feasible). We conducted pollinator surveys along 25 days (from early July to middle August) by walking during 15 minutes along each of two 150 x 1 m standardized transects per site. One transect was located at the field edge while the central transect was located at 25 m inside the field from the edge. In 5 fields these transects were adapted to the middle of the field as the field did not reach 50 meters. Transect walks were conducted between 8:00 and 16:30, low wind speeds and temperatures above 15 degrees C. Due Andean high altitude weather characteristics, during shorts periods of rain (minutes) or low clouds we stopped the survey and resumed it when weather allowed. Sites were surveyed thrice in random order. We surveyed all honeybees, bumblebees, solitary bees, hoverflies and other Diptera (e.g: Calliphoridae, Tachinidae, Sarcophagidae) that visited flowers inside Faba beans field and at the margin of the crop capturing the pollinators with a net. Handling time invested in capturing pollinators was discounted. In total, the sampling effort was 90 minutes. Pollinators that were easily identifiable (e.g. honeybees and Bombus funebris, medium and big hoverflies) were recorded without capturing when possible.","Round number: 1. Height above sea level:3041 m."
"Carlos_Zaragoza_Trello_Vicia_faba_Ecuador_2017","BQ2","transects","diptera","order","other_flies",1,900,90,NA,"To explore pollinator biodiversity we selected 15 Faba bean fields that were at the same phenological stage and adjacent to a managed grassland (or a natural grassland area when it was not feasible). We conducted pollinator surveys along 25 days (from early July to middle August) by walking during 15 minutes along each of two 150 x 1 m standardized transects per site. One transect was located at the field edge while the central transect was located at 25 m inside the field from the edge. In 5 fields these transects were adapted to the middle of the field as the field did not reach 50 meters. Transect walks were conducted between 8:00 and 16:30, low wind speeds and temperatures above 15 degrees C. Due Andean high altitude weather characteristics, during shorts periods of rain (minutes) or low clouds we stopped the survey and resumed it when weather allowed. Sites were surveyed thrice in random order. We surveyed all honeybees, bumblebees, solitary bees, hoverflies and other Diptera (e.g: Calliphoridae, Tachinidae, Sarcophagidae) that visited flowers inside Faba beans field and at the margin of the crop capturing the pollinators with a net. Handling time invested in capturing pollinators was discounted. In total, the sampling effort was 90 minutes. Pollinators that were easily identifiable (e.g. honeybees and Bombus funebris, medium and big hoverflies) were recorded without capturing when possible.","Round number: 1. Height above sea level:3041 m."
"Carlos_Zaragoza_Trello_Vicia_faba_Ecuador_2017","BQ2","transects","diptera","order","other_flies",1,900,90,NA,"To explore pollinator biodiversity we selected 15 Faba bean fields that were at the same phenological stage and adjacent to a managed grassland (or a natural grassland area when it was not feasible). We conducted pollinator surveys along 25 days (from early July to middle August) by walking during 15 minutes along each of two 150 x 1 m standardized transects per site. One transect was located at the field edge while the central transect was located at 25 m inside the field from the edge. In 5 fields these transects were adapted to the middle of the field as the field did not reach 50 meters. Transect walks were conducted between 8:00 and 16:30, low wind speeds and temperatures above 15 degrees C. Due Andean high altitude weather characteristics, during shorts periods of rain (minutes) or low clouds we stopped the survey and resumed it when weather allowed. Sites were surveyed thrice in random order. We surveyed all honeybees, bumblebees, solitary bees, hoverflies and other Diptera (e.g: Calliphoridae, Tachinidae, Sarcophagidae) that visited flowers inside Faba beans field and at the margin of the crop capturing the pollinators with a net. Handling time invested in capturing pollinators was discounted. In total, the sampling effort was 90 minutes. Pollinators that were easily identifiable (e.g. honeybees and Bombus funebris, medium and big hoverflies) were recorded without capturing when possible.","Round number: 1. Height above sea level:3041 m."
"Carlos_Zaragoza_Trello_Vicia_faba_Ecuador_2017","BQ2","transects","diptera","order","other_flies",1,900,90,NA,"To explore pollinator biodiversity we selected 15 Faba bean fields that were at the same phenological stage and adjacent to a managed grassland (or a natural grassland area when it was not feasible). We conducted pollinator surveys along 25 days (from early July to middle August) by walking during 15 minutes along each of two 150 x 1 m standardized transects per site. One transect was located at the field edge while the central transect was located at 25 m inside the field from the edge. In 5 fields these transects were adapted to the middle of the field as the field did not reach 50 meters. Transect walks were conducted between 8:00 and 16:30, low wind speeds and temperatures above 15 degrees C. Due Andean high altitude weather characteristics, during shorts periods of rain (minutes) or low clouds we stopped the survey and resumed it when weather allowed. Sites were surveyed thrice in random order. We surveyed all honeybees, bumblebees, solitary bees, hoverflies and other Diptera (e.g: Calliphoridae, Tachinidae, Sarcophagidae) that visited flowers inside Faba beans field and at the margin of the crop capturing the pollinators with a net. Handling time invested in capturing pollinators was discounted. In total, the sampling effort was 90 minutes. Pollinators that were easily identifiable (e.g. honeybees and Bombus funebris, medium and big hoverflies) were recorded without capturing when possible.","Round number: 1. Height above sea level:3041 m."
"Carlos_Zaragoza_Trello_Vicia_faba_Ecuador_2017","BQ2","transects","diptera","order","other_flies",1,900,90,NA,"To explore pollinator biodiversity we selected 15 Faba bean fields that were at the same phenological stage and adjacent to a managed grassland (or a natural grassland area when it was not feasible). We conducted pollinator surveys along 25 days (from early July to middle August) by walking during 15 minutes along each of two 150 x 1 m standardized transects per site. One transect was located at the field edge while the central transect was located at 25 m inside the field from the edge. In 5 fields these transects were adapted to the middle of the field as the field did not reach 50 meters. Transect walks were conducted between 8:00 and 16:30, low wind speeds and temperatures above 15 degrees C. Due Andean high altitude weather characteristics, during shorts periods of rain (minutes) or low clouds we stopped the survey and resumed it when weather allowed. Sites were surveyed thrice in random order. We surveyed all honeybees, bumblebees, solitary bees, hoverflies and other Diptera (e.g: Calliphoridae, Tachinidae, Sarcophagidae) that visited flowers inside Faba beans field and at the margin of the crop capturing the pollinators with a net. Handling time invested in capturing pollinators was discounted. In total, the sampling effort was 90 minutes. Pollinators that were easily identifiable (e.g. honeybees and Bombus funebris, medium and big hoverflies) were recorded without capturing when possible.","Round number: 1. Height above sea level:3041 m."
"Carlos_Zaragoza_Trello_Vicia_faba_Ecuador_2017","BQ2","transects","diptera","order","other_flies",1,900,90,NA,"To explore pollinator biodiversity we selected 15 Faba bean fields that were at the same phenological stage and adjacent to a managed grassland (or a natural grassland area when it was not feasible). We conducted pollinator surveys along 25 days (from early July to middle August) by walking during 15 minutes along each of two 150 x 1 m standardized transects per site. One transect was located at the field edge while the central transect was located at 25 m inside the field from the edge. In 5 fields these transects were adapted to the middle of the field as the field did not reach 50 meters. Transect walks were conducted between 8:00 and 16:30, low wind speeds and temperatures above 15 degrees C. Due Andean high altitude weather characteristics, during shorts periods of rain (minutes) or low clouds we stopped the survey and resumed it when weather allowed. Sites were surveyed thrice in random order. We surveyed all honeybees, bumblebees, solitary bees, hoverflies and other Diptera (e.g: Calliphoridae, Tachinidae, Sarcophagidae) that visited flowers inside Faba beans field and at the margin of the crop capturing the pollinators with a net. Handling time invested in capturing pollinators was discounted. In total, the sampling effort was 90 minutes. Pollinators that were easily identifiable (e.g. honeybees and Bombus funebris, medium and big hoverflies) were recorded without capturing when possible.","Round number: 1. Height above sea level:3041 m."
"Carlos_Zaragoza_Trello_Vicia_faba_Ecuador_2017","BQ2","transects","diptera","order","other_flies",1,900,90,NA,"To explore pollinator biodiversity we selected 15 Faba bean fields that were at the same phenological stage and adjacent to a managed grassland (or a natural grassland area when it was not feasible). We conducted pollinator surveys along 25 days (from early July to middle August) by walking during 15 minutes along each of two 150 x 1 m standardized transects per site. One transect was located at the field edge while the central transect was located at 25 m inside the field from the edge. In 5 fields these transects were adapted to the middle of the field as the field did not reach 50 meters. Transect walks were conducted between 8:00 and 16:30, low wind speeds and temperatures above 15 degrees C. Due Andean high altitude weather characteristics, during shorts periods of rain (minutes) or low clouds we stopped the survey and resumed it when weather allowed. Sites were surveyed thrice in random order. We surveyed all honeybees, bumblebees, solitary bees, hoverflies and other Diptera (e.g: Calliphoridae, Tachinidae, Sarcophagidae) that visited flowers inside Faba beans field and at the margin of the crop capturing the pollinators with a net. Handling time invested in capturing pollinators was discounted. In total, the sampling effort was 90 minutes. Pollinators that were easily identifiable (e.g. honeybees and Bombus funebris, medium and big hoverflies) were recorded without capturing when possible.","Round number: 1. Height above sea level:3041 m."
"Carlos_Zaragoza_Trello_Vicia_faba_Ecuador_2017","BQ2","transects","diptera","order","other_flies",1,900,90,NA,"To explore pollinator biodiversity we selected 15 Faba bean fields that were at the same phenological stage and adjacent to a managed grassland (or a natural grassland area when it was not feasible). We conducted pollinator surveys along 25 days (from early July to middle August) by walking during 15 minutes along each of two 150 x 1 m standardized transects per site. One transect was located at the field edge while the central transect was located at 25 m inside the field from the edge. In 5 fields these transects were adapted to the middle of the field as the field did not reach 50 meters. Transect walks were conducted between 8:00 and 16:30, low wind speeds and temperatures above 15 degrees C. Due Andean high altitude weather characteristics, during shorts periods of rain (minutes) or low clouds we stopped the survey and resumed it when weather allowed. Sites were surveyed thrice in random order. We surveyed all honeybees, bumblebees, solitary bees, hoverflies and other Diptera (e.g: Calliphoridae, Tachinidae, Sarcophagidae) that visited flowers inside Faba beans field and at the margin of the crop capturing the pollinators with a net. Handling time invested in capturing pollinators was discounted. In total, the sampling effort was 90 minutes. Pollinators that were easily identifiable (e.g. honeybees and Bombus funebris, medium and big hoverflies) were recorded without capturing when possible.","Round number: 1. Height above sea level:3041 m."
"Carlos_Zaragoza_Trello_Vicia_faba_Ecuador_2017","BQ2","transects","diptera","order","other_flies",1,900,90,NA,"To explore pollinator biodiversity we selected 15 Faba bean fields that were at the same phenological stage and adjacent to a managed grassland (or a natural grassland area when it was not feasible). We conducted pollinator surveys along 25 days (from early July to middle August) by walking during 15 minutes along each of two 150 x 1 m standardized transects per site. One transect was located at the field edge while the central transect was located at 25 m inside the field from the edge. In 5 fields these transects were adapted to the middle of the field as the field did not reach 50 meters. Transect walks were conducted between 8:00 and 16:30, low wind speeds and temperatures above 15 degrees C. Due Andean high altitude weather characteristics, during shorts periods of rain (minutes) or low clouds we stopped the survey and resumed it when weather allowed. Sites were surveyed thrice in random order. We surveyed all honeybees, bumblebees, solitary bees, hoverflies and other Diptera (e.g: Calliphoridae, Tachinidae, Sarcophagidae) that visited flowers inside Faba beans field and at the margin of the crop capturing the pollinators with a net. Handling time invested in capturing pollinators was discounted. In total, the sampling effort was 90 minutes. Pollinators that were easily identifiable (e.g. honeybees and Bombus funebris, medium and big hoverflies) were recorded without capturing when possible.","Round number: 1. Height above sea level:3041 m."
"Carlos_Zaragoza_Trello_Vicia_faba_Ecuador_2017","BQ2","transects","diptera","order","other_flies",1,900,90,NA,"To explore pollinator biodiversity we selected 15 Faba bean fields that were at the same phenological stage and adjacent to a managed grassland (or a natural grassland area when it was not feasible). We conducted pollinator surveys along 25 days (from early July to middle August) by walking during 15 minutes along each of two 150 x 1 m standardized transects per site. One transect was located at the field edge while the central transect was located at 25 m inside the field from the edge. In 5 fields these transects were adapted to the middle of the field as the field did not reach 50 meters. Transect walks were conducted between 8:00 and 16:30, low wind speeds and temperatures above 15 degrees C. Due Andean high altitude weather characteristics, during shorts periods of rain (minutes) or low clouds we stopped the survey and resumed it when weather allowed. Sites were surveyed thrice in random order. We surveyed all honeybees, bumblebees, solitary bees, hoverflies and other Diptera (e.g: Calliphoridae, Tachinidae, Sarcophagidae) that visited flowers inside Faba beans field and at the margin of the crop capturing the pollinators with a net. Handling time invested in capturing pollinators was discounted. In total, the sampling effort was 90 minutes. Pollinators that were easily identifiable (e.g. honeybees and Bombus funebris, medium and big hoverflies) were recorded without capturing when possible.","Round number: 1. Height above sea level:3041 m."
"Carlos_Zaragoza_Trello_Vicia_faba_Ecuador_2017","BQ2","transects","diptera","order","other_flies",1,900,90,NA,"To explore pollinator biodiversity we selected 15 Faba bean fields that were at the same phenological stage and adjacent to a managed grassland (or a natural grassland area when it was not feasible). We conducted pollinator surveys along 25 days (from early July to middle August) by walking during 15 minutes along each of two 150 x 1 m standardized transects per site. One transect was located at the field edge while the central transect was located at 25 m inside the field from the edge. In 5 fields these transects were adapted to the middle of the field as the field did not reach 50 meters. Transect walks were conducted between 8:00 and 16:30, low wind speeds and temperatures above 15 degrees C. Due Andean high altitude weather characteristics, during shorts periods of rain (minutes) or low clouds we stopped the survey and resumed it when weather allowed. Sites were surveyed thrice in random order. We surveyed all honeybees, bumblebees, solitary bees, hoverflies and other Diptera (e.g: Calliphoridae, Tachinidae, Sarcophagidae) that visited flowers inside Faba beans field and at the margin of the crop capturing the pollinators with a net. Handling time invested in capturing pollinators was discounted. In total, the sampling effort was 90 minutes. Pollinators that were easily identifiable (e.g. honeybees and Bombus funebris, medium and big hoverflies) were recorded without capturing when possible.","Round number: 1. Height above sea level:3041 m."
"Carlos_Zaragoza_Trello_Vicia_faba_Ecuador_2017","BQ2","transects","diptera","order","other_flies",1,900,90,NA,"To explore pollinator biodiversity we selected 15 Faba bean fields that were at the same phenological stage and adjacent to a managed grassland (or a natural grassland area when it was not feasible). We conducted pollinator surveys along 25 days (from early July to middle August) by walking during 15 minutes along each of two 150 x 1 m standardized transects per site. One transect was located at the field edge while the central transect was located at 25 m inside the field from the edge. In 5 fields these transects were adapted to the middle of the field as the field did not reach 50 meters. Transect walks were conducted between 8:00 and 16:30, low wind speeds and temperatures above 15 degrees C. Due Andean high altitude weather characteristics, during shorts periods of rain (minutes) or low clouds we stopped the survey and resumed it when weather allowed. Sites were surveyed thrice in random order. We surveyed all honeybees, bumblebees, solitary bees, hoverflies and other Diptera (e.g: Calliphoridae, Tachinidae, Sarcophagidae) that visited flowers inside Faba beans field and at the margin of the crop capturing the pollinators with a net. Handling time invested in capturing pollinators was discounted. In total, the sampling effort was 90 minutes. Pollinators that were easily identifiable (e.g. honeybees and Bombus funebris, medium and big hoverflies) were recorded without capturing when possible.","Round number: 1. Height above sea level:3041 m."
"Carlos_Zaragoza_Trello_Vicia_faba_Ecuador_2017","BQ2","transects","diptera","order","other_flies",1,900,90,NA,"To explore pollinator biodiversity we selected 15 Faba bean fields that were at the same phenological stage and adjacent to a managed grassland (or a natural grassland area when it was not feasible). We conducted pollinator surveys along 25 days (from early July to middle August) by walking during 15 minutes along each of two 150 x 1 m standardized transects per site. One transect was located at the field edge while the central transect was located at 25 m inside the field from the edge. In 5 fields these transects were adapted to the middle of the field as the field did not reach 50 meters. Transect walks were conducted between 8:00 and 16:30, low wind speeds and temperatures above 15 degrees C. Due Andean high altitude weather characteristics, during shorts periods of rain (minutes) or low clouds we stopped the survey and resumed it when weather allowed. Sites were surveyed thrice in random order. We surveyed all honeybees, bumblebees, solitary bees, hoverflies and other Diptera (e.g: Calliphoridae, Tachinidae, Sarcophagidae) that visited flowers inside Faba beans field and at the margin of the crop capturing the pollinators with a net. Handling time invested in capturing pollinators was discounted. In total, the sampling effort was 90 minutes. Pollinators that were easily identifiable (e.g. honeybees and Bombus funebris, medium and big hoverflies) were recorded without capturing when possible.","Round number: 1. Height above sea level:3041 m."
"Carlos_Zaragoza_Trello_Vicia_faba_Ecuador_2017","BQ2","transects","diptera","order","other_flies",15,900,90,NA,"To explore pollinator biodiversity we selected 15 Faba bean fields that were at the same phenological stage and adjacent to a managed grassland (or a natural grassland area when it was not feasible). We conducted pollinator surveys along 25 days (from early July to middle August) by walking during 15 minutes along each of two 150 x 1 m standardized transects per site. One transect was located at the field edge while the central transect was located at 25 m inside the field from the edge. In 5 fields these transects were adapted to the middle of the field as the field did not reach 50 meters. Transect walks were conducted between 8:00 and 16:30, low wind speeds and temperatures above 15 degrees C. Due Andean high altitude weather characteristics, during shorts periods of rain (minutes) or low clouds we stopped the survey and resumed it when weather allowed. Sites were surveyed thrice in random order. We surveyed all honeybees, bumblebees, solitary bees, hoverflies and other Diptera (e.g: Calliphoridae, Tachinidae, Sarcophagidae) that visited flowers inside Faba beans field and at the margin of the crop capturing the pollinators with a net. Handling time invested in capturing pollinators was discounted. In total, the sampling effort was 90 minutes. Pollinators that were easily identifiable (e.g. honeybees and Bombus funebris, medium and big hoverflies) were recorded without capturing when possible.","Round number: 2. Height above sea level:3041 m."
"Carlos_Zaragoza_Trello_Vicia_faba_Ecuador_2017","BQ2","transects","diptera","order","other_flies",2,900,90,NA,"To explore pollinator biodiversity we selected 15 Faba bean fields that were at the same phenological stage and adjacent to a managed grassland (or a natural grassland area when it was not feasible). We conducted pollinator surveys along 25 days (from early July to middle August) by walking during 15 minutes along each of two 150 x 1 m standardized transects per site. One transect was located at the field edge while the central transect was located at 25 m inside the field from the edge. In 5 fields these transects were adapted to the middle of the field as the field did not reach 50 meters. Transect walks were conducted between 8:00 and 16:30, low wind speeds and temperatures above 15 degrees C. Due Andean high altitude weather characteristics, during shorts periods of rain (minutes) or low clouds we stopped the survey and resumed it when weather allowed. Sites were surveyed thrice in random order. We surveyed all honeybees, bumblebees, solitary bees, hoverflies and other Diptera (e.g: Calliphoridae, Tachinidae, Sarcophagidae) that visited flowers inside Faba beans field and at the margin of the crop capturing the pollinators with a net. Handling time invested in capturing pollinators was discounted. In total, the sampling effort was 90 minutes. Pollinators that were easily identifiable (e.g. honeybees and Bombus funebris, medium and big hoverflies) were recorded without capturing when possible.","Round number: 3. Height above sea level:3041 m."
"Carlos_Zaragoza_Trello_Vicia_faba_Ecuador_2017","CUMBI1","transects","diptera","order","other_flies",1,900,90,NA,"To explore pollinator biodiversity we selected 15 Faba bean fields that were at the same phenological stage and adjacent to a managed grassland (or a natural grassland area when it was not feasible). We conducted pollinator surveys along 25 days (from early July to middle August) by walking during 15 minutes along each of two 150 x 1 m standardized transects per site. One transect was located at the field edge while the central transect was located at 25 m inside the field from the edge. In 5 fields these transects were adapted to the middle of the field as the field did not reach 50 meters. Transect walks were conducted between 8:00 and 16:30, low wind speeds and temperatures above 15 degrees C. Due Andean high altitude weather characteristics, during shorts periods of rain (minutes) or low clouds we stopped the survey and resumed it when weather allowed. Sites were surveyed thrice in random order. We surveyed all honeybees, bumblebees, solitary bees, hoverflies and other Diptera (e.g: Calliphoridae, Tachinidae, Sarcophagidae) that visited flowers inside Faba beans field and at the margin of the crop capturing the pollinators with a net. Handling time invested in capturing pollinators was discounted. In total, the sampling effort was 90 minutes. Pollinators that were easily identifiable (e.g. honeybees and Bombus funebris, medium and big hoverflies) were recorded without capturing when possible.","Round number: 1. Height above sea level:2759 m."
"Carlos_Zaragoza_Trello_Vicia_faba_Ecuador_2017","CUMBI1","transects","diptera","order","other_flies",1,900,90,NA,"To explore pollinator biodiversity we selected 15 Faba bean fields that were at the same phenological stage and adjacent to a managed grassland (or a natural grassland area when it was not feasible). We conducted pollinator surveys along 25 days (from early July to middle August) by walking during 15 minutes along each of two 150 x 1 m standardized transects per site. One transect was located at the field edge while the central transect was located at 25 m inside the field from the edge. In 5 fields these transects were adapted to the middle of the field as the field did not reach 50 meters. Transect walks were conducted between 8:00 and 16:30, low wind speeds and temperatures above 15 degrees C. Due Andean high altitude weather characteristics, during shorts periods of rain (minutes) or low clouds we stopped the survey and resumed it when weather allowed. Sites were surveyed thrice in random order. We surveyed all honeybees, bumblebees, solitary bees, hoverflies and other Diptera (e.g: Calliphoridae, Tachinidae, Sarcophagidae) that visited flowers inside Faba beans field and at the margin of the crop capturing the pollinators with a net. Handling time invested in capturing pollinators was discounted. In total, the sampling effort was 90 minutes. Pollinators that were easily identifiable (e.g. honeybees and Bombus funebris, medium and big hoverflies) were recorded without capturing when possible.","Round number: 2. Height above sea level:2759 m."
"Carlos_Zaragoza_Trello_Vicia_faba_Ecuador_2017","CUMBI1","transects","diptera","order","other_flies",1,900,90,NA,"To explore pollinator biodiversity we selected 15 Faba bean fields that were at the same phenological stage and adjacent to a managed grassland (or a natural grassland area when it was not feasible). We conducted pollinator surveys along 25 days (from early July to middle August) by walking during 15 minutes along each of two 150 x 1 m standardized transects per site. One transect was located at the field edge while the central transect was located at 25 m inside the field from the edge. In 5 fields these transects were adapted to the middle of the field as the field did not reach 50 meters. Transect walks were conducted between 8:00 and 16:30, low wind speeds and temperatures above 15 degrees C. Due Andean high altitude weather characteristics, during shorts periods of rain (minutes) or low clouds we stopped the survey and resumed it when weather allowed. Sites were surveyed thrice in random order. We surveyed all honeybees, bumblebees, solitary bees, hoverflies and other Diptera (e.g: Calliphoridae, Tachinidae, Sarcophagidae) that visited flowers inside Faba beans field and at the margin of the crop capturing the pollinators with a net. Handling time invested in capturing pollinators was discounted. In total, the sampling effort was 90 minutes. Pollinators that were easily identifiable (e.g. honeybees and Bombus funebris, medium and big hoverflies) were recorded without capturing when possible.","Round number: 2. Height above sea level:2759 m."
"Carlos_Zaragoza_Trello_Vicia_faba_Ecuador_2017","CUMBI3","transects","diptera","order","other_flies",1,900,90,NA,"To explore pollinator biodiversity we selected 15 Faba bean fields that were at the same phenological stage and adjacent to a managed grassland (or a natural grassland area when it was not feasible). We conducted pollinator surveys along 25 days (from early July to middle August) by walking during 15 minutes along each of two 150 x 1 m standardized transects per site. One transect was located at the field edge while the central transect was located at 25 m inside the field from the edge. In 5 fields these transects were adapted to the middle of the field as the field did not reach 50 meters. Transect walks were conducted between 8:00 and 16:30, low wind speeds and temperatures above 15 degrees C. Due Andean high altitude weather characteristics, during shorts periods of rain (minutes) or low clouds we stopped the survey and resumed it when weather allowed. Sites were surveyed thrice in random order. We surveyed all honeybees, bumblebees, solitary bees, hoverflies and other Diptera (e.g: Calliphoridae, Tachinidae, Sarcophagidae) that visited flowers inside Faba beans field and at the margin of the crop capturing the pollinators with a net. Handling time invested in capturing pollinators was discounted. In total, the sampling effort was 90 minutes. Pollinators that were easily identifiable (e.g. honeybees and Bombus funebris, medium and big hoverflies) were recorded without capturing when possible.","Round number: 1. Height above sea level:3064 m."
"Carlos_Zaragoza_Trello_Vicia_faba_Ecuador_2017","CUMBI3","transects","diptera","order","other_flies",1,900,90,NA,"To explore pollinator biodiversity we selected 15 Faba bean fields that were at the same phenological stage and adjacent to a managed grassland (or a natural grassland area when it was not feasible). We conducted pollinator surveys along 25 days (from early July to middle August) by walking during 15 minutes along each of two 150 x 1 m standardized transects per site. One transect was located at the field edge while the central transect was located at 25 m inside the field from the edge. In 5 fields these transects were adapted to the middle of the field as the field did not reach 50 meters. Transect walks were conducted between 8:00 and 16:30, low wind speeds and temperatures above 15 degrees C. Due Andean high altitude weather characteristics, during shorts periods of rain (minutes) or low clouds we stopped the survey and resumed it when weather allowed. Sites were surveyed thrice in random order. We surveyed all honeybees, bumblebees, solitary bees, hoverflies and other Diptera (e.g: Calliphoridae, Tachinidae, Sarcophagidae) that visited flowers inside Faba beans field and at the margin of the crop capturing the pollinators with a net. Handling time invested in capturing pollinators was discounted. In total, the sampling effort was 90 minutes. Pollinators that were easily identifiable (e.g. honeybees and Bombus funebris, medium and big hoverflies) were recorded without capturing when possible.","Round number: 1. Height above sea level:3064 m."
"Carlos_Zaragoza_Trello_Vicia_faba_Ecuador_2017","CUMBI3","transects","diptera","order","other_flies",1,900,90,NA,"To explore pollinator biodiversity we selected 15 Faba bean fields that were at the same phenological stage and adjacent to a managed grassland (or a natural grassland area when it was not feasible). We conducted pollinator surveys along 25 days (from early July to middle August) by walking during 15 minutes along each of two 150 x 1 m standardized transects per site. One transect was located at the field edge while the central transect was located at 25 m inside the field from the edge. In 5 fields these transects were adapted to the middle of the field as the field did not reach 50 meters. Transect walks were conducted between 8:00 and 16:30, low wind speeds and temperatures above 15 degrees C. Due Andean high altitude weather characteristics, during shorts periods of rain (minutes) or low clouds we stopped the survey and resumed it when weather allowed. Sites were surveyed thrice in random order. We surveyed all honeybees, bumblebees, solitary bees, hoverflies and other Diptera (e.g: Calliphoridae, Tachinidae, Sarcophagidae) that visited flowers inside Faba beans field and at the margin of the crop capturing the pollinators with a net. Handling time invested in capturing pollinators was discounted. In total, the sampling effort was 90 minutes. Pollinators that were easily identifiable (e.g. honeybees and Bombus funebris, medium and big hoverflies) were recorded without capturing when possible.","Round number: 1. Height above sea level:3064 m."
"Carlos_Zaragoza_Trello_Vicia_faba_Ecuador_2017","CUMBI3","transects","diptera","order","other_flies",1,900,90,NA,"To explore pollinator biodiversity we selected 15 Faba bean fields that were at the same phenological stage and adjacent to a managed grassland (or a natural grassland area when it was not feasible). We conducted pollinator surveys along 25 days (from early July to middle August) by walking during 15 minutes along each of two 150 x 1 m standardized transects per site. One transect was located at the field edge while the central transect was located at 25 m inside the field from the edge. In 5 fields these transects were adapted to the middle of the field as the field did not reach 50 meters. Transect walks were conducted between 8:00 and 16:30, low wind speeds and temperatures above 15 degrees C. Due Andean high altitude weather characteristics, during shorts periods of rain (minutes) or low clouds we stopped the survey and resumed it when weather allowed. Sites were surveyed thrice in random order. We surveyed all honeybees, bumblebees, solitary bees, hoverflies and other Diptera (e.g: Calliphoridae, Tachinidae, Sarcophagidae) that visited flowers inside Faba beans field and at the margin of the crop capturing the pollinators with a net. Handling time invested in capturing pollinators was discounted. In total, the sampling effort was 90 minutes. Pollinators that were easily identifiable (e.g. honeybees and Bombus funebris, medium and big hoverflies) were recorded without capturing when possible.","Round number: 1. Height above sea level:3064 m."
"Carlos_Zaragoza_Trello_Vicia_faba_Ecuador_2017","CUMBI3","transects","diptera","order","other_flies",1,900,90,NA,"To explore pollinator biodiversity we selected 15 Faba bean fields that were at the same phenological stage and adjacent to a managed grassland (or a natural grassland area when it was not feasible). We conducted pollinator surveys along 25 days (from early July to middle August) by walking during 15 minutes along each of two 150 x 1 m standardized transects per site. One transect was located at the field edge while the central transect was located at 25 m inside the field from the edge. In 5 fields these transects were adapted to the middle of the field as the field did not reach 50 meters. Transect walks were conducted between 8:00 and 16:30, low wind speeds and temperatures above 15 degrees C. Due Andean high altitude weather characteristics, during shorts periods of rain (minutes) or low clouds we stopped the survey and resumed it when weather allowed. Sites were surveyed thrice in random order. We surveyed all honeybees, bumblebees, solitary bees, hoverflies and other Diptera (e.g: Calliphoridae, Tachinidae, Sarcophagidae) that visited flowers inside Faba beans field and at the margin of the crop capturing the pollinators with a net. Handling time invested in capturing pollinators was discounted. In total, the sampling effort was 90 minutes. Pollinators that were easily identifiable (e.g. honeybees and Bombus funebris, medium and big hoverflies) were recorded without capturing when possible.","Round number: 1. Height above sea level:3064 m."
"Carlos_Zaragoza_Trello_Vicia_faba_Ecuador_2017","CUMBI3","transects","diptera","order","other_flies",1,900,90,NA,"To explore pollinator biodiversity we selected 15 Faba bean fields that were at the same phenological stage and adjacent to a managed grassland (or a natural grassland area when it was not feasible). We conducted pollinator surveys along 25 days (from early July to middle August) by walking during 15 minutes along each of two 150 x 1 m standardized transects per site. One transect was located at the field edge while the central transect was located at 25 m inside the field from the edge. In 5 fields these transects were adapted to the middle of the field as the field did not reach 50 meters. Transect walks were conducted between 8:00 and 16:30, low wind speeds and temperatures above 15 degrees C. Due Andean high altitude weather characteristics, during shorts periods of rain (minutes) or low clouds we stopped the survey and resumed it when weather allowed. Sites were surveyed thrice in random order. We surveyed all honeybees, bumblebees, solitary bees, hoverflies and other Diptera (e.g: Calliphoridae, Tachinidae, Sarcophagidae) that visited flowers inside Faba beans field and at the margin of the crop capturing the pollinators with a net. Handling time invested in capturing pollinators was discounted. In total, the sampling effort was 90 minutes. Pollinators that were easily identifiable (e.g. honeybees and Bombus funebris, medium and big hoverflies) were recorded without capturing when possible.","Round number: 1. Height above sea level:3064 m."
"Carlos_Zaragoza_Trello_Vicia_faba_Ecuador_2017","CUMBI4","transects","diptera","order","other_flies",1,900,90,NA,"To explore pollinator biodiversity we selected 15 Faba bean fields that were at the same phenological stage and adjacent to a managed grassland (or a natural grassland area when it was not feasible). We conducted pollinator surveys along 25 days (from early July to middle August) by walking during 15 minutes along each of two 150 x 1 m standardized transects per site. One transect was located at the field edge while the central transect was located at 25 m inside the field from the edge. In 5 fields these transects were adapted to the middle of the field as the field did not reach 50 meters. Transect walks were conducted between 8:00 and 16:30, low wind speeds and temperatures above 15 degrees C. Due Andean high altitude weather characteristics, during shorts periods of rain (minutes) or low clouds we stopped the survey and resumed it when weather allowed. Sites were surveyed thrice in random order. We surveyed all honeybees, bumblebees, solitary bees, hoverflies and other Diptera (e.g: Calliphoridae, Tachinidae, Sarcophagidae) that visited flowers inside Faba beans field and at the margin of the crop capturing the pollinators with a net. Handling time invested in capturing pollinators was discounted. In total, the sampling effort was 90 minutes. Pollinators that were easily identifiable (e.g. honeybees and Bombus funebris, medium and big hoverflies) were recorded without capturing when possible.","Round number: 1. Height above sea level:3152 m."
"Carlos_Zaragoza_Trello_Vicia_faba_Ecuador_2017","CUMBI4","transects","diptera","order","other_flies",1,900,90,NA,"To explore pollinator biodiversity we selected 15 Faba bean fields that were at the same phenological stage and adjacent to a managed grassland (or a natural grassland area when it was not feasible). We conducted pollinator surveys along 25 days (from early July to middle August) by walking during 15 minutes along each of two 150 x 1 m standardized transects per site. One transect was located at the field edge while the central transect was located at 25 m inside the field from the edge. In 5 fields these transects were adapted to the middle of the field as the field did not reach 50 meters. Transect walks were conducted between 8:00 and 16:30, low wind speeds and temperatures above 15 degrees C. Due Andean high altitude weather characteristics, during shorts periods of rain (minutes) or low clouds we stopped the survey and resumed it when weather allowed. Sites were surveyed thrice in random order. We surveyed all honeybees, bumblebees, solitary bees, hoverflies and other Diptera (e.g: Calliphoridae, Tachinidae, Sarcophagidae) that visited flowers inside Faba beans field and at the margin of the crop capturing the pollinators with a net. Handling time invested in capturing pollinators was discounted. In total, the sampling effort was 90 minutes. Pollinators that were easily identifiable (e.g. honeybees and Bombus funebris, medium and big hoverflies) were recorded without capturing when possible.","Round number: 1. Height above sea level:3152 m."
"Carlos_Zaragoza_Trello_Vicia_faba_Ecuador_2017","CUMBI5","transects","diptera","order","other_flies",1,900,90,NA,"To explore pollinator biodiversity we selected 15 Faba bean fields that were at the same phenological stage and adjacent to a managed grassland (or a natural grassland area when it was not feasible). We conducted pollinator surveys along 25 days (from early July to middle August) by walking during 15 minutes along each of two 150 x 1 m standardized transects per site. One transect was located at the field edge while the central transect was located at 25 m inside the field from the edge. In 5 fields these transects were adapted to the middle of the field as the field did not reach 50 meters. Transect walks were conducted between 8:00 and 16:30, low wind speeds and temperatures above 15 degrees C. Due Andean high altitude weather characteristics, during shorts periods of rain (minutes) or low clouds we stopped the survey and resumed it when weather allowed. Sites were surveyed thrice in random order. We surveyed all honeybees, bumblebees, solitary bees, hoverflies and other Diptera (e.g: Calliphoridae, Tachinidae, Sarcophagidae) that visited flowers inside Faba beans field and at the margin of the crop capturing the pollinators with a net. Handling time invested in capturing pollinators was discounted. In total, the sampling effort was 90 minutes. Pollinators that were easily identifiable (e.g. honeybees and Bombus funebris, medium and big hoverflies) were recorded without capturing when possible.","Round number: 1. Height above sea level:3189 m."
"Carlos_Zaragoza_Trello_Vicia_faba_Ecuador_2017","CUMBI5","transects","diptera","order","other_flies",1,900,90,NA,"To explore pollinator biodiversity we selected 15 Faba bean fields that were at the same phenological stage and adjacent to a managed grassland (or a natural grassland area when it was not feasible). We conducted pollinator surveys along 25 days (from early July to middle August) by walking during 15 minutes along each of two 150 x 1 m standardized transects per site. One transect was located at the field edge while the central transect was located at 25 m inside the field from the edge. In 5 fields these transects were adapted to the middle of the field as the field did not reach 50 meters. Transect walks were conducted between 8:00 and 16:30, low wind speeds and temperatures above 15 degrees C. Due Andean high altitude weather characteristics, during shorts periods of rain (minutes) or low clouds we stopped the survey and resumed it when weather allowed. Sites were surveyed thrice in random order. We surveyed all honeybees, bumblebees, solitary bees, hoverflies and other Diptera (e.g: Calliphoridae, Tachinidae, Sarcophagidae) that visited flowers inside Faba beans field and at the margin of the crop capturing the pollinators with a net. Handling time invested in capturing pollinators was discounted. In total, the sampling effort was 90 minutes. Pollinators that were easily identifiable (e.g. honeybees and Bombus funebris, medium and big hoverflies) were recorded without capturing when possible.","Round number: 2. Height above sea level:3189 m."
"Carlos_Zaragoza_Trello_Vicia_faba_Ecuador_2017","CUMBI5","transects","diptera","order","other_flies",1,900,90,NA,"To explore pollinator biodiversity we selected 15 Faba bean fields that were at the same phenological stage and adjacent to a managed grassland (or a natural grassland area when it was not feasible). We conducted pollinator surveys along 25 days (from early July to middle August) by walking during 15 minutes along each of two 150 x 1 m standardized transects per site. One transect was located at the field edge while the central transect was located at 25 m inside the field from the edge. In 5 fields these transects were adapted to the middle of the field as the field did not reach 50 meters. Transect walks were conducted between 8:00 and 16:30, low wind speeds and temperatures above 15 degrees C. Due Andean high altitude weather characteristics, during shorts periods of rain (minutes) or low clouds we stopped the survey and resumed it when weather allowed. Sites were surveyed thrice in random order. We surveyed all honeybees, bumblebees, solitary bees, hoverflies and other Diptera (e.g: Calliphoridae, Tachinidae, Sarcophagidae) that visited flowers inside Faba beans field and at the margin of the crop capturing the pollinators with a net. Handling time invested in capturing pollinators was discounted. In total, the sampling effort was 90 minutes. Pollinators that were easily identifiable (e.g. honeybees and Bombus funebris, medium and big hoverflies) were recorded without capturing when possible.","Round number: 2. Height above sea level:3189 m."
"Carlos_Zaragoza_Trello_Vicia_faba_Ecuador_2017","CUMBI5","transects","diptera","order","other_flies",1,900,90,NA,"To explore pollinator biodiversity we selected 15 Faba bean fields that were at the same phenological stage and adjacent to a managed grassland (or a natural grassland area when it was not feasible). We conducted pollinator surveys along 25 days (from early July to middle August) by walking during 15 minutes along each of two 150 x 1 m standardized transects per site. One transect was located at the field edge while the central transect was located at 25 m inside the field from the edge. In 5 fields these transects were adapted to the middle of the field as the field did not reach 50 meters. Transect walks were conducted between 8:00 and 16:30, low wind speeds and temperatures above 15 degrees C. Due Andean high altitude weather characteristics, during shorts periods of rain (minutes) or low clouds we stopped the survey and resumed it when weather allowed. Sites were surveyed thrice in random order. We surveyed all honeybees, bumblebees, solitary bees, hoverflies and other Diptera (e.g: Calliphoridae, Tachinidae, Sarcophagidae) that visited flowers inside Faba beans field and at the margin of the crop capturing the pollinators with a net. Handling time invested in capturing pollinators was discounted. In total, the sampling effort was 90 minutes. Pollinators that were easily identifiable (e.g. honeybees and Bombus funebris, medium and big hoverflies) were recorded without capturing when possible.","Round number: 2. Height above sea level:3189 m."
"Carlos_Zaragoza_Trello_Vicia_faba_Ecuador_2017","CUMBI5","transects","diptera","order","other_flies",1,900,90,NA,"To explore pollinator biodiversity we selected 15 Faba bean fields that were at the same phenological stage and adjacent to a managed grassland (or a natural grassland area when it was not feasible). We conducted pollinator surveys along 25 days (from early July to middle August) by walking during 15 minutes along each of two 150 x 1 m standardized transects per site. One transect was located at the field edge while the central transect was located at 25 m inside the field from the edge. In 5 fields these transects were adapted to the middle of the field as the field did not reach 50 meters. Transect walks were conducted between 8:00 and 16:30, low wind speeds and temperatures above 15 degrees C. Due Andean high altitude weather characteristics, during shorts periods of rain (minutes) or low clouds we stopped the survey and resumed it when weather allowed. Sites were surveyed thrice in random order. We surveyed all honeybees, bumblebees, solitary bees, hoverflies and other Diptera (e.g: Calliphoridae, Tachinidae, Sarcophagidae) that visited flowers inside Faba beans field and at the margin of the crop capturing the pollinators with a net. Handling time invested in capturing pollinators was discounted. In total, the sampling effort was 90 minutes. Pollinators that were easily identifiable (e.g. honeybees and Bombus funebris, medium and big hoverflies) were recorded without capturing when possible.","Round number: 2. Height above sea level:3189 m."
"Carlos_Zaragoza_Trello_Vicia_faba_Ecuador_2017","CUMBI5","transects","diptera","order","other_flies",1,900,90,NA,"To explore pollinator biodiversity we selected 15 Faba bean fields that were at the same phenological stage and adjacent to a managed grassland (or a natural grassland area when it was not feasible). We conducted pollinator surveys along 25 days (from early July to middle August) by walking during 15 minutes along each of two 150 x 1 m standardized transects per site. One transect was located at the field edge while the central transect was located at 25 m inside the field from the edge. In 5 fields these transects were adapted to the middle of the field as the field did not reach 50 meters. Transect walks were conducted between 8:00 and 16:30, low wind speeds and temperatures above 15 degrees C. Due Andean high altitude weather characteristics, during shorts periods of rain (minutes) or low clouds we stopped the survey and resumed it when weather allowed. Sites were surveyed thrice in random order. We surveyed all honeybees, bumblebees, solitary bees, hoverflies and other Diptera (e.g: Calliphoridae, Tachinidae, Sarcophagidae) that visited flowers inside Faba beans field and at the margin of the crop capturing the pollinators with a net. Handling time invested in capturing pollinators was discounted. In total, the sampling effort was 90 minutes. Pollinators that were easily identifiable (e.g. honeybees and Bombus funebris, medium and big hoverflies) were recorded without capturing when possible.","Round number: 2. Height above sea level:3189 m."
"Carlos_Zaragoza_Trello_Vicia_faba_Ecuador_2017","CUMBI5","transects","diptera","order","other_flies",1,900,90,NA,"To explore pollinator biodiversity we selected 15 Faba bean fields that were at the same phenological stage and adjacent to a managed grassland (or a natural grassland area when it was not feasible). We conducted pollinator surveys along 25 days (from early July to middle August) by walking during 15 minutes along each of two 150 x 1 m standardized transects per site. One transect was located at the field edge while the central transect was located at 25 m inside the field from the edge. In 5 fields these transects were adapted to the middle of the field as the field did not reach 50 meters. Transect walks were conducted between 8:00 and 16:30, low wind speeds and temperatures above 15 degrees C. Due Andean high altitude weather characteristics, during shorts periods of rain (minutes) or low clouds we stopped the survey and resumed it when weather allowed. Sites were surveyed thrice in random order. We surveyed all honeybees, bumblebees, solitary bees, hoverflies and other Diptera (e.g: Calliphoridae, Tachinidae, Sarcophagidae) that visited flowers inside Faba beans field and at the margin of the crop capturing the pollinators with a net. Handling time invested in capturing pollinators was discounted. In total, the sampling effort was 90 minutes. Pollinators that were easily identifiable (e.g. honeybees and Bombus funebris, medium and big hoverflies) were recorded without capturing when possible.","Round number: 1. Height above sea level:3189 m."
"Carlos_Zaragoza_Trello_Vicia_faba_Ecuador_2017","CUMBI5","transects","diptera","order","other_flies",1,900,90,NA,"To explore pollinator biodiversity we selected 15 Faba bean fields that were at the same phenological stage and adjacent to a managed grassland (or a natural grassland area when it was not feasible). We conducted pollinator surveys along 25 days (from early July to middle August) by walking during 15 minutes along each of two 150 x 1 m standardized transects per site. One transect was located at the field edge while the central transect was located at 25 m inside the field from the edge. In 5 fields these transects were adapted to the middle of the field as the field did not reach 50 meters. Transect walks were conducted between 8:00 and 16:30, low wind speeds and temperatures above 15 degrees C. Due Andean high altitude weather characteristics, during shorts periods of rain (minutes) or low clouds we stopped the survey and resumed it when weather allowed. Sites were surveyed thrice in random order. We surveyed all honeybees, bumblebees, solitary bees, hoverflies and other Diptera (e.g: Calliphoridae, Tachinidae, Sarcophagidae) that visited flowers inside Faba beans field and at the margin of the crop capturing the pollinators with a net. Handling time invested in capturing pollinators was discounted. In total, the sampling effort was 90 minutes. Pollinators that were easily identifiable (e.g. honeybees and Bombus funebris, medium and big hoverflies) were recorded without capturing when possible.","Round number: 1. Height above sea level:3189 m."
"Carlos_Zaragoza_Trello_Vicia_faba_Ecuador_2017","CUMBI5","transects","diptera","order","other_flies",1,900,90,NA,"To explore pollinator biodiversity we selected 15 Faba bean fields that were at the same phenological stage and adjacent to a managed grassland (or a natural grassland area when it was not feasible). We conducted pollinator surveys along 25 days (from early July to middle August) by walking during 15 minutes along each of two 150 x 1 m standardized transects per site. One transect was located at the field edge while the central transect was located at 25 m inside the field from the edge. In 5 fields these transects were adapted to the middle of the field as the field did not reach 50 meters. Transect walks were conducted between 8:00 and 16:30, low wind speeds and temperatures above 15 degrees C. Due Andean high altitude weather characteristics, during shorts periods of rain (minutes) or low clouds we stopped the survey and resumed it when weather allowed. Sites were surveyed thrice in random order. We surveyed all honeybees, bumblebees, solitary bees, hoverflies and other Diptera (e.g: Calliphoridae, Tachinidae, Sarcophagidae) that visited flowers inside Faba beans field and at the margin of the crop capturing the pollinators with a net. Handling time invested in capturing pollinators was discounted. In total, the sampling effort was 90 minutes. Pollinators that were easily identifiable (e.g. honeybees and Bombus funebris, medium and big hoverflies) were recorded without capturing when possible.","Round number: 1. Height above sea level:3189 m."
"Carlos_Zaragoza_Trello_Vicia_faba_Ecuador_2017","CUMBI5","transects","diptera","order","other_flies",1,900,90,NA,"To explore pollinator biodiversity we selected 15 Faba bean fields that were at the same phenological stage and adjacent to a managed grassland (or a natural grassland area when it was not feasible). We conducted pollinator surveys along 25 days (from early July to middle August) by walking during 15 minutes along each of two 150 x 1 m standardized transects per site. One transect was located at the field edge while the central transect was located at 25 m inside the field from the edge. In 5 fields these transects were adapted to the middle of the field as the field did not reach 50 meters. Transect walks were conducted between 8:00 and 16:30, low wind speeds and temperatures above 15 degrees C. Due Andean high altitude weather characteristics, during shorts periods of rain (minutes) or low clouds we stopped the survey and resumed it when weather allowed. Sites were surveyed thrice in random order. We surveyed all honeybees, bumblebees, solitary bees, hoverflies and other Diptera (e.g: Calliphoridae, Tachinidae, Sarcophagidae) that visited flowers inside Faba beans field and at the margin of the crop capturing the pollinators with a net. Handling time invested in capturing pollinators was discounted. In total, the sampling effort was 90 minutes. Pollinators that were easily identifiable (e.g. honeybees and Bombus funebris, medium and big hoverflies) were recorded without capturing when possible.","Round number: 1. Height above sea level:3189 m."
"Carlos_Zaragoza_Trello_Vicia_faba_Ecuador_2017","CUMBI5","transects","diptera","order","other_flies",1,900,90,NA,"To explore pollinator biodiversity we selected 15 Faba bean fields that were at the same phenological stage and adjacent to a managed grassland (or a natural grassland area when it was not feasible). We conducted pollinator surveys along 25 days (from early July to middle August) by walking during 15 minutes along each of two 150 x 1 m standardized transects per site. One transect was located at the field edge while the central transect was located at 25 m inside the field from the edge. In 5 fields these transects were adapted to the middle of the field as the field did not reach 50 meters. Transect walks were conducted between 8:00 and 16:30, low wind speeds and temperatures above 15 degrees C. Due Andean high altitude weather characteristics, during shorts periods of rain (minutes) or low clouds we stopped the survey and resumed it when weather allowed. Sites were surveyed thrice in random order. We surveyed all honeybees, bumblebees, solitary bees, hoverflies and other Diptera (e.g: Calliphoridae, Tachinidae, Sarcophagidae) that visited flowers inside Faba beans field and at the margin of the crop capturing the pollinators with a net. Handling time invested in capturing pollinators was discounted. In total, the sampling effort was 90 minutes. Pollinators that were easily identifiable (e.g. honeybees and Bombus funebris, medium and big hoverflies) were recorded without capturing when possible.","Round number: 1. Height above sea level:3189 m."
"Carlos_Zaragoza_Trello_Vicia_faba_Ecuador_2017","CUMBI5","transects","diptera","order","other_flies",1,900,90,NA,"To explore pollinator biodiversity we selected 15 Faba bean fields that were at the same phenological stage and adjacent to a managed grassland (or a natural grassland area when it was not feasible). We conducted pollinator surveys along 25 days (from early July to middle August) by walking during 15 minutes along each of two 150 x 1 m standardized transects per site. One transect was located at the field edge while the central transect was located at 25 m inside the field from the edge. In 5 fields these transects were adapted to the middle of the field as the field did not reach 50 meters. Transect walks were conducted between 8:00 and 16:30, low wind speeds and temperatures above 15 degrees C. Due Andean high altitude weather characteristics, during shorts periods of rain (minutes) or low clouds we stopped the survey and resumed it when weather allowed. Sites were surveyed thrice in random order. We surveyed all honeybees, bumblebees, solitary bees, hoverflies and other Diptera (e.g: Calliphoridae, Tachinidae, Sarcophagidae) that visited flowers inside Faba beans field and at the margin of the crop capturing the pollinators with a net. Handling time invested in capturing pollinators was discounted. In total, the sampling effort was 90 minutes. Pollinators that were easily identifiable (e.g. honeybees and Bombus funebris, medium and big hoverflies) were recorded without capturing when possible.","Round number: 1. Height above sea level:3189 m."
"Carlos_Zaragoza_Trello_Vicia_faba_Ecuador_2017","CUMBI5","transects","diptera","order","other_flies",1,900,90,NA,"To explore pollinator biodiversity we selected 15 Faba bean fields that were at the same phenological stage and adjacent to a managed grassland (or a natural grassland area when it was not feasible). We conducted pollinator surveys along 25 days (from early July to middle August) by walking during 15 minutes along each of two 150 x 1 m standardized transects per site. One transect was located at the field edge while the central transect was located at 25 m inside the field from the edge. In 5 fields these transects were adapted to the middle of the field as the field did not reach 50 meters. Transect walks were conducted between 8:00 and 16:30, low wind speeds and temperatures above 15 degrees C. Due Andean high altitude weather characteristics, during shorts periods of rain (minutes) or low clouds we stopped the survey and resumed it when weather allowed. Sites were surveyed thrice in random order. We surveyed all honeybees, bumblebees, solitary bees, hoverflies and other Diptera (e.g: Calliphoridae, Tachinidae, Sarcophagidae) that visited flowers inside Faba beans field and at the margin of the crop capturing the pollinators with a net. Handling time invested in capturing pollinators was discounted. In total, the sampling effort was 90 minutes. Pollinators that were easily identifiable (e.g. honeybees and Bombus funebris, medium and big hoverflies) were recorded without capturing when possible.","Round number: 1. Height above sea level:3189 m."
"Carlos_Zaragoza_Trello_Vicia_faba_Ecuador_2017","CUMBI5","transects","diptera","order","other_flies",1,900,90,NA,"To explore pollinator biodiversity we selected 15 Faba bean fields that were at the same phenological stage and adjacent to a managed grassland (or a natural grassland area when it was not feasible). We conducted pollinator surveys along 25 days (from early July to middle August) by walking during 15 minutes along each of two 150 x 1 m standardized transects per site. One transect was located at the field edge while the central transect was located at 25 m inside the field from the edge. In 5 fields these transects were adapted to the middle of the field as the field did not reach 50 meters. Transect walks were conducted between 8:00 and 16:30, low wind speeds and temperatures above 15 degrees C. Due Andean high altitude weather characteristics, during shorts periods of rain (minutes) or low clouds we stopped the survey and resumed it when weather allowed. Sites were surveyed thrice in random order. We surveyed all honeybees, bumblebees, solitary bees, hoverflies and other Diptera (e.g: Calliphoridae, Tachinidae, Sarcophagidae) that visited flowers inside Faba beans field and at the margin of the crop capturing the pollinators with a net. Handling time invested in capturing pollinators was discounted. In total, the sampling effort was 90 minutes. Pollinators that were easily identifiable (e.g. honeybees and Bombus funebris, medium and big hoverflies) were recorded without capturing when possible.","Round number: 2. Height above sea level:3189 m."
"Carlos_Zaragoza_Trello_Vicia_faba_Ecuador_2017","CUMBI6","transects","diptera","order","other_flies",1,900,90,NA,"To explore pollinator biodiversity we selected 15 Faba bean fields that were at the same phenological stage and adjacent to a managed grassland (or a natural grassland area when it was not feasible). We conducted pollinator surveys along 25 days (from early July to middle August) by walking during 15 minutes along each of two 150 x 1 m standardized transects per site. One transect was located at the field edge while the central transect was located at 25 m inside the field from the edge. In 5 fields these transects were adapted to the middle of the field as the field did not reach 50 meters. Transect walks were conducted between 8:00 and 16:30, low wind speeds and temperatures above 15 degrees C. Due Andean high altitude weather characteristics, during shorts periods of rain (minutes) or low clouds we stopped the survey and resumed it when weather allowed. Sites were surveyed thrice in random order. We surveyed all honeybees, bumblebees, solitary bees, hoverflies and other Diptera (e.g: Calliphoridae, Tachinidae, Sarcophagidae) that visited flowers inside Faba beans field and at the margin of the crop capturing the pollinators with a net. Handling time invested in capturing pollinators was discounted. In total, the sampling effort was 90 minutes. Pollinators that were easily identifiable (e.g. honeybees and Bombus funebris, medium and big hoverflies) were recorded without capturing when possible.","Round number: 1. Height above sea level:3628 m."
"Carlos_Zaragoza_Trello_Vicia_faba_Ecuador_2017","CUMBI6","transects","diptera","order","other_flies",1,900,90,NA,"To explore pollinator biodiversity we selected 15 Faba bean fields that were at the same phenological stage and adjacent to a managed grassland (or a natural grassland area when it was not feasible). We conducted pollinator surveys along 25 days (from early July to middle August) by walking during 15 minutes along each of two 150 x 1 m standardized transects per site. One transect was located at the field edge while the central transect was located at 25 m inside the field from the edge. In 5 fields these transects were adapted to the middle of the field as the field did not reach 50 meters. Transect walks were conducted between 8:00 and 16:30, low wind speeds and temperatures above 15 degrees C. Due Andean high altitude weather characteristics, during shorts periods of rain (minutes) or low clouds we stopped the survey and resumed it when weather allowed. Sites were surveyed thrice in random order. We surveyed all honeybees, bumblebees, solitary bees, hoverflies and other Diptera (e.g: Calliphoridae, Tachinidae, Sarcophagidae) that visited flowers inside Faba beans field and at the margin of the crop capturing the pollinators with a net. Handling time invested in capturing pollinators was discounted. In total, the sampling effort was 90 minutes. Pollinators that were easily identifiable (e.g. honeybees and Bombus funebris, medium and big hoverflies) were recorded without capturing when possible.","Round number: 1. Height above sea level:3628 m."
"Carlos_Zaragoza_Trello_Vicia_faba_Ecuador_2017","CUMBI6","transects","diptera","order","other_flies",1,900,90,NA,"To explore pollinator biodiversity we selected 15 Faba bean fields that were at the same phenological stage and adjacent to a managed grassland (or a natural grassland area when it was not feasible). We conducted pollinator surveys along 25 days (from early July to middle August) by walking during 15 minutes along each of two 150 x 1 m standardized transects per site. One transect was located at the field edge while the central transect was located at 25 m inside the field from the edge. In 5 fields these transects were adapted to the middle of the field as the field did not reach 50 meters. Transect walks were conducted between 8:00 and 16:30, low wind speeds and temperatures above 15 degrees C. Due Andean high altitude weather characteristics, during shorts periods of rain (minutes) or low clouds we stopped the survey and resumed it when weather allowed. Sites were surveyed thrice in random order. We surveyed all honeybees, bumblebees, solitary bees, hoverflies and other Diptera (e.g: Calliphoridae, Tachinidae, Sarcophagidae) that visited flowers inside Faba beans field and at the margin of the crop capturing the pollinators with a net. Handling time invested in capturing pollinators was discounted. In total, the sampling effort was 90 minutes. Pollinators that were easily identifiable (e.g. honeybees and Bombus funebris, medium and big hoverflies) were recorded without capturing when possible.","Round number: 1. Height above sea level:3628 m."
"Carlos_Zaragoza_Trello_Vicia_faba_Ecuador_2017","CUMBI6","transects","diptera","order","other_flies",1,900,90,NA,"To explore pollinator biodiversity we selected 15 Faba bean fields that were at the same phenological stage and adjacent to a managed grassland (or a natural grassland area when it was not feasible). We conducted pollinator surveys along 25 days (from early July to middle August) by walking during 15 minutes along each of two 150 x 1 m standardized transects per site. One transect was located at the field edge while the central transect was located at 25 m inside the field from the edge. In 5 fields these transects were adapted to the middle of the field as the field did not reach 50 meters. Transect walks were conducted between 8:00 and 16:30, low wind speeds and temperatures above 15 degrees C. Due Andean high altitude weather characteristics, during shorts periods of rain (minutes) or low clouds we stopped the survey and resumed it when weather allowed. Sites were surveyed thrice in random order. We surveyed all honeybees, bumblebees, solitary bees, hoverflies and other Diptera (e.g: Calliphoridae, Tachinidae, Sarcophagidae) that visited flowers inside Faba beans field and at the margin of the crop capturing the pollinators with a net. Handling time invested in capturing pollinators was discounted. In total, the sampling effort was 90 minutes. Pollinators that were easily identifiable (e.g. honeybees and Bombus funebris, medium and big hoverflies) were recorded without capturing when possible.","Round number: 2. Height above sea level:3628 m."
"Carlos_Zaragoza_Trello_Vicia_faba_Ecuador_2017","CUMBI6","transects","diptera","order","other_flies",1,900,90,NA,"To explore pollinator biodiversity we selected 15 Faba bean fields that were at the same phenological stage and adjacent to a managed grassland (or a natural grassland area when it was not feasible). We conducted pollinator surveys along 25 days (from early July to middle August) by walking during 15 minutes along each of two 150 x 1 m standardized transects per site. One transect was located at the field edge while the central transect was located at 25 m inside the field from the edge. In 5 fields these transects were adapted to the middle of the field as the field did not reach 50 meters. Transect walks were conducted between 8:00 and 16:30, low wind speeds and temperatures above 15 degrees C. Due Andean high altitude weather characteristics, during shorts periods of rain (minutes) or low clouds we stopped the survey and resumed it when weather allowed. Sites were surveyed thrice in random order. We surveyed all honeybees, bumblebees, solitary bees, hoverflies and other Diptera (e.g: Calliphoridae, Tachinidae, Sarcophagidae) that visited flowers inside Faba beans field and at the margin of the crop capturing the pollinators with a net. Handling time invested in capturing pollinators was discounted. In total, the sampling effort was 90 minutes. Pollinators that were easily identifiable (e.g. honeybees and Bombus funebris, medium and big hoverflies) were recorded without capturing when possible.","Round number: 2. Height above sea level:3628 m."
"Carlos_Zaragoza_Trello_Vicia_faba_Ecuador_2017","CUMBI6","transects","diptera","order","other_flies",1,900,90,NA,"To explore pollinator biodiversity we selected 15 Faba bean fields that were at the same phenological stage and adjacent to a managed grassland (or a natural grassland area when it was not feasible). We conducted pollinator surveys along 25 days (from early July to middle August) by walking during 15 minutes along each of two 150 x 1 m standardized transects per site. One transect was located at the field edge while the central transect was located at 25 m inside the field from the edge. In 5 fields these transects were adapted to the middle of the field as the field did not reach 50 meters. Transect walks were conducted between 8:00 and 16:30, low wind speeds and temperatures above 15 degrees C. Due Andean high altitude weather characteristics, during shorts periods of rain (minutes) or low clouds we stopped the survey and resumed it when weather allowed. Sites were surveyed thrice in random order. We surveyed all honeybees, bumblebees, solitary bees, hoverflies and other Diptera (e.g: Calliphoridae, Tachinidae, Sarcophagidae) that visited flowers inside Faba beans field and at the margin of the crop capturing the pollinators with a net. Handling time invested in capturing pollinators was discounted. In total, the sampling effort was 90 minutes. Pollinators that were easily identifiable (e.g. honeybees and Bombus funebris, medium and big hoverflies) were recorded without capturing when possible.","Round number: 2. Height above sea level:3628 m."
"Carlos_Zaragoza_Trello_Vicia_faba_Ecuador_2017","CUMBI6","transects","diptera","order","other_flies",1,900,90,NA,"To explore pollinator biodiversity we selected 15 Faba bean fields that were at the same phenological stage and adjacent to a managed grassland (or a natural grassland area when it was not feasible). We conducted pollinator surveys along 25 days (from early July to middle August) by walking during 15 minutes along each of two 150 x 1 m standardized transects per site. One transect was located at the field edge while the central transect was located at 25 m inside the field from the edge. In 5 fields these transects were adapted to the middle of the field as the field did not reach 50 meters. Transect walks were conducted between 8:00 and 16:30, low wind speeds and temperatures above 15 degrees C. Due Andean high altitude weather characteristics, during shorts periods of rain (minutes) or low clouds we stopped the survey and resumed it when weather allowed. Sites were surveyed thrice in random order. We surveyed all honeybees, bumblebees, solitary bees, hoverflies and other Diptera (e.g: Calliphoridae, Tachinidae, Sarcophagidae) that visited flowers inside Faba beans field and at the margin of the crop capturing the pollinators with a net. Handling time invested in capturing pollinators was discounted. In total, the sampling effort was 90 minutes. Pollinators that were easily identifiable (e.g. honeybees and Bombus funebris, medium and big hoverflies) were recorded without capturing when possible.","Round number: 2. Height above sea level:3628 m."
"Carlos_Zaragoza_Trello_Vicia_faba_Ecuador_2017","CUMBI6","transects","diptera","order","other_flies",1,900,90,NA,"To explore pollinator biodiversity we selected 15 Faba bean fields that were at the same phenological stage and adjacent to a managed grassland (or a natural grassland area when it was not feasible). We conducted pollinator surveys along 25 days (from early July to middle August) by walking during 15 minutes along each of two 150 x 1 m standardized transects per site. One transect was located at the field edge while the central transect was located at 25 m inside the field from the edge. In 5 fields these transects were adapted to the middle of the field as the field did not reach 50 meters. Transect walks were conducted between 8:00 and 16:30, low wind speeds and temperatures above 15 degrees C. Due Andean high altitude weather characteristics, during shorts periods of rain (minutes) or low clouds we stopped the survey and resumed it when weather allowed. Sites were surveyed thrice in random order. We surveyed all honeybees, bumblebees, solitary bees, hoverflies and other Diptera (e.g: Calliphoridae, Tachinidae, Sarcophagidae) that visited flowers inside Faba beans field and at the margin of the crop capturing the pollinators with a net. Handling time invested in capturing pollinators was discounted. In total, the sampling effort was 90 minutes. Pollinators that were easily identifiable (e.g. honeybees and Bombus funebris, medium and big hoverflies) were recorded without capturing when possible.","Round number: 1. Height above sea level:3628 m."
"Carlos_Zaragoza_Trello_Vicia_faba_Ecuador_2017","CUMBI6","transects","diptera","order","other_flies",4,900,90,NA,"To explore pollinator biodiversity we selected 15 Faba bean fields that were at the same phenological stage and adjacent to a managed grassland (or a natural grassland area when it was not feasible). We conducted pollinator surveys along 25 days (from early July to middle August) by walking during 15 minutes along each of two 150 x 1 m standardized transects per site. One transect was located at the field edge while the central transect was located at 25 m inside the field from the edge. In 5 fields these transects were adapted to the middle of the field as the field did not reach 50 meters. Transect walks were conducted between 8:00 and 16:30, low wind speeds and temperatures above 15 degrees C. Due Andean high altitude weather characteristics, during shorts periods of rain (minutes) or low clouds we stopped the survey and resumed it when weather allowed. Sites were surveyed thrice in random order. We surveyed all honeybees, bumblebees, solitary bees, hoverflies and other Diptera (e.g: Calliphoridae, Tachinidae, Sarcophagidae) that visited flowers inside Faba beans field and at the margin of the crop capturing the pollinators with a net. Handling time invested in capturing pollinators was discounted. In total, the sampling effort was 90 minutes. Pollinators that were easily identifiable (e.g. honeybees and Bombus funebris, medium and big hoverflies) were recorded without capturing when possible.","Round number: 1. Height above sea level:3628 m."
"Carlos_Zaragoza_Trello_Vicia_faba_Ecuador_2017","CUMBI6","transects","diptera","order","other_flies",2,900,90,NA,"To explore pollinator biodiversity we selected 15 Faba bean fields that were at the same phenological stage and adjacent to a managed grassland (or a natural grassland area when it was not feasible). We conducted pollinator surveys along 25 days (from early July to middle August) by walking during 15 minutes along each of two 150 x 1 m standardized transects per site. One transect was located at the field edge while the central transect was located at 25 m inside the field from the edge. In 5 fields these transects were adapted to the middle of the field as the field did not reach 50 meters. Transect walks were conducted between 8:00 and 16:30, low wind speeds and temperatures above 15 degrees C. Due Andean high altitude weather characteristics, during shorts periods of rain (minutes) or low clouds we stopped the survey and resumed it when weather allowed. Sites were surveyed thrice in random order. We surveyed all honeybees, bumblebees, solitary bees, hoverflies and other Diptera (e.g: Calliphoridae, Tachinidae, Sarcophagidae) that visited flowers inside Faba beans field and at the margin of the crop capturing the pollinators with a net. Handling time invested in capturing pollinators was discounted. In total, the sampling effort was 90 minutes. Pollinators that were easily identifiable (e.g. honeybees and Bombus funebris, medium and big hoverflies) were recorded without capturing when possible.","Round number: 2. Height above sea level:3628 m."
"Carlos_Zaragoza_Trello_Vicia_faba_Ecuador_2017","CUSU1","transects","diptera","order","other_flies",1,900,90,NA,"To explore pollinator biodiversity we selected 15 Faba bean fields that were at the same phenological stage and adjacent to a managed grassland (or a natural grassland area when it was not feasible). We conducted pollinator surveys along 25 days (from early July to middle August) by walking during 15 minutes along each of two 150 x 1 m standardized transects per site. One transect was located at the field edge while the central transect was located at 25 m inside the field from the edge. In 5 fields these transects were adapted to the middle of the field as the field did not reach 50 meters. Transect walks were conducted between 8:00 and 16:30, low wind speeds and temperatures above 15 degrees C. Due Andean high altitude weather characteristics, during shorts periods of rain (minutes) or low clouds we stopped the survey and resumed it when weather allowed. Sites were surveyed thrice in random order. We surveyed all honeybees, bumblebees, solitary bees, hoverflies and other Diptera (e.g: Calliphoridae, Tachinidae, Sarcophagidae) that visited flowers inside Faba beans field and at the margin of the crop capturing the pollinators with a net. Handling time invested in capturing pollinators was discounted. In total, the sampling effort was 90 minutes. Pollinators that were easily identifiable (e.g. honeybees and Bombus funebris, medium and big hoverflies) were recorded without capturing when possible.","Round number: 1. Height above sea level:3086 m."
"Carlos_Zaragoza_Trello_Vicia_faba_Ecuador_2017","CUSU1","transects","diptera","order","other_flies",1,900,90,NA,"To explore pollinator biodiversity we selected 15 Faba bean fields that were at the same phenological stage and adjacent to a managed grassland (or a natural grassland area when it was not feasible). We conducted pollinator surveys along 25 days (from early July to middle August) by walking during 15 minutes along each of two 150 x 1 m standardized transects per site. One transect was located at the field edge while the central transect was located at 25 m inside the field from the edge. In 5 fields these transects were adapted to the middle of the field as the field did not reach 50 meters. Transect walks were conducted between 8:00 and 16:30, low wind speeds and temperatures above 15 degrees C. Due Andean high altitude weather characteristics, during shorts periods of rain (minutes) or low clouds we stopped the survey and resumed it when weather allowed. Sites were surveyed thrice in random order. We surveyed all honeybees, bumblebees, solitary bees, hoverflies and other Diptera (e.g: Calliphoridae, Tachinidae, Sarcophagidae) that visited flowers inside Faba beans field and at the margin of the crop capturing the pollinators with a net. Handling time invested in capturing pollinators was discounted. In total, the sampling effort was 90 minutes. Pollinators that were easily identifiable (e.g. honeybees and Bombus funebris, medium and big hoverflies) were recorded without capturing when possible.","Round number: 1. Height above sea level:3086 m."
"Carlos_Zaragoza_Trello_Vicia_faba_Ecuador_2017","CUSU1","transects","diptera","order","other_flies",1,900,90,NA,"To explore pollinator biodiversity we selected 15 Faba bean fields that were at the same phenological stage and adjacent to a managed grassland (or a natural grassland area when it was not feasible). We conducted pollinator surveys along 25 days (from early July to middle August) by walking during 15 minutes along each of two 150 x 1 m standardized transects per site. One transect was located at the field edge while the central transect was located at 25 m inside the field from the edge. In 5 fields these transects were adapted to the middle of the field as the field did not reach 50 meters. Transect walks were conducted between 8:00 and 16:30, low wind speeds and temperatures above 15 degrees C. Due Andean high altitude weather characteristics, during shorts periods of rain (minutes) or low clouds we stopped the survey and resumed it when weather allowed. Sites were surveyed thrice in random order. We surveyed all honeybees, bumblebees, solitary bees, hoverflies and other Diptera (e.g: Calliphoridae, Tachinidae, Sarcophagidae) that visited flowers inside Faba beans field and at the margin of the crop capturing the pollinators with a net. Handling time invested in capturing pollinators was discounted. In total, the sampling effort was 90 minutes. Pollinators that were easily identifiable (e.g. honeybees and Bombus funebris, medium and big hoverflies) were recorded without capturing when possible.","Round number: 1. Height above sea level:3086 m."
"Carlos_Zaragoza_Trello_Vicia_faba_Ecuador_2017","CUSU1","transects","diptera","order","other_flies",1,900,90,NA,"To explore pollinator biodiversity we selected 15 Faba bean fields that were at the same phenological stage and adjacent to a managed grassland (or a natural grassland area when it was not feasible). We conducted pollinator surveys along 25 days (from early July to middle August) by walking during 15 minutes along each of two 150 x 1 m standardized transects per site. One transect was located at the field edge while the central transect was located at 25 m inside the field from the edge. In 5 fields these transects were adapted to the middle of the field as the field did not reach 50 meters. Transect walks were conducted between 8:00 and 16:30, low wind speeds and temperatures above 15 degrees C. Due Andean high altitude weather characteristics, during shorts periods of rain (minutes) or low clouds we stopped the survey and resumed it when weather allowed. Sites were surveyed thrice in random order. We surveyed all honeybees, bumblebees, solitary bees, hoverflies and other Diptera (e.g: Calliphoridae, Tachinidae, Sarcophagidae) that visited flowers inside Faba beans field and at the margin of the crop capturing the pollinators with a net. Handling time invested in capturing pollinators was discounted. In total, the sampling effort was 90 minutes. Pollinators that were easily identifiable (e.g. honeybees and Bombus funebris, medium and big hoverflies) were recorded without capturing when possible.","Round number: 1. Height above sea level:3086 m."
"Carlos_Zaragoza_Trello_Vicia_faba_Ecuador_2017","CUSU1","transects","diptera","order","other_flies",1,900,90,NA,"To explore pollinator biodiversity we selected 15 Faba bean fields that were at the same phenological stage and adjacent to a managed grassland (or a natural grassland area when it was not feasible). We conducted pollinator surveys along 25 days (from early July to middle August) by walking during 15 minutes along each of two 150 x 1 m standardized transects per site. One transect was located at the field edge while the central transect was located at 25 m inside the field from the edge. In 5 fields these transects were adapted to the middle of the field as the field did not reach 50 meters. Transect walks were conducted between 8:00 and 16:30, low wind speeds and temperatures above 15 degrees C. Due Andean high altitude weather characteristics, during shorts periods of rain (minutes) or low clouds we stopped the survey and resumed it when weather allowed. Sites were surveyed thrice in random order. We surveyed all honeybees, bumblebees, solitary bees, hoverflies and other Diptera (e.g: Calliphoridae, Tachinidae, Sarcophagidae) that visited flowers inside Faba beans field and at the margin of the crop capturing the pollinators with a net. Handling time invested in capturing pollinators was discounted. In total, the sampling effort was 90 minutes. Pollinators that were easily identifiable (e.g. honeybees and Bombus funebris, medium and big hoverflies) were recorded without capturing when possible.","Round number: 1. Height above sea level:3086 m."
"Carlos_Zaragoza_Trello_Vicia_faba_Ecuador_2017","CUSU2","transects","diptera","order","other_flies",1,900,90,NA,"To explore pollinator biodiversity we selected 15 Faba bean fields that were at the same phenological stage and adjacent to a managed grassland (or a natural grassland area when it was not feasible). We conducted pollinator surveys along 25 days (from early July to middle August) by walking during 15 minutes along each of two 150 x 1 m standardized transects per site. One transect was located at the field edge while the central transect was located at 25 m inside the field from the edge. In 5 fields these transects were adapted to the middle of the field as the field did not reach 50 meters. Transect walks were conducted between 8:00 and 16:30, low wind speeds and temperatures above 15 degrees C. Due Andean high altitude weather characteristics, during shorts periods of rain (minutes) or low clouds we stopped the survey and resumed it when weather allowed. Sites were surveyed thrice in random order. We surveyed all honeybees, bumblebees, solitary bees, hoverflies and other Diptera (e.g: Calliphoridae, Tachinidae, Sarcophagidae) that visited flowers inside Faba beans field and at the margin of the crop capturing the pollinators with a net. Handling time invested in capturing pollinators was discounted. In total, the sampling effort was 90 minutes. Pollinators that were easily identifiable (e.g. honeybees and Bombus funebris, medium and big hoverflies) were recorded without capturing when possible.","Round number: 1. Height above sea level:3500 m."
"Carlos_Zaragoza_Trello_Vicia_faba_Ecuador_2017","CUSU2","transects","diptera","order","other_flies",1,900,90,NA,"To explore pollinator biodiversity we selected 15 Faba bean fields that were at the same phenological stage and adjacent to a managed grassland (or a natural grassland area when it was not feasible). We conducted pollinator surveys along 25 days (from early July to middle August) by walking during 15 minutes along each of two 150 x 1 m standardized transects per site. One transect was located at the field edge while the central transect was located at 25 m inside the field from the edge. In 5 fields these transects were adapted to the middle of the field as the field did not reach 50 meters. Transect walks were conducted between 8:00 and 16:30, low wind speeds and temperatures above 15 degrees C. Due Andean high altitude weather characteristics, during shorts periods of rain (minutes) or low clouds we stopped the survey and resumed it when weather allowed. Sites were surveyed thrice in random order. We surveyed all honeybees, bumblebees, solitary bees, hoverflies and other Diptera (e.g: Calliphoridae, Tachinidae, Sarcophagidae) that visited flowers inside Faba beans field and at the margin of the crop capturing the pollinators with a net. Handling time invested in capturing pollinators was discounted. In total, the sampling effort was 90 minutes. Pollinators that were easily identifiable (e.g. honeybees and Bombus funebris, medium and big hoverflies) were recorded without capturing when possible.","Round number: 1. Height above sea level:3500 m."
"Carlos_Zaragoza_Trello_Vicia_faba_Ecuador_2017","CUSU2","transects","diptera","order","other_flies",1,900,90,NA,"To explore pollinator biodiversity we selected 15 Faba bean fields that were at the same phenological stage and adjacent to a managed grassland (or a natural grassland area when it was not feasible). We conducted pollinator surveys along 25 days (from early July to middle August) by walking during 15 minutes along each of two 150 x 1 m standardized transects per site. One transect was located at the field edge while the central transect was located at 25 m inside the field from the edge. In 5 fields these transects were adapted to the middle of the field as the field did not reach 50 meters. Transect walks were conducted between 8:00 and 16:30, low wind speeds and temperatures above 15 degrees C. Due Andean high altitude weather characteristics, during shorts periods of rain (minutes) or low clouds we stopped the survey and resumed it when weather allowed. Sites were surveyed thrice in random order. We surveyed all honeybees, bumblebees, solitary bees, hoverflies and other Diptera (e.g: Calliphoridae, Tachinidae, Sarcophagidae) that visited flowers inside Faba beans field and at the margin of the crop capturing the pollinators with a net. Handling time invested in capturing pollinators was discounted. In total, the sampling effort was 90 minutes. Pollinators that were easily identifiable (e.g. honeybees and Bombus funebris, medium and big hoverflies) were recorded without capturing when possible.","Round number: 1. Height above sea level:3500 m."
"Carlos_Zaragoza_Trello_Vicia_faba_Ecuador_2017","CUSU2","transects","diptera","order","other_flies",1,900,90,NA,"To explore pollinator biodiversity we selected 15 Faba bean fields that were at the same phenological stage and adjacent to a managed grassland (or a natural grassland area when it was not feasible). We conducted pollinator surveys along 25 days (from early July to middle August) by walking during 15 minutes along each of two 150 x 1 m standardized transects per site. One transect was located at the field edge while the central transect was located at 25 m inside the field from the edge. In 5 fields these transects were adapted to the middle of the field as the field did not reach 50 meters. Transect walks were conducted between 8:00 and 16:30, low wind speeds and temperatures above 15 degrees C. Due Andean high altitude weather characteristics, during shorts periods of rain (minutes) or low clouds we stopped the survey and resumed it when weather allowed. Sites were surveyed thrice in random order. We surveyed all honeybees, bumblebees, solitary bees, hoverflies and other Diptera (e.g: Calliphoridae, Tachinidae, Sarcophagidae) that visited flowers inside Faba beans field and at the margin of the crop capturing the pollinators with a net. Handling time invested in capturing pollinators was discounted. In total, the sampling effort was 90 minutes. Pollinators that were easily identifiable (e.g. honeybees and Bombus funebris, medium and big hoverflies) were recorded without capturing when possible.","Round number: 1. Height above sea level:3500 m."
"Carlos_Zaragoza_Trello_Vicia_faba_Ecuador_2017","CUSU2","transects","diptera","order","other_flies",1,900,90,NA,"To explore pollinator biodiversity we selected 15 Faba bean fields that were at the same phenological stage and adjacent to a managed grassland (or a natural grassland area when it was not feasible). We conducted pollinator surveys along 25 days (from early July to middle August) by walking during 15 minutes along each of two 150 x 1 m standardized transects per site. One transect was located at the field edge while the central transect was located at 25 m inside the field from the edge. In 5 fields these transects were adapted to the middle of the field as the field did not reach 50 meters. Transect walks were conducted between 8:00 and 16:30, low wind speeds and temperatures above 15 degrees C. Due Andean high altitude weather characteristics, during shorts periods of rain (minutes) or low clouds we stopped the survey and resumed it when weather allowed. Sites were surveyed thrice in random order. We surveyed all honeybees, bumblebees, solitary bees, hoverflies and other Diptera (e.g: Calliphoridae, Tachinidae, Sarcophagidae) that visited flowers inside Faba beans field and at the margin of the crop capturing the pollinators with a net. Handling time invested in capturing pollinators was discounted. In total, the sampling effort was 90 minutes. Pollinators that were easily identifiable (e.g. honeybees and Bombus funebris, medium and big hoverflies) were recorded without capturing when possible.","Round number: 2. Height above sea level:3500 m."
"Carlos_Zaragoza_Trello_Vicia_faba_Ecuador_2017","CUSU2","transects","diptera","order","other_flies",1,900,90,NA,"To explore pollinator biodiversity we selected 15 Faba bean fields that were at the same phenological stage and adjacent to a managed grassland (or a natural grassland area when it was not feasible). We conducted pollinator surveys along 25 days (from early July to middle August) by walking during 15 minutes along each of two 150 x 1 m standardized transects per site. One transect was located at the field edge while the central transect was located at 25 m inside the field from the edge. In 5 fields these transects were adapted to the middle of the field as the field did not reach 50 meters. Transect walks were conducted between 8:00 and 16:30, low wind speeds and temperatures above 15 degrees C. Due Andean high altitude weather characteristics, during shorts periods of rain (minutes) or low clouds we stopped the survey and resumed it when weather allowed. Sites were surveyed thrice in random order. We surveyed all honeybees, bumblebees, solitary bees, hoverflies and other Diptera (e.g: Calliphoridae, Tachinidae, Sarcophagidae) that visited flowers inside Faba beans field and at the margin of the crop capturing the pollinators with a net. Handling time invested in capturing pollinators was discounted. In total, the sampling effort was 90 minutes. Pollinators that were easily identifiable (e.g. honeybees and Bombus funebris, medium and big hoverflies) were recorded without capturing when possible.","Round number: 2. Height above sea level:3500 m."
"Carlos_Zaragoza_Trello_Vicia_faba_Ecuador_2017","CUSU2","transects","diptera","order","other_flies",1,900,90,NA,"To explore pollinator biodiversity we selected 15 Faba bean fields that were at the same phenological stage and adjacent to a managed grassland (or a natural grassland area when it was not feasible). We conducted pollinator surveys along 25 days (from early July to middle August) by walking during 15 minutes along each of two 150 x 1 m standardized transects per site. One transect was located at the field edge while the central transect was located at 25 m inside the field from the edge. In 5 fields these transects were adapted to the middle of the field as the field did not reach 50 meters. Transect walks were conducted between 8:00 and 16:30, low wind speeds and temperatures above 15 degrees C. Due Andean high altitude weather characteristics, during shorts periods of rain (minutes) or low clouds we stopped the survey and resumed it when weather allowed. Sites were surveyed thrice in random order. We surveyed all honeybees, bumblebees, solitary bees, hoverflies and other Diptera (e.g: Calliphoridae, Tachinidae, Sarcophagidae) that visited flowers inside Faba beans field and at the margin of the crop capturing the pollinators with a net. Handling time invested in capturing pollinators was discounted. In total, the sampling effort was 90 minutes. Pollinators that were easily identifiable (e.g. honeybees and Bombus funebris, medium and big hoverflies) were recorded without capturing when possible.","Round number: 2. Height above sea level:3500 m."
"Carlos_Zaragoza_Trello_Vicia_faba_Ecuador_2017","Q1","transects","diptera","order","other_flies",1,900,90,NA,"To explore pollinator biodiversity we selected 15 Faba bean fields that were at the same phenological stage and adjacent to a managed grassland (or a natural grassland area when it was not feasible). We conducted pollinator surveys along 25 days (from early July to middle August) by walking during 15 minutes along each of two 150 x 1 m standardized transects per site. One transect was located at the field edge while the central transect was located at 25 m inside the field from the edge. In 5 fields these transects were adapted to the middle of the field as the field did not reach 50 meters. Transect walks were conducted between 8:00 and 16:30, low wind speeds and temperatures above 15 degrees C. Due Andean high altitude weather characteristics, during shorts periods of rain (minutes) or low clouds we stopped the survey and resumed it when weather allowed. Sites were surveyed thrice in random order. We surveyed all honeybees, bumblebees, solitary bees, hoverflies and other Diptera (e.g: Calliphoridae, Tachinidae, Sarcophagidae) that visited flowers inside Faba beans field and at the margin of the crop capturing the pollinators with a net. Handling time invested in capturing pollinators was discounted. In total, the sampling effort was 90 minutes. Pollinators that were easily identifiable (e.g. honeybees and Bombus funebris, medium and big hoverflies) were recorded without capturing when possible.","Round number: 2. Height above sea level:3777 m."
"Carlos_Zaragoza_Trello_Vicia_faba_Ecuador_2017","Q1","transects","diptera","order","other_flies",1,900,90,NA,"To explore pollinator biodiversity we selected 15 Faba bean fields that were at the same phenological stage and adjacent to a managed grassland (or a natural grassland area when it was not feasible). We conducted pollinator surveys along 25 days (from early July to middle August) by walking during 15 minutes along each of two 150 x 1 m standardized transects per site. One transect was located at the field edge while the central transect was located at 25 m inside the field from the edge. In 5 fields these transects were adapted to the middle of the field as the field did not reach 50 meters. Transect walks were conducted between 8:00 and 16:30, low wind speeds and temperatures above 15 degrees C. Due Andean high altitude weather characteristics, during shorts periods of rain (minutes) or low clouds we stopped the survey and resumed it when weather allowed. Sites were surveyed thrice in random order. We surveyed all honeybees, bumblebees, solitary bees, hoverflies and other Diptera (e.g: Calliphoridae, Tachinidae, Sarcophagidae) that visited flowers inside Faba beans field and at the margin of the crop capturing the pollinators with a net. Handling time invested in capturing pollinators was discounted. In total, the sampling effort was 90 minutes. Pollinators that were easily identifiable (e.g. honeybees and Bombus funebris, medium and big hoverflies) were recorded without capturing when possible.","Round number: 3. Height above sea level:3777 m."
"Carlos_Zaragoza_Trello_Vicia_faba_Ecuador_2017","Q2","transects","diptera","order","other_flies",1,900,90,NA,"To explore pollinator biodiversity we selected 15 Faba bean fields that were at the same phenological stage and adjacent to a managed grassland (or a natural grassland area when it was not feasible). We conducted pollinator surveys along 25 days (from early July to middle August) by walking during 15 minutes along each of two 150 x 1 m standardized transects per site. One transect was located at the field edge while the central transect was located at 25 m inside the field from the edge. In 5 fields these transects were adapted to the middle of the field as the field did not reach 50 meters. Transect walks were conducted between 8:00 and 16:30, low wind speeds and temperatures above 15 degrees C. Due Andean high altitude weather characteristics, during shorts periods of rain (minutes) or low clouds we stopped the survey and resumed it when weather allowed. Sites were surveyed thrice in random order. We surveyed all honeybees, bumblebees, solitary bees, hoverflies and other Diptera (e.g: Calliphoridae, Tachinidae, Sarcophagidae) that visited flowers inside Faba beans field and at the margin of the crop capturing the pollinators with a net. Handling time invested in capturing pollinators was discounted. In total, the sampling effort was 90 minutes. Pollinators that were easily identifiable (e.g. honeybees and Bombus funebris, medium and big hoverflies) were recorded without capturing when possible.","Round number: 3. Height above sea level:3780 m."
"Carlos_Zaragoza_Trello_Vicia_faba_Ecuador_2017","Q2","transects","diptera","order","other_flies",1,900,90,NA,"To explore pollinator biodiversity we selected 15 Faba bean fields that were at the same phenological stage and adjacent to a managed grassland (or a natural grassland area when it was not feasible). We conducted pollinator surveys along 25 days (from early July to middle August) by walking during 15 minutes along each of two 150 x 1 m standardized transects per site. One transect was located at the field edge while the central transect was located at 25 m inside the field from the edge. In 5 fields these transects were adapted to the middle of the field as the field did not reach 50 meters. Transect walks were conducted between 8:00 and 16:30, low wind speeds and temperatures above 15 degrees C. Due Andean high altitude weather characteristics, during shorts periods of rain (minutes) or low clouds we stopped the survey and resumed it when weather allowed. Sites were surveyed thrice in random order. We surveyed all honeybees, bumblebees, solitary bees, hoverflies and other Diptera (e.g: Calliphoridae, Tachinidae, Sarcophagidae) that visited flowers inside Faba beans field and at the margin of the crop capturing the pollinators with a net. Handling time invested in capturing pollinators was discounted. In total, the sampling effort was 90 minutes. Pollinators that were easily identifiable (e.g. honeybees and Bombus funebris, medium and big hoverflies) were recorded without capturing when possible.","Round number: 3. Height above sea level:3780 m."
"Carlos_Zaragoza_Trello_Vicia_faba_Ecuador_2017","Q2","transects","diptera","order","other_flies",1,900,90,NA,"To explore pollinator biodiversity we selected 15 Faba bean fields that were at the same phenological stage and adjacent to a managed grassland (or a natural grassland area when it was not feasible). We conducted pollinator surveys along 25 days (from early July to middle August) by walking during 15 minutes along each of two 150 x 1 m standardized transects per site. One transect was located at the field edge while the central transect was located at 25 m inside the field from the edge. In 5 fields these transects were adapted to the middle of the field as the field did not reach 50 meters. Transect walks were conducted between 8:00 and 16:30, low wind speeds and temperatures above 15 degrees C. Due Andean high altitude weather characteristics, during shorts periods of rain (minutes) or low clouds we stopped the survey and resumed it when weather allowed. Sites were surveyed thrice in random order. We surveyed all honeybees, bumblebees, solitary bees, hoverflies and other Diptera (e.g: Calliphoridae, Tachinidae, Sarcophagidae) that visited flowers inside Faba beans field and at the margin of the crop capturing the pollinators with a net. Handling time invested in capturing pollinators was discounted. In total, the sampling effort was 90 minutes. Pollinators that were easily identifiable (e.g. honeybees and Bombus funebris, medium and big hoverflies) were recorded without capturing when possible.","Round number: 3. Height above sea level:3780 m."
"Carlos_Zaragoza_Trello_Vicia_faba_Ecuador_2017","Q2","transects","diptera","order","other_flies",1,900,90,NA,"To explore pollinator biodiversity we selected 15 Faba bean fields that were at the same phenological stage and adjacent to a managed grassland (or a natural grassland area when it was not feasible). We conducted pollinator surveys along 25 days (from early July to middle August) by walking during 15 minutes along each of two 150 x 1 m standardized transects per site. One transect was located at the field edge while the central transect was located at 25 m inside the field from the edge. In 5 fields these transects were adapted to the middle of the field as the field did not reach 50 meters. Transect walks were conducted between 8:00 and 16:30, low wind speeds and temperatures above 15 degrees C. Due Andean high altitude weather characteristics, during shorts periods of rain (minutes) or low clouds we stopped the survey and resumed it when weather allowed. Sites were surveyed thrice in random order. We surveyed all honeybees, bumblebees, solitary bees, hoverflies and other Diptera (e.g: Calliphoridae, Tachinidae, Sarcophagidae) that visited flowers inside Faba beans field and at the margin of the crop capturing the pollinators with a net. Handling time invested in capturing pollinators was discounted. In total, the sampling effort was 90 minutes. Pollinators that were easily identifiable (e.g. honeybees and Bombus funebris, medium and big hoverflies) were recorded without capturing when possible.","Round number: 3. Height above sea level:3780 m."
"Carlos_Zaragoza_Trello_Vicia_faba_Ecuador_2017","Q2","transects","diptera","order","other_flies",1,900,90,NA,"To explore pollinator biodiversity we selected 15 Faba bean fields that were at the same phenological stage and adjacent to a managed grassland (or a natural grassland area when it was not feasible). We conducted pollinator surveys along 25 days (from early July to middle August) by walking during 15 minutes along each of two 150 x 1 m standardized transects per site. One transect was located at the field edge while the central transect was located at 25 m inside the field from the edge. In 5 fields these transects were adapted to the middle of the field as the field did not reach 50 meters. Transect walks were conducted between 8:00 and 16:30, low wind speeds and temperatures above 15 degrees C. Due Andean high altitude weather characteristics, during shorts periods of rain (minutes) or low clouds we stopped the survey and resumed it when weather allowed. Sites were surveyed thrice in random order. We surveyed all honeybees, bumblebees, solitary bees, hoverflies and other Diptera (e.g: Calliphoridae, Tachinidae, Sarcophagidae) that visited flowers inside Faba beans field and at the margin of the crop capturing the pollinators with a net. Handling time invested in capturing pollinators was discounted. In total, the sampling effort was 90 minutes. Pollinators that were easily identifiable (e.g. honeybees and Bombus funebris, medium and big hoverflies) were recorded without capturing when possible.","Round number: 3. Height above sea level:3780 m."
"Carlos_Zaragoza_Trello_Vicia_faba_Ecuador_2017","Q2","transects","diptera","order","other_flies",1,900,90,NA,"To explore pollinator biodiversity we selected 15 Faba bean fields that were at the same phenological stage and adjacent to a managed grassland (or a natural grassland area when it was not feasible). We conducted pollinator surveys along 25 days (from early July to middle August) by walking during 15 minutes along each of two 150 x 1 m standardized transects per site. One transect was located at the field edge while the central transect was located at 25 m inside the field from the edge. In 5 fields these transects were adapted to the middle of the field as the field did not reach 50 meters. Transect walks were conducted between 8:00 and 16:30, low wind speeds and temperatures above 15 degrees C. Due Andean high altitude weather characteristics, during shorts periods of rain (minutes) or low clouds we stopped the survey and resumed it when weather allowed. Sites were surveyed thrice in random order. We surveyed all honeybees, bumblebees, solitary bees, hoverflies and other Diptera (e.g: Calliphoridae, Tachinidae, Sarcophagidae) that visited flowers inside Faba beans field and at the margin of the crop capturing the pollinators with a net. Handling time invested in capturing pollinators was discounted. In total, the sampling effort was 90 minutes. Pollinators that were easily identifiable (e.g. honeybees and Bombus funebris, medium and big hoverflies) were recorded without capturing when possible.","Round number: 3. Height above sea level:3780 m."
"Carlos_Zaragoza_Trello_Vicia_faba_Ecuador_2017","Q2","transects","diptera","order","other_flies",1,900,90,NA,"To explore pollinator biodiversity we selected 15 Faba bean fields that were at the same phenological stage and adjacent to a managed grassland (or a natural grassland area when it was not feasible). We conducted pollinator surveys along 25 days (from early July to middle August) by walking during 15 minutes along each of two 150 x 1 m standardized transects per site. One transect was located at the field edge while the central transect was located at 25 m inside the field from the edge. In 5 fields these transects were adapted to the middle of the field as the field did not reach 50 meters. Transect walks were conducted between 8:00 and 16:30, low wind speeds and temperatures above 15 degrees C. Due Andean high altitude weather characteristics, during shorts periods of rain (minutes) or low clouds we stopped the survey and resumed it when weather allowed. Sites were surveyed thrice in random order. We surveyed all honeybees, bumblebees, solitary bees, hoverflies and other Diptera (e.g: Calliphoridae, Tachinidae, Sarcophagidae) that visited flowers inside Faba beans field and at the margin of the crop capturing the pollinators with a net. Handling time invested in capturing pollinators was discounted. In total, the sampling effort was 90 minutes. Pollinators that were easily identifiable (e.g. honeybees and Bombus funebris, medium and big hoverflies) were recorded without capturing when possible.","Round number: 2. Height above sea level:3780 m."
"Carlos_Zaragoza_Trello_Vicia_faba_Ecuador_2017","Q2","transects","diptera","order","other_flies",1,900,90,NA,"To explore pollinator biodiversity we selected 15 Faba bean fields that were at the same phenological stage and adjacent to a managed grassland (or a natural grassland area when it was not feasible). We conducted pollinator surveys along 25 days (from early July to middle August) by walking during 15 minutes along each of two 150 x 1 m standardized transects per site. One transect was located at the field edge while the central transect was located at 25 m inside the field from the edge. In 5 fields these transects were adapted to the middle of the field as the field did not reach 50 meters. Transect walks were conducted between 8:00 and 16:30, low wind speeds and temperatures above 15 degrees C. Due Andean high altitude weather characteristics, during shorts periods of rain (minutes) or low clouds we stopped the survey and resumed it when weather allowed. Sites were surveyed thrice in random order. We surveyed all honeybees, bumblebees, solitary bees, hoverflies and other Diptera (e.g: Calliphoridae, Tachinidae, Sarcophagidae) that visited flowers inside Faba beans field and at the margin of the crop capturing the pollinators with a net. Handling time invested in capturing pollinators was discounted. In total, the sampling effort was 90 minutes. Pollinators that were easily identifiable (e.g. honeybees and Bombus funebris, medium and big hoverflies) were recorded without capturing when possible.","Round number: 1. Height above sea level:3780 m."
"Carlos_Zaragoza_Trello_Vicia_faba_Ecuador_2017","Q3","transects","diptera","order","other_flies",1,900,90,NA,"To explore pollinator biodiversity we selected 15 Faba bean fields that were at the same phenological stage and adjacent to a managed grassland (or a natural grassland area when it was not feasible). We conducted pollinator surveys along 25 days (from early July to middle August) by walking during 15 minutes along each of two 150 x 1 m standardized transects per site. One transect was located at the field edge while the central transect was located at 25 m inside the field from the edge. In 5 fields these transects were adapted to the middle of the field as the field did not reach 50 meters. Transect walks were conducted between 8:00 and 16:30, low wind speeds and temperatures above 15 degrees C. Due Andean high altitude weather characteristics, during shorts periods of rain (minutes) or low clouds we stopped the survey and resumed it when weather allowed. Sites were surveyed thrice in random order. We surveyed all honeybees, bumblebees, solitary bees, hoverflies and other Diptera (e.g: Calliphoridae, Tachinidae, Sarcophagidae) that visited flowers inside Faba beans field and at the margin of the crop capturing the pollinators with a net. Handling time invested in capturing pollinators was discounted. In total, the sampling effort was 90 minutes. Pollinators that were easily identifiable (e.g. honeybees and Bombus funebris, medium and big hoverflies) were recorded without capturing when possible.","Round number: 2. Height above sea level:3747 m."
"Carlos_Zaragoza_Trello_Vicia_faba_Ecuador_2017","Q3","transects","diptera","order","other_flies",1,900,90,NA,"To explore pollinator biodiversity we selected 15 Faba bean fields that were at the same phenological stage and adjacent to a managed grassland (or a natural grassland area when it was not feasible). We conducted pollinator surveys along 25 days (from early July to middle August) by walking during 15 minutes along each of two 150 x 1 m standardized transects per site. One transect was located at the field edge while the central transect was located at 25 m inside the field from the edge. In 5 fields these transects were adapted to the middle of the field as the field did not reach 50 meters. Transect walks were conducted between 8:00 and 16:30, low wind speeds and temperatures above 15 degrees C. Due Andean high altitude weather characteristics, during shorts periods of rain (minutes) or low clouds we stopped the survey and resumed it when weather allowed. Sites were surveyed thrice in random order. We surveyed all honeybees, bumblebees, solitary bees, hoverflies and other Diptera (e.g: Calliphoridae, Tachinidae, Sarcophagidae) that visited flowers inside Faba beans field and at the margin of the crop capturing the pollinators with a net. Handling time invested in capturing pollinators was discounted. In total, the sampling effort was 90 minutes. Pollinators that were easily identifiable (e.g. honeybees and Bombus funebris, medium and big hoverflies) were recorded without capturing when possible.","Round number: 2. Height above sea level:3747 m."
"Carlos_Zaragoza_Trello_Vicia_faba_Ecuador_2017","Q3","transects","diptera","order","other_flies",1,900,90,NA,"To explore pollinator biodiversity we selected 15 Faba bean fields that were at the same phenological stage and adjacent to a managed grassland (or a natural grassland area when it was not feasible). We conducted pollinator surveys along 25 days (from early July to middle August) by walking during 15 minutes along each of two 150 x 1 m standardized transects per site. One transect was located at the field edge while the central transect was located at 25 m inside the field from the edge. In 5 fields these transects were adapted to the middle of the field as the field did not reach 50 meters. Transect walks were conducted between 8:00 and 16:30, low wind speeds and temperatures above 15 degrees C. Due Andean high altitude weather characteristics, during shorts periods of rain (minutes) or low clouds we stopped the survey and resumed it when weather allowed. Sites were surveyed thrice in random order. We surveyed all honeybees, bumblebees, solitary bees, hoverflies and other Diptera (e.g: Calliphoridae, Tachinidae, Sarcophagidae) that visited flowers inside Faba beans field and at the margin of the crop capturing the pollinators with a net. Handling time invested in capturing pollinators was discounted. In total, the sampling effort was 90 minutes. Pollinators that were easily identifiable (e.g. honeybees and Bombus funebris, medium and big hoverflies) were recorded without capturing when possible.","Round number: 1. Height above sea level:3747 m."
"Carlos_Zaragoza_Trello_Vicia_faba_Ecuador_2017","Q3","transects","diptera","order","other_flies",1,900,90,NA,"To explore pollinator biodiversity we selected 15 Faba bean fields that were at the same phenological stage and adjacent to a managed grassland (or a natural grassland area when it was not feasible). We conducted pollinator surveys along 25 days (from early July to middle August) by walking during 15 minutes along each of two 150 x 1 m standardized transects per site. One transect was located at the field edge while the central transect was located at 25 m inside the field from the edge. In 5 fields these transects were adapted to the middle of the field as the field did not reach 50 meters. Transect walks were conducted between 8:00 and 16:30, low wind speeds and temperatures above 15 degrees C. Due Andean high altitude weather characteristics, during shorts periods of rain (minutes) or low clouds we stopped the survey and resumed it when weather allowed. Sites were surveyed thrice in random order. We surveyed all honeybees, bumblebees, solitary bees, hoverflies and other Diptera (e.g: Calliphoridae, Tachinidae, Sarcophagidae) that visited flowers inside Faba beans field and at the margin of the crop capturing the pollinators with a net. Handling time invested in capturing pollinators was discounted. In total, the sampling effort was 90 minutes. Pollinators that were easily identifiable (e.g. honeybees and Bombus funebris, medium and big hoverflies) were recorded without capturing when possible.","Round number: 1. Height above sea level:3747 m."
"Carlos_Zaragoza_Trello_Vicia_faba_Ecuador_2017","Q3","transects","diptera","order","other_flies",1,900,90,NA,"To explore pollinator biodiversity we selected 15 Faba bean fields that were at the same phenological stage and adjacent to a managed grassland (or a natural grassland area when it was not feasible). We conducted pollinator surveys along 25 days (from early July to middle August) by walking during 15 minutes along each of two 150 x 1 m standardized transects per site. One transect was located at the field edge while the central transect was located at 25 m inside the field from the edge. In 5 fields these transects were adapted to the middle of the field as the field did not reach 50 meters. Transect walks were conducted between 8:00 and 16:30, low wind speeds and temperatures above 15 degrees C. Due Andean high altitude weather characteristics, during shorts periods of rain (minutes) or low clouds we stopped the survey and resumed it when weather allowed. Sites were surveyed thrice in random order. We surveyed all honeybees, bumblebees, solitary bees, hoverflies and other Diptera (e.g: Calliphoridae, Tachinidae, Sarcophagidae) that visited flowers inside Faba beans field and at the margin of the crop capturing the pollinators with a net. Handling time invested in capturing pollinators was discounted. In total, the sampling effort was 90 minutes. Pollinators that were easily identifiable (e.g. honeybees and Bombus funebris, medium and big hoverflies) were recorded without capturing when possible.","Round number: 1. Height above sea level:3747 m."
"Carlos_Zaragoza_Trello_Vicia_faba_Ecuador_2017","Q3","transects","diptera","order","other_flies",1,900,90,NA,"To explore pollinator biodiversity we selected 15 Faba bean fields that were at the same phenological stage and adjacent to a managed grassland (or a natural grassland area when it was not feasible). We conducted pollinator surveys along 25 days (from early July to middle August) by walking during 15 minutes along each of two 150 x 1 m standardized transects per site. One transect was located at the field edge while the central transect was located at 25 m inside the field from the edge. In 5 fields these transects were adapted to the middle of the field as the field did not reach 50 meters. Transect walks were conducted between 8:00 and 16:30, low wind speeds and temperatures above 15 degrees C. Due Andean high altitude weather characteristics, during shorts periods of rain (minutes) or low clouds we stopped the survey and resumed it when weather allowed. Sites were surveyed thrice in random order. We surveyed all honeybees, bumblebees, solitary bees, hoverflies and other Diptera (e.g: Calliphoridae, Tachinidae, Sarcophagidae) that visited flowers inside Faba beans field and at the margin of the crop capturing the pollinators with a net. Handling time invested in capturing pollinators was discounted. In total, the sampling effort was 90 minutes. Pollinators that were easily identifiable (e.g. honeybees and Bombus funebris, medium and big hoverflies) were recorded without capturing when possible.","Round number: 2. Height above sea level:3747 m."
"Carlos_Zaragoza_Trello_Vicia_faba_Ecuador_2017","Q3","transects","diptera","order","other_flies",1,900,90,NA,"To explore pollinator biodiversity we selected 15 Faba bean fields that were at the same phenological stage and adjacent to a managed grassland (or a natural grassland area when it was not feasible). We conducted pollinator surveys along 25 days (from early July to middle August) by walking during 15 minutes along each of two 150 x 1 m standardized transects per site. One transect was located at the field edge while the central transect was located at 25 m inside the field from the edge. In 5 fields these transects were adapted to the middle of the field as the field did not reach 50 meters. Transect walks were conducted between 8:00 and 16:30, low wind speeds and temperatures above 15 degrees C. Due Andean high altitude weather characteristics, during shorts periods of rain (minutes) or low clouds we stopped the survey and resumed it when weather allowed. Sites were surveyed thrice in random order. We surveyed all honeybees, bumblebees, solitary bees, hoverflies and other Diptera (e.g: Calliphoridae, Tachinidae, Sarcophagidae) that visited flowers inside Faba beans field and at the margin of the crop capturing the pollinators with a net. Handling time invested in capturing pollinators was discounted. In total, the sampling effort was 90 minutes. Pollinators that were easily identifiable (e.g. honeybees and Bombus funebris, medium and big hoverflies) were recorded without capturing when possible.","Round number: 2. Height above sea level:3747 m."
"Carlos_Zaragoza_Trello_Vicia_faba_Ecuador_2017","Q4","transects","diptera","order","other_flies",1,900,90,NA,"To explore pollinator biodiversity we selected 15 Faba bean fields that were at the same phenological stage and adjacent to a managed grassland (or a natural grassland area when it was not feasible). We conducted pollinator surveys along 25 days (from early July to middle August) by walking during 15 minutes along each of two 150 x 1 m standardized transects per site. One transect was located at the field edge while the central transect was located at 25 m inside the field from the edge. In 5 fields these transects were adapted to the middle of the field as the field did not reach 50 meters. Transect walks were conducted between 8:00 and 16:30, low wind speeds and temperatures above 15 degrees C. Due Andean high altitude weather characteristics, during shorts periods of rain (minutes) or low clouds we stopped the survey and resumed it when weather allowed. Sites were surveyed thrice in random order. We surveyed all honeybees, bumblebees, solitary bees, hoverflies and other Diptera (e.g: Calliphoridae, Tachinidae, Sarcophagidae) that visited flowers inside Faba beans field and at the margin of the crop capturing the pollinators with a net. Handling time invested in capturing pollinators was discounted. In total, the sampling effort was 90 minutes. Pollinators that were easily identifiable (e.g. honeybees and Bombus funebris, medium and big hoverflies) were recorded without capturing when possible.","Round number: 1. Height above sea level:3838 m."
"Carlos_Zaragoza_Trello_Vicia_faba_Ecuador_2017","Q4","transects","diptera","order","other_flies",1,900,90,NA,"To explore pollinator biodiversity we selected 15 Faba bean fields that were at the same phenological stage and adjacent to a managed grassland (or a natural grassland area when it was not feasible). We conducted pollinator surveys along 25 days (from early July to middle August) by walking during 15 minutes along each of two 150 x 1 m standardized transects per site. One transect was located at the field edge while the central transect was located at 25 m inside the field from the edge. In 5 fields these transects were adapted to the middle of the field as the field did not reach 50 meters. Transect walks were conducted between 8:00 and 16:30, low wind speeds and temperatures above 15 degrees C. Due Andean high altitude weather characteristics, during shorts periods of rain (minutes) or low clouds we stopped the survey and resumed it when weather allowed. Sites were surveyed thrice in random order. We surveyed all honeybees, bumblebees, solitary bees, hoverflies and other Diptera (e.g: Calliphoridae, Tachinidae, Sarcophagidae) that visited flowers inside Faba beans field and at the margin of the crop capturing the pollinators with a net. Handling time invested in capturing pollinators was discounted. In total, the sampling effort was 90 minutes. Pollinators that were easily identifiable (e.g. honeybees and Bombus funebris, medium and big hoverflies) were recorded without capturing when possible.","Round number: 3. Height above sea level:3838 m."
"Carlos_Zaragoza_Trello_Vicia_faba_Ecuador_2017","Q5","transects","diptera","order","other_flies",1,900,90,NA,"To explore pollinator biodiversity we selected 15 Faba bean fields that were at the same phenological stage and adjacent to a managed grassland (or a natural grassland area when it was not feasible). We conducted pollinator surveys along 25 days (from early July to middle August) by walking during 15 minutes along each of two 150 x 1 m standardized transects per site. One transect was located at the field edge while the central transect was located at 25 m inside the field from the edge. In 5 fields these transects were adapted to the middle of the field as the field did not reach 50 meters. Transect walks were conducted between 8:00 and 16:30, low wind speeds and temperatures above 15 degrees C. Due Andean high altitude weather characteristics, during shorts periods of rain (minutes) or low clouds we stopped the survey and resumed it when weather allowed. Sites were surveyed thrice in random order. We surveyed all honeybees, bumblebees, solitary bees, hoverflies and other Diptera (e.g: Calliphoridae, Tachinidae, Sarcophagidae) that visited flowers inside Faba beans field and at the margin of the crop capturing the pollinators with a net. Handling time invested in capturing pollinators was discounted. In total, the sampling effort was 90 minutes. Pollinators that were easily identifiable (e.g. honeybees and Bombus funebris, medium and big hoverflies) were recorded without capturing when possible.","Round number: 3. Height above sea level:3779 m."
"Carlos_Zaragoza_Trello_Vicia_faba_Ecuador_2017","Q5","transects","diptera","order","other_flies",1,900,90,NA,"To explore pollinator biodiversity we selected 15 Faba bean fields that were at the same phenological stage and adjacent to a managed grassland (or a natural grassland area when it was not feasible). We conducted pollinator surveys along 25 days (from early July to middle August) by walking during 15 minutes along each of two 150 x 1 m standardized transects per site. One transect was located at the field edge while the central transect was located at 25 m inside the field from the edge. In 5 fields these transects were adapted to the middle of the field as the field did not reach 50 meters. Transect walks were conducted between 8:00 and 16:30, low wind speeds and temperatures above 15 degrees C. Due Andean high altitude weather characteristics, during shorts periods of rain (minutes) or low clouds we stopped the survey and resumed it when weather allowed. Sites were surveyed thrice in random order. We surveyed all honeybees, bumblebees, solitary bees, hoverflies and other Diptera (e.g: Calliphoridae, Tachinidae, Sarcophagidae) that visited flowers inside Faba beans field and at the margin of the crop capturing the pollinators with a net. Handling time invested in capturing pollinators was discounted. In total, the sampling effort was 90 minutes. Pollinators that were easily identifiable (e.g. honeybees and Bombus funebris, medium and big hoverflies) were recorded without capturing when possible.","Round number: 2. Height above sea level:3779 m."
"Carlos_Zaragoza_Trello_Vicia_faba_Ecuador_2017","Q5","transects","diptera","order","other_flies",1,900,90,NA,"To explore pollinator biodiversity we selected 15 Faba bean fields that were at the same phenological stage and adjacent to a managed grassland (or a natural grassland area when it was not feasible). We conducted pollinator surveys along 25 days (from early July to middle August) by walking during 15 minutes along each of two 150 x 1 m standardized transects per site. One transect was located at the field edge while the central transect was located at 25 m inside the field from the edge. In 5 fields these transects were adapted to the middle of the field as the field did not reach 50 meters. Transect walks were conducted between 8:00 and 16:30, low wind speeds and temperatures above 15 degrees C. Due Andean high altitude weather characteristics, during shorts periods of rain (minutes) or low clouds we stopped the survey and resumed it when weather allowed. Sites were surveyed thrice in random order. We surveyed all honeybees, bumblebees, solitary bees, hoverflies and other Diptera (e.g: Calliphoridae, Tachinidae, Sarcophagidae) that visited flowers inside Faba beans field and at the margin of the crop capturing the pollinators with a net. Handling time invested in capturing pollinators was discounted. In total, the sampling effort was 90 minutes. Pollinators that were easily identifiable (e.g. honeybees and Bombus funebris, medium and big hoverflies) were recorded without capturing when possible.","Round number: 1. Height above sea level:3779 m."
"Carlos_Zaragoza_Trello_Vicia_faba_Ecuador_2017","Q5","transects","diptera","order","other_flies",1,900,90,NA,"To explore pollinator biodiversity we selected 15 Faba bean fields that were at the same phenological stage and adjacent to a managed grassland (or a natural grassland area when it was not feasible). We conducted pollinator surveys along 25 days (from early July to middle August) by walking during 15 minutes along each of two 150 x 1 m standardized transects per site. One transect was located at the field edge while the central transect was located at 25 m inside the field from the edge. In 5 fields these transects were adapted to the middle of the field as the field did not reach 50 meters. Transect walks were conducted between 8:00 and 16:30, low wind speeds and temperatures above 15 degrees C. Due Andean high altitude weather characteristics, during shorts periods of rain (minutes) or low clouds we stopped the survey and resumed it when weather allowed. Sites were surveyed thrice in random order. We surveyed all honeybees, bumblebees, solitary bees, hoverflies and other Diptera (e.g: Calliphoridae, Tachinidae, Sarcophagidae) that visited flowers inside Faba beans field and at the margin of the crop capturing the pollinators with a net. Handling time invested in capturing pollinators was discounted. In total, the sampling effort was 90 minutes. Pollinators that were easily identifiable (e.g. honeybees and Bombus funebris, medium and big hoverflies) were recorded without capturing when possible.","Round number: 2. Height above sea level:3779 m."
"Carlos_Zaragoza_Trello_Vicia_faba_Ecuador_2017","BQ1","transects","honeybee","genus","honeybees",1,900,90,NA,"To explore pollinator biodiversity we selected 15 Faba bean fields that were at the same phenological stage and adjacent to a managed grassland (or a natural grassland area when it was not feasible). We conducted pollinator surveys along 25 days (from early July to middle August) by walking during 15 minutes along each of two 150 x 1 m standardized transects per site. One transect was located at the field edge while the central transect was located at 25 m inside the field from the edge. In 5 fields these transects were adapted to the middle of the field as the field did not reach 50 meters. Transect walks were conducted between 8:00 and 16:30, low wind speeds and temperatures above 15 degrees C. Due Andean high altitude weather characteristics, during shorts periods of rain (minutes) or low clouds we stopped the survey and resumed it when weather allowed. Sites were surveyed thrice in random order. We surveyed all honeybees, bumblebees, solitary bees, hoverflies and other Diptera (e.g: Calliphoridae, Tachinidae, Sarcophagidae) that visited flowers inside Faba beans field and at the margin of the crop capturing the pollinators with a net. Handling time invested in capturing pollinators was discounted. In total, the sampling effort was 90 minutes. Pollinators that were easily identifiable (e.g. honeybees and Bombus funebris, medium and big hoverflies) were recorded without capturing when possible.","Round number: 2. Height above sea level:2818 m."
"Carlos_Zaragoza_Trello_Vicia_faba_Ecuador_2017","BQ1","transects","honeybee","genus","honeybees",6,900,90,NA,"To explore pollinator biodiversity we selected 15 Faba bean fields that were at the same phenological stage and adjacent to a managed grassland (or a natural grassland area when it was not feasible). We conducted pollinator surveys along 25 days (from early July to middle August) by walking during 15 minutes along each of two 150 x 1 m standardized transects per site. One transect was located at the field edge while the central transect was located at 25 m inside the field from the edge. In 5 fields these transects were adapted to the middle of the field as the field did not reach 50 meters. Transect walks were conducted between 8:00 and 16:30, low wind speeds and temperatures above 15 degrees C. Due Andean high altitude weather characteristics, during shorts periods of rain (minutes) or low clouds we stopped the survey and resumed it when weather allowed. Sites were surveyed thrice in random order. We surveyed all honeybees, bumblebees, solitary bees, hoverflies and other Diptera (e.g: Calliphoridae, Tachinidae, Sarcophagidae) that visited flowers inside Faba beans field and at the margin of the crop capturing the pollinators with a net. Handling time invested in capturing pollinators was discounted. In total, the sampling effort was 90 minutes. Pollinators that were easily identifiable (e.g. honeybees and Bombus funebris, medium and big hoverflies) were recorded without capturing when possible.","Round number: 3. Height above sea level:2818 m."
"Carlos_Zaragoza_Trello_Vicia_faba_Ecuador_2017","BQ1","transects","honeybee","genus","honeybees",2,900,90,NA,"To explore pollinator biodiversity we selected 15 Faba bean fields that were at the same phenological stage and adjacent to a managed grassland (or a natural grassland area when it was not feasible). We conducted pollinator surveys along 25 days (from early July to middle August) by walking during 15 minutes along each of two 150 x 1 m standardized transects per site. One transect was located at the field edge while the central transect was located at 25 m inside the field from the edge. In 5 fields these transects were adapted to the middle of the field as the field did not reach 50 meters. Transect walks were conducted between 8:00 and 16:30, low wind speeds and temperatures above 15 degrees C. Due Andean high altitude weather characteristics, during shorts periods of rain (minutes) or low clouds we stopped the survey and resumed it when weather allowed. Sites were surveyed thrice in random order. We surveyed all honeybees, bumblebees, solitary bees, hoverflies and other Diptera (e.g: Calliphoridae, Tachinidae, Sarcophagidae) that visited flowers inside Faba beans field and at the margin of the crop capturing the pollinators with a net. Handling time invested in capturing pollinators was discounted. In total, the sampling effort was 90 minutes. Pollinators that were easily identifiable (e.g. honeybees and Bombus funebris, medium and big hoverflies) were recorded without capturing when possible.","Round number: 3. Height above sea level:2818 m."
"Carlos_Zaragoza_Trello_Vicia_faba_Ecuador_2017","BQ1","transects","honeybee","genus","honeybees",5,900,90,NA,"To explore pollinator biodiversity we selected 15 Faba bean fields that were at the same phenological stage and adjacent to a managed grassland (or a natural grassland area when it was not feasible). We conducted pollinator surveys along 25 days (from early July to middle August) by walking during 15 minutes along each of two 150 x 1 m standardized transects per site. One transect was located at the field edge while the central transect was located at 25 m inside the field from the edge. In 5 fields these transects were adapted to the middle of the field as the field did not reach 50 meters. Transect walks were conducted between 8:00 and 16:30, low wind speeds and temperatures above 15 degrees C. Due Andean high altitude weather characteristics, during shorts periods of rain (minutes) or low clouds we stopped the survey and resumed it when weather allowed. Sites were surveyed thrice in random order. We surveyed all honeybees, bumblebees, solitary bees, hoverflies and other Diptera (e.g: Calliphoridae, Tachinidae, Sarcophagidae) that visited flowers inside Faba beans field and at the margin of the crop capturing the pollinators with a net. Handling time invested in capturing pollinators was discounted. In total, the sampling effort was 90 minutes. Pollinators that were easily identifiable (e.g. honeybees and Bombus funebris, medium and big hoverflies) were recorded without capturing when possible.","Round number: 1. Height above sea level:2818 m."
"Carlos_Zaragoza_Trello_Vicia_faba_Ecuador_2017","BQ1","transects","honeybee","genus","honeybees",5,900,90,NA,"To explore pollinator biodiversity we selected 15 Faba bean fields that were at the same phenological stage and adjacent to a managed grassland (or a natural grassland area when it was not feasible). We conducted pollinator surveys along 25 days (from early July to middle August) by walking during 15 minutes along each of two 150 x 1 m standardized transects per site. One transect was located at the field edge while the central transect was located at 25 m inside the field from the edge. In 5 fields these transects were adapted to the middle of the field as the field did not reach 50 meters. Transect walks were conducted between 8:00 and 16:30, low wind speeds and temperatures above 15 degrees C. Due Andean high altitude weather characteristics, during shorts periods of rain (minutes) or low clouds we stopped the survey and resumed it when weather allowed. Sites were surveyed thrice in random order. We surveyed all honeybees, bumblebees, solitary bees, hoverflies and other Diptera (e.g: Calliphoridae, Tachinidae, Sarcophagidae) that visited flowers inside Faba beans field and at the margin of the crop capturing the pollinators with a net. Handling time invested in capturing pollinators was discounted. In total, the sampling effort was 90 minutes. Pollinators that were easily identifiable (e.g. honeybees and Bombus funebris, medium and big hoverflies) were recorded without capturing when possible.","Round number: 1. Height above sea level:2818 m."
"Carlos_Zaragoza_Trello_Vicia_faba_Ecuador_2017","BQ1","transects","honeybee","genus","honeybees",1,900,90,NA,"To explore pollinator biodiversity we selected 15 Faba bean fields that were at the same phenological stage and adjacent to a managed grassland (or a natural grassland area when it was not feasible). We conducted pollinator surveys along 25 days (from early July to middle August) by walking during 15 minutes along each of two 150 x 1 m standardized transects per site. One transect was located at the field edge while the central transect was located at 25 m inside the field from the edge. In 5 fields these transects were adapted to the middle of the field as the field did not reach 50 meters. Transect walks were conducted between 8:00 and 16:30, low wind speeds and temperatures above 15 degrees C. Due Andean high altitude weather characteristics, during shorts periods of rain (minutes) or low clouds we stopped the survey and resumed it when weather allowed. Sites were surveyed thrice in random order. We surveyed all honeybees, bumblebees, solitary bees, hoverflies and other Diptera (e.g: Calliphoridae, Tachinidae, Sarcophagidae) that visited flowers inside Faba beans field and at the margin of the crop capturing the pollinators with a net. Handling time invested in capturing pollinators was discounted. In total, the sampling effort was 90 minutes. Pollinators that were easily identifiable (e.g. honeybees and Bombus funebris, medium and big hoverflies) were recorded without capturing when possible.","Round number: 2. Height above sea level:2818 m."
"Carlos_Zaragoza_Trello_Vicia_faba_Ecuador_2017","BQ1","transects","honeybee","genus","honeybees",1,900,90,NA,"To explore pollinator biodiversity we selected 15 Faba bean fields that were at the same phenological stage and adjacent to a managed grassland (or a natural grassland area when it was not feasible). We conducted pollinator surveys along 25 days (from early July to middle August) by walking during 15 minutes along each of two 150 x 1 m standardized transects per site. One transect was located at the field edge while the central transect was located at 25 m inside the field from the edge. In 5 fields these transects were adapted to the middle of the field as the field did not reach 50 meters. Transect walks were conducted between 8:00 and 16:30, low wind speeds and temperatures above 15 degrees C. Due Andean high altitude weather characteristics, during shorts periods of rain (minutes) or low clouds we stopped the survey and resumed it when weather allowed. Sites were surveyed thrice in random order. We surveyed all honeybees, bumblebees, solitary bees, hoverflies and other Diptera (e.g: Calliphoridae, Tachinidae, Sarcophagidae) that visited flowers inside Faba beans field and at the margin of the crop capturing the pollinators with a net. Handling time invested in capturing pollinators was discounted. In total, the sampling effort was 90 minutes. Pollinators that were easily identifiable (e.g. honeybees and Bombus funebris, medium and big hoverflies) were recorded without capturing when possible.","Round number: NA. Height above sea level:2818 m."
"Carlos_Zaragoza_Trello_Vicia_faba_Ecuador_2017","BQ1","transects","honeybee","genus","honeybees",6,900,90,NA,"To explore pollinator biodiversity we selected 15 Faba bean fields that were at the same phenological stage and adjacent to a managed grassland (or a natural grassland area when it was not feasible). We conducted pollinator surveys along 25 days (from early July to middle August) by walking during 15 minutes along each of two 150 x 1 m standardized transects per site. One transect was located at the field edge while the central transect was located at 25 m inside the field from the edge. In 5 fields these transects were adapted to the middle of the field as the field did not reach 50 meters. Transect walks were conducted between 8:00 and 16:30, low wind speeds and temperatures above 15 degrees C. Due Andean high altitude weather characteristics, during shorts periods of rain (minutes) or low clouds we stopped the survey and resumed it when weather allowed. Sites were surveyed thrice in random order. We surveyed all honeybees, bumblebees, solitary bees, hoverflies and other Diptera (e.g: Calliphoridae, Tachinidae, Sarcophagidae) that visited flowers inside Faba beans field and at the margin of the crop capturing the pollinators with a net. Handling time invested in capturing pollinators was discounted. In total, the sampling effort was 90 minutes. Pollinators that were easily identifiable (e.g. honeybees and Bombus funebris, medium and big hoverflies) were recorded without capturing when possible.","Round number: NA. Height above sea level:2818 m."
"Carlos_Zaragoza_Trello_Vicia_faba_Ecuador_2017","BQ1","transects","honeybee","genus","honeybees",6,900,90,NA,"To explore pollinator biodiversity we selected 15 Faba bean fields that were at the same phenological stage and adjacent to a managed grassland (or a natural grassland area when it was not feasible). We conducted pollinator surveys along 25 days (from early July to middle August) by walking during 15 minutes along each of two 150 x 1 m standardized transects per site. One transect was located at the field edge while the central transect was located at 25 m inside the field from the edge. In 5 fields these transects were adapted to the middle of the field as the field did not reach 50 meters. Transect walks were conducted between 8:00 and 16:30, low wind speeds and temperatures above 15 degrees C. Due Andean high altitude weather characteristics, during shorts periods of rain (minutes) or low clouds we stopped the survey and resumed it when weather allowed. Sites were surveyed thrice in random order. We surveyed all honeybees, bumblebees, solitary bees, hoverflies and other Diptera (e.g: Calliphoridae, Tachinidae, Sarcophagidae) that visited flowers inside Faba beans field and at the margin of the crop capturing the pollinators with a net. Handling time invested in capturing pollinators was discounted. In total, the sampling effort was 90 minutes. Pollinators that were easily identifiable (e.g. honeybees and Bombus funebris, medium and big hoverflies) were recorded without capturing when possible.","Round number: 3. Height above sea level:2818 m."
"Carlos_Zaragoza_Trello_Vicia_faba_Ecuador_2017","BQ1","transects","honeybee","genus","honeybees",2,900,90,NA,"To explore pollinator biodiversity we selected 15 Faba bean fields that were at the same phenological stage and adjacent to a managed grassland (or a natural grassland area when it was not feasible). We conducted pollinator surveys along 25 days (from early July to middle August) by walking during 15 minutes along each of two 150 x 1 m standardized transects per site. One transect was located at the field edge while the central transect was located at 25 m inside the field from the edge. In 5 fields these transects were adapted to the middle of the field as the field did not reach 50 meters. Transect walks were conducted between 8:00 and 16:30, low wind speeds and temperatures above 15 degrees C. Due Andean high altitude weather characteristics, during shorts periods of rain (minutes) or low clouds we stopped the survey and resumed it when weather allowed. Sites were surveyed thrice in random order. We surveyed all honeybees, bumblebees, solitary bees, hoverflies and other Diptera (e.g: Calliphoridae, Tachinidae, Sarcophagidae) that visited flowers inside Faba beans field and at the margin of the crop capturing the pollinators with a net. Handling time invested in capturing pollinators was discounted. In total, the sampling effort was 90 minutes. Pollinators that were easily identifiable (e.g. honeybees and Bombus funebris, medium and big hoverflies) were recorded without capturing when possible.","Round number: 3. Height above sea level:2818 m."
"Carlos_Zaragoza_Trello_Vicia_faba_Ecuador_2017","BQ2","transects","honeybee","genus","honeybees",1,900,90,NA,"To explore pollinator biodiversity we selected 15 Faba bean fields that were at the same phenological stage and adjacent to a managed grassland (or a natural grassland area when it was not feasible). We conducted pollinator surveys along 25 days (from early July to middle August) by walking during 15 minutes along each of two 150 x 1 m standardized transects per site. One transect was located at the field edge while the central transect was located at 25 m inside the field from the edge. In 5 fields these transects were adapted to the middle of the field as the field did not reach 50 meters. Transect walks were conducted between 8:00 and 16:30, low wind speeds and temperatures above 15 degrees C. Due Andean high altitude weather characteristics, during shorts periods of rain (minutes) or low clouds we stopped the survey and resumed it when weather allowed. Sites were surveyed thrice in random order. We surveyed all honeybees, bumblebees, solitary bees, hoverflies and other Diptera (e.g: Calliphoridae, Tachinidae, Sarcophagidae) that visited flowers inside Faba beans field and at the margin of the crop capturing the pollinators with a net. Handling time invested in capturing pollinators was discounted. In total, the sampling effort was 90 minutes. Pollinators that were easily identifiable (e.g. honeybees and Bombus funebris, medium and big hoverflies) were recorded without capturing when possible.","Round number: 2. Height above sea level:3041 m."
"Carlos_Zaragoza_Trello_Vicia_faba_Ecuador_2017","CUMBI1","transects","honeybee","genus","honeybees",9,900,90,NA,"To explore pollinator biodiversity we selected 15 Faba bean fields that were at the same phenological stage and adjacent to a managed grassland (or a natural grassland area when it was not feasible). We conducted pollinator surveys along 25 days (from early July to middle August) by walking during 15 minutes along each of two 150 x 1 m standardized transects per site. One transect was located at the field edge while the central transect was located at 25 m inside the field from the edge. In 5 fields these transects were adapted to the middle of the field as the field did not reach 50 meters. Transect walks were conducted between 8:00 and 16:30, low wind speeds and temperatures above 15 degrees C. Due Andean high altitude weather characteristics, during shorts periods of rain (minutes) or low clouds we stopped the survey and resumed it when weather allowed. Sites were surveyed thrice in random order. We surveyed all honeybees, bumblebees, solitary bees, hoverflies and other Diptera (e.g: Calliphoridae, Tachinidae, Sarcophagidae) that visited flowers inside Faba beans field and at the margin of the crop capturing the pollinators with a net. Handling time invested in capturing pollinators was discounted. In total, the sampling effort was 90 minutes. Pollinators that were easily identifiable (e.g. honeybees and Bombus funebris, medium and big hoverflies) were recorded without capturing when possible.","Round number: 1. Height above sea level:2759 m."
"Carlos_Zaragoza_Trello_Vicia_faba_Ecuador_2017","CUMBI1","transects","honeybee","genus","honeybees",1,900,90,NA,"To explore pollinator biodiversity we selected 15 Faba bean fields that were at the same phenological stage and adjacent to a managed grassland (or a natural grassland area when it was not feasible). We conducted pollinator surveys along 25 days (from early July to middle August) by walking during 15 minutes along each of two 150 x 1 m standardized transects per site. One transect was located at the field edge while the central transect was located at 25 m inside the field from the edge. In 5 fields these transects were adapted to the middle of the field as the field did not reach 50 meters. Transect walks were conducted between 8:00 and 16:30, low wind speeds and temperatures above 15 degrees C. Due Andean high altitude weather characteristics, during shorts periods of rain (minutes) or low clouds we stopped the survey and resumed it when weather allowed. Sites were surveyed thrice in random order. We surveyed all honeybees, bumblebees, solitary bees, hoverflies and other Diptera (e.g: Calliphoridae, Tachinidae, Sarcophagidae) that visited flowers inside Faba beans field and at the margin of the crop capturing the pollinators with a net. Handling time invested in capturing pollinators was discounted. In total, the sampling effort was 90 minutes. Pollinators that were easily identifiable (e.g. honeybees and Bombus funebris, medium and big hoverflies) were recorded without capturing when possible.","Round number: 1. Height above sea level:2759 m."
"Carlos_Zaragoza_Trello_Vicia_faba_Ecuador_2017","CUMBI2","transects","honeybee","genus","honeybees",4,900,90,NA,"To explore pollinator biodiversity we selected 15 Faba bean fields that were at the same phenological stage and adjacent to a managed grassland (or a natural grassland area when it was not feasible). We conducted pollinator surveys along 25 days (from early July to middle August) by walking during 15 minutes along each of two 150 x 1 m standardized transects per site. One transect was located at the field edge while the central transect was located at 25 m inside the field from the edge. In 5 fields these transects were adapted to the middle of the field as the field did not reach 50 meters. Transect walks were conducted between 8:00 and 16:30, low wind speeds and temperatures above 15 degrees C. Due Andean high altitude weather characteristics, during shorts periods of rain (minutes) or low clouds we stopped the survey and resumed it when weather allowed. Sites were surveyed thrice in random order. We surveyed all honeybees, bumblebees, solitary bees, hoverflies and other Diptera (e.g: Calliphoridae, Tachinidae, Sarcophagidae) that visited flowers inside Faba beans field and at the margin of the crop capturing the pollinators with a net. Handling time invested in capturing pollinators was discounted. In total, the sampling effort was 90 minutes. Pollinators that were easily identifiable (e.g. honeybees and Bombus funebris, medium and big hoverflies) were recorded without capturing when possible.","Round number: 3. Height above sea level:2943 m."
"Carlos_Zaragoza_Trello_Vicia_faba_Ecuador_2017","CUMBI2","transects","honeybee","genus","honeybees",9,900,90,NA,"To explore pollinator biodiversity we selected 15 Faba bean fields that were at the same phenological stage and adjacent to a managed grassland (or a natural grassland area when it was not feasible). We conducted pollinator surveys along 25 days (from early July to middle August) by walking during 15 minutes along each of two 150 x 1 m standardized transects per site. One transect was located at the field edge while the central transect was located at 25 m inside the field from the edge. In 5 fields these transects were adapted to the middle of the field as the field did not reach 50 meters. Transect walks were conducted between 8:00 and 16:30, low wind speeds and temperatures above 15 degrees C. Due Andean high altitude weather characteristics, during shorts periods of rain (minutes) or low clouds we stopped the survey and resumed it when weather allowed. Sites were surveyed thrice in random order. We surveyed all honeybees, bumblebees, solitary bees, hoverflies and other Diptera (e.g: Calliphoridae, Tachinidae, Sarcophagidae) that visited flowers inside Faba beans field and at the margin of the crop capturing the pollinators with a net. Handling time invested in capturing pollinators was discounted. In total, the sampling effort was 90 minutes. Pollinators that were easily identifiable (e.g. honeybees and Bombus funebris, medium and big hoverflies) were recorded without capturing when possible.","Round number: NA. Height above sea level:2943 m."
"Carlos_Zaragoza_Trello_Vicia_faba_Ecuador_2017","CUMBI2","transects","honeybee","genus","honeybees",9,900,90,NA,"To explore pollinator biodiversity we selected 15 Faba bean fields that were at the same phenological stage and adjacent to a managed grassland (or a natural grassland area when it was not feasible). We conducted pollinator surveys along 25 days (from early July to middle August) by walking during 15 minutes along each of two 150 x 1 m standardized transects per site. One transect was located at the field edge while the central transect was located at 25 m inside the field from the edge. In 5 fields these transects were adapted to the middle of the field as the field did not reach 50 meters. Transect walks were conducted between 8:00 and 16:30, low wind speeds and temperatures above 15 degrees C. Due Andean high altitude weather characteristics, during shorts periods of rain (minutes) or low clouds we stopped the survey and resumed it when weather allowed. Sites were surveyed thrice in random order. We surveyed all honeybees, bumblebees, solitary bees, hoverflies and other Diptera (e.g: Calliphoridae, Tachinidae, Sarcophagidae) that visited flowers inside Faba beans field and at the margin of the crop capturing the pollinators with a net. Handling time invested in capturing pollinators was discounted. In total, the sampling effort was 90 minutes. Pollinators that were easily identifiable (e.g. honeybees and Bombus funebris, medium and big hoverflies) were recorded without capturing when possible.","Round number: NA. Height above sea level:2943 m."
"Carlos_Zaragoza_Trello_Vicia_faba_Ecuador_2017","CUMBI2","transects","honeybee","genus","honeybees",4,900,90,NA,"To explore pollinator biodiversity we selected 15 Faba bean fields that were at the same phenological stage and adjacent to a managed grassland (or a natural grassland area when it was not feasible). We conducted pollinator surveys along 25 days (from early July to middle August) by walking during 15 minutes along each of two 150 x 1 m standardized transects per site. One transect was located at the field edge while the central transect was located at 25 m inside the field from the edge. In 5 fields these transects were adapted to the middle of the field as the field did not reach 50 meters. Transect walks were conducted between 8:00 and 16:30, low wind speeds and temperatures above 15 degrees C. Due Andean high altitude weather characteristics, during shorts periods of rain (minutes) or low clouds we stopped the survey and resumed it when weather allowed. Sites were surveyed thrice in random order. We surveyed all honeybees, bumblebees, solitary bees, hoverflies and other Diptera (e.g: Calliphoridae, Tachinidae, Sarcophagidae) that visited flowers inside Faba beans field and at the margin of the crop capturing the pollinators with a net. Handling time invested in capturing pollinators was discounted. In total, the sampling effort was 90 minutes. Pollinators that were easily identifiable (e.g. honeybees and Bombus funebris, medium and big hoverflies) were recorded without capturing when possible.","Round number: 3. Height above sea level:2943 m."
"Carlos_Zaragoza_Trello_Vicia_faba_Ecuador_2017","CUMBI2","transects","honeybee","genus","honeybees",2,900,90,NA,"To explore pollinator biodiversity we selected 15 Faba bean fields that were at the same phenological stage and adjacent to a managed grassland (or a natural grassland area when it was not feasible). We conducted pollinator surveys along 25 days (from early July to middle August) by walking during 15 minutes along each of two 150 x 1 m standardized transects per site. One transect was located at the field edge while the central transect was located at 25 m inside the field from the edge. In 5 fields these transects were adapted to the middle of the field as the field did not reach 50 meters. Transect walks were conducted between 8:00 and 16:30, low wind speeds and temperatures above 15 degrees C. Due Andean high altitude weather characteristics, during shorts periods of rain (minutes) or low clouds we stopped the survey and resumed it when weather allowed. Sites were surveyed thrice in random order. We surveyed all honeybees, bumblebees, solitary bees, hoverflies and other Diptera (e.g: Calliphoridae, Tachinidae, Sarcophagidae) that visited flowers inside Faba beans field and at the margin of the crop capturing the pollinators with a net. Handling time invested in capturing pollinators was discounted. In total, the sampling effort was 90 minutes. Pollinators that were easily identifiable (e.g. honeybees and Bombus funebris, medium and big hoverflies) were recorded without capturing when possible.","Round number: 2. Height above sea level:2943 m."
"Carlos_Zaragoza_Trello_Vicia_faba_Ecuador_2017","CUMBI2","transects","honeybee","genus","honeybees",2,900,90,NA,"To explore pollinator biodiversity we selected 15 Faba bean fields that were at the same phenological stage and adjacent to a managed grassland (or a natural grassland area when it was not feasible). We conducted pollinator surveys along 25 days (from early July to middle August) by walking during 15 minutes along each of two 150 x 1 m standardized transects per site. One transect was located at the field edge while the central transect was located at 25 m inside the field from the edge. In 5 fields these transects were adapted to the middle of the field as the field did not reach 50 meters. Transect walks were conducted between 8:00 and 16:30, low wind speeds and temperatures above 15 degrees C. Due Andean high altitude weather characteristics, during shorts periods of rain (minutes) or low clouds we stopped the survey and resumed it when weather allowed. Sites were surveyed thrice in random order. We surveyed all honeybees, bumblebees, solitary bees, hoverflies and other Diptera (e.g: Calliphoridae, Tachinidae, Sarcophagidae) that visited flowers inside Faba beans field and at the margin of the crop capturing the pollinators with a net. Handling time invested in capturing pollinators was discounted. In total, the sampling effort was 90 minutes. Pollinators that were easily identifiable (e.g. honeybees and Bombus funebris, medium and big hoverflies) were recorded without capturing when possible.","Round number: 2. Height above sea level:2943 m."
"Carlos_Zaragoza_Trello_Vicia_faba_Ecuador_2017","CUMBI2","transects","honeybee","genus","honeybees",1,900,90,NA,"To explore pollinator biodiversity we selected 15 Faba bean fields that were at the same phenological stage and adjacent to a managed grassland (or a natural grassland area when it was not feasible). We conducted pollinator surveys along 25 days (from early July to middle August) by walking during 15 minutes along each of two 150 x 1 m standardized transects per site. One transect was located at the field edge while the central transect was located at 25 m inside the field from the edge. In 5 fields these transects were adapted to the middle of the field as the field did not reach 50 meters. Transect walks were conducted between 8:00 and 16:30, low wind speeds and temperatures above 15 degrees C. Due Andean high altitude weather characteristics, during shorts periods of rain (minutes) or low clouds we stopped the survey and resumed it when weather allowed. Sites were surveyed thrice in random order. We surveyed all honeybees, bumblebees, solitary bees, hoverflies and other Diptera (e.g: Calliphoridae, Tachinidae, Sarcophagidae) that visited flowers inside Faba beans field and at the margin of the crop capturing the pollinators with a net. Handling time invested in capturing pollinators was discounted. In total, the sampling effort was 90 minutes. Pollinators that were easily identifiable (e.g. honeybees and Bombus funebris, medium and big hoverflies) were recorded without capturing when possible.","Round number: 2. Height above sea level:2943 m."
"Carlos_Zaragoza_Trello_Vicia_faba_Ecuador_2017","CUMBI2","transects","honeybee","genus","honeybees",3,900,90,NA,"To explore pollinator biodiversity we selected 15 Faba bean fields that were at the same phenological stage and adjacent to a managed grassland (or a natural grassland area when it was not feasible). We conducted pollinator surveys along 25 days (from early July to middle August) by walking during 15 minutes along each of two 150 x 1 m standardized transects per site. One transect was located at the field edge while the central transect was located at 25 m inside the field from the edge. In 5 fields these transects were adapted to the middle of the field as the field did not reach 50 meters. Transect walks were conducted between 8:00 and 16:30, low wind speeds and temperatures above 15 degrees C. Due Andean high altitude weather characteristics, during shorts periods of rain (minutes) or low clouds we stopped the survey and resumed it when weather allowed. Sites were surveyed thrice in random order. We surveyed all honeybees, bumblebees, solitary bees, hoverflies and other Diptera (e.g: Calliphoridae, Tachinidae, Sarcophagidae) that visited flowers inside Faba beans field and at the margin of the crop capturing the pollinators with a net. Handling time invested in capturing pollinators was discounted. In total, the sampling effort was 90 minutes. Pollinators that were easily identifiable (e.g. honeybees and Bombus funebris, medium and big hoverflies) were recorded without capturing when possible.","Round number: 2. Height above sea level:2943 m."
"Carlos_Zaragoza_Trello_Vicia_faba_Ecuador_2017","CUMBI3","transects","honeybee","genus","honeybees",5,900,90,NA,"To explore pollinator biodiversity we selected 15 Faba bean fields that were at the same phenological stage and adjacent to a managed grassland (or a natural grassland area when it was not feasible). We conducted pollinator surveys along 25 days (from early July to middle August) by walking during 15 minutes along each of two 150 x 1 m standardized transects per site. One transect was located at the field edge while the central transect was located at 25 m inside the field from the edge. In 5 fields these transects were adapted to the middle of the field as the field did not reach 50 meters. Transect walks were conducted between 8:00 and 16:30, low wind speeds and temperatures above 15 degrees C. Due Andean high altitude weather characteristics, during shorts periods of rain (minutes) or low clouds we stopped the survey and resumed it when weather allowed. Sites were surveyed thrice in random order. We surveyed all honeybees, bumblebees, solitary bees, hoverflies and other Diptera (e.g: Calliphoridae, Tachinidae, Sarcophagidae) that visited flowers inside Faba beans field and at the margin of the crop capturing the pollinators with a net. Handling time invested in capturing pollinators was discounted. In total, the sampling effort was 90 minutes. Pollinators that were easily identifiable (e.g. honeybees and Bombus funebris, medium and big hoverflies) were recorded without capturing when possible.","Round number: 1. Height above sea level:3064 m."
"Carlos_Zaragoza_Trello_Vicia_faba_Ecuador_2017","CUMBI3","transects","honeybee","genus","honeybees",1,900,90,NA,"To explore pollinator biodiversity we selected 15 Faba bean fields that were at the same phenological stage and adjacent to a managed grassland (or a natural grassland area when it was not feasible). We conducted pollinator surveys along 25 days (from early July to middle August) by walking during 15 minutes along each of two 150 x 1 m standardized transects per site. One transect was located at the field edge while the central transect was located at 25 m inside the field from the edge. In 5 fields these transects were adapted to the middle of the field as the field did not reach 50 meters. Transect walks were conducted between 8:00 and 16:30, low wind speeds and temperatures above 15 degrees C. Due Andean high altitude weather characteristics, during shorts periods of rain (minutes) or low clouds we stopped the survey and resumed it when weather allowed. Sites were surveyed thrice in random order. We surveyed all honeybees, bumblebees, solitary bees, hoverflies and other Diptera (e.g: Calliphoridae, Tachinidae, Sarcophagidae) that visited flowers inside Faba beans field and at the margin of the crop capturing the pollinators with a net. Handling time invested in capturing pollinators was discounted. In total, the sampling effort was 90 minutes. Pollinators that were easily identifiable (e.g. honeybees and Bombus funebris, medium and big hoverflies) were recorded without capturing when possible.","Round number: 1. Height above sea level:3064 m."
"Carlos_Zaragoza_Trello_Vicia_faba_Ecuador_2017","CUMBI3","transects","honeybee","genus","honeybees",1,900,90,NA,"To explore pollinator biodiversity we selected 15 Faba bean fields that were at the same phenological stage and adjacent to a managed grassland (or a natural grassland area when it was not feasible). We conducted pollinator surveys along 25 days (from early July to middle August) by walking during 15 minutes along each of two 150 x 1 m standardized transects per site. One transect was located at the field edge while the central transect was located at 25 m inside the field from the edge. In 5 fields these transects were adapted to the middle of the field as the field did not reach 50 meters. Transect walks were conducted between 8:00 and 16:30, low wind speeds and temperatures above 15 degrees C. Due Andean high altitude weather characteristics, during shorts periods of rain (minutes) or low clouds we stopped the survey and resumed it when weather allowed. Sites were surveyed thrice in random order. We surveyed all honeybees, bumblebees, solitary bees, hoverflies and other Diptera (e.g: Calliphoridae, Tachinidae, Sarcophagidae) that visited flowers inside Faba beans field and at the margin of the crop capturing the pollinators with a net. Handling time invested in capturing pollinators was discounted. In total, the sampling effort was 90 minutes. Pollinators that were easily identifiable (e.g. honeybees and Bombus funebris, medium and big hoverflies) were recorded without capturing when possible.","Round number: 1. Height above sea level:3064 m."
"Carlos_Zaragoza_Trello_Vicia_faba_Ecuador_2017","CUMBI4","transects","honeybee","genus","honeybees",14,900,90,NA,"To explore pollinator biodiversity we selected 15 Faba bean fields that were at the same phenological stage and adjacent to a managed grassland (or a natural grassland area when it was not feasible). We conducted pollinator surveys along 25 days (from early July to middle August) by walking during 15 minutes along each of two 150 x 1 m standardized transects per site. One transect was located at the field edge while the central transect was located at 25 m inside the field from the edge. In 5 fields these transects were adapted to the middle of the field as the field did not reach 50 meters. Transect walks were conducted between 8:00 and 16:30, low wind speeds and temperatures above 15 degrees C. Due Andean high altitude weather characteristics, during shorts periods of rain (minutes) or low clouds we stopped the survey and resumed it when weather allowed. Sites were surveyed thrice in random order. We surveyed all honeybees, bumblebees, solitary bees, hoverflies and other Diptera (e.g: Calliphoridae, Tachinidae, Sarcophagidae) that visited flowers inside Faba beans field and at the margin of the crop capturing the pollinators with a net. Handling time invested in capturing pollinators was discounted. In total, the sampling effort was 90 minutes. Pollinators that were easily identifiable (e.g. honeybees and Bombus funebris, medium and big hoverflies) were recorded without capturing when possible.","Round number: 3. Height above sea level:3152 m."
"Carlos_Zaragoza_Trello_Vicia_faba_Ecuador_2017","CUMBI4","transects","honeybee","genus","honeybees",5,900,90,NA,"To explore pollinator biodiversity we selected 15 Faba bean fields that were at the same phenological stage and adjacent to a managed grassland (or a natural grassland area when it was not feasible). We conducted pollinator surveys along 25 days (from early July to middle August) by walking during 15 minutes along each of two 150 x 1 m standardized transects per site. One transect was located at the field edge while the central transect was located at 25 m inside the field from the edge. In 5 fields these transects were adapted to the middle of the field as the field did not reach 50 meters. Transect walks were conducted between 8:00 and 16:30, low wind speeds and temperatures above 15 degrees C. Due Andean high altitude weather characteristics, during shorts periods of rain (minutes) or low clouds we stopped the survey and resumed it when weather allowed. Sites were surveyed thrice in random order. We surveyed all honeybees, bumblebees, solitary bees, hoverflies and other Diptera (e.g: Calliphoridae, Tachinidae, Sarcophagidae) that visited flowers inside Faba beans field and at the margin of the crop capturing the pollinators with a net. Handling time invested in capturing pollinators was discounted. In total, the sampling effort was 90 minutes. Pollinators that were easily identifiable (e.g. honeybees and Bombus funebris, medium and big hoverflies) were recorded without capturing when possible.","Round number: 3. Height above sea level:3152 m."
"Carlos_Zaragoza_Trello_Vicia_faba_Ecuador_2017","CUMBI4","transects","honeybee","genus","honeybees",3,900,90,NA,"To explore pollinator biodiversity we selected 15 Faba bean fields that were at the same phenological stage and adjacent to a managed grassland (or a natural grassland area when it was not feasible). We conducted pollinator surveys along 25 days (from early July to middle August) by walking during 15 minutes along each of two 150 x 1 m standardized transects per site. One transect was located at the field edge while the central transect was located at 25 m inside the field from the edge. In 5 fields these transects were adapted to the middle of the field as the field did not reach 50 meters. Transect walks were conducted between 8:00 and 16:30, low wind speeds and temperatures above 15 degrees C. Due Andean high altitude weather characteristics, during shorts periods of rain (minutes) or low clouds we stopped the survey and resumed it when weather allowed. Sites were surveyed thrice in random order. We surveyed all honeybees, bumblebees, solitary bees, hoverflies and other Diptera (e.g: Calliphoridae, Tachinidae, Sarcophagidae) that visited flowers inside Faba beans field and at the margin of the crop capturing the pollinators with a net. Handling time invested in capturing pollinators was discounted. In total, the sampling effort was 90 minutes. Pollinators that were easily identifiable (e.g. honeybees and Bombus funebris, medium and big hoverflies) were recorded without capturing when possible.","Round number: 1. Height above sea level:3152 m."
"Carlos_Zaragoza_Trello_Vicia_faba_Ecuador_2017","CUMBI4","transects","honeybee","genus","honeybees",15,900,90,NA,"To explore pollinator biodiversity we selected 15 Faba bean fields that were at the same phenological stage and adjacent to a managed grassland (or a natural grassland area when it was not feasible). We conducted pollinator surveys along 25 days (from early July to middle August) by walking during 15 minutes along each of two 150 x 1 m standardized transects per site. One transect was located at the field edge while the central transect was located at 25 m inside the field from the edge. In 5 fields these transects were adapted to the middle of the field as the field did not reach 50 meters. Transect walks were conducted between 8:00 and 16:30, low wind speeds and temperatures above 15 degrees C. Due Andean high altitude weather characteristics, during shorts periods of rain (minutes) or low clouds we stopped the survey and resumed it when weather allowed. Sites were surveyed thrice in random order. We surveyed all honeybees, bumblebees, solitary bees, hoverflies and other Diptera (e.g: Calliphoridae, Tachinidae, Sarcophagidae) that visited flowers inside Faba beans field and at the margin of the crop capturing the pollinators with a net. Handling time invested in capturing pollinators was discounted. In total, the sampling effort was 90 minutes. Pollinators that were easily identifiable (e.g. honeybees and Bombus funebris, medium and big hoverflies) were recorded without capturing when possible.","Round number: 1. Height above sea level:3152 m."
"Carlos_Zaragoza_Trello_Vicia_faba_Ecuador_2017","CUMBI4","transects","honeybee","genus","honeybees",8,900,90,NA,"To explore pollinator biodiversity we selected 15 Faba bean fields that were at the same phenological stage and adjacent to a managed grassland (or a natural grassland area when it was not feasible). We conducted pollinator surveys along 25 days (from early July to middle August) by walking during 15 minutes along each of two 150 x 1 m standardized transects per site. One transect was located at the field edge while the central transect was located at 25 m inside the field from the edge. In 5 fields these transects were adapted to the middle of the field as the field did not reach 50 meters. Transect walks were conducted between 8:00 and 16:30, low wind speeds and temperatures above 15 degrees C. Due Andean high altitude weather characteristics, during shorts periods of rain (minutes) or low clouds we stopped the survey and resumed it when weather allowed. Sites were surveyed thrice in random order. We surveyed all honeybees, bumblebees, solitary bees, hoverflies and other Diptera (e.g: Calliphoridae, Tachinidae, Sarcophagidae) that visited flowers inside Faba beans field and at the margin of the crop capturing the pollinators with a net. Handling time invested in capturing pollinators was discounted. In total, the sampling effort was 90 minutes. Pollinators that were easily identifiable (e.g. honeybees and Bombus funebris, medium and big hoverflies) were recorded without capturing when possible.","Round number: 2. Height above sea level:3152 m."
"Carlos_Zaragoza_Trello_Vicia_faba_Ecuador_2017","CUMBI4","transects","honeybee","genus","honeybees",9,900,90,NA,"To explore pollinator biodiversity we selected 15 Faba bean fields that were at the same phenological stage and adjacent to a managed grassland (or a natural grassland area when it was not feasible). We conducted pollinator surveys along 25 days (from early July to middle August) by walking during 15 minutes along each of two 150 x 1 m standardized transects per site. One transect was located at the field edge while the central transect was located at 25 m inside the field from the edge. In 5 fields these transects were adapted to the middle of the field as the field did not reach 50 meters. Transect walks were conducted between 8:00 and 16:30, low wind speeds and temperatures above 15 degrees C. Due Andean high altitude weather characteristics, during shorts periods of rain (minutes) or low clouds we stopped the survey and resumed it when weather allowed. Sites were surveyed thrice in random order. We surveyed all honeybees, bumblebees, solitary bees, hoverflies and other Diptera (e.g: Calliphoridae, Tachinidae, Sarcophagidae) that visited flowers inside Faba beans field and at the margin of the crop capturing the pollinators with a net. Handling time invested in capturing pollinators was discounted. In total, the sampling effort was 90 minutes. Pollinators that were easily identifiable (e.g. honeybees and Bombus funebris, medium and big hoverflies) were recorded without capturing when possible.","Round number: 2. Height above sea level:3152 m."
"Carlos_Zaragoza_Trello_Vicia_faba_Ecuador_2017","CUMBI4","transects","honeybee","genus","honeybees",14,900,90,NA,"To explore pollinator biodiversity we selected 15 Faba bean fields that were at the same phenological stage and adjacent to a managed grassland (or a natural grassland area when it was not feasible). We conducted pollinator surveys along 25 days (from early July to middle August) by walking during 15 minutes along each of two 150 x 1 m standardized transects per site. One transect was located at the field edge while the central transect was located at 25 m inside the field from the edge. In 5 fields these transects were adapted to the middle of the field as the field did not reach 50 meters. Transect walks were conducted between 8:00 and 16:30, low wind speeds and temperatures above 15 degrees C. Due Andean high altitude weather characteristics, during shorts periods of rain (minutes) or low clouds we stopped the survey and resumed it when weather allowed. Sites were surveyed thrice in random order. We surveyed all honeybees, bumblebees, solitary bees, hoverflies and other Diptera (e.g: Calliphoridae, Tachinidae, Sarcophagidae) that visited flowers inside Faba beans field and at the margin of the crop capturing the pollinators with a net. Handling time invested in capturing pollinators was discounted. In total, the sampling effort was 90 minutes. Pollinators that were easily identifiable (e.g. honeybees and Bombus funebris, medium and big hoverflies) were recorded without capturing when possible.","Round number: 3. Height above sea level:3152 m."
"Carlos_Zaragoza_Trello_Vicia_faba_Ecuador_2017","CUMBI4","transects","honeybee","genus","honeybees",5,900,90,NA,"To explore pollinator biodiversity we selected 15 Faba bean fields that were at the same phenological stage and adjacent to a managed grassland (or a natural grassland area when it was not feasible). We conducted pollinator surveys along 25 days (from early July to middle August) by walking during 15 minutes along each of two 150 x 1 m standardized transects per site. One transect was located at the field edge while the central transect was located at 25 m inside the field from the edge. In 5 fields these transects were adapted to the middle of the field as the field did not reach 50 meters. Transect walks were conducted between 8:00 and 16:30, low wind speeds and temperatures above 15 degrees C. Due Andean high altitude weather characteristics, during shorts periods of rain (minutes) or low clouds we stopped the survey and resumed it when weather allowed. Sites were surveyed thrice in random order. We surveyed all honeybees, bumblebees, solitary bees, hoverflies and other Diptera (e.g: Calliphoridae, Tachinidae, Sarcophagidae) that visited flowers inside Faba beans field and at the margin of the crop capturing the pollinators with a net. Handling time invested in capturing pollinators was discounted. In total, the sampling effort was 90 minutes. Pollinators that were easily identifiable (e.g. honeybees and Bombus funebris, medium and big hoverflies) were recorded without capturing when possible.","Round number: 3. Height above sea level:3152 m."
"Carlos_Zaragoza_Trello_Vicia_faba_Ecuador_2017","CUMBI5","transects","honeybee","genus","honeybees",1,900,90,NA,"To explore pollinator biodiversity we selected 15 Faba bean fields that were at the same phenological stage and adjacent to a managed grassland (or a natural grassland area when it was not feasible). We conducted pollinator surveys along 25 days (from early July to middle August) by walking during 15 minutes along each of two 150 x 1 m standardized transects per site. One transect was located at the field edge while the central transect was located at 25 m inside the field from the edge. In 5 fields these transects were adapted to the middle of the field as the field did not reach 50 meters. Transect walks were conducted between 8:00 and 16:30, low wind speeds and temperatures above 15 degrees C. Due Andean high altitude weather characteristics, during shorts periods of rain (minutes) or low clouds we stopped the survey and resumed it when weather allowed. Sites were surveyed thrice in random order. We surveyed all honeybees, bumblebees, solitary bees, hoverflies and other Diptera (e.g: Calliphoridae, Tachinidae, Sarcophagidae) that visited flowers inside Faba beans field and at the margin of the crop capturing the pollinators with a net. Handling time invested in capturing pollinators was discounted. In total, the sampling effort was 90 minutes. Pollinators that were easily identifiable (e.g. honeybees and Bombus funebris, medium and big hoverflies) were recorded without capturing when possible.","Round number: 1. Height above sea level:3189 m."
"Carlos_Zaragoza_Trello_Vicia_faba_Ecuador_2017","CUMBI5","transects","honeybee","genus","honeybees",1,900,90,NA,"To explore pollinator biodiversity we selected 15 Faba bean fields that were at the same phenological stage and adjacent to a managed grassland (or a natural grassland area when it was not feasible). We conducted pollinator surveys along 25 days (from early July to middle August) by walking during 15 minutes along each of two 150 x 1 m standardized transects per site. One transect was located at the field edge while the central transect was located at 25 m inside the field from the edge. In 5 fields these transects were adapted to the middle of the field as the field did not reach 50 meters. Transect walks were conducted between 8:00 and 16:30, low wind speeds and temperatures above 15 degrees C. Due Andean high altitude weather characteristics, during shorts periods of rain (minutes) or low clouds we stopped the survey and resumed it when weather allowed. Sites were surveyed thrice in random order. We surveyed all honeybees, bumblebees, solitary bees, hoverflies and other Diptera (e.g: Calliphoridae, Tachinidae, Sarcophagidae) that visited flowers inside Faba beans field and at the margin of the crop capturing the pollinators with a net. Handling time invested in capturing pollinators was discounted. In total, the sampling effort was 90 minutes. Pollinators that were easily identifiable (e.g. honeybees and Bombus funebris, medium and big hoverflies) were recorded without capturing when possible.","Round number: 1. Height above sea level:3189 m."
"Carlos_Zaragoza_Trello_Vicia_faba_Ecuador_2017","CUMBI5","transects","honeybee","genus","honeybees",1,900,90,NA,"To explore pollinator biodiversity we selected 15 Faba bean fields that were at the same phenological stage and adjacent to a managed grassland (or a natural grassland area when it was not feasible). We conducted pollinator surveys along 25 days (from early July to middle August) by walking during 15 minutes along each of two 150 x 1 m standardized transects per site. One transect was located at the field edge while the central transect was located at 25 m inside the field from the edge. In 5 fields these transects were adapted to the middle of the field as the field did not reach 50 meters. Transect walks were conducted between 8:00 and 16:30, low wind speeds and temperatures above 15 degrees C. Due Andean high altitude weather characteristics, during shorts periods of rain (minutes) or low clouds we stopped the survey and resumed it when weather allowed. Sites were surveyed thrice in random order. We surveyed all honeybees, bumblebees, solitary bees, hoverflies and other Diptera (e.g: Calliphoridae, Tachinidae, Sarcophagidae) that visited flowers inside Faba beans field and at the margin of the crop capturing the pollinators with a net. Handling time invested in capturing pollinators was discounted. In total, the sampling effort was 90 minutes. Pollinators that were easily identifiable (e.g. honeybees and Bombus funebris, medium and big hoverflies) were recorded without capturing when possible.","Round number: 1. Height above sea level:3189 m."
"Carlos_Zaragoza_Trello_Vicia_faba_Ecuador_2017","CUMBI5","transects","honeybee","genus","honeybees",1,900,90,NA,"To explore pollinator biodiversity we selected 15 Faba bean fields that were at the same phenological stage and adjacent to a managed grassland (or a natural grassland area when it was not feasible). We conducted pollinator surveys along 25 days (from early July to middle August) by walking during 15 minutes along each of two 150 x 1 m standardized transects per site. One transect was located at the field edge while the central transect was located at 25 m inside the field from the edge. In 5 fields these transects were adapted to the middle of the field as the field did not reach 50 meters. Transect walks were conducted between 8:00 and 16:30, low wind speeds and temperatures above 15 degrees C. Due Andean high altitude weather characteristics, during shorts periods of rain (minutes) or low clouds we stopped the survey and resumed it when weather allowed. Sites were surveyed thrice in random order. We surveyed all honeybees, bumblebees, solitary bees, hoverflies and other Diptera (e.g: Calliphoridae, Tachinidae, Sarcophagidae) that visited flowers inside Faba beans field and at the margin of the crop capturing the pollinators with a net. Handling time invested in capturing pollinators was discounted. In total, the sampling effort was 90 minutes. Pollinators that were easily identifiable (e.g. honeybees and Bombus funebris, medium and big hoverflies) were recorded without capturing when possible.","Round number: 2. Height above sea level:3189 m."
"Carlos_Zaragoza_Trello_Vicia_faba_Ecuador_2017","CUMBI5","transects","honeybee","genus","honeybees",2,900,90,NA,"To explore pollinator biodiversity we selected 15 Faba bean fields that were at the same phenological stage and adjacent to a managed grassland (or a natural grassland area when it was not feasible). We conducted pollinator surveys along 25 days (from early July to middle August) by walking during 15 minutes along each of two 150 x 1 m standardized transects per site. One transect was located at the field edge while the central transect was located at 25 m inside the field from the edge. In 5 fields these transects were adapted to the middle of the field as the field did not reach 50 meters. Transect walks were conducted between 8:00 and 16:30, low wind speeds and temperatures above 15 degrees C. Due Andean high altitude weather characteristics, during shorts periods of rain (minutes) or low clouds we stopped the survey and resumed it when weather allowed. Sites were surveyed thrice in random order. We surveyed all honeybees, bumblebees, solitary bees, hoverflies and other Diptera (e.g: Calliphoridae, Tachinidae, Sarcophagidae) that visited flowers inside Faba beans field and at the margin of the crop capturing the pollinators with a net. Handling time invested in capturing pollinators was discounted. In total, the sampling effort was 90 minutes. Pollinators that were easily identifiable (e.g. honeybees and Bombus funebris, medium and big hoverflies) were recorded without capturing when possible.","Round number: 2. Height above sea level:3189 m."
"Carlos_Zaragoza_Trello_Vicia_faba_Ecuador_2017","CUMBI6","transects","honeybee","genus","honeybees",4,900,90,NA,"To explore pollinator biodiversity we selected 15 Faba bean fields that were at the same phenological stage and adjacent to a managed grassland (or a natural grassland area when it was not feasible). We conducted pollinator surveys along 25 days (from early July to middle August) by walking during 15 minutes along each of two 150 x 1 m standardized transects per site. One transect was located at the field edge while the central transect was located at 25 m inside the field from the edge. In 5 fields these transects were adapted to the middle of the field as the field did not reach 50 meters. Transect walks were conducted between 8:00 and 16:30, low wind speeds and temperatures above 15 degrees C. Due Andean high altitude weather characteristics, during shorts periods of rain (minutes) or low clouds we stopped the survey and resumed it when weather allowed. Sites were surveyed thrice in random order. We surveyed all honeybees, bumblebees, solitary bees, hoverflies and other Diptera (e.g: Calliphoridae, Tachinidae, Sarcophagidae) that visited flowers inside Faba beans field and at the margin of the crop capturing the pollinators with a net. Handling time invested in capturing pollinators was discounted. In total, the sampling effort was 90 minutes. Pollinators that were easily identifiable (e.g. honeybees and Bombus funebris, medium and big hoverflies) were recorded without capturing when possible.","Round number: 3. Height above sea level:3628 m."
"Carlos_Zaragoza_Trello_Vicia_faba_Ecuador_2017","CUMBI6","transects","honeybee","genus","honeybees",1,900,90,NA,"To explore pollinator biodiversity we selected 15 Faba bean fields that were at the same phenological stage and adjacent to a managed grassland (or a natural grassland area when it was not feasible). We conducted pollinator surveys along 25 days (from early July to middle August) by walking during 15 minutes along each of two 150 x 1 m standardized transects per site. One transect was located at the field edge while the central transect was located at 25 m inside the field from the edge. In 5 fields these transects were adapted to the middle of the field as the field did not reach 50 meters. Transect walks were conducted between 8:00 and 16:30, low wind speeds and temperatures above 15 degrees C. Due Andean high altitude weather characteristics, during shorts periods of rain (minutes) or low clouds we stopped the survey and resumed it when weather allowed. Sites were surveyed thrice in random order. We surveyed all honeybees, bumblebees, solitary bees, hoverflies and other Diptera (e.g: Calliphoridae, Tachinidae, Sarcophagidae) that visited flowers inside Faba beans field and at the margin of the crop capturing the pollinators with a net. Handling time invested in capturing pollinators was discounted. In total, the sampling effort was 90 minutes. Pollinators that were easily identifiable (e.g. honeybees and Bombus funebris, medium and big hoverflies) were recorded without capturing when possible.","Round number: 1. Height above sea level:3628 m."
"Carlos_Zaragoza_Trello_Vicia_faba_Ecuador_2017","CUMBI6","transects","honeybee","genus","honeybees",6,900,90,NA,"To explore pollinator biodiversity we selected 15 Faba bean fields that were at the same phenological stage and adjacent to a managed grassland (or a natural grassland area when it was not feasible). We conducted pollinator surveys along 25 days (from early July to middle August) by walking during 15 minutes along each of two 150 x 1 m standardized transects per site. One transect was located at the field edge while the central transect was located at 25 m inside the field from the edge. In 5 fields these transects were adapted to the middle of the field as the field did not reach 50 meters. Transect walks were conducted between 8:00 and 16:30, low wind speeds and temperatures above 15 degrees C. Due Andean high altitude weather characteristics, during shorts periods of rain (minutes) or low clouds we stopped the survey and resumed it when weather allowed. Sites were surveyed thrice in random order. We surveyed all honeybees, bumblebees, solitary bees, hoverflies and other Diptera (e.g: Calliphoridae, Tachinidae, Sarcophagidae) that visited flowers inside Faba beans field and at the margin of the crop capturing the pollinators with a net. Handling time invested in capturing pollinators was discounted. In total, the sampling effort was 90 minutes. Pollinators that were easily identifiable (e.g. honeybees and Bombus funebris, medium and big hoverflies) were recorded without capturing when possible.","Round number: 2. Height above sea level:3628 m."
"Carlos_Zaragoza_Trello_Vicia_faba_Ecuador_2017","CUMBI6","transects","honeybee","genus","honeybees",4,900,90,NA,"To explore pollinator biodiversity we selected 15 Faba bean fields that were at the same phenological stage and adjacent to a managed grassland (or a natural grassland area when it was not feasible). We conducted pollinator surveys along 25 days (from early July to middle August) by walking during 15 minutes along each of two 150 x 1 m standardized transects per site. One transect was located at the field edge while the central transect was located at 25 m inside the field from the edge. In 5 fields these transects were adapted to the middle of the field as the field did not reach 50 meters. Transect walks were conducted between 8:00 and 16:30, low wind speeds and temperatures above 15 degrees C. Due Andean high altitude weather characteristics, during shorts periods of rain (minutes) or low clouds we stopped the survey and resumed it when weather allowed. Sites were surveyed thrice in random order. We surveyed all honeybees, bumblebees, solitary bees, hoverflies and other Diptera (e.g: Calliphoridae, Tachinidae, Sarcophagidae) that visited flowers inside Faba beans field and at the margin of the crop capturing the pollinators with a net. Handling time invested in capturing pollinators was discounted. In total, the sampling effort was 90 minutes. Pollinators that were easily identifiable (e.g. honeybees and Bombus funebris, medium and big hoverflies) were recorded without capturing when possible.","Round number: 3. Height above sea level:3628 m."
"Carlos_Zaragoza_Trello_Vicia_faba_Ecuador_2017","CUSU1","transects","honeybee","genus","honeybees",6,900,90,NA,"To explore pollinator biodiversity we selected 15 Faba bean fields that were at the same phenological stage and adjacent to a managed grassland (or a natural grassland area when it was not feasible). We conducted pollinator surveys along 25 days (from early July to middle August) by walking during 15 minutes along each of two 150 x 1 m standardized transects per site. One transect was located at the field edge while the central transect was located at 25 m inside the field from the edge. In 5 fields these transects were adapted to the middle of the field as the field did not reach 50 meters. Transect walks were conducted between 8:00 and 16:30, low wind speeds and temperatures above 15 degrees C. Due Andean high altitude weather characteristics, during shorts periods of rain (minutes) or low clouds we stopped the survey and resumed it when weather allowed. Sites were surveyed thrice in random order. We surveyed all honeybees, bumblebees, solitary bees, hoverflies and other Diptera (e.g: Calliphoridae, Tachinidae, Sarcophagidae) that visited flowers inside Faba beans field and at the margin of the crop capturing the pollinators with a net. Handling time invested in capturing pollinators was discounted. In total, the sampling effort was 90 minutes. Pollinators that were easily identifiable (e.g. honeybees and Bombus funebris, medium and big hoverflies) were recorded without capturing when possible.","Round number: 3. Height above sea level:3086 m."
"Carlos_Zaragoza_Trello_Vicia_faba_Ecuador_2017","CUSU1","transects","honeybee","genus","honeybees",6,900,90,NA,"To explore pollinator biodiversity we selected 15 Faba bean fields that were at the same phenological stage and adjacent to a managed grassland (or a natural grassland area when it was not feasible). We conducted pollinator surveys along 25 days (from early July to middle August) by walking during 15 minutes along each of two 150 x 1 m standardized transects per site. One transect was located at the field edge while the central transect was located at 25 m inside the field from the edge. In 5 fields these transects were adapted to the middle of the field as the field did not reach 50 meters. Transect walks were conducted between 8:00 and 16:30, low wind speeds and temperatures above 15 degrees C. Due Andean high altitude weather characteristics, during shorts periods of rain (minutes) or low clouds we stopped the survey and resumed it when weather allowed. Sites were surveyed thrice in random order. We surveyed all honeybees, bumblebees, solitary bees, hoverflies and other Diptera (e.g: Calliphoridae, Tachinidae, Sarcophagidae) that visited flowers inside Faba beans field and at the margin of the crop capturing the pollinators with a net. Handling time invested in capturing pollinators was discounted. In total, the sampling effort was 90 minutes. Pollinators that were easily identifiable (e.g. honeybees and Bombus funebris, medium and big hoverflies) were recorded without capturing when possible.","Round number: 3. Height above sea level:3086 m."
"Carlos_Zaragoza_Trello_Vicia_faba_Ecuador_2017","CUSU1","transects","honeybee","genus","honeybees",5,900,90,NA,"To explore pollinator biodiversity we selected 15 Faba bean fields that were at the same phenological stage and adjacent to a managed grassland (or a natural grassland area when it was not feasible). We conducted pollinator surveys along 25 days (from early July to middle August) by walking during 15 minutes along each of two 150 x 1 m standardized transects per site. One transect was located at the field edge while the central transect was located at 25 m inside the field from the edge. In 5 fields these transects were adapted to the middle of the field as the field did not reach 50 meters. Transect walks were conducted between 8:00 and 16:30, low wind speeds and temperatures above 15 degrees C. Due Andean high altitude weather characteristics, during shorts periods of rain (minutes) or low clouds we stopped the survey and resumed it when weather allowed. Sites were surveyed thrice in random order. We surveyed all honeybees, bumblebees, solitary bees, hoverflies and other Diptera (e.g: Calliphoridae, Tachinidae, Sarcophagidae) that visited flowers inside Faba beans field and at the margin of the crop capturing the pollinators with a net. Handling time invested in capturing pollinators was discounted. In total, the sampling effort was 90 minutes. Pollinators that were easily identifiable (e.g. honeybees and Bombus funebris, medium and big hoverflies) were recorded without capturing when possible.","Round number: 1. Height above sea level:3086 m."
"Carlos_Zaragoza_Trello_Vicia_faba_Ecuador_2017","CUSU1","transects","honeybee","genus","honeybees",5,900,90,NA,"To explore pollinator biodiversity we selected 15 Faba bean fields that were at the same phenological stage and adjacent to a managed grassland (or a natural grassland area when it was not feasible). We conducted pollinator surveys along 25 days (from early July to middle August) by walking during 15 minutes along each of two 150 x 1 m standardized transects per site. One transect was located at the field edge while the central transect was located at 25 m inside the field from the edge. In 5 fields these transects were adapted to the middle of the field as the field did not reach 50 meters. Transect walks were conducted between 8:00 and 16:30, low wind speeds and temperatures above 15 degrees C. Due Andean high altitude weather characteristics, during shorts periods of rain (minutes) or low clouds we stopped the survey and resumed it when weather allowed. Sites were surveyed thrice in random order. We surveyed all honeybees, bumblebees, solitary bees, hoverflies and other Diptera (e.g: Calliphoridae, Tachinidae, Sarcophagidae) that visited flowers inside Faba beans field and at the margin of the crop capturing the pollinators with a net. Handling time invested in capturing pollinators was discounted. In total, the sampling effort was 90 minutes. Pollinators that were easily identifiable (e.g. honeybees and Bombus funebris, medium and big hoverflies) were recorded without capturing when possible.","Round number: NA. Height above sea level:3086 m."
"Carlos_Zaragoza_Trello_Vicia_faba_Ecuador_2017","CUSU1","transects","honeybee","genus","honeybees",7,900,90,NA,"To explore pollinator biodiversity we selected 15 Faba bean fields that were at the same phenological stage and adjacent to a managed grassland (or a natural grassland area when it was not feasible). We conducted pollinator surveys along 25 days (from early July to middle August) by walking during 15 minutes along each of two 150 x 1 m standardized transects per site. One transect was located at the field edge while the central transect was located at 25 m inside the field from the edge. In 5 fields these transects were adapted to the middle of the field as the field did not reach 50 meters. Transect walks were conducted between 8:00 and 16:30, low wind speeds and temperatures above 15 degrees C. Due Andean high altitude weather characteristics, during shorts periods of rain (minutes) or low clouds we stopped the survey and resumed it when weather allowed. Sites were surveyed thrice in random order. We surveyed all honeybees, bumblebees, solitary bees, hoverflies and other Diptera (e.g: Calliphoridae, Tachinidae, Sarcophagidae) that visited flowers inside Faba beans field and at the margin of the crop capturing the pollinators with a net. Handling time invested in capturing pollinators was discounted. In total, the sampling effort was 90 minutes. Pollinators that were easily identifiable (e.g. honeybees and Bombus funebris, medium and big hoverflies) were recorded without capturing when possible.","Round number: NA. Height above sea level:3086 m."
"Carlos_Zaragoza_Trello_Vicia_faba_Ecuador_2017","CUSU1","transects","honeybee","genus","honeybees",6,900,90,NA,"To explore pollinator biodiversity we selected 15 Faba bean fields that were at the same phenological stage and adjacent to a managed grassland (or a natural grassland area when it was not feasible). We conducted pollinator surveys along 25 days (from early July to middle August) by walking during 15 minutes along each of two 150 x 1 m standardized transects per site. One transect was located at the field edge while the central transect was located at 25 m inside the field from the edge. In 5 fields these transects were adapted to the middle of the field as the field did not reach 50 meters. Transect walks were conducted between 8:00 and 16:30, low wind speeds and temperatures above 15 degrees C. Due Andean high altitude weather characteristics, during shorts periods of rain (minutes) or low clouds we stopped the survey and resumed it when weather allowed. Sites were surveyed thrice in random order. We surveyed all honeybees, bumblebees, solitary bees, hoverflies and other Diptera (e.g: Calliphoridae, Tachinidae, Sarcophagidae) that visited flowers inside Faba beans field and at the margin of the crop capturing the pollinators with a net. Handling time invested in capturing pollinators was discounted. In total, the sampling effort was 90 minutes. Pollinators that were easily identifiable (e.g. honeybees and Bombus funebris, medium and big hoverflies) were recorded without capturing when possible.","Round number: 3. Height above sea level:3086 m."
"Carlos_Zaragoza_Trello_Vicia_faba_Ecuador_2017","CUSU1","transects","honeybee","genus","honeybees",6,900,90,NA,"To explore pollinator biodiversity we selected 15 Faba bean fields that were at the same phenological stage and adjacent to a managed grassland (or a natural grassland area when it was not feasible). We conducted pollinator surveys along 25 days (from early July to middle August) by walking during 15 minutes along each of two 150 x 1 m standardized transects per site. One transect was located at the field edge while the central transect was located at 25 m inside the field from the edge. In 5 fields these transects were adapted to the middle of the field as the field did not reach 50 meters. Transect walks were conducted between 8:00 and 16:30, low wind speeds and temperatures above 15 degrees C. Due Andean high altitude weather characteristics, during shorts periods of rain (minutes) or low clouds we stopped the survey and resumed it when weather allowed. Sites were surveyed thrice in random order. We surveyed all honeybees, bumblebees, solitary bees, hoverflies and other Diptera (e.g: Calliphoridae, Tachinidae, Sarcophagidae) that visited flowers inside Faba beans field and at the margin of the crop capturing the pollinators with a net. Handling time invested in capturing pollinators was discounted. In total, the sampling effort was 90 minutes. Pollinators that were easily identifiable (e.g. honeybees and Bombus funebris, medium and big hoverflies) were recorded without capturing when possible.","Round number: 3. Height above sea level:3086 m."
"Carlos_Zaragoza_Trello_Vicia_faba_Ecuador_2017","CUSU2","transects","honeybee","genus","honeybees",2,900,90,NA,"To explore pollinator biodiversity we selected 15 Faba bean fields that were at the same phenological stage and adjacent to a managed grassland (or a natural grassland area when it was not feasible). We conducted pollinator surveys along 25 days (from early July to middle August) by walking during 15 minutes along each of two 150 x 1 m standardized transects per site. One transect was located at the field edge while the central transect was located at 25 m inside the field from the edge. In 5 fields these transects were adapted to the middle of the field as the field did not reach 50 meters. Transect walks were conducted between 8:00 and 16:30, low wind speeds and temperatures above 15 degrees C. Due Andean high altitude weather characteristics, during shorts periods of rain (minutes) or low clouds we stopped the survey and resumed it when weather allowed. Sites were surveyed thrice in random order. We surveyed all honeybees, bumblebees, solitary bees, hoverflies and other Diptera (e.g: Calliphoridae, Tachinidae, Sarcophagidae) that visited flowers inside Faba beans field and at the margin of the crop capturing the pollinators with a net. Handling time invested in capturing pollinators was discounted. In total, the sampling effort was 90 minutes. Pollinators that were easily identifiable (e.g. honeybees and Bombus funebris, medium and big hoverflies) were recorded without capturing when possible.","Round number: 3. Height above sea level:3500 m."
"Carlos_Zaragoza_Trello_Vicia_faba_Ecuador_2017","CUSU2","transects","honeybee","genus","honeybees",2,900,90,NA,"To explore pollinator biodiversity we selected 15 Faba bean fields that were at the same phenological stage and adjacent to a managed grassland (or a natural grassland area when it was not feasible). We conducted pollinator surveys along 25 days (from early July to middle August) by walking during 15 minutes along each of two 150 x 1 m standardized transects per site. One transect was located at the field edge while the central transect was located at 25 m inside the field from the edge. In 5 fields these transects were adapted to the middle of the field as the field did not reach 50 meters. Transect walks were conducted between 8:00 and 16:30, low wind speeds and temperatures above 15 degrees C. Due Andean high altitude weather characteristics, during shorts periods of rain (minutes) or low clouds we stopped the survey and resumed it when weather allowed. Sites were surveyed thrice in random order. We surveyed all honeybees, bumblebees, solitary bees, hoverflies and other Diptera (e.g: Calliphoridae, Tachinidae, Sarcophagidae) that visited flowers inside Faba beans field and at the margin of the crop capturing the pollinators with a net. Handling time invested in capturing pollinators was discounted. In total, the sampling effort was 90 minutes. Pollinators that were easily identifiable (e.g. honeybees and Bombus funebris, medium and big hoverflies) were recorded without capturing when possible.","Round number: 1. Height above sea level:3500 m."
"Carlos_Zaragoza_Trello_Vicia_faba_Ecuador_2017","CUSU2","transects","honeybee","genus","honeybees",10,900,90,NA,"To explore pollinator biodiversity we selected 15 Faba bean fields that were at the same phenological stage and adjacent to a managed grassland (or a natural grassland area when it was not feasible). We conducted pollinator surveys along 25 days (from early July to middle August) by walking during 15 minutes along each of two 150 x 1 m standardized transects per site. One transect was located at the field edge while the central transect was located at 25 m inside the field from the edge. In 5 fields these transects were adapted to the middle of the field as the field did not reach 50 meters. Transect walks were conducted between 8:00 and 16:30, low wind speeds and temperatures above 15 degrees C. Due Andean high altitude weather characteristics, during shorts periods of rain (minutes) or low clouds we stopped the survey and resumed it when weather allowed. Sites were surveyed thrice in random order. We surveyed all honeybees, bumblebees, solitary bees, hoverflies and other Diptera (e.g: Calliphoridae, Tachinidae, Sarcophagidae) that visited flowers inside Faba beans field and at the margin of the crop capturing the pollinators with a net. Handling time invested in capturing pollinators was discounted. In total, the sampling effort was 90 minutes. Pollinators that were easily identifiable (e.g. honeybees and Bombus funebris, medium and big hoverflies) were recorded without capturing when possible.","Round number: 1. Height above sea level:3500 m."
"Carlos_Zaragoza_Trello_Vicia_faba_Ecuador_2017","CUSU2","transects","honeybee","genus","honeybees",9,900,90,NA,"To explore pollinator biodiversity we selected 15 Faba bean fields that were at the same phenological stage and adjacent to a managed grassland (or a natural grassland area when it was not feasible). We conducted pollinator surveys along 25 days (from early July to middle August) by walking during 15 minutes along each of two 150 x 1 m standardized transects per site. One transect was located at the field edge while the central transect was located at 25 m inside the field from the edge. In 5 fields these transects were adapted to the middle of the field as the field did not reach 50 meters. Transect walks were conducted between 8:00 and 16:30, low wind speeds and temperatures above 15 degrees C. Due Andean high altitude weather characteristics, during shorts periods of rain (minutes) or low clouds we stopped the survey and resumed it when weather allowed. Sites were surveyed thrice in random order. We surveyed all honeybees, bumblebees, solitary bees, hoverflies and other Diptera (e.g: Calliphoridae, Tachinidae, Sarcophagidae) that visited flowers inside Faba beans field and at the margin of the crop capturing the pollinators with a net. Handling time invested in capturing pollinators was discounted. In total, the sampling effort was 90 minutes. Pollinators that were easily identifiable (e.g. honeybees and Bombus funebris, medium and big hoverflies) were recorded without capturing when possible.","Round number: 2. Height above sea level:3500 m."
"Carlos_Zaragoza_Trello_Vicia_faba_Ecuador_2017","CUSU2","transects","honeybee","genus","honeybees",9,900,90,NA,"To explore pollinator biodiversity we selected 15 Faba bean fields that were at the same phenological stage and adjacent to a managed grassland (or a natural grassland area when it was not feasible). We conducted pollinator surveys along 25 days (from early July to middle August) by walking during 15 minutes along each of two 150 x 1 m standardized transects per site. One transect was located at the field edge while the central transect was located at 25 m inside the field from the edge. In 5 fields these transects were adapted to the middle of the field as the field did not reach 50 meters. Transect walks were conducted between 8:00 and 16:30, low wind speeds and temperatures above 15 degrees C. Due Andean high altitude weather characteristics, during shorts periods of rain (minutes) or low clouds we stopped the survey and resumed it when weather allowed. Sites were surveyed thrice in random order. We surveyed all honeybees, bumblebees, solitary bees, hoverflies and other Diptera (e.g: Calliphoridae, Tachinidae, Sarcophagidae) that visited flowers inside Faba beans field and at the margin of the crop capturing the pollinators with a net. Handling time invested in capturing pollinators was discounted. In total, the sampling effort was 90 minutes. Pollinators that were easily identifiable (e.g. honeybees and Bombus funebris, medium and big hoverflies) were recorded without capturing when possible.","Round number: 3. Height above sea level:3500 m."
"Carlos_Zaragoza_Trello_Vicia_faba_Ecuador_2017","BQ2","transects",NA,"unkown",NA,1,900,90,NA,"To explore pollinator biodiversity we selected 15 Faba bean fields that were at the same phenological stage and adjacent to a managed grassland (or a natural grassland area when it was not feasible). We conducted pollinator surveys along 25 days (from early July to middle August) by walking during 15 minutes along each of two 150 x 1 m standardized transects per site. One transect was located at the field edge while the central transect was located at 25 m inside the field from the edge. In 5 fields these transects were adapted to the middle of the field as the field did not reach 50 meters. Transect walks were conducted between 8:00 and 16:30, low wind speeds and temperatures above 15 degrees C. Due Andean high altitude weather characteristics, during shorts periods of rain (minutes) or low clouds we stopped the survey and resumed it when weather allowed. Sites were surveyed thrice in random order. We surveyed all honeybees, bumblebees, solitary bees, hoverflies and other Diptera (e.g: Calliphoridae, Tachinidae, Sarcophagidae) that visited flowers inside Faba beans field and at the margin of the crop capturing the pollinators with a net. Handling time invested in capturing pollinators was discounted. In total, the sampling effort was 90 minutes. Pollinators that were easily identifiable (e.g. honeybees and Bombus funebris, medium and big hoverflies) were recorded without capturing when possible.","Round number: 1. Height above sea level:3041 m."
"Carlos_Zaragoza_Trello_Vicia_faba_Ecuador_2017","CUMBI2","transects",NA,"unkown",NA,0,900,90,NA,"To explore pollinator biodiversity we selected 15 Faba bean fields that were at the same phenological stage and adjacent to a managed grassland (or a natural grassland area when it was not feasible). We conducted pollinator surveys along 25 days (from early July to middle August) by walking during 15 minutes along each of two 150 x 1 m standardized transects per site. One transect was located at the field edge while the central transect was located at 25 m inside the field from the edge. In 5 fields these transects were adapted to the middle of the field as the field did not reach 50 meters. Transect walks were conducted between 8:00 and 16:30, low wind speeds and temperatures above 15 degrees C. Due Andean high altitude weather characteristics, during shorts periods of rain (minutes) or low clouds we stopped the survey and resumed it when weather allowed. Sites were surveyed thrice in random order. We surveyed all honeybees, bumblebees, solitary bees, hoverflies and other Diptera (e.g: Calliphoridae, Tachinidae, Sarcophagidae) that visited flowers inside Faba beans field and at the margin of the crop capturing the pollinators with a net. Handling time invested in capturing pollinators was discounted. In total, the sampling effort was 90 minutes. Pollinators that were easily identifiable (e.g. honeybees and Bombus funebris, medium and big hoverflies) were recorded without capturing when possible.","Round number: 3. Height above sea level:2943 m."
"Carlos_Zaragoza_Trello_Vicia_faba_Ecuador_2017","CUMBI6","transects",NA,"unkown",NA,NA,900,90,NA,"To explore pollinator biodiversity we selected 15 Faba bean fields that were at the same phenological stage and adjacent to a managed grassland (or a natural grassland area when it was not feasible). We conducted pollinator surveys along 25 days (from early July to middle August) by walking during 15 minutes along each of two 150 x 1 m standardized transects per site. One transect was located at the field edge while the central transect was located at 25 m inside the field from the edge. In 5 fields these transects were adapted to the middle of the field as the field did not reach 50 meters. Transect walks were conducted between 8:00 and 16:30, low wind speeds and temperatures above 15 degrees C. Due Andean high altitude weather characteristics, during shorts periods of rain (minutes) or low clouds we stopped the survey and resumed it when weather allowed. Sites were surveyed thrice in random order. We surveyed all honeybees, bumblebees, solitary bees, hoverflies and other Diptera (e.g: Calliphoridae, Tachinidae, Sarcophagidae) that visited flowers inside Faba beans field and at the margin of the crop capturing the pollinators with a net. Handling time invested in capturing pollinators was discounted. In total, the sampling effort was 90 minutes. Pollinators that were easily identifiable (e.g. honeybees and Bombus funebris, medium and big hoverflies) were recorded without capturing when possible.","Round number: 2. Height above sea level:3628 m."
"Carlos_Zaragoza_Trello_Vicia_faba_Ecuador_2017","BQ1","transects","Solitary_bees","superfamily","other_wild_bees",1,900,90,NA,"To explore pollinator biodiversity we selected 15 Faba bean fields that were at the same phenological stage and adjacent to a managed grassland (or a natural grassland area when it was not feasible). We conducted pollinator surveys along 25 days (from early July to middle August) by walking during 15 minutes along each of two 150 x 1 m standardized transects per site. One transect was located at the field edge while the central transect was located at 25 m inside the field from the edge. In 5 fields these transects were adapted to the middle of the field as the field did not reach 50 meters. Transect walks were conducted between 8:00 and 16:30, low wind speeds and temperatures above 15 degrees C. Due Andean high altitude weather characteristics, during shorts periods of rain (minutes) or low clouds we stopped the survey and resumed it when weather allowed. Sites were surveyed thrice in random order. We surveyed all honeybees, bumblebees, solitary bees, hoverflies and other Diptera (e.g: Calliphoridae, Tachinidae, Sarcophagidae) that visited flowers inside Faba beans field and at the margin of the crop capturing the pollinators with a net. Handling time invested in capturing pollinators was discounted. In total, the sampling effort was 90 minutes. Pollinators that were easily identifiable (e.g. honeybees and Bombus funebris, medium and big hoverflies) were recorded without capturing when possible.","Round number: 2. Height above sea level:2818 m."
"Carlos_Zaragoza_Trello_Vicia_faba_Ecuador_2017","BQ1","transects","Solitary_bees","superfamily","other_wild_bees",1,900,90,NA,"To explore pollinator biodiversity we selected 15 Faba bean fields that were at the same phenological stage and adjacent to a managed grassland (or a natural grassland area when it was not feasible). We conducted pollinator surveys along 25 days (from early July to middle August) by walking during 15 minutes along each of two 150 x 1 m standardized transects per site. One transect was located at the field edge while the central transect was located at 25 m inside the field from the edge. In 5 fields these transects were adapted to the middle of the field as the field did not reach 50 meters. Transect walks were conducted between 8:00 and 16:30, low wind speeds and temperatures above 15 degrees C. Due Andean high altitude weather characteristics, during shorts periods of rain (minutes) or low clouds we stopped the survey and resumed it when weather allowed. Sites were surveyed thrice in random order. We surveyed all honeybees, bumblebees, solitary bees, hoverflies and other Diptera (e.g: Calliphoridae, Tachinidae, Sarcophagidae) that visited flowers inside Faba beans field and at the margin of the crop capturing the pollinators with a net. Handling time invested in capturing pollinators was discounted. In total, the sampling effort was 90 minutes. Pollinators that were easily identifiable (e.g. honeybees and Bombus funebris, medium and big hoverflies) were recorded without capturing when possible.","Round number: 2. Height above sea level:2818 m."
"Carlos_Zaragoza_Trello_Vicia_faba_Ecuador_2017","BQ1","transects","Solitary_bees","superfamily","other_wild_bees",1,900,90,NA,"To explore pollinator biodiversity we selected 15 Faba bean fields that were at the same phenological stage and adjacent to a managed grassland (or a natural grassland area when it was not feasible). We conducted pollinator surveys along 25 days (from early July to middle August) by walking during 15 minutes along each of two 150 x 1 m standardized transects per site. One transect was located at the field edge while the central transect was located at 25 m inside the field from the edge. In 5 fields these transects were adapted to the middle of the field as the field did not reach 50 meters. Transect walks were conducted between 8:00 and 16:30, low wind speeds and temperatures above 15 degrees C. Due Andean high altitude weather characteristics, during shorts periods of rain (minutes) or low clouds we stopped the survey and resumed it when weather allowed. Sites were surveyed thrice in random order. We surveyed all honeybees, bumblebees, solitary bees, hoverflies and other Diptera (e.g: Calliphoridae, Tachinidae, Sarcophagidae) that visited flowers inside Faba beans field and at the margin of the crop capturing the pollinators with a net. Handling time invested in capturing pollinators was discounted. In total, the sampling effort was 90 minutes. Pollinators that were easily identifiable (e.g. honeybees and Bombus funebris, medium and big hoverflies) were recorded without capturing when possible.","Round number: 3. Height above sea level:2818 m."
"Carlos_Zaragoza_Trello_Vicia_faba_Ecuador_2017","BQ1","transects","Solitary_bees","superfamily","other_wild_bees",1,900,90,NA,"To explore pollinator biodiversity we selected 15 Faba bean fields that were at the same phenological stage and adjacent to a managed grassland (or a natural grassland area when it was not feasible). We conducted pollinator surveys along 25 days (from early July to middle August) by walking during 15 minutes along each of two 150 x 1 m standardized transects per site. One transect was located at the field edge while the central transect was located at 25 m inside the field from the edge. In 5 fields these transects were adapted to the middle of the field as the field did not reach 50 meters. Transect walks were conducted between 8:00 and 16:30, low wind speeds and temperatures above 15 degrees C. Due Andean high altitude weather characteristics, during shorts periods of rain (minutes) or low clouds we stopped the survey and resumed it when weather allowed. Sites were surveyed thrice in random order. We surveyed all honeybees, bumblebees, solitary bees, hoverflies and other Diptera (e.g: Calliphoridae, Tachinidae, Sarcophagidae) that visited flowers inside Faba beans field and at the margin of the crop capturing the pollinators with a net. Handling time invested in capturing pollinators was discounted. In total, the sampling effort was 90 minutes. Pollinators that were easily identifiable (e.g. honeybees and Bombus funebris, medium and big hoverflies) were recorded without capturing when possible.","Round number: 3. Height above sea level:2818 m."
"Carlos_Zaragoza_Trello_Vicia_faba_Ecuador_2017","BQ1","transects","Solitary_bees","superfamily","other_wild_bees",1,900,90,NA,"To explore pollinator biodiversity we selected 15 Faba bean fields that were at the same phenological stage and adjacent to a managed grassland (or a natural grassland area when it was not feasible). We conducted pollinator surveys along 25 days (from early July to middle August) by walking during 15 minutes along each of two 150 x 1 m standardized transects per site. One transect was located at the field edge while the central transect was located at 25 m inside the field from the edge. In 5 fields these transects were adapted to the middle of the field as the field did not reach 50 meters. Transect walks were conducted between 8:00 and 16:30, low wind speeds and temperatures above 15 degrees C. Due Andean high altitude weather characteristics, during shorts periods of rain (minutes) or low clouds we stopped the survey and resumed it when weather allowed. Sites were surveyed thrice in random order. We surveyed all honeybees, bumblebees, solitary bees, hoverflies and other Diptera (e.g: Calliphoridae, Tachinidae, Sarcophagidae) that visited flowers inside Faba beans field and at the margin of the crop capturing the pollinators with a net. Handling time invested in capturing pollinators was discounted. In total, the sampling effort was 90 minutes. Pollinators that were easily identifiable (e.g. honeybees and Bombus funebris, medium and big hoverflies) were recorded without capturing when possible.","Round number: NA. Height above sea level:2818 m."
"Carlos_Zaragoza_Trello_Vicia_faba_Ecuador_2017","BQ1","transects","Solitary_bees","superfamily","other_wild_bees",1,900,90,NA,"To explore pollinator biodiversity we selected 15 Faba bean fields that were at the same phenological stage and adjacent to a managed grassland (or a natural grassland area when it was not feasible). We conducted pollinator surveys along 25 days (from early July to middle August) by walking during 15 minutes along each of two 150 x 1 m standardized transects per site. One transect was located at the field edge while the central transect was located at 25 m inside the field from the edge. In 5 fields these transects were adapted to the middle of the field as the field did not reach 50 meters. Transect walks were conducted between 8:00 and 16:30, low wind speeds and temperatures above 15 degrees C. Due Andean high altitude weather characteristics, during shorts periods of rain (minutes) or low clouds we stopped the survey and resumed it when weather allowed. Sites were surveyed thrice in random order. We surveyed all honeybees, bumblebees, solitary bees, hoverflies and other Diptera (e.g: Calliphoridae, Tachinidae, Sarcophagidae) that visited flowers inside Faba beans field and at the margin of the crop capturing the pollinators with a net. Handling time invested in capturing pollinators was discounted. In total, the sampling effort was 90 minutes. Pollinators that were easily identifiable (e.g. honeybees and Bombus funebris, medium and big hoverflies) were recorded without capturing when possible.","Round number: NA. Height above sea level:2818 m."
"Carlos_Zaragoza_Trello_Vicia_faba_Ecuador_2017","BQ1","transects","Solitary_bees","superfamily","other_wild_bees",1,900,90,NA,"To explore pollinator biodiversity we selected 15 Faba bean fields that were at the same phenological stage and adjacent to a managed grassland (or a natural grassland area when it was not feasible). We conducted pollinator surveys along 25 days (from early July to middle August) by walking during 15 minutes along each of two 150 x 1 m standardized transects per site. One transect was located at the field edge while the central transect was located at 25 m inside the field from the edge. In 5 fields these transects were adapted to the middle of the field as the field did not reach 50 meters. Transect walks were conducted between 8:00 and 16:30, low wind speeds and temperatures above 15 degrees C. Due Andean high altitude weather characteristics, during shorts periods of rain (minutes) or low clouds we stopped the survey and resumed it when weather allowed. Sites were surveyed thrice in random order. We surveyed all honeybees, bumblebees, solitary bees, hoverflies and other Diptera (e.g: Calliphoridae, Tachinidae, Sarcophagidae) that visited flowers inside Faba beans field and at the margin of the crop capturing the pollinators with a net. Handling time invested in capturing pollinators was discounted. In total, the sampling effort was 90 minutes. Pollinators that were easily identifiable (e.g. honeybees and Bombus funebris, medium and big hoverflies) were recorded without capturing when possible.","Round number: 3. Height above sea level:2818 m."
"Carlos_Zaragoza_Trello_Vicia_faba_Ecuador_2017","BQ1","transects","Solitary_bees","superfamily","other_wild_bees",1,900,90,NA,"To explore pollinator biodiversity we selected 15 Faba bean fields that were at the same phenological stage and adjacent to a managed grassland (or a natural grassland area when it was not feasible). We conducted pollinator surveys along 25 days (from early July to middle August) by walking during 15 minutes along each of two 150 x 1 m standardized transects per site. One transect was located at the field edge while the central transect was located at 25 m inside the field from the edge. In 5 fields these transects were adapted to the middle of the field as the field did not reach 50 meters. Transect walks were conducted between 8:00 and 16:30, low wind speeds and temperatures above 15 degrees C. Due Andean high altitude weather characteristics, during shorts periods of rain (minutes) or low clouds we stopped the survey and resumed it when weather allowed. Sites were surveyed thrice in random order. We surveyed all honeybees, bumblebees, solitary bees, hoverflies and other Diptera (e.g: Calliphoridae, Tachinidae, Sarcophagidae) that visited flowers inside Faba beans field and at the margin of the crop capturing the pollinators with a net. Handling time invested in capturing pollinators was discounted. In total, the sampling effort was 90 minutes. Pollinators that were easily identifiable (e.g. honeybees and Bombus funebris, medium and big hoverflies) were recorded without capturing when possible.","Round number: 3. Height above sea level:2818 m."
"Carlos_Zaragoza_Trello_Vicia_faba_Ecuador_2017","CUMBI4","transects","Solitary_bees","superfamily","other_wild_bees",1,900,90,NA,"To explore pollinator biodiversity we selected 15 Faba bean fields that were at the same phenological stage and adjacent to a managed grassland (or a natural grassland area when it was not feasible). We conducted pollinator surveys along 25 days (from early July to middle August) by walking during 15 minutes along each of two 150 x 1 m standardized transects per site. One transect was located at the field edge while the central transect was located at 25 m inside the field from the edge. In 5 fields these transects were adapted to the middle of the field as the field did not reach 50 meters. Transect walks were conducted between 8:00 and 16:30, low wind speeds and temperatures above 15 degrees C. Due Andean high altitude weather characteristics, during shorts periods of rain (minutes) or low clouds we stopped the survey and resumed it when weather allowed. Sites were surveyed thrice in random order. We surveyed all honeybees, bumblebees, solitary bees, hoverflies and other Diptera (e.g: Calliphoridae, Tachinidae, Sarcophagidae) that visited flowers inside Faba beans field and at the margin of the crop capturing the pollinators with a net. Handling time invested in capturing pollinators was discounted. In total, the sampling effort was 90 minutes. Pollinators that were easily identifiable (e.g. honeybees and Bombus funebris, medium and big hoverflies) were recorded without capturing when possible.","Round number: 1. Height above sea level:3152 m."
"Carlos_Zaragoza_Trello_Vicia_faba_Ecuador_2017","CUMBI5","transects","Solitary_bees","superfamily","other_wild_bees",1,900,90,NA,"To explore pollinator biodiversity we selected 15 Faba bean fields that were at the same phenological stage and adjacent to a managed grassland (or a natural grassland area when it was not feasible). We conducted pollinator surveys along 25 days (from early July to middle August) by walking during 15 minutes along each of two 150 x 1 m standardized transects per site. One transect was located at the field edge while the central transect was located at 25 m inside the field from the edge. In 5 fields these transects were adapted to the middle of the field as the field did not reach 50 meters. Transect walks were conducted between 8:00 and 16:30, low wind speeds and temperatures above 15 degrees C. Due Andean high altitude weather characteristics, during shorts periods of rain (minutes) or low clouds we stopped the survey and resumed it when weather allowed. Sites were surveyed thrice in random order. We surveyed all honeybees, bumblebees, solitary bees, hoverflies and other Diptera (e.g: Calliphoridae, Tachinidae, Sarcophagidae) that visited flowers inside Faba beans field and at the margin of the crop capturing the pollinators with a net. Handling time invested in capturing pollinators was discounted. In total, the sampling effort was 90 minutes. Pollinators that were easily identifiable (e.g. honeybees and Bombus funebris, medium and big hoverflies) were recorded without capturing when possible.","Round number: 1. Height above sea level:3189 m."
"Carlos_Zaragoza_Trello_Vicia_faba_Ecuador_2017","CUMBI5","transects","Solitary_bees","superfamily","other_wild_bees",1,900,90,NA,"To explore pollinator biodiversity we selected 15 Faba bean fields that were at the same phenological stage and adjacent to a managed grassland (or a natural grassland area when it was not feasible). We conducted pollinator surveys along 25 days (from early July to middle August) by walking during 15 minutes along each of two 150 x 1 m standardized transects per site. One transect was located at the field edge while the central transect was located at 25 m inside the field from the edge. In 5 fields these transects were adapted to the middle of the field as the field did not reach 50 meters. Transect walks were conducted between 8:00 and 16:30, low wind speeds and temperatures above 15 degrees C. Due Andean high altitude weather characteristics, during shorts periods of rain (minutes) or low clouds we stopped the survey and resumed it when weather allowed. Sites were surveyed thrice in random order. We surveyed all honeybees, bumblebees, solitary bees, hoverflies and other Diptera (e.g: Calliphoridae, Tachinidae, Sarcophagidae) that visited flowers inside Faba beans field and at the margin of the crop capturing the pollinators with a net. Handling time invested in capturing pollinators was discounted. In total, the sampling effort was 90 minutes. Pollinators that were easily identifiable (e.g. honeybees and Bombus funebris, medium and big hoverflies) were recorded without capturing when possible.","Round number: 3. Height above sea level:3189 m."
"Carlos_Zaragoza_Trello_Vicia_faba_Ecuador_2017","CUMBI5","transects","Solitary_bees","superfamily","other_wild_bees",1,900,90,NA,"To explore pollinator biodiversity we selected 15 Faba bean fields that were at the same phenological stage and adjacent to a managed grassland (or a natural grassland area when it was not feasible). We conducted pollinator surveys along 25 days (from early July to middle August) by walking during 15 minutes along each of two 150 x 1 m standardized transects per site. One transect was located at the field edge while the central transect was located at 25 m inside the field from the edge. In 5 fields these transects were adapted to the middle of the field as the field did not reach 50 meters. Transect walks were conducted between 8:00 and 16:30, low wind speeds and temperatures above 15 degrees C. Due Andean high altitude weather characteristics, during shorts periods of rain (minutes) or low clouds we stopped the survey and resumed it when weather allowed. Sites were surveyed thrice in random order. We surveyed all honeybees, bumblebees, solitary bees, hoverflies and other Diptera (e.g: Calliphoridae, Tachinidae, Sarcophagidae) that visited flowers inside Faba beans field and at the margin of the crop capturing the pollinators with a net. Handling time invested in capturing pollinators was discounted. In total, the sampling effort was 90 minutes. Pollinators that were easily identifiable (e.g. honeybees and Bombus funebris, medium and big hoverflies) were recorded without capturing when possible.","Round number: 3. Height above sea level:3189 m."
"Carlos_Zaragoza_Trello_Vicia_faba_Ecuador_2017","CUMBI5","transects","Solitary_bees","superfamily","other_wild_bees",1,900,90,NA,"To explore pollinator biodiversity we selected 15 Faba bean fields that were at the same phenological stage and adjacent to a managed grassland (or a natural grassland area when it was not feasible). We conducted pollinator surveys along 25 days (from early July to middle August) by walking during 15 minutes along each of two 150 x 1 m standardized transects per site. One transect was located at the field edge while the central transect was located at 25 m inside the field from the edge. In 5 fields these transects were adapted to the middle of the field as the field did not reach 50 meters. Transect walks were conducted between 8:00 and 16:30, low wind speeds and temperatures above 15 degrees C. Due Andean high altitude weather characteristics, during shorts periods of rain (minutes) or low clouds we stopped the survey and resumed it when weather allowed. Sites were surveyed thrice in random order. We surveyed all honeybees, bumblebees, solitary bees, hoverflies and other Diptera (e.g: Calliphoridae, Tachinidae, Sarcophagidae) that visited flowers inside Faba beans field and at the margin of the crop capturing the pollinators with a net. Handling time invested in capturing pollinators was discounted. In total, the sampling effort was 90 minutes. Pollinators that were easily identifiable (e.g. honeybees and Bombus funebris, medium and big hoverflies) were recorded without capturing when possible.","Round number: 3. Height above sea level:3189 m."
"Carlos_Zaragoza_Trello_Vicia_faba_Ecuador_2017","CUMBI6","transects","Solitary_bees","superfamily","other_wild_bees",1,900,90,NA,"To explore pollinator biodiversity we selected 15 Faba bean fields that were at the same phenological stage and adjacent to a managed grassland (or a natural grassland area when it was not feasible). We conducted pollinator surveys along 25 days (from early July to middle August) by walking during 15 minutes along each of two 150 x 1 m standardized transects per site. One transect was located at the field edge while the central transect was located at 25 m inside the field from the edge. In 5 fields these transects were adapted to the middle of the field as the field did not reach 50 meters. Transect walks were conducted between 8:00 and 16:30, low wind speeds and temperatures above 15 degrees C. Due Andean high altitude weather characteristics, during shorts periods of rain (minutes) or low clouds we stopped the survey and resumed it when weather allowed. Sites were surveyed thrice in random order. We surveyed all honeybees, bumblebees, solitary bees, hoverflies and other Diptera (e.g: Calliphoridae, Tachinidae, Sarcophagidae) that visited flowers inside Faba beans field and at the margin of the crop capturing the pollinators with a net. Handling time invested in capturing pollinators was discounted. In total, the sampling effort was 90 minutes. Pollinators that were easily identifiable (e.g. honeybees and Bombus funebris, medium and big hoverflies) were recorded without capturing when possible.","Round number: 2. Height above sea level:3628 m."
"Carlos_Zaragoza_Trello_Vicia_faba_Ecuador_2017","CUSU1","transects","Solitary_bees","superfamily","other_wild_bees",1,900,90,NA,"To explore pollinator biodiversity we selected 15 Faba bean fields that were at the same phenological stage and adjacent to a managed grassland (or a natural grassland area when it was not feasible). We conducted pollinator surveys along 25 days (from early July to middle August) by walking during 15 minutes along each of two 150 x 1 m standardized transects per site. One transect was located at the field edge while the central transect was located at 25 m inside the field from the edge. In 5 fields these transects were adapted to the middle of the field as the field did not reach 50 meters. Transect walks were conducted between 8:00 and 16:30, low wind speeds and temperatures above 15 degrees C. Due Andean high altitude weather characteristics, during shorts periods of rain (minutes) or low clouds we stopped the survey and resumed it when weather allowed. Sites were surveyed thrice in random order. We surveyed all honeybees, bumblebees, solitary bees, hoverflies and other Diptera (e.g: Calliphoridae, Tachinidae, Sarcophagidae) that visited flowers inside Faba beans field and at the margin of the crop capturing the pollinators with a net. Handling time invested in capturing pollinators was discounted. In total, the sampling effort was 90 minutes. Pollinators that were easily identifiable (e.g. honeybees and Bombus funebris, medium and big hoverflies) were recorded without capturing when possible.","Round number: 1. Height above sea level:3086 m."
"Carlos_Zaragoza_Trello_Vicia_faba_Ecuador_2017","CUSU1","transects","Solitary_bees","superfamily","other_wild_bees",1,900,90,NA,"To explore pollinator biodiversity we selected 15 Faba bean fields that were at the same phenological stage and adjacent to a managed grassland (or a natural grassland area when it was not feasible). We conducted pollinator surveys along 25 days (from early July to middle August) by walking during 15 minutes along each of two 150 x 1 m standardized transects per site. One transect was located at the field edge while the central transect was located at 25 m inside the field from the edge. In 5 fields these transects were adapted to the middle of the field as the field did not reach 50 meters. Transect walks were conducted between 8:00 and 16:30, low wind speeds and temperatures above 15 degrees C. Due Andean high altitude weather characteristics, during shorts periods of rain (minutes) or low clouds we stopped the survey and resumed it when weather allowed. Sites were surveyed thrice in random order. We surveyed all honeybees, bumblebees, solitary bees, hoverflies and other Diptera (e.g: Calliphoridae, Tachinidae, Sarcophagidae) that visited flowers inside Faba beans field and at the margin of the crop capturing the pollinators with a net. Handling time invested in capturing pollinators was discounted. In total, the sampling effort was 90 minutes. Pollinators that were easily identifiable (e.g. honeybees and Bombus funebris, medium and big hoverflies) were recorded without capturing when possible.","Round number: 3. Height above sea level:3086 m."
"Carlos_Zaragoza_Trello_Vicia_faba_Ecuador_2017","CUSU1","transects","Solitary_bees","superfamily","other_wild_bees",1,900,90,NA,"To explore pollinator biodiversity we selected 15 Faba bean fields that were at the same phenological stage and adjacent to a managed grassland (or a natural grassland area when it was not feasible). We conducted pollinator surveys along 25 days (from early July to middle August) by walking during 15 minutes along each of two 150 x 1 m standardized transects per site. One transect was located at the field edge while the central transect was located at 25 m inside the field from the edge. In 5 fields these transects were adapted to the middle of the field as the field did not reach 50 meters. Transect walks were conducted between 8:00 and 16:30, low wind speeds and temperatures above 15 degrees C. Due Andean high altitude weather characteristics, during shorts periods of rain (minutes) or low clouds we stopped the survey and resumed it when weather allowed. Sites were surveyed thrice in random order. We surveyed all honeybees, bumblebees, solitary bees, hoverflies and other Diptera (e.g: Calliphoridae, Tachinidae, Sarcophagidae) that visited flowers inside Faba beans field and at the margin of the crop capturing the pollinators with a net. Handling time invested in capturing pollinators was discounted. In total, the sampling effort was 90 minutes. Pollinators that were easily identifiable (e.g. honeybees and Bombus funebris, medium and big hoverflies) were recorded without capturing when possible.","Round number: 3. Height above sea level:3086 m."
"Carlos_Zaragoza_Trello_Vicia_faba_Ecuador_2017","CUSU1","transects","Solitary_bees","superfamily","other_wild_bees",1,900,90,NA,"To explore pollinator biodiversity we selected 15 Faba bean fields that were at the same phenological stage and adjacent to a managed grassland (or a natural grassland area when it was not feasible). We conducted pollinator surveys along 25 days (from early July to middle August) by walking during 15 minutes along each of two 150 x 1 m standardized transects per site. One transect was located at the field edge while the central transect was located at 25 m inside the field from the edge. In 5 fields these transects were adapted to the middle of the field as the field did not reach 50 meters. Transect walks were conducted between 8:00 and 16:30, low wind speeds and temperatures above 15 degrees C. Due Andean high altitude weather characteristics, during shorts periods of rain (minutes) or low clouds we stopped the survey and resumed it when weather allowed. Sites were surveyed thrice in random order. We surveyed all honeybees, bumblebees, solitary bees, hoverflies and other Diptera (e.g: Calliphoridae, Tachinidae, Sarcophagidae) that visited flowers inside Faba beans field and at the margin of the crop capturing the pollinators with a net. Handling time invested in capturing pollinators was discounted. In total, the sampling effort was 90 minutes. Pollinators that were easily identifiable (e.g. honeybees and Bombus funebris, medium and big hoverflies) were recorded without capturing when possible.","Round number: 2. Height above sea level:3086 m."
"Carlos_Zaragoza_Trello_Vicia_faba_Ecuador_2017","CUSU1","transects","Solitary_bees","superfamily","other_wild_bees",1,900,90,NA,"To explore pollinator biodiversity we selected 15 Faba bean fields that were at the same phenological stage and adjacent to a managed grassland (or a natural grassland area when it was not feasible). We conducted pollinator surveys along 25 days (from early July to middle August) by walking during 15 minutes along each of two 150 x 1 m standardized transects per site. One transect was located at the field edge while the central transect was located at 25 m inside the field from the edge. In 5 fields these transects were adapted to the middle of the field as the field did not reach 50 meters. Transect walks were conducted between 8:00 and 16:30, low wind speeds and temperatures above 15 degrees C. Due Andean high altitude weather characteristics, during shorts periods of rain (minutes) or low clouds we stopped the survey and resumed it when weather allowed. Sites were surveyed thrice in random order. We surveyed all honeybees, bumblebees, solitary bees, hoverflies and other Diptera (e.g: Calliphoridae, Tachinidae, Sarcophagidae) that visited flowers inside Faba beans field and at the margin of the crop capturing the pollinators with a net. Handling time invested in capturing pollinators was discounted. In total, the sampling effort was 90 minutes. Pollinators that were easily identifiable (e.g. honeybees and Bombus funebris, medium and big hoverflies) were recorded without capturing when possible.","Round number: 1. Height above sea level:3086 m."
"Carlos_Zaragoza_Trello_Vicia_faba_Ecuador_2017","CUSU1","transects","Solitary_bees","superfamily","other_wild_bees",1,900,90,NA,"To explore pollinator biodiversity we selected 15 Faba bean fields that were at the same phenological stage and adjacent to a managed grassland (or a natural grassland area when it was not feasible). We conducted pollinator surveys along 25 days (from early July to middle August) by walking during 15 minutes along each of two 150 x 1 m standardized transects per site. One transect was located at the field edge while the central transect was located at 25 m inside the field from the edge. In 5 fields these transects were adapted to the middle of the field as the field did not reach 50 meters. Transect walks were conducted between 8:00 and 16:30, low wind speeds and temperatures above 15 degrees C. Due Andean high altitude weather characteristics, during shorts periods of rain (minutes) or low clouds we stopped the survey and resumed it when weather allowed. Sites were surveyed thrice in random order. We surveyed all honeybees, bumblebees, solitary bees, hoverflies and other Diptera (e.g: Calliphoridae, Tachinidae, Sarcophagidae) that visited flowers inside Faba beans field and at the margin of the crop capturing the pollinators with a net. Handling time invested in capturing pollinators was discounted. In total, the sampling effort was 90 minutes. Pollinators that were easily identifiable (e.g. honeybees and Bombus funebris, medium and big hoverflies) were recorded without capturing when possible.","Round number: 3. Height above sea level:3086 m."
"Carlos_Zaragoza_Trello_Vicia_faba_Ecuador_2017","CUSU1","transects","Solitary_bees","superfamily","other_wild_bees",2,900,90,NA,"To explore pollinator biodiversity we selected 15 Faba bean fields that were at the same phenological stage and adjacent to a managed grassland (or a natural grassland area when it was not feasible). We conducted pollinator surveys along 25 days (from early July to middle August) by walking during 15 minutes along each of two 150 x 1 m standardized transects per site. One transect was located at the field edge while the central transect was located at 25 m inside the field from the edge. In 5 fields these transects were adapted to the middle of the field as the field did not reach 50 meters. Transect walks were conducted between 8:00 and 16:30, low wind speeds and temperatures above 15 degrees C. Due Andean high altitude weather characteristics, during shorts periods of rain (minutes) or low clouds we stopped the survey and resumed it when weather allowed. Sites were surveyed thrice in random order. We surveyed all honeybees, bumblebees, solitary bees, hoverflies and other Diptera (e.g: Calliphoridae, Tachinidae, Sarcophagidae) that visited flowers inside Faba beans field and at the margin of the crop capturing the pollinators with a net. Handling time invested in capturing pollinators was discounted. In total, the sampling effort was 90 minutes. Pollinators that were easily identifiable (e.g. honeybees and Bombus funebris, medium and big hoverflies) were recorded without capturing when possible.","Round number: NA. Height above sea level:3086 m."
"Carlos_Zaragoza_Trello_Vicia_faba_Ecuador_2017","CUSU1","transects","Solitary_bees","superfamily","other_wild_bees",1,900,90,NA,"To explore pollinator biodiversity we selected 15 Faba bean fields that were at the same phenological stage and adjacent to a managed grassland (or a natural grassland area when it was not feasible). We conducted pollinator surveys along 25 days (from early July to middle August) by walking during 15 minutes along each of two 150 x 1 m standardized transects per site. One transect was located at the field edge while the central transect was located at 25 m inside the field from the edge. In 5 fields these transects were adapted to the middle of the field as the field did not reach 50 meters. Transect walks were conducted between 8:00 and 16:30, low wind speeds and temperatures above 15 degrees C. Due Andean high altitude weather characteristics, during shorts periods of rain (minutes) or low clouds we stopped the survey and resumed it when weather allowed. Sites were surveyed thrice in random order. We surveyed all honeybees, bumblebees, solitary bees, hoverflies and other Diptera (e.g: Calliphoridae, Tachinidae, Sarcophagidae) that visited flowers inside Faba beans field and at the margin of the crop capturing the pollinators with a net. Handling time invested in capturing pollinators was discounted. In total, the sampling effort was 90 minutes. Pollinators that were easily identifiable (e.g. honeybees and Bombus funebris, medium and big hoverflies) were recorded without capturing when possible.","Round number: 3. Height above sea level:3086 m."
"Carlos_Zaragoza_Trello_Vicia_faba_Ecuador_2017","CUSU1","transects","Solitary_bees","superfamily","other_wild_bees",1,900,90,NA,"To explore pollinator biodiversity we selected 15 Faba bean fields that were at the same phenological stage and adjacent to a managed grassland (or a natural grassland area when it was not feasible). We conducted pollinator surveys along 25 days (from early July to middle August) by walking during 15 minutes along each of two 150 x 1 m standardized transects per site. One transect was located at the field edge while the central transect was located at 25 m inside the field from the edge. In 5 fields these transects were adapted to the middle of the field as the field did not reach 50 meters. Transect walks were conducted between 8:00 and 16:30, low wind speeds and temperatures above 15 degrees C. Due Andean high altitude weather characteristics, during shorts periods of rain (minutes) or low clouds we stopped the survey and resumed it when weather allowed. Sites were surveyed thrice in random order. We surveyed all honeybees, bumblebees, solitary bees, hoverflies and other Diptera (e.g: Calliphoridae, Tachinidae, Sarcophagidae) that visited flowers inside Faba beans field and at the margin of the crop capturing the pollinators with a net. Handling time invested in capturing pollinators was discounted. In total, the sampling effort was 90 minutes. Pollinators that were easily identifiable (e.g. honeybees and Bombus funebris, medium and big hoverflies) were recorded without capturing when possible.","Round number: 3. Height above sea level:3086 m."
"Carlos_Zaragoza_Trello_Vicia_faba_Ecuador_2017","CUSU2","transects","Solitary_bees","superfamily","other_wild_bees",1,900,90,NA,"To explore pollinator biodiversity we selected 15 Faba bean fields that were at the same phenological stage and adjacent to a managed grassland (or a natural grassland area when it was not feasible). We conducted pollinator surveys along 25 days (from early July to middle August) by walking during 15 minutes along each of two 150 x 1 m standardized transects per site. One transect was located at the field edge while the central transect was located at 25 m inside the field from the edge. In 5 fields these transects were adapted to the middle of the field as the field did not reach 50 meters. Transect walks were conducted between 8:00 and 16:30, low wind speeds and temperatures above 15 degrees C. Due Andean high altitude weather characteristics, during shorts periods of rain (minutes) or low clouds we stopped the survey and resumed it when weather allowed. Sites were surveyed thrice in random order. We surveyed all honeybees, bumblebees, solitary bees, hoverflies and other Diptera (e.g: Calliphoridae, Tachinidae, Sarcophagidae) that visited flowers inside Faba beans field and at the margin of the crop capturing the pollinators with a net. Handling time invested in capturing pollinators was discounted. In total, the sampling effort was 90 minutes. Pollinators that were easily identifiable (e.g. honeybees and Bombus funebris, medium and big hoverflies) were recorded without capturing when possible.","Round number: 3. Height above sea level:3500 m."
"Carlos_Zaragoza_Trello_Vicia_faba_Ecuador_2017","CUSU2","transects","Solitary_bees","superfamily","other_wild_bees",1,900,90,NA,"To explore pollinator biodiversity we selected 15 Faba bean fields that were at the same phenological stage and adjacent to a managed grassland (or a natural grassland area when it was not feasible). We conducted pollinator surveys along 25 days (from early July to middle August) by walking during 15 minutes along each of two 150 x 1 m standardized transects per site. One transect was located at the field edge while the central transect was located at 25 m inside the field from the edge. In 5 fields these transects were adapted to the middle of the field as the field did not reach 50 meters. Transect walks were conducted between 8:00 and 16:30, low wind speeds and temperatures above 15 degrees C. Due Andean high altitude weather characteristics, during shorts periods of rain (minutes) or low clouds we stopped the survey and resumed it when weather allowed. Sites were surveyed thrice in random order. We surveyed all honeybees, bumblebees, solitary bees, hoverflies and other Diptera (e.g: Calliphoridae, Tachinidae, Sarcophagidae) that visited flowers inside Faba beans field and at the margin of the crop capturing the pollinators with a net. Handling time invested in capturing pollinators was discounted. In total, the sampling effort was 90 minutes. Pollinators that were easily identifiable (e.g. honeybees and Bombus funebris, medium and big hoverflies) were recorded without capturing when possible.","Round number: 2. Height above sea level:3500 m."
"Carlos_Zaragoza_Trello_Vicia_faba_Ecuador_2017","Q2","transects","Solitary_bees","superfamily","other_wild_bees",1,900,90,NA,"To explore pollinator biodiversity we selected 15 Faba bean fields that were at the same phenological stage and adjacent to a managed grassland (or a natural grassland area when it was not feasible). We conducted pollinator surveys along 25 days (from early July to middle August) by walking during 15 minutes along each of two 150 x 1 m standardized transects per site. One transect was located at the field edge while the central transect was located at 25 m inside the field from the edge. In 5 fields these transects were adapted to the middle of the field as the field did not reach 50 meters. Transect walks were conducted between 8:00 and 16:30, low wind speeds and temperatures above 15 degrees C. Due Andean high altitude weather characteristics, during shorts periods of rain (minutes) or low clouds we stopped the survey and resumed it when weather allowed. Sites were surveyed thrice in random order. We surveyed all honeybees, bumblebees, solitary bees, hoverflies and other Diptera (e.g: Calliphoridae, Tachinidae, Sarcophagidae) that visited flowers inside Faba beans field and at the margin of the crop capturing the pollinators with a net. Handling time invested in capturing pollinators was discounted. In total, the sampling effort was 90 minutes. Pollinators that were easily identifiable (e.g. honeybees and Bombus funebris, medium and big hoverflies) were recorded without capturing when possible.","Round number: 3. Height above sea level:3780 m."
"Carlos_Zaragoza_Trello_Vicia_faba_Ecuador_2017","Q3","transects","Solitary_bees","superfamily","other_wild_bees",1,900,90,NA,"To explore pollinator biodiversity we selected 15 Faba bean fields that were at the same phenological stage and adjacent to a managed grassland (or a natural grassland area when it was not feasible). We conducted pollinator surveys along 25 days (from early July to middle August) by walking during 15 minutes along each of two 150 x 1 m standardized transects per site. One transect was located at the field edge while the central transect was located at 25 m inside the field from the edge. In 5 fields these transects were adapted to the middle of the field as the field did not reach 50 meters. Transect walks were conducted between 8:00 and 16:30, low wind speeds and temperatures above 15 degrees C. Due Andean high altitude weather characteristics, during shorts periods of rain (minutes) or low clouds we stopped the survey and resumed it when weather allowed. Sites were surveyed thrice in random order. We surveyed all honeybees, bumblebees, solitary bees, hoverflies and other Diptera (e.g: Calliphoridae, Tachinidae, Sarcophagidae) that visited flowers inside Faba beans field and at the margin of the crop capturing the pollinators with a net. Handling time invested in capturing pollinators was discounted. In total, the sampling effort was 90 minutes. Pollinators that were easily identifiable (e.g. honeybees and Bombus funebris, medium and big hoverflies) were recorded without capturing when possible.","Round number: 3. Height above sea level:3747 m."
"Carlos_Zaragoza_Trello_Vicia_faba_Ecuador_2017","Q3","transects","Solitary_bees","superfamily","other_wild_bees",1,900,90,NA,"To explore pollinator biodiversity we selected 15 Faba bean fields that were at the same phenological stage and adjacent to a managed grassland (or a natural grassland area when it was not feasible). We conducted pollinator surveys along 25 days (from early July to middle August) by walking during 15 minutes along each of two 150 x 1 m standardized transects per site. One transect was located at the field edge while the central transect was located at 25 m inside the field from the edge. In 5 fields these transects were adapted to the middle of the field as the field did not reach 50 meters. Transect walks were conducted between 8:00 and 16:30, low wind speeds and temperatures above 15 degrees C. Due Andean high altitude weather characteristics, during shorts periods of rain (minutes) or low clouds we stopped the survey and resumed it when weather allowed. Sites were surveyed thrice in random order. We surveyed all honeybees, bumblebees, solitary bees, hoverflies and other Diptera (e.g: Calliphoridae, Tachinidae, Sarcophagidae) that visited flowers inside Faba beans field and at the margin of the crop capturing the pollinators with a net. Handling time invested in capturing pollinators was discounted. In total, the sampling effort was 90 minutes. Pollinators that were easily identifiable (e.g. honeybees and Bombus funebris, medium and big hoverflies) were recorded without capturing when possible.","Round number: 2. Height above sea level:3747 m."
"Carlos_Zaragoza_Trello_Vicia_faba_Ecuador_2017","Q3","transects","Solitary_bees","superfamily","other_wild_bees",1,900,90,NA,"To explore pollinator biodiversity we selected 15 Faba bean fields that were at the same phenological stage and adjacent to a managed grassland (or a natural grassland area when it was not feasible). We conducted pollinator surveys along 25 days (from early July to middle August) by walking during 15 minutes along each of two 150 x 1 m standardized transects per site. One transect was located at the field edge while the central transect was located at 25 m inside the field from the edge. In 5 fields these transects were adapted to the middle of the field as the field did not reach 50 meters. Transect walks were conducted between 8:00 and 16:30, low wind speeds and temperatures above 15 degrees C. Due Andean high altitude weather characteristics, during shorts periods of rain (minutes) or low clouds we stopped the survey and resumed it when weather allowed. Sites were surveyed thrice in random order. We surveyed all honeybees, bumblebees, solitary bees, hoverflies and other Diptera (e.g: Calliphoridae, Tachinidae, Sarcophagidae) that visited flowers inside Faba beans field and at the margin of the crop capturing the pollinators with a net. Handling time invested in capturing pollinators was discounted. In total, the sampling effort was 90 minutes. Pollinators that were easily identifiable (e.g. honeybees and Bombus funebris, medium and big hoverflies) were recorded without capturing when possible.","Round number: 2. Height above sea level:3747 m."
"Carlos_Zaragoza_Trello_Vicia_faba_Ecuador_2017","Q3","transects","Solitary_bees","superfamily","other_wild_bees",1,900,90,NA,"To explore pollinator biodiversity we selected 15 Faba bean fields that were at the same phenological stage and adjacent to a managed grassland (or a natural grassland area when it was not feasible). We conducted pollinator surveys along 25 days (from early July to middle August) by walking during 15 minutes along each of two 150 x 1 m standardized transects per site. One transect was located at the field edge while the central transect was located at 25 m inside the field from the edge. In 5 fields these transects were adapted to the middle of the field as the field did not reach 50 meters. Transect walks were conducted between 8:00 and 16:30, low wind speeds and temperatures above 15 degrees C. Due Andean high altitude weather characteristics, during shorts periods of rain (minutes) or low clouds we stopped the survey and resumed it when weather allowed. Sites were surveyed thrice in random order. We surveyed all honeybees, bumblebees, solitary bees, hoverflies and other Diptera (e.g: Calliphoridae, Tachinidae, Sarcophagidae) that visited flowers inside Faba beans field and at the margin of the crop capturing the pollinators with a net. Handling time invested in capturing pollinators was discounted. In total, the sampling effort was 90 minutes. Pollinators that were easily identifiable (e.g. honeybees and Bombus funebris, medium and big hoverflies) were recorded without capturing when possible.","Round number: 2. Height above sea level:3747 m."
"Carlos_Zaragoza_Trello_Vicia_faba_Ecuador_2017","Q3","transects","Solitary_bees","superfamily","other_wild_bees",1,900,90,NA,"To explore pollinator biodiversity we selected 15 Faba bean fields that were at the same phenological stage and adjacent to a managed grassland (or a natural grassland area when it was not feasible). We conducted pollinator surveys along 25 days (from early July to middle August) by walking during 15 minutes along each of two 150 x 1 m standardized transects per site. One transect was located at the field edge while the central transect was located at 25 m inside the field from the edge. In 5 fields these transects were adapted to the middle of the field as the field did not reach 50 meters. Transect walks were conducted between 8:00 and 16:30, low wind speeds and temperatures above 15 degrees C. Due Andean high altitude weather characteristics, during shorts periods of rain (minutes) or low clouds we stopped the survey and resumed it when weather allowed. Sites were surveyed thrice in random order. We surveyed all honeybees, bumblebees, solitary bees, hoverflies and other Diptera (e.g: Calliphoridae, Tachinidae, Sarcophagidae) that visited flowers inside Faba beans field and at the margin of the crop capturing the pollinators with a net. Handling time invested in capturing pollinators was discounted. In total, the sampling effort was 90 minutes. Pollinators that were easily identifiable (e.g. honeybees and Bombus funebris, medium and big hoverflies) were recorded without capturing when possible.","Round number: 2. Height above sea level:3747 m."
"Carlos_Zaragoza_Trello_Vicia_faba_Ecuador_2017","Q3","transects","Solitary_bees","superfamily","other_wild_bees",1,900,90,NA,"To explore pollinator biodiversity we selected 15 Faba bean fields that were at the same phenological stage and adjacent to a managed grassland (or a natural grassland area when it was not feasible). We conducted pollinator surveys along 25 days (from early July to middle August) by walking during 15 minutes along each of two 150 x 1 m standardized transects per site. One transect was located at the field edge while the central transect was located at 25 m inside the field from the edge. In 5 fields these transects were adapted to the middle of the field as the field did not reach 50 meters. Transect walks were conducted between 8:00 and 16:30, low wind speeds and temperatures above 15 degrees C. Due Andean high altitude weather characteristics, during shorts periods of rain (minutes) or low clouds we stopped the survey and resumed it when weather allowed. Sites were surveyed thrice in random order. We surveyed all honeybees, bumblebees, solitary bees, hoverflies and other Diptera (e.g: Calliphoridae, Tachinidae, Sarcophagidae) that visited flowers inside Faba beans field and at the margin of the crop capturing the pollinators with a net. Handling time invested in capturing pollinators was discounted. In total, the sampling effort was 90 minutes. Pollinators that were easily identifiable (e.g. honeybees and Bombus funebris, medium and big hoverflies) were recorded without capturing when possible.","Round number: 2. Height above sea level:3747 m."
"Carlos_Zaragoza_Trello_Vicia_faba_Ecuador_2017","BQ1","transects","syrphids","family","syrphids",1,900,90,NA,"To explore pollinator biodiversity we selected 15 Faba bean fields that were at the same phenological stage and adjacent to a managed grassland (or a natural grassland area when it was not feasible). We conducted pollinator surveys along 25 days (from early July to middle August) by walking during 15 minutes along each of two 150 x 1 m standardized transects per site. One transect was located at the field edge while the central transect was located at 25 m inside the field from the edge. In 5 fields these transects were adapted to the middle of the field as the field did not reach 50 meters. Transect walks were conducted between 8:00 and 16:30, low wind speeds and temperatures above 15 degrees C. Due Andean high altitude weather characteristics, during shorts periods of rain (minutes) or low clouds we stopped the survey and resumed it when weather allowed. Sites were surveyed thrice in random order. We surveyed all honeybees, bumblebees, solitary bees, hoverflies and other Diptera (e.g: Calliphoridae, Tachinidae, Sarcophagidae) that visited flowers inside Faba beans field and at the margin of the crop capturing the pollinators with a net. Handling time invested in capturing pollinators was discounted. In total, the sampling effort was 90 minutes. Pollinators that were easily identifiable (e.g. honeybees and Bombus funebris, medium and big hoverflies) were recorded without capturing when possible.","Round number: 1. Height above sea level:2818 m."
"Carlos_Zaragoza_Trello_Vicia_faba_Ecuador_2017","BQ1","transects","syrphids","family","syrphids",1,900,90,NA,"To explore pollinator biodiversity we selected 15 Faba bean fields that were at the same phenological stage and adjacent to a managed grassland (or a natural grassland area when it was not feasible). We conducted pollinator surveys along 25 days (from early July to middle August) by walking during 15 minutes along each of two 150 x 1 m standardized transects per site. One transect was located at the field edge while the central transect was located at 25 m inside the field from the edge. In 5 fields these transects were adapted to the middle of the field as the field did not reach 50 meters. Transect walks were conducted between 8:00 and 16:30, low wind speeds and temperatures above 15 degrees C. Due Andean high altitude weather characteristics, during shorts periods of rain (minutes) or low clouds we stopped the survey and resumed it when weather allowed. Sites were surveyed thrice in random order. We surveyed all honeybees, bumblebees, solitary bees, hoverflies and other Diptera (e.g: Calliphoridae, Tachinidae, Sarcophagidae) that visited flowers inside Faba beans field and at the margin of the crop capturing the pollinators with a net. Handling time invested in capturing pollinators was discounted. In total, the sampling effort was 90 minutes. Pollinators that were easily identifiable (e.g. honeybees and Bombus funebris, medium and big hoverflies) were recorded without capturing when possible.","Round number: 2. Height above sea level:2818 m."
"Carlos_Zaragoza_Trello_Vicia_faba_Ecuador_2017","BQ1","transects","syrphids","family","syrphids",1,900,90,NA,"To explore pollinator biodiversity we selected 15 Faba bean fields that were at the same phenological stage and adjacent to a managed grassland (or a natural grassland area when it was not feasible). We conducted pollinator surveys along 25 days (from early July to middle August) by walking during 15 minutes along each of two 150 x 1 m standardized transects per site. One transect was located at the field edge while the central transect was located at 25 m inside the field from the edge. In 5 fields these transects were adapted to the middle of the field as the field did not reach 50 meters. Transect walks were conducted between 8:00 and 16:30, low wind speeds and temperatures above 15 degrees C. Due Andean high altitude weather characteristics, during shorts periods of rain (minutes) or low clouds we stopped the survey and resumed it when weather allowed. Sites were surveyed thrice in random order. We surveyed all honeybees, bumblebees, solitary bees, hoverflies and other Diptera (e.g: Calliphoridae, Tachinidae, Sarcophagidae) that visited flowers inside Faba beans field and at the margin of the crop capturing the pollinators with a net. Handling time invested in capturing pollinators was discounted. In total, the sampling effort was 90 minutes. Pollinators that were easily identifiable (e.g. honeybees and Bombus funebris, medium and big hoverflies) were recorded without capturing when possible.","Round number: 2. Height above sea level:2818 m."
"Carlos_Zaragoza_Trello_Vicia_faba_Ecuador_2017","BQ1","transects","syrphids","family","syrphids",1,900,90,NA,"To explore pollinator biodiversity we selected 15 Faba bean fields that were at the same phenological stage and adjacent to a managed grassland (or a natural grassland area when it was not feasible). We conducted pollinator surveys along 25 days (from early July to middle August) by walking during 15 minutes along each of two 150 x 1 m standardized transects per site. One transect was located at the field edge while the central transect was located at 25 m inside the field from the edge. In 5 fields these transects were adapted to the middle of the field as the field did not reach 50 meters. Transect walks were conducted between 8:00 and 16:30, low wind speeds and temperatures above 15 degrees C. Due Andean high altitude weather characteristics, during shorts periods of rain (minutes) or low clouds we stopped the survey and resumed it when weather allowed. Sites were surveyed thrice in random order. We surveyed all honeybees, bumblebees, solitary bees, hoverflies and other Diptera (e.g: Calliphoridae, Tachinidae, Sarcophagidae) that visited flowers inside Faba beans field and at the margin of the crop capturing the pollinators with a net. Handling time invested in capturing pollinators was discounted. In total, the sampling effort was 90 minutes. Pollinators that were easily identifiable (e.g. honeybees and Bombus funebris, medium and big hoverflies) were recorded without capturing when possible.","Round number: 2. Height above sea level:2818 m."
"Carlos_Zaragoza_Trello_Vicia_faba_Ecuador_2017","BQ1","transects","syrphids","family","syrphids",1,900,90,NA,"To explore pollinator biodiversity we selected 15 Faba bean fields that were at the same phenological stage and adjacent to a managed grassland (or a natural grassland area when it was not feasible). We conducted pollinator surveys along 25 days (from early July to middle August) by walking during 15 minutes along each of two 150 x 1 m standardized transects per site. One transect was located at the field edge while the central transect was located at 25 m inside the field from the edge. In 5 fields these transects were adapted to the middle of the field as the field did not reach 50 meters. Transect walks were conducted between 8:00 and 16:30, low wind speeds and temperatures above 15 degrees C. Due Andean high altitude weather characteristics, during shorts periods of rain (minutes) or low clouds we stopped the survey and resumed it when weather allowed. Sites were surveyed thrice in random order. We surveyed all honeybees, bumblebees, solitary bees, hoverflies and other Diptera (e.g: Calliphoridae, Tachinidae, Sarcophagidae) that visited flowers inside Faba beans field and at the margin of the crop capturing the pollinators with a net. Handling time invested in capturing pollinators was discounted. In total, the sampling effort was 90 minutes. Pollinators that were easily identifiable (e.g. honeybees and Bombus funebris, medium and big hoverflies) were recorded without capturing when possible.","Round number: 2. Height above sea level:2818 m."
"Carlos_Zaragoza_Trello_Vicia_faba_Ecuador_2017","BQ1","transects","syrphids","family","syrphids",1,900,90,NA,"To explore pollinator biodiversity we selected 15 Faba bean fields that were at the same phenological stage and adjacent to a managed grassland (or a natural grassland area when it was not feasible). We conducted pollinator surveys along 25 days (from early July to middle August) by walking during 15 minutes along each of two 150 x 1 m standardized transects per site. One transect was located at the field edge while the central transect was located at 25 m inside the field from the edge. In 5 fields these transects were adapted to the middle of the field as the field did not reach 50 meters. Transect walks were conducted between 8:00 and 16:30, low wind speeds and temperatures above 15 degrees C. Due Andean high altitude weather characteristics, during shorts periods of rain (minutes) or low clouds we stopped the survey and resumed it when weather allowed. Sites were surveyed thrice in random order. We surveyed all honeybees, bumblebees, solitary bees, hoverflies and other Diptera (e.g: Calliphoridae, Tachinidae, Sarcophagidae) that visited flowers inside Faba beans field and at the margin of the crop capturing the pollinators with a net. Handling time invested in capturing pollinators was discounted. In total, the sampling effort was 90 minutes. Pollinators that were easily identifiable (e.g. honeybees and Bombus funebris, medium and big hoverflies) were recorded without capturing when possible.","Round number: 2. Height above sea level:2818 m."
"Carlos_Zaragoza_Trello_Vicia_faba_Ecuador_2017","BQ1","transects","syrphids","family","syrphids",1,900,90,NA,"To explore pollinator biodiversity we selected 15 Faba bean fields that were at the same phenological stage and adjacent to a managed grassland (or a natural grassland area when it was not feasible). We conducted pollinator surveys along 25 days (from early July to middle August) by walking during 15 minutes along each of two 150 x 1 m standardized transects per site. One transect was located at the field edge while the central transect was located at 25 m inside the field from the edge. In 5 fields these transects were adapted to the middle of the field as the field did not reach 50 meters. Transect walks were conducted between 8:00 and 16:30, low wind speeds and temperatures above 15 degrees C. Due Andean high altitude weather characteristics, during shorts periods of rain (minutes) or low clouds we stopped the survey and resumed it when weather allowed. Sites were surveyed thrice in random order. We surveyed all honeybees, bumblebees, solitary bees, hoverflies and other Diptera (e.g: Calliphoridae, Tachinidae, Sarcophagidae) that visited flowers inside Faba beans field and at the margin of the crop capturing the pollinators with a net. Handling time invested in capturing pollinators was discounted. In total, the sampling effort was 90 minutes. Pollinators that were easily identifiable (e.g. honeybees and Bombus funebris, medium and big hoverflies) were recorded without capturing when possible.","Round number: 2. Height above sea level:2818 m."
"Carlos_Zaragoza_Trello_Vicia_faba_Ecuador_2017","BQ1","transects","syrphids","family","syrphids",1,900,90,NA,"To explore pollinator biodiversity we selected 15 Faba bean fields that were at the same phenological stage and adjacent to a managed grassland (or a natural grassland area when it was not feasible). We conducted pollinator surveys along 25 days (from early July to middle August) by walking during 15 minutes along each of two 150 x 1 m standardized transects per site. One transect was located at the field edge while the central transect was located at 25 m inside the field from the edge. In 5 fields these transects were adapted to the middle of the field as the field did not reach 50 meters. Transect walks were conducted between 8:00 and 16:30, low wind speeds and temperatures above 15 degrees C. Due Andean high altitude weather characteristics, during shorts periods of rain (minutes) or low clouds we stopped the survey and resumed it when weather allowed. Sites were surveyed thrice in random order. We surveyed all honeybees, bumblebees, solitary bees, hoverflies and other Diptera (e.g: Calliphoridae, Tachinidae, Sarcophagidae) that visited flowers inside Faba beans field and at the margin of the crop capturing the pollinators with a net. Handling time invested in capturing pollinators was discounted. In total, the sampling effort was 90 minutes. Pollinators that were easily identifiable (e.g. honeybees and Bombus funebris, medium and big hoverflies) were recorded without capturing when possible.","Round number: 2. Height above sea level:2818 m."
"Carlos_Zaragoza_Trello_Vicia_faba_Ecuador_2017","BQ1","transects","syrphids","family","syrphids",1,900,90,NA,"To explore pollinator biodiversity we selected 15 Faba bean fields that were at the same phenological stage and adjacent to a managed grassland (or a natural grassland area when it was not feasible). We conducted pollinator surveys along 25 days (from early July to middle August) by walking during 15 minutes along each of two 150 x 1 m standardized transects per site. One transect was located at the field edge while the central transect was located at 25 m inside the field from the edge. In 5 fields these transects were adapted to the middle of the field as the field did not reach 50 meters. Transect walks were conducted between 8:00 and 16:30, low wind speeds and temperatures above 15 degrees C. Due Andean high altitude weather characteristics, during shorts periods of rain (minutes) or low clouds we stopped the survey and resumed it when weather allowed. Sites were surveyed thrice in random order. We surveyed all honeybees, bumblebees, solitary bees, hoverflies and other Diptera (e.g: Calliphoridae, Tachinidae, Sarcophagidae) that visited flowers inside Faba beans field and at the margin of the crop capturing the pollinators with a net. Handling time invested in capturing pollinators was discounted. In total, the sampling effort was 90 minutes. Pollinators that were easily identifiable (e.g. honeybees and Bombus funebris, medium and big hoverflies) were recorded without capturing when possible.","Round number: 3. Height above sea level:2818 m."
"Carlos_Zaragoza_Trello_Vicia_faba_Ecuador_2017","BQ1","transects","syrphids","family","syrphids",1,900,90,NA,"To explore pollinator biodiversity we selected 15 Faba bean fields that were at the same phenological stage and adjacent to a managed grassland (or a natural grassland area when it was not feasible). We conducted pollinator surveys along 25 days (from early July to middle August) by walking during 15 minutes along each of two 150 x 1 m standardized transects per site. One transect was located at the field edge while the central transect was located at 25 m inside the field from the edge. In 5 fields these transects were adapted to the middle of the field as the field did not reach 50 meters. Transect walks were conducted between 8:00 and 16:30, low wind speeds and temperatures above 15 degrees C. Due Andean high altitude weather characteristics, during shorts periods of rain (minutes) or low clouds we stopped the survey and resumed it when weather allowed. Sites were surveyed thrice in random order. We surveyed all honeybees, bumblebees, solitary bees, hoverflies and other Diptera (e.g: Calliphoridae, Tachinidae, Sarcophagidae) that visited flowers inside Faba beans field and at the margin of the crop capturing the pollinators with a net. Handling time invested in capturing pollinators was discounted. In total, the sampling effort was 90 minutes. Pollinators that were easily identifiable (e.g. honeybees and Bombus funebris, medium and big hoverflies) were recorded without capturing when possible.","Round number: 3. Height above sea level:2818 m."
"Carlos_Zaragoza_Trello_Vicia_faba_Ecuador_2017","BQ1","transects","syrphids","family","syrphids",1,900,90,NA,"To explore pollinator biodiversity we selected 15 Faba bean fields that were at the same phenological stage and adjacent to a managed grassland (or a natural grassland area when it was not feasible). We conducted pollinator surveys along 25 days (from early July to middle August) by walking during 15 minutes along each of two 150 x 1 m standardized transects per site. One transect was located at the field edge while the central transect was located at 25 m inside the field from the edge. In 5 fields these transects were adapted to the middle of the field as the field did not reach 50 meters. Transect walks were conducted between 8:00 and 16:30, low wind speeds and temperatures above 15 degrees C. Due Andean high altitude weather characteristics, during shorts periods of rain (minutes) or low clouds we stopped the survey and resumed it when weather allowed. Sites were surveyed thrice in random order. We surveyed all honeybees, bumblebees, solitary bees, hoverflies and other Diptera (e.g: Calliphoridae, Tachinidae, Sarcophagidae) that visited flowers inside Faba beans field and at the margin of the crop capturing the pollinators with a net. Handling time invested in capturing pollinators was discounted. In total, the sampling effort was 90 minutes. Pollinators that were easily identifiable (e.g. honeybees and Bombus funebris, medium and big hoverflies) were recorded without capturing when possible.","Round number: 2. Height above sea level:2818 m."
"Carlos_Zaragoza_Trello_Vicia_faba_Ecuador_2017","BQ1","transects","syrphids","family","syrphids",1,900,90,NA,"To explore pollinator biodiversity we selected 15 Faba bean fields that were at the same phenological stage and adjacent to a managed grassland (or a natural grassland area when it was not feasible). We conducted pollinator surveys along 25 days (from early July to middle August) by walking during 15 minutes along each of two 150 x 1 m standardized transects per site. One transect was located at the field edge while the central transect was located at 25 m inside the field from the edge. In 5 fields these transects were adapted to the middle of the field as the field did not reach 50 meters. Transect walks were conducted between 8:00 and 16:30, low wind speeds and temperatures above 15 degrees C. Due Andean high altitude weather characteristics, during shorts periods of rain (minutes) or low clouds we stopped the survey and resumed it when weather allowed. Sites were surveyed thrice in random order. We surveyed all honeybees, bumblebees, solitary bees, hoverflies and other Diptera (e.g: Calliphoridae, Tachinidae, Sarcophagidae) that visited flowers inside Faba beans field and at the margin of the crop capturing the pollinators with a net. Handling time invested in capturing pollinators was discounted. In total, the sampling effort was 90 minutes. Pollinators that were easily identifiable (e.g. honeybees and Bombus funebris, medium and big hoverflies) were recorded without capturing when possible.","Round number: 3. Height above sea level:2818 m."
"Carlos_Zaragoza_Trello_Vicia_faba_Ecuador_2017","BQ1","transects","syrphids","family","syrphids",1,900,90,NA,"To explore pollinator biodiversity we selected 15 Faba bean fields that were at the same phenological stage and adjacent to a managed grassland (or a natural grassland area when it was not feasible). We conducted pollinator surveys along 25 days (from early July to middle August) by walking during 15 minutes along each of two 150 x 1 m standardized transects per site. One transect was located at the field edge while the central transect was located at 25 m inside the field from the edge. In 5 fields these transects were adapted to the middle of the field as the field did not reach 50 meters. Transect walks were conducted between 8:00 and 16:30, low wind speeds and temperatures above 15 degrees C. Due Andean high altitude weather characteristics, during shorts periods of rain (minutes) or low clouds we stopped the survey and resumed it when weather allowed. Sites were surveyed thrice in random order. We surveyed all honeybees, bumblebees, solitary bees, hoverflies and other Diptera (e.g: Calliphoridae, Tachinidae, Sarcophagidae) that visited flowers inside Faba beans field and at the margin of the crop capturing the pollinators with a net. Handling time invested in capturing pollinators was discounted. In total, the sampling effort was 90 minutes. Pollinators that were easily identifiable (e.g. honeybees and Bombus funebris, medium and big hoverflies) were recorded without capturing when possible.","Round number: 3. Height above sea level:2818 m."
"Carlos_Zaragoza_Trello_Vicia_faba_Ecuador_2017","BQ1","transects","syrphids","family","syrphids",5,900,90,NA,"To explore pollinator biodiversity we selected 15 Faba bean fields that were at the same phenological stage and adjacent to a managed grassland (or a natural grassland area when it was not feasible). We conducted pollinator surveys along 25 days (from early July to middle August) by walking during 15 minutes along each of two 150 x 1 m standardized transects per site. One transect was located at the field edge while the central transect was located at 25 m inside the field from the edge. In 5 fields these transects were adapted to the middle of the field as the field did not reach 50 meters. Transect walks were conducted between 8:00 and 16:30, low wind speeds and temperatures above 15 degrees C. Due Andean high altitude weather characteristics, during shorts periods of rain (minutes) or low clouds we stopped the survey and resumed it when weather allowed. Sites were surveyed thrice in random order. We surveyed all honeybees, bumblebees, solitary bees, hoverflies and other Diptera (e.g: Calliphoridae, Tachinidae, Sarcophagidae) that visited flowers inside Faba beans field and at the margin of the crop capturing the pollinators with a net. Handling time invested in capturing pollinators was discounted. In total, the sampling effort was 90 minutes. Pollinators that were easily identifiable (e.g. honeybees and Bombus funebris, medium and big hoverflies) were recorded without capturing when possible.","Round number: 2. Height above sea level:2818 m."
"Carlos_Zaragoza_Trello_Vicia_faba_Ecuador_2017","BQ1","transects","syrphids","family","syrphids",40,900,90,NA,"To explore pollinator biodiversity we selected 15 Faba bean fields that were at the same phenological stage and adjacent to a managed grassland (or a natural grassland area when it was not feasible). We conducted pollinator surveys along 25 days (from early July to middle August) by walking during 15 minutes along each of two 150 x 1 m standardized transects per site. One transect was located at the field edge while the central transect was located at 25 m inside the field from the edge. In 5 fields these transects were adapted to the middle of the field as the field did not reach 50 meters. Transect walks were conducted between 8:00 and 16:30, low wind speeds and temperatures above 15 degrees C. Due Andean high altitude weather characteristics, during shorts periods of rain (minutes) or low clouds we stopped the survey and resumed it when weather allowed. Sites were surveyed thrice in random order. We surveyed all honeybees, bumblebees, solitary bees, hoverflies and other Diptera (e.g: Calliphoridae, Tachinidae, Sarcophagidae) that visited flowers inside Faba beans field and at the margin of the crop capturing the pollinators with a net. Handling time invested in capturing pollinators was discounted. In total, the sampling effort was 90 minutes. Pollinators that were easily identifiable (e.g. honeybees and Bombus funebris, medium and big hoverflies) were recorded without capturing when possible.","Round number: 2. Height above sea level:2818 m."
"Carlos_Zaragoza_Trello_Vicia_faba_Ecuador_2017","BQ1","transects","syrphids","family","syrphids",3,900,90,NA,"To explore pollinator biodiversity we selected 15 Faba bean fields that were at the same phenological stage and adjacent to a managed grassland (or a natural grassland area when it was not feasible). We conducted pollinator surveys along 25 days (from early July to middle August) by walking during 15 minutes along each of two 150 x 1 m standardized transects per site. One transect was located at the field edge while the central transect was located at 25 m inside the field from the edge. In 5 fields these transects were adapted to the middle of the field as the field did not reach 50 meters. Transect walks were conducted between 8:00 and 16:30, low wind speeds and temperatures above 15 degrees C. Due Andean high altitude weather characteristics, during shorts periods of rain (minutes) or low clouds we stopped the survey and resumed it when weather allowed. Sites were surveyed thrice in random order. We surveyed all honeybees, bumblebees, solitary bees, hoverflies and other Diptera (e.g: Calliphoridae, Tachinidae, Sarcophagidae) that visited flowers inside Faba beans field and at the margin of the crop capturing the pollinators with a net. Handling time invested in capturing pollinators was discounted. In total, the sampling effort was 90 minutes. Pollinators that were easily identifiable (e.g. honeybees and Bombus funebris, medium and big hoverflies) were recorded without capturing when possible.","Round number: NA. Height above sea level:2818 m."
"Carlos_Zaragoza_Trello_Vicia_faba_Ecuador_2017","BQ1","transects","syrphids","family","syrphids",3,900,90,NA,"To explore pollinator biodiversity we selected 15 Faba bean fields that were at the same phenological stage and adjacent to a managed grassland (or a natural grassland area when it was not feasible). We conducted pollinator surveys along 25 days (from early July to middle August) by walking during 15 minutes along each of two 150 x 1 m standardized transects per site. One transect was located at the field edge while the central transect was located at 25 m inside the field from the edge. In 5 fields these transects were adapted to the middle of the field as the field did not reach 50 meters. Transect walks were conducted between 8:00 and 16:30, low wind speeds and temperatures above 15 degrees C. Due Andean high altitude weather characteristics, during shorts periods of rain (minutes) or low clouds we stopped the survey and resumed it when weather allowed. Sites were surveyed thrice in random order. We surveyed all honeybees, bumblebees, solitary bees, hoverflies and other Diptera (e.g: Calliphoridae, Tachinidae, Sarcophagidae) that visited flowers inside Faba beans field and at the margin of the crop capturing the pollinators with a net. Handling time invested in capturing pollinators was discounted. In total, the sampling effort was 90 minutes. Pollinators that were easily identifiable (e.g. honeybees and Bombus funebris, medium and big hoverflies) were recorded without capturing when possible.","Round number: NA. Height above sea level:2818 m."
"Carlos_Zaragoza_Trello_Vicia_faba_Ecuador_2017","BQ1","transects","syrphids","family","syrphids",1,900,90,NA,"To explore pollinator biodiversity we selected 15 Faba bean fields that were at the same phenological stage and adjacent to a managed grassland (or a natural grassland area when it was not feasible). We conducted pollinator surveys along 25 days (from early July to middle August) by walking during 15 minutes along each of two 150 x 1 m standardized transects per site. One transect was located at the field edge while the central transect was located at 25 m inside the field from the edge. In 5 fields these transects were adapted to the middle of the field as the field did not reach 50 meters. Transect walks were conducted between 8:00 and 16:30, low wind speeds and temperatures above 15 degrees C. Due Andean high altitude weather characteristics, during shorts periods of rain (minutes) or low clouds we stopped the survey and resumed it when weather allowed. Sites were surveyed thrice in random order. We surveyed all honeybees, bumblebees, solitary bees, hoverflies and other Diptera (e.g: Calliphoridae, Tachinidae, Sarcophagidae) that visited flowers inside Faba beans field and at the margin of the crop capturing the pollinators with a net. Handling time invested in capturing pollinators was discounted. In total, the sampling effort was 90 minutes. Pollinators that were easily identifiable (e.g. honeybees and Bombus funebris, medium and big hoverflies) were recorded without capturing when possible.","Round number: NA. Height above sea level:2818 m."
"Carlos_Zaragoza_Trello_Vicia_faba_Ecuador_2017","BQ1","transects","syrphids","family","syrphids",4,900,90,NA,"To explore pollinator biodiversity we selected 15 Faba bean fields that were at the same phenological stage and adjacent to a managed grassland (or a natural grassland area when it was not feasible). We conducted pollinator surveys along 25 days (from early July to middle August) by walking during 15 minutes along each of two 150 x 1 m standardized transects per site. One transect was located at the field edge while the central transect was located at 25 m inside the field from the edge. In 5 fields these transects were adapted to the middle of the field as the field did not reach 50 meters. Transect walks were conducted between 8:00 and 16:30, low wind speeds and temperatures above 15 degrees C. Due Andean high altitude weather characteristics, during shorts periods of rain (minutes) or low clouds we stopped the survey and resumed it when weather allowed. Sites were surveyed thrice in random order. We surveyed all honeybees, bumblebees, solitary bees, hoverflies and other Diptera (e.g: Calliphoridae, Tachinidae, Sarcophagidae) that visited flowers inside Faba beans field and at the margin of the crop capturing the pollinators with a net. Handling time invested in capturing pollinators was discounted. In total, the sampling effort was 90 minutes. Pollinators that were easily identifiable (e.g. honeybees and Bombus funebris, medium and big hoverflies) were recorded without capturing when possible.","Round number: 2. Height above sea level:2818 m."
"Carlos_Zaragoza_Trello_Vicia_faba_Ecuador_2017","BQ1","transects","syrphids","family","syrphids",2,900,90,NA,"To explore pollinator biodiversity we selected 15 Faba bean fields that were at the same phenological stage and adjacent to a managed grassland (or a natural grassland area when it was not feasible). We conducted pollinator surveys along 25 days (from early July to middle August) by walking during 15 minutes along each of two 150 x 1 m standardized transects per site. One transect was located at the field edge while the central transect was located at 25 m inside the field from the edge. In 5 fields these transects were adapted to the middle of the field as the field did not reach 50 meters. Transect walks were conducted between 8:00 and 16:30, low wind speeds and temperatures above 15 degrees C. Due Andean high altitude weather characteristics, during shorts periods of rain (minutes) or low clouds we stopped the survey and resumed it when weather allowed. Sites were surveyed thrice in random order. We surveyed all honeybees, bumblebees, solitary bees, hoverflies and other Diptera (e.g: Calliphoridae, Tachinidae, Sarcophagidae) that visited flowers inside Faba beans field and at the margin of the crop capturing the pollinators with a net. Handling time invested in capturing pollinators was discounted. In total, the sampling effort was 90 minutes. Pollinators that were easily identifiable (e.g. honeybees and Bombus funebris, medium and big hoverflies) were recorded without capturing when possible.","Round number: 3. Height above sea level:2818 m."
"Carlos_Zaragoza_Trello_Vicia_faba_Ecuador_2017","BQ1","transects","syrphids","family","syrphids",2,900,90,NA,"To explore pollinator biodiversity we selected 15 Faba bean fields that were at the same phenological stage and adjacent to a managed grassland (or a natural grassland area when it was not feasible). We conducted pollinator surveys along 25 days (from early July to middle August) by walking during 15 minutes along each of two 150 x 1 m standardized transects per site. One transect was located at the field edge while the central transect was located at 25 m inside the field from the edge. In 5 fields these transects were adapted to the middle of the field as the field did not reach 50 meters. Transect walks were conducted between 8:00 and 16:30, low wind speeds and temperatures above 15 degrees C. Due Andean high altitude weather characteristics, during shorts periods of rain (minutes) or low clouds we stopped the survey and resumed it when weather allowed. Sites were surveyed thrice in random order. We surveyed all honeybees, bumblebees, solitary bees, hoverflies and other Diptera (e.g: Calliphoridae, Tachinidae, Sarcophagidae) that visited flowers inside Faba beans field and at the margin of the crop capturing the pollinators with a net. Handling time invested in capturing pollinators was discounted. In total, the sampling effort was 90 minutes. Pollinators that were easily identifiable (e.g. honeybees and Bombus funebris, medium and big hoverflies) were recorded without capturing when possible.","Round number: 3. Height above sea level:2818 m."
"Carlos_Zaragoza_Trello_Vicia_faba_Ecuador_2017","BQ1","transects","syrphids","family","syrphids",4,900,90,NA,"To explore pollinator biodiversity we selected 15 Faba bean fields that were at the same phenological stage and adjacent to a managed grassland (or a natural grassland area when it was not feasible). We conducted pollinator surveys along 25 days (from early July to middle August) by walking during 15 minutes along each of two 150 x 1 m standardized transects per site. One transect was located at the field edge while the central transect was located at 25 m inside the field from the edge. In 5 fields these transects were adapted to the middle of the field as the field did not reach 50 meters. Transect walks were conducted between 8:00 and 16:30, low wind speeds and temperatures above 15 degrees C. Due Andean high altitude weather characteristics, during shorts periods of rain (minutes) or low clouds we stopped the survey and resumed it when weather allowed. Sites were surveyed thrice in random order. We surveyed all honeybees, bumblebees, solitary bees, hoverflies and other Diptera (e.g: Calliphoridae, Tachinidae, Sarcophagidae) that visited flowers inside Faba beans field and at the margin of the crop capturing the pollinators with a net. Handling time invested in capturing pollinators was discounted. In total, the sampling effort was 90 minutes. Pollinators that were easily identifiable (e.g. honeybees and Bombus funebris, medium and big hoverflies) were recorded without capturing when possible.","Round number: 1. Height above sea level:2818 m."
"Carlos_Zaragoza_Trello_Vicia_faba_Ecuador_2017","BQ2","transects","syrphids","family","syrphids",1,900,90,NA,"To explore pollinator biodiversity we selected 15 Faba bean fields that were at the same phenological stage and adjacent to a managed grassland (or a natural grassland area when it was not feasible). We conducted pollinator surveys along 25 days (from early July to middle August) by walking during 15 minutes along each of two 150 x 1 m standardized transects per site. One transect was located at the field edge while the central transect was located at 25 m inside the field from the edge. In 5 fields these transects were adapted to the middle of the field as the field did not reach 50 meters. Transect walks were conducted between 8:00 and 16:30, low wind speeds and temperatures above 15 degrees C. Due Andean high altitude weather characteristics, during shorts periods of rain (minutes) or low clouds we stopped the survey and resumed it when weather allowed. Sites were surveyed thrice in random order. We surveyed all honeybees, bumblebees, solitary bees, hoverflies and other Diptera (e.g: Calliphoridae, Tachinidae, Sarcophagidae) that visited flowers inside Faba beans field and at the margin of the crop capturing the pollinators with a net. Handling time invested in capturing pollinators was discounted. In total, the sampling effort was 90 minutes. Pollinators that were easily identifiable (e.g. honeybees and Bombus funebris, medium and big hoverflies) were recorded without capturing when possible.","Round number: 1. Height above sea level:3041 m."
"Carlos_Zaragoza_Trello_Vicia_faba_Ecuador_2017","BQ2","transects","syrphids","family","syrphids",1,900,90,NA,"To explore pollinator biodiversity we selected 15 Faba bean fields that were at the same phenological stage and adjacent to a managed grassland (or a natural grassland area when it was not feasible). We conducted pollinator surveys along 25 days (from early July to middle August) by walking during 15 minutes along each of two 150 x 1 m standardized transects per site. One transect was located at the field edge while the central transect was located at 25 m inside the field from the edge. In 5 fields these transects were adapted to the middle of the field as the field did not reach 50 meters. Transect walks were conducted between 8:00 and 16:30, low wind speeds and temperatures above 15 degrees C. Due Andean high altitude weather characteristics, during shorts periods of rain (minutes) or low clouds we stopped the survey and resumed it when weather allowed. Sites were surveyed thrice in random order. We surveyed all honeybees, bumblebees, solitary bees, hoverflies and other Diptera (e.g: Calliphoridae, Tachinidae, Sarcophagidae) that visited flowers inside Faba beans field and at the margin of the crop capturing the pollinators with a net. Handling time invested in capturing pollinators was discounted. In total, the sampling effort was 90 minutes. Pollinators that were easily identifiable (e.g. honeybees and Bombus funebris, medium and big hoverflies) were recorded without capturing when possible.","Round number: 1. Height above sea level:3041 m."
"Carlos_Zaragoza_Trello_Vicia_faba_Ecuador_2017","BQ2","transects","syrphids","family","syrphids",1,900,90,NA,"To explore pollinator biodiversity we selected 15 Faba bean fields that were at the same phenological stage and adjacent to a managed grassland (or a natural grassland area when it was not feasible). We conducted pollinator surveys along 25 days (from early July to middle August) by walking during 15 minutes along each of two 150 x 1 m standardized transects per site. One transect was located at the field edge while the central transect was located at 25 m inside the field from the edge. In 5 fields these transects were adapted to the middle of the field as the field did not reach 50 meters. Transect walks were conducted between 8:00 and 16:30, low wind speeds and temperatures above 15 degrees C. Due Andean high altitude weather characteristics, during shorts periods of rain (minutes) or low clouds we stopped the survey and resumed it when weather allowed. Sites were surveyed thrice in random order. We surveyed all honeybees, bumblebees, solitary bees, hoverflies and other Diptera (e.g: Calliphoridae, Tachinidae, Sarcophagidae) that visited flowers inside Faba beans field and at the margin of the crop capturing the pollinators with a net. Handling time invested in capturing pollinators was discounted. In total, the sampling effort was 90 minutes. Pollinators that were easily identifiable (e.g. honeybees and Bombus funebris, medium and big hoverflies) were recorded without capturing when possible.","Round number: 1. Height above sea level:3041 m."
"Carlos_Zaragoza_Trello_Vicia_faba_Ecuador_2017","BQ2","transects","syrphids","family","syrphids",1,900,90,NA,"To explore pollinator biodiversity we selected 15 Faba bean fields that were at the same phenological stage and adjacent to a managed grassland (or a natural grassland area when it was not feasible). We conducted pollinator surveys along 25 days (from early July to middle August) by walking during 15 minutes along each of two 150 x 1 m standardized transects per site. One transect was located at the field edge while the central transect was located at 25 m inside the field from the edge. In 5 fields these transects were adapted to the middle of the field as the field did not reach 50 meters. Transect walks were conducted between 8:00 and 16:30, low wind speeds and temperatures above 15 degrees C. Due Andean high altitude weather characteristics, during shorts periods of rain (minutes) or low clouds we stopped the survey and resumed it when weather allowed. Sites were surveyed thrice in random order. We surveyed all honeybees, bumblebees, solitary bees, hoverflies and other Diptera (e.g: Calliphoridae, Tachinidae, Sarcophagidae) that visited flowers inside Faba beans field and at the margin of the crop capturing the pollinators with a net. Handling time invested in capturing pollinators was discounted. In total, the sampling effort was 90 minutes. Pollinators that were easily identifiable (e.g. honeybees and Bombus funebris, medium and big hoverflies) were recorded without capturing when possible.","Round number: 1. Height above sea level:3041 m."
"Carlos_Zaragoza_Trello_Vicia_faba_Ecuador_2017","BQ2","transects","syrphids","family","syrphids",1,900,90,NA,"To explore pollinator biodiversity we selected 15 Faba bean fields that were at the same phenological stage and adjacent to a managed grassland (or a natural grassland area when it was not feasible). We conducted pollinator surveys along 25 days (from early July to middle August) by walking during 15 minutes along each of two 150 x 1 m standardized transects per site. One transect was located at the field edge while the central transect was located at 25 m inside the field from the edge. In 5 fields these transects were adapted to the middle of the field as the field did not reach 50 meters. Transect walks were conducted between 8:00 and 16:30, low wind speeds and temperatures above 15 degrees C. Due Andean high altitude weather characteristics, during shorts periods of rain (minutes) or low clouds we stopped the survey and resumed it when weather allowed. Sites were surveyed thrice in random order. We surveyed all honeybees, bumblebees, solitary bees, hoverflies and other Diptera (e.g: Calliphoridae, Tachinidae, Sarcophagidae) that visited flowers inside Faba beans field and at the margin of the crop capturing the pollinators with a net. Handling time invested in capturing pollinators was discounted. In total, the sampling effort was 90 minutes. Pollinators that were easily identifiable (e.g. honeybees and Bombus funebris, medium and big hoverflies) were recorded without capturing when possible.","Round number: 1. Height above sea level:3041 m."
"Carlos_Zaragoza_Trello_Vicia_faba_Ecuador_2017","BQ2","transects","syrphids","family","syrphids",1,900,90,NA,"To explore pollinator biodiversity we selected 15 Faba bean fields that were at the same phenological stage and adjacent to a managed grassland (or a natural grassland area when it was not feasible). We conducted pollinator surveys along 25 days (from early July to middle August) by walking during 15 minutes along each of two 150 x 1 m standardized transects per site. One transect was located at the field edge while the central transect was located at 25 m inside the field from the edge. In 5 fields these transects were adapted to the middle of the field as the field did not reach 50 meters. Transect walks were conducted between 8:00 and 16:30, low wind speeds and temperatures above 15 degrees C. Due Andean high altitude weather characteristics, during shorts periods of rain (minutes) or low clouds we stopped the survey and resumed it when weather allowed. Sites were surveyed thrice in random order. We surveyed all honeybees, bumblebees, solitary bees, hoverflies and other Diptera (e.g: Calliphoridae, Tachinidae, Sarcophagidae) that visited flowers inside Faba beans field and at the margin of the crop capturing the pollinators with a net. Handling time invested in capturing pollinators was discounted. In total, the sampling effort was 90 minutes. Pollinators that were easily identifiable (e.g. honeybees and Bombus funebris, medium and big hoverflies) were recorded without capturing when possible.","Round number: 1. Height above sea level:3041 m."
"Carlos_Zaragoza_Trello_Vicia_faba_Ecuador_2017","BQ2","transects","syrphids","family","syrphids",1,900,90,NA,"To explore pollinator biodiversity we selected 15 Faba bean fields that were at the same phenological stage and adjacent to a managed grassland (or a natural grassland area when it was not feasible). We conducted pollinator surveys along 25 days (from early July to middle August) by walking during 15 minutes along each of two 150 x 1 m standardized transects per site. One transect was located at the field edge while the central transect was located at 25 m inside the field from the edge. In 5 fields these transects were adapted to the middle of the field as the field did not reach 50 meters. Transect walks were conducted between 8:00 and 16:30, low wind speeds and temperatures above 15 degrees C. Due Andean high altitude weather characteristics, during shorts periods of rain (minutes) or low clouds we stopped the survey and resumed it when weather allowed. Sites were surveyed thrice in random order. We surveyed all honeybees, bumblebees, solitary bees, hoverflies and other Diptera (e.g: Calliphoridae, Tachinidae, Sarcophagidae) that visited flowers inside Faba beans field and at the margin of the crop capturing the pollinators with a net. Handling time invested in capturing pollinators was discounted. In total, the sampling effort was 90 minutes. Pollinators that were easily identifiable (e.g. honeybees and Bombus funebris, medium and big hoverflies) were recorded without capturing when possible.","Round number: 1. Height above sea level:3041 m."
"Carlos_Zaragoza_Trello_Vicia_faba_Ecuador_2017","BQ2","transects","syrphids","family","syrphids",1,900,90,NA,"To explore pollinator biodiversity we selected 15 Faba bean fields that were at the same phenological stage and adjacent to a managed grassland (or a natural grassland area when it was not feasible). We conducted pollinator surveys along 25 days (from early July to middle August) by walking during 15 minutes along each of two 150 x 1 m standardized transects per site. One transect was located at the field edge while the central transect was located at 25 m inside the field from the edge. In 5 fields these transects were adapted to the middle of the field as the field did not reach 50 meters. Transect walks were conducted between 8:00 and 16:30, low wind speeds and temperatures above 15 degrees C. Due Andean high altitude weather characteristics, during shorts periods of rain (minutes) or low clouds we stopped the survey and resumed it when weather allowed. Sites were surveyed thrice in random order. We surveyed all honeybees, bumblebees, solitary bees, hoverflies and other Diptera (e.g: Calliphoridae, Tachinidae, Sarcophagidae) that visited flowers inside Faba beans field and at the margin of the crop capturing the pollinators with a net. Handling time invested in capturing pollinators was discounted. In total, the sampling effort was 90 minutes. Pollinators that were easily identifiable (e.g. honeybees and Bombus funebris, medium and big hoverflies) were recorded without capturing when possible.","Round number: 1. Height above sea level:3041 m."
"Carlos_Zaragoza_Trello_Vicia_faba_Ecuador_2017","BQ2","transects","syrphids","family","syrphids",1,900,90,NA,"To explore pollinator biodiversity we selected 15 Faba bean fields that were at the same phenological stage and adjacent to a managed grassland (or a natural grassland area when it was not feasible). We conducted pollinator surveys along 25 days (from early July to middle August) by walking during 15 minutes along each of two 150 x 1 m standardized transects per site. One transect was located at the field edge while the central transect was located at 25 m inside the field from the edge. In 5 fields these transects were adapted to the middle of the field as the field did not reach 50 meters. Transect walks were conducted between 8:00 and 16:30, low wind speeds and temperatures above 15 degrees C. Due Andean high altitude weather characteristics, during shorts periods of rain (minutes) or low clouds we stopped the survey and resumed it when weather allowed. Sites were surveyed thrice in random order. We surveyed all honeybees, bumblebees, solitary bees, hoverflies and other Diptera (e.g: Calliphoridae, Tachinidae, Sarcophagidae) that visited flowers inside Faba beans field and at the margin of the crop capturing the pollinators with a net. Handling time invested in capturing pollinators was discounted. In total, the sampling effort was 90 minutes. Pollinators that were easily identifiable (e.g. honeybees and Bombus funebris, medium and big hoverflies) were recorded without capturing when possible.","Round number: 1. Height above sea level:3041 m."
"Carlos_Zaragoza_Trello_Vicia_faba_Ecuador_2017","BQ2","transects","syrphids","family","syrphids",1,900,90,NA,"To explore pollinator biodiversity we selected 15 Faba bean fields that were at the same phenological stage and adjacent to a managed grassland (or a natural grassland area when it was not feasible). We conducted pollinator surveys along 25 days (from early July to middle August) by walking during 15 minutes along each of two 150 x 1 m standardized transects per site. One transect was located at the field edge while the central transect was located at 25 m inside the field from the edge. In 5 fields these transects were adapted to the middle of the field as the field did not reach 50 meters. Transect walks were conducted between 8:00 and 16:30, low wind speeds and temperatures above 15 degrees C. Due Andean high altitude weather characteristics, during shorts periods of rain (minutes) or low clouds we stopped the survey and resumed it when weather allowed. Sites were surveyed thrice in random order. We surveyed all honeybees, bumblebees, solitary bees, hoverflies and other Diptera (e.g: Calliphoridae, Tachinidae, Sarcophagidae) that visited flowers inside Faba beans field and at the margin of the crop capturing the pollinators with a net. Handling time invested in capturing pollinators was discounted. In total, the sampling effort was 90 minutes. Pollinators that were easily identifiable (e.g. honeybees and Bombus funebris, medium and big hoverflies) were recorded without capturing when possible.","Round number: 1. Height above sea level:3041 m."
"Carlos_Zaragoza_Trello_Vicia_faba_Ecuador_2017","BQ2","transects","syrphids","family","syrphids",1,900,90,NA,"To explore pollinator biodiversity we selected 15 Faba bean fields that were at the same phenological stage and adjacent to a managed grassland (or a natural grassland area when it was not feasible). We conducted pollinator surveys along 25 days (from early July to middle August) by walking during 15 minutes along each of two 150 x 1 m standardized transects per site. One transect was located at the field edge while the central transect was located at 25 m inside the field from the edge. In 5 fields these transects were adapted to the middle of the field as the field did not reach 50 meters. Transect walks were conducted between 8:00 and 16:30, low wind speeds and temperatures above 15 degrees C. Due Andean high altitude weather characteristics, during shorts periods of rain (minutes) or low clouds we stopped the survey and resumed it when weather allowed. Sites were surveyed thrice in random order. We surveyed all honeybees, bumblebees, solitary bees, hoverflies and other Diptera (e.g: Calliphoridae, Tachinidae, Sarcophagidae) that visited flowers inside Faba beans field and at the margin of the crop capturing the pollinators with a net. Handling time invested in capturing pollinators was discounted. In total, the sampling effort was 90 minutes. Pollinators that were easily identifiable (e.g. honeybees and Bombus funebris, medium and big hoverflies) were recorded without capturing when possible.","Round number: 1. Height above sea level:3041 m."
"Carlos_Zaragoza_Trello_Vicia_faba_Ecuador_2017","BQ2","transects","syrphids","family","syrphids",1,900,90,NA,"To explore pollinator biodiversity we selected 15 Faba bean fields that were at the same phenological stage and adjacent to a managed grassland (or a natural grassland area when it was not feasible). We conducted pollinator surveys along 25 days (from early July to middle August) by walking during 15 minutes along each of two 150 x 1 m standardized transects per site. One transect was located at the field edge while the central transect was located at 25 m inside the field from the edge. In 5 fields these transects were adapted to the middle of the field as the field did not reach 50 meters. Transect walks were conducted between 8:00 and 16:30, low wind speeds and temperatures above 15 degrees C. Due Andean high altitude weather characteristics, during shorts periods of rain (minutes) or low clouds we stopped the survey and resumed it when weather allowed. Sites were surveyed thrice in random order. We surveyed all honeybees, bumblebees, solitary bees, hoverflies and other Diptera (e.g: Calliphoridae, Tachinidae, Sarcophagidae) that visited flowers inside Faba beans field and at the margin of the crop capturing the pollinators with a net. Handling time invested in capturing pollinators was discounted. In total, the sampling effort was 90 minutes. Pollinators that were easily identifiable (e.g. honeybees and Bombus funebris, medium and big hoverflies) were recorded without capturing when possible.","Round number: 1. Height above sea level:3041 m."
"Carlos_Zaragoza_Trello_Vicia_faba_Ecuador_2017","BQ2","transects","syrphids","family","syrphids",1,900,90,NA,"To explore pollinator biodiversity we selected 15 Faba bean fields that were at the same phenological stage and adjacent to a managed grassland (or a natural grassland area when it was not feasible). We conducted pollinator surveys along 25 days (from early July to middle August) by walking during 15 minutes along each of two 150 x 1 m standardized transects per site. One transect was located at the field edge while the central transect was located at 25 m inside the field from the edge. In 5 fields these transects were adapted to the middle of the field as the field did not reach 50 meters. Transect walks were conducted between 8:00 and 16:30, low wind speeds and temperatures above 15 degrees C. Due Andean high altitude weather characteristics, during shorts periods of rain (minutes) or low clouds we stopped the survey and resumed it when weather allowed. Sites were surveyed thrice in random order. We surveyed all honeybees, bumblebees, solitary bees, hoverflies and other Diptera (e.g: Calliphoridae, Tachinidae, Sarcophagidae) that visited flowers inside Faba beans field and at the margin of the crop capturing the pollinators with a net. Handling time invested in capturing pollinators was discounted. In total, the sampling effort was 90 minutes. Pollinators that were easily identifiable (e.g. honeybees and Bombus funebris, medium and big hoverflies) were recorded without capturing when possible.","Round number: 1. Height above sea level:3041 m."
"Carlos_Zaragoza_Trello_Vicia_faba_Ecuador_2017","BQ2","transects","syrphids","family","syrphids",1,900,90,NA,"To explore pollinator biodiversity we selected 15 Faba bean fields that were at the same phenological stage and adjacent to a managed grassland (or a natural grassland area when it was not feasible). We conducted pollinator surveys along 25 days (from early July to middle August) by walking during 15 minutes along each of two 150 x 1 m standardized transects per site. One transect was located at the field edge while the central transect was located at 25 m inside the field from the edge. In 5 fields these transects were adapted to the middle of the field as the field did not reach 50 meters. Transect walks were conducted between 8:00 and 16:30, low wind speeds and temperatures above 15 degrees C. Due Andean high altitude weather characteristics, during shorts periods of rain (minutes) or low clouds we stopped the survey and resumed it when weather allowed. Sites were surveyed thrice in random order. We surveyed all honeybees, bumblebees, solitary bees, hoverflies and other Diptera (e.g: Calliphoridae, Tachinidae, Sarcophagidae) that visited flowers inside Faba beans field and at the margin of the crop capturing the pollinators with a net. Handling time invested in capturing pollinators was discounted. In total, the sampling effort was 90 minutes. Pollinators that were easily identifiable (e.g. honeybees and Bombus funebris, medium and big hoverflies) were recorded without capturing when possible.","Round number: 1. Height above sea level:3041 m."
"Carlos_Zaragoza_Trello_Vicia_faba_Ecuador_2017","BQ2","transects","syrphids","family","syrphids",1,900,90,NA,"To explore pollinator biodiversity we selected 15 Faba bean fields that were at the same phenological stage and adjacent to a managed grassland (or a natural grassland area when it was not feasible). We conducted pollinator surveys along 25 days (from early July to middle August) by walking during 15 minutes along each of two 150 x 1 m standardized transects per site. One transect was located at the field edge while the central transect was located at 25 m inside the field from the edge. In 5 fields these transects were adapted to the middle of the field as the field did not reach 50 meters. Transect walks were conducted between 8:00 and 16:30, low wind speeds and temperatures above 15 degrees C. Due Andean high altitude weather characteristics, during shorts periods of rain (minutes) or low clouds we stopped the survey and resumed it when weather allowed. Sites were surveyed thrice in random order. We surveyed all honeybees, bumblebees, solitary bees, hoverflies and other Diptera (e.g: Calliphoridae, Tachinidae, Sarcophagidae) that visited flowers inside Faba beans field and at the margin of the crop capturing the pollinators with a net. Handling time invested in capturing pollinators was discounted. In total, the sampling effort was 90 minutes. Pollinators that were easily identifiable (e.g. honeybees and Bombus funebris, medium and big hoverflies) were recorded without capturing when possible.","Round number: 1. Height above sea level:3041 m."
"Carlos_Zaragoza_Trello_Vicia_faba_Ecuador_2017","BQ2","transects","syrphids","family","syrphids",3,900,90,NA,"To explore pollinator biodiversity we selected 15 Faba bean fields that were at the same phenological stage and adjacent to a managed grassland (or a natural grassland area when it was not feasible). We conducted pollinator surveys along 25 days (from early July to middle August) by walking during 15 minutes along each of two 150 x 1 m standardized transects per site. One transect was located at the field edge while the central transect was located at 25 m inside the field from the edge. In 5 fields these transects were adapted to the middle of the field as the field did not reach 50 meters. Transect walks were conducted between 8:00 and 16:30, low wind speeds and temperatures above 15 degrees C. Due Andean high altitude weather characteristics, during shorts periods of rain (minutes) or low clouds we stopped the survey and resumed it when weather allowed. Sites were surveyed thrice in random order. We surveyed all honeybees, bumblebees, solitary bees, hoverflies and other Diptera (e.g: Calliphoridae, Tachinidae, Sarcophagidae) that visited flowers inside Faba beans field and at the margin of the crop capturing the pollinators with a net. Handling time invested in capturing pollinators was discounted. In total, the sampling effort was 90 minutes. Pollinators that were easily identifiable (e.g. honeybees and Bombus funebris, medium and big hoverflies) were recorded without capturing when possible.","Round number: 2. Height above sea level:3041 m."
"Carlos_Zaragoza_Trello_Vicia_faba_Ecuador_2017","BQ2","transects","syrphids","family","syrphids",1,900,90,NA,"To explore pollinator biodiversity we selected 15 Faba bean fields that were at the same phenological stage and adjacent to a managed grassland (or a natural grassland area when it was not feasible). We conducted pollinator surveys along 25 days (from early July to middle August) by walking during 15 minutes along each of two 150 x 1 m standardized transects per site. One transect was located at the field edge while the central transect was located at 25 m inside the field from the edge. In 5 fields these transects were adapted to the middle of the field as the field did not reach 50 meters. Transect walks were conducted between 8:00 and 16:30, low wind speeds and temperatures above 15 degrees C. Due Andean high altitude weather characteristics, during shorts periods of rain (minutes) or low clouds we stopped the survey and resumed it when weather allowed. Sites were surveyed thrice in random order. We surveyed all honeybees, bumblebees, solitary bees, hoverflies and other Diptera (e.g: Calliphoridae, Tachinidae, Sarcophagidae) that visited flowers inside Faba beans field and at the margin of the crop capturing the pollinators with a net. Handling time invested in capturing pollinators was discounted. In total, the sampling effort was 90 minutes. Pollinators that were easily identifiable (e.g. honeybees and Bombus funebris, medium and big hoverflies) were recorded without capturing when possible.","Round number: 3. Height above sea level:3041 m."
"Carlos_Zaragoza_Trello_Vicia_faba_Ecuador_2017","BQ2","transects","syrphids","family","syrphids",1,900,90,NA,"To explore pollinator biodiversity we selected 15 Faba bean fields that were at the same phenological stage and adjacent to a managed grassland (or a natural grassland area when it was not feasible). We conducted pollinator surveys along 25 days (from early July to middle August) by walking during 15 minutes along each of two 150 x 1 m standardized transects per site. One transect was located at the field edge while the central transect was located at 25 m inside the field from the edge. In 5 fields these transects were adapted to the middle of the field as the field did not reach 50 meters. Transect walks were conducted between 8:00 and 16:30, low wind speeds and temperatures above 15 degrees C. Due Andean high altitude weather characteristics, during shorts periods of rain (minutes) or low clouds we stopped the survey and resumed it when weather allowed. Sites were surveyed thrice in random order. We surveyed all honeybees, bumblebees, solitary bees, hoverflies and other Diptera (e.g: Calliphoridae, Tachinidae, Sarcophagidae) that visited flowers inside Faba beans field and at the margin of the crop capturing the pollinators with a net. Handling time invested in capturing pollinators was discounted. In total, the sampling effort was 90 minutes. Pollinators that were easily identifiable (e.g. honeybees and Bombus funebris, medium and big hoverflies) were recorded without capturing when possible.","Round number: 3. Height above sea level:3041 m."
"Carlos_Zaragoza_Trello_Vicia_faba_Ecuador_2017","BQ2","transects","syrphids","family","syrphids",1,900,90,NA,"To explore pollinator biodiversity we selected 15 Faba bean fields that were at the same phenological stage and adjacent to a managed grassland (or a natural grassland area when it was not feasible). We conducted pollinator surveys along 25 days (from early July to middle August) by walking during 15 minutes along each of two 150 x 1 m standardized transects per site. One transect was located at the field edge while the central transect was located at 25 m inside the field from the edge. In 5 fields these transects were adapted to the middle of the field as the field did not reach 50 meters. Transect walks were conducted between 8:00 and 16:30, low wind speeds and temperatures above 15 degrees C. Due Andean high altitude weather characteristics, during shorts periods of rain (minutes) or low clouds we stopped the survey and resumed it when weather allowed. Sites were surveyed thrice in random order. We surveyed all honeybees, bumblebees, solitary bees, hoverflies and other Diptera (e.g: Calliphoridae, Tachinidae, Sarcophagidae) that visited flowers inside Faba beans field and at the margin of the crop capturing the pollinators with a net. Handling time invested in capturing pollinators was discounted. In total, the sampling effort was 90 minutes. Pollinators that were easily identifiable (e.g. honeybees and Bombus funebris, medium and big hoverflies) were recorded without capturing when possible.","Round number: 3. Height above sea level:3041 m."
"Carlos_Zaragoza_Trello_Vicia_faba_Ecuador_2017","BQ2","transects","syrphids","family","syrphids",1,900,90,NA,"To explore pollinator biodiversity we selected 15 Faba bean fields that were at the same phenological stage and adjacent to a managed grassland (or a natural grassland area when it was not feasible). We conducted pollinator surveys along 25 days (from early July to middle August) by walking during 15 minutes along each of two 150 x 1 m standardized transects per site. One transect was located at the field edge while the central transect was located at 25 m inside the field from the edge. In 5 fields these transects were adapted to the middle of the field as the field did not reach 50 meters. Transect walks were conducted between 8:00 and 16:30, low wind speeds and temperatures above 15 degrees C. Due Andean high altitude weather characteristics, during shorts periods of rain (minutes) or low clouds we stopped the survey and resumed it when weather allowed. Sites were surveyed thrice in random order. We surveyed all honeybees, bumblebees, solitary bees, hoverflies and other Diptera (e.g: Calliphoridae, Tachinidae, Sarcophagidae) that visited flowers inside Faba beans field and at the margin of the crop capturing the pollinators with a net. Handling time invested in capturing pollinators was discounted. In total, the sampling effort was 90 minutes. Pollinators that were easily identifiable (e.g. honeybees and Bombus funebris, medium and big hoverflies) were recorded without capturing when possible.","Round number: 3. Height above sea level:3041 m."
"Carlos_Zaragoza_Trello_Vicia_faba_Ecuador_2017","BQ2","transects","syrphids","family","syrphids",1,900,90,NA,"To explore pollinator biodiversity we selected 15 Faba bean fields that were at the same phenological stage and adjacent to a managed grassland (or a natural grassland area when it was not feasible). We conducted pollinator surveys along 25 days (from early July to middle August) by walking during 15 minutes along each of two 150 x 1 m standardized transects per site. One transect was located at the field edge while the central transect was located at 25 m inside the field from the edge. In 5 fields these transects were adapted to the middle of the field as the field did not reach 50 meters. Transect walks were conducted between 8:00 and 16:30, low wind speeds and temperatures above 15 degrees C. Due Andean high altitude weather characteristics, during shorts periods of rain (minutes) or low clouds we stopped the survey and resumed it when weather allowed. Sites were surveyed thrice in random order. We surveyed all honeybees, bumblebees, solitary bees, hoverflies and other Diptera (e.g: Calliphoridae, Tachinidae, Sarcophagidae) that visited flowers inside Faba beans field and at the margin of the crop capturing the pollinators with a net. Handling time invested in capturing pollinators was discounted. In total, the sampling effort was 90 minutes. Pollinators that were easily identifiable (e.g. honeybees and Bombus funebris, medium and big hoverflies) were recorded without capturing when possible.","Round number: 3. Height above sea level:3041 m."
"Carlos_Zaragoza_Trello_Vicia_faba_Ecuador_2017","BQ2","transects","syrphids","family","syrphids",1,900,90,NA,"To explore pollinator biodiversity we selected 15 Faba bean fields that were at the same phenological stage and adjacent to a managed grassland (or a natural grassland area when it was not feasible). We conducted pollinator surveys along 25 days (from early July to middle August) by walking during 15 minutes along each of two 150 x 1 m standardized transects per site. One transect was located at the field edge while the central transect was located at 25 m inside the field from the edge. In 5 fields these transects were adapted to the middle of the field as the field did not reach 50 meters. Transect walks were conducted between 8:00 and 16:30, low wind speeds and temperatures above 15 degrees C. Due Andean high altitude weather characteristics, during shorts periods of rain (minutes) or low clouds we stopped the survey and resumed it when weather allowed. Sites were surveyed thrice in random order. We surveyed all honeybees, bumblebees, solitary bees, hoverflies and other Diptera (e.g: Calliphoridae, Tachinidae, Sarcophagidae) that visited flowers inside Faba beans field and at the margin of the crop capturing the pollinators with a net. Handling time invested in capturing pollinators was discounted. In total, the sampling effort was 90 minutes. Pollinators that were easily identifiable (e.g. honeybees and Bombus funebris, medium and big hoverflies) were recorded without capturing when possible.","Round number: 3. Height above sea level:3041 m."
"Carlos_Zaragoza_Trello_Vicia_faba_Ecuador_2017","BQ2","transects","syrphids","family","syrphids",1,900,90,NA,"To explore pollinator biodiversity we selected 15 Faba bean fields that were at the same phenological stage and adjacent to a managed grassland (or a natural grassland area when it was not feasible). We conducted pollinator surveys along 25 days (from early July to middle August) by walking during 15 minutes along each of two 150 x 1 m standardized transects per site. One transect was located at the field edge while the central transect was located at 25 m inside the field from the edge. In 5 fields these transects were adapted to the middle of the field as the field did not reach 50 meters. Transect walks were conducted between 8:00 and 16:30, low wind speeds and temperatures above 15 degrees C. Due Andean high altitude weather characteristics, during shorts periods of rain (minutes) or low clouds we stopped the survey and resumed it when weather allowed. Sites were surveyed thrice in random order. We surveyed all honeybees, bumblebees, solitary bees, hoverflies and other Diptera (e.g: Calliphoridae, Tachinidae, Sarcophagidae) that visited flowers inside Faba beans field and at the margin of the crop capturing the pollinators with a net. Handling time invested in capturing pollinators was discounted. In total, the sampling effort was 90 minutes. Pollinators that were easily identifiable (e.g. honeybees and Bombus funebris, medium and big hoverflies) were recorded without capturing when possible.","Round number: 3. Height above sea level:3041 m."
"Carlos_Zaragoza_Trello_Vicia_faba_Ecuador_2017","BQ2","transects","syrphids","family","syrphids",1,900,90,NA,"To explore pollinator biodiversity we selected 15 Faba bean fields that were at the same phenological stage and adjacent to a managed grassland (or a natural grassland area when it was not feasible). We conducted pollinator surveys along 25 days (from early July to middle August) by walking during 15 minutes along each of two 150 x 1 m standardized transects per site. One transect was located at the field edge while the central transect was located at 25 m inside the field from the edge. In 5 fields these transects were adapted to the middle of the field as the field did not reach 50 meters. Transect walks were conducted between 8:00 and 16:30, low wind speeds and temperatures above 15 degrees C. Due Andean high altitude weather characteristics, during shorts periods of rain (minutes) or low clouds we stopped the survey and resumed it when weather allowed. Sites were surveyed thrice in random order. We surveyed all honeybees, bumblebees, solitary bees, hoverflies and other Diptera (e.g: Calliphoridae, Tachinidae, Sarcophagidae) that visited flowers inside Faba beans field and at the margin of the crop capturing the pollinators with a net. Handling time invested in capturing pollinators was discounted. In total, the sampling effort was 90 minutes. Pollinators that were easily identifiable (e.g. honeybees and Bombus funebris, medium and big hoverflies) were recorded without capturing when possible.","Round number: 3. Height above sea level:3041 m."
"Carlos_Zaragoza_Trello_Vicia_faba_Ecuador_2017","BQ2","transects","syrphids","family","syrphids",1,900,90,NA,"To explore pollinator biodiversity we selected 15 Faba bean fields that were at the same phenological stage and adjacent to a managed grassland (or a natural grassland area when it was not feasible). We conducted pollinator surveys along 25 days (from early July to middle August) by walking during 15 minutes along each of two 150 x 1 m standardized transects per site. One transect was located at the field edge while the central transect was located at 25 m inside the field from the edge. In 5 fields these transects were adapted to the middle of the field as the field did not reach 50 meters. Transect walks were conducted between 8:00 and 16:30, low wind speeds and temperatures above 15 degrees C. Due Andean high altitude weather characteristics, during shorts periods of rain (minutes) or low clouds we stopped the survey and resumed it when weather allowed. Sites were surveyed thrice in random order. We surveyed all honeybees, bumblebees, solitary bees, hoverflies and other Diptera (e.g: Calliphoridae, Tachinidae, Sarcophagidae) that visited flowers inside Faba beans field and at the margin of the crop capturing the pollinators with a net. Handling time invested in capturing pollinators was discounted. In total, the sampling effort was 90 minutes. Pollinators that were easily identifiable (e.g. honeybees and Bombus funebris, medium and big hoverflies) were recorded without capturing when possible.","Round number: 3. Height above sea level:3041 m."
"Carlos_Zaragoza_Trello_Vicia_faba_Ecuador_2017","BQ2","transects","syrphids","family","syrphids",1,900,90,NA,"To explore pollinator biodiversity we selected 15 Faba bean fields that were at the same phenological stage and adjacent to a managed grassland (or a natural grassland area when it was not feasible). We conducted pollinator surveys along 25 days (from early July to middle August) by walking during 15 minutes along each of two 150 x 1 m standardized transects per site. One transect was located at the field edge while the central transect was located at 25 m inside the field from the edge. In 5 fields these transects were adapted to the middle of the field as the field did not reach 50 meters. Transect walks were conducted between 8:00 and 16:30, low wind speeds and temperatures above 15 degrees C. Due Andean high altitude weather characteristics, during shorts periods of rain (minutes) or low clouds we stopped the survey and resumed it when weather allowed. Sites were surveyed thrice in random order. We surveyed all honeybees, bumblebees, solitary bees, hoverflies and other Diptera (e.g: Calliphoridae, Tachinidae, Sarcophagidae) that visited flowers inside Faba beans field and at the margin of the crop capturing the pollinators with a net. Handling time invested in capturing pollinators was discounted. In total, the sampling effort was 90 minutes. Pollinators that were easily identifiable (e.g. honeybees and Bombus funebris, medium and big hoverflies) were recorded without capturing when possible.","Round number: 3. Height above sea level:3041 m."
"Carlos_Zaragoza_Trello_Vicia_faba_Ecuador_2017","BQ2","transects","syrphids","family","syrphids",1,900,90,NA,"To explore pollinator biodiversity we selected 15 Faba bean fields that were at the same phenological stage and adjacent to a managed grassland (or a natural grassland area when it was not feasible). We conducted pollinator surveys along 25 days (from early July to middle August) by walking during 15 minutes along each of two 150 x 1 m standardized transects per site. One transect was located at the field edge while the central transect was located at 25 m inside the field from the edge. In 5 fields these transects were adapted to the middle of the field as the field did not reach 50 meters. Transect walks were conducted between 8:00 and 16:30, low wind speeds and temperatures above 15 degrees C. Due Andean high altitude weather characteristics, during shorts periods of rain (minutes) or low clouds we stopped the survey and resumed it when weather allowed. Sites were surveyed thrice in random order. We surveyed all honeybees, bumblebees, solitary bees, hoverflies and other Diptera (e.g: Calliphoridae, Tachinidae, Sarcophagidae) that visited flowers inside Faba beans field and at the margin of the crop capturing the pollinators with a net. Handling time invested in capturing pollinators was discounted. In total, the sampling effort was 90 minutes. Pollinators that were easily identifiable (e.g. honeybees and Bombus funebris, medium and big hoverflies) were recorded without capturing when possible.","Round number: 3. Height above sea level:3041 m."
"Carlos_Zaragoza_Trello_Vicia_faba_Ecuador_2017","BQ2","transects","syrphids","family","syrphids",3,900,90,NA,"To explore pollinator biodiversity we selected 15 Faba bean fields that were at the same phenological stage and adjacent to a managed grassland (or a natural grassland area when it was not feasible). We conducted pollinator surveys along 25 days (from early July to middle August) by walking during 15 minutes along each of two 150 x 1 m standardized transects per site. One transect was located at the field edge while the central transect was located at 25 m inside the field from the edge. In 5 fields these transects were adapted to the middle of the field as the field did not reach 50 meters. Transect walks were conducted between 8:00 and 16:30, low wind speeds and temperatures above 15 degrees C. Due Andean high altitude weather characteristics, during shorts periods of rain (minutes) or low clouds we stopped the survey and resumed it when weather allowed. Sites were surveyed thrice in random order. We surveyed all honeybees, bumblebees, solitary bees, hoverflies and other Diptera (e.g: Calliphoridae, Tachinidae, Sarcophagidae) that visited flowers inside Faba beans field and at the margin of the crop capturing the pollinators with a net. Handling time invested in capturing pollinators was discounted. In total, the sampling effort was 90 minutes. Pollinators that were easily identifiable (e.g. honeybees and Bombus funebris, medium and big hoverflies) were recorded without capturing when possible.","Round number: 2. Height above sea level:3041 m."
"Carlos_Zaragoza_Trello_Vicia_faba_Ecuador_2017","BQ2","transects","syrphids","family","syrphids",11,900,90,NA,"To explore pollinator biodiversity we selected 15 Faba bean fields that were at the same phenological stage and adjacent to a managed grassland (or a natural grassland area when it was not feasible). We conducted pollinator surveys along 25 days (from early July to middle August) by walking during 15 minutes along each of two 150 x 1 m standardized transects per site. One transect was located at the field edge while the central transect was located at 25 m inside the field from the edge. In 5 fields these transects were adapted to the middle of the field as the field did not reach 50 meters. Transect walks were conducted between 8:00 and 16:30, low wind speeds and temperatures above 15 degrees C. Due Andean high altitude weather characteristics, during shorts periods of rain (minutes) or low clouds we stopped the survey and resumed it when weather allowed. Sites were surveyed thrice in random order. We surveyed all honeybees, bumblebees, solitary bees, hoverflies and other Diptera (e.g: Calliphoridae, Tachinidae, Sarcophagidae) that visited flowers inside Faba beans field and at the margin of the crop capturing the pollinators with a net. Handling time invested in capturing pollinators was discounted. In total, the sampling effort was 90 minutes. Pollinators that were easily identifiable (e.g. honeybees and Bombus funebris, medium and big hoverflies) were recorded without capturing when possible.","Round number: 3. Height above sea level:3041 m."
"Carlos_Zaragoza_Trello_Vicia_faba_Ecuador_2017","BQ2","transects","syrphids","family","syrphids",2,900,90,NA,"To explore pollinator biodiversity we selected 15 Faba bean fields that were at the same phenological stage and adjacent to a managed grassland (or a natural grassland area when it was not feasible). We conducted pollinator surveys along 25 days (from early July to middle August) by walking during 15 minutes along each of two 150 x 1 m standardized transects per site. One transect was located at the field edge while the central transect was located at 25 m inside the field from the edge. In 5 fields these transects were adapted to the middle of the field as the field did not reach 50 meters. Transect walks were conducted between 8:00 and 16:30, low wind speeds and temperatures above 15 degrees C. Due Andean high altitude weather characteristics, during shorts periods of rain (minutes) or low clouds we stopped the survey and resumed it when weather allowed. Sites were surveyed thrice in random order. We surveyed all honeybees, bumblebees, solitary bees, hoverflies and other Diptera (e.g: Calliphoridae, Tachinidae, Sarcophagidae) that visited flowers inside Faba beans field and at the margin of the crop capturing the pollinators with a net. Handling time invested in capturing pollinators was discounted. In total, the sampling effort was 90 minutes. Pollinators that were easily identifiable (e.g. honeybees and Bombus funebris, medium and big hoverflies) were recorded without capturing when possible.","Round number: 3. Height above sea level:3041 m."
"Carlos_Zaragoza_Trello_Vicia_faba_Ecuador_2017","BQ2","transects","syrphids","family","syrphids",NA,900,90,NA,"To explore pollinator biodiversity we selected 15 Faba bean fields that were at the same phenological stage and adjacent to a managed grassland (or a natural grassland area when it was not feasible). We conducted pollinator surveys along 25 days (from early July to middle August) by walking during 15 minutes along each of two 150 x 1 m standardized transects per site. One transect was located at the field edge while the central transect was located at 25 m inside the field from the edge. In 5 fields these transects were adapted to the middle of the field as the field did not reach 50 meters. Transect walks were conducted between 8:00 and 16:30, low wind speeds and temperatures above 15 degrees C. Due Andean high altitude weather characteristics, during shorts periods of rain (minutes) or low clouds we stopped the survey and resumed it when weather allowed. Sites were surveyed thrice in random order. We surveyed all honeybees, bumblebees, solitary bees, hoverflies and other Diptera (e.g: Calliphoridae, Tachinidae, Sarcophagidae) that visited flowers inside Faba beans field and at the margin of the crop capturing the pollinators with a net. Handling time invested in capturing pollinators was discounted. In total, the sampling effort was 90 minutes. Pollinators that were easily identifiable (e.g. honeybees and Bombus funebris, medium and big hoverflies) were recorded without capturing when possible.","Round number: 3. Height above sea level:3041 m."
"Carlos_Zaragoza_Trello_Vicia_faba_Ecuador_2017","BQ2","transects","syrphids","family","syrphids",1,900,90,NA,"To explore pollinator biodiversity we selected 15 Faba bean fields that were at the same phenological stage and adjacent to a managed grassland (or a natural grassland area when it was not feasible). We conducted pollinator surveys along 25 days (from early July to middle August) by walking during 15 minutes along each of two 150 x 1 m standardized transects per site. One transect was located at the field edge while the central transect was located at 25 m inside the field from the edge. In 5 fields these transects were adapted to the middle of the field as the field did not reach 50 meters. Transect walks were conducted between 8:00 and 16:30, low wind speeds and temperatures above 15 degrees C. Due Andean high altitude weather characteristics, during shorts periods of rain (minutes) or low clouds we stopped the survey and resumed it when weather allowed. Sites were surveyed thrice in random order. We surveyed all honeybees, bumblebees, solitary bees, hoverflies and other Diptera (e.g: Calliphoridae, Tachinidae, Sarcophagidae) that visited flowers inside Faba beans field and at the margin of the crop capturing the pollinators with a net. Handling time invested in capturing pollinators was discounted. In total, the sampling effort was 90 minutes. Pollinators that were easily identifiable (e.g. honeybees and Bombus funebris, medium and big hoverflies) were recorded without capturing when possible.","Round number: 3. Height above sea level:3041 m."
"Carlos_Zaragoza_Trello_Vicia_faba_Ecuador_2017","BQ2","transects","syrphids","family","syrphids",1,900,90,NA,"To explore pollinator biodiversity we selected 15 Faba bean fields that were at the same phenological stage and adjacent to a managed grassland (or a natural grassland area when it was not feasible). We conducted pollinator surveys along 25 days (from early July to middle August) by walking during 15 minutes along each of two 150 x 1 m standardized transects per site. One transect was located at the field edge while the central transect was located at 25 m inside the field from the edge. In 5 fields these transects were adapted to the middle of the field as the field did not reach 50 meters. Transect walks were conducted between 8:00 and 16:30, low wind speeds and temperatures above 15 degrees C. Due Andean high altitude weather characteristics, during shorts periods of rain (minutes) or low clouds we stopped the survey and resumed it when weather allowed. Sites were surveyed thrice in random order. We surveyed all honeybees, bumblebees, solitary bees, hoverflies and other Diptera (e.g: Calliphoridae, Tachinidae, Sarcophagidae) that visited flowers inside Faba beans field and at the margin of the crop capturing the pollinators with a net. Handling time invested in capturing pollinators was discounted. In total, the sampling effort was 90 minutes. Pollinators that were easily identifiable (e.g. honeybees and Bombus funebris, medium and big hoverflies) were recorded without capturing when possible.","Round number: 3. Height above sea level:3041 m."
"Carlos_Zaragoza_Trello_Vicia_faba_Ecuador_2017","BQ2","transects","syrphids","family","syrphids",1,900,90,NA,"To explore pollinator biodiversity we selected 15 Faba bean fields that were at the same phenological stage and adjacent to a managed grassland (or a natural grassland area when it was not feasible). We conducted pollinator surveys along 25 days (from early July to middle August) by walking during 15 minutes along each of two 150 x 1 m standardized transects per site. One transect was located at the field edge while the central transect was located at 25 m inside the field from the edge. In 5 fields these transects were adapted to the middle of the field as the field did not reach 50 meters. Transect walks were conducted between 8:00 and 16:30, low wind speeds and temperatures above 15 degrees C. Due Andean high altitude weather characteristics, during shorts periods of rain (minutes) or low clouds we stopped the survey and resumed it when weather allowed. Sites were surveyed thrice in random order. We surveyed all honeybees, bumblebees, solitary bees, hoverflies and other Diptera (e.g: Calliphoridae, Tachinidae, Sarcophagidae) that visited flowers inside Faba beans field and at the margin of the crop capturing the pollinators with a net. Handling time invested in capturing pollinators was discounted. In total, the sampling effort was 90 minutes. Pollinators that were easily identifiable (e.g. honeybees and Bombus funebris, medium and big hoverflies) were recorded without capturing when possible.","Round number: 3. Height above sea level:3041 m."
"Carlos_Zaragoza_Trello_Vicia_faba_Ecuador_2017","BQ2","transects","syrphids","family","syrphids",1,900,90,NA,"To explore pollinator biodiversity we selected 15 Faba bean fields that were at the same phenological stage and adjacent to a managed grassland (or a natural grassland area when it was not feasible). We conducted pollinator surveys along 25 days (from early July to middle August) by walking during 15 minutes along each of two 150 x 1 m standardized transects per site. One transect was located at the field edge while the central transect was located at 25 m inside the field from the edge. In 5 fields these transects were adapted to the middle of the field as the field did not reach 50 meters. Transect walks were conducted between 8:00 and 16:30, low wind speeds and temperatures above 15 degrees C. Due Andean high altitude weather characteristics, during shorts periods of rain (minutes) or low clouds we stopped the survey and resumed it when weather allowed. Sites were surveyed thrice in random order. We surveyed all honeybees, bumblebees, solitary bees, hoverflies and other Diptera (e.g: Calliphoridae, Tachinidae, Sarcophagidae) that visited flowers inside Faba beans field and at the margin of the crop capturing the pollinators with a net. Handling time invested in capturing pollinators was discounted. In total, the sampling effort was 90 minutes. Pollinators that were easily identifiable (e.g. honeybees and Bombus funebris, medium and big hoverflies) were recorded without capturing when possible.","Round number: 3. Height above sea level:3041 m."
"Carlos_Zaragoza_Trello_Vicia_faba_Ecuador_2017","BQ2","transects","syrphids","family","syrphids",1,900,90,NA,"To explore pollinator biodiversity we selected 15 Faba bean fields that were at the same phenological stage and adjacent to a managed grassland (or a natural grassland area when it was not feasible). We conducted pollinator surveys along 25 days (from early July to middle August) by walking during 15 minutes along each of two 150 x 1 m standardized transects per site. One transect was located at the field edge while the central transect was located at 25 m inside the field from the edge. In 5 fields these transects were adapted to the middle of the field as the field did not reach 50 meters. Transect walks were conducted between 8:00 and 16:30, low wind speeds and temperatures above 15 degrees C. Due Andean high altitude weather characteristics, during shorts periods of rain (minutes) or low clouds we stopped the survey and resumed it when weather allowed. Sites were surveyed thrice in random order. We surveyed all honeybees, bumblebees, solitary bees, hoverflies and other Diptera (e.g: Calliphoridae, Tachinidae, Sarcophagidae) that visited flowers inside Faba beans field and at the margin of the crop capturing the pollinators with a net. Handling time invested in capturing pollinators was discounted. In total, the sampling effort was 90 minutes. Pollinators that were easily identifiable (e.g. honeybees and Bombus funebris, medium and big hoverflies) were recorded without capturing when possible.","Round number: 3. Height above sea level:3041 m."
"Carlos_Zaragoza_Trello_Vicia_faba_Ecuador_2017","BQ2","transects","syrphids","family","syrphids",1,900,90,NA,"To explore pollinator biodiversity we selected 15 Faba bean fields that were at the same phenological stage and adjacent to a managed grassland (or a natural grassland area when it was not feasible). We conducted pollinator surveys along 25 days (from early July to middle August) by walking during 15 minutes along each of two 150 x 1 m standardized transects per site. One transect was located at the field edge while the central transect was located at 25 m inside the field from the edge. In 5 fields these transects were adapted to the middle of the field as the field did not reach 50 meters. Transect walks were conducted between 8:00 and 16:30, low wind speeds and temperatures above 15 degrees C. Due Andean high altitude weather characteristics, during shorts periods of rain (minutes) or low clouds we stopped the survey and resumed it when weather allowed. Sites were surveyed thrice in random order. We surveyed all honeybees, bumblebees, solitary bees, hoverflies and other Diptera (e.g: Calliphoridae, Tachinidae, Sarcophagidae) that visited flowers inside Faba beans field and at the margin of the crop capturing the pollinators with a net. Handling time invested in capturing pollinators was discounted. In total, the sampling effort was 90 minutes. Pollinators that were easily identifiable (e.g. honeybees and Bombus funebris, medium and big hoverflies) were recorded without capturing when possible.","Round number: 3. Height above sea level:3041 m."
"Carlos_Zaragoza_Trello_Vicia_faba_Ecuador_2017","BQ2","transects","syrphids","family","syrphids",1,900,90,NA,"To explore pollinator biodiversity we selected 15 Faba bean fields that were at the same phenological stage and adjacent to a managed grassland (or a natural grassland area when it was not feasible). We conducted pollinator surveys along 25 days (from early July to middle August) by walking during 15 minutes along each of two 150 x 1 m standardized transects per site. One transect was located at the field edge while the central transect was located at 25 m inside the field from the edge. In 5 fields these transects were adapted to the middle of the field as the field did not reach 50 meters. Transect walks were conducted between 8:00 and 16:30, low wind speeds and temperatures above 15 degrees C. Due Andean high altitude weather characteristics, during shorts periods of rain (minutes) or low clouds we stopped the survey and resumed it when weather allowed. Sites were surveyed thrice in random order. We surveyed all honeybees, bumblebees, solitary bees, hoverflies and other Diptera (e.g: Calliphoridae, Tachinidae, Sarcophagidae) that visited flowers inside Faba beans field and at the margin of the crop capturing the pollinators with a net. Handling time invested in capturing pollinators was discounted. In total, the sampling effort was 90 minutes. Pollinators that were easily identifiable (e.g. honeybees and Bombus funebris, medium and big hoverflies) were recorded without capturing when possible.","Round number: 3. Height above sea level:3041 m."
"Carlos_Zaragoza_Trello_Vicia_faba_Ecuador_2017","BQ2","transects","syrphids","family","syrphids",1,900,90,NA,"To explore pollinator biodiversity we selected 15 Faba bean fields that were at the same phenological stage and adjacent to a managed grassland (or a natural grassland area when it was not feasible). We conducted pollinator surveys along 25 days (from early July to middle August) by walking during 15 minutes along each of two 150 x 1 m standardized transects per site. One transect was located at the field edge while the central transect was located at 25 m inside the field from the edge. In 5 fields these transects were adapted to the middle of the field as the field did not reach 50 meters. Transect walks were conducted between 8:00 and 16:30, low wind speeds and temperatures above 15 degrees C. Due Andean high altitude weather characteristics, during shorts periods of rain (minutes) or low clouds we stopped the survey and resumed it when weather allowed. Sites were surveyed thrice in random order. We surveyed all honeybees, bumblebees, solitary bees, hoverflies and other Diptera (e.g: Calliphoridae, Tachinidae, Sarcophagidae) that visited flowers inside Faba beans field and at the margin of the crop capturing the pollinators with a net. Handling time invested in capturing pollinators was discounted. In total, the sampling effort was 90 minutes. Pollinators that were easily identifiable (e.g. honeybees and Bombus funebris, medium and big hoverflies) were recorded without capturing when possible.","Round number: 3. Height above sea level:3041 m."
"Carlos_Zaragoza_Trello_Vicia_faba_Ecuador_2017","BQ2","transects","syrphids","family","syrphids",1,900,90,NA,"To explore pollinator biodiversity we selected 15 Faba bean fields that were at the same phenological stage and adjacent to a managed grassland (or a natural grassland area when it was not feasible). We conducted pollinator surveys along 25 days (from early July to middle August) by walking during 15 minutes along each of two 150 x 1 m standardized transects per site. One transect was located at the field edge while the central transect was located at 25 m inside the field from the edge. In 5 fields these transects were adapted to the middle of the field as the field did not reach 50 meters. Transect walks were conducted between 8:00 and 16:30, low wind speeds and temperatures above 15 degrees C. Due Andean high altitude weather characteristics, during shorts periods of rain (minutes) or low clouds we stopped the survey and resumed it when weather allowed. Sites were surveyed thrice in random order. We surveyed all honeybees, bumblebees, solitary bees, hoverflies and other Diptera (e.g: Calliphoridae, Tachinidae, Sarcophagidae) that visited flowers inside Faba beans field and at the margin of the crop capturing the pollinators with a net. Handling time invested in capturing pollinators was discounted. In total, the sampling effort was 90 minutes. Pollinators that were easily identifiable (e.g. honeybees and Bombus funebris, medium and big hoverflies) were recorded without capturing when possible.","Round number: 3. Height above sea level:3041 m."
"Carlos_Zaragoza_Trello_Vicia_faba_Ecuador_2017","BQ2","transects","syrphids","family","syrphids",1,900,90,NA,"To explore pollinator biodiversity we selected 15 Faba bean fields that were at the same phenological stage and adjacent to a managed grassland (or a natural grassland area when it was not feasible). We conducted pollinator surveys along 25 days (from early July to middle August) by walking during 15 minutes along each of two 150 x 1 m standardized transects per site. One transect was located at the field edge while the central transect was located at 25 m inside the field from the edge. In 5 fields these transects were adapted to the middle of the field as the field did not reach 50 meters. Transect walks were conducted between 8:00 and 16:30, low wind speeds and temperatures above 15 degrees C. Due Andean high altitude weather characteristics, during shorts periods of rain (minutes) or low clouds we stopped the survey and resumed it when weather allowed. Sites were surveyed thrice in random order. We surveyed all honeybees, bumblebees, solitary bees, hoverflies and other Diptera (e.g: Calliphoridae, Tachinidae, Sarcophagidae) that visited flowers inside Faba beans field and at the margin of the crop capturing the pollinators with a net. Handling time invested in capturing pollinators was discounted. In total, the sampling effort was 90 minutes. Pollinators that were easily identifiable (e.g. honeybees and Bombus funebris, medium and big hoverflies) were recorded without capturing when possible.","Round number: 3. Height above sea level:3041 m."
"Carlos_Zaragoza_Trello_Vicia_faba_Ecuador_2017","BQ2","transects","syrphids","family","syrphids",1,900,90,NA,"To explore pollinator biodiversity we selected 15 Faba bean fields that were at the same phenological stage and adjacent to a managed grassland (or a natural grassland area when it was not feasible). We conducted pollinator surveys along 25 days (from early July to middle August) by walking during 15 minutes along each of two 150 x 1 m standardized transects per site. One transect was located at the field edge while the central transect was located at 25 m inside the field from the edge. In 5 fields these transects were adapted to the middle of the field as the field did not reach 50 meters. Transect walks were conducted between 8:00 and 16:30, low wind speeds and temperatures above 15 degrees C. Due Andean high altitude weather characteristics, during shorts periods of rain (minutes) or low clouds we stopped the survey and resumed it when weather allowed. Sites were surveyed thrice in random order. We surveyed all honeybees, bumblebees, solitary bees, hoverflies and other Diptera (e.g: Calliphoridae, Tachinidae, Sarcophagidae) that visited flowers inside Faba beans field and at the margin of the crop capturing the pollinators with a net. Handling time invested in capturing pollinators was discounted. In total, the sampling effort was 90 minutes. Pollinators that were easily identifiable (e.g. honeybees and Bombus funebris, medium and big hoverflies) were recorded without capturing when possible.","Round number: 3. Height above sea level:3041 m."
"Carlos_Zaragoza_Trello_Vicia_faba_Ecuador_2017","BQ2","transects","syrphids","family","syrphids",1,900,90,NA,"To explore pollinator biodiversity we selected 15 Faba bean fields that were at the same phenological stage and adjacent to a managed grassland (or a natural grassland area when it was not feasible). We conducted pollinator surveys along 25 days (from early July to middle August) by walking during 15 minutes along each of two 150 x 1 m standardized transects per site. One transect was located at the field edge while the central transect was located at 25 m inside the field from the edge. In 5 fields these transects were adapted to the middle of the field as the field did not reach 50 meters. Transect walks were conducted between 8:00 and 16:30, low wind speeds and temperatures above 15 degrees C. Due Andean high altitude weather characteristics, during shorts periods of rain (minutes) or low clouds we stopped the survey and resumed it when weather allowed. Sites were surveyed thrice in random order. We surveyed all honeybees, bumblebees, solitary bees, hoverflies and other Diptera (e.g: Calliphoridae, Tachinidae, Sarcophagidae) that visited flowers inside Faba beans field and at the margin of the crop capturing the pollinators with a net. Handling time invested in capturing pollinators was discounted. In total, the sampling effort was 90 minutes. Pollinators that were easily identifiable (e.g. honeybees and Bombus funebris, medium and big hoverflies) were recorded without capturing when possible.","Round number: 3. Height above sea level:3041 m."
"Carlos_Zaragoza_Trello_Vicia_faba_Ecuador_2017","BQ2","transects","syrphids","family","syrphids",1,900,90,NA,"To explore pollinator biodiversity we selected 15 Faba bean fields that were at the same phenological stage and adjacent to a managed grassland (or a natural grassland area when it was not feasible). We conducted pollinator surveys along 25 days (from early July to middle August) by walking during 15 minutes along each of two 150 x 1 m standardized transects per site. One transect was located at the field edge while the central transect was located at 25 m inside the field from the edge. In 5 fields these transects were adapted to the middle of the field as the field did not reach 50 meters. Transect walks were conducted between 8:00 and 16:30, low wind speeds and temperatures above 15 degrees C. Due Andean high altitude weather characteristics, during shorts periods of rain (minutes) or low clouds we stopped the survey and resumed it when weather allowed. Sites were surveyed thrice in random order. We surveyed all honeybees, bumblebees, solitary bees, hoverflies and other Diptera (e.g: Calliphoridae, Tachinidae, Sarcophagidae) that visited flowers inside Faba beans field and at the margin of the crop capturing the pollinators with a net. Handling time invested in capturing pollinators was discounted. In total, the sampling effort was 90 minutes. Pollinators that were easily identifiable (e.g. honeybees and Bombus funebris, medium and big hoverflies) were recorded without capturing when possible.","Round number: 3. Height above sea level:3041 m."
"Carlos_Zaragoza_Trello_Vicia_faba_Ecuador_2017","BQ2","transects","syrphids","family","syrphids",1,900,90,NA,"To explore pollinator biodiversity we selected 15 Faba bean fields that were at the same phenological stage and adjacent to a managed grassland (or a natural grassland area when it was not feasible). We conducted pollinator surveys along 25 days (from early July to middle August) by walking during 15 minutes along each of two 150 x 1 m standardized transects per site. One transect was located at the field edge while the central transect was located at 25 m inside the field from the edge. In 5 fields these transects were adapted to the middle of the field as the field did not reach 50 meters. Transect walks were conducted between 8:00 and 16:30, low wind speeds and temperatures above 15 degrees C. Due Andean high altitude weather characteristics, during shorts periods of rain (minutes) or low clouds we stopped the survey and resumed it when weather allowed. Sites were surveyed thrice in random order. We surveyed all honeybees, bumblebees, solitary bees, hoverflies and other Diptera (e.g: Calliphoridae, Tachinidae, Sarcophagidae) that visited flowers inside Faba beans field and at the margin of the crop capturing the pollinators with a net. Handling time invested in capturing pollinators was discounted. In total, the sampling effort was 90 minutes. Pollinators that were easily identifiable (e.g. honeybees and Bombus funebris, medium and big hoverflies) were recorded without capturing when possible.","Round number: 3. Height above sea level:3041 m."
"Carlos_Zaragoza_Trello_Vicia_faba_Ecuador_2017","BQ2","transects","syrphids","family","syrphids",6,900,90,NA,"To explore pollinator biodiversity we selected 15 Faba bean fields that were at the same phenological stage and adjacent to a managed grassland (or a natural grassland area when it was not feasible). We conducted pollinator surveys along 25 days (from early July to middle August) by walking during 15 minutes along each of two 150 x 1 m standardized transects per site. One transect was located at the field edge while the central transect was located at 25 m inside the field from the edge. In 5 fields these transects were adapted to the middle of the field as the field did not reach 50 meters. Transect walks were conducted between 8:00 and 16:30, low wind speeds and temperatures above 15 degrees C. Due Andean high altitude weather characteristics, during shorts periods of rain (minutes) or low clouds we stopped the survey and resumed it when weather allowed. Sites were surveyed thrice in random order. We surveyed all honeybees, bumblebees, solitary bees, hoverflies and other Diptera (e.g: Calliphoridae, Tachinidae, Sarcophagidae) that visited flowers inside Faba beans field and at the margin of the crop capturing the pollinators with a net. Handling time invested in capturing pollinators was discounted. In total, the sampling effort was 90 minutes. Pollinators that were easily identifiable (e.g. honeybees and Bombus funebris, medium and big hoverflies) were recorded without capturing when possible.","Round number: 3. Height above sea level:3041 m."
"Carlos_Zaragoza_Trello_Vicia_faba_Ecuador_2017","BQ2","transects","syrphids","family","syrphids",15,900,90,NA,"To explore pollinator biodiversity we selected 15 Faba bean fields that were at the same phenological stage and adjacent to a managed grassland (or a natural grassland area when it was not feasible). We conducted pollinator surveys along 25 days (from early July to middle August) by walking during 15 minutes along each of two 150 x 1 m standardized transects per site. One transect was located at the field edge while the central transect was located at 25 m inside the field from the edge. In 5 fields these transects were adapted to the middle of the field as the field did not reach 50 meters. Transect walks were conducted between 8:00 and 16:30, low wind speeds and temperatures above 15 degrees C. Due Andean high altitude weather characteristics, during shorts periods of rain (minutes) or low clouds we stopped the survey and resumed it when weather allowed. Sites were surveyed thrice in random order. We surveyed all honeybees, bumblebees, solitary bees, hoverflies and other Diptera (e.g: Calliphoridae, Tachinidae, Sarcophagidae) that visited flowers inside Faba beans field and at the margin of the crop capturing the pollinators with a net. Handling time invested in capturing pollinators was discounted. In total, the sampling effort was 90 minutes. Pollinators that were easily identifiable (e.g. honeybees and Bombus funebris, medium and big hoverflies) were recorded without capturing when possible.","Round number: 3. Height above sea level:3041 m."
"Carlos_Zaragoza_Trello_Vicia_faba_Ecuador_2017","BQ2","transects","syrphids","family","syrphids",6,900,90,NA,"To explore pollinator biodiversity we selected 15 Faba bean fields that were at the same phenological stage and adjacent to a managed grassland (or a natural grassland area when it was not feasible). We conducted pollinator surveys along 25 days (from early July to middle August) by walking during 15 minutes along each of two 150 x 1 m standardized transects per site. One transect was located at the field edge while the central transect was located at 25 m inside the field from the edge. In 5 fields these transects were adapted to the middle of the field as the field did not reach 50 meters. Transect walks were conducted between 8:00 and 16:30, low wind speeds and temperatures above 15 degrees C. Due Andean high altitude weather characteristics, during shorts periods of rain (minutes) or low clouds we stopped the survey and resumed it when weather allowed. Sites were surveyed thrice in random order. We surveyed all honeybees, bumblebees, solitary bees, hoverflies and other Diptera (e.g: Calliphoridae, Tachinidae, Sarcophagidae) that visited flowers inside Faba beans field and at the margin of the crop capturing the pollinators with a net. Handling time invested in capturing pollinators was discounted. In total, the sampling effort was 90 minutes. Pollinators that were easily identifiable (e.g. honeybees and Bombus funebris, medium and big hoverflies) were recorded without capturing when possible.","Round number: 3. Height above sea level:3041 m."
"Carlos_Zaragoza_Trello_Vicia_faba_Ecuador_2017","BQ2","transects","syrphids","family","syrphids",29,900,90,NA,"To explore pollinator biodiversity we selected 15 Faba bean fields that were at the same phenological stage and adjacent to a managed grassland (or a natural grassland area when it was not feasible). We conducted pollinator surveys along 25 days (from early July to middle August) by walking during 15 minutes along each of two 150 x 1 m standardized transects per site. One transect was located at the field edge while the central transect was located at 25 m inside the field from the edge. In 5 fields these transects were adapted to the middle of the field as the field did not reach 50 meters. Transect walks were conducted between 8:00 and 16:30, low wind speeds and temperatures above 15 degrees C. Due Andean high altitude weather characteristics, during shorts periods of rain (minutes) or low clouds we stopped the survey and resumed it when weather allowed. Sites were surveyed thrice in random order. We surveyed all honeybees, bumblebees, solitary bees, hoverflies and other Diptera (e.g: Calliphoridae, Tachinidae, Sarcophagidae) that visited flowers inside Faba beans field and at the margin of the crop capturing the pollinators with a net. Handling time invested in capturing pollinators was discounted. In total, the sampling effort was 90 minutes. Pollinators that were easily identifiable (e.g. honeybees and Bombus funebris, medium and big hoverflies) were recorded without capturing when possible.","Round number: 2. Height above sea level:3041 m."
"Carlos_Zaragoza_Trello_Vicia_faba_Ecuador_2017","CUMBI1","transects","syrphids","family","syrphids",1,900,90,NA,"To explore pollinator biodiversity we selected 15 Faba bean fields that were at the same phenological stage and adjacent to a managed grassland (or a natural grassland area when it was not feasible). We conducted pollinator surveys along 25 days (from early July to middle August) by walking during 15 minutes along each of two 150 x 1 m standardized transects per site. One transect was located at the field edge while the central transect was located at 25 m inside the field from the edge. In 5 fields these transects were adapted to the middle of the field as the field did not reach 50 meters. Transect walks were conducted between 8:00 and 16:30, low wind speeds and temperatures above 15 degrees C. Due Andean high altitude weather characteristics, during shorts periods of rain (minutes) or low clouds we stopped the survey and resumed it when weather allowed. Sites were surveyed thrice in random order. We surveyed all honeybees, bumblebees, solitary bees, hoverflies and other Diptera (e.g: Calliphoridae, Tachinidae, Sarcophagidae) that visited flowers inside Faba beans field and at the margin of the crop capturing the pollinators with a net. Handling time invested in capturing pollinators was discounted. In total, the sampling effort was 90 minutes. Pollinators that were easily identifiable (e.g. honeybees and Bombus funebris, medium and big hoverflies) were recorded without capturing when possible.","Round number: NA. Height above sea level:2759 m."
"Carlos_Zaragoza_Trello_Vicia_faba_Ecuador_2017","CUMBI1","transects","syrphids","family","syrphids",1,900,90,NA,"To explore pollinator biodiversity we selected 15 Faba bean fields that were at the same phenological stage and adjacent to a managed grassland (or a natural grassland area when it was not feasible). We conducted pollinator surveys along 25 days (from early July to middle August) by walking during 15 minutes along each of two 150 x 1 m standardized transects per site. One transect was located at the field edge while the central transect was located at 25 m inside the field from the edge. In 5 fields these transects were adapted to the middle of the field as the field did not reach 50 meters. Transect walks were conducted between 8:00 and 16:30, low wind speeds and temperatures above 15 degrees C. Due Andean high altitude weather characteristics, during shorts periods of rain (minutes) or low clouds we stopped the survey and resumed it when weather allowed. Sites were surveyed thrice in random order. We surveyed all honeybees, bumblebees, solitary bees, hoverflies and other Diptera (e.g: Calliphoridae, Tachinidae, Sarcophagidae) that visited flowers inside Faba beans field and at the margin of the crop capturing the pollinators with a net. Handling time invested in capturing pollinators was discounted. In total, the sampling effort was 90 minutes. Pollinators that were easily identifiable (e.g. honeybees and Bombus funebris, medium and big hoverflies) were recorded without capturing when possible.","Round number: NA. Height above sea level:2759 m."
"Carlos_Zaragoza_Trello_Vicia_faba_Ecuador_2017","CUMBI1","transects","syrphids","family","syrphids",1,900,90,NA,"To explore pollinator biodiversity we selected 15 Faba bean fields that were at the same phenological stage and adjacent to a managed grassland (or a natural grassland area when it was not feasible). We conducted pollinator surveys along 25 days (from early July to middle August) by walking during 15 minutes along each of two 150 x 1 m standardized transects per site. One transect was located at the field edge while the central transect was located at 25 m inside the field from the edge. In 5 fields these transects were adapted to the middle of the field as the field did not reach 50 meters. Transect walks were conducted between 8:00 and 16:30, low wind speeds and temperatures above 15 degrees C. Due Andean high altitude weather characteristics, during shorts periods of rain (minutes) or low clouds we stopped the survey and resumed it when weather allowed. Sites were surveyed thrice in random order. We surveyed all honeybees, bumblebees, solitary bees, hoverflies and other Diptera (e.g: Calliphoridae, Tachinidae, Sarcophagidae) that visited flowers inside Faba beans field and at the margin of the crop capturing the pollinators with a net. Handling time invested in capturing pollinators was discounted. In total, the sampling effort was 90 minutes. Pollinators that were easily identifiable (e.g. honeybees and Bombus funebris, medium and big hoverflies) were recorded without capturing when possible.","Round number: 1. Height above sea level:2759 m."
"Carlos_Zaragoza_Trello_Vicia_faba_Ecuador_2017","CUMBI1","transects","syrphids","family","syrphids",1,900,90,NA,"To explore pollinator biodiversity we selected 15 Faba bean fields that were at the same phenological stage and adjacent to a managed grassland (or a natural grassland area when it was not feasible). We conducted pollinator surveys along 25 days (from early July to middle August) by walking during 15 minutes along each of two 150 x 1 m standardized transects per site. One transect was located at the field edge while the central transect was located at 25 m inside the field from the edge. In 5 fields these transects were adapted to the middle of the field as the field did not reach 50 meters. Transect walks were conducted between 8:00 and 16:30, low wind speeds and temperatures above 15 degrees C. Due Andean high altitude weather characteristics, during shorts periods of rain (minutes) or low clouds we stopped the survey and resumed it when weather allowed. Sites were surveyed thrice in random order. We surveyed all honeybees, bumblebees, solitary bees, hoverflies and other Diptera (e.g: Calliphoridae, Tachinidae, Sarcophagidae) that visited flowers inside Faba beans field and at the margin of the crop capturing the pollinators with a net. Handling time invested in capturing pollinators was discounted. In total, the sampling effort was 90 minutes. Pollinators that were easily identifiable (e.g. honeybees and Bombus funebris, medium and big hoverflies) were recorded without capturing when possible.","Round number: 1. Height above sea level:2759 m."
"Carlos_Zaragoza_Trello_Vicia_faba_Ecuador_2017","CUMBI1","transects","syrphids","family","syrphids",1,900,90,NA,"To explore pollinator biodiversity we selected 15 Faba bean fields that were at the same phenological stage and adjacent to a managed grassland (or a natural grassland area when it was not feasible). We conducted pollinator surveys along 25 days (from early July to middle August) by walking during 15 minutes along each of two 150 x 1 m standardized transects per site. One transect was located at the field edge while the central transect was located at 25 m inside the field from the edge. In 5 fields these transects were adapted to the middle of the field as the field did not reach 50 meters. Transect walks were conducted between 8:00 and 16:30, low wind speeds and temperatures above 15 degrees C. Due Andean high altitude weather characteristics, during shorts periods of rain (minutes) or low clouds we stopped the survey and resumed it when weather allowed. Sites were surveyed thrice in random order. We surveyed all honeybees, bumblebees, solitary bees, hoverflies and other Diptera (e.g: Calliphoridae, Tachinidae, Sarcophagidae) that visited flowers inside Faba beans field and at the margin of the crop capturing the pollinators with a net. Handling time invested in capturing pollinators was discounted. In total, the sampling effort was 90 minutes. Pollinators that were easily identifiable (e.g. honeybees and Bombus funebris, medium and big hoverflies) were recorded without capturing when possible.","Round number: 2. Height above sea level:2759 m."
"Carlos_Zaragoza_Trello_Vicia_faba_Ecuador_2017","CUMBI1","transects","syrphids","family","syrphids",1,900,90,NA,"To explore pollinator biodiversity we selected 15 Faba bean fields that were at the same phenological stage and adjacent to a managed grassland (or a natural grassland area when it was not feasible). We conducted pollinator surveys along 25 days (from early July to middle August) by walking during 15 minutes along each of two 150 x 1 m standardized transects per site. One transect was located at the field edge while the central transect was located at 25 m inside the field from the edge. In 5 fields these transects were adapted to the middle of the field as the field did not reach 50 meters. Transect walks were conducted between 8:00 and 16:30, low wind speeds and temperatures above 15 degrees C. Due Andean high altitude weather characteristics, during shorts periods of rain (minutes) or low clouds we stopped the survey and resumed it when weather allowed. Sites were surveyed thrice in random order. We surveyed all honeybees, bumblebees, solitary bees, hoverflies and other Diptera (e.g: Calliphoridae, Tachinidae, Sarcophagidae) that visited flowers inside Faba beans field and at the margin of the crop capturing the pollinators with a net. Handling time invested in capturing pollinators was discounted. In total, the sampling effort was 90 minutes. Pollinators that were easily identifiable (e.g. honeybees and Bombus funebris, medium and big hoverflies) were recorded without capturing when possible.","Round number: 3. Height above sea level:2759 m."
"Carlos_Zaragoza_Trello_Vicia_faba_Ecuador_2017","CUMBI1","transects","syrphids","family","syrphids",4,900,90,NA,"To explore pollinator biodiversity we selected 15 Faba bean fields that were at the same phenological stage and adjacent to a managed grassland (or a natural grassland area when it was not feasible). We conducted pollinator surveys along 25 days (from early July to middle August) by walking during 15 minutes along each of two 150 x 1 m standardized transects per site. One transect was located at the field edge while the central transect was located at 25 m inside the field from the edge. In 5 fields these transects were adapted to the middle of the field as the field did not reach 50 meters. Transect walks were conducted between 8:00 and 16:30, low wind speeds and temperatures above 15 degrees C. Due Andean high altitude weather characteristics, during shorts periods of rain (minutes) or low clouds we stopped the survey and resumed it when weather allowed. Sites were surveyed thrice in random order. We surveyed all honeybees, bumblebees, solitary bees, hoverflies and other Diptera (e.g: Calliphoridae, Tachinidae, Sarcophagidae) that visited flowers inside Faba beans field and at the margin of the crop capturing the pollinators with a net. Handling time invested in capturing pollinators was discounted. In total, the sampling effort was 90 minutes. Pollinators that were easily identifiable (e.g. honeybees and Bombus funebris, medium and big hoverflies) were recorded without capturing when possible.","Round number: 3. Height above sea level:2759 m."
"Carlos_Zaragoza_Trello_Vicia_faba_Ecuador_2017","CUMBI1","transects","syrphids","family","syrphids",6,900,90,NA,"To explore pollinator biodiversity we selected 15 Faba bean fields that were at the same phenological stage and adjacent to a managed grassland (or a natural grassland area when it was not feasible). We conducted pollinator surveys along 25 days (from early July to middle August) by walking during 15 minutes along each of two 150 x 1 m standardized transects per site. One transect was located at the field edge while the central transect was located at 25 m inside the field from the edge. In 5 fields these transects were adapted to the middle of the field as the field did not reach 50 meters. Transect walks were conducted between 8:00 and 16:30, low wind speeds and temperatures above 15 degrees C. Due Andean high altitude weather characteristics, during shorts periods of rain (minutes) or low clouds we stopped the survey and resumed it when weather allowed. Sites were surveyed thrice in random order. We surveyed all honeybees, bumblebees, solitary bees, hoverflies and other Diptera (e.g: Calliphoridae, Tachinidae, Sarcophagidae) that visited flowers inside Faba beans field and at the margin of the crop capturing the pollinators with a net. Handling time invested in capturing pollinators was discounted. In total, the sampling effort was 90 minutes. Pollinators that were easily identifiable (e.g. honeybees and Bombus funebris, medium and big hoverflies) were recorded without capturing when possible.","Round number: 1. Height above sea level:2759 m."
"Carlos_Zaragoza_Trello_Vicia_faba_Ecuador_2017","CUMBI2","transects","syrphids","family","syrphids",11,900,90,NA,"To explore pollinator biodiversity we selected 15 Faba bean fields that were at the same phenological stage and adjacent to a managed grassland (or a natural grassland area when it was not feasible). We conducted pollinator surveys along 25 days (from early July to middle August) by walking during 15 minutes along each of two 150 x 1 m standardized transects per site. One transect was located at the field edge while the central transect was located at 25 m inside the field from the edge. In 5 fields these transects were adapted to the middle of the field as the field did not reach 50 meters. Transect walks were conducted between 8:00 and 16:30, low wind speeds and temperatures above 15 degrees C. Due Andean high altitude weather characteristics, during shorts periods of rain (minutes) or low clouds we stopped the survey and resumed it when weather allowed. Sites were surveyed thrice in random order. We surveyed all honeybees, bumblebees, solitary bees, hoverflies and other Diptera (e.g: Calliphoridae, Tachinidae, Sarcophagidae) that visited flowers inside Faba beans field and at the margin of the crop capturing the pollinators with a net. Handling time invested in capturing pollinators was discounted. In total, the sampling effort was 90 minutes. Pollinators that were easily identifiable (e.g. honeybees and Bombus funebris, medium and big hoverflies) were recorded without capturing when possible.","Round number: 3. Height above sea level:2943 m."
"Carlos_Zaragoza_Trello_Vicia_faba_Ecuador_2017","CUMBI2","transects","syrphids","family","syrphids",5,900,90,NA,"To explore pollinator biodiversity we selected 15 Faba bean fields that were at the same phenological stage and adjacent to a managed grassland (or a natural grassland area when it was not feasible). We conducted pollinator surveys along 25 days (from early July to middle August) by walking during 15 minutes along each of two 150 x 1 m standardized transects per site. One transect was located at the field edge while the central transect was located at 25 m inside the field from the edge. In 5 fields these transects were adapted to the middle of the field as the field did not reach 50 meters. Transect walks were conducted between 8:00 and 16:30, low wind speeds and temperatures above 15 degrees C. Due Andean high altitude weather characteristics, during shorts periods of rain (minutes) or low clouds we stopped the survey and resumed it when weather allowed. Sites were surveyed thrice in random order. We surveyed all honeybees, bumblebees, solitary bees, hoverflies and other Diptera (e.g: Calliphoridae, Tachinidae, Sarcophagidae) that visited flowers inside Faba beans field and at the margin of the crop capturing the pollinators with a net. Handling time invested in capturing pollinators was discounted. In total, the sampling effort was 90 minutes. Pollinators that were easily identifiable (e.g. honeybees and Bombus funebris, medium and big hoverflies) were recorded without capturing when possible.","Round number: 3. Height above sea level:2943 m."
"Carlos_Zaragoza_Trello_Vicia_faba_Ecuador_2017","CUMBI2","transects","syrphids","family","syrphids",4,900,90,NA,"To explore pollinator biodiversity we selected 15 Faba bean fields that were at the same phenological stage and adjacent to a managed grassland (or a natural grassland area when it was not feasible). We conducted pollinator surveys along 25 days (from early July to middle August) by walking during 15 minutes along each of two 150 x 1 m standardized transects per site. One transect was located at the field edge while the central transect was located at 25 m inside the field from the edge. In 5 fields these transects were adapted to the middle of the field as the field did not reach 50 meters. Transect walks were conducted between 8:00 and 16:30, low wind speeds and temperatures above 15 degrees C. Due Andean high altitude weather characteristics, during shorts periods of rain (minutes) or low clouds we stopped the survey and resumed it when weather allowed. Sites were surveyed thrice in random order. We surveyed all honeybees, bumblebees, solitary bees, hoverflies and other Diptera (e.g: Calliphoridae, Tachinidae, Sarcophagidae) that visited flowers inside Faba beans field and at the margin of the crop capturing the pollinators with a net. Handling time invested in capturing pollinators was discounted. In total, the sampling effort was 90 minutes. Pollinators that were easily identifiable (e.g. honeybees and Bombus funebris, medium and big hoverflies) were recorded without capturing when possible.","Round number: 3. Height above sea level:2943 m."
"Carlos_Zaragoza_Trello_Vicia_faba_Ecuador_2017","CUMBI2","transects","syrphids","family","syrphids",1,900,90,NA,"To explore pollinator biodiversity we selected 15 Faba bean fields that were at the same phenological stage and adjacent to a managed grassland (or a natural grassland area when it was not feasible). We conducted pollinator surveys along 25 days (from early July to middle August) by walking during 15 minutes along each of two 150 x 1 m standardized transects per site. One transect was located at the field edge while the central transect was located at 25 m inside the field from the edge. In 5 fields these transects were adapted to the middle of the field as the field did not reach 50 meters. Transect walks were conducted between 8:00 and 16:30, low wind speeds and temperatures above 15 degrees C. Due Andean high altitude weather characteristics, during shorts periods of rain (minutes) or low clouds we stopped the survey and resumed it when weather allowed. Sites were surveyed thrice in random order. We surveyed all honeybees, bumblebees, solitary bees, hoverflies and other Diptera (e.g: Calliphoridae, Tachinidae, Sarcophagidae) that visited flowers inside Faba beans field and at the margin of the crop capturing the pollinators with a net. Handling time invested in capturing pollinators was discounted. In total, the sampling effort was 90 minutes. Pollinators that were easily identifiable (e.g. honeybees and Bombus funebris, medium and big hoverflies) were recorded without capturing when possible.","Round number: 2. Height above sea level:2943 m."
"Carlos_Zaragoza_Trello_Vicia_faba_Ecuador_2017","CUMBI2","transects","syrphids","family","syrphids",1,900,90,NA,"To explore pollinator biodiversity we selected 15 Faba bean fields that were at the same phenological stage and adjacent to a managed grassland (or a natural grassland area when it was not feasible). We conducted pollinator surveys along 25 days (from early July to middle August) by walking during 15 minutes along each of two 150 x 1 m standardized transects per site. One transect was located at the field edge while the central transect was located at 25 m inside the field from the edge. In 5 fields these transects were adapted to the middle of the field as the field did not reach 50 meters. Transect walks were conducted between 8:00 and 16:30, low wind speeds and temperatures above 15 degrees C. Due Andean high altitude weather characteristics, during shorts periods of rain (minutes) or low clouds we stopped the survey and resumed it when weather allowed. Sites were surveyed thrice in random order. We surveyed all honeybees, bumblebees, solitary bees, hoverflies and other Diptera (e.g: Calliphoridae, Tachinidae, Sarcophagidae) that visited flowers inside Faba beans field and at the margin of the crop capturing the pollinators with a net. Handling time invested in capturing pollinators was discounted. In total, the sampling effort was 90 minutes. Pollinators that were easily identifiable (e.g. honeybees and Bombus funebris, medium and big hoverflies) were recorded without capturing when possible.","Round number: 2. Height above sea level:2943 m."
"Carlos_Zaragoza_Trello_Vicia_faba_Ecuador_2017","CUMBI2","transects","syrphids","family","syrphids",1,900,90,NA,"To explore pollinator biodiversity we selected 15 Faba bean fields that were at the same phenological stage and adjacent to a managed grassland (or a natural grassland area when it was not feasible). We conducted pollinator surveys along 25 days (from early July to middle August) by walking during 15 minutes along each of two 150 x 1 m standardized transects per site. One transect was located at the field edge while the central transect was located at 25 m inside the field from the edge. In 5 fields these transects were adapted to the middle of the field as the field did not reach 50 meters. Transect walks were conducted between 8:00 and 16:30, low wind speeds and temperatures above 15 degrees C. Due Andean high altitude weather characteristics, during shorts periods of rain (minutes) or low clouds we stopped the survey and resumed it when weather allowed. Sites were surveyed thrice in random order. We surveyed all honeybees, bumblebees, solitary bees, hoverflies and other Diptera (e.g: Calliphoridae, Tachinidae, Sarcophagidae) that visited flowers inside Faba beans field and at the margin of the crop capturing the pollinators with a net. Handling time invested in capturing pollinators was discounted. In total, the sampling effort was 90 minutes. Pollinators that were easily identifiable (e.g. honeybees and Bombus funebris, medium and big hoverflies) were recorded without capturing when possible.","Round number: 2. Height above sea level:2943 m."
"Carlos_Zaragoza_Trello_Vicia_faba_Ecuador_2017","CUMBI2","transects","syrphids","family","syrphids",1,900,90,NA,"To explore pollinator biodiversity we selected 15 Faba bean fields that were at the same phenological stage and adjacent to a managed grassland (or a natural grassland area when it was not feasible). We conducted pollinator surveys along 25 days (from early July to middle August) by walking during 15 minutes along each of two 150 x 1 m standardized transects per site. One transect was located at the field edge while the central transect was located at 25 m inside the field from the edge. In 5 fields these transects were adapted to the middle of the field as the field did not reach 50 meters. Transect walks were conducted between 8:00 and 16:30, low wind speeds and temperatures above 15 degrees C. Due Andean high altitude weather characteristics, during shorts periods of rain (minutes) or low clouds we stopped the survey and resumed it when weather allowed. Sites were surveyed thrice in random order. We surveyed all honeybees, bumblebees, solitary bees, hoverflies and other Diptera (e.g: Calliphoridae, Tachinidae, Sarcophagidae) that visited flowers inside Faba beans field and at the margin of the crop capturing the pollinators with a net. Handling time invested in capturing pollinators was discounted. In total, the sampling effort was 90 minutes. Pollinators that were easily identifiable (e.g. honeybees and Bombus funebris, medium and big hoverflies) were recorded without capturing when possible.","Round number: 2. Height above sea level:2943 m."
"Carlos_Zaragoza_Trello_Vicia_faba_Ecuador_2017","CUMBI2","transects","syrphids","family","syrphids",6,900,90,NA,"To explore pollinator biodiversity we selected 15 Faba bean fields that were at the same phenological stage and adjacent to a managed grassland (or a natural grassland area when it was not feasible). We conducted pollinator surveys along 25 days (from early July to middle August) by walking during 15 minutes along each of two 150 x 1 m standardized transects per site. One transect was located at the field edge while the central transect was located at 25 m inside the field from the edge. In 5 fields these transects were adapted to the middle of the field as the field did not reach 50 meters. Transect walks were conducted between 8:00 and 16:30, low wind speeds and temperatures above 15 degrees C. Due Andean high altitude weather characteristics, during shorts periods of rain (minutes) or low clouds we stopped the survey and resumed it when weather allowed. Sites were surveyed thrice in random order. We surveyed all honeybees, bumblebees, solitary bees, hoverflies and other Diptera (e.g: Calliphoridae, Tachinidae, Sarcophagidae) that visited flowers inside Faba beans field and at the margin of the crop capturing the pollinators with a net. Handling time invested in capturing pollinators was discounted. In total, the sampling effort was 90 minutes. Pollinators that were easily identifiable (e.g. honeybees and Bombus funebris, medium and big hoverflies) were recorded without capturing when possible.","Round number: NA. Height above sea level:2943 m."
"Carlos_Zaragoza_Trello_Vicia_faba_Ecuador_2017","CUMBI2","transects","syrphids","family","syrphids",6,900,90,NA,"To explore pollinator biodiversity we selected 15 Faba bean fields that were at the same phenological stage and adjacent to a managed grassland (or a natural grassland area when it was not feasible). We conducted pollinator surveys along 25 days (from early July to middle August) by walking during 15 minutes along each of two 150 x 1 m standardized transects per site. One transect was located at the field edge while the central transect was located at 25 m inside the field from the edge. In 5 fields these transects were adapted to the middle of the field as the field did not reach 50 meters. Transect walks were conducted between 8:00 and 16:30, low wind speeds and temperatures above 15 degrees C. Due Andean high altitude weather characteristics, during shorts periods of rain (minutes) or low clouds we stopped the survey and resumed it when weather allowed. Sites were surveyed thrice in random order. We surveyed all honeybees, bumblebees, solitary bees, hoverflies and other Diptera (e.g: Calliphoridae, Tachinidae, Sarcophagidae) that visited flowers inside Faba beans field and at the margin of the crop capturing the pollinators with a net. Handling time invested in capturing pollinators was discounted. In total, the sampling effort was 90 minutes. Pollinators that were easily identifiable (e.g. honeybees and Bombus funebris, medium and big hoverflies) were recorded without capturing when possible.","Round number: NA. Height above sea level:2943 m."
"Carlos_Zaragoza_Trello_Vicia_faba_Ecuador_2017","CUMBI2","transects","syrphids","family","syrphids",11,900,90,NA,"To explore pollinator biodiversity we selected 15 Faba bean fields that were at the same phenological stage and adjacent to a managed grassland (or a natural grassland area when it was not feasible). We conducted pollinator surveys along 25 days (from early July to middle August) by walking during 15 minutes along each of two 150 x 1 m standardized transects per site. One transect was located at the field edge while the central transect was located at 25 m inside the field from the edge. In 5 fields these transects were adapted to the middle of the field as the field did not reach 50 meters. Transect walks were conducted between 8:00 and 16:30, low wind speeds and temperatures above 15 degrees C. Due Andean high altitude weather characteristics, during shorts periods of rain (minutes) or low clouds we stopped the survey and resumed it when weather allowed. Sites were surveyed thrice in random order. We surveyed all honeybees, bumblebees, solitary bees, hoverflies and other Diptera (e.g: Calliphoridae, Tachinidae, Sarcophagidae) that visited flowers inside Faba beans field and at the margin of the crop capturing the pollinators with a net. Handling time invested in capturing pollinators was discounted. In total, the sampling effort was 90 minutes. Pollinators that were easily identifiable (e.g. honeybees and Bombus funebris, medium and big hoverflies) were recorded without capturing when possible.","Round number: 3. Height above sea level:2943 m."
"Carlos_Zaragoza_Trello_Vicia_faba_Ecuador_2017","CUMBI2","transects","syrphids","family","syrphids",3,900,90,NA,"To explore pollinator biodiversity we selected 15 Faba bean fields that were at the same phenological stage and adjacent to a managed grassland (or a natural grassland area when it was not feasible). We conducted pollinator surveys along 25 days (from early July to middle August) by walking during 15 minutes along each of two 150 x 1 m standardized transects per site. One transect was located at the field edge while the central transect was located at 25 m inside the field from the edge. In 5 fields these transects were adapted to the middle of the field as the field did not reach 50 meters. Transect walks were conducted between 8:00 and 16:30, low wind speeds and temperatures above 15 degrees C. Due Andean high altitude weather characteristics, during shorts periods of rain (minutes) or low clouds we stopped the survey and resumed it when weather allowed. Sites were surveyed thrice in random order. We surveyed all honeybees, bumblebees, solitary bees, hoverflies and other Diptera (e.g: Calliphoridae, Tachinidae, Sarcophagidae) that visited flowers inside Faba beans field and at the margin of the crop capturing the pollinators with a net. Handling time invested in capturing pollinators was discounted. In total, the sampling effort was 90 minutes. Pollinators that were easily identifiable (e.g. honeybees and Bombus funebris, medium and big hoverflies) were recorded without capturing when possible.","Round number: 2. Height above sea level:2943 m."
"Carlos_Zaragoza_Trello_Vicia_faba_Ecuador_2017","CUMBI2","transects","syrphids","family","syrphids",5,900,90,NA,"To explore pollinator biodiversity we selected 15 Faba bean fields that were at the same phenological stage and adjacent to a managed grassland (or a natural grassland area when it was not feasible). We conducted pollinator surveys along 25 days (from early July to middle August) by walking during 15 minutes along each of two 150 x 1 m standardized transects per site. One transect was located at the field edge while the central transect was located at 25 m inside the field from the edge. In 5 fields these transects were adapted to the middle of the field as the field did not reach 50 meters. Transect walks were conducted between 8:00 and 16:30, low wind speeds and temperatures above 15 degrees C. Due Andean high altitude weather characteristics, during shorts periods of rain (minutes) or low clouds we stopped the survey and resumed it when weather allowed. Sites were surveyed thrice in random order. We surveyed all honeybees, bumblebees, solitary bees, hoverflies and other Diptera (e.g: Calliphoridae, Tachinidae, Sarcophagidae) that visited flowers inside Faba beans field and at the margin of the crop capturing the pollinators with a net. Handling time invested in capturing pollinators was discounted. In total, the sampling effort was 90 minutes. Pollinators that were easily identifiable (e.g. honeybees and Bombus funebris, medium and big hoverflies) were recorded without capturing when possible.","Round number: 2. Height above sea level:2943 m."
"Carlos_Zaragoza_Trello_Vicia_faba_Ecuador_2017","CUMBI2","transects","syrphids","family","syrphids",5,900,90,NA,"To explore pollinator biodiversity we selected 15 Faba bean fields that were at the same phenological stage and adjacent to a managed grassland (or a natural grassland area when it was not feasible). We conducted pollinator surveys along 25 days (from early July to middle August) by walking during 15 minutes along each of two 150 x 1 m standardized transects per site. One transect was located at the field edge while the central transect was located at 25 m inside the field from the edge. In 5 fields these transects were adapted to the middle of the field as the field did not reach 50 meters. Transect walks were conducted between 8:00 and 16:30, low wind speeds and temperatures above 15 degrees C. Due Andean high altitude weather characteristics, during shorts periods of rain (minutes) or low clouds we stopped the survey and resumed it when weather allowed. Sites were surveyed thrice in random order. We surveyed all honeybees, bumblebees, solitary bees, hoverflies and other Diptera (e.g: Calliphoridae, Tachinidae, Sarcophagidae) that visited flowers inside Faba beans field and at the margin of the crop capturing the pollinators with a net. Handling time invested in capturing pollinators was discounted. In total, the sampling effort was 90 minutes. Pollinators that were easily identifiable (e.g. honeybees and Bombus funebris, medium and big hoverflies) were recorded without capturing when possible.","Round number: 3. Height above sea level:2943 m."
"Carlos_Zaragoza_Trello_Vicia_faba_Ecuador_2017","CUMBI2","transects","syrphids","family","syrphids",4,900,90,NA,"To explore pollinator biodiversity we selected 15 Faba bean fields that were at the same phenological stage and adjacent to a managed grassland (or a natural grassland area when it was not feasible). We conducted pollinator surveys along 25 days (from early July to middle August) by walking during 15 minutes along each of two 150 x 1 m standardized transects per site. One transect was located at the field edge while the central transect was located at 25 m inside the field from the edge. In 5 fields these transects were adapted to the middle of the field as the field did not reach 50 meters. Transect walks were conducted between 8:00 and 16:30, low wind speeds and temperatures above 15 degrees C. Due Andean high altitude weather characteristics, during shorts periods of rain (minutes) or low clouds we stopped the survey and resumed it when weather allowed. Sites were surveyed thrice in random order. We surveyed all honeybees, bumblebees, solitary bees, hoverflies and other Diptera (e.g: Calliphoridae, Tachinidae, Sarcophagidae) that visited flowers inside Faba beans field and at the margin of the crop capturing the pollinators with a net. Handling time invested in capturing pollinators was discounted. In total, the sampling effort was 90 minutes. Pollinators that were easily identifiable (e.g. honeybees and Bombus funebris, medium and big hoverflies) were recorded without capturing when possible.","Round number: 2. Height above sea level:2943 m."
"Carlos_Zaragoza_Trello_Vicia_faba_Ecuador_2017","CUMBI2","transects","syrphids","family","syrphids",5,900,90,NA,"To explore pollinator biodiversity we selected 15 Faba bean fields that were at the same phenological stage and adjacent to a managed grassland (or a natural grassland area when it was not feasible). We conducted pollinator surveys along 25 days (from early July to middle August) by walking during 15 minutes along each of two 150 x 1 m standardized transects per site. One transect was located at the field edge while the central transect was located at 25 m inside the field from the edge. In 5 fields these transects were adapted to the middle of the field as the field did not reach 50 meters. Transect walks were conducted between 8:00 and 16:30, low wind speeds and temperatures above 15 degrees C. Due Andean high altitude weather characteristics, during shorts periods of rain (minutes) or low clouds we stopped the survey and resumed it when weather allowed. Sites were surveyed thrice in random order. We surveyed all honeybees, bumblebees, solitary bees, hoverflies and other Diptera (e.g: Calliphoridae, Tachinidae, Sarcophagidae) that visited flowers inside Faba beans field and at the margin of the crop capturing the pollinators with a net. Handling time invested in capturing pollinators was discounted. In total, the sampling effort was 90 minutes. Pollinators that were easily identifiable (e.g. honeybees and Bombus funebris, medium and big hoverflies) were recorded without capturing when possible.","Round number: 2. Height above sea level:2943 m."
"Carlos_Zaragoza_Trello_Vicia_faba_Ecuador_2017","CUMBI2","transects","syrphids","family","syrphids",5,900,90,NA,"To explore pollinator biodiversity we selected 15 Faba bean fields that were at the same phenological stage and adjacent to a managed grassland (or a natural grassland area when it was not feasible). We conducted pollinator surveys along 25 days (from early July to middle August) by walking during 15 minutes along each of two 150 x 1 m standardized transects per site. One transect was located at the field edge while the central transect was located at 25 m inside the field from the edge. In 5 fields these transects were adapted to the middle of the field as the field did not reach 50 meters. Transect walks were conducted between 8:00 and 16:30, low wind speeds and temperatures above 15 degrees C. Due Andean high altitude weather characteristics, during shorts periods of rain (minutes) or low clouds we stopped the survey and resumed it when weather allowed. Sites were surveyed thrice in random order. We surveyed all honeybees, bumblebees, solitary bees, hoverflies and other Diptera (e.g: Calliphoridae, Tachinidae, Sarcophagidae) that visited flowers inside Faba beans field and at the margin of the crop capturing the pollinators with a net. Handling time invested in capturing pollinators was discounted. In total, the sampling effort was 90 minutes. Pollinators that were easily identifiable (e.g. honeybees and Bombus funebris, medium and big hoverflies) were recorded without capturing when possible.","Round number: 1. Height above sea level:2943 m."
"Carlos_Zaragoza_Trello_Vicia_faba_Ecuador_2017","CUMBI2","transects","syrphids","family","syrphids",4,900,90,NA,"To explore pollinator biodiversity we selected 15 Faba bean fields that were at the same phenological stage and adjacent to a managed grassland (or a natural grassland area when it was not feasible). We conducted pollinator surveys along 25 days (from early July to middle August) by walking during 15 minutes along each of two 150 x 1 m standardized transects per site. One transect was located at the field edge while the central transect was located at 25 m inside the field from the edge. In 5 fields these transects were adapted to the middle of the field as the field did not reach 50 meters. Transect walks were conducted between 8:00 and 16:30, low wind speeds and temperatures above 15 degrees C. Due Andean high altitude weather characteristics, during shorts periods of rain (minutes) or low clouds we stopped the survey and resumed it when weather allowed. Sites were surveyed thrice in random order. We surveyed all honeybees, bumblebees, solitary bees, hoverflies and other Diptera (e.g: Calliphoridae, Tachinidae, Sarcophagidae) that visited flowers inside Faba beans field and at the margin of the crop capturing the pollinators with a net. Handling time invested in capturing pollinators was discounted. In total, the sampling effort was 90 minutes. Pollinators that were easily identifiable (e.g. honeybees and Bombus funebris, medium and big hoverflies) were recorded without capturing when possible.","Round number: 3. Height above sea level:2943 m."
"Carlos_Zaragoza_Trello_Vicia_faba_Ecuador_2017","CUMBI3","transects","syrphids","family","syrphids",1,900,90,NA,"To explore pollinator biodiversity we selected 15 Faba bean fields that were at the same phenological stage and adjacent to a managed grassland (or a natural grassland area when it was not feasible). We conducted pollinator surveys along 25 days (from early July to middle August) by walking during 15 minutes along each of two 150 x 1 m standardized transects per site. One transect was located at the field edge while the central transect was located at 25 m inside the field from the edge. In 5 fields these transects were adapted to the middle of the field as the field did not reach 50 meters. Transect walks were conducted between 8:00 and 16:30, low wind speeds and temperatures above 15 degrees C. Due Andean high altitude weather characteristics, during shorts periods of rain (minutes) or low clouds we stopped the survey and resumed it when weather allowed. Sites were surveyed thrice in random order. We surveyed all honeybees, bumblebees, solitary bees, hoverflies and other Diptera (e.g: Calliphoridae, Tachinidae, Sarcophagidae) that visited flowers inside Faba beans field and at the margin of the crop capturing the pollinators with a net. Handling time invested in capturing pollinators was discounted. In total, the sampling effort was 90 minutes. Pollinators that were easily identifiable (e.g. honeybees and Bombus funebris, medium and big hoverflies) were recorded without capturing when possible.","Round number: 1. Height above sea level:3064 m."
"Carlos_Zaragoza_Trello_Vicia_faba_Ecuador_2017","CUMBI3","transects","syrphids","family","syrphids",1,900,90,NA,"To explore pollinator biodiversity we selected 15 Faba bean fields that were at the same phenological stage and adjacent to a managed grassland (or a natural grassland area when it was not feasible). We conducted pollinator surveys along 25 days (from early July to middle August) by walking during 15 minutes along each of two 150 x 1 m standardized transects per site. One transect was located at the field edge while the central transect was located at 25 m inside the field from the edge. In 5 fields these transects were adapted to the middle of the field as the field did not reach 50 meters. Transect walks were conducted between 8:00 and 16:30, low wind speeds and temperatures above 15 degrees C. Due Andean high altitude weather characteristics, during shorts periods of rain (minutes) or low clouds we stopped the survey and resumed it when weather allowed. Sites were surveyed thrice in random order. We surveyed all honeybees, bumblebees, solitary bees, hoverflies and other Diptera (e.g: Calliphoridae, Tachinidae, Sarcophagidae) that visited flowers inside Faba beans field and at the margin of the crop capturing the pollinators with a net. Handling time invested in capturing pollinators was discounted. In total, the sampling effort was 90 minutes. Pollinators that were easily identifiable (e.g. honeybees and Bombus funebris, medium and big hoverflies) were recorded without capturing when possible.","Round number: 1. Height above sea level:3064 m."
"Carlos_Zaragoza_Trello_Vicia_faba_Ecuador_2017","CUMBI3","transects","syrphids","family","syrphids",1,900,90,NA,"To explore pollinator biodiversity we selected 15 Faba bean fields that were at the same phenological stage and adjacent to a managed grassland (or a natural grassland area when it was not feasible). We conducted pollinator surveys along 25 days (from early July to middle August) by walking during 15 minutes along each of two 150 x 1 m standardized transects per site. One transect was located at the field edge while the central transect was located at 25 m inside the field from the edge. In 5 fields these transects were adapted to the middle of the field as the field did not reach 50 meters. Transect walks were conducted between 8:00 and 16:30, low wind speeds and temperatures above 15 degrees C. Due Andean high altitude weather characteristics, during shorts periods of rain (minutes) or low clouds we stopped the survey and resumed it when weather allowed. Sites were surveyed thrice in random order. We surveyed all honeybees, bumblebees, solitary bees, hoverflies and other Diptera (e.g: Calliphoridae, Tachinidae, Sarcophagidae) that visited flowers inside Faba beans field and at the margin of the crop capturing the pollinators with a net. Handling time invested in capturing pollinators was discounted. In total, the sampling effort was 90 minutes. Pollinators that were easily identifiable (e.g. honeybees and Bombus funebris, medium and big hoverflies) were recorded without capturing when possible.","Round number: 1. Height above sea level:3064 m."
"Carlos_Zaragoza_Trello_Vicia_faba_Ecuador_2017","CUMBI3","transects","syrphids","family","syrphids",1,900,90,NA,"To explore pollinator biodiversity we selected 15 Faba bean fields that were at the same phenological stage and adjacent to a managed grassland (or a natural grassland area when it was not feasible). We conducted pollinator surveys along 25 days (from early July to middle August) by walking during 15 minutes along each of two 150 x 1 m standardized transects per site. One transect was located at the field edge while the central transect was located at 25 m inside the field from the edge. In 5 fields these transects were adapted to the middle of the field as the field did not reach 50 meters. Transect walks were conducted between 8:00 and 16:30, low wind speeds and temperatures above 15 degrees C. Due Andean high altitude weather characteristics, during shorts periods of rain (minutes) or low clouds we stopped the survey and resumed it when weather allowed. Sites were surveyed thrice in random order. We surveyed all honeybees, bumblebees, solitary bees, hoverflies and other Diptera (e.g: Calliphoridae, Tachinidae, Sarcophagidae) that visited flowers inside Faba beans field and at the margin of the crop capturing the pollinators with a net. Handling time invested in capturing pollinators was discounted. In total, the sampling effort was 90 minutes. Pollinators that were easily identifiable (e.g. honeybees and Bombus funebris, medium and big hoverflies) were recorded without capturing when possible.","Round number: 1. Height above sea level:3064 m."
"Carlos_Zaragoza_Trello_Vicia_faba_Ecuador_2017","CUMBI3","transects","syrphids","family","syrphids",1,900,90,NA,"To explore pollinator biodiversity we selected 15 Faba bean fields that were at the same phenological stage and adjacent to a managed grassland (or a natural grassland area when it was not feasible). We conducted pollinator surveys along 25 days (from early July to middle August) by walking during 15 minutes along each of two 150 x 1 m standardized transects per site. One transect was located at the field edge while the central transect was located at 25 m inside the field from the edge. In 5 fields these transects were adapted to the middle of the field as the field did not reach 50 meters. Transect walks were conducted between 8:00 and 16:30, low wind speeds and temperatures above 15 degrees C. Due Andean high altitude weather characteristics, during shorts periods of rain (minutes) or low clouds we stopped the survey and resumed it when weather allowed. Sites were surveyed thrice in random order. We surveyed all honeybees, bumblebees, solitary bees, hoverflies and other Diptera (e.g: Calliphoridae, Tachinidae, Sarcophagidae) that visited flowers inside Faba beans field and at the margin of the crop capturing the pollinators with a net. Handling time invested in capturing pollinators was discounted. In total, the sampling effort was 90 minutes. Pollinators that were easily identifiable (e.g. honeybees and Bombus funebris, medium and big hoverflies) were recorded without capturing when possible.","Round number: 1. Height above sea level:3064 m."
"Carlos_Zaragoza_Trello_Vicia_faba_Ecuador_2017","CUMBI3","transects","syrphids","family","syrphids",1,900,90,NA,"To explore pollinator biodiversity we selected 15 Faba bean fields that were at the same phenological stage and adjacent to a managed grassland (or a natural grassland area when it was not feasible). We conducted pollinator surveys along 25 days (from early July to middle August) by walking during 15 minutes along each of two 150 x 1 m standardized transects per site. One transect was located at the field edge while the central transect was located at 25 m inside the field from the edge. In 5 fields these transects were adapted to the middle of the field as the field did not reach 50 meters. Transect walks were conducted between 8:00 and 16:30, low wind speeds and temperatures above 15 degrees C. Due Andean high altitude weather characteristics, during shorts periods of rain (minutes) or low clouds we stopped the survey and resumed it when weather allowed. Sites were surveyed thrice in random order. We surveyed all honeybees, bumblebees, solitary bees, hoverflies and other Diptera (e.g: Calliphoridae, Tachinidae, Sarcophagidae) that visited flowers inside Faba beans field and at the margin of the crop capturing the pollinators with a net. Handling time invested in capturing pollinators was discounted. In total, the sampling effort was 90 minutes. Pollinators that were easily identifiable (e.g. honeybees and Bombus funebris, medium and big hoverflies) were recorded without capturing when possible.","Round number: 1. Height above sea level:3064 m."
"Carlos_Zaragoza_Trello_Vicia_faba_Ecuador_2017","CUMBI3","transects","syrphids","family","syrphids",1,900,90,NA,"To explore pollinator biodiversity we selected 15 Faba bean fields that were at the same phenological stage and adjacent to a managed grassland (or a natural grassland area when it was not feasible). We conducted pollinator surveys along 25 days (from early July to middle August) by walking during 15 minutes along each of two 150 x 1 m standardized transects per site. One transect was located at the field edge while the central transect was located at 25 m inside the field from the edge. In 5 fields these transects were adapted to the middle of the field as the field did not reach 50 meters. Transect walks were conducted between 8:00 and 16:30, low wind speeds and temperatures above 15 degrees C. Due Andean high altitude weather characteristics, during shorts periods of rain (minutes) or low clouds we stopped the survey and resumed it when weather allowed. Sites were surveyed thrice in random order. We surveyed all honeybees, bumblebees, solitary bees, hoverflies and other Diptera (e.g: Calliphoridae, Tachinidae, Sarcophagidae) that visited flowers inside Faba beans field and at the margin of the crop capturing the pollinators with a net. Handling time invested in capturing pollinators was discounted. In total, the sampling effort was 90 minutes. Pollinators that were easily identifiable (e.g. honeybees and Bombus funebris, medium and big hoverflies) were recorded without capturing when possible.","Round number: 1. Height above sea level:3064 m."
"Carlos_Zaragoza_Trello_Vicia_faba_Ecuador_2017","CUMBI3","transects","syrphids","family","syrphids",1,900,90,NA,"To explore pollinator biodiversity we selected 15 Faba bean fields that were at the same phenological stage and adjacent to a managed grassland (or a natural grassland area when it was not feasible). We conducted pollinator surveys along 25 days (from early July to middle August) by walking during 15 minutes along each of two 150 x 1 m standardized transects per site. One transect was located at the field edge while the central transect was located at 25 m inside the field from the edge. In 5 fields these transects were adapted to the middle of the field as the field did not reach 50 meters. Transect walks were conducted between 8:00 and 16:30, low wind speeds and temperatures above 15 degrees C. Due Andean high altitude weather characteristics, during shorts periods of rain (minutes) or low clouds we stopped the survey and resumed it when weather allowed. Sites were surveyed thrice in random order. We surveyed all honeybees, bumblebees, solitary bees, hoverflies and other Diptera (e.g: Calliphoridae, Tachinidae, Sarcophagidae) that visited flowers inside Faba beans field and at the margin of the crop capturing the pollinators with a net. Handling time invested in capturing pollinators was discounted. In total, the sampling effort was 90 minutes. Pollinators that were easily identifiable (e.g. honeybees and Bombus funebris, medium and big hoverflies) were recorded without capturing when possible.","Round number: 1. Height above sea level:3064 m."
"Carlos_Zaragoza_Trello_Vicia_faba_Ecuador_2017","CUMBI3","transects","syrphids","family","syrphids",1,900,90,NA,"To explore pollinator biodiversity we selected 15 Faba bean fields that were at the same phenological stage and adjacent to a managed grassland (or a natural grassland area when it was not feasible). We conducted pollinator surveys along 25 days (from early July to middle August) by walking during 15 minutes along each of two 150 x 1 m standardized transects per site. One transect was located at the field edge while the central transect was located at 25 m inside the field from the edge. In 5 fields these transects were adapted to the middle of the field as the field did not reach 50 meters. Transect walks were conducted between 8:00 and 16:30, low wind speeds and temperatures above 15 degrees C. Due Andean high altitude weather characteristics, during shorts periods of rain (minutes) or low clouds we stopped the survey and resumed it when weather allowed. Sites were surveyed thrice in random order. We surveyed all honeybees, bumblebees, solitary bees, hoverflies and other Diptera (e.g: Calliphoridae, Tachinidae, Sarcophagidae) that visited flowers inside Faba beans field and at the margin of the crop capturing the pollinators with a net. Handling time invested in capturing pollinators was discounted. In total, the sampling effort was 90 minutes. Pollinators that were easily identifiable (e.g. honeybees and Bombus funebris, medium and big hoverflies) were recorded without capturing when possible.","Round number: 1. Height above sea level:3064 m."
"Carlos_Zaragoza_Trello_Vicia_faba_Ecuador_2017","CUMBI3","transects","syrphids","family","syrphids",1,900,90,NA,"To explore pollinator biodiversity we selected 15 Faba bean fields that were at the same phenological stage and adjacent to a managed grassland (or a natural grassland area when it was not feasible). We conducted pollinator surveys along 25 days (from early July to middle August) by walking during 15 minutes along each of two 150 x 1 m standardized transects per site. One transect was located at the field edge while the central transect was located at 25 m inside the field from the edge. In 5 fields these transects were adapted to the middle of the field as the field did not reach 50 meters. Transect walks were conducted between 8:00 and 16:30, low wind speeds and temperatures above 15 degrees C. Due Andean high altitude weather characteristics, during shorts periods of rain (minutes) or low clouds we stopped the survey and resumed it when weather allowed. Sites were surveyed thrice in random order. We surveyed all honeybees, bumblebees, solitary bees, hoverflies and other Diptera (e.g: Calliphoridae, Tachinidae, Sarcophagidae) that visited flowers inside Faba beans field and at the margin of the crop capturing the pollinators with a net. Handling time invested in capturing pollinators was discounted. In total, the sampling effort was 90 minutes. Pollinators that were easily identifiable (e.g. honeybees and Bombus funebris, medium and big hoverflies) were recorded without capturing when possible.","Round number: 1. Height above sea level:3064 m."
"Carlos_Zaragoza_Trello_Vicia_faba_Ecuador_2017","CUMBI3","transects","syrphids","family","syrphids",1,900,90,NA,"To explore pollinator biodiversity we selected 15 Faba bean fields that were at the same phenological stage and adjacent to a managed grassland (or a natural grassland area when it was not feasible). We conducted pollinator surveys along 25 days (from early July to middle August) by walking during 15 minutes along each of two 150 x 1 m standardized transects per site. One transect was located at the field edge while the central transect was located at 25 m inside the field from the edge. In 5 fields these transects were adapted to the middle of the field as the field did not reach 50 meters. Transect walks were conducted between 8:00 and 16:30, low wind speeds and temperatures above 15 degrees C. Due Andean high altitude weather characteristics, during shorts periods of rain (minutes) or low clouds we stopped the survey and resumed it when weather allowed. Sites were surveyed thrice in random order. We surveyed all honeybees, bumblebees, solitary bees, hoverflies and other Diptera (e.g: Calliphoridae, Tachinidae, Sarcophagidae) that visited flowers inside Faba beans field and at the margin of the crop capturing the pollinators with a net. Handling time invested in capturing pollinators was discounted. In total, the sampling effort was 90 minutes. Pollinators that were easily identifiable (e.g. honeybees and Bombus funebris, medium and big hoverflies) were recorded without capturing when possible.","Round number: 1. Height above sea level:3064 m."
"Carlos_Zaragoza_Trello_Vicia_faba_Ecuador_2017","CUMBI3","transects","syrphids","family","syrphids",1,900,90,NA,"To explore pollinator biodiversity we selected 15 Faba bean fields that were at the same phenological stage and adjacent to a managed grassland (or a natural grassland area when it was not feasible). We conducted pollinator surveys along 25 days (from early July to middle August) by walking during 15 minutes along each of two 150 x 1 m standardized transects per site. One transect was located at the field edge while the central transect was located at 25 m inside the field from the edge. In 5 fields these transects were adapted to the middle of the field as the field did not reach 50 meters. Transect walks were conducted between 8:00 and 16:30, low wind speeds and temperatures above 15 degrees C. Due Andean high altitude weather characteristics, during shorts periods of rain (minutes) or low clouds we stopped the survey and resumed it when weather allowed. Sites were surveyed thrice in random order. We surveyed all honeybees, bumblebees, solitary bees, hoverflies and other Diptera (e.g: Calliphoridae, Tachinidae, Sarcophagidae) that visited flowers inside Faba beans field and at the margin of the crop capturing the pollinators with a net. Handling time invested in capturing pollinators was discounted. In total, the sampling effort was 90 minutes. Pollinators that were easily identifiable (e.g. honeybees and Bombus funebris, medium and big hoverflies) were recorded without capturing when possible.","Round number: 1. Height above sea level:3064 m."
"Carlos_Zaragoza_Trello_Vicia_faba_Ecuador_2017","CUMBI3","transects","syrphids","family","syrphids",1,900,90,NA,"To explore pollinator biodiversity we selected 15 Faba bean fields that were at the same phenological stage and adjacent to a managed grassland (or a natural grassland area when it was not feasible). We conducted pollinator surveys along 25 days (from early July to middle August) by walking during 15 minutes along each of two 150 x 1 m standardized transects per site. One transect was located at the field edge while the central transect was located at 25 m inside the field from the edge. In 5 fields these transects were adapted to the middle of the field as the field did not reach 50 meters. Transect walks were conducted between 8:00 and 16:30, low wind speeds and temperatures above 15 degrees C. Due Andean high altitude weather characteristics, during shorts periods of rain (minutes) or low clouds we stopped the survey and resumed it when weather allowed. Sites were surveyed thrice in random order. We surveyed all honeybees, bumblebees, solitary bees, hoverflies and other Diptera (e.g: Calliphoridae, Tachinidae, Sarcophagidae) that visited flowers inside Faba beans field and at the margin of the crop capturing the pollinators with a net. Handling time invested in capturing pollinators was discounted. In total, the sampling effort was 90 minutes. Pollinators that were easily identifiable (e.g. honeybees and Bombus funebris, medium and big hoverflies) were recorded without capturing when possible.","Round number: 1. Height above sea level:3064 m."
"Carlos_Zaragoza_Trello_Vicia_faba_Ecuador_2017","CUMBI3","transects","syrphids","family","syrphids",1,900,90,NA,"To explore pollinator biodiversity we selected 15 Faba bean fields that were at the same phenological stage and adjacent to a managed grassland (or a natural grassland area when it was not feasible). We conducted pollinator surveys along 25 days (from early July to middle August) by walking during 15 minutes along each of two 150 x 1 m standardized transects per site. One transect was located at the field edge while the central transect was located at 25 m inside the field from the edge. In 5 fields these transects were adapted to the middle of the field as the field did not reach 50 meters. Transect walks were conducted between 8:00 and 16:30, low wind speeds and temperatures above 15 degrees C. Due Andean high altitude weather characteristics, during shorts periods of rain (minutes) or low clouds we stopped the survey and resumed it when weather allowed. Sites were surveyed thrice in random order. We surveyed all honeybees, bumblebees, solitary bees, hoverflies and other Diptera (e.g: Calliphoridae, Tachinidae, Sarcophagidae) that visited flowers inside Faba beans field and at the margin of the crop capturing the pollinators with a net. Handling time invested in capturing pollinators was discounted. In total, the sampling effort was 90 minutes. Pollinators that were easily identifiable (e.g. honeybees and Bombus funebris, medium and big hoverflies) were recorded without capturing when possible.","Round number: 1. Height above sea level:3064 m."
"Carlos_Zaragoza_Trello_Vicia_faba_Ecuador_2017","CUMBI3","transects","syrphids","family","syrphids",1,900,90,NA,"To explore pollinator biodiversity we selected 15 Faba bean fields that were at the same phenological stage and adjacent to a managed grassland (or a natural grassland area when it was not feasible). We conducted pollinator surveys along 25 days (from early July to middle August) by walking during 15 minutes along each of two 150 x 1 m standardized transects per site. One transect was located at the field edge while the central transect was located at 25 m inside the field from the edge. In 5 fields these transects were adapted to the middle of the field as the field did not reach 50 meters. Transect walks were conducted between 8:00 and 16:30, low wind speeds and temperatures above 15 degrees C. Due Andean high altitude weather characteristics, during shorts periods of rain (minutes) or low clouds we stopped the survey and resumed it when weather allowed. Sites were surveyed thrice in random order. We surveyed all honeybees, bumblebees, solitary bees, hoverflies and other Diptera (e.g: Calliphoridae, Tachinidae, Sarcophagidae) that visited flowers inside Faba beans field and at the margin of the crop capturing the pollinators with a net. Handling time invested in capturing pollinators was discounted. In total, the sampling effort was 90 minutes. Pollinators that were easily identifiable (e.g. honeybees and Bombus funebris, medium and big hoverflies) were recorded without capturing when possible.","Round number: 1. Height above sea level:3064 m."
"Carlos_Zaragoza_Trello_Vicia_faba_Ecuador_2017","CUMBI3","transects","syrphids","family","syrphids",1,900,90,NA,"To explore pollinator biodiversity we selected 15 Faba bean fields that were at the same phenological stage and adjacent to a managed grassland (or a natural grassland area when it was not feasible). We conducted pollinator surveys along 25 days (from early July to middle August) by walking during 15 minutes along each of two 150 x 1 m standardized transects per site. One transect was located at the field edge while the central transect was located at 25 m inside the field from the edge. In 5 fields these transects were adapted to the middle of the field as the field did not reach 50 meters. Transect walks were conducted between 8:00 and 16:30, low wind speeds and temperatures above 15 degrees C. Due Andean high altitude weather characteristics, during shorts periods of rain (minutes) or low clouds we stopped the survey and resumed it when weather allowed. Sites were surveyed thrice in random order. We surveyed all honeybees, bumblebees, solitary bees, hoverflies and other Diptera (e.g: Calliphoridae, Tachinidae, Sarcophagidae) that visited flowers inside Faba beans field and at the margin of the crop capturing the pollinators with a net. Handling time invested in capturing pollinators was discounted. In total, the sampling effort was 90 minutes. Pollinators that were easily identifiable (e.g. honeybees and Bombus funebris, medium and big hoverflies) were recorded without capturing when possible.","Round number: 1. Height above sea level:3064 m."
"Carlos_Zaragoza_Trello_Vicia_faba_Ecuador_2017","CUMBI3","transects","syrphids","family","syrphids",1,900,90,NA,"To explore pollinator biodiversity we selected 15 Faba bean fields that were at the same phenological stage and adjacent to a managed grassland (or a natural grassland area when it was not feasible). We conducted pollinator surveys along 25 days (from early July to middle August) by walking during 15 minutes along each of two 150 x 1 m standardized transects per site. One transect was located at the field edge while the central transect was located at 25 m inside the field from the edge. In 5 fields these transects were adapted to the middle of the field as the field did not reach 50 meters. Transect walks were conducted between 8:00 and 16:30, low wind speeds and temperatures above 15 degrees C. Due Andean high altitude weather characteristics, during shorts periods of rain (minutes) or low clouds we stopped the survey and resumed it when weather allowed. Sites were surveyed thrice in random order. We surveyed all honeybees, bumblebees, solitary bees, hoverflies and other Diptera (e.g: Calliphoridae, Tachinidae, Sarcophagidae) that visited flowers inside Faba beans field and at the margin of the crop capturing the pollinators with a net. Handling time invested in capturing pollinators was discounted. In total, the sampling effort was 90 minutes. Pollinators that were easily identifiable (e.g. honeybees and Bombus funebris, medium and big hoverflies) were recorded without capturing when possible.","Round number: 1. Height above sea level:3064 m."
"Carlos_Zaragoza_Trello_Vicia_faba_Ecuador_2017","CUMBI3","transects","syrphids","family","syrphids",1,900,90,NA,"To explore pollinator biodiversity we selected 15 Faba bean fields that were at the same phenological stage and adjacent to a managed grassland (or a natural grassland area when it was not feasible). We conducted pollinator surveys along 25 days (from early July to middle August) by walking during 15 minutes along each of two 150 x 1 m standardized transects per site. One transect was located at the field edge while the central transect was located at 25 m inside the field from the edge. In 5 fields these transects were adapted to the middle of the field as the field did not reach 50 meters. Transect walks were conducted between 8:00 and 16:30, low wind speeds and temperatures above 15 degrees C. Due Andean high altitude weather characteristics, during shorts periods of rain (minutes) or low clouds we stopped the survey and resumed it when weather allowed. Sites were surveyed thrice in random order. We surveyed all honeybees, bumblebees, solitary bees, hoverflies and other Diptera (e.g: Calliphoridae, Tachinidae, Sarcophagidae) that visited flowers inside Faba beans field and at the margin of the crop capturing the pollinators with a net. Handling time invested in capturing pollinators was discounted. In total, the sampling effort was 90 minutes. Pollinators that were easily identifiable (e.g. honeybees and Bombus funebris, medium and big hoverflies) were recorded without capturing when possible.","Round number: 1. Height above sea level:3064 m."
"Carlos_Zaragoza_Trello_Vicia_faba_Ecuador_2017","CUMBI4","transects","syrphids","family","syrphids",1,900,90,NA,"To explore pollinator biodiversity we selected 15 Faba bean fields that were at the same phenological stage and adjacent to a managed grassland (or a natural grassland area when it was not feasible). We conducted pollinator surveys along 25 days (from early July to middle August) by walking during 15 minutes along each of two 150 x 1 m standardized transects per site. One transect was located at the field edge while the central transect was located at 25 m inside the field from the edge. In 5 fields these transects were adapted to the middle of the field as the field did not reach 50 meters. Transect walks were conducted between 8:00 and 16:30, low wind speeds and temperatures above 15 degrees C. Due Andean high altitude weather characteristics, during shorts periods of rain (minutes) or low clouds we stopped the survey and resumed it when weather allowed. Sites were surveyed thrice in random order. We surveyed all honeybees, bumblebees, solitary bees, hoverflies and other Diptera (e.g: Calliphoridae, Tachinidae, Sarcophagidae) that visited flowers inside Faba beans field and at the margin of the crop capturing the pollinators with a net. Handling time invested in capturing pollinators was discounted. In total, the sampling effort was 90 minutes. Pollinators that were easily identifiable (e.g. honeybees and Bombus funebris, medium and big hoverflies) were recorded without capturing when possible.","Round number: 3. Height above sea level:3152 m."
"Carlos_Zaragoza_Trello_Vicia_faba_Ecuador_2017","CUMBI4","transects","syrphids","family","syrphids",1,900,90,NA,"To explore pollinator biodiversity we selected 15 Faba bean fields that were at the same phenological stage and adjacent to a managed grassland (or a natural grassland area when it was not feasible). We conducted pollinator surveys along 25 days (from early July to middle August) by walking during 15 minutes along each of two 150 x 1 m standardized transects per site. One transect was located at the field edge while the central transect was located at 25 m inside the field from the edge. In 5 fields these transects were adapted to the middle of the field as the field did not reach 50 meters. Transect walks were conducted between 8:00 and 16:30, low wind speeds and temperatures above 15 degrees C. Due Andean high altitude weather characteristics, during shorts periods of rain (minutes) or low clouds we stopped the survey and resumed it when weather allowed. Sites were surveyed thrice in random order. We surveyed all honeybees, bumblebees, solitary bees, hoverflies and other Diptera (e.g: Calliphoridae, Tachinidae, Sarcophagidae) that visited flowers inside Faba beans field and at the margin of the crop capturing the pollinators with a net. Handling time invested in capturing pollinators was discounted. In total, the sampling effort was 90 minutes. Pollinators that were easily identifiable (e.g. honeybees and Bombus funebris, medium and big hoverflies) were recorded without capturing when possible.","Round number: 2. Height above sea level:3152 m."
"Carlos_Zaragoza_Trello_Vicia_faba_Ecuador_2017","CUMBI4","transects","syrphids","family","syrphids",1,900,90,NA,"To explore pollinator biodiversity we selected 15 Faba bean fields that were at the same phenological stage and adjacent to a managed grassland (or a natural grassland area when it was not feasible). We conducted pollinator surveys along 25 days (from early July to middle August) by walking during 15 minutes along each of two 150 x 1 m standardized transects per site. One transect was located at the field edge while the central transect was located at 25 m inside the field from the edge. In 5 fields these transects were adapted to the middle of the field as the field did not reach 50 meters. Transect walks were conducted between 8:00 and 16:30, low wind speeds and temperatures above 15 degrees C. Due Andean high altitude weather characteristics, during shorts periods of rain (minutes) or low clouds we stopped the survey and resumed it when weather allowed. Sites were surveyed thrice in random order. We surveyed all honeybees, bumblebees, solitary bees, hoverflies and other Diptera (e.g: Calliphoridae, Tachinidae, Sarcophagidae) that visited flowers inside Faba beans field and at the margin of the crop capturing the pollinators with a net. Handling time invested in capturing pollinators was discounted. In total, the sampling effort was 90 minutes. Pollinators that were easily identifiable (e.g. honeybees and Bombus funebris, medium and big hoverflies) were recorded without capturing when possible.","Round number: 2. Height above sea level:3152 m."
"Carlos_Zaragoza_Trello_Vicia_faba_Ecuador_2017","CUMBI4","transects","syrphids","family","syrphids",1,900,90,NA,"To explore pollinator biodiversity we selected 15 Faba bean fields that were at the same phenological stage and adjacent to a managed grassland (or a natural grassland area when it was not feasible). We conducted pollinator surveys along 25 days (from early July to middle August) by walking during 15 minutes along each of two 150 x 1 m standardized transects per site. One transect was located at the field edge while the central transect was located at 25 m inside the field from the edge. In 5 fields these transects were adapted to the middle of the field as the field did not reach 50 meters. Transect walks were conducted between 8:00 and 16:30, low wind speeds and temperatures above 15 degrees C. Due Andean high altitude weather characteristics, during shorts periods of rain (minutes) or low clouds we stopped the survey and resumed it when weather allowed. Sites were surveyed thrice in random order. We surveyed all honeybees, bumblebees, solitary bees, hoverflies and other Diptera (e.g: Calliphoridae, Tachinidae, Sarcophagidae) that visited flowers inside Faba beans field and at the margin of the crop capturing the pollinators with a net. Handling time invested in capturing pollinators was discounted. In total, the sampling effort was 90 minutes. Pollinators that were easily identifiable (e.g. honeybees and Bombus funebris, medium and big hoverflies) were recorded without capturing when possible.","Round number: 2. Height above sea level:3152 m."
"Carlos_Zaragoza_Trello_Vicia_faba_Ecuador_2017","CUMBI4","transects","syrphids","family","syrphids",1,900,90,NA,"To explore pollinator biodiversity we selected 15 Faba bean fields that were at the same phenological stage and adjacent to a managed grassland (or a natural grassland area when it was not feasible). We conducted pollinator surveys along 25 days (from early July to middle August) by walking during 15 minutes along each of two 150 x 1 m standardized transects per site. One transect was located at the field edge while the central transect was located at 25 m inside the field from the edge. In 5 fields these transects were adapted to the middle of the field as the field did not reach 50 meters. Transect walks were conducted between 8:00 and 16:30, low wind speeds and temperatures above 15 degrees C. Due Andean high altitude weather characteristics, during shorts periods of rain (minutes) or low clouds we stopped the survey and resumed it when weather allowed. Sites were surveyed thrice in random order. We surveyed all honeybees, bumblebees, solitary bees, hoverflies and other Diptera (e.g: Calliphoridae, Tachinidae, Sarcophagidae) that visited flowers inside Faba beans field and at the margin of the crop capturing the pollinators with a net. Handling time invested in capturing pollinators was discounted. In total, the sampling effort was 90 minutes. Pollinators that were easily identifiable (e.g. honeybees and Bombus funebris, medium and big hoverflies) were recorded without capturing when possible.","Round number: 2. Height above sea level:3152 m."
"Carlos_Zaragoza_Trello_Vicia_faba_Ecuador_2017","CUMBI4","transects","syrphids","family","syrphids",1,900,90,NA,"To explore pollinator biodiversity we selected 15 Faba bean fields that were at the same phenological stage and adjacent to a managed grassland (or a natural grassland area when it was not feasible). We conducted pollinator surveys along 25 days (from early July to middle August) by walking during 15 minutes along each of two 150 x 1 m standardized transects per site. One transect was located at the field edge while the central transect was located at 25 m inside the field from the edge. In 5 fields these transects were adapted to the middle of the field as the field did not reach 50 meters. Transect walks were conducted between 8:00 and 16:30, low wind speeds and temperatures above 15 degrees C. Due Andean high altitude weather characteristics, during shorts periods of rain (minutes) or low clouds we stopped the survey and resumed it when weather allowed. Sites were surveyed thrice in random order. We surveyed all honeybees, bumblebees, solitary bees, hoverflies and other Diptera (e.g: Calliphoridae, Tachinidae, Sarcophagidae) that visited flowers inside Faba beans field and at the margin of the crop capturing the pollinators with a net. Handling time invested in capturing pollinators was discounted. In total, the sampling effort was 90 minutes. Pollinators that were easily identifiable (e.g. honeybees and Bombus funebris, medium and big hoverflies) were recorded without capturing when possible.","Round number: 2. Height above sea level:3152 m."
"Carlos_Zaragoza_Trello_Vicia_faba_Ecuador_2017","CUMBI4","transects","syrphids","family","syrphids",1,900,90,NA,"To explore pollinator biodiversity we selected 15 Faba bean fields that were at the same phenological stage and adjacent to a managed grassland (or a natural grassland area when it was not feasible). We conducted pollinator surveys along 25 days (from early July to middle August) by walking during 15 minutes along each of two 150 x 1 m standardized transects per site. One transect was located at the field edge while the central transect was located at 25 m inside the field from the edge. In 5 fields these transects were adapted to the middle of the field as the field did not reach 50 meters. Transect walks were conducted between 8:00 and 16:30, low wind speeds and temperatures above 15 degrees C. Due Andean high altitude weather characteristics, during shorts periods of rain (minutes) or low clouds we stopped the survey and resumed it when weather allowed. Sites were surveyed thrice in random order. We surveyed all honeybees, bumblebees, solitary bees, hoverflies and other Diptera (e.g: Calliphoridae, Tachinidae, Sarcophagidae) that visited flowers inside Faba beans field and at the margin of the crop capturing the pollinators with a net. Handling time invested in capturing pollinators was discounted. In total, the sampling effort was 90 minutes. Pollinators that were easily identifiable (e.g. honeybees and Bombus funebris, medium and big hoverflies) were recorded without capturing when possible.","Round number: 2. Height above sea level:3152 m."
"Carlos_Zaragoza_Trello_Vicia_faba_Ecuador_2017","CUMBI4","transects","syrphids","family","syrphids",1,900,90,NA,"To explore pollinator biodiversity we selected 15 Faba bean fields that were at the same phenological stage and adjacent to a managed grassland (or a natural grassland area when it was not feasible). We conducted pollinator surveys along 25 days (from early July to middle August) by walking during 15 minutes along each of two 150 x 1 m standardized transects per site. One transect was located at the field edge while the central transect was located at 25 m inside the field from the edge. In 5 fields these transects were adapted to the middle of the field as the field did not reach 50 meters. Transect walks were conducted between 8:00 and 16:30, low wind speeds and temperatures above 15 degrees C. Due Andean high altitude weather characteristics, during shorts periods of rain (minutes) or low clouds we stopped the survey and resumed it when weather allowed. Sites were surveyed thrice in random order. We surveyed all honeybees, bumblebees, solitary bees, hoverflies and other Diptera (e.g: Calliphoridae, Tachinidae, Sarcophagidae) that visited flowers inside Faba beans field and at the margin of the crop capturing the pollinators with a net. Handling time invested in capturing pollinators was discounted. In total, the sampling effort was 90 minutes. Pollinators that were easily identifiable (e.g. honeybees and Bombus funebris, medium and big hoverflies) were recorded without capturing when possible.","Round number: 2. Height above sea level:3152 m."
"Carlos_Zaragoza_Trello_Vicia_faba_Ecuador_2017","CUMBI4","transects","syrphids","family","syrphids",1,900,90,NA,"To explore pollinator biodiversity we selected 15 Faba bean fields that were at the same phenological stage and adjacent to a managed grassland (or a natural grassland area when it was not feasible). We conducted pollinator surveys along 25 days (from early July to middle August) by walking during 15 minutes along each of two 150 x 1 m standardized transects per site. One transect was located at the field edge while the central transect was located at 25 m inside the field from the edge. In 5 fields these transects were adapted to the middle of the field as the field did not reach 50 meters. Transect walks were conducted between 8:00 and 16:30, low wind speeds and temperatures above 15 degrees C. Due Andean high altitude weather characteristics, during shorts periods of rain (minutes) or low clouds we stopped the survey and resumed it when weather allowed. Sites were surveyed thrice in random order. We surveyed all honeybees, bumblebees, solitary bees, hoverflies and other Diptera (e.g: Calliphoridae, Tachinidae, Sarcophagidae) that visited flowers inside Faba beans field and at the margin of the crop capturing the pollinators with a net. Handling time invested in capturing pollinators was discounted. In total, the sampling effort was 90 minutes. Pollinators that were easily identifiable (e.g. honeybees and Bombus funebris, medium and big hoverflies) were recorded without capturing when possible.","Round number: 2. Height above sea level:3152 m."
"Carlos_Zaragoza_Trello_Vicia_faba_Ecuador_2017","CUMBI4","transects","syrphids","family","syrphids",1,900,90,NA,"To explore pollinator biodiversity we selected 15 Faba bean fields that were at the same phenological stage and adjacent to a managed grassland (or a natural grassland area when it was not feasible). We conducted pollinator surveys along 25 days (from early July to middle August) by walking during 15 minutes along each of two 150 x 1 m standardized transects per site. One transect was located at the field edge while the central transect was located at 25 m inside the field from the edge. In 5 fields these transects were adapted to the middle of the field as the field did not reach 50 meters. Transect walks were conducted between 8:00 and 16:30, low wind speeds and temperatures above 15 degrees C. Due Andean high altitude weather characteristics, during shorts periods of rain (minutes) or low clouds we stopped the survey and resumed it when weather allowed. Sites were surveyed thrice in random order. We surveyed all honeybees, bumblebees, solitary bees, hoverflies and other Diptera (e.g: Calliphoridae, Tachinidae, Sarcophagidae) that visited flowers inside Faba beans field and at the margin of the crop capturing the pollinators with a net. Handling time invested in capturing pollinators was discounted. In total, the sampling effort was 90 minutes. Pollinators that were easily identifiable (e.g. honeybees and Bombus funebris, medium and big hoverflies) were recorded without capturing when possible.","Round number: 1. Height above sea level:3152 m."
"Carlos_Zaragoza_Trello_Vicia_faba_Ecuador_2017","CUMBI4","transects","syrphids","family","syrphids",1,900,90,NA,"To explore pollinator biodiversity we selected 15 Faba bean fields that were at the same phenological stage and adjacent to a managed grassland (or a natural grassland area when it was not feasible). We conducted pollinator surveys along 25 days (from early July to middle August) by walking during 15 minutes along each of two 150 x 1 m standardized transects per site. One transect was located at the field edge while the central transect was located at 25 m inside the field from the edge. In 5 fields these transects were adapted to the middle of the field as the field did not reach 50 meters. Transect walks were conducted between 8:00 and 16:30, low wind speeds and temperatures above 15 degrees C. Due Andean high altitude weather characteristics, during shorts periods of rain (minutes) or low clouds we stopped the survey and resumed it when weather allowed. Sites were surveyed thrice in random order. We surveyed all honeybees, bumblebees, solitary bees, hoverflies and other Diptera (e.g: Calliphoridae, Tachinidae, Sarcophagidae) that visited flowers inside Faba beans field and at the margin of the crop capturing the pollinators with a net. Handling time invested in capturing pollinators was discounted. In total, the sampling effort was 90 minutes. Pollinators that were easily identifiable (e.g. honeybees and Bombus funebris, medium and big hoverflies) were recorded without capturing when possible.","Round number: 1. Height above sea level:3152 m."
"Carlos_Zaragoza_Trello_Vicia_faba_Ecuador_2017","CUMBI4","transects","syrphids","family","syrphids",6,900,90,NA,"To explore pollinator biodiversity we selected 15 Faba bean fields that were at the same phenological stage and adjacent to a managed grassland (or a natural grassland area when it was not feasible). We conducted pollinator surveys along 25 days (from early July to middle August) by walking during 15 minutes along each of two 150 x 1 m standardized transects per site. One transect was located at the field edge while the central transect was located at 25 m inside the field from the edge. In 5 fields these transects were adapted to the middle of the field as the field did not reach 50 meters. Transect walks were conducted between 8:00 and 16:30, low wind speeds and temperatures above 15 degrees C. Due Andean high altitude weather characteristics, during shorts periods of rain (minutes) or low clouds we stopped the survey and resumed it when weather allowed. Sites were surveyed thrice in random order. We surveyed all honeybees, bumblebees, solitary bees, hoverflies and other Diptera (e.g: Calliphoridae, Tachinidae, Sarcophagidae) that visited flowers inside Faba beans field and at the margin of the crop capturing the pollinators with a net. Handling time invested in capturing pollinators was discounted. In total, the sampling effort was 90 minutes. Pollinators that were easily identifiable (e.g. honeybees and Bombus funebris, medium and big hoverflies) were recorded without capturing when possible.","Round number: 3. Height above sea level:3152 m."
"Carlos_Zaragoza_Trello_Vicia_faba_Ecuador_2017","CUMBI4","transects","syrphids","family","syrphids",4,900,90,NA,"To explore pollinator biodiversity we selected 15 Faba bean fields that were at the same phenological stage and adjacent to a managed grassland (or a natural grassland area when it was not feasible). We conducted pollinator surveys along 25 days (from early July to middle August) by walking during 15 minutes along each of two 150 x 1 m standardized transects per site. One transect was located at the field edge while the central transect was located at 25 m inside the field from the edge. In 5 fields these transects were adapted to the middle of the field as the field did not reach 50 meters. Transect walks were conducted between 8:00 and 16:30, low wind speeds and temperatures above 15 degrees C. Due Andean high altitude weather characteristics, during shorts periods of rain (minutes) or low clouds we stopped the survey and resumed it when weather allowed. Sites were surveyed thrice in random order. We surveyed all honeybees, bumblebees, solitary bees, hoverflies and other Diptera (e.g: Calliphoridae, Tachinidae, Sarcophagidae) that visited flowers inside Faba beans field and at the margin of the crop capturing the pollinators with a net. Handling time invested in capturing pollinators was discounted. In total, the sampling effort was 90 minutes. Pollinators that were easily identifiable (e.g. honeybees and Bombus funebris, medium and big hoverflies) were recorded without capturing when possible.","Round number: 3. Height above sea level:3152 m."
"Carlos_Zaragoza_Trello_Vicia_faba_Ecuador_2017","CUMBI4","transects","syrphids","family","syrphids",16,900,90,NA,"To explore pollinator biodiversity we selected 15 Faba bean fields that were at the same phenological stage and adjacent to a managed grassland (or a natural grassland area when it was not feasible). We conducted pollinator surveys along 25 days (from early July to middle August) by walking during 15 minutes along each of two 150 x 1 m standardized transects per site. One transect was located at the field edge while the central transect was located at 25 m inside the field from the edge. In 5 fields these transects were adapted to the middle of the field as the field did not reach 50 meters. Transect walks were conducted between 8:00 and 16:30, low wind speeds and temperatures above 15 degrees C. Due Andean high altitude weather characteristics, during shorts periods of rain (minutes) or low clouds we stopped the survey and resumed it when weather allowed. Sites were surveyed thrice in random order. We surveyed all honeybees, bumblebees, solitary bees, hoverflies and other Diptera (e.g: Calliphoridae, Tachinidae, Sarcophagidae) that visited flowers inside Faba beans field and at the margin of the crop capturing the pollinators with a net. Handling time invested in capturing pollinators was discounted. In total, the sampling effort was 90 minutes. Pollinators that were easily identifiable (e.g. honeybees and Bombus funebris, medium and big hoverflies) were recorded without capturing when possible.","Round number: 2. Height above sea level:3152 m."
"Carlos_Zaragoza_Trello_Vicia_faba_Ecuador_2017","CUMBI4","transects","syrphids","family","syrphids",25,900,90,NA,"To explore pollinator biodiversity we selected 15 Faba bean fields that were at the same phenological stage and adjacent to a managed grassland (or a natural grassland area when it was not feasible). We conducted pollinator surveys along 25 days (from early July to middle August) by walking during 15 minutes along each of two 150 x 1 m standardized transects per site. One transect was located at the field edge while the central transect was located at 25 m inside the field from the edge. In 5 fields these transects were adapted to the middle of the field as the field did not reach 50 meters. Transect walks were conducted between 8:00 and 16:30, low wind speeds and temperatures above 15 degrees C. Due Andean high altitude weather characteristics, during shorts periods of rain (minutes) or low clouds we stopped the survey and resumed it when weather allowed. Sites were surveyed thrice in random order. We surveyed all honeybees, bumblebees, solitary bees, hoverflies and other Diptera (e.g: Calliphoridae, Tachinidae, Sarcophagidae) that visited flowers inside Faba beans field and at the margin of the crop capturing the pollinators with a net. Handling time invested in capturing pollinators was discounted. In total, the sampling effort was 90 minutes. Pollinators that were easily identifiable (e.g. honeybees and Bombus funebris, medium and big hoverflies) were recorded without capturing when possible.","Round number: 2. Height above sea level:3152 m."
"Carlos_Zaragoza_Trello_Vicia_faba_Ecuador_2017","CUMBI4","transects","syrphids","family","syrphids",6,900,90,NA,"To explore pollinator biodiversity we selected 15 Faba bean fields that were at the same phenological stage and adjacent to a managed grassland (or a natural grassland area when it was not feasible). We conducted pollinator surveys along 25 days (from early July to middle August) by walking during 15 minutes along each of two 150 x 1 m standardized transects per site. One transect was located at the field edge while the central transect was located at 25 m inside the field from the edge. In 5 fields these transects were adapted to the middle of the field as the field did not reach 50 meters. Transect walks were conducted between 8:00 and 16:30, low wind speeds and temperatures above 15 degrees C. Due Andean high altitude weather characteristics, during shorts periods of rain (minutes) or low clouds we stopped the survey and resumed it when weather allowed. Sites were surveyed thrice in random order. We surveyed all honeybees, bumblebees, solitary bees, hoverflies and other Diptera (e.g: Calliphoridae, Tachinidae, Sarcophagidae) that visited flowers inside Faba beans field and at the margin of the crop capturing the pollinators with a net. Handling time invested in capturing pollinators was discounted. In total, the sampling effort was 90 minutes. Pollinators that were easily identifiable (e.g. honeybees and Bombus funebris, medium and big hoverflies) were recorded without capturing when possible.","Round number: 3. Height above sea level:3152 m."
"Carlos_Zaragoza_Trello_Vicia_faba_Ecuador_2017","CUMBI4","transects","syrphids","family","syrphids",4,900,90,NA,"To explore pollinator biodiversity we selected 15 Faba bean fields that were at the same phenological stage and adjacent to a managed grassland (or a natural grassland area when it was not feasible). We conducted pollinator surveys along 25 days (from early July to middle August) by walking during 15 minutes along each of two 150 x 1 m standardized transects per site. One transect was located at the field edge while the central transect was located at 25 m inside the field from the edge. In 5 fields these transects were adapted to the middle of the field as the field did not reach 50 meters. Transect walks were conducted between 8:00 and 16:30, low wind speeds and temperatures above 15 degrees C. Due Andean high altitude weather characteristics, during shorts periods of rain (minutes) or low clouds we stopped the survey and resumed it when weather allowed. Sites were surveyed thrice in random order. We surveyed all honeybees, bumblebees, solitary bees, hoverflies and other Diptera (e.g: Calliphoridae, Tachinidae, Sarcophagidae) that visited flowers inside Faba beans field and at the margin of the crop capturing the pollinators with a net. Handling time invested in capturing pollinators was discounted. In total, the sampling effort was 90 minutes. Pollinators that were easily identifiable (e.g. honeybees and Bombus funebris, medium and big hoverflies) were recorded without capturing when possible.","Round number: 3. Height above sea level:3152 m."
"Carlos_Zaragoza_Trello_Vicia_faba_Ecuador_2017","CUMBI4","transects","syrphids","family","syrphids",2,900,90,NA,"To explore pollinator biodiversity we selected 15 Faba bean fields that were at the same phenological stage and adjacent to a managed grassland (or a natural grassland area when it was not feasible). We conducted pollinator surveys along 25 days (from early July to middle August) by walking during 15 minutes along each of two 150 x 1 m standardized transects per site. One transect was located at the field edge while the central transect was located at 25 m inside the field from the edge. In 5 fields these transects were adapted to the middle of the field as the field did not reach 50 meters. Transect walks were conducted between 8:00 and 16:30, low wind speeds and temperatures above 15 degrees C. Due Andean high altitude weather characteristics, during shorts periods of rain (minutes) or low clouds we stopped the survey and resumed it when weather allowed. Sites were surveyed thrice in random order. We surveyed all honeybees, bumblebees, solitary bees, hoverflies and other Diptera (e.g: Calliphoridae, Tachinidae, Sarcophagidae) that visited flowers inside Faba beans field and at the margin of the crop capturing the pollinators with a net. Handling time invested in capturing pollinators was discounted. In total, the sampling effort was 90 minutes. Pollinators that were easily identifiable (e.g. honeybees and Bombus funebris, medium and big hoverflies) were recorded without capturing when possible.","Round number: 3. Height above sea level:3152 m."
"Carlos_Zaragoza_Trello_Vicia_faba_Ecuador_2017","CUMBI4","transects","syrphids","family","syrphids",1,900,90,NA,"To explore pollinator biodiversity we selected 15 Faba bean fields that were at the same phenological stage and adjacent to a managed grassland (or a natural grassland area when it was not feasible). We conducted pollinator surveys along 25 days (from early July to middle August) by walking during 15 minutes along each of two 150 x 1 m standardized transects per site. One transect was located at the field edge while the central transect was located at 25 m inside the field from the edge. In 5 fields these transects were adapted to the middle of the field as the field did not reach 50 meters. Transect walks were conducted between 8:00 and 16:30, low wind speeds and temperatures above 15 degrees C. Due Andean high altitude weather characteristics, during shorts periods of rain (minutes) or low clouds we stopped the survey and resumed it when weather allowed. Sites were surveyed thrice in random order. We surveyed all honeybees, bumblebees, solitary bees, hoverflies and other Diptera (e.g: Calliphoridae, Tachinidae, Sarcophagidae) that visited flowers inside Faba beans field and at the margin of the crop capturing the pollinators with a net. Handling time invested in capturing pollinators was discounted. In total, the sampling effort was 90 minutes. Pollinators that were easily identifiable (e.g. honeybees and Bombus funebris, medium and big hoverflies) were recorded without capturing when possible.","Round number: 3. Height above sea level:3152 m."
"Carlos_Zaragoza_Trello_Vicia_faba_Ecuador_2017","CUMBI4","transects","syrphids","family","syrphids",1,900,90,NA,"To explore pollinator biodiversity we selected 15 Faba bean fields that were at the same phenological stage and adjacent to a managed grassland (or a natural grassland area when it was not feasible). We conducted pollinator surveys along 25 days (from early July to middle August) by walking during 15 minutes along each of two 150 x 1 m standardized transects per site. One transect was located at the field edge while the central transect was located at 25 m inside the field from the edge. In 5 fields these transects were adapted to the middle of the field as the field did not reach 50 meters. Transect walks were conducted between 8:00 and 16:30, low wind speeds and temperatures above 15 degrees C. Due Andean high altitude weather characteristics, during shorts periods of rain (minutes) or low clouds we stopped the survey and resumed it when weather allowed. Sites were surveyed thrice in random order. We surveyed all honeybees, bumblebees, solitary bees, hoverflies and other Diptera (e.g: Calliphoridae, Tachinidae, Sarcophagidae) that visited flowers inside Faba beans field and at the margin of the crop capturing the pollinators with a net. Handling time invested in capturing pollinators was discounted. In total, the sampling effort was 90 minutes. Pollinators that were easily identifiable (e.g. honeybees and Bombus funebris, medium and big hoverflies) were recorded without capturing when possible.","Round number: 3. Height above sea level:3152 m."
"Carlos_Zaragoza_Trello_Vicia_faba_Ecuador_2017","CUMBI4","transects","syrphids","family","syrphids",1,900,90,NA,"To explore pollinator biodiversity we selected 15 Faba bean fields that were at the same phenological stage and adjacent to a managed grassland (or a natural grassland area when it was not feasible). We conducted pollinator surveys along 25 days (from early July to middle August) by walking during 15 minutes along each of two 150 x 1 m standardized transects per site. One transect was located at the field edge while the central transect was located at 25 m inside the field from the edge. In 5 fields these transects were adapted to the middle of the field as the field did not reach 50 meters. Transect walks were conducted between 8:00 and 16:30, low wind speeds and temperatures above 15 degrees C. Due Andean high altitude weather characteristics, during shorts periods of rain (minutes) or low clouds we stopped the survey and resumed it when weather allowed. Sites were surveyed thrice in random order. We surveyed all honeybees, bumblebees, solitary bees, hoverflies and other Diptera (e.g: Calliphoridae, Tachinidae, Sarcophagidae) that visited flowers inside Faba beans field and at the margin of the crop capturing the pollinators with a net. Handling time invested in capturing pollinators was discounted. In total, the sampling effort was 90 minutes. Pollinators that were easily identifiable (e.g. honeybees and Bombus funebris, medium and big hoverflies) were recorded without capturing when possible.","Round number: 3. Height above sea level:3152 m."
"Carlos_Zaragoza_Trello_Vicia_faba_Ecuador_2017","CUMBI4","transects","syrphids","family","syrphids",20,900,90,NA,"To explore pollinator biodiversity we selected 15 Faba bean fields that were at the same phenological stage and adjacent to a managed grassland (or a natural grassland area when it was not feasible). We conducted pollinator surveys along 25 days (from early July to middle August) by walking during 15 minutes along each of two 150 x 1 m standardized transects per site. One transect was located at the field edge while the central transect was located at 25 m inside the field from the edge. In 5 fields these transects were adapted to the middle of the field as the field did not reach 50 meters. Transect walks were conducted between 8:00 and 16:30, low wind speeds and temperatures above 15 degrees C. Due Andean high altitude weather characteristics, during shorts periods of rain (minutes) or low clouds we stopped the survey and resumed it when weather allowed. Sites were surveyed thrice in random order. We surveyed all honeybees, bumblebees, solitary bees, hoverflies and other Diptera (e.g: Calliphoridae, Tachinidae, Sarcophagidae) that visited flowers inside Faba beans field and at the margin of the crop capturing the pollinators with a net. Handling time invested in capturing pollinators was discounted. In total, the sampling effort was 90 minutes. Pollinators that were easily identifiable (e.g. honeybees and Bombus funebris, medium and big hoverflies) were recorded without capturing when possible.","Round number: 2. Height above sea level:3152 m."
"Carlos_Zaragoza_Trello_Vicia_faba_Ecuador_2017","CUMBI4","transects","syrphids","family","syrphids",10,900,90,NA,"To explore pollinator biodiversity we selected 15 Faba bean fields that were at the same phenological stage and adjacent to a managed grassland (or a natural grassland area when it was not feasible). We conducted pollinator surveys along 25 days (from early July to middle August) by walking during 15 minutes along each of two 150 x 1 m standardized transects per site. One transect was located at the field edge while the central transect was located at 25 m inside the field from the edge. In 5 fields these transects were adapted to the middle of the field as the field did not reach 50 meters. Transect walks were conducted between 8:00 and 16:30, low wind speeds and temperatures above 15 degrees C. Due Andean high altitude weather characteristics, during shorts periods of rain (minutes) or low clouds we stopped the survey and resumed it when weather allowed. Sites were surveyed thrice in random order. We surveyed all honeybees, bumblebees, solitary bees, hoverflies and other Diptera (e.g: Calliphoridae, Tachinidae, Sarcophagidae) that visited flowers inside Faba beans field and at the margin of the crop capturing the pollinators with a net. Handling time invested in capturing pollinators was discounted. In total, the sampling effort was 90 minutes. Pollinators that were easily identifiable (e.g. honeybees and Bombus funebris, medium and big hoverflies) were recorded without capturing when possible.","Round number: 2. Height above sea level:3152 m."
"Carlos_Zaragoza_Trello_Vicia_faba_Ecuador_2017","CUMBI4","transects","syrphids","family","syrphids",1,900,90,NA,"To explore pollinator biodiversity we selected 15 Faba bean fields that were at the same phenological stage and adjacent to a managed grassland (or a natural grassland area when it was not feasible). We conducted pollinator surveys along 25 days (from early July to middle August) by walking during 15 minutes along each of two 150 x 1 m standardized transects per site. One transect was located at the field edge while the central transect was located at 25 m inside the field from the edge. In 5 fields these transects were adapted to the middle of the field as the field did not reach 50 meters. Transect walks were conducted between 8:00 and 16:30, low wind speeds and temperatures above 15 degrees C. Due Andean high altitude weather characteristics, during shorts periods of rain (minutes) or low clouds we stopped the survey and resumed it when weather allowed. Sites were surveyed thrice in random order. We surveyed all honeybees, bumblebees, solitary bees, hoverflies and other Diptera (e.g: Calliphoridae, Tachinidae, Sarcophagidae) that visited flowers inside Faba beans field and at the margin of the crop capturing the pollinators with a net. Handling time invested in capturing pollinators was discounted. In total, the sampling effort was 90 minutes. Pollinators that were easily identifiable (e.g. honeybees and Bombus funebris, medium and big hoverflies) were recorded without capturing when possible.","Round number: 3. Height above sea level:3152 m."
"Carlos_Zaragoza_Trello_Vicia_faba_Ecuador_2017","CUMBI4","transects","syrphids","family","syrphids",2,900,90,NA,"To explore pollinator biodiversity we selected 15 Faba bean fields that were at the same phenological stage and adjacent to a managed grassland (or a natural grassland area when it was not feasible). We conducted pollinator surveys along 25 days (from early July to middle August) by walking during 15 minutes along each of two 150 x 1 m standardized transects per site. One transect was located at the field edge while the central transect was located at 25 m inside the field from the edge. In 5 fields these transects were adapted to the middle of the field as the field did not reach 50 meters. Transect walks were conducted between 8:00 and 16:30, low wind speeds and temperatures above 15 degrees C. Due Andean high altitude weather characteristics, during shorts periods of rain (minutes) or low clouds we stopped the survey and resumed it when weather allowed. Sites were surveyed thrice in random order. We surveyed all honeybees, bumblebees, solitary bees, hoverflies and other Diptera (e.g: Calliphoridae, Tachinidae, Sarcophagidae) that visited flowers inside Faba beans field and at the margin of the crop capturing the pollinators with a net. Handling time invested in capturing pollinators was discounted. In total, the sampling effort was 90 minutes. Pollinators that were easily identifiable (e.g. honeybees and Bombus funebris, medium and big hoverflies) were recorded without capturing when possible.","Round number: 3. Height above sea level:3152 m."
"Carlos_Zaragoza_Trello_Vicia_faba_Ecuador_2017","CUMBI4","transects","syrphids","family","syrphids",3,900,90,NA,"To explore pollinator biodiversity we selected 15 Faba bean fields that were at the same phenological stage and adjacent to a managed grassland (or a natural grassland area when it was not feasible). We conducted pollinator surveys along 25 days (from early July to middle August) by walking during 15 minutes along each of two 150 x 1 m standardized transects per site. One transect was located at the field edge while the central transect was located at 25 m inside the field from the edge. In 5 fields these transects were adapted to the middle of the field as the field did not reach 50 meters. Transect walks were conducted between 8:00 and 16:30, low wind speeds and temperatures above 15 degrees C. Due Andean high altitude weather characteristics, during shorts periods of rain (minutes) or low clouds we stopped the survey and resumed it when weather allowed. Sites were surveyed thrice in random order. We surveyed all honeybees, bumblebees, solitary bees, hoverflies and other Diptera (e.g: Calliphoridae, Tachinidae, Sarcophagidae) that visited flowers inside Faba beans field and at the margin of the crop capturing the pollinators with a net. Handling time invested in capturing pollinators was discounted. In total, the sampling effort was 90 minutes. Pollinators that were easily identifiable (e.g. honeybees and Bombus funebris, medium and big hoverflies) were recorded without capturing when possible.","Round number: 3. Height above sea level:3152 m."
"Carlos_Zaragoza_Trello_Vicia_faba_Ecuador_2017","CUMBI4","transects","syrphids","family","syrphids",2,900,90,NA,"To explore pollinator biodiversity we selected 15 Faba bean fields that were at the same phenological stage and adjacent to a managed grassland (or a natural grassland area when it was not feasible). We conducted pollinator surveys along 25 days (from early July to middle August) by walking during 15 minutes along each of two 150 x 1 m standardized transects per site. One transect was located at the field edge while the central transect was located at 25 m inside the field from the edge. In 5 fields these transects were adapted to the middle of the field as the field did not reach 50 meters. Transect walks were conducted between 8:00 and 16:30, low wind speeds and temperatures above 15 degrees C. Due Andean high altitude weather characteristics, during shorts periods of rain (minutes) or low clouds we stopped the survey and resumed it when weather allowed. Sites were surveyed thrice in random order. We surveyed all honeybees, bumblebees, solitary bees, hoverflies and other Diptera (e.g: Calliphoridae, Tachinidae, Sarcophagidae) that visited flowers inside Faba beans field and at the margin of the crop capturing the pollinators with a net. Handling time invested in capturing pollinators was discounted. In total, the sampling effort was 90 minutes. Pollinators that were easily identifiable (e.g. honeybees and Bombus funebris, medium and big hoverflies) were recorded without capturing when possible.","Round number: 3. Height above sea level:3152 m."
"Carlos_Zaragoza_Trello_Vicia_faba_Ecuador_2017","CUMBI5","transects","syrphids","family","syrphids",1,900,90,NA,"To explore pollinator biodiversity we selected 15 Faba bean fields that were at the same phenological stage and adjacent to a managed grassland (or a natural grassland area when it was not feasible). We conducted pollinator surveys along 25 days (from early July to middle August) by walking during 15 minutes along each of two 150 x 1 m standardized transects per site. One transect was located at the field edge while the central transect was located at 25 m inside the field from the edge. In 5 fields these transects were adapted to the middle of the field as the field did not reach 50 meters. Transect walks were conducted between 8:00 and 16:30, low wind speeds and temperatures above 15 degrees C. Due Andean high altitude weather characteristics, during shorts periods of rain (minutes) or low clouds we stopped the survey and resumed it when weather allowed. Sites were surveyed thrice in random order. We surveyed all honeybees, bumblebees, solitary bees, hoverflies and other Diptera (e.g: Calliphoridae, Tachinidae, Sarcophagidae) that visited flowers inside Faba beans field and at the margin of the crop capturing the pollinators with a net. Handling time invested in capturing pollinators was discounted. In total, the sampling effort was 90 minutes. Pollinators that were easily identifiable (e.g. honeybees and Bombus funebris, medium and big hoverflies) were recorded without capturing when possible.","Round number: 1. Height above sea level:3189 m."
"Carlos_Zaragoza_Trello_Vicia_faba_Ecuador_2017","CUMBI5","transects","syrphids","family","syrphids",1,900,90,NA,"To explore pollinator biodiversity we selected 15 Faba bean fields that were at the same phenological stage and adjacent to a managed grassland (or a natural grassland area when it was not feasible). We conducted pollinator surveys along 25 days (from early July to middle August) by walking during 15 minutes along each of two 150 x 1 m standardized transects per site. One transect was located at the field edge while the central transect was located at 25 m inside the field from the edge. In 5 fields these transects were adapted to the middle of the field as the field did not reach 50 meters. Transect walks were conducted between 8:00 and 16:30, low wind speeds and temperatures above 15 degrees C. Due Andean high altitude weather characteristics, during shorts periods of rain (minutes) or low clouds we stopped the survey and resumed it when weather allowed. Sites were surveyed thrice in random order. We surveyed all honeybees, bumblebees, solitary bees, hoverflies and other Diptera (e.g: Calliphoridae, Tachinidae, Sarcophagidae) that visited flowers inside Faba beans field and at the margin of the crop capturing the pollinators with a net. Handling time invested in capturing pollinators was discounted. In total, the sampling effort was 90 minutes. Pollinators that were easily identifiable (e.g. honeybees and Bombus funebris, medium and big hoverflies) were recorded without capturing when possible.","Round number: 1. Height above sea level:3189 m."
"Carlos_Zaragoza_Trello_Vicia_faba_Ecuador_2017","CUMBI5","transects","syrphids","family","syrphids",1,900,90,NA,"To explore pollinator biodiversity we selected 15 Faba bean fields that were at the same phenological stage and adjacent to a managed grassland (or a natural grassland area when it was not feasible). We conducted pollinator surveys along 25 days (from early July to middle August) by walking during 15 minutes along each of two 150 x 1 m standardized transects per site. One transect was located at the field edge while the central transect was located at 25 m inside the field from the edge. In 5 fields these transects were adapted to the middle of the field as the field did not reach 50 meters. Transect walks were conducted between 8:00 and 16:30, low wind speeds and temperatures above 15 degrees C. Due Andean high altitude weather characteristics, during shorts periods of rain (minutes) or low clouds we stopped the survey and resumed it when weather allowed. Sites were surveyed thrice in random order. We surveyed all honeybees, bumblebees, solitary bees, hoverflies and other Diptera (e.g: Calliphoridae, Tachinidae, Sarcophagidae) that visited flowers inside Faba beans field and at the margin of the crop capturing the pollinators with a net. Handling time invested in capturing pollinators was discounted. In total, the sampling effort was 90 minutes. Pollinators that were easily identifiable (e.g. honeybees and Bombus funebris, medium and big hoverflies) were recorded without capturing when possible.","Round number: 2. Height above sea level:3189 m."
"Carlos_Zaragoza_Trello_Vicia_faba_Ecuador_2017","CUMBI5","transects","syrphids","family","syrphids",1,900,90,NA,"To explore pollinator biodiversity we selected 15 Faba bean fields that were at the same phenological stage and adjacent to a managed grassland (or a natural grassland area when it was not feasible). We conducted pollinator surveys along 25 days (from early July to middle August) by walking during 15 minutes along each of two 150 x 1 m standardized transects per site. One transect was located at the field edge while the central transect was located at 25 m inside the field from the edge. In 5 fields these transects were adapted to the middle of the field as the field did not reach 50 meters. Transect walks were conducted between 8:00 and 16:30, low wind speeds and temperatures above 15 degrees C. Due Andean high altitude weather characteristics, during shorts periods of rain (minutes) or low clouds we stopped the survey and resumed it when weather allowed. Sites were surveyed thrice in random order. We surveyed all honeybees, bumblebees, solitary bees, hoverflies and other Diptera (e.g: Calliphoridae, Tachinidae, Sarcophagidae) that visited flowers inside Faba beans field and at the margin of the crop capturing the pollinators with a net. Handling time invested in capturing pollinators was discounted. In total, the sampling effort was 90 minutes. Pollinators that were easily identifiable (e.g. honeybees and Bombus funebris, medium and big hoverflies) were recorded without capturing when possible.","Round number: 2. Height above sea level:3189 m."
"Carlos_Zaragoza_Trello_Vicia_faba_Ecuador_2017","CUMBI5","transects","syrphids","family","syrphids",1,900,90,NA,"To explore pollinator biodiversity we selected 15 Faba bean fields that were at the same phenological stage and adjacent to a managed grassland (or a natural grassland area when it was not feasible). We conducted pollinator surveys along 25 days (from early July to middle August) by walking during 15 minutes along each of two 150 x 1 m standardized transects per site. One transect was located at the field edge while the central transect was located at 25 m inside the field from the edge. In 5 fields these transects were adapted to the middle of the field as the field did not reach 50 meters. Transect walks were conducted between 8:00 and 16:30, low wind speeds and temperatures above 15 degrees C. Due Andean high altitude weather characteristics, during shorts periods of rain (minutes) or low clouds we stopped the survey and resumed it when weather allowed. Sites were surveyed thrice in random order. We surveyed all honeybees, bumblebees, solitary bees, hoverflies and other Diptera (e.g: Calliphoridae, Tachinidae, Sarcophagidae) that visited flowers inside Faba beans field and at the margin of the crop capturing the pollinators with a net. Handling time invested in capturing pollinators was discounted. In total, the sampling effort was 90 minutes. Pollinators that were easily identifiable (e.g. honeybees and Bombus funebris, medium and big hoverflies) were recorded without capturing when possible.","Round number: 2. Height above sea level:3189 m."
"Carlos_Zaragoza_Trello_Vicia_faba_Ecuador_2017","CUMBI5","transects","syrphids","family","syrphids",1,900,90,NA,"To explore pollinator biodiversity we selected 15 Faba bean fields that were at the same phenological stage and adjacent to a managed grassland (or a natural grassland area when it was not feasible). We conducted pollinator surveys along 25 days (from early July to middle August) by walking during 15 minutes along each of two 150 x 1 m standardized transects per site. One transect was located at the field edge while the central transect was located at 25 m inside the field from the edge. In 5 fields these transects were adapted to the middle of the field as the field did not reach 50 meters. Transect walks were conducted between 8:00 and 16:30, low wind speeds and temperatures above 15 degrees C. Due Andean high altitude weather characteristics, during shorts periods of rain (minutes) or low clouds we stopped the survey and resumed it when weather allowed. Sites were surveyed thrice in random order. We surveyed all honeybees, bumblebees, solitary bees, hoverflies and other Diptera (e.g: Calliphoridae, Tachinidae, Sarcophagidae) that visited flowers inside Faba beans field and at the margin of the crop capturing the pollinators with a net. Handling time invested in capturing pollinators was discounted. In total, the sampling effort was 90 minutes. Pollinators that were easily identifiable (e.g. honeybees and Bombus funebris, medium and big hoverflies) were recorded without capturing when possible.","Round number: 2. Height above sea level:3189 m."
"Carlos_Zaragoza_Trello_Vicia_faba_Ecuador_2017","CUMBI5","transects","syrphids","family","syrphids",1,900,90,NA,"To explore pollinator biodiversity we selected 15 Faba bean fields that were at the same phenological stage and adjacent to a managed grassland (or a natural grassland area when it was not feasible). We conducted pollinator surveys along 25 days (from early July to middle August) by walking during 15 minutes along each of two 150 x 1 m standardized transects per site. One transect was located at the field edge while the central transect was located at 25 m inside the field from the edge. In 5 fields these transects were adapted to the middle of the field as the field did not reach 50 meters. Transect walks were conducted between 8:00 and 16:30, low wind speeds and temperatures above 15 degrees C. Due Andean high altitude weather characteristics, during shorts periods of rain (minutes) or low clouds we stopped the survey and resumed it when weather allowed. Sites were surveyed thrice in random order. We surveyed all honeybees, bumblebees, solitary bees, hoverflies and other Diptera (e.g: Calliphoridae, Tachinidae, Sarcophagidae) that visited flowers inside Faba beans field and at the margin of the crop capturing the pollinators with a net. Handling time invested in capturing pollinators was discounted. In total, the sampling effort was 90 minutes. Pollinators that were easily identifiable (e.g. honeybees and Bombus funebris, medium and big hoverflies) were recorded without capturing when possible.","Round number: 2. Height above sea level:3189 m."
"Carlos_Zaragoza_Trello_Vicia_faba_Ecuador_2017","CUMBI5","transects","syrphids","family","syrphids",1,900,90,NA,"To explore pollinator biodiversity we selected 15 Faba bean fields that were at the same phenological stage and adjacent to a managed grassland (or a natural grassland area when it was not feasible). We conducted pollinator surveys along 25 days (from early July to middle August) by walking during 15 minutes along each of two 150 x 1 m standardized transects per site. One transect was located at the field edge while the central transect was located at 25 m inside the field from the edge. In 5 fields these transects were adapted to the middle of the field as the field did not reach 50 meters. Transect walks were conducted between 8:00 and 16:30, low wind speeds and temperatures above 15 degrees C. Due Andean high altitude weather characteristics, during shorts periods of rain (minutes) or low clouds we stopped the survey and resumed it when weather allowed. Sites were surveyed thrice in random order. We surveyed all honeybees, bumblebees, solitary bees, hoverflies and other Diptera (e.g: Calliphoridae, Tachinidae, Sarcophagidae) that visited flowers inside Faba beans field and at the margin of the crop capturing the pollinators with a net. Handling time invested in capturing pollinators was discounted. In total, the sampling effort was 90 minutes. Pollinators that were easily identifiable (e.g. honeybees and Bombus funebris, medium and big hoverflies) were recorded without capturing when possible.","Round number: 1. Height above sea level:3189 m."
"Carlos_Zaragoza_Trello_Vicia_faba_Ecuador_2017","CUMBI5","transects","syrphids","family","syrphids",1,900,90,NA,"To explore pollinator biodiversity we selected 15 Faba bean fields that were at the same phenological stage and adjacent to a managed grassland (or a natural grassland area when it was not feasible). We conducted pollinator surveys along 25 days (from early July to middle August) by walking during 15 minutes along each of two 150 x 1 m standardized transects per site. One transect was located at the field edge while the central transect was located at 25 m inside the field from the edge. In 5 fields these transects were adapted to the middle of the field as the field did not reach 50 meters. Transect walks were conducted between 8:00 and 16:30, low wind speeds and temperatures above 15 degrees C. Due Andean high altitude weather characteristics, during shorts periods of rain (minutes) or low clouds we stopped the survey and resumed it when weather allowed. Sites were surveyed thrice in random order. We surveyed all honeybees, bumblebees, solitary bees, hoverflies and other Diptera (e.g: Calliphoridae, Tachinidae, Sarcophagidae) that visited flowers inside Faba beans field and at the margin of the crop capturing the pollinators with a net. Handling time invested in capturing pollinators was discounted. In total, the sampling effort was 90 minutes. Pollinators that were easily identifiable (e.g. honeybees and Bombus funebris, medium and big hoverflies) were recorded without capturing when possible.","Round number: 1. Height above sea level:3189 m."
"Carlos_Zaragoza_Trello_Vicia_faba_Ecuador_2017","CUMBI5","transects","syrphids","family","syrphids",1,900,90,NA,"To explore pollinator biodiversity we selected 15 Faba bean fields that were at the same phenological stage and adjacent to a managed grassland (or a natural grassland area when it was not feasible). We conducted pollinator surveys along 25 days (from early July to middle August) by walking during 15 minutes along each of two 150 x 1 m standardized transects per site. One transect was located at the field edge while the central transect was located at 25 m inside the field from the edge. In 5 fields these transects were adapted to the middle of the field as the field did not reach 50 meters. Transect walks were conducted between 8:00 and 16:30, low wind speeds and temperatures above 15 degrees C. Due Andean high altitude weather characteristics, during shorts periods of rain (minutes) or low clouds we stopped the survey and resumed it when weather allowed. Sites were surveyed thrice in random order. We surveyed all honeybees, bumblebees, solitary bees, hoverflies and other Diptera (e.g: Calliphoridae, Tachinidae, Sarcophagidae) that visited flowers inside Faba beans field and at the margin of the crop capturing the pollinators with a net. Handling time invested in capturing pollinators was discounted. In total, the sampling effort was 90 minutes. Pollinators that were easily identifiable (e.g. honeybees and Bombus funebris, medium and big hoverflies) were recorded without capturing when possible.","Round number: 1. Height above sea level:3189 m."
"Carlos_Zaragoza_Trello_Vicia_faba_Ecuador_2017","CUMBI5","transects","syrphids","family","syrphids",1,900,90,NA,"To explore pollinator biodiversity we selected 15 Faba bean fields that were at the same phenological stage and adjacent to a managed grassland (or a natural grassland area when it was not feasible). We conducted pollinator surveys along 25 days (from early July to middle August) by walking during 15 minutes along each of two 150 x 1 m standardized transects per site. One transect was located at the field edge while the central transect was located at 25 m inside the field from the edge. In 5 fields these transects were adapted to the middle of the field as the field did not reach 50 meters. Transect walks were conducted between 8:00 and 16:30, low wind speeds and temperatures above 15 degrees C. Due Andean high altitude weather characteristics, during shorts periods of rain (minutes) or low clouds we stopped the survey and resumed it when weather allowed. Sites were surveyed thrice in random order. We surveyed all honeybees, bumblebees, solitary bees, hoverflies and other Diptera (e.g: Calliphoridae, Tachinidae, Sarcophagidae) that visited flowers inside Faba beans field and at the margin of the crop capturing the pollinators with a net. Handling time invested in capturing pollinators was discounted. In total, the sampling effort was 90 minutes. Pollinators that were easily identifiable (e.g. honeybees and Bombus funebris, medium and big hoverflies) were recorded without capturing when possible.","Round number: 1. Height above sea level:3189 m."
"Carlos_Zaragoza_Trello_Vicia_faba_Ecuador_2017","CUMBI5","transects","syrphids","family","syrphids",1,900,90,NA,"To explore pollinator biodiversity we selected 15 Faba bean fields that were at the same phenological stage and adjacent to a managed grassland (or a natural grassland area when it was not feasible). We conducted pollinator surveys along 25 days (from early July to middle August) by walking during 15 minutes along each of two 150 x 1 m standardized transects per site. One transect was located at the field edge while the central transect was located at 25 m inside the field from the edge. In 5 fields these transects were adapted to the middle of the field as the field did not reach 50 meters. Transect walks were conducted between 8:00 and 16:30, low wind speeds and temperatures above 15 degrees C. Due Andean high altitude weather characteristics, during shorts periods of rain (minutes) or low clouds we stopped the survey and resumed it when weather allowed. Sites were surveyed thrice in random order. We surveyed all honeybees, bumblebees, solitary bees, hoverflies and other Diptera (e.g: Calliphoridae, Tachinidae, Sarcophagidae) that visited flowers inside Faba beans field and at the margin of the crop capturing the pollinators with a net. Handling time invested in capturing pollinators was discounted. In total, the sampling effort was 90 minutes. Pollinators that were easily identifiable (e.g. honeybees and Bombus funebris, medium and big hoverflies) were recorded without capturing when possible.","Round number: 1. Height above sea level:3189 m."
"Carlos_Zaragoza_Trello_Vicia_faba_Ecuador_2017","CUMBI5","transects","syrphids","family","syrphids",1,900,90,NA,"To explore pollinator biodiversity we selected 15 Faba bean fields that were at the same phenological stage and adjacent to a managed grassland (or a natural grassland area when it was not feasible). We conducted pollinator surveys along 25 days (from early July to middle August) by walking during 15 minutes along each of two 150 x 1 m standardized transects per site. One transect was located at the field edge while the central transect was located at 25 m inside the field from the edge. In 5 fields these transects were adapted to the middle of the field as the field did not reach 50 meters. Transect walks were conducted between 8:00 and 16:30, low wind speeds and temperatures above 15 degrees C. Due Andean high altitude weather characteristics, during shorts periods of rain (minutes) or low clouds we stopped the survey and resumed it when weather allowed. Sites were surveyed thrice in random order. We surveyed all honeybees, bumblebees, solitary bees, hoverflies and other Diptera (e.g: Calliphoridae, Tachinidae, Sarcophagidae) that visited flowers inside Faba beans field and at the margin of the crop capturing the pollinators with a net. Handling time invested in capturing pollinators was discounted. In total, the sampling effort was 90 minutes. Pollinators that were easily identifiable (e.g. honeybees and Bombus funebris, medium and big hoverflies) were recorded without capturing when possible.","Round number: 1. Height above sea level:3189 m."
"Carlos_Zaragoza_Trello_Vicia_faba_Ecuador_2017","CUMBI5","transects","syrphids","family","syrphids",1,900,90,NA,"To explore pollinator biodiversity we selected 15 Faba bean fields that were at the same phenological stage and adjacent to a managed grassland (or a natural grassland area when it was not feasible). We conducted pollinator surveys along 25 days (from early July to middle August) by walking during 15 minutes along each of two 150 x 1 m standardized transects per site. One transect was located at the field edge while the central transect was located at 25 m inside the field from the edge. In 5 fields these transects were adapted to the middle of the field as the field did not reach 50 meters. Transect walks were conducted between 8:00 and 16:30, low wind speeds and temperatures above 15 degrees C. Due Andean high altitude weather characteristics, during shorts periods of rain (minutes) or low clouds we stopped the survey and resumed it when weather allowed. Sites were surveyed thrice in random order. We surveyed all honeybees, bumblebees, solitary bees, hoverflies and other Diptera (e.g: Calliphoridae, Tachinidae, Sarcophagidae) that visited flowers inside Faba beans field and at the margin of the crop capturing the pollinators with a net. Handling time invested in capturing pollinators was discounted. In total, the sampling effort was 90 minutes. Pollinators that were easily identifiable (e.g. honeybees and Bombus funebris, medium and big hoverflies) were recorded without capturing when possible.","Round number: 1. Height above sea level:3189 m."
"Carlos_Zaragoza_Trello_Vicia_faba_Ecuador_2017","CUMBI5","transects","syrphids","family","syrphids",1,900,90,NA,"To explore pollinator biodiversity we selected 15 Faba bean fields that were at the same phenological stage and adjacent to a managed grassland (or a natural grassland area when it was not feasible). We conducted pollinator surveys along 25 days (from early July to middle August) by walking during 15 minutes along each of two 150 x 1 m standardized transects per site. One transect was located at the field edge while the central transect was located at 25 m inside the field from the edge. In 5 fields these transects were adapted to the middle of the field as the field did not reach 50 meters. Transect walks were conducted between 8:00 and 16:30, low wind speeds and temperatures above 15 degrees C. Due Andean high altitude weather characteristics, during shorts periods of rain (minutes) or low clouds we stopped the survey and resumed it when weather allowed. Sites were surveyed thrice in random order. We surveyed all honeybees, bumblebees, solitary bees, hoverflies and other Diptera (e.g: Calliphoridae, Tachinidae, Sarcophagidae) that visited flowers inside Faba beans field and at the margin of the crop capturing the pollinators with a net. Handling time invested in capturing pollinators was discounted. In total, the sampling effort was 90 minutes. Pollinators that were easily identifiable (e.g. honeybees and Bombus funebris, medium and big hoverflies) were recorded without capturing when possible.","Round number: 1. Height above sea level:3189 m."
"Carlos_Zaragoza_Trello_Vicia_faba_Ecuador_2017","CUMBI5","transects","syrphids","family","syrphids",1,900,90,NA,"To explore pollinator biodiversity we selected 15 Faba bean fields that were at the same phenological stage and adjacent to a managed grassland (or a natural grassland area when it was not feasible). We conducted pollinator surveys along 25 days (from early July to middle August) by walking during 15 minutes along each of two 150 x 1 m standardized transects per site. One transect was located at the field edge while the central transect was located at 25 m inside the field from the edge. In 5 fields these transects were adapted to the middle of the field as the field did not reach 50 meters. Transect walks were conducted between 8:00 and 16:30, low wind speeds and temperatures above 15 degrees C. Due Andean high altitude weather characteristics, during shorts periods of rain (minutes) or low clouds we stopped the survey and resumed it when weather allowed. Sites were surveyed thrice in random order. We surveyed all honeybees, bumblebees, solitary bees, hoverflies and other Diptera (e.g: Calliphoridae, Tachinidae, Sarcophagidae) that visited flowers inside Faba beans field and at the margin of the crop capturing the pollinators with a net. Handling time invested in capturing pollinators was discounted. In total, the sampling effort was 90 minutes. Pollinators that were easily identifiable (e.g. honeybees and Bombus funebris, medium and big hoverflies) were recorded without capturing when possible.","Round number: 1. Height above sea level:3189 m."
"Carlos_Zaragoza_Trello_Vicia_faba_Ecuador_2017","CUMBI5","transects","syrphids","family","syrphids",1,900,90,NA,"To explore pollinator biodiversity we selected 15 Faba bean fields that were at the same phenological stage and adjacent to a managed grassland (or a natural grassland area when it was not feasible). We conducted pollinator surveys along 25 days (from early July to middle August) by walking during 15 minutes along each of two 150 x 1 m standardized transects per site. One transect was located at the field edge while the central transect was located at 25 m inside the field from the edge. In 5 fields these transects were adapted to the middle of the field as the field did not reach 50 meters. Transect walks were conducted between 8:00 and 16:30, low wind speeds and temperatures above 15 degrees C. Due Andean high altitude weather characteristics, during shorts periods of rain (minutes) or low clouds we stopped the survey and resumed it when weather allowed. Sites were surveyed thrice in random order. We surveyed all honeybees, bumblebees, solitary bees, hoverflies and other Diptera (e.g: Calliphoridae, Tachinidae, Sarcophagidae) that visited flowers inside Faba beans field and at the margin of the crop capturing the pollinators with a net. Handling time invested in capturing pollinators was discounted. In total, the sampling effort was 90 minutes. Pollinators that were easily identifiable (e.g. honeybees and Bombus funebris, medium and big hoverflies) were recorded without capturing when possible.","Round number: 1. Height above sea level:3189 m."
"Carlos_Zaragoza_Trello_Vicia_faba_Ecuador_2017","CUMBI5","transects","syrphids","family","syrphids",1,900,90,NA,"To explore pollinator biodiversity we selected 15 Faba bean fields that were at the same phenological stage and adjacent to a managed grassland (or a natural grassland area when it was not feasible). We conducted pollinator surveys along 25 days (from early July to middle August) by walking during 15 minutes along each of two 150 x 1 m standardized transects per site. One transect was located at the field edge while the central transect was located at 25 m inside the field from the edge. In 5 fields these transects were adapted to the middle of the field as the field did not reach 50 meters. Transect walks were conducted between 8:00 and 16:30, low wind speeds and temperatures above 15 degrees C. Due Andean high altitude weather characteristics, during shorts periods of rain (minutes) or low clouds we stopped the survey and resumed it when weather allowed. Sites were surveyed thrice in random order. We surveyed all honeybees, bumblebees, solitary bees, hoverflies and other Diptera (e.g: Calliphoridae, Tachinidae, Sarcophagidae) that visited flowers inside Faba beans field and at the margin of the crop capturing the pollinators with a net. Handling time invested in capturing pollinators was discounted. In total, the sampling effort was 90 minutes. Pollinators that were easily identifiable (e.g. honeybees and Bombus funebris, medium and big hoverflies) were recorded without capturing when possible.","Round number: 1. Height above sea level:3189 m."
"Carlos_Zaragoza_Trello_Vicia_faba_Ecuador_2017","CUMBI5","transects","syrphids","family","syrphids",1,900,90,NA,"To explore pollinator biodiversity we selected 15 Faba bean fields that were at the same phenological stage and adjacent to a managed grassland (or a natural grassland area when it was not feasible). We conducted pollinator surveys along 25 days (from early July to middle August) by walking during 15 minutes along each of two 150 x 1 m standardized transects per site. One transect was located at the field edge while the central transect was located at 25 m inside the field from the edge. In 5 fields these transects were adapted to the middle of the field as the field did not reach 50 meters. Transect walks were conducted between 8:00 and 16:30, low wind speeds and temperatures above 15 degrees C. Due Andean high altitude weather characteristics, during shorts periods of rain (minutes) or low clouds we stopped the survey and resumed it when weather allowed. Sites were surveyed thrice in random order. We surveyed all honeybees, bumblebees, solitary bees, hoverflies and other Diptera (e.g: Calliphoridae, Tachinidae, Sarcophagidae) that visited flowers inside Faba beans field and at the margin of the crop capturing the pollinators with a net. Handling time invested in capturing pollinators was discounted. In total, the sampling effort was 90 minutes. Pollinators that were easily identifiable (e.g. honeybees and Bombus funebris, medium and big hoverflies) were recorded without capturing when possible.","Round number: 1. Height above sea level:3189 m."
"Carlos_Zaragoza_Trello_Vicia_faba_Ecuador_2017","CUMBI5","transects","syrphids","family","syrphids",1,900,90,NA,"To explore pollinator biodiversity we selected 15 Faba bean fields that were at the same phenological stage and adjacent to a managed grassland (or a natural grassland area when it was not feasible). We conducted pollinator surveys along 25 days (from early July to middle August) by walking during 15 minutes along each of two 150 x 1 m standardized transects per site. One transect was located at the field edge while the central transect was located at 25 m inside the field from the edge. In 5 fields these transects were adapted to the middle of the field as the field did not reach 50 meters. Transect walks were conducted between 8:00 and 16:30, low wind speeds and temperatures above 15 degrees C. Due Andean high altitude weather characteristics, during shorts periods of rain (minutes) or low clouds we stopped the survey and resumed it when weather allowed. Sites were surveyed thrice in random order. We surveyed all honeybees, bumblebees, solitary bees, hoverflies and other Diptera (e.g: Calliphoridae, Tachinidae, Sarcophagidae) that visited flowers inside Faba beans field and at the margin of the crop capturing the pollinators with a net. Handling time invested in capturing pollinators was discounted. In total, the sampling effort was 90 minutes. Pollinators that were easily identifiable (e.g. honeybees and Bombus funebris, medium and big hoverflies) were recorded without capturing when possible.","Round number: 1. Height above sea level:3189 m."
"Carlos_Zaragoza_Trello_Vicia_faba_Ecuador_2017","CUMBI5","transects","syrphids","family","syrphids",1,900,90,NA,"To explore pollinator biodiversity we selected 15 Faba bean fields that were at the same phenological stage and adjacent to a managed grassland (or a natural grassland area when it was not feasible). We conducted pollinator surveys along 25 days (from early July to middle August) by walking during 15 minutes along each of two 150 x 1 m standardized transects per site. One transect was located at the field edge while the central transect was located at 25 m inside the field from the edge. In 5 fields these transects were adapted to the middle of the field as the field did not reach 50 meters. Transect walks were conducted between 8:00 and 16:30, low wind speeds and temperatures above 15 degrees C. Due Andean high altitude weather characteristics, during shorts periods of rain (minutes) or low clouds we stopped the survey and resumed it when weather allowed. Sites were surveyed thrice in random order. We surveyed all honeybees, bumblebees, solitary bees, hoverflies and other Diptera (e.g: Calliphoridae, Tachinidae, Sarcophagidae) that visited flowers inside Faba beans field and at the margin of the crop capturing the pollinators with a net. Handling time invested in capturing pollinators was discounted. In total, the sampling effort was 90 minutes. Pollinators that were easily identifiable (e.g. honeybees and Bombus funebris, medium and big hoverflies) were recorded without capturing when possible.","Round number: 1. Height above sea level:3189 m."
"Carlos_Zaragoza_Trello_Vicia_faba_Ecuador_2017","CUMBI5","transects","syrphids","family","syrphids",1,900,90,NA,"To explore pollinator biodiversity we selected 15 Faba bean fields that were at the same phenological stage and adjacent to a managed grassland (or a natural grassland area when it was not feasible). We conducted pollinator surveys along 25 days (from early July to middle August) by walking during 15 minutes along each of two 150 x 1 m standardized transects per site. One transect was located at the field edge while the central transect was located at 25 m inside the field from the edge. In 5 fields these transects were adapted to the middle of the field as the field did not reach 50 meters. Transect walks were conducted between 8:00 and 16:30, low wind speeds and temperatures above 15 degrees C. Due Andean high altitude weather characteristics, during shorts periods of rain (minutes) or low clouds we stopped the survey and resumed it when weather allowed. Sites were surveyed thrice in random order. We surveyed all honeybees, bumblebees, solitary bees, hoverflies and other Diptera (e.g: Calliphoridae, Tachinidae, Sarcophagidae) that visited flowers inside Faba beans field and at the margin of the crop capturing the pollinators with a net. Handling time invested in capturing pollinators was discounted. In total, the sampling effort was 90 minutes. Pollinators that were easily identifiable (e.g. honeybees and Bombus funebris, medium and big hoverflies) were recorded without capturing when possible.","Round number: 1. Height above sea level:3189 m."
"Carlos_Zaragoza_Trello_Vicia_faba_Ecuador_2017","CUMBI5","transects","syrphids","family","syrphids",1,900,90,NA,"To explore pollinator biodiversity we selected 15 Faba bean fields that were at the same phenological stage and adjacent to a managed grassland (or a natural grassland area when it was not feasible). We conducted pollinator surveys along 25 days (from early July to middle August) by walking during 15 minutes along each of two 150 x 1 m standardized transects per site. One transect was located at the field edge while the central transect was located at 25 m inside the field from the edge. In 5 fields these transects were adapted to the middle of the field as the field did not reach 50 meters. Transect walks were conducted between 8:00 and 16:30, low wind speeds and temperatures above 15 degrees C. Due Andean high altitude weather characteristics, during shorts periods of rain (minutes) or low clouds we stopped the survey and resumed it when weather allowed. Sites were surveyed thrice in random order. We surveyed all honeybees, bumblebees, solitary bees, hoverflies and other Diptera (e.g: Calliphoridae, Tachinidae, Sarcophagidae) that visited flowers inside Faba beans field and at the margin of the crop capturing the pollinators with a net. Handling time invested in capturing pollinators was discounted. In total, the sampling effort was 90 minutes. Pollinators that were easily identifiable (e.g. honeybees and Bombus funebris, medium and big hoverflies) were recorded without capturing when possible.","Round number: 1. Height above sea level:3189 m."
"Carlos_Zaragoza_Trello_Vicia_faba_Ecuador_2017","CUMBI5","transects","syrphids","family","syrphids",1,900,90,NA,"To explore pollinator biodiversity we selected 15 Faba bean fields that were at the same phenological stage and adjacent to a managed grassland (or a natural grassland area when it was not feasible). We conducted pollinator surveys along 25 days (from early July to middle August) by walking during 15 minutes along each of two 150 x 1 m standardized transects per site. One transect was located at the field edge while the central transect was located at 25 m inside the field from the edge. In 5 fields these transects were adapted to the middle of the field as the field did not reach 50 meters. Transect walks were conducted between 8:00 and 16:30, low wind speeds and temperatures above 15 degrees C. Due Andean high altitude weather characteristics, during shorts periods of rain (minutes) or low clouds we stopped the survey and resumed it when weather allowed. Sites were surveyed thrice in random order. We surveyed all honeybees, bumblebees, solitary bees, hoverflies and other Diptera (e.g: Calliphoridae, Tachinidae, Sarcophagidae) that visited flowers inside Faba beans field and at the margin of the crop capturing the pollinators with a net. Handling time invested in capturing pollinators was discounted. In total, the sampling effort was 90 minutes. Pollinators that were easily identifiable (e.g. honeybees and Bombus funebris, medium and big hoverflies) were recorded without capturing when possible.","Round number: 1. Height above sea level:3189 m."
"Carlos_Zaragoza_Trello_Vicia_faba_Ecuador_2017","CUMBI5","transects","syrphids","family","syrphids",1,900,90,NA,"To explore pollinator biodiversity we selected 15 Faba bean fields that were at the same phenological stage and adjacent to a managed grassland (or a natural grassland area when it was not feasible). We conducted pollinator surveys along 25 days (from early July to middle August) by walking during 15 minutes along each of two 150 x 1 m standardized transects per site. One transect was located at the field edge while the central transect was located at 25 m inside the field from the edge. In 5 fields these transects were adapted to the middle of the field as the field did not reach 50 meters. Transect walks were conducted between 8:00 and 16:30, low wind speeds and temperatures above 15 degrees C. Due Andean high altitude weather characteristics, during shorts periods of rain (minutes) or low clouds we stopped the survey and resumed it when weather allowed. Sites were surveyed thrice in random order. We surveyed all honeybees, bumblebees, solitary bees, hoverflies and other Diptera (e.g: Calliphoridae, Tachinidae, Sarcophagidae) that visited flowers inside Faba beans field and at the margin of the crop capturing the pollinators with a net. Handling time invested in capturing pollinators was discounted. In total, the sampling effort was 90 minutes. Pollinators that were easily identifiable (e.g. honeybees and Bombus funebris, medium and big hoverflies) were recorded without capturing when possible.","Round number: 1. Height above sea level:3189 m."
"Carlos_Zaragoza_Trello_Vicia_faba_Ecuador_2017","CUMBI5","transects","syrphids","family","syrphids",1,900,90,NA,"To explore pollinator biodiversity we selected 15 Faba bean fields that were at the same phenological stage and adjacent to a managed grassland (or a natural grassland area when it was not feasible). We conducted pollinator surveys along 25 days (from early July to middle August) by walking during 15 minutes along each of two 150 x 1 m standardized transects per site. One transect was located at the field edge while the central transect was located at 25 m inside the field from the edge. In 5 fields these transects were adapted to the middle of the field as the field did not reach 50 meters. Transect walks were conducted between 8:00 and 16:30, low wind speeds and temperatures above 15 degrees C. Due Andean high altitude weather characteristics, during shorts periods of rain (minutes) or low clouds we stopped the survey and resumed it when weather allowed. Sites were surveyed thrice in random order. We surveyed all honeybees, bumblebees, solitary bees, hoverflies and other Diptera (e.g: Calliphoridae, Tachinidae, Sarcophagidae) that visited flowers inside Faba beans field and at the margin of the crop capturing the pollinators with a net. Handling time invested in capturing pollinators was discounted. In total, the sampling effort was 90 minutes. Pollinators that were easily identifiable (e.g. honeybees and Bombus funebris, medium and big hoverflies) were recorded without capturing when possible.","Round number: 1. Height above sea level:3189 m."
"Carlos_Zaragoza_Trello_Vicia_faba_Ecuador_2017","CUMBI5","transects","syrphids","family","syrphids",1,900,90,NA,"To explore pollinator biodiversity we selected 15 Faba bean fields that were at the same phenological stage and adjacent to a managed grassland (or a natural grassland area when it was not feasible). We conducted pollinator surveys along 25 days (from early July to middle August) by walking during 15 minutes along each of two 150 x 1 m standardized transects per site. One transect was located at the field edge while the central transect was located at 25 m inside the field from the edge. In 5 fields these transects were adapted to the middle of the field as the field did not reach 50 meters. Transect walks were conducted between 8:00 and 16:30, low wind speeds and temperatures above 15 degrees C. Due Andean high altitude weather characteristics, during shorts periods of rain (minutes) or low clouds we stopped the survey and resumed it when weather allowed. Sites were surveyed thrice in random order. We surveyed all honeybees, bumblebees, solitary bees, hoverflies and other Diptera (e.g: Calliphoridae, Tachinidae, Sarcophagidae) that visited flowers inside Faba beans field and at the margin of the crop capturing the pollinators with a net. Handling time invested in capturing pollinators was discounted. In total, the sampling effort was 90 minutes. Pollinators that were easily identifiable (e.g. honeybees and Bombus funebris, medium and big hoverflies) were recorded without capturing when possible.","Round number: 1. Height above sea level:3189 m."
"Carlos_Zaragoza_Trello_Vicia_faba_Ecuador_2017","CUMBI5","transects","syrphids","family","syrphids",1,900,90,NA,"To explore pollinator biodiversity we selected 15 Faba bean fields that were at the same phenological stage and adjacent to a managed grassland (or a natural grassland area when it was not feasible). We conducted pollinator surveys along 25 days (from early July to middle August) by walking during 15 minutes along each of two 150 x 1 m standardized transects per site. One transect was located at the field edge while the central transect was located at 25 m inside the field from the edge. In 5 fields these transects were adapted to the middle of the field as the field did not reach 50 meters. Transect walks were conducted between 8:00 and 16:30, low wind speeds and temperatures above 15 degrees C. Due Andean high altitude weather characteristics, during shorts periods of rain (minutes) or low clouds we stopped the survey and resumed it when weather allowed. Sites were surveyed thrice in random order. We surveyed all honeybees, bumblebees, solitary bees, hoverflies and other Diptera (e.g: Calliphoridae, Tachinidae, Sarcophagidae) that visited flowers inside Faba beans field and at the margin of the crop capturing the pollinators with a net. Handling time invested in capturing pollinators was discounted. In total, the sampling effort was 90 minutes. Pollinators that were easily identifiable (e.g. honeybees and Bombus funebris, medium and big hoverflies) were recorded without capturing when possible.","Round number: 1. Height above sea level:3189 m."
"Carlos_Zaragoza_Trello_Vicia_faba_Ecuador_2017","CUMBI5","transects","syrphids","family","syrphids",1,900,90,NA,"To explore pollinator biodiversity we selected 15 Faba bean fields that were at the same phenological stage and adjacent to a managed grassland (or a natural grassland area when it was not feasible). We conducted pollinator surveys along 25 days (from early July to middle August) by walking during 15 minutes along each of two 150 x 1 m standardized transects per site. One transect was located at the field edge while the central transect was located at 25 m inside the field from the edge. In 5 fields these transects were adapted to the middle of the field as the field did not reach 50 meters. Transect walks were conducted between 8:00 and 16:30, low wind speeds and temperatures above 15 degrees C. Due Andean high altitude weather characteristics, during shorts periods of rain (minutes) or low clouds we stopped the survey and resumed it when weather allowed. Sites were surveyed thrice in random order. We surveyed all honeybees, bumblebees, solitary bees, hoverflies and other Diptera (e.g: Calliphoridae, Tachinidae, Sarcophagidae) that visited flowers inside Faba beans field and at the margin of the crop capturing the pollinators with a net. Handling time invested in capturing pollinators was discounted. In total, the sampling effort was 90 minutes. Pollinators that were easily identifiable (e.g. honeybees and Bombus funebris, medium and big hoverflies) were recorded without capturing when possible.","Round number: 2. Height above sea level:3189 m."
"Carlos_Zaragoza_Trello_Vicia_faba_Ecuador_2017","CUMBI5","transects","syrphids","family","syrphids",1,900,90,NA,"To explore pollinator biodiversity we selected 15 Faba bean fields that were at the same phenological stage and adjacent to a managed grassland (or a natural grassland area when it was not feasible). We conducted pollinator surveys along 25 days (from early July to middle August) by walking during 15 minutes along each of two 150 x 1 m standardized transects per site. One transect was located at the field edge while the central transect was located at 25 m inside the field from the edge. In 5 fields these transects were adapted to the middle of the field as the field did not reach 50 meters. Transect walks were conducted between 8:00 and 16:30, low wind speeds and temperatures above 15 degrees C. Due Andean high altitude weather characteristics, during shorts periods of rain (minutes) or low clouds we stopped the survey and resumed it when weather allowed. Sites were surveyed thrice in random order. We surveyed all honeybees, bumblebees, solitary bees, hoverflies and other Diptera (e.g: Calliphoridae, Tachinidae, Sarcophagidae) that visited flowers inside Faba beans field and at the margin of the crop capturing the pollinators with a net. Handling time invested in capturing pollinators was discounted. In total, the sampling effort was 90 minutes. Pollinators that were easily identifiable (e.g. honeybees and Bombus funebris, medium and big hoverflies) were recorded without capturing when possible.","Round number: 2. Height above sea level:3189 m."
"Carlos_Zaragoza_Trello_Vicia_faba_Ecuador_2017","CUMBI5","transects","syrphids","family","syrphids",8,900,90,NA,"To explore pollinator biodiversity we selected 15 Faba bean fields that were at the same phenological stage and adjacent to a managed grassland (or a natural grassland area when it was not feasible). We conducted pollinator surveys along 25 days (from early July to middle August) by walking during 15 minutes along each of two 150 x 1 m standardized transects per site. One transect was located at the field edge while the central transect was located at 25 m inside the field from the edge. In 5 fields these transects were adapted to the middle of the field as the field did not reach 50 meters. Transect walks were conducted between 8:00 and 16:30, low wind speeds and temperatures above 15 degrees C. Due Andean high altitude weather characteristics, during shorts periods of rain (minutes) or low clouds we stopped the survey and resumed it when weather allowed. Sites were surveyed thrice in random order. We surveyed all honeybees, bumblebees, solitary bees, hoverflies and other Diptera (e.g: Calliphoridae, Tachinidae, Sarcophagidae) that visited flowers inside Faba beans field and at the margin of the crop capturing the pollinators with a net. Handling time invested in capturing pollinators was discounted. In total, the sampling effort was 90 minutes. Pollinators that were easily identifiable (e.g. honeybees and Bombus funebris, medium and big hoverflies) were recorded without capturing when possible.","Round number: 3. Height above sea level:3189 m."
"Carlos_Zaragoza_Trello_Vicia_faba_Ecuador_2017","CUMBI5","transects","syrphids","family","syrphids",2,900,90,NA,"To explore pollinator biodiversity we selected 15 Faba bean fields that were at the same phenological stage and adjacent to a managed grassland (or a natural grassland area when it was not feasible). We conducted pollinator surveys along 25 days (from early July to middle August) by walking during 15 minutes along each of two 150 x 1 m standardized transects per site. One transect was located at the field edge while the central transect was located at 25 m inside the field from the edge. In 5 fields these transects were adapted to the middle of the field as the field did not reach 50 meters. Transect walks were conducted between 8:00 and 16:30, low wind speeds and temperatures above 15 degrees C. Due Andean high altitude weather characteristics, during shorts periods of rain (minutes) or low clouds we stopped the survey and resumed it when weather allowed. Sites were surveyed thrice in random order. We surveyed all honeybees, bumblebees, solitary bees, hoverflies and other Diptera (e.g: Calliphoridae, Tachinidae, Sarcophagidae) that visited flowers inside Faba beans field and at the margin of the crop capturing the pollinators with a net. Handling time invested in capturing pollinators was discounted. In total, the sampling effort was 90 minutes. Pollinators that were easily identifiable (e.g. honeybees and Bombus funebris, medium and big hoverflies) were recorded without capturing when possible.","Round number: 3. Height above sea level:3189 m."
"Carlos_Zaragoza_Trello_Vicia_faba_Ecuador_2017","CUMBI5","transects","syrphids","family","syrphids",8,900,90,NA,"To explore pollinator biodiversity we selected 15 Faba bean fields that were at the same phenological stage and adjacent to a managed grassland (or a natural grassland area when it was not feasible). We conducted pollinator surveys along 25 days (from early July to middle August) by walking during 15 minutes along each of two 150 x 1 m standardized transects per site. One transect was located at the field edge while the central transect was located at 25 m inside the field from the edge. In 5 fields these transects were adapted to the middle of the field as the field did not reach 50 meters. Transect walks were conducted between 8:00 and 16:30, low wind speeds and temperatures above 15 degrees C. Due Andean high altitude weather characteristics, during shorts periods of rain (minutes) or low clouds we stopped the survey and resumed it when weather allowed. Sites were surveyed thrice in random order. We surveyed all honeybees, bumblebees, solitary bees, hoverflies and other Diptera (e.g: Calliphoridae, Tachinidae, Sarcophagidae) that visited flowers inside Faba beans field and at the margin of the crop capturing the pollinators with a net. Handling time invested in capturing pollinators was discounted. In total, the sampling effort was 90 minutes. Pollinators that were easily identifiable (e.g. honeybees and Bombus funebris, medium and big hoverflies) were recorded without capturing when possible.","Round number: 3. Height above sea level:3189 m."
"Carlos_Zaragoza_Trello_Vicia_faba_Ecuador_2017","CUMBI5","transects","syrphids","family","syrphids",2,900,90,NA,"To explore pollinator biodiversity we selected 15 Faba bean fields that were at the same phenological stage and adjacent to a managed grassland (or a natural grassland area when it was not feasible). We conducted pollinator surveys along 25 days (from early July to middle August) by walking during 15 minutes along each of two 150 x 1 m standardized transects per site. One transect was located at the field edge while the central transect was located at 25 m inside the field from the edge. In 5 fields these transects were adapted to the middle of the field as the field did not reach 50 meters. Transect walks were conducted between 8:00 and 16:30, low wind speeds and temperatures above 15 degrees C. Due Andean high altitude weather characteristics, during shorts periods of rain (minutes) or low clouds we stopped the survey and resumed it when weather allowed. Sites were surveyed thrice in random order. We surveyed all honeybees, bumblebees, solitary bees, hoverflies and other Diptera (e.g: Calliphoridae, Tachinidae, Sarcophagidae) that visited flowers inside Faba beans field and at the margin of the crop capturing the pollinators with a net. Handling time invested in capturing pollinators was discounted. In total, the sampling effort was 90 minutes. Pollinators that were easily identifiable (e.g. honeybees and Bombus funebris, medium and big hoverflies) were recorded without capturing when possible.","Round number: 3. Height above sea level:3189 m."
"Carlos_Zaragoza_Trello_Vicia_faba_Ecuador_2017","CUMBI5","transects","syrphids","family","syrphids",2,900,90,NA,"To explore pollinator biodiversity we selected 15 Faba bean fields that were at the same phenological stage and adjacent to a managed grassland (or a natural grassland area when it was not feasible). We conducted pollinator surveys along 25 days (from early July to middle August) by walking during 15 minutes along each of two 150 x 1 m standardized transects per site. One transect was located at the field edge while the central transect was located at 25 m inside the field from the edge. In 5 fields these transects were adapted to the middle of the field as the field did not reach 50 meters. Transect walks were conducted between 8:00 and 16:30, low wind speeds and temperatures above 15 degrees C. Due Andean high altitude weather characteristics, during shorts periods of rain (minutes) or low clouds we stopped the survey and resumed it when weather allowed. Sites were surveyed thrice in random order. We surveyed all honeybees, bumblebees, solitary bees, hoverflies and other Diptera (e.g: Calliphoridae, Tachinidae, Sarcophagidae) that visited flowers inside Faba beans field and at the margin of the crop capturing the pollinators with a net. Handling time invested in capturing pollinators was discounted. In total, the sampling effort was 90 minutes. Pollinators that were easily identifiable (e.g. honeybees and Bombus funebris, medium and big hoverflies) were recorded without capturing when possible.","Round number: 3. Height above sea level:3189 m."
"Carlos_Zaragoza_Trello_Vicia_faba_Ecuador_2017","CUMBI5","transects","syrphids","family","syrphids",2,900,90,NA,"To explore pollinator biodiversity we selected 15 Faba bean fields that were at the same phenological stage and adjacent to a managed grassland (or a natural grassland area when it was not feasible). We conducted pollinator surveys along 25 days (from early July to middle August) by walking during 15 minutes along each of two 150 x 1 m standardized transects per site. One transect was located at the field edge while the central transect was located at 25 m inside the field from the edge. In 5 fields these transects were adapted to the middle of the field as the field did not reach 50 meters. Transect walks were conducted between 8:00 and 16:30, low wind speeds and temperatures above 15 degrees C. Due Andean high altitude weather characteristics, during shorts periods of rain (minutes) or low clouds we stopped the survey and resumed it when weather allowed. Sites were surveyed thrice in random order. We surveyed all honeybees, bumblebees, solitary bees, hoverflies and other Diptera (e.g: Calliphoridae, Tachinidae, Sarcophagidae) that visited flowers inside Faba beans field and at the margin of the crop capturing the pollinators with a net. Handling time invested in capturing pollinators was discounted. In total, the sampling effort was 90 minutes. Pollinators that were easily identifiable (e.g. honeybees and Bombus funebris, medium and big hoverflies) were recorded without capturing when possible.","Round number: 3. Height above sea level:3189 m."
"Carlos_Zaragoza_Trello_Vicia_faba_Ecuador_2017","CUMBI5","transects","syrphids","family","syrphids",9,900,90,NA,"To explore pollinator biodiversity we selected 15 Faba bean fields that were at the same phenological stage and adjacent to a managed grassland (or a natural grassland area when it was not feasible). We conducted pollinator surveys along 25 days (from early July to middle August) by walking during 15 minutes along each of two 150 x 1 m standardized transects per site. One transect was located at the field edge while the central transect was located at 25 m inside the field from the edge. In 5 fields these transects were adapted to the middle of the field as the field did not reach 50 meters. Transect walks were conducted between 8:00 and 16:30, low wind speeds and temperatures above 15 degrees C. Due Andean high altitude weather characteristics, during shorts periods of rain (minutes) or low clouds we stopped the survey and resumed it when weather allowed. Sites were surveyed thrice in random order. We surveyed all honeybees, bumblebees, solitary bees, hoverflies and other Diptera (e.g: Calliphoridae, Tachinidae, Sarcophagidae) that visited flowers inside Faba beans field and at the margin of the crop capturing the pollinators with a net. Handling time invested in capturing pollinators was discounted. In total, the sampling effort was 90 minutes. Pollinators that were easily identifiable (e.g. honeybees and Bombus funebris, medium and big hoverflies) were recorded without capturing when possible.","Round number: 3. Height above sea level:3189 m."
"Carlos_Zaragoza_Trello_Vicia_faba_Ecuador_2017","CUMBI5","transects","syrphids","family","syrphids",5,900,90,NA,"To explore pollinator biodiversity we selected 15 Faba bean fields that were at the same phenological stage and adjacent to a managed grassland (or a natural grassland area when it was not feasible). We conducted pollinator surveys along 25 days (from early July to middle August) by walking during 15 minutes along each of two 150 x 1 m standardized transects per site. One transect was located at the field edge while the central transect was located at 25 m inside the field from the edge. In 5 fields these transects were adapted to the middle of the field as the field did not reach 50 meters. Transect walks were conducted between 8:00 and 16:30, low wind speeds and temperatures above 15 degrees C. Due Andean high altitude weather characteristics, during shorts periods of rain (minutes) or low clouds we stopped the survey and resumed it when weather allowed. Sites were surveyed thrice in random order. We surveyed all honeybees, bumblebees, solitary bees, hoverflies and other Diptera (e.g: Calliphoridae, Tachinidae, Sarcophagidae) that visited flowers inside Faba beans field and at the margin of the crop capturing the pollinators with a net. Handling time invested in capturing pollinators was discounted. In total, the sampling effort was 90 minutes. Pollinators that were easily identifiable (e.g. honeybees and Bombus funebris, medium and big hoverflies) were recorded without capturing when possible.","Round number: 3. Height above sea level:3189 m."
"Carlos_Zaragoza_Trello_Vicia_faba_Ecuador_2017","CUMBI5","transects","syrphids","family","syrphids",9,900,90,NA,"To explore pollinator biodiversity we selected 15 Faba bean fields that were at the same phenological stage and adjacent to a managed grassland (or a natural grassland area when it was not feasible). We conducted pollinator surveys along 25 days (from early July to middle August) by walking during 15 minutes along each of two 150 x 1 m standardized transects per site. One transect was located at the field edge while the central transect was located at 25 m inside the field from the edge. In 5 fields these transects were adapted to the middle of the field as the field did not reach 50 meters. Transect walks were conducted between 8:00 and 16:30, low wind speeds and temperatures above 15 degrees C. Due Andean high altitude weather characteristics, during shorts periods of rain (minutes) or low clouds we stopped the survey and resumed it when weather allowed. Sites were surveyed thrice in random order. We surveyed all honeybees, bumblebees, solitary bees, hoverflies and other Diptera (e.g: Calliphoridae, Tachinidae, Sarcophagidae) that visited flowers inside Faba beans field and at the margin of the crop capturing the pollinators with a net. Handling time invested in capturing pollinators was discounted. In total, the sampling effort was 90 minutes. Pollinators that were easily identifiable (e.g. honeybees and Bombus funebris, medium and big hoverflies) were recorded without capturing when possible.","Round number: 3. Height above sea level:3189 m."
"Carlos_Zaragoza_Trello_Vicia_faba_Ecuador_2017","CUMBI5","transects","syrphids","family","syrphids",5,900,90,NA,"To explore pollinator biodiversity we selected 15 Faba bean fields that were at the same phenological stage and adjacent to a managed grassland (or a natural grassland area when it was not feasible). We conducted pollinator surveys along 25 days (from early July to middle August) by walking during 15 minutes along each of two 150 x 1 m standardized transects per site. One transect was located at the field edge while the central transect was located at 25 m inside the field from the edge. In 5 fields these transects were adapted to the middle of the field as the field did not reach 50 meters. Transect walks were conducted between 8:00 and 16:30, low wind speeds and temperatures above 15 degrees C. Due Andean high altitude weather characteristics, during shorts periods of rain (minutes) or low clouds we stopped the survey and resumed it when weather allowed. Sites were surveyed thrice in random order. We surveyed all honeybees, bumblebees, solitary bees, hoverflies and other Diptera (e.g: Calliphoridae, Tachinidae, Sarcophagidae) that visited flowers inside Faba beans field and at the margin of the crop capturing the pollinators with a net. Handling time invested in capturing pollinators was discounted. In total, the sampling effort was 90 minutes. Pollinators that were easily identifiable (e.g. honeybees and Bombus funebris, medium and big hoverflies) were recorded without capturing when possible.","Round number: 3. Height above sea level:3189 m."
"Carlos_Zaragoza_Trello_Vicia_faba_Ecuador_2017","CUMBI5","transects","syrphids","family","syrphids",7,900,90,NA,"To explore pollinator biodiversity we selected 15 Faba bean fields that were at the same phenological stage and adjacent to a managed grassland (or a natural grassland area when it was not feasible). We conducted pollinator surveys along 25 days (from early July to middle August) by walking during 15 minutes along each of two 150 x 1 m standardized transects per site. One transect was located at the field edge while the central transect was located at 25 m inside the field from the edge. In 5 fields these transects were adapted to the middle of the field as the field did not reach 50 meters. Transect walks were conducted between 8:00 and 16:30, low wind speeds and temperatures above 15 degrees C. Due Andean high altitude weather characteristics, during shorts periods of rain (minutes) or low clouds we stopped the survey and resumed it when weather allowed. Sites were surveyed thrice in random order. We surveyed all honeybees, bumblebees, solitary bees, hoverflies and other Diptera (e.g: Calliphoridae, Tachinidae, Sarcophagidae) that visited flowers inside Faba beans field and at the margin of the crop capturing the pollinators with a net. Handling time invested in capturing pollinators was discounted. In total, the sampling effort was 90 minutes. Pollinators that were easily identifiable (e.g. honeybees and Bombus funebris, medium and big hoverflies) were recorded without capturing when possible.","Round number: 2. Height above sea level:3189 m."
"Carlos_Zaragoza_Trello_Vicia_faba_Ecuador_2017","CUMBI5","transects","syrphids","family","syrphids",4,900,90,NA,"To explore pollinator biodiversity we selected 15 Faba bean fields that were at the same phenological stage and adjacent to a managed grassland (or a natural grassland area when it was not feasible). We conducted pollinator surveys along 25 days (from early July to middle August) by walking during 15 minutes along each of two 150 x 1 m standardized transects per site. One transect was located at the field edge while the central transect was located at 25 m inside the field from the edge. In 5 fields these transects were adapted to the middle of the field as the field did not reach 50 meters. Transect walks were conducted between 8:00 and 16:30, low wind speeds and temperatures above 15 degrees C. Due Andean high altitude weather characteristics, during shorts periods of rain (minutes) or low clouds we stopped the survey and resumed it when weather allowed. Sites were surveyed thrice in random order. We surveyed all honeybees, bumblebees, solitary bees, hoverflies and other Diptera (e.g: Calliphoridae, Tachinidae, Sarcophagidae) that visited flowers inside Faba beans field and at the margin of the crop capturing the pollinators with a net. Handling time invested in capturing pollinators was discounted. In total, the sampling effort was 90 minutes. Pollinators that were easily identifiable (e.g. honeybees and Bombus funebris, medium and big hoverflies) were recorded without capturing when possible.","Round number: 1. Height above sea level:3189 m."
"Carlos_Zaragoza_Trello_Vicia_faba_Ecuador_2017","CUMBI5","transects","syrphids","family","syrphids",12,900,90,NA,"To explore pollinator biodiversity we selected 15 Faba bean fields that were at the same phenological stage and adjacent to a managed grassland (or a natural grassland area when it was not feasible). We conducted pollinator surveys along 25 days (from early July to middle August) by walking during 15 minutes along each of two 150 x 1 m standardized transects per site. One transect was located at the field edge while the central transect was located at 25 m inside the field from the edge. In 5 fields these transects were adapted to the middle of the field as the field did not reach 50 meters. Transect walks were conducted between 8:00 and 16:30, low wind speeds and temperatures above 15 degrees C. Due Andean high altitude weather characteristics, during shorts periods of rain (minutes) or low clouds we stopped the survey and resumed it when weather allowed. Sites were surveyed thrice in random order. We surveyed all honeybees, bumblebees, solitary bees, hoverflies and other Diptera (e.g: Calliphoridae, Tachinidae, Sarcophagidae) that visited flowers inside Faba beans field and at the margin of the crop capturing the pollinators with a net. Handling time invested in capturing pollinators was discounted. In total, the sampling effort was 90 minutes. Pollinators that were easily identifiable (e.g. honeybees and Bombus funebris, medium and big hoverflies) were recorded without capturing when possible.","Round number: 2. Height above sea level:3189 m."
"Carlos_Zaragoza_Trello_Vicia_faba_Ecuador_2017","CUMBI5","transects","syrphids","family","syrphids",2,900,90,NA,"To explore pollinator biodiversity we selected 15 Faba bean fields that were at the same phenological stage and adjacent to a managed grassland (or a natural grassland area when it was not feasible). We conducted pollinator surveys along 25 days (from early July to middle August) by walking during 15 minutes along each of two 150 x 1 m standardized transects per site. One transect was located at the field edge while the central transect was located at 25 m inside the field from the edge. In 5 fields these transects were adapted to the middle of the field as the field did not reach 50 meters. Transect walks were conducted between 8:00 and 16:30, low wind speeds and temperatures above 15 degrees C. Due Andean high altitude weather characteristics, during shorts periods of rain (minutes) or low clouds we stopped the survey and resumed it when weather allowed. Sites were surveyed thrice in random order. We surveyed all honeybees, bumblebees, solitary bees, hoverflies and other Diptera (e.g: Calliphoridae, Tachinidae, Sarcophagidae) that visited flowers inside Faba beans field and at the margin of the crop capturing the pollinators with a net. Handling time invested in capturing pollinators was discounted. In total, the sampling effort was 90 minutes. Pollinators that were easily identifiable (e.g. honeybees and Bombus funebris, medium and big hoverflies) were recorded without capturing when possible.","Round number: 2. Height above sea level:3189 m."
"Carlos_Zaragoza_Trello_Vicia_faba_Ecuador_2017","CUMBI6","transects","syrphids","family","syrphids",1,900,90,NA,"To explore pollinator biodiversity we selected 15 Faba bean fields that were at the same phenological stage and adjacent to a managed grassland (or a natural grassland area when it was not feasible). We conducted pollinator surveys along 25 days (from early July to middle August) by walking during 15 minutes along each of two 150 x 1 m standardized transects per site. One transect was located at the field edge while the central transect was located at 25 m inside the field from the edge. In 5 fields these transects were adapted to the middle of the field as the field did not reach 50 meters. Transect walks were conducted between 8:00 and 16:30, low wind speeds and temperatures above 15 degrees C. Due Andean high altitude weather characteristics, during shorts periods of rain (minutes) or low clouds we stopped the survey and resumed it when weather allowed. Sites were surveyed thrice in random order. We surveyed all honeybees, bumblebees, solitary bees, hoverflies and other Diptera (e.g: Calliphoridae, Tachinidae, Sarcophagidae) that visited flowers inside Faba beans field and at the margin of the crop capturing the pollinators with a net. Handling time invested in capturing pollinators was discounted. In total, the sampling effort was 90 minutes. Pollinators that were easily identifiable (e.g. honeybees and Bombus funebris, medium and big hoverflies) were recorded without capturing when possible.","Round number: 1. Height above sea level:3628 m."
"Carlos_Zaragoza_Trello_Vicia_faba_Ecuador_2017","CUMBI6","transects","syrphids","family","syrphids",1,900,90,NA,"To explore pollinator biodiversity we selected 15 Faba bean fields that were at the same phenological stage and adjacent to a managed grassland (or a natural grassland area when it was not feasible). We conducted pollinator surveys along 25 days (from early July to middle August) by walking during 15 minutes along each of two 150 x 1 m standardized transects per site. One transect was located at the field edge while the central transect was located at 25 m inside the field from the edge. In 5 fields these transects were adapted to the middle of the field as the field did not reach 50 meters. Transect walks were conducted between 8:00 and 16:30, low wind speeds and temperatures above 15 degrees C. Due Andean high altitude weather characteristics, during shorts periods of rain (minutes) or low clouds we stopped the survey and resumed it when weather allowed. Sites were surveyed thrice in random order. We surveyed all honeybees, bumblebees, solitary bees, hoverflies and other Diptera (e.g: Calliphoridae, Tachinidae, Sarcophagidae) that visited flowers inside Faba beans field and at the margin of the crop capturing the pollinators with a net. Handling time invested in capturing pollinators was discounted. In total, the sampling effort was 90 minutes. Pollinators that were easily identifiable (e.g. honeybees and Bombus funebris, medium and big hoverflies) were recorded without capturing when possible.","Round number: 2. Height above sea level:3628 m."
"Carlos_Zaragoza_Trello_Vicia_faba_Ecuador_2017","CUMBI6","transects","syrphids","family","syrphids",1,900,90,NA,"To explore pollinator biodiversity we selected 15 Faba bean fields that were at the same phenological stage and adjacent to a managed grassland (or a natural grassland area when it was not feasible). We conducted pollinator surveys along 25 days (from early July to middle August) by walking during 15 minutes along each of two 150 x 1 m standardized transects per site. One transect was located at the field edge while the central transect was located at 25 m inside the field from the edge. In 5 fields these transects were adapted to the middle of the field as the field did not reach 50 meters. Transect walks were conducted between 8:00 and 16:30, low wind speeds and temperatures above 15 degrees C. Due Andean high altitude weather characteristics, during shorts periods of rain (minutes) or low clouds we stopped the survey and resumed it when weather allowed. Sites were surveyed thrice in random order. We surveyed all honeybees, bumblebees, solitary bees, hoverflies and other Diptera (e.g: Calliphoridae, Tachinidae, Sarcophagidae) that visited flowers inside Faba beans field and at the margin of the crop capturing the pollinators with a net. Handling time invested in capturing pollinators was discounted. In total, the sampling effort was 90 minutes. Pollinators that were easily identifiable (e.g. honeybees and Bombus funebris, medium and big hoverflies) were recorded without capturing when possible.","Round number: 2. Height above sea level:3628 m."
"Carlos_Zaragoza_Trello_Vicia_faba_Ecuador_2017","CUMBI6","transects","syrphids","family","syrphids",1,900,90,NA,"To explore pollinator biodiversity we selected 15 Faba bean fields that were at the same phenological stage and adjacent to a managed grassland (or a natural grassland area when it was not feasible). We conducted pollinator surveys along 25 days (from early July to middle August) by walking during 15 minutes along each of two 150 x 1 m standardized transects per site. One transect was located at the field edge while the central transect was located at 25 m inside the field from the edge. In 5 fields these transects were adapted to the middle of the field as the field did not reach 50 meters. Transect walks were conducted between 8:00 and 16:30, low wind speeds and temperatures above 15 degrees C. Due Andean high altitude weather characteristics, during shorts periods of rain (minutes) or low clouds we stopped the survey and resumed it when weather allowed. Sites were surveyed thrice in random order. We surveyed all honeybees, bumblebees, solitary bees, hoverflies and other Diptera (e.g: Calliphoridae, Tachinidae, Sarcophagidae) that visited flowers inside Faba beans field and at the margin of the crop capturing the pollinators with a net. Handling time invested in capturing pollinators was discounted. In total, the sampling effort was 90 minutes. Pollinators that were easily identifiable (e.g. honeybees and Bombus funebris, medium and big hoverflies) were recorded without capturing when possible.","Round number: 2. Height above sea level:3628 m."
"Carlos_Zaragoza_Trello_Vicia_faba_Ecuador_2017","CUMBI6","transects","syrphids","family","syrphids",1,900,90,NA,"To explore pollinator biodiversity we selected 15 Faba bean fields that were at the same phenological stage and adjacent to a managed grassland (or a natural grassland area when it was not feasible). We conducted pollinator surveys along 25 days (from early July to middle August) by walking during 15 minutes along each of two 150 x 1 m standardized transects per site. One transect was located at the field edge while the central transect was located at 25 m inside the field from the edge. In 5 fields these transects were adapted to the middle of the field as the field did not reach 50 meters. Transect walks were conducted between 8:00 and 16:30, low wind speeds and temperatures above 15 degrees C. Due Andean high altitude weather characteristics, during shorts periods of rain (minutes) or low clouds we stopped the survey and resumed it when weather allowed. Sites were surveyed thrice in random order. We surveyed all honeybees, bumblebees, solitary bees, hoverflies and other Diptera (e.g: Calliphoridae, Tachinidae, Sarcophagidae) that visited flowers inside Faba beans field and at the margin of the crop capturing the pollinators with a net. Handling time invested in capturing pollinators was discounted. In total, the sampling effort was 90 minutes. Pollinators that were easily identifiable (e.g. honeybees and Bombus funebris, medium and big hoverflies) were recorded without capturing when possible.","Round number: 2. Height above sea level:3628 m."
"Carlos_Zaragoza_Trello_Vicia_faba_Ecuador_2017","CUMBI6","transects","syrphids","family","syrphids",1,900,90,NA,"To explore pollinator biodiversity we selected 15 Faba bean fields that were at the same phenological stage and adjacent to a managed grassland (or a natural grassland area when it was not feasible). We conducted pollinator surveys along 25 days (from early July to middle August) by walking during 15 minutes along each of two 150 x 1 m standardized transects per site. One transect was located at the field edge while the central transect was located at 25 m inside the field from the edge. In 5 fields these transects were adapted to the middle of the field as the field did not reach 50 meters. Transect walks were conducted between 8:00 and 16:30, low wind speeds and temperatures above 15 degrees C. Due Andean high altitude weather characteristics, during shorts periods of rain (minutes) or low clouds we stopped the survey and resumed it when weather allowed. Sites were surveyed thrice in random order. We surveyed all honeybees, bumblebees, solitary bees, hoverflies and other Diptera (e.g: Calliphoridae, Tachinidae, Sarcophagidae) that visited flowers inside Faba beans field and at the margin of the crop capturing the pollinators with a net. Handling time invested in capturing pollinators was discounted. In total, the sampling effort was 90 minutes. Pollinators that were easily identifiable (e.g. honeybees and Bombus funebris, medium and big hoverflies) were recorded without capturing when possible.","Round number: 2. Height above sea level:3628 m."
"Carlos_Zaragoza_Trello_Vicia_faba_Ecuador_2017","CUMBI6","transects","syrphids","family","syrphids",1,900,90,NA,"To explore pollinator biodiversity we selected 15 Faba bean fields that were at the same phenological stage and adjacent to a managed grassland (or a natural grassland area when it was not feasible). We conducted pollinator surveys along 25 days (from early July to middle August) by walking during 15 minutes along each of two 150 x 1 m standardized transects per site. One transect was located at the field edge while the central transect was located at 25 m inside the field from the edge. In 5 fields these transects were adapted to the middle of the field as the field did not reach 50 meters. Transect walks were conducted between 8:00 and 16:30, low wind speeds and temperatures above 15 degrees C. Due Andean high altitude weather characteristics, during shorts periods of rain (minutes) or low clouds we stopped the survey and resumed it when weather allowed. Sites were surveyed thrice in random order. We surveyed all honeybees, bumblebees, solitary bees, hoverflies and other Diptera (e.g: Calliphoridae, Tachinidae, Sarcophagidae) that visited flowers inside Faba beans field and at the margin of the crop capturing the pollinators with a net. Handling time invested in capturing pollinators was discounted. In total, the sampling effort was 90 minutes. Pollinators that were easily identifiable (e.g. honeybees and Bombus funebris, medium and big hoverflies) were recorded without capturing when possible.","Round number: 2. Height above sea level:3628 m."
"Carlos_Zaragoza_Trello_Vicia_faba_Ecuador_2017","CUMBI6","transects","syrphids","family","syrphids",1,900,90,NA,"To explore pollinator biodiversity we selected 15 Faba bean fields that were at the same phenological stage and adjacent to a managed grassland (or a natural grassland area when it was not feasible). We conducted pollinator surveys along 25 days (from early July to middle August) by walking during 15 minutes along each of two 150 x 1 m standardized transects per site. One transect was located at the field edge while the central transect was located at 25 m inside the field from the edge. In 5 fields these transects were adapted to the middle of the field as the field did not reach 50 meters. Transect walks were conducted between 8:00 and 16:30, low wind speeds and temperatures above 15 degrees C. Due Andean high altitude weather characteristics, during shorts periods of rain (minutes) or low clouds we stopped the survey and resumed it when weather allowed. Sites were surveyed thrice in random order. We surveyed all honeybees, bumblebees, solitary bees, hoverflies and other Diptera (e.g: Calliphoridae, Tachinidae, Sarcophagidae) that visited flowers inside Faba beans field and at the margin of the crop capturing the pollinators with a net. Handling time invested in capturing pollinators was discounted. In total, the sampling effort was 90 minutes. Pollinators that were easily identifiable (e.g. honeybees and Bombus funebris, medium and big hoverflies) were recorded without capturing when possible.","Round number: 2. Height above sea level:3628 m."
"Carlos_Zaragoza_Trello_Vicia_faba_Ecuador_2017","CUMBI6","transects","syrphids","family","syrphids",12,900,90,NA,"To explore pollinator biodiversity we selected 15 Faba bean fields that were at the same phenological stage and adjacent to a managed grassland (or a natural grassland area when it was not feasible). We conducted pollinator surveys along 25 days (from early July to middle August) by walking during 15 minutes along each of two 150 x 1 m standardized transects per site. One transect was located at the field edge while the central transect was located at 25 m inside the field from the edge. In 5 fields these transects were adapted to the middle of the field as the field did not reach 50 meters. Transect walks were conducted between 8:00 and 16:30, low wind speeds and temperatures above 15 degrees C. Due Andean high altitude weather characteristics, during shorts periods of rain (minutes) or low clouds we stopped the survey and resumed it when weather allowed. Sites were surveyed thrice in random order. We surveyed all honeybees, bumblebees, solitary bees, hoverflies and other Diptera (e.g: Calliphoridae, Tachinidae, Sarcophagidae) that visited flowers inside Faba beans field and at the margin of the crop capturing the pollinators with a net. Handling time invested in capturing pollinators was discounted. In total, the sampling effort was 90 minutes. Pollinators that were easily identifiable (e.g. honeybees and Bombus funebris, medium and big hoverflies) were recorded without capturing when possible.","Round number: 3. Height above sea level:3628 m."
"Carlos_Zaragoza_Trello_Vicia_faba_Ecuador_2017","CUMBI6","transects","syrphids","family","syrphids",7,900,90,NA,"To explore pollinator biodiversity we selected 15 Faba bean fields that were at the same phenological stage and adjacent to a managed grassland (or a natural grassland area when it was not feasible). We conducted pollinator surveys along 25 days (from early July to middle August) by walking during 15 minutes along each of two 150 x 1 m standardized transects per site. One transect was located at the field edge while the central transect was located at 25 m inside the field from the edge. In 5 fields these transects were adapted to the middle of the field as the field did not reach 50 meters. Transect walks were conducted between 8:00 and 16:30, low wind speeds and temperatures above 15 degrees C. Due Andean high altitude weather characteristics, during shorts periods of rain (minutes) or low clouds we stopped the survey and resumed it when weather allowed. Sites were surveyed thrice in random order. We surveyed all honeybees, bumblebees, solitary bees, hoverflies and other Diptera (e.g: Calliphoridae, Tachinidae, Sarcophagidae) that visited flowers inside Faba beans field and at the margin of the crop capturing the pollinators with a net. Handling time invested in capturing pollinators was discounted. In total, the sampling effort was 90 minutes. Pollinators that were easily identifiable (e.g. honeybees and Bombus funebris, medium and big hoverflies) were recorded without capturing when possible.","Round number: 3. Height above sea level:3628 m."
"Carlos_Zaragoza_Trello_Vicia_faba_Ecuador_2017","CUMBI6","transects","syrphids","family","syrphids",12,900,90,NA,"To explore pollinator biodiversity we selected 15 Faba bean fields that were at the same phenological stage and adjacent to a managed grassland (or a natural grassland area when it was not feasible). We conducted pollinator surveys along 25 days (from early July to middle August) by walking during 15 minutes along each of two 150 x 1 m standardized transects per site. One transect was located at the field edge while the central transect was located at 25 m inside the field from the edge. In 5 fields these transects were adapted to the middle of the field as the field did not reach 50 meters. Transect walks were conducted between 8:00 and 16:30, low wind speeds and temperatures above 15 degrees C. Due Andean high altitude weather characteristics, during shorts periods of rain (minutes) or low clouds we stopped the survey and resumed it when weather allowed. Sites were surveyed thrice in random order. We surveyed all honeybees, bumblebees, solitary bees, hoverflies and other Diptera (e.g: Calliphoridae, Tachinidae, Sarcophagidae) that visited flowers inside Faba beans field and at the margin of the crop capturing the pollinators with a net. Handling time invested in capturing pollinators was discounted. In total, the sampling effort was 90 minutes. Pollinators that were easily identifiable (e.g. honeybees and Bombus funebris, medium and big hoverflies) were recorded without capturing when possible.","Round number: 3. Height above sea level:3628 m."
"Carlos_Zaragoza_Trello_Vicia_faba_Ecuador_2017","CUMBI6","transects","syrphids","family","syrphids",7,900,90,NA,"To explore pollinator biodiversity we selected 15 Faba bean fields that were at the same phenological stage and adjacent to a managed grassland (or a natural grassland area when it was not feasible). We conducted pollinator surveys along 25 days (from early July to middle August) by walking during 15 minutes along each of two 150 x 1 m standardized transects per site. One transect was located at the field edge while the central transect was located at 25 m inside the field from the edge. In 5 fields these transects were adapted to the middle of the field as the field did not reach 50 meters. Transect walks were conducted between 8:00 and 16:30, low wind speeds and temperatures above 15 degrees C. Due Andean high altitude weather characteristics, during shorts periods of rain (minutes) or low clouds we stopped the survey and resumed it when weather allowed. Sites were surveyed thrice in random order. We surveyed all honeybees, bumblebees, solitary bees, hoverflies and other Diptera (e.g: Calliphoridae, Tachinidae, Sarcophagidae) that visited flowers inside Faba beans field and at the margin of the crop capturing the pollinators with a net. Handling time invested in capturing pollinators was discounted. In total, the sampling effort was 90 minutes. Pollinators that were easily identifiable (e.g. honeybees and Bombus funebris, medium and big hoverflies) were recorded without capturing when possible.","Round number: 3. Height above sea level:3628 m."
"Carlos_Zaragoza_Trello_Vicia_faba_Ecuador_2017","CUMBI6","transects","syrphids","family","syrphids",1,900,90,NA,"To explore pollinator biodiversity we selected 15 Faba bean fields that were at the same phenological stage and adjacent to a managed grassland (or a natural grassland area when it was not feasible). We conducted pollinator surveys along 25 days (from early July to middle August) by walking during 15 minutes along each of two 150 x 1 m standardized transects per site. One transect was located at the field edge while the central transect was located at 25 m inside the field from the edge. In 5 fields these transects were adapted to the middle of the field as the field did not reach 50 meters. Transect walks were conducted between 8:00 and 16:30, low wind speeds and temperatures above 15 degrees C. Due Andean high altitude weather characteristics, during shorts periods of rain (minutes) or low clouds we stopped the survey and resumed it when weather allowed. Sites were surveyed thrice in random order. We surveyed all honeybees, bumblebees, solitary bees, hoverflies and other Diptera (e.g: Calliphoridae, Tachinidae, Sarcophagidae) that visited flowers inside Faba beans field and at the margin of the crop capturing the pollinators with a net. Handling time invested in capturing pollinators was discounted. In total, the sampling effort was 90 minutes. Pollinators that were easily identifiable (e.g. honeybees and Bombus funebris, medium and big hoverflies) were recorded without capturing when possible.","Round number: 3. Height above sea level:3628 m."
"Carlos_Zaragoza_Trello_Vicia_faba_Ecuador_2017","CUMBI6","transects","syrphids","family","syrphids",1,900,90,NA,"To explore pollinator biodiversity we selected 15 Faba bean fields that were at the same phenological stage and adjacent to a managed grassland (or a natural grassland area when it was not feasible). We conducted pollinator surveys along 25 days (from early July to middle August) by walking during 15 minutes along each of two 150 x 1 m standardized transects per site. One transect was located at the field edge while the central transect was located at 25 m inside the field from the edge. In 5 fields these transects were adapted to the middle of the field as the field did not reach 50 meters. Transect walks were conducted between 8:00 and 16:30, low wind speeds and temperatures above 15 degrees C. Due Andean high altitude weather characteristics, during shorts periods of rain (minutes) or low clouds we stopped the survey and resumed it when weather allowed. Sites were surveyed thrice in random order. We surveyed all honeybees, bumblebees, solitary bees, hoverflies and other Diptera (e.g: Calliphoridae, Tachinidae, Sarcophagidae) that visited flowers inside Faba beans field and at the margin of the crop capturing the pollinators with a net. Handling time invested in capturing pollinators was discounted. In total, the sampling effort was 90 minutes. Pollinators that were easily identifiable (e.g. honeybees and Bombus funebris, medium and big hoverflies) were recorded without capturing when possible.","Round number: 3. Height above sea level:3628 m."
"Carlos_Zaragoza_Trello_Vicia_faba_Ecuador_2017","CUMBI6","transects","syrphids","family","syrphids",1,900,90,NA,"To explore pollinator biodiversity we selected 15 Faba bean fields that were at the same phenological stage and adjacent to a managed grassland (or a natural grassland area when it was not feasible). We conducted pollinator surveys along 25 days (from early July to middle August) by walking during 15 minutes along each of two 150 x 1 m standardized transects per site. One transect was located at the field edge while the central transect was located at 25 m inside the field from the edge. In 5 fields these transects were adapted to the middle of the field as the field did not reach 50 meters. Transect walks were conducted between 8:00 and 16:30, low wind speeds and temperatures above 15 degrees C. Due Andean high altitude weather characteristics, during shorts periods of rain (minutes) or low clouds we stopped the survey and resumed it when weather allowed. Sites were surveyed thrice in random order. We surveyed all honeybees, bumblebees, solitary bees, hoverflies and other Diptera (e.g: Calliphoridae, Tachinidae, Sarcophagidae) that visited flowers inside Faba beans field and at the margin of the crop capturing the pollinators with a net. Handling time invested in capturing pollinators was discounted. In total, the sampling effort was 90 minutes. Pollinators that were easily identifiable (e.g. honeybees and Bombus funebris, medium and big hoverflies) were recorded without capturing when possible.","Round number: 3. Height above sea level:3628 m."
"Carlos_Zaragoza_Trello_Vicia_faba_Ecuador_2017","CUMBI6","transects","syrphids","family","syrphids",1,900,90,NA,"To explore pollinator biodiversity we selected 15 Faba bean fields that were at the same phenological stage and adjacent to a managed grassland (or a natural grassland area when it was not feasible). We conducted pollinator surveys along 25 days (from early July to middle August) by walking during 15 minutes along each of two 150 x 1 m standardized transects per site. One transect was located at the field edge while the central transect was located at 25 m inside the field from the edge. In 5 fields these transects were adapted to the middle of the field as the field did not reach 50 meters. Transect walks were conducted between 8:00 and 16:30, low wind speeds and temperatures above 15 degrees C. Due Andean high altitude weather characteristics, during shorts periods of rain (minutes) or low clouds we stopped the survey and resumed it when weather allowed. Sites were surveyed thrice in random order. We surveyed all honeybees, bumblebees, solitary bees, hoverflies and other Diptera (e.g: Calliphoridae, Tachinidae, Sarcophagidae) that visited flowers inside Faba beans field and at the margin of the crop capturing the pollinators with a net. Handling time invested in capturing pollinators was discounted. In total, the sampling effort was 90 minutes. Pollinators that were easily identifiable (e.g. honeybees and Bombus funebris, medium and big hoverflies) were recorded without capturing when possible.","Round number: 3. Height above sea level:3628 m."
"Carlos_Zaragoza_Trello_Vicia_faba_Ecuador_2017","CUMBI6","transects","syrphids","family","syrphids",8,900,90,NA,"To explore pollinator biodiversity we selected 15 Faba bean fields that were at the same phenological stage and adjacent to a managed grassland (or a natural grassland area when it was not feasible). We conducted pollinator surveys along 25 days (from early July to middle August) by walking during 15 minutes along each of two 150 x 1 m standardized transects per site. One transect was located at the field edge while the central transect was located at 25 m inside the field from the edge. In 5 fields these transects were adapted to the middle of the field as the field did not reach 50 meters. Transect walks were conducted between 8:00 and 16:30, low wind speeds and temperatures above 15 degrees C. Due Andean high altitude weather characteristics, during shorts periods of rain (minutes) or low clouds we stopped the survey and resumed it when weather allowed. Sites were surveyed thrice in random order. We surveyed all honeybees, bumblebees, solitary bees, hoverflies and other Diptera (e.g: Calliphoridae, Tachinidae, Sarcophagidae) that visited flowers inside Faba beans field and at the margin of the crop capturing the pollinators with a net. Handling time invested in capturing pollinators was discounted. In total, the sampling effort was 90 minutes. Pollinators that were easily identifiable (e.g. honeybees and Bombus funebris, medium and big hoverflies) were recorded without capturing when possible.","Round number: 3. Height above sea level:3628 m."
"Carlos_Zaragoza_Trello_Vicia_faba_Ecuador_2017","CUMBI6","transects","syrphids","family","syrphids",3,900,90,NA,"To explore pollinator biodiversity we selected 15 Faba bean fields that were at the same phenological stage and adjacent to a managed grassland (or a natural grassland area when it was not feasible). We conducted pollinator surveys along 25 days (from early July to middle August) by walking during 15 minutes along each of two 150 x 1 m standardized transects per site. One transect was located at the field edge while the central transect was located at 25 m inside the field from the edge. In 5 fields these transects were adapted to the middle of the field as the field did not reach 50 meters. Transect walks were conducted between 8:00 and 16:30, low wind speeds and temperatures above 15 degrees C. Due Andean high altitude weather characteristics, during shorts periods of rain (minutes) or low clouds we stopped the survey and resumed it when weather allowed. Sites were surveyed thrice in random order. We surveyed all honeybees, bumblebees, solitary bees, hoverflies and other Diptera (e.g: Calliphoridae, Tachinidae, Sarcophagidae) that visited flowers inside Faba beans field and at the margin of the crop capturing the pollinators with a net. Handling time invested in capturing pollinators was discounted. In total, the sampling effort was 90 minutes. Pollinators that were easily identifiable (e.g. honeybees and Bombus funebris, medium and big hoverflies) were recorded without capturing when possible.","Round number: 2. Height above sea level:3628 m."
"Carlos_Zaragoza_Trello_Vicia_faba_Ecuador_2017","CUMBI6","transects","syrphids","family","syrphids",8,900,90,NA,"To explore pollinator biodiversity we selected 15 Faba bean fields that were at the same phenological stage and adjacent to a managed grassland (or a natural grassland area when it was not feasible). We conducted pollinator surveys along 25 days (from early July to middle August) by walking during 15 minutes along each of two 150 x 1 m standardized transects per site. One transect was located at the field edge while the central transect was located at 25 m inside the field from the edge. In 5 fields these transects were adapted to the middle of the field as the field did not reach 50 meters. Transect walks were conducted between 8:00 and 16:30, low wind speeds and temperatures above 15 degrees C. Due Andean high altitude weather characteristics, during shorts periods of rain (minutes) or low clouds we stopped the survey and resumed it when weather allowed. Sites were surveyed thrice in random order. We surveyed all honeybees, bumblebees, solitary bees, hoverflies and other Diptera (e.g: Calliphoridae, Tachinidae, Sarcophagidae) that visited flowers inside Faba beans field and at the margin of the crop capturing the pollinators with a net. Handling time invested in capturing pollinators was discounted. In total, the sampling effort was 90 minutes. Pollinators that were easily identifiable (e.g. honeybees and Bombus funebris, medium and big hoverflies) were recorded without capturing when possible.","Round number: 3. Height above sea level:3628 m."
"Carlos_Zaragoza_Trello_Vicia_faba_Ecuador_2017","CUMBI6","transects","syrphids","family","syrphids",11,900,90,NA,"To explore pollinator biodiversity we selected 15 Faba bean fields that were at the same phenological stage and adjacent to a managed grassland (or a natural grassland area when it was not feasible). We conducted pollinator surveys along 25 days (from early July to middle August) by walking during 15 minutes along each of two 150 x 1 m standardized transects per site. One transect was located at the field edge while the central transect was located at 25 m inside the field from the edge. In 5 fields these transects were adapted to the middle of the field as the field did not reach 50 meters. Transect walks were conducted between 8:00 and 16:30, low wind speeds and temperatures above 15 degrees C. Due Andean high altitude weather characteristics, during shorts periods of rain (minutes) or low clouds we stopped the survey and resumed it when weather allowed. Sites were surveyed thrice in random order. We surveyed all honeybees, bumblebees, solitary bees, hoverflies and other Diptera (e.g: Calliphoridae, Tachinidae, Sarcophagidae) that visited flowers inside Faba beans field and at the margin of the crop capturing the pollinators with a net. Handling time invested in capturing pollinators was discounted. In total, the sampling effort was 90 minutes. Pollinators that were easily identifiable (e.g. honeybees and Bombus funebris, medium and big hoverflies) were recorded without capturing when possible.","Round number: 2. Height above sea level:3628 m."
"Carlos_Zaragoza_Trello_Vicia_faba_Ecuador_2017","CUSU1","transects","syrphids","family","syrphids",1,900,90,NA,"To explore pollinator biodiversity we selected 15 Faba bean fields that were at the same phenological stage and adjacent to a managed grassland (or a natural grassland area when it was not feasible). We conducted pollinator surveys along 25 days (from early July to middle August) by walking during 15 minutes along each of two 150 x 1 m standardized transects per site. One transect was located at the field edge while the central transect was located at 25 m inside the field from the edge. In 5 fields these transects were adapted to the middle of the field as the field did not reach 50 meters. Transect walks were conducted between 8:00 and 16:30, low wind speeds and temperatures above 15 degrees C. Due Andean high altitude weather characteristics, during shorts periods of rain (minutes) or low clouds we stopped the survey and resumed it when weather allowed. Sites were surveyed thrice in random order. We surveyed all honeybees, bumblebees, solitary bees, hoverflies and other Diptera (e.g: Calliphoridae, Tachinidae, Sarcophagidae) that visited flowers inside Faba beans field and at the margin of the crop capturing the pollinators with a net. Handling time invested in capturing pollinators was discounted. In total, the sampling effort was 90 minutes. Pollinators that were easily identifiable (e.g. honeybees and Bombus funebris, medium and big hoverflies) were recorded without capturing when possible.","Round number: 2. Height above sea level:3086 m."
"Carlos_Zaragoza_Trello_Vicia_faba_Ecuador_2017","CUSU1","transects","syrphids","family","syrphids",1,900,90,NA,"To explore pollinator biodiversity we selected 15 Faba bean fields that were at the same phenological stage and adjacent to a managed grassland (or a natural grassland area when it was not feasible). We conducted pollinator surveys along 25 days (from early July to middle August) by walking during 15 minutes along each of two 150 x 1 m standardized transects per site. One transect was located at the field edge while the central transect was located at 25 m inside the field from the edge. In 5 fields these transects were adapted to the middle of the field as the field did not reach 50 meters. Transect walks were conducted between 8:00 and 16:30, low wind speeds and temperatures above 15 degrees C. Due Andean high altitude weather characteristics, during shorts periods of rain (minutes) or low clouds we stopped the survey and resumed it when weather allowed. Sites were surveyed thrice in random order. We surveyed all honeybees, bumblebees, solitary bees, hoverflies and other Diptera (e.g: Calliphoridae, Tachinidae, Sarcophagidae) that visited flowers inside Faba beans field and at the margin of the crop capturing the pollinators with a net. Handling time invested in capturing pollinators was discounted. In total, the sampling effort was 90 minutes. Pollinators that were easily identifiable (e.g. honeybees and Bombus funebris, medium and big hoverflies) were recorded without capturing when possible.","Round number: 2. Height above sea level:3086 m."
"Carlos_Zaragoza_Trello_Vicia_faba_Ecuador_2017","CUSU1","transects","syrphids","family","syrphids",1,900,90,NA,"To explore pollinator biodiversity we selected 15 Faba bean fields that were at the same phenological stage and adjacent to a managed grassland (or a natural grassland area when it was not feasible). We conducted pollinator surveys along 25 days (from early July to middle August) by walking during 15 minutes along each of two 150 x 1 m standardized transects per site. One transect was located at the field edge while the central transect was located at 25 m inside the field from the edge. In 5 fields these transects were adapted to the middle of the field as the field did not reach 50 meters. Transect walks were conducted between 8:00 and 16:30, low wind speeds and temperatures above 15 degrees C. Due Andean high altitude weather characteristics, during shorts periods of rain (minutes) or low clouds we stopped the survey and resumed it when weather allowed. Sites were surveyed thrice in random order. We surveyed all honeybees, bumblebees, solitary bees, hoverflies and other Diptera (e.g: Calliphoridae, Tachinidae, Sarcophagidae) that visited flowers inside Faba beans field and at the margin of the crop capturing the pollinators with a net. Handling time invested in capturing pollinators was discounted. In total, the sampling effort was 90 minutes. Pollinators that were easily identifiable (e.g. honeybees and Bombus funebris, medium and big hoverflies) were recorded without capturing when possible.","Round number: 2. Height above sea level:3086 m."
"Carlos_Zaragoza_Trello_Vicia_faba_Ecuador_2017","CUSU1","transects","syrphids","family","syrphids",1,900,90,NA,"To explore pollinator biodiversity we selected 15 Faba bean fields that were at the same phenological stage and adjacent to a managed grassland (or a natural grassland area when it was not feasible). We conducted pollinator surveys along 25 days (from early July to middle August) by walking during 15 minutes along each of two 150 x 1 m standardized transects per site. One transect was located at the field edge while the central transect was located at 25 m inside the field from the edge. In 5 fields these transects were adapted to the middle of the field as the field did not reach 50 meters. Transect walks were conducted between 8:00 and 16:30, low wind speeds and temperatures above 15 degrees C. Due Andean high altitude weather characteristics, during shorts periods of rain (minutes) or low clouds we stopped the survey and resumed it when weather allowed. Sites were surveyed thrice in random order. We surveyed all honeybees, bumblebees, solitary bees, hoverflies and other Diptera (e.g: Calliphoridae, Tachinidae, Sarcophagidae) that visited flowers inside Faba beans field and at the margin of the crop capturing the pollinators with a net. Handling time invested in capturing pollinators was discounted. In total, the sampling effort was 90 minutes. Pollinators that were easily identifiable (e.g. honeybees and Bombus funebris, medium and big hoverflies) were recorded without capturing when possible.","Round number: 1. Height above sea level:3086 m."
"Carlos_Zaragoza_Trello_Vicia_faba_Ecuador_2017","CUSU1","transects","syrphids","family","syrphids",1,900,90,NA,"To explore pollinator biodiversity we selected 15 Faba bean fields that were at the same phenological stage and adjacent to a managed grassland (or a natural grassland area when it was not feasible). We conducted pollinator surveys along 25 days (from early July to middle August) by walking during 15 minutes along each of two 150 x 1 m standardized transects per site. One transect was located at the field edge while the central transect was located at 25 m inside the field from the edge. In 5 fields these transects were adapted to the middle of the field as the field did not reach 50 meters. Transect walks were conducted between 8:00 and 16:30, low wind speeds and temperatures above 15 degrees C. Due Andean high altitude weather characteristics, during shorts periods of rain (minutes) or low clouds we stopped the survey and resumed it when weather allowed. Sites were surveyed thrice in random order. We surveyed all honeybees, bumblebees, solitary bees, hoverflies and other Diptera (e.g: Calliphoridae, Tachinidae, Sarcophagidae) that visited flowers inside Faba beans field and at the margin of the crop capturing the pollinators with a net. Handling time invested in capturing pollinators was discounted. In total, the sampling effort was 90 minutes. Pollinators that were easily identifiable (e.g. honeybees and Bombus funebris, medium and big hoverflies) were recorded without capturing when possible.","Round number: 1. Height above sea level:3086 m."
"Carlos_Zaragoza_Trello_Vicia_faba_Ecuador_2017","CUSU1","transects","syrphids","family","syrphids",1,900,90,NA,"To explore pollinator biodiversity we selected 15 Faba bean fields that were at the same phenological stage and adjacent to a managed grassland (or a natural grassland area when it was not feasible). We conducted pollinator surveys along 25 days (from early July to middle August) by walking during 15 minutes along each of two 150 x 1 m standardized transects per site. One transect was located at the field edge while the central transect was located at 25 m inside the field from the edge. In 5 fields these transects were adapted to the middle of the field as the field did not reach 50 meters. Transect walks were conducted between 8:00 and 16:30, low wind speeds and temperatures above 15 degrees C. Due Andean high altitude weather characteristics, during shorts periods of rain (minutes) or low clouds we stopped the survey and resumed it when weather allowed. Sites were surveyed thrice in random order. We surveyed all honeybees, bumblebees, solitary bees, hoverflies and other Diptera (e.g: Calliphoridae, Tachinidae, Sarcophagidae) that visited flowers inside Faba beans field and at the margin of the crop capturing the pollinators with a net. Handling time invested in capturing pollinators was discounted. In total, the sampling effort was 90 minutes. Pollinators that were easily identifiable (e.g. honeybees and Bombus funebris, medium and big hoverflies) were recorded without capturing when possible.","Round number: 1. Height above sea level:3086 m."
"Carlos_Zaragoza_Trello_Vicia_faba_Ecuador_2017","CUSU1","transects","syrphids","family","syrphids",1,900,90,NA,"To explore pollinator biodiversity we selected 15 Faba bean fields that were at the same phenological stage and adjacent to a managed grassland (or a natural grassland area when it was not feasible). We conducted pollinator surveys along 25 days (from early July to middle August) by walking during 15 minutes along each of two 150 x 1 m standardized transects per site. One transect was located at the field edge while the central transect was located at 25 m inside the field from the edge. In 5 fields these transects were adapted to the middle of the field as the field did not reach 50 meters. Transect walks were conducted between 8:00 and 16:30, low wind speeds and temperatures above 15 degrees C. Due Andean high altitude weather characteristics, during shorts periods of rain (minutes) or low clouds we stopped the survey and resumed it when weather allowed. Sites were surveyed thrice in random order. We surveyed all honeybees, bumblebees, solitary bees, hoverflies and other Diptera (e.g: Calliphoridae, Tachinidae, Sarcophagidae) that visited flowers inside Faba beans field and at the margin of the crop capturing the pollinators with a net. Handling time invested in capturing pollinators was discounted. In total, the sampling effort was 90 minutes. Pollinators that were easily identifiable (e.g. honeybees and Bombus funebris, medium and big hoverflies) were recorded without capturing when possible.","Round number: 1. Height above sea level:3086 m."
"Carlos_Zaragoza_Trello_Vicia_faba_Ecuador_2017","CUSU1","transects","syrphids","family","syrphids",1,900,90,NA,"To explore pollinator biodiversity we selected 15 Faba bean fields that were at the same phenological stage and adjacent to a managed grassland (or a natural grassland area when it was not feasible). We conducted pollinator surveys along 25 days (from early July to middle August) by walking during 15 minutes along each of two 150 x 1 m standardized transects per site. One transect was located at the field edge while the central transect was located at 25 m inside the field from the edge. In 5 fields these transects were adapted to the middle of the field as the field did not reach 50 meters. Transect walks were conducted between 8:00 and 16:30, low wind speeds and temperatures above 15 degrees C. Due Andean high altitude weather characteristics, during shorts periods of rain (minutes) or low clouds we stopped the survey and resumed it when weather allowed. Sites were surveyed thrice in random order. We surveyed all honeybees, bumblebees, solitary bees, hoverflies and other Diptera (e.g: Calliphoridae, Tachinidae, Sarcophagidae) that visited flowers inside Faba beans field and at the margin of the crop capturing the pollinators with a net. Handling time invested in capturing pollinators was discounted. In total, the sampling effort was 90 minutes. Pollinators that were easily identifiable (e.g. honeybees and Bombus funebris, medium and big hoverflies) were recorded without capturing when possible.","Round number: 1. Height above sea level:3086 m."
"Carlos_Zaragoza_Trello_Vicia_faba_Ecuador_2017","CUSU1","transects","syrphids","family","syrphids",1,900,90,NA,"To explore pollinator biodiversity we selected 15 Faba bean fields that were at the same phenological stage and adjacent to a managed grassland (or a natural grassland area when it was not feasible). We conducted pollinator surveys along 25 days (from early July to middle August) by walking during 15 minutes along each of two 150 x 1 m standardized transects per site. One transect was located at the field edge while the central transect was located at 25 m inside the field from the edge. In 5 fields these transects were adapted to the middle of the field as the field did not reach 50 meters. Transect walks were conducted between 8:00 and 16:30, low wind speeds and temperatures above 15 degrees C. Due Andean high altitude weather characteristics, during shorts periods of rain (minutes) or low clouds we stopped the survey and resumed it when weather allowed. Sites were surveyed thrice in random order. We surveyed all honeybees, bumblebees, solitary bees, hoverflies and other Diptera (e.g: Calliphoridae, Tachinidae, Sarcophagidae) that visited flowers inside Faba beans field and at the margin of the crop capturing the pollinators with a net. Handling time invested in capturing pollinators was discounted. In total, the sampling effort was 90 minutes. Pollinators that were easily identifiable (e.g. honeybees and Bombus funebris, medium and big hoverflies) were recorded without capturing when possible.","Round number: 1. Height above sea level:3086 m."
"Carlos_Zaragoza_Trello_Vicia_faba_Ecuador_2017","CUSU1","transects","syrphids","family","syrphids",1,900,90,NA,"To explore pollinator biodiversity we selected 15 Faba bean fields that were at the same phenological stage and adjacent to a managed grassland (or a natural grassland area when it was not feasible). We conducted pollinator surveys along 25 days (from early July to middle August) by walking during 15 minutes along each of two 150 x 1 m standardized transects per site. One transect was located at the field edge while the central transect was located at 25 m inside the field from the edge. In 5 fields these transects were adapted to the middle of the field as the field did not reach 50 meters. Transect walks were conducted between 8:00 and 16:30, low wind speeds and temperatures above 15 degrees C. Due Andean high altitude weather characteristics, during shorts periods of rain (minutes) or low clouds we stopped the survey and resumed it when weather allowed. Sites were surveyed thrice in random order. We surveyed all honeybees, bumblebees, solitary bees, hoverflies and other Diptera (e.g: Calliphoridae, Tachinidae, Sarcophagidae) that visited flowers inside Faba beans field and at the margin of the crop capturing the pollinators with a net. Handling time invested in capturing pollinators was discounted. In total, the sampling effort was 90 minutes. Pollinators that were easily identifiable (e.g. honeybees and Bombus funebris, medium and big hoverflies) were recorded without capturing when possible.","Round number: 1. Height above sea level:3086 m."
"Carlos_Zaragoza_Trello_Vicia_faba_Ecuador_2017","CUSU1","transects","syrphids","family","syrphids",1,900,90,NA,"To explore pollinator biodiversity we selected 15 Faba bean fields that were at the same phenological stage and adjacent to a managed grassland (or a natural grassland area when it was not feasible). We conducted pollinator surveys along 25 days (from early July to middle August) by walking during 15 minutes along each of two 150 x 1 m standardized transects per site. One transect was located at the field edge while the central transect was located at 25 m inside the field from the edge. In 5 fields these transects were adapted to the middle of the field as the field did not reach 50 meters. Transect walks were conducted between 8:00 and 16:30, low wind speeds and temperatures above 15 degrees C. Due Andean high altitude weather characteristics, during shorts periods of rain (minutes) or low clouds we stopped the survey and resumed it when weather allowed. Sites were surveyed thrice in random order. We surveyed all honeybees, bumblebees, solitary bees, hoverflies and other Diptera (e.g: Calliphoridae, Tachinidae, Sarcophagidae) that visited flowers inside Faba beans field and at the margin of the crop capturing the pollinators with a net. Handling time invested in capturing pollinators was discounted. In total, the sampling effort was 90 minutes. Pollinators that were easily identifiable (e.g. honeybees and Bombus funebris, medium and big hoverflies) were recorded without capturing when possible.","Round number: 1. Height above sea level:3086 m."
"Carlos_Zaragoza_Trello_Vicia_faba_Ecuador_2017","CUSU1","transects","syrphids","family","syrphids",1,900,90,NA,"To explore pollinator biodiversity we selected 15 Faba bean fields that were at the same phenological stage and adjacent to a managed grassland (or a natural grassland area when it was not feasible). We conducted pollinator surveys along 25 days (from early July to middle August) by walking during 15 minutes along each of two 150 x 1 m standardized transects per site. One transect was located at the field edge while the central transect was located at 25 m inside the field from the edge. In 5 fields these transects were adapted to the middle of the field as the field did not reach 50 meters. Transect walks were conducted between 8:00 and 16:30, low wind speeds and temperatures above 15 degrees C. Due Andean high altitude weather characteristics, during shorts periods of rain (minutes) or low clouds we stopped the survey and resumed it when weather allowed. Sites were surveyed thrice in random order. We surveyed all honeybees, bumblebees, solitary bees, hoverflies and other Diptera (e.g: Calliphoridae, Tachinidae, Sarcophagidae) that visited flowers inside Faba beans field and at the margin of the crop capturing the pollinators with a net. Handling time invested in capturing pollinators was discounted. In total, the sampling effort was 90 minutes. Pollinators that were easily identifiable (e.g. honeybees and Bombus funebris, medium and big hoverflies) were recorded without capturing when possible.","Round number: 1. Height above sea level:3086 m."
"Carlos_Zaragoza_Trello_Vicia_faba_Ecuador_2017","CUSU1","transects","syrphids","family","syrphids",1,900,90,NA,"To explore pollinator biodiversity we selected 15 Faba bean fields that were at the same phenological stage and adjacent to a managed grassland (or a natural grassland area when it was not feasible). We conducted pollinator surveys along 25 days (from early July to middle August) by walking during 15 minutes along each of two 150 x 1 m standardized transects per site. One transect was located at the field edge while the central transect was located at 25 m inside the field from the edge. In 5 fields these transects were adapted to the middle of the field as the field did not reach 50 meters. Transect walks were conducted between 8:00 and 16:30, low wind speeds and temperatures above 15 degrees C. Due Andean high altitude weather characteristics, during shorts periods of rain (minutes) or low clouds we stopped the survey and resumed it when weather allowed. Sites were surveyed thrice in random order. We surveyed all honeybees, bumblebees, solitary bees, hoverflies and other Diptera (e.g: Calliphoridae, Tachinidae, Sarcophagidae) that visited flowers inside Faba beans field and at the margin of the crop capturing the pollinators with a net. Handling time invested in capturing pollinators was discounted. In total, the sampling effort was 90 minutes. Pollinators that were easily identifiable (e.g. honeybees and Bombus funebris, medium and big hoverflies) were recorded without capturing when possible.","Round number: 1. Height above sea level:3086 m."
"Carlos_Zaragoza_Trello_Vicia_faba_Ecuador_2017","CUSU1","transects","syrphids","family","syrphids",1,900,90,NA,"To explore pollinator biodiversity we selected 15 Faba bean fields that were at the same phenological stage and adjacent to a managed grassland (or a natural grassland area when it was not feasible). We conducted pollinator surveys along 25 days (from early July to middle August) by walking during 15 minutes along each of two 150 x 1 m standardized transects per site. One transect was located at the field edge while the central transect was located at 25 m inside the field from the edge. In 5 fields these transects were adapted to the middle of the field as the field did not reach 50 meters. Transect walks were conducted between 8:00 and 16:30, low wind speeds and temperatures above 15 degrees C. Due Andean high altitude weather characteristics, during shorts periods of rain (minutes) or low clouds we stopped the survey and resumed it when weather allowed. Sites were surveyed thrice in random order. We surveyed all honeybees, bumblebees, solitary bees, hoverflies and other Diptera (e.g: Calliphoridae, Tachinidae, Sarcophagidae) that visited flowers inside Faba beans field and at the margin of the crop capturing the pollinators with a net. Handling time invested in capturing pollinators was discounted. In total, the sampling effort was 90 minutes. Pollinators that were easily identifiable (e.g. honeybees and Bombus funebris, medium and big hoverflies) were recorded without capturing when possible.","Round number: 1. Height above sea level:3086 m."
"Carlos_Zaragoza_Trello_Vicia_faba_Ecuador_2017","CUSU1","transects","syrphids","family","syrphids",1,900,90,NA,"To explore pollinator biodiversity we selected 15 Faba bean fields that were at the same phenological stage and adjacent to a managed grassland (or a natural grassland area when it was not feasible). We conducted pollinator surveys along 25 days (from early July to middle August) by walking during 15 minutes along each of two 150 x 1 m standardized transects per site. One transect was located at the field edge while the central transect was located at 25 m inside the field from the edge. In 5 fields these transects were adapted to the middle of the field as the field did not reach 50 meters. Transect walks were conducted between 8:00 and 16:30, low wind speeds and temperatures above 15 degrees C. Due Andean high altitude weather characteristics, during shorts periods of rain (minutes) or low clouds we stopped the survey and resumed it when weather allowed. Sites were surveyed thrice in random order. We surveyed all honeybees, bumblebees, solitary bees, hoverflies and other Diptera (e.g: Calliphoridae, Tachinidae, Sarcophagidae) that visited flowers inside Faba beans field and at the margin of the crop capturing the pollinators with a net. Handling time invested in capturing pollinators was discounted. In total, the sampling effort was 90 minutes. Pollinators that were easily identifiable (e.g. honeybees and Bombus funebris, medium and big hoverflies) were recorded without capturing when possible.","Round number: 1. Height above sea level:3086 m."
"Carlos_Zaragoza_Trello_Vicia_faba_Ecuador_2017","CUSU1","transects","syrphids","family","syrphids",1,900,90,NA,"To explore pollinator biodiversity we selected 15 Faba bean fields that were at the same phenological stage and adjacent to a managed grassland (or a natural grassland area when it was not feasible). We conducted pollinator surveys along 25 days (from early July to middle August) by walking during 15 minutes along each of two 150 x 1 m standardized transects per site. One transect was located at the field edge while the central transect was located at 25 m inside the field from the edge. In 5 fields these transects were adapted to the middle of the field as the field did not reach 50 meters. Transect walks were conducted between 8:00 and 16:30, low wind speeds and temperatures above 15 degrees C. Due Andean high altitude weather characteristics, during shorts periods of rain (minutes) or low clouds we stopped the survey and resumed it when weather allowed. Sites were surveyed thrice in random order. We surveyed all honeybees, bumblebees, solitary bees, hoverflies and other Diptera (e.g: Calliphoridae, Tachinidae, Sarcophagidae) that visited flowers inside Faba beans field and at the margin of the crop capturing the pollinators with a net. Handling time invested in capturing pollinators was discounted. In total, the sampling effort was 90 minutes. Pollinators that were easily identifiable (e.g. honeybees and Bombus funebris, medium and big hoverflies) were recorded without capturing when possible.","Round number: 1. Height above sea level:3086 m."
"Carlos_Zaragoza_Trello_Vicia_faba_Ecuador_2017","CUSU1","transects","syrphids","family","syrphids",1,900,90,NA,"To explore pollinator biodiversity we selected 15 Faba bean fields that were at the same phenological stage and adjacent to a managed grassland (or a natural grassland area when it was not feasible). We conducted pollinator surveys along 25 days (from early July to middle August) by walking during 15 minutes along each of two 150 x 1 m standardized transects per site. One transect was located at the field edge while the central transect was located at 25 m inside the field from the edge. In 5 fields these transects were adapted to the middle of the field as the field did not reach 50 meters. Transect walks were conducted between 8:00 and 16:30, low wind speeds and temperatures above 15 degrees C. Due Andean high altitude weather characteristics, during shorts periods of rain (minutes) or low clouds we stopped the survey and resumed it when weather allowed. Sites were surveyed thrice in random order. We surveyed all honeybees, bumblebees, solitary bees, hoverflies and other Diptera (e.g: Calliphoridae, Tachinidae, Sarcophagidae) that visited flowers inside Faba beans field and at the margin of the crop capturing the pollinators with a net. Handling time invested in capturing pollinators was discounted. In total, the sampling effort was 90 minutes. Pollinators that were easily identifiable (e.g. honeybees and Bombus funebris, medium and big hoverflies) were recorded without capturing when possible.","Round number: NA. Height above sea level:3086 m."
"Carlos_Zaragoza_Trello_Vicia_faba_Ecuador_2017","CUSU1","transects","syrphids","family","syrphids",1,900,90,NA,"To explore pollinator biodiversity we selected 15 Faba bean fields that were at the same phenological stage and adjacent to a managed grassland (or a natural grassland area when it was not feasible). We conducted pollinator surveys along 25 days (from early July to middle August) by walking during 15 minutes along each of two 150 x 1 m standardized transects per site. One transect was located at the field edge while the central transect was located at 25 m inside the field from the edge. In 5 fields these transects were adapted to the middle of the field as the field did not reach 50 meters. Transect walks were conducted between 8:00 and 16:30, low wind speeds and temperatures above 15 degrees C. Due Andean high altitude weather characteristics, during shorts periods of rain (minutes) or low clouds we stopped the survey and resumed it when weather allowed. Sites were surveyed thrice in random order. We surveyed all honeybees, bumblebees, solitary bees, hoverflies and other Diptera (e.g: Calliphoridae, Tachinidae, Sarcophagidae) that visited flowers inside Faba beans field and at the margin of the crop capturing the pollinators with a net. Handling time invested in capturing pollinators was discounted. In total, the sampling effort was 90 minutes. Pollinators that were easily identifiable (e.g. honeybees and Bombus funebris, medium and big hoverflies) were recorded without capturing when possible.","Round number: NA. Height above sea level:3086 m."
"Carlos_Zaragoza_Trello_Vicia_faba_Ecuador_2017","CUSU1","transects","syrphids","family","syrphids",4,900,90,NA,"To explore pollinator biodiversity we selected 15 Faba bean fields that were at the same phenological stage and adjacent to a managed grassland (or a natural grassland area when it was not feasible). We conducted pollinator surveys along 25 days (from early July to middle August) by walking during 15 minutes along each of two 150 x 1 m standardized transects per site. One transect was located at the field edge while the central transect was located at 25 m inside the field from the edge. In 5 fields these transects were adapted to the middle of the field as the field did not reach 50 meters. Transect walks were conducted between 8:00 and 16:30, low wind speeds and temperatures above 15 degrees C. Due Andean high altitude weather characteristics, during shorts periods of rain (minutes) or low clouds we stopped the survey and resumed it when weather allowed. Sites were surveyed thrice in random order. We surveyed all honeybees, bumblebees, solitary bees, hoverflies and other Diptera (e.g: Calliphoridae, Tachinidae, Sarcophagidae) that visited flowers inside Faba beans field and at the margin of the crop capturing the pollinators with a net. Handling time invested in capturing pollinators was discounted. In total, the sampling effort was 90 minutes. Pollinators that were easily identifiable (e.g. honeybees and Bombus funebris, medium and big hoverflies) were recorded without capturing when possible.","Round number: 3. Height above sea level:3086 m."
"Carlos_Zaragoza_Trello_Vicia_faba_Ecuador_2017","CUSU1","transects","syrphids","family","syrphids",11,900,90,NA,"To explore pollinator biodiversity we selected 15 Faba bean fields that were at the same phenological stage and adjacent to a managed grassland (or a natural grassland area when it was not feasible). We conducted pollinator surveys along 25 days (from early July to middle August) by walking during 15 minutes along each of two 150 x 1 m standardized transects per site. One transect was located at the field edge while the central transect was located at 25 m inside the field from the edge. In 5 fields these transects were adapted to the middle of the field as the field did not reach 50 meters. Transect walks were conducted between 8:00 and 16:30, low wind speeds and temperatures above 15 degrees C. Due Andean high altitude weather characteristics, during shorts periods of rain (minutes) or low clouds we stopped the survey and resumed it when weather allowed. Sites were surveyed thrice in random order. We surveyed all honeybees, bumblebees, solitary bees, hoverflies and other Diptera (e.g: Calliphoridae, Tachinidae, Sarcophagidae) that visited flowers inside Faba beans field and at the margin of the crop capturing the pollinators with a net. Handling time invested in capturing pollinators was discounted. In total, the sampling effort was 90 minutes. Pollinators that were easily identifiable (e.g. honeybees and Bombus funebris, medium and big hoverflies) were recorded without capturing when possible.","Round number: NA. Height above sea level:3086 m."
"Carlos_Zaragoza_Trello_Vicia_faba_Ecuador_2017","CUSU1","transects","syrphids","family","syrphids",3,900,90,NA,"To explore pollinator biodiversity we selected 15 Faba bean fields that were at the same phenological stage and adjacent to a managed grassland (or a natural grassland area when it was not feasible). We conducted pollinator surveys along 25 days (from early July to middle August) by walking during 15 minutes along each of two 150 x 1 m standardized transects per site. One transect was located at the field edge while the central transect was located at 25 m inside the field from the edge. In 5 fields these transects were adapted to the middle of the field as the field did not reach 50 meters. Transect walks were conducted between 8:00 and 16:30, low wind speeds and temperatures above 15 degrees C. Due Andean high altitude weather characteristics, during shorts periods of rain (minutes) or low clouds we stopped the survey and resumed it when weather allowed. Sites were surveyed thrice in random order. We surveyed all honeybees, bumblebees, solitary bees, hoverflies and other Diptera (e.g: Calliphoridae, Tachinidae, Sarcophagidae) that visited flowers inside Faba beans field and at the margin of the crop capturing the pollinators with a net. Handling time invested in capturing pollinators was discounted. In total, the sampling effort was 90 minutes. Pollinators that were easily identifiable (e.g. honeybees and Bombus funebris, medium and big hoverflies) were recorded without capturing when possible.","Round number: 3. Height above sea level:3086 m."
"Carlos_Zaragoza_Trello_Vicia_faba_Ecuador_2017","CUSU1","transects","syrphids","family","syrphids",6,900,90,NA,"To explore pollinator biodiversity we selected 15 Faba bean fields that were at the same phenological stage and adjacent to a managed grassland (or a natural grassland area when it was not feasible). We conducted pollinator surveys along 25 days (from early July to middle August) by walking during 15 minutes along each of two 150 x 1 m standardized transects per site. One transect was located at the field edge while the central transect was located at 25 m inside the field from the edge. In 5 fields these transects were adapted to the middle of the field as the field did not reach 50 meters. Transect walks were conducted between 8:00 and 16:30, low wind speeds and temperatures above 15 degrees C. Due Andean high altitude weather characteristics, during shorts periods of rain (minutes) or low clouds we stopped the survey and resumed it when weather allowed. Sites were surveyed thrice in random order. We surveyed all honeybees, bumblebees, solitary bees, hoverflies and other Diptera (e.g: Calliphoridae, Tachinidae, Sarcophagidae) that visited flowers inside Faba beans field and at the margin of the crop capturing the pollinators with a net. Handling time invested in capturing pollinators was discounted. In total, the sampling effort was 90 minutes. Pollinators that were easily identifiable (e.g. honeybees and Bombus funebris, medium and big hoverflies) were recorded without capturing when possible.","Round number: NA. Height above sea level:3086 m."
"Carlos_Zaragoza_Trello_Vicia_faba_Ecuador_2017","CUSU1","transects","syrphids","family","syrphids",1,900,90,NA,"To explore pollinator biodiversity we selected 15 Faba bean fields that were at the same phenological stage and adjacent to a managed grassland (or a natural grassland area when it was not feasible). We conducted pollinator surveys along 25 days (from early July to middle August) by walking during 15 minutes along each of two 150 x 1 m standardized transects per site. One transect was located at the field edge while the central transect was located at 25 m inside the field from the edge. In 5 fields these transects were adapted to the middle of the field as the field did not reach 50 meters. Transect walks were conducted between 8:00 and 16:30, low wind speeds and temperatures above 15 degrees C. Due Andean high altitude weather characteristics, during shorts periods of rain (minutes) or low clouds we stopped the survey and resumed it when weather allowed. Sites were surveyed thrice in random order. We surveyed all honeybees, bumblebees, solitary bees, hoverflies and other Diptera (e.g: Calliphoridae, Tachinidae, Sarcophagidae) that visited flowers inside Faba beans field and at the margin of the crop capturing the pollinators with a net. Handling time invested in capturing pollinators was discounted. In total, the sampling effort was 90 minutes. Pollinators that were easily identifiable (e.g. honeybees and Bombus funebris, medium and big hoverflies) were recorded without capturing when possible.","Round number: 3. Height above sea level:3086 m."
"Carlos_Zaragoza_Trello_Vicia_faba_Ecuador_2017","CUSU2","transects","syrphids","family","syrphids",1,900,90,NA,"To explore pollinator biodiversity we selected 15 Faba bean fields that were at the same phenological stage and adjacent to a managed grassland (or a natural grassland area when it was not feasible). We conducted pollinator surveys along 25 days (from early July to middle August) by walking during 15 minutes along each of two 150 x 1 m standardized transects per site. One transect was located at the field edge while the central transect was located at 25 m inside the field from the edge. In 5 fields these transects were adapted to the middle of the field as the field did not reach 50 meters. Transect walks were conducted between 8:00 and 16:30, low wind speeds and temperatures above 15 degrees C. Due Andean high altitude weather characteristics, during shorts periods of rain (minutes) or low clouds we stopped the survey and resumed it when weather allowed. Sites were surveyed thrice in random order. We surveyed all honeybees, bumblebees, solitary bees, hoverflies and other Diptera (e.g: Calliphoridae, Tachinidae, Sarcophagidae) that visited flowers inside Faba beans field and at the margin of the crop capturing the pollinators with a net. Handling time invested in capturing pollinators was discounted. In total, the sampling effort was 90 minutes. Pollinators that were easily identifiable (e.g. honeybees and Bombus funebris, medium and big hoverflies) were recorded without capturing when possible.","Round number: 2. Height above sea level:3500 m."
"Carlos_Zaragoza_Trello_Vicia_faba_Ecuador_2017","CUSU2","transects","syrphids","family","syrphids",1,900,90,NA,"To explore pollinator biodiversity we selected 15 Faba bean fields that were at the same phenological stage and adjacent to a managed grassland (or a natural grassland area when it was not feasible). We conducted pollinator surveys along 25 days (from early July to middle August) by walking during 15 minutes along each of two 150 x 1 m standardized transects per site. One transect was located at the field edge while the central transect was located at 25 m inside the field from the edge. In 5 fields these transects were adapted to the middle of the field as the field did not reach 50 meters. Transect walks were conducted between 8:00 and 16:30, low wind speeds and temperatures above 15 degrees C. Due Andean high altitude weather characteristics, during shorts periods of rain (minutes) or low clouds we stopped the survey and resumed it when weather allowed. Sites were surveyed thrice in random order. We surveyed all honeybees, bumblebees, solitary bees, hoverflies and other Diptera (e.g: Calliphoridae, Tachinidae, Sarcophagidae) that visited flowers inside Faba beans field and at the margin of the crop capturing the pollinators with a net. Handling time invested in capturing pollinators was discounted. In total, the sampling effort was 90 minutes. Pollinators that were easily identifiable (e.g. honeybees and Bombus funebris, medium and big hoverflies) were recorded without capturing when possible.","Round number: 3. Height above sea level:3500 m."
"Carlos_Zaragoza_Trello_Vicia_faba_Ecuador_2017","CUSU2","transects","syrphids","family","syrphids",1,900,90,NA,"To explore pollinator biodiversity we selected 15 Faba bean fields that were at the same phenological stage and adjacent to a managed grassland (or a natural grassland area when it was not feasible). We conducted pollinator surveys along 25 days (from early July to middle August) by walking during 15 minutes along each of two 150 x 1 m standardized transects per site. One transect was located at the field edge while the central transect was located at 25 m inside the field from the edge. In 5 fields these transects were adapted to the middle of the field as the field did not reach 50 meters. Transect walks were conducted between 8:00 and 16:30, low wind speeds and temperatures above 15 degrees C. Due Andean high altitude weather characteristics, during shorts periods of rain (minutes) or low clouds we stopped the survey and resumed it when weather allowed. Sites were surveyed thrice in random order. We surveyed all honeybees, bumblebees, solitary bees, hoverflies and other Diptera (e.g: Calliphoridae, Tachinidae, Sarcophagidae) that visited flowers inside Faba beans field and at the margin of the crop capturing the pollinators with a net. Handling time invested in capturing pollinators was discounted. In total, the sampling effort was 90 minutes. Pollinators that were easily identifiable (e.g. honeybees and Bombus funebris, medium and big hoverflies) were recorded without capturing when possible.","Round number: 1. Height above sea level:3500 m."
"Carlos_Zaragoza_Trello_Vicia_faba_Ecuador_2017","CUSU2","transects","syrphids","family","syrphids",1,900,90,NA,"To explore pollinator biodiversity we selected 15 Faba bean fields that were at the same phenological stage and adjacent to a managed grassland (or a natural grassland area when it was not feasible). We conducted pollinator surveys along 25 days (from early July to middle August) by walking during 15 minutes along each of two 150 x 1 m standardized transects per site. One transect was located at the field edge while the central transect was located at 25 m inside the field from the edge. In 5 fields these transects were adapted to the middle of the field as the field did not reach 50 meters. Transect walks were conducted between 8:00 and 16:30, low wind speeds and temperatures above 15 degrees C. Due Andean high altitude weather characteristics, during shorts periods of rain (minutes) or low clouds we stopped the survey and resumed it when weather allowed. Sites were surveyed thrice in random order. We surveyed all honeybees, bumblebees, solitary bees, hoverflies and other Diptera (e.g: Calliphoridae, Tachinidae, Sarcophagidae) that visited flowers inside Faba beans field and at the margin of the crop capturing the pollinators with a net. Handling time invested in capturing pollinators was discounted. In total, the sampling effort was 90 minutes. Pollinators that were easily identifiable (e.g. honeybees and Bombus funebris, medium and big hoverflies) were recorded without capturing when possible.","Round number: 1. Height above sea level:3500 m."
"Carlos_Zaragoza_Trello_Vicia_faba_Ecuador_2017","CUSU2","transects","syrphids","family","syrphids",1,900,90,NA,"To explore pollinator biodiversity we selected 15 Faba bean fields that were at the same phenological stage and adjacent to a managed grassland (or a natural grassland area when it was not feasible). We conducted pollinator surveys along 25 days (from early July to middle August) by walking during 15 minutes along each of two 150 x 1 m standardized transects per site. One transect was located at the field edge while the central transect was located at 25 m inside the field from the edge. In 5 fields these transects were adapted to the middle of the field as the field did not reach 50 meters. Transect walks were conducted between 8:00 and 16:30, low wind speeds and temperatures above 15 degrees C. Due Andean high altitude weather characteristics, during shorts periods of rain (minutes) or low clouds we stopped the survey and resumed it when weather allowed. Sites were surveyed thrice in random order. We surveyed all honeybees, bumblebees, solitary bees, hoverflies and other Diptera (e.g: Calliphoridae, Tachinidae, Sarcophagidae) that visited flowers inside Faba beans field and at the margin of the crop capturing the pollinators with a net. Handling time invested in capturing pollinators was discounted. In total, the sampling effort was 90 minutes. Pollinators that were easily identifiable (e.g. honeybees and Bombus funebris, medium and big hoverflies) were recorded without capturing when possible.","Round number: 1. Height above sea level:3500 m."
"Carlos_Zaragoza_Trello_Vicia_faba_Ecuador_2017","CUSU2","transects","syrphids","family","syrphids",1,900,90,NA,"To explore pollinator biodiversity we selected 15 Faba bean fields that were at the same phenological stage and adjacent to a managed grassland (or a natural grassland area when it was not feasible). We conducted pollinator surveys along 25 days (from early July to middle August) by walking during 15 minutes along each of two 150 x 1 m standardized transects per site. One transect was located at the field edge while the central transect was located at 25 m inside the field from the edge. In 5 fields these transects were adapted to the middle of the field as the field did not reach 50 meters. Transect walks were conducted between 8:00 and 16:30, low wind speeds and temperatures above 15 degrees C. Due Andean high altitude weather characteristics, during shorts periods of rain (minutes) or low clouds we stopped the survey and resumed it when weather allowed. Sites were surveyed thrice in random order. We surveyed all honeybees, bumblebees, solitary bees, hoverflies and other Diptera (e.g: Calliphoridae, Tachinidae, Sarcophagidae) that visited flowers inside Faba beans field and at the margin of the crop capturing the pollinators with a net. Handling time invested in capturing pollinators was discounted. In total, the sampling effort was 90 minutes. Pollinators that were easily identifiable (e.g. honeybees and Bombus funebris, medium and big hoverflies) were recorded without capturing when possible.","Round number: 1. Height above sea level:3500 m."
"Carlos_Zaragoza_Trello_Vicia_faba_Ecuador_2017","CUSU2","transects","syrphids","family","syrphids",1,900,90,NA,"To explore pollinator biodiversity we selected 15 Faba bean fields that were at the same phenological stage and adjacent to a managed grassland (or a natural grassland area when it was not feasible). We conducted pollinator surveys along 25 days (from early July to middle August) by walking during 15 minutes along each of two 150 x 1 m standardized transects per site. One transect was located at the field edge while the central transect was located at 25 m inside the field from the edge. In 5 fields these transects were adapted to the middle of the field as the field did not reach 50 meters. Transect walks were conducted between 8:00 and 16:30, low wind speeds and temperatures above 15 degrees C. Due Andean high altitude weather characteristics, during shorts periods of rain (minutes) or low clouds we stopped the survey and resumed it when weather allowed. Sites were surveyed thrice in random order. We surveyed all honeybees, bumblebees, solitary bees, hoverflies and other Diptera (e.g: Calliphoridae, Tachinidae, Sarcophagidae) that visited flowers inside Faba beans field and at the margin of the crop capturing the pollinators with a net. Handling time invested in capturing pollinators was discounted. In total, the sampling effort was 90 minutes. Pollinators that were easily identifiable (e.g. honeybees and Bombus funebris, medium and big hoverflies) were recorded without capturing when possible.","Round number: 1. Height above sea level:3500 m."
"Carlos_Zaragoza_Trello_Vicia_faba_Ecuador_2017","CUSU2","transects","syrphids","family","syrphids",1,900,90,NA,"To explore pollinator biodiversity we selected 15 Faba bean fields that were at the same phenological stage and adjacent to a managed grassland (or a natural grassland area when it was not feasible). We conducted pollinator surveys along 25 days (from early July to middle August) by walking during 15 minutes along each of two 150 x 1 m standardized transects per site. One transect was located at the field edge while the central transect was located at 25 m inside the field from the edge. In 5 fields these transects were adapted to the middle of the field as the field did not reach 50 meters. Transect walks were conducted between 8:00 and 16:30, low wind speeds and temperatures above 15 degrees C. Due Andean high altitude weather characteristics, during shorts periods of rain (minutes) or low clouds we stopped the survey and resumed it when weather allowed. Sites were surveyed thrice in random order. We surveyed all honeybees, bumblebees, solitary bees, hoverflies and other Diptera (e.g: Calliphoridae, Tachinidae, Sarcophagidae) that visited flowers inside Faba beans field and at the margin of the crop capturing the pollinators with a net. Handling time invested in capturing pollinators was discounted. In total, the sampling effort was 90 minutes. Pollinators that were easily identifiable (e.g. honeybees and Bombus funebris, medium and big hoverflies) were recorded without capturing when possible.","Round number: 1. Height above sea level:3500 m."
"Carlos_Zaragoza_Trello_Vicia_faba_Ecuador_2017","CUSU2","transects","syrphids","family","syrphids",1,900,90,NA,"To explore pollinator biodiversity we selected 15 Faba bean fields that were at the same phenological stage and adjacent to a managed grassland (or a natural grassland area when it was not feasible). We conducted pollinator surveys along 25 days (from early July to middle August) by walking during 15 minutes along each of two 150 x 1 m standardized transects per site. One transect was located at the field edge while the central transect was located at 25 m inside the field from the edge. In 5 fields these transects were adapted to the middle of the field as the field did not reach 50 meters. Transect walks were conducted between 8:00 and 16:30, low wind speeds and temperatures above 15 degrees C. Due Andean high altitude weather characteristics, during shorts periods of rain (minutes) or low clouds we stopped the survey and resumed it when weather allowed. Sites were surveyed thrice in random order. We surveyed all honeybees, bumblebees, solitary bees, hoverflies and other Diptera (e.g: Calliphoridae, Tachinidae, Sarcophagidae) that visited flowers inside Faba beans field and at the margin of the crop capturing the pollinators with a net. Handling time invested in capturing pollinators was discounted. In total, the sampling effort was 90 minutes. Pollinators that were easily identifiable (e.g. honeybees and Bombus funebris, medium and big hoverflies) were recorded without capturing when possible.","Round number: 1. Height above sea level:3500 m."
"Carlos_Zaragoza_Trello_Vicia_faba_Ecuador_2017","CUSU2","transects","syrphids","family","syrphids",1,900,90,NA,"To explore pollinator biodiversity we selected 15 Faba bean fields that were at the same phenological stage and adjacent to a managed grassland (or a natural grassland area when it was not feasible). We conducted pollinator surveys along 25 days (from early July to middle August) by walking during 15 minutes along each of two 150 x 1 m standardized transects per site. One transect was located at the field edge while the central transect was located at 25 m inside the field from the edge. In 5 fields these transects were adapted to the middle of the field as the field did not reach 50 meters. Transect walks were conducted between 8:00 and 16:30, low wind speeds and temperatures above 15 degrees C. Due Andean high altitude weather characteristics, during shorts periods of rain (minutes) or low clouds we stopped the survey and resumed it when weather allowed. Sites were surveyed thrice in random order. We surveyed all honeybees, bumblebees, solitary bees, hoverflies and other Diptera (e.g: Calliphoridae, Tachinidae, Sarcophagidae) that visited flowers inside Faba beans field and at the margin of the crop capturing the pollinators with a net. Handling time invested in capturing pollinators was discounted. In total, the sampling effort was 90 minutes. Pollinators that were easily identifiable (e.g. honeybees and Bombus funebris, medium and big hoverflies) were recorded without capturing when possible.","Round number: 2. Height above sea level:3500 m."
"Carlos_Zaragoza_Trello_Vicia_faba_Ecuador_2017","CUSU2","transects","syrphids","family","syrphids",1,900,90,NA,"To explore pollinator biodiversity we selected 15 Faba bean fields that were at the same phenological stage and adjacent to a managed grassland (or a natural grassland area when it was not feasible). We conducted pollinator surveys along 25 days (from early July to middle August) by walking during 15 minutes along each of two 150 x 1 m standardized transects per site. One transect was located at the field edge while the central transect was located at 25 m inside the field from the edge. In 5 fields these transects were adapted to the middle of the field as the field did not reach 50 meters. Transect walks were conducted between 8:00 and 16:30, low wind speeds and temperatures above 15 degrees C. Due Andean high altitude weather characteristics, during shorts periods of rain (minutes) or low clouds we stopped the survey and resumed it when weather allowed. Sites were surveyed thrice in random order. We surveyed all honeybees, bumblebees, solitary bees, hoverflies and other Diptera (e.g: Calliphoridae, Tachinidae, Sarcophagidae) that visited flowers inside Faba beans field and at the margin of the crop capturing the pollinators with a net. Handling time invested in capturing pollinators was discounted. In total, the sampling effort was 90 minutes. Pollinators that were easily identifiable (e.g. honeybees and Bombus funebris, medium and big hoverflies) were recorded without capturing when possible.","Round number: 2. Height above sea level:3500 m."
"Carlos_Zaragoza_Trello_Vicia_faba_Ecuador_2017","CUSU2","transects","syrphids","family","syrphids",1,900,90,NA,"To explore pollinator biodiversity we selected 15 Faba bean fields that were at the same phenological stage and adjacent to a managed grassland (or a natural grassland area when it was not feasible). We conducted pollinator surveys along 25 days (from early July to middle August) by walking during 15 minutes along each of two 150 x 1 m standardized transects per site. One transect was located at the field edge while the central transect was located at 25 m inside the field from the edge. In 5 fields these transects were adapted to the middle of the field as the field did not reach 50 meters. Transect walks were conducted between 8:00 and 16:30, low wind speeds and temperatures above 15 degrees C. Due Andean high altitude weather characteristics, during shorts periods of rain (minutes) or low clouds we stopped the survey and resumed it when weather allowed. Sites were surveyed thrice in random order. We surveyed all honeybees, bumblebees, solitary bees, hoverflies and other Diptera (e.g: Calliphoridae, Tachinidae, Sarcophagidae) that visited flowers inside Faba beans field and at the margin of the crop capturing the pollinators with a net. Handling time invested in capturing pollinators was discounted. In total, the sampling effort was 90 minutes. Pollinators that were easily identifiable (e.g. honeybees and Bombus funebris, medium and big hoverflies) were recorded without capturing when possible.","Round number: 2. Height above sea level:3500 m."
"Carlos_Zaragoza_Trello_Vicia_faba_Ecuador_2017","CUSU2","transects","syrphids","family","syrphids",1,900,90,NA,"To explore pollinator biodiversity we selected 15 Faba bean fields that were at the same phenological stage and adjacent to a managed grassland (or a natural grassland area when it was not feasible). We conducted pollinator surveys along 25 days (from early July to middle August) by walking during 15 minutes along each of two 150 x 1 m standardized transects per site. One transect was located at the field edge while the central transect was located at 25 m inside the field from the edge. In 5 fields these transects were adapted to the middle of the field as the field did not reach 50 meters. Transect walks were conducted between 8:00 and 16:30, low wind speeds and temperatures above 15 degrees C. Due Andean high altitude weather characteristics, during shorts periods of rain (minutes) or low clouds we stopped the survey and resumed it when weather allowed. Sites were surveyed thrice in random order. We surveyed all honeybees, bumblebees, solitary bees, hoverflies and other Diptera (e.g: Calliphoridae, Tachinidae, Sarcophagidae) that visited flowers inside Faba beans field and at the margin of the crop capturing the pollinators with a net. Handling time invested in capturing pollinators was discounted. In total, the sampling effort was 90 minutes. Pollinators that were easily identifiable (e.g. honeybees and Bombus funebris, medium and big hoverflies) were recorded without capturing when possible.","Round number: 2. Height above sea level:3500 m."
"Carlos_Zaragoza_Trello_Vicia_faba_Ecuador_2017","CUSU2","transects","syrphids","family","syrphids",1,900,90,NA,"To explore pollinator biodiversity we selected 15 Faba bean fields that were at the same phenological stage and adjacent to a managed grassland (or a natural grassland area when it was not feasible). We conducted pollinator surveys along 25 days (from early July to middle August) by walking during 15 minutes along each of two 150 x 1 m standardized transects per site. One transect was located at the field edge while the central transect was located at 25 m inside the field from the edge. In 5 fields these transects were adapted to the middle of the field as the field did not reach 50 meters. Transect walks were conducted between 8:00 and 16:30, low wind speeds and temperatures above 15 degrees C. Due Andean high altitude weather characteristics, during shorts periods of rain (minutes) or low clouds we stopped the survey and resumed it when weather allowed. Sites were surveyed thrice in random order. We surveyed all honeybees, bumblebees, solitary bees, hoverflies and other Diptera (e.g: Calliphoridae, Tachinidae, Sarcophagidae) that visited flowers inside Faba beans field and at the margin of the crop capturing the pollinators with a net. Handling time invested in capturing pollinators was discounted. In total, the sampling effort was 90 minutes. Pollinators that were easily identifiable (e.g. honeybees and Bombus funebris, medium and big hoverflies) were recorded without capturing when possible.","Round number: 2. Height above sea level:3500 m."
"Carlos_Zaragoza_Trello_Vicia_faba_Ecuador_2017","CUSU2","transects","syrphids","family","syrphids",1,900,90,NA,"To explore pollinator biodiversity we selected 15 Faba bean fields that were at the same phenological stage and adjacent to a managed grassland (or a natural grassland area when it was not feasible). We conducted pollinator surveys along 25 days (from early July to middle August) by walking during 15 minutes along each of two 150 x 1 m standardized transects per site. One transect was located at the field edge while the central transect was located at 25 m inside the field from the edge. In 5 fields these transects were adapted to the middle of the field as the field did not reach 50 meters. Transect walks were conducted between 8:00 and 16:30, low wind speeds and temperatures above 15 degrees C. Due Andean high altitude weather characteristics, during shorts periods of rain (minutes) or low clouds we stopped the survey and resumed it when weather allowed. Sites were surveyed thrice in random order. We surveyed all honeybees, bumblebees, solitary bees, hoverflies and other Diptera (e.g: Calliphoridae, Tachinidae, Sarcophagidae) that visited flowers inside Faba beans field and at the margin of the crop capturing the pollinators with a net. Handling time invested in capturing pollinators was discounted. In total, the sampling effort was 90 minutes. Pollinators that were easily identifiable (e.g. honeybees and Bombus funebris, medium and big hoverflies) were recorded without capturing when possible.","Round number: 1. Height above sea level:3500 m."
"Carlos_Zaragoza_Trello_Vicia_faba_Ecuador_2017","CUSU2","transects","syrphids","family","syrphids",4,900,90,NA,"To explore pollinator biodiversity we selected 15 Faba bean fields that were at the same phenological stage and adjacent to a managed grassland (or a natural grassland area when it was not feasible). We conducted pollinator surveys along 25 days (from early July to middle August) by walking during 15 minutes along each of two 150 x 1 m standardized transects per site. One transect was located at the field edge while the central transect was located at 25 m inside the field from the edge. In 5 fields these transects were adapted to the middle of the field as the field did not reach 50 meters. Transect walks were conducted between 8:00 and 16:30, low wind speeds and temperatures above 15 degrees C. Due Andean high altitude weather characteristics, during shorts periods of rain (minutes) or low clouds we stopped the survey and resumed it when weather allowed. Sites were surveyed thrice in random order. We surveyed all honeybees, bumblebees, solitary bees, hoverflies and other Diptera (e.g: Calliphoridae, Tachinidae, Sarcophagidae) that visited flowers inside Faba beans field and at the margin of the crop capturing the pollinators with a net. Handling time invested in capturing pollinators was discounted. In total, the sampling effort was 90 minutes. Pollinators that were easily identifiable (e.g. honeybees and Bombus funebris, medium and big hoverflies) were recorded without capturing when possible.","Round number: 2. Height above sea level:3500 m."
"Carlos_Zaragoza_Trello_Vicia_faba_Ecuador_2017","CUSU2","transects","syrphids","family","syrphids",1,900,90,NA,"To explore pollinator biodiversity we selected 15 Faba bean fields that were at the same phenological stage and adjacent to a managed grassland (or a natural grassland area when it was not feasible). We conducted pollinator surveys along 25 days (from early July to middle August) by walking during 15 minutes along each of two 150 x 1 m standardized transects per site. One transect was located at the field edge while the central transect was located at 25 m inside the field from the edge. In 5 fields these transects were adapted to the middle of the field as the field did not reach 50 meters. Transect walks were conducted between 8:00 and 16:30, low wind speeds and temperatures above 15 degrees C. Due Andean high altitude weather characteristics, during shorts periods of rain (minutes) or low clouds we stopped the survey and resumed it when weather allowed. Sites were surveyed thrice in random order. We surveyed all honeybees, bumblebees, solitary bees, hoverflies and other Diptera (e.g: Calliphoridae, Tachinidae, Sarcophagidae) that visited flowers inside Faba beans field and at the margin of the crop capturing the pollinators with a net. Handling time invested in capturing pollinators was discounted. In total, the sampling effort was 90 minutes. Pollinators that were easily identifiable (e.g. honeybees and Bombus funebris, medium and big hoverflies) were recorded without capturing when possible.","Round number: 3. Height above sea level:3500 m."
"Carlos_Zaragoza_Trello_Vicia_faba_Ecuador_2017","CUSU2","transects","syrphids","family","syrphids",8,900,90,NA,"To explore pollinator biodiversity we selected 15 Faba bean fields that were at the same phenological stage and adjacent to a managed grassland (or a natural grassland area when it was not feasible). We conducted pollinator surveys along 25 days (from early July to middle August) by walking during 15 minutes along each of two 150 x 1 m standardized transects per site. One transect was located at the field edge while the central transect was located at 25 m inside the field from the edge. In 5 fields these transects were adapted to the middle of the field as the field did not reach 50 meters. Transect walks were conducted between 8:00 and 16:30, low wind speeds and temperatures above 15 degrees C. Due Andean high altitude weather characteristics, during shorts periods of rain (minutes) or low clouds we stopped the survey and resumed it when weather allowed. Sites were surveyed thrice in random order. We surveyed all honeybees, bumblebees, solitary bees, hoverflies and other Diptera (e.g: Calliphoridae, Tachinidae, Sarcophagidae) that visited flowers inside Faba beans field and at the margin of the crop capturing the pollinators with a net. Handling time invested in capturing pollinators was discounted. In total, the sampling effort was 90 minutes. Pollinators that were easily identifiable (e.g. honeybees and Bombus funebris, medium and big hoverflies) were recorded without capturing when possible.","Round number: 3. Height above sea level:3500 m."
"Carlos_Zaragoza_Trello_Vicia_faba_Ecuador_2017","CUSU2","transects","syrphids","family","syrphids",3,900,90,NA,"To explore pollinator biodiversity we selected 15 Faba bean fields that were at the same phenological stage and adjacent to a managed grassland (or a natural grassland area when it was not feasible). We conducted pollinator surveys along 25 days (from early July to middle August) by walking during 15 minutes along each of two 150 x 1 m standardized transects per site. One transect was located at the field edge while the central transect was located at 25 m inside the field from the edge. In 5 fields these transects were adapted to the middle of the field as the field did not reach 50 meters. Transect walks were conducted between 8:00 and 16:30, low wind speeds and temperatures above 15 degrees C. Due Andean high altitude weather characteristics, during shorts periods of rain (minutes) or low clouds we stopped the survey and resumed it when weather allowed. Sites were surveyed thrice in random order. We surveyed all honeybees, bumblebees, solitary bees, hoverflies and other Diptera (e.g: Calliphoridae, Tachinidae, Sarcophagidae) that visited flowers inside Faba beans field and at the margin of the crop capturing the pollinators with a net. Handling time invested in capturing pollinators was discounted. In total, the sampling effort was 90 minutes. Pollinators that were easily identifiable (e.g. honeybees and Bombus funebris, medium and big hoverflies) were recorded without capturing when possible.","Round number: 2. Height above sea level:3500 m."
"Carlos_Zaragoza_Trello_Vicia_faba_Ecuador_2017","CUSU2","transects","syrphids","family","syrphids",4,900,90,NA,"To explore pollinator biodiversity we selected 15 Faba bean fields that were at the same phenological stage and adjacent to a managed grassland (or a natural grassland area when it was not feasible). We conducted pollinator surveys along 25 days (from early July to middle August) by walking during 15 minutes along each of two 150 x 1 m standardized transects per site. One transect was located at the field edge while the central transect was located at 25 m inside the field from the edge. In 5 fields these transects were adapted to the middle of the field as the field did not reach 50 meters. Transect walks were conducted between 8:00 and 16:30, low wind speeds and temperatures above 15 degrees C. Due Andean high altitude weather characteristics, during shorts periods of rain (minutes) or low clouds we stopped the survey and resumed it when weather allowed. Sites were surveyed thrice in random order. We surveyed all honeybees, bumblebees, solitary bees, hoverflies and other Diptera (e.g: Calliphoridae, Tachinidae, Sarcophagidae) that visited flowers inside Faba beans field and at the margin of the crop capturing the pollinators with a net. Handling time invested in capturing pollinators was discounted. In total, the sampling effort was 90 minutes. Pollinators that were easily identifiable (e.g. honeybees and Bombus funebris, medium and big hoverflies) were recorded without capturing when possible.","Round number: 3. Height above sea level:3500 m."
"Carlos_Zaragoza_Trello_Vicia_faba_Ecuador_2017","CUSU2","transects","syrphids","family","syrphids",6,900,90,NA,"To explore pollinator biodiversity we selected 15 Faba bean fields that were at the same phenological stage and adjacent to a managed grassland (or a natural grassland area when it was not feasible). We conducted pollinator surveys along 25 days (from early July to middle August) by walking during 15 minutes along each of two 150 x 1 m standardized transects per site. One transect was located at the field edge while the central transect was located at 25 m inside the field from the edge. In 5 fields these transects were adapted to the middle of the field as the field did not reach 50 meters. Transect walks were conducted between 8:00 and 16:30, low wind speeds and temperatures above 15 degrees C. Due Andean high altitude weather characteristics, during shorts periods of rain (minutes) or low clouds we stopped the survey and resumed it when weather allowed. Sites were surveyed thrice in random order. We surveyed all honeybees, bumblebees, solitary bees, hoverflies and other Diptera (e.g: Calliphoridae, Tachinidae, Sarcophagidae) that visited flowers inside Faba beans field and at the margin of the crop capturing the pollinators with a net. Handling time invested in capturing pollinators was discounted. In total, the sampling effort was 90 minutes. Pollinators that were easily identifiable (e.g. honeybees and Bombus funebris, medium and big hoverflies) were recorded without capturing when possible.","Round number: 2. Height above sea level:3500 m."
"Carlos_Zaragoza_Trello_Vicia_faba_Ecuador_2017","CUSU2","transects","syrphids","family","syrphids",14,900,90,NA,"To explore pollinator biodiversity we selected 15 Faba bean fields that were at the same phenological stage and adjacent to a managed grassland (or a natural grassland area when it was not feasible). We conducted pollinator surveys along 25 days (from early July to middle August) by walking during 15 minutes along each of two 150 x 1 m standardized transects per site. One transect was located at the field edge while the central transect was located at 25 m inside the field from the edge. In 5 fields these transects were adapted to the middle of the field as the field did not reach 50 meters. Transect walks were conducted between 8:00 and 16:30, low wind speeds and temperatures above 15 degrees C. Due Andean high altitude weather characteristics, during shorts periods of rain (minutes) or low clouds we stopped the survey and resumed it when weather allowed. Sites were surveyed thrice in random order. We surveyed all honeybees, bumblebees, solitary bees, hoverflies and other Diptera (e.g: Calliphoridae, Tachinidae, Sarcophagidae) that visited flowers inside Faba beans field and at the margin of the crop capturing the pollinators with a net. Handling time invested in capturing pollinators was discounted. In total, the sampling effort was 90 minutes. Pollinators that were easily identifiable (e.g. honeybees and Bombus funebris, medium and big hoverflies) were recorded without capturing when possible.","Round number: 2. Height above sea level:3500 m."
"Carlos_Zaragoza_Trello_Vicia_faba_Ecuador_2017","CUSU2","transects","syrphids","family","syrphids",11,900,90,NA,"To explore pollinator biodiversity we selected 15 Faba bean fields that were at the same phenological stage and adjacent to a managed grassland (or a natural grassland area when it was not feasible). We conducted pollinator surveys along 25 days (from early July to middle August) by walking during 15 minutes along each of two 150 x 1 m standardized transects per site. One transect was located at the field edge while the central transect was located at 25 m inside the field from the edge. In 5 fields these transects were adapted to the middle of the field as the field did not reach 50 meters. Transect walks were conducted between 8:00 and 16:30, low wind speeds and temperatures above 15 degrees C. Due Andean high altitude weather characteristics, during shorts periods of rain (minutes) or low clouds we stopped the survey and resumed it when weather allowed. Sites were surveyed thrice in random order. We surveyed all honeybees, bumblebees, solitary bees, hoverflies and other Diptera (e.g: Calliphoridae, Tachinidae, Sarcophagidae) that visited flowers inside Faba beans field and at the margin of the crop capturing the pollinators with a net. Handling time invested in capturing pollinators was discounted. In total, the sampling effort was 90 minutes. Pollinators that were easily identifiable (e.g. honeybees and Bombus funebris, medium and big hoverflies) were recorded without capturing when possible.","Round number: 3. Height above sea level:3500 m."
"Carlos_Zaragoza_Trello_Vicia_faba_Ecuador_2017","CUSU2","transects","syrphids","family","syrphids",8,900,90,NA,"To explore pollinator biodiversity we selected 15 Faba bean fields that were at the same phenological stage and adjacent to a managed grassland (or a natural grassland area when it was not feasible). We conducted pollinator surveys along 25 days (from early July to middle August) by walking during 15 minutes along each of two 150 x 1 m standardized transects per site. One transect was located at the field edge while the central transect was located at 25 m inside the field from the edge. In 5 fields these transects were adapted to the middle of the field as the field did not reach 50 meters. Transect walks were conducted between 8:00 and 16:30, low wind speeds and temperatures above 15 degrees C. Due Andean high altitude weather characteristics, during shorts periods of rain (minutes) or low clouds we stopped the survey and resumed it when weather allowed. Sites were surveyed thrice in random order. We surveyed all honeybees, bumblebees, solitary bees, hoverflies and other Diptera (e.g: Calliphoridae, Tachinidae, Sarcophagidae) that visited flowers inside Faba beans field and at the margin of the crop capturing the pollinators with a net. Handling time invested in capturing pollinators was discounted. In total, the sampling effort was 90 minutes. Pollinators that were easily identifiable (e.g. honeybees and Bombus funebris, medium and big hoverflies) were recorded without capturing when possible.","Round number: 1. Height above sea level:3500 m."
"Carlos_Zaragoza_Trello_Vicia_faba_Ecuador_2017","Q1","transects","syrphids","family","syrphids",1,900,90,NA,"To explore pollinator biodiversity we selected 15 Faba bean fields that were at the same phenological stage and adjacent to a managed grassland (or a natural grassland area when it was not feasible). We conducted pollinator surveys along 25 days (from early July to middle August) by walking during 15 minutes along each of two 150 x 1 m standardized transects per site. One transect was located at the field edge while the central transect was located at 25 m inside the field from the edge. In 5 fields these transects were adapted to the middle of the field as the field did not reach 50 meters. Transect walks were conducted between 8:00 and 16:30, low wind speeds and temperatures above 15 degrees C. Due Andean high altitude weather characteristics, during shorts periods of rain (minutes) or low clouds we stopped the survey and resumed it when weather allowed. Sites were surveyed thrice in random order. We surveyed all honeybees, bumblebees, solitary bees, hoverflies and other Diptera (e.g: Calliphoridae, Tachinidae, Sarcophagidae) that visited flowers inside Faba beans field and at the margin of the crop capturing the pollinators with a net. Handling time invested in capturing pollinators was discounted. In total, the sampling effort was 90 minutes. Pollinators that were easily identifiable (e.g. honeybees and Bombus funebris, medium and big hoverflies) were recorded without capturing when possible.","Round number: 3. Height above sea level:3777 m."
"Carlos_Zaragoza_Trello_Vicia_faba_Ecuador_2017","Q1","transects","syrphids","family","syrphids",1,900,90,NA,"To explore pollinator biodiversity we selected 15 Faba bean fields that were at the same phenological stage and adjacent to a managed grassland (or a natural grassland area when it was not feasible). We conducted pollinator surveys along 25 days (from early July to middle August) by walking during 15 minutes along each of two 150 x 1 m standardized transects per site. One transect was located at the field edge while the central transect was located at 25 m inside the field from the edge. In 5 fields these transects were adapted to the middle of the field as the field did not reach 50 meters. Transect walks were conducted between 8:00 and 16:30, low wind speeds and temperatures above 15 degrees C. Due Andean high altitude weather characteristics, during shorts periods of rain (minutes) or low clouds we stopped the survey and resumed it when weather allowed. Sites were surveyed thrice in random order. We surveyed all honeybees, bumblebees, solitary bees, hoverflies and other Diptera (e.g: Calliphoridae, Tachinidae, Sarcophagidae) that visited flowers inside Faba beans field and at the margin of the crop capturing the pollinators with a net. Handling time invested in capturing pollinators was discounted. In total, the sampling effort was 90 minutes. Pollinators that were easily identifiable (e.g. honeybees and Bombus funebris, medium and big hoverflies) were recorded without capturing when possible.","Round number: 2. Height above sea level:3777 m."
"Carlos_Zaragoza_Trello_Vicia_faba_Ecuador_2017","Q1","transects","syrphids","family","syrphids",1,900,90,NA,"To explore pollinator biodiversity we selected 15 Faba bean fields that were at the same phenological stage and adjacent to a managed grassland (or a natural grassland area when it was not feasible). We conducted pollinator surveys along 25 days (from early July to middle August) by walking during 15 minutes along each of two 150 x 1 m standardized transects per site. One transect was located at the field edge while the central transect was located at 25 m inside the field from the edge. In 5 fields these transects were adapted to the middle of the field as the field did not reach 50 meters. Transect walks were conducted between 8:00 and 16:30, low wind speeds and temperatures above 15 degrees C. Due Andean high altitude weather characteristics, during shorts periods of rain (minutes) or low clouds we stopped the survey and resumed it when weather allowed. Sites were surveyed thrice in random order. We surveyed all honeybees, bumblebees, solitary bees, hoverflies and other Diptera (e.g: Calliphoridae, Tachinidae, Sarcophagidae) that visited flowers inside Faba beans field and at the margin of the crop capturing the pollinators with a net. Handling time invested in capturing pollinators was discounted. In total, the sampling effort was 90 minutes. Pollinators that were easily identifiable (e.g. honeybees and Bombus funebris, medium and big hoverflies) were recorded without capturing when possible.","Round number: 2. Height above sea level:3777 m."
"Carlos_Zaragoza_Trello_Vicia_faba_Ecuador_2017","Q1","transects","syrphids","family","syrphids",1,900,90,NA,"To explore pollinator biodiversity we selected 15 Faba bean fields that were at the same phenological stage and adjacent to a managed grassland (or a natural grassland area when it was not feasible). We conducted pollinator surveys along 25 days (from early July to middle August) by walking during 15 minutes along each of two 150 x 1 m standardized transects per site. One transect was located at the field edge while the central transect was located at 25 m inside the field from the edge. In 5 fields these transects were adapted to the middle of the field as the field did not reach 50 meters. Transect walks were conducted between 8:00 and 16:30, low wind speeds and temperatures above 15 degrees C. Due Andean high altitude weather characteristics, during shorts periods of rain (minutes) or low clouds we stopped the survey and resumed it when weather allowed. Sites were surveyed thrice in random order. We surveyed all honeybees, bumblebees, solitary bees, hoverflies and other Diptera (e.g: Calliphoridae, Tachinidae, Sarcophagidae) that visited flowers inside Faba beans field and at the margin of the crop capturing the pollinators with a net. Handling time invested in capturing pollinators was discounted. In total, the sampling effort was 90 minutes. Pollinators that were easily identifiable (e.g. honeybees and Bombus funebris, medium and big hoverflies) were recorded without capturing when possible.","Round number: 2. Height above sea level:3777 m."
"Carlos_Zaragoza_Trello_Vicia_faba_Ecuador_2017","Q1","transects","syrphids","family","syrphids",1,900,90,NA,"To explore pollinator biodiversity we selected 15 Faba bean fields that were at the same phenological stage and adjacent to a managed grassland (or a natural grassland area when it was not feasible). We conducted pollinator surveys along 25 days (from early July to middle August) by walking during 15 minutes along each of two 150 x 1 m standardized transects per site. One transect was located at the field edge while the central transect was located at 25 m inside the field from the edge. In 5 fields these transects were adapted to the middle of the field as the field did not reach 50 meters. Transect walks were conducted between 8:00 and 16:30, low wind speeds and temperatures above 15 degrees C. Due Andean high altitude weather characteristics, during shorts periods of rain (minutes) or low clouds we stopped the survey and resumed it when weather allowed. Sites were surveyed thrice in random order. We surveyed all honeybees, bumblebees, solitary bees, hoverflies and other Diptera (e.g: Calliphoridae, Tachinidae, Sarcophagidae) that visited flowers inside Faba beans field and at the margin of the crop capturing the pollinators with a net. Handling time invested in capturing pollinators was discounted. In total, the sampling effort was 90 minutes. Pollinators that were easily identifiable (e.g. honeybees and Bombus funebris, medium and big hoverflies) were recorded without capturing when possible.","Round number: 1. Height above sea level:3777 m."
"Carlos_Zaragoza_Trello_Vicia_faba_Ecuador_2017","Q1","transects","syrphids","family","syrphids",1,900,90,NA,"To explore pollinator biodiversity we selected 15 Faba bean fields that were at the same phenological stage and adjacent to a managed grassland (or a natural grassland area when it was not feasible). We conducted pollinator surveys along 25 days (from early July to middle August) by walking during 15 minutes along each of two 150 x 1 m standardized transects per site. One transect was located at the field edge while the central transect was located at 25 m inside the field from the edge. In 5 fields these transects were adapted to the middle of the field as the field did not reach 50 meters. Transect walks were conducted between 8:00 and 16:30, low wind speeds and temperatures above 15 degrees C. Due Andean high altitude weather characteristics, during shorts periods of rain (minutes) or low clouds we stopped the survey and resumed it when weather allowed. Sites were surveyed thrice in random order. We surveyed all honeybees, bumblebees, solitary bees, hoverflies and other Diptera (e.g: Calliphoridae, Tachinidae, Sarcophagidae) that visited flowers inside Faba beans field and at the margin of the crop capturing the pollinators with a net. Handling time invested in capturing pollinators was discounted. In total, the sampling effort was 90 minutes. Pollinators that were easily identifiable (e.g. honeybees and Bombus funebris, medium and big hoverflies) were recorded without capturing when possible.","Round number: 1. Height above sea level:3777 m."
"Carlos_Zaragoza_Trello_Vicia_faba_Ecuador_2017","Q1","transects","syrphids","family","syrphids",3,900,90,NA,"To explore pollinator biodiversity we selected 15 Faba bean fields that were at the same phenological stage and adjacent to a managed grassland (or a natural grassland area when it was not feasible). We conducted pollinator surveys along 25 days (from early July to middle August) by walking during 15 minutes along each of two 150 x 1 m standardized transects per site. One transect was located at the field edge while the central transect was located at 25 m inside the field from the edge. In 5 fields these transects were adapted to the middle of the field as the field did not reach 50 meters. Transect walks were conducted between 8:00 and 16:30, low wind speeds and temperatures above 15 degrees C. Due Andean high altitude weather characteristics, during shorts periods of rain (minutes) or low clouds we stopped the survey and resumed it when weather allowed. Sites were surveyed thrice in random order. We surveyed all honeybees, bumblebees, solitary bees, hoverflies and other Diptera (e.g: Calliphoridae, Tachinidae, Sarcophagidae) that visited flowers inside Faba beans field and at the margin of the crop capturing the pollinators with a net. Handling time invested in capturing pollinators was discounted. In total, the sampling effort was 90 minutes. Pollinators that were easily identifiable (e.g. honeybees and Bombus funebris, medium and big hoverflies) were recorded without capturing when possible.","Round number: 3. Height above sea level:3777 m."
"Carlos_Zaragoza_Trello_Vicia_faba_Ecuador_2017","Q1","transects","syrphids","family","syrphids",1,900,90,NA,"To explore pollinator biodiversity we selected 15 Faba bean fields that were at the same phenological stage and adjacent to a managed grassland (or a natural grassland area when it was not feasible). We conducted pollinator surveys along 25 days (from early July to middle August) by walking during 15 minutes along each of two 150 x 1 m standardized transects per site. One transect was located at the field edge while the central transect was located at 25 m inside the field from the edge. In 5 fields these transects were adapted to the middle of the field as the field did not reach 50 meters. Transect walks were conducted between 8:00 and 16:30, low wind speeds and temperatures above 15 degrees C. Due Andean high altitude weather characteristics, during shorts periods of rain (minutes) or low clouds we stopped the survey and resumed it when weather allowed. Sites were surveyed thrice in random order. We surveyed all honeybees, bumblebees, solitary bees, hoverflies and other Diptera (e.g: Calliphoridae, Tachinidae, Sarcophagidae) that visited flowers inside Faba beans field and at the margin of the crop capturing the pollinators with a net. Handling time invested in capturing pollinators was discounted. In total, the sampling effort was 90 minutes. Pollinators that were easily identifiable (e.g. honeybees and Bombus funebris, medium and big hoverflies) were recorded without capturing when possible.","Round number: 2. Height above sea level:3777 m."
"Carlos_Zaragoza_Trello_Vicia_faba_Ecuador_2017","Q2","transects","syrphids","family","syrphids",1,900,90,NA,"To explore pollinator biodiversity we selected 15 Faba bean fields that were at the same phenological stage and adjacent to a managed grassland (or a natural grassland area when it was not feasible). We conducted pollinator surveys along 25 days (from early July to middle August) by walking during 15 minutes along each of two 150 x 1 m standardized transects per site. One transect was located at the field edge while the central transect was located at 25 m inside the field from the edge. In 5 fields these transects were adapted to the middle of the field as the field did not reach 50 meters. Transect walks were conducted between 8:00 and 16:30, low wind speeds and temperatures above 15 degrees C. Due Andean high altitude weather characteristics, during shorts periods of rain (minutes) or low clouds we stopped the survey and resumed it when weather allowed. Sites were surveyed thrice in random order. We surveyed all honeybees, bumblebees, solitary bees, hoverflies and other Diptera (e.g: Calliphoridae, Tachinidae, Sarcophagidae) that visited flowers inside Faba beans field and at the margin of the crop capturing the pollinators with a net. Handling time invested in capturing pollinators was discounted. In total, the sampling effort was 90 minutes. Pollinators that were easily identifiable (e.g. honeybees and Bombus funebris, medium and big hoverflies) were recorded without capturing when possible.","Round number: 3. Height above sea level:3780 m."
"Carlos_Zaragoza_Trello_Vicia_faba_Ecuador_2017","Q2","transects","syrphids","family","syrphids",1,900,90,NA,"To explore pollinator biodiversity we selected 15 Faba bean fields that were at the same phenological stage and adjacent to a managed grassland (or a natural grassland area when it was not feasible). We conducted pollinator surveys along 25 days (from early July to middle August) by walking during 15 minutes along each of two 150 x 1 m standardized transects per site. One transect was located at the field edge while the central transect was located at 25 m inside the field from the edge. In 5 fields these transects were adapted to the middle of the field as the field did not reach 50 meters. Transect walks were conducted between 8:00 and 16:30, low wind speeds and temperatures above 15 degrees C. Due Andean high altitude weather characteristics, during shorts periods of rain (minutes) or low clouds we stopped the survey and resumed it when weather allowed. Sites were surveyed thrice in random order. We surveyed all honeybees, bumblebees, solitary bees, hoverflies and other Diptera (e.g: Calliphoridae, Tachinidae, Sarcophagidae) that visited flowers inside Faba beans field and at the margin of the crop capturing the pollinators with a net. Handling time invested in capturing pollinators was discounted. In total, the sampling effort was 90 minutes. Pollinators that were easily identifiable (e.g. honeybees and Bombus funebris, medium and big hoverflies) were recorded without capturing when possible.","Round number: 3. Height above sea level:3780 m."
"Carlos_Zaragoza_Trello_Vicia_faba_Ecuador_2017","Q2","transects","syrphids","family","syrphids",1,900,90,NA,"To explore pollinator biodiversity we selected 15 Faba bean fields that were at the same phenological stage and adjacent to a managed grassland (or a natural grassland area when it was not feasible). We conducted pollinator surveys along 25 days (from early July to middle August) by walking during 15 minutes along each of two 150 x 1 m standardized transects per site. One transect was located at the field edge while the central transect was located at 25 m inside the field from the edge. In 5 fields these transects were adapted to the middle of the field as the field did not reach 50 meters. Transect walks were conducted between 8:00 and 16:30, low wind speeds and temperatures above 15 degrees C. Due Andean high altitude weather characteristics, during shorts periods of rain (minutes) or low clouds we stopped the survey and resumed it when weather allowed. Sites were surveyed thrice in random order. We surveyed all honeybees, bumblebees, solitary bees, hoverflies and other Diptera (e.g: Calliphoridae, Tachinidae, Sarcophagidae) that visited flowers inside Faba beans field and at the margin of the crop capturing the pollinators with a net. Handling time invested in capturing pollinators was discounted. In total, the sampling effort was 90 minutes. Pollinators that were easily identifiable (e.g. honeybees and Bombus funebris, medium and big hoverflies) were recorded without capturing when possible.","Round number: 3. Height above sea level:3780 m."
"Carlos_Zaragoza_Trello_Vicia_faba_Ecuador_2017","Q2","transects","syrphids","family","syrphids",1,900,90,NA,"To explore pollinator biodiversity we selected 15 Faba bean fields that were at the same phenological stage and adjacent to a managed grassland (or a natural grassland area when it was not feasible). We conducted pollinator surveys along 25 days (from early July to middle August) by walking during 15 minutes along each of two 150 x 1 m standardized transects per site. One transect was located at the field edge while the central transect was located at 25 m inside the field from the edge. In 5 fields these transects were adapted to the middle of the field as the field did not reach 50 meters. Transect walks were conducted between 8:00 and 16:30, low wind speeds and temperatures above 15 degrees C. Due Andean high altitude weather characteristics, during shorts periods of rain (minutes) or low clouds we stopped the survey and resumed it when weather allowed. Sites were surveyed thrice in random order. We surveyed all honeybees, bumblebees, solitary bees, hoverflies and other Diptera (e.g: Calliphoridae, Tachinidae, Sarcophagidae) that visited flowers inside Faba beans field and at the margin of the crop capturing the pollinators with a net. Handling time invested in capturing pollinators was discounted. In total, the sampling effort was 90 minutes. Pollinators that were easily identifiable (e.g. honeybees and Bombus funebris, medium and big hoverflies) were recorded without capturing when possible.","Round number: 3. Height above sea level:3780 m."
"Carlos_Zaragoza_Trello_Vicia_faba_Ecuador_2017","Q2","transects","syrphids","family","syrphids",1,900,90,NA,"To explore pollinator biodiversity we selected 15 Faba bean fields that were at the same phenological stage and adjacent to a managed grassland (or a natural grassland area when it was not feasible). We conducted pollinator surveys along 25 days (from early July to middle August) by walking during 15 minutes along each of two 150 x 1 m standardized transects per site. One transect was located at the field edge while the central transect was located at 25 m inside the field from the edge. In 5 fields these transects were adapted to the middle of the field as the field did not reach 50 meters. Transect walks were conducted between 8:00 and 16:30, low wind speeds and temperatures above 15 degrees C. Due Andean high altitude weather characteristics, during shorts periods of rain (minutes) or low clouds we stopped the survey and resumed it when weather allowed. Sites were surveyed thrice in random order. We surveyed all honeybees, bumblebees, solitary bees, hoverflies and other Diptera (e.g: Calliphoridae, Tachinidae, Sarcophagidae) that visited flowers inside Faba beans field and at the margin of the crop capturing the pollinators with a net. Handling time invested in capturing pollinators was discounted. In total, the sampling effort was 90 minutes. Pollinators that were easily identifiable (e.g. honeybees and Bombus funebris, medium and big hoverflies) were recorded without capturing when possible.","Round number: 2. Height above sea level:3780 m."
"Carlos_Zaragoza_Trello_Vicia_faba_Ecuador_2017","Q2","transects","syrphids","family","syrphids",1,900,90,NA,"To explore pollinator biodiversity we selected 15 Faba bean fields that were at the same phenological stage and adjacent to a managed grassland (or a natural grassland area when it was not feasible). We conducted pollinator surveys along 25 days (from early July to middle August) by walking during 15 minutes along each of two 150 x 1 m standardized transects per site. One transect was located at the field edge while the central transect was located at 25 m inside the field from the edge. In 5 fields these transects were adapted to the middle of the field as the field did not reach 50 meters. Transect walks were conducted between 8:00 and 16:30, low wind speeds and temperatures above 15 degrees C. Due Andean high altitude weather characteristics, during shorts periods of rain (minutes) or low clouds we stopped the survey and resumed it when weather allowed. Sites were surveyed thrice in random order. We surveyed all honeybees, bumblebees, solitary bees, hoverflies and other Diptera (e.g: Calliphoridae, Tachinidae, Sarcophagidae) that visited flowers inside Faba beans field and at the margin of the crop capturing the pollinators with a net. Handling time invested in capturing pollinators was discounted. In total, the sampling effort was 90 minutes. Pollinators that were easily identifiable (e.g. honeybees and Bombus funebris, medium and big hoverflies) were recorded without capturing when possible.","Round number: 2. Height above sea level:3780 m."
"Carlos_Zaragoza_Trello_Vicia_faba_Ecuador_2017","Q2","transects","syrphids","family","syrphids",1,900,90,NA,"To explore pollinator biodiversity we selected 15 Faba bean fields that were at the same phenological stage and adjacent to a managed grassland (or a natural grassland area when it was not feasible). We conducted pollinator surveys along 25 days (from early July to middle August) by walking during 15 minutes along each of two 150 x 1 m standardized transects per site. One transect was located at the field edge while the central transect was located at 25 m inside the field from the edge. In 5 fields these transects were adapted to the middle of the field as the field did not reach 50 meters. Transect walks were conducted between 8:00 and 16:30, low wind speeds and temperatures above 15 degrees C. Due Andean high altitude weather characteristics, during shorts periods of rain (minutes) or low clouds we stopped the survey and resumed it when weather allowed. Sites were surveyed thrice in random order. We surveyed all honeybees, bumblebees, solitary bees, hoverflies and other Diptera (e.g: Calliphoridae, Tachinidae, Sarcophagidae) that visited flowers inside Faba beans field and at the margin of the crop capturing the pollinators with a net. Handling time invested in capturing pollinators was discounted. In total, the sampling effort was 90 minutes. Pollinators that were easily identifiable (e.g. honeybees and Bombus funebris, medium and big hoverflies) were recorded without capturing when possible.","Round number: 2. Height above sea level:3780 m."
"Carlos_Zaragoza_Trello_Vicia_faba_Ecuador_2017","Q2","transects","syrphids","family","syrphids",1,900,90,NA,"To explore pollinator biodiversity we selected 15 Faba bean fields that were at the same phenological stage and adjacent to a managed grassland (or a natural grassland area when it was not feasible). We conducted pollinator surveys along 25 days (from early July to middle August) by walking during 15 minutes along each of two 150 x 1 m standardized transects per site. One transect was located at the field edge while the central transect was located at 25 m inside the field from the edge. In 5 fields these transects were adapted to the middle of the field as the field did not reach 50 meters. Transect walks were conducted between 8:00 and 16:30, low wind speeds and temperatures above 15 degrees C. Due Andean high altitude weather characteristics, during shorts periods of rain (minutes) or low clouds we stopped the survey and resumed it when weather allowed. Sites were surveyed thrice in random order. We surveyed all honeybees, bumblebees, solitary bees, hoverflies and other Diptera (e.g: Calliphoridae, Tachinidae, Sarcophagidae) that visited flowers inside Faba beans field and at the margin of the crop capturing the pollinators with a net. Handling time invested in capturing pollinators was discounted. In total, the sampling effort was 90 minutes. Pollinators that were easily identifiable (e.g. honeybees and Bombus funebris, medium and big hoverflies) were recorded without capturing when possible.","Round number: 2. Height above sea level:3780 m."
"Carlos_Zaragoza_Trello_Vicia_faba_Ecuador_2017","Q2","transects","syrphids","family","syrphids",1,900,90,NA,"To explore pollinator biodiversity we selected 15 Faba bean fields that were at the same phenological stage and adjacent to a managed grassland (or a natural grassland area when it was not feasible). We conducted pollinator surveys along 25 days (from early July to middle August) by walking during 15 minutes along each of two 150 x 1 m standardized transects per site. One transect was located at the field edge while the central transect was located at 25 m inside the field from the edge. In 5 fields these transects were adapted to the middle of the field as the field did not reach 50 meters. Transect walks were conducted between 8:00 and 16:30, low wind speeds and temperatures above 15 degrees C. Due Andean high altitude weather characteristics, during shorts periods of rain (minutes) or low clouds we stopped the survey and resumed it when weather allowed. Sites were surveyed thrice in random order. We surveyed all honeybees, bumblebees, solitary bees, hoverflies and other Diptera (e.g: Calliphoridae, Tachinidae, Sarcophagidae) that visited flowers inside Faba beans field and at the margin of the crop capturing the pollinators with a net. Handling time invested in capturing pollinators was discounted. In total, the sampling effort was 90 minutes. Pollinators that were easily identifiable (e.g. honeybees and Bombus funebris, medium and big hoverflies) were recorded without capturing when possible.","Round number: 2. Height above sea level:3780 m."
"Carlos_Zaragoza_Trello_Vicia_faba_Ecuador_2017","Q2","transects","syrphids","family","syrphids",1,900,90,NA,"To explore pollinator biodiversity we selected 15 Faba bean fields that were at the same phenological stage and adjacent to a managed grassland (or a natural grassland area when it was not feasible). We conducted pollinator surveys along 25 days (from early July to middle August) by walking during 15 minutes along each of two 150 x 1 m standardized transects per site. One transect was located at the field edge while the central transect was located at 25 m inside the field from the edge. In 5 fields these transects were adapted to the middle of the field as the field did not reach 50 meters. Transect walks were conducted between 8:00 and 16:30, low wind speeds and temperatures above 15 degrees C. Due Andean high altitude weather characteristics, during shorts periods of rain (minutes) or low clouds we stopped the survey and resumed it when weather allowed. Sites were surveyed thrice in random order. We surveyed all honeybees, bumblebees, solitary bees, hoverflies and other Diptera (e.g: Calliphoridae, Tachinidae, Sarcophagidae) that visited flowers inside Faba beans field and at the margin of the crop capturing the pollinators with a net. Handling time invested in capturing pollinators was discounted. In total, the sampling effort was 90 minutes. Pollinators that were easily identifiable (e.g. honeybees and Bombus funebris, medium and big hoverflies) were recorded without capturing when possible.","Round number: 2. Height above sea level:3780 m."
"Carlos_Zaragoza_Trello_Vicia_faba_Ecuador_2017","Q2","transects","syrphids","family","syrphids",1,900,90,NA,"To explore pollinator biodiversity we selected 15 Faba bean fields that were at the same phenological stage and adjacent to a managed grassland (or a natural grassland area when it was not feasible). We conducted pollinator surveys along 25 days (from early July to middle August) by walking during 15 minutes along each of two 150 x 1 m standardized transects per site. One transect was located at the field edge while the central transect was located at 25 m inside the field from the edge. In 5 fields these transects were adapted to the middle of the field as the field did not reach 50 meters. Transect walks were conducted between 8:00 and 16:30, low wind speeds and temperatures above 15 degrees C. Due Andean high altitude weather characteristics, during shorts periods of rain (minutes) or low clouds we stopped the survey and resumed it when weather allowed. Sites were surveyed thrice in random order. We surveyed all honeybees, bumblebees, solitary bees, hoverflies and other Diptera (e.g: Calliphoridae, Tachinidae, Sarcophagidae) that visited flowers inside Faba beans field and at the margin of the crop capturing the pollinators with a net. Handling time invested in capturing pollinators was discounted. In total, the sampling effort was 90 minutes. Pollinators that were easily identifiable (e.g. honeybees and Bombus funebris, medium and big hoverflies) were recorded without capturing when possible.","Round number: 2. Height above sea level:3780 m."
"Carlos_Zaragoza_Trello_Vicia_faba_Ecuador_2017","Q2","transects","syrphids","family","syrphids",1,900,90,NA,"To explore pollinator biodiversity we selected 15 Faba bean fields that were at the same phenological stage and adjacent to a managed grassland (or a natural grassland area when it was not feasible). We conducted pollinator surveys along 25 days (from early July to middle August) by walking during 15 minutes along each of two 150 x 1 m standardized transects per site. One transect was located at the field edge while the central transect was located at 25 m inside the field from the edge. In 5 fields these transects were adapted to the middle of the field as the field did not reach 50 meters. Transect walks were conducted between 8:00 and 16:30, low wind speeds and temperatures above 15 degrees C. Due Andean high altitude weather characteristics, during shorts periods of rain (minutes) or low clouds we stopped the survey and resumed it when weather allowed. Sites were surveyed thrice in random order. We surveyed all honeybees, bumblebees, solitary bees, hoverflies and other Diptera (e.g: Calliphoridae, Tachinidae, Sarcophagidae) that visited flowers inside Faba beans field and at the margin of the crop capturing the pollinators with a net. Handling time invested in capturing pollinators was discounted. In total, the sampling effort was 90 minutes. Pollinators that were easily identifiable (e.g. honeybees and Bombus funebris, medium and big hoverflies) were recorded without capturing when possible.","Round number: 1. Height above sea level:3780 m."
"Carlos_Zaragoza_Trello_Vicia_faba_Ecuador_2017","Q2","transects","syrphids","family","syrphids",1,900,90,NA,"To explore pollinator biodiversity we selected 15 Faba bean fields that were at the same phenological stage and adjacent to a managed grassland (or a natural grassland area when it was not feasible). We conducted pollinator surveys along 25 days (from early July to middle August) by walking during 15 minutes along each of two 150 x 1 m standardized transects per site. One transect was located at the field edge while the central transect was located at 25 m inside the field from the edge. In 5 fields these transects were adapted to the middle of the field as the field did not reach 50 meters. Transect walks were conducted between 8:00 and 16:30, low wind speeds and temperatures above 15 degrees C. Due Andean high altitude weather characteristics, during shorts periods of rain (minutes) or low clouds we stopped the survey and resumed it when weather allowed. Sites were surveyed thrice in random order. We surveyed all honeybees, bumblebees, solitary bees, hoverflies and other Diptera (e.g: Calliphoridae, Tachinidae, Sarcophagidae) that visited flowers inside Faba beans field and at the margin of the crop capturing the pollinators with a net. Handling time invested in capturing pollinators was discounted. In total, the sampling effort was 90 minutes. Pollinators that were easily identifiable (e.g. honeybees and Bombus funebris, medium and big hoverflies) were recorded without capturing when possible.","Round number: 1. Height above sea level:3780 m."
"Carlos_Zaragoza_Trello_Vicia_faba_Ecuador_2017","Q2","transects","syrphids","family","syrphids",1,900,90,NA,"To explore pollinator biodiversity we selected 15 Faba bean fields that were at the same phenological stage and adjacent to a managed grassland (or a natural grassland area when it was not feasible). We conducted pollinator surveys along 25 days (from early July to middle August) by walking during 15 minutes along each of two 150 x 1 m standardized transects per site. One transect was located at the field edge while the central transect was located at 25 m inside the field from the edge. In 5 fields these transects were adapted to the middle of the field as the field did not reach 50 meters. Transect walks were conducted between 8:00 and 16:30, low wind speeds and temperatures above 15 degrees C. Due Andean high altitude weather characteristics, during shorts periods of rain (minutes) or low clouds we stopped the survey and resumed it when weather allowed. Sites were surveyed thrice in random order. We surveyed all honeybees, bumblebees, solitary bees, hoverflies and other Diptera (e.g: Calliphoridae, Tachinidae, Sarcophagidae) that visited flowers inside Faba beans field and at the margin of the crop capturing the pollinators with a net. Handling time invested in capturing pollinators was discounted. In total, the sampling effort was 90 minutes. Pollinators that were easily identifiable (e.g. honeybees and Bombus funebris, medium and big hoverflies) were recorded without capturing when possible.","Round number: 1. Height above sea level:3780 m."
"Carlos_Zaragoza_Trello_Vicia_faba_Ecuador_2017","Q2","transects","syrphids","family","syrphids",1,900,90,NA,"To explore pollinator biodiversity we selected 15 Faba bean fields that were at the same phenological stage and adjacent to a managed grassland (or a natural grassland area when it was not feasible). We conducted pollinator surveys along 25 days (from early July to middle August) by walking during 15 minutes along each of two 150 x 1 m standardized transects per site. One transect was located at the field edge while the central transect was located at 25 m inside the field from the edge. In 5 fields these transects were adapted to the middle of the field as the field did not reach 50 meters. Transect walks were conducted between 8:00 and 16:30, low wind speeds and temperatures above 15 degrees C. Due Andean high altitude weather characteristics, during shorts periods of rain (minutes) or low clouds we stopped the survey and resumed it when weather allowed. Sites were surveyed thrice in random order. We surveyed all honeybees, bumblebees, solitary bees, hoverflies and other Diptera (e.g: Calliphoridae, Tachinidae, Sarcophagidae) that visited flowers inside Faba beans field and at the margin of the crop capturing the pollinators with a net. Handling time invested in capturing pollinators was discounted. In total, the sampling effort was 90 minutes. Pollinators that were easily identifiable (e.g. honeybees and Bombus funebris, medium and big hoverflies) were recorded without capturing when possible.","Round number: 1. Height above sea level:3780 m."
"Carlos_Zaragoza_Trello_Vicia_faba_Ecuador_2017","Q2","transects","syrphids","family","syrphids",1,900,90,NA,"To explore pollinator biodiversity we selected 15 Faba bean fields that were at the same phenological stage and adjacent to a managed grassland (or a natural grassland area when it was not feasible). We conducted pollinator surveys along 25 days (from early July to middle August) by walking during 15 minutes along each of two 150 x 1 m standardized transects per site. One transect was located at the field edge while the central transect was located at 25 m inside the field from the edge. In 5 fields these transects were adapted to the middle of the field as the field did not reach 50 meters. Transect walks were conducted between 8:00 and 16:30, low wind speeds and temperatures above 15 degrees C. Due Andean high altitude weather characteristics, during shorts periods of rain (minutes) or low clouds we stopped the survey and resumed it when weather allowed. Sites were surveyed thrice in random order. We surveyed all honeybees, bumblebees, solitary bees, hoverflies and other Diptera (e.g: Calliphoridae, Tachinidae, Sarcophagidae) that visited flowers inside Faba beans field and at the margin of the crop capturing the pollinators with a net. Handling time invested in capturing pollinators was discounted. In total, the sampling effort was 90 minutes. Pollinators that were easily identifiable (e.g. honeybees and Bombus funebris, medium and big hoverflies) were recorded without capturing when possible.","Round number: 1. Height above sea level:3780 m."
"Carlos_Zaragoza_Trello_Vicia_faba_Ecuador_2017","Q2","transects","syrphids","family","syrphids",1,900,90,NA,"To explore pollinator biodiversity we selected 15 Faba bean fields that were at the same phenological stage and adjacent to a managed grassland (or a natural grassland area when it was not feasible). We conducted pollinator surveys along 25 days (from early July to middle August) by walking during 15 minutes along each of two 150 x 1 m standardized transects per site. One transect was located at the field edge while the central transect was located at 25 m inside the field from the edge. In 5 fields these transects were adapted to the middle of the field as the field did not reach 50 meters. Transect walks were conducted between 8:00 and 16:30, low wind speeds and temperatures above 15 degrees C. Due Andean high altitude weather characteristics, during shorts periods of rain (minutes) or low clouds we stopped the survey and resumed it when weather allowed. Sites were surveyed thrice in random order. We surveyed all honeybees, bumblebees, solitary bees, hoverflies and other Diptera (e.g: Calliphoridae, Tachinidae, Sarcophagidae) that visited flowers inside Faba beans field and at the margin of the crop capturing the pollinators with a net. Handling time invested in capturing pollinators was discounted. In total, the sampling effort was 90 minutes. Pollinators that were easily identifiable (e.g. honeybees and Bombus funebris, medium and big hoverflies) were recorded without capturing when possible.","Round number: 1. Height above sea level:3780 m."
"Carlos_Zaragoza_Trello_Vicia_faba_Ecuador_2017","Q2","transects","syrphids","family","syrphids",2,900,90,NA,"To explore pollinator biodiversity we selected 15 Faba bean fields that were at the same phenological stage and adjacent to a managed grassland (or a natural grassland area when it was not feasible). We conducted pollinator surveys along 25 days (from early July to middle August) by walking during 15 minutes along each of two 150 x 1 m standardized transects per site. One transect was located at the field edge while the central transect was located at 25 m inside the field from the edge. In 5 fields these transects were adapted to the middle of the field as the field did not reach 50 meters. Transect walks were conducted between 8:00 and 16:30, low wind speeds and temperatures above 15 degrees C. Due Andean high altitude weather characteristics, during shorts periods of rain (minutes) or low clouds we stopped the survey and resumed it when weather allowed. Sites were surveyed thrice in random order. We surveyed all honeybees, bumblebees, solitary bees, hoverflies and other Diptera (e.g: Calliphoridae, Tachinidae, Sarcophagidae) that visited flowers inside Faba beans field and at the margin of the crop capturing the pollinators with a net. Handling time invested in capturing pollinators was discounted. In total, the sampling effort was 90 minutes. Pollinators that were easily identifiable (e.g. honeybees and Bombus funebris, medium and big hoverflies) were recorded without capturing when possible.","Round number: 2. Height above sea level:3780 m."
"Carlos_Zaragoza_Trello_Vicia_faba_Ecuador_2017","Q2","transects","syrphids","family","syrphids",1,900,90,NA,"To explore pollinator biodiversity we selected 15 Faba bean fields that were at the same phenological stage and adjacent to a managed grassland (or a natural grassland area when it was not feasible). We conducted pollinator surveys along 25 days (from early July to middle August) by walking during 15 minutes along each of two 150 x 1 m standardized transects per site. One transect was located at the field edge while the central transect was located at 25 m inside the field from the edge. In 5 fields these transects were adapted to the middle of the field as the field did not reach 50 meters. Transect walks were conducted between 8:00 and 16:30, low wind speeds and temperatures above 15 degrees C. Due Andean high altitude weather characteristics, during shorts periods of rain (minutes) or low clouds we stopped the survey and resumed it when weather allowed. Sites were surveyed thrice in random order. We surveyed all honeybees, bumblebees, solitary bees, hoverflies and other Diptera (e.g: Calliphoridae, Tachinidae, Sarcophagidae) that visited flowers inside Faba beans field and at the margin of the crop capturing the pollinators with a net. Handling time invested in capturing pollinators was discounted. In total, the sampling effort was 90 minutes. Pollinators that were easily identifiable (e.g. honeybees and Bombus funebris, medium and big hoverflies) were recorded without capturing when possible.","Round number: 3. Height above sea level:3780 m."
"Carlos_Zaragoza_Trello_Vicia_faba_Ecuador_2017","Q2","transects","syrphids","family","syrphids",12,900,90,NA,"To explore pollinator biodiversity we selected 15 Faba bean fields that were at the same phenological stage and adjacent to a managed grassland (or a natural grassland area when it was not feasible). We conducted pollinator surveys along 25 days (from early July to middle August) by walking during 15 minutes along each of two 150 x 1 m standardized transects per site. One transect was located at the field edge while the central transect was located at 25 m inside the field from the edge. In 5 fields these transects were adapted to the middle of the field as the field did not reach 50 meters. Transect walks were conducted between 8:00 and 16:30, low wind speeds and temperatures above 15 degrees C. Due Andean high altitude weather characteristics, during shorts periods of rain (minutes) or low clouds we stopped the survey and resumed it when weather allowed. Sites were surveyed thrice in random order. We surveyed all honeybees, bumblebees, solitary bees, hoverflies and other Diptera (e.g: Calliphoridae, Tachinidae, Sarcophagidae) that visited flowers inside Faba beans field and at the margin of the crop capturing the pollinators with a net. Handling time invested in capturing pollinators was discounted. In total, the sampling effort was 90 minutes. Pollinators that were easily identifiable (e.g. honeybees and Bombus funebris, medium and big hoverflies) were recorded without capturing when possible.","Round number: 3. Height above sea level:3780 m."
"Carlos_Zaragoza_Trello_Vicia_faba_Ecuador_2017","Q2","transects","syrphids","family","syrphids",1,900,90,NA,"To explore pollinator biodiversity we selected 15 Faba bean fields that were at the same phenological stage and adjacent to a managed grassland (or a natural grassland area when it was not feasible). We conducted pollinator surveys along 25 days (from early July to middle August) by walking during 15 minutes along each of two 150 x 1 m standardized transects per site. One transect was located at the field edge while the central transect was located at 25 m inside the field from the edge. In 5 fields these transects were adapted to the middle of the field as the field did not reach 50 meters. Transect walks were conducted between 8:00 and 16:30, low wind speeds and temperatures above 15 degrees C. Due Andean high altitude weather characteristics, during shorts periods of rain (minutes) or low clouds we stopped the survey and resumed it when weather allowed. Sites were surveyed thrice in random order. We surveyed all honeybees, bumblebees, solitary bees, hoverflies and other Diptera (e.g: Calliphoridae, Tachinidae, Sarcophagidae) that visited flowers inside Faba beans field and at the margin of the crop capturing the pollinators with a net. Handling time invested in capturing pollinators was discounted. In total, the sampling effort was 90 minutes. Pollinators that were easily identifiable (e.g. honeybees and Bombus funebris, medium and big hoverflies) were recorded without capturing when possible.","Round number: 3. Height above sea level:3780 m."
"Carlos_Zaragoza_Trello_Vicia_faba_Ecuador_2017","Q3","transects","syrphids","family","syrphids",1,900,90,NA,"To explore pollinator biodiversity we selected 15 Faba bean fields that were at the same phenological stage and adjacent to a managed grassland (or a natural grassland area when it was not feasible). We conducted pollinator surveys along 25 days (from early July to middle August) by walking during 15 minutes along each of two 150 x 1 m standardized transects per site. One transect was located at the field edge while the central transect was located at 25 m inside the field from the edge. In 5 fields these transects were adapted to the middle of the field as the field did not reach 50 meters. Transect walks were conducted between 8:00 and 16:30, low wind speeds and temperatures above 15 degrees C. Due Andean high altitude weather characteristics, during shorts periods of rain (minutes) or low clouds we stopped the survey and resumed it when weather allowed. Sites were surveyed thrice in random order. We surveyed all honeybees, bumblebees, solitary bees, hoverflies and other Diptera (e.g: Calliphoridae, Tachinidae, Sarcophagidae) that visited flowers inside Faba beans field and at the margin of the crop capturing the pollinators with a net. Handling time invested in capturing pollinators was discounted. In total, the sampling effort was 90 minutes. Pollinators that were easily identifiable (e.g. honeybees and Bombus funebris, medium and big hoverflies) were recorded without capturing when possible.","Round number: 3. Height above sea level:3747 m."
"Carlos_Zaragoza_Trello_Vicia_faba_Ecuador_2017","Q3","transects","syrphids","family","syrphids",1,900,90,NA,"To explore pollinator biodiversity we selected 15 Faba bean fields that were at the same phenological stage and adjacent to a managed grassland (or a natural grassland area when it was not feasible). We conducted pollinator surveys along 25 days (from early July to middle August) by walking during 15 minutes along each of two 150 x 1 m standardized transects per site. One transect was located at the field edge while the central transect was located at 25 m inside the field from the edge. In 5 fields these transects were adapted to the middle of the field as the field did not reach 50 meters. Transect walks were conducted between 8:00 and 16:30, low wind speeds and temperatures above 15 degrees C. Due Andean high altitude weather characteristics, during shorts periods of rain (minutes) or low clouds we stopped the survey and resumed it when weather allowed. Sites were surveyed thrice in random order. We surveyed all honeybees, bumblebees, solitary bees, hoverflies and other Diptera (e.g: Calliphoridae, Tachinidae, Sarcophagidae) that visited flowers inside Faba beans field and at the margin of the crop capturing the pollinators with a net. Handling time invested in capturing pollinators was discounted. In total, the sampling effort was 90 minutes. Pollinators that were easily identifiable (e.g. honeybees and Bombus funebris, medium and big hoverflies) were recorded without capturing when possible.","Round number: 3. Height above sea level:3747 m."
"Carlos_Zaragoza_Trello_Vicia_faba_Ecuador_2017","Q3","transects","syrphids","family","syrphids",1,900,90,NA,"To explore pollinator biodiversity we selected 15 Faba bean fields that were at the same phenological stage and adjacent to a managed grassland (or a natural grassland area when it was not feasible). We conducted pollinator surveys along 25 days (from early July to middle August) by walking during 15 minutes along each of two 150 x 1 m standardized transects per site. One transect was located at the field edge while the central transect was located at 25 m inside the field from the edge. In 5 fields these transects were adapted to the middle of the field as the field did not reach 50 meters. Transect walks were conducted between 8:00 and 16:30, low wind speeds and temperatures above 15 degrees C. Due Andean high altitude weather characteristics, during shorts periods of rain (minutes) or low clouds we stopped the survey and resumed it when weather allowed. Sites were surveyed thrice in random order. We surveyed all honeybees, bumblebees, solitary bees, hoverflies and other Diptera (e.g: Calliphoridae, Tachinidae, Sarcophagidae) that visited flowers inside Faba beans field and at the margin of the crop capturing the pollinators with a net. Handling time invested in capturing pollinators was discounted. In total, the sampling effort was 90 minutes. Pollinators that were easily identifiable (e.g. honeybees and Bombus funebris, medium and big hoverflies) were recorded without capturing when possible.","Round number: 3. Height above sea level:3747 m."
"Carlos_Zaragoza_Trello_Vicia_faba_Ecuador_2017","Q3","transects","syrphids","family","syrphids",1,900,90,NA,"To explore pollinator biodiversity we selected 15 Faba bean fields that were at the same phenological stage and adjacent to a managed grassland (or a natural grassland area when it was not feasible). We conducted pollinator surveys along 25 days (from early July to middle August) by walking during 15 minutes along each of two 150 x 1 m standardized transects per site. One transect was located at the field edge while the central transect was located at 25 m inside the field from the edge. In 5 fields these transects were adapted to the middle of the field as the field did not reach 50 meters. Transect walks were conducted between 8:00 and 16:30, low wind speeds and temperatures above 15 degrees C. Due Andean high altitude weather characteristics, during shorts periods of rain (minutes) or low clouds we stopped the survey and resumed it when weather allowed. Sites were surveyed thrice in random order. We surveyed all honeybees, bumblebees, solitary bees, hoverflies and other Diptera (e.g: Calliphoridae, Tachinidae, Sarcophagidae) that visited flowers inside Faba beans field and at the margin of the crop capturing the pollinators with a net. Handling time invested in capturing pollinators was discounted. In total, the sampling effort was 90 minutes. Pollinators that were easily identifiable (e.g. honeybees and Bombus funebris, medium and big hoverflies) were recorded without capturing when possible.","Round number: 3. Height above sea level:3747 m."
"Carlos_Zaragoza_Trello_Vicia_faba_Ecuador_2017","Q3","transects","syrphids","family","syrphids",1,900,90,NA,"To explore pollinator biodiversity we selected 15 Faba bean fields that were at the same phenological stage and adjacent to a managed grassland (or a natural grassland area when it was not feasible). We conducted pollinator surveys along 25 days (from early July to middle August) by walking during 15 minutes along each of two 150 x 1 m standardized transects per site. One transect was located at the field edge while the central transect was located at 25 m inside the field from the edge. In 5 fields these transects were adapted to the middle of the field as the field did not reach 50 meters. Transect walks were conducted between 8:00 and 16:30, low wind speeds and temperatures above 15 degrees C. Due Andean high altitude weather characteristics, during shorts periods of rain (minutes) or low clouds we stopped the survey and resumed it when weather allowed. Sites were surveyed thrice in random order. We surveyed all honeybees, bumblebees, solitary bees, hoverflies and other Diptera (e.g: Calliphoridae, Tachinidae, Sarcophagidae) that visited flowers inside Faba beans field and at the margin of the crop capturing the pollinators with a net. Handling time invested in capturing pollinators was discounted. In total, the sampling effort was 90 minutes. Pollinators that were easily identifiable (e.g. honeybees and Bombus funebris, medium and big hoverflies) were recorded without capturing when possible.","Round number: 3. Height above sea level:3747 m."
"Carlos_Zaragoza_Trello_Vicia_faba_Ecuador_2017","Q3","transects","syrphids","family","syrphids",1,900,90,NA,"To explore pollinator biodiversity we selected 15 Faba bean fields that were at the same phenological stage and adjacent to a managed grassland (or a natural grassland area when it was not feasible). We conducted pollinator surveys along 25 days (from early July to middle August) by walking during 15 minutes along each of two 150 x 1 m standardized transects per site. One transect was located at the field edge while the central transect was located at 25 m inside the field from the edge. In 5 fields these transects were adapted to the middle of the field as the field did not reach 50 meters. Transect walks were conducted between 8:00 and 16:30, low wind speeds and temperatures above 15 degrees C. Due Andean high altitude weather characteristics, during shorts periods of rain (minutes) or low clouds we stopped the survey and resumed it when weather allowed. Sites were surveyed thrice in random order. We surveyed all honeybees, bumblebees, solitary bees, hoverflies and other Diptera (e.g: Calliphoridae, Tachinidae, Sarcophagidae) that visited flowers inside Faba beans field and at the margin of the crop capturing the pollinators with a net. Handling time invested in capturing pollinators was discounted. In total, the sampling effort was 90 minutes. Pollinators that were easily identifiable (e.g. honeybees and Bombus funebris, medium and big hoverflies) were recorded without capturing when possible.","Round number: 2. Height above sea level:3747 m."
"Carlos_Zaragoza_Trello_Vicia_faba_Ecuador_2017","Q3","transects","syrphids","family","syrphids",1,900,90,NA,"To explore pollinator biodiversity we selected 15 Faba bean fields that were at the same phenological stage and adjacent to a managed grassland (or a natural grassland area when it was not feasible). We conducted pollinator surveys along 25 days (from early July to middle August) by walking during 15 minutes along each of two 150 x 1 m standardized transects per site. One transect was located at the field edge while the central transect was located at 25 m inside the field from the edge. In 5 fields these transects were adapted to the middle of the field as the field did not reach 50 meters. Transect walks were conducted between 8:00 and 16:30, low wind speeds and temperatures above 15 degrees C. Due Andean high altitude weather characteristics, during shorts periods of rain (minutes) or low clouds we stopped the survey and resumed it when weather allowed. Sites were surveyed thrice in random order. We surveyed all honeybees, bumblebees, solitary bees, hoverflies and other Diptera (e.g: Calliphoridae, Tachinidae, Sarcophagidae) that visited flowers inside Faba beans field and at the margin of the crop capturing the pollinators with a net. Handling time invested in capturing pollinators was discounted. In total, the sampling effort was 90 minutes. Pollinators that were easily identifiable (e.g. honeybees and Bombus funebris, medium and big hoverflies) were recorded without capturing when possible.","Round number: 2. Height above sea level:3747 m."
"Carlos_Zaragoza_Trello_Vicia_faba_Ecuador_2017","Q3","transects","syrphids","family","syrphids",1,900,90,NA,"To explore pollinator biodiversity we selected 15 Faba bean fields that were at the same phenological stage and adjacent to a managed grassland (or a natural grassland area when it was not feasible). We conducted pollinator surveys along 25 days (from early July to middle August) by walking during 15 minutes along each of two 150 x 1 m standardized transects per site. One transect was located at the field edge while the central transect was located at 25 m inside the field from the edge. In 5 fields these transects were adapted to the middle of the field as the field did not reach 50 meters. Transect walks were conducted between 8:00 and 16:30, low wind speeds and temperatures above 15 degrees C. Due Andean high altitude weather characteristics, during shorts periods of rain (minutes) or low clouds we stopped the survey and resumed it when weather allowed. Sites were surveyed thrice in random order. We surveyed all honeybees, bumblebees, solitary bees, hoverflies and other Diptera (e.g: Calliphoridae, Tachinidae, Sarcophagidae) that visited flowers inside Faba beans field and at the margin of the crop capturing the pollinators with a net. Handling time invested in capturing pollinators was discounted. In total, the sampling effort was 90 minutes. Pollinators that were easily identifiable (e.g. honeybees and Bombus funebris, medium and big hoverflies) were recorded without capturing when possible.","Round number: 2. Height above sea level:3747 m."
"Carlos_Zaragoza_Trello_Vicia_faba_Ecuador_2017","Q3","transects","syrphids","family","syrphids",1,900,90,NA,"To explore pollinator biodiversity we selected 15 Faba bean fields that were at the same phenological stage and adjacent to a managed grassland (or a natural grassland area when it was not feasible). We conducted pollinator surveys along 25 days (from early July to middle August) by walking during 15 minutes along each of two 150 x 1 m standardized transects per site. One transect was located at the field edge while the central transect was located at 25 m inside the field from the edge. In 5 fields these transects were adapted to the middle of the field as the field did not reach 50 meters. Transect walks were conducted between 8:00 and 16:30, low wind speeds and temperatures above 15 degrees C. Due Andean high altitude weather characteristics, during shorts periods of rain (minutes) or low clouds we stopped the survey and resumed it when weather allowed. Sites were surveyed thrice in random order. We surveyed all honeybees, bumblebees, solitary bees, hoverflies and other Diptera (e.g: Calliphoridae, Tachinidae, Sarcophagidae) that visited flowers inside Faba beans field and at the margin of the crop capturing the pollinators with a net. Handling time invested in capturing pollinators was discounted. In total, the sampling effort was 90 minutes. Pollinators that were easily identifiable (e.g. honeybees and Bombus funebris, medium and big hoverflies) were recorded without capturing when possible.","Round number: 2. Height above sea level:3747 m."
"Carlos_Zaragoza_Trello_Vicia_faba_Ecuador_2017","Q3","transects","syrphids","family","syrphids",1,900,90,NA,"To explore pollinator biodiversity we selected 15 Faba bean fields that were at the same phenological stage and adjacent to a managed grassland (or a natural grassland area when it was not feasible). We conducted pollinator surveys along 25 days (from early July to middle August) by walking during 15 minutes along each of two 150 x 1 m standardized transects per site. One transect was located at the field edge while the central transect was located at 25 m inside the field from the edge. In 5 fields these transects were adapted to the middle of the field as the field did not reach 50 meters. Transect walks were conducted between 8:00 and 16:30, low wind speeds and temperatures above 15 degrees C. Due Andean high altitude weather characteristics, during shorts periods of rain (minutes) or low clouds we stopped the survey and resumed it when weather allowed. Sites were surveyed thrice in random order. We surveyed all honeybees, bumblebees, solitary bees, hoverflies and other Diptera (e.g: Calliphoridae, Tachinidae, Sarcophagidae) that visited flowers inside Faba beans field and at the margin of the crop capturing the pollinators with a net. Handling time invested in capturing pollinators was discounted. In total, the sampling effort was 90 minutes. Pollinators that were easily identifiable (e.g. honeybees and Bombus funebris, medium and big hoverflies) were recorded without capturing when possible.","Round number: 2. Height above sea level:3747 m."
"Carlos_Zaragoza_Trello_Vicia_faba_Ecuador_2017","Q3","transects","syrphids","family","syrphids",1,900,90,NA,"To explore pollinator biodiversity we selected 15 Faba bean fields that were at the same phenological stage and adjacent to a managed grassland (or a natural grassland area when it was not feasible). We conducted pollinator surveys along 25 days (from early July to middle August) by walking during 15 minutes along each of two 150 x 1 m standardized transects per site. One transect was located at the field edge while the central transect was located at 25 m inside the field from the edge. In 5 fields these transects were adapted to the middle of the field as the field did not reach 50 meters. Transect walks were conducted between 8:00 and 16:30, low wind speeds and temperatures above 15 degrees C. Due Andean high altitude weather characteristics, during shorts periods of rain (minutes) or low clouds we stopped the survey and resumed it when weather allowed. Sites were surveyed thrice in random order. We surveyed all honeybees, bumblebees, solitary bees, hoverflies and other Diptera (e.g: Calliphoridae, Tachinidae, Sarcophagidae) that visited flowers inside Faba beans field and at the margin of the crop capturing the pollinators with a net. Handling time invested in capturing pollinators was discounted. In total, the sampling effort was 90 minutes. Pollinators that were easily identifiable (e.g. honeybees and Bombus funebris, medium and big hoverflies) were recorded without capturing when possible.","Round number: 1. Height above sea level:3747 m."
"Carlos_Zaragoza_Trello_Vicia_faba_Ecuador_2017","Q3","transects","syrphids","family","syrphids",1,900,90,NA,"To explore pollinator biodiversity we selected 15 Faba bean fields that were at the same phenological stage and adjacent to a managed grassland (or a natural grassland area when it was not feasible). We conducted pollinator surveys along 25 days (from early July to middle August) by walking during 15 minutes along each of two 150 x 1 m standardized transects per site. One transect was located at the field edge while the central transect was located at 25 m inside the field from the edge. In 5 fields these transects were adapted to the middle of the field as the field did not reach 50 meters. Transect walks were conducted between 8:00 and 16:30, low wind speeds and temperatures above 15 degrees C. Due Andean high altitude weather characteristics, during shorts periods of rain (minutes) or low clouds we stopped the survey and resumed it when weather allowed. Sites were surveyed thrice in random order. We surveyed all honeybees, bumblebees, solitary bees, hoverflies and other Diptera (e.g: Calliphoridae, Tachinidae, Sarcophagidae) that visited flowers inside Faba beans field and at the margin of the crop capturing the pollinators with a net. Handling time invested in capturing pollinators was discounted. In total, the sampling effort was 90 minutes. Pollinators that were easily identifiable (e.g. honeybees and Bombus funebris, medium and big hoverflies) were recorded without capturing when possible.","Round number: 1. Height above sea level:3747 m."
"Carlos_Zaragoza_Trello_Vicia_faba_Ecuador_2017","Q3","transects","syrphids","family","syrphids",1,900,90,NA,"To explore pollinator biodiversity we selected 15 Faba bean fields that were at the same phenological stage and adjacent to a managed grassland (or a natural grassland area when it was not feasible). We conducted pollinator surveys along 25 days (from early July to middle August) by walking during 15 minutes along each of two 150 x 1 m standardized transects per site. One transect was located at the field edge while the central transect was located at 25 m inside the field from the edge. In 5 fields these transects were adapted to the middle of the field as the field did not reach 50 meters. Transect walks were conducted between 8:00 and 16:30, low wind speeds and temperatures above 15 degrees C. Due Andean high altitude weather characteristics, during shorts periods of rain (minutes) or low clouds we stopped the survey and resumed it when weather allowed. Sites were surveyed thrice in random order. We surveyed all honeybees, bumblebees, solitary bees, hoverflies and other Diptera (e.g: Calliphoridae, Tachinidae, Sarcophagidae) that visited flowers inside Faba beans field and at the margin of the crop capturing the pollinators with a net. Handling time invested in capturing pollinators was discounted. In total, the sampling effort was 90 minutes. Pollinators that were easily identifiable (e.g. honeybees and Bombus funebris, medium and big hoverflies) were recorded without capturing when possible.","Round number: 2. Height above sea level:3747 m."
"Carlos_Zaragoza_Trello_Vicia_faba_Ecuador_2017","Q3","transects","syrphids","family","syrphids",2,900,90,NA,"To explore pollinator biodiversity we selected 15 Faba bean fields that were at the same phenological stage and adjacent to a managed grassland (or a natural grassland area when it was not feasible). We conducted pollinator surveys along 25 days (from early July to middle August) by walking during 15 minutes along each of two 150 x 1 m standardized transects per site. One transect was located at the field edge while the central transect was located at 25 m inside the field from the edge. In 5 fields these transects were adapted to the middle of the field as the field did not reach 50 meters. Transect walks were conducted between 8:00 and 16:30, low wind speeds and temperatures above 15 degrees C. Due Andean high altitude weather characteristics, during shorts periods of rain (minutes) or low clouds we stopped the survey and resumed it when weather allowed. Sites were surveyed thrice in random order. We surveyed all honeybees, bumblebees, solitary bees, hoverflies and other Diptera (e.g: Calliphoridae, Tachinidae, Sarcophagidae) that visited flowers inside Faba beans field and at the margin of the crop capturing the pollinators with a net. Handling time invested in capturing pollinators was discounted. In total, the sampling effort was 90 minutes. Pollinators that were easily identifiable (e.g. honeybees and Bombus funebris, medium and big hoverflies) were recorded without capturing when possible.","Round number: 2. Height above sea level:3747 m."
"Carlos_Zaragoza_Trello_Vicia_faba_Ecuador_2017","Q3","transects","syrphids","family","syrphids",1,900,90,NA,"To explore pollinator biodiversity we selected 15 Faba bean fields that were at the same phenological stage and adjacent to a managed grassland (or a natural grassland area when it was not feasible). We conducted pollinator surveys along 25 days (from early July to middle August) by walking during 15 minutes along each of two 150 x 1 m standardized transects per site. One transect was located at the field edge while the central transect was located at 25 m inside the field from the edge. In 5 fields these transects were adapted to the middle of the field as the field did not reach 50 meters. Transect walks were conducted between 8:00 and 16:30, low wind speeds and temperatures above 15 degrees C. Due Andean high altitude weather characteristics, during shorts periods of rain (minutes) or low clouds we stopped the survey and resumed it when weather allowed. Sites were surveyed thrice in random order. We surveyed all honeybees, bumblebees, solitary bees, hoverflies and other Diptera (e.g: Calliphoridae, Tachinidae, Sarcophagidae) that visited flowers inside Faba beans field and at the margin of the crop capturing the pollinators with a net. Handling time invested in capturing pollinators was discounted. In total, the sampling effort was 90 minutes. Pollinators that were easily identifiable (e.g. honeybees and Bombus funebris, medium and big hoverflies) were recorded without capturing when possible.","Round number: 2. Height above sea level:3747 m."
"Carlos_Zaragoza_Trello_Vicia_faba_Ecuador_2017","Q3","transects","syrphids","family","syrphids",1,900,90,NA,"To explore pollinator biodiversity we selected 15 Faba bean fields that were at the same phenological stage and adjacent to a managed grassland (or a natural grassland area when it was not feasible). We conducted pollinator surveys along 25 days (from early July to middle August) by walking during 15 minutes along each of two 150 x 1 m standardized transects per site. One transect was located at the field edge while the central transect was located at 25 m inside the field from the edge. In 5 fields these transects were adapted to the middle of the field as the field did not reach 50 meters. Transect walks were conducted between 8:00 and 16:30, low wind speeds and temperatures above 15 degrees C. Due Andean high altitude weather characteristics, during shorts periods of rain (minutes) or low clouds we stopped the survey and resumed it when weather allowed. Sites were surveyed thrice in random order. We surveyed all honeybees, bumblebees, solitary bees, hoverflies and other Diptera (e.g: Calliphoridae, Tachinidae, Sarcophagidae) that visited flowers inside Faba beans field and at the margin of the crop capturing the pollinators with a net. Handling time invested in capturing pollinators was discounted. In total, the sampling effort was 90 minutes. Pollinators that were easily identifiable (e.g. honeybees and Bombus funebris, medium and big hoverflies) were recorded without capturing when possible.","Round number: 2. Height above sea level:3747 m."
"Carlos_Zaragoza_Trello_Vicia_faba_Ecuador_2017","Q3","transects","syrphids","family","syrphids",2,900,90,NA,"To explore pollinator biodiversity we selected 15 Faba bean fields that were at the same phenological stage and adjacent to a managed grassland (or a natural grassland area when it was not feasible). We conducted pollinator surveys along 25 days (from early July to middle August) by walking during 15 minutes along each of two 150 x 1 m standardized transects per site. One transect was located at the field edge while the central transect was located at 25 m inside the field from the edge. In 5 fields these transects were adapted to the middle of the field as the field did not reach 50 meters. Transect walks were conducted between 8:00 and 16:30, low wind speeds and temperatures above 15 degrees C. Due Andean high altitude weather characteristics, during shorts periods of rain (minutes) or low clouds we stopped the survey and resumed it when weather allowed. Sites were surveyed thrice in random order. We surveyed all honeybees, bumblebees, solitary bees, hoverflies and other Diptera (e.g: Calliphoridae, Tachinidae, Sarcophagidae) that visited flowers inside Faba beans field and at the margin of the crop capturing the pollinators with a net. Handling time invested in capturing pollinators was discounted. In total, the sampling effort was 90 minutes. Pollinators that were easily identifiable (e.g. honeybees and Bombus funebris, medium and big hoverflies) were recorded without capturing when possible.","Round number: 2. Height above sea level:3747 m."
"Carlos_Zaragoza_Trello_Vicia_faba_Ecuador_2017","Q3","transects","syrphids","family","syrphids",1,900,90,NA,"To explore pollinator biodiversity we selected 15 Faba bean fields that were at the same phenological stage and adjacent to a managed grassland (or a natural grassland area when it was not feasible). We conducted pollinator surveys along 25 days (from early July to middle August) by walking during 15 minutes along each of two 150 x 1 m standardized transects per site. One transect was located at the field edge while the central transect was located at 25 m inside the field from the edge. In 5 fields these transects were adapted to the middle of the field as the field did not reach 50 meters. Transect walks were conducted between 8:00 and 16:30, low wind speeds and temperatures above 15 degrees C. Due Andean high altitude weather characteristics, during shorts periods of rain (minutes) or low clouds we stopped the survey and resumed it when weather allowed. Sites were surveyed thrice in random order. We surveyed all honeybees, bumblebees, solitary bees, hoverflies and other Diptera (e.g: Calliphoridae, Tachinidae, Sarcophagidae) that visited flowers inside Faba beans field and at the margin of the crop capturing the pollinators with a net. Handling time invested in capturing pollinators was discounted. In total, the sampling effort was 90 minutes. Pollinators that were easily identifiable (e.g. honeybees and Bombus funebris, medium and big hoverflies) were recorded without capturing when possible.","Round number: 3. Height above sea level:3747 m."
"Carlos_Zaragoza_Trello_Vicia_faba_Ecuador_2017","Q3","transects","syrphids","family","syrphids",7,900,90,NA,"To explore pollinator biodiversity we selected 15 Faba bean fields that were at the same phenological stage and adjacent to a managed grassland (or a natural grassland area when it was not feasible). We conducted pollinator surveys along 25 days (from early July to middle August) by walking during 15 minutes along each of two 150 x 1 m standardized transects per site. One transect was located at the field edge while the central transect was located at 25 m inside the field from the edge. In 5 fields these transects were adapted to the middle of the field as the field did not reach 50 meters. Transect walks were conducted between 8:00 and 16:30, low wind speeds and temperatures above 15 degrees C. Due Andean high altitude weather characteristics, during shorts periods of rain (minutes) or low clouds we stopped the survey and resumed it when weather allowed. Sites were surveyed thrice in random order. We surveyed all honeybees, bumblebees, solitary bees, hoverflies and other Diptera (e.g: Calliphoridae, Tachinidae, Sarcophagidae) that visited flowers inside Faba beans field and at the margin of the crop capturing the pollinators with a net. Handling time invested in capturing pollinators was discounted. In total, the sampling effort was 90 minutes. Pollinators that were easily identifiable (e.g. honeybees and Bombus funebris, medium and big hoverflies) were recorded without capturing when possible.","Round number: 2. Height above sea level:3747 m."
"Carlos_Zaragoza_Trello_Vicia_faba_Ecuador_2017","Q3","transects","syrphids","family","syrphids",5,900,90,NA,"To explore pollinator biodiversity we selected 15 Faba bean fields that were at the same phenological stage and adjacent to a managed grassland (or a natural grassland area when it was not feasible). We conducted pollinator surveys along 25 days (from early July to middle August) by walking during 15 minutes along each of two 150 x 1 m standardized transects per site. One transect was located at the field edge while the central transect was located at 25 m inside the field from the edge. In 5 fields these transects were adapted to the middle of the field as the field did not reach 50 meters. Transect walks were conducted between 8:00 and 16:30, low wind speeds and temperatures above 15 degrees C. Due Andean high altitude weather characteristics, during shorts periods of rain (minutes) or low clouds we stopped the survey and resumed it when weather allowed. Sites were surveyed thrice in random order. We surveyed all honeybees, bumblebees, solitary bees, hoverflies and other Diptera (e.g: Calliphoridae, Tachinidae, Sarcophagidae) that visited flowers inside Faba beans field and at the margin of the crop capturing the pollinators with a net. Handling time invested in capturing pollinators was discounted. In total, the sampling effort was 90 minutes. Pollinators that were easily identifiable (e.g. honeybees and Bombus funebris, medium and big hoverflies) were recorded without capturing when possible.","Round number: 3. Height above sea level:3747 m."
"Carlos_Zaragoza_Trello_Vicia_faba_Ecuador_2017","Q4","transects","syrphids","family","syrphids",1,900,90,NA,"To explore pollinator biodiversity we selected 15 Faba bean fields that were at the same phenological stage and adjacent to a managed grassland (or a natural grassland area when it was not feasible). We conducted pollinator surveys along 25 days (from early July to middle August) by walking during 15 minutes along each of two 150 x 1 m standardized transects per site. One transect was located at the field edge while the central transect was located at 25 m inside the field from the edge. In 5 fields these transects were adapted to the middle of the field as the field did not reach 50 meters. Transect walks were conducted between 8:00 and 16:30, low wind speeds and temperatures above 15 degrees C. Due Andean high altitude weather characteristics, during shorts periods of rain (minutes) or low clouds we stopped the survey and resumed it when weather allowed. Sites were surveyed thrice in random order. We surveyed all honeybees, bumblebees, solitary bees, hoverflies and other Diptera (e.g: Calliphoridae, Tachinidae, Sarcophagidae) that visited flowers inside Faba beans field and at the margin of the crop capturing the pollinators with a net. Handling time invested in capturing pollinators was discounted. In total, the sampling effort was 90 minutes. Pollinators that were easily identifiable (e.g. honeybees and Bombus funebris, medium and big hoverflies) were recorded without capturing when possible.","Round number: 3. Height above sea level:3838 m."
"Carlos_Zaragoza_Trello_Vicia_faba_Ecuador_2017","Q4","transects","syrphids","family","syrphids",1,900,90,NA,"To explore pollinator biodiversity we selected 15 Faba bean fields that were at the same phenological stage and adjacent to a managed grassland (or a natural grassland area when it was not feasible). We conducted pollinator surveys along 25 days (from early July to middle August) by walking during 15 minutes along each of two 150 x 1 m standardized transects per site. One transect was located at the field edge while the central transect was located at 25 m inside the field from the edge. In 5 fields these transects were adapted to the middle of the field as the field did not reach 50 meters. Transect walks were conducted between 8:00 and 16:30, low wind speeds and temperatures above 15 degrees C. Due Andean high altitude weather characteristics, during shorts periods of rain (minutes) or low clouds we stopped the survey and resumed it when weather allowed. Sites were surveyed thrice in random order. We surveyed all honeybees, bumblebees, solitary bees, hoverflies and other Diptera (e.g: Calliphoridae, Tachinidae, Sarcophagidae) that visited flowers inside Faba beans field and at the margin of the crop capturing the pollinators with a net. Handling time invested in capturing pollinators was discounted. In total, the sampling effort was 90 minutes. Pollinators that were easily identifiable (e.g. honeybees and Bombus funebris, medium and big hoverflies) were recorded without capturing when possible.","Round number: 3. Height above sea level:3838 m."
"Carlos_Zaragoza_Trello_Vicia_faba_Ecuador_2017","Q4","transects","syrphids","family","syrphids",1,900,90,NA,"To explore pollinator biodiversity we selected 15 Faba bean fields that were at the same phenological stage and adjacent to a managed grassland (or a natural grassland area when it was not feasible). We conducted pollinator surveys along 25 days (from early July to middle August) by walking during 15 minutes along each of two 150 x 1 m standardized transects per site. One transect was located at the field edge while the central transect was located at 25 m inside the field from the edge. In 5 fields these transects were adapted to the middle of the field as the field did not reach 50 meters. Transect walks were conducted between 8:00 and 16:30, low wind speeds and temperatures above 15 degrees C. Due Andean high altitude weather characteristics, during shorts periods of rain (minutes) or low clouds we stopped the survey and resumed it when weather allowed. Sites were surveyed thrice in random order. We surveyed all honeybees, bumblebees, solitary bees, hoverflies and other Diptera (e.g: Calliphoridae, Tachinidae, Sarcophagidae) that visited flowers inside Faba beans field and at the margin of the crop capturing the pollinators with a net. Handling time invested in capturing pollinators was discounted. In total, the sampling effort was 90 minutes. Pollinators that were easily identifiable (e.g. honeybees and Bombus funebris, medium and big hoverflies) were recorded without capturing when possible.","Round number: 3. Height above sea level:3838 m."
"Carlos_Zaragoza_Trello_Vicia_faba_Ecuador_2017","Q4","transects","syrphids","family","syrphids",1,900,90,NA,"To explore pollinator biodiversity we selected 15 Faba bean fields that were at the same phenological stage and adjacent to a managed grassland (or a natural grassland area when it was not feasible). We conducted pollinator surveys along 25 days (from early July to middle August) by walking during 15 minutes along each of two 150 x 1 m standardized transects per site. One transect was located at the field edge while the central transect was located at 25 m inside the field from the edge. In 5 fields these transects were adapted to the middle of the field as the field did not reach 50 meters. Transect walks were conducted between 8:00 and 16:30, low wind speeds and temperatures above 15 degrees C. Due Andean high altitude weather characteristics, during shorts periods of rain (minutes) or low clouds we stopped the survey and resumed it when weather allowed. Sites were surveyed thrice in random order. We surveyed all honeybees, bumblebees, solitary bees, hoverflies and other Diptera (e.g: Calliphoridae, Tachinidae, Sarcophagidae) that visited flowers inside Faba beans field and at the margin of the crop capturing the pollinators with a net. Handling time invested in capturing pollinators was discounted. In total, the sampling effort was 90 minutes. Pollinators that were easily identifiable (e.g. honeybees and Bombus funebris, medium and big hoverflies) were recorded without capturing when possible.","Round number: 1. Height above sea level:3838 m."
"Carlos_Zaragoza_Trello_Vicia_faba_Ecuador_2017","Q4","transects","syrphids","family","syrphids",1,900,90,NA,"To explore pollinator biodiversity we selected 15 Faba bean fields that were at the same phenological stage and adjacent to a managed grassland (or a natural grassland area when it was not feasible). We conducted pollinator surveys along 25 days (from early July to middle August) by walking during 15 minutes along each of two 150 x 1 m standardized transects per site. One transect was located at the field edge while the central transect was located at 25 m inside the field from the edge. In 5 fields these transects were adapted to the middle of the field as the field did not reach 50 meters. Transect walks were conducted between 8:00 and 16:30, low wind speeds and temperatures above 15 degrees C. Due Andean high altitude weather characteristics, during shorts periods of rain (minutes) or low clouds we stopped the survey and resumed it when weather allowed. Sites were surveyed thrice in random order. We surveyed all honeybees, bumblebees, solitary bees, hoverflies and other Diptera (e.g: Calliphoridae, Tachinidae, Sarcophagidae) that visited flowers inside Faba beans field and at the margin of the crop capturing the pollinators with a net. Handling time invested in capturing pollinators was discounted. In total, the sampling effort was 90 minutes. Pollinators that were easily identifiable (e.g. honeybees and Bombus funebris, medium and big hoverflies) were recorded without capturing when possible.","Round number: 1. Height above sea level:3838 m."
"Carlos_Zaragoza_Trello_Vicia_faba_Ecuador_2017","Q4","transects","syrphids","family","syrphids",1,900,90,NA,"To explore pollinator biodiversity we selected 15 Faba bean fields that were at the same phenological stage and adjacent to a managed grassland (or a natural grassland area when it was not feasible). We conducted pollinator surveys along 25 days (from early July to middle August) by walking during 15 minutes along each of two 150 x 1 m standardized transects per site. One transect was located at the field edge while the central transect was located at 25 m inside the field from the edge. In 5 fields these transects were adapted to the middle of the field as the field did not reach 50 meters. Transect walks were conducted between 8:00 and 16:30, low wind speeds and temperatures above 15 degrees C. Due Andean high altitude weather characteristics, during shorts periods of rain (minutes) or low clouds we stopped the survey and resumed it when weather allowed. Sites were surveyed thrice in random order. We surveyed all honeybees, bumblebees, solitary bees, hoverflies and other Diptera (e.g: Calliphoridae, Tachinidae, Sarcophagidae) that visited flowers inside Faba beans field and at the margin of the crop capturing the pollinators with a net. Handling time invested in capturing pollinators was discounted. In total, the sampling effort was 90 minutes. Pollinators that were easily identifiable (e.g. honeybees and Bombus funebris, medium and big hoverflies) were recorded without capturing when possible.","Round number: 1. Height above sea level:3838 m."
"Carlos_Zaragoza_Trello_Vicia_faba_Ecuador_2017","Q4","transects","syrphids","family","syrphids",1,900,90,NA,"To explore pollinator biodiversity we selected 15 Faba bean fields that were at the same phenological stage and adjacent to a managed grassland (or a natural grassland area when it was not feasible). We conducted pollinator surveys along 25 days (from early July to middle August) by walking during 15 minutes along each of two 150 x 1 m standardized transects per site. One transect was located at the field edge while the central transect was located at 25 m inside the field from the edge. In 5 fields these transects were adapted to the middle of the field as the field did not reach 50 meters. Transect walks were conducted between 8:00 and 16:30, low wind speeds and temperatures above 15 degrees C. Due Andean high altitude weather characteristics, during shorts periods of rain (minutes) or low clouds we stopped the survey and resumed it when weather allowed. Sites were surveyed thrice in random order. We surveyed all honeybees, bumblebees, solitary bees, hoverflies and other Diptera (e.g: Calliphoridae, Tachinidae, Sarcophagidae) that visited flowers inside Faba beans field and at the margin of the crop capturing the pollinators with a net. Handling time invested in capturing pollinators was discounted. In total, the sampling effort was 90 minutes. Pollinators that were easily identifiable (e.g. honeybees and Bombus funebris, medium and big hoverflies) were recorded without capturing when possible.","Round number: 1. Height above sea level:3838 m."
"Carlos_Zaragoza_Trello_Vicia_faba_Ecuador_2017","Q4","transects","syrphids","family","syrphids",1,900,90,NA,"To explore pollinator biodiversity we selected 15 Faba bean fields that were at the same phenological stage and adjacent to a managed grassland (or a natural grassland area when it was not feasible). We conducted pollinator surveys along 25 days (from early July to middle August) by walking during 15 minutes along each of two 150 x 1 m standardized transects per site. One transect was located at the field edge while the central transect was located at 25 m inside the field from the edge. In 5 fields these transects were adapted to the middle of the field as the field did not reach 50 meters. Transect walks were conducted between 8:00 and 16:30, low wind speeds and temperatures above 15 degrees C. Due Andean high altitude weather characteristics, during shorts periods of rain (minutes) or low clouds we stopped the survey and resumed it when weather allowed. Sites were surveyed thrice in random order. We surveyed all honeybees, bumblebees, solitary bees, hoverflies and other Diptera (e.g: Calliphoridae, Tachinidae, Sarcophagidae) that visited flowers inside Faba beans field and at the margin of the crop capturing the pollinators with a net. Handling time invested in capturing pollinators was discounted. In total, the sampling effort was 90 minutes. Pollinators that were easily identifiable (e.g. honeybees and Bombus funebris, medium and big hoverflies) were recorded without capturing when possible.","Round number: 1. Height above sea level:3838 m."
"Carlos_Zaragoza_Trello_Vicia_faba_Ecuador_2017","Q4","transects","syrphids","family","syrphids",1,900,90,NA,"To explore pollinator biodiversity we selected 15 Faba bean fields that were at the same phenological stage and adjacent to a managed grassland (or a natural grassland area when it was not feasible). We conducted pollinator surveys along 25 days (from early July to middle August) by walking during 15 minutes along each of two 150 x 1 m standardized transects per site. One transect was located at the field edge while the central transect was located at 25 m inside the field from the edge. In 5 fields these transects were adapted to the middle of the field as the field did not reach 50 meters. Transect walks were conducted between 8:00 and 16:30, low wind speeds and temperatures above 15 degrees C. Due Andean high altitude weather characteristics, during shorts periods of rain (minutes) or low clouds we stopped the survey and resumed it when weather allowed. Sites were surveyed thrice in random order. We surveyed all honeybees, bumblebees, solitary bees, hoverflies and other Diptera (e.g: Calliphoridae, Tachinidae, Sarcophagidae) that visited flowers inside Faba beans field and at the margin of the crop capturing the pollinators with a net. Handling time invested in capturing pollinators was discounted. In total, the sampling effort was 90 minutes. Pollinators that were easily identifiable (e.g. honeybees and Bombus funebris, medium and big hoverflies) were recorded without capturing when possible.","Round number: 1. Height above sea level:3838 m."
"Carlos_Zaragoza_Trello_Vicia_faba_Ecuador_2017","Q4","transects","syrphids","family","syrphids",1,900,90,NA,"To explore pollinator biodiversity we selected 15 Faba bean fields that were at the same phenological stage and adjacent to a managed grassland (or a natural grassland area when it was not feasible). We conducted pollinator surveys along 25 days (from early July to middle August) by walking during 15 minutes along each of two 150 x 1 m standardized transects per site. One transect was located at the field edge while the central transect was located at 25 m inside the field from the edge. In 5 fields these transects were adapted to the middle of the field as the field did not reach 50 meters. Transect walks were conducted between 8:00 and 16:30, low wind speeds and temperatures above 15 degrees C. Due Andean high altitude weather characteristics, during shorts periods of rain (minutes) or low clouds we stopped the survey and resumed it when weather allowed. Sites were surveyed thrice in random order. We surveyed all honeybees, bumblebees, solitary bees, hoverflies and other Diptera (e.g: Calliphoridae, Tachinidae, Sarcophagidae) that visited flowers inside Faba beans field and at the margin of the crop capturing the pollinators with a net. Handling time invested in capturing pollinators was discounted. In total, the sampling effort was 90 minutes. Pollinators that were easily identifiable (e.g. honeybees and Bombus funebris, medium and big hoverflies) were recorded without capturing when possible.","Round number: 2. Height above sea level:3838 m."
"Carlos_Zaragoza_Trello_Vicia_faba_Ecuador_2017","Q4","transects","syrphids","family","syrphids",1,900,90,NA,"To explore pollinator biodiversity we selected 15 Faba bean fields that were at the same phenological stage and adjacent to a managed grassland (or a natural grassland area when it was not feasible). We conducted pollinator surveys along 25 days (from early July to middle August) by walking during 15 minutes along each of two 150 x 1 m standardized transects per site. One transect was located at the field edge while the central transect was located at 25 m inside the field from the edge. In 5 fields these transects were adapted to the middle of the field as the field did not reach 50 meters. Transect walks were conducted between 8:00 and 16:30, low wind speeds and temperatures above 15 degrees C. Due Andean high altitude weather characteristics, during shorts periods of rain (minutes) or low clouds we stopped the survey and resumed it when weather allowed. Sites were surveyed thrice in random order. We surveyed all honeybees, bumblebees, solitary bees, hoverflies and other Diptera (e.g: Calliphoridae, Tachinidae, Sarcophagidae) that visited flowers inside Faba beans field and at the margin of the crop capturing the pollinators with a net. Handling time invested in capturing pollinators was discounted. In total, the sampling effort was 90 minutes. Pollinators that were easily identifiable (e.g. honeybees and Bombus funebris, medium and big hoverflies) were recorded without capturing when possible.","Round number: 3. Height above sea level:3838 m."
"Carlos_Zaragoza_Trello_Vicia_faba_Ecuador_2017","Q4","transects","syrphids","family","syrphids",1,900,90,NA,"To explore pollinator biodiversity we selected 15 Faba bean fields that were at the same phenological stage and adjacent to a managed grassland (or a natural grassland area when it was not feasible). We conducted pollinator surveys along 25 days (from early July to middle August) by walking during 15 minutes along each of two 150 x 1 m standardized transects per site. One transect was located at the field edge while the central transect was located at 25 m inside the field from the edge. In 5 fields these transects were adapted to the middle of the field as the field did not reach 50 meters. Transect walks were conducted between 8:00 and 16:30, low wind speeds and temperatures above 15 degrees C. Due Andean high altitude weather characteristics, during shorts periods of rain (minutes) or low clouds we stopped the survey and resumed it when weather allowed. Sites were surveyed thrice in random order. We surveyed all honeybees, bumblebees, solitary bees, hoverflies and other Diptera (e.g: Calliphoridae, Tachinidae, Sarcophagidae) that visited flowers inside Faba beans field and at the margin of the crop capturing the pollinators with a net. Handling time invested in capturing pollinators was discounted. In total, the sampling effort was 90 minutes. Pollinators that were easily identifiable (e.g. honeybees and Bombus funebris, medium and big hoverflies) were recorded without capturing when possible.","Round number: 2. Height above sea level:3838 m."
"Carlos_Zaragoza_Trello_Vicia_faba_Ecuador_2017","Q4","transects","syrphids","family","syrphids",4,900,90,NA,"To explore pollinator biodiversity we selected 15 Faba bean fields that were at the same phenological stage and adjacent to a managed grassland (or a natural grassland area when it was not feasible). We conducted pollinator surveys along 25 days (from early July to middle August) by walking during 15 minutes along each of two 150 x 1 m standardized transects per site. One transect was located at the field edge while the central transect was located at 25 m inside the field from the edge. In 5 fields these transects were adapted to the middle of the field as the field did not reach 50 meters. Transect walks were conducted between 8:00 and 16:30, low wind speeds and temperatures above 15 degrees C. Due Andean high altitude weather characteristics, during shorts periods of rain (minutes) or low clouds we stopped the survey and resumed it when weather allowed. Sites were surveyed thrice in random order. We surveyed all honeybees, bumblebees, solitary bees, hoverflies and other Diptera (e.g: Calliphoridae, Tachinidae, Sarcophagidae) that visited flowers inside Faba beans field and at the margin of the crop capturing the pollinators with a net. Handling time invested in capturing pollinators was discounted. In total, the sampling effort was 90 minutes. Pollinators that were easily identifiable (e.g. honeybees and Bombus funebris, medium and big hoverflies) were recorded without capturing when possible.","Round number: 3. Height above sea level:3838 m."
"Carlos_Zaragoza_Trello_Vicia_faba_Ecuador_2017","Q5","transects","syrphids","family","syrphids",1,900,90,NA,"To explore pollinator biodiversity we selected 15 Faba bean fields that were at the same phenological stage and adjacent to a managed grassland (or a natural grassland area when it was not feasible). We conducted pollinator surveys along 25 days (from early July to middle August) by walking during 15 minutes along each of two 150 x 1 m standardized transects per site. One transect was located at the field edge while the central transect was located at 25 m inside the field from the edge. In 5 fields these transects were adapted to the middle of the field as the field did not reach 50 meters. Transect walks were conducted between 8:00 and 16:30, low wind speeds and temperatures above 15 degrees C. Due Andean high altitude weather characteristics, during shorts periods of rain (minutes) or low clouds we stopped the survey and resumed it when weather allowed. Sites were surveyed thrice in random order. We surveyed all honeybees, bumblebees, solitary bees, hoverflies and other Diptera (e.g: Calliphoridae, Tachinidae, Sarcophagidae) that visited flowers inside Faba beans field and at the margin of the crop capturing the pollinators with a net. Handling time invested in capturing pollinators was discounted. In total, the sampling effort was 90 minutes. Pollinators that were easily identifiable (e.g. honeybees and Bombus funebris, medium and big hoverflies) were recorded without capturing when possible.","Round number: 1. Height above sea level:3779 m."
"Carlos_Zaragoza_Trello_Vicia_faba_Ecuador_2017","Q5","transects","syrphids","family","syrphids",1,900,90,NA,"To explore pollinator biodiversity we selected 15 Faba bean fields that were at the same phenological stage and adjacent to a managed grassland (or a natural grassland area when it was not feasible). We conducted pollinator surveys along 25 days (from early July to middle August) by walking during 15 minutes along each of two 150 x 1 m standardized transects per site. One transect was located at the field edge while the central transect was located at 25 m inside the field from the edge. In 5 fields these transects were adapted to the middle of the field as the field did not reach 50 meters. Transect walks were conducted between 8:00 and 16:30, low wind speeds and temperatures above 15 degrees C. Due Andean high altitude weather characteristics, during shorts periods of rain (minutes) or low clouds we stopped the survey and resumed it when weather allowed. Sites were surveyed thrice in random order. We surveyed all honeybees, bumblebees, solitary bees, hoverflies and other Diptera (e.g: Calliphoridae, Tachinidae, Sarcophagidae) that visited flowers inside Faba beans field and at the margin of the crop capturing the pollinators with a net. Handling time invested in capturing pollinators was discounted. In total, the sampling effort was 90 minutes. Pollinators that were easily identifiable (e.g. honeybees and Bombus funebris, medium and big hoverflies) were recorded without capturing when possible.","Round number: 3. Height above sea level:3779 m."
"Carlos_Zaragoza_Trello_Vicia_faba_Ecuador_2017","Q5","transects","syrphids","family","syrphids",1,900,90,NA,"To explore pollinator biodiversity we selected 15 Faba bean fields that were at the same phenological stage and adjacent to a managed grassland (or a natural grassland area when it was not feasible). We conducted pollinator surveys along 25 days (from early July to middle August) by walking during 15 minutes along each of two 150 x 1 m standardized transects per site. One transect was located at the field edge while the central transect was located at 25 m inside the field from the edge. In 5 fields these transects were adapted to the middle of the field as the field did not reach 50 meters. Transect walks were conducted between 8:00 and 16:30, low wind speeds and temperatures above 15 degrees C. Due Andean high altitude weather characteristics, during shorts periods of rain (minutes) or low clouds we stopped the survey and resumed it when weather allowed. Sites were surveyed thrice in random order. We surveyed all honeybees, bumblebees, solitary bees, hoverflies and other Diptera (e.g: Calliphoridae, Tachinidae, Sarcophagidae) that visited flowers inside Faba beans field and at the margin of the crop capturing the pollinators with a net. Handling time invested in capturing pollinators was discounted. In total, the sampling effort was 90 minutes. Pollinators that were easily identifiable (e.g. honeybees and Bombus funebris, medium and big hoverflies) were recorded without capturing when possible.","Round number: 3. Height above sea level:3779 m."
"Carlos_Zaragoza_Trello_Vicia_faba_Ecuador_2017","Q5","transects","syrphids","family","syrphids",1,900,90,NA,"To explore pollinator biodiversity we selected 15 Faba bean fields that were at the same phenological stage and adjacent to a managed grassland (or a natural grassland area when it was not feasible). We conducted pollinator surveys along 25 days (from early July to middle August) by walking during 15 minutes along each of two 150 x 1 m standardized transects per site. One transect was located at the field edge while the central transect was located at 25 m inside the field from the edge. In 5 fields these transects were adapted to the middle of the field as the field did not reach 50 meters. Transect walks were conducted between 8:00 and 16:30, low wind speeds and temperatures above 15 degrees C. Due Andean high altitude weather characteristics, during shorts periods of rain (minutes) or low clouds we stopped the survey and resumed it when weather allowed. Sites were surveyed thrice in random order. We surveyed all honeybees, bumblebees, solitary bees, hoverflies and other Diptera (e.g: Calliphoridae, Tachinidae, Sarcophagidae) that visited flowers inside Faba beans field and at the margin of the crop capturing the pollinators with a net. Handling time invested in capturing pollinators was discounted. In total, the sampling effort was 90 minutes. Pollinators that were easily identifiable (e.g. honeybees and Bombus funebris, medium and big hoverflies) were recorded without capturing when possible.","Round number: 3. Height above sea level:3779 m."
"Carlos_Zaragoza_Trello_Vicia_faba_Ecuador_2017","Q5","transects","syrphids","family","syrphids",1,900,90,NA,"To explore pollinator biodiversity we selected 15 Faba bean fields that were at the same phenological stage and adjacent to a managed grassland (or a natural grassland area when it was not feasible). We conducted pollinator surveys along 25 days (from early July to middle August) by walking during 15 minutes along each of two 150 x 1 m standardized transects per site. One transect was located at the field edge while the central transect was located at 25 m inside the field from the edge. In 5 fields these transects were adapted to the middle of the field as the field did not reach 50 meters. Transect walks were conducted between 8:00 and 16:30, low wind speeds and temperatures above 15 degrees C. Due Andean high altitude weather characteristics, during shorts periods of rain (minutes) or low clouds we stopped the survey and resumed it when weather allowed. Sites were surveyed thrice in random order. We surveyed all honeybees, bumblebees, solitary bees, hoverflies and other Diptera (e.g: Calliphoridae, Tachinidae, Sarcophagidae) that visited flowers inside Faba beans field and at the margin of the crop capturing the pollinators with a net. Handling time invested in capturing pollinators was discounted. In total, the sampling effort was 90 minutes. Pollinators that were easily identifiable (e.g. honeybees and Bombus funebris, medium and big hoverflies) were recorded without capturing when possible.","Round number: 3. Height above sea level:3779 m."
"Carlos_Zaragoza_Trello_Vicia_faba_Ecuador_2017","Q5","transects","syrphids","family","syrphids",1,900,90,NA,"To explore pollinator biodiversity we selected 15 Faba bean fields that were at the same phenological stage and adjacent to a managed grassland (or a natural grassland area when it was not feasible). We conducted pollinator surveys along 25 days (from early July to middle August) by walking during 15 minutes along each of two 150 x 1 m standardized transects per site. One transect was located at the field edge while the central transect was located at 25 m inside the field from the edge. In 5 fields these transects were adapted to the middle of the field as the field did not reach 50 meters. Transect walks were conducted between 8:00 and 16:30, low wind speeds and temperatures above 15 degrees C. Due Andean high altitude weather characteristics, during shorts periods of rain (minutes) or low clouds we stopped the survey and resumed it when weather allowed. Sites were surveyed thrice in random order. We surveyed all honeybees, bumblebees, solitary bees, hoverflies and other Diptera (e.g: Calliphoridae, Tachinidae, Sarcophagidae) that visited flowers inside Faba beans field and at the margin of the crop capturing the pollinators with a net. Handling time invested in capturing pollinators was discounted. In total, the sampling effort was 90 minutes. Pollinators that were easily identifiable (e.g. honeybees and Bombus funebris, medium and big hoverflies) were recorded without capturing when possible.","Round number: 2. Height above sea level:3779 m."
"Carlos_Zaragoza_Trello_Vicia_faba_Ecuador_2017","Q5","transects","syrphids","family","syrphids",1,900,90,NA,"To explore pollinator biodiversity we selected 15 Faba bean fields that were at the same phenological stage and adjacent to a managed grassland (or a natural grassland area when it was not feasible). We conducted pollinator surveys along 25 days (from early July to middle August) by walking during 15 minutes along each of two 150 x 1 m standardized transects per site. One transect was located at the field edge while the central transect was located at 25 m inside the field from the edge. In 5 fields these transects were adapted to the middle of the field as the field did not reach 50 meters. Transect walks were conducted between 8:00 and 16:30, low wind speeds and temperatures above 15 degrees C. Due Andean high altitude weather characteristics, during shorts periods of rain (minutes) or low clouds we stopped the survey and resumed it when weather allowed. Sites were surveyed thrice in random order. We surveyed all honeybees, bumblebees, solitary bees, hoverflies and other Diptera (e.g: Calliphoridae, Tachinidae, Sarcophagidae) that visited flowers inside Faba beans field and at the margin of the crop capturing the pollinators with a net. Handling time invested in capturing pollinators was discounted. In total, the sampling effort was 90 minutes. Pollinators that were easily identifiable (e.g. honeybees and Bombus funebris, medium and big hoverflies) were recorded without capturing when possible.","Round number: 2. Height above sea level:3779 m."
"Carlos_Zaragoza_Trello_Vicia_faba_Ecuador_2017","Q5","transects","syrphids","family","syrphids",1,900,90,NA,"To explore pollinator biodiversity we selected 15 Faba bean fields that were at the same phenological stage and adjacent to a managed grassland (or a natural grassland area when it was not feasible). We conducted pollinator surveys along 25 days (from early July to middle August) by walking during 15 minutes along each of two 150 x 1 m standardized transects per site. One transect was located at the field edge while the central transect was located at 25 m inside the field from the edge. In 5 fields these transects were adapted to the middle of the field as the field did not reach 50 meters. Transect walks were conducted between 8:00 and 16:30, low wind speeds and temperatures above 15 degrees C. Due Andean high altitude weather characteristics, during shorts periods of rain (minutes) or low clouds we stopped the survey and resumed it when weather allowed. Sites were surveyed thrice in random order. We surveyed all honeybees, bumblebees, solitary bees, hoverflies and other Diptera (e.g: Calliphoridae, Tachinidae, Sarcophagidae) that visited flowers inside Faba beans field and at the margin of the crop capturing the pollinators with a net. Handling time invested in capturing pollinators was discounted. In total, the sampling effort was 90 minutes. Pollinators that were easily identifiable (e.g. honeybees and Bombus funebris, medium and big hoverflies) were recorded without capturing when possible.","Round number: 2. Height above sea level:3779 m."
"Carlos_Zaragoza_Trello_Vicia_faba_Ecuador_2017","Q5","transects","syrphids","family","syrphids",1,900,90,NA,"To explore pollinator biodiversity we selected 15 Faba bean fields that were at the same phenological stage and adjacent to a managed grassland (or a natural grassland area when it was not feasible). We conducted pollinator surveys along 25 days (from early July to middle August) by walking during 15 minutes along each of two 150 x 1 m standardized transects per site. One transect was located at the field edge while the central transect was located at 25 m inside the field from the edge. In 5 fields these transects were adapted to the middle of the field as the field did not reach 50 meters. Transect walks were conducted between 8:00 and 16:30, low wind speeds and temperatures above 15 degrees C. Due Andean high altitude weather characteristics, during shorts periods of rain (minutes) or low clouds we stopped the survey and resumed it when weather allowed. Sites were surveyed thrice in random order. We surveyed all honeybees, bumblebees, solitary bees, hoverflies and other Diptera (e.g: Calliphoridae, Tachinidae, Sarcophagidae) that visited flowers inside Faba beans field and at the margin of the crop capturing the pollinators with a net. Handling time invested in capturing pollinators was discounted. In total, the sampling effort was 90 minutes. Pollinators that were easily identifiable (e.g. honeybees and Bombus funebris, medium and big hoverflies) were recorded without capturing when possible.","Round number: 1. Height above sea level:3779 m."
"Carlos_Zaragoza_Trello_Vicia_faba_Ecuador_2017","Q5","transects","syrphids","family","syrphids",1,900,90,NA,"To explore pollinator biodiversity we selected 15 Faba bean fields that were at the same phenological stage and adjacent to a managed grassland (or a natural grassland area when it was not feasible). We conducted pollinator surveys along 25 days (from early July to middle August) by walking during 15 minutes along each of two 150 x 1 m standardized transects per site. One transect was located at the field edge while the central transect was located at 25 m inside the field from the edge. In 5 fields these transects were adapted to the middle of the field as the field did not reach 50 meters. Transect walks were conducted between 8:00 and 16:30, low wind speeds and temperatures above 15 degrees C. Due Andean high altitude weather characteristics, during shorts periods of rain (minutes) or low clouds we stopped the survey and resumed it when weather allowed. Sites were surveyed thrice in random order. We surveyed all honeybees, bumblebees, solitary bees, hoverflies and other Diptera (e.g: Calliphoridae, Tachinidae, Sarcophagidae) that visited flowers inside Faba beans field and at the margin of the crop capturing the pollinators with a net. Handling time invested in capturing pollinators was discounted. In total, the sampling effort was 90 minutes. Pollinators that were easily identifiable (e.g. honeybees and Bombus funebris, medium and big hoverflies) were recorded without capturing when possible.","Round number: 1. Height above sea level:3779 m."
"Carlos_Zaragoza_Trello_Vicia_faba_Ecuador_2017","Q5","transects","syrphids","family","syrphids",1,900,90,NA,"To explore pollinator biodiversity we selected 15 Faba bean fields that were at the same phenological stage and adjacent to a managed grassland (or a natural grassland area when it was not feasible). We conducted pollinator surveys along 25 days (from early July to middle August) by walking during 15 minutes along each of two 150 x 1 m standardized transects per site. One transect was located at the field edge while the central transect was located at 25 m inside the field from the edge. In 5 fields these transects were adapted to the middle of the field as the field did not reach 50 meters. Transect walks were conducted between 8:00 and 16:30, low wind speeds and temperatures above 15 degrees C. Due Andean high altitude weather characteristics, during shorts periods of rain (minutes) or low clouds we stopped the survey and resumed it when weather allowed. Sites were surveyed thrice in random order. We surveyed all honeybees, bumblebees, solitary bees, hoverflies and other Diptera (e.g: Calliphoridae, Tachinidae, Sarcophagidae) that visited flowers inside Faba beans field and at the margin of the crop capturing the pollinators with a net. Handling time invested in capturing pollinators was discounted. In total, the sampling effort was 90 minutes. Pollinators that were easily identifiable (e.g. honeybees and Bombus funebris, medium and big hoverflies) were recorded without capturing when possible.","Round number: 1. Height above sea level:3779 m."
"Carlos_Zaragoza_Trello_Vicia_faba_Ecuador_2017","Q5","transects","syrphids","family","syrphids",1,900,90,NA,"To explore pollinator biodiversity we selected 15 Faba bean fields that were at the same phenological stage and adjacent to a managed grassland (or a natural grassland area when it was not feasible). We conducted pollinator surveys along 25 days (from early July to middle August) by walking during 15 minutes along each of two 150 x 1 m standardized transects per site. One transect was located at the field edge while the central transect was located at 25 m inside the field from the edge. In 5 fields these transects were adapted to the middle of the field as the field did not reach 50 meters. Transect walks were conducted between 8:00 and 16:30, low wind speeds and temperatures above 15 degrees C. Due Andean high altitude weather characteristics, during shorts periods of rain (minutes) or low clouds we stopped the survey and resumed it when weather allowed. Sites were surveyed thrice in random order. We surveyed all honeybees, bumblebees, solitary bees, hoverflies and other Diptera (e.g: Calliphoridae, Tachinidae, Sarcophagidae) that visited flowers inside Faba beans field and at the margin of the crop capturing the pollinators with a net. Handling time invested in capturing pollinators was discounted. In total, the sampling effort was 90 minutes. Pollinators that were easily identifiable (e.g. honeybees and Bombus funebris, medium and big hoverflies) were recorded without capturing when possible.","Round number: 2. Height above sea level:3779 m."
"Carlos_Zaragoza_Trello_Vicia_faba_Ecuador_2017","Q5","transects","syrphids","family","syrphids",1,900,90,NA,"To explore pollinator biodiversity we selected 15 Faba bean fields that were at the same phenological stage and adjacent to a managed grassland (or a natural grassland area when it was not feasible). We conducted pollinator surveys along 25 days (from early July to middle August) by walking during 15 minutes along each of two 150 x 1 m standardized transects per site. One transect was located at the field edge while the central transect was located at 25 m inside the field from the edge. In 5 fields these transects were adapted to the middle of the field as the field did not reach 50 meters. Transect walks were conducted between 8:00 and 16:30, low wind speeds and temperatures above 15 degrees C. Due Andean high altitude weather characteristics, during shorts periods of rain (minutes) or low clouds we stopped the survey and resumed it when weather allowed. Sites were surveyed thrice in random order. We surveyed all honeybees, bumblebees, solitary bees, hoverflies and other Diptera (e.g: Calliphoridae, Tachinidae, Sarcophagidae) that visited flowers inside Faba beans field and at the margin of the crop capturing the pollinators with a net. Handling time invested in capturing pollinators was discounted. In total, the sampling effort was 90 minutes. Pollinators that were easily identifiable (e.g. honeybees and Bombus funebris, medium and big hoverflies) were recorded without capturing when possible.","Round number: 2. Height above sea level:3779 m."
"Carlos_Zaragoza_Trello_Vicia_faba_Ecuador_2017","Q5","transects","syrphids","family","syrphids",1,900,90,NA,"To explore pollinator biodiversity we selected 15 Faba bean fields that were at the same phenological stage and adjacent to a managed grassland (or a natural grassland area when it was not feasible). We conducted pollinator surveys along 25 days (from early July to middle August) by walking during 15 minutes along each of two 150 x 1 m standardized transects per site. One transect was located at the field edge while the central transect was located at 25 m inside the field from the edge. In 5 fields these transects were adapted to the middle of the field as the field did not reach 50 meters. Transect walks were conducted between 8:00 and 16:30, low wind speeds and temperatures above 15 degrees C. Due Andean high altitude weather characteristics, during shorts periods of rain (minutes) or low clouds we stopped the survey and resumed it when weather allowed. Sites were surveyed thrice in random order. We surveyed all honeybees, bumblebees, solitary bees, hoverflies and other Diptera (e.g: Calliphoridae, Tachinidae, Sarcophagidae) that visited flowers inside Faba beans field and at the margin of the crop capturing the pollinators with a net. Handling time invested in capturing pollinators was discounted. In total, the sampling effort was 90 minutes. Pollinators that were easily identifiable (e.g. honeybees and Bombus funebris, medium and big hoverflies) were recorded without capturing when possible.","Round number: 3. Height above sea level:3779 m."
"Carlos_Zaragoza_Trello_Vicia_faba_Ecuador_2017","Q5","transects","syrphids","family","syrphids",4,900,90,NA,"To explore pollinator biodiversity we selected 15 Faba bean fields that were at the same phenological stage and adjacent to a managed grassland (or a natural grassland area when it was not feasible). We conducted pollinator surveys along 25 days (from early July to middle August) by walking during 15 minutes along each of two 150 x 1 m standardized transects per site. One transect was located at the field edge while the central transect was located at 25 m inside the field from the edge. In 5 fields these transects were adapted to the middle of the field as the field did not reach 50 meters. Transect walks were conducted between 8:00 and 16:30, low wind speeds and temperatures above 15 degrees C. Due Andean high altitude weather characteristics, during shorts periods of rain (minutes) or low clouds we stopped the survey and resumed it when weather allowed. Sites were surveyed thrice in random order. We surveyed all honeybees, bumblebees, solitary bees, hoverflies and other Diptera (e.g: Calliphoridae, Tachinidae, Sarcophagidae) that visited flowers inside Faba beans field and at the margin of the crop capturing the pollinators with a net. Handling time invested in capturing pollinators was discounted. In total, the sampling effort was 90 minutes. Pollinators that were easily identifiable (e.g. honeybees and Bombus funebris, medium and big hoverflies) were recorded without capturing when possible.","Round number: 2. Height above sea level:3779 m."
"Carlos_Zaragoza_Trello_Vicia_faba_Ecuador_2017","Q5","transects","syrphids","family","syrphids",2,900,90,NA,"To explore pollinator biodiversity we selected 15 Faba bean fields that were at the same phenological stage and adjacent to a managed grassland (or a natural grassland area when it was not feasible). We conducted pollinator surveys along 25 days (from early July to middle August) by walking during 15 minutes along each of two 150 x 1 m standardized transects per site. One transect was located at the field edge while the central transect was located at 25 m inside the field from the edge. In 5 fields these transects were adapted to the middle of the field as the field did not reach 50 meters. Transect walks were conducted between 8:00 and 16:30, low wind speeds and temperatures above 15 degrees C. Due Andean high altitude weather characteristics, during shorts periods of rain (minutes) or low clouds we stopped the survey and resumed it when weather allowed. Sites were surveyed thrice in random order. We surveyed all honeybees, bumblebees, solitary bees, hoverflies and other Diptera (e.g: Calliphoridae, Tachinidae, Sarcophagidae) that visited flowers inside Faba beans field and at the margin of the crop capturing the pollinators with a net. Handling time invested in capturing pollinators was discounted. In total, the sampling effort was 90 minutes. Pollinators that were easily identifiable (e.g. honeybees and Bombus funebris, medium and big hoverflies) were recorded without capturing when possible.","Round number: 3. Height above sea level:3779 m."
"Diego_Nabaes_Jodar_Apple_Argentina_2019","lvallen","transects","Apis_mellifera","species","honeybees",47,NA,30,5100,"two within site spatial replicates multiplied by three within site temporal replicates",NA
"Diego_Nabaes_Jodar_Apple_Argentina_2019","bp1","transects","Apis_mellifera","species","honeybees",76,NA,30,4575,"two within site spatial replicates multiplied by three within site temporal replicates",NA
"Diego_Nabaes_Jodar_Apple_Argentina_2019","bp1","transects","Bombus_1","morphospecies","bumblebees",5,NA,30,4575,"two within site spatial replicates multiplied by three within site temporal replicates",NA
"Diego_Nabaes_Jodar_Apple_Argentina_2019","bp1","transects","Bombus_2","morphospecies","bumblebees",1,NA,30,4575,"two within site spatial replicates multiplied by three within site temporal replicates",NA
"Diego_Nabaes_Jodar_Apple_Argentina_2019","bp1","transects","Syrphidae_1","morphospecies","syrphids",4,NA,30,4575,"two within site spatial replicates multiplied by three within site temporal replicates",NA
"Diego_Nabaes_Jodar_Apple_Argentina_2019","bp13","transects","Apis_mellifera","species","honeybees",125,NA,30,8700,"two within site spatial replicates multiplied by three within site temporal replicates",NA
"Diego_Nabaes_Jodar_Apple_Argentina_2019","bp13","transects","Bombus_1","morphospecies","bumblebees",2,NA,30,8700,"two within site spatial replicates multiplied by three within site temporal replicates",NA
"Diego_Nabaes_Jodar_Apple_Argentina_2019","bp13","transects","Bombus_2","morphospecies","bumblebees",1,NA,30,8700,"two within site spatial replicates multiplied by three within site temporal replicates",NA
"Diego_Nabaes_Jodar_Apple_Argentina_2019","bp13","transects","Anthopila_1","morphospecies","other_wild_bees",1,NA,30,8700,"two within site spatial replicates multiplied by three within site temporal replicates",NA
"Diego_Nabaes_Jodar_Apple_Argentina_2019","bp13","transects","Tatochila","genera","lepidoptera",1,NA,30,8700,"two within site spatial replicates multiplied by three within site temporal replicates",NA
"Diego_Nabaes_Jodar_Apple_Argentina_2019","bp13","transects","Polybia","genera","non_bee_hymenoptera",1,NA,30,8700,"two within site spatial replicates multiplied by three within site temporal replicates",NA
"Diego_Nabaes_Jodar_Apple_Argentina_2019","lopsur","transects","Apis_mellifera","species","honeybees",46,NA,30,15900,"two within site spatial replicates multiplied by three within site temporal replicates",NA
"Diego_Nabaes_Jodar_Apple_Argentina_2019","lopsur","transects","Calliphoridae","family","other_flies",1,NA,30,15900,"two within site spatial replicates multiplied by three within site temporal replicates",NA
"Diego_Nabaes_Jodar_Apple_Argentina_2019","boro","transects","Apis_mellifera","species","honeybees",78,NA,30,14100,"two within site spatial replicates multiplied by three within site temporal replicates",NA
"Diego_Nabaes_Jodar_Apple_Argentina_2019","lopnor","transects","Apis_mellifera","species","honeybees",43,NA,30,17400,"two within site spatial replicates multiplied by three within site temporal replicates",NA
"Diego_Nabaes_Jodar_Apple_Argentina_2019","zec7","transects","Apis_mellifera","species","honeybees",214,NA,30,12600,"two within site spatial replicates multiplied by three within site temporal replicates",NA
"Diego_Nabaes_Jodar_Apple_Argentina_2019","zec7","transects","Bombus_1","morphospecies","bumblebees",1,NA,30,12600,"two within site spatial replicates multiplied by three within site temporal replicates",NA
"Diego_Nabaes_Jodar_Apple_Argentina_2019","zec7","transects","Syrphidae_1","morphospecies","syrphids",2,NA,30,12600,"two within site spatial replicates multiplied by three within site temporal replicates",NA
"Diego_Nabaes_Jodar_Apple_Argentina_2019","zec7","transects","Muscomorpha_1","morphospecies","other_flies",2,NA,30,12600,"two within site spatial replicates multiplied by three within site temporal replicates",NA
"Diego_Nabaes_Jodar_Apple_Argentina_2019","zec7","transects","Muscomorpha_2","morphospecies","other_flies",1,NA,30,12600,"two within site spatial replicates multiplied by three within site temporal replicates",NA
"Diego_Nabaes_Jodar_Apple_Argentina_2019","ros109","transects","Apis_mellifera","species","honeybees",95,NA,30,6800,"two within site spatial replicates multiplied by three within site temporal replicates",NA
"Diego_Nabaes_Jodar_Apple_Argentina_2019","lvch28","transects","Apis_mellifera","species","honeybees",145,NA,30,14400,"two within site spatial replicates multiplied by three within site temporal replicates",NA
"Diego_Nabaes_Jodar_Apple_Argentina_2019","zec4","transects","Apis_mellifera","species","honeybees",115,NA,30,13950,"two within site spatial replicates multiplied by three within site temporal replicates",NA
"Diego_Nabaes_Jodar_Apple_Argentina_2019","zec4","transects","Muscomorpha_3","morphospecies","other_flies",2,NA,30,13950,"two within site spatial replicates multiplied by three within site temporal replicates",NA
"Diego_Nabaes_Jodar_Apple_Argentina_2019","zec4","transects","Formicidae","family","non_bee_hymenoptera",2,NA,30,13950,"two within site spatial replicates multiplied by three within site temporal replicates",NA
"Diego_Nabaes_Jodar_Apple_Argentina_2019","delinor","transects","Muscomorpha_4","morphospecies","other_flies",1,NA,30,11550,"two within site spatial replicates multiplied by three within site temporal replicates",NA
"Diego_Nabaes_Jodar_Apple_Argentina_2019","delinor","transects","Apis_mellifera","species","honeybees",104,NA,30,11550,"two within site spatial replicates multiplied by three within site temporal replicates",NA
"Diego_Nabaes_Jodar_Apple_Argentina_2019","delinor","transects","Muscomorpha_5","morphospecies","other_flies",1,NA,30,11550,"two within site spatial replicates multiplied by three within site temporal replicates",NA
"Diego_Nabaes_Jodar_Apple_Argentina_2019","almo","transects","Apis_mellifera","species","honeybees",155,NA,30,9900,"two within site spatial replicates multiplied by three within site temporal replicates",NA
"Diego_Nabaes_Jodar_Apple_Argentina_2019","almo","transects","Syrphidae_2","morphospecies","syrphids",1,NA,30,9900,"two within site spatial replicates multiplied by three within site temporal replicates",NA
"Diego_Nabaes_Jodar_Apple_Argentina_2019","delimed","transects","Apis_mellifera","species","honeybees",67,NA,30,11250,"two within site spatial replicates multiplied by three within site temporal replicates",NA
"Diego_Nabaes_Jodar_Apple_Argentina_2019","garnor","transects","Apis_mellifera","species","honeybees",29,NA,30,18150,"two within site spatial replicates multiplied by three within site temporal replicates",NA
"Diego_Nabaes_Jodar_Apple_Argentina_2019","reunor","transects","Apis_mellifera","species","honeybees",3,NA,30,9450,"two within site spatial replicates multiplied by three within site temporal replicates",NA
"Diego_Nabaes_Jodar_Apple_Argentina_2019","reusur","transects","Apis_mellifera","species","honeybees",10,NA,30,6300,"two within site spatial replicates multiplied by three within site temporal replicates",NA
"Diego_Nabaes_Jodar_Apple_Argentina_2019","delisur","transects","Apis_mellifera","species","honeybees",113,NA,30,12300,"two within site spatial replicates multiplied by three within site temporal replicates",NA
"Diego_Nabaes_Jodar_Apple_Argentina_2019","delisur","transects","Syrphidae_1","morphospecies","syrphids",1,NA,30,12300,"two within site spatial replicates multiplied by three within site temporal replicates",NA
"Diego_Nabaes_Jodar_Apple_Argentina_2019","delisur","transects","Syrphidae_2","morphospecies","syrphids",1,NA,30,12300,"two within site spatial replicates multiplied by three within site temporal replicates",NA
"Diego_Nabaes_Jodar_Apple_Argentina_2019","lvch11","transects","Apis_mellifera","species","honeybees",94,NA,30,7500,"two within site spatial replicates multiplied by three within site temporal replicates",NA
"Diego_Nabaes_Jodar_Apple_Argentina_2019","lvch11","transects","Polybia","genera","non_bee_hymenoptera",1,NA,30,7500,"two within site spatial replicates multiplied by three within site temporal replicates",NA
"Diego_Nabaes_Jodar_Apple_Argentina_2019","lvch11","transects","Calliphoridae","family","other_flies",1,NA,30,7500,"two within site spatial replicates multiplied by three within site temporal replicates",NA
"Diego_Nabaes_Jodar_Apple_Argentina_2019","lvch11","transects","Muscomorpha_2","morphospecies","other_flies",1,NA,30,7500,"two within site spatial replicates multiplied by three within site temporal replicates",NA
"Diego_Nabaes_Jodar_Apple_Argentina_2019","lvch11","transects","Muscomorpha_3","morphospecies","other_flies",1,NA,30,7500,"two within site spatial replicates multiplied by three within site temporal replicates",NA
"Diego_Nabaes_Jodar_Apple_Argentina_2019","lvch11","transects","Muscomorpha_4","morphospecies","other_flies",1,NA,30,7500,"two within site spatial replicates multiplied by three within site temporal replicates",NA
"Diego_Nabaes_Jodar_Apple_Argentina_2019","lvch11","transects","Syrphidae_2","morphospecies","syrphids",2,NA,30,7500,"two within site spatial replicates multiplied by three within site temporal replicates",NA
"Diego_Nabaes_Jodar_Apple_Argentina_2019","lvch4","transects","Apis_mellifera","species","honeybees",188,NA,30,17100,"two within site spatial replicates multiplied by three within site temporal replicates",NA
"Diego_Nabaes_Jodar_Apple_Argentina_2019","lvch4","transects","Syrphidae_1","morphospecies","syrphids",1,NA,30,17100,"two within site spatial replicates multiplied by three within site temporal replicates",NA
"Diego_Nabaes_Jodar_Apple_Argentina_2019","lvch4","transects","Calliphoridae","family","other_flies",1,NA,30,17100,"two within site spatial replicates multiplied by three within site temporal replicates",NA
"Diego_Nabaes_Jodar_Apple_Argentina_2019","lvch4","transects","Syrphidae_2","morphospecies","syrphids",1,NA,30,17100,"two within site spatial replicates multiplied by three within site temporal replicates",NA
"Diego_Nabaes_Jodar_Apple_Argentina_2019","ros170","transects","Apis_mellifera","species","honeybees",38,NA,30,11550,"two within site spatial replicates multiplied by three within site temporal replicates",NA
"Diego_Nabaes_Jodar_Apple_Argentina_2019","tec20","transects","Apis_mellifera","species","honeybees",246,NA,30,10800,"two within site spatial replicates multiplied by three within site temporal replicates",NA
"Diego_Nabaes_Jodar_Apple_Argentina_2019","tec20","transects","Syrphidae_1","morphospecies","syrphids",2,NA,30,10800,"two within site spatial replicates multiplied by three within site temporal replicates",NA
"Diego_Nabaes_Jodar_Apple_Argentina_2019","tec20","transects","Calliphoridae","family","other_flies",1,NA,30,10800,"two within site spatial replicates multiplied by three within site temporal replicates",NA
"Diego_Nabaes_Jodar_Apple_Argentina_2019","tec20","transects","Syrphidae_2","morphospecies","syrphids",1,NA,30,10800,"two within site spatial replicates multiplied by three within site temporal replicates",NA
"Diego_Nabaes_Jodar_Apple_Argentina_2019","tec19","transects","Apis_mellifera","species","honeybees",130,NA,30,7200,"two within site spatial replicates multiplied by three within site temporal replicates",NA
"Diego_Nabaes_Jodar_Apple_Argentina_2019","tec19","transects","Polybia","genera","non_bee_hymenoptera",2,NA,30,7200,"two within site spatial replicates multiplied by three within site temporal replicates",NA
"Diego_Nabaes_Jodar_Apple_Argentina_2019","garsur","transects","Apis_mellifera","species","honeybees",128,NA,30,7200,"two within site spatial replicates multiplied by three within site temporal replicates",NA
"Diego_Nabaes_Jodar_Apple_Argentina_2019","garsur","transects","Muscomorpha_4","morphospecies","other_flies",1,NA,30,7200,"two within site spatial replicates multiplied by three within site temporal replicates",NA
"Diego_Nabaes_Jodar_Apple_Argentina_2019","pach","transects","Apis_mellifera","species","honeybees",181,NA,30,10800,"two within site spatial replicates multiplied by three within site temporal replicates",NA
"Diego_Nabaes_Jodar_Apple_Argentina_2019","pach","transects","Muscomorpha_3","morphospecies","other_flies",1,NA,30,10800,"two within site spatial replicates multiplied by three within site temporal replicates",NA
"Diego_Nabaes_Jodar_Apple_Argentina_2019","vmanz","transects","Apis_mellifera","species","honeybees",143,NA,30,6600,"two within site spatial replicates multiplied by three within site temporal replicates",NA
"Diego_Nabaes_Jodar_Apple_Argentina_2019","ros25","transects","Apis_mellifera","species","honeybees",117,NA,30,17700,"two within site spatial replicates multiplied by three within site temporal replicates",NA
"Diego_Nabaes_Jodar_Apple_Argentina_2019","ros25","transects","Syrphidae_1","morphospecies","syrphids",1,NA,30,17700,"two within site spatial replicates multiplied by three within site temporal replicates",NA
"Diego_Nabaes_Jodar_Apple_Argentina_2019","maiolo","transects","Apis_mellifera","species","honeybees",95,NA,30,16800,"two within site spatial replicates multiplied by three within site temporal replicates",NA
"Diego_Nabaes_Jodar_Apple_Argentina_2019","maiolo","transects","Syrphidae_2","morphospecies","syrphids",1,NA,30,16800,"two within site spatial replicates multiplied by three within site temporal replicates",NA
"Diego_Nabaes_Jodar_Apple_Argentina_2019","tec3","transects","Apis_mellifera","species","honeybees",111,NA,30,9900,"two within site spatial replicates multiplied by three within site temporal replicates",NA
"Diego_Nabaes_Jodar_Apple_Argentina_2019","tec3","transects","Muscomorpha_3","morphospecies","other_flies",1,NA,30,9900,"two within site spatial replicates multiplied by three within site temporal replicates",NA
"Diego_Nabaes_Jodar_Apple_Argentina_2019","nmr","transects","Apis_mellifera","species","honeybees",69,NA,30,18600,"two within site spatial replicates multiplied by three within site temporal replicates",NA
"Diego_Nabaes_Jodar_Apple_Argentina_2019","reyes","transects","Apis_mellifera","species","honeybees",30,NA,30,10350,"two within site spatial replicates multiplied by three within site temporal replicates",NA
"Dupont_redclover_Denmark_2008","Brushojgard_2008","transect observations","Bombus terrestris","species","bumblebees",77,1944,40.9833333333333,390015,"Three plots per field (18x18m), one at field edge, one in middle and one in between. Observed walked slowly back and forth along rows, observing flowers approximately once. Field visited three times during flowering season of red clover, but the data here are from the day of peak flowering (when bee activity levels were highest). Number of flowers were calculated based on counts in three 1x1m squares in each of three 18x18m plots.","total observation area in square meters, total observation time in minutes"
"Dupont_redclover_Denmark_2008","Braedstrup_2008","transect observations","Bombus terrestris","species","bumblebees",129,2916,100.25,573480,"Three plots per field (18x18m), one at field edge, one in middle and one in between. Observed walked slowly back and forth along rows, observing flowers approximately once. Field visited three times during flowering season of red clover, but the data here are from the day of peak flowering (when bee activity levels were highest). Number of flowers were calculated based on counts in three 1x1m squares in each of three 18x18m plots.","total observation area in square meters, total observation time in minutes"
"Dupont_redclover_Denmark_2008","Frijsendalsvej, Sall_2008","transect observations","Bombus terrestris","species","bumblebees",205,2916,74.8,829602,"Three plots per field (18x18m), one at field edge, one in middle and one in between. Observed walked slowly back and forth along rows, observing flowers approximately once. Field visited three times during flowering season of red clover, but the data here are from the day of peak flowering (when bee activity levels were highest). Number of flowers were calculated based on counts in three 1x1m squares in each of three 18x18m plots.","total observation area in square meters, total observation time in minutes"
"Dupont_redclover_Denmark_2008","Galten_2008","transect observations","Bombus terrestris","species","bumblebees",354,3888,293.033333333333,913680,"Three plots per field (18x18m), one at field edge, one in middle and one in between. Observed walked slowly back and forth along rows, observing flowers approximately once. Field visited three times during flowering season of red clover, but the data here are from the day of peak flowering (when bee activity levels were highest). Number of flowers were calculated based on counts in three 1x1m squares in each of three 18x18m plots.","total observation area in square meters, total observation time in minutes"
"Dupont_redclover_Denmark_2008","Gjern, Tingvejen_2008","transect observations","Bombus terrestris","species","bumblebees",84,2916,94.55,323676,"Three plots per field (18x18m), one at field edge, one in middle and one in between. Observed walked slowly back and forth along rows, observing flowers approximately once. Field visited three times during flowering season of red clover, but the data here are from the day of peak flowering (when bee activity levels were highest). Number of flowers were calculated based on counts in three 1x1m squares in each of three 18x18m plots.","total observation area in square meters, total observation time in minutes"
"Dupont_redclover_Denmark_2008","Hesselballe_2008","transect observations","Bombus terrestris","species","bumblebees",213,1944,56.5666666666667,311317.714285714,"Three plots per field (18x18m), one at field edge, one in middle and one in between. Observed walked slowly back and forth along rows, observing flowers approximately once. Field visited three times during flowering season of red clover, but the data here are from the day of peak flowering (when bee activity levels were highest). Number of flowers were calculated based on counts in three 1x1m squares in each of three 18x18m plots.","total observation area in square meters, total observation time in minutes"
"Dupont_redclover_Denmark_2008","Odense_2008","transect observations","Bombus terrestris","species","bumblebees",103,2916,111.15,478656,"Three plots per field (18x18m), one at field edge, one in middle and one in between. Observed walked slowly back and forth along rows, observing flowers approximately once. Field visited three times during flowering season of red clover, but the data here are from the day of peak flowering (when bee activity levels were highest). Number of flowers were calculated based on counts in three 1x1m squares in each of three 18x18m plots.","total observation area in square meters, total observation time in minutes"
"Dupont_redclover_Denmark_2008","Randers NO Syd_2008","transect observations","Bombus terrestris","species","bumblebees",181,3888,175.4,676836,"Three plots per field (18x18m), one at field edge, one in middle and one in between. Observed walked slowly back and forth along rows, observing flowers approximately once. Field visited three times during flowering season of red clover, but the data here are from the day of peak flowering (when bee activity levels were highest). Number of flowers were calculated based on counts in three 1x1m squares in each of three 18x18m plots.","total observation area in square meters, total observation time in minutes"
"Dupont_redclover_Denmark_2008","Skejby_2008","transect observations","Bombus terrestris","species","bumblebees",163,2916,76.8333333333333,434848.5,"Three plots per field (18x18m), one at field edge, one in middle and one in between. Observed walked slowly back and forth along rows, observing flowers approximately once. Field visited three times during flowering season of red clover, but the data here are from the day of peak flowering (when bee activity levels were highest). Number of flowers were calculated based on counts in three 1x1m squares in each of three 18x18m plots.","total observation area in square meters, total observation time in minutes"
"Dupont_redclover_Denmark_2008","Vamdrup_2008","transect observations","Bombus terrestris","species","bumblebees",143,3888,112.466666666667,509328,"Three plots per field (18x18m), one at field edge, one in middle and one in between. Observed walked slowly back and forth along rows, observing flowers approximately once. Field visited three times during flowering season of red clover, but the data here are from the day of peak flowering (when bee activity levels were highest). Number of flowers were calculated based on counts in three 1x1m squares in each of three 18x18m plots.","total observation area in square meters, total observation time in minutes"
"Dupont_redclover_Denmark_2008","Vester Skerninge, Amarksvej_2008","transect observations","Bombus terrestris","species","bumblebees",316,2916,125.733333333333,1134972,"Three plots per field (18x18m), one at field edge, one in middle and one in between. Observed walked slowly back and forth along rows, observing flowers approximately once. Field visited three times during flowering season of red clover, but the data here are from the day of peak flowering (when bee activity levels were highest). Number of flowers were calculated based on counts in three 1x1m squares in each of three 18x18m plots.","total observation area in square meters, total observation time in minutes"
"Dupont_redclover_Denmark_2009","Braedstrup_2009","transect observations","Bombus terrestris","species","bumblebees",11,3888,113.166666666667,768096,"Three plots per field (18x18m), one at field edge, one in middle and one in between. Observed walked slowly back and forth along rows, observing flowers approximately once. Field visited three times during flowering season of red clover, but the data here are from the day of peak flowering (when bee activity levels were highest). Number of flowers were calculated based on counts in three 1x1m squares in each of three 18x18m plots.","total observation area in square meters, total observation time in minutes"
"Dupont_redclover_Denmark_2009","Galten_2009","transect observations","Bombus terrestris","species","bumblebees",27,3888,117.816666666667,344304,"Three plots per field (18x18m), one at field edge, one in middle and one in between. Observed walked slowly back and forth along rows, observing flowers approximately once. Field visited three times during flowering season of red clover, but the data here are from the day of peak flowering (when bee activity levels were highest). Number of flowers were calculated based on counts in three 1x1m squares in each of three 18x18m plots.","total observation area in square meters, total observation time in minutes"
"Dupont_redclover_Denmark_2009","Gjern, Blak_2009","transect observations","Bombus terrestris","species","bumblebees",32,3888,101.416666666667,308880,"Three plots per field (18x18m), one at field edge, one in middle and one in between. Observed walked slowly back and forth along rows, observing flowers approximately once. Field visited three times during flowering season of red clover, but the data here are from the day of peak flowering (when bee activity levels were highest). Number of flowers were calculated based on counts in three 1x1m squares in each of three 18x18m plots.","total observation area in square meters, total observation time in minutes"
"Dupont_redclover_Denmark_2009","Gjern, Tingvejen_2009","transect observations","Bombus terrestris","species","bumblebees",6,3888,91.85,303696,"Three plots per field (18x18m), one at field edge, one in middle and one in between. Observed walked slowly back and forth along rows, observing flowers approximately once. Field visited three times during flowering season of red clover, but the data here are from the day of peak flowering (when bee activity levels were highest). Number of flowers were calculated based on counts in three 1x1m squares in each of three 18x18m plots.","total observation area in square meters, total observation time in minutes"
"Dupont_redclover_Denmark_2009","Hammel 1_2009","transect observations","Bombus terrestris","species","bumblebees",285,3888,243.516666666667,605232,"Three plots per field (18x18m), one at field edge, one in middle and one in between. Observed walked slowly back and forth along rows, observing flowers approximately once. Field visited three times during flowering season of red clover, but the data here are from the day of peak flowering (when bee activity levels were highest). Number of flowers were calculated based on counts in three 1x1m squares in each of three 18x18m plots.","total observation area in square meters, total observation time in minutes"
"Dupont_redclover_Denmark_2009","Hammel 2_2009","transect observations","Bombus terrestris","species","bumblebees",76,3888,148.183333333333,413424,"Three plots per field (18x18m), one at field edge, one in middle and one in between. Observed walked slowly back and forth along rows, observing flowers approximately once. Field visited three times during flowering season of red clover, but the data here are from the day of peak flowering (when bee activity levels were highest). Number of flowers were calculated based on counts in three 1x1m squares in each of three 18x18m plots.","total observation area in square meters, total observation time in minutes"
"Dupont_redclover_Denmark_2009","Horning_2009","transect observations","Bombus terrestris","species","bumblebees",536,3888,243.1,1786320,"Three plots per field (18x18m), one at field edge, one in middle and one in between. Observed walked slowly back and forth along rows, observing flowers approximately once. Field visited three times during flowering season of red clover, but the data here are from the day of peak flowering (when bee activity levels were highest). Number of flowers were calculated based on counts in three 1x1m squares in each of three 18x18m plots.","total observation area in square meters, total observation time in minutes"
"Dupont_redclover_Denmark_2009","Nr. Aaby_2009","transect observations","Bombus terrestris","species","bumblebees",38,3888,154.5,1296000,"Three plots per field (18x18m), one at field edge, one in middle and one in between. Observed walked slowly back and forth along rows, observing flowers approximately once. Field visited three times during flowering season of red clover, but the data here are from the day of peak flowering (when bee activity levels were highest). Number of flowers were calculated based on counts in three 1x1m squares in each of three 18x18m plots.","total observation area in square meters, total observation time in minutes"
"Dupont_redclover_Denmark_2009","Odense_2009","transect observations","Bombus terrestris","species","bumblebees",324,3888,135.766666666667,830736,"Three plots per field (18x18m), one at field edge, one in middle and one in between. Observed walked slowly back and forth along rows, observing flowers approximately once. Field visited three times during flowering season of red clover, but the data here are from the day of peak flowering (when bee activity levels were highest). Number of flowers were calculated based on counts in three 1x1m squares in each of three 18x18m plots.","total observation area in square meters, total observation time in minutes"
"Dupont_redclover_Denmark_2009","Randers NO Nord_2009","transect observations","Bombus terrestris","species","bumblebees",220,3888,118.316666666667,1330128,"Three plots per field (18x18m), one at field edge, one in middle and one in between. Observed walked slowly back and forth along rows, observing flowers approximately once. Field visited three times during flowering season of red clover, but the data here are from the day of peak flowering (when bee activity levels were highest). Number of flowers were calculated based on counts in three 1x1m squares in each of three 18x18m plots.","total observation area in square meters, total observation time in minutes"
"Dupont_redclover_Denmark_2009","Randers NO Syd_2009","transect observations","Bombus terrestris","species","bumblebees",221,3888,121.583333333333,1491264,"Three plots per field (18x18m), one at field edge, one in middle and one in between. Observed walked slowly back and forth along rows, observing flowers approximately once. Field visited three times during flowering season of red clover, but the data here are from the day of peak flowering (when bee activity levels were highest). Number of flowers were calculated based on counts in three 1x1m squares in each of three 18x18m plots.","total observation area in square meters, total observation time in minutes"
"Dupont_redclover_Denmark_2009","Randers SO_2009","transect observations","Bombus terrestris","species","bumblebees",340,3888,140.616666666667,1435968,"Three plots per field (18x18m), one at field edge, one in middle and one in between. Observed walked slowly back and forth along rows, observing flowers approximately once. Field visited three times during flowering season of red clover, but the data here are from the day of peak flowering (when bee activity levels were highest). Number of flowers were calculated based on counts in three 1x1m squares in each of three 18x18m plots.","total observation area in square meters, total observation time in minutes"
"Dupont_redclover_Denmark_2009","Ringe_2009","transect observations","Bombus terrestris","species","bumblebees",217,3888,127.5,966384,"Three plots per field (18x18m), one at field edge, one in middle and one in between. Observed walked slowly back and forth along rows, observing flowers approximately once. Field visited three times during flowering season of red clover, but the data here are from the day of peak flowering (when bee activity levels were highest). Number of flowers were calculated based on counts in three 1x1m squares in each of three 18x18m plots.","total observation area in square meters, total observation time in minutes"
"Dupont_redclover_Denmark_2009","Ry_2009","transect observations","Bombus terrestris","species","bumblebees",33,3888,99.0833333333334,199584,"Three plots per field (18x18m), one at field edge, one in middle and one in between. Observed walked slowly back and forth along rows, observing flowers approximately once. Field visited three times during flowering season of red clover, but the data here are from the day of peak flowering (when bee activity levels were highest). Number of flowers were calculated based on counts in three 1x1m squares in each of three 18x18m plots.","total observation area in square meters, total observation time in minutes"
"Dupont_redclover_Denmark_2009","Skive_2009","transect observations","Bombus terrestris","species","bumblebees",46,3888,121.616666666667,225504,"Three plots per field (18x18m), one at field edge, one in middle and one in between. Observed walked slowly back and forth along rows, observing flowers approximately once. Field visited three times during flowering season of red clover, but the data here are from the day of peak flowering (when bee activity levels were highest). Number of flowers were calculated based on counts in three 1x1m squares in each of three 18x18m plots.","total observation area in square meters, total observation time in minutes"
"Dupont_redclover_Denmark_2009","Vester Skerninge, Kohavevej_2009","transect observations","Bombus terrestris","species","bumblebees",57,4212,154.516666666667,761436,"Three plots per field (18x18m), one at field edge, one in middle and one in between. Observed walked slowly back and forth along rows, observing flowers approximately once. Field visited three times during flowering season of red clover, but the data here are from the day of peak flowering (when bee activity levels were highest). Number of flowers were calculated based on counts in three 1x1m squares in each of three 18x18m plots.","total observation area in square meters, total observation time in minutes"
"Dupont_redclover_Denmark_2009","Viborg_2009","transect observations","Bombus terrestris","species","bumblebees",59,3888,163.3,396576,"Three plots per field (18x18m), one at field edge, one in middle and one in between. Observed walked slowly back and forth along rows, observing flowers approximately once. Field visited three times during flowering season of red clover, but the data here are from the day of peak flowering (when bee activity levels were highest). Number of flowers were calculated based on counts in three 1x1m squares in each of three 18x18m plots.","total observation area in square meters, total observation time in minutes"
"Dupont_redclover_Denmark_2008","Brushojgard_2008","transect observations","Bombus hortorum","species","bumblebees",4,1944,40.9833333333333,390015,"Three plots per field (18x18m), one at field edge, one in middle and one in between. Observed walked slowly back and forth along rows, observing flowers approximately once. Field visited three times during flowering season of red clover, but the data here are from the day of peak flowering (when bee activity levels were highest). Number of flowers were calculated based on counts in three 1x1m squares in each of three 18x18m plots.","total observation area in square meters, total observation time in minutes"
"Dupont_redclover_Denmark_2008","Braedstrup_2008","transect observations","Bombus hortorum","species","bumblebees",5,2916,100.25,573480,"Three plots per field (18x18m), one at field edge, one in middle and one in between. Observed walked slowly back and forth along rows, observing flowers approximately once. Field visited three times during flowering season of red clover, but the data here are from the day of peak flowering (when bee activity levels were highest). Number of flowers were calculated based on counts in three 1x1m squares in each of three 18x18m plots.","total observation area in square meters, total observation time in minutes"
"Dupont_redclover_Denmark_2008","Frijsendalsvej, Sall_2008","transect observations","Bombus hortorum","species","bumblebees",5,2916,74.8,829602,"Three plots per field (18x18m), one at field edge, one in middle and one in between. Observed walked slowly back and forth along rows, observing flowers approximately once. Field visited three times during flowering season of red clover, but the data here are from the day of peak flowering (when bee activity levels were highest). Number of flowers were calculated based on counts in three 1x1m squares in each of three 18x18m plots.","total observation area in square meters, total observation time in minutes"
"Dupont_redclover_Denmark_2008","Galten_2008","transect observations","Bombus hortorum","species","bumblebees",16,3888,293.033333333333,913680,"Three plots per field (18x18m), one at field edge, one in middle and one in between. Observed walked slowly back and forth along rows, observing flowers approximately once. Field visited three times during flowering season of red clover, but the data here are from the day of peak flowering (when bee activity levels were highest). Number of flowers were calculated based on counts in three 1x1m squares in each of three 18x18m plots.","total observation area in square meters, total observation time in minutes"
"Dupont_redclover_Denmark_2008","Gjern, Tingvejen_2008","transect observations","Bombus hortorum","species","bumblebees",11,2916,94.55,323676,"Three plots per field (18x18m), one at field edge, one in middle and one in between. Observed walked slowly back and forth along rows, observing flowers approximately once. Field visited three times during flowering season of red clover, but the data here are from the day of peak flowering (when bee activity levels were highest). Number of flowers were calculated based on counts in three 1x1m squares in each of three 18x18m plots.","total observation area in square meters, total observation time in minutes"
"Dupont_redclover_Denmark_2008","Hesselballe_2008","transect observations","Bombus hortorum","species","bumblebees",7,1944,56.5666666666667,311317.714285714,"Three plots per field (18x18m), one at field edge, one in middle and one in between. Observed walked slowly back and forth along rows, observing flowers approximately once. Field visited three times during flowering season of red clover, but the data here are from the day of peak flowering (when bee activity levels were highest). Number of flowers were calculated based on counts in three 1x1m squares in each of three 18x18m plots.","total observation area in square meters, total observation time in minutes"
"Dupont_redclover_Denmark_2008","Odense_2008","transect observations","Bombus hortorum","species","bumblebees",30,2916,111.15,478656,"Three plots per field (18x18m), one at field edge, one in middle and one in between. Observed walked slowly back and forth along rows, observing flowers approximately once. Field visited three times during flowering season of red clover, but the data here are from the day of peak flowering (when bee activity levels were highest). Number of flowers were calculated based on counts in three 1x1m squares in each of three 18x18m plots.","total observation area in square meters, total observation time in minutes"
"Dupont_redclover_Denmark_2008","Randers NO Syd_2008","transect observations","Bombus hortorum","species","bumblebees",0,3888,175.4,676836,"Three plots per field (18x18m), one at field edge, one in middle and one in between. Observed walked slowly back and forth along rows, observing flowers approximately once. Field visited three times during flowering season of red clover, but the data here are from the day of peak flowering (when bee activity levels were highest). Number of flowers were calculated based on counts in three 1x1m squares in each of three 18x18m plots.","total observation area in square meters, total observation time in minutes"
"Dupont_redclover_Denmark_2008","Skejby_2008","transect observations","Bombus hortorum","species","bumblebees",8,2916,76.8333333333333,434848.5,"Three plots per field (18x18m), one at field edge, one in middle and one in between. Observed walked slowly back and forth along rows, observing flowers approximately once. Field visited three times during flowering season of red clover, but the data here are from the day of peak flowering (when bee activity levels were highest). Number of flowers were calculated based on counts in three 1x1m squares in each of three 18x18m plots.","total observation area in square meters, total observation time in minutes"
"Dupont_redclover_Denmark_2008","Vamdrup_2008","transect observations","Bombus hortorum","species","bumblebees",11,3888,112.466666666667,509328,"Three plots per field (18x18m), one at field edge, one in middle and one in between. Observed walked slowly back and forth along rows, observing flowers approximately once. Field visited three times during flowering season of red clover, but the data here are from the day of peak flowering (when bee activity levels were highest). Number of flowers were calculated based on counts in three 1x1m squares in each of three 18x18m plots.","total observation area in square meters, total observation time in minutes"
"Dupont_redclover_Denmark_2008","Vester Skerninge, Amarksvej_2008","transect observations","Bombus hortorum","species","bumblebees",11,2916,125.733333333333,1134972,"Three plots per field (18x18m), one at field edge, one in middle and one in between. Observed walked slowly back and forth along rows, observing flowers approximately once. Field visited three times during flowering season of red clover, but the data here are from the day of peak flowering (when bee activity levels were highest). Number of flowers were calculated based on counts in three 1x1m squares in each of three 18x18m plots.","total observation area in square meters, total observation time in minutes"
"Dupont_redclover_Denmark_2009","Braedstrup_2009","transect observations","Bombus hortorum","species","bumblebees",0,3888,113.166666666667,768096,"Three plots per field (18x18m), one at field edge, one in middle and one in between. Observed walked slowly back and forth along rows, observing flowers approximately once. Field visited three times during flowering season of red clover, but the data here are from the day of peak flowering (when bee activity levels were highest). Number of flowers were calculated based on counts in three 1x1m squares in each of three 18x18m plots.","total observation area in square meters, total observation time in minutes"
"Dupont_redclover_Denmark_2009","Galten_2009","transect observations","Bombus hortorum","species","bumblebees",0,3888,117.816666666667,344304,"Three plots per field (18x18m), one at field edge, one in middle and one in between. Observed walked slowly back and forth along rows, observing flowers approximately once. Field visited three times during flowering season of red clover, but the data here are from the day of peak flowering (when bee activity levels were highest). Number of flowers were calculated based on counts in three 1x1m squares in each of three 18x18m plots.","total observation area in square meters, total observation time in minutes"
"Dupont_redclover_Denmark_2009","Gjern, Blak_2009","transect observations","Bombus hortorum","species","bumblebees",0,3888,101.416666666667,308880,"Three plots per field (18x18m), one at field edge, one in middle and one in between. Observed walked slowly back and forth along rows, observing flowers approximately once. Field visited three times during flowering season of red clover, but the data here are from the day of peak flowering (when bee activity levels were highest). Number of flowers were calculated based on counts in three 1x1m squares in each of three 18x18m plots.","total observation area in square meters, total observation time in minutes"
"Dupont_redclover_Denmark_2009","Gjern, Tingvejen_2009","transect observations","Bombus hortorum","species","bumblebees",51,3888,91.85,303696,"Three plots per field (18x18m), one at field edge, one in middle and one in between. Observed walked slowly back and forth along rows, observing flowers approximately once. Field visited three times during flowering season of red clover, but the data here are from the day of peak flowering (when bee activity levels were highest). Number of flowers were calculated based on counts in three 1x1m squares in each of three 18x18m plots.","total observation area in square meters, total observation time in minutes"
"Dupont_redclover_Denmark_2009","Hammel 1_2009","transect observations","Bombus hortorum","species","bumblebees",1,3888,243.516666666667,605232,"Three plots per field (18x18m), one at field edge, one in middle and one in between. Observed walked slowly back and forth along rows, observing flowers approximately once. Field visited three times during flowering season of red clover, but the data here are from the day of peak flowering (when bee activity levels were highest). Number of flowers were calculated based on counts in three 1x1m squares in each of three 18x18m plots.","total observation area in square meters, total observation time in minutes"
"Dupont_redclover_Denmark_2009","Hammel 2_2009","transect observations","Bombus hortorum","species","bumblebees",1,3888,148.183333333333,413424,"Three plots per field (18x18m), one at field edge, one in middle and one in between. Observed walked slowly back and forth along rows, observing flowers approximately once. Field visited three times during flowering season of red clover, but the data here are from the day of peak flowering (when bee activity levels were highest). Number of flowers were calculated based on counts in three 1x1m squares in each of three 18x18m plots.","total observation area in square meters, total observation time in minutes"
"Dupont_redclover_Denmark_2009","Horning_2009","transect observations","Bombus hortorum","species","bumblebees",1,3888,243.1,1786320,"Three plots per field (18x18m), one at field edge, one in middle and one in between. Observed walked slowly back and forth along rows, observing flowers approximately once. Field visited three times during flowering season of red clover, but the data here are from the day of peak flowering (when bee activity levels were highest). Number of flowers were calculated based on counts in three 1x1m squares in each of three 18x18m plots.","total observation area in square meters, total observation time in minutes"
"Dupont_redclover_Denmark_2009","Nr. Aaby_2009","transect observations","Bombus hortorum","species","bumblebees",28,3888,154.5,1296000,"Three plots per field (18x18m), one at field edge, one in middle and one in between. Observed walked slowly back and forth along rows, observing flowers approximately once. Field visited three times during flowering season of red clover, but the data here are from the day of peak flowering (when bee activity levels were highest). Number of flowers were calculated based on counts in three 1x1m squares in each of three 18x18m plots.","total observation area in square meters, total observation time in minutes"
"Dupont_redclover_Denmark_2009","Odense_2009","transect observations","Bombus hortorum","species","bumblebees",8,3888,135.766666666667,830736,"Three plots per field (18x18m), one at field edge, one in middle and one in between. Observed walked slowly back and forth along rows, observing flowers approximately once. Field visited three times during flowering season of red clover, but the data here are from the day of peak flowering (when bee activity levels were highest). Number of flowers were calculated based on counts in three 1x1m squares in each of three 18x18m plots.","total observation area in square meters, total observation time in minutes"
"Dupont_redclover_Denmark_2009","Randers NO Nord_2009","transect observations","Bombus hortorum","species","bumblebees",0,3888,118.316666666667,1330128,"Three plots per field (18x18m), one at field edge, one in middle and one in between. Observed walked slowly back and forth along rows, observing flowers approximately once. Field visited three times during flowering season of red clover, but the data here are from the day of peak flowering (when bee activity levels were highest). Number of flowers were calculated based on counts in three 1x1m squares in each of three 18x18m plots.","total observation area in square meters, total observation time in minutes"
"Dupont_redclover_Denmark_2009","Randers NO Syd_2009","transect observations","Bombus hortorum","species","bumblebees",3,3888,121.583333333333,1491264,"Three plots per field (18x18m), one at field edge, one in middle and one in between. Observed walked slowly back and forth along rows, observing flowers approximately once. Field visited three times during flowering season of red clover, but the data here are from the day of peak flowering (when bee activity levels were highest). Number of flowers were calculated based on counts in three 1x1m squares in each of three 18x18m plots.","total observation area in square meters, total observation time in minutes"
"Dupont_redclover_Denmark_2009","Randers SO_2009","transect observations","Bombus hortorum","species","bumblebees",5,3888,140.616666666667,1435968,"Three plots per field (18x18m), one at field edge, one in middle and one in between. Observed walked slowly back and forth along rows, observing flowers approximately once. Field visited three times during flowering season of red clover, but the data here are from the day of peak flowering (when bee activity levels were highest). Number of flowers were calculated based on counts in three 1x1m squares in each of three 18x18m plots.","total observation area in square meters, total observation time in minutes"
"Dupont_redclover_Denmark_2009","Ringe_2009","transect observations","Bombus hortorum","species","bumblebees",7,3888,127.5,966384,"Three plots per field (18x18m), one at field edge, one in middle and one in between. Observed walked slowly back and forth along rows, observing flowers approximately once. Field visited three times during flowering season of red clover, but the data here are from the day of peak flowering (when bee activity levels were highest). Number of flowers were calculated based on counts in three 1x1m squares in each of three 18x18m plots.","total observation area in square meters, total observation time in minutes"
"Dupont_redclover_Denmark_2009","Ry_2009","transect observations","Bombus hortorum","species","bumblebees",107,3888,99.0833333333334,199584,"Three plots per field (18x18m), one at field edge, one in middle and one in between. Observed walked slowly back and forth along rows, observing flowers approximately once. Field visited three times during flowering season of red clover, but the data here are from the day of peak flowering (when bee activity levels were highest). Number of flowers were calculated based on counts in three 1x1m squares in each of three 18x18m plots.","total observation area in square meters, total observation time in minutes"
"Dupont_redclover_Denmark_2009","Skive_2009","transect observations","Bombus hortorum","species","bumblebees",1,3888,121.616666666667,225504,"Three plots per field (18x18m), one at field edge, one in middle and one in between. Observed walked slowly back and forth along rows, observing flowers approximately once. Field visited three times during flowering season of red clover, but the data here are from the day of peak flowering (when bee activity levels were highest). Number of flowers were calculated based on counts in three 1x1m squares in each of three 18x18m plots.","total observation area in square meters, total observation time in minutes"
"Dupont_redclover_Denmark_2009","Vester Skerninge, Kohavevej_2009","transect observations","Bombus hortorum","species","bumblebees",16,4212,154.516666666667,761436,"Three plots per field (18x18m), one at field edge, one in middle and one in between. Observed walked slowly back and forth along rows, observing flowers approximately once. Field visited three times during flowering season of red clover, but the data here are from the day of peak flowering (when bee activity levels were highest). Number of flowers were calculated based on counts in three 1x1m squares in each of three 18x18m plots.","total observation area in square meters, total observation time in minutes"
"Dupont_redclover_Denmark_2009","Viborg_2009","transect observations","Bombus hortorum","species","bumblebees",0,3888,163.3,396576,"Three plots per field (18x18m), one at field edge, one in middle and one in between. Observed walked slowly back and forth along rows, observing flowers approximately once. Field visited three times during flowering season of red clover, but the data here are from the day of peak flowering (when bee activity levels were highest). Number of flowers were calculated based on counts in three 1x1m squares in each of three 18x18m plots.","total observation area in square meters, total observation time in minutes"
"Dupont_redclover_Denmark_2008","Brushojgard_2008","transect observations","Bombus pascuorum","species","bumblebees",12,1944,40.9833333333333,390015,"Three plots per field (18x18m), one at field edge, one in middle and one in between. Observed walked slowly back and forth along rows, observing flowers approximately once. Field visited three times during flowering season of red clover, but the data here are from the day of peak flowering (when bee activity levels were highest). Number of flowers were calculated based on counts in three 1x1m squares in each of three 18x18m plots.","total observation area in square meters, total observation time in minutes"
"Dupont_redclover_Denmark_2008","Braedstrup_2008","transect observations","Bombus pascuorum","species","bumblebees",29,2916,100.25,573480,"Three plots per field (18x18m), one at field edge, one in middle and one in between. Observed walked slowly back and forth along rows, observing flowers approximately once. Field visited three times during flowering season of red clover, but the data here are from the day of peak flowering (when bee activity levels were highest). Number of flowers were calculated based on counts in three 1x1m squares in each of three 18x18m plots.","total observation area in square meters, total observation time in minutes"
"Dupont_redclover_Denmark_2008","Frijsendalsvej, Sall_2008","transect observations","Bombus pascuorum","species","bumblebees",12,2916,74.8,829602,"Three plots per field (18x18m), one at field edge, one in middle and one in between. Observed walked slowly back and forth along rows, observing flowers approximately once. Field visited three times during flowering season of red clover, but the data here are from the day of peak flowering (when bee activity levels were highest). Number of flowers were calculated based on counts in three 1x1m squares in each of three 18x18m plots.","total observation area in square meters, total observation time in minutes"
"Dupont_redclover_Denmark_2008","Galten_2008","transect observations","Bombus pascuorum","species","bumblebees",129,3888,293.033333333333,913680,"Three plots per field (18x18m), one at field edge, one in middle and one in between. Observed walked slowly back and forth along rows, observing flowers approximately once. Field visited three times during flowering season of red clover, but the data here are from the day of peak flowering (when bee activity levels were highest). Number of flowers were calculated based on counts in three 1x1m squares in each of three 18x18m plots.","total observation area in square meters, total observation time in minutes"
"Dupont_redclover_Denmark_2008","Gjern, Tingvejen_2008","transect observations","Bombus pascuorum","species","bumblebees",110,2916,94.55,323676,"Three plots per field (18x18m), one at field edge, one in middle and one in between. Observed walked slowly back and forth along rows, observing flowers approximately once. Field visited three times during flowering season of red clover, but the data here are from the day of peak flowering (when bee activity levels were highest). Number of flowers were calculated based on counts in three 1x1m squares in each of three 18x18m plots.","total observation area in square meters, total observation time in minutes"
"Dupont_redclover_Denmark_2008","Hesselballe_2008","transect observations","Bombus pascuorum","species","bumblebees",24,1944,56.5666666666667,311317.714285714,"Three plots per field (18x18m), one at field edge, one in middle and one in between. Observed walked slowly back and forth along rows, observing flowers approximately once. Field visited three times during flowering season of red clover, but the data here are from the day of peak flowering (when bee activity levels were highest). Number of flowers were calculated based on counts in three 1x1m squares in each of three 18x18m plots.","total observation area in square meters, total observation time in minutes"
"Dupont_redclover_Denmark_2008","Odense_2008","transect observations","Bombus pascuorum","species","bumblebees",135,2916,111.15,478656,"Three plots per field (18x18m), one at field edge, one in middle and one in between. Observed walked slowly back and forth along rows, observing flowers approximately once. Field visited three times during flowering season of red clover, but the data here are from the day of peak flowering (when bee activity levels were highest). Number of flowers were calculated based on counts in three 1x1m squares in each of three 18x18m plots.","total observation area in square meters, total observation time in minutes"
"Dupont_redclover_Denmark_2008","Randers NO Syd_2008","transect observations","Bombus pascuorum","species","bumblebees",11,3888,175.4,676836,"Three plots per field (18x18m), one at field edge, one in middle and one in between. Observed walked slowly back and forth along rows, observing flowers approximately once. Field visited three times during flowering season of red clover, but the data here are from the day of peak flowering (when bee activity levels were highest). Number of flowers were calculated based on counts in three 1x1m squares in each of three 18x18m plots.","total observation area in square meters, total observation time in minutes"
"Dupont_redclover_Denmark_2008","Skejby_2008","transect observations","Bombus pascuorum","species","bumblebees",4,2916,76.8333333333333,434848.5,"Three plots per field (18x18m), one at field edge, one in middle and one in between. Observed walked slowly back and forth along rows, observing flowers approximately once. Field visited three times during flowering season of red clover, but the data here are from the day of peak flowering (when bee activity levels were highest). Number of flowers were calculated based on counts in three 1x1m squares in each of three 18x18m plots.","total observation area in square meters, total observation time in minutes"
"Dupont_redclover_Denmark_2008","Vamdrup_2008","transect observations","Bombus pascuorum","species","bumblebees",13,3888,112.466666666667,509328,"Three plots per field (18x18m), one at field edge, one in middle and one in between. Observed walked slowly back and forth along rows, observing flowers approximately once. Field visited three times during flowering season of red clover, but the data here are from the day of peak flowering (when bee activity levels were highest). Number of flowers were calculated based on counts in three 1x1m squares in each of three 18x18m plots.","total observation area in square meters, total observation time in minutes"
"Dupont_redclover_Denmark_2008","Vester Skerninge, Amarksvej_2008","transect observations","Bombus pascuorum","species","bumblebees",64,2916,125.733333333333,1134972,"Three plots per field (18x18m), one at field edge, one in middle and one in between. Observed walked slowly back and forth along rows, observing flowers approximately once. Field visited three times during flowering season of red clover, but the data here are from the day of peak flowering (when bee activity levels were highest). Number of flowers were calculated based on counts in three 1x1m squares in each of three 18x18m plots.","total observation area in square meters, total observation time in minutes"
"Dupont_redclover_Denmark_2009","Braedstrup_2009","transect observations","Bombus pascuorum","species","bumblebees",6,3888,113.166666666667,768096,"Three plots per field (18x18m), one at field edge, one in middle and one in between. Observed walked slowly back and forth along rows, observing flowers approximately once. Field visited three times during flowering season of red clover, but the data here are from the day of peak flowering (when bee activity levels were highest). Number of flowers were calculated based on counts in three 1x1m squares in each of three 18x18m plots.","total observation area in square meters, total observation time in minutes"
"Dupont_redclover_Denmark_2009","Galten_2009","transect observations","Bombus pascuorum","species","bumblebees",16,3888,117.816666666667,344304,"Three plots per field (18x18m), one at field edge, one in middle and one in between. Observed walked slowly back and forth along rows, observing flowers approximately once. Field visited three times during flowering season of red clover, but the data here are from the day of peak flowering (when bee activity levels were highest). Number of flowers were calculated based on counts in three 1x1m squares in each of three 18x18m plots.","total observation area in square meters, total observation time in minutes"
"Dupont_redclover_Denmark_2009","Gjern, Blak_2009","transect observations","Bombus pascuorum","species","bumblebees",4,3888,101.416666666667,308880,"Three plots per field (18x18m), one at field edge, one in middle and one in between. Observed walked slowly back and forth along rows, observing flowers approximately once. Field visited three times during flowering season of red clover, but the data here are from the day of peak flowering (when bee activity levels were highest). Number of flowers were calculated based on counts in three 1x1m squares in each of three 18x18m plots.","total observation area in square meters, total observation time in minutes"
"Dupont_redclover_Denmark_2009","Gjern, Tingvejen_2009","transect observations","Bombus pascuorum","species","bumblebees",28,3888,91.85,303696,"Three plots per field (18x18m), one at field edge, one in middle and one in between. Observed walked slowly back and forth along rows, observing flowers approximately once. Field visited three times during flowering season of red clover, but the data here are from the day of peak flowering (when bee activity levels were highest). Number of flowers were calculated based on counts in three 1x1m squares in each of three 18x18m plots.","total observation area in square meters, total observation time in minutes"
"Dupont_redclover_Denmark_2009","Hammel 1_2009","transect observations","Bombus pascuorum","species","bumblebees",19,3888,243.516666666667,605232,"Three plots per field (18x18m), one at field edge, one in middle and one in between. Observed walked slowly back and forth along rows, observing flowers approximately once. Field visited three times during flowering season of red clover, but the data here are from the day of peak flowering (when bee activity levels were highest). Number of flowers were calculated based on counts in three 1x1m squares in each of three 18x18m plots.","total observation area in square meters, total observation time in minutes"
"Dupont_redclover_Denmark_2009","Hammel 2_2009","transect observations","Bombus pascuorum","species","bumblebees",19,3888,148.183333333333,413424,"Three plots per field (18x18m), one at field edge, one in middle and one in between. Observed walked slowly back and forth along rows, observing flowers approximately once. Field visited three times during flowering season of red clover, but the data here are from the day of peak flowering (when bee activity levels were highest). Number of flowers were calculated based on counts in three 1x1m squares in each of three 18x18m plots.","total observation area in square meters, total observation time in minutes"
"Dupont_redclover_Denmark_2009","Horning_2009","transect observations","Bombus pascuorum","species","bumblebees",5,3888,243.1,1786320,"Three plots per field (18x18m), one at field edge, one in middle and one in between. Observed walked slowly back and forth along rows, observing flowers approximately once. Field visited three times during flowering season of red clover, but the data here are from the day of peak flowering (when bee activity levels were highest). Number of flowers were calculated based on counts in three 1x1m squares in each of three 18x18m plots.","total observation area in square meters, total observation time in minutes"
"Dupont_redclover_Denmark_2009","Nr. Aaby_2009","transect observations","Bombus pascuorum","species","bumblebees",110,3888,154.5,1296000,"Three plots per field (18x18m), one at field edge, one in middle and one in between. Observed walked slowly back and forth along rows, observing flowers approximately once. Field visited three times during flowering season of red clover, but the data here are from the day of peak flowering (when bee activity levels were highest). Number of flowers were calculated based on counts in three 1x1m squares in each of three 18x18m plots.","total observation area in square meters, total observation time in minutes"
"Dupont_redclover_Denmark_2009","Odense_2009","transect observations","Bombus pascuorum","species","bumblebees",19,3888,135.766666666667,830736,"Three plots per field (18x18m), one at field edge, one in middle and one in between. Observed walked slowly back and forth along rows, observing flowers approximately once. Field visited three times during flowering season of red clover, but the data here are from the day of peak flowering (when bee activity levels were highest). Number of flowers were calculated based on counts in three 1x1m squares in each of three 18x18m plots.","total observation area in square meters, total observation time in minutes"
"Dupont_redclover_Denmark_2009","Randers NO Nord_2009","transect observations","Bombus pascuorum","species","bumblebees",0,3888,118.316666666667,1330128,"Three plots per field (18x18m), one at field edge, one in middle and one in between. Observed walked slowly back and forth along rows, observing flowers approximately once. Field visited three times during flowering season of red clover, but the data here are from the day of peak flowering (when bee activity levels were highest). Number of flowers were calculated based on counts in three 1x1m squares in each of three 18x18m plots.","total observation area in square meters, total observation time in minutes"
"Dupont_redclover_Denmark_2009","Randers NO Syd_2009","transect observations","Bombus pascuorum","species","bumblebees",3,3888,121.583333333333,1491264,"Three plots per field (18x18m), one at field edge, one in middle and one in between. Observed walked slowly back and forth along rows, observing flowers approximately once. Field visited three times during flowering season of red clover, but the data here are from the day of peak flowering (when bee activity levels were highest). Number of flowers were calculated based on counts in three 1x1m squares in each of three 18x18m plots.","total observation area in square meters, total observation time in minutes"
"Dupont_redclover_Denmark_2009","Randers SO_2009","transect observations","Bombus pascuorum","species","bumblebees",11,3888,140.616666666667,1435968,"Three plots per field (18x18m), one at field edge, one in middle and one in between. Observed walked slowly back and forth along rows, observing flowers approximately once. Field visited three times during flowering season of red clover, but the data here are from the day of peak flowering (when bee activity levels were highest). Number of flowers were calculated based on counts in three 1x1m squares in each of three 18x18m plots.","total observation area in square meters, total observation time in minutes"
"Dupont_redclover_Denmark_2009","Ringe_2009","transect observations","Bombus pascuorum","species","bumblebees",18,3888,127.5,966384,"Three plots per field (18x18m), one at field edge, one in middle and one in between. Observed walked slowly back and forth along rows, observing flowers approximately once. Field visited three times during flowering season of red clover, but the data here are from the day of peak flowering (when bee activity levels were highest). Number of flowers were calculated based on counts in three 1x1m squares in each of three 18x18m plots.","total observation area in square meters, total observation time in minutes"
"Dupont_redclover_Denmark_2009","Ry_2009","transect observations","Bombus pascuorum","species","bumblebees",58,3888,99.0833333333334,199584,"Three plots per field (18x18m), one at field edge, one in middle and one in between. Observed walked slowly back and forth along rows, observing flowers approximately once. Field visited three times during flowering season of red clover, but the data here are from the day of peak flowering (when bee activity levels were highest). Number of flowers were calculated based on counts in three 1x1m squares in each of three 18x18m plots.","total observation area in square meters, total observation time in minutes"
"Dupont_redclover_Denmark_2009","Skive_2009","transect observations","Bombus pascuorum","species","bumblebees",2,3888,121.616666666667,225504,"Three plots per field (18x18m), one at field edge, one in middle and one in between. Observed walked slowly back and forth along rows, observing flowers approximately once. Field visited three times during flowering season of red clover, but the data here are from the day of peak flowering (when bee activity levels were highest). Number of flowers were calculated based on counts in three 1x1m squares in each of three 18x18m plots.","total observation area in square meters, total observation time in minutes"
"Dupont_redclover_Denmark_2009","Vester Skerninge, Kohavevej_2009","transect observations","Bombus pascuorum","species","bumblebees",51,4212,154.516666666667,761436,"Three plots per field (18x18m), one at field edge, one in middle and one in between. Observed walked slowly back and forth along rows, observing flowers approximately once. Field visited three times during flowering season of red clover, but the data here are from the day of peak flowering (when bee activity levels were highest). Number of flowers were calculated based on counts in three 1x1m squares in each of three 18x18m plots.","total observation area in square meters, total observation time in minutes"
"Dupont_redclover_Denmark_2009","Viborg_2009","transect observations","Bombus pascuorum","species","bumblebees",2,3888,163.3,396576,"Three plots per field (18x18m), one at field edge, one in middle and one in between. Observed walked slowly back and forth along rows, observing flowers approximately once. Field visited three times during flowering season of red clover, but the data here are from the day of peak flowering (when bee activity levels were highest). Number of flowers were calculated based on counts in three 1x1m squares in each of three 18x18m plots.","total observation area in square meters, total observation time in minutes"
"Dupont_redclover_Denmark_2008","Brushojgard_2008","transect observations","Bombus pratorum","species","bumblebees",0,1944,40.9833333333333,390015,"Three plots per field (18x18m), one at field edge, one in middle and one in between. Observed walked slowly back and forth along rows, observing flowers approximately once. Field visited three times during flowering season of red clover, but the data here are from the day of peak flowering (when bee activity levels were highest). Number of flowers were calculated based on counts in three 1x1m squares in each of three 18x18m plots.","total observation area in square meters, total observation time in minutes"
"Dupont_redclover_Denmark_2008","Braedstrup_2008","transect observations","Bombus pratorum","species","bumblebees",0,2916,100.25,573480,"Three plots per field (18x18m), one at field edge, one in middle and one in between. Observed walked slowly back and forth along rows, observing flowers approximately once. Field visited three times during flowering season of red clover, but the data here are from the day of peak flowering (when bee activity levels were highest). Number of flowers were calculated based on counts in three 1x1m squares in each of three 18x18m plots.","total observation area in square meters, total observation time in minutes"
"Dupont_redclover_Denmark_2008","Frijsendalsvej, Sall_2008","transect observations","Bombus pratorum","species","bumblebees",1,2916,74.8,829602,"Three plots per field (18x18m), one at field edge, one in middle and one in between. Observed walked slowly back and forth along rows, observing flowers approximately once. Field visited three times during flowering season of red clover, but the data here are from the day of peak flowering (when bee activity levels were highest). Number of flowers were calculated based on counts in three 1x1m squares in each of three 18x18m plots.","total observation area in square meters, total observation time in minutes"
"Dupont_redclover_Denmark_2008","Galten_2008","transect observations","Bombus pratorum","species","bumblebees",6,3888,293.033333333333,913680,"Three plots per field (18x18m), one at field edge, one in middle and one in between. Observed walked slowly back and forth along rows, observing flowers approximately once. Field visited three times during flowering season of red clover, but the data here are from the day of peak flowering (when bee activity levels were highest). Number of flowers were calculated based on counts in three 1x1m squares in each of three 18x18m plots.","total observation area in square meters, total observation time in minutes"
"Dupont_redclover_Denmark_2008","Gjern, Tingvejen_2008","transect observations","Bombus pratorum","species","bumblebees",0,2916,94.55,323676,"Three plots per field (18x18m), one at field edge, one in middle and one in between. Observed walked slowly back and forth along rows, observing flowers approximately once. Field visited three times during flowering season of red clover, but the data here are from the day of peak flowering (when bee activity levels were highest). Number of flowers were calculated based on counts in three 1x1m squares in each of three 18x18m plots.","total observation area in square meters, total observation time in minutes"
"Dupont_redclover_Denmark_2008","Hesselballe_2008","transect observations","Bombus pratorum","species","bumblebees",3,1944,56.5666666666667,311317.714285714,"Three plots per field (18x18m), one at field edge, one in middle and one in between. Observed walked slowly back and forth along rows, observing flowers approximately once. Field visited three times during flowering season of red clover, but the data here are from the day of peak flowering (when bee activity levels were highest). Number of flowers were calculated based on counts in three 1x1m squares in each of three 18x18m plots.","total observation area in square meters, total observation time in minutes"
"Dupont_redclover_Denmark_2008","Odense_2008","transect observations","Bombus pratorum","species","bumblebees",0,2916,111.15,478656,"Three plots per field (18x18m), one at field edge, one in middle and one in between. Observed walked slowly back and forth along rows, observing flowers approximately once. Field visited three times during flowering season of red clover, but the data here are from the day of peak flowering (when bee activity levels were highest). Number of flowers were calculated based on counts in three 1x1m squares in each of three 18x18m plots.","total observation area in square meters, total observation time in minutes"
"Dupont_redclover_Denmark_2008","Randers NO Syd_2008","transect observations","Bombus pratorum","species","bumblebees",0,3888,175.4,676836,"Three plots per field (18x18m), one at field edge, one in middle and one in between. Observed walked slowly back and forth along rows, observing flowers approximately once. Field visited three times during flowering season of red clover, but the data here are from the day of peak flowering (when bee activity levels were highest). Number of flowers were calculated based on counts in three 1x1m squares in each of three 18x18m plots.","total observation area in square meters, total observation time in minutes"
"Dupont_redclover_Denmark_2008","Skejby_2008","transect observations","Bombus pratorum","species","bumblebees",0,2916,76.8333333333333,434848.5,"Three plots per field (18x18m), one at field edge, one in middle and one in between. Observed walked slowly back and forth along rows, observing flowers approximately once. Field visited three times during flowering season of red clover, but the data here are from the day of peak flowering (when bee activity levels were highest). Number of flowers were calculated based on counts in three 1x1m squares in each of three 18x18m plots.","total observation area in square meters, total observation time in minutes"
"Dupont_redclover_Denmark_2008","Vamdrup_2008","transect observations","Bombus pratorum","species","bumblebees",0,3888,112.466666666667,509328,"Three plots per field (18x18m), one at field edge, one in middle and one in between. Observed walked slowly back and forth along rows, observing flowers approximately once. Field visited three times during flowering season of red clover, but the data here are from the day of peak flowering (when bee activity levels were highest). Number of flowers were calculated based on counts in three 1x1m squares in each of three 18x18m plots.","total observation area in square meters, total observation time in minutes"
"Dupont_redclover_Denmark_2008","Vester Skerninge, Amarksvej_2008","transect observations","Bombus pratorum","species","bumblebees",0,2916,125.733333333333,1134972,"Three plots per field (18x18m), one at field edge, one in middle and one in between. Observed walked slowly back and forth along rows, observing flowers approximately once. Field visited three times during flowering season of red clover, but the data here are from the day of peak flowering (when bee activity levels were highest). Number of flowers were calculated based on counts in three 1x1m squares in each of three 18x18m plots.","total observation area in square meters, total observation time in minutes"
"Dupont_redclover_Denmark_2009","Braedstrup_2009","transect observations","Bombus pratorum","species","bumblebees",0,3888,113.166666666667,768096,"Three plots per field (18x18m), one at field edge, one in middle and one in between. Observed walked slowly back and forth along rows, observing flowers approximately once. Field visited three times during flowering season of red clover, but the data here are from the day of peak flowering (when bee activity levels were highest). Number of flowers were calculated based on counts in three 1x1m squares in each of three 18x18m plots.","total observation area in square meters, total observation time in minutes"
"Dupont_redclover_Denmark_2009","Galten_2009","transect observations","Bombus pratorum","species","bumblebees",0,3888,117.816666666667,344304,"Three plots per field (18x18m), one at field edge, one in middle and one in between. Observed walked slowly back and forth along rows, observing flowers approximately once. Field visited three times during flowering season of red clover, but the data here are from the day of peak flowering (when bee activity levels were highest). Number of flowers were calculated based on counts in three 1x1m squares in each of three 18x18m plots.","total observation area in square meters, total observation time in minutes"
"Dupont_redclover_Denmark_2009","Gjern, Blak_2009","transect observations","Bombus pratorum","species","bumblebees",0,3888,101.416666666667,308880,"Three plots per field (18x18m), one at field edge, one in middle and one in between. Observed walked slowly back and forth along rows, observing flowers approximately once. Field visited three times during flowering season of red clover, but the data here are from the day of peak flowering (when bee activity levels were highest). Number of flowers were calculated based on counts in three 1x1m squares in each of three 18x18m plots.","total observation area in square meters, total observation time in minutes"
"Dupont_redclover_Denmark_2009","Gjern, Tingvejen_2009","transect observations","Bombus pratorum","species","bumblebees",0,3888,91.85,303696,"Three plots per field (18x18m), one at field edge, one in middle and one in between. Observed walked slowly back and forth along rows, observing flowers approximately once. Field visited three times during flowering season of red clover, but the data here are from the day of peak flowering (when bee activity levels were highest). Number of flowers were calculated based on counts in three 1x1m squares in each of three 18x18m plots.","total observation area in square meters, total observation time in minutes"
"Dupont_redclover_Denmark_2009","Hammel 1_2009","transect observations","Bombus pratorum","species","bumblebees",0,3888,243.516666666667,605232,"Three plots per field (18x18m), one at field edge, one in middle and one in between. Observed walked slowly back and forth along rows, observing flowers approximately once. Field visited three times during flowering season of red clover, but the data here are from the day of peak flowering (when bee activity levels were highest). Number of flowers were calculated based on counts in three 1x1m squares in each of three 18x18m plots.","total observation area in square meters, total observation time in minutes"
"Dupont_redclover_Denmark_2009","Hammel 2_2009","transect observations","Bombus pratorum","species","bumblebees",0,3888,148.183333333333,413424,"Three plots per field (18x18m), one at field edge, one in middle and one in between. Observed walked slowly back and forth along rows, observing flowers approximately once. Field visited three times during flowering season of red clover, but the data here are from the day of peak flowering (when bee activity levels were highest). Number of flowers were calculated based on counts in three 1x1m squares in each of three 18x18m plots.","total observation area in square meters, total observation time in minutes"
"Dupont_redclover_Denmark_2009","Horning_2009","transect observations","Bombus pratorum","species","bumblebees",0,3888,243.1,1786320,"Three plots per field (18x18m), one at field edge, one in middle and one in between. Observed walked slowly back and forth along rows, observing flowers approximately once. Field visited three times during flowering season of red clover, but the data here are from the day of peak flowering (when bee activity levels were highest). Number of flowers were calculated based on counts in three 1x1m squares in each of three 18x18m plots.","total observation area in square meters, total observation time in minutes"
"Dupont_redclover_Denmark_2009","Nr. Aaby_2009","transect observations","Bombus pratorum","species","bumblebees",0,3888,154.5,1296000,"Three plots per field (18x18m), one at field edge, one in middle and one in between. Observed walked slowly back and forth along rows, observing flowers approximately once. Field visited three times during flowering season of red clover, but the data here are from the day of peak flowering (when bee activity levels were highest). Number of flowers were calculated based on counts in three 1x1m squares in each of three 18x18m plots.","total observation area in square meters, total observation time in minutes"
"Dupont_redclover_Denmark_2009","Odense_2009","transect observations","Bombus pratorum","species","bumblebees",0,3888,135.766666666667,830736,"Three plots per field (18x18m), one at field edge, one in middle and one in between. Observed walked slowly back and forth along rows, observing flowers approximately once. Field visited three times during flowering season of red clover, but the data here are from the day of peak flowering (when bee activity levels were highest). Number of flowers were calculated based on counts in three 1x1m squares in each of three 18x18m plots.","total observation area in square meters, total observation time in minutes"
"Dupont_redclover_Denmark_2009","Randers NO Nord_2009","transect observations","Bombus pratorum","species","bumblebees",0,3888,118.316666666667,1330128,"Three plots per field (18x18m), one at field edge, one in middle and one in between. Observed walked slowly back and forth along rows, observing flowers approximately once. Field visited three times during flowering season of red clover, but the data here are from the day of peak flowering (when bee activity levels were highest). Number of flowers were calculated based on counts in three 1x1m squares in each of three 18x18m plots.","total observation area in square meters, total observation time in minutes"
"Dupont_redclover_Denmark_2009","Randers NO Syd_2009","transect observations","Bombus pratorum","species","bumblebees",0,3888,121.583333333333,1491264,"Three plots per field (18x18m), one at field edge, one in middle and one in between. Observed walked slowly back and forth along rows, observing flowers approximately once. Field visited three times during flowering season of red clover, but the data here are from the day of peak flowering (when bee activity levels were highest). Number of flowers were calculated based on counts in three 1x1m squares in each of three 18x18m plots.","total observation area in square meters, total observation time in minutes"
"Dupont_redclover_Denmark_2009","Randers SO_2009","transect observations","Bombus pratorum","species","bumblebees",0,3888,140.616666666667,1435968,"Three plots per field (18x18m), one at field edge, one in middle and one in between. Observed walked slowly back and forth along rows, observing flowers approximately once. Field visited three times during flowering season of red clover, but the data here are from the day of peak flowering (when bee activity levels were highest). Number of flowers were calculated based on counts in three 1x1m squares in each of three 18x18m plots.","total observation area in square meters, total observation time in minutes"
"Dupont_redclover_Denmark_2009","Ringe_2009","transect observations","Bombus pratorum","species","bumblebees",0,3888,127.5,966384,"Three plots per field (18x18m), one at field edge, one in middle and one in between. Observed walked slowly back and forth along rows, observing flowers approximately once. Field visited three times during flowering season of red clover, but the data here are from the day of peak flowering (when bee activity levels were highest). Number of flowers were calculated based on counts in three 1x1m squares in each of three 18x18m plots.","total observation area in square meters, total observation time in minutes"
"Dupont_redclover_Denmark_2009","Ry_2009","transect observations","Bombus pratorum","species","bumblebees",0,3888,99.0833333333334,199584,"Three plots per field (18x18m), one at field edge, one in middle and one in between. Observed walked slowly back and forth along rows, observing flowers approximately once. Field visited three times during flowering season of red clover, but the data here are from the day of peak flowering (when bee activity levels were highest). Number of flowers were calculated based on counts in three 1x1m squares in each of three 18x18m plots.","total observation area in square meters, total observation time in minutes"
"Dupont_redclover_Denmark_2009","Skive_2009","transect observations","Bombus pratorum","species","bumblebees",0,3888,121.616666666667,225504,"Three plots per field (18x18m), one at field edge, one in middle and one in between. Observed walked slowly back and forth along rows, observing flowers approximately once. Field visited three times during flowering season of red clover, but the data here are from the day of peak flowering (when bee activity levels were highest). Number of flowers were calculated based on counts in three 1x1m squares in each of three 18x18m plots.","total observation area in square meters, total observation time in minutes"
"Dupont_redclover_Denmark_2009","Vester Skerninge, Kohavevej_2009","transect observations","Bombus pratorum","species","bumblebees",0,4212,154.516666666667,761436,"Three plots per field (18x18m), one at field edge, one in middle and one in between. Observed walked slowly back and forth along rows, observing flowers approximately once. Field visited three times during flowering season of red clover, but the data here are from the day of peak flowering (when bee activity levels were highest). Number of flowers were calculated based on counts in three 1x1m squares in each of three 18x18m plots.","total observation area in square meters, total observation time in minutes"
"Dupont_redclover_Denmark_2009","Viborg_2009","transect observations","Bombus pratorum","species","bumblebees",0,3888,163.3,396576,"Three plots per field (18x18m), one at field edge, one in middle and one in between. Observed walked slowly back and forth along rows, observing flowers approximately once. Field visited three times during flowering season of red clover, but the data here are from the day of peak flowering (when bee activity levels were highest). Number of flowers were calculated based on counts in three 1x1m squares in each of three 18x18m plots.","total observation area in square meters, total observation time in minutes"
"Dupont_redclover_Denmark_2008","Brushojgard_2008","transect observations","Bombus lapidarius","species","bumblebees",6,1944,40.9833333333333,390015,"Three plots per field (18x18m), one at field edge, one in middle and one in between. Observed walked slowly back and forth along rows, observing flowers approximately once. Field visited three times during flowering season of red clover, but the data here are from the day of peak flowering (when bee activity levels were highest). Number of flowers were calculated based on counts in three 1x1m squares in each of three 18x18m plots.","total observation area in square meters, total observation time in minutes"
"Dupont_redclover_Denmark_2008","Braedstrup_2008","transect observations","Bombus lapidarius","species","bumblebees",44,2916,100.25,573480,"Three plots per field (18x18m), one at field edge, one in middle and one in between. Observed walked slowly back and forth along rows, observing flowers approximately once. Field visited three times during flowering season of red clover, but the data here are from the day of peak flowering (when bee activity levels were highest). Number of flowers were calculated based on counts in three 1x1m squares in each of three 18x18m plots.","total observation area in square meters, total observation time in minutes"
"Dupont_redclover_Denmark_2008","Frijsendalsvej, Sall_2008","transect observations","Bombus lapidarius","species","bumblebees",55,2916,74.8,829602,"Three plots per field (18x18m), one at field edge, one in middle and one in between. Observed walked slowly back and forth along rows, observing flowers approximately once. Field visited three times during flowering season of red clover, but the data here are from the day of peak flowering (when bee activity levels were highest). Number of flowers were calculated based on counts in three 1x1m squares in each of three 18x18m plots.","total observation area in square meters, total observation time in minutes"
"Dupont_redclover_Denmark_2008","Galten_2008","transect observations","Bombus lapidarius","species","bumblebees",162,3888,293.033333333333,913680,"Three plots per field (18x18m), one at field edge, one in middle and one in between. Observed walked slowly back and forth along rows, observing flowers approximately once. Field visited three times during flowering season of red clover, but the data here are from the day of peak flowering (when bee activity levels were highest). Number of flowers were calculated based on counts in three 1x1m squares in each of three 18x18m plots.","total observation area in square meters, total observation time in minutes"
"Dupont_redclover_Denmark_2008","Gjern, Tingvejen_2008","transect observations","Bombus lapidarius","species","bumblebees",44,2916,94.55,323676,"Three plots per field (18x18m), one at field edge, one in middle and one in between. Observed walked slowly back and forth along rows, observing flowers approximately once. Field visited three times during flowering season of red clover, but the data here are from the day of peak flowering (when bee activity levels were highest). Number of flowers were calculated based on counts in three 1x1m squares in each of three 18x18m plots.","total observation area in square meters, total observation time in minutes"
"Dupont_redclover_Denmark_2008","Hesselballe_2008","transect observations","Bombus lapidarius","species","bumblebees",21,1944,56.5666666666667,311317.714285714,"Three plots per field (18x18m), one at field edge, one in middle and one in between. Observed walked slowly back and forth along rows, observing flowers approximately once. Field visited three times during flowering season of red clover, but the data here are from the day of peak flowering (when bee activity levels were highest). Number of flowers were calculated based on counts in three 1x1m squares in each of three 18x18m plots.","total observation area in square meters, total observation time in minutes"
"Dupont_redclover_Denmark_2008","Odense_2008","transect observations","Bombus lapidarius","species","bumblebees",35,2916,111.15,478656,"Three plots per field (18x18m), one at field edge, one in middle and one in between. Observed walked slowly back and forth along rows, observing flowers approximately once. Field visited three times during flowering season of red clover, but the data here are from the day of peak flowering (when bee activity levels were highest). Number of flowers were calculated based on counts in three 1x1m squares in each of three 18x18m plots.","total observation area in square meters, total observation time in minutes"
"Dupont_redclover_Denmark_2008","Randers NO Syd_2008","transect observations","Bombus lapidarius","species","bumblebees",40,3888,175.4,676836,"Three plots per field (18x18m), one at field edge, one in middle and one in between. Observed walked slowly back and forth along rows, observing flowers approximately once. Field visited three times during flowering season of red clover, but the data here are from the day of peak flowering (when bee activity levels were highest). Number of flowers were calculated based on counts in three 1x1m squares in each of three 18x18m plots.","total observation area in square meters, total observation time in minutes"
"Dupont_redclover_Denmark_2008","Skejby_2008","transect observations","Bombus lapidarius","species","bumblebees",14,2916,76.8333333333333,434848.5,"Three plots per field (18x18m), one at field edge, one in middle and one in between. Observed walked slowly back and forth along rows, observing flowers approximately once. Field visited three times during flowering season of red clover, but the data here are from the day of peak flowering (when bee activity levels were highest). Number of flowers were calculated based on counts in three 1x1m squares in each of three 18x18m plots.","total observation area in square meters, total observation time in minutes"
"Dupont_redclover_Denmark_2008","Vamdrup_2008","transect observations","Bombus lapidarius","species","bumblebees",73,3888,112.466666666667,509328,"Three plots per field (18x18m), one at field edge, one in middle and one in between. Observed walked slowly back and forth along rows, observing flowers approximately once. Field visited three times during flowering season of red clover, but the data here are from the day of peak flowering (when bee activity levels were highest). Number of flowers were calculated based on counts in three 1x1m squares in each of three 18x18m plots.","total observation area in square meters, total observation time in minutes"
"Dupont_redclover_Denmark_2008","Vester Skerninge, Amarksvej_2008","transect observations","Bombus lapidarius","species","bumblebees",119,2916,125.733333333333,1134972,"Three plots per field (18x18m), one at field edge, one in middle and one in between. Observed walked slowly back and forth along rows, observing flowers approximately once. Field visited three times during flowering season of red clover, but the data here are from the day of peak flowering (when bee activity levels were highest). Number of flowers were calculated based on counts in three 1x1m squares in each of three 18x18m plots.","total observation area in square meters, total observation time in minutes"
"Dupont_redclover_Denmark_2009","Braedstrup_2009","transect observations","Bombus lapidarius","species","bumblebees",6,3888,113.166666666667,768096,"Three plots per field (18x18m), one at field edge, one in middle and one in between. Observed walked slowly back and forth along rows, observing flowers approximately once. Field visited three times during flowering season of red clover, but the data here are from the day of peak flowering (when bee activity levels were highest). Number of flowers were calculated based on counts in three 1x1m squares in each of three 18x18m plots.","total observation area in square meters, total observation time in minutes"
"Dupont_redclover_Denmark_2009","Galten_2009","transect observations","Bombus lapidarius","species","bumblebees",21,3888,117.816666666667,344304,"Three plots per field (18x18m), one at field edge, one in middle and one in between. Observed walked slowly back and forth along rows, observing flowers approximately once. Field visited three times during flowering season of red clover, but the data here are from the day of peak flowering (when bee activity levels were highest). Number of flowers were calculated based on counts in three 1x1m squares in each of three 18x18m plots.","total observation area in square meters, total observation time in minutes"
"Dupont_redclover_Denmark_2009","Gjern, Blak_2009","transect observations","Bombus lapidarius","species","bumblebees",48,3888,101.416666666667,308880,"Three plots per field (18x18m), one at field edge, one in middle and one in between. Observed walked slowly back and forth along rows, observing flowers approximately once. Field visited three times during flowering season of red clover, but the data here are from the day of peak flowering (when bee activity levels were highest). Number of flowers were calculated based on counts in three 1x1m squares in each of three 18x18m plots.","total observation area in square meters, total observation time in minutes"
"Dupont_redclover_Denmark_2009","Gjern, Tingvejen_2009","transect observations","Bombus lapidarius","species","bumblebees",18,3888,91.85,303696,"Three plots per field (18x18m), one at field edge, one in middle and one in between. Observed walked slowly back and forth along rows, observing flowers approximately once. Field visited three times during flowering season of red clover, but the data here are from the day of peak flowering (when bee activity levels were highest). Number of flowers were calculated based on counts in three 1x1m squares in each of three 18x18m plots.","total observation area in square meters, total observation time in minutes"
"Dupont_redclover_Denmark_2009","Hammel 1_2009","transect observations","Bombus lapidarius","species","bumblebees",49,3888,243.516666666667,605232,"Three plots per field (18x18m), one at field edge, one in middle and one in between. Observed walked slowly back and forth along rows, observing flowers approximately once. Field visited three times during flowering season of red clover, but the data here are from the day of peak flowering (when bee activity levels were highest). Number of flowers were calculated based on counts in three 1x1m squares in each of three 18x18m plots.","total observation area in square meters, total observation time in minutes"
"Dupont_redclover_Denmark_2009","Hammel 2_2009","transect observations","Bombus lapidarius","species","bumblebees",65,3888,148.183333333333,413424,"Three plots per field (18x18m), one at field edge, one in middle and one in between. Observed walked slowly back and forth along rows, observing flowers approximately once. Field visited three times during flowering season of red clover, but the data here are from the day of peak flowering (when bee activity levels were highest). Number of flowers were calculated based on counts in three 1x1m squares in each of three 18x18m plots.","total observation area in square meters, total observation time in minutes"
"Dupont_redclover_Denmark_2009","Horning_2009","transect observations","Bombus lapidarius","species","bumblebees",184,3888,243.1,1786320,"Three plots per field (18x18m), one at field edge, one in middle and one in between. Observed walked slowly back and forth along rows, observing flowers approximately once. Field visited three times during flowering season of red clover, but the data here are from the day of peak flowering (when bee activity levels were highest). Number of flowers were calculated based on counts in three 1x1m squares in each of three 18x18m plots.","total observation area in square meters, total observation time in minutes"
"Dupont_redclover_Denmark_2009","Nr. Aaby_2009","transect observations","Bombus lapidarius","species","bumblebees",0,3888,154.5,1296000,"Three plots per field (18x18m), one at field edge, one in middle and one in between. Observed walked slowly back and forth along rows, observing flowers approximately once. Field visited three times during flowering season of red clover, but the data here are from the day of peak flowering (when bee activity levels were highest). Number of flowers were calculated based on counts in three 1x1m squares in each of three 18x18m plots.","total observation area in square meters, total observation time in minutes"
"Dupont_redclover_Denmark_2009","Odense_2009","transect observations","Bombus lapidarius","species","bumblebees",23,3888,135.766666666667,830736,"Three plots per field (18x18m), one at field edge, one in middle and one in between. Observed walked slowly back and forth along rows, observing flowers approximately once. Field visited three times during flowering season of red clover, but the data here are from the day of peak flowering (when bee activity levels were highest). Number of flowers were calculated based on counts in three 1x1m squares in each of three 18x18m plots.","total observation area in square meters, total observation time in minutes"
"Dupont_redclover_Denmark_2009","Randers NO Nord_2009","transect observations","Bombus lapidarius","species","bumblebees",45,3888,118.316666666667,1330128,"Three plots per field (18x18m), one at field edge, one in middle and one in between. Observed walked slowly back and forth along rows, observing flowers approximately once. Field visited three times during flowering season of red clover, but the data here are from the day of peak flowering (when bee activity levels were highest). Number of flowers were calculated based on counts in three 1x1m squares in each of three 18x18m plots.","total observation area in square meters, total observation time in minutes"
"Dupont_redclover_Denmark_2009","Randers NO Syd_2009","transect observations","Bombus lapidarius","species","bumblebees",42,3888,121.583333333333,1491264,"Three plots per field (18x18m), one at field edge, one in middle and one in between. Observed walked slowly back and forth along rows, observing flowers approximately once. Field visited three times during flowering season of red clover, but the data here are from the day of peak flowering (when bee activity levels were highest). Number of flowers were calculated based on counts in three 1x1m squares in each of three 18x18m plots.","total observation area in square meters, total observation time in minutes"
"Dupont_redclover_Denmark_2009","Randers SO_2009","transect observations","Bombus lapidarius","species","bumblebees",39,3888,140.616666666667,1435968,"Three plots per field (18x18m), one at field edge, one in middle and one in between. Observed walked slowly back and forth along rows, observing flowers approximately once. Field visited three times during flowering season of red clover, but the data here are from the day of peak flowering (when bee activity levels were highest). Number of flowers were calculated based on counts in three 1x1m squares in each of three 18x18m plots.","total observation area in square meters, total observation time in minutes"
"Dupont_redclover_Denmark_2009","Ringe_2009","transect observations","Bombus lapidarius","species","bumblebees",87,3888,127.5,966384,"Three plots per field (18x18m), one at field edge, one in middle and one in between. Observed walked slowly back and forth along rows, observing flowers approximately once. Field visited three times during flowering season of red clover, but the data here are from the day of peak flowering (when bee activity levels were highest). Number of flowers were calculated based on counts in three 1x1m squares in each of three 18x18m plots.","total observation area in square meters, total observation time in minutes"
"Dupont_redclover_Denmark_2009","Ry_2009","transect observations","Bombus lapidarius","species","bumblebees",17,3888,99.0833333333334,199584,"Three plots per field (18x18m), one at field edge, one in middle and one in between. Observed walked slowly back and forth along rows, observing flowers approximately once. Field visited three times during flowering season of red clover, but the data here are from the day of peak flowering (when bee activity levels were highest). Number of flowers were calculated based on counts in three 1x1m squares in each of three 18x18m plots.","total observation area in square meters, total observation time in minutes"
"Dupont_redclover_Denmark_2009","Skive_2009","transect observations","Bombus lapidarius","species","bumblebees",27,3888,121.616666666667,225504,"Three plots per field (18x18m), one at field edge, one in middle and one in between. Observed walked slowly back and forth along rows, observing flowers approximately once. Field visited three times during flowering season of red clover, but the data here are from the day of peak flowering (when bee activity levels were highest). Number of flowers were calculated based on counts in three 1x1m squares in each of three 18x18m plots.","total observation area in square meters, total observation time in minutes"
"Dupont_redclover_Denmark_2009","Vester Skerninge, Kohavevej_2009","transect observations","Bombus lapidarius","species","bumblebees",98,4212,154.516666666667,761436,"Three plots per field (18x18m), one at field edge, one in middle and one in between. Observed walked slowly back and forth along rows, observing flowers approximately once. Field visited three times during flowering season of red clover, but the data here are from the day of peak flowering (when bee activity levels were highest). Number of flowers were calculated based on counts in three 1x1m squares in each of three 18x18m plots.","total observation area in square meters, total observation time in minutes"
"Dupont_redclover_Denmark_2009","Viborg_2009","transect observations","Bombus lapidarius","species","bumblebees",44,3888,163.3,396576,"Three plots per field (18x18m), one at field edge, one in middle and one in between. Observed walked slowly back and forth along rows, observing flowers approximately once. Field visited three times during flowering season of red clover, but the data here are from the day of peak flowering (when bee activity levels were highest). Number of flowers were calculated based on counts in three 1x1m squares in each of three 18x18m plots.","total observation area in square meters, total observation time in minutes"
"Dupont_redclover_Denmark_2008","Brushojgard_2008","transect observations","Bombus muscorum","species","bumblebees",2,1944,40.9833333333333,390015,"Three plots per field (18x18m), one at field edge, one in middle and one in between. Observed walked slowly back and forth along rows, observing flowers approximately once. Field visited three times during flowering season of red clover, but the data here are from the day of peak flowering (when bee activity levels were highest). Number of flowers were calculated based on counts in three 1x1m squares in each of three 18x18m plots.","total observation area in square meters, total observation time in minutes"
"Dupont_redclover_Denmark_2008","Braedstrup_2008","transect observations","Bombus muscorum","species","bumblebees",0,2916,100.25,573480,"Three plots per field (18x18m), one at field edge, one in middle and one in between. Observed walked slowly back and forth along rows, observing flowers approximately once. Field visited three times during flowering season of red clover, but the data here are from the day of peak flowering (when bee activity levels were highest). Number of flowers were calculated based on counts in three 1x1m squares in each of three 18x18m plots.","total observation area in square meters, total observation time in minutes"
"Dupont_redclover_Denmark_2008","Frijsendalsvej, Sall_2008","transect observations","Bombus muscorum","species","bumblebees",1,2916,74.8,829602,"Three plots per field (18x18m), one at field edge, one in middle and one in between. Observed walked slowly back and forth along rows, observing flowers approximately once. Field visited three times during flowering season of red clover, but the data here are from the day of peak flowering (when bee activity levels were highest). Number of flowers were calculated based on counts in three 1x1m squares in each of three 18x18m plots.","total observation area in square meters, total observation time in minutes"
"Dupont_redclover_Denmark_2008","Galten_2008","transect observations","Bombus muscorum","species","bumblebees",6,3888,293.033333333333,913680,"Three plots per field (18x18m), one at field edge, one in middle and one in between. Observed walked slowly back and forth along rows, observing flowers approximately once. Field visited three times during flowering season of red clover, but the data here are from the day of peak flowering (when bee activity levels were highest). Number of flowers were calculated based on counts in three 1x1m squares in each of three 18x18m plots.","total observation area in square meters, total observation time in minutes"
"Dupont_redclover_Denmark_2008","Gjern, Tingvejen_2008","transect observations","Bombus muscorum","species","bumblebees",5,2916,94.55,323676,"Three plots per field (18x18m), one at field edge, one in middle and one in between. Observed walked slowly back and forth along rows, observing flowers approximately once. Field visited three times during flowering season of red clover, but the data here are from the day of peak flowering (when bee activity levels were highest). Number of flowers were calculated based on counts in three 1x1m squares in each of three 18x18m plots.","total observation area in square meters, total observation time in minutes"
"Dupont_redclover_Denmark_2008","Hesselballe_2008","transect observations","Bombus muscorum","species","bumblebees",0,1944,56.5666666666667,311317.714285714,"Three plots per field (18x18m), one at field edge, one in middle and one in between. Observed walked slowly back and forth along rows, observing flowers approximately once. Field visited three times during flowering season of red clover, but the data here are from the day of peak flowering (when bee activity levels were highest). Number of flowers were calculated based on counts in three 1x1m squares in each of three 18x18m plots.","total observation area in square meters, total observation time in minutes"
"Dupont_redclover_Denmark_2008","Odense_2008","transect observations","Bombus muscorum","species","bumblebees",28,2916,111.15,478656,"Three plots per field (18x18m), one at field edge, one in middle and one in between. Observed walked slowly back and forth along rows, observing flowers approximately once. Field visited three times during flowering season of red clover, but the data here are from the day of peak flowering (when bee activity levels were highest). Number of flowers were calculated based on counts in three 1x1m squares in each of three 18x18m plots.","total observation area in square meters, total observation time in minutes"
"Dupont_redclover_Denmark_2008","Randers NO Syd_2008","transect observations","Bombus muscorum","species","bumblebees",0,3888,175.4,676836,"Three plots per field (18x18m), one at field edge, one in middle and one in between. Observed walked slowly back and forth along rows, observing flowers approximately once. Field visited three times during flowering season of red clover, but the data here are from the day of peak flowering (when bee activity levels were highest). Number of flowers were calculated based on counts in three 1x1m squares in each of three 18x18m plots.","total observation area in square meters, total observation time in minutes"
"Dupont_redclover_Denmark_2008","Skejby_2008","transect observations","Bombus muscorum","species","bumblebees",0,2916,76.8333333333333,434848.5,"Three plots per field (18x18m), one at field edge, one in middle and one in between. Observed walked slowly back and forth along rows, observing flowers approximately once. Field visited three times during flowering season of red clover, but the data here are from the day of peak flowering (when bee activity levels were highest). Number of flowers were calculated based on counts in three 1x1m squares in each of three 18x18m plots.","total observation area in square meters, total observation time in minutes"
"Dupont_redclover_Denmark_2008","Vamdrup_2008","transect observations","Bombus muscorum","species","bumblebees",0,3888,112.466666666667,509328,"Three plots per field (18x18m), one at field edge, one in middle and one in between. Observed walked slowly back and forth along rows, observing flowers approximately once. Field visited three times during flowering season of red clover, but the data here are from the day of peak flowering (when bee activity levels were highest). Number of flowers were calculated based on counts in three 1x1m squares in each of three 18x18m plots.","total observation area in square meters, total observation time in minutes"
"Dupont_redclover_Denmark_2008","Vester Skerninge, Amarksvej_2008","transect observations","Bombus muscorum","species","bumblebees",0,2916,125.733333333333,1134972,"Three plots per field (18x18m), one at field edge, one in middle and one in between. Observed walked slowly back and forth along rows, observing flowers approximately once. Field visited three times during flowering season of red clover, but the data here are from the day of peak flowering (when bee activity levels were highest). Number of flowers were calculated based on counts in three 1x1m squares in each of three 18x18m plots.","total observation area in square meters, total observation time in minutes"
"Dupont_redclover_Denmark_2009","Braedstrup_2009","transect observations","Bombus muscorum","species","bumblebees",0,3888,113.166666666667,768096,"Three plots per field (18x18m), one at field edge, one in middle and one in between. Observed walked slowly back and forth along rows, observing flowers approximately once. Field visited three times during flowering season of red clover, but the data here are from the day of peak flowering (when bee activity levels were highest). Number of flowers were calculated based on counts in three 1x1m squares in each of three 18x18m plots.","total observation area in square meters, total observation time in minutes"
"Dupont_redclover_Denmark_2009","Galten_2009","transect observations","Bombus muscorum","species","bumblebees",0,3888,117.816666666667,344304,"Three plots per field (18x18m), one at field edge, one in middle and one in between. Observed walked slowly back and forth along rows, observing flowers approximately once. Field visited three times during flowering season of red clover, but the data here are from the day of peak flowering (when bee activity levels were highest). Number of flowers were calculated based on counts in three 1x1m squares in each of three 18x18m plots.","total observation area in square meters, total observation time in minutes"
"Dupont_redclover_Denmark_2009","Gjern, Blak_2009","transect observations","Bombus muscorum","species","bumblebees",1,3888,101.416666666667,308880,"Three plots per field (18x18m), one at field edge, one in middle and one in between. Observed walked slowly back and forth along rows, observing flowers approximately once. Field visited three times during flowering season of red clover, but the data here are from the day of peak flowering (when bee activity levels were highest). Number of flowers were calculated based on counts in three 1x1m squares in each of three 18x18m plots.","total observation area in square meters, total observation time in minutes"
"Dupont_redclover_Denmark_2009","Gjern, Tingvejen_2009","transect observations","Bombus muscorum","species","bumblebees",1,3888,91.85,303696,"Three plots per field (18x18m), one at field edge, one in middle and one in between. Observed walked slowly back and forth along rows, observing flowers approximately once. Field visited three times during flowering season of red clover, but the data here are from the day of peak flowering (when bee activity levels were highest). Number of flowers were calculated based on counts in three 1x1m squares in each of three 18x18m plots.","total observation area in square meters, total observation time in minutes"
"Dupont_redclover_Denmark_2009","Hammel 1_2009","transect observations","Bombus muscorum","species","bumblebees",0,3888,243.516666666667,605232,"Three plots per field (18x18m), one at field edge, one in middle and one in between. Observed walked slowly back and forth along rows, observing flowers approximately once. Field visited three times during flowering season of red clover, but the data here are from the day of peak flowering (when bee activity levels were highest). Number of flowers were calculated based on counts in three 1x1m squares in each of three 18x18m plots.","total observation area in square meters, total observation time in minutes"
"Dupont_redclover_Denmark_2009","Hammel 2_2009","transect observations","Bombus muscorum","species","bumblebees",3,3888,148.183333333333,413424,"Three plots per field (18x18m), one at field edge, one in middle and one in between. Observed walked slowly back and forth along rows, observing flowers approximately once. Field visited three times during flowering season of red clover, but the data here are from the day of peak flowering (when bee activity levels were highest). Number of flowers were calculated based on counts in three 1x1m squares in each of three 18x18m plots.","total observation area in square meters, total observation time in minutes"
"Dupont_redclover_Denmark_2009","Horning_2009","transect observations","Bombus muscorum","species","bumblebees",0,3888,243.1,1786320,"Three plots per field (18x18m), one at field edge, one in middle and one in between. Observed walked slowly back and forth along rows, observing flowers approximately once. Field visited three times during flowering season of red clover, but the data here are from the day of peak flowering (when bee activity levels were highest). Number of flowers were calculated based on counts in three 1x1m squares in each of three 18x18m plots.","total observation area in square meters, total observation time in minutes"
"Dupont_redclover_Denmark_2009","Nr. Aaby_2009","transect observations","Bombus muscorum","species","bumblebees",0,3888,154.5,1296000,"Three plots per field (18x18m), one at field edge, one in middle and one in between. Observed walked slowly back and forth along rows, observing flowers approximately once. Field visited three times during flowering season of red clover, but the data here are from the day of peak flowering (when bee activity levels were highest). Number of flowers were calculated based on counts in three 1x1m squares in each of three 18x18m plots.","total observation area in square meters, total observation time in minutes"
"Dupont_redclover_Denmark_2009","Odense_2009","transect observations","Bombus muscorum","species","bumblebees",2,3888,135.766666666667,830736,"Three plots per field (18x18m), one at field edge, one in middle and one in between. Observed walked slowly back and forth along rows, observing flowers approximately once. Field visited three times during flowering season of red clover, but the data here are from the day of peak flowering (when bee activity levels were highest). Number of flowers were calculated based on counts in three 1x1m squares in each of three 18x18m plots.","total observation area in square meters, total observation time in minutes"
"Dupont_redclover_Denmark_2009","Randers NO Nord_2009","transect observations","Bombus muscorum","species","bumblebees",0,3888,118.316666666667,1330128,"Three plots per field (18x18m), one at field edge, one in middle and one in between. Observed walked slowly back and forth along rows, observing flowers approximately once. Field visited three times during flowering season of red clover, but the data here are from the day of peak flowering (when bee activity levels were highest). Number of flowers were calculated based on counts in three 1x1m squares in each of three 18x18m plots.","total observation area in square meters, total observation time in minutes"
"Dupont_redclover_Denmark_2009","Randers NO Syd_2009","transect observations","Bombus muscorum","species","bumblebees",1,3888,121.583333333333,1491264,"Three plots per field (18x18m), one at field edge, one in middle and one in between. Observed walked slowly back and forth along rows, observing flowers approximately once. Field visited three times during flowering season of red clover, but the data here are from the day of peak flowering (when bee activity levels were highest). Number of flowers were calculated based on counts in three 1x1m squares in each of three 18x18m plots.","total observation area in square meters, total observation time in minutes"
"Dupont_redclover_Denmark_2009","Randers SO_2009","transect observations","Bombus muscorum","species","bumblebees",0,3888,140.616666666667,1435968,"Three plots per field (18x18m), one at field edge, one in middle and one in between. Observed walked slowly back and forth along rows, observing flowers approximately once. Field visited three times during flowering season of red clover, but the data here are from the day of peak flowering (when bee activity levels were highest). Number of flowers were calculated based on counts in three 1x1m squares in each of three 18x18m plots.","total observation area in square meters, total observation time in minutes"
"Dupont_redclover_Denmark_2009","Ringe_2009","transect observations","Bombus muscorum","species","bumblebees",1,3888,127.5,966384,"Three plots per field (18x18m), one at field edge, one in middle and one in between. Observed walked slowly back and forth along rows, observing flowers approximately once. Field visited three times during flowering season of red clover, but the data here are from the day of peak flowering (when bee activity levels were highest). Number of flowers were calculated based on counts in three 1x1m squares in each of three 18x18m plots.","total observation area in square meters, total observation time in minutes"
"Dupont_redclover_Denmark_2009","Ry_2009","transect observations","Bombus muscorum","species","bumblebees",0,3888,99.0833333333334,199584,"Three plots per field (18x18m), one at field edge, one in middle and one in between. Observed walked slowly back and forth along rows, observing flowers approximately once. Field visited three times during flowering season of red clover, but the data here are from the day of peak flowering (when bee activity levels were highest). Number of flowers were calculated based on counts in three 1x1m squares in each of three 18x18m plots.","total observation area in square meters, total observation time in minutes"
"Dupont_redclover_Denmark_2009","Skive_2009","transect observations","Bombus muscorum","species","bumblebees",1,3888,121.616666666667,225504,"Three plots per field (18x18m), one at field edge, one in middle and one in between. Observed walked slowly back and forth along rows, observing flowers approximately once. Field visited three times during flowering season of red clover, but the data here are from the day of peak flowering (when bee activity levels were highest). Number of flowers were calculated based on counts in three 1x1m squares in each of three 18x18m plots.","total observation area in square meters, total observation time in minutes"
"Dupont_redclover_Denmark_2009","Vester Skerninge, Kohavevej_2009","transect observations","Bombus muscorum","species","bumblebees",1,4212,154.516666666667,761436,"Three plots per field (18x18m), one at field edge, one in middle and one in between. Observed walked slowly back and forth along rows, observing flowers approximately once. Field visited three times during flowering season of red clover, but the data here are from the day of peak flowering (when bee activity levels were highest). Number of flowers were calculated based on counts in three 1x1m squares in each of three 18x18m plots.","total observation area in square meters, total observation time in minutes"
"Dupont_redclover_Denmark_2009","Viborg_2009","transect observations","Bombus muscorum","species","bumblebees",2,3888,163.3,396576,"Three plots per field (18x18m), one at field edge, one in middle and one in between. Observed walked slowly back and forth along rows, observing flowers approximately once. Field visited three times during flowering season of red clover, but the data here are from the day of peak flowering (when bee activity levels were highest). Number of flowers were calculated based on counts in three 1x1m squares in each of three 18x18m plots.","total observation area in square meters, total observation time in minutes"
"Dupont_redclover_Denmark_2008","Brushojgard_2008","transect observations","Bombus hypnorum","species","bumblebees",1,1944,40.9833333333333,390015,"Three plots per field (18x18m), one at field edge, one in middle and one in between. Observed walked slowly back and forth along rows, observing flowers approximately once. Field visited three times during flowering season of red clover, but the data here are from the day of peak flowering (when bee activity levels were highest). Number of flowers were calculated based on counts in three 1x1m squares in each of three 18x18m plots.","total observation area in square meters, total observation time in minutes"
"Dupont_redclover_Denmark_2008","Braedstrup_2008","transect observations","Bombus hypnorum","species","bumblebees",1,2916,100.25,573480,"Three plots per field (18x18m), one at field edge, one in middle and one in between. Observed walked slowly back and forth along rows, observing flowers approximately once. Field visited three times during flowering season of red clover, but the data here are from the day of peak flowering (when bee activity levels were highest). Number of flowers were calculated based on counts in three 1x1m squares in each of three 18x18m plots.","total observation area in square meters, total observation time in minutes"
"Dupont_redclover_Denmark_2008","Frijsendalsvej, Sall_2008","transect observations","Bombus hypnorum","species","bumblebees",0,2916,74.8,829602,"Three plots per field (18x18m), one at field edge, one in middle and one in between. Observed walked slowly back and forth along rows, observing flowers approximately once. Field visited three times during flowering season of red clover, but the data here are from the day of peak flowering (when bee activity levels were highest). Number of flowers were calculated based on counts in three 1x1m squares in each of three 18x18m plots.","total observation area in square meters, total observation time in minutes"
"Dupont_redclover_Denmark_2008","Galten_2008","transect observations","Bombus hypnorum","species","bumblebees",1,3888,293.033333333333,913680,"Three plots per field (18x18m), one at field edge, one in middle and one in between. Observed walked slowly back and forth along rows, observing flowers approximately once. Field visited three times during flowering season of red clover, but the data here are from the day of peak flowering (when bee activity levels were highest). Number of flowers were calculated based on counts in three 1x1m squares in each of three 18x18m plots.","total observation area in square meters, total observation time in minutes"
"Dupont_redclover_Denmark_2008","Gjern, Tingvejen_2008","transect observations","Bombus hypnorum","species","bumblebees",0,2916,94.55,323676,"Three plots per field (18x18m), one at field edge, one in middle and one in between. Observed walked slowly back and forth along rows, observing flowers approximately once. Field visited three times during flowering season of red clover, but the data here are from the day of peak flowering (when bee activity levels were highest). Number of flowers were calculated based on counts in three 1x1m squares in each of three 18x18m plots.","total observation area in square meters, total observation time in minutes"
"Dupont_redclover_Denmark_2008","Hesselballe_2008","transect observations","Bombus hypnorum","species","bumblebees",1,1944,56.5666666666667,311317.714285714,"Three plots per field (18x18m), one at field edge, one in middle and one in between. Observed walked slowly back and forth along rows, observing flowers approximately once. Field visited three times during flowering season of red clover, but the data here are from the day of peak flowering (when bee activity levels were highest). Number of flowers were calculated based on counts in three 1x1m squares in each of three 18x18m plots.","total observation area in square meters, total observation time in minutes"
"Dupont_redclover_Denmark_2008","Odense_2008","transect observations","Bombus hypnorum","species","bumblebees",0,2916,111.15,478656,"Three plots per field (18x18m), one at field edge, one in middle and one in between. Observed walked slowly back and forth along rows, observing flowers approximately once. Field visited three times during flowering season of red clover, but the data here are from the day of peak flowering (when bee activity levels were highest). Number of flowers were calculated based on counts in three 1x1m squares in each of three 18x18m plots.","total observation area in square meters, total observation time in minutes"
"Dupont_redclover_Denmark_2008","Randers NO Syd_2008","transect observations","Bombus hypnorum","species","bumblebees",0,3888,175.4,676836,"Three plots per field (18x18m), one at field edge, one in middle and one in between. Observed walked slowly back and forth along rows, observing flowers approximately once. Field visited three times during flowering season of red clover, but the data here are from the day of peak flowering (when bee activity levels were highest). Number of flowers were calculated based on counts in three 1x1m squares in each of three 18x18m plots.","total observation area in square meters, total observation time in minutes"
"Dupont_redclover_Denmark_2008","Skejby_2008","transect observations","Bombus hypnorum","species","bumblebees",0,2916,76.8333333333333,434848.5,"Three plots per field (18x18m), one at field edge, one in middle and one in between. Observed walked slowly back and forth along rows, observing flowers approximately once. Field visited three times during flowering season of red clover, but the data here are from the day of peak flowering (when bee activity levels were highest). Number of flowers were calculated based on counts in three 1x1m squares in each of three 18x18m plots.","total observation area in square meters, total observation time in minutes"
"Dupont_redclover_Denmark_2008","Vamdrup_2008","transect observations","Bombus hypnorum","species","bumblebees",1,3888,112.466666666667,509328,"Three plots per field (18x18m), one at field edge, one in middle and one in between. Observed walked slowly back and forth along rows, observing flowers approximately once. Field visited three times during flowering season of red clover, but the data here are from the day of peak flowering (when bee activity levels were highest). Number of flowers were calculated based on counts in three 1x1m squares in each of three 18x18m plots.","total observation area in square meters, total observation time in minutes"
"Dupont_redclover_Denmark_2008","Vester Skerninge, Amarksvej_2008","transect observations","Bombus hypnorum","species","bumblebees",0,2916,125.733333333333,1134972,"Three plots per field (18x18m), one at field edge, one in middle and one in between. Observed walked slowly back and forth along rows, observing flowers approximately once. Field visited three times during flowering season of red clover, but the data here are from the day of peak flowering (when bee activity levels were highest). Number of flowers were calculated based on counts in three 1x1m squares in each of three 18x18m plots.","total observation area in square meters, total observation time in minutes"
"Dupont_redclover_Denmark_2009","Braedstrup_2009","transect observations","Bombus hypnorum","species","bumblebees",0,3888,113.166666666667,768096,"Three plots per field (18x18m), one at field edge, one in middle and one in between. Observed walked slowly back and forth along rows, observing flowers approximately once. Field visited three times during flowering season of red clover, but the data here are from the day of peak flowering (when bee activity levels were highest). Number of flowers were calculated based on counts in three 1x1m squares in each of three 18x18m plots.","total observation area in square meters, total observation time in minutes"
"Dupont_redclover_Denmark_2009","Galten_2009","transect observations","Bombus hypnorum","species","bumblebees",0,3888,117.816666666667,344304,"Three plots per field (18x18m), one at field edge, one in middle and one in between. Observed walked slowly back and forth along rows, observing flowers approximately once. Field visited three times during flowering season of red clover, but the data here are from the day of peak flowering (when bee activity levels were highest). Number of flowers were calculated based on counts in three 1x1m squares in each of three 18x18m plots.","total observation area in square meters, total observation time in minutes"
"Dupont_redclover_Denmark_2009","Gjern, Blak_2009","transect observations","Bombus hypnorum","species","bumblebees",0,3888,101.416666666667,308880,"Three plots per field (18x18m), one at field edge, one in middle and one in between. Observed walked slowly back and forth along rows, observing flowers approximately once. Field visited three times during flowering season of red clover, but the data here are from the day of peak flowering (when bee activity levels were highest). Number of flowers were calculated based on counts in three 1x1m squares in each of three 18x18m plots.","total observation area in square meters, total observation time in minutes"
"Dupont_redclover_Denmark_2009","Gjern, Tingvejen_2009","transect observations","Bombus hypnorum","species","bumblebees",0,3888,91.85,303696,"Three plots per field (18x18m), one at field edge, one in middle and one in between. Observed walked slowly back and forth along rows, observing flowers approximately once. Field visited three times during flowering season of red clover, but the data here are from the day of peak flowering (when bee activity levels were highest). Number of flowers were calculated based on counts in three 1x1m squares in each of three 18x18m plots.","total observation area in square meters, total observation time in minutes"
"Dupont_redclover_Denmark_2009","Hammel 1_2009","transect observations","Bombus hypnorum","species","bumblebees",0,3888,243.516666666667,605232,"Three plots per field (18x18m), one at field edge, one in middle and one in between. Observed walked slowly back and forth along rows, observing flowers approximately once. Field visited three times during flowering season of red clover, but the data here are from the day of peak flowering (when bee activity levels were highest). Number of flowers were calculated based on counts in three 1x1m squares in each of three 18x18m plots.","total observation area in square meters, total observation time in minutes"
"Dupont_redclover_Denmark_2009","Hammel 2_2009","transect observations","Bombus hypnorum","species","bumblebees",0,3888,148.183333333333,413424,"Three plots per field (18x18m), one at field edge, one in middle and one in between. Observed walked slowly back and forth along rows, observing flowers approximately once. Field visited three times during flowering season of red clover, but the data here are from the day of peak flowering (when bee activity levels were highest). Number of flowers were calculated based on counts in three 1x1m squares in each of three 18x18m plots.","total observation area in square meters, total observation time in minutes"
"Dupont_redclover_Denmark_2009","Horning_2009","transect observations","Bombus hypnorum","species","bumblebees",0,3888,243.1,1786320,"Three plots per field (18x18m), one at field edge, one in middle and one in between. Observed walked slowly back and forth along rows, observing flowers approximately once. Field visited three times during flowering season of red clover, but the data here are from the day of peak flowering (when bee activity levels were highest). Number of flowers were calculated based on counts in three 1x1m squares in each of three 18x18m plots.","total observation area in square meters, total observation time in minutes"
"Dupont_redclover_Denmark_2009","Nr. Aaby_2009","transect observations","Bombus hypnorum","species","bumblebees",0,3888,154.5,1296000,"Three plots per field (18x18m), one at field edge, one in middle and one in between. Observed walked slowly back and forth along rows, observing flowers approximately once. Field visited three times during flowering season of red clover, but the data here are from the day of peak flowering (when bee activity levels were highest). Number of flowers were calculated based on counts in three 1x1m squares in each of three 18x18m plots.","total observation area in square meters, total observation time in minutes"
"Dupont_redclover_Denmark_2009","Odense_2009","transect observations","Bombus hypnorum","species","bumblebees",0,3888,135.766666666667,830736,"Three plots per field (18x18m), one at field edge, one in middle and one in between. Observed walked slowly back and forth along rows, observing flowers approximately once. Field visited three times during flowering season of red clover, but the data here are from the day of peak flowering (when bee activity levels were highest). Number of flowers were calculated based on counts in three 1x1m squares in each of three 18x18m plots.","total observation area in square meters, total observation time in minutes"
"Dupont_redclover_Denmark_2009","Randers NO Nord_2009","transect observations","Bombus hypnorum","species","bumblebees",2,3888,118.316666666667,1330128,"Three plots per field (18x18m), one at field edge, one in middle and one in between. Observed walked slowly back and forth along rows, observing flowers approximately once. Field visited three times during flowering season of red clover, but the data here are from the day of peak flowering (when bee activity levels were highest). Number of flowers were calculated based on counts in three 1x1m squares in each of three 18x18m plots.","total observation area in square meters, total observation time in minutes"
"Dupont_redclover_Denmark_2009","Randers NO Syd_2009","transect observations","Bombus hypnorum","species","bumblebees",0,3888,121.583333333333,1491264,"Three plots per field (18x18m), one at field edge, one in middle and one in between. Observed walked slowly back and forth along rows, observing flowers approximately once. Field visited three times during flowering season of red clover, but the data here are from the day of peak flowering (when bee activity levels were highest). Number of flowers were calculated based on counts in three 1x1m squares in each of three 18x18m plots.","total observation area in square meters, total observation time in minutes"
"Dupont_redclover_Denmark_2009","Randers SO_2009","transect observations","Bombus hypnorum","species","bumblebees",1,3888,140.616666666667,1435968,"Three plots per field (18x18m), one at field edge, one in middle and one in between. Observed walked slowly back and forth along rows, observing flowers approximately once. Field visited three times during flowering season of red clover, but the data here are from the day of peak flowering (when bee activity levels were highest). Number of flowers were calculated based on counts in three 1x1m squares in each of three 18x18m plots.","total observation area in square meters, total observation time in minutes"
"Dupont_redclover_Denmark_2009","Ringe_2009","transect observations","Bombus hypnorum","species","bumblebees",0,3888,127.5,966384,"Three plots per field (18x18m), one at field edge, one in middle and one in between. Observed walked slowly back and forth along rows, observing flowers approximately once. Field visited three times during flowering season of red clover, but the data here are from the day of peak flowering (when bee activity levels were highest). Number of flowers were calculated based on counts in three 1x1m squares in each of three 18x18m plots.","total observation area in square meters, total observation time in minutes"
"Dupont_redclover_Denmark_2009","Ry_2009","transect observations","Bombus hypnorum","species","bumblebees",2,3888,99.0833333333334,199584,"Three plots per field (18x18m), one at field edge, one in middle and one in between. Observed walked slowly back and forth along rows, observing flowers approximately once. Field visited three times during flowering season of red clover, but the data here are from the day of peak flowering (when bee activity levels were highest). Number of flowers were calculated based on counts in three 1x1m squares in each of three 18x18m plots.","total observation area in square meters, total observation time in minutes"
"Dupont_redclover_Denmark_2009","Skive_2009","transect observations","Bombus hypnorum","species","bumblebees",0,3888,121.616666666667,225504,"Three plots per field (18x18m), one at field edge, one in middle and one in between. Observed walked slowly back and forth along rows, observing flowers approximately once. Field visited three times during flowering season of red clover, but the data here are from the day of peak flowering (when bee activity levels were highest). Number of flowers were calculated based on counts in three 1x1m squares in each of three 18x18m plots.","total observation area in square meters, total observation time in minutes"
"Dupont_redclover_Denmark_2009","Vester Skerninge, Kohavevej_2009","transect observations","Bombus hypnorum","species","bumblebees",0,4212,154.516666666667,761436,"Three plots per field (18x18m), one at field edge, one in middle and one in between. Observed walked slowly back and forth along rows, observing flowers approximately once. Field visited three times during flowering season of red clover, but the data here are from the day of peak flowering (when bee activity levels were highest). Number of flowers were calculated based on counts in three 1x1m squares in each of three 18x18m plots.","total observation area in square meters, total observation time in minutes"
"Dupont_redclover_Denmark_2009","Viborg_2009","transect observations","Bombus hypnorum","species","bumblebees",0,3888,163.3,396576,"Three plots per field (18x18m), one at field edge, one in middle and one in between. Observed walked slowly back and forth along rows, observing flowers approximately once. Field visited three times during flowering season of red clover, but the data here are from the day of peak flowering (when bee activity levels were highest). Number of flowers were calculated based on counts in three 1x1m squares in each of three 18x18m plots.","total observation area in square meters, total observation time in minutes"
"Dupont_redclover_Denmark_2008","Brushojgard_2008","transect observations","Apis mellifera","species","honeybees",13,1944,40.9833333333333,390015,"Three plots per field (18x18m), one at field edge, one in middle and one in between. Observed walked slowly back and forth along rows, observing flowers approximately once. Field visited three times during flowering season of red clover, but the data here are from the day of peak flowering (when bee activity levels were highest). Number of flowers were calculated based on counts in three 1x1m squares in each of three 18x18m plots.","total observation area in square meters, total observation time in minutes"
"Dupont_redclover_Denmark_2008","Braedstrup_2008","transect observations","Apis mellifera","species","honeybees",273,2916,100.25,573480,"Three plots per field (18x18m), one at field edge, one in middle and one in between. Observed walked slowly back and forth along rows, observing flowers approximately once. Field visited three times during flowering season of red clover, but the data here are from the day of peak flowering (when bee activity levels were highest). Number of flowers were calculated based on counts in three 1x1m squares in each of three 18x18m plots.","total observation area in square meters, total observation time in minutes"
"Dupont_redclover_Denmark_2008","Frijsendalsvej, Sall_2008","transect observations","Apis mellifera","species","honeybees",3,2916,74.8,829602,"Three plots per field (18x18m), one at field edge, one in middle and one in between. Observed walked slowly back and forth along rows, observing flowers approximately once. Field visited three times during flowering season of red clover, but the data here are from the day of peak flowering (when bee activity levels were highest). Number of flowers were calculated based on counts in three 1x1m squares in each of three 18x18m plots.","total observation area in square meters, total observation time in minutes"
"Dupont_redclover_Denmark_2008","Galten_2008","transect observations","Apis mellifera","species","honeybees",429,3888,293.033333333333,913680,"Three plots per field (18x18m), one at field edge, one in middle and one in between. Observed walked slowly back and forth along rows, observing flowers approximately once. Field visited three times during flowering season of red clover, but the data here are from the day of peak flowering (when bee activity levels were highest). Number of flowers were calculated based on counts in three 1x1m squares in each of three 18x18m plots.","total observation area in square meters, total observation time in minutes"
"Dupont_redclover_Denmark_2008","Gjern, Tingvejen_2008","transect observations","Apis mellifera","species","honeybees",2,2916,94.55,323676,"Three plots per field (18x18m), one at field edge, one in middle and one in between. Observed walked slowly back and forth along rows, observing flowers approximately once. Field visited three times during flowering season of red clover, but the data here are from the day of peak flowering (when bee activity levels were highest). Number of flowers were calculated based on counts in three 1x1m squares in each of three 18x18m plots.","total observation area in square meters, total observation time in minutes"
"Dupont_redclover_Denmark_2008","Hesselballe_2008","transect observations","Apis mellifera","species","honeybees",72,1944,56.5666666666667,311317.714285714,"Three plots per field (18x18m), one at field edge, one in middle and one in between. Observed walked slowly back and forth along rows, observing flowers approximately once. Field visited three times during flowering season of red clover, but the data here are from the day of peak flowering (when bee activity levels were highest). Number of flowers were calculated based on counts in three 1x1m squares in each of three 18x18m plots.","total observation area in square meters, total observation time in minutes"
"Dupont_redclover_Denmark_2008","Odense_2008","transect observations","Apis mellifera","species","honeybees",41,2916,111.15,478656,"Three plots per field (18x18m), one at field edge, one in middle and one in between. Observed walked slowly back and forth along rows, observing flowers approximately once. Field visited three times during flowering season of red clover, but the data here are from the day of peak flowering (when bee activity levels were highest). Number of flowers were calculated based on counts in three 1x1m squares in each of three 18x18m plots.","total observation area in square meters, total observation time in minutes"
"Dupont_redclover_Denmark_2008","Randers NO Syd_2008","transect observations","Apis mellifera","species","honeybees",550,3888,175.4,676836,"Three plots per field (18x18m), one at field edge, one in middle and one in between. Observed walked slowly back and forth along rows, observing flowers approximately once. Field visited three times during flowering season of red clover, but the data here are from the day of peak flowering (when bee activity levels were highest). Number of flowers were calculated based on counts in three 1x1m squares in each of three 18x18m plots.","total observation area in square meters, total observation time in minutes"
"Dupont_redclover_Denmark_2008","Skejby_2008","transect observations","Apis mellifera","species","honeybees",53,2916,76.8333333333333,434848.5,"Three plots per field (18x18m), one at field edge, one in middle and one in between. Observed walked slowly back and forth along rows, observing flowers approximately once. Field visited three times during flowering season of red clover, but the data here are from the day of peak flowering (when bee activity levels were highest). Number of flowers were calculated based on counts in three 1x1m squares in each of three 18x18m plots.","total observation area in square meters, total observation time in minutes"
"Dupont_redclover_Denmark_2008","Vamdrup_2008","transect observations","Apis mellifera","species","honeybees",501,3888,112.466666666667,509328,"Three plots per field (18x18m), one at field edge, one in middle and one in between. Observed walked slowly back and forth along rows, observing flowers approximately once. Field visited three times during flowering season of red clover, but the data here are from the day of peak flowering (when bee activity levels were highest). Number of flowers were calculated based on counts in three 1x1m squares in each of three 18x18m plots.","total observation area in square meters, total observation time in minutes"
"Dupont_redclover_Denmark_2008","Vester Skerninge, Amarksvej_2008","transect observations","Apis mellifera","species","honeybees",231,2916,125.733333333333,1134972,"Three plots per field (18x18m), one at field edge, one in middle and one in between. Observed walked slowly back and forth along rows, observing flowers approximately once. Field visited three times during flowering season of red clover, but the data here are from the day of peak flowering (when bee activity levels were highest). Number of flowers were calculated based on counts in three 1x1m squares in each of three 18x18m plots.","total observation area in square meters, total observation time in minutes"
"Dupont_redclover_Denmark_2009","Braedstrup_2009","transect observations","Apis mellifera","species","honeybees",414,3888,113.166666666667,768096,"Three plots per field (18x18m), one at field edge, one in middle and one in between. Observed walked slowly back and forth along rows, observing flowers approximately once. Field visited three times during flowering season of red clover, but the data here are from the day of peak flowering (when bee activity levels were highest). Number of flowers were calculated based on counts in three 1x1m squares in each of three 18x18m plots.","total observation area in square meters, total observation time in minutes"
"Dupont_redclover_Denmark_2009","Galten_2009","transect observations","Apis mellifera","species","honeybees",411,3888,117.816666666667,344304,"Three plots per field (18x18m), one at field edge, one in middle and one in between. Observed walked slowly back and forth along rows, observing flowers approximately once. Field visited three times during flowering season of red clover, but the data here are from the day of peak flowering (when bee activity levels were highest). Number of flowers were calculated based on counts in three 1x1m squares in each of three 18x18m plots.","total observation area in square meters, total observation time in minutes"
"Dupont_redclover_Denmark_2009","Gjern, Blak_2009","transect observations","Apis mellifera","species","honeybees",0,3888,101.416666666667,308880,"Three plots per field (18x18m), one at field edge, one in middle and one in between. Observed walked slowly back and forth along rows, observing flowers approximately once. Field visited three times during flowering season of red clover, but the data here are from the day of peak flowering (when bee activity levels were highest). Number of flowers were calculated based on counts in three 1x1m squares in each of three 18x18m plots.","total observation area in square meters, total observation time in minutes"
"Dupont_redclover_Denmark_2009","Gjern, Tingvejen_2009","transect observations","Apis mellifera","species","honeybees",0,3888,91.85,303696,"Three plots per field (18x18m), one at field edge, one in middle and one in between. Observed walked slowly back and forth along rows, observing flowers approximately once. Field visited three times during flowering season of red clover, but the data here are from the day of peak flowering (when bee activity levels were highest). Number of flowers were calculated based on counts in three 1x1m squares in each of three 18x18m plots.","total observation area in square meters, total observation time in minutes"
"Dupont_redclover_Denmark_2009","Hammel 1_2009","transect observations","Apis mellifera","species","honeybees",669,3888,243.516666666667,605232,"Three plots per field (18x18m), one at field edge, one in middle and one in between. Observed walked slowly back and forth along rows, observing flowers approximately once. Field visited three times during flowering season of red clover, but the data here are from the day of peak flowering (when bee activity levels were highest). Number of flowers were calculated based on counts in three 1x1m squares in each of three 18x18m plots.","total observation area in square meters, total observation time in minutes"
"Dupont_redclover_Denmark_2009","Hammel 2_2009","transect observations","Apis mellifera","species","honeybees",334,3888,148.183333333333,413424,"Three plots per field (18x18m), one at field edge, one in middle and one in between. Observed walked slowly back and forth along rows, observing flowers approximately once. Field visited three times during flowering season of red clover, but the data here are from the day of peak flowering (when bee activity levels were highest). Number of flowers were calculated based on counts in three 1x1m squares in each of three 18x18m plots.","total observation area in square meters, total observation time in minutes"
"Dupont_redclover_Denmark_2009","Horning_2009","transect observations","Apis mellifera","species","honeybees",452,3888,243.1,1786320,"Three plots per field (18x18m), one at field edge, one in middle and one in between. Observed walked slowly back and forth along rows, observing flowers approximately once. Field visited three times during flowering season of red clover, but the data here are from the day of peak flowering (when bee activity levels were highest). Number of flowers were calculated based on counts in three 1x1m squares in each of three 18x18m plots.","total observation area in square meters, total observation time in minutes"
"Dupont_redclover_Denmark_2009","Nr. Aaby_2009","transect observations","Apis mellifera","species","honeybees",76,3888,154.5,1296000,"Three plots per field (18x18m), one at field edge, one in middle and one in between. Observed walked slowly back and forth along rows, observing flowers approximately once. Field visited three times during flowering season of red clover, but the data here are from the day of peak flowering (when bee activity levels were highest). Number of flowers were calculated based on counts in three 1x1m squares in each of three 18x18m plots.","total observation area in square meters, total observation time in minutes"
"Dupont_redclover_Denmark_2009","Odense_2009","transect observations","Apis mellifera","species","honeybees",202,3888,135.766666666667,830736,"Three plots per field (18x18m), one at field edge, one in middle and one in between. Observed walked slowly back and forth along rows, observing flowers approximately once. Field visited three times during flowering season of red clover, but the data here are from the day of peak flowering (when bee activity levels were highest). Number of flowers were calculated based on counts in three 1x1m squares in each of three 18x18m plots.","total observation area in square meters, total observation time in minutes"
"Dupont_redclover_Denmark_2009","Randers NO Nord_2009","transect observations","Apis mellifera","species","honeybees",209,3888,118.316666666667,1330128,"Three plots per field (18x18m), one at field edge, one in middle and one in between. Observed walked slowly back and forth along rows, observing flowers approximately once. Field visited three times during flowering season of red clover, but the data here are from the day of peak flowering (when bee activity levels were highest). Number of flowers were calculated based on counts in three 1x1m squares in each of three 18x18m plots.","total observation area in square meters, total observation time in minutes"
"Dupont_redclover_Denmark_2009","Randers NO Syd_2009","transect observations","Apis mellifera","species","honeybees",771,3888,121.583333333333,1491264,"Three plots per field (18x18m), one at field edge, one in middle and one in between. Observed walked slowly back and forth along rows, observing flowers approximately once. Field visited three times during flowering season of red clover, but the data here are from the day of peak flowering (when bee activity levels were highest). Number of flowers were calculated based on counts in three 1x1m squares in each of three 18x18m plots.","total observation area in square meters, total observation time in minutes"
"Dupont_redclover_Denmark_2009","Randers SO_2009","transect observations","Apis mellifera","species","honeybees",184,3888,140.616666666667,1435968,"Three plots per field (18x18m), one at field edge, one in middle and one in between. Observed walked slowly back and forth along rows, observing flowers approximately once. Field visited three times during flowering season of red clover, but the data here are from the day of peak flowering (when bee activity levels were highest). Number of flowers were calculated based on counts in three 1x1m squares in each of three 18x18m plots.","total observation area in square meters, total observation time in minutes"
"Dupont_redclover_Denmark_2009","Ringe_2009","transect observations","Apis mellifera","species","honeybees",72,3888,127.5,966384,"Three plots per field (18x18m), one at field edge, one in middle and one in between. Observed walked slowly back and forth along rows, observing flowers approximately once. Field visited three times during flowering season of red clover, but the data here are from the day of peak flowering (when bee activity levels were highest). Number of flowers were calculated based on counts in three 1x1m squares in each of three 18x18m plots.","total observation area in square meters, total observation time in minutes"
"Dupont_redclover_Denmark_2009","Ry_2009","transect observations","Apis mellifera","species","honeybees",0,3888,99.0833333333334,199584,"Three plots per field (18x18m), one at field edge, one in middle and one in between. Observed walked slowly back and forth along rows, observing flowers approximately once. Field visited three times during flowering season of red clover, but the data here are from the day of peak flowering (when bee activity levels were highest). Number of flowers were calculated based on counts in three 1x1m squares in each of three 18x18m plots.","total observation area in square meters, total observation time in minutes"
"Dupont_redclover_Denmark_2009","Skive_2009","transect observations","Apis mellifera","species","honeybees",2,3888,121.616666666667,225504,"Three plots per field (18x18m), one at field edge, one in middle and one in between. Observed walked slowly back and forth along rows, observing flowers approximately once. Field visited three times during flowering season of red clover, but the data here are from the day of peak flowering (when bee activity levels were highest). Number of flowers were calculated based on counts in three 1x1m squares in each of three 18x18m plots.","total observation area in square meters, total observation time in minutes"
"Dupont_redclover_Denmark_2009","Vester Skerninge, Kohavevej_2009","transect observations","Apis mellifera","species","honeybees",834,4212,154.516666666667,761436,"Three plots per field (18x18m), one at field edge, one in middle and one in between. Observed walked slowly back and forth along rows, observing flowers approximately once. Field visited three times during flowering season of red clover, but the data here are from the day of peak flowering (when bee activity levels were highest). Number of flowers were calculated based on counts in three 1x1m squares in each of three 18x18m plots.","total observation area in square meters, total observation time in minutes"
"Dupont_redclover_Denmark_2009","Viborg_2009","transect observations","Apis mellifera","species","honeybees",56,3888,163.3,396576,"Three plots per field (18x18m), one at field edge, one in middle and one in between. Observed walked slowly back and forth along rows, observing flowers approximately once. Field visited three times during flowering season of red clover, but the data here are from the day of peak flowering (when bee activity levels were highest). Number of flowers were calculated based on counts in three 1x1m squares in each of three 18x18m plots.","total observation area in square meters, total observation time in minutes"
"Leah_Blechschmidt_Malus_domestica_Canada_2018","1","Count of visitors to crop flowers","Apis mellifera","species","honeybees",11,9,45,NA,"Bee visitors to apple crop flowers at 9 sampling locations within field were observed and categorized to guild level for 5 minutes after 10 minutes of active capture. At each point a 1m x 1m square of the canopy was observed",NA
"Leah_Blechschmidt_Malus_domestica_Canada_2018","1","Count of visitors to crop flowers","All wild bees excluding honeybees and bumblebees","superfamily","other_wild_bees",3,9,45,NA,"Bee visitors to apple crop flowers at 9 sampling locations within field were observed and categorized to guild level for 5 minutes after 10 minutes of active capture. At each point a 1m x 1m square of the canopy was observed",NA
"Leah_Blechschmidt_Malus_domestica_Canada_2018","1","Capture of visitors to crop flowers","Apis mellifera","species","honeybees",8,9,90,NA,"Bee visitors to apple crop flowers at 9 sampling locations within field were observed and categorized to guild level for 5 minutes after 10 minutes of active capture. At each point a 1m x 1m square of the canopy was observed",NA
"Leah_Blechschmidt_Malus_domestica_Canada_2018","1","Capture of visitors to crop flowers","Augochlorella aurata","species","other_wild_bees",1,9,90,NA,"Bee visitors to apple crop flowers at 9 sampling locations within field were observed and categorized to guild level for 5 minutes after 10 minutes of active capture. At each point a 1m x 1m square of the canopy was observed",NA
"Leah_Blechschmidt_Malus_domestica_Canada_2019","1","Count of visitors to crop flowers","Apis mellifera","species","honeybees",33,9,45,NA,"Bee visitors to apple crop flowers at 9 sampling locations within field were observed and categorized to guild level for 5 minutes after 10 minutes of active capture. At each point a 1m x 1m square of the canopy was observed",NA
"Leah_Blechschmidt_Malus_domestica_Canada_2019","1","Count of visitors to crop flowers","All wild bumblebees","genus","bumblebees",1,9,45,NA,"Bee visitors to apple crop flowers at 9 sampling locations within field were observed and categorized to guild level for 5 minutes after 10 minutes of active capture. At each point a 1m x 1m square of the canopy was observed",NA
"Leah_Blechschmidt_Malus_domestica_Canada_2019","1","Count of visitors to crop flowers","All wild bees excluding honeybees and bumblebees","superfamily","other_wild_bees",5,9,45,NA,"Bee visitors to apple crop flowers at 9 sampling locations within field were observed and categorized to guild level for 5 minutes after 10 minutes of active capture. At each point a 1m x 1m square of the canopy was observed",NA
"Leah_Blechschmidt_Malus_domestica_Canada_2019","1","Count of visitors to crop flowers","All non-bee pollinators","order","syrphids",37,9,45,NA,"Bee visitors to apple crop flowers at 9 sampling locations within field were observed and categorized to guild level for 5 minutes after 10 minutes of active capture. At each point a 1m x 1m square of the canopy was observed","non-bee pollinators category would be primarily syrphids, but would also include other flies."
"Leah_Blechschmidt_Malus_domestica_Canada_2019","1","Capture of visitors to crop flowers","Andrena carlini","species","other_wild_bees",1,9,90,NA,"Bee visitors to apple crop flowers at 9 sampling locations within field were observed and categorized to guild level for 5 minutes after 10 minutes of active capture. At each point a 1m x 1m square of the canopy was observed",NA
"Leah_Blechschmidt_Malus_domestica_Canada_2019","1","Capture of visitors to crop flowers","Andrena miranda","species","other_wild_bees",3,9,90,NA,"Bee visitors to apple crop flowers at 9 sampling locations within field were observed and categorized to guild level for 5 minutes after 10 minutes of active capture. At each point a 1m x 1m square of the canopy was observed",NA
"Leah_Blechschmidt_Malus_domestica_Canada_2019","1","Capture of visitors to crop flowers","Apis mellifera","species","honeybees",12,9,90,NA,"Bee visitors to apple crop flowers at 9 sampling locations within field were observed and categorized to guild level for 5 minutes after 10 minutes of active capture. At each point a 1m x 1m square of the canopy was observed",NA
"Leah_Blechschmidt_Malus_domestica_Canada_2018","2","Count of visitors to crop flowers","Apis mellifera","species","honeybees",9,9,45,NA,"Bee visitors to apple crop flowers at 9 sampling locations within field were observed and categorized to guild level for 5 minutes after 10 minutes of active capture. At each point a 1m x 1m square of the canopy was observed",NA
"Leah_Blechschmidt_Malus_domestica_Canada_2018","2","Count of visitors to crop flowers","All wild bees excluding honeybees and bumblebees","superfamily","other_wild_bees",8,9,45,NA,"Bee visitors to apple crop flowers at 9 sampling locations within field were observed and categorized to guild level for 5 minutes after 10 minutes of active capture. At each point a 1m x 1m square of the canopy was observed",NA
"Leah_Blechschmidt_Malus_domestica_Canada_2018","2","Capture of visitors to crop flowers","Apis mellifera","species","honeybees",6,9,90,NA,"Bee visitors to apple crop flowers at 9 sampling locations within field were observed and categorized to guild level for 5 minutes after 10 minutes of active capture. At each point a 1m x 1m square of the canopy was observed",NA
"Leah_Blechschmidt_Malus_domestica_Canada_2019","2","Count of visitors to crop flowers","Apis mellifera","species","honeybees",23,9,45,NA,"Bee visitors to apple crop flowers at 9 sampling locations within field were observed and categorized to guild level for 5 minutes after 10 minutes of active capture. At each point a 1m x 1m square of the canopy was observed",NA
"Leah_Blechschmidt_Malus_domestica_Canada_2019","2","Count of visitors to crop flowers","All wild bumblebees","genus","bumblebees",2,9,45,NA,"Bee visitors to apple crop flowers at 9 sampling locations within field were observed and categorized to guild level for 5 minutes after 10 minutes of active capture. At each point a 1m x 1m square of the canopy was observed",NA
"Leah_Blechschmidt_Malus_domestica_Canada_2019","2","Count of visitors to crop flowers","All wild bees excluding honeybees and bumblebees","superfamily","other_wild_bees",4,9,45,NA,"Bee visitors to apple crop flowers at 9 sampling locations within field were observed and categorized to guild level for 5 minutes after 10 minutes of active capture. At each point a 1m x 1m square of the canopy was observed",NA
"Leah_Blechschmidt_Malus_domestica_Canada_2019","2","Count of visitors to crop flowers","All non-bee pollinators","order","syrphids",17,9,45,NA,"Bee visitors to apple crop flowers at 9 sampling locations within field were observed and categorized to guild level for 5 minutes after 10 minutes of active capture. At each point a 1m x 1m square of the canopy was observed","non-bee pollinators category would be primarily syrphids, but would also include other flies."
"Leah_Blechschmidt_Malus_domestica_Canada_2019","2","Capture of visitors to crop flowers","Apis mellifera","species","honeybees",11,9,90,NA,"Bee visitors to apple crop flowers at 9 sampling locations within field were observed and categorized to guild level for 5 minutes after 10 minutes of active capture. At each point a 1m x 1m square of the canopy was observed",NA
"Leah_Blechschmidt_Malus_domestica_Canada_2018","3","Count of visitors to crop flowers","Apis mellifera","species","honeybees",28,9,45,NA,"Bee visitors to apple crop flowers at 9 sampling locations within field were observed and categorized to guild level for 5 minutes after 10 minutes of active capture. At each point a 1m x 1m square of the canopy was observed",NA
"Leah_Blechschmidt_Malus_domestica_Canada_2018","3","Count of visitors to crop flowers","All wild bees excluding honeybees and bumblebees","superfamily","other_wild_bees",7,9,45,NA,"Bee visitors to apple crop flowers at 9 sampling locations within field were observed and categorized to guild level for 5 minutes after 10 minutes of active capture. At each point a 1m x 1m square of the canopy was observed",NA
"Leah_Blechschmidt_Malus_domestica_Canada_2018","3","Capture of visitors to crop flowers","Andrena miserabilis","species","other_wild_bees",1,9,90,NA,"Bee visitors to apple crop flowers at 9 sampling locations within field were observed and categorized to guild level for 5 minutes after 10 minutes of active capture. At each point a 1m x 1m square of the canopy was observed",NA
"Leah_Blechschmidt_Malus_domestica_Canada_2018","3","Capture of visitors to crop flowers","Apis mellifera","species","honeybees",11,9,90,NA,"Bee visitors to apple crop flowers at 9 sampling locations within field were observed and categorized to guild level for 5 minutes after 10 minutes of active capture. At each point a 1m x 1m square of the canopy was observed",NA
"Leah_Blechschmidt_Malus_domestica_Canada_2018","3","Capture of visitors to crop flowers","Bombus impatiens","species","bumblebees",1,9,90,NA,"Bee visitors to apple crop flowers at 9 sampling locations within field were observed and categorized to guild level for 5 minutes after 10 minutes of active capture. At each point a 1m x 1m square of the canopy was observed",NA
"Leah_Blechschmidt_Malus_domestica_Canada_2018","3","Capture of visitors to crop flowers","Lasioglossum coriaceum","species","other_wild_bees",1,9,90,NA,"Bee visitors to apple crop flowers at 9 sampling locations within field were observed and categorized to guild level for 5 minutes after 10 minutes of active capture. At each point a 1m x 1m square of the canopy was observed",NA
"Leah_Blechschmidt_Malus_domestica_Canada_2018","4","Count of visitors to crop flowers","Apis mellifera","species","honeybees",59,9,45,NA,"Bee visitors to apple crop flowers at 9 sampling locations within field were observed and categorized to guild level for 5 minutes after 10 minutes of active capture. At each point a 1m x 1m square of the canopy was observed",NA
"Leah_Blechschmidt_Malus_domestica_Canada_2018","4","Count of visitors to crop flowers","All wild bumblebees","genus","bumblebees",2,9,45,NA,"Bee visitors to apple crop flowers at 9 sampling locations within field were observed and categorized to guild level for 5 minutes after 10 minutes of active capture. At each point a 1m x 1m square of the canopy was observed",NA
"Leah_Blechschmidt_Malus_domestica_Canada_2018","4","Count of visitors to crop flowers","All wild bees excluding honeybees and bumblebees","superfamily","other_wild_bees",2,9,45,NA,"Bee visitors to apple crop flowers at 9 sampling locations within field were observed and categorized to guild level for 5 minutes after 10 minutes of active capture. At each point a 1m x 1m square of the canopy was observed",NA
"Leah_Blechschmidt_Malus_domestica_Canada_2018","4","Capture of visitors to crop flowers","Andrena carlini","species","other_wild_bees",1,9,90,NA,"Bee visitors to apple crop flowers at 9 sampling locations within field were observed and categorized to guild level for 5 minutes after 10 minutes of active capture. At each point a 1m x 1m square of the canopy was observed",NA
"Leah_Blechschmidt_Malus_domestica_Canada_2018","4","Capture of visitors to crop flowers","Andrena hippotes","species","other_wild_bees",2,9,90,NA,"Bee visitors to apple crop flowers at 9 sampling locations within field were observed and categorized to guild level for 5 minutes after 10 minutes of active capture. At each point a 1m x 1m square of the canopy was observed",NA
"Leah_Blechschmidt_Malus_domestica_Canada_2018","4","Capture of visitors to crop flowers","Andrena miserabilis","species","other_wild_bees",1,9,90,NA,"Bee visitors to apple crop flowers at 9 sampling locations within field were observed and categorized to guild level for 5 minutes after 10 minutes of active capture. At each point a 1m x 1m square of the canopy was observed",NA
"Leah_Blechschmidt_Malus_domestica_Canada_2018","4","Capture of visitors to crop flowers","Apis mellifera","species","honeybees",31,9,90,NA,"Bee visitors to apple crop flowers at 9 sampling locations within field were observed and categorized to guild level for 5 minutes after 10 minutes of active capture. At each point a 1m x 1m square of the canopy was observed",NA
"Leah_Blechschmidt_Malus_domestica_Canada_2018","4","Capture of visitors to crop flowers","Halictus rubicundus","species","other_wild_bees",1,9,90,NA,"Bee visitors to apple crop flowers at 9 sampling locations within field were observed and categorized to guild level for 5 minutes after 10 minutes of active capture. At each point a 1m x 1m square of the canopy was observed",NA
"Leah_Blechschmidt_Malus_domestica_Canada_2018","4","Capture of visitors to crop flowers","Xylocopa virginica","species","other_wild_bees",2,9,90,NA,"Bee visitors to apple crop flowers at 9 sampling locations within field were observed and categorized to guild level for 5 minutes after 10 minutes of active capture. At each point a 1m x 1m square of the canopy was observed",NA
"Leah_Blechschmidt_Malus_domestica_Canada_2019","4","Count of visitors to crop flowers","Apis mellifera","species","honeybees",32,9,45,NA,"Bee visitors to apple crop flowers at 9 sampling locations within field were observed and categorized to guild level for 5 minutes after 10 minutes of active capture. At each point a 1m x 1m square of the canopy was observed",NA
"Leah_Blechschmidt_Malus_domestica_Canada_2019","4","Count of visitors to crop flowers","All wild bumblebees","genus","bumblebees",7,9,45,NA,"Bee visitors to apple crop flowers at 9 sampling locations within field were observed and categorized to guild level for 5 minutes after 10 minutes of active capture. At each point a 1m x 1m square of the canopy was observed",NA
"Leah_Blechschmidt_Malus_domestica_Canada_2019","4","Count of visitors to crop flowers","All wild bees excluding honeybees and bumblebees","superfamily","other_wild_bees",2,9,45,NA,"Bee visitors to apple crop flowers at 9 sampling locations within field were observed and categorized to guild level for 5 minutes after 10 minutes of active capture. At each point a 1m x 1m square of the canopy was observed",NA
"Leah_Blechschmidt_Malus_domestica_Canada_2019","4","Count of visitors to crop flowers","All non-bee pollinators","order","syrphids",10,9,45,NA,"Bee visitors to apple crop flowers at 9 sampling locations within field were observed and categorized to guild level for 5 minutes after 10 minutes of active capture. At each point a 1m x 1m square of the canopy was observed","non-bee pollinators category would be primarily syrphids, but would also include other flies."
"Leah_Blechschmidt_Malus_domestica_Canada_2019","4","Capture of visitors to crop flowers","Andrena carlini","species","other_wild_bees",1,9,90,NA,"Bee visitors to apple crop flowers at 9 sampling locations within field were observed and categorized to guild level for 5 minutes after 10 minutes of active capture. At each point a 1m x 1m square of the canopy was observed",NA
"Leah_Blechschmidt_Malus_domestica_Canada_2019","4","Capture of visitors to crop flowers","Apis mellifera","species","honeybees",19,9,90,NA,"Bee visitors to apple crop flowers at 9 sampling locations within field were observed and categorized to guild level for 5 minutes after 10 minutes of active capture. At each point a 1m x 1m square of the canopy was observed",NA
"Leah_Blechschmidt_Malus_domestica_Canada_2019","4","Capture of visitors to crop flowers","Xylocopa virginica","species","other_wild_bees",1,9,90,NA,"Bee visitors to apple crop flowers at 9 sampling locations within field were observed and categorized to guild level for 5 minutes after 10 minutes of active capture. At each point a 1m x 1m square of the canopy was observed",NA
"Leah_Blechschmidt_Malus_domestica_Canada_2018","5","Count of visitors to crop flowers","Apis mellifera","species","honeybees",134,9,45,NA,"Bee visitors to apple crop flowers at 9 sampling locations within field were observed and categorized to guild level for 5 minutes after 10 minutes of active capture. At each point a 1m x 1m square of the canopy was observed",NA
"Leah_Blechschmidt_Malus_domestica_Canada_2018","5","Count of visitors to crop flowers","All non-bee pollinators","order","syrphids",41,9,45,NA,"Bee visitors to apple crop flowers at 9 sampling locations within field were observed and categorized to guild level for 5 minutes after 10 minutes of active capture. At each point a 1m x 1m square of the canopy was observed","non-bee pollinators category would be primarily syrphids, but would also include other flies."
"Leah_Blechschmidt_Malus_domestica_Canada_2018","5","Capture of visitors to crop flowers","Agapostemon sericeus","species","other_wild_bees",1,9,90,NA,"Bee visitors to apple crop flowers at 9 sampling locations within field were observed and categorized to guild level for 5 minutes after 10 minutes of active capture. At each point a 1m x 1m square of the canopy was observed",NA
"Leah_Blechschmidt_Malus_domestica_Canada_2018","5","Capture of visitors to crop flowers","Andrena barbilabris","species","other_wild_bees",2,9,90,NA,"Bee visitors to apple crop flowers at 9 sampling locations within field were observed and categorized to guild level for 5 minutes after 10 minutes of active capture. At each point a 1m x 1m square of the canopy was observed",NA
"Leah_Blechschmidt_Malus_domestica_Canada_2018","5","Capture of visitors to crop flowers","Andrena carlini","species","other_wild_bees",7,9,90,NA,"Bee visitors to apple crop flowers at 9 sampling locations within field were observed and categorized to guild level for 5 minutes after 10 minutes of active capture. At each point a 1m x 1m square of the canopy was observed",NA
"Leah_Blechschmidt_Malus_domestica_Canada_2018","5","Capture of visitors to crop flowers","Andrena commoda","species","other_wild_bees",1,9,90,NA,"Bee visitors to apple crop flowers at 9 sampling locations within field were observed and categorized to guild level for 5 minutes after 10 minutes of active capture. At each point a 1m x 1m square of the canopy was observed",NA
"Leah_Blechschmidt_Malus_domestica_Canada_2018","5","Capture of visitors to crop flowers","Andrena sp. 1","morphospecies","other_wild_bees",2,9,90,NA,"Bee visitors to apple crop flowers at 9 sampling locations within field were observed and categorized to guild level for 5 minutes after 10 minutes of active capture. At each point a 1m x 1m square of the canopy was observed",NA
"Leah_Blechschmidt_Malus_domestica_Canada_2018","5","Capture of visitors to crop flowers","Andrena hippotes","species","other_wild_bees",2,9,90,NA,"Bee visitors to apple crop flowers at 9 sampling locations within field were observed and categorized to guild level for 5 minutes after 10 minutes of active capture. At each point a 1m x 1m square of the canopy was observed",NA
"Leah_Blechschmidt_Malus_domestica_Canada_2018","5","Capture of visitors to crop flowers","Andrena imitatrix","species","other_wild_bees",1,9,90,NA,"Bee visitors to apple crop flowers at 9 sampling locations within field were observed and categorized to guild level for 5 minutes after 10 minutes of active capture. At each point a 1m x 1m square of the canopy was observed",NA
"Leah_Blechschmidt_Malus_domestica_Canada_2018","5","Capture of visitors to crop flowers","Andrena miserabilis","species","other_wild_bees",2,9,90,NA,"Bee visitors to apple crop flowers at 9 sampling locations within field were observed and categorized to guild level for 5 minutes after 10 minutes of active capture. At each point a 1m x 1m square of the canopy was observed",NA
"Leah_Blechschmidt_Malus_domestica_Canada_2018","5","Capture of visitors to crop flowers","Andrena nasonii","species","other_wild_bees",1,9,90,NA,"Bee visitors to apple crop flowers at 9 sampling locations within field were observed and categorized to guild level for 5 minutes after 10 minutes of active capture. At each point a 1m x 1m square of the canopy was observed",NA
"Leah_Blechschmidt_Malus_domestica_Canada_2018","5","Capture of visitors to crop flowers","Andrena perplexa","species","other_wild_bees",1,9,90,NA,"Bee visitors to apple crop flowers at 9 sampling locations within field were observed and categorized to guild level for 5 minutes after 10 minutes of active capture. At each point a 1m x 1m square of the canopy was observed",NA
"Leah_Blechschmidt_Malus_domestica_Canada_2018","5","Capture of visitors to crop flowers","Andrena vicina","species","other_wild_bees",3,9,90,NA,"Bee visitors to apple crop flowers at 9 sampling locations within field were observed and categorized to guild level for 5 minutes after 10 minutes of active capture. At each point a 1m x 1m square of the canopy was observed",NA
"Leah_Blechschmidt_Malus_domestica_Canada_2018","5","Capture of visitors to crop flowers","Andrena all unknown species","morphospecies","other_wild_bees",4,9,90,NA,"Bee visitors to apple crop flowers at 9 sampling locations within field were observed and categorized to guild level for 5 minutes after 10 minutes of active capture. At each point a 1m x 1m square of the canopy was observed",NA
"Leah_Blechschmidt_Malus_domestica_Canada_2018","5","Capture of visitors to crop flowers","Apis mellifera","species","honeybees",38,9,90,NA,"Bee visitors to apple crop flowers at 9 sampling locations within field were observed and categorized to guild level for 5 minutes after 10 minutes of active capture. At each point a 1m x 1m square of the canopy was observed",NA
"Leah_Blechschmidt_Malus_domestica_Canada_2018","5","Capture of visitors to crop flowers","Bombus impatiens","species","bumblebees",1,9,90,NA,"Bee visitors to apple crop flowers at 9 sampling locations within field were observed and categorized to guild level for 5 minutes after 10 minutes of active capture. At each point a 1m x 1m square of the canopy was observed",NA
"Leah_Blechschmidt_Malus_domestica_Canada_2019","5","Count of visitors to crop flowers","Apis mellifera","species","honeybees",129,9,45,NA,"Bee visitors to apple crop flowers at 9 sampling locations within field were observed and categorized to guild level for 5 minutes after 10 minutes of active capture. At each point a 1m x 1m square of the canopy was observed",NA
"Leah_Blechschmidt_Malus_domestica_Canada_2019","5","Count of visitors to crop flowers","All wild bumblebees","genus","bumblebees",6,9,45,NA,"Bee visitors to apple crop flowers at 9 sampling locations within field were observed and categorized to guild level for 5 minutes after 10 minutes of active capture. At each point a 1m x 1m square of the canopy was observed",NA
"Leah_Blechschmidt_Malus_domestica_Canada_2019","5","Count of visitors to crop flowers","All wild bees excluding honeybees and bumblebees","superfamily","other_wild_bees",12,9,45,NA,"Bee visitors to apple crop flowers at 9 sampling locations within field were observed and categorized to guild level for 5 minutes after 10 minutes of active capture. At each point a 1m x 1m square of the canopy was observed",NA
"Leah_Blechschmidt_Malus_domestica_Canada_2019","5","Count of visitors to crop flowers","All non-bee pollinators","order","syrphids",29,9,45,NA,"Bee visitors to apple crop flowers at 9 sampling locations within field were observed and categorized to guild level for 5 minutes after 10 minutes of active capture. At each point a 1m x 1m square of the canopy was observed","non-bee pollinators category would be primarily syrphids, but would also include other flies."
"Leah_Blechschmidt_Malus_domestica_Canada_2019","5","Capture of visitors to crop flowers","Andrena carlini","species","other_wild_bees",1,9,90,NA,"Bee visitors to apple crop flowers at 9 sampling locations within field were observed and categorized to guild level for 5 minutes after 10 minutes of active capture. At each point a 1m x 1m square of the canopy was observed",NA
"Leah_Blechschmidt_Malus_domestica_Canada_2019","5","Capture of visitors to crop flowers","Andrena miranda","species","other_wild_bees",4,9,90,NA,"Bee visitors to apple crop flowers at 9 sampling locations within field were observed and categorized to guild level for 5 minutes after 10 minutes of active capture. At each point a 1m x 1m square of the canopy was observed",NA
"Leah_Blechschmidt_Malus_domestica_Canada_2019","5","Capture of visitors to crop flowers","Andrena miserabilis","species","other_wild_bees",4,9,90,NA,"Bee visitors to apple crop flowers at 9 sampling locations within field were observed and categorized to guild level for 5 minutes after 10 minutes of active capture. At each point a 1m x 1m square of the canopy was observed",NA
"Leah_Blechschmidt_Malus_domestica_Canada_2019","5","Capture of visitors to crop flowers","Andrena vicina","species","other_wild_bees",4,9,90,NA,"Bee visitors to apple crop flowers at 9 sampling locations within field were observed and categorized to guild level for 5 minutes after 10 minutes of active capture. At each point a 1m x 1m square of the canopy was observed",NA
"Leah_Blechschmidt_Malus_domestica_Canada_2019","5","Capture of visitors to crop flowers","Apis mellifera","species","honeybees",24,9,90,NA,"Bee visitors to apple crop flowers at 9 sampling locations within field were observed and categorized to guild level for 5 minutes after 10 minutes of active capture. At each point a 1m x 1m square of the canopy was observed",NA
"Leah_Blechschmidt_Malus_domestica_Canada_2019","5","Capture of visitors to crop flowers","Bombus impatiens","species","bumblebees",1,9,90,NA,"Bee visitors to apple crop flowers at 9 sampling locations within field were observed and categorized to guild level for 5 minutes after 10 minutes of active capture. At each point a 1m x 1m square of the canopy was observed",NA
"Leah_Blechschmidt_Malus_domestica_Canada_2019","5","Capture of visitors to crop flowers","Colletes inaequalis","species","other_wild_bees",1,9,90,NA,"Bee visitors to apple crop flowers at 9 sampling locations within field were observed and categorized to guild level for 5 minutes after 10 minutes of active capture. At each point a 1m x 1m square of the canopy was observed",NA
"Leah_Blechschmidt_Malus_domestica_Canada_2019","5","Capture of visitors to crop flowers","Lasioglossum tegulare","species","other_wild_bees",1,9,90,NA,"Bee visitors to apple crop flowers at 9 sampling locations within field were observed and categorized to guild level for 5 minutes after 10 minutes of active capture. At each point a 1m x 1m square of the canopy was observed",NA
"Leah_Blechschmidt_Malus_domestica_Canada_2018","6","Count of visitors to crop flowers","Apis mellifera","species","honeybees",10,9,45,NA,"Bee visitors to apple crop flowers at 9 sampling locations within field were observed and categorized to guild level for 5 minutes after 10 minutes of active capture. At each point a 1m x 1m square of the canopy was observed",NA
"Leah_Blechschmidt_Malus_domestica_Canada_2018","6","Count of visitors to crop flowers","All wild bumblebees","genus","bumblebees",2,9,45,NA,"Bee visitors to apple crop flowers at 9 sampling locations within field were observed and categorized to guild level for 5 minutes after 10 minutes of active capture. At each point a 1m x 1m square of the canopy was observed",NA
"Leah_Blechschmidt_Malus_domestica_Canada_2018","6","Count of visitors to crop flowers","All non-bee pollinators","order","syrphids",4,9,45,NA,"Bee visitors to apple crop flowers at 9 sampling locations within field were observed and categorized to guild level for 5 minutes after 10 minutes of active capture. At each point a 1m x 1m square of the canopy was observed","non-bee pollinators category would be primarily syrphids, but would also include other flies."
"Leah_Blechschmidt_Malus_domestica_Canada_2018","6","Capture of visitors to crop flowers","Apis mellifera","species","honeybees",13,9,90,NA,"Bee visitors to apple crop flowers at 9 sampling locations within field were observed and categorized to guild level for 5 minutes after 10 minutes of active capture. At each point a 1m x 1m square of the canopy was observed",NA
"Leah_Blechschmidt_Malus_domestica_Canada_2018","7","Count of visitors to crop flowers","Apis mellifera","species","honeybees",12,9,45,NA,"Bee visitors to apple crop flowers at 9 sampling locations within field were observed and categorized to guild level for 5 minutes after 10 minutes of active capture. At each point a 1m x 1m square of the canopy was observed",NA
"Leah_Blechschmidt_Malus_domestica_Canada_2018","7","Capture of visitors to crop flowers","Apis mellifera","species","honeybees",9,9,90,NA,"Bee visitors to apple crop flowers at 9 sampling locations within field were observed and categorized to guild level for 5 minutes after 10 minutes of active capture. At each point a 1m x 1m square of the canopy was observed",NA
"Leah_Blechschmidt_Malus_domestica_Canada_2019","7","Count of visitors to crop flowers","Apis mellifera","species","honeybees",153,9,45,NA,"Bee visitors to apple crop flowers at 9 sampling locations within field were observed and categorized to guild level for 5 minutes after 10 minutes of active capture. At each point a 1m x 1m square of the canopy was observed",NA
"Leah_Blechschmidt_Malus_domestica_Canada_2019","7","Count of visitors to crop flowers","All wild bumblebees","genus","bumblebees",5,9,45,NA,"Bee visitors to apple crop flowers at 9 sampling locations within field were observed and categorized to guild level for 5 minutes after 10 minutes of active capture. At each point a 1m x 1m square of the canopy was observed",NA
"Leah_Blechschmidt_Malus_domestica_Canada_2019","7","Count of visitors to crop flowers","All wild bees excluding honeybees and bumblebees","superfamily","other_wild_bees",4,9,45,NA,"Bee visitors to apple crop flowers at 9 sampling locations within field were observed and categorized to guild level for 5 minutes after 10 minutes of active capture. At each point a 1m x 1m square of the canopy was observed",NA
"Leah_Blechschmidt_Malus_domestica_Canada_2019","7","Count of visitors to crop flowers","All non-bee pollinators","order","syrphids",30,9,45,NA,"Bee visitors to apple crop flowers at 9 sampling locations within field were observed and categorized to guild level for 5 minutes after 10 minutes of active capture. At each point a 1m x 1m square of the canopy was observed","non-bee pollinators category would be primarily syrphids, but would also include other flies."
"Leah_Blechschmidt_Malus_domestica_Canada_2019","7","Capture of visitors to crop flowers","Agapostemon sericeus","species","other_wild_bees",1,9,90,NA,"Bee visitors to apple crop flowers at 9 sampling locations within field were observed and categorized to guild level for 5 minutes after 10 minutes of active capture. At each point a 1m x 1m square of the canopy was observed",NA
"Leah_Blechschmidt_Malus_domestica_Canada_2019","7","Capture of visitors to crop flowers","Andrena carlini","species","other_wild_bees",1,9,90,NA,"Bee visitors to apple crop flowers at 9 sampling locations within field were observed and categorized to guild level for 5 minutes after 10 minutes of active capture. At each point a 1m x 1m square of the canopy was observed",NA
"Leah_Blechschmidt_Malus_domestica_Canada_2019","7","Capture of visitors to crop flowers","Andrena crataegi","species","other_wild_bees",1,9,90,NA,"Bee visitors to apple crop flowers at 9 sampling locations within field were observed and categorized to guild level for 5 minutes after 10 minutes of active capture. At each point a 1m x 1m square of the canopy was observed",NA
"Leah_Blechschmidt_Malus_domestica_Canada_2019","7","Capture of visitors to crop flowers","Andrena miranda","species","other_wild_bees",2,9,90,NA,"Bee visitors to apple crop flowers at 9 sampling locations within field were observed and categorized to guild level for 5 minutes after 10 minutes of active capture. At each point a 1m x 1m square of the canopy was observed",NA
"Leah_Blechschmidt_Malus_domestica_Canada_2019","7","Capture of visitors to crop flowers","Andrena miserabilis","species","other_wild_bees",1,9,90,NA,"Bee visitors to apple crop flowers at 9 sampling locations within field were observed and categorized to guild level for 5 minutes after 10 minutes of active capture. At each point a 1m x 1m square of the canopy was observed",NA
"Leah_Blechschmidt_Malus_domestica_Canada_2019","7","Capture of visitors to crop flowers","Andrena vicina","species","other_wild_bees",1,9,90,NA,"Bee visitors to apple crop flowers at 9 sampling locations within field were observed and categorized to guild level for 5 minutes after 10 minutes of active capture. At each point a 1m x 1m square of the canopy was observed",NA
"Leah_Blechschmidt_Malus_domestica_Canada_2019","7","Capture of visitors to crop flowers","Apis mellifera","species","honeybees",41,9,90,NA,"Bee visitors to apple crop flowers at 9 sampling locations within field were observed and categorized to guild level for 5 minutes after 10 minutes of active capture. At each point a 1m x 1m square of the canopy was observed",NA
"Leah_Blechschmidt_Malus_domestica_Canada_2019","7","Capture of visitors to crop flowers","Bombus impatiens","species","bumblebees",3,9,90,NA,"Bee visitors to apple crop flowers at 9 sampling locations within field were observed and categorized to guild level for 5 minutes after 10 minutes of active capture. At each point a 1m x 1m square of the canopy was observed",NA
"Leah_Blechschmidt_Malus_domestica_Canada_2018","8","Count of visitors to crop flowers","Apis mellifera","species","honeybees",67,9,45,NA,"Bee visitors to apple crop flowers at 9 sampling locations within field were observed and categorized to guild level for 5 minutes after 10 minutes of active capture. At each point a 1m x 1m square of the canopy was observed",NA
"Leah_Blechschmidt_Malus_domestica_Canada_2018","8","Count of visitors to crop flowers","All wild bees excluding honeybees and bumblebees","superfamily","other_wild_bees",6,9,45,NA,"Bee visitors to apple crop flowers at 9 sampling locations within field were observed and categorized to guild level for 5 minutes after 10 minutes of active capture. At each point a 1m x 1m square of the canopy was observed",NA
"Leah_Blechschmidt_Malus_domestica_Canada_2018","8","Capture of visitors to crop flowers","Andrena carlini","species","other_wild_bees",3,9,90,NA,"Bee visitors to apple crop flowers at 9 sampling locations within field were observed and categorized to guild level for 5 minutes after 10 minutes of active capture. At each point a 1m x 1m square of the canopy was observed",NA
"Leah_Blechschmidt_Malus_domestica_Canada_2018","8","Capture of visitors to crop flowers","Andrena hippotes","species","other_wild_bees",1,9,90,NA,"Bee visitors to apple crop flowers at 9 sampling locations within field were observed and categorized to guild level for 5 minutes after 10 minutes of active capture. At each point a 1m x 1m square of the canopy was observed",NA
"Leah_Blechschmidt_Malus_domestica_Canada_2018","8","Capture of visitors to crop flowers","Andrena miserabilis","species","other_wild_bees",1,9,90,NA,"Bee visitors to apple crop flowers at 9 sampling locations within field were observed and categorized to guild level for 5 minutes after 10 minutes of active capture. At each point a 1m x 1m square of the canopy was observed",NA
"Leah_Blechschmidt_Malus_domestica_Canada_2018","8","Capture of visitors to crop flowers","Apis mellifera","species","honeybees",43,9,90,NA,"Bee visitors to apple crop flowers at 9 sampling locations within field were observed and categorized to guild level for 5 minutes after 10 minutes of active capture. At each point a 1m x 1m square of the canopy was observed",NA
"Leah_Blechschmidt_Malus_domestica_Canada_2019","8","Count of visitors to crop flowers","Apis mellifera","species","honeybees",4,9,45,NA,"Bee visitors to apple crop flowers at 9 sampling locations within field were observed and categorized to guild level for 5 minutes after 10 minutes of active capture. At each point a 1m x 1m square of the canopy was observed",NA
"Leah_Blechschmidt_Malus_domestica_Canada_2019","8","Count of visitors to crop flowers","All non-bee pollinators","order","syrphids",5,9,45,NA,"Bee visitors to apple crop flowers at 9 sampling locations within field were observed and categorized to guild level for 5 minutes after 10 minutes of active capture. At each point a 1m x 1m square of the canopy was observed","non-bee pollinators category would be primarily syrphids, but would also include other flies."
"Leah_Blechschmidt_Malus_domestica_Canada_2019","8","Capture of visitors to crop flowers","Andrena miserabilis","species","other_wild_bees",1,9,90,NA,"Bee visitors to apple crop flowers at 9 sampling locations within field were observed and categorized to guild level for 5 minutes after 10 minutes of active capture. At each point a 1m x 1m square of the canopy was observed",NA
"Leah_Blechschmidt_Malus_domestica_Canada_2019","8","Capture of visitors to crop flowers","Apis mellifera","species","honeybees",1,9,90,NA,"Bee visitors to apple crop flowers at 9 sampling locations within field were observed and categorized to guild level for 5 minutes after 10 minutes of active capture. At each point a 1m x 1m square of the canopy was observed",NA
"Leah_Blechschmidt_Malus_domestica_Canada_2018","9","Count of visitors to crop flowers","Apis mellifera","species","honeybees",34,9,45,NA,"Bee visitors to apple crop flowers at 9 sampling locations within field were observed and categorized to guild level for 5 minutes after 10 minutes of active capture. At each point a 1m x 1m square of the canopy was observed",NA
"Leah_Blechschmidt_Malus_domestica_Canada_2018","9","Capture of visitors to crop flowers","Apis mellifera","species","honeybees",20,9,90,NA,"Bee visitors to apple crop flowers at 9 sampling locations within field were observed and categorized to guild level for 5 minutes after 10 minutes of active capture. At each point a 1m x 1m square of the canopy was observed",NA
"Leah_Blechschmidt_Malus_domestica_Canada_2019","9","Count of visitors to crop flowers","All wild bumblebees","genus","bumblebees",2,9,45,NA,"Bee visitors to apple crop flowers at 9 sampling locations within field were observed and categorized to guild level for 5 minutes after 10 minutes of active capture. At each point a 1m x 1m square of the canopy was observed",NA
"Leah_Blechschmidt_Malus_domestica_Canada_2018","10","Count of visitors to crop flowers","Apis mellifera","species","honeybees",63,9,45,NA,"Bee visitors to apple crop flowers at 9 sampling locations within field were observed and categorized to guild level for 5 minutes after 10 minutes of active capture. At each point a 1m x 1m square of the canopy was observed",NA
"Leah_Blechschmidt_Malus_domestica_Canada_2018","10","Count of visitors to crop flowers","All wild bumblebees","genus","bumblebees",1,9,45,NA,"Bee visitors to apple crop flowers at 9 sampling locations within field were observed and categorized to guild level for 5 minutes after 10 minutes of active capture. At each point a 1m x 1m square of the canopy was observed",NA
"Leah_Blechschmidt_Malus_domestica_Canada_2018","10","Count of visitors to crop flowers","All wild bees excluding honeybees and bumblebees","superfamily","other_wild_bees",124,9,45,NA,"Bee visitors to apple crop flowers at 9 sampling locations within field were observed and categorized to guild level for 5 minutes after 10 minutes of active capture. At each point a 1m x 1m square of the canopy was observed",NA
"Leah_Blechschmidt_Malus_domestica_Canada_2018","10","Capture of visitors to crop flowers","Andrena barbilabris","species","other_wild_bees",2,9,90,NA,"Bee visitors to apple crop flowers at 9 sampling locations within field were observed and categorized to guild level for 5 minutes after 10 minutes of active capture. At each point a 1m x 1m square of the canopy was observed",NA
"Leah_Blechschmidt_Malus_domestica_Canada_2018","10","Capture of visitors to crop flowers","Andrena carlini","species","other_wild_bees",3,9,90,NA,"Bee visitors to apple crop flowers at 9 sampling locations within field were observed and categorized to guild level for 5 minutes after 10 minutes of active capture. At each point a 1m x 1m square of the canopy was observed",NA
"Leah_Blechschmidt_Malus_domestica_Canada_2018","10","Capture of visitors to crop flowers","Andrena ceanothi","species","other_wild_bees",7,9,90,NA,"Bee visitors to apple crop flowers at 9 sampling locations within field were observed and categorized to guild level for 5 minutes after 10 minutes of active capture. At each point a 1m x 1m square of the canopy was observed",NA
"Leah_Blechschmidt_Malus_domestica_Canada_2018","10","Capture of visitors to crop flowers","Candrena cressonii","species","other_wild_bees",1,9,90,NA,"Bee visitors to apple crop flowers at 9 sampling locations within field were observed and categorized to guild level for 5 minutes after 10 minutes of active capture. At each point a 1m x 1m square of the canopy was observed",NA
"Leah_Blechschmidt_Malus_domestica_Canada_2018","10","Capture of visitors to crop flowers","Andrena sp. 1","morphospecies","other_wild_bees",1,9,90,NA,"Bee visitors to apple crop flowers at 9 sampling locations within field were observed and categorized to guild level for 5 minutes after 10 minutes of active capture. At each point a 1m x 1m square of the canopy was observed",NA
"Leah_Blechschmidt_Malus_domestica_Canada_2018","10","Capture of visitors to crop flowers","Andrena hippotes","species","other_wild_bees",3,9,90,NA,"Bee visitors to apple crop flowers at 9 sampling locations within field were observed and categorized to guild level for 5 minutes after 10 minutes of active capture. At each point a 1m x 1m square of the canopy was observed",NA
"Leah_Blechschmidt_Malus_domestica_Canada_2018","10","Capture of visitors to crop flowers","Andrena imitatrix","species","other_wild_bees",2,9,90,NA,"Bee visitors to apple crop flowers at 9 sampling locations within field were observed and categorized to guild level for 5 minutes after 10 minutes of active capture. At each point a 1m x 1m square of the canopy was observed",NA
"Leah_Blechschmidt_Malus_domestica_Canada_2018","10","Capture of visitors to crop flowers","Andrena nasonii","species","other_wild_bees",3,9,90,NA,"Bee visitors to apple crop flowers at 9 sampling locations within field were observed and categorized to guild level for 5 minutes after 10 minutes of active capture. At each point a 1m x 1m square of the canopy was observed",NA
"Leah_Blechschmidt_Malus_domestica_Canada_2018","10","Capture of visitors to crop flowers","Andrena regularis","species","other_wild_bees",2,9,90,NA,"Bee visitors to apple crop flowers at 9 sampling locations within field were observed and categorized to guild level for 5 minutes after 10 minutes of active capture. At each point a 1m x 1m square of the canopy was observed",NA
"Leah_Blechschmidt_Malus_domestica_Canada_2018","10","Capture of visitors to crop flowers","Andrena w-scripta","species","other_wild_bees",3,9,90,NA,"Bee visitors to apple crop flowers at 9 sampling locations within field were observed and categorized to guild level for 5 minutes after 10 minutes of active capture. At each point a 1m x 1m square of the canopy was observed",NA
"Leah_Blechschmidt_Malus_domestica_Canada_2018","10","Capture of visitors to crop flowers","Andrena all unknown species","morphospecies","other_wild_bees",3,9,90,NA,"Bee visitors to apple crop flowers at 9 sampling locations within field were observed and categorized to guild level for 5 minutes after 10 minutes of active capture. At each point a 1m x 1m square of the canopy was observed",NA
"Leah_Blechschmidt_Malus_domestica_Canada_2018","10","Capture of visitors to crop flowers","Apis mellifera","species","honeybees",28,9,90,NA,"Bee visitors to apple crop flowers at 9 sampling locations within field were observed and categorized to guild level for 5 minutes after 10 minutes of active capture. At each point a 1m x 1m square of the canopy was observed",NA
"Leah_Blechschmidt_Malus_domestica_Canada_2018","10","Capture of visitors to crop flowers","Bombus impatiens","species","bumblebees",2,9,90,NA,"Bee visitors to apple crop flowers at 9 sampling locations within field were observed and categorized to guild level for 5 minutes after 10 minutes of active capture. At each point a 1m x 1m square of the canopy was observed",NA
"Leah_Blechschmidt_Malus_domestica_Canada_2018","10","Capture of visitors to crop flowers","Colletes inaequalis","species","other_wild_bees",2,9,90,NA,"Bee visitors to apple crop flowers at 9 sampling locations within field were observed and categorized to guild level for 5 minutes after 10 minutes of active capture. At each point a 1m x 1m square of the canopy was observed",NA
"Leah_Blechschmidt_Malus_domestica_Canada_2018","10","Capture of visitors to crop flowers","Halictus confusus","species","other_wild_bees",2,9,90,NA,"Bee visitors to apple crop flowers at 9 sampling locations within field were observed and categorized to guild level for 5 minutes after 10 minutes of active capture. At each point a 1m x 1m square of the canopy was observed",NA
"Leah_Blechschmidt_Malus_domestica_Canada_2018","10","Capture of visitors to crop flowers","Lasioglossum heterognathum","species","other_wild_bees",1,9,90,NA,"Bee visitors to apple crop flowers at 9 sampling locations within field were observed and categorized to guild level for 5 minutes after 10 minutes of active capture. At each point a 1m x 1m square of the canopy was observed",NA
"Leah_Blechschmidt_Malus_domestica_Canada_2018","10","Capture of visitors to crop flowers","Lasioglossum lineatulum","species","other_wild_bees",4,9,90,NA,"Bee visitors to apple crop flowers at 9 sampling locations within field were observed and categorized to guild level for 5 minutes after 10 minutes of active capture. At each point a 1m x 1m square of the canopy was observed",NA
"Leah_Blechschmidt_Malus_domestica_Canada_2018","10","Capture of visitors to crop flowers","Lasioglossum rohweri","species","other_wild_bees",2,9,90,NA,"Bee visitors to apple crop flowers at 9 sampling locations within field were observed and categorized to guild level for 5 minutes after 10 minutes of active capture. At each point a 1m x 1m square of the canopy was observed",NA
"Leah_Blechschmidt_Malus_domestica_Canada_2018","10","Capture of visitors to crop flowers","Lasioglossum weemsi","species","other_wild_bees",1,9,90,NA,"Bee visitors to apple crop flowers at 9 sampling locations within field were observed and categorized to guild level for 5 minutes after 10 minutes of active capture. At each point a 1m x 1m square of the canopy was observed",NA
"Leah_Blechschmidt_Malus_domestica_Canada_2019","10","Count of visitors to crop flowers","Apis mellifera","species","honeybees",93,9,45,NA,"Bee visitors to apple crop flowers at 9 sampling locations within field were observed and categorized to guild level for 5 minutes after 10 minutes of active capture. At each point a 1m x 1m square of the canopy was observed",NA
"Leah_Blechschmidt_Malus_domestica_Canada_2019","10","Count of visitors to crop flowers","All wild bumblebees","genus","bumblebees",30,9,45,NA,"Bee visitors to apple crop flowers at 9 sampling locations within field were observed and categorized to guild level for 5 minutes after 10 minutes of active capture. At each point a 1m x 1m square of the canopy was observed",NA
"Leah_Blechschmidt_Malus_domestica_Canada_2019","10","Count of visitors to crop flowers","All wild bees excluding honeybees and bumblebees","superfamily","other_wild_bees",38,9,45,NA,"Bee visitors to apple crop flowers at 9 sampling locations within field were observed and categorized to guild level for 5 minutes after 10 minutes of active capture. At each point a 1m x 1m square of the canopy was observed",NA
"Leah_Blechschmidt_Malus_domestica_Canada_2019","10","Count of visitors to crop flowers","All non-bee pollinators","order","syrphids",127,9,45,NA,"Bee visitors to apple crop flowers at 9 sampling locations within field were observed and categorized to guild level for 5 minutes after 10 minutes of active capture. At each point a 1m x 1m square of the canopy was observed","non-bee pollinators category would be primarily syrphids, but would also include other flies."
"Leah_Blechschmidt_Malus_domestica_Canada_2019","10","Capture of visitors to crop flowers","Andrena carlini","species","other_wild_bees",3,9,90,NA,"Bee visitors to apple crop flowers at 9 sampling locations within field were observed and categorized to guild level for 5 minutes after 10 minutes of active capture. At each point a 1m x 1m square of the canopy was observed",NA
"Leah_Blechschmidt_Malus_domestica_Canada_2019","10","Capture of visitors to crop flowers","Andrena imitatrix","species","other_wild_bees",2,9,90,NA,"Bee visitors to apple crop flowers at 9 sampling locations within field were observed and categorized to guild level for 5 minutes after 10 minutes of active capture. At each point a 1m x 1m square of the canopy was observed",NA
"Leah_Blechschmidt_Malus_domestica_Canada_2019","10","Capture of visitors to crop flowers","Andrena kalmiae","species","other_wild_bees",1,9,90,NA,"Bee visitors to apple crop flowers at 9 sampling locations within field were observed and categorized to guild level for 5 minutes after 10 minutes of active capture. At each point a 1m x 1m square of the canopy was observed",NA
"Leah_Blechschmidt_Malus_domestica_Canada_2019","10","Capture of visitors to crop flowers","Andrena miserabilis","species","other_wild_bees",1,9,90,NA,"Bee visitors to apple crop flowers at 9 sampling locations within field were observed and categorized to guild level for 5 minutes after 10 minutes of active capture. At each point a 1m x 1m square of the canopy was observed",NA
"Leah_Blechschmidt_Malus_domestica_Canada_2019","10","Capture of visitors to crop flowers","Andrena robertsonii","species","other_wild_bees",1,9,90,NA,"Bee visitors to apple crop flowers at 9 sampling locations within field were observed and categorized to guild level for 5 minutes after 10 minutes of active capture. At each point a 1m x 1m square of the canopy was observed",NA
"Leah_Blechschmidt_Malus_domestica_Canada_2019","10","Capture of visitors to crop flowers","Andrena vicina","species","other_wild_bees",5,9,90,NA,"Bee visitors to apple crop flowers at 9 sampling locations within field were observed and categorized to guild level for 5 minutes after 10 minutes of active capture. At each point a 1m x 1m square of the canopy was observed",NA
"Leah_Blechschmidt_Malus_domestica_Canada_2019","10","Capture of visitors to crop flowers","Apis mellifera","species","honeybees",22,9,90,NA,"Bee visitors to apple crop flowers at 9 sampling locations within field were observed and categorized to guild level for 5 minutes after 10 minutes of active capture. At each point a 1m x 1m square of the canopy was observed",NA
"Leah_Blechschmidt_Malus_domestica_Canada_2019","10","Capture of visitors to crop flowers","Bombus bimaculatus","species","bumblebees",1,9,90,NA,"Bee visitors to apple crop flowers at 9 sampling locations within field were observed and categorized to guild level for 5 minutes after 10 minutes of active capture. At each point a 1m x 1m square of the canopy was observed",NA
"Leah_Blechschmidt_Malus_domestica_Canada_2019","10","Capture of visitors to crop flowers","Bombus griseocollis","species","bumblebees",1,9,90,NA,"Bee visitors to apple crop flowers at 9 sampling locations within field were observed and categorized to guild level for 5 minutes after 10 minutes of active capture. At each point a 1m x 1m square of the canopy was observed",NA
"Leah_Blechschmidt_Malus_domestica_Canada_2019","10","Capture of visitors to crop flowers","Bombus impatiens","species","bumblebees",11,9,90,NA,"Bee visitors to apple crop flowers at 9 sampling locations within field were observed and categorized to guild level for 5 minutes after 10 minutes of active capture. At each point a 1m x 1m square of the canopy was observed",NA
"Leah_Blechschmidt_Malus_domestica_Canada_2019","10","Capture of visitors to crop flowers","Colletes inaequalis","species","other_wild_bees",3,9,90,NA,"Bee visitors to apple crop flowers at 9 sampling locations within field were observed and categorized to guild level for 5 minutes after 10 minutes of active capture. At each point a 1m x 1m square of the canopy was observed",NA
"Leah_Blechschmidt_Malus_domestica_Canada_2019","10","Capture of visitors to crop flowers","Halictus confusus","species","other_wild_bees",1,9,90,NA,"Bee visitors to apple crop flowers at 9 sampling locations within field were observed and categorized to guild level for 5 minutes after 10 minutes of active capture. At each point a 1m x 1m square of the canopy was observed",NA
"Leah_Blechschmidt_Malus_domestica_Canada_2019","10","Capture of visitors to crop flowers","Lasioglossum coriaceum","species","other_wild_bees",1,9,90,NA,"Bee visitors to apple crop flowers at 9 sampling locations within field were observed and categorized to guild level for 5 minutes after 10 minutes of active capture. At each point a 1m x 1m square of the canopy was observed",NA
"Leah_Blechschmidt_Malus_domestica_Canada_2019","10","Capture of visitors to crop flowers","Lasioglossum lineatulum","species","other_wild_bees",1,9,90,NA,"Bee visitors to apple crop flowers at 9 sampling locations within field were observed and categorized to guild level for 5 minutes after 10 minutes of active capture. At each point a 1m x 1m square of the canopy was observed",NA
"Leah_Blechschmidt_Malus_domestica_Canada_2019","10","Capture of visitors to crop flowers","Lasioglossum oceanicum","species","other_wild_bees",1,9,90,NA,"Bee visitors to apple crop flowers at 9 sampling locations within field were observed and categorized to guild level for 5 minutes after 10 minutes of active capture. At each point a 1m x 1m square of the canopy was observed",NA
"Leah_Blechschmidt_Malus_domestica_Canada_2019","10","Capture of visitors to crop flowers","Lasioglossum rohweri","species","other_wild_bees",2,9,90,NA,"Bee visitors to apple crop flowers at 9 sampling locations within field were observed and categorized to guild level for 5 minutes after 10 minutes of active capture. At each point a 1m x 1m square of the canopy was observed",NA
"Leah_Blechschmidt_Malus_domestica_Canada_2019","10","Capture of visitors to crop flowers","Nomada sayi","species","other_wild_bees",1,9,90,NA,"Bee visitors to apple crop flowers at 9 sampling locations within field were observed and categorized to guild level for 5 minutes after 10 minutes of active capture. At each point a 1m x 1m square of the canopy was observed",NA
"Leah_Blechschmidt_Malus_domestica_Canada_2019","10","Capture of visitors to crop flowers","Osmia pumila","species","other_wild_bees",1,9,90,NA,"Bee visitors to apple crop flowers at 9 sampling locations within field were observed and categorized to guild level for 5 minutes after 10 minutes of active capture. At each point a 1m x 1m square of the canopy was observed",NA
"Leah_Blechschmidt_Malus_domestica_Canada_2019","10","Capture of visitors to crop flowers","Sphecodes dichrous","species","other_wild_bees",1,9,90,NA,"Bee visitors to apple crop flowers at 9 sampling locations within field were observed and categorized to guild level for 5 minutes after 10 minutes of active capture. At each point a 1m x 1m square of the canopy was observed",NA
"Leah_Blechschmidt_Malus_domestica_Canada_2018","11","Count of visitors to crop flowers","Apis mellifera","species","honeybees",2,9,45,NA,"Bee visitors to apple crop flowers at 9 sampling locations within field were observed and categorized to guild level for 5 minutes after 10 minutes of active capture. At each point a 1m x 1m square of the canopy was observed",NA
"Leah_Blechschmidt_Malus_domestica_Canada_2018","11","Capture of visitors to crop flowers","Apis mellifera","species","honeybees",3,9,90,NA,"Bee visitors to apple crop flowers at 9 sampling locations within field were observed and categorized to guild level for 5 minutes after 10 minutes of active capture. At each point a 1m x 1m square of the canopy was observed",NA
"Leah_Blechschmidt_Malus_domestica_Canada_2019","11","Count of visitors to crop flowers","Apis mellifera","species","honeybees",90,9,45,NA,"Bee visitors to apple crop flowers at 9 sampling locations within field were observed and categorized to guild level for 5 minutes after 10 minutes of active capture. At each point a 1m x 1m square of the canopy was observed",NA
"Leah_Blechschmidt_Malus_domestica_Canada_2019","11","Count of visitors to crop flowers","All wild bumblebees","genus","bumblebees",2,9,45,NA,"Bee visitors to apple crop flowers at 9 sampling locations within field were observed and categorized to guild level for 5 minutes after 10 minutes of active capture. At each point a 1m x 1m square of the canopy was observed",NA
"Leah_Blechschmidt_Malus_domestica_Canada_2019","11","Count of visitors to crop flowers","All wild bees excluding honeybees and bumblebees","superfamily","other_wild_bees",4,9,45,NA,"Bee visitors to apple crop flowers at 9 sampling locations within field were observed and categorized to guild level for 5 minutes after 10 minutes of active capture. At each point a 1m x 1m square of the canopy was observed",NA
"Leah_Blechschmidt_Malus_domestica_Canada_2019","11","Count of visitors to crop flowers","All non-bee pollinators","order","syrphids",18,9,45,NA,"Bee visitors to apple crop flowers at 9 sampling locations within field were observed and categorized to guild level for 5 minutes after 10 minutes of active capture. At each point a 1m x 1m square of the canopy was observed","non-bee pollinators category would be primarily syrphids, but would also include other flies."
"Leah_Blechschmidt_Malus_domestica_Canada_2019","11","Capture of visitors to crop flowers","Andrena ceanothi","species","other_wild_bees",1,9,90,NA,"Bee visitors to apple crop flowers at 9 sampling locations within field were observed and categorized to guild level for 5 minutes after 10 minutes of active capture. At each point a 1m x 1m square of the canopy was observed",NA
"Leah_Blechschmidt_Malus_domestica_Canada_2019","11","Capture of visitors to crop flowers","Andrena imitatrix","species","other_wild_bees",1,9,90,NA,"Bee visitors to apple crop flowers at 9 sampling locations within field were observed and categorized to guild level for 5 minutes after 10 minutes of active capture. At each point a 1m x 1m square of the canopy was observed",NA
"Leah_Blechschmidt_Malus_domestica_Canada_2019","11","Capture of visitors to crop flowers","Andrena miranda","species","other_wild_bees",1,9,90,NA,"Bee visitors to apple crop flowers at 9 sampling locations within field were observed and categorized to guild level for 5 minutes after 10 minutes of active capture. At each point a 1m x 1m square of the canopy was observed",NA
"Leah_Blechschmidt_Malus_domestica_Canada_2019","11","Capture of visitors to crop flowers","Andrena vicina","species","other_wild_bees",1,9,90,NA,"Bee visitors to apple crop flowers at 9 sampling locations within field were observed and categorized to guild level for 5 minutes after 10 minutes of active capture. At each point a 1m x 1m square of the canopy was observed",NA
"Leah_Blechschmidt_Malus_domestica_Canada_2019","11","Capture of visitors to crop flowers","Apis mellifera","species","honeybees",34,9,90,NA,"Bee visitors to apple crop flowers at 9 sampling locations within field were observed and categorized to guild level for 5 minutes after 10 minutes of active capture. At each point a 1m x 1m square of the canopy was observed",NA
"Leah_Blechschmidt_Malus_domestica_Canada_2019","12","Count of visitors to crop flowers","Apis mellifera","species","honeybees",99,9,45,NA,"Bee visitors to apple crop flowers at 9 sampling locations within field were observed and categorized to guild level for 5 minutes after 10 minutes of active capture. At each point a 1m x 1m square of the canopy was observed",NA
"Leah_Blechschmidt_Malus_domestica_Canada_2019","12","Count of visitors to crop flowers","All wild bumblebees","genus","bumblebees",1,9,45,NA,"Bee visitors to apple crop flowers at 9 sampling locations within field were observed and categorized to guild level for 5 minutes after 10 minutes of active capture. At each point a 1m x 1m square of the canopy was observed",NA
"Leah_Blechschmidt_Malus_domestica_Canada_2019","12","Count of visitors to crop flowers","All wild bees excluding honeybees and bumblebees","superfamily","other_wild_bees",1,9,45,NA,"Bee visitors to apple crop flowers at 9 sampling locations within field were observed and categorized to guild level for 5 minutes after 10 minutes of active capture. At each point a 1m x 1m square of the canopy was observed",NA
"Leah_Blechschmidt_Malus_domestica_Canada_2019","12","Count of visitors to crop flowers","All non-bee pollinators","order","syrphids",19,9,45,NA,"Bee visitors to apple crop flowers at 9 sampling locations within field were observed and categorized to guild level for 5 minutes after 10 minutes of active capture. At each point a 1m x 1m square of the canopy was observed","non-bee pollinators category would be primarily syrphids, but would also include other flies."
"Leah_Blechschmidt_Malus_domestica_Canada_2019","12","Capture of visitors to crop flowers","Apis mellifera","species","honeybees",26,9,90,NA,"Bee visitors to apple crop flowers at 9 sampling locations within field were observed and categorized to guild level for 5 minutes after 10 minutes of active capture. At each point a 1m x 1m square of the canopy was observed",NA
"Leah_Blechschmidt_Malus_domestica_Canada_2018","13","Count of visitors to crop flowers","Apis mellifera","species","honeybees",57,9,45,NA,"Bee visitors to apple crop flowers at 9 sampling locations within field were observed and categorized to guild level for 5 minutes after 10 minutes of active capture. At each point a 1m x 1m square of the canopy was observed",NA
"Leah_Blechschmidt_Malus_domestica_Canada_2018","13","Count of visitors to crop flowers","All wild bumblebees","genus","bumblebees",3,9,45,NA,"Bee visitors to apple crop flowers at 9 sampling locations within field were observed and categorized to guild level for 5 minutes after 10 minutes of active capture. At each point a 1m x 1m square of the canopy was observed",NA
"Leah_Blechschmidt_Malus_domestica_Canada_2018","13","Count of visitors to crop flowers","All wild bees excluding honeybees and bumblebees","superfamily","other_wild_bees",12,9,45,NA,"Bee visitors to apple crop flowers at 9 sampling locations within field were observed and categorized to guild level for 5 minutes after 10 minutes of active capture. At each point a 1m x 1m square of the canopy was observed",NA
"Leah_Blechschmidt_Malus_domestica_Canada_2018","13","Capture of visitors to crop flowers","Andrena hippotes","species","other_wild_bees",1,9,90,NA,"Bee visitors to apple crop flowers at 9 sampling locations within field were observed and categorized to guild level for 5 minutes after 10 minutes of active capture. At each point a 1m x 1m square of the canopy was observed",NA
"Leah_Blechschmidt_Malus_domestica_Canada_2018","13","Capture of visitors to crop flowers","Andrena miserabilis","species","other_wild_bees",1,9,90,NA,"Bee visitors to apple crop flowers at 9 sampling locations within field were observed and categorized to guild level for 5 minutes after 10 minutes of active capture. At each point a 1m x 1m square of the canopy was observed",NA
"Leah_Blechschmidt_Malus_domestica_Canada_2018","13","Capture of visitors to crop flowers","Andrena nasonii","species","other_wild_bees",1,9,90,NA,"Bee visitors to apple crop flowers at 9 sampling locations within field were observed and categorized to guild level for 5 minutes after 10 minutes of active capture. At each point a 1m x 1m square of the canopy was observed",NA
"Leah_Blechschmidt_Malus_domestica_Canada_2018","13","Capture of visitors to crop flowers","Apis mellifera","species","honeybees",36,9,90,NA,"Bee visitors to apple crop flowers at 9 sampling locations within field were observed and categorized to guild level for 5 minutes after 10 minutes of active capture. At each point a 1m x 1m square of the canopy was observed",NA
"Leah_Blechschmidt_Malus_domestica_Canada_2019","13","Count of visitors to crop flowers","Apis mellifera","species","honeybees",4,9,45,NA,"Bee visitors to apple crop flowers at 9 sampling locations within field were observed and categorized to guild level for 5 minutes after 10 minutes of active capture. At each point a 1m x 1m square of the canopy was observed",NA
"Leah_Blechschmidt_Malus_domestica_Canada_2019","13","Count of visitors to crop flowers","All non-bee pollinators","order","syrphids",1,9,45,NA,"Bee visitors to apple crop flowers at 9 sampling locations within field were observed and categorized to guild level for 5 minutes after 10 minutes of active capture. At each point a 1m x 1m square of the canopy was observed","non-bee pollinators category would be primarily syrphids, but would also include other flies."
"Leah_Blechschmidt_Malus_domestica_Canada_2019","13","Capture of visitors to crop flowers","Apis mellifera","species","honeybees",1,9,90,NA,"Bee visitors to apple crop flowers at 9 sampling locations within field were observed and categorized to guild level for 5 minutes after 10 minutes of active capture. At each point a 1m x 1m square of the canopy was observed",NA
"Leah_Blechschmidt_Malus_domestica_Canada_2018","14","Count of visitors to crop flowers","Apis mellifera","species","honeybees",23,9,45,NA,"Bee visitors to apple crop flowers at 9 sampling locations within field were observed and categorized to guild level for 5 minutes after 10 minutes of active capture. At each point a 1m x 1m square of the canopy was observed",NA
"Leah_Blechschmidt_Malus_domestica_Canada_2018","14","Count of visitors to crop flowers","All wild bees excluding honeybees and bumblebees","superfamily","other_wild_bees",1,9,45,NA,"Bee visitors to apple crop flowers at 9 sampling locations within field were observed and categorized to guild level for 5 minutes after 10 minutes of active capture. At each point a 1m x 1m square of the canopy was observed",NA
"Leah_Blechschmidt_Malus_domestica_Canada_2018","14","Capture of visitors to crop flowers","Apis mellifera","species","honeybees",13,9,90,NA,"Bee visitors to apple crop flowers at 9 sampling locations within field were observed and categorized to guild level for 5 minutes after 10 minutes of active capture. At each point a 1m x 1m square of the canopy was observed",NA
"Leah_Blechschmidt_Malus_domestica_Canada_2019","14","Count of visitors to crop flowers","Apis mellifera","species","honeybees",9,9,45,NA,"Bee visitors to apple crop flowers at 9 sampling locations within field were observed and categorized to guild level for 5 minutes after 10 minutes of active capture. At each point a 1m x 1m square of the canopy was observed",NA
"Leah_Blechschmidt_Malus_domestica_Canada_2019","14","Count of visitors to crop flowers","All wild bees excluding honeybees and bumblebees","superfamily","other_wild_bees",2,9,45,NA,"Bee visitors to apple crop flowers at 9 sampling locations within field were observed and categorized to guild level for 5 minutes after 10 minutes of active capture. At each point a 1m x 1m square of the canopy was observed",NA
"Leah_Blechschmidt_Malus_domestica_Canada_2019","14","Count of visitors to crop flowers","All non-bee pollinators","order","syrphids",8,9,45,NA,"Bee visitors to apple crop flowers at 9 sampling locations within field were observed and categorized to guild level for 5 minutes after 10 minutes of active capture. At each point a 1m x 1m square of the canopy was observed","non-bee pollinators category would be primarily syrphids, but would also include other flies."
"Leah_Blechschmidt_Malus_domestica_Canada_2019","14","Capture of visitors to crop flowers","Andrena platyparia","species","other_wild_bees",1,9,90,NA,"Bee visitors to apple crop flowers at 9 sampling locations within field were observed and categorized to guild level for 5 minutes after 10 minutes of active capture. At each point a 1m x 1m square of the canopy was observed",NA
"Leah_Blechschmidt_Malus_domestica_Canada_2019","14","Capture of visitors to crop flowers","Apis mellifera","species","honeybees",6,9,90,NA,"Bee visitors to apple crop flowers at 9 sampling locations within field were observed and categorized to guild level for 5 minutes after 10 minutes of active capture. At each point a 1m x 1m square of the canopy was observed",NA
"Leah_Blechschmidt_Malus_domestica_Canada_2019","14","Capture of visitors to crop flowers","Bombus impatiens","species","bumblebees",1,9,90,NA,"Bee visitors to apple crop flowers at 9 sampling locations within field were observed and categorized to guild level for 5 minutes after 10 minutes of active capture. At each point a 1m x 1m square of the canopy was observed",NA
"Eeraerts_etal_Vaccinium_corymbosum_USA_2021","Harb","Net catches","Apis.mellifera","Species","honeybees",44,1200,120,NA,"4 transects sampled of 100 m long, 3 m wide. Each transect was sampled on the same day, 30 min per transect",NA
"Eeraerts_etal_Vaccinium_corymbosum_USA_2021","Harb","Net catches","Bombus.melanopygus","Species","bumblebees",2,1200,120,NA,"4 transects sampled of 100 m long, 3 m wide. Each transect was sampled on the same day, 30 min per transect",NA
"Eeraerts_etal_Vaccinium_corymbosum_USA_2021","Chuckanut","Net catches","Apis.mellifera","Species","honeybees",96,1200,120,NA,"4 transects sampled of 100 m long, 3 m wide. Each transect was sampled on the same day, 30 min per transect",NA
"Eeraerts_etal_Vaccinium_corymbosum_USA_2021","Chuckanut","Net catches","Bombus.bifarius","Species","bumblebees",1,1200,120,NA,"4 transects sampled of 100 m long, 3 m wide. Each transect was sampled on the same day, 30 min per transect",NA
"Eeraerts_etal_Vaccinium_corymbosum_USA_2021","Manny","Net catches","Apis.mellifera","Species","honeybees",56,1200,120,NA,"4 transects sampled of 100 m long, 3 m wide. Each transect was sampled on the same day, 30 min per transect",NA
"Eeraerts_etal_Vaccinium_corymbosum_USA_2021","Manny","Net catches","Bombus.flavifrons","Species","bumblebees",2,1200,120,NA,"4 transects sampled of 100 m long, 3 m wide. Each transect was sampled on the same day, 30 min per transect",NA
"Eeraerts_etal_Vaccinium_corymbosum_USA_2021","Manny","Net catches","Bombus.melanopygus","Species","bumblebees",5,1200,120,NA,"4 transects sampled of 100 m long, 3 m wide. Each transect was sampled on the same day, 30 min per transect",NA
"Eeraerts_etal_Vaccinium_corymbosum_USA_2021","Manny","Net catches","Bombus.mixtus","Species","bumblebees",3,1200,120,NA,"4 transects sampled of 100 m long, 3 m wide. Each transect was sampled on the same day, 30 min per transect",NA
"Eeraerts_etal_Vaccinium_corymbosum_USA_2021","Manny","Net catches","Bombus.sitkensis","Species","bumblebees",2,1200,120,NA,"4 transects sampled of 100 m long, 3 m wide. Each transect was sampled on the same day, 30 min per transect",NA
"Eeraerts_etal_Vaccinium_corymbosum_USA_2021","Manny","Net catches","Bombus.vosnesenskii","Species","bumblebees",1,1200,120,NA,"4 transects sampled of 100 m long, 3 m wide. Each transect was sampled on the same day, 30 min per transect",NA
"Eeraerts_etal_Vaccinium_corymbosum_USA_2021","Manny","Net catches","Andrena.andrena.sp1","Subgenus","other_wild_bees",1,1200,120,NA,"4 transects sampled of 100 m long, 3 m wide. Each transect was sampled on the same day, 30 min per transect",NA
"Eeraerts_etal_Vaccinium_corymbosum_USA_2021","MP.Woodland","Net catches","Apis.mellifera","Species","honeybees",84,1200,120,NA,"4 transects sampled of 100 m long, 3 m wide. Each transect was sampled on the same day, 30 min per transect",NA
"Eeraerts_etal_Vaccinium_corymbosum_USA_2021","MP.Sunrise","Net catches","Apis.mellifera","Species","honeybees",77,1200,120,NA,"4 transects sampled of 100 m long, 3 m wide. Each transect was sampled on the same day, 30 min per transect",NA
"Eeraerts_etal_Vaccinium_corymbosum_USA_2021","MP.Sunrise","Net catches","Bombus.mixtus","Species","bumblebees",1,1200,120,NA,"4 transects sampled of 100 m long, 3 m wide. Each transect was sampled on the same day, 30 min per transect",NA
"Eeraerts_etal_Vaccinium_corymbosum_USA_2021","MP.Sunrise","Net catches","Andrena.perplexa","Species","other_wild_bees",1,1200,120,NA,"4 transects sampled of 100 m long, 3 m wide. Each transect was sampled on the same day, 30 min per transect",NA
"Eeraerts_etal_Vaccinium_corymbosum_USA_2021","MP.Axling","Net catches","Apis.mellifera","Species","honeybees",55,1200,120,NA,"4 transects sampled of 100 m long, 3 m wide. Each transect was sampled on the same day, 30 min per transect",NA
"Eeraerts_etal_Vaccinium_corymbosum_USA_2021","MP.Axling","Net catches","Bombus.impatiens","Species","bumblebees",1,1200,120,NA,"4 transects sampled of 100 m long, 3 m wide. Each transect was sampled on the same day, 30 min per transect",NA
"Eeraerts_etal_Vaccinium_corymbosum_USA_2021","PTM.Glendale","Net catches","Apis.mellifera","Species","honeybees",60,1200,120,NA,"4 transects sampled of 100 m long, 3 m wide. Each transect was sampled on the same day, 30 min per transect",NA
"Eeraerts_etal_Vaccinium_corymbosum_USA_2021","PTM.Glendale","Net catches","Bombus.mixtus","Species","bumblebees",1,1200,120,NA,"4 transects sampled of 100 m long, 3 m wide. Each transect was sampled on the same day, 30 min per transect",NA
"Eeraerts_etal_Vaccinium_corymbosum_USA_2021","MP.Schilke","Net catches","Apis.mellifera","Species","honeybees",84,1200,120,NA,"4 transects sampled of 100 m long, 3 m wide. Each transect was sampled on the same day, 30 min per transect",NA
"Eeraerts_etal_Vaccinium_corymbosum_USA_2021","MP.TenMile","Net catches","Apis.mellifera","Species","honeybees",58,1200,120,NA,"4 transects sampled of 100 m long, 3 m wide. Each transect was sampled on the same day, 30 min per transect",NA
"Eeraerts_etal_Vaccinium_corymbosum_USA_2021","MP.TenMile","Net catches","Bombus.melanopygus","Species","bumblebees",2,1200,120,NA,"4 transects sampled of 100 m long, 3 m wide. Each transect was sampled on the same day, 30 min per transect",NA
"Eeraerts_etal_Vaccinium_corymbosum_USA_2021","MP.TenMile","Net catches","Bombus.mixtus","Species","bumblebees",2,1200,120,NA,"4 transects sampled of 100 m long, 3 m wide. Each transect was sampled on the same day, 30 min per transect",NA
"Eeraerts_etal_Vaccinium_corymbosum_USA_2021","MP.TenMile","Net catches","Bombus.occidentalis","Species","bumblebees",1,1200,120,NA,"4 transects sampled of 100 m long, 3 m wide. Each transect was sampled on the same day, 30 min per transect",NA
"Eeraerts_etal_Vaccinium_corymbosum_USA_2021","MP.TenMile","Net catches","Bombus.vosnesenskii","Species","bumblebees",1,1200,120,NA,"4 transects sampled of 100 m long, 3 m wide. Each transect was sampled on the same day, 30 min per transect",NA
"Eeraerts_etal_Vaccinium_corymbosum_USA_2021","MP.TenMile","Net catches","Andrena.scaphandrena.sp1","Subgenus","other_wild_bees",1,1200,120,NA,"4 transects sampled of 100 m long, 3 m wide. Each transect was sampled on the same day, 30 min per transect",NA
"Eeraerts_etal_Vaccinium_corymbosum_USA_2021","Harman","Net catches","Apis.mellifera","Species","honeybees",75,1200,120,NA,"4 transects sampled of 100 m long, 3 m wide. Each transect was sampled on the same day, 30 min per transect",NA
"Eeraerts_etal_Vaccinium_corymbosum_USA_2021","Harman","Net catches","Bombus.mixtus","Species","bumblebees",1,1200,120,NA,"4 transects sampled of 100 m long, 3 m wide. Each transect was sampled on the same day, 30 min per transect",NA
"Eeraerts_etal_Vaccinium_corymbosum_USA_2021","Harman","Net catches","Bombus.vosnesenskii","Species","bumblebees",1,1200,120,NA,"4 transects sampled of 100 m long, 3 m wide. Each transect was sampled on the same day, 30 min per transect",NA
"Eeraerts_etal_Vaccinium_corymbosum_USA_2021","Rob.Dhaliwal","Net catches","Apis.mellifera","Species","honeybees",91,1200,120,NA,"4 transects sampled of 100 m long, 3 m wide. Each transect was sampled on the same day, 30 min per transect",NA
"Eeraerts_etal_Vaccinium_corymbosum_USA_2021","Rob.Dhaliwal","Net catches","Bombus.mixtus","Species","bumblebees",1,1200,120,NA,"4 transects sampled of 100 m long, 3 m wide. Each transect was sampled on the same day, 30 min per transect",NA
"Eeraerts_etal_Vaccinium_corymbosum_USA_2021","Rob.Dhaliwal","Net catches","Bombus.rufocinctus","Species","bumblebees",1,1200,120,NA,"4 transects sampled of 100 m long, 3 m wide. Each transect was sampled on the same day, 30 min per transect",NA
"Eeraerts_etal_Vaccinium_corymbosum_USA_2021","Gill.Halverstick","Net catches","Apis.mellifera","Species","honeybees",114,1200,120,NA,"4 transects sampled of 100 m long, 3 m wide. Each transect was sampled on the same day, 30 min per transect",NA
"Eeraerts_etal_Vaccinium_corymbosum_USA_2021","South.Alder","Net catches","Apis.mellifera","Species","honeybees",71,1200,120,NA,"4 transects sampled of 100 m long, 3 m wide. Each transect was sampled on the same day, 30 min per transect",NA
"Eeraerts_etal_Vaccinium_corymbosum_USA_2021","MP.Stein","Net catches","Apis.mellifera","Species","honeybees",95,1200,120,NA,"4 transects sampled of 100 m long, 3 m wide. Each transect was sampled on the same day, 30 min per transect",NA
"Eeraerts_etal_Vaccinium_corymbosum_USA_2021","MP.Stein","Net catches","Bombus.melanopygus","Species","bumblebees",3,1200,120,NA,"4 transects sampled of 100 m long, 3 m wide. Each transect was sampled on the same day, 30 min per transect",NA
"Eeraerts_etal_Vaccinium_corymbosum_USA_2021","MP.Stein","Net catches","Andrena.andrena.sp1","Subgenus","other_wild_bees",1,1200,120,NA,"4 transects sampled of 100 m long, 3 m wide. Each transect was sampled on the same day, 30 min per transect",NA
"Eeraerts_etal_Vaccinium_corymbosum_USA_2021","MP.Stein","Net catches","Andrena.melandrena.sp1","Subgenus","other_wild_bees",4,1200,120,NA,"4 transects sampled of 100 m long, 3 m wide. Each transect was sampled on the same day, 30 min per transect",NA
"Eeraerts_etal_Vaccinium_corymbosum_USA_2021","Jag","Net catches","Apis.mellifera","Species","honeybees",67,1200,120,NA,"4 transects sampled of 100 m long, 3 m wide. Each transect was sampled on the same day, 30 min per transect",NA
"Eeraerts_etal_Vaccinium_corymbosum_USA_2021","Jag","Net catches","Bombus.mixtus","Species","bumblebees",2,1200,120,NA,"4 transects sampled of 100 m long, 3 m wide. Each transect was sampled on the same day, 30 min per transect",NA
"Eeraerts_etal_Vaccinium_corymbosum_USA_2021","Jag","Net catches","Bombus.sitkensis","Species","bumblebees",1,1200,120,NA,"4 transects sampled of 100 m long, 3 m wide. Each transect was sampled on the same day, 30 min per transect",NA
"Eeraerts_etal_Vaccinium_corymbosum_USA_2021","Jag","Net catches","Andrena.andrena.sp1","Subgenus","other_wild_bees",2,1200,120,NA,"4 transects sampled of 100 m long, 3 m wide. Each transect was sampled on the same day, 30 min per transect",NA
"Eeraerts_etal_Vaccinium_corymbosum_USA_2021","Jag","Net catches","Lasioglossum.sp1","Genus","other_wild_bees",2,1200,120,NA,"4 transects sampled of 100 m long, 3 m wide. Each transect was sampled on the same day, 30 min per transect",NA
"Eeraerts_etal_Vaccinium_corymbosum_USA_2021","Station.site","Net catches","Apis.mellifera","Species","honeybees",45,1200,120,NA,"4 transects sampled of 100 m long, 3 m wide. Each transect was sampled on the same day, 30 min per transect",NA
"Eeraerts_etal_Vaccinium_corymbosum_USA_2021","Station.site","Net catches","Bombus.melanopygus","Species","bumblebees",4,1200,120,NA,"4 transects sampled of 100 m long, 3 m wide. Each transect was sampled on the same day, 30 min per transect",NA
"Eeraerts_etal_Vaccinium_corymbosum_USA_2021","Station.site","Net catches","Bombus.mixtus","Species","bumblebees",2,1200,120,NA,"4 transects sampled of 100 m long, 3 m wide. Each transect was sampled on the same day, 30 min per transect",NA
"Eeraerts_etal_Vaccinium_corymbosum_USA_2021","Station.site","Net catches","Bombus.rufocinctus","Species","bumblebees",1,1200,120,NA,"4 transects sampled of 100 m long, 3 m wide. Each transect was sampled on the same day, 30 min per transect",NA
"Eeraerts_etal_sweetcherry_Belgium_2015","Eeraerts_etal_2017_1","Insect net, cathing from central observation plot (5 x 4 m2)","Apis.mellifera","species","honeybees",55,20,180,NA,"3 times 60 minutes during a single day per orchard during full bloom of sweet cherry",NA
"Eeraerts_etal_sweetcherry_Belgium_2015","Eeraerts_etal_2017_1","Insect net, cathing from central observation plot (5 x 4 m2)","Andrena.flavipes","species","other_wild_bees",1,20,180,NA,"3 times 60 minutes during a single day per orchard during full bloom of sweet cherry",NA
"Eeraerts_etal_sweetcherry_Belgium_2015","Eeraerts_etal_2017_1","Insect net, cathing from central observation plot (5 x 4 m2)","Anthophora.plumipes","species","other_wild_bees",1,20,180,NA,"3 times 60 minutes during a single day per orchard during full bloom of sweet cherry",NA
"Eeraerts_etal_sweetcherry_Belgium_2015","Eeraerts_etal_2017_1","Insect net, cathing from central observation plot (5 x 4 m2)","Bombus.terrestris.agg","morphospecies","bumblebees",2,20,180,NA,"3 times 60 minutes during a single day per orchard during full bloom of sweet cherry",NA
"Eeraerts_etal_sweetcherry_Belgium_2015","Eeraerts_etal_2017_1","Insect net, cathing from central observation plot (5 x 4 m2)","Osmia.cornuta","species","other_wild_bees",2,20,180,NA,"3 times 60 minutes during a single day per orchard during full bloom of sweet cherry",NA
"Eeraerts_etal_sweetcherry_Belgium_2015","Eeraerts_etal_2017_1","Insect net, cathing from central observation plot (5 x 4 m2)","Eristalis.tenax","species","syrphids",1,20,180,NA,"3 times 60 minutes during a single day per orchard during full bloom of sweet cherry",NA
"Eeraerts_etal_sweetcherry_Belgium_2015","Eeraerts_etal_2017_2","Insect net, cathing from central observation plot (5 x 4 m2)","Apis.mellifera","species","honeybees",57,20,180,NA,"3 times 60 minutes during a single day per orchard during full bloom of sweet cherry",NA
"Eeraerts_etal_sweetcherry_Belgium_2015","Eeraerts_etal_2017_2","Insect net, cathing from central observation plot (5 x 4 m2)","Andrena.fulva","species","other_wild_bees",1,20,180,NA,"3 times 60 minutes during a single day per orchard during full bloom of sweet cherry",NA
"Eeraerts_etal_sweetcherry_Belgium_2015","Eeraerts_etal_2017_2","Insect net, cathing from central observation plot (5 x 4 m2)","Bombus.terrestris.agg","morphospecies","bumblebees",1,20,180,NA,"3 times 60 minutes during a single day per orchard during full bloom of sweet cherry",NA
"Eeraerts_etal_sweetcherry_Belgium_2015","Eeraerts_etal_2017_2","Insect net, cathing from central observation plot (5 x 4 m2)","Osmia.cornuta","species","other_wild_bees",2,20,180,NA,"3 times 60 minutes during a single day per orchard during full bloom of sweet cherry",NA
"Eeraerts_etal_sweetcherry_Belgium_2015","Eeraerts_etal_2017_2","Insect net, cathing from central observation plot (5 x 4 m2)","Eristalis.tenax","species","syrphids",4,20,180,NA,"3 times 60 minutes during a single day per orchard during full bloom of sweet cherry",NA
"Eeraerts_etal_sweetcherry_Belgium_2015","Eeraerts_etal_2017_3","Insect net, cathing from central observation plot (5 x 4 m2)","Apis.mellifera","species","honeybees",24,20,180,NA,"3 times 60 minutes during a single day per orchard during full bloom of sweet cherry",NA
"Eeraerts_etal_sweetcherry_Belgium_2015","Eeraerts_etal_2017_3","Insect net, cathing from central observation plot (5 x 4 m2)","Bombus.lapidarius","species","bumblebees",1,20,180,NA,"3 times 60 minutes during a single day per orchard during full bloom of sweet cherry",NA
"Eeraerts_etal_sweetcherry_Belgium_2015","Eeraerts_etal_2017_3","Insect net, cathing from central observation plot (5 x 4 m2)","Bombus.terrestris.agg","morphospecies","bumblebees",3,20,180,NA,"3 times 60 minutes during a single day per orchard during full bloom of sweet cherry",NA
"Eeraerts_etal_sweetcherry_Belgium_2015","Eeraerts_etal_2017_3","Insect net, cathing from central observation plot (5 x 4 m2)","Eristalis.tenax","species","syrphids",3,20,180,NA,"3 times 60 minutes during a single day per orchard during full bloom of sweet cherry",NA
"Eeraerts_etal_sweetcherry_Belgium_2015","Eeraerts_etal_2017_4","Insect net, cathing from central observation plot (5 x 4 m2)","Apis.mellifera","species","honeybees",12,20,180,NA,"3 times 60 minutes during a single day per orchard during full bloom of sweet cherry",NA
"Eeraerts_etal_sweetcherry_Belgium_2015","Eeraerts_etal_2017_4","Insect net, cathing from central observation plot (5 x 4 m2)","Andrena.carantonica","species","other_wild_bees",4,20,180,NA,"3 times 60 minutes during a single day per orchard during full bloom of sweet cherry",NA
"Eeraerts_etal_sweetcherry_Belgium_2015","Eeraerts_etal_2017_4","Insect net, cathing from central observation plot (5 x 4 m2)","Andrena.haemorrhoa","species","other_wild_bees",13,20,180,NA,"3 times 60 minutes during a single day per orchard during full bloom of sweet cherry",NA
"Eeraerts_etal_sweetcherry_Belgium_2015","Eeraerts_etal_2017_4","Insect net, cathing from central observation plot (5 x 4 m2)","Andrena.fulva","species","other_wild_bees",2,20,180,NA,"3 times 60 minutes during a single day per orchard during full bloom of sweet cherry",NA
"Eeraerts_etal_sweetcherry_Belgium_2015","Eeraerts_etal_2017_4","Insect net, cathing from central observation plot (5 x 4 m2)","Bombus.lapidarius","species","bumblebees",1,20,180,NA,"3 times 60 minutes during a single day per orchard during full bloom of sweet cherry",NA
"Eeraerts_etal_sweetcherry_Belgium_2015","Eeraerts_etal_2017_4","Insect net, cathing from central observation plot (5 x 4 m2)","Bombus.pascuorum","species","bumblebees",1,20,180,NA,"3 times 60 minutes during a single day per orchard during full bloom of sweet cherry",NA
"Eeraerts_etal_sweetcherry_Belgium_2015","Eeraerts_etal_2017_4","Insect net, cathing from central observation plot (5 x 4 m2)","Bombus.terrestris.agg","morphospecies","bumblebees",2,20,180,NA,"3 times 60 minutes during a single day per orchard during full bloom of sweet cherry",NA
"Eeraerts_etal_sweetcherry_Belgium_2015","Eeraerts_etal_2017_4","Insect net, cathing from central observation plot (5 x 4 m2)","Eristalis.tenax","species","syrphids",8,20,180,NA,"3 times 60 minutes during a single day per orchard during full bloom of sweet cherry",NA
"Eeraerts_etal_sweetcherry_Belgium_2015","Eeraerts_etal_2017_4","Insect net, cathing from central observation plot (5 x 4 m2)","Rhingia.campestris","species","syrphids",2,20,180,NA,"3 times 60 minutes during a single day per orchard during full bloom of sweet cherry",NA
"Eeraerts_etal_sweetcherry_Belgium_2015","Eeraerts_etal_2017_4","Insect net, cathing from central observation plot (5 x 4 m2)","Syrphus.ribesii","species","syrphids",1,20,180,NA,"3 times 60 minutes during a single day per orchard during full bloom of sweet cherry",NA
"Eeraerts_etal_sweetcherry_Belgium_2015","Eeraerts_etal_2017_5","Insect net, cathing from central observation plot (5 x 4 m2)","Apis.mellifera","species","honeybees",29,20,180,NA,"3 times 60 minutes during a single day per orchard during full bloom of sweet cherry",NA
"Eeraerts_etal_sweetcherry_Belgium_2015","Eeraerts_etal_2017_5","Insect net, cathing from central observation plot (5 x 4 m2)","Andrena.fulva","species","other_wild_bees",2,20,180,NA,"3 times 60 minutes during a single day per orchard during full bloom of sweet cherry",NA
"Eeraerts_etal_sweetcherry_Belgium_2015","Eeraerts_etal_2017_5","Insect net, cathing from central observation plot (5 x 4 m2)","Andrena.haemorrhoa","species","other_wild_bees",3,20,180,NA,"3 times 60 minutes during a single day per orchard during full bloom of sweet cherry",NA
"Eeraerts_etal_sweetcherry_Belgium_2015","Eeraerts_etal_2017_5","Insect net, cathing from central observation plot (5 x 4 m2)","Bombus.lapidarius","species","bumblebees",3,20,180,NA,"3 times 60 minutes during a single day per orchard during full bloom of sweet cherry",NA
"Eeraerts_etal_sweetcherry_Belgium_2015","Eeraerts_etal_2017_5","Insect net, cathing from central observation plot (5 x 4 m2)","Bombus.pascuorum","species","bumblebees",2,20,180,NA,"3 times 60 minutes during a single day per orchard during full bloom of sweet cherry",NA
"Eeraerts_etal_sweetcherry_Belgium_2015","Eeraerts_etal_2017_5","Insect net, cathing from central observation plot (5 x 4 m2)","Bombus.terrestris.agg","morphospecies","bumblebees",8,20,180,NA,"3 times 60 minutes during a single day per orchard during full bloom of sweet cherry",NA
"Eeraerts_etal_sweetcherry_Belgium_2015","Eeraerts_etal_2017_5","Insect net, cathing from central observation plot (5 x 4 m2)","Osmia.cornuta","species","other_wild_bees",1,20,180,NA,"3 times 60 minutes during a single day per orchard during full bloom of sweet cherry",NA
"Eeraerts_etal_sweetcherry_Belgium_2015","Eeraerts_etal_2017_5","Insect net, cathing from central observation plot (5 x 4 m2)","Eristalis.tenax","species","syrphids",3,20,180,NA,"3 times 60 minutes during a single day per orchard during full bloom of sweet cherry",NA
"Eeraerts_etal_sweetcherry_Belgium_2015","Eeraerts_etal_2017_5","Insect net, cathing from central observation plot (5 x 4 m2)","Rhingia.campestris","species","syrphids",1,20,180,NA,"3 times 60 minutes during a single day per orchard during full bloom of sweet cherry",NA
"Eeraerts_etal_sweetcherry_Belgium_2015","Eeraerts_etal_2017_6","Insect net, cathing from central observation plot (5 x 4 m2)","Apis.mellifera","species","honeybees",48,20,180,NA,"3 times 60 minutes during a single day per orchard during full bloom of sweet cherry",NA
"Eeraerts_etal_sweetcherry_Belgium_2015","Eeraerts_etal_2017_6","Insect net, cathing from central observation plot (5 x 4 m2)","Bombus.terrestris.agg","morphospecies","bumblebees",3,20,180,NA,"3 times 60 minutes during a single day per orchard during full bloom of sweet cherry",NA
"Eeraerts_etal_sweetcherry_Belgium_2015","Eeraerts_etal_2017_7","Insect net, cathing from central observation plot (5 x 4 m2)","Apis.mellifera","species","honeybees",24,20,180,NA,"3 times 60 minutes during a single day per orchard during full bloom of sweet cherry",NA
"Eeraerts_etal_sweetcherry_Belgium_2015","Eeraerts_etal_2017_7","Insect net, cathing from central observation plot (5 x 4 m2)","Bombus.lapidarius","species","bumblebees",4,20,180,NA,"3 times 60 minutes during a single day per orchard during full bloom of sweet cherry",NA
"Eeraerts_etal_sweetcherry_Belgium_2015","Eeraerts_etal_2017_7","Insect net, cathing from central observation plot (5 x 4 m2)","Bombus.pascuorum","species","bumblebees",1,20,180,NA,"3 times 60 minutes during a single day per orchard during full bloom of sweet cherry",NA
"Eeraerts_etal_sweetcherry_Belgium_2015","Eeraerts_etal_2017_7","Insect net, cathing from central observation plot (5 x 4 m2)","Bombus.pratorum","species","bumblebees",1,20,180,NA,"3 times 60 minutes during a single day per orchard during full bloom of sweet cherry",NA
"Eeraerts_etal_sweetcherry_Belgium_2015","Eeraerts_etal_2017_7","Insect net, cathing from central observation plot (5 x 4 m2)","Bombus.terrestris.agg","morphospecies","bumblebees",7,20,180,NA,"3 times 60 minutes during a single day per orchard during full bloom of sweet cherry",NA
"Eeraerts_etal_sweetcherry_Belgium_2015","Eeraerts_etal_2017_7","Insect net, cathing from central observation plot (5 x 4 m2)","Osmia.cornuta","species","other_wild_bees",1,20,180,NA,"3 times 60 minutes during a single day per orchard during full bloom of sweet cherry",NA
"Eeraerts_etal_sweetcherry_Belgium_2016","Eeraerts_etal_2019_1","Insect net, cathing from three  observation plot (5 x 4 m2)","Apis.mellifera","species","honeybees",37,60,225,NA,"3 times 75 minutes (3 times 25 min per plot) during a single day per orchard during full bloom of sweet cherry",NA
"Eeraerts_etal_sweetcherry_Belgium_2016","Eeraerts_etal_2019_1","Insect net, cathing from three  observation plot (5 x 4 m2)","Andrena.fulva","species","other_wild_bees",1,60,225,NA,"3 times 75 minutes (3 times 25 min per plot) during a single day per orchard during full bloom of sweet cherry",NA
"Eeraerts_etal_sweetcherry_Belgium_2016","Eeraerts_etal_2019_1","Insect net, cathing from three  observation plot (5 x 4 m2)","Andrena.haemorrhoa","species","other_wild_bees",1,60,225,NA,"3 times 75 minutes (3 times 25 min per plot) during a single day per orchard during full bloom of sweet cherry",NA
"Eeraerts_etal_sweetcherry_Belgium_2016","Eeraerts_etal_2019_1","Insect net, cathing from three  observation plot (5 x 4 m2)","Bombus.lapidarius","species","bumblebees",1,60,225,NA,"3 times 75 minutes (3 times 25 min per plot) during a single day per orchard during full bloom of sweet cherry",NA
"Eeraerts_etal_sweetcherry_Belgium_2016","Eeraerts_etal_2019_1","Insect net, cathing from three  observation plot (5 x 4 m2)","Bombus.pratorum","species","bumblebees",1,60,225,NA,"3 times 75 minutes (3 times 25 min per plot) during a single day per orchard during full bloom of sweet cherry",NA
"Eeraerts_etal_sweetcherry_Belgium_2016","Eeraerts_etal_2019_1","Insect net, cathing from three  observation plot (5 x 4 m2)","Bombus.terrestris.agg","morphospecies","bumblebees",3,60,225,NA,"3 times 75 minutes (3 times 25 min per plot) during a single day per orchard during full bloom of sweet cherry",NA
"Eeraerts_etal_sweetcherry_Belgium_2016","Eeraerts_etal_2019_1","Insect net, cathing from three  observation plot (5 x 4 m2)","Osmia.cornuta","species","other_wild_bees",1,60,225,NA,"3 times 75 minutes (3 times 25 min per plot) during a single day per orchard during full bloom of sweet cherry",NA
"Eeraerts_etal_sweetcherry_Belgium_2016","Eeraerts_etal_2019_1","Insect net, cathing from three  observation plot (5 x 4 m2)","Eristalis.pertinax","species","syrphids",1,60,225,NA,"3 times 75 minutes (3 times 25 min per plot) during a single day per orchard during full bloom of sweet cherry",NA
"Eeraerts_etal_sweetcherry_Belgium_2016","Eeraerts_etal_2019_1","Insect net, cathing from three  observation plot (5 x 4 m2)","Portevinia.maculata","species","syrphids",1,60,225,NA,"3 times 75 minutes (3 times 25 min per plot) during a single day per orchard during full bloom of sweet cherry",NA
"Eeraerts_etal_sweetcherry_Belgium_2016","Eeraerts_etal_2019_2","Insect net, cathing from three  observation plot (5 x 4 m2)","Apis.mellifera","species","honeybees",105,60,225,NA,"3 times 75 minutes (3 times 25 min per plot) during a single day per orchard during full bloom of sweet cherry",NA
"Eeraerts_etal_sweetcherry_Belgium_2016","Eeraerts_etal_2019_2","Insect net, cathing from three  observation plot (5 x 4 m2)","Bombus.hortorum","species","bumblebees",1,60,225,NA,"3 times 75 minutes (3 times 25 min per plot) during a single day per orchard during full bloom of sweet cherry",NA
"Eeraerts_etal_sweetcherry_Belgium_2016","Eeraerts_etal_2019_2","Insect net, cathing from three  observation plot (5 x 4 m2)","Bombus.terrestris.agg","morphospecies","bumblebees",1,60,225,NA,"3 times 75 minutes (3 times 25 min per plot) during a single day per orchard during full bloom of sweet cherry",NA
"Eeraerts_etal_sweetcherry_Belgium_2016","Eeraerts_etal_2019_2","Insect net, cathing from three  observation plot (5 x 4 m2)","Eupeodes.luniger","species","syrphids",1,60,225,NA,"3 times 75 minutes (3 times 25 min per plot) during a single day per orchard during full bloom of sweet cherry",NA
"Eeraerts_etal_sweetcherry_Belgium_2016","Eeraerts_etal_2019_3","Insect net, cathing from three  observation plot (5 x 4 m2)","Apis.mellifera","species","honeybees",27,60,225,NA,"3 times 75 minutes (3 times 25 min per plot) during a single day per orchard during full bloom of sweet cherry",NA
"Eeraerts_etal_sweetcherry_Belgium_2016","Eeraerts_etal_2019_3","Insect net, cathing from three  observation plot (5 x 4 m2)","Andrena.bicolor","species","other_wild_bees",1,60,225,NA,"3 times 75 minutes (3 times 25 min per plot) during a single day per orchard during full bloom of sweet cherry",NA
"Eeraerts_etal_sweetcherry_Belgium_2016","Eeraerts_etal_2019_3","Insect net, cathing from three  observation plot (5 x 4 m2)","Andrena.fulva","species","other_wild_bees",2,60,225,NA,"3 times 75 minutes (3 times 25 min per plot) during a single day per orchard during full bloom of sweet cherry",NA
"Eeraerts_etal_sweetcherry_Belgium_2016","Eeraerts_etal_2019_3","Insect net, cathing from three  observation plot (5 x 4 m2)","Andrena.haemorrhoa","species","other_wild_bees",3,60,225,NA,"3 times 75 minutes (3 times 25 min per plot) during a single day per orchard during full bloom of sweet cherry",NA
"Eeraerts_etal_sweetcherry_Belgium_2016","Eeraerts_etal_2019_3","Insect net, cathing from three  observation plot (5 x 4 m2)","Bombus.lapidarius","species","bumblebees",3,60,225,NA,"3 times 75 minutes (3 times 25 min per plot) during a single day per orchard during full bloom of sweet cherry",NA
"Eeraerts_etal_sweetcherry_Belgium_2016","Eeraerts_etal_2019_3","Insect net, cathing from three  observation plot (5 x 4 m2)","Bombus.pascuorum","species","bumblebees",1,60,225,NA,"3 times 75 minutes (3 times 25 min per plot) during a single day per orchard during full bloom of sweet cherry",NA
"Eeraerts_etal_sweetcherry_Belgium_2016","Eeraerts_etal_2019_3","Insect net, cathing from three  observation plot (5 x 4 m2)","Bombus.terrestris.agg","morphospecies","bumblebees",11,60,225,NA,"3 times 75 minutes (3 times 25 min per plot) during a single day per orchard during full bloom of sweet cherry",NA
"Eeraerts_etal_sweetcherry_Belgium_2016","Eeraerts_etal_2019_3","Insect net, cathing from three  observation plot (5 x 4 m2)","Osmia.bicornis","species","other_wild_bees",1,60,225,NA,"3 times 75 minutes (3 times 25 min per plot) during a single day per orchard during full bloom of sweet cherry",NA
"Eeraerts_etal_sweetcherry_Belgium_2016","Eeraerts_etal_2019_3","Insect net, cathing from three  observation plot (5 x 4 m2)","Eristalis.pertinax","species","syrphids",2,60,225,NA,"3 times 75 minutes (3 times 25 min per plot) during a single day per orchard during full bloom of sweet cherry",NA
"Eeraerts_etal_sweetcherry_Belgium_2016","Eeraerts_etal_2019_3","Insect net, cathing from three  observation plot (5 x 4 m2)","Eristalis.tenax","species","syrphids",3,60,225,NA,"3 times 75 minutes (3 times 25 min per plot) during a single day per orchard during full bloom of sweet cherry",NA
"Eeraerts_etal_sweetcherry_Belgium_2016","Eeraerts_etal_2019_4","Insect net, cathing from three  observation plot (5 x 4 m2)","Apis.mellifera","species","honeybees",105,60,225,NA,"3 times 75 minutes (3 times 25 min per plot) during a single day per orchard during full bloom of sweet cherry",NA
"Eeraerts_etal_sweetcherry_Belgium_2016","Eeraerts_etal_2019_4","Insect net, cathing from three  observation plot (5 x 4 m2)","Bombus.lapidarius","species","bumblebees",1,60,225,NA,"3 times 75 minutes (3 times 25 min per plot) during a single day per orchard during full bloom of sweet cherry",NA
"Eeraerts_etal_sweetcherry_Belgium_2016","Eeraerts_etal_2019_4","Insect net, cathing from three  observation plot (5 x 4 m2)","Bombus.terrestris.agg","morphospecies","bumblebees",4,60,225,NA,"3 times 75 minutes (3 times 25 min per plot) during a single day per orchard during full bloom of sweet cherry",NA
"Eeraerts_etal_sweetcherry_Belgium_2016","Eeraerts_etal_2019_5","Insect net, cathing from three  observation plot (5 x 4 m2)","Apis.mellifera","species","honeybees",34,60,225,NA,"3 times 75 minutes (3 times 25 min per plot) during a single day per orchard during full bloom of sweet cherry",NA
"Eeraerts_etal_sweetcherry_Belgium_2016","Eeraerts_etal_2019_5","Insect net, cathing from three  observation plot (5 x 4 m2)","Andrena.bicolor","species","other_wild_bees",2,60,225,NA,"3 times 75 minutes (3 times 25 min per plot) during a single day per orchard during full bloom of sweet cherry",NA
"Eeraerts_etal_sweetcherry_Belgium_2016","Eeraerts_etal_2019_5","Insect net, cathing from three  observation plot (5 x 4 m2)","Andrena.dorsata","species","other_wild_bees",1,60,225,NA,"3 times 75 minutes (3 times 25 min per plot) during a single day per orchard during full bloom of sweet cherry",NA
"Eeraerts_etal_sweetcherry_Belgium_2016","Eeraerts_etal_2019_5","Insect net, cathing from three  observation plot (5 x 4 m2)","Andrena.flavipes","species","other_wild_bees",2,60,225,NA,"3 times 75 minutes (3 times 25 min per plot) during a single day per orchard during full bloom of sweet cherry",NA
"Eeraerts_etal_sweetcherry_Belgium_2016","Eeraerts_etal_2019_5","Insect net, cathing from three  observation plot (5 x 4 m2)","Bombus.lapidarius","species","bumblebees",3,60,225,NA,"3 times 75 minutes (3 times 25 min per plot) during a single day per orchard during full bloom of sweet cherry",NA
"Eeraerts_etal_sweetcherry_Belgium_2016","Eeraerts_etal_2019_5","Insect net, cathing from three  observation plot (5 x 4 m2)","Bombus.terrestris.agg","morphospecies","bumblebees",2,60,225,NA,"3 times 75 minutes (3 times 25 min per plot) during a single day per orchard during full bloom of sweet cherry",NA
"Eeraerts_etal_sweetcherry_Belgium_2016","Eeraerts_etal_2019_5","Insect net, cathing from three  observation plot (5 x 4 m2)","Eristalis.arbustorum","species","syrphids",1,60,225,NA,"3 times 75 minutes (3 times 25 min per plot) during a single day per orchard during full bloom of sweet cherry",NA
"Eeraerts_etal_sweetcherry_Belgium_2016","Eeraerts_etal_2019_5","Insect net, cathing from three  observation plot (5 x 4 m2)","Eristalis.pertinax","species","syrphids",8,60,225,NA,"3 times 75 minutes (3 times 25 min per plot) during a single day per orchard during full bloom of sweet cherry",NA
"Eeraerts_etal_sweetcherry_Belgium_2016","Eeraerts_etal_2019_5","Insect net, cathing from three  observation plot (5 x 4 m2)","Eristalis.tenax","species","syrphids",1,60,225,NA,"3 times 75 minutes (3 times 25 min per plot) during a single day per orchard during full bloom of sweet cherry",NA
"Eeraerts_etal_sweetcherry_Belgium_2016","Eeraerts_etal_2019_5","Insect net, cathing from three  observation plot (5 x 4 m2)","Rhingia.campestris","species","syrphids",2,60,225,NA,"3 times 75 minutes (3 times 25 min per plot) during a single day per orchard during full bloom of sweet cherry",NA
"Eeraerts_etal_sweetcherry_Belgium_2016","Eeraerts_etal_2019_6","Insect net, cathing from three  observation plot (5 x 4 m2)","Apis.mellifera","species","honeybees",68,60,225,NA,"3 times 75 minutes (3 times 25 min per plot) during a single day per orchard during full bloom of sweet cherry",NA
"Eeraerts_etal_sweetcherry_Belgium_2016","Eeraerts_etal_2019_6","Insect net, cathing from three  observation plot (5 x 4 m2)","Bombus.lapidarius","species","bumblebees",1,60,225,NA,"3 times 75 minutes (3 times 25 min per plot) during a single day per orchard during full bloom of sweet cherry",NA
"Eeraerts_etal_sweetcherry_Belgium_2016","Eeraerts_etal_2019_6","Insect net, cathing from three  observation plot (5 x 4 m2)","Bombus.terrestris.agg","morphospecies","bumblebees",3,60,225,NA,"3 times 75 minutes (3 times 25 min per plot) during a single day per orchard during full bloom of sweet cherry",NA
"Eeraerts_etal_sweetcherry_Belgium_2016","Eeraerts_etal_2019_6","Insect net, cathing from three  observation plot (5 x 4 m2)","Osmia.cornuta","species","other_wild_bees",1,60,225,NA,"3 times 75 minutes (3 times 25 min per plot) during a single day per orchard during full bloom of sweet cherry",NA
"Eeraerts_etal_sweetcherry_Belgium_2016","Eeraerts_etal_2019_7","Insect net, cathing from three  observation plot (5 x 4 m2)","Apis.mellifera","species","honeybees",26,60,225,NA,"3 times 75 minutes (3 times 25 min per plot) during a single day per orchard during full bloom of sweet cherry",NA
"Eeraerts_etal_sweetcherry_Belgium_2016","Eeraerts_etal_2019_7","Insect net, cathing from three  observation plot (5 x 4 m2)","Andrena.carantonica","species","other_wild_bees",3,60,225,NA,"3 times 75 minutes (3 times 25 min per plot) during a single day per orchard during full bloom of sweet cherry",NA
"Eeraerts_etal_sweetcherry_Belgium_2016","Eeraerts_etal_2019_7","Insect net, cathing from three  observation plot (5 x 4 m2)","Andrena.minutula","species","other_wild_bees",1,60,225,NA,"3 times 75 minutes (3 times 25 min per plot) during a single day per orchard during full bloom of sweet cherry",NA
"Eeraerts_etal_sweetcherry_Belgium_2016","Eeraerts_etal_2019_7","Insect net, cathing from three  observation plot (5 x 4 m2)","Bombus.lapidarius","species","bumblebees",3,60,225,NA,"3 times 75 minutes (3 times 25 min per plot) during a single day per orchard during full bloom of sweet cherry",NA
"Eeraerts_etal_sweetcherry_Belgium_2016","Eeraerts_etal_2019_7","Insect net, cathing from three  observation plot (5 x 4 m2)","Bombus.terrestris.agg","morphospecies","bumblebees",5,60,225,NA,"3 times 75 minutes (3 times 25 min per plot) during a single day per orchard during full bloom of sweet cherry",NA
"Eeraerts_etal_sweetcherry_Belgium_2016","Eeraerts_etal_2019_7","Insect net, cathing from three  observation plot (5 x 4 m2)","Eristalis.tenax","species","syrphids",1,60,225,NA,"3 times 75 minutes (3 times 25 min per plot) during a single day per orchard during full bloom of sweet cherry",NA
"Eeraerts_etal_sweetcherry_Belgium_2016","Eeraerts_etal_2019_8","Insect net, cathing from three  observation plot (5 x 4 m2)","Apis.mellifera","species","honeybees",30,60,225,NA,"3 times 75 minutes (3 times 25 min per plot) during a single day per orchard during full bloom of sweet cherry",NA
"Eeraerts_etal_sweetcherry_Belgium_2016","Eeraerts_etal_2019_8","Insect net, cathing from three  observation plot (5 x 4 m2)","Andrena.carantonica","species","other_wild_bees",1,60,225,NA,"3 times 75 minutes (3 times 25 min per plot) during a single day per orchard during full bloom of sweet cherry",NA
"Eeraerts_etal_sweetcherry_Belgium_2016","Eeraerts_etal_2019_8","Insect net, cathing from three  observation plot (5 x 4 m2)","Bombus.pratorum","species","bumblebees",1,60,225,NA,"3 times 75 minutes (3 times 25 min per plot) during a single day per orchard during full bloom of sweet cherry",NA
"Eeraerts_etal_sweetcherry_Belgium_2016","Eeraerts_etal_2019_8","Insect net, cathing from three  observation plot (5 x 4 m2)","Lasioglossum.calceatum","species","other_wild_bees",1,60,225,NA,"3 times 75 minutes (3 times 25 min per plot) during a single day per orchard during full bloom of sweet cherry",NA
"Eeraerts_etal_sweetcherry_Belgium_2016","Eeraerts_etal_2019_8","Insect net, cathing from three  observation plot (5 x 4 m2)","Eristalis.tenax","species","syrphids",1,60,225,NA,"3 times 75 minutes (3 times 25 min per plot) during a single day per orchard during full bloom of sweet cherry",NA
"Eeraerts_etal_sweetcherry_Belgium_2016","Eeraerts_etal_2019_9","Insect net, cathing from three  observation plot (5 x 4 m2)","Apis.mellifera","species","honeybees",36,60,225,NA,"3 times 75 minutes (3 times 25 min per plot) during a single day per orchard during full bloom of sweet cherry",NA
"Eeraerts_etal_sweetcherry_Belgium_2016","Eeraerts_etal_2019_9","Insect net, cathing from three  observation plot (5 x 4 m2)","Andrena.carantonica","species","other_wild_bees",1,60,225,NA,"3 times 75 minutes (3 times 25 min per plot) during a single day per orchard during full bloom of sweet cherry",NA
"Eeraerts_etal_sweetcherry_Belgium_2016","Eeraerts_etal_2019_9","Insect net, cathing from three  observation plot (5 x 4 m2)","Andrena.fulva","species","other_wild_bees",1,60,225,NA,"3 times 75 minutes (3 times 25 min per plot) during a single day per orchard during full bloom of sweet cherry",NA
"Eeraerts_etal_sweetcherry_Belgium_2016","Eeraerts_etal_2019_9","Insect net, cathing from three  observation plot (5 x 4 m2)","Andrena.helvola","species","other_wild_bees",1,60,225,NA,"3 times 75 minutes (3 times 25 min per plot) during a single day per orchard during full bloom of sweet cherry",NA
"Eeraerts_etal_sweetcherry_Belgium_2016","Eeraerts_etal_2019_9","Insect net, cathing from three  observation plot (5 x 4 m2)","Bombus.lapidarius","species","bumblebees",2,60,225,NA,"3 times 75 minutes (3 times 25 min per plot) during a single day per orchard during full bloom of sweet cherry",NA
"Eeraerts_etal_sweetcherry_Belgium_2016","Eeraerts_etal_2019_9","Insect net, cathing from three  observation plot (5 x 4 m2)","Bombus.pratorum","species","bumblebees",2,60,225,NA,"3 times 75 minutes (3 times 25 min per plot) during a single day per orchard during full bloom of sweet cherry",NA
"Eeraerts_etal_sweetcherry_Belgium_2016","Eeraerts_etal_2019_9","Insect net, cathing from three  observation plot (5 x 4 m2)","Bombus.terrestris.agg","morphospecies","bumblebees",4,60,225,NA,"3 times 75 minutes (3 times 25 min per plot) during a single day per orchard during full bloom of sweet cherry",NA
"Eeraerts_etal_sweetcherry_Belgium_2016","Eeraerts_etal_2019_9","Insect net, cathing from three  observation plot (5 x 4 m2)","Lasioglossum.calceatum","species","other_wild_bees",2,60,225,NA,"3 times 75 minutes (3 times 25 min per plot) during a single day per orchard during full bloom of sweet cherry",NA
"Eeraerts_etal_sweetcherry_Belgium_2016","Eeraerts_etal_2019_9","Insect net, cathing from three  observation plot (5 x 4 m2)","Osmia.bicornis","species","other_wild_bees",1,60,225,NA,"3 times 75 minutes (3 times 25 min per plot) during a single day per orchard during full bloom of sweet cherry",NA
"Eeraerts_etal_sweetcherry_Belgium_2016","Eeraerts_etal_2019_9","Insect net, cathing from three  observation plot (5 x 4 m2)","Osmia.cornuta","species","other_wild_bees",1,60,225,NA,"3 times 75 minutes (3 times 25 min per plot) during a single day per orchard during full bloom of sweet cherry",NA
"Eeraerts_etal_sweetcherry_Belgium_2016","Eeraerts_etal_2019_9","Insect net, cathing from three  observation plot (5 x 4 m2)","Eristalis.pertinax","species","syrphids",1,60,225,NA,"3 times 75 minutes (3 times 25 min per plot) during a single day per orchard during full bloom of sweet cherry",NA
"Eeraerts_etal_sweetcherry_Belgium_2016","Eeraerts_etal_2019_10","Insect net, cathing from three  observation plot (5 x 4 m2)","Apis.mellifera","species","honeybees",51,60,225,NA,"3 times 75 minutes (3 times 25 min per plot) during a single day per orchard during full bloom of sweet cherry",NA
"Eeraerts_etal_sweetcherry_Belgium_2016","Eeraerts_etal_2019_10","Insect net, cathing from three  observation plot (5 x 4 m2)","Bombus.lapidarius","species","bumblebees",2,60,225,NA,"3 times 75 minutes (3 times 25 min per plot) during a single day per orchard during full bloom of sweet cherry",NA
"Eeraerts_etal_sweetcherry_Belgium_2017","Eeraerts_etal_2019_11","Insect net, cathing from three  observation plot (5 x 4 m2)","Apis.mellifera","species","honeybees",47,60,225,NA,"3 times 75 minutes (3 times 25 min per plot) during a single day per orchard during full bloom of sweet cherry",NA
"Eeraerts_etal_sweetcherry_Belgium_2017","Eeraerts_etal_2019_11","Insect net, cathing from three  observation plot (5 x 4 m2)","Andrena.cineraria","species","other_wild_bees",1,60,225,NA,"3 times 75 minutes (3 times 25 min per plot) during a single day per orchard during full bloom of sweet cherry",NA
"Eeraerts_etal_sweetcherry_Belgium_2017","Eeraerts_etal_2019_11","Insect net, cathing from three  observation plot (5 x 4 m2)","Bombus.lapidarius","species","bumblebees",2,60,225,NA,"3 times 75 minutes (3 times 25 min per plot) during a single day per orchard during full bloom of sweet cherry",NA
"Eeraerts_etal_sweetcherry_Belgium_2017","Eeraerts_etal_2019_11","Insect net, cathing from three  observation plot (5 x 4 m2)","Bombus.pascuorum","species","bumblebees",1,60,225,NA,"3 times 75 minutes (3 times 25 min per plot) during a single day per orchard during full bloom of sweet cherry",NA
"Eeraerts_etal_sweetcherry_Belgium_2017","Eeraerts_etal_2019_11","Insect net, cathing from three  observation plot (5 x 4 m2)","Bombus.pratorum","species","bumblebees",1,60,225,NA,"3 times 75 minutes (3 times 25 min per plot) during a single day per orchard during full bloom of sweet cherry",NA
"Eeraerts_etal_sweetcherry_Belgium_2017","Eeraerts_etal_2019_11","Insect net, cathing from three  observation plot (5 x 4 m2)","Bombus.terrestris.agg","morphospecies","bumblebees",6,60,225,NA,"3 times 75 minutes (3 times 25 min per plot) during a single day per orchard during full bloom of sweet cherry",NA
"Eeraerts_etal_sweetcherry_Belgium_2017","Eeraerts_etal_2019_11","Insect net, cathing from three  observation plot (5 x 4 m2)","Osmia.cornuta","species","other_wild_bees",1,60,225,NA,"3 times 75 minutes (3 times 25 min per plot) during a single day per orchard during full bloom of sweet cherry",NA
"Eeraerts_etal_sweetcherry_Belgium_2017","Eeraerts_etal_2019_11","Insect net, cathing from three  observation plot (5 x 4 m2)","Eristalis.arbustorum","species","syrphids",1,60,225,NA,"3 times 75 minutes (3 times 25 min per plot) during a single day per orchard during full bloom of sweet cherry",NA
"Eeraerts_etal_sweetcherry_Belgium_2017","Eeraerts_etal_2019_11","Insect net, cathing from three  observation plot (5 x 4 m2)","Eristalis.pertinax","species","syrphids",2,60,225,NA,"3 times 75 minutes (3 times 25 min per plot) during a single day per orchard during full bloom of sweet cherry",NA
"Eeraerts_etal_sweetcherry_Belgium_2017","Eeraerts_etal_2019_12","Insect net, cathing from three  observation plot (5 x 4 m2)","Apis.mellifera","species","honeybees",68,60,225,NA,"3 times 75 minutes (3 times 25 min per plot) during a single day per orchard during full bloom of sweet cherry",NA
"Eeraerts_etal_sweetcherry_Belgium_2017","Eeraerts_etal_2019_12","Insect net, cathing from three  observation plot (5 x 4 m2)","Andrena.carantonica","species","other_wild_bees",1,60,225,NA,"3 times 75 minutes (3 times 25 min per plot) during a single day per orchard during full bloom of sweet cherry",NA
"Eeraerts_etal_sweetcherry_Belgium_2017","Eeraerts_etal_2019_12","Insect net, cathing from three  observation plot (5 x 4 m2)","Andrena.fulva","species","other_wild_bees",2,60,225,NA,"3 times 75 minutes (3 times 25 min per plot) during a single day per orchard during full bloom of sweet cherry",NA
"Eeraerts_etal_sweetcherry_Belgium_2017","Eeraerts_etal_2019_12","Insect net, cathing from three  observation plot (5 x 4 m2)","Andrena.haemorrhoa","species","other_wild_bees",1,60,225,NA,"3 times 75 minutes (3 times 25 min per plot) during a single day per orchard during full bloom of sweet cherry",NA
"Eeraerts_etal_sweetcherry_Belgium_2017","Eeraerts_etal_2019_12","Insect net, cathing from three  observation plot (5 x 4 m2)","Bombus.lapidarius","species","bumblebees",4,60,225,NA,"3 times 75 minutes (3 times 25 min per plot) during a single day per orchard during full bloom of sweet cherry",NA
"Eeraerts_etal_sweetcherry_Belgium_2017","Eeraerts_etal_2019_12","Insect net, cathing from three  observation plot (5 x 4 m2)","Bombus.pascuorum","species","bumblebees",8,60,225,NA,"3 times 75 minutes (3 times 25 min per plot) during a single day per orchard during full bloom of sweet cherry",NA
"Eeraerts_etal_sweetcherry_Belgium_2017","Eeraerts_etal_2019_12","Insect net, cathing from three  observation plot (5 x 4 m2)","Bombus.pratorum","species","bumblebees",5,60,225,NA,"3 times 75 minutes (3 times 25 min per plot) during a single day per orchard during full bloom of sweet cherry",NA
"Eeraerts_etal_sweetcherry_Belgium_2017","Eeraerts_etal_2019_12","Insect net, cathing from three  observation plot (5 x 4 m2)","Bombus.terrestris.agg","morphospecies","bumblebees",9,60,225,NA,"3 times 75 minutes (3 times 25 min per plot) during a single day per orchard during full bloom of sweet cherry",NA
"Eeraerts_etal_sweetcherry_Belgium_2017","Eeraerts_etal_2019_12","Insect net, cathing from three  observation plot (5 x 4 m2)","Eristalis.pertinax","species","syrphids",1,60,225,NA,"3 times 75 minutes (3 times 25 min per plot) during a single day per orchard during full bloom of sweet cherry",NA
"Eeraerts_etal_sweetcherry_Belgium_2017","Eeraerts_etal_2019_12","Insect net, cathing from three  observation plot (5 x 4 m2)","Eristalis.tenax","species","syrphids",2,60,225,NA,"3 times 75 minutes (3 times 25 min per plot) during a single day per orchard during full bloom of sweet cherry",NA
"Eeraerts_etal_sweetcherry_Belgium_2017","Eeraerts_etal_2019_13","Insect net, cathing from three  observation plot (5 x 4 m2)","Apis.mellifera","species","honeybees",39,60,225,NA,"3 times 75 minutes (3 times 25 min per plot) during a single day per orchard during full bloom of sweet cherry",NA
"Eeraerts_etal_sweetcherry_Belgium_2017","Eeraerts_etal_2019_13","Insect net, cathing from three  observation plot (5 x 4 m2)","Andrena.carantonica","species","other_wild_bees",4,60,225,NA,"3 times 75 minutes (3 times 25 min per plot) during a single day per orchard during full bloom of sweet cherry",NA
"Eeraerts_etal_sweetcherry_Belgium_2017","Eeraerts_etal_2019_13","Insect net, cathing from three  observation plot (5 x 4 m2)","Andrena.fulva","species","other_wild_bees",1,60,225,NA,"3 times 75 minutes (3 times 25 min per plot) during a single day per orchard during full bloom of sweet cherry",NA
"Eeraerts_etal_sweetcherry_Belgium_2017","Eeraerts_etal_2019_13","Insect net, cathing from three  observation plot (5 x 4 m2)","Andrena.haemorrhoa","species","other_wild_bees",4,60,225,NA,"3 times 75 minutes (3 times 25 min per plot) during a single day per orchard during full bloom of sweet cherry",NA
"Eeraerts_etal_sweetcherry_Belgium_2017","Eeraerts_etal_2019_13","Insect net, cathing from three  observation plot (5 x 4 m2)","Bombus.hypnorum","species","bumblebees",2,60,225,NA,"3 times 75 minutes (3 times 25 min per plot) during a single day per orchard during full bloom of sweet cherry",NA
"Eeraerts_etal_sweetcherry_Belgium_2017","Eeraerts_etal_2019_13","Insect net, cathing from three  observation plot (5 x 4 m2)","Bombus.lapidarius","species","bumblebees",5,60,225,NA,"3 times 75 minutes (3 times 25 min per plot) during a single day per orchard during full bloom of sweet cherry",NA
"Eeraerts_etal_sweetcherry_Belgium_2017","Eeraerts_etal_2019_13","Insect net, cathing from three  observation plot (5 x 4 m2)","Bombus.pascuorum","species","bumblebees",3,60,225,NA,"3 times 75 minutes (3 times 25 min per plot) during a single day per orchard during full bloom of sweet cherry",NA
"Eeraerts_etal_sweetcherry_Belgium_2017","Eeraerts_etal_2019_13","Insect net, cathing from three  observation plot (5 x 4 m2)","Bombus.pratorum","species","bumblebees",1,60,225,NA,"3 times 75 minutes (3 times 25 min per plot) during a single day per orchard during full bloom of sweet cherry",NA
"Eeraerts_etal_sweetcherry_Belgium_2017","Eeraerts_etal_2019_13","Insect net, cathing from three  observation plot (5 x 4 m2)","Bombus.terrestris.agg","morphospecies","bumblebees",2,60,225,NA,"3 times 75 minutes (3 times 25 min per plot) during a single day per orchard during full bloom of sweet cherry",NA
"Eeraerts_etal_sweetcherry_Belgium_2017","Eeraerts_etal_2019_13","Insect net, cathing from three  observation plot (5 x 4 m2)","Osmia.cornuta","species","other_wild_bees",1,60,225,NA,"3 times 75 minutes (3 times 25 min per plot) during a single day per orchard during full bloom of sweet cherry",NA
"Eeraerts_etal_sweetcherry_Belgium_2017","Eeraerts_etal_2019_13","Insect net, cathing from three  observation plot (5 x 4 m2)","Episyrphus.balteatus","species","syrphids",1,60,225,NA,"3 times 75 minutes (3 times 25 min per plot) during a single day per orchard during full bloom of sweet cherry",NA
"Eeraerts_etal_sweetcherry_Belgium_2017","Eeraerts_etal_2019_13","Insect net, cathing from three  observation plot (5 x 4 m2)","Eristalis.pertinax","species","syrphids",3,60,225,NA,"3 times 75 minutes (3 times 25 min per plot) during a single day per orchard during full bloom of sweet cherry",NA
"Eeraerts_etal_sweetcherry_Belgium_2017","Eeraerts_etal_2019_14","Insect net, cathing from three  observation plot (5 x 4 m2)","Apis.mellifera","species","honeybees",33,60,225,NA,"3 times 75 minutes (3 times 25 min per plot) during a single day per orchard during full bloom of sweet cherry",NA
"Eeraerts_etal_sweetcherry_Belgium_2017","Eeraerts_etal_2019_14","Insect net, cathing from three  observation plot (5 x 4 m2)","Bombus.lapidarius","species","bumblebees",1,60,225,NA,"3 times 75 minutes (3 times 25 min per plot) during a single day per orchard during full bloom of sweet cherry",NA
"Eeraerts_etal_sweetcherry_Belgium_2017","Eeraerts_etal_2019_14","Insect net, cathing from three  observation plot (5 x 4 m2)","Bombus.terrestris.agg","morphospecies","bumblebees",4,60,225,NA,"3 times 75 minutes (3 times 25 min per plot) during a single day per orchard during full bloom of sweet cherry",NA
"Eeraerts_etal_sweetcherry_Belgium_2017","Eeraerts_etal_2019_15","Insect net, cathing from three  observation plot (5 x 4 m2)","Apis.mellifera","species","honeybees",10,60,225,NA,"3 times 75 minutes (3 times 25 min per plot) during a single day per orchard during full bloom of sweet cherry",NA
"Eeraerts_etal_sweetcherry_Belgium_2017","Eeraerts_etal_2019_15","Insect net, cathing from three  observation plot (5 x 4 m2)","Andrena.carantonica","species","other_wild_bees",2,60,225,NA,"3 times 75 minutes (3 times 25 min per plot) during a single day per orchard during full bloom of sweet cherry",NA
"Eeraerts_etal_sweetcherry_Belgium_2017","Eeraerts_etal_2019_15","Insect net, cathing from three  observation plot (5 x 4 m2)","Andrena.fulva","species","other_wild_bees",3,60,225,NA,"3 times 75 minutes (3 times 25 min per plot) during a single day per orchard during full bloom of sweet cherry",NA
"Eeraerts_etal_sweetcherry_Belgium_2017","Eeraerts_etal_2019_15","Insect net, cathing from three  observation plot (5 x 4 m2)","Andrena.haemorrhoa","species","other_wild_bees",1,60,225,NA,"3 times 75 minutes (3 times 25 min per plot) during a single day per orchard during full bloom of sweet cherry",NA
"Eeraerts_etal_sweetcherry_Belgium_2017","Eeraerts_etal_2019_15","Insect net, cathing from three  observation plot (5 x 4 m2)","Bombus.lapidarius","species","bumblebees",7,60,225,NA,"3 times 75 minutes (3 times 25 min per plot) during a single day per orchard during full bloom of sweet cherry",NA
"Eeraerts_etal_sweetcherry_Belgium_2017","Eeraerts_etal_2019_15","Insect net, cathing from three  observation plot (5 x 4 m2)","Bombus.pascuorum","species","bumblebees",1,60,225,NA,"3 times 75 minutes (3 times 25 min per plot) during a single day per orchard during full bloom of sweet cherry",NA
"Eeraerts_etal_sweetcherry_Belgium_2017","Eeraerts_etal_2019_15","Insect net, cathing from three  observation plot (5 x 4 m2)","Bombus.pratorum","species","bumblebees",7,60,225,NA,"3 times 75 minutes (3 times 25 min per plot) during a single day per orchard during full bloom of sweet cherry",NA
"Eeraerts_etal_sweetcherry_Belgium_2017","Eeraerts_etal_2019_15","Insect net, cathing from three  observation plot (5 x 4 m2)","Bombus.terrestris.agg","morphospecies","bumblebees",5,60,225,NA,"3 times 75 minutes (3 times 25 min per plot) during a single day per orchard during full bloom of sweet cherry",NA
"Eeraerts_etal_sweetcherry_Belgium_2017","Eeraerts_etal_2019_16","Insect net, cathing from three  observation plot (5 x 4 m2)","Apis.mellifera","species","honeybees",131,60,225,NA,"3 times 75 minutes (3 times 25 min per plot) during a single day per orchard during full bloom of sweet cherry",NA
"Eeraerts_etal_sweetcherry_Belgium_2017","Eeraerts_etal_2019_16","Insect net, cathing from three  observation plot (5 x 4 m2)","Andrena.carantonica","species","other_wild_bees",1,60,225,NA,"3 times 75 minutes (3 times 25 min per plot) during a single day per orchard during full bloom of sweet cherry",NA
"Eeraerts_etal_sweetcherry_Belgium_2017","Eeraerts_etal_2019_16","Insect net, cathing from three  observation plot (5 x 4 m2)","Bombus.terrestris","morphospecies","bumblebees",2,60,225,NA,"3 times 75 minutes (3 times 25 min per plot) during a single day per orchard during full bloom of sweet cherry",NA
"Eeraerts_etal_sweetcherry_Belgium_2017","Eeraerts_etal_2019_17","Insect net, cathing from three  observation plot (5 x 4 m2)","Apis.mellifera","species","honeybees",85,60,225,NA,"3 times 75 minutes (3 times 25 min per plot) during a single day per orchard during full bloom of sweet cherry",NA
"Eeraerts_etal_sweetcherry_Belgium_2017","Eeraerts_etal_2019_17","Insect net, cathing from three  observation plot (5 x 4 m2)","Andrena.carantonica","species","other_wild_bees",1,60,225,NA,"3 times 75 minutes (3 times 25 min per plot) during a single day per orchard during full bloom of sweet cherry",NA
"Eeraerts_etal_sweetcherry_Belgium_2017","Eeraerts_etal_2019_17","Insect net, cathing from three  observation plot (5 x 4 m2)","Andrena.fulva","species","other_wild_bees",1,60,225,NA,"3 times 75 minutes (3 times 25 min per plot) during a single day per orchard during full bloom of sweet cherry",NA
"Eeraerts_etal_sweetcherry_Belgium_2017","Eeraerts_etal_2019_17","Insect net, cathing from three  observation plot (5 x 4 m2)","Bombus.lapidarius","species","bumblebees",1,60,225,NA,"3 times 75 minutes (3 times 25 min per plot) during a single day per orchard during full bloom of sweet cherry",NA
"Eeraerts_etal_sweetcherry_Belgium_2017","Eeraerts_etal_2019_17","Insect net, cathing from three  observation plot (5 x 4 m2)","Bombus.terrestris","morphospecies","bumblebees",1,60,225,NA,"3 times 75 minutes (3 times 25 min per plot) during a single day per orchard during full bloom of sweet cherry",NA
"Eeraerts_etal_sweetcherry_Belgium_2017","Eeraerts_etal_2019_18","Insect net, cathing from three  observation plot (5 x 4 m2)","Apis.mellifera","species","honeybees",38,60,225,NA,"3 times 75 minutes (3 times 25 min per plot) during a single day per orchard during full bloom of sweet cherry",NA
"Eeraerts_etal_sweetcherry_Belgium_2017","Eeraerts_etal_2019_18","Insect net, cathing from three  observation plot (5 x 4 m2)","Andrena.carantonica","species","other_wild_bees",1,60,225,NA,"3 times 75 minutes (3 times 25 min per plot) during a single day per orchard during full bloom of sweet cherry",NA
"Eeraerts_etal_sweetcherry_Belgium_2017","Eeraerts_etal_2019_18","Insect net, cathing from three  observation plot (5 x 4 m2)","Bombus.lapidarius","species","bumblebees",1,60,225,NA,"3 times 75 minutes (3 times 25 min per plot) during a single day per orchard during full bloom of sweet cherry",NA
"Timothy_Weekers_Malus_domestica_France_2019","Aire - A6","Yellow pan trap","Andrena alfkenella","species","other_wild_bees",1,59400,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Aire - A6","Yellow pan trap","Andrena alfkenella","species","other_wild_bees",1,59400,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Aire - A6","Net","Andrena cinerea","species","other_wild_bees",1,59400,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Aire - A6","White pan trap","Andrena distinguenda","species","other_wild_bees",1,59400,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Aire - A6","Yellow pan trap","Andrena distinguenda","species","other_wild_bees",1,59400,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Aire - A6","Yellow pan trap","Andrena distinguenda","species","other_wild_bees",1,59400,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Aire - A6","Yellow pan trap","Andrena distinguenda","species","other_wild_bees",1,59400,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Aire - A6","Yellow pan trap","Andrena distinguenda","species","other_wild_bees",1,59400,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Aire - A6","Net","Andrena distinguenda","species","other_wild_bees",1,59400,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Aire - A6","Net","Andrena distinguenda","species","other_wild_bees",1,59400,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Aire - A6","Net","Andrena ferrugineicrus","species","other_wild_bees",1,59400,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Aire - A6","Net","Andrena ferrugineicrus","species","other_wild_bees",1,59400,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Aire - A6","Net","Andrena flavipes","species","other_wild_bees",1,59400,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Aire - A6","Yellow pan trap","Andrena flavipes","species","other_wild_bees",1,59400,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Aire - A6","Yellow pan trap","Andrena flavipes","species","other_wild_bees",1,59400,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Aire - A6","Yellow pan trap","Andrena flavipes","species","other_wild_bees",1,59400,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Aire - A6","White pan trap","Andrena flavipes","species","other_wild_bees",1,59400,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Aire - A6","Blue pan trap","Andrena flavipes","species","other_wild_bees",1,59400,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Aire - A6","White pan trap","Andrena flavipes","species","other_wild_bees",1,59400,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Aire - A6","White pan trap","Andrena flavipes","species","other_wild_bees",1,59400,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Aire - A6","Yellow pan trap","Andrena flavipes","species","other_wild_bees",1,59400,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Aire - A6","Yellow pan trap","Andrena flavipes","species","other_wild_bees",1,59400,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Aire - A6","Yellow pan trap","Andrena flavipes","species","other_wild_bees",1,59400,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Aire - A6","Yellow pan trap","Andrena flavipes","species","other_wild_bees",1,59400,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Aire - A6","Net","Andrena flavipes","species","other_wild_bees",1,59400,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Aire - A6","Net","Andrena flavipes","species","other_wild_bees",1,59400,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Aire - A6","Net","Andrena flavipes","species","other_wild_bees",1,59400,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Aire - A6","Net","Andrena flavipes","species","other_wild_bees",1,59400,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Aire - A6","Yellow pan trap","Andrena hesperia","species","other_wild_bees",1,59400,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Aire - A6","Yellow pan trap","Andrena hesperia","species","other_wild_bees",1,59400,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Aire - A6","White pan trap","Andrena hesperia","species","other_wild_bees",1,59400,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Aire - A6","White pan trap","Andrena hesperia","species","other_wild_bees",1,59400,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Aire - A6","Yellow pan trap","Andrena hesperia","species","other_wild_bees",1,59400,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Aire - A6","Yellow pan trap","Andrena humilis","species","other_wild_bees",1,59400,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Aire - A6","Yellow pan trap","Andrena humilis","species","other_wild_bees",1,59400,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Aire - A6","Yellow pan trap","Andrena humilis","species","other_wild_bees",1,59400,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Aire - A6","Yellow pan trap","Andrena humilis","species","other_wild_bees",1,59400,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Aire - A6","White pan trap","Andrena humilis","species","other_wild_bees",1,59400,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Aire - A6","White pan trap","Andrena humilis","species","other_wild_bees",1,59400,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Aire - A6","White pan trap","Andrena humilis","species","other_wild_bees",1,59400,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Aire - A6","Yellow pan trap","Andrena humilis","species","other_wild_bees",1,59400,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Aire - A6","Yellow pan trap","Andrena humilis","species","other_wild_bees",1,59400,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Aire - A6","Yellow pan trap","Andrena humilis","species","other_wild_bees",1,59400,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Aire - A6","Yellow pan trap","Andrena humilis","species","other_wild_bees",1,59400,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Aire - A6","Yellow pan trap","Andrena humilis","species","other_wild_bees",1,59400,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Aire - A6","Net","Andrena humilis","species","other_wild_bees",1,59400,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Aire - A6","Net","Andrena humilis","species","other_wild_bees",1,59400,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Aire - A6","Net","Andrena humilis","species","other_wild_bees",1,59400,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Aire - A6","Net","Andrena humilis","species","other_wild_bees",1,59400,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Aire - A6","Net","Andrena humilis","species","other_wild_bees",1,59400,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Aire - A6","Net","Andrena humilis","species","other_wild_bees",1,59400,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Aire - A6","Net","Andrena livens","species","other_wild_bees",1,59400,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Aire - A6","Net","Andrena livens","species","other_wild_bees",1,59400,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Aire - A6","Net","Andrena livens","species","other_wild_bees",1,59400,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Aire - A6","Yellow pan trap","Andrena minutula","species","other_wild_bees",1,59400,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Aire - A6","White pan trap","Andrena minutula","species","other_wild_bees",1,59400,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Aire - A6","White pan trap","Andrena minutula","species","other_wild_bees",1,59400,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Aire - A6","White pan trap","Andrena minutula","species","other_wild_bees",1,59400,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Aire - A6","Yellow pan trap","Andrena minutula","species","other_wild_bees",1,59400,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Aire - A6","Yellow pan trap","Andrena minutula","species","other_wild_bees",1,59400,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Aire - A6","White pan trap","Andrena minutula","species","other_wild_bees",1,59400,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Aire - A6","White pan trap","Andrena minutula","species","other_wild_bees",1,59400,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Aire - A6","Yellow pan trap","Andrena minutula","species","other_wild_bees",1,59400,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Aire - A6","Yellow pan trap","Andrena minutula","species","other_wild_bees",1,59400,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Aire - A6","Yellow pan trap","Andrena minutula","species","other_wild_bees",1,59400,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Aire - A6","Yellow pan trap","Andrena minutula","species","other_wild_bees",1,59400,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Aire - A6","Net","Andrena minutula","species","other_wild_bees",1,59400,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Aire - A6","Yellow pan trap","Andrena nigroolivacea","species","other_wild_bees",1,59400,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Aire - A6","Yellow pan trap","Andrena nigroolivacea","species","other_wild_bees",1,59400,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Aire - A6","Yellow pan trap","Andrena nigroolivacea","species","other_wild_bees",1,59400,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Aire - A6","Yellow pan trap","Andrena nigroolivacea","species","other_wild_bees",1,59400,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Aire - A6","Yellow pan trap","Andrena nigroolivacea","species","other_wild_bees",1,59400,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Aire - A6","Yellow pan trap","Andrena nigroolivacea","species","other_wild_bees",1,59400,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Aire - A6","Yellow pan trap","Andrena nigroolivacea","species","other_wild_bees",1,59400,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Aire - A6","Yellow pan trap","Andrena nigroolivacea","species","other_wild_bees",1,59400,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Aire - A6","Yellow pan trap","Andrena nigroolivacea","species","other_wild_bees",1,59400,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Aire - A6","Yellow pan trap","Andrena nigroolivacea","species","other_wild_bees",1,59400,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Aire - A6","Yellow pan trap","Andrena nigroolivacea","species","other_wild_bees",1,59400,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Aire - A6","Net","Andrena ovatula","species","other_wild_bees",1,59400,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Aire - A6","Net","Andrena propinqua","species","other_wild_bees",1,59400,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Aire - A6","White pan trap","Andrena propinqua","species","other_wild_bees",1,59400,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Aire - A6","White pan trap","Andrena propinqua","species","other_wild_bees",1,59400,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Aire - A6","White pan trap","Andrena propinqua","species","other_wild_bees",1,59400,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Aire - A6","Blue pan trap","Andrena propinqua","species","other_wild_bees",1,59400,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Aire - A6","Net","Andrena propinqua","species","other_wild_bees",1,59400,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Aire - A6","Net","Andrena propinqua","species","other_wild_bees",1,59400,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Aire - A6","Net","Andrena propinqua","species","other_wild_bees",1,59400,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Aire - A6","Net","Andrena propinqua","species","other_wild_bees",1,59400,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Aire - A6","Net","Andrena propinqua","species","other_wild_bees",1,59400,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Aire - A6","Net","Andrena propinqua","species","other_wild_bees",1,59400,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Aire - A6","Net","Andrena propinqua","species","other_wild_bees",1,59400,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Aire - A6","Net","Andrena propinqua","species","other_wild_bees",1,59400,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Aire - A6","Yellow pan trap","Andrena rhenana","species","other_wild_bees",1,59400,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Aire - A6","White pan trap","Andrena thoracica","species","other_wild_bees",1,59400,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Aire - A6","White pan trap","Andrena thoracica","species","other_wild_bees",1,59400,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Aire - A6","Net","Andrena trimmerana","species","other_wild_bees",1,59400,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Aire - A6","Yellow pan trap","Apis mellifera","species","honeybees",1,59400,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Aire - A6","Yellow pan trap","Apis mellifera","species","honeybees",1,59400,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Aire - A6","Yellow pan trap","Apis mellifera","species","honeybees",1,59400,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Aire - A6","Yellow pan trap","Apis mellifera","species","honeybees",1,59400,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Aire - A6","Yellow pan trap","Apis mellifera","species","honeybees",1,59400,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Aire - A6","White pan trap","Apis mellifera","species","honeybees",1,59400,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Aire - A6","Blue pan trap","Apis mellifera","species","honeybees",1,59400,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Aire - A6","Blue pan trap","Apis mellifera","species","honeybees",1,59400,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Aire - A6","Blue pan trap","Apis mellifera","species","honeybees",1,59400,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Aire - A6","Blue pan trap","Apis mellifera","species","honeybees",1,59400,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Aire - A6","Blue pan trap","Apis mellifera","species","honeybees",1,59400,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Aire - A6","Blue pan trap","Apis mellifera","species","honeybees",1,59400,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Aire - A6","Yellow pan trap","Apis mellifera","species","honeybees",1,59400,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Aire - A6","Yellow pan trap","Apis mellifera","species","honeybees",1,59400,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Aire - A6","Yellow pan trap","Apis mellifera","species","honeybees",1,59400,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Aire - A6","Yellow pan trap","Apis mellifera","species","honeybees",1,59400,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Aire - A6","Yellow pan trap","Apis mellifera","species","honeybees",1,59400,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Aire - A6","Yellow pan trap","Apis mellifera","species","honeybees",1,59400,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Aire - A6","Yellow pan trap","Apis mellifera","species","honeybees",1,59400,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Aire - A6","Yellow pan trap","Apis mellifera","species","honeybees",1,59400,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Aire - A6","Blue pan trap","Apis mellifera","species","honeybees",1,59400,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Aire - A6","Blue pan trap","Apis mellifera","species","honeybees",1,59400,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Aire - A6","Blue pan trap","Apis mellifera","species","honeybees",1,59400,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Aire - A6","Blue pan trap","Apis mellifera","species","honeybees",1,59400,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Aire - A6","White pan trap","Apis mellifera","species","honeybees",1,59400,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Aire - A6","White pan trap","Apis mellifera","species","honeybees",1,59400,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Aire - A6","White pan trap","Apis mellifera","species","honeybees",1,59400,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Aire - A6","White pan trap","Apis mellifera","species","honeybees",1,59400,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Aire - A6","Yellow pan trap","Apis mellifera","species","honeybees",1,59400,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Aire - A6","Yellow pan trap","Apis mellifera","species","honeybees",1,59400,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Aire - A6","Yellow pan trap","Apis mellifera","species","honeybees",1,59400,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Aire - A6","Yellow pan trap","Apis mellifera","species","honeybees",1,59400,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Aire - A6","Yellow pan trap","Apis mellifera","species","honeybees",1,59400,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Aire - A6","Net","Apis mellifera","species","honeybees",1,59400,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Aire - A6","Net","Apis mellifera","species","honeybees",1,59400,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Aire - A6","Net","Apis mellifera","species","honeybees",1,59400,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Aire - A6","Net","Apis mellifera","species","honeybees",1,59400,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Aire - A6","Net","Apis mellifera","species","honeybees",1,59400,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Aire - A6","Net","Apis mellifera","species","honeybees",1,59400,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Aire - A6","Net","Apis mellifera","species","honeybees",1,59400,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Aire - A6","Net","Apis mellifera","species","honeybees",1,59400,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Aire - A6","Net","Apis mellifera","species","honeybees",1,59400,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Aire - A6","Net","Apis mellifera","species","honeybees",1,59400,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Aire - A6","Net","Apis mellifera","species","honeybees",1,59400,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Aire - A6","Net","Apis mellifera","species","honeybees",1,59400,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Aire - A6","Net","Apis mellifera","species","honeybees",1,59400,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Aire - A6","Net","Apis mellifera","species","honeybees",1,59400,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Aire - A6","Net","Apis mellifera","species","honeybees",1,59400,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Aire - A6","Net","Apis mellifera","species","honeybees",1,59400,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Aire - A6","Net","Apis mellifera","species","honeybees",1,59400,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Aire - A6","Net","Apis mellifera","species","honeybees",1,59400,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Aire - A6","Net","Apis mellifera","species","honeybees",1,59400,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Aire - A6","Net","Apis mellifera","species","honeybees",1,59400,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Aire - A6","Net","Apis mellifera","species","honeybees",1,59400,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Aire - A6","Net","Apis mellifera","species","honeybees",1,59400,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Aire - A6","Net","Apis mellifera","species","honeybees",1,59400,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Aire - A6","Net","Apis mellifera","species","honeybees",1,59400,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Aire - A6","Net","Apis mellifera","species","honeybees",1,59400,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Aire - A6","Net","Apis mellifera","species","honeybees",1,59400,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Aire - A6","Net","Apis mellifera","species","honeybees",1,59400,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Aire - A6","Net","Apis mellifera","species","honeybees",1,59400,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Aire - A6","Net","Apis mellifera","species","honeybees",1,59400,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Aire - A6","Net","Apis mellifera","species","honeybees",1,59400,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Aire - A6","Net","Apis mellifera","species","honeybees",1,59400,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Aire - A6","Net","Apis mellifera","species","honeybees",1,59400,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Aire - A6","Net","Apis mellifera","species","honeybees",1,59400,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Aire - A6","Net","Apis mellifera","species","honeybees",1,59400,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Aire - A6","Net","Apis mellifera","species","honeybees",1,59400,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Aire - A6","Net","Apis mellifera","species","honeybees",1,59400,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Aire - A6","Net","Apis mellifera","species","honeybees",1,59400,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Aire - A6","Net","Apis mellifera","species","honeybees",1,59400,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Aire - A6","Net","Apis mellifera","species","honeybees",1,59400,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Aire - A6","Net","Apis mellifera","species","honeybees",1,59400,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Aire - A6","Net","Apis mellifera","species","honeybees",1,59400,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Aire - A6","Net","Apis mellifera","species","honeybees",1,59400,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Aire - A6","Net","Apis mellifera","species","honeybees",1,59400,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Aire - A6","Net","Apis mellifera","species","honeybees",1,59400,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Aire - A6","Net","Apis mellifera","species","honeybees",1,59400,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Aire - A6","Net","Apis mellifera","species","honeybees",1,59400,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Aire - A6","Net","Apis mellifera","species","honeybees",1,59400,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Aire - A6","Net","Apis mellifera","species","honeybees",1,59400,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Aire - A6","Net","Apis mellifera","species","honeybees",1,59400,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Aire - A6","Net","Apis mellifera","species","honeybees",1,59400,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Aire - A6","Net","Apis mellifera","species","honeybees",1,59400,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Aire - A6","Net","Apis mellifera","species","honeybees",1,59400,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Aire - A6","Net","Apis mellifera","species","honeybees",1,59400,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Aire - A6","Net","Apis mellifera","species","honeybees",1,59400,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Aire - A6","Net","Apis mellifera","species","honeybees",1,59400,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Aire - A6","Net","Apis mellifera","species","honeybees",1,59400,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Aire - A6","Net","Apis mellifera","species","honeybees",1,59400,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Aire - A6","Net","Apis mellifera","species","honeybees",1,59400,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Aire - A6","Net","Apis mellifera","species","honeybees",1,59400,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Aire - A6","Net","Apis mellifera","species","honeybees",1,59400,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Aire - A6","Net","Apis mellifera","species","honeybees",1,59400,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Aire - A6","Net","Apis mellifera","species","honeybees",1,59400,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Aire - A6","Net","Apis mellifera","species","honeybees",1,59400,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Aire - A6","Net","Apis mellifera","species","honeybees",1,59400,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Aire - A6","Net","Apis mellifera","species","honeybees",1,59400,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Aire - A6","Net","Apis mellifera","species","honeybees",1,59400,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Aire - A6","Net","Apis mellifera","species","honeybees",1,59400,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Aire - A6","Net","Apis mellifera","species","honeybees",1,59400,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Aire - A6","Net","Apis mellifera","species","honeybees",1,59400,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Aire - A6","Net","Apis mellifera","species","honeybees",1,59400,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Aire - A6","Net","Apis mellifera","species","honeybees",1,59400,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Aire - A6","Net","Apis mellifera","species","honeybees",1,59400,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Aire - A6","Net","Apis mellifera","species","honeybees",1,59400,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Aire - A6","Net","Apis mellifera","species","honeybees",1,59400,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Aire - A6","Net","Apis mellifera","species","honeybees",1,59400,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Aire - A6","Net","Apis mellifera","species","honeybees",1,59400,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Aire - A6","Net","Apis mellifera","species","honeybees",1,59400,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Aire - A6","Net","Apis mellifera","species","honeybees",1,59400,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Aire - A6","Net","Apis mellifera","species","honeybees",1,59400,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Aire - A6","Net","Apis mellifera","species","honeybees",1,59400,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Aire - A6","Net","Apis mellifera","species","honeybees",1,59400,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Aire - A6","Net","Apis mellifera","species","honeybees",1,59400,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Aire - A6","Net","Apis mellifera","species","honeybees",1,59400,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Aire - A6","Net","Apis mellifera","species","honeybees",1,59400,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Aire - A6","Net","Apis mellifera","species","honeybees",1,59400,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Aire - A6","Net","Apis mellifera","species","honeybees",1,59400,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Aire - A6","Net","Apis mellifera","species","honeybees",1,59400,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Aire - A6","Net","Apis mellifera","species","honeybees",1,59400,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Aire - A6","Net","Apis mellifera","species","honeybees",1,59400,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Aire - A6","Net","Apis mellifera","species","honeybees",1,59400,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Aire - A6","Net","Apis mellifera","species","honeybees",1,59400,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Aire - A6","Net","Apis mellifera","species","honeybees",1,59400,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Aire - A6","Net","Apis mellifera","species","honeybees",1,59400,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Aire - A6","Net","Apis mellifera","species","honeybees",1,59400,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Aire - A6","Net","Apis mellifera","species","honeybees",1,59400,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Aire - A6","Net","Apis mellifera","species","honeybees",1,59400,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Aire - A6","Net","Apis mellifera","species","honeybees",1,59400,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Aire - A6","Net","Apis mellifera","species","honeybees",1,59400,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Aire - A6","Net","Apis mellifera","species","honeybees",1,59400,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Aire - A6","Net","Apis mellifera","species","honeybees",1,59400,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Aire - A6","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,59400,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Aire - A6","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,59400,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Aire - A6","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,59400,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Aire - A6","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,59400,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Aire - A6","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,59400,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Aire - A6","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,59400,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Aire - A6","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,59400,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Aire - A6","Net","Eucera nigrescens","species","other_wild_bees",1,59400,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Aire - A6","Net","Eucera nigrescens","species","other_wild_bees",1,59400,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Aire - A6","Yellow pan trap","Eucera nigrilabris","species","other_wild_bees",1,59400,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Aire - A6","Yellow pan trap","Halictus fulvipes","species","other_wild_bees",1,59400,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Aire - A6","Yellow pan trap","Halictus fulvipes","species","other_wild_bees",1,59400,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Aire - A6","Yellow pan trap","Halictus fulvipes","species","other_wild_bees",1,59400,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Aire - A6","White pan trap","Lasioglossum malachurum","species","other_wild_bees",1,59400,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Aire - A6","White pan trap","Lasioglossum malachurum","species","other_wild_bees",1,59400,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Aire - A6","White pan trap","Lasioglossum malachurum","species","other_wild_bees",1,59400,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Aire - A6","Blue pan trap","Lasioglossum malachurum","species","other_wild_bees",1,59400,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Aire - A6","Yellow pan trap","Lasioglossum malachurum","species","other_wild_bees",1,59400,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Aire - A6","Yellow pan trap","Lasioglossum malachurum","species","other_wild_bees",1,59400,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Aire - A6","Yellow pan trap","Lasioglossum malachurum","species","other_wild_bees",1,59400,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Aire - A6","Yellow pan trap","Lasioglossum malachurum","species","other_wild_bees",1,59400,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Aire - A6","Yellow pan trap","Lasioglossum malachurum","species","other_wild_bees",1,59400,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Aire - A6","White pan trap","Lasioglossum malachurum","species","other_wild_bees",1,59400,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Aire - A6","White pan trap","Lasioglossum malachurum","species","other_wild_bees",1,59400,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Aire - A6","Yellow pan trap","Lasioglossum malachurum","species","other_wild_bees",1,59400,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Aire - A6","Yellow pan trap","Lasioglossum malachurum","species","other_wild_bees",1,59400,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Aire - A6","Yellow pan trap","Lasioglossum malachurum","species","other_wild_bees",1,59400,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Aire - A6","Yellow pan trap","Lasioglossum malachurum","species","other_wild_bees",1,59400,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Aire - A6","Yellow pan trap","Lasioglossum malachurum","species","other_wild_bees",1,59400,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Aire - A6","Yellow pan trap","Lasioglossum malachurum","species","other_wild_bees",1,59400,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Aire - A6","Yellow pan trap","Lasioglossum malachurum","species","other_wild_bees",1,59400,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Aire - A6","Yellow pan trap","Lasioglossum malachurum","species","other_wild_bees",1,59400,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Aire - A6","Net","Lasioglossum malachurum","species","other_wild_bees",1,59400,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Aire - A6","Net","Lasioglossum malachurum","species","other_wild_bees",1,59400,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Aire - A6","Net","Lasioglossum malachurum","species","other_wild_bees",1,59400,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Aire - A6","Net","Lasioglossum malachurum","species","other_wild_bees",1,59400,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Aire - A6","Yellow pan trap","Lasioglossum villosulum","species","other_wild_bees",1,59400,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Aire - A6","Yellow pan trap","Sphecodes ruficrus","species","other_wild_bees",1,59400,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Aire - A6","White pan trap","Sphecodes ruficrus","species","other_wild_bees",1,59400,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Aire - A6","Yellow pan trap","Sphecodes ruficrus","species","other_wild_bees",1,59400,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Aire - A6","Yellow pan trap","Sphecodes ruficrus","species","other_wild_bees",1,59400,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Aire - A6","Net","Sphecodes ruficrus","species","other_wild_bees",1,59400,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Aire - A6","Net","Xylocopa violacea","species","other_wild_bees",1,59400,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Corbins","Net","Andrena ferrugineicrus","species","other_wild_bees",1,6500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Corbins","Net","Andrena ferrugineicrus","species","other_wild_bees",1,6500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Corbins","Net","Andrena florentina","species","other_wild_bees",1,6500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Corbins","White pan trap","Andrena humilis","species","other_wild_bees",1,6500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Corbins","Yellow pan trap","Andrena humilis","species","other_wild_bees",1,6500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Corbins","Yellow pan trap","Andrena humilis","species","other_wild_bees",1,6500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Corbins","White pan trap","Andrena humilis","species","other_wild_bees",1,6500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Corbins","Net","Andrena humilis","species","other_wild_bees",1,6500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Corbins","Yellow pan trap","Andrena nigroolivacea","species","other_wild_bees",1,6500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Corbins","Net","Anthophora plumipes","species","other_wild_bees",1,6500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Corbins","Net","Anthophora plumipes","species","other_wild_bees",1,6500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Corbins","Net","Anthophora plumipes","species","other_wild_bees",1,6500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Corbins","Net","Anthophora plumipes","species","other_wild_bees",1,6500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Corbins","Net","Anthophora plumipes","species","other_wild_bees",1,6500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Corbins","Net","Anthophora plumipes","species","other_wild_bees",1,6500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Corbins","Net","Anthophora plumipes","species","other_wild_bees",1,6500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Corbins","Net","Anthophora plumipes","species","other_wild_bees",1,6500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Corbins","Net","Anthophora plumipes","species","other_wild_bees",1,6500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Corbins","Net","Anthophora plumipes","species","other_wild_bees",1,6500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Corbins","Net","Anthophora plumipes","species","other_wild_bees",1,6500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Corbins","Net","Anthophora plumipes","species","other_wild_bees",1,6500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Corbins","Net","Anthophora plumipes","species","other_wild_bees",1,6500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Corbins","Net","Anthophora plumipes","species","other_wild_bees",1,6500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Corbins","Yellow pan trap","Apis mellifera","species","honeybees",1,6500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Corbins","Yellow pan trap","Apis mellifera","species","honeybees",1,6500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Corbins","Net","Apis mellifera","species","honeybees",1,6500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Corbins","Net","Apis mellifera","species","honeybees",1,6500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Corbins","Net","Apis mellifera","species","honeybees",1,6500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Corbins","Net","Apis mellifera","species","honeybees",1,6500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Corbins","Net","Apis mellifera","species","honeybees",1,6500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Corbins","Net","Apis mellifera","species","honeybees",1,6500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Corbins","Net","Apis mellifera","species","honeybees",1,6500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Corbins","Net","Apis mellifera","species","honeybees",1,6500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Corbins","Net","Apis mellifera","species","honeybees",1,6500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Corbins","Net","Apis mellifera","species","honeybees",1,6500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Corbins","Net","Apis mellifera","species","honeybees",1,6500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Corbins","Net","Apis mellifera","species","honeybees",1,6500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Corbins","Net","Apis mellifera","species","honeybees",1,6500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Corbins","Net","Apis mellifera","species","honeybees",1,6500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Corbins","Net","Apis mellifera","species","honeybees",1,6500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Corbins","Net","Apis mellifera","species","honeybees",1,6500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Corbins","Net","Apis mellifera","species","honeybees",1,6500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Corbins","Net","Apis mellifera","species","honeybees",1,6500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Corbins","Net","Apis mellifera","species","honeybees",1,6500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Corbins","Net","Apis mellifera","species","honeybees",1,6500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Corbins","Net","Apis mellifera","species","honeybees",1,6500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Corbins","Net","Apis mellifera","species","honeybees",1,6500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Corbins","Net","Apis mellifera","species","honeybees",1,6500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Corbins","Net","Apis mellifera","species","honeybees",1,6500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Corbins","Net","Apis mellifera","species","honeybees",1,6500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Corbins","Net","Apis mellifera","species","honeybees",1,6500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Corbins","Net","Apis mellifera","species","honeybees",1,6500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Corbins","Net","Apis mellifera","species","honeybees",1,6500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Corbins","Net","Apis mellifera","species","honeybees",1,6500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Corbins","Net","Apis mellifera","species","honeybees",1,6500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Corbins","Net","Apis mellifera","species","honeybees",1,6500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Corbins","Net","Apis mellifera","species","honeybees",1,6500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Corbins","Net","Apis mellifera","species","honeybees",1,6500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Corbins","Net","Apis mellifera","species","honeybees",1,6500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Corbins","Net","Apis mellifera","species","honeybees",1,6500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Corbins","Net","Apis mellifera","species","honeybees",1,6500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Corbins","Net","Apis mellifera","species","honeybees",1,6500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Corbins","Net","Apis mellifera","species","honeybees",1,6500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Corbins","Net","Apis mellifera","species","honeybees",1,6500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Corbins","Net","Apis mellifera","species","honeybees",1,6500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Corbins","Net","Apis mellifera","species","honeybees",1,6500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Corbins","Net","Apis mellifera","species","honeybees",1,6500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Corbins","Net","Apis mellifera","species","honeybees",1,6500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Corbins","Net","Apis mellifera","species","honeybees",1,6500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Corbins","Net","Apis mellifera","species","honeybees",1,6500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Corbins","Net","Apis mellifera","species","honeybees",1,6500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Corbins","Net","Apis mellifera","species","honeybees",1,6500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Corbins","Net","Apis mellifera","species","honeybees",1,6500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Corbins","Net","Apis mellifera","species","honeybees",1,6500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Corbins","Net","Apis mellifera","species","honeybees",1,6500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Corbins","Net","Apis mellifera","species","honeybees",1,6500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Corbins","Net","Apis mellifera","species","honeybees",1,6500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Corbins","Net","Apis mellifera","species","honeybees",1,6500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Corbins","Net","Apis mellifera","species","honeybees",1,6500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Corbins","Net","Apis mellifera","species","honeybees",1,6500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Corbins","Net","Apis mellifera","species","honeybees",1,6500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Corbins","Net","Apis mellifera","species","honeybees",1,6500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Corbins","Net","Apis mellifera","species","honeybees",1,6500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Corbins","Net","Apis mellifera","species","honeybees",1,6500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Corbins","Net","Apis mellifera","species","honeybees",1,6500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Corbins","Net","Apis mellifera","species","honeybees",1,6500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Corbins","Net","Apis mellifera","species","honeybees",1,6500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Corbins","Net","Apis mellifera","species","honeybees",1,6500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Corbins","Net","Apis mellifera","species","honeybees",1,6500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Corbins","Net","Apis mellifera","species","honeybees",1,6500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Corbins","Net","Apis mellifera","species","honeybees",1,6500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Corbins","Net","Apis mellifera","species","honeybees",1,6500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Corbins","Net","Apis mellifera","species","honeybees",1,6500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Corbins","Net","Apis mellifera","species","honeybees",1,6500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Corbins","Net","Apis mellifera","species","honeybees",1,6500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Corbins","Net","Apis mellifera","species","honeybees",1,6500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Corbins","Net","Apis mellifera","species","honeybees",1,6500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Corbins","Net","Apis mellifera","species","honeybees",1,6500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Corbins","Net","Apis mellifera","species","honeybees",1,6500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Corbins","Net","Apis mellifera","species","honeybees",1,6500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Corbins","Net","Apis mellifera","species","honeybees",1,6500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Corbins","Net","Apis mellifera","species","honeybees",1,6500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Corbins","Net","Apis mellifera","species","honeybees",1,6500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Corbins","Net","Apis mellifera","species","honeybees",1,6500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Corbins","Net","Apis mellifera","species","honeybees",1,6500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Corbins","Net","Apis mellifera","species","honeybees",1,6500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Corbins","Net","Apis mellifera","species","honeybees",1,6500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Corbins","Net","Apis mellifera","species","honeybees",1,6500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Corbins","Net","Apis mellifera","species","honeybees",1,6500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Corbins","Net","Apis mellifera","species","honeybees",1,6500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Corbins","Net","Apis mellifera","species","honeybees",1,6500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Corbins","Net","Apis mellifera","species","honeybees",1,6500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Corbins","Net","Apis mellifera","species","honeybees",1,6500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Corbins","Net","Apis mellifera","species","honeybees",1,6500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Corbins","Net","Apis mellifera","species","honeybees",1,6500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Corbins","Net","Apis mellifera","species","honeybees",1,6500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Corbins","Net","Apis mellifera","species","honeybees",1,6500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Corbins","Net","Apis mellifera","species","honeybees",1,6500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Corbins","Net","Apis mellifera","species","honeybees",1,6500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Corbins","Net","Apis mellifera","species","honeybees",1,6500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Corbins","Net","Apis mellifera","species","honeybees",1,6500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Corbins","Net","Apis mellifera","species","honeybees",1,6500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Corbins","Net","Apis mellifera","species","honeybees",1,6500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Corbins","Net","Apis mellifera","species","honeybees",1,6500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Corbins","Net","Apis mellifera","species","honeybees",1,6500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Corbins","Net","Apis mellifera","species","honeybees",1,6500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Corbins","Net","Apis mellifera","species","honeybees",1,6500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Corbins","Net","Apis mellifera","species","honeybees",1,6500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Corbins","Net","Apis mellifera","species","honeybees",1,6500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Corbins","Net","Apis mellifera","species","honeybees",1,6500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Corbins","Net","Apis mellifera","species","honeybees",1,6500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Corbins","Net","Apis mellifera","species","honeybees",1,6500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Corbins","Net","Apis mellifera","species","honeybees",1,6500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Corbins","Net","Apis mellifera","species","honeybees",1,6500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Corbins","Net","Apis mellifera","species","honeybees",1,6500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Corbins","Net","Apis mellifera","species","honeybees",1,6500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Corbins","Net","Apis mellifera","species","honeybees",1,6500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Corbins","Net","Apis mellifera","species","honeybees",1,6500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Corbins","Net","Apis mellifera","species","honeybees",1,6500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Corbins","Net","Apis mellifera","species","honeybees",1,6500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Corbins","Net","Apis mellifera","species","honeybees",1,6500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Corbins","Net","Apis mellifera","species","honeybees",1,6500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Corbins","Net","Apis mellifera","species","honeybees",1,6500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Corbins","Net","Apis mellifera","species","honeybees",1,6500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Corbins","Net","Apis mellifera","species","honeybees",1,6500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Corbins","Net","Apis mellifera","species","honeybees",1,6500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Corbins","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,6500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Corbins","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,6500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Corbins","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,6500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Corbins","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,6500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Corbins","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,6500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Corbins","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,6500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Corbins","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,6500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Corbins","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,6500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Corbins","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,6500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Corbins","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,6500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Corbins","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,6500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Corbins","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,6500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Corbins","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,6500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Corbins","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,6500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Corbins","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,6500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Corbins","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,6500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Corbins","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,6500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Corbins","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,6500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Corbins","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,6500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Corbins","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,6500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Corbins","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,6500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Corbins","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,6500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Corbins","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,6500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Corbins","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,6500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Corbins","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,6500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Corbins","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,6500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Corbins","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,6500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Corbins","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,6500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Corbins","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,6500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Corbins","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,6500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Corbins","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,6500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Corbins","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,6500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Corbins","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,6500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Corbins","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,6500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Corbins","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,6500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Corbins","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,6500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Corbins","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,6500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Corbins","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,6500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Corbins","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,6500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Corbins","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,6500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Corbins","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,6500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Corbins","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,6500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Corbins","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,6500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Corbins","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,6500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Corbins","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,6500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Corbins","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,6500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Corbins","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,6500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Corbins","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,6500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Corbins","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,6500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Corbins","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,6500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Corbins","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,6500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Corbins","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,6500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Corbins","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,6500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Corbins","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,6500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Corbins","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,6500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Corbins","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,6500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Corbins","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,6500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Corbins","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,6500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Corbins","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,6500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Corbins","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,6500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Corbins","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,6500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Corbins","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,6500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Corbins","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,6500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Corbins","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,6500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Corbins","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,6500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Corbins","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,6500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Corbins","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,6500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Corbins","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,6500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Corbins","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,6500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Corbins","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,6500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Corbins","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,6500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Corbins","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,6500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Corbins","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,6500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Corbins","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,6500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Corbins","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,6500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Corbins","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,6500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Corbins","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,6500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Corbins","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,6500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Corbins","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,6500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Corbins","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,6500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Corbins","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,6500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Corbins","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,6500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Corbins","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,6500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Corbins","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,6500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Corbins","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,6500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Corbins","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,6500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Corbins","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,6500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Corbins","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,6500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Corbins","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,6500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Corbins","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,6500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Corbins","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,6500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Corbins","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,6500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Corbins","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,6500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Corbins","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,6500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Corbins","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,6500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Corbins","Yellow pan trap","Chelostoma emarginatum","species","other_wild_bees",1,6500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Corbins","Net","Eucera nigrilabris","species","other_wild_bees",1,6500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Corbins","Net","Eucera nigrilabris","species","other_wild_bees",1,6500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Corbins","Net","Eucera nigrilabris","species","other_wild_bees",1,6500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Corbins","Net","Eucera nigrilabris","species","other_wild_bees",1,6500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Corbins","Net","Eucera nigrilabris","species","other_wild_bees",1,6500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Corbins","Net","Eucera nigrilabris","species","other_wild_bees",1,6500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Corbins","Net","Eucera nigrilabris","species","other_wild_bees",1,6500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Corbins","Net","Eucera nigrilabris","species","other_wild_bees",1,6500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Corbins","Net","Eucera nigrilabris","species","other_wild_bees",1,6500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Corbins","Net","Eucera nigrilabris","species","other_wild_bees",1,6500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Corbins","Blue pan trap","Eucera nigrilabris","species","other_wild_bees",1,6500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Corbins","White pan trap","Eucera nigrilabris","species","other_wild_bees",1,6500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Corbins","Yellow pan trap","Eucera nigrilabris","species","other_wild_bees",1,6500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Corbins","Yellow pan trap","Lasioglossum algericolellum","species","other_wild_bees",1,6500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Corbins","Blue pan trap","Lasioglossum glabriusculum","species","other_wild_bees",1,6500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Corbins","Blue pan trap","Lasioglossum glabriusculum","species","other_wild_bees",1,6500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Corbins","Yellow pan trap","Lasioglossum griseolum","species","other_wild_bees",1,6500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Corbins","White pan trap","Lasioglossum malachurum","species","other_wild_bees",1,6500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Corbins","White pan trap","Lasioglossum malachurum","species","other_wild_bees",1,6500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Corbins","White pan trap","Lasioglossum malachurum","species","other_wild_bees",1,6500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Corbins","White pan trap","Lasioglossum malachurum","species","other_wild_bees",1,6500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Corbins","White pan trap","Lasioglossum malachurum","species","other_wild_bees",1,6500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Corbins","White pan trap","Lasioglossum malachurum","species","other_wild_bees",1,6500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Corbins","White pan trap","Lasioglossum malachurum","species","other_wild_bees",1,6500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Corbins","White pan trap","Lasioglossum malachurum","species","other_wild_bees",1,6500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Corbins","White pan trap","Lasioglossum malachurum","species","other_wild_bees",1,6500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Corbins","White pan trap","Lasioglossum malachurum","species","other_wild_bees",1,6500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Corbins","Yellow pan trap","Lasioglossum malachurum","species","other_wild_bees",1,6500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Corbins","Yellow pan trap","Lasioglossum malachurum","species","other_wild_bees",1,6500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Corbins","Yellow pan trap","Lasioglossum malachurum","species","other_wild_bees",1,6500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Corbins","Yellow pan trap","Lasioglossum malachurum","species","other_wild_bees",1,6500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Corbins","Yellow pan trap","Lasioglossum malachurum","species","other_wild_bees",1,6500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Corbins","Yellow pan trap","Lasioglossum malachurum","species","other_wild_bees",1,6500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Corbins","Yellow pan trap","Lasioglossum malachurum","species","other_wild_bees",1,6500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Corbins","Yellow pan trap","Lasioglossum malachurum","species","other_wild_bees",1,6500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Corbins","Yellow pan trap","Lasioglossum malachurum","species","other_wild_bees",1,6500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Corbins","Yellow pan trap","Lasioglossum malachurum","species","other_wild_bees",1,6500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Corbins","Yellow pan trap","Lasioglossum malachurum","species","other_wild_bees",1,6500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Corbins","Yellow pan trap","Lasioglossum malachurum","species","other_wild_bees",1,6500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Corbins","Yellow pan trap","Lasioglossum malachurum","species","other_wild_bees",1,6500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Corbins","Yellow pan trap","Lasioglossum malachurum","species","other_wild_bees",1,6500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Corbins","Yellow pan trap","Lasioglossum malachurum","species","other_wild_bees",1,6500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Corbins","Yellow pan trap","Lasioglossum malachurum","species","other_wild_bees",1,6500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Corbins","Blue pan trap","Lasioglossum malachurum","species","other_wild_bees",1,6500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Corbins","Blue pan trap","Lasioglossum malachurum","species","other_wild_bees",1,6500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Corbins","Blue pan trap","Lasioglossum malachurum","species","other_wild_bees",1,6500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Corbins","Blue pan trap","Lasioglossum malachurum","species","other_wild_bees",1,6500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Corbins","Blue pan trap","Lasioglossum malachurum","species","other_wild_bees",1,6500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Corbins","Blue pan trap","Lasioglossum malachurum","species","other_wild_bees",1,6500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Corbins","Blue pan trap","Lasioglossum malachurum","species","other_wild_bees",1,6500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Corbins","Blue pan trap","Lasioglossum malachurum","species","other_wild_bees",1,6500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Corbins","Blue pan trap","Lasioglossum malachurum","species","other_wild_bees",1,6500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Corbins","Blue pan trap","Lasioglossum malachurum","species","other_wild_bees",1,6500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Corbins","Blue pan trap","Lasioglossum malachurum","species","other_wild_bees",1,6500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Corbins","Yellow pan trap","Lasioglossum malachurum","species","other_wild_bees",1,6500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Corbins","Yellow pan trap","Lasioglossum malachurum","species","other_wild_bees",1,6500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Corbins","Yellow pan trap","Lasioglossum malachurum","species","other_wild_bees",1,6500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Corbins","White pan trap","Lasioglossum malachurum","species","other_wild_bees",1,6500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Corbins","White pan trap","Lasioglossum malachurum","species","other_wild_bees",1,6500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Corbins","White pan trap","Lasioglossum malachurum","species","other_wild_bees",1,6500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Corbins","White pan trap","Lasioglossum malachurum","species","other_wild_bees",1,6500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Corbins","Yellow pan trap","Lasioglossum malachurum","species","other_wild_bees",1,6500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Corbins","Net","Lasioglossum malachurum","species","other_wild_bees",1,6500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Corbins","Blue pan trap","Lasioglossum subhirtum","species","other_wild_bees",1,6500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Corbins","Yellow pan trap","Lasioglossum subhirtum","species","other_wild_bees",1,6500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Corbins","Yellow pan trap","Lasioglossum zonulum","species","other_wild_bees",1,6500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Corbins","Net","Sphecodes ruficrus","species","other_wild_bees",1,6500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Netherlands_2019","Cothen","White pan trap","Andrena flavipes","species","other_wild_bees",1,280000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Netherlands_2019","Cothen","Yellow pan trap","Andrena flavipes","species","other_wild_bees",1,280000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Netherlands_2019","Cothen","Yellow pan trap","Andrena nitida","species","other_wild_bees",1,280000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Netherlands_2019","Cothen","Net","Andrena scotica","species","other_wild_bees",1,280000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Netherlands_2019","Cothen","Yellow pan trap","Apis mellifera","species","honeybees",1,280000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Netherlands_2019","Cothen","Net","Apis mellifera","species","honeybees",1,280000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Netherlands_2019","Cothen","Net","Apis mellifera","species","honeybees",1,280000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Netherlands_2019","Cothen","Net","Apis mellifera","species","honeybees",1,280000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Netherlands_2019","Cothen","Net","Apis mellifera","species","honeybees",1,280000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Netherlands_2019","Cothen","Net","Apis mellifera","species","honeybees",1,280000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Netherlands_2019","Cothen","Net","Apis mellifera","species","honeybees",1,280000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Netherlands_2019","Cothen","Net","Apis mellifera","species","honeybees",1,280000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Netherlands_2019","Cothen","Net","Apis mellifera","species","honeybees",1,280000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Netherlands_2019","Cothen","Net","Apis mellifera","species","honeybees",1,280000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Netherlands_2019","Cothen","Net","Apis mellifera","species","honeybees",1,280000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Netherlands_2019","Cothen","Net","Apis mellifera","species","honeybees",1,280000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Netherlands_2019","Cothen","Net","Apis mellifera","species","honeybees",1,280000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Netherlands_2019","Cothen","Net","Apis mellifera","species","honeybees",1,280000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Netherlands_2019","Cothen","Net","Apis mellifera","species","honeybees",1,280000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Netherlands_2019","Cothen","Net","Apis mellifera","species","honeybees",1,280000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Netherlands_2019","Cothen","Net","Apis mellifera","species","honeybees",1,280000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Netherlands_2019","Cothen","Net","Apis mellifera","species","honeybees",1,280000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Netherlands_2019","Cothen","Net","Apis mellifera","species","honeybees",1,280000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Netherlands_2019","Cothen","Net","Apis mellifera","species","honeybees",1,280000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Netherlands_2019","Cothen","Net","Apis mellifera","species","honeybees",1,280000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Netherlands_2019","Cothen","Net","Apis mellifera","species","honeybees",1,280000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Netherlands_2019","Cothen","Net","Apis mellifera","species","honeybees",1,280000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Netherlands_2019","Cothen","Net","Apis mellifera","species","honeybees",1,280000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Netherlands_2019","Cothen","Net","Apis mellifera","species","honeybees",1,280000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Netherlands_2019","Cothen","Net","Apis mellifera","species","honeybees",1,280000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Netherlands_2019","Cothen","Net","Apis mellifera","species","honeybees",1,280000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Netherlands_2019","Cothen","Net","Apis mellifera","species","honeybees",1,280000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Netherlands_2019","Cothen","Net","Apis mellifera","species","honeybees",1,280000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Netherlands_2019","Cothen","Net","Apis mellifera","species","honeybees",1,280000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Netherlands_2019","Cothen","Net","Apis mellifera","species","honeybees",1,280000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Netherlands_2019","Cothen","Net","Apis mellifera","species","honeybees",1,280000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Netherlands_2019","Cothen","Net","Apis mellifera","species","honeybees",1,280000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Netherlands_2019","Cothen","Net","Apis mellifera","species","honeybees",1,280000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Netherlands_2019","Cothen","Net","Apis mellifera","species","honeybees",1,280000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Netherlands_2019","Cothen","Net","Apis mellifera","species","honeybees",1,280000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Netherlands_2019","Cothen","Net","Apis mellifera","species","honeybees",1,280000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Netherlands_2019","Cothen","Net","Apis mellifera","species","honeybees",1,280000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Netherlands_2019","Cothen","Net","Apis mellifera","species","honeybees",1,280000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Netherlands_2019","Cothen","Net","Apis mellifera","species","honeybees",1,280000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Netherlands_2019","Cothen","Net","Apis mellifera","species","honeybees",1,280000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Netherlands_2019","Cothen","Net","Apis mellifera","species","honeybees",1,280000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Netherlands_2019","Cothen","Net","Apis mellifera","species","honeybees",1,280000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Netherlands_2019","Cothen","Net","Apis mellifera","species","honeybees",1,280000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Netherlands_2019","Cothen","Net","Apis mellifera","species","honeybees",1,280000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Netherlands_2019","Cothen","Net","Apis mellifera","species","honeybees",1,280000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Netherlands_2019","Cothen","Net","Apis mellifera","species","honeybees",1,280000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Netherlands_2019","Cothen","Net","Apis mellifera","species","honeybees",1,280000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Netherlands_2019","Cothen","Net","Apis mellifera","species","honeybees",1,280000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Netherlands_2019","Cothen","Net","Apis mellifera","species","honeybees",1,280000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Netherlands_2019","Cothen","Net","Apis mellifera","species","honeybees",1,280000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Netherlands_2019","Cothen","Net","Apis mellifera","species","honeybees",1,280000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Netherlands_2019","Cothen","Net","Apis mellifera","species","honeybees",1,280000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Netherlands_2019","Cothen","Net","Apis mellifera","species","honeybees",1,280000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Netherlands_2019","Cothen","Net","Apis mellifera","species","honeybees",1,280000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Netherlands_2019","Cothen","Net","Apis mellifera","species","honeybees",1,280000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Netherlands_2019","Cothen","Net","Apis mellifera","species","honeybees",1,280000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Netherlands_2019","Cothen","Net","Apis mellifera","species","honeybees",1,280000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Netherlands_2019","Cothen","Net","Apis mellifera","species","honeybees",1,280000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Netherlands_2019","Cothen","Net","Apis mellifera","species","honeybees",1,280000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Netherlands_2019","Cothen","Net","Apis mellifera","species","honeybees",1,280000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Netherlands_2019","Cothen","Net","Apis mellifera","species","honeybees",1,280000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Netherlands_2019","Cothen","Net","Apis mellifera","species","honeybees",1,280000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Netherlands_2019","Cothen","Net","Apis mellifera","species","honeybees",1,280000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Netherlands_2019","Cothen","Net","Apis mellifera","species","honeybees",1,280000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Netherlands_2019","Cothen","Net","Apis mellifera","species","honeybees",1,280000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Netherlands_2019","Cothen","Net","Apis mellifera","species","honeybees",1,280000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Netherlands_2019","Cothen","Net","Apis mellifera","species","honeybees",1,280000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Netherlands_2019","Cothen","Net","Apis mellifera","species","honeybees",1,280000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Netherlands_2019","Cothen","Net","Apis mellifera","species","honeybees",1,280000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Netherlands_2019","Cothen","Net","Apis mellifera","species","honeybees",1,280000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Netherlands_2019","Cothen","Net","Apis mellifera","species","honeybees",1,280000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Netherlands_2019","Cothen","Net","Apis mellifera","species","honeybees",1,280000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Netherlands_2019","Cothen","Net","Apis mellifera","species","honeybees",1,280000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Netherlands_2019","Cothen","Net","Apis mellifera","species","honeybees",1,280000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Netherlands_2019","Cothen","Net","Apis mellifera","species","honeybees",1,280000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Netherlands_2019","Cothen","Net","Apis mellifera","species","honeybees",1,280000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Netherlands_2019","Cothen","Net","Apis mellifera","species","honeybees",1,280000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Netherlands_2019","Cothen","Net","Apis mellifera","species","honeybees",1,280000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Netherlands_2019","Cothen","Net","Apis mellifera","species","honeybees",1,280000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Netherlands_2019","Cothen","Net","Apis mellifera","species","honeybees",1,280000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Netherlands_2019","Cothen","Net","Apis mellifera","species","honeybees",1,280000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Netherlands_2019","Cothen","Net","Apis mellifera","species","honeybees",1,280000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Netherlands_2019","Cothen","Net","Apis mellifera","species","honeybees",1,280000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Netherlands_2019","Cothen","Net","Apis mellifera","species","honeybees",1,280000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Netherlands_2019","Cothen","Net","Apis mellifera","species","honeybees",1,280000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Netherlands_2019","Cothen","Net","Apis mellifera","species","honeybees",1,280000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Netherlands_2019","Cothen","Net","Apis mellifera","species","honeybees",1,280000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Netherlands_2019","Cothen","Net","Apis mellifera","species","honeybees",1,280000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Netherlands_2019","Cothen","Net","Apis mellifera","species","honeybees",1,280000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Netherlands_2019","Cothen","Net","Apis mellifera","species","honeybees",1,280000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Netherlands_2019","Cothen","Net","Apis mellifera","species","honeybees",1,280000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Netherlands_2019","Cothen","Net","Apis mellifera","species","honeybees",1,280000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Netherlands_2019","Cothen","Net","Apis mellifera","species","honeybees",1,280000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Netherlands_2019","Cothen","Net","Apis mellifera","species","honeybees",1,280000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Netherlands_2019","Cothen","Net","Apis mellifera","species","honeybees",1,280000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Netherlands_2019","Cothen","Net","Apis mellifera","species","honeybees",1,280000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Netherlands_2019","Cothen","Net","Apis mellifera","species","honeybees",1,280000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Netherlands_2019","Cothen","Net","Apis mellifera","species","honeybees",1,280000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Netherlands_2019","Cothen","Net","Apis mellifera","species","honeybees",1,280000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Netherlands_2019","Cothen","Net","Apis mellifera","species","honeybees",1,280000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Netherlands_2019","Cothen","Net","Apis mellifera","species","honeybees",1,280000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Netherlands_2019","Cothen","Net","Apis mellifera","species","honeybees",1,280000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Netherlands_2019","Cothen","Net","Apis mellifera","species","honeybees",1,280000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Netherlands_2019","Cothen","Net","Apis mellifera","species","honeybees",1,280000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Netherlands_2019","Cothen","Net","Apis mellifera","species","honeybees",1,280000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Netherlands_2019","Cothen","Net","Apis mellifera","species","honeybees",1,280000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Netherlands_2019","Cothen","Net","Apis mellifera","species","honeybees",1,280000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Netherlands_2019","Cothen","Net","Apis mellifera","species","honeybees",1,280000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Netherlands_2019","Cothen","Net","Apis mellifera","species","honeybees",1,280000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Netherlands_2019","Cothen","Net","Apis mellifera","species","honeybees",1,280000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Netherlands_2019","Cothen","Net","Apis mellifera","species","honeybees",1,280000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Netherlands_2019","Cothen","Net","Apis mellifera","species","honeybees",1,280000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Netherlands_2019","Cothen","Net","Apis mellifera","species","honeybees",1,280000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Netherlands_2019","Cothen","Net","Apis mellifera","species","honeybees",1,280000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Netherlands_2019","Cothen","Net","Apis mellifera","species","honeybees",1,280000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Netherlands_2019","Cothen","Net","Apis mellifera","species","honeybees",1,280000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Netherlands_2019","Cothen","Net","Apis mellifera","species","honeybees",1,280000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Netherlands_2019","Cothen","Net","Apis mellifera","species","honeybees",1,280000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Netherlands_2019","Cothen","Net","Apis mellifera","species","honeybees",1,280000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Netherlands_2019","Cothen","Net","Apis mellifera","species","honeybees",1,280000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Netherlands_2019","Cothen","Net","Apis mellifera","species","honeybees",1,280000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Netherlands_2019","Cothen","Net","Apis mellifera","species","honeybees",1,280000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Netherlands_2019","Cothen","Net","Apis mellifera","species","honeybees",1,280000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Netherlands_2019","Cothen","Net","Apis mellifera","species","honeybees",1,280000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Netherlands_2019","Cothen","Net","Apis mellifera","species","honeybees",1,280000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Netherlands_2019","Cothen","Net","Apis mellifera","species","honeybees",1,280000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Netherlands_2019","Cothen","Net","Apis mellifera","species","honeybees",1,280000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Netherlands_2019","Cothen","Net","Apis mellifera","species","honeybees",1,280000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Netherlands_2019","Cothen","Net","Apis mellifera","species","honeybees",1,280000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Netherlands_2019","Cothen","Net","Apis mellifera","species","honeybees",1,280000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Netherlands_2019","Cothen","Net","Apis mellifera","species","honeybees",1,280000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Netherlands_2019","Cothen","Blue pan trap","Apis mellifera","species","honeybees",1,280000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Draa1","Blue pan trap","Andrena exigua","species","other_wild_bees",1,2400,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Draa1","Yellow pan trap","Andrena exigua","species","other_wild_bees",1,2400,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Draa1","Yellow pan trap","Andrena exigua","species","other_wild_bees",1,2400,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Draa1","White pan trap","Andrena flavipes","species","other_wild_bees",1,2400,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Draa1","Yellow pan trap","Andrena senecionis","species","other_wild_bees",1,2400,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Draa1","White pan trap","Apis mellifera","species","honeybees",1,2400,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Draa1","Net","Apis mellifera","species","honeybees",1,2400,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Draa1","Net","Apis mellifera","species","honeybees",1,2400,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Draa1","Blue pan trap","Apis mellifera","species","honeybees",1,2400,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Draa1","Net","Apis mellifera","species","honeybees",1,2400,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Draa1","Blue pan trap","Apis mellifera","species","honeybees",1,2400,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Draa1","Net","Apis mellifera","species","honeybees",1,2400,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Draa1","Blue pan trap","Apis mellifera","species","honeybees",1,2400,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Draa1","Net","Apis mellifera","species","honeybees",1,2400,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Draa1","Net","Apis mellifera","species","honeybees",1,2400,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Draa1","Net","Apis mellifera","species","honeybees",1,2400,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Draa1","Net","Apis mellifera","species","honeybees",1,2400,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Draa1","Net","Apis mellifera","species","honeybees",1,2400,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Draa1","Net","Apis mellifera","species","honeybees",1,2400,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Draa1","Net","Apis mellifera","species","honeybees",1,2400,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Draa1","Net","Apis mellifera","species","honeybees",1,2400,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Draa1","Net","Apis mellifera","species","honeybees",1,2400,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Draa1","Net","Apis mellifera","species","honeybees",1,2400,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Draa1","Net","Apis mellifera","species","honeybees",1,2400,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Draa1","Net","Apis mellifera","species","honeybees",1,2400,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Draa1","Net","Apis mellifera","species","honeybees",1,2400,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Draa1","Net","Apis mellifera","species","honeybees",1,2400,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Draa1","Net","Apis mellifera","species","honeybees",1,2400,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Draa1","Net","Apis mellifera","species","honeybees",1,2400,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Draa1","Net","Apis mellifera","species","honeybees",1,2400,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Draa1","Net","Apis mellifera","species","honeybees",1,2400,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Draa1","Net","Apis mellifera","species","honeybees",1,2400,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Draa1","Net","Apis mellifera","species","honeybees",1,2400,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Draa1","Net","Apis mellifera","species","honeybees",1,2400,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Draa1","Net","Apis mellifera","species","honeybees",1,2400,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Draa1","Net","Apis mellifera","species","honeybees",1,2400,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Draa1","Net","Apis mellifera","species","honeybees",1,2400,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Draa1","Net","Apis mellifera","species","honeybees",1,2400,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Draa1","Net","Apis mellifera","species","honeybees",1,2400,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Draa1","Net","Apis mellifera","species","honeybees",1,2400,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Draa1","Net","Apis mellifera","species","honeybees",1,2400,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Draa1","Net","Apis mellifera","species","honeybees",1,2400,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Draa1","Net","Apis mellifera","species","honeybees",1,2400,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Draa1","Net","Apis mellifera","species","honeybees",1,2400,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Draa1","Net","Apis mellifera","species","honeybees",1,2400,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Draa1","Net","Apis mellifera","species","honeybees",1,2400,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Draa1","Net","Apis mellifera","species","honeybees",1,2400,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Draa1","Net","Apis mellifera","species","honeybees",1,2400,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Draa1","Net","Apis mellifera","species","honeybees",1,2400,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Draa1","Net","Apis mellifera","species","honeybees",1,2400,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Draa1","Net","Apis mellifera","species","honeybees",1,2400,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Draa1","Net","Apis mellifera","species","honeybees",1,2400,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Draa1","Yellow pan trap","Apis mellifera","species","honeybees",1,2400,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Draa1","Blue pan trap","Lasioglossum algericolellum","species","other_wild_bees",1,2400,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Draa1","Blue pan trap","Lasioglossum algericolellum","species","other_wild_bees",1,2400,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Draa1","Yellow pan trap","Lasioglossum algericolellum","species","other_wild_bees",1,2400,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Draa1","Yellow pan trap","Lasioglossum algericolellum","species","other_wild_bees",1,2400,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Draa1","Yellow pan trap","Lasioglossum algericolellum","species","other_wild_bees",1,2400,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Draa1","Yellow pan trap","Lasioglossum algericolellum","species","other_wild_bees",1,2400,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Draa1","Yellow pan trap","Lasioglossum articulare","species","other_wild_bees",1,2400,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Draa1","Blue pan trap","Lasioglossum collopiense","species","other_wild_bees",1,2400,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Draa1","Yellow pan trap","Lasioglossum collopiense","species","other_wild_bees",1,2400,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Draa1","Yellow pan trap","Lasioglossum collopiense","species","other_wild_bees",1,2400,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Draa1","White pan trap","Lasioglossum lucidulum","species","other_wild_bees",1,2400,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Draa1","White pan trap","Lasioglossum lucidulum","species","other_wild_bees",1,2400,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Draa1","Blue pan trap","Lasioglossum lucidulum","species","other_wild_bees",1,2400,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Draa1","White pan trap","Lasioglossum lucidulum","species","other_wild_bees",1,2400,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Draa1","Yellow pan trap","Lasioglossum lucidulum","species","other_wild_bees",1,2400,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Draa1","Yellow pan trap","Lasioglossum lucidulum","species","other_wild_bees",1,2400,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Draa1","Yellow pan trap","Lasioglossum lucidulum","species","other_wild_bees",1,2400,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Draa1","Yellow pan trap","Lasioglossum lucidulum","species","other_wild_bees",1,2400,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Draa1","Yellow pan trap","Lasioglossum lucidulum","species","other_wild_bees",1,2400,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Draa1","White pan trap","Lasioglossum lucidulum","species","other_wild_bees",1,2400,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Draa1","Blue pan trap","Lasioglossum minutissimum","species","other_wild_bees",1,2400,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Draa1","White pan trap","Lasioglossum minutissimum","species","other_wild_bees",1,2400,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Draa1","White pan trap","Lasioglossum minutissimum","species","other_wild_bees",1,2400,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Draa1","Yellow pan trap","Lasioglossum minutissimum","species","other_wild_bees",1,2400,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Draa1","Yellow pan trap","Lasioglossum musculum","species","other_wild_bees",1,2400,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Draa1","Blue pan trap","Lasioglossum pseudoplanulum","species","other_wild_bees",1,2400,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Draa1","White pan trap","Lasioglossum pseudoplanulum","species","other_wild_bees",1,2400,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Draa1","Blue pan trap","Lasioglossum pseudoplanulum","species","other_wild_bees",1,2400,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Draa1","Yellow pan trap","Lasioglossum pseudoplanulum","species","other_wild_bees",1,2400,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Draa1","Yellow pan trap","Lasioglossum pseudoplanulum","species","other_wild_bees",1,2400,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Draa1","Blue pan trap","Lasioglossum villosulum","species","other_wild_bees",1,2400,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Draa1","Yellow pan trap","Lasioglossum villosulum","species","other_wild_bees",1,2400,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Draa1","White pan trap","Nomada fabriciana","species","other_wild_bees",1,2400,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Draa1","Yellow pan trap","Osmia caerulescens","species","other_wild_bees",1,2400,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Draa1","Yellow pan trap","Osmia caerulescens","species","other_wild_bees",1,2400,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Draa1","Yellow pan trap","Osmia caerulescens","species","other_wild_bees",1,2400,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Draa1","Yellow pan trap","Osmia caerulescens","species","other_wild_bees",1,2400,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Draa1","Yellow pan trap","Seladonia smaragdula","species","other_wild_bees",1,2400,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Draa1","Blue pan trap","Vestitohalictus pici","species","other_wild_bees",1,2400,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Draa1","Yellow pan trap","Vestitohalictus pici","species","other_wild_bees",1,2400,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Draa1","Yellow pan trap","Vestitohalictus pici","species","other_wild_bees",1,2400,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Draa2","White pan trap","Andrena exigua","species","other_wild_bees",1,20000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Draa2","Net","Andrena flavipes","species","other_wild_bees",1,20000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Draa2","Yellow pan trap","Andrena kamarti","species","other_wild_bees",1,20000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Draa2","Yellow pan trap","Andrena senecionis","species","other_wild_bees",1,20000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Draa2","Net","Apis mellifera","species","honeybees",1,20000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Draa2","Net","Apis mellifera","species","honeybees",1,20000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Draa2","Net","Apis mellifera","species","honeybees",1,20000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Draa2","Net","Apis mellifera","species","honeybees",1,20000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Draa2","Net","Apis mellifera","species","honeybees",1,20000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Draa2","Net","Apis mellifera","species","honeybees",1,20000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Draa2","Net","Apis mellifera","species","honeybees",1,20000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Draa2","Net","Apis mellifera","species","honeybees",1,20000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Draa2","Net","Apis mellifera","species","honeybees",1,20000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Draa2","Net","Apis mellifera","species","honeybees",1,20000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Draa2","Net","Apis mellifera","species","honeybees",1,20000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Draa2","Net","Apis mellifera","species","honeybees",1,20000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Draa2","Net","Apis mellifera","species","honeybees",1,20000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Draa2","Net","Apis mellifera","species","honeybees",1,20000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Draa2","Net","Apis mellifera","species","honeybees",1,20000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Draa2","Net","Apis mellifera","species","honeybees",1,20000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Draa2","Net","Apis mellifera","species","honeybees",1,20000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Draa2","Net","Apis mellifera","species","honeybees",1,20000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Draa2","Net","Apis mellifera","species","honeybees",1,20000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Draa2","Net","Apis mellifera","species","honeybees",1,20000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Draa2","Net","Apis mellifera","species","honeybees",1,20000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Draa2","Net","Apis mellifera","species","honeybees",1,20000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Draa2","Net","Apis mellifera","species","honeybees",1,20000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Draa2","Net","Apis mellifera","species","honeybees",1,20000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Draa2","Net","Apis mellifera","species","honeybees",1,20000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Draa2","Net","Apis mellifera","species","honeybees",1,20000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Draa2","Net","Apis mellifera","species","honeybees",1,20000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Draa2","Net","Apis mellifera","species","honeybees",1,20000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Draa2","Net","Apis mellifera","species","honeybees",1,20000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Draa2","Net","Apis mellifera","species","honeybees",1,20000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Draa2","Net","Apis mellifera","species","honeybees",1,20000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Draa2","Net","Apis mellifera","species","honeybees",1,20000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Draa2","Net","Apis mellifera","species","honeybees",1,20000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Draa2","Net","Apis mellifera","species","honeybees",1,20000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Draa2","Blue pan trap","Lasioglossum algericolellum","species","other_wild_bees",1,20000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Draa2","Yellow pan trap","Lasioglossum algericolellum","species","other_wild_bees",1,20000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Draa2","Blue pan trap","Lasioglossum algericolellum","species","other_wild_bees",1,20000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Draa2","White pan trap","Lasioglossum collopiense","species","other_wild_bees",1,20000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Draa2","Yellow pan trap","Lasioglossum collopiense","species","other_wild_bees",1,20000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Draa2","Blue pan trap","Lasioglossum collopiense","species","other_wild_bees",1,20000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Draa2","Blue pan trap","Lasioglossum collopiense","species","other_wild_bees",1,20000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Draa2","White pan trap","Lasioglossum collopiense","species","other_wild_bees",1,20000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Draa2","Yellow pan trap","Lasioglossum grisellinum","species","other_wild_bees",1,20000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Draa2","White pan trap","Lasioglossum interruptum","species","other_wild_bees",1,20000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Draa2","Blue pan trap","Lasioglossum lucidulum","species","other_wild_bees",1,20000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Draa2","Blue pan trap","Lasioglossum lucidulum","species","other_wild_bees",1,20000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Draa2","White pan trap","Lasioglossum minutissimum","species","other_wild_bees",1,20000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Draa2","Blue pan trap","Lasioglossum minutissimum","species","other_wild_bees",1,20000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Draa2","Yellow pan trap","Lasioglossum minutissimum","species","other_wild_bees",1,20000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Draa2","White pan trap","Lasioglossum minutissimum","species","other_wild_bees",1,20000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Draa2","White pan trap","Lasioglossum minutissimum","species","other_wild_bees",1,20000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Draa2","White pan trap","Lasioglossum nitidiusculum","species","other_wild_bees",1,20000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Draa2","Yellow pan trap","Lasioglossum nitidiusculum","species","other_wild_bees",1,20000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Draa2","Yellow pan trap","Lasioglossum nitidiusculum","species","other_wild_bees",1,20000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Draa2","Yellow pan trap","Lasioglossum nitidiusculum","species","other_wild_bees",1,20000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Draa2","Yellow pan trap","Lasioglossum nitidiusculum","species","other_wild_bees",1,20000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Draa2","Yellow pan trap","Lasioglossum pseudoplanulum","species","other_wild_bees",1,20000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Draa2","Yellow pan trap","Lasioglossum pseudoplanulum","species","other_wild_bees",1,20000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Draa2","Blue pan trap","Lasioglossum pseudoplanulum","species","other_wild_bees",1,20000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Draa2","Blue pan trap","Lasioglossum pseudoplanulum","species","other_wild_bees",1,20000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Draa2","Blue pan trap","Lasioglossum pseudoplanulum","species","other_wild_bees",1,20000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Draa2","Blue pan trap","Lasioglossum pseudoplanulum","species","other_wild_bees",1,20000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Draa2","White pan trap","Lasioglossum pseudoplanulum","species","other_wild_bees",1,20000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Draa2","Yellow pan trap","Lasioglossum villosulum","species","other_wild_bees",1,20000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Draa2","Yellow pan trap","Lasioglossum villosulum","species","other_wild_bees",1,20000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Draa2","Blue pan trap","Lasioglossum villosulum","species","other_wild_bees",1,20000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Draa2","Blue pan trap","Lasioglossum villosulum","species","other_wild_bees",1,20000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Draa2","Yellow pan trap","Lasioglossum villosulum","species","other_wild_bees",1,20000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes1","White pan trap","Andrena bicolorata","species","other_wild_bees",1,80000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes1","Yellow pan trap","Andrena distinguenda","species","other_wild_bees",1,80000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes1","Yellow pan trap","Andrena flavipes","species","other_wild_bees",1,80000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes1","Yellow pan trap","Andrena flavipes","species","other_wild_bees",1,80000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes1","Yellow pan trap","Andrena flavipes","species","other_wild_bees",1,80000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes1","Yellow pan trap","Andrena flavipes","species","other_wild_bees",1,80000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes1","Yellow pan trap","Andrena flavipes","species","other_wild_bees",1,80000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes1","Yellow pan trap","Andrena flavipes","species","other_wild_bees",1,80000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes1","Yellow pan trap","Andrena flavipes","species","other_wild_bees",1,80000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes1","Blue pan trap","Andrena flavipes","species","other_wild_bees",1,80000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes1","Yellow pan trap","Andrena flavipes","species","other_wild_bees",1,80000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes1","Yellow pan trap","Andrena flavipes","species","other_wild_bees",1,80000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes1","Yellow pan trap","Andrena flavipes","species","other_wild_bees",1,80000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes1","Yellow pan trap","Andrena flavipes","species","other_wild_bees",1,80000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes1","Yellow pan trap","Andrena flavipes","species","other_wild_bees",1,80000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes1","White pan trap","Andrena flavipes","species","other_wild_bees",1,80000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes1","White pan trap","Andrena flavipes","species","other_wild_bees",1,80000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes1","White pan trap","Andrena flavipes","species","other_wild_bees",1,80000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes1","White pan trap","Andrena flavipes","species","other_wild_bees",1,80000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes1","White pan trap","Andrena flavipes","species","other_wild_bees",1,80000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes1","Blue pan trap","Andrena flavipes","species","other_wild_bees",1,80000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes1","Yellow pan trap","Andrena flavipes","species","other_wild_bees",1,80000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes1","Yellow pan trap","Andrena flavipes","species","other_wild_bees",1,80000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes1","Yellow pan trap","Andrena impunctata","species","other_wild_bees",1,80000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes1","Yellow pan trap","Andrena impunctata","species","other_wild_bees",1,80000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes1","White pan trap","Andrena impunctata","species","other_wild_bees",1,80000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes1","White pan trap","Andrena impunctata","species","other_wild_bees",1,80000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes1","Yellow pan trap","Andrena impunctata","species","other_wild_bees",1,80000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes1","Yellow pan trap","Andrena impunctata","species","other_wild_bees",1,80000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes1","Yellow pan trap","Andrena lepida","species","other_wild_bees",1,80000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes1","Yellow pan trap","Andrena lepida","species","other_wild_bees",1,80000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes1","Yellow pan trap","Andrena lepida","species","other_wild_bees",1,80000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes1","Yellow pan trap","Andrena lepida","species","other_wild_bees",1,80000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes1","White pan trap","Andrena lepida","species","other_wild_bees",1,80000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes1","White pan trap","Andrena lepida","species","other_wild_bees",1,80000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes1","White pan trap","Andrena lepida","species","other_wild_bees",1,80000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes1","Yellow pan trap","Andrena lepida","species","other_wild_bees",1,80000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes1","Yellow pan trap","Andrena lepida","species","other_wild_bees",1,80000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes1","Yellow pan trap","Andrena minutula","species","other_wild_bees",1,80000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes1","Yellow pan trap","Andrena minutula","species","other_wild_bees",1,80000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes1","White pan trap","Andrena minutula","species","other_wild_bees",1,80000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes1","Yellow pan trap","Andrena minutula","species","other_wild_bees",1,80000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes1","Yellow pan trap","Andrena nigroaenea","species","other_wild_bees",1,80000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes1","Net","Andrena nigroaenea","species","other_wild_bees",1,80000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes1","Yellow pan trap","Andrena nigroaenea","species","other_wild_bees",1,80000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes1","Yellow pan trap","Andrena petrosa","species","other_wild_bees",1,80000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes1","Yellow pan trap","Andrena petrosa","species","other_wild_bees",1,80000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes1","Yellow pan trap","Andrena propinqua","species","other_wild_bees",1,80000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes1","White pan trap","Andrena propinqua","species","other_wild_bees",1,80000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes1","Yellow pan trap","Andrena tebessana","species","other_wild_bees",1,80000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes1","Yellow pan trap","Andrena tebessana","species","other_wild_bees",1,80000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes1","Blue pan trap","Andrena tenuistriata","species","other_wild_bees",1,80000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes1","White pan trap","Andrena tenuistriata","species","other_wild_bees",1,80000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes1","Yellow pan trap","Andrena tenuistriata","species","other_wild_bees",1,80000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes1","White pan trap","Andrena tenuistriata","species","other_wild_bees",1,80000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes1","White pan trap","Andrena tenuistriata","species","other_wild_bees",1,80000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes1","White pan trap","Andrena tenuistriata","species","other_wild_bees",1,80000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes1","White pan trap","Andrena tenuistriata","species","other_wild_bees",1,80000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes1","White pan trap","Andrena tenuistriata","species","other_wild_bees",1,80000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes1","Yellow pan trap","Andrena tenuistriata","species","other_wild_bees",1,80000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes1","Yellow pan trap","Andrena tenuistriata","species","other_wild_bees",1,80000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes1","Yellow pan trap","Andrena tenuistriata","species","other_wild_bees",1,80000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes1","Yellow pan trap","Andrena tenuistriata","species","other_wild_bees",1,80000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes1","Yellow pan trap","Andrena tenuistriata","species","other_wild_bees",1,80000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes1","Yellow pan trap","Andrena verticalis","species","other_wild_bees",1,80000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes1","Net","Anthophora atroalba","species","other_wild_bees",1,80000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes1","Yellow pan trap","Apis mellifera","species","honeybees",1,80000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes1","Net","Apis mellifera","species","honeybees",1,80000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes1","Net","Apis mellifera","species","honeybees",1,80000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes1","Net","Apis mellifera","species","honeybees",1,80000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes1","Net","Apis mellifera","species","honeybees",1,80000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes1","Net","Apis mellifera","species","honeybees",1,80000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes1","Net","Apis mellifera","species","honeybees",1,80000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes1","Net","Apis mellifera","species","honeybees",1,80000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes1","Net","Apis mellifera","species","honeybees",1,80000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes1","Net","Apis mellifera","species","honeybees",1,80000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes1","Net","Apis mellifera","species","honeybees",1,80000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes1","Net","Apis mellifera","species","honeybees",1,80000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes1","Net","Apis mellifera","species","honeybees",1,80000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes1","Net","Apis mellifera","species","honeybees",1,80000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes1","Net","Apis mellifera","species","honeybees",1,80000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes1","Net","Apis mellifera","species","honeybees",1,80000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes1","Net","Apis mellifera","species","honeybees",1,80000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes1","Net","Apis mellifera","species","honeybees",1,80000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes1","Net","Apis mellifera","species","honeybees",1,80000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes1","Net","Apis mellifera","species","honeybees",1,80000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes1","Net","Apis mellifera","species","honeybees",1,80000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes1","Net","Apis mellifera","species","honeybees",1,80000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes1","Net","Apis mellifera","species","honeybees",1,80000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes1","Net","Apis mellifera","species","honeybees",1,80000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes1","Net","Apis mellifera","species","honeybees",1,80000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes1","Net","Apis mellifera","species","honeybees",1,80000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes1","Net","Apis mellifera","species","honeybees",1,80000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes1","Net","Apis mellifera","species","honeybees",1,80000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes1","Net","Apis mellifera","species","honeybees",1,80000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes1","Net","Apis mellifera","species","honeybees",1,80000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes1","Net","Apis mellifera","species","honeybees",1,80000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes1","Net","Apis mellifera","species","honeybees",1,80000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes1","Net","Apis mellifera","species","honeybees",1,80000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes1","White pan trap","Apis mellifera","species","honeybees",1,80000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes1","White pan trap","Apis mellifera","species","honeybees",1,80000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes1","White pan trap","Apis mellifera","species","honeybees",1,80000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes1","Blue pan trap","Apis mellifera","species","honeybees",1,80000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes1","Blue pan trap","Apis mellifera","species","honeybees",1,80000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes1","Blue pan trap","Apis mellifera","species","honeybees",1,80000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes1","Yellow pan trap","Apis mellifera","species","honeybees",1,80000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes1","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,80000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes1","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,80000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes1","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,80000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes1","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,80000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes1","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,80000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes1","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,80000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes1","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,80000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes1","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,80000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes1","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,80000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes1","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,80000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes1","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,80000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes1","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,80000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes1","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,80000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes1","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,80000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes1","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,80000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes1","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,80000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes1","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,80000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes1","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,80000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes1","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,80000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes1","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,80000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes1","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,80000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes1","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,80000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes1","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,80000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes1","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,80000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes1","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,80000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes1","Blue pan trap","Eucera nigrilabris","species","other_wild_bees",1,80000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes1","Blue pan trap","Eucera nigrilabris","species","other_wild_bees",1,80000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes1","Blue pan trap","Eucera nigrilabris","species","other_wild_bees",1,80000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes1","Yellow pan trap","Halictus fulvipes","species","other_wild_bees",1,80000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes1","Blue pan trap","Lasioglossum algericolellum","species","other_wild_bees",1,80000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes1","Blue pan trap","Lasioglossum algericolellum","species","other_wild_bees",1,80000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes1","Blue pan trap","Lasioglossum algericolellum","species","other_wild_bees",1,80000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes1","Blue pan trap","Lasioglossum algericolellum","species","other_wild_bees",1,80000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes1","Blue pan trap","Lasioglossum algericolellum","species","other_wild_bees",1,80000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes1","White pan trap","Lasioglossum algericolellum","species","other_wild_bees",1,80000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes1","White pan trap","Lasioglossum algericolellum","species","other_wild_bees",1,80000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes1","White pan trap","Lasioglossum algericolellum","species","other_wild_bees",1,80000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes1","White pan trap","Lasioglossum algericolellum","species","other_wild_bees",1,80000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes1","Yellow pan trap","Lasioglossum algericolellum","species","other_wild_bees",1,80000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes1","Yellow pan trap","Lasioglossum algericolellum","species","other_wild_bees",1,80000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes1","Yellow pan trap","Lasioglossum algericolellum","species","other_wild_bees",1,80000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes1","Yellow pan trap","Lasioglossum algericolellum","species","other_wild_bees",1,80000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes1","Yellow pan trap","Lasioglossum algericolellum","species","other_wild_bees",1,80000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes1","Yellow pan trap","Lasioglossum algericolellum","species","other_wild_bees",1,80000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes1","Yellow pan trap","Lasioglossum algericolellum","species","other_wild_bees",1,80000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes1","Yellow pan trap","Lasioglossum algericolellum","species","other_wild_bees",1,80000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes1","Yellow pan trap","Lasioglossum algericolellum","species","other_wild_bees",1,80000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes1","Yellow pan trap","Lasioglossum algericolellum","species","other_wild_bees",1,80000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes1","Yellow pan trap","Lasioglossum algericolellum","species","other_wild_bees",1,80000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes1","Yellow pan trap","Lasioglossum algericolellum","species","other_wild_bees",1,80000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes1","Yellow pan trap","Lasioglossum algericolellum","species","other_wild_bees",1,80000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes1","Yellow pan trap","Lasioglossum algericolellum","species","other_wild_bees",1,80000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes1","Yellow pan trap","Lasioglossum algericolellum","species","other_wild_bees",1,80000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes1","Yellow pan trap","Lasioglossum algericolellum","species","other_wild_bees",1,80000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes1","Yellow pan trap","Lasioglossum algericolellum","species","other_wild_bees",1,80000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes1","Yellow pan trap","Lasioglossum algericolellum","species","other_wild_bees",1,80000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes1","Yellow pan trap","Lasioglossum algericolellum","species","other_wild_bees",1,80000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes1","Yellow pan trap","Lasioglossum algericolellum","species","other_wild_bees",1,80000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes1","Yellow pan trap","Lasioglossum algericolellum","species","other_wild_bees",1,80000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes1","White pan trap","Lasioglossum algericolellum","species","other_wild_bees",1,80000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes1","White pan trap","Lasioglossum algericolellum","species","other_wild_bees",1,80000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes1","White pan trap","Lasioglossum algericolellum","species","other_wild_bees",1,80000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes1","White pan trap","Lasioglossum algericolellum","species","other_wild_bees",1,80000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes1","White pan trap","Lasioglossum algericolellum","species","other_wild_bees",1,80000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes1","White pan trap","Lasioglossum algericolellum","species","other_wild_bees",1,80000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes1","White pan trap","Lasioglossum algericolellum","species","other_wild_bees",1,80000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes1","White pan trap","Lasioglossum algericolellum","species","other_wild_bees",1,80000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes1","White pan trap","Lasioglossum algericolellum","species","other_wild_bees",1,80000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes1","White pan trap","Lasioglossum algericolellum","species","other_wild_bees",1,80000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes1","White pan trap","Lasioglossum algericolellum","species","other_wild_bees",1,80000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes1","White pan trap","Lasioglossum algericolellum","species","other_wild_bees",1,80000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes1","White pan trap","Lasioglossum algericolellum","species","other_wild_bees",1,80000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes1","White pan trap","Lasioglossum algericolellum","species","other_wild_bees",1,80000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes1","White pan trap","Lasioglossum algericolellum","species","other_wild_bees",1,80000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes1","White pan trap","Lasioglossum algericolellum","species","other_wild_bees",1,80000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes1","White pan trap","Lasioglossum algericolellum","species","other_wild_bees",1,80000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes1","White pan trap","Lasioglossum algericolellum","species","other_wild_bees",1,80000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes1","White pan trap","Lasioglossum algericolellum","species","other_wild_bees",1,80000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes1","Blue pan trap","Lasioglossum algericolellum","species","other_wild_bees",1,80000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes1","Blue pan trap","Lasioglossum algericolellum","species","other_wild_bees",1,80000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes1","Blue pan trap","Lasioglossum algericolellum","species","other_wild_bees",1,80000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes1","Blue pan trap","Lasioglossum algericolellum","species","other_wild_bees",1,80000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes1","Blue pan trap","Lasioglossum algericolellum","species","other_wild_bees",1,80000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes1","Blue pan trap","Lasioglossum algericolellum","species","other_wild_bees",1,80000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes1","Blue pan trap","Lasioglossum algericolellum","species","other_wild_bees",1,80000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes1","Blue pan trap","Lasioglossum algericolellum","species","other_wild_bees",1,80000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes1","Yellow pan trap","Lasioglossum algericolellum","species","other_wild_bees",1,80000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes1","Yellow pan trap","Lasioglossum algericolellum","species","other_wild_bees",1,80000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes1","Yellow pan trap","Lasioglossum algericolellum","species","other_wild_bees",1,80000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes1","Yellow pan trap","Lasioglossum algericolellum","species","other_wild_bees",1,80000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes1","Yellow pan trap","Lasioglossum algericolellum","species","other_wild_bees",1,80000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes1","Yellow pan trap","Lasioglossum algericolellum","species","other_wild_bees",1,80000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes1","Yellow pan trap","Lasioglossum algericolellum","species","other_wild_bees",1,80000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes1","Yellow pan trap","Lasioglossum algericolellum","species","other_wild_bees",1,80000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes1","Yellow pan trap","Lasioglossum algericolellum","species","other_wild_bees",1,80000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes1","Yellow pan trap","Lasioglossum algericolellum","species","other_wild_bees",1,80000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes1","Yellow pan trap","Lasioglossum algericolellum","species","other_wild_bees",1,80000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes1","Yellow pan trap","Lasioglossum algericolellum","species","other_wild_bees",1,80000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes1","Yellow pan trap","Lasioglossum algericolellum","species","other_wild_bees",1,80000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes1","Yellow pan trap","Lasioglossum algericolellum","species","other_wild_bees",1,80000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes1","Yellow pan trap","Lasioglossum algericolellum","species","other_wild_bees",1,80000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes1","Yellow pan trap","Lasioglossum algericolellum","species","other_wild_bees",1,80000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes1","Yellow pan trap","Lasioglossum algericolellum","species","other_wild_bees",1,80000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes1","Yellow pan trap","Lasioglossum algericolellum","species","other_wild_bees",1,80000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes1","Yellow pan trap","Lasioglossum algericolellum","species","other_wild_bees",1,80000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes1","Yellow pan trap","Lasioglossum algericolellum","species","other_wild_bees",1,80000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes1","Yellow pan trap","Lasioglossum algericolellum","species","other_wild_bees",1,80000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes1","Yellow pan trap","Lasioglossum algericolellum","species","other_wild_bees",1,80000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes1","Yellow pan trap","Lasioglossum algericolellum","species","other_wild_bees",1,80000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes1","Yellow pan trap","Lasioglossum algericolellum","species","other_wild_bees",1,80000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes1","Yellow pan trap","Lasioglossum algericolellum","species","other_wild_bees",1,80000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes1","Yellow pan trap","Lasioglossum algericolellum","species","other_wild_bees",1,80000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes1","Yellow pan trap","Lasioglossum algericolellum","species","other_wild_bees",1,80000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes1","Yellow pan trap","Lasioglossum algericolellum","species","other_wild_bees",1,80000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes1","Yellow pan trap","Lasioglossum algericolellum","species","other_wild_bees",1,80000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes1","Yellow pan trap","Lasioglossum algericolellum","species","other_wild_bees",1,80000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes1","Yellow pan trap","Lasioglossum algericolellum","species","other_wild_bees",1,80000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes1","Yellow pan trap","Lasioglossum algericolellum","species","other_wild_bees",1,80000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes1","Yellow pan trap","Lasioglossum algericolellum","species","other_wild_bees",1,80000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes1","Yellow pan trap","Lasioglossum algericolellum","species","other_wild_bees",1,80000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes1","Yellow pan trap","Lasioglossum algericolellum","species","other_wild_bees",1,80000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes1","Yellow pan trap","Lasioglossum algericolellum","species","other_wild_bees",1,80000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes1","Yellow pan trap","Lasioglossum algericolellum","species","other_wild_bees",1,80000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes1","Yellow pan trap","Lasioglossum algericolellum","species","other_wild_bees",1,80000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes1","Yellow pan trap","Lasioglossum algericolellum","species","other_wild_bees",1,80000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes1","Yellow pan trap","Lasioglossum algericolellum","species","other_wild_bees",1,80000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes1","Yellow pan trap","Lasioglossum algericolellum","species","other_wild_bees",1,80000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes1","Yellow pan trap","Lasioglossum algericolellum","species","other_wild_bees",1,80000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes1","Yellow pan trap","Lasioglossum algericolellum","species","other_wild_bees",1,80000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes1","Yellow pan trap","Lasioglossum algericolellum","species","other_wild_bees",1,80000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes1","Yellow pan trap","Lasioglossum algericolellum","species","other_wild_bees",1,80000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes1","Yellow pan trap","Lasioglossum algericolellum","species","other_wild_bees",1,80000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes1","Yellow pan trap","Lasioglossum algericolellum","species","other_wild_bees",1,80000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes1","White pan trap","Lasioglossum collopiense","species","other_wild_bees",1,80000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes1","White pan trap","Lasioglossum collopiense","species","other_wild_bees",1,80000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes1","White pan trap","Lasioglossum collopiense","species","other_wild_bees",1,80000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes1","Yellow pan trap","Lasioglossum collopiense","species","other_wild_bees",1,80000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes1","Blue pan trap","Lasioglossum leucozonium","species","other_wild_bees",1,80000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes1","White pan trap","Lasioglossum lucidulum","species","other_wild_bees",1,80000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes1","White pan trap","Lasioglossum lucidulum","species","other_wild_bees",1,80000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes1","Yellow pan trap","Lasioglossum lucidulum","species","other_wild_bees",1,80000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes1","Yellow pan trap","Lasioglossum lucidulum","species","other_wild_bees",1,80000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes1","Yellow pan trap","Lasioglossum lucidulum","species","other_wild_bees",1,80000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes1","Yellow pan trap","Lasioglossum lucidulum","species","other_wild_bees",1,80000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes1","Yellow pan trap","Lasioglossum lucidulum","species","other_wild_bees",1,80000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes1","Yellow pan trap","Lasioglossum lucidulum","species","other_wild_bees",1,80000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes1","Yellow pan trap","Lasioglossum lucidulum","species","other_wild_bees",1,80000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes1","White pan trap","Lasioglossum lucidulum","species","other_wild_bees",1,80000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes1","White pan trap","Lasioglossum lucidulum","species","other_wild_bees",1,80000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes1","White pan trap","Lasioglossum lucidulum","species","other_wild_bees",1,80000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes1","White pan trap","Lasioglossum lucidulum","species","other_wild_bees",1,80000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes1","White pan trap","Lasioglossum lucidulum","species","other_wild_bees",1,80000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes1","White pan trap","Lasioglossum lucidulum","species","other_wild_bees",1,80000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes1","White pan trap","Lasioglossum lucidulum","species","other_wild_bees",1,80000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes1","White pan trap","Lasioglossum lucidulum","species","other_wild_bees",1,80000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes1","White pan trap","Lasioglossum lucidulum","species","other_wild_bees",1,80000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes1","White pan trap","Lasioglossum lucidulum","species","other_wild_bees",1,80000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes1","Yellow pan trap","Lasioglossum lucidulum","species","other_wild_bees",1,80000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes1","Yellow pan trap","Lasioglossum lucidulum","species","other_wild_bees",1,80000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes1","Yellow pan trap","Lasioglossum lucidulum","species","other_wild_bees",1,80000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes1","Yellow pan trap","Lasioglossum lucidulum","species","other_wild_bees",1,80000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes1","Yellow pan trap","Lasioglossum lucidulum","species","other_wild_bees",1,80000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes1","Yellow pan trap","Lasioglossum lucidulum","species","other_wild_bees",1,80000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes1","Yellow pan trap","Lasioglossum lucidulum","species","other_wild_bees",1,80000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes1","Yellow pan trap","Lasioglossum lucidulum","species","other_wild_bees",1,80000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes1","Yellow pan trap","Lasioglossum lucidulum","species","other_wild_bees",1,80000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes1","Yellow pan trap","Lasioglossum lucidulum","species","other_wild_bees",1,80000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes1","Yellow pan trap","Lasioglossum lucidulum","species","other_wild_bees",1,80000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes1","Yellow pan trap","Lasioglossum lucidulum","species","other_wild_bees",1,80000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes1","Yellow pan trap","Lasioglossum lucidulum","species","other_wild_bees",1,80000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes1","Yellow pan trap","Lasioglossum lucidulum","species","other_wild_bees",1,80000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes1","Yellow pan trap","Lasioglossum lucidulum","species","other_wild_bees",1,80000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes1","Yellow pan trap","Lasioglossum lucidulum","species","other_wild_bees",1,80000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes1","Yellow pan trap","Lasioglossum lucidulum","species","other_wild_bees",1,80000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes1","Yellow pan trap","Lasioglossum lucidulum","species","other_wild_bees",1,80000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes1","Yellow pan trap","Lasioglossum lucidulum","species","other_wild_bees",1,80000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes1","Yellow pan trap","Lasioglossum lucidulum","species","other_wild_bees",1,80000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes1","Yellow pan trap","Lasioglossum lucidulum","species","other_wild_bees",1,80000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes1","Yellow pan trap","Lasioglossum lucidulum","species","other_wild_bees",1,80000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes1","Yellow pan trap","Lasioglossum lucidulum","species","other_wild_bees",1,80000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes1","Yellow pan trap","Lasioglossum lucidulum","species","other_wild_bees",1,80000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes1","Yellow pan trap","Lasioglossum malachurum","species","other_wild_bees",1,80000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes1","Yellow pan trap","Lasioglossum malachurum","species","other_wild_bees",1,80000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes1","Yellow pan trap","Lasioglossum malachurum","species","other_wild_bees",1,80000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes1","Yellow pan trap","Lasioglossum malachurum","species","other_wild_bees",1,80000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes1","Yellow pan trap","Lasioglossum malachurum","species","other_wild_bees",1,80000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes1","Blue pan trap","Lasioglossum malachurum","species","other_wild_bees",1,80000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes1","White pan trap","Lasioglossum malachurum","species","other_wild_bees",1,80000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes1","White pan trap","Lasioglossum malachurum","species","other_wild_bees",1,80000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes1","Yellow pan trap","Lasioglossum malachurum","species","other_wild_bees",1,80000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes1","Yellow pan trap","Lasioglossum malachurum","species","other_wild_bees",1,80000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes1","Yellow pan trap","Lasioglossum malachurum","species","other_wild_bees",1,80000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes1","White pan trap","Lasioglossum malachurum","species","other_wild_bees",1,80000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes1","White pan trap","Lasioglossum malachurum","species","other_wild_bees",1,80000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes1","White pan trap","Lasioglossum malachurum","species","other_wild_bees",1,80000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes1","White pan trap","Lasioglossum malachurum","species","other_wild_bees",1,80000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes1","White pan trap","Lasioglossum malachurum","species","other_wild_bees",1,80000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes1","White pan trap","Lasioglossum malachurum","species","other_wild_bees",1,80000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes1","Blue pan trap","Lasioglossum malachurum","species","other_wild_bees",1,80000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes1","Yellow pan trap","Lasioglossum malachurum","species","other_wild_bees",1,80000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes1","Yellow pan trap","Lasioglossum malachurum","species","other_wild_bees",1,80000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes1","Yellow pan trap","Lasioglossum malachurum","species","other_wild_bees",1,80000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes1","Yellow pan trap","Lasioglossum malachurum","species","other_wild_bees",1,80000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes1","Yellow pan trap","Lasioglossum malachurum","species","other_wild_bees",1,80000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes1","Yellow pan trap","Lasioglossum malachurum","species","other_wild_bees",1,80000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes1","Yellow pan trap","Lasioglossum malachurum","species","other_wild_bees",1,80000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes1","Yellow pan trap","Lasioglossum mediterraneum","species","other_wild_bees",1,80000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes1","Blue pan trap","Lasioglossum minutissimum","species","other_wild_bees",1,80000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes1","Blue pan trap","Lasioglossum minutissimum","species","other_wild_bees",1,80000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes1","White pan trap","Lasioglossum minutissimum","species","other_wild_bees",1,80000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes1","White pan trap","Lasioglossum minutissimum","species","other_wild_bees",1,80000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes1","White pan trap","Lasioglossum minutissimum","species","other_wild_bees",1,80000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes1","White pan trap","Lasioglossum minutissimum","species","other_wild_bees",1,80000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes1","White pan trap","Lasioglossum minutissimum","species","other_wild_bees",1,80000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes1","White pan trap","Lasioglossum minutissimum","species","other_wild_bees",1,80000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes1","White pan trap","Lasioglossum minutissimum","species","other_wild_bees",1,80000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes1","White pan trap","Lasioglossum minutissimum","species","other_wild_bees",1,80000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes1","White pan trap","Lasioglossum minutissimum","species","other_wild_bees",1,80000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes1","Yellow pan trap","Lasioglossum minutissimum","species","other_wild_bees",1,80000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes1","Yellow pan trap","Lasioglossum minutissimum","species","other_wild_bees",1,80000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes1","Yellow pan trap","Lasioglossum minutissimum","species","other_wild_bees",1,80000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes1","White pan trap","Lasioglossum minutissimum","species","other_wild_bees",1,80000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes1","White pan trap","Lasioglossum minutissimum","species","other_wild_bees",1,80000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes1","White pan trap","Lasioglossum minutissimum","species","other_wild_bees",1,80000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes1","White pan trap","Lasioglossum minutissimum","species","other_wild_bees",1,80000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes1","White pan trap","Lasioglossum minutissimum","species","other_wild_bees",1,80000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes1","White pan trap","Lasioglossum minutissimum","species","other_wild_bees",1,80000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes1","White pan trap","Lasioglossum minutissimum","species","other_wild_bees",1,80000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes1","White pan trap","Lasioglossum minutissimum","species","other_wild_bees",1,80000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes1","White pan trap","Lasioglossum minutissimum","species","other_wild_bees",1,80000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes1","White pan trap","Lasioglossum minutissimum","species","other_wild_bees",1,80000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes1","White pan trap","Lasioglossum minutissimum","species","other_wild_bees",1,80000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes1","White pan trap","Lasioglossum minutissimum","species","other_wild_bees",1,80000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes1","Blue pan trap","Lasioglossum minutissimum","species","other_wild_bees",1,80000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes1","Blue pan trap","Lasioglossum minutissimum","species","other_wild_bees",1,80000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes1","Yellow pan trap","Lasioglossum minutissimum","species","other_wild_bees",1,80000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes1","Yellow pan trap","Lasioglossum minutissimum","species","other_wild_bees",1,80000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes1","Yellow pan trap","Lasioglossum minutissimum","species","other_wild_bees",1,80000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes1","Yellow pan trap","Lasioglossum minutissimum","species","other_wild_bees",1,80000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes1","Yellow pan trap","Lasioglossum minutissimum","species","other_wild_bees",1,80000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes1","Yellow pan trap","Lasioglossum minutissimum","species","other_wild_bees",1,80000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes1","Yellow pan trap","Lasioglossum minutissimum","species","other_wild_bees",1,80000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes1","Yellow pan trap","Lasioglossum minutissimum","species","other_wild_bees",1,80000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes1","Yellow pan trap","Lasioglossum minutissimum","species","other_wild_bees",1,80000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes1","Yellow pan trap","Lasioglossum minutissimum","species","other_wild_bees",1,80000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes1","Yellow pan trap","Lasioglossum minutissimum","species","other_wild_bees",1,80000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes1","Yellow pan trap","Lasioglossum minutissimum","species","other_wild_bees",1,80000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes1","Yellow pan trap","Lasioglossum minutissimum","species","other_wild_bees",1,80000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes1","Yellow pan trap","Lasioglossum minutissimum","species","other_wild_bees",1,80000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes1","Yellow pan trap","Lasioglossum morio","species","other_wild_bees",1,80000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes1","Yellow pan trap","Lasioglossum morio","species","other_wild_bees",1,80000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes1","Blue pan trap","Lasioglossum morio","species","other_wild_bees",1,80000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes1","Yellow pan trap","Lasioglossum morio","species","other_wild_bees",1,80000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes1","White pan trap","Lasioglossum musculum","species","other_wild_bees",1,80000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes1","White pan trap","Lasioglossum musculum","species","other_wild_bees",1,80000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes1","White pan trap","Lasioglossum musculum","species","other_wild_bees",1,80000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes1","White pan trap","Lasioglossum musculum","species","other_wild_bees",1,80000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes1","Blue pan trap","Lasioglossum musculum","species","other_wild_bees",1,80000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes1","Blue pan trap","Lasioglossum musculum","species","other_wild_bees",1,80000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes1","Blue pan trap","Lasioglossum musculum","species","other_wild_bees",1,80000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes1","Blue pan trap","Lasioglossum musculum","species","other_wild_bees",1,80000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes1","Yellow pan trap","Lasioglossum musculum","species","other_wild_bees",1,80000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes1","Yellow pan trap","Lasioglossum musculum","species","other_wild_bees",1,80000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes1","Yellow pan trap","Lasioglossum nitidiusculum","species","other_wild_bees",1,80000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes1","Blue pan trap","Lasioglossum pauperatum","species","other_wild_bees",1,80000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes1","Yellow pan trap","Lasioglossum sphecodimorphum","species","other_wild_bees",1,80000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes1","Blue pan trap","Lasioglossum villosulum","species","other_wild_bees",1,80000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes1","White pan trap","Lasioglossum villosulum","species","other_wild_bees",1,80000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes1","White pan trap","Lasioglossum villosulum","species","other_wild_bees",1,80000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes1","Yellow pan trap","Lasioglossum villosulum","species","other_wild_bees",1,80000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes1","Yellow pan trap","Lasioglossum villosulum","species","other_wild_bees",1,80000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes1","Yellow pan trap","Lasioglossum villosulum","species","other_wild_bees",1,80000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes1","White pan trap","Lasioglossum villosulum","species","other_wild_bees",1,80000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes1","Blue pan trap","Lasioglossum villosulum","species","other_wild_bees",1,80000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes1","Yellow pan trap","Lasioglossum villosulum","species","other_wild_bees",1,80000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes1","Yellow pan trap","Lasioglossum villosulum","species","other_wild_bees",1,80000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes1","Yellow pan trap","Lasioglossum villosulum","species","other_wild_bees",1,80000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes1","Yellow pan trap","Lasioglossum villosulum","species","other_wild_bees",1,80000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes1","Yellow pan trap","Lasioglossum villosulum","species","other_wild_bees",1,80000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes1","Blue pan trap","Vestitohalictus pici","species","other_wild_bees",1,80000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes2","Yellow pan trap","Andrena curtivalvis","species","other_wild_bees",1,2e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes2","Yellow pan trap","Andrena distinguenda","species","other_wild_bees",1,2e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes2","Net","Andrena flavipes","species","other_wild_bees",1,2e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes2","Net","Andrena flavipes","species","other_wild_bees",1,2e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes2","Net","Andrena flavipes","species","other_wild_bees",1,2e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes2","Net","Andrena flavipes","species","other_wild_bees",1,2e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes2","Net","Andrena flavipes","species","other_wild_bees",1,2e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes2","Net","Andrena flavipes","species","other_wild_bees",1,2e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes2","Yellow pan trap","Andrena flavipes","species","other_wild_bees",1,2e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes2","Yellow pan trap","Andrena flavipes","species","other_wild_bees",1,2e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes2","White pan trap","Andrena flavipes","species","other_wild_bees",1,2e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes2","White pan trap","Andrena flavipes","species","other_wild_bees",1,2e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes2","White pan trap","Andrena flavipes","species","other_wild_bees",1,2e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes2","Yellow pan trap","Andrena flavipes","species","other_wild_bees",1,2e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes2","Yellow pan trap","Andrena flavipes","species","other_wild_bees",1,2e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes2","Yellow pan trap","Andrena flavipes","species","other_wild_bees",1,2e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes2","White pan trap","Andrena flavipes","species","other_wild_bees",1,2e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes2","White pan trap","Andrena flavipes","species","other_wild_bees",1,2e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes2","White pan trap","Andrena impunctata","species","other_wild_bees",1,2e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes2","White pan trap","Andrena livens","species","other_wild_bees",1,2e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes2","White pan trap","Andrena minutula","species","other_wild_bees",1,2e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes2","White pan trap","Andrena minutula","species","other_wild_bees",1,2e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes2","Yellow pan trap","Andrena minutula","species","other_wild_bees",1,2e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes2","Yellow pan trap","Andrena minutula","species","other_wild_bees",1,2e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes2","Net","Andrena nigroaenea","species","other_wild_bees",1,2e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes2","Yellow pan trap","Andrena nigroaenea","species","other_wild_bees",1,2e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes2","Yellow pan trap","Andrena nigroaenea","species","other_wild_bees",1,2e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes2","White pan trap","Andrena nigroaenea","species","other_wild_bees",1,2e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes2","Yellow pan trap","Andrena nigroaenea","species","other_wild_bees",1,2e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes2","Yellow pan trap","Andrena spolata","species","other_wild_bees",1,2e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes2","Yellow pan trap","Andrena tenuistriata","species","other_wild_bees",1,2e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes2","Yellow pan trap","Andrena tenuistriata","species","other_wild_bees",1,2e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes2","White pan trap","Andrena tenuistriata","species","other_wild_bees",1,2e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes2","White pan trap","Andrena tenuistriata","species","other_wild_bees",1,2e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes2","White pan trap","Andrena tenuistriata","species","other_wild_bees",1,2e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes2","Yellow pan trap","Andrena tenuistriata","species","other_wild_bees",1,2e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes2","Yellow pan trap","Andrena tenuistriata","species","other_wild_bees",1,2e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes2","Yellow pan trap","Andrena tenuistriata","species","other_wild_bees",1,2e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes2","Yellow pan trap","Andrena tenuistriata","species","other_wild_bees",1,2e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes2","Yellow pan trap","Andrena tenuistriata","species","other_wild_bees",1,2e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes2","Yellow pan trap","Andrena tenuistriata","species","other_wild_bees",1,2e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes2","Yellow pan trap","Andrena tenuistriata","species","other_wild_bees",1,2e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes2","Yellow pan trap","Andrena tenuistriata","species","other_wild_bees",1,2e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes2","Yellow pan trap","Andrena tenuistriata","species","other_wild_bees",1,2e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes2","Yellow pan trap","Andrena tenuistriata","species","other_wild_bees",1,2e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes2","White pan trap","Andrena verticalis","species","other_wild_bees",1,2e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes2","Net","Anthophora atroalba","species","other_wild_bees",1,2e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes2","Net","Anthophora atroalba","species","other_wild_bees",1,2e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes2","Net","Anthophora atroalba","species","other_wild_bees",1,2e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes2","Net","Anthophora atroalba","species","other_wild_bees",1,2e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes2","Net","Anthophora atroalba","species","other_wild_bees",1,2e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes2","Net","Anthophora atroalba","species","other_wild_bees",1,2e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes2","Blue pan trap","Apis mellifera","species","honeybees",1,2e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes2","Net","Apis mellifera","species","honeybees",1,2e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes2","Blue pan trap","Apis mellifera","species","honeybees",1,2e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes2","Yellow pan trap","Apis mellifera","species","honeybees",1,2e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes2","Net","Apis mellifera","species","honeybees",1,2e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes2","Net","Apis mellifera","species","honeybees",1,2e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes2","Net","Apis mellifera","species","honeybees",1,2e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes2","Net","Apis mellifera","species","honeybees",1,2e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes2","Net","Apis mellifera","species","honeybees",1,2e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes2","Net","Apis mellifera","species","honeybees",1,2e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes2","Net","Apis mellifera","species","honeybees",1,2e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes2","Blue pan trap","Apis mellifera","species","honeybees",1,2e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes2","Net","Apis mellifera","species","honeybees",1,2e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes2","Blue pan trap","Apis mellifera","species","honeybees",1,2e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes2","Net","Apis mellifera","species","honeybees",1,2e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes2","Net","Apis mellifera","species","honeybees",1,2e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes2","Net","Apis mellifera","species","honeybees",1,2e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes2","Net","Apis mellifera","species","honeybees",1,2e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes2","Net","Apis mellifera","species","honeybees",1,2e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes2","Net","Apis mellifera","species","honeybees",1,2e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes2","Net","Apis mellifera","species","honeybees",1,2e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes2","Net","Apis mellifera","species","honeybees",1,2e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes2","Net","Apis mellifera","species","honeybees",1,2e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes2","Net","Apis mellifera","species","honeybees",1,2e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes2","Net","Apis mellifera","species","honeybees",1,2e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes2","Net","Apis mellifera","species","honeybees",1,2e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes2","Net","Apis mellifera","species","honeybees",1,2e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes2","Net","Apis mellifera","species","honeybees",1,2e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes2","Net","Apis mellifera","species","honeybees",1,2e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes2","Net","Apis mellifera","species","honeybees",1,2e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes2","Net","Apis mellifera","species","honeybees",1,2e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes2","Net","Apis mellifera","species","honeybees",1,2e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes2","Net","Apis mellifera","species","honeybees",1,2e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes2","Net","Apis mellifera","species","honeybees",1,2e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes2","White pan trap","Apis mellifera","species","honeybees",1,2e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes2","White pan trap","Apis mellifera","species","honeybees",1,2e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes2","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,2e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes2","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,2e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes2","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,2e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes2","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,2e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes2","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,2e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes2","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,2e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes2","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,2e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes2","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,2e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes2","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,2e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes2","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,2e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes2","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,2e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes2","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,2e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes2","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,2e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes2","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,2e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes2","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,2e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes2","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,2e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes2","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,2e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes2","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,2e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes2","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,2e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes2","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,2e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes2","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,2e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes2","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,2e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes2","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,2e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes2","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,2e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes2","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,2e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes2","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,2e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes2","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,2e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes2","Net","Halictus crenicornis","species","other_wild_bees",1,2e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes2","Yellow pan trap","Halictus fulvipes","species","other_wild_bees",1,2e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes2","Yellow pan trap","Halictus fulvipes","species","other_wild_bees",1,2e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes2","Yellow pan trap","Halictus fulvipes","species","other_wild_bees",1,2e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes2","White pan trap","Lasioglossum albocinctum","species","other_wild_bees",1,2e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes2","Blue pan trap","Lasioglossum algericolellum","species","other_wild_bees",1,2e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes2","Blue pan trap","Lasioglossum algericolellum","species","other_wild_bees",1,2e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes2","Blue pan trap","Lasioglossum algericolellum","species","other_wild_bees",1,2e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes2","Blue pan trap","Lasioglossum algericolellum","species","other_wild_bees",1,2e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes2","Blue pan trap","Lasioglossum algericolellum","species","other_wild_bees",1,2e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes2","Blue pan trap","Lasioglossum algericolellum","species","other_wild_bees",1,2e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes2","Blue pan trap","Lasioglossum algericolellum","species","other_wild_bees",1,2e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes2","Blue pan trap","Lasioglossum algericolellum","species","other_wild_bees",1,2e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes2","Blue pan trap","Lasioglossum algericolellum","species","other_wild_bees",1,2e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes2","Blue pan trap","Lasioglossum algericolellum","species","other_wild_bees",1,2e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes2","Blue pan trap","Lasioglossum algericolellum","species","other_wild_bees",1,2e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes2","Blue pan trap","Lasioglossum algericolellum","species","other_wild_bees",1,2e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes2","Yellow pan trap","Lasioglossum algericolellum","species","other_wild_bees",1,2e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes2","Yellow pan trap","Lasioglossum algericolellum","species","other_wild_bees",1,2e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes2","Yellow pan trap","Lasioglossum algericolellum","species","other_wild_bees",1,2e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes2","Yellow pan trap","Lasioglossum algericolellum","species","other_wild_bees",1,2e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes2","Yellow pan trap","Lasioglossum algericolellum","species","other_wild_bees",1,2e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes2","Blue pan trap","Lasioglossum algericolellum","species","other_wild_bees",1,2e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes2","Blue pan trap","Lasioglossum algericolellum","species","other_wild_bees",1,2e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes2","Blue pan trap","Lasioglossum algericolellum","species","other_wild_bees",1,2e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes2","White pan trap","Lasioglossum algericolellum","species","other_wild_bees",1,2e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes2","White pan trap","Lasioglossum algericolellum","species","other_wild_bees",1,2e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes2","White pan trap","Lasioglossum algericolellum","species","other_wild_bees",1,2e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes2","White pan trap","Lasioglossum algericolellum","species","other_wild_bees",1,2e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes2","White pan trap","Lasioglossum algericolellum","species","other_wild_bees",1,2e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes2","Yellow pan trap","Lasioglossum algericolellum","species","other_wild_bees",1,2e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes2","Yellow pan trap","Lasioglossum algericolellum","species","other_wild_bees",1,2e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes2","Yellow pan trap","Lasioglossum algericolellum","species","other_wild_bees",1,2e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes2","Yellow pan trap","Lasioglossum algericolellum","species","other_wild_bees",1,2e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes2","Yellow pan trap","Lasioglossum algericolellum","species","other_wild_bees",1,2e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes2","Yellow pan trap","Lasioglossum algericolellum","species","other_wild_bees",1,2e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes2","Yellow pan trap","Lasioglossum algericolellum","species","other_wild_bees",1,2e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes2","Yellow pan trap","Lasioglossum algericolellum","species","other_wild_bees",1,2e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes2","Yellow pan trap","Lasioglossum algericolellum","species","other_wild_bees",1,2e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes2","Yellow pan trap","Lasioglossum algericolellum","species","other_wild_bees",1,2e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes2","Yellow pan trap","Lasioglossum algericolellum","species","other_wild_bees",1,2e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes2","Yellow pan trap","Lasioglossum algericolellum","species","other_wild_bees",1,2e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes2","Yellow pan trap","Lasioglossum algericolellum","species","other_wild_bees",1,2e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes2","Yellow pan trap","Lasioglossum algericolellum","species","other_wild_bees",1,2e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes2","Yellow pan trap","Lasioglossum algericolellum","species","other_wild_bees",1,2e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes2","Yellow pan trap","Lasioglossum algericolellum","species","other_wild_bees",1,2e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes2","Yellow pan trap","Lasioglossum algericolellum","species","other_wild_bees",1,2e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes2","Yellow pan trap","Lasioglossum algericolellum","species","other_wild_bees",1,2e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes2","Yellow pan trap","Lasioglossum algericolellum","species","other_wild_bees",1,2e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes2","Yellow pan trap","Lasioglossum algericolellum","species","other_wild_bees",1,2e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes2","Yellow pan trap","Lasioglossum algericolellum","species","other_wild_bees",1,2e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes2","Yellow pan trap","Lasioglossum algericolellum","species","other_wild_bees",1,2e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes2","Yellow pan trap","Lasioglossum algericolellum","species","other_wild_bees",1,2e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes2","Yellow pan trap","Lasioglossum algericolellum","species","other_wild_bees",1,2e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes2","Yellow pan trap","Lasioglossum algericolellum","species","other_wild_bees",1,2e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes2","Yellow pan trap","Lasioglossum algericolellum","species","other_wild_bees",1,2e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes2","Yellow pan trap","Lasioglossum algericolellum","species","other_wild_bees",1,2e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes2","Yellow pan trap","Lasioglossum algericolellum","species","other_wild_bees",1,2e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes2","Yellow pan trap","Lasioglossum algericolellum","species","other_wild_bees",1,2e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes2","Yellow pan trap","Lasioglossum algericolellum","species","other_wild_bees",1,2e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes2","Yellow pan trap","Lasioglossum algericolellum","species","other_wild_bees",1,2e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes2","Yellow pan trap","Lasioglossum algericolellum","species","other_wild_bees",1,2e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes2","Yellow pan trap","Lasioglossum algericolellum","species","other_wild_bees",1,2e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes2","Yellow pan trap","Lasioglossum algericolellum","species","other_wild_bees",1,2e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes2","Yellow pan trap","Lasioglossum algericolellum","species","other_wild_bees",1,2e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes2","Yellow pan trap","Lasioglossum algericolellum","species","other_wild_bees",1,2e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes2","Yellow pan trap","Lasioglossum algericolellum","species","other_wild_bees",1,2e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes2","Yellow pan trap","Lasioglossum algericolellum","species","other_wild_bees",1,2e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes2","Yellow pan trap","Lasioglossum algericolellum","species","other_wild_bees",1,2e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes2","Yellow pan trap","Lasioglossum algericolellum","species","other_wild_bees",1,2e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes2","Yellow pan trap","Lasioglossum algericolellum","species","other_wild_bees",1,2e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes2","Yellow pan trap","Lasioglossum algericolellum","species","other_wild_bees",1,2e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes2","Yellow pan trap","Lasioglossum algericolellum","species","other_wild_bees",1,2e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes2","Yellow pan trap","Lasioglossum algericolellum","species","other_wild_bees",1,2e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes2","Yellow pan trap","Lasioglossum algericolellum","species","other_wild_bees",1,2e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes2","Yellow pan trap","Lasioglossum algericolellum","species","other_wild_bees",1,2e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes2","Yellow pan trap","Lasioglossum algericolellum","species","other_wild_bees",1,2e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes2","Yellow pan trap","Lasioglossum algericolellum","species","other_wild_bees",1,2e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes2","Yellow pan trap","Lasioglossum algericolellum","species","other_wild_bees",1,2e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes2","Yellow pan trap","Lasioglossum algericolellum","species","other_wild_bees",1,2e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes2","Yellow pan trap","Lasioglossum algericolellum","species","other_wild_bees",1,2e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes2","Yellow pan trap","Lasioglossum algericolellum","species","other_wild_bees",1,2e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes2","Yellow pan trap","Lasioglossum algericolellum","species","other_wild_bees",1,2e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes2","Yellow pan trap","Lasioglossum algericolellum","species","other_wild_bees",1,2e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes2","Yellow pan trap","Lasioglossum algericolellum","species","other_wild_bees",1,2e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes2","Yellow pan trap","Lasioglossum algericolellum","species","other_wild_bees",1,2e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes2","Yellow pan trap","Lasioglossum algericolellum","species","other_wild_bees",1,2e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes2","Yellow pan trap","Lasioglossum algericolellum","species","other_wild_bees",1,2e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes2","Yellow pan trap","Lasioglossum algericolellum","species","other_wild_bees",1,2e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes2","Yellow pan trap","Lasioglossum algericolellum","species","other_wild_bees",1,2e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes2","Yellow pan trap","Lasioglossum algericolellum","species","other_wild_bees",1,2e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes2","Yellow pan trap","Lasioglossum algericolellum","species","other_wild_bees",1,2e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes2","Yellow pan trap","Lasioglossum algericolellum","species","other_wild_bees",1,2e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes2","Yellow pan trap","Lasioglossum algericolellum","species","other_wild_bees",1,2e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes2","Yellow pan trap","Lasioglossum algericolellum","species","other_wild_bees",1,2e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes2","Yellow pan trap","Lasioglossum algericolellum","species","other_wild_bees",1,2e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes2","Yellow pan trap","Lasioglossum algericolellum","species","other_wild_bees",1,2e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes2","Yellow pan trap","Lasioglossum algericolellum","species","other_wild_bees",1,2e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes2","Yellow pan trap","Lasioglossum algericolellum","species","other_wild_bees",1,2e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes2","Yellow pan trap","Lasioglossum algericolellum","species","other_wild_bees",1,2e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes2","Yellow pan trap","Lasioglossum algericolellum","species","other_wild_bees",1,2e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes2","Yellow pan trap","Lasioglossum algericolellum","species","other_wild_bees",1,2e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes2","White pan trap","Lasioglossum algericolellum","species","other_wild_bees",1,2e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes2","White pan trap","Lasioglossum algericolellum","species","other_wild_bees",1,2e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes2","White pan trap","Lasioglossum algericolellum","species","other_wild_bees",1,2e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes2","White pan trap","Lasioglossum algericolellum","species","other_wild_bees",1,2e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes2","White pan trap","Lasioglossum algericolellum","species","other_wild_bees",1,2e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes2","White pan trap","Lasioglossum algericolellum","species","other_wild_bees",1,2e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes2","White pan trap","Lasioglossum algericolellum","species","other_wild_bees",1,2e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes2","White pan trap","Lasioglossum algericolellum","species","other_wild_bees",1,2e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes2","Yellow pan trap","Lasioglossum algericolellum","species","other_wild_bees",1,2e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes2","Yellow pan trap","Lasioglossum algericolellum","species","other_wild_bees",1,2e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes2","Yellow pan trap","Lasioglossum algericolellum","species","other_wild_bees",1,2e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes2","Yellow pan trap","Lasioglossum algericolellum","species","other_wild_bees",1,2e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes2","Yellow pan trap","Lasioglossum algericolellum","species","other_wild_bees",1,2e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes2","Yellow pan trap","Lasioglossum algericolellum","species","other_wild_bees",1,2e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes2","Yellow pan trap","Lasioglossum algericolellum","species","other_wild_bees",1,2e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes2","Yellow pan trap","Lasioglossum algericolellum","species","other_wild_bees",1,2e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes2","Yellow pan trap","Lasioglossum algericolellum","species","other_wild_bees",1,2e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes2","Yellow pan trap","Lasioglossum algericolellum","species","other_wild_bees",1,2e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes2","White pan trap","Lasioglossum algericolellum","species","other_wild_bees",1,2e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes2","White pan trap","Lasioglossum algericolellum","species","other_wild_bees",1,2e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes2","White pan trap","Lasioglossum algericolellum","species","other_wild_bees",1,2e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes2","White pan trap","Lasioglossum algericolellum","species","other_wild_bees",1,2e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes2","White pan trap","Lasioglossum algericolellum","species","other_wild_bees",1,2e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes2","White pan trap","Lasioglossum algericolellum","species","other_wild_bees",1,2e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes2","White pan trap","Lasioglossum algericolellum","species","other_wild_bees",1,2e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes2","White pan trap","Lasioglossum algericolellum","species","other_wild_bees",1,2e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes2","White pan trap","Lasioglossum algericolellum","species","other_wild_bees",1,2e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes2","White pan trap","Lasioglossum algericolellum","species","other_wild_bees",1,2e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes2","White pan trap","Lasioglossum algericolellum","species","other_wild_bees",1,2e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes2","White pan trap","Lasioglossum algericolellum","species","other_wild_bees",1,2e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes2","White pan trap","Lasioglossum algericolellum","species","other_wild_bees",1,2e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes2","White pan trap","Lasioglossum algericolellum","species","other_wild_bees",1,2e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes2","White pan trap","Lasioglossum algericolellum","species","other_wild_bees",1,2e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes2","White pan trap","Lasioglossum algericolellum","species","other_wild_bees",1,2e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes2","White pan trap","Lasioglossum algericolellum","species","other_wild_bees",1,2e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes2","White pan trap","Lasioglossum algericolellum","species","other_wild_bees",1,2e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes2","White pan trap","Lasioglossum algericolellum","species","other_wild_bees",1,2e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes2","White pan trap","Lasioglossum algericolellum","species","other_wild_bees",1,2e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes2","White pan trap","Lasioglossum algericolellum","species","other_wild_bees",1,2e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes2","White pan trap","Lasioglossum algericolellum","species","other_wild_bees",1,2e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes2","White pan trap","Lasioglossum algericolellum","species","other_wild_bees",1,2e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes2","White pan trap","Lasioglossum algericolellum","species","other_wild_bees",1,2e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes2","White pan trap","Lasioglossum algericolellum","species","other_wild_bees",1,2e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes2","White pan trap","Lasioglossum algericolellum","species","other_wild_bees",1,2e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes2","White pan trap","Lasioglossum algericolellum","species","other_wild_bees",1,2e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes2","White pan trap","Lasioglossum algericolellum","species","other_wild_bees",1,2e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes2","White pan trap","Lasioglossum algericolellum","species","other_wild_bees",1,2e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes2","White pan trap","Lasioglossum algericolellum","species","other_wild_bees",1,2e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes2","White pan trap","Lasioglossum algericolellum","species","other_wild_bees",1,2e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes2","White pan trap","Lasioglossum algericolellum","species","other_wild_bees",1,2e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes2","White pan trap","Lasioglossum algericolellum","species","other_wild_bees",1,2e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes2","White pan trap","Lasioglossum algericolellum","species","other_wild_bees",1,2e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes2","White pan trap","Lasioglossum algericolellum","species","other_wild_bees",1,2e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes2","White pan trap","Lasioglossum algericolellum","species","other_wild_bees",1,2e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes2","White pan trap","Lasioglossum algericolellum","species","other_wild_bees",1,2e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes2","White pan trap","Lasioglossum algericolellum","species","other_wild_bees",1,2e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes2","White pan trap","Lasioglossum algericolellum","species","other_wild_bees",1,2e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes2","White pan trap","Lasioglossum algericolellum","species","other_wild_bees",1,2e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes2","White pan trap","Lasioglossum algericolellum","species","other_wild_bees",1,2e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes2","White pan trap","Lasioglossum algericolellum","species","other_wild_bees",1,2e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes2","White pan trap","Lasioglossum algericolellum","species","other_wild_bees",1,2e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes2","Blue pan trap","Lasioglossum interruptum","species","other_wild_bees",1,2e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes2","Blue pan trap","Lasioglossum interruptum","species","other_wild_bees",1,2e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes2","Blue pan trap","Lasioglossum interruptum","species","other_wild_bees",1,2e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes2","Yellow pan trap","Lasioglossum interruptum","species","other_wild_bees",1,2e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes2","Yellow pan trap","Lasioglossum interruptum","species","other_wild_bees",1,2e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes2","White pan trap","Lasioglossum interruptum","species","other_wild_bees",1,2e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes2","Yellow pan trap","Lasioglossum interruptum","species","other_wild_bees",1,2e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes2","Yellow pan trap","Lasioglossum interruptum","species","other_wild_bees",1,2e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes2","Yellow pan trap","Lasioglossum interruptum","species","other_wild_bees",1,2e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes2","Yellow pan trap","Lasioglossum interruptum","species","other_wild_bees",1,2e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes2","Yellow pan trap","Lasioglossum interruptum","species","other_wild_bees",1,2e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes2","Yellow pan trap","Lasioglossum interruptum","species","other_wild_bees",1,2e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes2","Yellow pan trap","Lasioglossum interruptum","species","other_wild_bees",1,2e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes2","Yellow pan trap","Lasioglossum interruptum","species","other_wild_bees",1,2e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes2","Yellow pan trap","Lasioglossum interruptum","species","other_wild_bees",1,2e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes2","Yellow pan trap","Lasioglossum interruptum","species","other_wild_bees",1,2e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes2","White pan trap","Lasioglossum interruptum","species","other_wild_bees",1,2e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes2","White pan trap","Lasioglossum interruptum","species","other_wild_bees",1,2e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes2","Blue pan trap","Lasioglossum leucozonium","species","other_wild_bees",1,2e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes2","Blue pan trap","Lasioglossum leucozonium","species","other_wild_bees",1,2e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes2","Blue pan trap","Lasioglossum leucozonium","species","other_wild_bees",1,2e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes2","Blue pan trap","Lasioglossum leucozonium","species","other_wild_bees",1,2e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes2","Yellow pan trap","Lasioglossum leucozonium","species","other_wild_bees",1,2e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes2","Yellow pan trap","Lasioglossum leucozonium","species","other_wild_bees",1,2e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes2","Yellow pan trap","Lasioglossum leucozonium","species","other_wild_bees",1,2e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes2","Yellow pan trap","Lasioglossum leucozonium","species","other_wild_bees",1,2e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes2","Yellow pan trap","Lasioglossum leucozonium","species","other_wild_bees",1,2e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes2","Yellow pan trap","Lasioglossum leucozonium","species","other_wild_bees",1,2e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes2","Yellow pan trap","Lasioglossum leucozonium","species","other_wild_bees",1,2e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes2","Yellow pan trap","Lasioglossum leucozonium","species","other_wild_bees",1,2e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes2","White pan trap","Lasioglossum leucozonium","species","other_wild_bees",1,2e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes2","White pan trap","Lasioglossum leucozonium","species","other_wild_bees",1,2e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes2","White pan trap","Lasioglossum leucozonium","species","other_wild_bees",1,2e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes2","Yellow pan trap","Lasioglossum leucozonium","species","other_wild_bees",1,2e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes2","Yellow pan trap","Lasioglossum leucozonium","species","other_wild_bees",1,2e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes2","Yellow pan trap","Lasioglossum leucozonium","species","other_wild_bees",1,2e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes2","Yellow pan trap","Lasioglossum leucozonium","species","other_wild_bees",1,2e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes2","Yellow pan trap","Lasioglossum leucozonium","species","other_wild_bees",1,2e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes2","Yellow pan trap","Lasioglossum leucozonium","species","other_wild_bees",1,2e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes2","Yellow pan trap","Lasioglossum leucozonium","species","other_wild_bees",1,2e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes2","Yellow pan trap","Lasioglossum leucozonium","species","other_wild_bees",1,2e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes2","Yellow pan trap","Lasioglossum leucozonium","species","other_wild_bees",1,2e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes2","Yellow pan trap","Lasioglossum leucozonium","species","other_wild_bees",1,2e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes2","Yellow pan trap","Lasioglossum leucozonium","species","other_wild_bees",1,2e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes2","Yellow pan trap","Lasioglossum leucozonium","species","other_wild_bees",1,2e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes2","Yellow pan trap","Lasioglossum leucozonium","species","other_wild_bees",1,2e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes2","Yellow pan trap","Lasioglossum leucozonium","species","other_wild_bees",1,2e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes2","Yellow pan trap","Lasioglossum leucozonium","species","other_wild_bees",1,2e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes2","Yellow pan trap","Lasioglossum leucozonium","species","other_wild_bees",1,2e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes2","Yellow pan trap","Lasioglossum leucozonium","species","other_wild_bees",1,2e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes2","Yellow pan trap","Lasioglossum leucozonium","species","other_wild_bees",1,2e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes2","Yellow pan trap","Lasioglossum leucozonium","species","other_wild_bees",1,2e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes2","Yellow pan trap","Lasioglossum leucozonium","species","other_wild_bees",1,2e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes2","Yellow pan trap","Lasioglossum leucozonium","species","other_wild_bees",1,2e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes2","Yellow pan trap","Lasioglossum leucozonium","species","other_wild_bees",1,2e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes2","Yellow pan trap","Lasioglossum leucozonium","species","other_wild_bees",1,2e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes2","Yellow pan trap","Lasioglossum leucozonium","species","other_wild_bees",1,2e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes2","Yellow pan trap","Lasioglossum leucozonium","species","other_wild_bees",1,2e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes2","Yellow pan trap","Lasioglossum leucozonium","species","other_wild_bees",1,2e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes2","Yellow pan trap","Lasioglossum leucozonium","species","other_wild_bees",1,2e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes2","Yellow pan trap","Lasioglossum leucozonium","species","other_wild_bees",1,2e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes2","Yellow pan trap","Lasioglossum leucozonium","species","other_wild_bees",1,2e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes2","Yellow pan trap","Lasioglossum leucozonium","species","other_wild_bees",1,2e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes2","Yellow pan trap","Lasioglossum leucozonium","species","other_wild_bees",1,2e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes2","Yellow pan trap","Lasioglossum leucozonium","species","other_wild_bees",1,2e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes2","Yellow pan trap","Lasioglossum leucozonium","species","other_wild_bees",1,2e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes2","Yellow pan trap","Lasioglossum leucozonium","species","other_wild_bees",1,2e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes2","Yellow pan trap","Lasioglossum leucozonium","species","other_wild_bees",1,2e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes2","Yellow pan trap","Lasioglossum leucozonium","species","other_wild_bees",1,2e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes2","Yellow pan trap","Lasioglossum leucozonium","species","other_wild_bees",1,2e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes2","Yellow pan trap","Lasioglossum leucozonium","species","other_wild_bees",1,2e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes2","Yellow pan trap","Lasioglossum leucozonium","species","other_wild_bees",1,2e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes2","Yellow pan trap","Lasioglossum leucozonium","species","other_wild_bees",1,2e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes2","Yellow pan trap","Lasioglossum leucozonium","species","other_wild_bees",1,2e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes2","Yellow pan trap","Lasioglossum leucozonium","species","other_wild_bees",1,2e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes2","Yellow pan trap","Lasioglossum leucozonium","species","other_wild_bees",1,2e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes2","Yellow pan trap","Lasioglossum leucozonium","species","other_wild_bees",1,2e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes2","Yellow pan trap","Lasioglossum leucozonium","species","other_wild_bees",1,2e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes2","Yellow pan trap","Lasioglossum leucozonium","species","other_wild_bees",1,2e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes2","Yellow pan trap","Lasioglossum leucozonium","species","other_wild_bees",1,2e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes2","Yellow pan trap","Lasioglossum leucozonium","species","other_wild_bees",1,2e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes2","Yellow pan trap","Lasioglossum leucozonium","species","other_wild_bees",1,2e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes2","Yellow pan trap","Lasioglossum leucozonium","species","other_wild_bees",1,2e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes2","Yellow pan trap","Lasioglossum leucozonium","species","other_wild_bees",1,2e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes2","Yellow pan trap","Lasioglossum leucozonium","species","other_wild_bees",1,2e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes2","Yellow pan trap","Lasioglossum leucozonium","species","other_wild_bees",1,2e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes2","Yellow pan trap","Lasioglossum leucozonium","species","other_wild_bees",1,2e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes2","Yellow pan trap","Lasioglossum leucozonium","species","other_wild_bees",1,2e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes2","Yellow pan trap","Lasioglossum leucozonium","species","other_wild_bees",1,2e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes2","Yellow pan trap","Lasioglossum leucozonium","species","other_wild_bees",1,2e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes2","Yellow pan trap","Lasioglossum leucozonium","species","other_wild_bees",1,2e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes2","Yellow pan trap","Lasioglossum leucozonium","species","other_wild_bees",1,2e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes2","Yellow pan trap","Lasioglossum leucozonium","species","other_wild_bees",1,2e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes2","White pan trap","Lasioglossum leucozonium","species","other_wild_bees",1,2e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes2","White pan trap","Lasioglossum leucozonium","species","other_wild_bees",1,2e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes2","Yellow pan trap","Lasioglossum leucozonium","species","other_wild_bees",1,2e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes2","Yellow pan trap","Lasioglossum leucozonium","species","other_wild_bees",1,2e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes2","Yellow pan trap","Lasioglossum leucozonium","species","other_wild_bees",1,2e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes2","White pan trap","Lasioglossum leucozonium","species","other_wild_bees",1,2e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes2","White pan trap","Lasioglossum leucozonium","species","other_wild_bees",1,2e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes2","White pan trap","Lasioglossum leucozonium","species","other_wild_bees",1,2e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes2","White pan trap","Lasioglossum leucozonium","species","other_wild_bees",1,2e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes2","White pan trap","Lasioglossum leucozonium","species","other_wild_bees",1,2e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes2","White pan trap","Lasioglossum leucozonium","species","other_wild_bees",1,2e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes2","White pan trap","Lasioglossum leucozonium","species","other_wild_bees",1,2e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes2","White pan trap","Lasioglossum leucozonium","species","other_wild_bees",1,2e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes2","White pan trap","Lasioglossum leucozonium","species","other_wild_bees",1,2e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes2","White pan trap","Lasioglossum leucozonium","species","other_wild_bees",1,2e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes2","White pan trap","Lasioglossum leucozonium","species","other_wild_bees",1,2e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes2","White pan trap","Lasioglossum lucidulum","species","other_wild_bees",1,2e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes2","Yellow pan trap","Lasioglossum lucidulum","species","other_wild_bees",1,2e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes2","Yellow pan trap","Lasioglossum malachurum","species","other_wild_bees",1,2e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes2","Blue pan trap","Lasioglossum malachurum","species","other_wild_bees",1,2e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes2","Blue pan trap","Lasioglossum malachurum","species","other_wild_bees",1,2e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes2","Blue pan trap","Lasioglossum malachurum","species","other_wild_bees",1,2e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes2","Blue pan trap","Lasioglossum malachurum","species","other_wild_bees",1,2e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes2","Blue pan trap","Lasioglossum malachurum","species","other_wild_bees",1,2e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes2","Blue pan trap","Lasioglossum malachurum","species","other_wild_bees",1,2e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes2","Yellow pan trap","Lasioglossum malachurum","species","other_wild_bees",1,2e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes2","Yellow pan trap","Lasioglossum malachurum","species","other_wild_bees",1,2e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes2","White pan trap","Lasioglossum malachurum","species","other_wild_bees",1,2e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes2","White pan trap","Lasioglossum malachurum","species","other_wild_bees",1,2e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes2","White pan trap","Lasioglossum malachurum","species","other_wild_bees",1,2e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes2","White pan trap","Lasioglossum malachurum","species","other_wild_bees",1,2e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes2","White pan trap","Lasioglossum malachurum","species","other_wild_bees",1,2e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes2","White pan trap","Lasioglossum malachurum","species","other_wild_bees",1,2e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes2","White pan trap","Lasioglossum malachurum","species","other_wild_bees",1,2e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes2","White pan trap","Lasioglossum malachurum","species","other_wild_bees",1,2e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes2","Yellow pan trap","Lasioglossum malachurum","species","other_wild_bees",1,2e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes2","Yellow pan trap","Lasioglossum malachurum","species","other_wild_bees",1,2e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes2","Yellow pan trap","Lasioglossum malachurum","species","other_wild_bees",1,2e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes2","Yellow pan trap","Lasioglossum malachurum","species","other_wild_bees",1,2e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes2","Yellow pan trap","Lasioglossum malachurum","species","other_wild_bees",1,2e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes2","Yellow pan trap","Lasioglossum malachurum","species","other_wild_bees",1,2e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes2","Yellow pan trap","Lasioglossum malachurum","species","other_wild_bees",1,2e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes2","Yellow pan trap","Lasioglossum malachurum","species","other_wild_bees",1,2e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes2","Yellow pan trap","Lasioglossum malachurum","species","other_wild_bees",1,2e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes2","Yellow pan trap","Lasioglossum malachurum","species","other_wild_bees",1,2e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes2","White pan trap","Lasioglossum minutissimum","species","other_wild_bees",1,2e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes2","Yellow pan trap","Lasioglossum minutissimum","species","other_wild_bees",1,2e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes2","Yellow pan trap","Lasioglossum minutissimum","species","other_wild_bees",1,2e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes2","Yellow pan trap","Lasioglossum minutissimum","species","other_wild_bees",1,2e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes2","Yellow pan trap","Lasioglossum minutissimum","species","other_wild_bees",1,2e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes2","White pan trap","Lasioglossum minutissimum","species","other_wild_bees",1,2e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes2","Blue pan trap","Lasioglossum musculum","species","other_wild_bees",1,2e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes2","Yellow pan trap","Lasioglossum musculum","species","other_wild_bees",1,2e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes2","Yellow pan trap","Lasioglossum musculum","species","other_wild_bees",1,2e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes2","White pan trap","Lasioglossum musculum","species","other_wild_bees",1,2e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes2","White pan trap","Lasioglossum musculum","species","other_wild_bees",1,2e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes2","Yellow pan trap","Lasioglossum musculum","species","other_wild_bees",1,2e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes2","White pan trap","Lasioglossum musculum","species","other_wild_bees",1,2e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes2","Yellow pan trap","Lasioglossum nitidiusculum","species","other_wild_bees",1,2e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes2","Blue pan trap","Lasioglossum pauperatum","species","other_wild_bees",1,2e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes2","White pan trap","Lasioglossum pauperatum","species","other_wild_bees",1,2e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes2","Blue pan trap","Lasioglossum subhirtum","species","other_wild_bees",1,2e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes2","Blue pan trap","Lasioglossum subhirtum","species","other_wild_bees",1,2e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes2","Yellow pan trap","Lasioglossum subhirtum","species","other_wild_bees",1,2e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes2","Blue pan trap","Lasioglossum subhirtum","species","other_wild_bees",1,2e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes2","Yellow pan trap","Lasioglossum subhirtum","species","other_wild_bees",1,2e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes2","Yellow pan trap","Lasioglossum subhirtum","species","other_wild_bees",1,2e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes2","Yellow pan trap","Lasioglossum subhirtum","species","other_wild_bees",1,2e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes2","Yellow pan trap","Lasioglossum subhirtum","species","other_wild_bees",1,2e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes2","Yellow pan trap","Lasioglossum subhirtum","species","other_wild_bees",1,2e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes2","Yellow pan trap","Lasioglossum subhirtum","species","other_wild_bees",1,2e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes2","Yellow pan trap","Lasioglossum subhirtum","species","other_wild_bees",1,2e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes2","Yellow pan trap","Lasioglossum subhirtum","species","other_wild_bees",1,2e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes2","Yellow pan trap","Lasioglossum subhirtum","species","other_wild_bees",1,2e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes2","Yellow pan trap","Lasioglossum subhirtum","species","other_wild_bees",1,2e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes2","White pan trap","Lasioglossum subhirtum","species","other_wild_bees",1,2e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes2","White pan trap","Lasioglossum subhirtum","species","other_wild_bees",1,2e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes2","White pan trap","Lasioglossum subhirtum","species","other_wild_bees",1,2e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes2","White pan trap","Lasioglossum subhirtum","species","other_wild_bees",1,2e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes2","White pan trap","Lasioglossum subhirtum","species","other_wild_bees",1,2e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes2","White pan trap","Lasioglossum subhirtum","species","other_wild_bees",1,2e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes2","White pan trap","Lasioglossum subhirtum","species","other_wild_bees",1,2e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes2","White pan trap","Lasioglossum subhirtum","species","other_wild_bees",1,2e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes2","White pan trap","Lasioglossum subhirtum","species","other_wild_bees",1,2e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes2","Yellow pan trap","Lasioglossum subhirtum","species","other_wild_bees",1,2e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes2","Yellow pan trap","Lasioglossum subhirtum","species","other_wild_bees",1,2e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes2","Yellow pan trap","Lasioglossum subhirtum","species","other_wild_bees",1,2e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes2","Yellow pan trap","Lasioglossum subhirtum","species","other_wild_bees",1,2e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes2","Yellow pan trap","Lasioglossum subhirtum","species","other_wild_bees",1,2e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes2","Yellow pan trap","Lasioglossum subhirtum","species","other_wild_bees",1,2e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes2","White pan trap","Lasioglossum subhirtum","species","other_wild_bees",1,2e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes2","White pan trap","Lasioglossum subhirtum","species","other_wild_bees",1,2e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes2","White pan trap","Lasioglossum subhirtum","species","other_wild_bees",1,2e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes2","White pan trap","Lasioglossum subhirtum","species","other_wild_bees",1,2e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes2","White pan trap","Lasioglossum subhirtum","species","other_wild_bees",1,2e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes2","White pan trap","Lasioglossum subhirtum","species","other_wild_bees",1,2e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes2","White pan trap","Lasioglossum subhirtum","species","other_wild_bees",1,2e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes2","Yellow pan trap","Lasioglossum villosulum","species","other_wild_bees",1,2e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes2","Yellow pan trap","Lasioglossum villosulum","species","other_wild_bees",1,2e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes2","Yellow pan trap","Lasioglossum villosulum","species","other_wild_bees",1,2e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes2","Yellow pan trap","Lasioglossum villosulum","species","other_wild_bees",1,2e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes2","Yellow pan trap","Lasioglossum villosulum","species","other_wild_bees",1,2e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes2","Yellow pan trap","Lasioglossum villosulum","species","other_wild_bees",1,2e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes2","Yellow pan trap","Lasioglossum villosulum","species","other_wild_bees",1,2e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes2","White pan trap","Lasioglossum villosulum","species","other_wild_bees",1,2e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes2","Yellow pan trap","Osmia cinnabarina","species","other_wild_bees",1,2e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes2","Yellow pan trap","Seladonia gemmea","species","other_wild_bees",1,2e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes2","Yellow pan trap","Seladonia gemmea","species","other_wild_bees",1,2e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Morocco_2019","Fes2","Yellow pan trap","Seladonia smaragdula","species","other_wild_bees",1,2e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Croix du Merle","Net","Andrena bicolor","species","other_wild_bees",1,20000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Croix du Merle","Net","Andrena bicolor","species","other_wild_bees",1,20000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Croix du Merle","Yellow pan trap","Andrena bicolor","species","other_wild_bees",1,20000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Croix du Merle","Blue pan trap","Andrena bicolor","species","other_wild_bees",1,20000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Croix du Merle","White pan trap","Andrena bicolor","species","other_wild_bees",1,20000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Croix du Merle","White pan trap","Andrena bicolor","species","other_wild_bees",1,20000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Croix du Merle","Yellow pan trap","Andrena bicolor","species","other_wild_bees",1,20000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Croix du Merle","White pan trap","Andrena bicolor","species","other_wild_bees",1,20000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Croix du Merle","White pan trap","Andrena bicolor","species","other_wild_bees",1,20000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Croix du Merle","White pan trap","Andrena bicolor","species","other_wild_bees",1,20000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Croix du Merle","Yellow pan trap","Andrena bicolor","species","other_wild_bees",1,20000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Croix du Merle","Blue pan trap","Andrena bicolor","species","other_wild_bees",1,20000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Croix du Merle","Blue pan trap","Andrena bicolor","species","other_wild_bees",1,20000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Croix du Merle","White pan trap","Andrena bicolor","species","other_wild_bees",1,20000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Croix du Merle","White pan trap","Andrena bicolor","species","other_wild_bees",1,20000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Croix du Merle","White pan trap","Andrena bicolor","species","other_wild_bees",1,20000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Croix du Merle","Yellow pan trap","Andrena dorsata","species","other_wild_bees",1,20000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Croix du Merle","Yellow pan trap","Andrena dorsata","species","other_wild_bees",1,20000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Croix du Merle","Yellow pan trap","Andrena dorsata","species","other_wild_bees",1,20000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Croix du Merle","White pan trap","Andrena dorsata","species","other_wild_bees",1,20000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Croix du Merle","White pan trap","Andrena dorsata","species","other_wild_bees",1,20000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Croix du Merle","White pan trap","Andrena dorsata","species","other_wild_bees",1,20000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Croix du Merle","White pan trap","Andrena dorsata","species","other_wild_bees",1,20000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Croix du Merle","Blue pan trap","Andrena dorsata","species","other_wild_bees",1,20000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Croix du Merle","Net","Andrena dorsata","species","other_wild_bees",1,20000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Croix du Merle","Net","Andrena dorsata","species","other_wild_bees",1,20000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Croix du Merle","Net","Andrena dorsata","species","other_wild_bees",1,20000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Croix du Merle","Yellow pan trap","Andrena dorsata","species","other_wild_bees",1,20000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Croix du Merle","Yellow pan trap","Andrena dorsata","species","other_wild_bees",1,20000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Croix du Merle","Yellow pan trap","Andrena dorsata","species","other_wild_bees",1,20000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Croix du Merle","White pan trap","Andrena flavipes","species","other_wild_bees",1,20000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Croix du Merle","Net","Andrena gravida","species","other_wild_bees",1,20000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Croix du Merle","Net","Andrena gravida","species","other_wild_bees",1,20000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Croix du Merle","White pan trap","Andrena gravida","species","other_wild_bees",1,20000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Croix du Merle","White pan trap","Andrena gravida","species","other_wild_bees",1,20000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Croix du Merle","Yellow pan trap","Andrena gravida","species","other_wild_bees",1,20000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Croix du Merle","White pan trap","Andrena gravida","species","other_wild_bees",1,20000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Croix du Merle","Net","Andrena haemorrhoa","species","other_wild_bees",1,20000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Croix du Merle","Net","Andrena haemorrhoa","species","other_wild_bees",1,20000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Croix du Merle","Yellow pan trap","Andrena hesperia","species","other_wild_bees",1,20000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Croix du Merle","Yellow pan trap","Andrena humilis","species","other_wild_bees",1,20000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Croix du Merle","Blue pan trap","Andrena humilis","species","other_wild_bees",1,20000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Croix du Merle","White pan trap","Andrena humilis","species","other_wild_bees",1,20000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Croix du Merle","Yellow pan trap","Andrena minutula","species","other_wild_bees",1,20000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Croix du Merle","Yellow pan trap","Andrena minutula","species","other_wild_bees",1,20000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Croix du Merle","Yellow pan trap","Andrena minutula","species","other_wild_bees",1,20000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Croix du Merle","Yellow pan trap","Andrena minutula","species","other_wild_bees",1,20000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Croix du Merle","White pan trap","Andrena minutula","species","other_wild_bees",1,20000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Croix du Merle","White pan trap","Andrena minutula","species","other_wild_bees",1,20000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Croix du Merle","White pan trap","Andrena minutula","species","other_wild_bees",1,20000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Croix du Merle","White pan trap","Andrena minutula","species","other_wild_bees",1,20000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Croix du Merle","Yellow pan trap","Andrena minutula","species","other_wild_bees",1,20000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Croix du Merle","Yellow pan trap","Andrena minutula","species","other_wild_bees",1,20000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Croix du Merle","Yellow pan trap","Andrena minutula","species","other_wild_bees",1,20000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Croix du Merle","White pan trap","Andrena minutula","species","other_wild_bees",1,20000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Croix du Merle","White pan trap","Andrena minutula","species","other_wild_bees",1,20000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Croix du Merle","White pan trap","Andrena minutula","species","other_wild_bees",1,20000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Croix du Merle","White pan trap","Andrena minutula","species","other_wild_bees",1,20000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Croix du Merle","White pan trap","Andrena minutula","species","other_wild_bees",1,20000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Croix du Merle","White pan trap","Andrena minutula","species","other_wild_bees",1,20000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Croix du Merle","Net","Andrena minutula","species","other_wild_bees",1,20000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Croix du Merle","Yellow pan trap","Andrena minutula","species","other_wild_bees",1,20000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Croix du Merle","Yellow pan trap","Andrena minutula","species","other_wild_bees",1,20000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Croix du Merle","White pan trap","Andrena minutula","species","other_wild_bees",1,20000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Croix du Merle","White pan trap","Andrena minutula","species","other_wild_bees",1,20000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Croix du Merle","White pan trap","Andrena minutula","species","other_wild_bees",1,20000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Croix du Merle","Net","Andrena nitida","species","other_wild_bees",1,20000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Croix du Merle","Yellow pan trap","Andrena nitida","species","other_wild_bees",1,20000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Croix du Merle","Yellow pan trap","Andrena nitida","species","other_wild_bees",1,20000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Croix du Merle","Net","Andrena nitida","species","other_wild_bees",1,20000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Croix du Merle","Net","Anthophora plumipes","species","other_wild_bees",1,20000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Croix du Merle","Net","Anthophora plumipes","species","other_wild_bees",1,20000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Croix du Merle","Net","Anthophora plumipes","species","other_wild_bees",1,20000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Croix du Merle","Net","Anthophora plumipes","species","other_wild_bees",1,20000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Croix du Merle","Net","Anthophora plumipes","species","other_wild_bees",1,20000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Croix du Merle","Net","Anthophora plumipes","species","other_wild_bees",1,20000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Croix du Merle","Net","Anthophora plumipes","species","other_wild_bees",1,20000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Croix du Merle","Net","Anthophora plumipes","species","other_wild_bees",1,20000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Croix du Merle","Net","Anthophora plumipes","species","other_wild_bees",1,20000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Croix du Merle","Net","Anthophora plumipes","species","other_wild_bees",1,20000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Croix du Merle","Net","Anthophora plumipes","species","other_wild_bees",1,20000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Croix du Merle","Net","Anthophora plumipes","species","other_wild_bees",1,20000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Croix du Merle","Net","Anthophora plumipes","species","other_wild_bees",1,20000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Croix du Merle","Net","Anthophora plumipes","species","other_wild_bees",1,20000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Croix du Merle","Net","Anthophora plumipes","species","other_wild_bees",1,20000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Croix du Merle","Net","Anthophora plumipes","species","other_wild_bees",1,20000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Croix du Merle","Net","Anthophora plumipes","species","other_wild_bees",1,20000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Croix du Merle","Net","Anthophora plumipes","species","other_wild_bees",1,20000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Croix du Merle","Net","Anthophora plumipes","species","other_wild_bees",1,20000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Croix du Merle","Net","Anthophora plumipes","species","other_wild_bees",1,20000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Croix du Merle","Net","Anthophora plumipes","species","other_wild_bees",1,20000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Croix du Merle","Net","Anthophora plumipes","species","other_wild_bees",1,20000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Croix du Merle","Net","Anthophora plumipes","species","other_wild_bees",1,20000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Croix du Merle","Net","Anthophora plumipes","species","other_wild_bees",1,20000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Croix du Merle","Net","Anthophora plumipes","species","other_wild_bees",1,20000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Croix du Merle","Net","Anthophora plumipes","species","other_wild_bees",1,20000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Croix du Merle","Net","Anthophora plumipes","species","other_wild_bees",1,20000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Croix du Merle","Net","Anthophora plumipes","species","other_wild_bees",1,20000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Croix du Merle","Net","Anthophora plumipes","species","other_wild_bees",1,20000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Croix du Merle","Net","Anthophora plumipes","species","other_wild_bees",1,20000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Croix du Merle","Net","Apis mellifera","species","honeybees",1,20000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Croix du Merle","Net","Apis mellifera","species","honeybees",1,20000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Croix du Merle","Net","Apis mellifera","species","honeybees",1,20000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Croix du Merle","Net","Apis mellifera","species","honeybees",1,20000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Croix du Merle","Net","Apis mellifera","species","honeybees",1,20000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Croix du Merle","Net","Apis mellifera","species","honeybees",1,20000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Croix du Merle","Net","Apis mellifera","species","honeybees",1,20000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Croix du Merle","Net","Apis mellifera","species","honeybees",1,20000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Croix du Merle","Net","Apis mellifera","species","honeybees",1,20000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Croix du Merle","Net","Apis mellifera","species","honeybees",1,20000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Croix du Merle","Net","Apis mellifera","species","honeybees",1,20000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Croix du Merle","Net","Apis mellifera","species","honeybees",1,20000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Croix du Merle","Net","Apis mellifera","species","honeybees",1,20000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Croix du Merle","Net","Apis mellifera","species","honeybees",1,20000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Croix du Merle","Net","Apis mellifera","species","honeybees",1,20000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Croix du Merle","Net","Apis mellifera","species","honeybees",1,20000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Croix du Merle","Net","Apis mellifera","species","honeybees",1,20000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Croix du Merle","Net","Apis mellifera","species","honeybees",1,20000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Croix du Merle","Net","Apis mellifera","species","honeybees",1,20000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Croix du Merle","Net","Apis mellifera","species","honeybees",1,20000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Croix du Merle","Net","Apis mellifera","species","honeybees",1,20000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Croix du Merle","Net","Apis mellifera","species","honeybees",1,20000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Croix du Merle","Net","Apis mellifera","species","honeybees",1,20000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Croix du Merle","Net","Apis mellifera","species","honeybees",1,20000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Croix du Merle","Net","Apis mellifera","species","honeybees",1,20000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Croix du Merle","Net","Apis mellifera","species","honeybees",1,20000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Croix du Merle","Net","Apis mellifera","species","honeybees",1,20000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Croix du Merle","Net","Apis mellifera","species","honeybees",1,20000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Croix du Merle","Net","Apis mellifera","species","honeybees",1,20000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Croix du Merle","Net","Apis mellifera","species","honeybees",1,20000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Croix du Merle","Net","Apis mellifera","species","honeybees",1,20000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Croix du Merle","Net","Apis mellifera","species","honeybees",1,20000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Croix du Merle","Net","Apis mellifera","species","honeybees",1,20000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Croix du Merle","Net","Apis mellifera","species","honeybees",1,20000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Croix du Merle","Net","Apis mellifera","species","honeybees",1,20000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Croix du Merle","Net","Apis mellifera","species","honeybees",1,20000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Croix du Merle","Net","Apis mellifera","species","honeybees",1,20000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Croix du Merle","Net","Apis mellifera","species","honeybees",1,20000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Croix du Merle","Net","Apis mellifera","species","honeybees",1,20000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Croix du Merle","Net","Apis mellifera","species","honeybees",1,20000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Croix du Merle","Net","Apis mellifera","species","honeybees",1,20000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Croix du Merle","Net","Apis mellifera","species","honeybees",1,20000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Croix du Merle","Net","Apis mellifera","species","honeybees",1,20000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Croix du Merle","Net","Apis mellifera","species","honeybees",1,20000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Croix du Merle","Net","Apis mellifera","species","honeybees",1,20000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Croix du Merle","Net","Bombus hortorum","species","bumblebees",1,20000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Croix du Merle","Net","Bombus hortorum","species","bumblebees",1,20000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Croix du Merle","Net","Bombus hypnorum","species","bumblebees",1,20000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Croix du Merle","Net","Bombus lapidarius","species","bumblebees",1,20000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Croix du Merle","Net","Bombus lapidarius","species","bumblebees",1,20000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Croix du Merle","Net","Bombus lapidarius","species","bumblebees",1,20000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Croix du Merle","Net","Bombus lapidarius","species","bumblebees",1,20000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Croix du Merle","Net","Bombus lapidarius","species","bumblebees",1,20000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Croix du Merle","Net","Bombus lapidarius","species","bumblebees",1,20000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Croix du Merle","Net","Bombus lapidarius","species","bumblebees",1,20000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Croix du Merle","Net","Bombus lapidarius","species","bumblebees",1,20000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Croix du Merle","Blue pan trap","Bombus lapidarius","species","bumblebees",1,20000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Croix du Merle","Net","Bombus lapidarius","species","bumblebees",1,20000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Croix du Merle","Net","Bombus lapidarius","species","bumblebees",1,20000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Croix du Merle","Net","Bombus lapidarius","species","bumblebees",1,20000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Croix du Merle","Net","Bombus lapidarius","species","bumblebees",1,20000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Croix du Merle","Net","Bombus lapidarius","species","bumblebees",1,20000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Croix du Merle","Net","Bombus lapidarius","species","bumblebees",1,20000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Croix du Merle","Net","Bombus lapidarius","species","bumblebees",1,20000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Croix du Merle","Net","Bombus lapidarius","species","bumblebees",1,20000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Croix du Merle","Net","Bombus pascuorum","species","bumblebees",1,20000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Croix du Merle","Net","Bombus pascuorum","species","bumblebees",1,20000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Croix du Merle","Net","Bombus pascuorum","species","bumblebees",1,20000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Croix du Merle","Net","Bombus pascuorum","species","bumblebees",1,20000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Croix du Merle","Net","Bombus pascuorum","species","bumblebees",1,20000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Croix du Merle","Net","Bombus pascuorum","species","bumblebees",1,20000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Croix du Merle","Net","Bombus pascuorum","species","bumblebees",1,20000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Croix du Merle","Net","Bombus pascuorum","species","bumblebees",1,20000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Croix du Merle","Net","Bombus pascuorum","species","bumblebees",1,20000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Croix du Merle","Net","Bombus pascuorum","species","bumblebees",1,20000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Croix du Merle","Net","Bombus pascuorum","species","bumblebees",1,20000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Croix du Merle","Net","Bombus pascuorum","species","bumblebees",1,20000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Croix du Merle","Net","Bombus pascuorum","species","bumblebees",1,20000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Croix du Merle","Net","Bombus pascuorum","species","bumblebees",1,20000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Croix du Merle","Net","Bombus pascuorum","species","bumblebees",1,20000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Croix du Merle","Net","Bombus pascuorum","species","bumblebees",1,20000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Croix du Merle","Net","Bombus pascuorum","species","bumblebees",1,20000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Croix du Merle","Net","Bombus pascuorum","species","bumblebees",1,20000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Croix du Merle","Net","Bombus pascuorum","species","bumblebees",1,20000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Croix du Merle","Net","Bombus pascuorum","species","bumblebees",1,20000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Croix du Merle","Net","Bombus pascuorum","species","bumblebees",1,20000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Croix du Merle","Net","Bombus pascuorum","species","bumblebees",1,20000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Croix du Merle","Net","Bombus pascuorum","species","bumblebees",1,20000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Croix du Merle","Net","Bombus pascuorum","species","bumblebees",1,20000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Croix du Merle","Net","Bombus pascuorum","species","bumblebees",1,20000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Croix du Merle","Net","Bombus pascuorum","species","bumblebees",1,20000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Croix du Merle","Net","Bombus pascuorum","species","bumblebees",1,20000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Croix du Merle","Net","Bombus pascuorum","species","bumblebees",1,20000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Croix du Merle","Net","Bombus pascuorum","species","bumblebees",1,20000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Croix du Merle","Net","Bombus pascuorum","species","bumblebees",1,20000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Croix du Merle","Net","Bombus pascuorum","species","bumblebees",1,20000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Croix du Merle","Net","Bombus pascuorum","species","bumblebees",1,20000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Croix du Merle","Net","Bombus pascuorum","species","bumblebees",1,20000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Croix du Merle","Net","Bombus pascuorum","species","bumblebees",1,20000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Croix du Merle","Net","Bombus pascuorum","species","bumblebees",1,20000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Croix du Merle","Net","Bombus pascuorum","species","bumblebees",1,20000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Croix du Merle","Net","Bombus pascuorum","species","bumblebees",1,20000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Croix du Merle","Net","Bombus pascuorum","species","bumblebees",1,20000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Croix du Merle","Net","Bombus pascuorum","species","bumblebees",1,20000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Croix du Merle","Net","Bombus pascuorum","species","bumblebees",1,20000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Croix du Merle","Net","Bombus pascuorum","species","bumblebees",1,20000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Croix du Merle","Net","Bombus pascuorum","species","bumblebees",1,20000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Croix du Merle","Net","Bombus pascuorum","species","bumblebees",1,20000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Croix du Merle","Net","Bombus pascuorum","species","bumblebees",1,20000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Croix du Merle","Net","Bombus pratorum","species","bumblebees",1,20000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Croix du Merle","Net","Bombus pratorum","species","bumblebees",1,20000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Croix du Merle","Net","Bombus pratorum","species","bumblebees",1,20000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Croix du Merle","Net","Bombus pratorum","species","bumblebees",1,20000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Croix du Merle","Net","Bombus pratorum","species","bumblebees",1,20000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Croix du Merle","Net","Bombus pratorum","species","bumblebees",1,20000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Croix du Merle","Net","Bombus pratorum","species","bumblebees",1,20000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Croix du Merle","Net","Bombus ruderarius","species","bumblebees",1,20000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Croix du Merle","Net","Bombus ruderarius","species","bumblebees",1,20000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Croix du Merle","Net","Bombus ruderarius","species","bumblebees",1,20000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Croix du Merle","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,20000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Croix du Merle","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,20000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Croix du Merle","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,20000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Croix du Merle","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,20000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Croix du Merle","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,20000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Croix du Merle","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,20000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Croix du Merle","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,20000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Croix du Merle","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,20000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Croix du Merle","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,20000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Croix du Merle","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,20000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Croix du Merle","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,20000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Croix du Merle","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,20000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Croix du Merle","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,20000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Croix du Merle","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,20000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Croix du Merle","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,20000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Croix du Merle","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,20000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Croix du Merle","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,20000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Croix du Merle","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,20000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Croix du Merle","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,20000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Croix du Merle","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,20000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Croix du Merle","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,20000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Croix du Merle","White pan trap","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,20000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Croix du Merle","Blue pan trap","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,20000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Croix du Merle","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,20000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Croix du Merle","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,20000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Croix du Merle","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,20000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Croix du Merle","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,20000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Croix du Merle","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,20000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Croix du Merle","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,20000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Croix du Merle","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,20000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Croix du Merle","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,20000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Croix du Merle","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,20000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Croix du Merle","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,20000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Croix du Merle","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,20000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Croix du Merle","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,20000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Croix du Merle","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,20000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Croix du Merle","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,20000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Croix du Merle","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,20000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Croix du Merle","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,20000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Croix du Merle","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,20000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Croix du Merle","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,20000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Croix du Merle","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,20000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Croix du Merle","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,20000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Croix du Merle","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,20000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Croix du Merle","Blue pan trap","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,20000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Croix du Merle","White pan trap","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,20000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Croix du Merle","Net","Halictus rubicundus","species","other_wild_bees",1,20000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Croix du Merle","White pan trap","Halictus rubicundus","species","other_wild_bees",1,20000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Croix du Merle","Yellow pan trap","Lasioglossum calceatum","species","other_wild_bees",1,20000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Croix du Merle","White pan trap","Lasioglossum calceatum","species","other_wild_bees",1,20000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Croix du Merle","Net","Lasioglossum calceatum","species","other_wild_bees",1,20000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Croix du Merle","White pan trap","Lasioglossum calceatum","species","other_wild_bees",1,20000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Croix du Merle","Yellow pan trap","Lasioglossum morio","species","other_wild_bees",1,20000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Croix du Merle","White pan trap","Lasioglossum morio","species","other_wild_bees",1,20000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Croix du Merle","White pan trap","Lasioglossum morio","species","other_wild_bees",1,20000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Croix du Merle","White pan trap","Lasioglossum morio","species","other_wild_bees",1,20000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Croix du Merle","White pan trap","Lasioglossum morio","species","other_wild_bees",1,20000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Croix du Merle","White pan trap","Lasioglossum morio","species","other_wild_bees",1,20000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Croix du Merle","White pan trap","Lasioglossum morio","species","other_wild_bees",1,20000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Croix du Merle","White pan trap","Lasioglossum morio","species","other_wild_bees",1,20000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Croix du Merle","White pan trap","Lasioglossum morio","species","other_wild_bees",1,20000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Croix du Merle","White pan trap","Lasioglossum morio","species","other_wild_bees",1,20000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Croix du Merle","White pan trap","Lasioglossum morio","species","other_wild_bees",1,20000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Croix du Merle","White pan trap","Lasioglossum pallens","species","other_wild_bees",1,20000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Croix du Merle","White pan trap","Lasioglossum pauxillum","species","other_wild_bees",1,20000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Croix du Merle","Yellow pan trap","Nomada zonata","species","other_wild_bees",1,20000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Croix du Merle","Net","Osmia cornuta","species","other_wild_bees",1,20000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Croix du Merle","Yellow pan trap","Seladonia tumulora","species","other_wild_bees",1,20000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Croix du Merle","White pan trap","Sphecodes ruficrus","species","other_wild_bees",1,20000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Croix du Merle","Net","Xylocopa violacea","species","other_wild_bees",1,20000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Croix du Merle","Net","Xylocopa violacea","species","other_wild_bees",1,20000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Rochette","White pan trap","Andrena bicolor","species","other_wild_bees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Rochette","Yellow pan trap","Andrena cineraria","species","other_wild_bees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Rochette","Net","Andrena cineraria","species","other_wild_bees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Rochette","Net","Andrena cineraria","species","other_wild_bees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Rochette","Net","Andrena cineraria","species","other_wild_bees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Rochette","Yellow pan trap","Andrena dorsata","species","other_wild_bees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Rochette","Yellow pan trap","Andrena dorsata","species","other_wild_bees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Rochette","Yellow pan trap","Andrena dorsata","species","other_wild_bees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Rochette","Yellow pan trap","Andrena dorsata","species","other_wild_bees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Rochette","Yellow pan trap","Andrena dorsata","species","other_wild_bees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Rochette","Yellow pan trap","Andrena dorsata","species","other_wild_bees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Rochette","Yellow pan trap","Andrena dorsata","species","other_wild_bees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Rochette","Yellow pan trap","Andrena dorsata","species","other_wild_bees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Rochette","White pan trap","Andrena dorsata","species","other_wild_bees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Rochette","White pan trap","Andrena dorsata","species","other_wild_bees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Rochette","Yellow pan trap","Andrena dorsata","species","other_wild_bees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Rochette","Yellow pan trap","Andrena dorsata","species","other_wild_bees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Rochette","Yellow pan trap","Andrena dorsata","species","other_wild_bees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Rochette","Yellow pan trap","Andrena dorsata","species","other_wild_bees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Rochette","Yellow pan trap","Andrena dorsata","species","other_wild_bees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Rochette","Yellow pan trap","Andrena dorsata","species","other_wild_bees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Rochette","Yellow pan trap","Andrena dorsata","species","other_wild_bees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Rochette","Yellow pan trap","Andrena dorsata","species","other_wild_bees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Rochette","Yellow pan trap","Andrena dorsata","species","other_wild_bees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Rochette","Yellow pan trap","Andrena dorsata","species","other_wild_bees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Rochette","Yellow pan trap","Andrena dorsata","species","other_wild_bees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Rochette","Yellow pan trap","Andrena dorsata","species","other_wild_bees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Rochette","Yellow pan trap","Andrena dorsata","species","other_wild_bees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Rochette","Yellow pan trap","Andrena dorsata","species","other_wild_bees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Rochette","Yellow pan trap","Andrena dorsata","species","other_wild_bees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Rochette","Yellow pan trap","Andrena dorsata","species","other_wild_bees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Rochette","Yellow pan trap","Andrena dorsata","species","other_wild_bees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Rochette","Yellow pan trap","Andrena dorsata","species","other_wild_bees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Rochette","Net","Andrena dorsata","species","other_wild_bees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Rochette","Net","Andrena dorsata","species","other_wild_bees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Rochette","Net","Andrena dorsata","species","other_wild_bees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Rochette","Net","Andrena dorsata","species","other_wild_bees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Rochette","Net","Andrena dorsata","species","other_wild_bees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Rochette","Yellow pan trap","Andrena dorsata","species","other_wild_bees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Rochette","Yellow pan trap","Andrena dorsata","species","other_wild_bees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Rochette","Yellow pan trap","Andrena flavipes","species","other_wild_bees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Rochette","Yellow pan trap","Andrena flavipes","species","other_wild_bees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Rochette","Yellow pan trap","Andrena flavipes","species","other_wild_bees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Rochette","Yellow pan trap","Andrena flavipes","species","other_wild_bees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Rochette","Yellow pan trap","Andrena flavipes","species","other_wild_bees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Rochette","Yellow pan trap","Andrena flavipes","species","other_wild_bees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Rochette","Yellow pan trap","Andrena flavipes","species","other_wild_bees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Rochette","White pan trap","Andrena flavipes","species","other_wild_bees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Rochette","Yellow pan trap","Andrena flavipes","species","other_wild_bees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Rochette","Yellow pan trap","Andrena flavipes","species","other_wild_bees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Rochette","Yellow pan trap","Andrena flavipes","species","other_wild_bees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Rochette","Yellow pan trap","Andrena fulva","species","other_wild_bees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Rochette","White pan trap","Andrena gravida","species","other_wild_bees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Rochette","White pan trap","Andrena gravida","species","other_wild_bees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Rochette","White pan trap","Andrena gravida","species","other_wild_bees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Rochette","White pan trap","Andrena gravida","species","other_wild_bees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Rochette","White pan trap","Andrena gravida","species","other_wild_bees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Rochette","White pan trap","Andrena gravida","species","other_wild_bees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Rochette","White pan trap","Andrena gravida","species","other_wild_bees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Rochette","Yellow pan trap","Andrena gravida","species","other_wild_bees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Rochette","Yellow pan trap","Andrena gravida","species","other_wild_bees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Rochette","Yellow pan trap","Andrena gravida","species","other_wild_bees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Rochette","Yellow pan trap","Andrena gravida","species","other_wild_bees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Rochette","Yellow pan trap","Andrena gravida","species","other_wild_bees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Rochette","Yellow pan trap","Andrena gravida","species","other_wild_bees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Rochette","Yellow pan trap","Andrena gravida","species","other_wild_bees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Rochette","Yellow pan trap","Andrena gravida","species","other_wild_bees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Rochette","Yellow pan trap","Andrena gravida","species","other_wild_bees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Rochette","Yellow pan trap","Andrena gravida","species","other_wild_bees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Rochette","Yellow pan trap","Andrena gravida","species","other_wild_bees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Rochette","Yellow pan trap","Andrena gravida","species","other_wild_bees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Rochette","Yellow pan trap","Andrena gravida","species","other_wild_bees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Rochette","Yellow pan trap","Andrena gravida","species","other_wild_bees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Rochette","Yellow pan trap","Andrena gravida","species","other_wild_bees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Rochette","Yellow pan trap","Andrena gravida","species","other_wild_bees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Rochette","Yellow pan trap","Andrena gravida","species","other_wild_bees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Rochette","Yellow pan trap","Andrena gravida","species","other_wild_bees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Rochette","Yellow pan trap","Andrena gravida","species","other_wild_bees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Rochette","Yellow pan trap","Andrena gravida","species","other_wild_bees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Rochette","Blue pan trap","Andrena gravida","species","other_wild_bees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Rochette","Blue pan trap","Andrena gravida","species","other_wild_bees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Rochette","Blue pan trap","Andrena gravida","species","other_wild_bees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Rochette","White pan trap","Andrena gravida","species","other_wild_bees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Rochette","White pan trap","Andrena gravida","species","other_wild_bees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Rochette","White pan trap","Andrena gravida","species","other_wild_bees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Rochette","White pan trap","Andrena gravida","species","other_wild_bees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Rochette","White pan trap","Andrena gravida","species","other_wild_bees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Rochette","Yellow pan trap","Andrena gravida","species","other_wild_bees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Rochette","Yellow pan trap","Andrena gravida","species","other_wild_bees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Rochette","Yellow pan trap","Andrena gravida","species","other_wild_bees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Rochette","Yellow pan trap","Andrena gravida","species","other_wild_bees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Rochette","Yellow pan trap","Andrena gravida","species","other_wild_bees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Rochette","Yellow pan trap","Andrena gravida","species","other_wild_bees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Rochette","Yellow pan trap","Andrena gravida","species","other_wild_bees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Rochette","Yellow pan trap","Andrena gravida","species","other_wild_bees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Rochette","Yellow pan trap","Andrena gravida","species","other_wild_bees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Rochette","Yellow pan trap","Andrena gravida","species","other_wild_bees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Rochette","Yellow pan trap","Andrena gravida","species","other_wild_bees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Rochette","Yellow pan trap","Andrena gravida","species","other_wild_bees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Rochette","Yellow pan trap","Andrena gravida","species","other_wild_bees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Rochette","Yellow pan trap","Andrena gravida","species","other_wild_bees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Rochette","Yellow pan trap","Andrena gravida","species","other_wild_bees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Rochette","Yellow pan trap","Andrena gravida","species","other_wild_bees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Rochette","Yellow pan trap","Andrena gravida","species","other_wild_bees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Rochette","Net","Andrena gravida","species","other_wild_bees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Rochette","Net","Andrena gravida","species","other_wild_bees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Rochette","Net","Andrena gravida","species","other_wild_bees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Rochette","White pan trap","Andrena gravida","species","other_wild_bees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Rochette","White pan trap","Andrena gravida","species","other_wild_bees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Rochette","White pan trap","Andrena gravida","species","other_wild_bees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Rochette","White pan trap","Andrena gravida","species","other_wild_bees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Rochette","Yellow pan trap","Andrena gravida","species","other_wild_bees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Rochette","Yellow pan trap","Andrena gravida","species","other_wild_bees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Rochette","Yellow pan trap","Andrena gravida","species","other_wild_bees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Rochette","Yellow pan trap","Andrena gravida","species","other_wild_bees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Rochette","Yellow pan trap","Andrena gravida","species","other_wild_bees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Rochette","Blue pan trap","Andrena gravida","species","other_wild_bees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Rochette","Yellow pan trap","Andrena haemorrhoa","species","other_wild_bees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Rochette","White pan trap","Andrena hesperia","species","other_wild_bees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Rochette","Yellow pan trap","Andrena hesperia","species","other_wild_bees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Rochette","Yellow pan trap","Andrena hesperia","species","other_wild_bees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Rochette","Yellow pan trap","Andrena humilis","species","other_wild_bees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Rochette","White pan trap","Andrena humilis","species","other_wild_bees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Rochette","White pan trap","Andrena humilis","species","other_wild_bees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Rochette","Yellow pan trap","Andrena humilis","species","other_wild_bees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Rochette","Yellow pan trap","Andrena humilis","species","other_wild_bees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Rochette","White pan trap","Andrena humilis","species","other_wild_bees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Rochette","White pan trap","Andrena humilis","species","other_wild_bees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Rochette","Yellow pan trap","Andrena humilis","species","other_wild_bees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Rochette","White pan trap","Andrena minutula","species","other_wild_bees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Rochette","White pan trap","Andrena minutula","species","other_wild_bees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Rochette","Yellow pan trap","Andrena minutula","species","other_wild_bees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Rochette","Yellow pan trap","Andrena minutula","species","other_wild_bees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Rochette","White pan trap","Andrena minutula","species","other_wild_bees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Rochette","Yellow pan trap","Andrena minutula","species","other_wild_bees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Rochette","Yellow pan trap","Andrena minutula","species","other_wild_bees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Rochette","Yellow pan trap","Andrena minutula","species","other_wild_bees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Rochette","Yellow pan trap","Andrena minutula","species","other_wild_bees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Rochette","Yellow pan trap","Andrena minutula","species","other_wild_bees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Rochette","Yellow pan trap","Andrena minutula","species","other_wild_bees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Rochette","Yellow pan trap","Andrena minutula","species","other_wild_bees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Rochette","Yellow pan trap","Andrena minutula","species","other_wild_bees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Rochette","Yellow pan trap","Andrena minutula","species","other_wild_bees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Rochette","Yellow pan trap","Andrena minutula","species","other_wild_bees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Rochette","Yellow pan trap","Andrena minutula","species","other_wild_bees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Rochette","Net","Andrena minutula","species","other_wild_bees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Rochette","White pan trap","Andrena minutula","species","other_wild_bees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Rochette","White pan trap","Andrena minutula","species","other_wild_bees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Rochette","Yellow pan trap","Andrena minutula","species","other_wild_bees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Rochette","Yellow pan trap","Andrena minutula","species","other_wild_bees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Rochette","Net","Andrena nitida","species","other_wild_bees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Rochette","White pan trap","Andrena rhenana","species","other_wild_bees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Rochette","Yellow pan trap","Andrena rhenana","species","other_wild_bees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Rochette","Yellow pan trap","Andrena rhenana","species","other_wild_bees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Rochette","Net","Anthophora plumipes","species","other_wild_bees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Rochette","Net","Anthophora plumipes","species","other_wild_bees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Rochette","Net","Anthophora plumipes","species","other_wild_bees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Rochette","Net","Anthophora plumipes","species","other_wild_bees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Rochette","Net","Anthophora plumipes","species","other_wild_bees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Rochette","Net","Anthophora plumipes","species","other_wild_bees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Rochette","Net","Apis mellifera","species","honeybees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Rochette","Net","Apis mellifera","species","honeybees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Rochette","Net","Apis mellifera","species","honeybees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Rochette","Net","Apis mellifera","species","honeybees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Rochette","Net","Apis mellifera","species","honeybees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Rochette","Net","Apis mellifera","species","honeybees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Rochette","Net","Apis mellifera","species","honeybees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Rochette","Net","Apis mellifera","species","honeybees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Rochette","Net","Apis mellifera","species","honeybees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Rochette","Net","Apis mellifera","species","honeybees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Rochette","Net","Apis mellifera","species","honeybees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Rochette","Net","Apis mellifera","species","honeybees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Rochette","Net","Apis mellifera","species","honeybees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Rochette","Net","Apis mellifera","species","honeybees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Rochette","Net","Apis mellifera","species","honeybees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Rochette","Net","Apis mellifera","species","honeybees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Rochette","Net","Apis mellifera","species","honeybees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Rochette","Net","Apis mellifera","species","honeybees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Rochette","Net","Apis mellifera","species","honeybees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Rochette","Net","Apis mellifera","species","honeybees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Rochette","Net","Apis mellifera","species","honeybees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Rochette","Net","Apis mellifera","species","honeybees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Rochette","Net","Apis mellifera","species","honeybees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Rochette","Net","Apis mellifera","species","honeybees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Rochette","Net","Apis mellifera","species","honeybees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Rochette","Net","Apis mellifera","species","honeybees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Rochette","Net","Apis mellifera","species","honeybees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Rochette","Net","Apis mellifera","species","honeybees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Rochette","Net","Apis mellifera","species","honeybees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Rochette","Net","Apis mellifera","species","honeybees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Rochette","Blue pan trap","Apis mellifera","species","honeybees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Rochette","White pan trap","Apis mellifera","species","honeybees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Rochette","Yellow pan trap","Apis mellifera","species","honeybees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Rochette","Yellow pan trap","Apis mellifera","species","honeybees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Rochette","Yellow pan trap","Apis mellifera","species","honeybees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Rochette","Yellow pan trap","Apis mellifera","species","honeybees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Rochette","Yellow pan trap","Apis mellifera","species","honeybees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Rochette","Blue pan trap","Apis mellifera","species","honeybees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Rochette","Blue pan trap","Apis mellifera","species","honeybees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Rochette","Blue pan trap","Apis mellifera","species","honeybees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Rochette","Blue pan trap","Apis mellifera","species","honeybees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Rochette","White pan trap","Apis mellifera","species","honeybees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Rochette","Yellow pan trap","Apis mellifera","species","honeybees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Rochette","Yellow pan trap","Apis mellifera","species","honeybees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Rochette","Yellow pan trap","Apis mellifera","species","honeybees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Rochette","Yellow pan trap","Apis mellifera","species","honeybees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Rochette","Yellow pan trap","Apis mellifera","species","honeybees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Rochette","Yellow pan trap","Apis mellifera","species","honeybees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Rochette","Yellow pan trap","Apis mellifera","species","honeybees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Rochette","Yellow pan trap","Apis mellifera","species","honeybees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Rochette","Yellow pan trap","Apis mellifera","species","honeybees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Rochette","Net","Apis mellifera","species","honeybees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Rochette","Net","Apis mellifera","species","honeybees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Rochette","Net","Apis mellifera","species","honeybees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Rochette","Net","Apis mellifera","species","honeybees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Rochette","Net","Apis mellifera","species","honeybees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Rochette","Net","Apis mellifera","species","honeybees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Rochette","Net","Apis mellifera","species","honeybees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Rochette","Net","Apis mellifera","species","honeybees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Rochette","Net","Apis mellifera","species","honeybees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Rochette","Net","Apis mellifera","species","honeybees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Rochette","Net","Apis mellifera","species","honeybees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Rochette","Net","Apis mellifera","species","honeybees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Rochette","Net","Apis mellifera","species","honeybees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Rochette","Net","Apis mellifera","species","honeybees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Rochette","Net","Apis mellifera","species","honeybees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Rochette","Net","Apis mellifera","species","honeybees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Rochette","Net","Apis mellifera","species","honeybees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Rochette","Net","Apis mellifera","species","honeybees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Rochette","Net","Apis mellifera","species","honeybees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Rochette","Net","Apis mellifera","species","honeybees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Rochette","Net","Apis mellifera","species","honeybees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Rochette","Net","Apis mellifera","species","honeybees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Rochette","Net","Apis mellifera","species","honeybees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Rochette","Net","Apis mellifera","species","honeybees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Rochette","Net","Apis mellifera","species","honeybees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Rochette","Net","Apis mellifera","species","honeybees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Rochette","Net","Apis mellifera","species","honeybees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Rochette","Net","Apis mellifera","species","honeybees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Rochette","Net","Apis mellifera","species","honeybees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Rochette","Net","Apis mellifera","species","honeybees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Rochette","Net","Apis mellifera","species","honeybees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Rochette","Net","Apis mellifera","species","honeybees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Rochette","Net","Apis mellifera","species","honeybees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Rochette","Net","Apis mellifera","species","honeybees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Rochette","Net","Apis mellifera","species","honeybees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Rochette","Net","Apis mellifera","species","honeybees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Rochette","Net","Apis mellifera","species","honeybees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Rochette","Net","Apis mellifera","species","honeybees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Rochette","Net","Apis mellifera","species","honeybees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Rochette","Net","Apis mellifera","species","honeybees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Rochette","Net","Apis mellifera","species","honeybees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Rochette","Net","Apis mellifera","species","honeybees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Rochette","Net","Apis mellifera","species","honeybees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Rochette","Net","Apis mellifera","species","honeybees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Rochette","Net","Apis mellifera","species","honeybees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Rochette","Net","Apis mellifera","species","honeybees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Rochette","Net","Apis mellifera","species","honeybees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Rochette","White pan trap","Apis mellifera","species","honeybees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Rochette","White pan trap","Apis mellifera","species","honeybees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Rochette","White pan trap","Apis mellifera","species","honeybees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Rochette","White pan trap","Apis mellifera","species","honeybees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Rochette","Yellow pan trap","Apis mellifera","species","honeybees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Rochette","Yellow pan trap","Apis mellifera","species","honeybees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Rochette","Blue pan trap","Apis mellifera","species","honeybees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Rochette","Blue pan trap","Apis mellifera","species","honeybees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Rochette","Net","Bombus hortorum","species","bumblebees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Rochette","Net","Bombus hortorum","species","bumblebees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Rochette","Net","Bombus hortorum","species","bumblebees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Rochette","Net","Bombus hortorum","species","bumblebees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Rochette","Net","Bombus hortorum","species","bumblebees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Rochette","Net","Bombus hortorum","species","bumblebees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Rochette","Net","Bombus hortorum","species","bumblebees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Rochette","Net","Bombus hortorum","species","bumblebees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Rochette","Net","Bombus hortorum","species","bumblebees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Rochette","Net","Bombus hypnorum","species","bumblebees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Rochette","Net","Bombus hypnorum","species","bumblebees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Rochette","Net","Bombus lapidarius","species","bumblebees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Rochette","Net","Bombus lapidarius","species","bumblebees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Rochette","Net","Bombus lapidarius","species","bumblebees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Rochette","Net","Bombus lapidarius","species","bumblebees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Rochette","Net","Bombus lapidarius","species","bumblebees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Rochette","Net","Bombus lapidarius","species","bumblebees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Rochette","Net","Bombus lapidarius","species","bumblebees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Rochette","Net","Bombus lapidarius","species","bumblebees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Rochette","Net","Bombus pascuorum","species","bumblebees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Rochette","Net","Bombus pascuorum","species","bumblebees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Rochette","Net","Bombus pascuorum","species","bumblebees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Rochette","Net","Bombus pascuorum","species","bumblebees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Rochette","Net","Bombus pascuorum","species","bumblebees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Rochette","Net","Bombus pascuorum","species","bumblebees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Rochette","Net","Bombus pascuorum","species","bumblebees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Rochette","Net","Bombus pascuorum","species","bumblebees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Rochette","Net","Bombus pascuorum","species","bumblebees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Rochette","Net","Bombus pratorum","species","bumblebees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Rochette","Net","Bombus pratorum","species","bumblebees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Rochette","Net","Bombus pratorum","species","bumblebees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Rochette","Net","Bombus pratorum","species","bumblebees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Rochette","Net","Bombus pratorum","species","bumblebees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Rochette","Net","Bombus pratorum","species","bumblebees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Rochette","Net","Bombus ruderarius","species","bumblebees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Rochette","Net","Bombus ruderarius","species","bumblebees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Rochette","Net","Bombus ruderarius","species","bumblebees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Rochette","Net","Bombus ruderarius","species","bumblebees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Rochette","Net","Bombus sylvarum","species","bumblebees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Rochette","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Rochette","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Rochette","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Rochette","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Rochette","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Rochette","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Rochette","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Rochette","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Rochette","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Rochette","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Rochette","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Rochette","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Rochette","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Rochette","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Rochette","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Rochette","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Rochette","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Rochette","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Rochette","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Rochette","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Rochette","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Rochette","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Rochette","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Rochette","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Rochette","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Rochette","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Rochette","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Rochette","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Rochette","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Rochette","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Rochette","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Rochette","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Rochette","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Rochette","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Rochette","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Rochette","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Rochette","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Rochette","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Rochette","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Rochette","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Rochette","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Rochette","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Rochette","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Rochette","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Rochette","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Rochette","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Rochette","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Rochette","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Rochette","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Rochette","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Rochette","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Rochette","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Rochette","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Rochette","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Rochette","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Rochette","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Rochette","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Rochette","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Rochette","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Rochette","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Rochette","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Rochette","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Rochette","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Rochette","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Rochette","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Rochette","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Rochette","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Rochette","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Rochette","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Rochette","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Rochette","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Rochette","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Rochette","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Rochette","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Rochette","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Rochette","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Rochette","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Rochette","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Rochette","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Rochette","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Rochette","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Rochette","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Rochette","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Rochette","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Rochette","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Rochette","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Rochette","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Rochette","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Rochette","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Rochette","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Rochette","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Rochette","Net","Eucera longicornis","species","other_wild_bees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Rochette","Yellow pan trap","Halictus rubicundus","species","other_wild_bees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Rochette","Net","Halictus rubicundus","species","other_wild_bees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Rochette","White pan trap","Lasioglossum calceatum","species","other_wild_bees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Rochette","Yellow pan trap","Lasioglossum calceatum","species","other_wild_bees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Rochette","Yellow pan trap","Lasioglossum leucozonium","species","other_wild_bees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Rochette","Blue pan trap","Lasioglossum leucozonium","species","other_wild_bees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Rochette","White pan trap","Lasioglossum morio","species","other_wild_bees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Rochette","Blue pan trap","Lasioglossum morio","species","other_wild_bees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Rochette","Yellow pan trap","Lasioglossum pallens","species","other_wild_bees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Rochette","White pan trap","Lasioglossum parvulum","species","other_wild_bees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Rochette","Net","Osmia bicornis","species","other_wild_bees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Rochette","Yellow pan trap","Osmia bicornis","species","other_wild_bees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Rochette","Yellow pan trap","Osmia bicornis","species","other_wild_bees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Rochette","Yellow pan trap","Osmia bicornis","species","other_wild_bees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Rochette","Net","Osmia bicornis","species","other_wild_bees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Rochette","Net","Osmia bicornis","species","other_wild_bees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Rochette","Net","Osmia bicornis","species","other_wild_bees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Rochette","Net","Osmia cornuta","species","other_wild_bees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Rochette","Net","Osmia cornuta","species","other_wild_bees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Rochette","Net","Osmia cornuta","species","other_wild_bees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Rochette","Net","Xylocopa violacea","species","other_wild_bees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Rochette","Net","Xylocopa violacea","species","other_wild_bees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","GAEC Rochette","Net","Xylocopa violacea","species","other_wild_bees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Netherlands_2019","Gino Bio","Net","Andrena dorsata","species","other_wild_bees",1,45000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Netherlands_2019","Gino Bio","Net","Andrena scotica","species","other_wild_bees",1,45000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Netherlands_2019","Gino Bio","Net","Apis mellifera","species","honeybees",1,45000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Netherlands_2019","Gino Bio","Net","Apis mellifera","species","honeybees",1,45000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Netherlands_2019","Gino Bio","Net","Apis mellifera","species","honeybees",1,45000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Netherlands_2019","Gino Bio","Net","Apis mellifera","species","honeybees",1,45000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Netherlands_2019","Gino Bio","Net","Apis mellifera","species","honeybees",1,45000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Netherlands_2019","Gino Bio","Net","Apis mellifera","species","honeybees",1,45000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Netherlands_2019","Gino Bio","Net","Apis mellifera","species","honeybees",1,45000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Netherlands_2019","Gino Bio","Net","Apis mellifera","species","honeybees",1,45000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Netherlands_2019","Gino Bio","Net","Apis mellifera","species","honeybees",1,45000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Netherlands_2019","Gino Bio","Net","Apis mellifera","species","honeybees",1,45000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Netherlands_2019","Gino Bio","Net","Apis mellifera","species","honeybees",1,45000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Netherlands_2019","Gino Bio","Net","Apis mellifera","species","honeybees",1,45000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Netherlands_2019","Gino Bio","Net","Apis mellifera","species","honeybees",1,45000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Netherlands_2019","Gino Bio","Net","Apis mellifera","species","honeybees",1,45000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Netherlands_2019","Gino Bio","Net","Apis mellifera","species","honeybees",1,45000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Netherlands_2019","Gino Bio","Net","Apis mellifera","species","honeybees",1,45000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Netherlands_2019","Gino Bio","Net","Apis mellifera","species","honeybees",1,45000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Netherlands_2019","Gino Bio","Net","Apis mellifera","species","honeybees",1,45000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Netherlands_2019","Gino Bio","Net","Apis mellifera","species","honeybees",1,45000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Netherlands_2019","Gino Bio","Net","Apis mellifera","species","honeybees",1,45000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Netherlands_2019","Gino Bio","Net","Apis mellifera","species","honeybees",1,45000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Netherlands_2019","Gino Bio","Net","Apis mellifera","species","honeybees",1,45000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Netherlands_2019","Gino Bio","Net","Apis mellifera","species","honeybees",1,45000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Netherlands_2019","Gino Bio","Net","Apis mellifera","species","honeybees",1,45000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Netherlands_2019","Gino Bio","Net","Apis mellifera","species","honeybees",1,45000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Netherlands_2019","Gino Bio","Net","Apis mellifera","species","honeybees",1,45000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Netherlands_2019","Gino Bio","Net","Apis mellifera","species","honeybees",1,45000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Netherlands_2019","Gino Bio","Net","Apis mellifera","species","honeybees",1,45000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Netherlands_2019","Gino Bio","Net","Apis mellifera","species","honeybees",1,45000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Netherlands_2019","Gino Bio","Net","Apis mellifera","species","honeybees",1,45000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Netherlands_2019","Gino Bio","Net","Apis mellifera","species","honeybees",1,45000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Netherlands_2019","Gino Bio","Net","Apis mellifera","species","honeybees",1,45000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Netherlands_2019","Gino Bio","Net","Apis mellifera","species","honeybees",1,45000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Netherlands_2019","Gino Bio","Net","Apis mellifera","species","honeybees",1,45000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Netherlands_2019","Gino Bio","Net","Apis mellifera","species","honeybees",1,45000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Netherlands_2019","Gino Bio","Net","Apis mellifera","species","honeybees",1,45000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Netherlands_2019","Gino Bio","Net","Apis mellifera","species","honeybees",1,45000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Netherlands_2019","Gino Bio","Net","Apis mellifera","species","honeybees",1,45000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Netherlands_2019","Gino Bio","Net","Apis mellifera","species","honeybees",1,45000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Netherlands_2019","Gino Bio","Net","Apis mellifera","species","honeybees",1,45000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Netherlands_2019","Gino Bio","Net","Apis mellifera","species","honeybees",1,45000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Netherlands_2019","Gino Bio","Net","Apis mellifera","species","honeybees",1,45000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Netherlands_2019","Gino Bio","Net","Apis mellifera","species","honeybees",1,45000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Netherlands_2019","Gino Bio","Net","Apis mellifera","species","honeybees",1,45000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Netherlands_2019","Gino Bio","Net","Apis mellifera","species","honeybees",1,45000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Netherlands_2019","Gino Bio","Net","Apis mellifera","species","honeybees",1,45000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Netherlands_2019","Gino Bio","Net","Apis mellifera","species","honeybees",1,45000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Netherlands_2019","Gino Bio","Net","Apis mellifera","species","honeybees",1,45000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Netherlands_2019","Gino Bio","Net","Apis mellifera","species","honeybees",1,45000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Netherlands_2019","Gino Bio","Net","Apis mellifera","species","honeybees",1,45000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Netherlands_2019","Gino Bio","Net","Apis mellifera","species","honeybees",1,45000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Netherlands_2019","Gino Bio","Net","Apis mellifera","species","honeybees",1,45000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Netherlands_2019","Gino Bio","Net","Apis mellifera","species","honeybees",1,45000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Netherlands_2019","Gino Bio","Net","Apis mellifera","species","honeybees",1,45000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Netherlands_2019","Gino Bio","Net","Apis mellifera","species","honeybees",1,45000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Netherlands_2019","Gino Bio","Net","Apis mellifera","species","honeybees",1,45000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Netherlands_2019","Gino Bio","Net","Apis mellifera","species","honeybees",1,45000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Netherlands_2019","Gino Bio","Net","Apis mellifera","species","honeybees",1,45000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Netherlands_2019","Gino Bio","Net","Apis mellifera","species","honeybees",1,45000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Netherlands_2019","Gino Bio","Net","Apis mellifera","species","honeybees",1,45000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Netherlands_2019","Gino Bio","Net","Apis mellifera","species","honeybees",1,45000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Netherlands_2019","Gino Bio","Net","Apis mellifera","species","honeybees",1,45000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Netherlands_2019","Gino Bio","Net","Apis mellifera","species","honeybees",1,45000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Netherlands_2019","Gino Bio","Net","Apis mellifera","species","honeybees",1,45000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Netherlands_2019","Gino Bio","Net","Apis mellifera","species","honeybees",1,45000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Netherlands_2019","Gino Bio","Net","Apis mellifera","species","honeybees",1,45000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Netherlands_2019","Gino Bio","Net","Apis mellifera","species","honeybees",1,45000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Netherlands_2019","Gino Bio","Net","Apis mellifera","species","honeybees",1,45000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Netherlands_2019","Gino Bio","Net","Apis mellifera","species","honeybees",1,45000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Netherlands_2019","Gino Bio","Net","Apis mellifera","species","honeybees",1,45000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Netherlands_2019","Gino Bio","Net","Apis mellifera","species","honeybees",1,45000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Netherlands_2019","Gino Bio","Net","Apis mellifera","species","honeybees",1,45000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Netherlands_2019","Gino Bio","Net","Apis mellifera","species","honeybees",1,45000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Netherlands_2019","Gino Bio","Net","Apis mellifera","species","honeybees",1,45000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Netherlands_2019","Gino Bio","Net","Apis mellifera","species","honeybees",1,45000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Netherlands_2019","Gino Bio","Net","Apis mellifera","species","honeybees",1,45000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Netherlands_2019","Gino Bio","Net","Apis mellifera","species","honeybees",1,45000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Netherlands_2019","Gino Bio","Net","Apis mellifera","species","honeybees",1,45000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Netherlands_2019","Gino Bio","Net","Apis mellifera","species","honeybees",1,45000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Netherlands_2019","Gino Bio","Net","Apis mellifera","species","honeybees",1,45000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Netherlands_2019","Gino Bio","Net","Apis mellifera","species","honeybees",1,45000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Netherlands_2019","Gino Bio","Net","Apis mellifera","species","honeybees",1,45000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Netherlands_2019","Gino Bio","Net","Apis mellifera","species","honeybees",1,45000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Netherlands_2019","Gino Bio","Net","Apis mellifera","species","honeybees",1,45000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Netherlands_2019","Gino Bio","Net","Apis mellifera","species","honeybees",1,45000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Netherlands_2019","Gino Bio","Net","Apis mellifera","species","honeybees",1,45000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Netherlands_2019","Gino Bio","Net","Apis mellifera","species","honeybees",1,45000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Netherlands_2019","Gino Bio","Net","Apis mellifera","species","honeybees",1,45000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Netherlands_2019","Gino Bio","Net","Apis mellifera","species","honeybees",1,45000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Netherlands_2019","Gino Bio","Net","Apis mellifera","species","honeybees",1,45000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Netherlands_2019","Gino Bio","Net","Apis mellifera","species","honeybees",1,45000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Netherlands_2019","Gino Bio","Net","Apis mellifera","species","honeybees",1,45000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Netherlands_2019","Gino Bio","Net","Apis mellifera","species","honeybees",1,45000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Netherlands_2019","Gino Bio","Net","Apis mellifera","species","honeybees",1,45000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Netherlands_2019","Gino Bio","Net","Apis mellifera","species","honeybees",1,45000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Netherlands_2019","Gino Bio","Net","Apis mellifera","species","honeybees",1,45000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Netherlands_2019","Gino Bio","Net","Apis mellifera","species","honeybees",1,45000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Netherlands_2019","Gino Bio","Net","Apis mellifera","species","honeybees",1,45000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Netherlands_2019","Gino Bio","Net","Apis mellifera","species","honeybees",1,45000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Netherlands_2019","Gino Bio","Net","Apis mellifera","species","honeybees",1,45000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Netherlands_2019","Gino Bio","Net","Apis mellifera","species","honeybees",1,45000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Netherlands_2019","Gino Bio","Net","Apis mellifera","species","honeybees",1,45000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Netherlands_2019","Gino Bio","Net","Apis mellifera","species","honeybees",1,45000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Netherlands_2019","Gino Bio","Net","Apis mellifera","species","honeybees",1,45000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Netherlands_2019","Gino Bio","Net","Apis mellifera","species","honeybees",1,45000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Netherlands_2019","Gino Bio","Net","Apis mellifera","species","honeybees",1,45000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Netherlands_2019","Gino Bio","Net","Apis mellifera","species","honeybees",1,45000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Netherlands_2019","Gino Bio","Net","Apis mellifera","species","honeybees",1,45000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Netherlands_2019","Gino Bio","Net","Apis mellifera","species","honeybees",1,45000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Netherlands_2019","Gino Bio","Net","Apis mellifera","species","honeybees",1,45000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Netherlands_2019","Gino Bio","Net","Apis mellifera","species","honeybees",1,45000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Netherlands_2019","Gino Bio","Net","Apis mellifera","species","honeybees",1,45000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Netherlands_2019","Gino Bio","Net","Apis mellifera","species","honeybees",1,45000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Netherlands_2019","Gino Bio","Net","Apis mellifera","species","honeybees",1,45000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Netherlands_2019","Gino Bio","Net","Apis mellifera","species","honeybees",1,45000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Netherlands_2019","Gino Bio","Net","Apis mellifera","species","honeybees",1,45000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Netherlands_2019","Gino Bio","Net","Apis mellifera","species","honeybees",1,45000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Netherlands_2019","Gino Bio","Net","Apis mellifera","species","honeybees",1,45000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Netherlands_2019","Gino Bio","Blue pan trap","Apis mellifera","species","honeybees",1,45000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Netherlands_2019","Gino Bio","Blue pan trap","Apis mellifera","species","honeybees",1,45000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Netherlands_2019","Gino Bio","Net","Bombus hypnorum","species","bumblebees",1,45000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Netherlands_2019","Gino Bio","Net","Bombus hypnorum","species","bumblebees",1,45000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Netherlands_2019","Gino Bio","Net","Bombus lapidarius","species","bumblebees",1,45000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Netherlands_2019","Gino Bio","Net","Bombus pratorum","species","bumblebees",1,45000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Netherlands_2019","Gino Bio","Net","Bombus pratorum","species","bumblebees",1,45000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Netherlands_2019","Gino Bio","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,45000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Netherlands_2019","Gino Bio","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,45000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Netherlands_2019","Gino Bio","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,45000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Netherlands_2019","Gino Bio","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,45000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Netherlands_2019","Gino Bio","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,45000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Netherlands_2019","Gino Bio","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,45000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Netherlands_2019","Gino Bio","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,45000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Netherlands_2019","Gino Bio","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,45000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Netherlands_2019","Gino Bio","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,45000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Netherlands_2019","Gino Bio","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,45000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Netherlands_2019","Gino Bio","Yellow pan trap","Osmia bicornis","species","other_wild_bees",1,45000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Netherlands_2019","Gino Conv","Yellow pan trap","Andrena chrysosceles","species","other_wild_bees",1,120000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Netherlands_2019","Gino Conv","Net","Andrena chrysosceles","species","other_wild_bees",1,120000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Netherlands_2019","Gino Conv","Net","Andrena cineraria","species","other_wild_bees",1,120000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Netherlands_2019","Gino Conv","Yellow pan trap","Andrena flavipes","species","other_wild_bees",1,120000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Netherlands_2019","Gino Conv","Net","Andrena haemorrhoa","species","other_wild_bees",1,120000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Netherlands_2019","Gino Conv","Net","Andrena haemorrhoa","species","other_wild_bees",1,120000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Netherlands_2019","Gino Conv","Net","Andrena haemorrhoa","species","other_wild_bees",1,120000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Netherlands_2019","Gino Conv","Net","Andrena haemorrhoa","species","other_wild_bees",1,120000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Netherlands_2019","Gino Conv","Net","Andrena haemorrhoa","species","other_wild_bees",1,120000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Netherlands_2019","Gino Conv","Net","Andrena haemorrhoa","species","other_wild_bees",1,120000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Netherlands_2019","Gino Conv","Net","Andrena haemorrhoa","species","other_wild_bees",1,120000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Netherlands_2019","Gino Conv","Net","Andrena haemorrhoa","species","other_wild_bees",1,120000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Netherlands_2019","Gino Conv","White pan trap","Andrena nitida","species","other_wild_bees",1,120000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Netherlands_2019","Gino Conv","Net","Apis mellifera","species","honeybees",1,120000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Netherlands_2019","Gino Conv","Net","Apis mellifera","species","honeybees",1,120000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Netherlands_2019","Gino Conv","Net","Apis mellifera","species","honeybees",1,120000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Netherlands_2019","Gino Conv","Net","Apis mellifera","species","honeybees",1,120000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Netherlands_2019","Gino Conv","Net","Apis mellifera","species","honeybees",1,120000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Netherlands_2019","Gino Conv","Net","Apis mellifera","species","honeybees",1,120000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Netherlands_2019","Gino Conv","Net","Apis mellifera","species","honeybees",1,120000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Netherlands_2019","Gino Conv","Net","Apis mellifera","species","honeybees",1,120000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Netherlands_2019","Gino Conv","Net","Apis mellifera","species","honeybees",1,120000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Netherlands_2019","Gino Conv","Net","Apis mellifera","species","honeybees",1,120000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Netherlands_2019","Gino Conv","Net","Apis mellifera","species","honeybees",1,120000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Netherlands_2019","Gino Conv","Net","Apis mellifera","species","honeybees",1,120000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Netherlands_2019","Gino Conv","Net","Apis mellifera","species","honeybees",1,120000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Netherlands_2019","Gino Conv","Net","Apis mellifera","species","honeybees",1,120000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Netherlands_2019","Gino Conv","Net","Apis mellifera","species","honeybees",1,120000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Netherlands_2019","Gino Conv","Net","Apis mellifera","species","honeybees",1,120000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Netherlands_2019","Gino Conv","Net","Apis mellifera","species","honeybees",1,120000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Netherlands_2019","Gino Conv","Net","Apis mellifera","species","honeybees",1,120000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Netherlands_2019","Gino Conv","Net","Apis mellifera","species","honeybees",1,120000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Netherlands_2019","Gino Conv","Net","Apis mellifera","species","honeybees",1,120000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Netherlands_2019","Gino Conv","Net","Apis mellifera","species","honeybees",1,120000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Netherlands_2019","Gino Conv","Net","Apis mellifera","species","honeybees",1,120000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Netherlands_2019","Gino Conv","Net","Apis mellifera","species","honeybees",1,120000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Netherlands_2019","Gino Conv","Net","Apis mellifera","species","honeybees",1,120000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Netherlands_2019","Gino Conv","Net","Apis mellifera","species","honeybees",1,120000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Netherlands_2019","Gino Conv","Net","Apis mellifera","species","honeybees",1,120000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Netherlands_2019","Gino Conv","Net","Apis mellifera","species","honeybees",1,120000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Netherlands_2019","Gino Conv","Net","Apis mellifera","species","honeybees",1,120000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Netherlands_2019","Gino Conv","Net","Apis mellifera","species","honeybees",1,120000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Netherlands_2019","Gino Conv","Net","Apis mellifera","species","honeybees",1,120000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Netherlands_2019","Gino Conv","Net","Apis mellifera","species","honeybees",1,120000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Netherlands_2019","Gino Conv","Net","Apis mellifera","species","honeybees",1,120000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Netherlands_2019","Gino Conv","Net","Apis mellifera","species","honeybees",1,120000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Netherlands_2019","Gino Conv","Net","Apis mellifera","species","honeybees",1,120000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Netherlands_2019","Gino Conv","Net","Apis mellifera","species","honeybees",1,120000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Netherlands_2019","Gino Conv","Net","Apis mellifera","species","honeybees",1,120000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Netherlands_2019","Gino Conv","Net","Apis mellifera","species","honeybees",1,120000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Netherlands_2019","Gino Conv","Net","Apis mellifera","species","honeybees",1,120000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Netherlands_2019","Gino Conv","Net","Apis mellifera","species","honeybees",1,120000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Netherlands_2019","Gino Conv","Net","Apis mellifera","species","honeybees",1,120000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Netherlands_2019","Gino Conv","Net","Apis mellifera","species","honeybees",1,120000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Netherlands_2019","Gino Conv","Net","Apis mellifera","species","honeybees",1,120000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Netherlands_2019","Gino Conv","Net","Apis mellifera","species","honeybees",1,120000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Netherlands_2019","Gino Conv","Net","Apis mellifera","species","honeybees",1,120000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Netherlands_2019","Gino Conv","Net","Apis mellifera","species","honeybees",1,120000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Netherlands_2019","Gino Conv","Net","Apis mellifera","species","honeybees",1,120000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Netherlands_2019","Gino Conv","Net","Apis mellifera","species","honeybees",1,120000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Netherlands_2019","Gino Conv","Net","Apis mellifera","species","honeybees",1,120000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Netherlands_2019","Gino Conv","Net","Apis mellifera","species","honeybees",1,120000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Netherlands_2019","Gino Conv","Net","Apis mellifera","species","honeybees",1,120000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Netherlands_2019","Gino Conv","Net","Apis mellifera","species","honeybees",1,120000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Netherlands_2019","Gino Conv","Net","Apis mellifera","species","honeybees",1,120000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Netherlands_2019","Gino Conv","Net","Apis mellifera","species","honeybees",1,120000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Netherlands_2019","Gino Conv","Net","Apis mellifera","species","honeybees",1,120000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Netherlands_2019","Gino Conv","Net","Apis mellifera","species","honeybees",1,120000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Netherlands_2019","Gino Conv","Net","Apis mellifera","species","honeybees",1,120000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Netherlands_2019","Gino Conv","Net","Apis mellifera","species","honeybees",1,120000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Netherlands_2019","Gino Conv","Net","Apis mellifera","species","honeybees",1,120000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Netherlands_2019","Gino Conv","Net","Apis mellifera","species","honeybees",1,120000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Netherlands_2019","Gino Conv","Net","Apis mellifera","species","honeybees",1,120000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Netherlands_2019","Gino Conv","Net","Apis mellifera","species","honeybees",1,120000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Netherlands_2019","Gino Conv","Net","Apis mellifera","species","honeybees",1,120000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Netherlands_2019","Gino Conv","Net","Apis mellifera","species","honeybees",1,120000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Netherlands_2019","Gino Conv","Net","Apis mellifera","species","honeybees",1,120000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Netherlands_2019","Gino Conv","Net","Apis mellifera","species","honeybees",1,120000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Netherlands_2019","Gino Conv","Net","Apis mellifera","species","honeybees",1,120000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Netherlands_2019","Gino Conv","Net","Apis mellifera","species","honeybees",1,120000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Netherlands_2019","Gino Conv","Net","Apis mellifera","species","honeybees",1,120000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Netherlands_2019","Gino Conv","Net","Apis mellifera","species","honeybees",1,120000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Netherlands_2019","Gino Conv","Net","Apis mellifera","species","honeybees",1,120000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Netherlands_2019","Gino Conv","Net","Apis mellifera","species","honeybees",1,120000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Netherlands_2019","Gino Conv","Net","Apis mellifera","species","honeybees",1,120000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Netherlands_2019","Gino Conv","Net","Apis mellifera","species","honeybees",1,120000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Netherlands_2019","Gino Conv","Net","Apis mellifera","species","honeybees",1,120000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Netherlands_2019","Gino Conv","Net","Apis mellifera","species","honeybees",1,120000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Netherlands_2019","Gino Conv","Net","Apis mellifera","species","honeybees",1,120000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Netherlands_2019","Gino Conv","Net","Apis mellifera","species","honeybees",1,120000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Netherlands_2019","Gino Conv","Blue pan trap","Apis mellifera","species","honeybees",1,120000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Netherlands_2019","Gino Conv","Net","Bombus pascuorum","species","bumblebees",1,120000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Netherlands_2019","Gino Conv","Net","Bombus pascuorum","species","bumblebees",1,120000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Netherlands_2019","Gino Conv","Net","Bombus pascuorum","species","bumblebees",1,120000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Netherlands_2019","Gino Conv","Net","Bombus pratorum","species","bumblebees",1,120000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Netherlands_2019","Gino Conv","Net","Bombus pratorum","species","bumblebees",1,120000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Netherlands_2019","Gino Conv","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,120000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Netherlands_2019","Gino Conv","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,120000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Netherlands_2019","Gino Conv","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,120000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Netherlands_2019","Gino Conv","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,120000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Netherlands_2019","Gino Conv","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,120000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Netherlands_2019","Gino Conv","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,120000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Netherlands_2019","Gino Conv","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,120000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Netherlands_2019","Gino Conv","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,120000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Netherlands_2019","Gino Conv","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,120000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Netherlands_2019","Gino Conv","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,120000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Netherlands_2019","Gino Conv","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,120000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Netherlands_2019","Gino Conv","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,120000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Netherlands_2019","Gino Conv","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,120000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Netherlands_2019","Gino Conv","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,120000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Netherlands_2019","Gino Conv","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,120000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Netherlands_2019","Gino Conv","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,120000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Netherlands_2019","Gino Conv","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,120000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Netherlands_2019","Gino Conv","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,120000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Netherlands_2019","Gino Conv","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,120000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Netherlands_2019","Kerk-Avezaath","Yellow pan trap","Andrena chrysosceles","species","other_wild_bees",1,50000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Netherlands_2019","Kerk-Avezaath","Net","Andrena scotica","species","other_wild_bees",1,50000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Netherlands_2019","Kerk-Avezaath","Net","Apis mellifera","species","honeybees",1,50000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Netherlands_2019","Kerk-Avezaath","Net","Apis mellifera","species","honeybees",1,50000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Netherlands_2019","Kerk-Avezaath","Net","Apis mellifera","species","honeybees",1,50000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Netherlands_2019","Kerk-Avezaath","Net","Apis mellifera","species","honeybees",1,50000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Netherlands_2019","Kerk-Avezaath","Net","Apis mellifera","species","honeybees",1,50000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Netherlands_2019","Kerk-Avezaath","Net","Apis mellifera","species","honeybees",1,50000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Netherlands_2019","Kerk-Avezaath","Net","Apis mellifera","species","honeybees",1,50000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Netherlands_2019","Kerk-Avezaath","Net","Apis mellifera","species","honeybees",1,50000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Netherlands_2019","Kerk-Avezaath","Net","Apis mellifera","species","honeybees",1,50000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Netherlands_2019","Kerk-Avezaath","Net","Apis mellifera","species","honeybees",1,50000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Netherlands_2019","Kerk-Avezaath","Net","Apis mellifera","species","honeybees",1,50000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Netherlands_2019","Kerk-Avezaath","Net","Apis mellifera","species","honeybees",1,50000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Netherlands_2019","Kerk-Avezaath","Net","Apis mellifera","species","honeybees",1,50000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Netherlands_2019","Kerk-Avezaath","Net","Apis mellifera","species","honeybees",1,50000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Netherlands_2019","Kerk-Avezaath","Net","Apis mellifera","species","honeybees",1,50000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Netherlands_2019","Kerk-Avezaath","Net","Apis mellifera","species","honeybees",1,50000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Netherlands_2019","Kerk-Avezaath","Net","Apis mellifera","species","honeybees",1,50000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Netherlands_2019","Kerk-Avezaath","Net","Apis mellifera","species","honeybees",1,50000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Netherlands_2019","Kerk-Avezaath","Net","Apis mellifera","species","honeybees",1,50000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Netherlands_2019","Kerk-Avezaath","Net","Apis mellifera","species","honeybees",1,50000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Netherlands_2019","Kerk-Avezaath","Net","Apis mellifera","species","honeybees",1,50000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Netherlands_2019","Kerk-Avezaath","Net","Apis mellifera","species","honeybees",1,50000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Netherlands_2019","Kerk-Avezaath","Net","Apis mellifera","species","honeybees",1,50000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Netherlands_2019","Kerk-Avezaath","Net","Apis mellifera","species","honeybees",1,50000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Netherlands_2019","Kerk-Avezaath","Net","Apis mellifera","species","honeybees",1,50000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Netherlands_2019","Kerk-Avezaath","Net","Apis mellifera","species","honeybees",1,50000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Netherlands_2019","Kerk-Avezaath","Net","Apis mellifera","species","honeybees",1,50000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Netherlands_2019","Kerk-Avezaath","Net","Apis mellifera","species","honeybees",1,50000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Netherlands_2019","Kerk-Avezaath","Net","Apis mellifera","species","honeybees",1,50000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Netherlands_2019","Kerk-Avezaath","Net","Apis mellifera","species","honeybees",1,50000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Netherlands_2019","Kerk-Avezaath","Net","Apis mellifera","species","honeybees",1,50000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Netherlands_2019","Kerk-Avezaath","Net","Apis mellifera","species","honeybees",1,50000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Netherlands_2019","Kerk-Avezaath","Net","Apis mellifera","species","honeybees",1,50000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Netherlands_2019","Kerk-Avezaath","Net","Apis mellifera","species","honeybees",1,50000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Netherlands_2019","Kerk-Avezaath","Net","Apis mellifera","species","honeybees",1,50000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Netherlands_2019","Kerk-Avezaath","Net","Apis mellifera","species","honeybees",1,50000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Netherlands_2019","Kerk-Avezaath","Net","Apis mellifera","species","honeybees",1,50000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Netherlands_2019","Kerk-Avezaath","Net","Apis mellifera","species","honeybees",1,50000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Netherlands_2019","Kerk-Avezaath","Net","Apis mellifera","species","honeybees",1,50000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Netherlands_2019","Kerk-Avezaath","Net","Apis mellifera","species","honeybees",1,50000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Netherlands_2019","Kerk-Avezaath","Net","Apis mellifera","species","honeybees",1,50000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Netherlands_2019","Kerk-Avezaath","Net","Apis mellifera","species","honeybees",1,50000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Netherlands_2019","Kerk-Avezaath","Net","Apis mellifera","species","honeybees",1,50000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Netherlands_2019","Kerk-Avezaath","Net","Apis mellifera","species","honeybees",1,50000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Netherlands_2019","Kerk-Avezaath","Net","Apis mellifera","species","honeybees",1,50000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Netherlands_2019","Kerk-Avezaath","Net","Apis mellifera","species","honeybees",1,50000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Netherlands_2019","Kerk-Avezaath","Net","Apis mellifera","species","honeybees",1,50000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Netherlands_2019","Kerk-Avezaath","Net","Apis mellifera","species","honeybees",1,50000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Netherlands_2019","Kerk-Avezaath","Net","Apis mellifera","species","honeybees",1,50000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Netherlands_2019","Kerk-Avezaath","Net","Apis mellifera","species","honeybees",1,50000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Netherlands_2019","Kerk-Avezaath","Net","Apis mellifera","species","honeybees",1,50000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Netherlands_2019","Kerk-Avezaath","Net","Apis mellifera","species","honeybees",1,50000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Netherlands_2019","Kerk-Avezaath","Net","Apis mellifera","species","honeybees",1,50000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Netherlands_2019","Kerk-Avezaath","Net","Apis mellifera","species","honeybees",1,50000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Netherlands_2019","Kerk-Avezaath","Net","Apis mellifera","species","honeybees",1,50000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Netherlands_2019","Kerk-Avezaath","Net","Apis mellifera","species","honeybees",1,50000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Netherlands_2019","Kerk-Avezaath","Net","Apis mellifera","species","honeybees",1,50000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Netherlands_2019","Kerk-Avezaath","Net","Apis mellifera","species","honeybees",1,50000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Netherlands_2019","Kerk-Avezaath","Net","Apis mellifera","species","honeybees",1,50000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Netherlands_2019","Kerk-Avezaath","Net","Apis mellifera","species","honeybees",1,50000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Netherlands_2019","Kerk-Avezaath","Net","Apis mellifera","species","honeybees",1,50000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Netherlands_2019","Kerk-Avezaath","Net","Apis mellifera","species","honeybees",1,50000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Netherlands_2019","Kerk-Avezaath","Net","Apis mellifera","species","honeybees",1,50000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Netherlands_2019","Kerk-Avezaath","Net","Apis mellifera","species","honeybees",1,50000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Netherlands_2019","Kerk-Avezaath","Net","Apis mellifera","species","honeybees",1,50000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Netherlands_2019","Kerk-Avezaath","Net","Apis mellifera","species","honeybees",1,50000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Netherlands_2019","Kerk-Avezaath","Net","Apis mellifera","species","honeybees",1,50000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Netherlands_2019","Kerk-Avezaath","Net","Apis mellifera","species","honeybees",1,50000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Netherlands_2019","Kerk-Avezaath","Net","Apis mellifera","species","honeybees",1,50000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Netherlands_2019","Kerk-Avezaath","Net","Apis mellifera","species","honeybees",1,50000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Netherlands_2019","Kerk-Avezaath","Net","Apis mellifera","species","honeybees",1,50000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Netherlands_2019","Kerk-Avezaath","Net","Apis mellifera","species","honeybees",1,50000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Netherlands_2019","Kerk-Avezaath","Net","Apis mellifera","species","honeybees",1,50000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Netherlands_2019","Kerk-Avezaath","Net","Apis mellifera","species","honeybees",1,50000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Netherlands_2019","Kerk-Avezaath","Net","Apis mellifera","species","honeybees",1,50000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Netherlands_2019","Kerk-Avezaath","Net","Apis mellifera","species","honeybees",1,50000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Netherlands_2019","Kerk-Avezaath","Net","Apis mellifera","species","honeybees",1,50000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Netherlands_2019","Kerk-Avezaath","Net","Apis mellifera","species","honeybees",1,50000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Netherlands_2019","Kerk-Avezaath","Net","Apis mellifera","species","honeybees",1,50000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Netherlands_2019","Kerk-Avezaath","Net","Apis mellifera","species","honeybees",1,50000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Netherlands_2019","Kerk-Avezaath","Net","Apis mellifera","species","honeybees",1,50000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Netherlands_2019","Kerk-Avezaath","Net","Apis mellifera","species","honeybees",1,50000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Netherlands_2019","Kerk-Avezaath","Net","Apis mellifera","species","honeybees",1,50000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Netherlands_2019","Kerk-Avezaath","Net","Apis mellifera","species","honeybees",1,50000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Netherlands_2019","Kerk-Avezaath","Net","Apis mellifera","species","honeybees",1,50000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Netherlands_2019","Kerk-Avezaath","Net","Apis mellifera","species","honeybees",1,50000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Netherlands_2019","Kerk-Avezaath","Net","Apis mellifera","species","honeybees",1,50000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Netherlands_2019","Kerk-Avezaath","Net","Apis mellifera","species","honeybees",1,50000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Netherlands_2019","Kerk-Avezaath","Net","Apis mellifera","species","honeybees",1,50000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Netherlands_2019","Kerk-Avezaath","Net","Apis mellifera","species","honeybees",1,50000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Netherlands_2019","Kerk-Avezaath","Net","Apis mellifera","species","honeybees",1,50000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Netherlands_2019","Kerk-Avezaath","Net","Apis mellifera","species","honeybees",1,50000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Netherlands_2019","Kerk-Avezaath","Net","Apis mellifera","species","honeybees",1,50000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Netherlands_2019","Kerk-Avezaath","Net","Apis mellifera","species","honeybees",1,50000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Netherlands_2019","Kerk-Avezaath","Net","Apis mellifera","species","honeybees",1,50000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Netherlands_2019","Kerk-Avezaath","Net","Apis mellifera","species","honeybees",1,50000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Netherlands_2019","Kerk-Avezaath","Net","Apis mellifera","species","honeybees",1,50000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Netherlands_2019","Kerk-Avezaath","Net","Apis mellifera","species","honeybees",1,50000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Netherlands_2019","Kerk-Avezaath","Net","Apis mellifera","species","honeybees",1,50000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Netherlands_2019","Kerk-Avezaath","Net","Apis mellifera","species","honeybees",1,50000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Netherlands_2019","Kerk-Avezaath","Net","Apis mellifera","species","honeybees",1,50000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Netherlands_2019","Kerk-Avezaath","Net","Apis mellifera","species","honeybees",1,50000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Netherlands_2019","Kerk-Avezaath","Net","Apis mellifera","species","honeybees",1,50000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Netherlands_2019","Kerk-Avezaath","Net","Apis mellifera","species","honeybees",1,50000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Netherlands_2019","Kerk-Avezaath","Net","Apis mellifera","species","honeybees",1,50000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Netherlands_2019","Kerk-Avezaath","Blue pan trap","Apis mellifera","species","honeybees",1,50000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Netherlands_2019","Kerk-Avezaath","Blue pan trap","Apis mellifera","species","honeybees",1,50000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Netherlands_2019","Kerk-Avezaath","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,50000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Netherlands_2019","Kerk-Avezaath","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,50000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Netherlands_2019","Kerk-Avezaath","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,50000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Netherlands_2019","Kerk-Avezaath","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,50000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Netherlands_2019","Kerk-Avezaath","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,50000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Netherlands_2019","Kerk-Avezaath","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,50000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Netherlands_2019","Kerk-Avezaath","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,50000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Netherlands_2019","Kerk-Avezaath","Blue pan trap","Lasioglossum morio","species","other_wild_bees",1,50000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Labarthe","White pan trap","Andrena distinguenda","species","other_wild_bees",1,17000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Labarthe","Net","Andrena flavipes","species","other_wild_bees",1,17000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Labarthe","Yellow pan trap","Andrena flavipes","species","other_wild_bees",1,17000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Labarthe","White pan trap","Andrena flavipes","species","other_wild_bees",1,17000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Labarthe","White pan trap","Andrena flavipes","species","other_wild_bees",1,17000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Labarthe","White pan trap","Andrena flavipes","species","other_wild_bees",1,17000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Labarthe","Yellow pan trap","Andrena flavipes","species","other_wild_bees",1,17000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Labarthe","Yellow pan trap","Andrena flavipes","species","other_wild_bees",1,17000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Labarthe","Net","Andrena fulva","species","other_wild_bees",1,17000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Labarthe","Net","Andrena haemorrhoa","species","other_wild_bees",1,17000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Labarthe","Net","Andrena haemorrhoa","species","other_wild_bees",1,17000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Labarthe","White pan trap","Andrena lagopus","species","other_wild_bees",1,17000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Labarthe","White pan trap","Andrena lagopus","species","other_wild_bees",1,17000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Labarthe","White pan trap","Andrena lagopus","species","other_wild_bees",1,17000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Labarthe","White pan trap","Andrena lagopus","species","other_wild_bees",1,17000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Labarthe","Yellow pan trap","Andrena lagopus","species","other_wild_bees",1,17000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Labarthe","Yellow pan trap","Andrena lagopus","species","other_wild_bees",1,17000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Labarthe","Yellow pan trap","Andrena lagopus","species","other_wild_bees",1,17000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Labarthe","White pan trap","Andrena lagopus","species","other_wild_bees",1,17000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Labarthe","White pan trap","Andrena lagopus","species","other_wild_bees",1,17000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Labarthe","White pan trap","Andrena lagopus","species","other_wild_bees",1,17000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Labarthe","Yellow pan trap","Andrena lagopus","species","other_wild_bees",1,17000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Labarthe","Yellow pan trap","Andrena lagopus","species","other_wild_bees",1,17000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Labarthe","Yellow pan trap","Andrena lagopus","species","other_wild_bees",1,17000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Labarthe","Yellow pan trap","Andrena lagopus","species","other_wild_bees",1,17000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Labarthe","White pan trap","Andrena minutula","species","other_wild_bees",1,17000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Labarthe","White pan trap","Andrena minutula","species","other_wild_bees",1,17000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Labarthe","White pan trap","Andrena minutula","species","other_wild_bees",1,17000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Labarthe","Yellow pan trap","Andrena minutula","species","other_wild_bees",1,17000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Labarthe","Yellow pan trap","Andrena minutula","species","other_wild_bees",1,17000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Labarthe","Yellow pan trap","Andrena minutula","species","other_wild_bees",1,17000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Labarthe","Yellow pan trap","Andrena minutula","species","other_wild_bees",1,17000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Labarthe","Yellow pan trap","Andrena minutula","species","other_wild_bees",1,17000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Labarthe","Yellow pan trap","Andrena minutula","species","other_wild_bees",1,17000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Labarthe","Yellow pan trap","Andrena minutula","species","other_wild_bees",1,17000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Labarthe","Yellow pan trap","Andrena minutula","species","other_wild_bees",1,17000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Labarthe","Yellow pan trap","Andrena minutula","species","other_wild_bees",1,17000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Labarthe","Yellow pan trap","Andrena minutula","species","other_wild_bees",1,17000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Labarthe","Yellow pan trap","Andrena minutula","species","other_wild_bees",1,17000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Labarthe","Yellow pan trap","Andrena minutula","species","other_wild_bees",1,17000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Labarthe","White pan trap","Andrena nigroolivacea","species","other_wild_bees",1,17000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Labarthe","Yellow pan trap","Andrena rufula","species","other_wild_bees",1,17000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Labarthe","Net","Anthophora plumipes","species","other_wild_bees",1,17000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Labarthe","Net","Apis mellifera","species","honeybees",1,17000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Labarthe","Net","Apis mellifera","species","honeybees",1,17000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Labarthe","Net","Apis mellifera","species","honeybees",1,17000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Labarthe","Net","Apis mellifera","species","honeybees",1,17000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Labarthe","Net","Apis mellifera","species","honeybees",1,17000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Labarthe","Net","Apis mellifera","species","honeybees",1,17000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Labarthe","Net","Apis mellifera","species","honeybees",1,17000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Labarthe","Net","Apis mellifera","species","honeybees",1,17000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Labarthe","Net","Apis mellifera","species","honeybees",1,17000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Labarthe","Net","Apis mellifera","species","honeybees",1,17000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Labarthe","Net","Apis mellifera","species","honeybees",1,17000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Labarthe","Net","Apis mellifera","species","honeybees",1,17000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Labarthe","Net","Apis mellifera","species","honeybees",1,17000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Labarthe","Net","Apis mellifera","species","honeybees",1,17000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Labarthe","Net","Apis mellifera","species","honeybees",1,17000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Labarthe","Net","Apis mellifera","species","honeybees",1,17000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Labarthe","Net","Apis mellifera","species","honeybees",1,17000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Labarthe","Net","Apis mellifera","species","honeybees",1,17000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Labarthe","Net","Apis mellifera","species","honeybees",1,17000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Labarthe","Net","Apis mellifera","species","honeybees",1,17000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Labarthe","Net","Apis mellifera","species","honeybees",1,17000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Labarthe","Net","Apis mellifera","species","honeybees",1,17000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Labarthe","Net","Apis mellifera","species","honeybees",1,17000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Labarthe","Net","Apis mellifera","species","honeybees",1,17000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Labarthe","Net","Apis mellifera","species","honeybees",1,17000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Labarthe","Net","Apis mellifera","species","honeybees",1,17000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Labarthe","Net","Apis mellifera","species","honeybees",1,17000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Labarthe","Net","Apis mellifera","species","honeybees",1,17000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Labarthe","Net","Apis mellifera","species","honeybees",1,17000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Labarthe","Net","Apis mellifera","species","honeybees",1,17000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Labarthe","Net","Apis mellifera","species","honeybees",1,17000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Labarthe","Net","Apis mellifera","species","honeybees",1,17000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Labarthe","Net","Apis mellifera","species","honeybees",1,17000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Labarthe","Net","Apis mellifera","species","honeybees",1,17000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Labarthe","Net","Apis mellifera","species","honeybees",1,17000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Labarthe","Net","Apis mellifera","species","honeybees",1,17000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Labarthe","Net","Apis mellifera","species","honeybees",1,17000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Labarthe","Net","Apis mellifera","species","honeybees",1,17000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Labarthe","Net","Apis mellifera","species","honeybees",1,17000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Labarthe","Net","Apis mellifera","species","honeybees",1,17000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Labarthe","Net","Apis mellifera","species","honeybees",1,17000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Labarthe","Net","Apis mellifera","species","honeybees",1,17000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Labarthe","Net","Apis mellifera","species","honeybees",1,17000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Labarthe","Net","Apis mellifera","species","honeybees",1,17000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Labarthe","Net","Apis mellifera","species","honeybees",1,17000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Labarthe","Net","Apis mellifera","species","honeybees",1,17000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Labarthe","White pan trap","Apis mellifera","species","honeybees",1,17000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Labarthe","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,17000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Labarthe","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,17000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Labarthe","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,17000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Labarthe","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,17000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Labarthe","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,17000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Labarthe","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,17000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Labarthe","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,17000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Labarthe","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,17000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Labarthe","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,17000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Labarthe","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,17000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Labarthe","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,17000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Labarthe","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,17000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Labarthe","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,17000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Labarthe","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,17000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Labarthe","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,17000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Labarthe","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,17000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Labarthe","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,17000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Labarthe","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,17000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Labarthe","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,17000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Labarthe","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,17000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Labarthe","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,17000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Labarthe","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,17000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Labarthe","Net","Colletes cunicularius","species","other_wild_bees",1,17000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Labarthe","Net","Colletes cunicularius","species","other_wild_bees",1,17000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Labarthe","Net","Colletes cunicularius","species","other_wild_bees",1,17000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Labarthe","Net","Colletes cunicularius","species","other_wild_bees",1,17000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Labarthe","Net","Colletes cunicularius","species","other_wild_bees",1,17000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Labarthe","White pan trap","Lasioglossum algericolellum","species","other_wild_bees",1,17000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Labarthe","White pan trap","Lasioglossum glabriusculum","species","other_wild_bees",1,17000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Labarthe","White pan trap","Lasioglossum griseolum","species","other_wild_bees",1,17000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Labarthe","Yellow pan trap","Lasioglossum malachurum","species","other_wild_bees",1,17000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Labarthe","Yellow pan trap","Lasioglossum malachurum","species","other_wild_bees",1,17000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Labarthe","White pan trap","Lasioglossum malachurum","species","other_wild_bees",1,17000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Labarthe","White pan trap","Lasioglossum malachurum","species","other_wild_bees",1,17000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Labarthe","White pan trap","Lasioglossum malachurum","species","other_wild_bees",1,17000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Labarthe","White pan trap","Lasioglossum malachurum","species","other_wild_bees",1,17000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Labarthe","Yellow pan trap","Lasioglossum malachurum","species","other_wild_bees",1,17000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Labarthe","White pan trap","Lasioglossum malachurum","species","other_wild_bees",1,17000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Labarthe","White pan trap","Lasioglossum malachurum","species","other_wild_bees",1,17000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Labarthe","White pan trap","Lasioglossum malachurum","species","other_wild_bees",1,17000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Labarthe","White pan trap","Lasioglossum malachurum","species","other_wild_bees",1,17000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Labarthe","White pan trap","Lasioglossum malachurum","species","other_wild_bees",1,17000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Labarthe","White pan trap","Lasioglossum malachurum","species","other_wild_bees",1,17000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Labarthe","White pan trap","Lasioglossum malachurum","species","other_wild_bees",1,17000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Labarthe","White pan trap","Lasioglossum malachurum","species","other_wild_bees",1,17000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Labarthe","White pan trap","Lasioglossum malachurum","species","other_wild_bees",1,17000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Labarthe","White pan trap","Lasioglossum malachurum","species","other_wild_bees",1,17000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Labarthe","Blue pan trap","Lasioglossum malachurum","species","other_wild_bees",1,17000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Labarthe","Blue pan trap","Lasioglossum malachurum","species","other_wild_bees",1,17000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Labarthe","Yellow pan trap","Lasioglossum malachurum","species","other_wild_bees",1,17000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Labarthe","Yellow pan trap","Lasioglossum malachurum","species","other_wild_bees",1,17000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Labarthe","Yellow pan trap","Lasioglossum malachurum","species","other_wild_bees",1,17000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Labarthe","Yellow pan trap","Lasioglossum malachurum","species","other_wild_bees",1,17000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Labarthe","Yellow pan trap","Lasioglossum malachurum","species","other_wild_bees",1,17000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Labarthe","Yellow pan trap","Lasioglossum malachurum","species","other_wild_bees",1,17000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Labarthe","Yellow pan trap","Lasioglossum malachurum","species","other_wild_bees",1,17000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Labarthe","Yellow pan trap","Lasioglossum malachurum","species","other_wild_bees",1,17000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Labarthe","Yellow pan trap","Lasioglossum malachurum","species","other_wild_bees",1,17000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Labarthe","Yellow pan trap","Lasioglossum pauxillum","species","other_wild_bees",1,17000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Labarthe","Yellow pan trap","Lasioglossum pauxillum","species","other_wild_bees",1,17000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Labarthe","Yellow pan trap","Lasioglossum pauxillum","species","other_wild_bees",1,17000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Labarthe","Yellow pan trap","Lasioglossum subhirtum","species","other_wild_bees",1,17000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Labarthe","Yellow pan trap","Lasioglossum villosulum","species","other_wild_bees",1,17000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Labarthe","Yellow pan trap","Lasioglossum villosulum","species","other_wild_bees",1,17000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Labarthe","Net","Xylocopa violacea","species","other_wild_bees",1,17000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Net","Andrena agilissima","species","other_wild_bees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Net","Andrena agilissima","species","other_wild_bees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Net","Andrena agilissima","species","other_wild_bees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Net","Andrena agilissima","species","other_wild_bees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Net","Andrena bicolor","species","other_wild_bees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Net","Andrena bicolorata","species","other_wild_bees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Net","Andrena bicolorata","species","other_wild_bees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Net","Andrena bicolorata","species","other_wild_bees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Net","Andrena bicolorata","species","other_wild_bees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Net","Andrena bicolorata","species","other_wild_bees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Net","Andrena bicolorata","species","other_wild_bees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Net","Andrena bicolorata","species","other_wild_bees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Net","Andrena bicolorata","species","other_wild_bees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Net","Andrena bicolorata","species","other_wild_bees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Net","Andrena bicolorata","species","other_wild_bees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Net","Andrena bicolorata","species","other_wild_bees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Net","Andrena bicolorata","species","other_wild_bees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Net","Andrena bicolorata","species","other_wild_bees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Net","Andrena bicolorata","species","other_wild_bees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Net","Andrena bicolorata","species","other_wild_bees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Net","Andrena ferrugineicrus","species","other_wild_bees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Net","Andrena ferrugineicrus","species","other_wild_bees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Net","Andrena ferrugineicrus","species","other_wild_bees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Net","Andrena ferrugineicrus","species","other_wild_bees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Net","Andrena ferrugineicrus","species","other_wild_bees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Net","Andrena ferrugineicrus","species","other_wild_bees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Net","Andrena ferrugineicrus","species","other_wild_bees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Net","Andrena ferrugineicrus","species","other_wild_bees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Net","Andrena ferrugineicrus","species","other_wild_bees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Net","Andrena ferrugineicrus","species","other_wild_bees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Net","Andrena ferrugineicrus","species","other_wild_bees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Net","Andrena ferrugineicrus","species","other_wild_bees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Net","Andrena ferrugineicrus","species","other_wild_bees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Net","Andrena ferrugineicrus","species","other_wild_bees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Net","Andrena ferrugineicrus","species","other_wild_bees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Net","Andrena ferrugineicrus","species","other_wild_bees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Net","Andrena ferrugineicrus","species","other_wild_bees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Net","Andrena ferrugineicrus","species","other_wild_bees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Net","Andrena ferrugineicrus","species","other_wild_bees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Net","Andrena ferrugineicrus","species","other_wild_bees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Net","Andrena ferrugineicrus","species","other_wild_bees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Net","Andrena ferrugineicrus","species","other_wild_bees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Net","Andrena ferrugineicrus","species","other_wild_bees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Net","Andrena ferrugineicrus","species","other_wild_bees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Net","Andrena ferrugineicrus","species","other_wild_bees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Net","Andrena ferrugineicrus","species","other_wild_bees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Net","Andrena ferrugineicrus","species","other_wild_bees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Net","Andrena ferrugineicrus","species","other_wild_bees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Net","Andrena ferrugineicrus","species","other_wild_bees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Net","Andrena ferrugineicrus","species","other_wild_bees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Net","Andrena ferrugineicrus","species","other_wild_bees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Net","Andrena ferrugineicrus","species","other_wild_bees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Net","Andrena ferrugineicrus","species","other_wild_bees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Net","Andrena ferrugineicrus","species","other_wild_bees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Net","Andrena ferrugineicrus","species","other_wild_bees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Net","Andrena ferrugineicrus","species","other_wild_bees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Net","Andrena ferrugineicrus","species","other_wild_bees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Net","Andrena ferrugineicrus","species","other_wild_bees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Net","Andrena ferrugineicrus","species","other_wild_bees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Net","Andrena ferrugineicrus","species","other_wild_bees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Net","Andrena ferrugineicrus","species","other_wild_bees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Net","Andrena ferrugineicrus","species","other_wild_bees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Net","Andrena ferrugineicrus","species","other_wild_bees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Net","Andrena ferrugineicrus","species","other_wild_bees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Net","Andrena ferrugineicrus","species","other_wild_bees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Net","Andrena ferrugineicrus","species","other_wild_bees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Net","Andrena ferrugineicrus","species","other_wild_bees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Net","Andrena ferrugineicrus","species","other_wild_bees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Net","Andrena ferrugineicrus","species","other_wild_bees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Net","Andrena flavipes","species","other_wild_bees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Net","Andrena flavipes","species","other_wild_bees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Net","Andrena flavipes","species","other_wild_bees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Net","Andrena flavipes","species","other_wild_bees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Yellow pan trap","Andrena florentina","species","other_wild_bees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Yellow pan trap","Andrena florentina","species","other_wild_bees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Yellow pan trap","Andrena florentina","species","other_wild_bees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Net","Andrena florentina","species","other_wild_bees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Net","Andrena florentina","species","other_wild_bees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Net","Andrena florentina","species","other_wild_bees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Net","Andrena florentina","species","other_wild_bees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Yellow pan trap","Andrena hesperia","species","other_wild_bees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Yellow pan trap","Andrena humilis","species","other_wild_bees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","White pan trap","Andrena humilis","species","other_wild_bees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Net","Andrena lagopus","species","other_wild_bees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Net","Andrena lagopus","species","other_wild_bees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Net","Andrena lagopus","species","other_wild_bees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Net","Andrena lagopus","species","other_wild_bees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Net","Andrena lagopus","species","other_wild_bees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","White pan trap","Andrena minutula","species","other_wild_bees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Yellow pan trap","Andrena minutula","species","other_wild_bees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Blue pan trap","Andrena minutula","species","other_wild_bees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Net","Andrena minutula","species","other_wild_bees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Net","Andrena minutula","species","other_wild_bees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Net","Andrena minutula","species","other_wild_bees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Net","Andrena minutula","species","other_wild_bees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Net","Andrena minutula","species","other_wild_bees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Net","Andrena minutula","species","other_wild_bees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Net","Andrena minutula","species","other_wild_bees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Net","Andrena nigroaenea","species","other_wild_bees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Net","Andrena nigroaenea","species","other_wild_bees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Yellow pan trap","Andrena nigroolivacea","species","other_wild_bees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Net","Andrena pilipes","species","other_wild_bees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Net","Andrena pilipes","species","other_wild_bees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Net","Andrena propinqua","species","other_wild_bees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Net","Andrena propinqua","species","other_wild_bees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","White pan trap","Andrena rhenana","species","other_wild_bees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Yellow pan trap","Andrena senecionis","species","other_wild_bees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Yellow pan trap","Andrena tenuistriata","species","other_wild_bees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","White pan trap","Andrena tenuistriata","species","other_wild_bees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Yellow pan trap","Andrena tenuistriata","species","other_wild_bees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Yellow pan trap","Andrena tenuistriata","species","other_wild_bees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Net","Andrena tenuistriata","species","other_wild_bees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","White pan trap","Andrena verticalis","species","other_wild_bees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Yellow pan trap","Andrena verticalis","species","other_wild_bees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Net","Andrena verticalis","species","other_wild_bees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Net","Anthophora aestivalis","species","other_wild_bees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Net","Anthophora aestivalis","species","other_wild_bees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Net","Anthophora aestivalis","species","other_wild_bees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Net","Anthophora aestivalis","species","other_wild_bees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Net","Anthophora atroalba","species","other_wild_bees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Net","Anthophora atroalba","species","other_wild_bees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Net","Anthophora atroalba","species","other_wild_bees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Net","Anthophora atroalba","species","other_wild_bees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Net","Anthophora atroalba","species","other_wild_bees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Net","Anthophora atroalba","species","other_wild_bees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Yellow pan trap","Apis mellifera","species","honeybees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Yellow pan trap","Apis mellifera","species","honeybees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","White pan trap","Apis mellifera","species","honeybees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","White pan trap","Apis mellifera","species","honeybees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","White pan trap","Apis mellifera","species","honeybees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","White pan trap","Apis mellifera","species","honeybees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Blue pan trap","Apis mellifera","species","honeybees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Blue pan trap","Apis mellifera","species","honeybees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Net","Apis mellifera","species","honeybees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Net","Apis mellifera","species","honeybees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Net","Apis mellifera","species","honeybees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Net","Apis mellifera","species","honeybees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Net","Apis mellifera","species","honeybees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Net","Apis mellifera","species","honeybees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Net","Apis mellifera","species","honeybees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Net","Apis mellifera","species","honeybees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Net","Apis mellifera","species","honeybees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Net","Apis mellifera","species","honeybees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Net","Apis mellifera","species","honeybees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Net","Apis mellifera","species","honeybees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Net","Apis mellifera","species","honeybees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Net","Apis mellifera","species","honeybees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Net","Apis mellifera","species","honeybees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Net","Apis mellifera","species","honeybees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Net","Apis mellifera","species","honeybees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Net","Apis mellifera","species","honeybees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Net","Apis mellifera","species","honeybees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Net","Apis mellifera","species","honeybees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Net","Apis mellifera","species","honeybees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Net","Apis mellifera","species","honeybees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Net","Apis mellifera","species","honeybees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Net","Apis mellifera","species","honeybees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Net","Apis mellifera","species","honeybees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Net","Apis mellifera","species","honeybees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Net","Apis mellifera","species","honeybees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Net","Apis mellifera","species","honeybees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Net","Apis mellifera","species","honeybees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Net","Apis mellifera","species","honeybees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Net","Apis mellifera","species","honeybees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Net","Apis mellifera","species","honeybees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Net","Apis mellifera","species","honeybees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Net","Apis mellifera","species","honeybees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Net","Apis mellifera","species","honeybees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Net","Apis mellifera","species","honeybees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Net","Apis mellifera","species","honeybees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Net","Apis mellifera","species","honeybees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Net","Apis mellifera","species","honeybees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Net","Apis mellifera","species","honeybees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Net","Apis mellifera","species","honeybees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Net","Apis mellifera","species","honeybees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Net","Apis mellifera","species","honeybees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Net","Apis mellifera","species","honeybees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Net","Apis mellifera","species","honeybees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Net","Apis mellifera","species","honeybees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Net","Apis mellifera","species","honeybees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Net","Apis mellifera","species","honeybees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Net","Apis mellifera","species","honeybees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Net","Apis mellifera","species","honeybees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Net","Apis mellifera","species","honeybees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Net","Apis mellifera","species","honeybees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Net","Apis mellifera","species","honeybees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Net","Apis mellifera","species","honeybees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Net","Apis mellifera","species","honeybees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Net","Apis mellifera","species","honeybees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Net","Apis mellifera","species","honeybees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Net","Apis mellifera","species","honeybees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Net","Apis mellifera","species","honeybees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Net","Apis mellifera","species","honeybees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Net","Apis mellifera","species","honeybees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Net","Apis mellifera","species","honeybees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Net","Apis mellifera","species","honeybees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Net","Apis mellifera","species","honeybees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Net","Apis mellifera","species","honeybees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Net","Apis mellifera","species","honeybees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Net","Apis mellifera","species","honeybees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Net","Apis mellifera","species","honeybees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Net","Apis mellifera","species","honeybees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Net","Apis mellifera","species","honeybees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Net","Apis mellifera","species","honeybees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Net","Apis mellifera","species","honeybees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Net","Apis mellifera","species","honeybees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Net","Apis mellifera","species","honeybees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Net","Apis mellifera","species","honeybees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Net","Apis mellifera","species","honeybees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Net","Apis mellifera","species","honeybees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Net","Apis mellifera","species","honeybees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Net","Apis mellifera","species","honeybees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Net","Apis mellifera","species","honeybees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Net","Apis mellifera","species","honeybees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Net","Apis mellifera","species","honeybees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Net","Apis mellifera","species","honeybees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Net","Apis mellifera","species","honeybees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Net","Apis mellifera","species","honeybees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Net","Apis mellifera","species","honeybees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Net","Apis mellifera","species","honeybees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Net","Apis mellifera","species","honeybees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Net","Apis mellifera","species","honeybees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Net","Apis mellifera","species","honeybees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Net","Apis mellifera","species","honeybees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Net","Apis mellifera","species","honeybees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Net","Apis mellifera","species","honeybees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Net","Apis mellifera","species","honeybees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Net","Apis mellifera","species","honeybees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Net","Apis mellifera","species","honeybees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Net","Apis mellifera","species","honeybees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Net","Apis mellifera","species","honeybees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Net","Apis mellifera","species","honeybees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Net","Apis mellifera","species","honeybees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Net","Apis mellifera","species","honeybees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Net","Apis mellifera","species","honeybees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Net","Apis mellifera","species","honeybees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Net","Apis mellifera","species","honeybees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Net","Apis mellifera","species","honeybees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Net","Apis mellifera","species","honeybees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Net","Apis mellifera","species","honeybees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Net","Apis mellifera","species","honeybees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Net","Apis mellifera","species","honeybees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Net","Apis mellifera","species","honeybees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Net","Apis mellifera","species","honeybees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Net","Apis mellifera","species","honeybees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Net","Apis mellifera","species","honeybees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Net","Apis mellifera","species","honeybees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Net","Apis mellifera","species","honeybees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Net","Apis mellifera","species","honeybees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Net","Apis mellifera","species","honeybees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Net","Apis mellifera","species","honeybees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Net","Apis mellifera","species","honeybees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Net","Apis mellifera","species","honeybees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Net","Apis mellifera","species","honeybees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Net","Apis mellifera","species","honeybees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Net","Apis mellifera","species","honeybees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Net","Apis mellifera","species","honeybees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Net","Apis mellifera","species","honeybees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Net","Apis mellifera","species","honeybees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Net","Apis mellifera","species","honeybees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Net","Apis mellifera","species","honeybees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Net","Apis mellifera","species","honeybees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Net","Apis mellifera","species","honeybees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Net","Apis mellifera","species","honeybees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Net","Apis mellifera","species","honeybees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Net","Apis mellifera","species","honeybees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Net","Apis mellifera","species","honeybees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Net","Apis mellifera","species","honeybees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Net","Apis mellifera","species","honeybees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Net","Apis mellifera","species","honeybees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Net","Apis mellifera","species","honeybees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Net","Apis mellifera","species","honeybees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Net","Apis mellifera","species","honeybees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Net","Apis mellifera","species","honeybees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Net","Apis mellifera","species","honeybees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Net","Apis mellifera","species","honeybees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Net","Apis mellifera","species","honeybees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Net","Apis mellifera","species","honeybees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Net","Apis mellifera","species","honeybees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Net","Apis mellifera","species","honeybees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Net","Apis mellifera","species","honeybees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Net","Apis mellifera","species","honeybees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Net","Apis mellifera","species","honeybees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Net","Apis mellifera","species","honeybees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Net","Apis mellifera","species","honeybees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Net","Apis mellifera","species","honeybees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Net","Apis mellifera","species","honeybees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Net","Apis mellifera","species","honeybees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Net","Apis mellifera","species","honeybees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Net","Apis mellifera","species","honeybees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Net","Apis mellifera","species","honeybees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Net","Apis mellifera","species","honeybees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Net","Apis mellifera","species","honeybees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Net","Apis mellifera","species","honeybees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Net","Apis mellifera","species","honeybees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Net","Apis mellifera","species","honeybees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Net","Apis mellifera","species","honeybees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Net","Apis mellifera","species","honeybees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Net","Apis mellifera","species","honeybees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Net","Apis mellifera","species","honeybees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Net","Apis mellifera","species","honeybees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Net","Apis mellifera","species","honeybees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Net","Apis mellifera","species","honeybees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Net","Apis mellifera","species","honeybees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Net","Apis mellifera","species","honeybees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Net","Apis mellifera","species","honeybees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Net","Apis mellifera","species","honeybees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Net","Apis mellifera","species","honeybees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Net","Apis mellifera","species","honeybees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Net","Apis mellifera","species","honeybees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Net","Apis mellifera","species","honeybees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Net","Apis mellifera","species","honeybees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Net","Apis mellifera","species","honeybees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Net","Apis mellifera","species","honeybees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Net","Apis mellifera","species","honeybees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Net","Apis mellifera","species","honeybees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Net","Apis mellifera","species","honeybees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Net","Apis mellifera","species","honeybees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Net","Apis mellifera","species","honeybees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Net","Apis mellifera","species","honeybees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Net","Apis mellifera","species","honeybees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Net","Apis mellifera","species","honeybees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Net","Apis mellifera","species","honeybees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Net","Apis mellifera","species","honeybees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Net","Apis mellifera","species","honeybees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Net","Apis mellifera","species","honeybees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Net","Apis mellifera","species","honeybees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Net","Apis mellifera","species","honeybees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Net","Apis mellifera","species","honeybees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Net","Apis mellifera","species","honeybees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Net","Apis mellifera","species","honeybees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Net","Apis mellifera","species","honeybees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Net","Apis mellifera","species","honeybees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Net","Apis mellifera","species","honeybees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Net","Apis mellifera","species","honeybees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Net","Apis mellifera","species","honeybees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Net","Apis mellifera","species","honeybees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Net","Apis mellifera","species","honeybees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Net","Apis mellifera","species","honeybees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Net","Apis mellifera","species","honeybees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Net","Apis mellifera","species","honeybees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Net","Apis mellifera","species","honeybees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Net","Apis mellifera","species","honeybees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Net","Apis mellifera","species","honeybees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Net","Apis mellifera","species","honeybees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Net","Apis mellifera","species","honeybees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Net","Apis mellifera","species","honeybees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Net","Apis mellifera","species","honeybees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Net","Apis mellifera","species","honeybees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Net","Apis mellifera","species","honeybees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Net","Apis mellifera","species","honeybees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Net","Apis mellifera","species","honeybees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Net","Apis mellifera","species","honeybees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Net","Apis mellifera","species","honeybees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Net","Apis mellifera","species","honeybees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Net","Apis mellifera","species","honeybees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Net","Apis mellifera","species","honeybees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Net","Apis mellifera","species","honeybees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Net","Apis mellifera","species","honeybees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Net","Apis mellifera","species","honeybees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Net","Apis mellifera","species","honeybees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Net","Apis mellifera","species","honeybees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Net","Apis mellifera","species","honeybees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Net","Apis mellifera","species","honeybees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Net","Apis mellifera","species","honeybees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Net","Apis mellifera","species","honeybees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Net","Apis mellifera","species","honeybees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Net","Apis mellifera","species","honeybees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Net","Apis mellifera","species","honeybees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Net","Apis mellifera","species","honeybees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Net","Apis mellifera","species","honeybees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Net","Apis mellifera","species","honeybees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Net","Apis mellifera","species","honeybees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Net","Apis mellifera","species","honeybees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Net","Apis mellifera","species","honeybees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Net","Apis mellifera","species","honeybees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Net","Apis mellifera","species","honeybees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Net","Apis mellifera","species","honeybees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Net","Apis mellifera","species","honeybees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Net","Apis mellifera","species","honeybees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Net","Apis mellifera","species","honeybees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Net","Apis mellifera","species","honeybees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Net","Apis mellifera","species","honeybees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Net","Apis mellifera","species","honeybees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Net","Apis mellifera","species","honeybees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Net","Apis mellifera","species","honeybees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Net","Apis mellifera","species","honeybees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Net","Apis mellifera","species","honeybees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Net","Apis mellifera","species","honeybees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Net","Apis mellifera","species","honeybees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Net","Apis mellifera","species","honeybees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Net","Apis mellifera","species","honeybees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Net","Apis mellifera","species","honeybees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Net","Apis mellifera","species","honeybees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Net","Apis mellifera","species","honeybees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Net","Apis mellifera","species","honeybees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Net","Apis mellifera","species","honeybees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Net","Apis mellifera","species","honeybees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Net","Apis mellifera","species","honeybees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Net","Apis mellifera","species","honeybees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Net","Apis mellifera","species","honeybees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Net","Apis mellifera","species","honeybees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Net","Apis mellifera","species","honeybees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Net","Apis mellifera","species","honeybees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Net","Apis mellifera","species","honeybees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Net","Apis mellifera","species","honeybees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Net","Apis mellifera","species","honeybees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Net","Apis mellifera","species","honeybees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Net","Apis mellifera","species","honeybees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Net","Apis mellifera","species","honeybees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Net","Apis mellifera","species","honeybees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Net","Apis mellifera","species","honeybees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Net","Apis mellifera","species","honeybees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Net","Apis mellifera","species","honeybees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Net","Apis mellifera","species","honeybees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Net","Apis mellifera","species","honeybees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Net","Apis mellifera","species","honeybees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Net","Apis mellifera","species","honeybees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Net","Apis mellifera","species","honeybees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Net","Apis mellifera","species","honeybees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Net","Apis mellifera","species","honeybees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Net","Apis mellifera","species","honeybees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Net","Apis mellifera","species","honeybees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Net","Apis mellifera","species","honeybees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Net","Apis mellifera","species","honeybees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Net","Apis mellifera","species","honeybees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Net","Apis mellifera","species","honeybees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Net","Apis mellifera","species","honeybees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Net","Apis mellifera","species","honeybees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Net","Apis mellifera","species","honeybees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Net","Apis mellifera","species","honeybees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Net","Apis mellifera","species","honeybees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Net","Apis mellifera","species","honeybees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Net","Apis mellifera","species","honeybees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Net","Apis mellifera","species","honeybees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Net","Apis mellifera","species","honeybees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Net","Apis mellifera","species","honeybees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Net","Apis mellifera","species","honeybees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Net","Apis mellifera","species","honeybees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Net","Apis mellifera","species","honeybees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Net","Apis mellifera","species","honeybees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Net","Apis mellifera","species","honeybees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Net","Apis mellifera","species","honeybees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Net","Apis mellifera","species","honeybees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Net","Apis mellifera","species","honeybees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Net","Apis mellifera","species","honeybees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Net","Apis mellifera","species","honeybees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Net","Apis mellifera","species","honeybees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Net","Apis mellifera","species","honeybees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Net","Apis mellifera","species","honeybees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Net","Apis mellifera","species","honeybees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Net","Apis mellifera","species","honeybees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Net","Bombus pascuorum","species","bumblebees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Net","Eucera elongatula","species","other_wild_bees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Net","Eucera elongatula","species","other_wild_bees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Net","Eucera nigrilabris","species","other_wild_bees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Net","Eucera nigrilabris","species","other_wild_bees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Yellow pan trap","Lasioglossum algericolellum","species","other_wild_bees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","White pan trap","Lasioglossum algericolellum","species","other_wild_bees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Yellow pan trap","Lasioglossum algericolellum","species","other_wild_bees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Yellow pan trap","Lasioglossum algericolellum","species","other_wild_bees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Yellow pan trap","Lasioglossum capitale","species","other_wild_bees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","White pan trap","Lasioglossum capitale","species","other_wild_bees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Blue pan trap","Lasioglossum capitale","species","other_wild_bees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Yellow pan trap","Lasioglossum malachurum","species","other_wild_bees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Yellow pan trap","Lasioglossum malachurum","species","other_wild_bees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Yellow pan trap","Lasioglossum malachurum","species","other_wild_bees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Yellow pan trap","Lasioglossum malachurum","species","other_wild_bees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Yellow pan trap","Lasioglossum malachurum","species","other_wild_bees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Yellow pan trap","Lasioglossum malachurum","species","other_wild_bees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Yellow pan trap","Lasioglossum malachurum","species","other_wild_bees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","White pan trap","Lasioglossum malachurum","species","other_wild_bees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","White pan trap","Lasioglossum malachurum","species","other_wild_bees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Yellow pan trap","Lasioglossum malachurum","species","other_wild_bees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Yellow pan trap","Lasioglossum malachurum","species","other_wild_bees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Yellow pan trap","Lasioglossum malachurum","species","other_wild_bees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Blue pan trap","Lasioglossum malachurum","species","other_wild_bees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Blue pan trap","Lasioglossum malachurum","species","other_wild_bees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Blue pan trap","Lasioglossum malachurum","species","other_wild_bees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Blue pan trap","Lasioglossum malachurum","species","other_wild_bees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Yellow pan trap","Lasioglossum malachurum","species","other_wild_bees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Yellow pan trap","Lasioglossum malachurum","species","other_wild_bees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Yellow pan trap","Lasioglossum malachurum","species","other_wild_bees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Net","Lasioglossum malachurum","species","other_wild_bees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Net","Lasioglossum malachurum","species","other_wild_bees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","White pan trap","Lasioglossum mediterraneum","species","other_wild_bees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Yellow pan trap","Lasioglossum mediterraneum","species","other_wild_bees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Net","Lasioglossum mediterraneum","species","other_wild_bees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Yellow pan trap","Lasioglossum subhirtum","species","other_wild_bees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","White pan trap","Lasioglossum subhirtum","species","other_wild_bees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","White pan trap","Lasioglossum subhirtum","species","other_wild_bees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Yellow pan trap","Lasioglossum subhirtum","species","other_wild_bees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Blue pan trap","Lasioglossum transitorium","species","other_wild_bees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Yellow pan trap","Lasioglossum transitorium","species","other_wild_bees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Net","Melecta luctuosa","species","other_wild_bees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Net","Melecta luctuosa","species","other_wild_bees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Net","Nomada duplex","species","other_wild_bees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Net","Nomada duplex","species","other_wild_bees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Yellow pan trap","Sphecodes gibbus","species","other_wild_bees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Net","Xylocopa violacea","species","other_wild_bees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Mas de Roc","Net","Xylocopa violacea","species","other_wild_bees",1,42500,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Mauguio","Yellow pan trap","Andrena dorsata","species","other_wild_bees",1,30600,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Mauguio","Yellow pan trap","Andrena flavipes","species","other_wild_bees",1,30600,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Mauguio","Yellow pan trap","Andrena flavipes","species","other_wild_bees",1,30600,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Mauguio","White pan trap","Andrena flavipes","species","other_wild_bees",1,30600,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Mauguio","Net","Andrena flavipes","species","other_wild_bees",1,30600,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Mauguio","Yellow pan trap","Andrena humilis","species","other_wild_bees",1,30600,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Mauguio","White pan trap","Andrena humilis","species","other_wild_bees",1,30600,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Mauguio","White pan trap","Andrena humilis","species","other_wild_bees",1,30600,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Mauguio","White pan trap","Andrena humilis","species","other_wild_bees",1,30600,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Mauguio","White pan trap","Andrena humilis","species","other_wild_bees",1,30600,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Mauguio","White pan trap","Andrena humilis","species","other_wild_bees",1,30600,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Mauguio","Yellow pan trap","Andrena humilis","species","other_wild_bees",1,30600,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Mauguio","White pan trap","Andrena lagopus","species","other_wild_bees",1,30600,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Mauguio","Yellow pan trap","Andrena lagopus","species","other_wild_bees",1,30600,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Mauguio","Yellow pan trap","Andrena lagopus","species","other_wild_bees",1,30600,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Mauguio","Yellow pan trap","Andrena minutula","species","other_wild_bees",1,30600,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Mauguio","Yellow pan trap","Andrena minutula","species","other_wild_bees",1,30600,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Mauguio","White pan trap","Andrena minutula","species","other_wild_bees",1,30600,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Mauguio","White pan trap","Andrena minutula","species","other_wild_bees",1,30600,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Mauguio","Yellow pan trap","Andrena minutula","species","other_wild_bees",1,30600,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Mauguio","Yellow pan trap","Andrena minutula","species","other_wild_bees",1,30600,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Mauguio","White pan trap","Andrena nigroolivacea","species","other_wild_bees",1,30600,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Mauguio","Yellow pan trap","Andrena nigroolivacea","species","other_wild_bees",1,30600,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Mauguio","Yellow pan trap","Andrena nigroolivacea","species","other_wild_bees",1,30600,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Mauguio","Net","Andrena pilipes","species","other_wild_bees",1,30600,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Mauguio","Net","Andrena pilipes","species","other_wild_bees",1,30600,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Mauguio","Yellow pan trap","Andrena propinqua","species","other_wild_bees",1,30600,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Mauguio","Net","Andrena propinqua","species","other_wild_bees",1,30600,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Mauguio","Net","Andrena propinqua","species","other_wild_bees",1,30600,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Mauguio","Net","Andrena scotica","species","other_wild_bees",1,30600,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Mauguio","Net","Andrena thoracica","species","other_wild_bees",1,30600,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Mauguio","Blue pan trap","Apis mellifera","species","honeybees",1,30600,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Mauguio","Yellow pan trap","Apis mellifera","species","honeybees",1,30600,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Mauguio","Yellow pan trap","Apis mellifera","species","honeybees",1,30600,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Mauguio","Yellow pan trap","Apis mellifera","species","honeybees",1,30600,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Mauguio","Net","Apis mellifera","species","honeybees",1,30600,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Mauguio","Net","Apis mellifera","species","honeybees",1,30600,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Mauguio","Net","Apis mellifera","species","honeybees",1,30600,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Mauguio","Net","Apis mellifera","species","honeybees",1,30600,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Mauguio","Net","Apis mellifera","species","honeybees",1,30600,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Mauguio","Net","Apis mellifera","species","honeybees",1,30600,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Mauguio","Net","Apis mellifera","species","honeybees",1,30600,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Mauguio","Net","Apis mellifera","species","honeybees",1,30600,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Mauguio","Net","Apis mellifera","species","honeybees",1,30600,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Mauguio","Net","Apis mellifera","species","honeybees",1,30600,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Mauguio","Net","Apis mellifera","species","honeybees",1,30600,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Mauguio","Net","Apis mellifera","species","honeybees",1,30600,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Mauguio","Net","Apis mellifera","species","honeybees",1,30600,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Mauguio","Net","Apis mellifera","species","honeybees",1,30600,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Mauguio","Net","Apis mellifera","species","honeybees",1,30600,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Mauguio","Net","Apis mellifera","species","honeybees",1,30600,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Mauguio","Net","Apis mellifera","species","honeybees",1,30600,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Mauguio","Net","Apis mellifera","species","honeybees",1,30600,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Mauguio","Net","Apis mellifera","species","honeybees",1,30600,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Mauguio","Net","Apis mellifera","species","honeybees",1,30600,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Mauguio","Net","Apis mellifera","species","honeybees",1,30600,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Mauguio","Net","Apis mellifera","species","honeybees",1,30600,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Mauguio","Net","Apis mellifera","species","honeybees",1,30600,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Mauguio","Net","Apis mellifera","species","honeybees",1,30600,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Mauguio","Net","Apis mellifera","species","honeybees",1,30600,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Mauguio","Net","Apis mellifera","species","honeybees",1,30600,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Mauguio","Net","Apis mellifera","species","honeybees",1,30600,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Mauguio","Net","Apis mellifera","species","honeybees",1,30600,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Mauguio","Net","Apis mellifera","species","honeybees",1,30600,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Mauguio","Net","Apis mellifera","species","honeybees",1,30600,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Mauguio","Net","Apis mellifera","species","honeybees",1,30600,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Mauguio","Net","Apis mellifera","species","honeybees",1,30600,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Mauguio","Net","Apis mellifera","species","honeybees",1,30600,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Mauguio","Net","Apis mellifera","species","honeybees",1,30600,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Mauguio","Net","Apis mellifera","species","honeybees",1,30600,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Mauguio","Net","Apis mellifera","species","honeybees",1,30600,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Mauguio","Net","Apis mellifera","species","honeybees",1,30600,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Mauguio","Net","Apis mellifera","species","honeybees",1,30600,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Mauguio","Net","Apis mellifera","species","honeybees",1,30600,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Mauguio","Net","Apis mellifera","species","honeybees",1,30600,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Mauguio","Net","Apis mellifera","species","honeybees",1,30600,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Mauguio","Net","Apis mellifera","species","honeybees",1,30600,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Mauguio","Net","Apis mellifera","species","honeybees",1,30600,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Mauguio","Net","Apis mellifera","species","honeybees",1,30600,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Mauguio","Net","Apis mellifera","species","honeybees",1,30600,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Mauguio","Net","Apis mellifera","species","honeybees",1,30600,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Mauguio","Net","Apis mellifera","species","honeybees",1,30600,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Mauguio","Net","Apis mellifera","species","honeybees",1,30600,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Mauguio","Net","Apis mellifera","species","honeybees",1,30600,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Mauguio","Net","Apis mellifera","species","honeybees",1,30600,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Mauguio","Net","Apis mellifera","species","honeybees",1,30600,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Mauguio","Net","Apis mellifera","species","honeybees",1,30600,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Mauguio","Net","Apis mellifera","species","honeybees",1,30600,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Mauguio","Net","Apis mellifera","species","honeybees",1,30600,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Mauguio","Net","Apis mellifera","species","honeybees",1,30600,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Mauguio","Net","Apis mellifera","species","honeybees",1,30600,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Mauguio","Net","Apis mellifera","species","honeybees",1,30600,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Mauguio","Net","Apis mellifera","species","honeybees",1,30600,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Mauguio","Net","Apis mellifera","species","honeybees",1,30600,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Mauguio","Net","Apis mellifera","species","honeybees",1,30600,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Mauguio","Net","Apis mellifera","species","honeybees",1,30600,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Mauguio","Net","Apis mellifera","species","honeybees",1,30600,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Mauguio","Net","Apis mellifera","species","honeybees",1,30600,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Mauguio","Net","Apis mellifera","species","honeybees",1,30600,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Mauguio","Net","Apis mellifera","species","honeybees",1,30600,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Mauguio","Net","Apis mellifera","species","honeybees",1,30600,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Mauguio","Net","Apis mellifera","species","honeybees",1,30600,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Mauguio","Net","Apis mellifera","species","honeybees",1,30600,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Mauguio","Net","Apis mellifera","species","honeybees",1,30600,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Mauguio","Net","Apis mellifera","species","honeybees",1,30600,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Mauguio","Net","Apis mellifera","species","honeybees",1,30600,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Mauguio","Net","Apis mellifera","species","honeybees",1,30600,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Mauguio","Net","Apis mellifera","species","honeybees",1,30600,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Mauguio","Net","Apis mellifera","species","honeybees",1,30600,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Mauguio","Net","Apis mellifera","species","honeybees",1,30600,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Mauguio","Net","Apis mellifera","species","honeybees",1,30600,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Mauguio","Net","Apis mellifera","species","honeybees",1,30600,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Mauguio","Net","Apis mellifera","species","honeybees",1,30600,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Mauguio","Net","Apis mellifera","species","honeybees",1,30600,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Mauguio","Net","Apis mellifera","species","honeybees",1,30600,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Mauguio","Net","Apis mellifera","species","honeybees",1,30600,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Mauguio","Net","Apis mellifera","species","honeybees",1,30600,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Mauguio","Net","Apis mellifera","species","honeybees",1,30600,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Mauguio","Net","Apis mellifera","species","honeybees",1,30600,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Mauguio","Net","Apis mellifera","species","honeybees",1,30600,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Mauguio","Net","Apis mellifera","species","honeybees",1,30600,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Mauguio","Net","Apis mellifera","species","honeybees",1,30600,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Mauguio","Net","Apis mellifera","species","honeybees",1,30600,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Mauguio","Net","Apis mellifera","species","honeybees",1,30600,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Mauguio","Net","Apis mellifera","species","honeybees",1,30600,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Mauguio","Net","Apis mellifera","species","honeybees",1,30600,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Mauguio","Net","Apis mellifera","species","honeybees",1,30600,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Mauguio","Net","Apis mellifera","species","honeybees",1,30600,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Mauguio","Net","Apis mellifera","species","honeybees",1,30600,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Mauguio","Net","Apis mellifera","species","honeybees",1,30600,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Mauguio","Net","Apis mellifera","species","honeybees",1,30600,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Mauguio","Net","Apis mellifera","species","honeybees",1,30600,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Mauguio","Net","Apis mellifera","species","honeybees",1,30600,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Mauguio","Net","Apis mellifera","species","honeybees",1,30600,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Mauguio","Net","Apis mellifera","species","honeybees",1,30600,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Mauguio","Net","Apis mellifera","species","honeybees",1,30600,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Mauguio","Net","Apis mellifera","species","honeybees",1,30600,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Mauguio","Net","Apis mellifera","species","honeybees",1,30600,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Mauguio","Net","Apis mellifera","species","honeybees",1,30600,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Mauguio","Net","Apis mellifera","species","honeybees",1,30600,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Mauguio","Net","Bombus pascuorum","species","bumblebees",1,30600,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Mauguio","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,30600,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Mauguio","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,30600,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Mauguio","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,30600,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Mauguio","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,30600,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Mauguio","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,30600,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Mauguio","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,30600,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Mauguio","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,30600,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Mauguio","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,30600,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Mauguio","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,30600,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Mauguio","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,30600,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Mauguio","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,30600,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Mauguio","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,30600,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Mauguio","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,30600,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Mauguio","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,30600,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Mauguio","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,30600,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Mauguio","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,30600,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Mauguio","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,30600,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Mauguio","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,30600,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Mauguio","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,30600,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Mauguio","Blue pan trap","Lasioglossum malachurum","species","other_wild_bees",1,30600,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Mauguio","White pan trap","Lasioglossum malachurum","species","other_wild_bees",1,30600,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Mauguio","White pan trap","Lasioglossum malachurum","species","other_wild_bees",1,30600,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Mauguio","White pan trap","Lasioglossum malachurum","species","other_wild_bees",1,30600,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Mauguio","Yellow pan trap","Lasioglossum malachurum","species","other_wild_bees",1,30600,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Mauguio","Yellow pan trap","Lasioglossum pauxillum","species","other_wild_bees",1,30600,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Mauguio","White pan trap","Lasioglossum pauxillum","species","other_wild_bees",1,30600,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Mauguio","White pan trap","Lasioglossum pauxillum","species","other_wild_bees",1,30600,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Mauguio","White pan trap","Lasioglossum pauxillum","species","other_wild_bees",1,30600,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Mauguio","Yellow pan trap","Lasioglossum pauxillum","species","other_wild_bees",1,30600,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Mauguio","Yellow pan trap","Lasioglossum pauxillum","species","other_wild_bees",1,30600,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Mauguio","Net","Osmia bicornis","species","other_wild_bees",1,30600,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Mauguio","Yellow pan trap","Osmia bicornis","species","other_wild_bees",1,30600,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Mauguio","White pan trap","Sphecodes ruficrus","species","other_wild_bees",1,30600,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pedret i Marza","Net","Andrena agilissima","species","other_wild_bees",1,76700,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pedret i Marza","Net","Andrena agilissima","species","other_wild_bees",1,76700,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pedret i Marza","Net","Andrena dorsata","species","other_wild_bees",1,76700,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pedret i Marza","Net","Andrena dorsata","species","other_wild_bees",1,76700,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pedret i Marza","Net","Andrena dorsata","species","other_wild_bees",1,76700,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pedret i Marza","White pan trap","Andrena flavipes","species","other_wild_bees",1,76700,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pedret i Marza","Yellow pan trap","Andrena flavipes","species","other_wild_bees",1,76700,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pedret i Marza","Net","Andrena flavipes","species","other_wild_bees",1,76700,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pedret i Marza","Net","Andrena florentina","species","other_wild_bees",1,76700,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pedret i Marza","Net","Andrena fulva","species","other_wild_bees",1,76700,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pedret i Marza","Yellow pan trap","Andrena humilis","species","other_wild_bees",1,76700,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pedret i Marza","White pan trap","Andrena humilis","species","other_wild_bees",1,76700,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pedret i Marza","Yellow pan trap","Andrena humilis","species","other_wild_bees",1,76700,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pedret i Marza","Yellow pan trap","Andrena lagopus","species","other_wild_bees",1,76700,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pedret i Marza","Yellow pan trap","Andrena lagopus","species","other_wild_bees",1,76700,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pedret i Marza","White pan trap","Andrena lagopus","species","other_wild_bees",1,76700,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pedret i Marza","White pan trap","Andrena lagopus","species","other_wild_bees",1,76700,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pedret i Marza","Yellow pan trap","Andrena lagopus","species","other_wild_bees",1,76700,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pedret i Marza","Yellow pan trap","Andrena minutula","species","other_wild_bees",1,76700,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pedret i Marza","Net","Andrena morio","species","other_wild_bees",1,76700,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pedret i Marza","Net","Andrena nigroaenea","species","other_wild_bees",1,76700,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pedret i Marza","Yellow pan trap","Andrena nigroolivacea","species","other_wild_bees",1,76700,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pedret i Marza","Net","Andrena ovatula","species","other_wild_bees",1,76700,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pedret i Marza","Net","Andrena pilipes","species","other_wild_bees",1,76700,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pedret i Marza","Net","Andrena pilipes","species","other_wild_bees",1,76700,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pedret i Marza","Net","Andrena pilipes","species","other_wild_bees",1,76700,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pedret i Marza","Net","Andrena pilipes","species","other_wild_bees",1,76700,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pedret i Marza","Net","Andrena pilipes","species","other_wild_bees",1,76700,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pedret i Marza","Net","Andrena pilipes","species","other_wild_bees",1,76700,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pedret i Marza","Net","Andrena pilipes","species","other_wild_bees",1,76700,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pedret i Marza","Net","Andrena pilipes","species","other_wild_bees",1,76700,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pedret i Marza","Net","Andrena pilipes","species","other_wild_bees",1,76700,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pedret i Marza","Net","Andrena pilipes","species","other_wild_bees",1,76700,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pedret i Marza","White pan trap","Andrena propinqua","species","other_wild_bees",1,76700,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pedret i Marza","Net","Andrena trimmerana","species","other_wild_bees",1,76700,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pedret i Marza","Net","Apis mellifera","species","honeybees",1,76700,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pedret i Marza","Net","Apis mellifera","species","honeybees",1,76700,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pedret i Marza","Net","Apis mellifera","species","honeybees",1,76700,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pedret i Marza","Net","Apis mellifera","species","honeybees",1,76700,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pedret i Marza","Net","Apis mellifera","species","honeybees",1,76700,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pedret i Marza","Net","Apis mellifera","species","honeybees",1,76700,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pedret i Marza","Net","Apis mellifera","species","honeybees",1,76700,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pedret i Marza","Net","Apis mellifera","species","honeybees",1,76700,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pedret i Marza","Net","Apis mellifera","species","honeybees",1,76700,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pedret i Marza","Net","Apis mellifera","species","honeybees",1,76700,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pedret i Marza","Net","Apis mellifera","species","honeybees",1,76700,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pedret i Marza","Net","Apis mellifera","species","honeybees",1,76700,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pedret i Marza","Net","Apis mellifera","species","honeybees",1,76700,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pedret i Marza","Net","Apis mellifera","species","honeybees",1,76700,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pedret i Marza","Net","Apis mellifera","species","honeybees",1,76700,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pedret i Marza","Net","Apis mellifera","species","honeybees",1,76700,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pedret i Marza","Net","Apis mellifera","species","honeybees",1,76700,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pedret i Marza","Net","Apis mellifera","species","honeybees",1,76700,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pedret i Marza","Net","Apis mellifera","species","honeybees",1,76700,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pedret i Marza","Net","Apis mellifera","species","honeybees",1,76700,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pedret i Marza","Net","Apis mellifera","species","honeybees",1,76700,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pedret i Marza","Net","Apis mellifera","species","honeybees",1,76700,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pedret i Marza","Net","Apis mellifera","species","honeybees",1,76700,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pedret i Marza","Net","Apis mellifera","species","honeybees",1,76700,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pedret i Marza","Net","Apis mellifera","species","honeybees",1,76700,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pedret i Marza","Net","Apis mellifera","species","honeybees",1,76700,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pedret i Marza","Net","Apis mellifera","species","honeybees",1,76700,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pedret i Marza","Net","Apis mellifera","species","honeybees",1,76700,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pedret i Marza","Net","Apis mellifera","species","honeybees",1,76700,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pedret i Marza","Net","Apis mellifera","species","honeybees",1,76700,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pedret i Marza","Net","Apis mellifera","species","honeybees",1,76700,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pedret i Marza","Net","Apis mellifera","species","honeybees",1,76700,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pedret i Marza","Net","Apis mellifera","species","honeybees",1,76700,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pedret i Marza","Net","Apis mellifera","species","honeybees",1,76700,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pedret i Marza","Net","Apis mellifera","species","honeybees",1,76700,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pedret i Marza","Net","Apis mellifera","species","honeybees",1,76700,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pedret i Marza","Net","Apis mellifera","species","honeybees",1,76700,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pedret i Marza","Net","Apis mellifera","species","honeybees",1,76700,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pedret i Marza","Net","Apis mellifera","species","honeybees",1,76700,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pedret i Marza","Net","Apis mellifera","species","honeybees",1,76700,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pedret i Marza","Net","Apis mellifera","species","honeybees",1,76700,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pedret i Marza","Net","Apis mellifera","species","honeybees",1,76700,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pedret i Marza","Net","Apis mellifera","species","honeybees",1,76700,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pedret i Marza","Net","Apis mellifera","species","honeybees",1,76700,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pedret i Marza","Net","Apis mellifera","species","honeybees",1,76700,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pedret i Marza","Net","Apis mellifera","species","honeybees",1,76700,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pedret i Marza","Net","Apis mellifera","species","honeybees",1,76700,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pedret i Marza","Net","Apis mellifera","species","honeybees",1,76700,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pedret i Marza","Net","Apis mellifera","species","honeybees",1,76700,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pedret i Marza","Net","Apis mellifera","species","honeybees",1,76700,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pedret i Marza","Net","Apis mellifera","species","honeybees",1,76700,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pedret i Marza","Net","Apis mellifera","species","honeybees",1,76700,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pedret i Marza","Net","Apis mellifera","species","honeybees",1,76700,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pedret i Marza","Net","Apis mellifera","species","honeybees",1,76700,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pedret i Marza","Net","Apis mellifera","species","honeybees",1,76700,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pedret i Marza","Net","Apis mellifera","species","honeybees",1,76700,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pedret i Marza","Net","Apis mellifera","species","honeybees",1,76700,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pedret i Marza","Net","Apis mellifera","species","honeybees",1,76700,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pedret i Marza","Net","Apis mellifera","species","honeybees",1,76700,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pedret i Marza","Net","Apis mellifera","species","honeybees",1,76700,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pedret i Marza","Net","Apis mellifera","species","honeybees",1,76700,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pedret i Marza","Net","Apis mellifera","species","honeybees",1,76700,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pedret i Marza","Net","Apis mellifera","species","honeybees",1,76700,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pedret i Marza","Net","Apis mellifera","species","honeybees",1,76700,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pedret i Marza","Net","Apis mellifera","species","honeybees",1,76700,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pedret i Marza","Net","Apis mellifera","species","honeybees",1,76700,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pedret i Marza","Net","Apis mellifera","species","honeybees",1,76700,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pedret i Marza","Net","Apis mellifera","species","honeybees",1,76700,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pedret i Marza","Net","Apis mellifera","species","honeybees",1,76700,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pedret i Marza","Net","Apis mellifera","species","honeybees",1,76700,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pedret i Marza","Net","Apis mellifera","species","honeybees",1,76700,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pedret i Marza","Net","Apis mellifera","species","honeybees",1,76700,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pedret i Marza","Net","Apis mellifera","species","honeybees",1,76700,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pedret i Marza","Net","Apis mellifera","species","honeybees",1,76700,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pedret i Marza","Net","Apis mellifera","species","honeybees",1,76700,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pedret i Marza","Net","Apis mellifera","species","honeybees",1,76700,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pedret i Marza","Net","Apis mellifera","species","honeybees",1,76700,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pedret i Marza","Net","Apis mellifera","species","honeybees",1,76700,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pedret i Marza","Net","Apis mellifera","species","honeybees",1,76700,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pedret i Marza","Net","Apis mellifera","species","honeybees",1,76700,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pedret i Marza","Net","Apis mellifera","species","honeybees",1,76700,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pedret i Marza","Net","Apis mellifera","species","honeybees",1,76700,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pedret i Marza","Net","Apis mellifera","species","honeybees",1,76700,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pedret i Marza","Net","Apis mellifera","species","honeybees",1,76700,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pedret i Marza","Net","Apis mellifera","species","honeybees",1,76700,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pedret i Marza","Net","Apis mellifera","species","honeybees",1,76700,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pedret i Marza","Net","Apis mellifera","species","honeybees",1,76700,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pedret i Marza","Net","Apis mellifera","species","honeybees",1,76700,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pedret i Marza","Net","Apis mellifera","species","honeybees",1,76700,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pedret i Marza","Net","Apis mellifera","species","honeybees",1,76700,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pedret i Marza","Net","Apis mellifera","species","honeybees",1,76700,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pedret i Marza","Net","Apis mellifera","species","honeybees",1,76700,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pedret i Marza","Net","Apis mellifera","species","honeybees",1,76700,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pedret i Marza","Net","Apis mellifera","species","honeybees",1,76700,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pedret i Marza","Net","Apis mellifera","species","honeybees",1,76700,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pedret i Marza","Net","Apis mellifera","species","honeybees",1,76700,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pedret i Marza","Net","Apis mellifera","species","honeybees",1,76700,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pedret i Marza","Net","Apis mellifera","species","honeybees",1,76700,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pedret i Marza","Net","Apis mellifera","species","honeybees",1,76700,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pedret i Marza","Net","Apis mellifera","species","honeybees",1,76700,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pedret i Marza","Net","Apis mellifera","species","honeybees",1,76700,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pedret i Marza","Net","Apis mellifera","species","honeybees",1,76700,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pedret i Marza","Net","Apis mellifera","species","honeybees",1,76700,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pedret i Marza","Net","Apis mellifera","species","honeybees",1,76700,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pedret i Marza","Net","Apis mellifera","species","honeybees",1,76700,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pedret i Marza","Net","Apis mellifera","species","honeybees",1,76700,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pedret i Marza","Net","Apis mellifera","species","honeybees",1,76700,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pedret i Marza","Net","Apis mellifera","species","honeybees",1,76700,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pedret i Marza","Net","Apis mellifera","species","honeybees",1,76700,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pedret i Marza","Net","Apis mellifera","species","honeybees",1,76700,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pedret i Marza","Net","Apis mellifera","species","honeybees",1,76700,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pedret i Marza","Net","Apis mellifera","species","honeybees",1,76700,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pedret i Marza","Net","Apis mellifera","species","honeybees",1,76700,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pedret i Marza","Net","Bombus ruderatus","species","bumblebees",1,76700,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pedret i Marza","Net","Bombus ruderatus","species","bumblebees",1,76700,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pedret i Marza","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,76700,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pedret i Marza","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,76700,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pedret i Marza","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,76700,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pedret i Marza","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,76700,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pedret i Marza","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,76700,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pedret i Marza","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,76700,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pedret i Marza","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,76700,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pedret i Marza","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,76700,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pedret i Marza","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,76700,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pedret i Marza","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,76700,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pedret i Marza","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,76700,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pedret i Marza","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,76700,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pedret i Marza","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,76700,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pedret i Marza","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,76700,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pedret i Marza","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,76700,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pedret i Marza","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,76700,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pedret i Marza","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,76700,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pedret i Marza","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,76700,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pedret i Marza","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,76700,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pedret i Marza","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,76700,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pedret i Marza","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,76700,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pedret i Marza","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,76700,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pedret i Marza","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,76700,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pedret i Marza","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,76700,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pedret i Marza","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,76700,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pedret i Marza","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,76700,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pedret i Marza","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,76700,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pedret i Marza","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,76700,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pedret i Marza","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,76700,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pedret i Marza","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,76700,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pedret i Marza","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,76700,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pedret i Marza","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,76700,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pedret i Marza","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,76700,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pedret i Marza","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,76700,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pedret i Marza","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,76700,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pedret i Marza","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,76700,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pedret i Marza","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,76700,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pedret i Marza","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,76700,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pedret i Marza","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,76700,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pedret i Marza","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,76700,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pedret i Marza","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,76700,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pedret i Marza","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,76700,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pedret i Marza","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,76700,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pedret i Marza","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,76700,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pedret i Marza","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,76700,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pedret i Marza","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,76700,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pedret i Marza","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,76700,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pedret i Marza","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,76700,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pedret i Marza","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,76700,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pedret i Marza","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,76700,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pedret i Marza","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,76700,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pedret i Marza","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,76700,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pedret i Marza","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,76700,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pedret i Marza","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,76700,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pedret i Marza","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,76700,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pedret i Marza","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,76700,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pedret i Marza","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,76700,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pedret i Marza","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,76700,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pedret i Marza","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,76700,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pedret i Marza","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,76700,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pedret i Marza","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,76700,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pedret i Marza","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,76700,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pedret i Marza","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,76700,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pedret i Marza","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,76700,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pedret i Marza","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,76700,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pedret i Marza","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,76700,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pedret i Marza","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,76700,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pedret i Marza","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,76700,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pedret i Marza","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,76700,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pedret i Marza","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,76700,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pedret i Marza","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,76700,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pedret i Marza","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,76700,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pedret i Marza","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,76700,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pedret i Marza","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,76700,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pedret i Marza","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,76700,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pedret i Marza","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,76700,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pedret i Marza","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,76700,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pedret i Marza","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,76700,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pedret i Marza","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,76700,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pedret i Marza","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,76700,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pedret i Marza","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,76700,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pedret i Marza","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,76700,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pedret i Marza","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,76700,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pedret i Marza","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,76700,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pedret i Marza","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,76700,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pedret i Marza","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,76700,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pedret i Marza","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,76700,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pedret i Marza","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,76700,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pedret i Marza","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,76700,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pedret i Marza","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,76700,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pedret i Marza","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,76700,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pedret i Marza","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,76700,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pedret i Marza","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,76700,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pedret i Marza","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,76700,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pedret i Marza","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,76700,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pedret i Marza","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,76700,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pedret i Marza","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,76700,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pedret i Marza","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,76700,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pedret i Marza","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,76700,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pedret i Marza","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,76700,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pedret i Marza","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,76700,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pedret i Marza","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,76700,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pedret i Marza","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,76700,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pedret i Marza","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,76700,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pedret i Marza","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,76700,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pedret i Marza","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,76700,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pedret i Marza","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,76700,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pedret i Marza","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,76700,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pedret i Marza","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,76700,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pedret i Marza","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,76700,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pedret i Marza","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,76700,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pedret i Marza","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,76700,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pedret i Marza","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,76700,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pedret i Marza","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,76700,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pedret i Marza","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,76700,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pedret i Marza","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,76700,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pedret i Marza","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,76700,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pedret i Marza","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,76700,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pedret i Marza","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,76700,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pedret i Marza","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,76700,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pedret i Marza","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,76700,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pedret i Marza","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,76700,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pedret i Marza","Blue pan trap","Ceratina cucurbitina","species","other_wild_bees",1,76700,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pedret i Marza","White pan trap","Eucera collaris","species","other_wild_bees",1,76700,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pedret i Marza","Net","Eucera nigrescens","species","other_wild_bees",1,76700,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pedret i Marza","Net","Eucera nigrescens","species","other_wild_bees",1,76700,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pedret i Marza","Net","Eucera nigrescens","species","other_wild_bees",1,76700,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pedret i Marza","Net","Eucera nigrescens","species","other_wild_bees",1,76700,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pedret i Marza","Net","Eucera nigrescens","species","other_wild_bees",1,76700,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pedret i Marza","Net","Eucera nigrescens","species","other_wild_bees",1,76700,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pedret i Marza","Net","Eucera nigrilabris","species","other_wild_bees",1,76700,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pedret i Marza","Net","Eucera nigrilabris","species","other_wild_bees",1,76700,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pedret i Marza","Net","Eucera nigrilabris","species","other_wild_bees",1,76700,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pedret i Marza","White pan trap","Lasioglossum algericolellum","species","other_wild_bees",1,76700,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pedret i Marza","Yellow pan trap","Lasioglossum algericolellum","species","other_wild_bees",1,76700,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pedret i Marza","White pan trap","Lasioglossum malachurum","species","other_wild_bees",1,76700,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pedret i Marza","White pan trap","Lasioglossum malachurum","species","other_wild_bees",1,76700,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pedret i Marza","Yellow pan trap","Lasioglossum malachurum","species","other_wild_bees",1,76700,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pedret i Marza","Yellow pan trap","Lasioglossum malachurum","species","other_wild_bees",1,76700,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pedret i Marza","Yellow pan trap","Lasioglossum malachurum","species","other_wild_bees",1,76700,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pedret i Marza","Yellow pan trap","Lasioglossum malachurum","species","other_wild_bees",1,76700,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pedret i Marza","Yellow pan trap","Lasioglossum malachurum","species","other_wild_bees",1,76700,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pedret i Marza","Yellow pan trap","Lasioglossum malachurum","species","other_wild_bees",1,76700,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pedret i Marza","Yellow pan trap","Lasioglossum malachurum","species","other_wild_bees",1,76700,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pedret i Marza","Yellow pan trap","Lasioglossum malachurum","species","other_wild_bees",1,76700,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pedret i Marza","White pan trap","Lasioglossum malachurum","species","other_wild_bees",1,76700,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pedret i Marza","White pan trap","Lasioglossum malachurum","species","other_wild_bees",1,76700,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pedret i Marza","White pan trap","Lasioglossum malachurum","species","other_wild_bees",1,76700,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pedret i Marza","Yellow pan trap","Lasioglossum malachurum","species","other_wild_bees",1,76700,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pedret i Marza","Yellow pan trap","Lasioglossum malachurum","species","other_wild_bees",1,76700,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pedret i Marza","Yellow pan trap","Lasioglossum malachurum","species","other_wild_bees",1,76700,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pedret i Marza","Net","Lasioglossum malachurum","species","other_wild_bees",1,76700,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pedret i Marza","Net","Lasioglossum malachurum","species","other_wild_bees",1,76700,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pedret i Marza","Net","Lasioglossum mediterraneum","species","other_wild_bees",1,76700,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pedret i Marza","Yellow pan trap","Lasioglossum pauperatum","species","other_wild_bees",1,76700,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pedret i Marza","Yellow pan trap","Lasioglossum pauperatum","species","other_wild_bees",1,76700,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pedret i Marza","Yellow pan trap","Lasioglossum pauperatum","species","other_wild_bees",1,76700,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pedret i Marza","Yellow pan trap","Lasioglossum pauxillum","species","other_wild_bees",1,76700,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pedret i Marza","Yellow pan trap","Lasioglossum politum","species","other_wild_bees",1,76700,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pedret i Marza","Yellow pan trap","Lasioglossum politum","species","other_wild_bees",1,76700,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pedret i Marza","Net","Nomada agrestis","species","other_wild_bees",1,76700,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pedret i Marza","Net","Nomada sexfasciata","species","other_wild_bees",1,76700,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pedret i Marza","White pan trap","Osmia bicornis","species","other_wild_bees",1,76700,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pedret i Marza","White pan trap","Osmia bicornis","species","other_wild_bees",1,76700,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pedret i Marza","Yellow pan trap","Osmia bicornis","species","other_wild_bees",1,76700,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pedret i Marza","Yellow pan trap","Osmia bicornis","species","other_wild_bees",1,76700,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pedret i Marza","Yellow pan trap","Osmia bicornis","species","other_wild_bees",1,76700,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pedret i Marza","Yellow pan trap","Osmia bicornis","species","other_wild_bees",1,76700,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pedret i Marza","Net","Osmia bicornis","species","other_wild_bees",1,76700,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pedret i Marza","Net","Osmia bicornis","species","other_wild_bees",1,76700,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pedret i Marza","Net","Osmia bicornis","species","other_wild_bees",1,76700,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pedret i Marza","Net","Osmia bicornis","species","other_wild_bees",1,76700,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pedret i Marza","Net","Osmia bicornis","species","other_wild_bees",1,76700,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pedret i Marza","Net","Osmia bicornis","species","other_wild_bees",1,76700,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pedret i Marza","Net","Osmia bicornis","species","other_wild_bees",1,76700,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pedret i Marza","Net","Osmia bicornis","species","other_wild_bees",1,76700,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pedret i Marza","Net","Osmia bicornis","species","other_wild_bees",1,76700,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pedret i Marza","Net","Osmia bicornis","species","other_wild_bees",1,76700,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pedret i Marza","Net","Osmia bicornis","species","other_wild_bees",1,76700,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pedret i Marza","Net","Osmia bicornis","species","other_wild_bees",1,76700,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pedret i Marza","Net","Osmia bicornis","species","other_wild_bees",1,76700,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pedret i Marza","Net","Osmia bicornis","species","other_wild_bees",1,76700,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pedret i Marza","Net","Osmia bicornis","species","other_wild_bees",1,76700,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pedret i Marza","Net","Osmia bicornis","species","other_wild_bees",1,76700,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pedret i Marza","Net","Osmia bicornis","species","other_wild_bees",1,76700,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pedret i Marza","Net","Osmia bicornis","species","other_wild_bees",1,76700,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pedret i Marza","Net","Osmia bicornis","species","other_wild_bees",1,76700,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pedret i Marza","Net","Osmia bicornis","species","other_wild_bees",1,76700,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pedret i Marza","Net","Osmia bicornis","species","other_wild_bees",1,76700,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pedret i Marza","Net","Osmia bicornis","species","other_wild_bees",1,76700,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pedret i Marza","Net","Osmia bicornis","species","other_wild_bees",1,76700,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pedret i Marza","Net","Osmia bicornis","species","other_wild_bees",1,76700,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pedret i Marza","Net","Osmia bicornis","species","other_wild_bees",1,76700,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pedret i Marza","Net","Osmia bicornis","species","other_wild_bees",1,76700,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pedret i Marza","White pan trap","Sphecodes pellucidus","species","other_wild_bees",1,76700,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pedret i Marza","Net","Xylocopa violacea","species","other_wild_bees",1,76700,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pedret i Marza","Net","Xylocopa violacea","species","other_wild_bees",1,76700,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pedret i Marza","Net","Xylocopa violacea","species","other_wild_bees",1,76700,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pedret i Marza","Net","Xylocopa violacea","species","other_wild_bees",1,76700,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pedret i Marza","Net","Xylocopa violacea","species","other_wild_bees",1,76700,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Andrena albopunctata","species","other_wild_bees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Andrena albopunctata","species","other_wild_bees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Andrena albopunctata","species","other_wild_bees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Andrena albopunctata","species","other_wild_bees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Andrena albopunctata","species","other_wild_bees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Andrena albopunctata","species","other_wild_bees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Andrena albopunctata","species","other_wild_bees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Andrena albopunctata","species","other_wild_bees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Andrena albopunctata","species","other_wild_bees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Andrena breviscopa","species","other_wild_bees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Andrena cinerea","species","other_wild_bees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Andrena combinata","species","other_wild_bees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Yellow pan trap","Andrena ferrugineicrus","species","other_wild_bees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Andrena ferrugineicrus","species","other_wild_bees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Andrena flavipes","species","other_wild_bees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Andrena flavipes","species","other_wild_bees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Andrena flavipes","species","other_wild_bees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Andrena flavipes","species","other_wild_bees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","White pan trap","Andrena florentina","species","other_wild_bees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Andrena florentina","species","other_wild_bees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Andrena fuscosa","species","other_wild_bees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Andrena fuscosa","species","other_wild_bees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Andrena fuscosa","species","other_wild_bees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Andrena fuscosa","species","other_wild_bees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Andrena fuscosa","species","other_wild_bees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Andrena fuscosa","species","other_wild_bees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Andrena gravida","species","other_wild_bees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","White pan trap","Andrena hesperia","species","other_wild_bees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","White pan trap","Andrena hesperia","species","other_wild_bees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","White pan trap","Andrena hesperia","species","other_wild_bees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Yellow pan trap","Andrena hesperia","species","other_wild_bees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Yellow pan trap","Andrena hesperia","species","other_wild_bees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Andrena hesperia","species","other_wild_bees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Andrena hesperia","species","other_wild_bees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","White pan trap","Andrena humilis","species","other_wild_bees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Andrena limata","species","other_wild_bees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Andrena longibarbis","species","other_wild_bees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Andrena morio","species","other_wild_bees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Andrena morio","species","other_wild_bees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Andrena morio","species","other_wild_bees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Andrena morio","species","other_wild_bees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Andrena morio","species","other_wild_bees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Andrena morio","species","other_wild_bees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Andrena morio","species","other_wild_bees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Andrena morio","species","other_wild_bees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Andrena morio","species","other_wild_bees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Andrena nigroaenea","species","other_wild_bees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Andrena nigroaenea","species","other_wild_bees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Andrena nigroaenea","species","other_wild_bees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","White pan trap","Andrena nigroolivacea","species","other_wild_bees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","White pan trap","Andrena nigroolivacea","species","other_wild_bees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Yellow pan trap","Andrena nigroolivacea","species","other_wild_bees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Yellow pan trap","Andrena nigroolivacea","species","other_wild_bees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Yellow pan trap","Andrena nigroolivacea","species","other_wild_bees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","White pan trap","Andrena nigroolivacea","species","other_wild_bees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Yellow pan trap","Andrena nigroolivacea","species","other_wild_bees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Yellow pan trap","Andrena nigroolivacea","species","other_wild_bees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Andrena nigroolivacea","species","other_wild_bees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","White pan trap","Andrena panurgina","species","other_wild_bees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","White pan trap","Andrena panurgina","species","other_wild_bees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","White pan trap","Andrena panurgina","species","other_wild_bees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Blue pan trap","Andrena panurgina","species","other_wild_bees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Yellow pan trap","Andrena panurgina","species","other_wild_bees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Yellow pan trap","Andrena panurgina","species","other_wild_bees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","White pan trap","Andrena panurgina","species","other_wild_bees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","White pan trap","Andrena panurgina","species","other_wild_bees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","White pan trap","Andrena panurgina","species","other_wild_bees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Yellow pan trap","Andrena panurgina","species","other_wild_bees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Yellow pan trap","Andrena panurgina","species","other_wild_bees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Andrena pilipes","species","other_wild_bees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Andrena pilipes","species","other_wild_bees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Andrena pilipes","species","other_wild_bees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Andrena pilipes","species","other_wild_bees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Andrena pilipes","species","other_wild_bees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Andrena pilipes","species","other_wild_bees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Andrena pilipes","species","other_wild_bees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Andrena pilipes","species","other_wild_bees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Andrena pilipes","species","other_wild_bees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Andrena pilipes","species","other_wild_bees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Andrena pilipes","species","other_wild_bees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Andrena pilipes","species","other_wild_bees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Andrena pilipes","species","other_wild_bees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Andrena pilipes","species","other_wild_bees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Andrena pilipes","species","other_wild_bees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Andrena pilipes","species","other_wild_bees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Andrena pilipes","species","other_wild_bees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Andrena pilipes","species","other_wild_bees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Andrena pilipes","species","other_wild_bees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Andrena pilipes","species","other_wild_bees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Yellow pan trap","Andrena propinqua","species","other_wild_bees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Andrena propinqua","species","other_wild_bees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Andrena propinqua","species","other_wild_bees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Andrena propinqua","species","other_wild_bees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Andrena propinqua","species","other_wild_bees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Andrena propinqua","species","other_wild_bees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Andrena propinqua","species","other_wild_bees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Andrena propinqua","species","other_wild_bees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Andrena propinqua","species","other_wild_bees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Andrena propinqua","species","other_wild_bees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Andrena propinqua","species","other_wild_bees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Andrena propinqua","species","other_wild_bees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Andrena propinqua","species","other_wild_bees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Andrena propinqua","species","other_wild_bees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Andrena propinqua","species","other_wild_bees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Andrena propinqua","species","other_wild_bees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Andrena propinqua","species","other_wild_bees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Andrena propinqua","species","other_wild_bees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Andrena propinqua","species","other_wild_bees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Andrena propinqua","species","other_wild_bees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Andrena propinqua","species","other_wild_bees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Andrena propinqua","species","other_wild_bees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Andrena propinqua","species","other_wild_bees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Andrena propinqua","species","other_wild_bees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Andrena propinqua","species","other_wild_bees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Andrena propinqua","species","other_wild_bees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Andrena propinqua","species","other_wild_bees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Andrena propinqua","species","other_wild_bees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Andrena propinqua","species","other_wild_bees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Andrena propinqua","species","other_wild_bees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Andrena propinqua","species","other_wild_bees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Andrena propinqua","species","other_wild_bees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Andrena propinqua","species","other_wild_bees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Andrena propinqua","species","other_wild_bees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Andrena propinqua","species","other_wild_bees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Andrena propinqua","species","other_wild_bees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Andrena propinqua","species","other_wild_bees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Andrena propinqua","species","other_wild_bees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Andrena propinqua","species","other_wild_bees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Andrena propinqua","species","other_wild_bees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Andrena propinqua","species","other_wild_bees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Andrena propinqua","species","other_wild_bees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Andrena propinqua","species","other_wild_bees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Andrena propinqua","species","other_wild_bees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Andrena propinqua","species","other_wild_bees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Andrena propinqua","species","other_wild_bees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Andrena propinqua","species","other_wild_bees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Andrena propinqua","species","other_wild_bees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Andrena propinqua","species","other_wild_bees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Andrena propinqua","species","other_wild_bees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Andrena propinqua","species","other_wild_bees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Andrena propinqua","species","other_wild_bees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Andrena propinqua","species","other_wild_bees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Andrena propinqua","species","other_wild_bees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Andrena propinqua","species","other_wild_bees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Andrena propinqua","species","other_wild_bees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Andrena propinqua","species","other_wild_bees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Andrena propinqua","species","other_wild_bees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Andrena propinqua","species","other_wild_bees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Andrena propinqua","species","other_wild_bees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Andrena propinqua","species","other_wild_bees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Andrena propinqua","species","other_wild_bees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Andrena propinqua","species","other_wild_bees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Andrena propinqua","species","other_wild_bees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Andrena propinqua","species","other_wild_bees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Andrena propinqua","species","other_wild_bees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Andrena propinqua","species","other_wild_bees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Andrena propinqua","species","other_wild_bees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Andrena propinqua","species","other_wild_bees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Andrena propinqua","species","other_wild_bees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Andrena propinqua","species","other_wild_bees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Andrena propinqua","species","other_wild_bees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Andrena propinqua","species","other_wild_bees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Andrena propinqua","species","other_wild_bees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Andrena propinqua","species","other_wild_bees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Andrena propinqua","species","other_wild_bees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Andrena propinqua","species","other_wild_bees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Andrena propinqua","species","other_wild_bees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Andrena propinqua","species","other_wild_bees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Andrena propinqua","species","other_wild_bees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Andrena propinqua","species","other_wild_bees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Andrena propinqua","species","other_wild_bees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Andrena propinqua","species","other_wild_bees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Andrena propinqua","species","other_wild_bees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Andrena propinqua","species","other_wild_bees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Andrena propinqua","species","other_wild_bees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Andrena propinqua","species","other_wild_bees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Andrena propinqua","species","other_wild_bees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Andrena propinqua","species","other_wild_bees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Andrena propinqua","species","other_wild_bees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Andrena propinqua","species","other_wild_bees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Andrena propinqua","species","other_wild_bees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Andrena propinqua","species","other_wild_bees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Andrena propinqua","species","other_wild_bees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Andrena propinqua","species","other_wild_bees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Andrena propinqua","species","other_wild_bees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Andrena propinqua","species","other_wild_bees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Andrena propinqua","species","other_wild_bees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Andrena propinqua","species","other_wild_bees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Andrena propinqua","species","other_wild_bees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Andrena propinqua","species","other_wild_bees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Andrena propinqua","species","other_wild_bees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Andrena propinqua","species","other_wild_bees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Andrena propinqua","species","other_wild_bees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Andrena propinqua","species","other_wild_bees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Andrena propinqua","species","other_wild_bees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Andrena propinqua","species","other_wild_bees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Andrena propinqua","species","other_wild_bees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Andrena propinqua","species","other_wild_bees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Andrena propinqua","species","other_wild_bees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Andrena propinqua","species","other_wild_bees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Andrena propinqua","species","other_wild_bees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Andrena propinqua","species","other_wild_bees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Andrena propinqua","species","other_wild_bees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","White pan trap","Andrena senecionis","species","other_wild_bees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Andrena thoracica","species","other_wild_bees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Andrena thoracica","species","other_wild_bees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Andrena thoracica","species","other_wild_bees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Andrena thoracica","species","other_wild_bees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Andrena thoracica","species","other_wild_bees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Andrena thoracica","species","other_wild_bees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Andrena thoracica","species","other_wild_bees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Andrena thoracica","species","other_wild_bees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Andrena thoracica","species","other_wild_bees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Andrena thoracica","species","other_wild_bees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Andrena thoracica","species","other_wild_bees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Andrena thoracica","species","other_wild_bees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Andrena thoracica","species","other_wild_bees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Andrena thoracica","species","other_wild_bees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Andrena thoracica","species","other_wild_bees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Andrena thoracica","species","other_wild_bees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Andrena thoracica","species","other_wild_bees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Andrena thoracica","species","other_wild_bees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Andrena trimmerana","species","other_wild_bees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Andrena trimmerana","species","other_wild_bees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Andrena trimmerana","species","other_wild_bees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Andrena trimmerana","species","other_wild_bees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Andrena trimmerana","species","other_wild_bees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Andrena trimmerana","species","other_wild_bees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Andrena trimmerana","species","other_wild_bees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Andrena trimmerana","species","other_wild_bees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Andrena trimmerana","species","other_wild_bees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Andrena trimmerana","species","other_wild_bees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Andrena trimmerana","species","other_wild_bees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Yellow pan trap","Andrena verticalis","species","other_wild_bees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Yellow pan trap","Andrena villipes","species","other_wild_bees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Anthophora atroalba","species","other_wild_bees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Anthophora plumipes","species","other_wild_bees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Anthophora plumipes","species","other_wild_bees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","White pan trap","Anthophora punctilabris","species","other_wild_bees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Yellow pan trap","Apis mellifera","species","honeybees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Apis mellifera","species","honeybees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Apis mellifera","species","honeybees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Apis mellifera","species","honeybees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Apis mellifera","species","honeybees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Apis mellifera","species","honeybees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Apis mellifera","species","honeybees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Apis mellifera","species","honeybees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Apis mellifera","species","honeybees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Apis mellifera","species","honeybees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Apis mellifera","species","honeybees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Apis mellifera","species","honeybees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Apis mellifera","species","honeybees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Apis mellifera","species","honeybees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Apis mellifera","species","honeybees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Apis mellifera","species","honeybees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Apis mellifera","species","honeybees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Apis mellifera","species","honeybees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Apis mellifera","species","honeybees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Apis mellifera","species","honeybees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Apis mellifera","species","honeybees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Apis mellifera","species","honeybees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Apis mellifera","species","honeybees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Apis mellifera","species","honeybees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Apis mellifera","species","honeybees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Apis mellifera","species","honeybees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Apis mellifera","species","honeybees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Apis mellifera","species","honeybees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Apis mellifera","species","honeybees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Apis mellifera","species","honeybees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Apis mellifera","species","honeybees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Apis mellifera","species","honeybees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Apis mellifera","species","honeybees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Apis mellifera","species","honeybees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Apis mellifera","species","honeybees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Apis mellifera","species","honeybees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Apis mellifera","species","honeybees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Apis mellifera","species","honeybees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Apis mellifera","species","honeybees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Apis mellifera","species","honeybees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Apis mellifera","species","honeybees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Apis mellifera","species","honeybees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Apis mellifera","species","honeybees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Apis mellifera","species","honeybees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Apis mellifera","species","honeybees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Apis mellifera","species","honeybees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Apis mellifera","species","honeybees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Apis mellifera","species","honeybees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Apis mellifera","species","honeybees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Apis mellifera","species","honeybees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Apis mellifera","species","honeybees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Apis mellifera","species","honeybees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Apis mellifera","species","honeybees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Apis mellifera","species","honeybees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Apis mellifera","species","honeybees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Apis mellifera","species","honeybees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Apis mellifera","species","honeybees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Apis mellifera","species","honeybees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Apis mellifera","species","honeybees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Apis mellifera","species","honeybees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Apis mellifera","species","honeybees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Apis mellifera","species","honeybees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Apis mellifera","species","honeybees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Apis mellifera","species","honeybees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Apis mellifera","species","honeybees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Apis mellifera","species","honeybees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Apis mellifera","species","honeybees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Apis mellifera","species","honeybees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Apis mellifera","species","honeybees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Apis mellifera","species","honeybees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Apis mellifera","species","honeybees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Apis mellifera","species","honeybees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Apis mellifera","species","honeybees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Apis mellifera","species","honeybees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Apis mellifera","species","honeybees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Apis mellifera","species","honeybees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Apis mellifera","species","honeybees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Apis mellifera","species","honeybees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Apis mellifera","species","honeybees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Apis mellifera","species","honeybees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Apis mellifera","species","honeybees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Apis mellifera","species","honeybees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Apis mellifera","species","honeybees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Apis mellifera","species","honeybees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Apis mellifera","species","honeybees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Apis mellifera","species","honeybees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Apis mellifera","species","honeybees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Apis mellifera","species","honeybees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Apis mellifera","species","honeybees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Apis mellifera","species","honeybees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Apis mellifera","species","honeybees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Apis mellifera","species","honeybees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Apis mellifera","species","honeybees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Apis mellifera","species","honeybees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Apis mellifera","species","honeybees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Apis mellifera","species","honeybees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Apis mellifera","species","honeybees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Apis mellifera","species","honeybees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Apis mellifera","species","honeybees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Apis mellifera","species","honeybees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Apis mellifera","species","honeybees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Apis mellifera","species","honeybees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Apis mellifera","species","honeybees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Apis mellifera","species","honeybees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Apis mellifera","species","honeybees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Apis mellifera","species","honeybees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Apis mellifera","species","honeybees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Apis mellifera","species","honeybees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Apis mellifera","species","honeybees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Apis mellifera","species","honeybees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Apis mellifera","species","honeybees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Apis mellifera","species","honeybees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Apis mellifera","species","honeybees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Apis mellifera","species","honeybees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Apis mellifera","species","honeybees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Apis mellifera","species","honeybees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Apis mellifera","species","honeybees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Apis mellifera","species","honeybees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Apis mellifera","species","honeybees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Apis mellifera","species","honeybees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Apis mellifera","species","honeybees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Apis mellifera","species","honeybees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Apis mellifera","species","honeybees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Apis mellifera","species","honeybees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Apis mellifera","species","honeybees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Apis mellifera","species","honeybees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Apis mellifera","species","honeybees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Apis mellifera","species","honeybees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Apis mellifera","species","honeybees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Apis mellifera","species","honeybees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Apis mellifera","species","honeybees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Apis mellifera","species","honeybees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Apis mellifera","species","honeybees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Apis mellifera","species","honeybees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Apis mellifera","species","honeybees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Apis mellifera","species","honeybees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Apis mellifera","species","honeybees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Apis mellifera","species","honeybees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Apis mellifera","species","honeybees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Apis mellifera","species","honeybees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Apis mellifera","species","honeybees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Apis mellifera","species","honeybees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Apis mellifera","species","honeybees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Apis mellifera","species","honeybees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Apis mellifera","species","honeybees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Apis mellifera","species","honeybees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Apis mellifera","species","honeybees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Apis mellifera","species","honeybees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Apis mellifera","species","honeybees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Apis mellifera","species","honeybees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Apis mellifera","species","honeybees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Apis mellifera","species","honeybees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Apis mellifera","species","honeybees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Apis mellifera","species","honeybees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Apis mellifera","species","honeybees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Apis mellifera","species","honeybees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Apis mellifera","species","honeybees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Apis mellifera","species","honeybees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Apis mellifera","species","honeybees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Apis mellifera","species","honeybees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Apis mellifera","species","honeybees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Apis mellifera","species","honeybees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Apis mellifera","species","honeybees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Apis mellifera","species","honeybees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Apis mellifera","species","honeybees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Apis mellifera","species","honeybees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Apis mellifera","species","honeybees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Apis mellifera","species","honeybees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Apis mellifera","species","honeybees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Apis mellifera","species","honeybees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Apis mellifera","species","honeybees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Apis mellifera","species","honeybees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Apis mellifera","species","honeybees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Apis mellifera","species","honeybees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Apis mellifera","species","honeybees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Apis mellifera","species","honeybees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Apis mellifera","species","honeybees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Apis mellifera","species","honeybees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Apis mellifera","species","honeybees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Apis mellifera","species","honeybees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Apis mellifera","species","honeybees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Apis mellifera","species","honeybees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Apis mellifera","species","honeybees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Apis mellifera","species","honeybees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Apis mellifera","species","honeybees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Apis mellifera","species","honeybees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Apis mellifera","species","honeybees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Apis mellifera","species","honeybees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Apis mellifera","species","honeybees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Apis mellifera","species","honeybees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Apis mellifera","species","honeybees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Apis mellifera","species","honeybees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Apis mellifera","species","honeybees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Apis mellifera","species","honeybees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Apis mellifera","species","honeybees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Apis mellifera","species","honeybees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Apis mellifera","species","honeybees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Apis mellifera","species","honeybees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Apis mellifera","species","honeybees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Apis mellifera","species","honeybees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Apis mellifera","species","honeybees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Apis mellifera","species","honeybees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Apis mellifera","species","honeybees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Apis mellifera","species","honeybees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Apis mellifera","species","honeybees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Apis mellifera","species","honeybees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Apis mellifera","species","honeybees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Apis mellifera","species","honeybees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Apis mellifera","species","honeybees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Apis mellifera","species","honeybees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Apis mellifera","species","honeybees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Apis mellifera","species","honeybees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Apis mellifera","species","honeybees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Apis mellifera","species","honeybees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Apis mellifera","species","honeybees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Ceratina cucurbitina","species","other_wild_bees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Ceratina cucurbitina","species","other_wild_bees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Yellow pan trap","Chelostoma emarginatum","species","other_wild_bees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Colletes acutus","species","other_wild_bees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Colletes acutus","species","other_wild_bees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Eucera elongatula","species","other_wild_bees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Eucera elongatula","species","other_wild_bees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Eucera elongatula","species","other_wild_bees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Eucera elongatula","species","other_wild_bees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Eucera elongatula","species","other_wild_bees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Eucera elongatula","species","other_wild_bees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Eucera elongatula","species","other_wild_bees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Eucera elongatula","species","other_wild_bees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Eucera elongatula","species","other_wild_bees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Eucera elongatula","species","other_wild_bees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Blue pan trap","Eucera elongatula","species","other_wild_bees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","White pan trap","Eucera elongatula","species","other_wild_bees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","White pan trap","Eucera elongatula","species","other_wild_bees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","White pan trap","Eucera elongatula","species","other_wild_bees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","White pan trap","Eucera elongatula","species","other_wild_bees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","White pan trap","Eucera elongatula","species","other_wild_bees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","White pan trap","Eucera elongatula","species","other_wild_bees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Blue pan trap","Eucera elongatula","species","other_wild_bees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Blue pan trap","Eucera elongatula","species","other_wild_bees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Yellow pan trap","Eucera elongatula","species","other_wild_bees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Yellow pan trap","Eucera elongatula","species","other_wild_bees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Yellow pan trap","Eucera elongatula","species","other_wild_bees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Yellow pan trap","Eucera elongatula","species","other_wild_bees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Yellow pan trap","Eucera elongatula","species","other_wild_bees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Yellow pan trap","Eucera elongatula","species","other_wild_bees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Blue pan trap","Eucera elongatula","species","other_wild_bees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Blue pan trap","Eucera elongatula","species","other_wild_bees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Blue pan trap","Eucera elongatula","species","other_wild_bees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Blue pan trap","Eucera elongatula","species","other_wild_bees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Blue pan trap","Eucera elongatula","species","other_wild_bees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","White pan trap","Eucera elongatula","species","other_wild_bees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Yellow pan trap","Eucera elongatula","species","other_wild_bees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Yellow pan trap","Eucera elongatula","species","other_wild_bees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Yellow pan trap","Eucera elongatula","species","other_wild_bees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Yellow pan trap","Eucera elongatula","species","other_wild_bees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Yellow pan trap","Eucera elongatula","species","other_wild_bees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Yellow pan trap","Eucera elongatula","species","other_wild_bees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Yellow pan trap","Eucera elongatula","species","other_wild_bees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Yellow pan trap","Eucera elongatula","species","other_wild_bees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Yellow pan trap","Eucera elongatula","species","other_wild_bees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Yellow pan trap","Eucera elongatula","species","other_wild_bees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Yellow pan trap","Eucera elongatula","species","other_wild_bees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Yellow pan trap","Eucera elongatula","species","other_wild_bees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Eucera elongatula","species","other_wild_bees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Eucera elongatula","species","other_wild_bees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Eucera elongatula","species","other_wild_bees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Eucera elongatula","species","other_wild_bees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Eucera elongatula","species","other_wild_bees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Eucera elongatula","species","other_wild_bees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Eucera elongatula","species","other_wild_bees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Eucera elongatula","species","other_wild_bees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Eucera elongatula","species","other_wild_bees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Eucera elongatula","species","other_wild_bees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Eucera elongatula","species","other_wild_bees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Eucera elongatula","species","other_wild_bees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Eucera elongatula","species","other_wild_bees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Eucera elongatula","species","other_wild_bees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Eucera elongatula","species","other_wild_bees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Eucera elongatula","species","other_wild_bees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Eucera elongatula","species","other_wild_bees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Eucera elongatula","species","other_wild_bees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Eucera elongatula","species","other_wild_bees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Eucera elongatula","species","other_wild_bees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Eucera elongatula","species","other_wild_bees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Eucera elongatula","species","other_wild_bees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Eucera elongatula","species","other_wild_bees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Eucera elongatula","species","other_wild_bees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Eucera elongatula","species","other_wild_bees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Eucera elongatula","species","other_wild_bees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Eucera elongatula","species","other_wild_bees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Eucera elongatula","species","other_wild_bees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Eucera elongatula","species","other_wild_bees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Yellow pan trap","Eucera elongatula","species","other_wild_bees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Yellow pan trap","Eucera elongatula","species","other_wild_bees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Yellow pan trap","Eucera elongatula","species","other_wild_bees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Yellow pan trap","Eucera elongatula","species","other_wild_bees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Yellow pan trap","Eucera elongatula","species","other_wild_bees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Yellow pan trap","Eucera elongatula","species","other_wild_bees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Yellow pan trap","Eucera elongatula","species","other_wild_bees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Yellow pan trap","Eucera elongatula","species","other_wild_bees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Yellow pan trap","Eucera elongatula","species","other_wild_bees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Yellow pan trap","Eucera elongatula","species","other_wild_bees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Yellow pan trap","Eucera elongatula","species","other_wild_bees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Yellow pan trap","Eucera elongatula","species","other_wild_bees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Yellow pan trap","Eucera elongatula","species","other_wild_bees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Yellow pan trap","Eucera elongatula","species","other_wild_bees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Yellow pan trap","Eucera elongatula","species","other_wild_bees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Yellow pan trap","Eucera elongatula","species","other_wild_bees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Yellow pan trap","Eucera elongatula","species","other_wild_bees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Yellow pan trap","Eucera elongatula","species","other_wild_bees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Eucera elongatula","species","other_wild_bees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Eucera elongatula","species","other_wild_bees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Eucera elongatula","species","other_wild_bees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Eucera elongatula","species","other_wild_bees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Eucera elongatula","species","other_wild_bees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Eucera nigrilabris","species","other_wild_bees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","White pan trap","Eucera notata","species","other_wild_bees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","White pan trap","Eucera notata","species","other_wild_bees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Hoplitis papaveris","species","other_wild_bees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Yellow pan trap","Lasioglossum albocinctum","species","other_wild_bees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Lasioglossum algericolellum","species","other_wild_bees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Blue pan trap","Lasioglossum algericolellum","species","other_wild_bees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Blue pan trap","Lasioglossum algericolellum","species","other_wild_bees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","White pan trap","Lasioglossum algericolellum","species","other_wild_bees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","White pan trap","Lasioglossum algericolellum","species","other_wild_bees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","White pan trap","Lasioglossum algericolellum","species","other_wild_bees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","White pan trap","Lasioglossum algericolellum","species","other_wild_bees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","White pan trap","Lasioglossum algericolellum","species","other_wild_bees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Yellow pan trap","Lasioglossum algericolellum","species","other_wild_bees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Yellow pan trap","Lasioglossum algericolellum","species","other_wild_bees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Yellow pan trap","Lasioglossum algericolellum","species","other_wild_bees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Yellow pan trap","Lasioglossum algericolellum","species","other_wild_bees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Blue pan trap","Lasioglossum algericolellum","species","other_wild_bees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Blue pan trap","Lasioglossum algericolellum","species","other_wild_bees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","White pan trap","Lasioglossum algericolellum","species","other_wild_bees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","White pan trap","Lasioglossum algericolellum","species","other_wild_bees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Yellow pan trap","Lasioglossum algericolellum","species","other_wild_bees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Yellow pan trap","Lasioglossum algericolellum","species","other_wild_bees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Yellow pan trap","Lasioglossum algericolellum","species","other_wild_bees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Yellow pan trap","Lasioglossum algericolellum","species","other_wild_bees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Blue pan trap","Lasioglossum capitale","species","other_wild_bees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Blue pan trap","Lasioglossum capitale","species","other_wild_bees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Yellow pan trap","Lasioglossum capitale","species","other_wild_bees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Yellow pan trap","Lasioglossum capitale","species","other_wild_bees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Yellow pan trap","Lasioglossum glabriusculum","species","other_wild_bees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Blue pan trap","Lasioglossum malachurum","species","other_wild_bees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","White pan trap","Lasioglossum malachurum","species","other_wild_bees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","White pan trap","Lasioglossum malachurum","species","other_wild_bees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","White pan trap","Lasioglossum malachurum","species","other_wild_bees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","White pan trap","Lasioglossum malachurum","species","other_wild_bees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","White pan trap","Lasioglossum malachurum","species","other_wild_bees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","White pan trap","Lasioglossum malachurum","species","other_wild_bees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Blue pan trap","Lasioglossum malachurum","species","other_wild_bees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Yellow pan trap","Lasioglossum malachurum","species","other_wild_bees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Yellow pan trap","Lasioglossum malachurum","species","other_wild_bees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Yellow pan trap","Lasioglossum malachurum","species","other_wild_bees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Yellow pan trap","Lasioglossum malachurum","species","other_wild_bees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Yellow pan trap","Lasioglossum malachurum","species","other_wild_bees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Yellow pan trap","Lasioglossum malachurum","species","other_wild_bees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Yellow pan trap","Lasioglossum malachurum","species","other_wild_bees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Yellow pan trap","Lasioglossum malachurum","species","other_wild_bees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Yellow pan trap","Lasioglossum malachurum","species","other_wild_bees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Yellow pan trap","Lasioglossum malachurum","species","other_wild_bees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Yellow pan trap","Lasioglossum malachurum","species","other_wild_bees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Yellow pan trap","Lasioglossum malachurum","species","other_wild_bees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Yellow pan trap","Lasioglossum malachurum","species","other_wild_bees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Yellow pan trap","Lasioglossum malachurum","species","other_wild_bees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Yellow pan trap","Lasioglossum malachurum","species","other_wild_bees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Yellow pan trap","Lasioglossum malachurum","species","other_wild_bees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Yellow pan trap","Lasioglossum malachurum","species","other_wild_bees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Lasioglossum malachurum","species","other_wild_bees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Yellow pan trap","Lasioglossum malachurum","species","other_wild_bees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Yellow pan trap","Lasioglossum malachurum","species","other_wild_bees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Yellow pan trap","Lasioglossum malachurum","species","other_wild_bees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Yellow pan trap","Lasioglossum malachurum","species","other_wild_bees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Yellow pan trap","Lasioglossum malachurum","species","other_wild_bees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Yellow pan trap","Lasioglossum malachurum","species","other_wild_bees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Yellow pan trap","Lasioglossum malachurum","species","other_wild_bees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Yellow pan trap","Lasioglossum malachurum","species","other_wild_bees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Yellow pan trap","Lasioglossum malachurum","species","other_wild_bees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Yellow pan trap","Lasioglossum malachurum","species","other_wild_bees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Yellow pan trap","Lasioglossum malachurum","species","other_wild_bees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Yellow pan trap","Lasioglossum malachurum","species","other_wild_bees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Yellow pan trap","Lasioglossum malachurum","species","other_wild_bees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Yellow pan trap","Lasioglossum malachurum","species","other_wild_bees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Yellow pan trap","Lasioglossum malachurum","species","other_wild_bees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Lasioglossum malachurum","species","other_wild_bees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Blue pan trap","Lasioglossum minutissimum","species","other_wild_bees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Lasioglossum subhirtum","species","other_wild_bees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Lasioglossum subhirtum","species","other_wild_bees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Lasioglossum subhirtum","species","other_wild_bees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Lasioglossum subhirtum","species","other_wild_bees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Lasioglossum subhirtum","species","other_wild_bees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Lasioglossum transitorium","species","other_wild_bees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Blue pan trap","Lasioglossum transitorium","species","other_wild_bees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Lasioglossum transitorium","species","other_wild_bees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Yellow pan trap","Lasioglossum transitorium","species","other_wild_bees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Yellow pan trap","Lasioglossum villosulum","species","other_wild_bees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Melecta luctuosa","species","other_wild_bees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Nomada agrestis","species","other_wild_bees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Nomada agrestis","species","other_wild_bees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Nomada agrestis","species","other_wild_bees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Nomada agrestis","species","other_wild_bees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Nomada agrestis","species","other_wild_bees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Nomada agrestis","species","other_wild_bees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Nomada agrestis","species","other_wild_bees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Nomada agrestis","species","other_wild_bees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Nomada agrestis","species","other_wild_bees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Nomada agrestis","species","other_wild_bees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Nomada agrestis","species","other_wild_bees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Nomada agrestis","species","other_wild_bees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Nomada basalis","species","other_wild_bees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Nomada duplex","species","other_wild_bees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Nomada succincta","species","other_wild_bees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Yellow pan trap","Osmia latreillei","species","other_wild_bees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Blue pan trap","Osmia rufohirta","species","other_wild_bees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","White pan trap","Osmia rufohirta","species","other_wild_bees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Blue pan trap","Osmia rufohirta","species","other_wild_bees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Blue pan trap","Osmia rufohirta","species","other_wild_bees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Blue pan trap","Osmia rufohirta","species","other_wild_bees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Blue pan trap","Osmia rufohirta","species","other_wild_bees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Blue pan trap","Osmia rufohirta","species","other_wild_bees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Yellow pan trap","Osmia rufohirta","species","other_wild_bees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Yellow pan trap","Osmia rufohirta","species","other_wild_bees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Yellow pan trap","Osmia rufohirta","species","other_wild_bees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Yellow pan trap","Osmia rufohirta","species","other_wild_bees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Yellow pan trap","Osmia rufohirta","species","other_wild_bees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Yellow pan trap","Osmia rufohirta","species","other_wild_bees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Yellow pan trap","Osmia rufohirta","species","other_wild_bees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Yellow pan trap","Osmia rufohirta","species","other_wild_bees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Yellow pan trap","Osmia rufohirta","species","other_wild_bees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Yellow pan trap","Osmia rufohirta","species","other_wild_bees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Yellow pan trap","Osmia rufohirta","species","other_wild_bees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Yellow pan trap","Osmia rufohirta","species","other_wild_bees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Yellow pan trap","Osmia rufohirta","species","other_wild_bees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Yellow pan trap","Osmia rufohirta","species","other_wild_bees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Yellow pan trap","Osmia rufohirta","species","other_wild_bees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Yellow pan trap","Osmia rufohirta","species","other_wild_bees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Yellow pan trap","Osmia rufohirta","species","other_wild_bees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Yellow pan trap","Osmia rufohirta","species","other_wild_bees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Yellow pan trap","Osmia rufohirta","species","other_wild_bees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Yellow pan trap","Osmia rufohirta","species","other_wild_bees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Yellow pan trap","Osmia rufohirta","species","other_wild_bees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Yellow pan trap","Osmia rufohirta","species","other_wild_bees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Yellow pan trap","Osmia rufohirta","species","other_wild_bees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Osmia rufohirta","species","other_wild_bees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Osmia tricornis","species","other_wild_bees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Osmia tricornis","species","other_wild_bees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Osmia tricornis","species","other_wild_bees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Osmia tricornis","species","other_wild_bees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Osmia tricornis","species","other_wild_bees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Osmia tricornis","species","other_wild_bees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Rhodanthidium sticticum","species","other_wild_bees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","White pan trap","Rhodanthidium sticticum","species","other_wild_bees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","White pan trap","Rhodanthidium sticticum","species","other_wild_bees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Blue pan trap","Rhodanthidium sticticum","species","other_wild_bees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Yellow pan trap","Rhodanthidium sticticum","species","other_wild_bees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Yellow pan trap","Rhodanthidium sticticum","species","other_wild_bees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Rhodanthidium sticticum","species","other_wild_bees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Rhodanthidium sticticum","species","other_wild_bees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Sphecodes albilabris","species","other_wild_bees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Sphecodes albilabris","species","other_wild_bees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Sphecodes albilabris","species","other_wild_bees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Sphecodes albilabris","species","other_wild_bees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Sphecodes albilabris","species","other_wild_bees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Sphecodes albilabris","species","other_wild_bees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Sphecodes albilabris","species","other_wild_bees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Yellow pan trap","Sphecodes ephippius","species","other_wild_bees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","White pan trap","Sphecodes ruficrus","species","other_wild_bees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Sphecodes ruficrus","species","other_wild_bees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Sphecodes ruficrus","species","other_wild_bees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Xylocopa violacea","species","other_wild_bees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Xylocopa violacea","species","other_wild_bees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Pepe Ferrandiz","Net","Xylocopa violacea","species","other_wild_bees",1,40000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Raxol","Net","Andrena agilissima","species","other_wild_bees",1,38000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Raxol","Net","Andrena cineraria","species","other_wild_bees",1,38000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Raxol","Net","Andrena cineraria","species","other_wild_bees",1,38000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Raxol","Yellow pan trap","Andrena dorsata","species","other_wild_bees",1,38000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Raxol","Yellow pan trap","Andrena flavipes","species","other_wild_bees",1,38000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Raxol","Yellow pan trap","Andrena flavipes","species","other_wild_bees",1,38000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Raxol","Net","Andrena fulva","species","other_wild_bees",1,38000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Raxol","Yellow pan trap","Andrena gravida","species","other_wild_bees",1,38000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Raxol","Net","Andrena haemorrhoa","species","other_wild_bees",1,38000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Raxol","Yellow pan trap","Andrena labiata","species","other_wild_bees",1,38000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Raxol","Yellow pan trap","Andrena lagopus","species","other_wild_bees",1,38000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Raxol","White pan trap","Andrena minutula","species","other_wild_bees",1,38000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Raxol","Yellow pan trap","Andrena minutula","species","other_wild_bees",1,38000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Raxol","Yellow pan trap","Andrena minutula","species","other_wild_bees",1,38000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Raxol","Yellow pan trap","Andrena minutula","species","other_wild_bees",1,38000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Raxol","Net","Andrena nitida","species","other_wild_bees",1,38000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Raxol","Yellow pan trap","Andrena subopaca","species","other_wild_bees",1,38000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Raxol","Net","Anthophora plumipes","species","other_wild_bees",1,38000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Raxol","Net","Apis mellifera","species","honeybees",1,38000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Raxol","Net","Apis mellifera","species","honeybees",1,38000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Raxol","Net","Apis mellifera","species","honeybees",1,38000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Raxol","Net","Apis mellifera","species","honeybees",1,38000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Raxol","Net","Apis mellifera","species","honeybees",1,38000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Raxol","Net","Apis mellifera","species","honeybees",1,38000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Raxol","Net","Apis mellifera","species","honeybees",1,38000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Raxol","Net","Apis mellifera","species","honeybees",1,38000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Raxol","Net","Apis mellifera","species","honeybees",1,38000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Raxol","Net","Apis mellifera","species","honeybees",1,38000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Raxol","Net","Apis mellifera","species","honeybees",1,38000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Raxol","Net","Apis mellifera","species","honeybees",1,38000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Raxol","Net","Apis mellifera","species","honeybees",1,38000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Raxol","Net","Apis mellifera","species","honeybees",1,38000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Raxol","Net","Apis mellifera","species","honeybees",1,38000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Raxol","Net","Apis mellifera","species","honeybees",1,38000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Raxol","Net","Apis mellifera","species","honeybees",1,38000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Raxol","Net","Apis mellifera","species","honeybees",1,38000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Raxol","Net","Apis mellifera","species","honeybees",1,38000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Raxol","Yellow pan trap","Apis mellifera","species","honeybees",1,38000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Raxol","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,38000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Raxol","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,38000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Raxol","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,38000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Raxol","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,38000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Raxol","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,38000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Raxol","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,38000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Raxol","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,38000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Raxol","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,38000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Raxol","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,38000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Raxol","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,38000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Raxol","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,38000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Raxol","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,38000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Raxol","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,38000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Raxol","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,38000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Raxol","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,38000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Raxol","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,38000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Raxol","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,38000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Raxol","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,38000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Raxol","Yellow pan trap","Lasioglossum algericolellum","species","other_wild_bees",1,38000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Raxol","White pan trap","Lasioglossum malachurum","species","other_wild_bees",1,38000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Raxol","White pan trap","Lasioglossum malachurum","species","other_wild_bees",1,38000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Raxol","White pan trap","Lasioglossum malachurum","species","other_wild_bees",1,38000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Raxol","White pan trap","Lasioglossum malachurum","species","other_wild_bees",1,38000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Raxol","White pan trap","Lasioglossum malachurum","species","other_wild_bees",1,38000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Raxol","White pan trap","Lasioglossum malachurum","species","other_wild_bees",1,38000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Raxol","White pan trap","Lasioglossum malachurum","species","other_wild_bees",1,38000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Raxol","White pan trap","Lasioglossum malachurum","species","other_wild_bees",1,38000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Raxol","White pan trap","Lasioglossum malachurum","species","other_wild_bees",1,38000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Raxol","White pan trap","Lasioglossum malachurum","species","other_wild_bees",1,38000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Raxol","White pan trap","Lasioglossum malachurum","species","other_wild_bees",1,38000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Raxol","White pan trap","Lasioglossum malachurum","species","other_wild_bees",1,38000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Raxol","Blue pan trap","Lasioglossum malachurum","species","other_wild_bees",1,38000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Raxol","Blue pan trap","Lasioglossum malachurum","species","other_wild_bees",1,38000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Raxol","Blue pan trap","Lasioglossum malachurum","species","other_wild_bees",1,38000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Raxol","Yellow pan trap","Lasioglossum malachurum","species","other_wild_bees",1,38000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Raxol","Yellow pan trap","Lasioglossum malachurum","species","other_wild_bees",1,38000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Raxol","Blue pan trap","Lasioglossum malachurum","species","other_wild_bees",1,38000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Raxol","Blue pan trap","Lasioglossum malachurum","species","other_wild_bees",1,38000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Raxol","Blue pan trap","Lasioglossum malachurum","species","other_wild_bees",1,38000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Raxol","Blue pan trap","Lasioglossum malachurum","species","other_wild_bees",1,38000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Raxol","Blue pan trap","Lasioglossum malachurum","species","other_wild_bees",1,38000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Raxol","Blue pan trap","Lasioglossum malachurum","species","other_wild_bees",1,38000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Raxol","Blue pan trap","Lasioglossum malachurum","species","other_wild_bees",1,38000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Raxol","Blue pan trap","Lasioglossum malachurum","species","other_wild_bees",1,38000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Raxol","Blue pan trap","Lasioglossum malachurum","species","other_wild_bees",1,38000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Raxol","Blue pan trap","Lasioglossum malachurum","species","other_wild_bees",1,38000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Raxol","Blue pan trap","Lasioglossum malachurum","species","other_wild_bees",1,38000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Raxol","Blue pan trap","Lasioglossum malachurum","species","other_wild_bees",1,38000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Raxol","Blue pan trap","Lasioglossum malachurum","species","other_wild_bees",1,38000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Raxol","Blue pan trap","Lasioglossum malachurum","species","other_wild_bees",1,38000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Raxol","Blue pan trap","Lasioglossum malachurum","species","other_wild_bees",1,38000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Raxol","Blue pan trap","Lasioglossum malachurum","species","other_wild_bees",1,38000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Raxol","Blue pan trap","Lasioglossum malachurum","species","other_wild_bees",1,38000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Raxol","Blue pan trap","Lasioglossum malachurum","species","other_wild_bees",1,38000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Raxol","Blue pan trap","Lasioglossum malachurum","species","other_wild_bees",1,38000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Raxol","Blue pan trap","Lasioglossum malachurum","species","other_wild_bees",1,38000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Raxol","Yellow pan trap","Lasioglossum malachurum","species","other_wild_bees",1,38000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Raxol","Yellow pan trap","Lasioglossum malachurum","species","other_wild_bees",1,38000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Raxol","Yellow pan trap","Lasioglossum malachurum","species","other_wild_bees",1,38000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Raxol","Yellow pan trap","Lasioglossum malachurum","species","other_wild_bees",1,38000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Raxol","Yellow pan trap","Lasioglossum malachurum","species","other_wild_bees",1,38000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Raxol","Yellow pan trap","Lasioglossum malachurum","species","other_wild_bees",1,38000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Raxol","Yellow pan trap","Lasioglossum malachurum","species","other_wild_bees",1,38000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Raxol","Yellow pan trap","Lasioglossum malachurum","species","other_wild_bees",1,38000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Raxol","Yellow pan trap","Lasioglossum malachurum","species","other_wild_bees",1,38000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Raxol","Yellow pan trap","Lasioglossum malachurum","species","other_wild_bees",1,38000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Raxol","White pan trap","Lasioglossum malachurum","species","other_wild_bees",1,38000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Raxol","White pan trap","Lasioglossum malachurum","species","other_wild_bees",1,38000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Raxol","White pan trap","Lasioglossum malachurum","species","other_wild_bees",1,38000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Raxol","White pan trap","Lasioglossum malachurum","species","other_wild_bees",1,38000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Raxol","White pan trap","Lasioglossum malachurum","species","other_wild_bees",1,38000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Raxol","White pan trap","Lasioglossum malachurum","species","other_wild_bees",1,38000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Raxol","White pan trap","Lasioglossum malachurum","species","other_wild_bees",1,38000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Raxol","White pan trap","Lasioglossum malachurum","species","other_wild_bees",1,38000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Raxol","White pan trap","Lasioglossum malachurum","species","other_wild_bees",1,38000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Raxol","White pan trap","Lasioglossum malachurum","species","other_wild_bees",1,38000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Raxol","White pan trap","Lasioglossum malachurum","species","other_wild_bees",1,38000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Raxol","White pan trap","Lasioglossum malachurum","species","other_wild_bees",1,38000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Raxol","White pan trap","Lasioglossum malachurum","species","other_wild_bees",1,38000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Raxol","White pan trap","Lasioglossum malachurum","species","other_wild_bees",1,38000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Raxol","White pan trap","Lasioglossum malachurum","species","other_wild_bees",1,38000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Raxol","White pan trap","Lasioglossum malachurum","species","other_wild_bees",1,38000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Raxol","White pan trap","Lasioglossum malachurum","species","other_wild_bees",1,38000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Raxol","White pan trap","Lasioglossum minutissimum","species","other_wild_bees",1,38000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Raxol","Yellow pan trap","Lasioglossum pauxillum","species","other_wild_bees",1,38000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Raxol","Yellow pan trap","Lasioglossum subhirtum","species","other_wild_bees",1,38000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Raxol","Yellow pan trap","Lasioglossum villosulum","species","other_wild_bees",1,38000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Raxol","White pan trap","Lasioglossum villosulum","species","other_wild_bees",1,38000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Raxol","White pan trap","Nomada flavoguttata","species","other_wild_bees",1,38000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Raxol","White pan trap","Osmia bicornis","species","other_wild_bees",1,38000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Raxol","Net","Osmia cornuta","species","other_wild_bees",1,38000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Raxol","Net","Osmia cornuta","species","other_wild_bees",1,38000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Raxol","Net","Osmia cornuta","species","other_wild_bees",1,38000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Raxol","Net","Osmia cornuta","species","other_wild_bees",1,38000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_France_2019","Raxol","Net","Osmia cornuta","species","other_wild_bees",1,38000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Rossello","Blue pan trap","Andrena ferrugineicrus","species","other_wild_bees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Rossello","Net","Andrena ferrugineicrus","species","other_wild_bees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Rossello","Net","Andrena ferrugineicrus","species","other_wild_bees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Rossello","Net","Andrena ferrugineicrus","species","other_wild_bees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Rossello","Net","Andrena ferrugineicrus","species","other_wild_bees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Rossello","Net","Andrena ferrugineicrus","species","other_wild_bees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Rossello","Yellow pan trap","Andrena florentina","species","other_wild_bees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Rossello","Net","Andrena florentina","species","other_wild_bees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Rossello","Net","Andrena florentina","species","other_wild_bees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Rossello","Net","Andrena florentina","species","other_wild_bees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Rossello","Net","Andrena florentina","species","other_wild_bees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Rossello","Net","Andrena florentina","species","other_wild_bees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Rossello","Net","Andrena florentina","species","other_wild_bees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Rossello","Net","Andrena florentina","species","other_wild_bees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Rossello","Net","Andrena florentina","species","other_wild_bees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Rossello","Net","Andrena florentina","species","other_wild_bees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Rossello","Net","Andrena florentina","species","other_wild_bees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Rossello","Net","Andrena florentina","species","other_wild_bees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Rossello","Net","Andrena florentina","species","other_wild_bees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Rossello","Net","Andrena florentina","species","other_wild_bees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Rossello","Net","Andrena florentina","species","other_wild_bees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Rossello","Net","Andrena florentina","species","other_wild_bees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Rossello","Net","Andrena florentina","species","other_wild_bees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Rossello","Net","Andrena florentina","species","other_wild_bees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Rossello","White pan trap","Andrena humilis","species","other_wild_bees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Rossello","Yellow pan trap","Andrena humilis","species","other_wild_bees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Rossello","Yellow pan trap","Andrena humilis","species","other_wild_bees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Rossello","Yellow pan trap","Andrena humilis","species","other_wild_bees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Rossello","White pan trap","Andrena longibarbis","species","other_wild_bees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Rossello","Net","Andrena propinqua","species","other_wild_bees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Rossello","Net","Apis mellifera","species","honeybees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Rossello","Net","Apis mellifera","species","honeybees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Rossello","Net","Apis mellifera","species","honeybees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Rossello","Net","Apis mellifera","species","honeybees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Rossello","Net","Apis mellifera","species","honeybees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Rossello","Net","Apis mellifera","species","honeybees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Rossello","Net","Apis mellifera","species","honeybees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Rossello","Net","Apis mellifera","species","honeybees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Rossello","Net","Apis mellifera","species","honeybees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Rossello","Net","Apis mellifera","species","honeybees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Rossello","Net","Apis mellifera","species","honeybees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Rossello","Net","Apis mellifera","species","honeybees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Rossello","Net","Apis mellifera","species","honeybees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Rossello","Net","Apis mellifera","species","honeybees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Rossello","Net","Apis mellifera","species","honeybees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Rossello","Net","Apis mellifera","species","honeybees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Rossello","Net","Apis mellifera","species","honeybees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Rossello","Net","Apis mellifera","species","honeybees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Rossello","Net","Apis mellifera","species","honeybees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Rossello","Net","Apis mellifera","species","honeybees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Rossello","Net","Apis mellifera","species","honeybees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Rossello","Net","Apis mellifera","species","honeybees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Rossello","Net","Apis mellifera","species","honeybees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Rossello","Net","Apis mellifera","species","honeybees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Rossello","Net","Apis mellifera","species","honeybees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Rossello","Net","Apis mellifera","species","honeybees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Rossello","Net","Apis mellifera","species","honeybees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Rossello","Net","Apis mellifera","species","honeybees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Rossello","Net","Apis mellifera","species","honeybees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Rossello","Net","Apis mellifera","species","honeybees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Rossello","Net","Apis mellifera","species","honeybees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Rossello","Net","Apis mellifera","species","honeybees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Rossello","Net","Apis mellifera","species","honeybees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Rossello","Net","Apis mellifera","species","honeybees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Rossello","Net","Apis mellifera","species","honeybees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Rossello","Net","Apis mellifera","species","honeybees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Rossello","Net","Apis mellifera","species","honeybees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Rossello","Net","Apis mellifera","species","honeybees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Rossello","Net","Apis mellifera","species","honeybees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Rossello","Net","Apis mellifera","species","honeybees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Rossello","Net","Apis mellifera","species","honeybees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Rossello","Net","Apis mellifera","species","honeybees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Rossello","Net","Apis mellifera","species","honeybees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Rossello","Net","Apis mellifera","species","honeybees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Rossello","Net","Apis mellifera","species","honeybees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Rossello","Net","Apis mellifera","species","honeybees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Rossello","Net","Apis mellifera","species","honeybees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Rossello","Net","Apis mellifera","species","honeybees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Rossello","Net","Apis mellifera","species","honeybees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Rossello","Net","Apis mellifera","species","honeybees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Rossello","Net","Apis mellifera","species","honeybees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Rossello","Net","Apis mellifera","species","honeybees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Rossello","Net","Apis mellifera","species","honeybees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Rossello","Net","Apis mellifera","species","honeybees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Rossello","Net","Apis mellifera","species","honeybees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Rossello","Net","Apis mellifera","species","honeybees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Rossello","Net","Apis mellifera","species","honeybees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Rossello","Net","Apis mellifera","species","honeybees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Rossello","Net","Apis mellifera","species","honeybees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Rossello","Net","Apis mellifera","species","honeybees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Rossello","Net","Apis mellifera","species","honeybees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Rossello","Net","Apis mellifera","species","honeybees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Rossello","Net","Apis mellifera","species","honeybees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Rossello","Net","Apis mellifera","species","honeybees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Rossello","Net","Apis mellifera","species","honeybees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Rossello","Net","Apis mellifera","species","honeybees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Rossello","Net","Apis mellifera","species","honeybees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Rossello","Net","Apis mellifera","species","honeybees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Rossello","Net","Apis mellifera","species","honeybees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Rossello","Net","Apis mellifera","species","honeybees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Rossello","Net","Apis mellifera","species","honeybees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Rossello","Net","Apis mellifera","species","honeybees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Rossello","Net","Apis mellifera","species","honeybees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Rossello","Net","Apis mellifera","species","honeybees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Rossello","Net","Apis mellifera","species","honeybees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Rossello","Net","Apis mellifera","species","honeybees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Rossello","Net","Apis mellifera","species","honeybees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Rossello","Net","Apis mellifera","species","honeybees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Rossello","Net","Apis mellifera","species","honeybees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Rossello","Net","Apis mellifera","species","honeybees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Rossello","Net","Apis mellifera","species","honeybees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Rossello","Net","Apis mellifera","species","honeybees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Rossello","Net","Apis mellifera","species","honeybees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Rossello","Net","Apis mellifera","species","honeybees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Rossello","Net","Apis mellifera","species","honeybees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Rossello","Net","Apis mellifera","species","honeybees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Rossello","Net","Apis mellifera","species","honeybees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Rossello","Net","Apis mellifera","species","honeybees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Rossello","Net","Apis mellifera","species","honeybees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Rossello","Net","Apis mellifera","species","honeybees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Rossello","Net","Apis mellifera","species","honeybees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Rossello","Net","Apis mellifera","species","honeybees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Rossello","Net","Apis mellifera","species","honeybees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Rossello","Net","Apis mellifera","species","honeybees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Rossello","Net","Apis mellifera","species","honeybees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Rossello","Net","Apis mellifera","species","honeybees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Rossello","Net","Apis mellifera","species","honeybees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Rossello","Net","Apis mellifera","species","honeybees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Rossello","Net","Apis mellifera","species","honeybees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Rossello","Net","Apis mellifera","species","honeybees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Rossello","Net","Apis mellifera","species","honeybees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Rossello","Net","Apis mellifera","species","honeybees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Rossello","Net","Apis mellifera","species","honeybees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Rossello","Net","Apis mellifera","species","honeybees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Rossello","Net","Apis mellifera","species","honeybees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Rossello","Net","Apis mellifera","species","honeybees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Rossello","Net","Apis mellifera","species","honeybees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Rossello","Net","Apis mellifera","species","honeybees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Rossello","Net","Apis mellifera","species","honeybees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Rossello","Net","Apis mellifera","species","honeybees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Rossello","Net","Apis mellifera","species","honeybees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Rossello","Net","Apis mellifera","species","honeybees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Rossello","Net","Apis mellifera","species","honeybees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Rossello","Net","Apis mellifera","species","honeybees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Rossello","Net","Apis mellifera","species","honeybees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Rossello","Net","Apis mellifera","species","honeybees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Rossello","Net","Apis mellifera","species","honeybees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Rossello","Net","Apis mellifera","species","honeybees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Rossello","Net","Apis mellifera","species","honeybees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Rossello","Net","Apis mellifera","species","honeybees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Rossello","Net","Apis mellifera","species","honeybees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Rossello","Net","Apis mellifera","species","honeybees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Rossello","Net","Apis mellifera","species","honeybees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Rossello","Net","Apis mellifera","species","honeybees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Rossello","Net","Apis mellifera","species","honeybees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Rossello","Net","Apis mellifera","species","honeybees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Rossello","Net","Apis mellifera","species","honeybees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Rossello","Net","Apis mellifera","species","honeybees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Rossello","Net","Apis mellifera","species","honeybees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Rossello","Net","Apis mellifera","species","honeybees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Rossello","Net","Apis mellifera","species","honeybees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Rossello","Net","Apis mellifera","species","honeybees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Rossello","Net","Apis mellifera","species","honeybees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Rossello","Net","Apis mellifera","species","honeybees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Rossello","Net","Apis mellifera","species","honeybees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Rossello","Net","Apis mellifera","species","honeybees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Rossello","Net","Apis mellifera","species","honeybees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Rossello","Net","Apis mellifera","species","honeybees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Rossello","Net","Apis mellifera","species","honeybees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Rossello","Net","Apis mellifera","species","honeybees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Rossello","Net","Apis mellifera","species","honeybees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Rossello","Net","Apis mellifera","species","honeybees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Rossello","Net","Apis mellifera","species","honeybees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Rossello","Net","Apis mellifera","species","honeybees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Rossello","Net","Apis mellifera","species","honeybees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Rossello","Net","Apis mellifera","species","honeybees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Rossello","Net","Apis mellifera","species","honeybees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Rossello","Net","Apis mellifera","species","honeybees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Rossello","Net","Apis mellifera","species","honeybees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Rossello","Net","Apis mellifera","species","honeybees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Rossello","Net","Apis mellifera","species","honeybees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Rossello","Net","Apis mellifera","species","honeybees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Rossello","Net","Apis mellifera","species","honeybees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Rossello","Net","Apis mellifera","species","honeybees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Rossello","Net","Apis mellifera","species","honeybees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Rossello","Net","Apis mellifera","species","honeybees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Rossello","Net","Apis mellifera","species","honeybees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Rossello","Net","Apis mellifera","species","honeybees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Rossello","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Rossello","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Rossello","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Rossello","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Rossello","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Rossello","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Rossello","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Rossello","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Rossello","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Rossello","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Rossello","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Rossello","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Rossello","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Rossello","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Rossello","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Rossello","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Rossello","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Rossello","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Rossello","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Rossello","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Rossello","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Rossello","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Rossello","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Rossello","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Rossello","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Rossello","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Rossello","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Rossello","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Rossello","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Rossello","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Rossello","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Rossello","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Rossello","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Rossello","Net","Eucera nigrilabris","species","other_wild_bees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Rossello","Net","Eucera nigrilabris","species","other_wild_bees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Rossello","Net","Eucera nigrilabris","species","other_wild_bees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Rossello","Net","Eucera nigrilabris","species","other_wild_bees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Rossello","Net","Eucera nigrilabris","species","other_wild_bees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Rossello","Net","Eucera nigrilabris","species","other_wild_bees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Rossello","Net","Eucera nigrilabris","species","other_wild_bees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Rossello","Net","Eucera nigrilabris","species","other_wild_bees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Rossello","Net","Eucera nigrilabris","species","other_wild_bees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Rossello","Net","Eucera nigrilabris","species","other_wild_bees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Rossello","Net","Eucera nigrilabris","species","other_wild_bees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Rossello","Net","Eucera nigrilabris","species","other_wild_bees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Rossello","Net","Eucera nigrilabris","species","other_wild_bees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Rossello","Net","Eucera nigrilabris","species","other_wild_bees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Rossello","Net","Eucera nigrilabris","species","other_wild_bees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Rossello","Net","Eucera nigrilabris","species","other_wild_bees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Rossello","Net","Eucera nigrilabris","species","other_wild_bees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Rossello","Net","Eucera nigrilabris","species","other_wild_bees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Rossello","Blue pan trap","Halictus fulvipes","species","other_wild_bees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Rossello","Yellow pan trap","Halictus fulvipes","species","other_wild_bees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Rossello","Blue pan trap","Lasioglossum glabriusculum","species","other_wild_bees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Rossello","Blue pan trap","Lasioglossum glabriusculum","species","other_wild_bees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Rossello","Blue pan trap","Lasioglossum malachurum","species","other_wild_bees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Rossello","Blue pan trap","Lasioglossum malachurum","species","other_wild_bees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Rossello","Blue pan trap","Lasioglossum malachurum","species","other_wild_bees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Rossello","Yellow pan trap","Lasioglossum malachurum","species","other_wild_bees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Rossello","Yellow pan trap","Lasioglossum malachurum","species","other_wild_bees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Rossello","Yellow pan trap","Lasioglossum malachurum","species","other_wild_bees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Rossello","Blue pan trap","Lasioglossum malachurum","species","other_wild_bees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Rossello","Blue pan trap","Lasioglossum malachurum","species","other_wild_bees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Rossello","White pan trap","Lasioglossum malachurum","species","other_wild_bees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Rossello","Blue pan trap","Lasioglossum malachurum","species","other_wild_bees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Rossello","White pan trap","Lasioglossum malachurum","species","other_wild_bees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Rossello","White pan trap","Lasioglossum malachurum","species","other_wild_bees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Rossello","Yellow pan trap","Lasioglossum malachurum","species","other_wild_bees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Rossello","Yellow pan trap","Lasioglossum malachurum","species","other_wild_bees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Rossello","Yellow pan trap","Lasioglossum malachurum","species","other_wild_bees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Rossello","Yellow pan trap","Lasioglossum malachurum","species","other_wild_bees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Rossello","Net","Lasioglossum malachurum","species","other_wild_bees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Rossello","White pan trap","Lasioglossum pauxillum","species","other_wild_bees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Rossello","Yellow pan trap","Lasioglossum pauxillum","species","other_wild_bees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Rossello","Yellow pan trap","Lasioglossum subhirtum","species","other_wild_bees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Rossello","White pan trap","Osmia caerulescens","species","other_wild_bees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Rossello","White pan trap","Osmia caerulescens","species","other_wild_bees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Rossello","White pan trap","Osmia caerulescens","species","other_wild_bees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Rossello","White pan trap","Sphecodes ruficrus","species","other_wild_bees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","Rossello","Yellow pan trap","Sphecodes ruficrus","species","other_wild_bees",1,15000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","St. Pere Pescador","Yellow pan trap","Andrena alfkenella","species","other_wild_bees",1,16000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","St. Pere Pescador","Net","Andrena dorsata","species","other_wild_bees",1,16000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","St. Pere Pescador","Net","Andrena dorsata","species","other_wild_bees",1,16000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","St. Pere Pescador","Net","Andrena dorsata","species","other_wild_bees",1,16000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","St. Pere Pescador","Net","Andrena dorsata","species","other_wild_bees",1,16000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","St. Pere Pescador","Net","Andrena haemorrhoa","species","other_wild_bees",1,16000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","St. Pere Pescador","Yellow pan trap","Andrena minutula","species","other_wild_bees",1,16000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","St. Pere Pescador","White pan trap","Andrena nigroaenea","species","other_wild_bees",1,16000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","St. Pere Pescador","Yellow pan trap","Andrena nigroolivacea","species","other_wild_bees",1,16000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","St. Pere Pescador","Yellow pan trap","Andrena nigroolivacea","species","other_wild_bees",1,16000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","St. Pere Pescador","Net","Andrena nitida","species","other_wild_bees",1,16000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","St. Pere Pescador","Yellow pan trap","Andrena propinqua","species","other_wild_bees",1,16000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","St. Pere Pescador","Blue pan trap","Apis mellifera","species","honeybees",1,16000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","St. Pere Pescador","Net","Apis mellifera","species","honeybees",1,16000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","St. Pere Pescador","Net","Apis mellifera","species","honeybees",1,16000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","St. Pere Pescador","Net","Apis mellifera","species","honeybees",1,16000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","St. Pere Pescador","Net","Apis mellifera","species","honeybees",1,16000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","St. Pere Pescador","Net","Apis mellifera","species","honeybees",1,16000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","St. Pere Pescador","Net","Apis mellifera","species","honeybees",1,16000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","St. Pere Pescador","Net","Apis mellifera","species","honeybees",1,16000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","St. Pere Pescador","Net","Apis mellifera","species","honeybees",1,16000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","St. Pere Pescador","Net","Apis mellifera","species","honeybees",1,16000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","St. Pere Pescador","Net","Apis mellifera","species","honeybees",1,16000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","St. Pere Pescador","Net","Apis mellifera","species","honeybees",1,16000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","St. Pere Pescador","Net","Apis mellifera","species","honeybees",1,16000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","St. Pere Pescador","Net","Apis mellifera","species","honeybees",1,16000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","St. Pere Pescador","Net","Apis mellifera","species","honeybees",1,16000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","St. Pere Pescador","Net","Apis mellifera","species","honeybees",1,16000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","St. Pere Pescador","Net","Apis mellifera","species","honeybees",1,16000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","St. Pere Pescador","Net","Apis mellifera","species","honeybees",1,16000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","St. Pere Pescador","Net","Apis mellifera","species","honeybees",1,16000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","St. Pere Pescador","Net","Apis mellifera","species","honeybees",1,16000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","St. Pere Pescador","Net","Apis mellifera","species","honeybees",1,16000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","St. Pere Pescador","Net","Apis mellifera","species","honeybees",1,16000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","St. Pere Pescador","Net","Apis mellifera","species","honeybees",1,16000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","St. Pere Pescador","Net","Apis mellifera","species","honeybees",1,16000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","St. Pere Pescador","Net","Apis mellifera","species","honeybees",1,16000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","St. Pere Pescador","Net","Apis mellifera","species","honeybees",1,16000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","St. Pere Pescador","Net","Apis mellifera","species","honeybees",1,16000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","St. Pere Pescador","Net","Apis mellifera","species","honeybees",1,16000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","St. Pere Pescador","Net","Apis mellifera","species","honeybees",1,16000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","St. Pere Pescador","Net","Apis mellifera","species","honeybees",1,16000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","St. Pere Pescador","Net","Apis mellifera","species","honeybees",1,16000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","St. Pere Pescador","Net","Apis mellifera","species","honeybees",1,16000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","St. Pere Pescador","Net","Apis mellifera","species","honeybees",1,16000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","St. Pere Pescador","Net","Apis mellifera","species","honeybees",1,16000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","St. Pere Pescador","Net","Apis mellifera","species","honeybees",1,16000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","St. Pere Pescador","Net","Apis mellifera","species","honeybees",1,16000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","St. Pere Pescador","Net","Apis mellifera","species","honeybees",1,16000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","St. Pere Pescador","Net","Apis mellifera","species","honeybees",1,16000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","St. Pere Pescador","Net","Apis mellifera","species","honeybees",1,16000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","St. Pere Pescador","Net","Apis mellifera","species","honeybees",1,16000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","St. Pere Pescador","Net","Apis mellifera","species","honeybees",1,16000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","St. Pere Pescador","Net","Apis mellifera","species","honeybees",1,16000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","St. Pere Pescador","Net","Apis mellifera","species","honeybees",1,16000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","St. Pere Pescador","Net","Apis mellifera","species","honeybees",1,16000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","St. Pere Pescador","Net","Apis mellifera","species","honeybees",1,16000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","St. Pere Pescador","Net","Apis mellifera","species","honeybees",1,16000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","St. Pere Pescador","Net","Apis mellifera","species","honeybees",1,16000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","St. Pere Pescador","Net","Apis mellifera","species","honeybees",1,16000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","St. Pere Pescador","Net","Apis mellifera","species","honeybees",1,16000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","St. Pere Pescador","Net","Apis mellifera","species","honeybees",1,16000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","St. Pere Pescador","Net","Apis mellifera","species","honeybees",1,16000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","St. Pere Pescador","Net","Apis mellifera","species","honeybees",1,16000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","St. Pere Pescador","Net","Apis mellifera","species","honeybees",1,16000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","St. Pere Pescador","Net","Apis mellifera","species","honeybees",1,16000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","St. Pere Pescador","Net","Apis mellifera","species","honeybees",1,16000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","St. Pere Pescador","Net","Apis mellifera","species","honeybees",1,16000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","St. Pere Pescador","Net","Apis mellifera","species","honeybees",1,16000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","St. Pere Pescador","Net","Apis mellifera","species","honeybees",1,16000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","St. Pere Pescador","Net","Apis mellifera","species","honeybees",1,16000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","St. Pere Pescador","Net","Apis mellifera","species","honeybees",1,16000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","St. Pere Pescador","Net","Apis mellifera","species","honeybees",1,16000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","St. Pere Pescador","Net","Apis mellifera","species","honeybees",1,16000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","St. Pere Pescador","Net","Apis mellifera","species","honeybees",1,16000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","St. Pere Pescador","Net","Apis mellifera","species","honeybees",1,16000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","St. Pere Pescador","Net","Apis mellifera","species","honeybees",1,16000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","St. Pere Pescador","Net","Apis mellifera","species","honeybees",1,16000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","St. Pere Pescador","Net","Apis mellifera","species","honeybees",1,16000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","St. Pere Pescador","Net","Apis mellifera","species","honeybees",1,16000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","St. Pere Pescador","Net","Apis mellifera","species","honeybees",1,16000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","St. Pere Pescador","Net","Apis mellifera","species","honeybees",1,16000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","St. Pere Pescador","Net","Apis mellifera","species","honeybees",1,16000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","St. Pere Pescador","Net","Apis mellifera","species","honeybees",1,16000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","St. Pere Pescador","Net","Apis mellifera","species","honeybees",1,16000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","St. Pere Pescador","Net","Apis mellifera","species","honeybees",1,16000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","St. Pere Pescador","Net","Apis mellifera","species","honeybees",1,16000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","St. Pere Pescador","Net","Apis mellifera","species","honeybees",1,16000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","St. Pere Pescador","Net","Apis mellifera","species","honeybees",1,16000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","St. Pere Pescador","Net","Apis mellifera","species","honeybees",1,16000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","St. Pere Pescador","Net","Apis mellifera","species","honeybees",1,16000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","St. Pere Pescador","Net","Apis mellifera","species","honeybees",1,16000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","St. Pere Pescador","Net","Apis mellifera","species","honeybees",1,16000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","St. Pere Pescador","Net","Apis mellifera","species","honeybees",1,16000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","St. Pere Pescador","Net","Apis mellifera","species","honeybees",1,16000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","St. Pere Pescador","Net","Apis mellifera","species","honeybees",1,16000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","St. Pere Pescador","Net","Apis mellifera","species","honeybees",1,16000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","St. Pere Pescador","Net","Apis mellifera","species","honeybees",1,16000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","St. Pere Pescador","Net","Apis mellifera","species","honeybees",1,16000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","St. Pere Pescador","Net","Apis mellifera","species","honeybees",1,16000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","St. Pere Pescador","Net","Apis mellifera","species","honeybees",1,16000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","St. Pere Pescador","Net","Apis mellifera","species","honeybees",1,16000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","St. Pere Pescador","Net","Apis mellifera","species","honeybees",1,16000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","St. Pere Pescador","Net","Apis mellifera","species","honeybees",1,16000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","St. Pere Pescador","Net","Apis mellifera","species","honeybees",1,16000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","St. Pere Pescador","Net","Apis mellifera","species","honeybees",1,16000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","St. Pere Pescador","Net","Apis mellifera","species","honeybees",1,16000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","St. Pere Pescador","Net","Apis mellifera","species","honeybees",1,16000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","St. Pere Pescador","Net","Apis mellifera","species","honeybees",1,16000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","St. Pere Pescador","Net","Apis mellifera","species","honeybees",1,16000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","St. Pere Pescador","Net","Apis mellifera","species","honeybees",1,16000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","St. Pere Pescador","Net","Apis mellifera","species","honeybees",1,16000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","St. Pere Pescador","Net","Apis mellifera","species","honeybees",1,16000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","St. Pere Pescador","Net","Apis mellifera","species","honeybees",1,16000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","St. Pere Pescador","Net","Apis mellifera","species","honeybees",1,16000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","St. Pere Pescador","Net","Apis mellifera","species","honeybees",1,16000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","St. Pere Pescador","Net","Apis mellifera","species","honeybees",1,16000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","St. Pere Pescador","Net","Apis mellifera","species","honeybees",1,16000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","St. Pere Pescador","Net","Apis mellifera","species","honeybees",1,16000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","St. Pere Pescador","Net","Apis mellifera","species","honeybees",1,16000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","St. Pere Pescador","Net","Apis mellifera","species","honeybees",1,16000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","St. Pere Pescador","Net","Apis mellifera","species","honeybees",1,16000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","St. Pere Pescador","Net","Apis mellifera","species","honeybees",1,16000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","St. Pere Pescador","Net","Apis mellifera","species","honeybees",1,16000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","St. Pere Pescador","Net","Apis mellifera","species","honeybees",1,16000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","St. Pere Pescador","Net","Apis mellifera","species","honeybees",1,16000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","St. Pere Pescador","Net","Apis mellifera","species","honeybees",1,16000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","St. Pere Pescador","Net","Apis mellifera","species","honeybees",1,16000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","St. Pere Pescador","Net","Apis mellifera","species","honeybees",1,16000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","St. Pere Pescador","Net","Apis mellifera","species","honeybees",1,16000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","St. Pere Pescador","Net","Apis mellifera","species","honeybees",1,16000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","St. Pere Pescador","Net","Apis mellifera","species","honeybees",1,16000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","St. Pere Pescador","Net","Apis mellifera","species","honeybees",1,16000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","St. Pere Pescador","Net","Apis mellifera","species","honeybees",1,16000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","St. Pere Pescador","Net","Apis mellifera","species","honeybees",1,16000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","St. Pere Pescador","Net","Apis mellifera","species","honeybees",1,16000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","St. Pere Pescador","Net","Apis mellifera","species","honeybees",1,16000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","St. Pere Pescador","Net","Apis mellifera","species","honeybees",1,16000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","St. Pere Pescador","Net","Apis mellifera","species","honeybees",1,16000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","St. Pere Pescador","Net","Apis mellifera","species","honeybees",1,16000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","St. Pere Pescador","Net","Apis mellifera","species","honeybees",1,16000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","St. Pere Pescador","Net","Apis mellifera","species","honeybees",1,16000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","St. Pere Pescador","Net","Apis mellifera","species","honeybees",1,16000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","St. Pere Pescador","Net","Apis mellifera","species","honeybees",1,16000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","St. Pere Pescador","Net","Apis mellifera","species","honeybees",1,16000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","St. Pere Pescador","Net","Apis mellifera","species","honeybees",1,16000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","St. Pere Pescador","Net","Apis mellifera","species","honeybees",1,16000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","St. Pere Pescador","Net","Apis mellifera","species","honeybees",1,16000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","St. Pere Pescador","Net","Apis mellifera","species","honeybees",1,16000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","St. Pere Pescador","Net","Apis mellifera","species","honeybees",1,16000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","St. Pere Pescador","Net","Apis mellifera","species","honeybees",1,16000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","St. Pere Pescador","Net","Apis mellifera","species","honeybees",1,16000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","St. Pere Pescador","Net","Apis mellifera","species","honeybees",1,16000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","St. Pere Pescador","Net","Apis mellifera","species","honeybees",1,16000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","St. Pere Pescador","Net","Apis mellifera","species","honeybees",1,16000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","St. Pere Pescador","Net","Apis mellifera","species","honeybees",1,16000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","St. Pere Pescador","Net","Apis mellifera","species","honeybees",1,16000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","St. Pere Pescador","Net","Apis mellifera","species","honeybees",1,16000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","St. Pere Pescador","Net","Apis mellifera","species","honeybees",1,16000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","St. Pere Pescador","Net","Apis mellifera","species","honeybees",1,16000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","St. Pere Pescador","Net","Apis mellifera","species","honeybees",1,16000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","St. Pere Pescador","Net","Apis mellifera","species","honeybees",1,16000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","St. Pere Pescador","Net","Apis mellifera","species","honeybees",1,16000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","St. Pere Pescador","Net","Apis mellifera","species","honeybees",1,16000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","St. Pere Pescador","Net","Apis mellifera","species","honeybees",1,16000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","St. Pere Pescador","Net","Apis mellifera","species","honeybees",1,16000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","St. Pere Pescador","Net","Apis mellifera","species","honeybees",1,16000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","St. Pere Pescador","Net","Apis mellifera","species","honeybees",1,16000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","St. Pere Pescador","Net","Apis mellifera","species","honeybees",1,16000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","St. Pere Pescador","Net","Apis mellifera","species","honeybees",1,16000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","St. Pere Pescador","Net","Apis mellifera","species","honeybees",1,16000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","St. Pere Pescador","Net","Apis mellifera","species","honeybees",1,16000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","St. Pere Pescador","Net","Apis mellifera","species","honeybees",1,16000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","St. Pere Pescador","Net","Apis mellifera","species","honeybees",1,16000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","St. Pere Pescador","Net","Apis mellifera","species","honeybees",1,16000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","St. Pere Pescador","Net","Apis mellifera","species","honeybees",1,16000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","St. Pere Pescador","Net","Apis mellifera","species","honeybees",1,16000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","St. Pere Pescador","Net","Apis mellifera","species","honeybees",1,16000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","St. Pere Pescador","Net","Apis mellifera","species","honeybees",1,16000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","St. Pere Pescador","Net","Apis mellifera","species","honeybees",1,16000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","St. Pere Pescador","Net","Apis mellifera","species","honeybees",1,16000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","St. Pere Pescador","Net","Apis mellifera","species","honeybees",1,16000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","St. Pere Pescador","Net","Apis mellifera","species","honeybees",1,16000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","St. Pere Pescador","Net","Apis mellifera","species","honeybees",1,16000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","St. Pere Pescador","Net","Apis mellifera","species","honeybees",1,16000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","St. Pere Pescador","Net","Apis mellifera","species","honeybees",1,16000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","St. Pere Pescador","Net","Apis mellifera","species","honeybees",1,16000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","St. Pere Pescador","Net","Apis mellifera","species","honeybees",1,16000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","St. Pere Pescador","Net","Apis mellifera","species","honeybees",1,16000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","St. Pere Pescador","Net","Apis mellifera","species","honeybees",1,16000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","St. Pere Pescador","Net","Apis mellifera","species","honeybees",1,16000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","St. Pere Pescador","Net","Apis mellifera","species","honeybees",1,16000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","St. Pere Pescador","Net","Apis mellifera","species","honeybees",1,16000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","St. Pere Pescador","Net","Apis mellifera","species","honeybees",1,16000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","St. Pere Pescador","Net","Apis mellifera","species","honeybees",1,16000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","St. Pere Pescador","Net","Apis mellifera","species","honeybees",1,16000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","St. Pere Pescador","Net","Apis mellifera","species","honeybees",1,16000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","St. Pere Pescador","Net","Apis mellifera","species","honeybees",1,16000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","St. Pere Pescador","Net","Apis mellifera","species","honeybees",1,16000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","St. Pere Pescador","Net","Apis mellifera","species","honeybees",1,16000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","St. Pere Pescador","Net","Apis mellifera","species","honeybees",1,16000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","St. Pere Pescador","Net","Apis mellifera","species","honeybees",1,16000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","St. Pere Pescador","Net","Apis mellifera","species","honeybees",1,16000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","St. Pere Pescador","Net","Apis mellifera","species","honeybees",1,16000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","St. Pere Pescador","Net","Apis mellifera","species","honeybees",1,16000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","St. Pere Pescador","Net","Apis mellifera","species","honeybees",1,16000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","St. Pere Pescador","Net","Apis mellifera","species","honeybees",1,16000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","St. Pere Pescador","Net","Apis mellifera","species","honeybees",1,16000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","St. Pere Pescador","Net","Apis mellifera","species","honeybees",1,16000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","St. Pere Pescador","Net","Apis mellifera","species","honeybees",1,16000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","St. Pere Pescador","Net","Apis mellifera","species","honeybees",1,16000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","St. Pere Pescador","Net","Apis mellifera","species","honeybees",1,16000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","St. Pere Pescador","Net","Apis mellifera","species","honeybees",1,16000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","St. Pere Pescador","Net","Apis mellifera","species","honeybees",1,16000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","St. Pere Pescador","Net","Apis mellifera","species","honeybees",1,16000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","St. Pere Pescador","Net","Apis mellifera","species","honeybees",1,16000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","St. Pere Pescador","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,16000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","St. Pere Pescador","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,16000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","St. Pere Pescador","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,16000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","St. Pere Pescador","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,16000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","St. Pere Pescador","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,16000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","St. Pere Pescador","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,16000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","St. Pere Pescador","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,16000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","St. Pere Pescador","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,16000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","St. Pere Pescador","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,16000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","St. Pere Pescador","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,16000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","St. Pere Pescador","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,16000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","St. Pere Pescador","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,16000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","St. Pere Pescador","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,16000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","St. Pere Pescador","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,16000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","St. Pere Pescador","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,16000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","St. Pere Pescador","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,16000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","St. Pere Pescador","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,16000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","St. Pere Pescador","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,16000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","St. Pere Pescador","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,16000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","St. Pere Pescador","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,16000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","St. Pere Pescador","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,16000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","St. Pere Pescador","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,16000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","St. Pere Pescador","Net","Eucera nigrescens","species","other_wild_bees",1,16000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","St. Pere Pescador","Net","Eucera nigrilabris","species","other_wild_bees",1,16000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","St. Pere Pescador","Net","Eucera nigrilabris","species","other_wild_bees",1,16000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","St. Pere Pescador","Net","Eucera nigrilabris","species","other_wild_bees",1,16000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","St. Pere Pescador","Net","Eucera nigrilabris","species","other_wild_bees",1,16000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","St. Pere Pescador","Net","Eucera nigrilabris","species","other_wild_bees",1,16000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","St. Pere Pescador","Net","Eucera nigrilabris","species","other_wild_bees",1,16000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","St. Pere Pescador","Net","Eucera nigrilabris","species","other_wild_bees",1,16000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","St. Pere Pescador","Net","Eucera nigrilabris","species","other_wild_bees",1,16000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","St. Pere Pescador","Net","Eucera nigrilabris","species","other_wild_bees",1,16000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","St. Pere Pescador","Net","Eucera nigrilabris","species","other_wild_bees",1,16000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","St. Pere Pescador","Net","Eucera nigrilabris","species","other_wild_bees",1,16000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","St. Pere Pescador","Net","Eucera nigrilabris","species","other_wild_bees",1,16000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","St. Pere Pescador","Net","Eucera nigrilabris","species","other_wild_bees",1,16000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","St. Pere Pescador","Net","Eucera nigrilabris","species","other_wild_bees",1,16000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","St. Pere Pescador","Net","Eucera nigrilabris","species","other_wild_bees",1,16000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","St. Pere Pescador","Net","Eucera nigrilabris","species","other_wild_bees",1,16000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","St. Pere Pescador","Net","Eucera nigrilabris","species","other_wild_bees",1,16000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","St. Pere Pescador","Net","Eucera nigrilabris","species","other_wild_bees",1,16000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","St. Pere Pescador","Net","Eucera nigrilabris","species","other_wild_bees",1,16000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","St. Pere Pescador","Net","Eucera nigrilabris","species","other_wild_bees",1,16000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","St. Pere Pescador","Yellow pan trap","Lasioglossum glabriusculum","species","other_wild_bees",1,16000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","St. Pere Pescador","Yellow pan trap","Lasioglossum glabriusculum","species","other_wild_bees",1,16000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","St. Pere Pescador","White pan trap","Lasioglossum glabriusculum","species","other_wild_bees",1,16000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","St. Pere Pescador","Yellow pan trap","Lasioglossum griseolum","species","other_wild_bees",1,16000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","St. Pere Pescador","White pan trap","Lasioglossum lucidulum","species","other_wild_bees",1,16000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","St. Pere Pescador","White pan trap","Lasioglossum malachurum","species","other_wild_bees",1,16000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","St. Pere Pescador","White pan trap","Lasioglossum malachurum","species","other_wild_bees",1,16000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","St. Pere Pescador","White pan trap","Lasioglossum malachurum","species","other_wild_bees",1,16000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","St. Pere Pescador","White pan trap","Lasioglossum malachurum","species","other_wild_bees",1,16000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","St. Pere Pescador","White pan trap","Lasioglossum malachurum","species","other_wild_bees",1,16000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","St. Pere Pescador","Yellow pan trap","Lasioglossum malachurum","species","other_wild_bees",1,16000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","St. Pere Pescador","Yellow pan trap","Lasioglossum malachurum","species","other_wild_bees",1,16000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","St. Pere Pescador","Yellow pan trap","Lasioglossum malachurum","species","other_wild_bees",1,16000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","St. Pere Pescador","Yellow pan trap","Lasioglossum malachurum","species","other_wild_bees",1,16000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","St. Pere Pescador","Yellow pan trap","Lasioglossum malachurum","species","other_wild_bees",1,16000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","St. Pere Pescador","Yellow pan trap","Lasioglossum malachurum","species","other_wild_bees",1,16000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","St. Pere Pescador","Yellow pan trap","Lasioglossum malachurum","species","other_wild_bees",1,16000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","St. Pere Pescador","Yellow pan trap","Lasioglossum malachurum","species","other_wild_bees",1,16000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","St. Pere Pescador","Yellow pan trap","Lasioglossum malachurum","species","other_wild_bees",1,16000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","St. Pere Pescador","White pan trap","Lasioglossum malachurum","species","other_wild_bees",1,16000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","St. Pere Pescador","White pan trap","Lasioglossum malachurum","species","other_wild_bees",1,16000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","St. Pere Pescador","White pan trap","Lasioglossum malachurum","species","other_wild_bees",1,16000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","St. Pere Pescador","White pan trap","Lasioglossum malachurum","species","other_wild_bees",1,16000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","St. Pere Pescador","Yellow pan trap","Lasioglossum minutissimum","species","other_wild_bees",1,16000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","St. Pere Pescador","Yellow pan trap","Lasioglossum minutissimum","species","other_wild_bees",1,16000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","St. Pere Pescador","Blue pan trap","Lasioglossum minutissimum","species","other_wild_bees",1,16000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","St. Pere Pescador","Blue pan trap","Lasioglossum minutissimum","species","other_wild_bees",1,16000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","St. Pere Pescador","Yellow pan trap","Nomada flavoguttata","species","other_wild_bees",1,16000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_Spain_2019","St. Pere Pescador","Yellow pan trap","Osmia bicornis","species","other_wild_bees",1,16000,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmA","Net","Andrena flavipes","species","other_wild_bees",1,16800,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmA","Net","Andrena flavipes","species","other_wild_bees",1,16800,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmA","Net","Andrena flavipes","species","other_wild_bees",1,16800,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmA","Net","Andrena flavipes","species","other_wild_bees",1,16800,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmA","Net","Andrena flavipes","species","other_wild_bees",1,16800,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmA","Net","Andrena flavipes","species","other_wild_bees",1,16800,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmA","Yellow pan trap","Andrena flavipes","species","other_wild_bees",1,16800,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmA","Yellow pan trap","Andrena flavipes","species","other_wild_bees",1,16800,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmA","Net","Andrena flavipes","species","other_wild_bees",1,16800,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmA","Net","Andrena flavipes","species","other_wild_bees",1,16800,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmA","Net","Andrena flavipes","species","other_wild_bees",1,16800,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmA","Net","Andrena flavipes","species","other_wild_bees",1,16800,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmA","Net","Andrena flavipes","species","other_wild_bees",1,16800,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmA","Net","Andrena flavipes","species","other_wild_bees",1,16800,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmA","Net","Andrena flavipes","species","other_wild_bees",1,16800,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmA","Net","Andrena flavipes","species","other_wild_bees",1,16800,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmA","Net","Andrena flavipes","species","other_wild_bees",1,16800,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmA","Net","Andrena flavipes","species","other_wild_bees",1,16800,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmA","Net","Andrena flavipes","species","other_wild_bees",1,16800,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmA","Net","Andrena flavipes","species","other_wild_bees",1,16800,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmA","Net","Andrena flavipes","species","other_wild_bees",1,16800,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmA","Net","Andrena flavipes","species","other_wild_bees",1,16800,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmA","Net","Andrena flavipes","species","other_wild_bees",1,16800,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmA","Net","Andrena flavipes","species","other_wild_bees",1,16800,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmA","Yellow pan trap","Andrena gravida","species","other_wild_bees",1,16800,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmA","Net","Andrena haemorrhoa","species","other_wild_bees",1,16800,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmA","Net","Andrena haemorrhoa","species","other_wild_bees",1,16800,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmA","Net","Andrena haemorrhoa","species","other_wild_bees",1,16800,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmA","Net","Andrena haemorrhoa","species","other_wild_bees",1,16800,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmA","Net","Andrena haemorrhoa","species","other_wild_bees",1,16800,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmA","Net","Andrena haemorrhoa","species","other_wild_bees",1,16800,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmA","Net","Andrena haemorrhoa","species","other_wild_bees",1,16800,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmA","Net","Andrena haemorrhoa","species","other_wild_bees",1,16800,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmA","Net","Andrena nitida","species","other_wild_bees",1,16800,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmA","Net","Andrena nitida","species","other_wild_bees",1,16800,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmA","Net","Andrena scotica","species","other_wild_bees",1,16800,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmA","Net","Andrena scotica","species","other_wild_bees",1,16800,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmA","Net","Apis mellifera","species","honeybees",1,16800,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmA","Net","Apis mellifera","species","honeybees",1,16800,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmA","Net","Apis mellifera","species","honeybees",1,16800,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmA","Net","Apis mellifera","species","honeybees",1,16800,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmA","Net","Apis mellifera","species","honeybees",1,16800,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmA","Net","Apis mellifera","species","honeybees",1,16800,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmA","Net","Apis mellifera","species","honeybees",1,16800,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmA","Net","Apis mellifera","species","honeybees",1,16800,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmA","Net","Apis mellifera","species","honeybees",1,16800,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmA","Net","Apis mellifera","species","honeybees",1,16800,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmA","Net","Apis mellifera","species","honeybees",1,16800,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmA","Net","Apis mellifera","species","honeybees",1,16800,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmA","Net","Apis mellifera","species","honeybees",1,16800,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmA","Net","Apis mellifera","species","honeybees",1,16800,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmA","Net","Apis mellifera","species","honeybees",1,16800,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmA","Net","Apis mellifera","species","honeybees",1,16800,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmA","Net","Apis mellifera","species","honeybees",1,16800,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmA","Net","Apis mellifera","species","honeybees",1,16800,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmA","Net","Apis mellifera","species","honeybees",1,16800,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmA","Net","Apis mellifera","species","honeybees",1,16800,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmA","Net","Apis mellifera","species","honeybees",1,16800,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmA","Net","Apis mellifera","species","honeybees",1,16800,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmA","Net","Apis mellifera","species","honeybees",1,16800,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmA","Net","Apis mellifera","species","honeybees",1,16800,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmA","Net","Apis mellifera","species","honeybees",1,16800,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmA","Net","Apis mellifera","species","honeybees",1,16800,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmA","Net","Apis mellifera","species","honeybees",1,16800,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmA","Net","Apis mellifera","species","honeybees",1,16800,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmA","Net","Apis mellifera","species","honeybees",1,16800,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmA","Net","Apis mellifera","species","honeybees",1,16800,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmA","Net","Apis mellifera","species","honeybees",1,16800,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmA","Net","Apis mellifera","species","honeybees",1,16800,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmA","Net","Apis mellifera","species","honeybees",1,16800,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmA","Net","Apis mellifera","species","honeybees",1,16800,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmA","Net","Apis mellifera","species","honeybees",1,16800,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmA","Net","Apis mellifera","species","honeybees",1,16800,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmA","Net","Apis mellifera","species","honeybees",1,16800,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmA","Net","Apis mellifera","species","honeybees",1,16800,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmA","Net","Apis mellifera","species","honeybees",1,16800,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmA","Net","Apis mellifera","species","honeybees",1,16800,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmA","Net","Apis mellifera","species","honeybees",1,16800,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmA","Net","Apis mellifera","species","honeybees",1,16800,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmA","Net","Apis mellifera","species","honeybees",1,16800,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmA","Net","Apis mellifera","species","honeybees",1,16800,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmA","Net","Apis mellifera","species","honeybees",1,16800,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmA","Net","Apis mellifera","species","honeybees",1,16800,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmA","Net","Apis mellifera","species","honeybees",1,16800,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmA","Net","Apis mellifera","species","honeybees",1,16800,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmA","Net","Apis mellifera","species","honeybees",1,16800,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmA","Net","Apis mellifera","species","honeybees",1,16800,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmA","Net","Apis mellifera","species","honeybees",1,16800,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmA","Net","Apis mellifera","species","honeybees",1,16800,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmA","Net","Apis mellifera","species","honeybees",1,16800,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmA","Net","Apis mellifera","species","honeybees",1,16800,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmA","Net","Apis mellifera","species","honeybees",1,16800,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmA","Net","Apis mellifera","species","honeybees",1,16800,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmA","Net","Apis mellifera","species","honeybees",1,16800,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmA","Net","Apis mellifera","species","honeybees",1,16800,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmA","Net","Apis mellifera","species","honeybees",1,16800,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmA","Net","Apis mellifera","species","honeybees",1,16800,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmA","Net","Apis mellifera","species","honeybees",1,16800,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmA","Net","Apis mellifera","species","honeybees",1,16800,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmA","Net","Apis mellifera","species","honeybees",1,16800,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmA","Net","Apis mellifera","species","honeybees",1,16800,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmA","Net","Apis mellifera","species","honeybees",1,16800,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmA","Net","Apis mellifera","species","honeybees",1,16800,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmA","Net","Apis mellifera","species","honeybees",1,16800,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmA","Net","Apis mellifera","species","honeybees",1,16800,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmA","Net","Apis mellifera","species","honeybees",1,16800,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmA","Net","Apis mellifera","species","honeybees",1,16800,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmA","Net","Apis mellifera","species","honeybees",1,16800,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmA","Net","Apis mellifera","species","honeybees",1,16800,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmA","Net","Apis mellifera","species","honeybees",1,16800,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmA","Net","Apis mellifera","species","honeybees",1,16800,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmA","Net","Apis mellifera","species","honeybees",1,16800,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmA","Net","Apis mellifera","species","honeybees",1,16800,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmA","Net","Apis mellifera","species","honeybees",1,16800,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmA","Net","Apis mellifera","species","honeybees",1,16800,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmA","Net","Apis mellifera","species","honeybees",1,16800,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmA","Net","Apis mellifera","species","honeybees",1,16800,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmA","Net","Apis mellifera","species","honeybees",1,16800,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmA","Net","Apis mellifera","species","honeybees",1,16800,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmA","Net","Apis mellifera","species","honeybees",1,16800,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmA","Net","Apis mellifera","species","honeybees",1,16800,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmA","Net","Apis mellifera","species","honeybees",1,16800,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmA","Net","Apis mellifera","species","honeybees",1,16800,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmA","Net","Apis mellifera","species","honeybees",1,16800,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmA","Net","Apis mellifera","species","honeybees",1,16800,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmA","Net","Apis mellifera","species","honeybees",1,16800,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmA","Net","Apis mellifera","species","honeybees",1,16800,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmA","Net","Apis mellifera","species","honeybees",1,16800,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmA","Net","Apis mellifera","species","honeybees",1,16800,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmA","Net","Apis mellifera","species","honeybees",1,16800,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmA","Net","Apis mellifera","species","honeybees",1,16800,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmA","Net","Apis mellifera","species","honeybees",1,16800,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmA","Net","Apis mellifera","species","honeybees",1,16800,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmA","Net","Apis mellifera","species","honeybees",1,16800,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmA","Net","Apis mellifera","species","honeybees",1,16800,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmA","Net","Apis mellifera","species","honeybees",1,16800,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmA","Net","Apis mellifera","species","honeybees",1,16800,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmA","Net","Apis mellifera","species","honeybees",1,16800,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmA","Net","Apis mellifera","species","honeybees",1,16800,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmA","Net","Apis mellifera","species","honeybees",1,16800,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmA","Net","Apis mellifera","species","honeybees",1,16800,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmA","Net","Apis mellifera","species","honeybees",1,16800,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmA","Net","Apis mellifera","species","honeybees",1,16800,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmA","Net","Apis mellifera","species","honeybees",1,16800,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmA","Net","Apis mellifera","species","honeybees",1,16800,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmA","Net","Apis mellifera","species","honeybees",1,16800,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmA","Net","Apis mellifera","species","honeybees",1,16800,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmA","Net","Apis mellifera","species","honeybees",1,16800,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmA","Net","Apis mellifera","species","honeybees",1,16800,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmA","Net","Apis mellifera","species","honeybees",1,16800,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmA","Net","Apis mellifera","species","honeybees",1,16800,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmA","Net","Apis mellifera","species","honeybees",1,16800,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmA","Net","Apis mellifera","species","honeybees",1,16800,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmA","Net","Apis mellifera","species","honeybees",1,16800,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmA","Net","Apis mellifera","species","honeybees",1,16800,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmA","Net","Apis mellifera","species","honeybees",1,16800,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmA","Net","Apis mellifera","species","honeybees",1,16800,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmA","Net","Apis mellifera","species","honeybees",1,16800,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmA","Net","Apis mellifera","species","honeybees",1,16800,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmA","Net","Apis mellifera","species","honeybees",1,16800,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmA","Net","Apis mellifera","species","honeybees",1,16800,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmA","Net","Apis mellifera","species","honeybees",1,16800,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmA","Net","Apis mellifera","species","honeybees",1,16800,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmA","Net","Apis mellifera","species","honeybees",1,16800,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmA","Net","Apis mellifera","species","honeybees",1,16800,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmA","Net","Apis mellifera","species","honeybees",1,16800,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmA","Net","Apis mellifera","species","honeybees",1,16800,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmA","Net","Apis mellifera","species","honeybees",1,16800,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmA","Net","Apis mellifera","species","honeybees",1,16800,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmA","Net","Apis mellifera","species","honeybees",1,16800,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmA","Net","Apis mellifera","species","honeybees",1,16800,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmA","Net","Apis mellifera","species","honeybees",1,16800,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmA","Net","Apis mellifera","species","honeybees",1,16800,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmA","Net","Apis mellifera","species","honeybees",1,16800,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmA","Net","Apis mellifera","species","honeybees",1,16800,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmA","Net","Apis mellifera","species","honeybees",1,16800,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmA","Net","Apis mellifera","species","honeybees",1,16800,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmA","Net","Apis mellifera","species","honeybees",1,16800,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmA","Net","Apis mellifera","species","honeybees",1,16800,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmA","Net","Apis mellifera","species","honeybees",1,16800,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmA","Net","Apis mellifera","species","honeybees",1,16800,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmA","Net","Apis mellifera","species","honeybees",1,16800,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmA","Net","Apis mellifera","species","honeybees",1,16800,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmA","Net","Apis mellifera","species","honeybees",1,16800,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmA","Net","Apis mellifera","species","honeybees",1,16800,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmA","Net","Apis mellifera","species","honeybees",1,16800,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmA","Net","Apis mellifera","species","honeybees",1,16800,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmA","Net","Apis mellifera","species","honeybees",1,16800,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmA","Net","Apis mellifera","species","honeybees",1,16800,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmA","Net","Apis mellifera","species","honeybees",1,16800,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmA","Net","Apis mellifera","species","honeybees",1,16800,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmA","Net","Apis mellifera","species","honeybees",1,16800,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmA","Net","Apis mellifera","species","honeybees",1,16800,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmA","Net","Apis mellifera","species","honeybees",1,16800,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmA","Net","Apis mellifera","species","honeybees",1,16800,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmA","Net","Apis mellifera","species","honeybees",1,16800,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmA","Net","Apis mellifera","species","honeybees",1,16800,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmA","Net","Apis mellifera","species","honeybees",1,16800,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmA","Net","Apis mellifera","species","honeybees",1,16800,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmA","Net","Apis mellifera","species","honeybees",1,16800,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmA","Net","Apis mellifera","species","honeybees",1,16800,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmA","Net","Apis mellifera","species","honeybees",1,16800,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmA","Net","Apis mellifera","species","honeybees",1,16800,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmA","Net","Apis mellifera","species","honeybees",1,16800,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmA","Net","Apis mellifera","species","honeybees",1,16800,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmA","Net","Apis mellifera","species","honeybees",1,16800,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmA","Net","Apis mellifera","species","honeybees",1,16800,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmA","Net","Apis mellifera","species","honeybees",1,16800,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmA","Net","Apis mellifera","species","honeybees",1,16800,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmA","Net","Apis mellifera","species","honeybees",1,16800,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmA","Net","Apis mellifera","species","honeybees",1,16800,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmA","Net","Apis mellifera","species","honeybees",1,16800,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmA","Net","Apis mellifera","species","honeybees",1,16800,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmA","Net","Apis mellifera","species","honeybees",1,16800,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmA","Net","Apis mellifera","species","honeybees",1,16800,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmA","Net","Apis mellifera","species","honeybees",1,16800,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmA","Net","Apis mellifera","species","honeybees",1,16800,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmA","Net","Apis mellifera","species","honeybees",1,16800,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmA","Net","Apis mellifera","species","honeybees",1,16800,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmA","Net","Apis mellifera","species","honeybees",1,16800,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmA","Net","Apis mellifera","species","honeybees",1,16800,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmA","Net","Apis mellifera","species","honeybees",1,16800,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmA","Net","Apis mellifera","species","honeybees",1,16800,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmA","Net","Apis mellifera","species","honeybees",1,16800,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmA","Net","Apis mellifera","species","honeybees",1,16800,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmA","Net","Apis mellifera","species","honeybees",1,16800,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmA","Net","Apis mellifera","species","honeybees",1,16800,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmA","Net","Apis mellifera","species","honeybees",1,16800,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmA","Net","Apis mellifera","species","honeybees",1,16800,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmA","Net","Apis mellifera","species","honeybees",1,16800,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmA","Net","Apis mellifera","species","honeybees",1,16800,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmA","Net","Apis mellifera","species","honeybees",1,16800,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmA","Net","Apis mellifera","species","honeybees",1,16800,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmA","Net","Apis mellifera","species","honeybees",1,16800,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmA","Net","Apis mellifera","species","honeybees",1,16800,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmA","Net","Apis mellifera","species","honeybees",1,16800,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmA","Net","Apis mellifera","species","honeybees",1,16800,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmA","Net","Apis mellifera","species","honeybees",1,16800,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmA","Net","Apis mellifera","species","honeybees",1,16800,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmA","Net","Apis mellifera","species","honeybees",1,16800,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmA","Net","Apis mellifera","species","honeybees",1,16800,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmA","Net","Apis mellifera","species","honeybees",1,16800,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmA","Net","Apis mellifera","species","honeybees",1,16800,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmA","Net","Apis mellifera","species","honeybees",1,16800,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmA","Net","Apis mellifera","species","honeybees",1,16800,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmA","Net","Apis mellifera","species","honeybees",1,16800,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmA","Net","Apis mellifera","species","honeybees",1,16800,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmA","Net","Apis mellifera","species","honeybees",1,16800,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmA","Net","Apis mellifera","species","honeybees",1,16800,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmA","Net","Apis mellifera","species","honeybees",1,16800,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmA","Net","Apis mellifera","species","honeybees",1,16800,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmA","Net","Apis mellifera","species","honeybees",1,16800,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmA","Net","Apis mellifera","species","honeybees",1,16800,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmA","Net","Apis mellifera","species","honeybees",1,16800,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmA","Net","Apis mellifera","species","honeybees",1,16800,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmA","Net","Apis mellifera","species","honeybees",1,16800,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmA","Net","Apis mellifera","species","honeybees",1,16800,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmA","Net","Apis mellifera","species","honeybees",1,16800,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmA","Net","Apis mellifera","species","honeybees",1,16800,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmA","Net","Apis mellifera","species","honeybees",1,16800,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmA","Net","Apis mellifera","species","honeybees",1,16800,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmA","Net","Apis mellifera","species","honeybees",1,16800,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmA","Net","Apis mellifera","species","honeybees",1,16800,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmA","Net","Apis mellifera","species","honeybees",1,16800,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmA","Net","Apis mellifera","species","honeybees",1,16800,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmA","Net","Apis mellifera","species","honeybees",1,16800,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmA","Net","Apis mellifera","species","honeybees",1,16800,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmA","Net","Apis mellifera","species","honeybees",1,16800,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmA","Net","Apis mellifera","species","honeybees",1,16800,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmA","Net","Apis mellifera","species","honeybees",1,16800,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmA","Net","Apis mellifera","species","honeybees",1,16800,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmA","Net","Apis mellifera","species","honeybees",1,16800,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmA","Net","Apis mellifera","species","honeybees",1,16800,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmA","Net","Apis mellifera","species","honeybees",1,16800,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmA","Net","Apis mellifera","species","honeybees",1,16800,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmA","Net","Apis mellifera","species","honeybees",1,16800,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmA","Net","Apis mellifera","species","honeybees",1,16800,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmA","Net","Apis mellifera","species","honeybees",1,16800,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmA","Net","Apis mellifera","species","honeybees",1,16800,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmA","Net","Apis mellifera","species","honeybees",1,16800,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmA","Net","Apis mellifera","species","honeybees",1,16800,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmA","Net","Apis mellifera","species","honeybees",1,16800,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmA","Net","Apis mellifera","species","honeybees",1,16800,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmA","Net","Apis mellifera","species","honeybees",1,16800,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmA","Net","Apis mellifera","species","honeybees",1,16800,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmA","Net","Apis mellifera","species","honeybees",1,16800,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmA","Net","Apis mellifera","species","honeybees",1,16800,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmA","Net","Apis mellifera","species","honeybees",1,16800,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmA","Net","Apis mellifera","species","honeybees",1,16800,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmA","Net","Apis mellifera","species","honeybees",1,16800,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmA","Net","Apis mellifera","species","honeybees",1,16800,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmA","Net","Apis mellifera","species","honeybees",1,16800,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmA","Net","Apis mellifera","species","honeybees",1,16800,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmA","Net","Apis mellifera","species","honeybees",1,16800,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmA","Net","Apis mellifera","species","honeybees",1,16800,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmA","Net","Apis mellifera","species","honeybees",1,16800,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmA","Net","Apis mellifera","species","honeybees",1,16800,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmA","Net","Apis mellifera","species","honeybees",1,16800,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmA","Net","Apis mellifera","species","honeybees",1,16800,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmA","Net","Apis mellifera","species","honeybees",1,16800,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmA","Net","Apis mellifera","species","honeybees",1,16800,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmA","Net","Apis mellifera","species","honeybees",1,16800,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmA","Net","Apis mellifera","species","honeybees",1,16800,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmA","Net","Apis mellifera","species","honeybees",1,16800,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmA","Net","Apis mellifera","species","honeybees",1,16800,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmA","Net","Apis mellifera","species","honeybees",1,16800,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmA","Net","Apis mellifera","species","honeybees",1,16800,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmA","Net","Apis mellifera","species","honeybees",1,16800,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmA","Net","Apis mellifera","species","honeybees",1,16800,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmA","Net","Apis mellifera","species","honeybees",1,16800,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmA","Net","Apis mellifera","species","honeybees",1,16800,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmA","Net","Apis mellifera","species","honeybees",1,16800,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmA","Net","Apis mellifera","species","honeybees",1,16800,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmA","Net","Apis mellifera","species","honeybees",1,16800,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmA","Net","Apis mellifera","species","honeybees",1,16800,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmA","Net","Apis mellifera","species","honeybees",1,16800,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmA","Net","Apis mellifera","species","honeybees",1,16800,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmA","Net","Apis mellifera","species","honeybees",1,16800,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmA","Net","Apis mellifera","species","honeybees",1,16800,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmA","Net","Apis mellifera","species","honeybees",1,16800,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmA","Net","Apis mellifera","species","honeybees",1,16800,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmA","Blue pan trap","Apis mellifera","species","honeybees",1,16800,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmA","Blue pan trap","Apis mellifera","species","honeybees",1,16800,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmA","Net","Bombus hortorum","species","bumblebees",1,16800,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmA","Net","Bombus hypnorum","species","bumblebees",1,16800,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmA","Net","Bombus hypnorum","species","bumblebees",1,16800,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmA","Net","Bombus hypnorum","species","bumblebees",1,16800,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmA","Net","Bombus lapidarius","species","bumblebees",1,16800,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmA","Net","Bombus lapidarius","species","bumblebees",1,16800,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmA","Net","Bombus lapidarius","species","bumblebees",1,16800,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmA","Net","Bombus lapidarius","species","bumblebees",1,16800,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmA","Net","Bombus lapidarius","species","bumblebees",1,16800,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmA","Net","Bombus pascuorum","species","bumblebees",1,16800,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmA","Net","Bombus pascuorum","species","bumblebees",1,16800,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmA","Net","Bombus pratorum","species","bumblebees",1,16800,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmA","Net","Bombus pratorum","species","bumblebees",1,16800,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmA","Net","Bombus pratorum","species","bumblebees",1,16800,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmA","Net","Bombus pratorum","species","bumblebees",1,16800,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmA","Net","Bombus pratorum","species","bumblebees",1,16800,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmA","Net","Bombus pratorum","species","bumblebees",1,16800,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmA","Net","Bombus pratorum","species","bumblebees",1,16800,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmA","Net","Bombus pratorum","species","bumblebees",1,16800,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmA","Net","Bombus pratorum","species","bumblebees",1,16800,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmA","Net","Bombus pratorum","species","bumblebees",1,16800,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmA","Net","Bombus pratorum","species","bumblebees",1,16800,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmA","Net","Bombus pratorum","species","bumblebees",1,16800,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmA","Net","Bombus pratorum","species","bumblebees",1,16800,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmA","Net","Bombus pratorum","species","bumblebees",1,16800,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmA","Net","Bombus pratorum","species","bumblebees",1,16800,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmA","Net","Bombus pratorum","species","bumblebees",1,16800,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmA","Net","Bombus pratorum","species","bumblebees",1,16800,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmA","Net","Bombus pratorum","species","bumblebees",1,16800,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmA","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,16800,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmA","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,16800,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmA","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,16800,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmA","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,16800,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmA","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,16800,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmA","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,16800,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmA","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,16800,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmA","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,16800,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmA","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,16800,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmA","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,16800,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmA","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,16800,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmA","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,16800,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmA","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,16800,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmA","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,16800,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmA","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,16800,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmA","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,16800,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmA","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,16800,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmA","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,16800,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmA","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,16800,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmA","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,16800,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmA","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,16800,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmA","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,16800,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmA","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,16800,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmA","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,16800,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmA","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,16800,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmA","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,16800,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmA","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,16800,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmA","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,16800,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmA","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,16800,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmA","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,16800,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmA","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,16800,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmA","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,16800,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmA","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,16800,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmA","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,16800,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmA","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,16800,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmA","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,16800,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmA","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,16800,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmA","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,16800,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmA","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,16800,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmA","Net","Lasioglossum calceatum","species","other_wild_bees",1,16800,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmA","Yellow pan trap","Lasioglossum calceatum","species","other_wild_bees",1,16800,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmA","Yellow pan trap","Lasioglossum calceatum","species","other_wild_bees",1,16800,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmA","Yellow pan trap","Lasioglossum malachurum","species","other_wild_bees",1,16800,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmA","Yellow pan trap","Lasioglossum malachurum","species","other_wild_bees",1,16800,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmA","Net","Nomada flava","species","other_wild_bees",1,16800,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmA","Yellow pan trap","Nomada fucata","species","other_wild_bees",1,16800,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmA","Yellow pan trap","Nomada fulvicornis","species","other_wild_bees",1,16800,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmA","Net","Nomada goodeniana","species","other_wild_bees",1,16800,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmA","Yellow pan trap","Osmia bicornis","species","other_wild_bees",1,16800,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmA","Yellow pan trap","Osmia bicornis","species","other_wild_bees",1,16800,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmA","Net","Osmia bicornis","species","other_wild_bees",1,16800,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmA","Net","Osmia bicornis","species","other_wild_bees",1,16800,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmA","Net","Osmia bicornis","species","other_wild_bees",1,16800,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmA","Yellow pan trap","Sphecodes monilicornis","species","other_wild_bees",1,16800,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmB","Blue pan trap","Andrena angustior","species","other_wild_bees",1,1e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmB","Blue pan trap","Andrena angustior","species","other_wild_bees",1,1e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmB","Yellow pan trap","Andrena bicolor","species","other_wild_bees",1,1e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmB","Net","Andrena bicolor","species","other_wild_bees",1,1e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmB","Net","Andrena flavipes","species","other_wild_bees",1,1e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmB","Net","Andrena flavipes","species","other_wild_bees",1,1e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmB","Net","Andrena flavipes","species","other_wild_bees",1,1e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmB","Net","Andrena flavipes","species","other_wild_bees",1,1e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmB","White pan trap","Andrena flavipes","species","other_wild_bees",1,1e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmB","Net","Andrena flavipes","species","other_wild_bees",1,1e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmB","Net","Andrena flavipes","species","other_wild_bees",1,1e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmB","Net","Andrena fulva","species","other_wild_bees",1,1e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmB","Net","Andrena fulva","species","other_wild_bees",1,1e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmB","Net","Andrena haemorrhoa","species","other_wild_bees",1,1e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmB","Net","Andrena haemorrhoa","species","other_wild_bees",1,1e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmB","Net","Andrena haemorrhoa","species","other_wild_bees",1,1e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmB","Net","Andrena haemorrhoa","species","other_wild_bees",1,1e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmB","Net","Andrena haemorrhoa","species","other_wild_bees",1,1e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmB","Net","Andrena haemorrhoa","species","other_wild_bees",1,1e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmB","Net","Andrena haemorrhoa","species","other_wild_bees",1,1e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmB","Net","Andrena haemorrhoa","species","other_wild_bees",1,1e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmB","Net","Andrena haemorrhoa","species","other_wild_bees",1,1e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmB","Net","Andrena haemorrhoa","species","other_wild_bees",1,1e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmB","Net","Andrena haemorrhoa","species","other_wild_bees",1,1e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmB","Net","Andrena haemorrhoa","species","other_wild_bees",1,1e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmB","Net","Andrena haemorrhoa","species","other_wild_bees",1,1e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmB","Net","Andrena haemorrhoa","species","other_wild_bees",1,1e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmB","Net","Andrena haemorrhoa","species","other_wild_bees",1,1e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmB","Net","Andrena haemorrhoa","species","other_wild_bees",1,1e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmB","Net","Andrena haemorrhoa","species","other_wild_bees",1,1e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmB","Net","Andrena haemorrhoa","species","other_wild_bees",1,1e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmB","Yellow pan trap","Andrena minutula","species","other_wild_bees",1,1e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmB","Net","Andrena nitida","species","other_wild_bees",1,1e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmB","Net","Andrena nitida","species","other_wild_bees",1,1e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmB","Net","Andrena scotica","species","other_wild_bees",1,1e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmB","Net","Andrena scotica","species","other_wild_bees",1,1e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmB","Net","Apis mellifera","species","honeybees",1,1e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmB","Net","Apis mellifera","species","honeybees",1,1e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmB","Net","Apis mellifera","species","honeybees",1,1e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmB","Net","Apis mellifera","species","honeybees",1,1e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmB","Net","Apis mellifera","species","honeybees",1,1e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmB","Net","Apis mellifera","species","honeybees",1,1e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmB","Net","Apis mellifera","species","honeybees",1,1e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmB","Net","Apis mellifera","species","honeybees",1,1e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmB","Net","Apis mellifera","species","honeybees",1,1e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmB","Net","Apis mellifera","species","honeybees",1,1e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmB","Net","Apis mellifera","species","honeybees",1,1e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmB","Net","Apis mellifera","species","honeybees",1,1e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmB","Net","Apis mellifera","species","honeybees",1,1e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmB","Net","Apis mellifera","species","honeybees",1,1e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmB","Net","Apis mellifera","species","honeybees",1,1e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmB","Net","Apis mellifera","species","honeybees",1,1e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmB","Net","Apis mellifera","species","honeybees",1,1e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmB","Net","Apis mellifera","species","honeybees",1,1e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmB","Net","Apis mellifera","species","honeybees",1,1e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmB","Net","Apis mellifera","species","honeybees",1,1e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmB","Net","Apis mellifera","species","honeybees",1,1e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmB","Net","Apis mellifera","species","honeybees",1,1e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmB","Net","Apis mellifera","species","honeybees",1,1e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmB","Net","Apis mellifera","species","honeybees",1,1e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmB","Net","Apis mellifera","species","honeybees",1,1e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmB","Net","Apis mellifera","species","honeybees",1,1e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmB","Net","Apis mellifera","species","honeybees",1,1e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmB","Net","Apis mellifera","species","honeybees",1,1e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmB","Net","Apis mellifera","species","honeybees",1,1e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmB","Net","Apis mellifera","species","honeybees",1,1e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmB","Net","Apis mellifera","species","honeybees",1,1e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmB","Net","Apis mellifera","species","honeybees",1,1e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmB","Net","Apis mellifera","species","honeybees",1,1e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmB","Net","Apis mellifera","species","honeybees",1,1e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmB","Net","Apis mellifera","species","honeybees",1,1e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmB","Net","Apis mellifera","species","honeybees",1,1e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmB","Net","Apis mellifera","species","honeybees",1,1e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmB","Net","Apis mellifera","species","honeybees",1,1e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmB","Net","Apis mellifera","species","honeybees",1,1e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmB","Net","Apis mellifera","species","honeybees",1,1e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmB","Net","Apis mellifera","species","honeybees",1,1e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmB","Net","Apis mellifera","species","honeybees",1,1e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmB","Net","Apis mellifera","species","honeybees",1,1e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmB","Net","Apis mellifera","species","honeybees",1,1e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmB","Net","Apis mellifera","species","honeybees",1,1e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmB","Net","Apis mellifera","species","honeybees",1,1e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmB","Net","Apis mellifera","species","honeybees",1,1e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmB","Net","Apis mellifera","species","honeybees",1,1e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmB","Net","Apis mellifera","species","honeybees",1,1e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmB","Net","Apis mellifera","species","honeybees",1,1e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmB","Net","Apis mellifera","species","honeybees",1,1e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmB","Net","Apis mellifera","species","honeybees",1,1e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmB","Net","Apis mellifera","species","honeybees",1,1e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmB","Net","Apis mellifera","species","honeybees",1,1e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmB","Net","Apis mellifera","species","honeybees",1,1e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmB","Net","Apis mellifera","species","honeybees",1,1e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmB","Net","Apis mellifera","species","honeybees",1,1e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmB","Net","Apis mellifera","species","honeybees",1,1e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmB","Net","Apis mellifera","species","honeybees",1,1e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmB","Net","Apis mellifera","species","honeybees",1,1e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmB","Net","Apis mellifera","species","honeybees",1,1e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmB","Net","Apis mellifera","species","honeybees",1,1e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmB","Net","Apis mellifera","species","honeybees",1,1e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmB","Net","Apis mellifera","species","honeybees",1,1e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmB","Net","Apis mellifera","species","honeybees",1,1e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmB","Net","Apis mellifera","species","honeybees",1,1e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmB","Net","Apis mellifera","species","honeybees",1,1e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmB","Net","Apis mellifera","species","honeybees",1,1e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmB","Net","Apis mellifera","species","honeybees",1,1e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmB","Net","Apis mellifera","species","honeybees",1,1e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmB","Net","Apis mellifera","species","honeybees",1,1e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmB","Net","Apis mellifera","species","honeybees",1,1e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmB","Net","Apis mellifera","species","honeybees",1,1e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmB","Net","Apis mellifera","species","honeybees",1,1e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmB","Net","Apis mellifera","species","honeybees",1,1e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmB","Net","Apis mellifera","species","honeybees",1,1e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmB","Net","Apis mellifera","species","honeybees",1,1e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmB","Net","Apis mellifera","species","honeybees",1,1e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmB","Net","Apis mellifera","species","honeybees",1,1e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmB","Net","Apis mellifera","species","honeybees",1,1e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmB","Net","Apis mellifera","species","honeybees",1,1e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmB","Net","Apis mellifera","species","honeybees",1,1e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmB","Net","Apis mellifera","species","honeybees",1,1e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmB","Net","Apis mellifera","species","honeybees",1,1e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmB","Net","Apis mellifera","species","honeybees",1,1e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmB","Net","Apis mellifera","species","honeybees",1,1e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmB","Net","Apis mellifera","species","honeybees",1,1e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmB","Net","Apis mellifera","species","honeybees",1,1e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmB","Net","Apis mellifera","species","honeybees",1,1e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmB","Net","Apis mellifera","species","honeybees",1,1e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmB","Net","Apis mellifera","species","honeybees",1,1e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmB","Net","Apis mellifera","species","honeybees",1,1e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmB","Net","Apis mellifera","species","honeybees",1,1e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmB","Net","Apis mellifera","species","honeybees",1,1e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmB","Net","Apis mellifera","species","honeybees",1,1e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmB","Net","Apis mellifera","species","honeybees",1,1e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmB","Net","Apis mellifera","species","honeybees",1,1e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmB","Net","Apis mellifera","species","honeybees",1,1e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmB","Net","Apis mellifera","species","honeybees",1,1e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmB","Net","Apis mellifera","species","honeybees",1,1e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmB","Net","Apis mellifera","species","honeybees",1,1e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmB","Net","Apis mellifera","species","honeybees",1,1e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmB","Net","Apis mellifera","species","honeybees",1,1e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmB","Net","Apis mellifera","species","honeybees",1,1e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmB","Net","Apis mellifera","species","honeybees",1,1e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmB","Net","Apis mellifera","species","honeybees",1,1e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmB","Net","Apis mellifera","species","honeybees",1,1e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmB","Net","Apis mellifera","species","honeybees",1,1e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmB","Net","Apis mellifera","species","honeybees",1,1e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmB","Net","Apis mellifera","species","honeybees",1,1e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmB","Net","Apis mellifera","species","honeybees",1,1e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmB","Net","Apis mellifera","species","honeybees",1,1e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmB","Net","Apis mellifera","species","honeybees",1,1e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmB","Net","Apis mellifera","species","honeybees",1,1e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmB","Net","Apis mellifera","species","honeybees",1,1e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmB","Net","Apis mellifera","species","honeybees",1,1e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmB","Net","Apis mellifera","species","honeybees",1,1e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmB","Net","Apis mellifera","species","honeybees",1,1e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmB","Net","Apis mellifera","species","honeybees",1,1e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmB","Net","Apis mellifera","species","honeybees",1,1e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmB","Net","Apis mellifera","species","honeybees",1,1e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmB","Net","Apis mellifera","species","honeybees",1,1e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmB","Net","Apis mellifera","species","honeybees",1,1e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmB","Net","Apis mellifera","species","honeybees",1,1e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmB","Net","Apis mellifera","species","honeybees",1,1e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmB","Net","Apis mellifera","species","honeybees",1,1e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmB","Net","Apis mellifera","species","honeybees",1,1e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmB","Net","Apis mellifera","species","honeybees",1,1e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmB","Net","Apis mellifera","species","honeybees",1,1e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmB","Net","Apis mellifera","species","honeybees",1,1e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmB","Net","Apis mellifera","species","honeybees",1,1e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmB","Net","Apis mellifera","species","honeybees",1,1e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmB","Net","Apis mellifera","species","honeybees",1,1e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmB","Net","Apis mellifera","species","honeybees",1,1e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmB","Net","Apis mellifera","species","honeybees",1,1e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmB","Net","Apis mellifera","species","honeybees",1,1e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmB","Net","Apis mellifera","species","honeybees",1,1e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmB","Net","Apis mellifera","species","honeybees",1,1e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmB","Net","Apis mellifera","species","honeybees",1,1e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmB","Net","Apis mellifera","species","honeybees",1,1e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmB","Net","Apis mellifera","species","honeybees",1,1e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmB","Net","Apis mellifera","species","honeybees",1,1e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmB","Net","Apis mellifera","species","honeybees",1,1e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmB","Net","Apis mellifera","species","honeybees",1,1e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmB","Net","Apis mellifera","species","honeybees",1,1e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmB","Net","Apis mellifera","species","honeybees",1,1e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmB","Net","Apis mellifera","species","honeybees",1,1e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmB","Net","Apis mellifera","species","honeybees",1,1e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmB","Net","Apis mellifera","species","honeybees",1,1e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmB","Net","Apis mellifera","species","honeybees",1,1e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmB","Net","Apis mellifera","species","honeybees",1,1e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmB","Net","Apis mellifera","species","honeybees",1,1e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmB","Net","Apis mellifera","species","honeybees",1,1e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmB","Net","Apis mellifera","species","honeybees",1,1e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmB","Net","Apis mellifera","species","honeybees",1,1e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmB","Net","Apis mellifera","species","honeybees",1,1e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmB","Net","Apis mellifera","species","honeybees",1,1e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmB","Net","Apis mellifera","species","honeybees",1,1e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmB","Net","Apis mellifera","species","honeybees",1,1e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmB","Net","Apis mellifera","species","honeybees",1,1e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmB","Net","Apis mellifera","species","honeybees",1,1e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmB","Net","Apis mellifera","species","honeybees",1,1e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmB","Net","Apis mellifera","species","honeybees",1,1e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmB","Net","Apis mellifera","species","honeybees",1,1e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmB","Net","Apis mellifera","species","honeybees",1,1e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmB","Net","Apis mellifera","species","honeybees",1,1e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmB","Net","Apis mellifera","species","honeybees",1,1e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmB","Net","Apis mellifera","species","honeybees",1,1e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmB","Net","Apis mellifera","species","honeybees",1,1e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmB","Net","Apis mellifera","species","honeybees",1,1e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmB","Net","Apis mellifera","species","honeybees",1,1e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmB","Net","Apis mellifera","species","honeybees",1,1e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmB","Net","Apis mellifera","species","honeybees",1,1e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmB","Net","Apis mellifera","species","honeybees",1,1e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmB","Net","Apis mellifera","species","honeybees",1,1e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmB","Net","Apis mellifera","species","honeybees",1,1e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmB","Net","Apis mellifera","species","honeybees",1,1e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmB","Net","Apis mellifera","species","honeybees",1,1e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmB","Net","Apis mellifera","species","honeybees",1,1e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmB","Net","Apis mellifera","species","honeybees",1,1e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmB","Net","Apis mellifera","species","honeybees",1,1e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmB","Net","Apis mellifera","species","honeybees",1,1e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmB","Net","Apis mellifera","species","honeybees",1,1e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmB","Net","Apis mellifera","species","honeybees",1,1e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmB","Net","Apis mellifera","species","honeybees",1,1e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmB","Net","Apis mellifera","species","honeybees",1,1e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmB","Net","Apis mellifera","species","honeybees",1,1e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmB","Net","Apis mellifera","species","honeybees",1,1e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmB","Net","Apis mellifera","species","honeybees",1,1e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmB","Net","Apis mellifera","species","honeybees",1,1e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmB","Net","Apis mellifera","species","honeybees",1,1e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmB","Net","Apis mellifera","species","honeybees",1,1e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmB","Net","Apis mellifera","species","honeybees",1,1e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmB","Net","Apis mellifera","species","honeybees",1,1e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmB","Net","Apis mellifera","species","honeybees",1,1e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmB","Net","Apis mellifera","species","honeybees",1,1e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmB","Net","Apis mellifera","species","honeybees",1,1e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmB","Net","Apis mellifera","species","honeybees",1,1e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmB","Net","Apis mellifera","species","honeybees",1,1e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmB","Net","Apis mellifera","species","honeybees",1,1e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmB","Net","Apis mellifera","species","honeybees",1,1e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmB","Net","Apis mellifera","species","honeybees",1,1e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmB","Net","Apis mellifera","species","honeybees",1,1e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmB","Net","Apis mellifera","species","honeybees",1,1e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmB","Net","Apis mellifera","species","honeybees",1,1e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmB","Net","Apis mellifera","species","honeybees",1,1e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmB","Net","Apis mellifera","species","honeybees",1,1e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmB","Net","Apis mellifera","species","honeybees",1,1e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmB","Net","Apis mellifera","species","honeybees",1,1e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmB","Net","Apis mellifera","species","honeybees",1,1e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmB","Net","Apis mellifera","species","honeybees",1,1e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmB","Net","Apis mellifera","species","honeybees",1,1e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmB","Net","Apis mellifera","species","honeybees",1,1e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmB","Net","Apis mellifera","species","honeybees",1,1e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmB","Net","Apis mellifera","species","honeybees",1,1e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmB","Net","Apis mellifera","species","honeybees",1,1e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmB","Net","Apis mellifera","species","honeybees",1,1e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmB","Net","Apis mellifera","species","honeybees",1,1e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmB","Net","Apis mellifera","species","honeybees",1,1e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmB","Net","Apis mellifera","species","honeybees",1,1e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmB","Net","Apis mellifera","species","honeybees",1,1e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmB","Net","Apis mellifera","species","honeybees",1,1e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmB","Net","Apis mellifera","species","honeybees",1,1e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmB","Net","Apis mellifera","species","honeybees",1,1e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmB","Net","Apis mellifera","species","honeybees",1,1e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmB","Net","Apis mellifera","species","honeybees",1,1e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmB","Net","Apis mellifera","species","honeybees",1,1e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmB","Net","Apis mellifera","species","honeybees",1,1e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmB","Net","Apis mellifera","species","honeybees",1,1e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmB","Net","Apis mellifera","species","honeybees",1,1e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmB","Net","Apis mellifera","species","honeybees",1,1e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmB","Net","Apis mellifera","species","honeybees",1,1e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmB","Net","Apis mellifera","species","honeybees",1,1e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmB","Net","Apis mellifera","species","honeybees",1,1e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmB","Net","Apis mellifera","species","honeybees",1,1e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmB","Net","Apis mellifera","species","honeybees",1,1e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmB","Net","Apis mellifera","species","honeybees",1,1e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmB","Net","Apis mellifera","species","honeybees",1,1e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmB","Net","Apis mellifera","species","honeybees",1,1e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmB","Net","Apis mellifera","species","honeybees",1,1e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmB","Net","Apis mellifera","species","honeybees",1,1e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmB","Net","Apis mellifera","species","honeybees",1,1e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmB","Net","Apis mellifera","species","honeybees",1,1e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmB","Net","Apis mellifera","species","honeybees",1,1e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmB","Net","Apis mellifera","species","honeybees",1,1e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmB","Net","Apis mellifera","species","honeybees",1,1e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmB","Net","Apis mellifera","species","honeybees",1,1e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmB","Net","Apis mellifera","species","honeybees",1,1e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmB","Net","Apis mellifera","species","honeybees",1,1e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmB","Net","Apis mellifera","species","honeybees",1,1e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmB","Net","Apis mellifera","species","honeybees",1,1e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmB","Net","Apis mellifera","species","honeybees",1,1e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmB","Net","Apis mellifera","species","honeybees",1,1e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmB","Net","Apis mellifera","species","honeybees",1,1e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmB","Net","Apis mellifera","species","honeybees",1,1e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmB","Net","Apis mellifera","species","honeybees",1,1e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmB","Net","Apis mellifera","species","honeybees",1,1e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmB","Net","Apis mellifera","species","honeybees",1,1e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmB","Net","Apis mellifera","species","honeybees",1,1e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmB","Net","Apis mellifera","species","honeybees",1,1e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmB","Net","Apis mellifera","species","honeybees",1,1e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmB","Net","Apis mellifera","species","honeybees",1,1e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmB","Net","Apis mellifera","species","honeybees",1,1e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmB","Net","Apis mellifera","species","honeybees",1,1e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmB","Net","Apis mellifera","species","honeybees",1,1e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmB","Net","Apis mellifera","species","honeybees",1,1e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmB","Net","Apis mellifera","species","honeybees",1,1e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmB","Net","Apis mellifera","species","honeybees",1,1e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmB","Net","Apis mellifera","species","honeybees",1,1e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmB","Net","Apis mellifera","species","honeybees",1,1e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmB","Net","Apis mellifera","species","honeybees",1,1e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmB","Net","Apis mellifera","species","honeybees",1,1e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmB","Net","Apis mellifera","species","honeybees",1,1e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmB","Net","Apis mellifera","species","honeybees",1,1e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmB","Net","Apis mellifera","species","honeybees",1,1e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmB","Net","Apis mellifera","species","honeybees",1,1e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmB","Net","Apis mellifera","species","honeybees",1,1e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmB","Net","Apis mellifera","species","honeybees",1,1e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmB","Net","Apis mellifera","species","honeybees",1,1e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmB","Net","Apis mellifera","species","honeybees",1,1e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmB","Net","Apis mellifera","species","honeybees",1,1e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmB","Net","Apis mellifera","species","honeybees",1,1e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmB","Net","Apis mellifera","species","honeybees",1,1e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmB","Net","Apis mellifera","species","honeybees",1,1e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmB","Net","Apis mellifera","species","honeybees",1,1e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmB","Net","Apis mellifera","species","honeybees",1,1e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmB","Net","Apis mellifera","species","honeybees",1,1e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmB","Net","Apis mellifera","species","honeybees",1,1e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmB","Net","Apis mellifera","species","honeybees",1,1e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmB","Net","Apis mellifera","species","honeybees",1,1e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmB","Net","Apis mellifera","species","honeybees",1,1e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmB","Net","Apis mellifera","species","honeybees",1,1e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmB","Net","Apis mellifera","species","honeybees",1,1e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmB","Net","Apis mellifera","species","honeybees",1,1e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmB","Net","Apis mellifera","species","honeybees",1,1e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmB","Net","Apis mellifera","species","honeybees",1,1e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmB","Net","Apis mellifera","species","honeybees",1,1e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmB","Net","Apis mellifera","species","honeybees",1,1e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmB","Net","Apis mellifera","species","honeybees",1,1e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmB","Net","Apis mellifera","species","honeybees",1,1e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmB","Net","Apis mellifera","species","honeybees",1,1e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmB","Net","Apis mellifera","species","honeybees",1,1e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmB","Net","Apis mellifera","species","honeybees",1,1e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmB","Net","Apis mellifera","species","honeybees",1,1e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmB","Net","Apis mellifera","species","honeybees",1,1e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmB","Net","Apis mellifera","species","honeybees",1,1e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmB","Net","Apis mellifera","species","honeybees",1,1e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmB","Net","Bombus hypnorum","species","bumblebees",1,1e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmB","Yellow pan trap","Bombus hypnorum","species","bumblebees",1,1e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmB","Net","Bombus hypnorum","species","bumblebees",1,1e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmB","Net","Bombus hypnorum","species","bumblebees",1,1e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmB","Net","Bombus lapidarius","species","bumblebees",1,1e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmB","Net","Bombus lapidarius","species","bumblebees",1,1e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmB","Net","Bombus pascuorum","species","bumblebees",1,1e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmB","Net","Bombus pascuorum","species","bumblebees",1,1e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmB","Net","Bombus pascuorum","species","bumblebees",1,1e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmB","Net","Bombus pratorum","species","bumblebees",1,1e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmB","Net","Bombus pratorum","species","bumblebees",1,1e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmB","Net","Bombus pratorum","species","bumblebees",1,1e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmB","Net","Bombus pratorum","species","bumblebees",1,1e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmB","Net","Bombus pratorum","species","bumblebees",1,1e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmB","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,1e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmB","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,1e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmB","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,1e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmB","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,1e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmB","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,1e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmB","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,1e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmB","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,1e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmB","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,1e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmB","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,1e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmB","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,1e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmB","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,1e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmB","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,1e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmB","Net","Bombus terrestris_agg.","group of both Bombus terrestris and Bombus lucorum specimens","bumblebees",1,1e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmB","Yellow pan trap","Lasioglossum minutissimum","species","other_wild_bees",1,1e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmB","Yellow pan trap","Lasioglossum minutissimum","species","other_wild_bees",1,1e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmB","Yellow pan trap","Lasioglossum minutissimum","species","other_wild_bees",1,1e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmB","Yellow pan trap","Lasioglossum minutissimum","species","other_wild_bees",1,1e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmB","Yellow pan trap","Lasioglossum parvulum","species","other_wild_bees",1,1e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmB","Yellow pan trap","Lasioglossum parvulum","species","other_wild_bees",1,1e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmB","White pan trap","Lasioglossum parvulum","species","other_wild_bees",1,1e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmB","Net","Nomada marshamella","species","other_wild_bees",1,1e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Timothy_Weekers_Malus_domestica_UK_2019","UK FarmB","Yellow pan trap","Seladonia tumulora","species","other_wild_bees",1,1e+05,540,NA,"Each site was sampled for three consecutive days during the peak blooming period, using a standardized protocol combining active (netting) and passive (pan traps) collection methods. Each day, active sampling from apple blossoms allowed surveying the bee community directly associated with the crop, starting at a random point and then following the orchard lanes during two periods of 90 minutes. The passive sampling was deployed on cleared ground using trios of painted pan traps (fluorescent blue, fluorescent yellow, white), (i.e., nine pan traps in total with three pan traps of each color, set for the day and collected late afternoon) filled with soapy water.",NA
"Willis_Chan_Raine_Cucurbita_pepo_Canada_2017","1A","count of bees in enclosure","Eucera pruinosa","species","other_wild_bees",8,29.28,NA,NA,"Data are from acorn squash plants grown in netted hoophouse enclosures (varieties: Table Star in 2017, Celebration in 2018). We introduced 8 mated female squash bees into each of these netted hoophouses in 2017 and followed the behaviour and reproductive output of these females. The surviving offspring of the 8 female bees from 2017 were the bees that visited the crops in the same hoophouse in 2018. Total number of bees in the enclosure were counted at the end of the flowering season. This includes males and females.","Be aware that yield differences are common among squash varieties and can be quite large.  Also, Cucurbita crops have an intrinsic pysiological limit on fruit set of about 50%.  We planted 28 squash plants in each enclosure."
"Willis_Chan_Raine_Cucurbita_pepo_Canada_2017","1B","count of bees in enclosure","Eucera pruinosa","species","other_wild_bees",8,29.28,NA,NA,"Data are from acorn squash plants grown in netted hoophouse enclosures (varieties: Table Star in 2017, Celebration in 2018). We introduced 8 mated female squash bees into each of these netted hoophouses in 2017 and followed the behaviour and reproductive output of these females. The surviving offspring of the 8 female bees from 2017 were the bees that visited the crops in the same hoophouse in 2018. Total number of bees in the enclosure were counted at the end of the flowering season. This includes males and females.","Be aware that yield differences are common among squash varieties and can be quite large.  Also, Cucurbita crops have an intrinsic pysiological limit on fruit set of about 50%.  We planted 28 squash plants in each enclosure."
"Willis_Chan_Raine_Cucurbita_pepo_Canada_2017","1C","count of bees in enclosure","Eucera pruinosa","species","other_wild_bees",8,29.28,NA,NA,"Data are from acorn squash plants grown in netted hoophouse enclosures (varieties: Table Star in 2017, Celebration in 2018). We introduced 8 mated female squash bees into each of these netted hoophouses in 2017 and followed the behaviour and reproductive output of these females. The surviving offspring of the 8 female bees from 2017 were the bees that visited the crops in the same hoophouse in 2018. Total number of bees in the enclosure were counted at the end of the flowering season. This includes males and females.","Be aware that yield differences are common among squash varieties and can be quite large.  Also, Cucurbita crops have an intrinsic pysiological limit on fruit set of about 50%.  We planted 28 squash plants in each enclosure."
"Willis_Chan_Raine_Cucurbita_pepo_Canada_2017","2A","count of bees in enclosure","Eucera pruinosa","species","other_wild_bees",8,29.28,NA,NA,"Data are from acorn squash plants grown in netted hoophouse enclosures (varieties: Table Star in 2017, Celebration in 2018). We introduced 8 mated female squash bees into each of these netted hoophouses in 2017 and followed the behaviour and reproductive output of these females. The surviving offspring of the 8 female bees from 2017 were the bees that visited the crops in the same hoophouse in 2018. Total number of bees in the enclosure were counted at the end of the flowering season. This includes males and females.","Be aware that yield differences are common among squash varieties and can be quite large.  Also, Cucurbita crops have an intrinsic pysiological limit on fruit set of about 50%.  We planted 28 squash plants in each enclosure."
"Willis_Chan_Raine_Cucurbita_pepo_Canada_2017","2B","count of bees in enclosure","Eucera pruinosa","species","other_wild_bees",8,29.28,NA,NA,"Data are from acorn squash plants grown in netted hoophouse enclosures (varieties: Table Star in 2017, Celebration in 2018). We introduced 8 mated female squash bees into each of these netted hoophouses in 2017 and followed the behaviour and reproductive output of these females. The surviving offspring of the 8 female bees from 2017 were the bees that visited the crops in the same hoophouse in 2018. Total number of bees in the enclosure were counted at the end of the flowering season. This includes males and females.","Be aware that yield differences are common among squash varieties and can be quite large.  Also, Cucurbita crops have an intrinsic pysiological limit on fruit set of about 50%.  We planted 28 squash plants in each enclosure."
"Willis_Chan_Raine_Cucurbita_pepo_Canada_2017","2C","count of bees in enclosure","Eucera pruinosa","species","other_wild_bees",8,29.28,NA,NA,"Data are from acorn squash plants grown in netted hoophouse enclosures (varieties: Table Star in 2017, Celebration in 2018). We introduced 8 mated female squash bees into each of these netted hoophouses in 2017 and followed the behaviour and reproductive output of these females. The surviving offspring of the 8 female bees from 2017 were the bees that visited the crops in the same hoophouse in 2018. Total number of bees in the enclosure were counted at the end of the flowering season. This includes males and females.","Be aware that yield differences are common among squash varieties and can be quite large.  Also, Cucurbita crops have an intrinsic pysiological limit on fruit set of about 50%.  We planted 28 squash plants in each enclosure."
"Willis_Chan_Raine_Cucurbita_pepo_Canada_2017","3A","count of bees in enclosure","Eucera pruinosa","species","other_wild_bees",8,29.28,NA,NA,"Data are from acorn squash plants grown in netted hoophouse enclosures (varieties: Table Star in 2017, Celebration in 2018). We introduced 8 mated female squash bees into each of these netted hoophouses in 2017 and followed the behaviour and reproductive output of these females. The surviving offspring of the 8 female bees from 2017 were the bees that visited the crops in the same hoophouse in 2018. Total number of bees in the enclosure were counted at the end of the flowering season. This includes males and females.","Be aware that yield differences are common among squash varieties and can be quite large.  Also, Cucurbita crops have an intrinsic pysiological limit on fruit set of about 50%.  We planted 28 squash plants in each enclosure."
"Willis_Chan_Raine_Cucurbita_pepo_Canada_2017","3B","count of bees in enclosure","Eucera pruinosa","species","other_wild_bees",8,29.28,NA,NA,"Data are from acorn squash plants grown in netted hoophouse enclosures (varieties: Table Star in 2017, Celebration in 2018). We introduced 8 mated female squash bees into each of these netted hoophouses in 2017 and followed the behaviour and reproductive output of these females. The surviving offspring of the 8 female bees from 2017 were the bees that visited the crops in the same hoophouse in 2018. Total number of bees in the enclosure were counted at the end of the flowering season. This includes males and females.","Be aware that yield differences are common among squash varieties and can be quite large.  Also, Cucurbita crops have an intrinsic pysiological limit on fruit set of about 50%.  We planted 28 squash plants in each enclosure."
"Willis_Chan_Raine_Cucurbita_pepo_Canada_2017","3C","count of bees in enclosure","Eucera pruinosa","species","other_wild_bees",8,29.28,NA,NA,"Data are from acorn squash plants grown in netted hoophouse enclosures (varieties: Table Star in 2017, Celebration in 2018). We introduced 8 mated female squash bees into each of these netted hoophouses in 2017 and followed the behaviour and reproductive output of these females. The surviving offspring of the 8 female bees from 2017 were the bees that visited the crops in the same hoophouse in 2018. Total number of bees in the enclosure were counted at the end of the flowering season. This includes males and females.","Be aware that yield differences are common among squash varieties and can be quite large.  Also, Cucurbita crops have an intrinsic pysiological limit on fruit set of about 50%.  We planted 28 squash plants in each enclosure."
"Willis_Chan_Raine_Cucurbita_pepo_Canada_2017","4A","count of bees in enclosure","Eucera pruinosa","species","other_wild_bees",8,29.28,NA,NA,"Data are from acorn squash plants grown in netted hoophouse enclosures (varieties: Table Star in 2017, Celebration in 2018). We introduced 8 mated female squash bees into each of these netted hoophouses in 2017 and followed the behaviour and reproductive output of these females. The surviving offspring of the 8 female bees from 2017 were the bees that visited the crops in the same hoophouse in 2018. Total number of bees in the enclosure were counted at the end of the flowering season. This includes males and females.","Be aware that yield differences are common among squash varieties and can be quite large.  Also, Cucurbita crops have an intrinsic pysiological limit on fruit set of about 50%.  We planted 28 squash plants in each enclosure."
"Willis_Chan_Raine_Cucurbita_pepo_Canada_2017","4B","count of bees in enclosure","Eucera pruinosa","species","other_wild_bees",8,29.28,NA,NA,"Data are from acorn squash plants grown in netted hoophouse enclosures (varieties: Table Star in 2017, Celebration in 2018). We introduced 8 mated female squash bees into each of these netted hoophouses in 2017 and followed the behaviour and reproductive output of these females. The surviving offspring of the 8 female bees from 2017 were the bees that visited the crops in the same hoophouse in 2018. Total number of bees in the enclosure were counted at the end of the flowering season. This includes males and females.","Be aware that yield differences are common among squash varieties and can be quite large.  Also, Cucurbita crops have an intrinsic pysiological limit on fruit set of about 50%.  We planted 28 squash plants in each enclosure."
"Willis_Chan_Raine_Cucurbita_pepo_Canada_2017","4C","count of bees in enclosure","Eucera pruinosa","species","other_wild_bees",8,29.28,NA,NA,"Data are from acorn squash plants grown in netted hoophouse enclosures (varieties: Table Star in 2017, Celebration in 2018). We introduced 8 mated female squash bees into each of these netted hoophouses in 2017 and followed the behaviour and reproductive output of these females. The surviving offspring of the 8 female bees from 2017 were the bees that visited the crops in the same hoophouse in 2018. Total number of bees in the enclosure were counted at the end of the flowering season. This includes males and females.","Be aware that yield differences are common among squash varieties and can be quite large.  Also, Cucurbita crops have an intrinsic pysiological limit on fruit set of about 50%.  We planted 28 squash plants in each enclosure."
"Willis_Chan_Raine_Cucurbita_pepo_Canada_2017","1A","bees counted at end of season in enclosure","Eucera pruinosa","species","other_wild_bees",3,29.28,NA,NA,"Data are from acorn squash plants grown in netted hoophouse enclosures (varieties: Table Star in 2017, Celebration in 2018). We introduced 8 mated female squash bees into each of these netted hoophouses in 2017 and followed the behaviour and reproductive output of these females. The surviving offspring of the 8 female bees from 2017 were the bees that visited the crops in the same hoophouse in 2018. Total number of bees in the enclosure were counted at the end of the flowering season. This includes males and females.","Be aware that yield differences are common among squash varieties and can be quite large.  Also, Cucurbita crops have an intrinsic pysiological limit on fruit set of about 50%.  We planted 28 squash plants in each enclosure."
"Willis_Chan_Raine_Cucurbita_pepo_Canada_2018","1B","bees counted at end of season in enclosure","Eucera pruinosa","species","other_wild_bees",22,29.28,NA,NA,"Data are from acorn squash plants grown in netted hoophouse enclosures (varieties: Table Star in 2017, Celebration in 2018). We introduced 8 mated female squash bees into each of these netted hoophouses in 2017 and followed the behaviour and reproductive output of these females. The surviving offspring of the 8 female bees from 2017 were the bees that visited the crops in the same hoophouse in 2018. Total number of bees in the enclosure were counted at the end of the flowering season. This includes males and females.","Be aware that yield differences are common among squash varieties and can be quite large.  Also, Cucurbita crops have an intrinsic pysiological limit on fruit set of about 50%.  We planted 28 squash plants in each enclosure."
"Willis_Chan_Raine_Cucurbita_pepo_Canada_2018","1C","bees counted at end of season in enclosure","Eucera pruinosa","species","other_wild_bees",17,29.28,NA,NA,"Data are from acorn squash plants grown in netted hoophouse enclosures (varieties: Table Star in 2017, Celebration in 2018). We introduced 8 mated female squash bees into each of these netted hoophouses in 2017 and followed the behaviour and reproductive output of these females. The surviving offspring of the 8 female bees from 2017 were the bees that visited the crops in the same hoophouse in 2018. Total number of bees in the enclosure were counted at the end of the flowering season. This includes males and females.","Be aware that yield differences are common among squash varieties and can be quite large.  Also, Cucurbita crops have an intrinsic pysiological limit on fruit set of about 50%.  We planted 28 squash plants in each enclosure."
"Willis_Chan_Raine_Cucurbita_pepo_Canada_2018","2A","bees counted at end of season in enclosure","Eucera pruinosa","species","other_wild_bees",5,29.28,NA,NA,"Data are from acorn squash plants grown in netted hoophouse enclosures (varieties: Table Star in 2017, Celebration in 2018). We introduced 8 mated female squash bees into each of these netted hoophouses in 2017 and followed the behaviour and reproductive output of these females. The surviving offspring of the 8 female bees from 2017 were the bees that visited the crops in the same hoophouse in 2018. Total number of bees in the enclosure were counted at the end of the flowering season. This includes males and females.","Be aware that yield differences are common among squash varieties and can be quite large.  Also, Cucurbita crops have an intrinsic pysiological limit on fruit set of about 50%.  We planted 28 squash plants in each enclosure."
"Willis_Chan_Raine_Cucurbita_pepo_Canada_2018","2B","bees counted at end of season in enclosure","Eucera pruinosa","species","other_wild_bees",13,29.28,NA,NA,"Data are from acorn squash plants grown in netted hoophouse enclosures (varieties: Table Star in 2017, Celebration in 2018). We introduced 8 mated female squash bees into each of these netted hoophouses in 2017 and followed the behaviour and reproductive output of these females. The surviving offspring of the 8 female bees from 2017 were the bees that visited the crops in the same hoophouse in 2018. Total number of bees in the enclosure were counted at the end of the flowering season. This includes males and females.","Be aware that yield differences are common among squash varieties and can be quite large.  Also, Cucurbita crops have an intrinsic pysiological limit on fruit set of about 50%.  We planted 28 squash plants in each enclosure."
"Willis_Chan_Raine_Cucurbita_pepo_Canada_2018","2C","bees counted at end of season in enclosure","Eucera pruinosa","species","other_wild_bees",30,29.28,NA,NA,"Data are from acorn squash plants grown in netted hoophouse enclosures (varieties: Table Star in 2017, Celebration in 2018). We introduced 8 mated female squash bees into each of these netted hoophouses in 2017 and followed the behaviour and reproductive output of these females. The surviving offspring of the 8 female bees from 2017 were the bees that visited the crops in the same hoophouse in 2018. Total number of bees in the enclosure were counted at the end of the flowering season. This includes males and females.","Be aware that yield differences are common among squash varieties and can be quite large.  Also, Cucurbita crops have an intrinsic pysiological limit on fruit set of about 50%.  We planted 28 squash plants in each enclosure."
"Willis_Chan_Raine_Cucurbita_pepo_Canada_2018","3A","bees counted at end of season in enclosure","Eucera pruinosa","species","other_wild_bees",24,29.28,NA,NA,"Data are from acorn squash plants grown in netted hoophouse enclosures (varieties: Table Star in 2017, Celebration in 2018). We introduced 8 mated female squash bees into each of these netted hoophouses in 2017 and followed the behaviour and reproductive output of these females. The surviving offspring of the 8 female bees from 2017 were the bees that visited the crops in the same hoophouse in 2018. Total number of bees in the enclosure were counted at the end of the flowering season. This includes males and females.","Be aware that yield differences are common among squash varieties and can be quite large.  Also, Cucurbita crops have an intrinsic pysiological limit on fruit set of about 50%.  We planted 28 squash plants in each enclosure."
"Willis_Chan_Raine_Cucurbita_pepo_Canada_2018","3B","bees counted at end of season in enclosure","Eucera pruinosa","species","other_wild_bees",17,29.28,NA,NA,"Data are from acorn squash plants grown in netted hoophouse enclosures (varieties: Table Star in 2017, Celebration in 2018). We introduced 8 mated female squash bees into each of these netted hoophouses in 2017 and followed the behaviour and reproductive output of these females. The surviving offspring of the 8 female bees from 2017 were the bees that visited the crops in the same hoophouse in 2018. Total number of bees in the enclosure were counted at the end of the flowering season. This includes males and females.","Be aware that yield differences are common among squash varieties and can be quite large.  Also, Cucurbita crops have an intrinsic pysiological limit on fruit set of about 50%.  We planted 28 squash plants in each enclosure."
"Willis_Chan_Raine_Cucurbita_pepo_Canada_2018","3C","bees counted at end of season in enclosure","Eucera pruinosa","species","other_wild_bees",6,29.28,NA,NA,"Data are from acorn squash plants grown in netted hoophouse enclosures (varieties: Table Star in 2017, Celebration in 2018). We introduced 8 mated female squash bees into each of these netted hoophouses in 2017 and followed the behaviour and reproductive output of these females. The surviving offspring of the 8 female bees from 2017 were the bees that visited the crops in the same hoophouse in 2018. Total number of bees in the enclosure were counted at the end of the flowering season. This includes males and females.","Be aware that yield differences are common among squash varieties and can be quite large.  Also, Cucurbita crops have an intrinsic pysiological limit on fruit set of about 50%.  We planted 28 squash plants in each enclosure."
"Willis_Chan_Raine_Cucurbita_pepo_Canada_2018","4A","bees counted at end of season in enclosure","Eucera pruinosa","species","other_wild_bees",18,29.28,NA,NA,"Data are from acorn squash plants grown in netted hoophouse enclosures (varieties: Table Star in 2017, Celebration in 2018). We introduced 8 mated female squash bees into each of these netted hoophouses in 2017 and followed the behaviour and reproductive output of these females. The surviving offspring of the 8 female bees from 2017 were the bees that visited the crops in the same hoophouse in 2018. Total number of bees in the enclosure were counted at the end of the flowering season. This includes males and females.","Be aware that yield differences are common among squash varieties and can be quite large.  Also, Cucurbita crops have an intrinsic pysiological limit on fruit set of about 50%.  We planted 28 squash plants in each enclosure."
"Willis_Chan_Raine_Cucurbita_pepo_Canada_2018","4B","bees counted at end of season in enclosure","Eucera pruinosa","species","other_wild_bees",1,29.28,NA,NA,"Data are from acorn squash plants grown in netted hoophouse enclosures (varieties: Table Star in 2017, Celebration in 2018). We introduced 8 mated female squash bees into each of these netted hoophouses in 2017 and followed the behaviour and reproductive output of these females. The surviving offspring of the 8 female bees from 2017 were the bees that visited the crops in the same hoophouse in 2018. Total number of bees in the enclosure were counted at the end of the flowering season. This includes males and females.","Be aware that yield differences are common among squash varieties and can be quite large.  Also, Cucurbita crops have an intrinsic pysiological limit on fruit set of about 50%.  We planted 28 squash plants in each enclosure."
"Willis_Chan_Raine_Cucurbita_pepo_Canada_2018","4C","bees counted at end of season in enclosure","Eucera pruinosa","species","other_wild_bees",42,29.28,NA,NA,"Data are from acorn squash plants grown in netted hoophouse enclosures (varieties: Table Star in 2017, Celebration in 2018). We introduced 8 mated female squash bees into each of these netted hoophouses in 2017 and followed the behaviour and reproductive output of these females. The surviving offspring of the 8 female bees from 2017 were the bees that visited the crops in the same hoophouse in 2018. Total number of bees in the enclosure were counted at the end of the flowering season. This includes males and females.","Be aware that yield differences are common among squash varieties and can be quite large.  Also, Cucurbita crops have an intrinsic pysiological limit on fruit set of about 50%.  We planted 28 squash plants in each enclosure."
